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SIP-DECT OM System Manual ADMINISTRATION GUIDE Release 8.0 NOTICE The information contained in this document is believed to be accurate in all respects but is not warranted by Mitel Networks Corporation (MITEL). The information is subject to change without notice and should not be construed in any way as a commitment by Mitel or any of its affiliates or subsidiaries. Mitel and its affiliates and subsidiaries assume no responsibility for any errors or omissions in this document. Revisions of this document or new editions of it may be issued to incorporate such changes. No part of this document can be reproduced or transmitted in any form or by any means - electronic or mechanical
- for any purpose without written permission from Mitel Networks Corporation. TRADEMARKS The trademarks, service marks, logos and graphics (collectively "Trademarks") appearing on Mitel's Internet sites or in its publications are registered and unregistered trademarks of Mitel Networks Corporation (MNC) or its subsidiaries (collectively "Mitel") or others. Use of the Trademarks is prohibited without the express consent from Mitel. Please contact our legal department at legal@mitel.com for additional information. For a list of the worldwide Mitel Networks Corporation registered trademarks, please refer to the website: http://www.mitel.com/trademarks. Mitels Power Over Ethernet (PoE) Powered Device (PD) products are covered by one or more of the U.S. patents
(and any foreign patent counterparts thereto) identified at Mitels website: www.mitel.com/patents. For more information on the PD patents that are licensed, please refer to www.cmspatents.com. SIP-DECT OM System Manual Administration Guide Release 8.0 - September 2018
, Trademark of Mitel Networks Corporation Copyright 2018 Mitel Networks Corporation All rights reserved CONTENTS 1 Overview..........................................................................................................................................................10 DECT Base Station Families About the OpenMobility Manager The SIP-DECT Solution About DECT Base Stations 1.1 1.2 1.2.1 1.2.2 OpenMobility Manager (OMM) Mode 1.3 1.3.1 OMM Tasks 1.3.2 1.3.3 OMM Capacities and Features 1.3.4 OMM Capacities and RFP Support 1.4 1.5 1.6 About DECT Phones File naming conventions Login and passwords SIP-DECT Special Features and Capabilities 10 11 11 16 16 16 17 18 18 19 19 20 2 Enhanced Feature Overview .........................................................................................................................21 Clustering and paging areas RFP4G reset to factory defaults DECT base station synchronization DECT base station Reset to Factory Settings DECT enhanced security VoIP encryption PC-based OMM installation DECT XQ 802.11i: WPA2-Enterprise Pre-Authentication for fast Roaming Channel Configuration Feedback for HT40 and tx Power Channel Configuration Feedback for HT80 2.1 2.2 2.3 Wideband (CAT-iq 1.0 / Mitel Hi-Q audio technology) 2.4 2.5 2.6 Mixed DECT base station installations 2.7 Wireless LAN (WLAN) 2.7.1 2.7.2 2.7.3 2.8 2.8.1 2.9 2.9.1 2.10 System redundancy 2.10.1 OMM standby 2.10.2 Backup SIP proxy/registrar 2.10.3 Configurable User Account for Standby Check 2.10.4 User data synchronization (MiVoice 5000 dual homing support) 2.10.5 Multi-OMM Manager for OMM-centralized management 2.11 Simplified licensing 2.12 Extended regulatory domain support 2.13 DECT phone functionality 2.13.1 DECT Phone Download over Air 2.13.2 Central DECT Phone Configuration Over Air (CoA) 2.13.3 OMM DECT phone provisioning 2.13.4 Mitel 600 DECT Phone Dial Editor Mode 2.13.5 Mitel 602 DECT Phone Customizable Boot Texts 2.13.6 OMM-Centralized call logs 2.13.7 User individual DECT Phone PIN Key Lock 2.14 Hot Desking 2.15 Conferencing 2.15.1 Conferencing audio notification 2.15.2 Centralized conferencing with MiVoice Business 2.15.3 N-WAY CONFERENCING 2.16 SIP over UDP/TCP/TLS 2.17 SIP multiport 2.18 UTF-8 encoding 2.19 Alphanumeric dialing 2.20 Voice mail number 2.21 Call handling 2.21.1 Diversion indication 2.21.2 Call completed elsewhere iii 21 21 22 22 23 23 23 23 24 24 24 24 25 25 26 26 26 26 26 27 27 27 28 28 29 30 30 30 30 30 31 31 32 32 32 33 33 34 34 35 35 35 36 2.21.3 Semi-Attended Transfer 2.21.4 Third Line Handling for Mitel 142d and 600 DECT Phones 2.21.5 Call Transfer Enhancements for Mitel 142d DECT phones 2.22 Truncating SIP User Name in SIP URI 2.23 OM Locating application 2.24 Extended messaging 2.25 Video support 2.25.1 USB Video Devices 2.25.2 Terminal Video 2.26 User monitoring 2.27 Corporate directory integration 2.28 Integration into external management systems 2.29 System configuration tools 2.30 SIP enhancements 2.30.1 Globally Routable User-Agent URIs (GRUUs) 2.30.2 Session timer 2.30.3 SIP Contact matching 2.30.4 Configurable Call reject state codes 2.30.5 Call release timers 2.30.6 Incoming call timeout 2.30.7 Call reject on silent charging 2.30.8 route header 2.30.9 MWI SUBSCRIPTION period 2.31 Auto answer, intercom calls and audio settings 2.31.1 Intercom Calls 2.31.2 Auto answer audio settings 2.32 SIP-DECT XML terminal interface 2.32.1 Feature Access Codes Translation 2.32.2 Ring Tone Selection for (Alarm) Messages 2.33 Software Update Dispersion 36 36 37 38 38 38 38 39 39 40 41 41 41 42 42 42 42 43 43 43 43 43 43 44 44 45 45 45 46 46 3 Licensing .........................................................................................................................................................47 Licensing Model System Licenses About G.729 Channels PARK Service Upgrade License 3.1 3.1.1 3.1.2 3.1.3 3.1.4 3.1.5 Grace Period 3.1.6 3.2 3.3 3.3.1 3.3.2 Medium or Large System Uploading a License File License Models Small System (Unlicensed) License Violations and Restrictions 47 47 48 48 49 49 50 50 51 51 51 4 Getting Started................................................................................................................................................53 4.1 4.2 4.3 4.4 4.5 4.6 4.6.1 Base Station Startup Configuration System Configuration System Settings Base Stations SIP settings DECT Phones DECT Phone and SIP state verification 53 53 54 54 55 56 57 5 OMM Web Service...........................................................................................................................................59 5.1 5.2 5.3 5.4 5.4.1 5.4.2 5.4.3 Login Logout Status Menu System Menu System Settings Menu Provisioning Menu SIP Menu iv 59 60 60 61 61 68 71 Sites Menu DECT Phones Menu Base Stations Menu Base Station States Creating a New Site Editing a Site Deleting a Site User administration Menu Time zones Menu SNMP Menu DB management Menu Event log Menu 5.4.4 5.4.5 5.4.6 5.4.7 5.4.8 5.5 5.5.1 5.5.2 5.5.3 5.6 5.6.1 5.6.2 OMM / RFP Software Version Check Creating and Changing Base Stations 5.6.3 Capturing DECT Base Stations 5.6.4 Deleting DECT Base Stations 5.6.5 5.6.6 Find my SIP-DECT Base Station 5.7 5.7.1 5.7.2 5.7.3 5.7.4 5.7.5 5.7.6 5.8 5.8.1 5.8.2 5.9 5.9.1 5.9.2 5.9.3 5.9.4 5.9.5 5.10 Licenses Menu 5.11 Info Menu WLAN profiles Menu WLAN clients Menu System features Menu Digit treatment Menu Directory Menu Directory (comp. mode) menu Feature Access Codes Menu XML Applications Menu Creating and Changing DECT Phones Importing DECT phone Configuration Files Subscribing DECT Phones Deleting DECT phones Searching the DECT phone List Displaying User and DECT Phone Data WLAN Menu 79 81 82 83 85 86 86 87 87 87 89 90 90 92 92 92 94 95 96 97 98 99 99 103 103 108 108 109 110 112 113 115 117 117 6 OM Management Portal (OMP) ......................................................................................................................118 Login Logout OMP Main Window Status Menu DECT base stations Users Devices Sites Conference Video Devices System Menu 6.1 6.2 6.3 6.4 6.4.1 Overview 6.4.2 6.4.3 6.4.4 6.4.5 6.4.6 6.4.7 6.5 6.5.1 6.5.2 6.5.3 6.5.4 6.5.5 6.5.6 6.5.7 6.5.8 6.6 6.7 6.7.1 6.7.2 6.7.3 Sites Menu DECT Base Stations Menu Device list Menu Paging areas Menu Capturing Menu Basic settings Menu Advanced settings Menu Statistics Menu (Monitoring Mode Only) SIP Menu Provisioning Menu User administration Menu Data management Menu Event Log Menu 118 119 119 120 121 122 123 124 125 126 126 127 127 130 138 139 143 145 149 151 153 154 154 160 161 v Profiles WLAN Menu Video devices Menu Enrolment Menu Export Menu Sync view Menu Statistics Menu Quality Menu Changing Video Devices Viewing Video Device Details Deleting Video Devices Filtering Video Device Table 6.7.4 6.7.5 6.7.6 6.7.7 6.7.8 6.8 6.8.1 6.9 6.9.1 6.9.2 6.9.3 6.9.4 6.10 DECT Phones Menu 6.10.1 Overview Menu 6.10.2 Users Menu 6.10.3 Devices Menu 6.10.4 Device Detail Panel 6.10.5 Creating DECT phone Datasets 6.10.6 Configuring DECT phone Datasets 6.10.7 Subscribing DECT phone Datasets 6.10.8 Deleting DECT phone Datasets 6.10.9 Selecting Columns 6.10.10 Filtering DECT phone Table 6.10.11 Changing the Relation Type 6.10.12 Enabling / Disabling DECT phone Event Log 6.10.13 User Monitoring 6.11 Conference rooms Menu 6.11.1 Creating Conference Rooms 6.11.2 Configuring Conference Rooms 6.11.3 Deleting Conference Rooms 6.11.4 Viewing Conference Room Details 6.12 ALARM TRIGGERS MENU System features Menu 6.12.1 General settings Menu 6.12.2 Feature access codes Menu 6.12.3 Alarm triggers Menu 6.12.4 Digit treatment Menu 6.12.5 Directory Menu 6.12.6 Easy migration from corporate Directory (comp. mode) to new corporate Directory structure 6.12.7 Directory (comp. mode) Menu 6.12.8 XML applications Menu 6.12.9 CoA Profiles Menu 6.13 Licenses Menu 6.14 General Menu 6.15 Help Menu 162 162 163 164 166 168 168 172 172 173 173 173 173 174 176 176 177 184 185 185 185 186 186 186 187 187 188 188 189 189 190 190 190 191 191 193 194 196 197 199 203 204 205 206 7 DECT Phone ....................................................................................................................................................208 Key lock with PIN 7.1 7.1.1 Maintain the PIN 7.1.2 7.1.3 Unlock a locked Mitel 600 DECT phone Setup automatic key lock with PIN 208 208 208 210 8 Configuration and Administration ................................................................................................................211 8.1 8.2 8.2.1 8.2.2 8.3 8.4 8.5 8.5.1 8.5.2 IP Signaling and Media Stream DECT Base Station Synchronization Initial Synchronization Procedure Checking the Synchronization of a Network DECT Base Station Channel Capacity Network Infrastructure Prerequisites SIP-DECT Startup TFTP and DHCP Server Requirements Booting Steps vi 211 213 214 215 215 216 216 217 217 OMM Configuration and Resource Files Booter Startup Application Startup RFP LEDs State Graph of the Start-up Phases Local DECT Base Station Configuration (OM Configurator) Selecting the Network Interface Adding DECT Base Stations for configuration Scanning for DECT Base Stations Adding DECT Base Stations manually Loading DECT Base Station data from File Editing DECT Base Station configuration data Applying Configuration Changes Factory Reset Saving and Loading a DECT Base Station List Configuration File URL Specific Configuration URLs ReLoad of Configuration and Resource files AXI Commands in Configuration Files User Configuration Files Digest Authentication and Certificate Validation DECT base station software Image from RFP OMM Redirection and Configuration Service (RCS) Customer Logo on OMM Web Service DECT Base Station Configuration Files 8.5.3 8.5.4 8.5.5 8.6 8.7 8.7.1 8.7.2 8.7.3 8.7.4 8.7.5 8.7.6 8.7.7 8.7.8 8.7.9 8.7.10 Removing DECT Base Station Entries 8.7.11 Compatibility with Older SIP-DECT Releases 8.8 8.8.1 8.8.2 8.8.3 8.8.4 8.8.5 8.8.6 8.8.7 8.8.8 8.8.9 8.9 8.9.2 8.9.3 8.9.4 8.9.5 8.9.6 8.9.7 8.9.8 8.9.9 8.9.10 Configuration file syntax 8.10 Consolidated Certificate management 8.10.1 SIP over TLS certificates 8.10.2 OMM Certificate (Web service / AXI) 8.10.3 Provisioning certificates 8.10.4 Certificate validation 8.11 3rd and 4th Generation RFP Software Update 8.12 802.1Q Support 8.12.1 Boot Phase of IP RFPs (DHCP) 8.12.2 Boot Phase of IP RFPs (Local Configuration) 8.13 Installing OMM in Host Mode 8.13.1 System Requirements 8.13.2 Installing the OMM Software 8.13.3 Configuring the Start Parameters 8.13.4 Specific Commands Troubleshooting 8.14 Updating the OMM 8.14.1 Updating a Single OMM Installation 8.14.2 Updating a Standby OMM Installation 8.15 OMM Standby 8.15.1 Configuring OMM Standby 8.15.2 Fail Over Situations 8.15.3 Failover Failure Situations 8.15.4 Specific standby situations 8.16 User data synchronization (MiVoice 5000 dual homing support) 8.16.1 Roaming 8.16.2 Setting up user data synchronization Standard IP settings Configuration file source Parameter settings priority Software update settings for 3rd generation DECT base stations SOFTWARE UPDATE SETTINGS FOR 4th GENERATION DECT BASE STATIONS Times when RFP configuration times are read RFP configuration file update check Handling of parameter changes vii 218 220 224 228 231 232 232 232 233 233 233 236 236 236 237 237 237 238 240 240 241 243 245 246 246 247 247 248 248 249 249 249 249 250 251 251 253 253 253 253 254 254 254 255 256 256 256 256 257 258 258 259 259 261 261 261 262 263 264 265 266 8.16.3 User data synchronization modes 8.17 Managing Account Data for System Access 8.17.1 Account Types 8.17.2 Potential Pitfalls 8.18 WLAN Configuration 8.18.1 WLAN configuration steps (RFP 42 WLAN / RFP 43 WLAN only) 8.18.2 WLAN configuration steps (RFP 48 WLAN) 8.18.3 Optimizing the WLAN 8.18.4 Securing the WLAN 8.19 SNMP Configuration 8.20 Backup SIP Proxy/Registrar 8.20.1 REGISTER Redirect 8.20.2 DNS SRV 8.20.3 Backup SIP Servers 8.20.4 Keep Alive Mechanism 8.20.5 Prioritized Registration 8.20.6 Monitoring the SIP Registration Status 8.20.7 Configurable User Account for Standby Check 8.20.8 OMM Standby Enhancement 8.21 Conferencing 8.21.1 Centralized Conferencing 8.21.2 Integrated Conference Server (ICS) 8.21.3 Configure conference rooms 8.22 Download Over Air 8.22.1 How Download Over Air Works 8.22.2 How to configure Download Over Air 8.23 Central DECT Phone Configuration Over Air (CoA) 8.23.1 Configuration files 8.23.2 Configuration file download to DECT phones 8.23.3 CoA Configuration using OMP 8.23.4 Configuration using usr_common.cfg/<user>/cfg Files 8.23.5 Variable lists 8.24 Extended DECT Phone Interface 8.25 OMM/DECT Phone Lock with Branding ID 8.25.1 Subscribing the DECT Phone 8.26 Device Placement 8.26.1 Placement View 8.26.2 DECT Base Stations View 8.26.3 Image management View 8.27 Monitoring with USB Video Devices 8.27.1 Configuration of a video user account 8.27.2 Configuration of USB video devices 8.27.3 Monitoring with USB video devices 8.28 Terminal Video 8.28.1 Technical Details 8.28.2 OMP Configuration Steps 8.28.3 Camera Selection via DECT phone Menu 8.29 User Monitoring 8.29.1 Overview 8.29.2 Status Attributes and Validation Mechanisms 8.29.3 Escalation 8.29.4 Alarm Triggers 8.29.5 OM Locating Application 8.29.6 Licensing and System Capacities 8.29.7 Configuration 8.29.8 Start and Failover 8.29.9 Supported DECT phones 8.29.10 Restrictions 8.30 SRTP 8.31 SIP over TLS 8.31.2 Certificates viii 267 269 269 270 270 270 271 273 275 275 276 276 277 278 280 280 281 281 281 282 283 283 285 288 288 289 291 291 292 293 293 294 299 301 301 301 301 302 303 305 305 306 306 306 307 307 307 307 308 309 312 312 313 313 313 315 316 317 317 318 319 8.31.3 Private Key 8.31.4 TLS Transport Mode 8.31.5 Verification of Remote Certificates 8.31.6 Additional Security Considerations 8.32 DECT Enhanced Security 8.33 Migration of RFP SL35 IP from SIP-DECT Lite 3.1 to SIP-DECT 6.1 8.34 802.1x Certificate Based Authentication 8.34.1 802.1x Configuration 8.34.2 Prerequisites Referring to 802.1x Topology 8.34.3 802.1x Feature Description 8.35 802.1x Certificate Server Configuration 8.36 Initiate 802.1x by DHCP Options or OM_Configurator 8.36.1 DHCP Options 8.36.2 OM_Configurator 320 320 321 321 322 322 323 324 325 325 330 331 331 331 9 Maintenance ....................................................................................................................................................332 Site Survey Measurement Equipment Checking the Mitel Handset Firmware Version Diagnostic 9.1 9.2 9.3 9.3.1 Mitel DECT Phone Site Survey Mode 9.3.2 Mitel Handset Auto Call Test Mode 9.3.3 Mitel Handset Auto Answer Test Mode 9.3.4 9.3.5 9.3.6 9.3.7 Syslog SSH user shell Core File Capturing DECT Monitor 332 332 332 332 333 333 334 335 339 340 10 Regulatory Compliance and Safety Information (4th Generation Dect Base Stations) ..........................344 11 Safety Information (3rd Generation Dect Base Stations) ............................................................................345 11.1 CE Marking 11.2 Communications Regulation Information 11.2.1 FCC Notices (U.S. Only) 11.3 Health and Safety 11.3.1 Exposure to Radio Frequency (RF) Signals:
11.3.2 Industry Canada (Canada only) 11.4 Informations rglementaires en matire de communications 11.4.1 Notes FCC (USA uniquement) 345 345 345 346 346 346 346 347 12 Appendix .........................................................................................................................................................348 12.1 Pre-Configuration File Rules 12.2 DECT phone Configuration File (OMM Database) 12.2.1 Supported Instructions 12.2.2 Data Section Fields 12.2.3 Example 12.3 RFP Configuration File / Central (OMM Database) 12.3.2 RFP Configuration File / Local (OM Configurator) 12.4 RFP Export File Format 12.5 CoA Configuration Parameters 12.5.1 Configuration of Variable Lists 12.5.2 Extended COA Examples 12.5.3 Example 1 12.5.4 Example 2 12.5.5 Example 3 12.5.6 Example 4 12.5.7 Example 5 12.5.8 Supported COA Parameters 12.6 Protocols and Ports 12.7 Abbreviations 12.8 Definitions 12.9 References ix 348 348 348 349 350 353 356 360 362 362 363 363 363 367 367 369 370 398 400 401 403 SIP-DECT OM System Manual 1 OVERVIEW This document describes the installation / configuration, administration, and maintenance of the SIP-
DECT solutions. Please also see the documents listed in the References section (section 12.9) for additional details on different aspects of the SIP-DECT system. For a list of abbreviations and definitions, see the appropriate sections in the Safety Information. 1.1 THE SIP-DECT SOLUTION The SIP-DECT solution includes the following main components:
SIP-DECT base stations that are distributed over an IP network and offer DECT, WLAN, and IP interfaces DECT phones (portable DECT devices) OpenMobility Manager (OMM): Management and signaling software for the SIP-
DECT solution, which runs on one of the DECT base stations or on a dedicated Linux server (for large installations). In addition, a standby OMM can be configured to ensure OMM function in case of failure or loss of network connection. A SIP Call Manager/IP PBX/Media Server platform (e.g. Asterisk) 001-omm-arch.psd/. The IP PBX/media server/media gateway, OMM and the RFPs communicate through the IP infrastructure. The RFPs and the DECT phones communicate over the air, where the DECT GAP protocol or DECT GAP with proprietary enhancements is used. The SIP-DECT solution supports seamless handover between RFPs which are in a group of synchronized RFPs (cluster) and roaming between RFPs on remote sites. Additional components include:
LDAP server to facilitate a central corporate directory Provisioning server to provide RFP configuration or user data files Data backup server to automatically backup an OMM database from the server OM Locating server and clients to run the SIP-DECT locating solution 3rd party messaging or alarm server to integrate the SIP-DECT text messaging into a unified messaging or alarm environment Computer for administration and maintenance tools: Web browser, OM Management Portal (OMP), DECT Monitor 10 Overview Figure 1 Architectural Overview of the SIP-DECT Infrastructure and Features 1.2 ABOUT DECT BASE STATIONS DECT base stations are also referred to as Radio Fixed Parts (RFPs) in this document. 1.2.1 DECT BASE STATION FAMILIES 1.2.1.1 RFP 4G DECT Base Station family As of SIP-DECT 8.0, SIP-DECT supports the 4th base station generation (RFP 4G). This 4th RFP generation comprises of:
RFP 44 DECT RFP as indoor model with 4 narrow band voice channels and internal antennas. RFP 45 DECT RFP as indoor model with 8 narrow band voice channels and internal antennas. RFP 47 (Indoor Unit) DECT RFP as indoor model with 8 narrow band voice channels and 2 SMA connectors for external directional antennas. RFP 47 DRC (Outdoor Unit) RFP 47 pre-installed with directional antennas and 3m cable in an outdoor enclosure. RFP 48 DECT RFP with 8 narrow band voice channels + WLAN Access Point as indoor model with internal antennas for DECT and WLAN. The hardware of all the RFPs complies with the different regulatory domains. There are no specific hardware variants required to use specific frequency bands and field strengths. Transmit Power, frequency band and carrier frequencies are controlled by software. 11 SIP-DECT OM System Manual Configuration Button RJ45 Ethernet Interface
(PoE) 1 RFP 44/45/47/48 (1 LED) 2 Configuration Button 3 100Mbit/s Ethernet Interface, PoE (RFP 44, 45, 47) 4 1Gbit/s Ethernet Interface, PoE (RFP 48) 12 Differences compared to the previous 3rd RFP family (RFP 35, 36, 37 IP and RFP 43 WLAN) are:
Overview RFP 48 supports 5GHz WLAN according to 802.11ac and 3x3 MIMO Configuration button
- switch to SIP-DECT with Cloud-ID mode
- reset RFP to factory defaults Separate outdoor enclosure available for outdoor usage No external power supply (PoE only) No USB interface RFP 44/45/ support 100MBit/s Ethernet only, The RFP 48 supports 1 GBit/s Boots from internal flash memory instead of net-boot (SIP-DECT software is already on board) Software update via TFTP, FTP(S), HTTP(S), SFTP supported Hardware can support Secure SIP and SRTP (with SIP-DECT 5.0 or later) Supports CAT-iq 1.0 level high definition voice for the Mitel 650 DECT phone There are no differences regarding the SW update process compared with the 3rd RFP generation, except a SW update through USB is not possible; because, the RFP 4G does not come with a USB interface. The RFP 47 RF output is provided through 50 ohm SMAtype connectors. These are electrically compliant with old external antennas, although might not fit mechanically to some antenna cabling. It is the responsibility of installers to propose connecting solutions according to the installations. For that, a 50 ohm / 3Ghz coaxial adapter is required, which will link the RF output connectors of RFP47 to the existing DECT antenna infrastructure. 1.2.1.2 RFP 3G DECT Base Station Types Mitel offers four types of RFP 3G DECT base stations for the SIP-DECT solution:
RFP 35 IP DECT RFP as indoor model RFP 36 IP DECT RFP as outdoor model with built-in dipole antennas RFP 37 IP DECT RFP as outdoor model with connectors for external directional antennas RFP 37 DRC (Set) DECT RFP, preinstalled with directional antennas and 3m cable in an outdoor enclosure RFP 43 WLAN DECT RFP + WLAN Access Point as indoor model with internal antennas for DECT and WLAN As of SIP-DECT 6.0, there is no distinction between DECT base station soft brands (that is, L-RFPs and non-L-RFPs). See section 3.3.2 for more information. 13 SIP-DECT OM System Manual In general the RFP 35 / 36 / 37 IP have the same hardware platform and software capabilities. RFP 43 supports WLAN in addition to DECT. 1 Power 48V DC (optional) 2 1GBit/s Ethernet (PoE) 3 USB 4 DECT antenna connector (RFP 37 IP) 5 Antennas (RFP 37 IP) The hardware of all the new RFPs complies with the different regulatory domains. There are no specific hardware variants required to use specific frequency bands and field strengths. Transmit Power, frequency band and carrier frequencies are controlled by software. Other differences compared to the previous RFP family (RFP 32/34 IP and RFP 42 WLAN):
Boots from internal flash memory instead of net-boot (SIP-DECT software is already on board) Supports software update through TFTP, FTP(S), HTTP(S), SFTP Supports 1GBit/s Ethernet Supports CAT-iq 1.0 level high definition voice for the Mitel 650 DECT phone Hardware can support Secure SIP and SRTP (with SIP-DECT 5.0 or later) Uses an external 48V DC Power Supply (if no PoE available) which meets the latest environmental requirements (RFP 37: PoE only) RFP 43 WLAN supports the 802.11a/b/g/n standards Indoor RFPs have a USB 2.0 interface to connect external hardware for future applications (for example, Video Camera) 1.2.1.3 Older RFP Types Older RFP models supported by the SIP-DECT solution include:
RFP 32 IP DECT RFP as indoor model RFP 34 IP DECT RFP as outdoor model 14 RFP 42 WLAN DECT RFP + WLAN Access Point as indoor model The RFP 32 and RFP 34 have the same hardware and software capabilities. Please note the regulatory differences between North America and other areas of the world. These differences lead to different RFP 32/34 variants which use specific frequency bands and field strengths:
Overview RFP 32 NA or RFP 34 NA (NA) Frequency Band 1920 to 1930 MHz 5 carrier frequencies Transmit Power 20 dBm RFP 32 IP or RFP 34 IP (EMEA) Frequency Band 1880 to 1900 MHz 10 carrier frequencies Transmit Power 24 dBm The RFP 42 WLAN is only available for the EMEA region. RFP 32 IP / RFP 32 NA RFP 34 IP / RFP 34 NA RFP 42 WLAN 1 Power jack (120 V/230 V AC adapter) 2 Ethernet jack; Power supply in line with Power over Ethernet standard IEEE 802.3af As of SIP-DECT 6.0, there is no distinction between RFP soft brands (i.e., L-RFPs and non-L-RFPs). With SIP-DECT 5.0 and older releases, the L variants have built-in licenses. See section 3.3.2
(Licensing) for more information. Note:
The software package for previous RFPs has a tftp extension e.g. iprfp2G.tftp. With SIP-DECT 3.0 or higher, you need a 3G RFP to run the Open Mobility Manager. 15 SIP-DECT OM System Manual 1.2.2 OPENMOBILITY MANAGER (OMM) MODE If the OMM is not running on a dedicated Linux server, one RFP within a SIP-DECT installation must be declared to operate as the OpenMobility Manager (OMM). The RFP acting as the OMM may also act as a regular RFP if it is part of a DECT cluster. In OMM mode, an RFP functions as a regular RFP. Additionally, it is responsible for SIP signaling between the SIP-DECT system and the IP PBX/SIP server. Further on, it takes over the management part of the SIP-DECT solution. You designate an RFP as the OMM by assigning an IP address to the RFP within the DHCP scope (see section 8.5) or by setting the data via the OM Configurator (see section 8.7). After an RFP is designated as the OMM, it starts the extra services on board (for example, the web service that supports the management interface). All RFPs download the same firmware (for their RFP type), but only one RFP (or two, in standby implementations) activates the OMM services. Note:
It is possible to deactivate the DECT part of an RFP. If the DECT interface is deactivated, all resources (CPU and memory) are available for the OMM. This might be necessary, for example, in configurations where a mix of OpenMobility Manager, G.729/Conferencing and WLAN is provided by the same RFP. 1.3 ABOUT THE OPENMOBILITY MANAGER The OpenMobility Manager (OMM) requires an RFP 35/36/37 IP resp. RFP 43 WLAN, or a dedicated Linux server. There is only one OpenMobility Manager (OMM) active in the system at a given time. If the OMM runs on a DECT base station, a 100 Mbit/s network link is required. If the OMM runs on a dedicated Linux server, a 1 GBit/s network link is required
(see also section 8.13.1). In addition, a standby OMM can be configured to ensure the OMM function in case of failure or loss of network connection. For more information on the standby OMM see section 8.15. 1.3.1 OMM TASKS The OMM performs the following tasks:
Signaling gateway (SIP <-> DECT) Media stream management Managing sync-over-air functions between RFPs Provides a Web service for system configuration Provides additional services such as LDAP based central corporate directory OM Application XML interface (OM AXI) for OAM&P, messaging, alerting service and locating Integrated Messaging and Alerting Service (OM IMA) Data backup and provisioning services 16 SIP-DECT XML terminal interface. This interface adapts the XML API for SIP Phones to SIPDECT phones. The Mitel 600 DECT phone family is supported. Overview Additional information on the following functionality is available in separate documents. Locating: See the SIP-DECT OM Locating Application Administration Guide. Integrated Messaging and Alerting Service: See the SIP-DECT OM Integrated Messaging and Alerting Application Guide and the SIP-DECT Mitel 600 Messaging and Alerting Applications Guide. User data provisioning: See the SIP-DECT OM Handset Sharing and Provisioning Guide. Administration and monitoring by third party applications: See the OM Application XML Interface Specification. SIP-DECT XML terminal interface: See the SIP-DECT XML Terminal Interface Specification. 1.3.2 SIP-DECT SPECIAL FEATURES AND CAPABILITIES Feature GAP Large DECT Systems (XXL) Messaging & Alerting Initiate Alarm Trigger No connection handover beyond 256 RFPs no 142d yes no
*, # feature access code procedure, no sensor alarm
*, # feature access code procedure, no sensor alarm Locating DECT XQ yes no yes no 600 yes yes yes yes yes 17 SIP-DECT OM System Manual Feature UTF-8 and alphanumeric dialing support SIP-DECT XML terminal API CAT-iq 1.0 / Hi-Q audio technology GAP no no no 142d no no no 600 yes yes yes (650 only) 1.3.3 OMM CAPACITIES AND FEATURES The following table summarizes OMM capabilities:
Feature Release 3.0 or later Release 6.0 or later RFP 32/34/35/36/37/44/45/47 IP and RFP 42/43/48 WLAN RFP OMM Linux server OMM RFP OMM Linux server OMM 256 1 2048 1 256 1 4096 1 Handsets / users 512 4500 512/1024 3 10000 Message / Alarm receive yes / yes 1 yes / yes 1 yes / yes 1 yes / yes 1 Message send Locating DECT XQ UTF-8 and alphanumeric dialing support SIP-DECT XML terminal API yes yes 1 yes yes yes yes yes 1 yes yes yes yes yes 1 yes yes yes yes yes 1 yes yes yes CAT-iq 1.0 / Hi-Q audio technology yes 2 yes 2 yes 2 yes 2 1 The feature requires a license. 2 The feature is available with the RFP 35/36/37/44/45/47 IP and RFP 43/48 WLAN and the Mitel 650 DECT phone (or other CAT-iq-capable devices). The feature is enabled per site and requires that the RFPs are configured in the same site and cluster. 3 Release 8.0 or later: If RFP 4G runs as OMM, 1024 users/handsets are supported. 1.3.4 OMM CAPACITIES AND RFP SUPPORT The following table summarizes OMM and RFP support capabilities:
Feature As of SIP-DECT 6.0 As of SIP-DECT 8.0 RFP 32/34 IP and RFP 42 WLAN RFP 35/36/37 IP and RFP 43 WLAN RFP 44/45/47 IP and RFP 48 WLAN 18 RFP OMM Linux server OMM RFP OMM Linux server OMM 256 256 4096 4096 Not applicable Not applicable 256 256 256 4096 4096 4096 Overview Feature As of SIP-DECT 6.0 As of SIP-DECT 8.0 RFP OMM Linux server OMM RFP OMM DECT phones / users 512 10000 1024 (RFP 4G OMM) 512 (RFP 3G OMM) Linux server OMM 10000 1.4 ABOUT DECT PHONES DECT Phones (formerly referred to as Portable Parts) are an integral part of the SIP-DECT solution. Mitel provides the following DECT phones:
Mitel 142 DECT Phone Mitel 600 DECT Phone series Mitel 612 DECT Phone Mitel 622 DECT Phone Mitel 632 DECT Phone Mitel 650 DECT Phone Notes on the Mitel 600 DECT Phones The Mitel 600 DECT phones support both the NA and EMEA regulatory requirements. The latest Mitel 600 firmware release has the following characteristics:
New user interface e.g. new dial editor with alphanumerical and always en-bloc dialing Support of UTF-8 in over the air signaling with the OMM Digit and alphanumeric dialing Support of SIP-DECT XML terminal interface Support of microSD card to save subscription data and the most important local device data (not supported by Mitel 600 DECT phones) Additional subscription options Additional alarm melodies Profile indication in idle display For more details please see /31/and /32/. In addition to the existing Mitel 600 DECT phone set, the new Mitel 650 DECT phone supports CAT-iq 1.0 and thus supports G.722 (wideband) voice connections. For the full experience of wideband audio, the DECT phone hardware (e.g., speakers, microphone, and processor) has been improved. The Mitel 600 DECT phone also supports DECT enhanced security. 1.5 FILE NAMING CONVENTIONS The following table lists the file names for SIP-DECT software deliverables. 19 SIP-DECT OM System Manual Software package As of SIP-DECT 7.1 As of SIP-DECT 8.0 Software image for RFP 32/34 IP / RFP 42 WLAN omm_ffsip.tftp Software image for RFP 35/36/37 IP / RFP 43 WLAN iprfp3G.dnld Software image for RFP 44/45/47 IP / RFP 48 WLAN Not applicable iprfp2G.tftp iprfp3G.dnld Iprfp4G.dnld OMM software for Linux Red Hat server (self-
extracting executable) OMM software rpm DECT phone software rpm SIP-DECT_<version>.bin SIP-DECT_<version>.bin SIP-DECT-OMM-
<version>.i686.rpm SIP-DECT-OMM-
<version>.i686.rpm SIP-DECT-HANDSET-
<version>.i686.rpm SIP-DECT-HANDSET-
<version>.i686.rpm SIP-DECT OMM/MOM OVA SIP-DECT-<version>.ova SIP-DECT-<version>.ova 1.6 LOGIN AND PASSWORDS The following table summarizes the default login and passwords for SIP-DECT system components. Interface/Tool SIP-DECT OMM SDC OMM RFP 32/34 IP /
RFP 42 WLAN RFP 35/36/37 IP / RFP 43 WLAN RFP 44/45/47 IP / RFP 48 WLAN Initial configuration through OM Configurator login / password
(no previous connection with the OMM) Initial OMM configuration through Web or OMP standard full-access account login / password OMM access through Web or OMP
(after initial OMM configuration) Configuration through OM Configurator after connection with OMM login / password
(system-wide set by OMM) ssh
(no previous connection with the OMM) ssh
(with previous connection with the OMM)
(system-wide set by OMM) 20 n/a No login required omm / omm omm / omm omm / omm n/a Read-only or full-
access accounts as configured n/a n/a n/a n/a n/a n/a OMM standard full-
access account login / password OMM standard full-access account login / password User shell:
omm / omm Root shell:
root / 22222 User shell:
OMM standard full-
access account login / password Root shell:
as configured User shell:
omm / omm Root shell:
root / 22222 User shell:
OMM standard full-access account login / password Root shell:
as configured Enhanced Feature Overview 2 ENHANCED FEATURE OVERVIEW A SIP-DECT system can scale from a small system of five or less DECT base stations to a larger SIP-
DECT system that may include hundreds of DECT base stations. Some of the more advanced features target larger DECT systems. You may browse the following list of features in order to get an overview and to decide if its relevant for your requirements. You find in-depth explanations in the referenced sections. Please note: Be aware that the majority of the new enhanced features require the current DECT phone firmware release. It is assumed that SIP-DECT installations are configured to perform an automatic firmware update over the air. 2.1 PC-BASED OMM INSTALLATION A very large number of DECT base stations or a large number of DECT phones may exceed the storage capacity or processing power of the embedded DECT base station. For this reason, it is also possible to operate the OMM on a standard PC under the Linux operating system (see section 8.13). As of SIP-DECT 5.0, CentOS 6 and virtualized environments (VMware vSphere ESXI 5 and 6) are also supported. SIP-DECT 6.1 is tested with CentOS 6.x. As of SIP-DECT 7.1, CentOS 7 is required. An OVA-File is distributed together with the software for usage within virtualized environments (VMware vSphere 6.5). The verification is executed with VMware vSphere 6.0 and 6.5. For further information, see document /47/ SIP-DECT_LinuxServerInstallation. 2.2 DECT XQ The DECT radio communication generally suffers from attenuation and radio wave reflection. In particular, if a buildings walls and ceilings contain a higher portion of metal-based material or if larger metal surfaces are present, the DECT XQ improves the radio communication between a DECT base station and a Mitel 600 DECT phone at the expense of DECT channel capacity (see 8.3). Enable this feature for some or all of your DECT base stations (see section 5.6.3, DECT settings or section 6.7.1.2, DECT tab). DECT XQ audio cannot be combined with Hi-Q audio within the same connection. There are three operating modes related to audio quality available on the Mitel 650 DECT phone:
standard audio, Hi-Q audio and automatic. In Hi-Q audio mode, a Mitel 650 DECT phone exclusively establishes wideband connections and does not switch to narrowband later. A Mitel 650 in this mode ignores the XQ capability of the RFP. In standard audio mode, a Mitel 650 DECT phone exclusively establishes narrowband connections and does not switch to wideband later. A Mitel 650 in this mode will switch to DECT XQ and back as necessary. In automatic mode, the connection establishment depends on whether the current base provides DECT XQ or not. If DECT XQ is available, a narrowband connection will be established. Otherwise, a wideband connection will be established. 21 SIP-DECT OM System Manual 2.3 WIDEBAND (CAT-IQ 1.0 / MITEL HI-Q AUDIO TECHNOLOGY) In conjunction with the RFP 35/36/37/44/45/47 IP and RFP 43/48 WLAN, the Mitel 650 DECT phone can act as a Mitel Hi-Q audio terminal. This feature is realized using wideband speech according to CAT-iq. Each Hi-Q connection uses twice the capacity on the DECT air interface, as compared to conventional narrowband. Therefore, four Hi-Q connections can be established via one RFP, instead of eight narrowband calls. Mitel Hi-Q audio technology must be enabled or disabled per site (see section 5.5). This functionality must be homogeneously available among synchronous RFPs (members of the same cluster). Each site with enabled Hi-Q audio must exclusively contain new RFP 35/36/37/44/45/47 IP or RFP 43/48 WLAN. Typically one site is identical with one cluster, i.e. all RFPs belonging to a specific site belong to a specific cluster. However a site can have more than one cluster. The OMM allows configuration of a cluster that contains multiple sites. Such configuration could annul the rule that Hi-Q audio must be homogeneously available among synchronous RFPs. Please note: It is strongly recommended not to setup systems with multiple sites within one cluster. 2.4 DECT ENHANCED SECURITY In response to market concerns, the DECT standard has introduced improvements to security. Many security features, which were specified in the DECT standard (respectively GAP) were left optional for the DECT phones. These mechanisms became mandatory with CAT-iq. Almost all of this functionality was present and used within SIP-DECT right from the start. Furthermore, some new features have been added to GAP:
Encryption of all calls (not only voice calls) Re-keying during a call Early encryption Each feature provides an additional security guarantee and is therefore an integral part of the SIP-DECT solution. The feature set can be enabled or disabled per site, because enhanced security is available with 3rd or 4th generation RFPs. Roaming between sites where enhanced security is enabled and disabled respectively should be avoided. With SIP-DECT 5.0 and later, when DECT enhanced security is enabled, every connection is encrypted not only voice calls, but also service calls (e.g. list access) or messaging. Additionally, the cipher key used for encryption during an ongoing call is changed every 60 seconds. Finally, every connection is encrypted immediately upon establishment to protect the early stages of the signaling such as dialing or CLIP information. DECT enhanced security is only supported with Mitel 602 DECT phones. Older terminals (e.g. 6x0d or 142d) or GAP phones still operate as normal, but do not support the new security mechanisms. 22 Enhanced Feature Overview 2.5 VOIP ENCRYPTION To allow secured call connections over unsecured IP infrastructures (e.g. internet), SIP-DECT supports SRTP to encrypt the RTP voice streams and TLS to encrypt the SIP signaling. These security mechanisms, together with a secured iPBX infrastructure, allow protected call services and ensure:
Authentication Integrity Confidentiality Privacy When a Mitel 600 DECT phone user is involved in a SRTP call, a key icon in the call display indicates that the media path to the next hop is ciphered. The key icon is only displayed when the connection uses SIP over TLS, SRTP (for 3G RFPs only) and DECT encryption together for a secure key exchange and a secure media transport. 2.6 MIXED DECT BASE STATION INSTALLATIONS In sites (or whole systems) with Hi-Q audio disabled, any combination of RFP 32/34 IP / RFP 42 WLAN and RFP 35/36/37 IP / RFP 43/48 WLAN is allowed. Note, however, that some security features are not supported for all DECT base stations (that is, SRTP and enhanced security are supported on 3rd and 4th generation RFPs only). RFP SL35 IP support SIP-DECT supports the RFP SL35 IP after applying the unlock file and the standard SIP-DECT software to the DECT base station. Before the standard SIP-DECT software can be installed on the RFP SL35 IP, the unlock.xml file must be available for the DECT base station on the USB. After applying the unlock.xml file the DECT base station accepts the standard SIP-DECT software. In terms of licensing, the OMM manages the RFP SL35 IP with the unlock file and the standard SIP-
DECT software like an RFP 35 IP. For a detailed description see section 8.30. 2.7 WIRELESS LAN (WLAN) If you have a number of WLAN DECT base stations (RFP 42/43/48 WLAN), the SIP-DECT system also provides access to your company LAN through Wireless LAN. The RFP 43/48 WLAN support 802.11n. The RFP 48 WLAN also supports 802.11ac. The WLAN configuration of a group of WLAN RFPs is managed by WLAN profiles (see section 5.8). 2.7.1 802.11I: WPA2-ENTERPRISE PRE-AUTHENTICATION FOR FAST ROAMING WLAN stations (e.g. laptop) which decide to roam to another WLAN access point (AP) must perform the full authentication process with the new AP. In 802.1x (RADIUS) networks this can take a long time resulting in network dropouts during the roam. 23 SIP-DECT OM System Manual The AP share authentication information with other APs, so the station can authenticate faster (pre-auth) when roaming to a new AP. This method reduces network dropouts significantly. The RFP 43 and RFP 48 automatically enables pre-authentication for WPA-Enterprise enabled WLANs. The RFP 42 does not support this feature. 2.7.2 CHANNEL CONFIGURATION FEEDBACK FOR HT40 AND TX POWER The HT40 channel configuration in 802.11n enabled networks may not always become active because of other access points that use channels that would overlap. In this case, the RFP 43 and RFP 48 fall back to HT20. From SIP-DECT 5.0 on, the effective channel configuration and the transmit power are reported to the OpenMobility Manager. You can view these parameters in the OMM Web service and the OMP (DECT base stations > Device list -> Show details WLAN tab) and change the channel to a frequency without overlapping APs. 2.7.3 CHANNEL CONFIGURATION FEEDBACK FOR HT80 HT80 includes the HT40/HT20 bandwidth setting. A channel with a bandwidth of 80 MHz occupies 4 WLAN channels with a bandwidth of 20 MHz. If the WLAN profile options HT80/ HT40 MHz have been activated, the necessary center channel will be automatically selected in the corresponding areas by configuration itself. HT80 is independent from 256 QAM / 3x3 MIMO. The ac standard is the first WLAN standard with 256 QAM modulation and the bandwidth HT80. The n standard supports 3x3 MIMO too, but the RFP43 has only 2 antennas (for 2x2 MIMO) and the RFP48 has 3 antennas. 2.8 DECT BASE STATION SYNCHRONIZATION To ensure a seamless communication experience, the SIP-DECT system switches an ongoing DECT phone call from one DECT base station to another if the radio communication quality drops below a certain threshold. The seamless handover is possible only if the participating DECT base stations are synchronized. DECT base station synchronization is performed via radio communication between DECT base stations, which in turn requires a decent radio coverage planning (see section 8.2). 2.8.1 CLUSTERING AND PAGING AREAS Your SIP-DECT system may include different locations, where the distances between the locations prevent the RFPs from performing the over-the-air synchronization. In this case, you must split your network into clusters (or synchronization domains). You assign DECT base stations to cluster numbers for this purpose (see section 5.6.3 DECT settings or section 6.7.1.2, DECT tab). Note that overlap between different clusters on one campus or site must be avoided. If your SIP-DECT system consists of a very large number of DECT base stations, you should configure the paging area size to optimize the signaling necessary for paging a DECT phone in throughout the SIP-DECT system (see 6.7.2). A separate cluster number is also required for a remote site (e.g., for a single DECT base station servicing an office abroad). Also, if the VPN network connection to the isolated sites DECT base station cannot transport DHCP, you may use static IP address configuration for the single DECT base station
(see section 8.7.6). 24 Enhanced Feature Overview 2.9 DECT BASE STATION RESET TO FACTORY SETTINGS A DECT base station can be reset to factory settings using a USB flash drive with a file on it named factoryReset. When the USB flash drive is plugged into the DECT base station, the DECT base station is reset to factory settings automatically. The file is automatically removed from the USB flash drive during this process. You can also reset the base station to default settings using the OM Configurator or the OMM Web service (see section 8.7.8). 2.9.1 RFP4G RESET TO FACTORY DEFAULTS To reset to factory defaults, do the following:
1. Use the configuration button to reset the RFP to factory defaults. After the reset to factory defaults, the RFP operates in the standard SIP-DECT mode. 2. Press the Configuration button to start the configuration process. The LED starts flashing green which indicates that the button is pressed. 3. Keep the button pressed until it starts flashing red (10 sec < t < 15 sec). 4. Release the button while the LED is flashing red to reset the RFP to factory defaults. 5. The RFP performs a reset to factory defaults and reboots. After reboot the RFP is started in the standard SIP-DECT mode. Note: If the button is pressed until it is flashing green, then the button has no effect. 25 SIP-DECT OM System Manual 2.10 SYSTEM REDUNDANCY The SIP-DECT solution offers a number of features to support system robustness and redundancy. 2.10.1 OMM STANDBY The OMM is the central management entity in a SIP-DECT system and therefore constitutes a single point of failure. It is possible to automatically transfer the OMM function to a second DECT base station in case of failure or loss of network connection (see section 8.15). In an OMM standby implementation, it could happen in rare cases that both OMMs become temporarily active. In such a situation, all SIP-DECT users are SIP registered from to the configured PBX both OMMs. This can cause problems if the PBX accepts only one registration per user (non-forking proxy). To prevent this scenario, SIP-DECT has a mechanism to detect situations with two active OMMs. When such a situation is detected, the remaining active OMM will SIP re-register all users to the PBX. This mechanism can be enabled/disabled through the SIP reRegister after 2 active OMM failover parameter in the OMP System -> SIP-> Supplementary Services menu (see section 5.4.3.6) 2.10.2 BACKUP SIP PROXY/REGISTRAR To increase the operational availability of the system in critical environments like hospitals, the OMM offers a new failover mechanism for the SIP server. Therefore, in addition to the primary proxy, outbound proxy and registrar server, it is possible to configure two additional levels of backup servers named secondary and tertiary servers (see section 8.20.3). In addition, a keep-alive mechanism implemented in the OMM allows the automatic failover to secondary/tertiary servers or automatic coming back to primary servers (see section 8.20.4). 2.10.3 CONFIGURABLE USER ACCOUNT FOR STANDBY CHECK The Standby OMM feature of SIP-DECT allows configuration of the user account to be used to check the availability of the iPBX. An availability check starts automatically in fail over situations. The OMM starts a SIP registration for a specific DECT phone user and sends an OPTIONS request to the configured SIP proxy. If there is an answer, the SIP proxy/registrar is considered reachable and the standby OMM becomes active. With previous SIP-DECT releases, the OMM used the user account with the lowest phone number for the check procedure. To select a specific user account for this purpose, enable the Used for visibility checks flag in the user settings (see section 6.10.4.2). Please note: The Used for visibility checks flag can only be set for one user. The number for visibility checks is shown under OMP Status -> Users -> Number menu. If the flag is not set for a specific user, the OMM uses the user account with the lowest phone number. 2.10.4 USER DATA SYNCHRONIZATION (MIVOICE 5000 DUAL HOMING SUPPORT) With SIP-DECT 6.1 and later, SIP-DECT supports MiVoice 5000 dual homing, to ensure that SIP-DECT telephony services survive if the network connection to the OMM goes down. Dual homing is achieved through user data synchronization across all OMMs in the system. Every peripheral OMM propagates changes in user, device, Configuration over Air (CoA) profiles or SARI configuration to a central OMM. 26 Enhanced Feature Overview Every OMM in the installation (including the central OMM) can use a standby OMM. AXI is used to distribute configuration changes between the central and peripheral OMMs. For more information on this feature, see section 8.16. 2.10.5 MULTI-OMM MANAGER FOR OMM-CENTRALIZED MANAGEMENT With SIP-DECT 7.0 and later, SIP-DECT supports centralized management through the Multi-OMM Manager (MOM). The Multi-OMM Manager (MOM) is a server application that provides centralized provisioning and user/device data synchronization across multiple SIP-DECT sites within a SIP-DECT system. Additionally, the MOM supports system-wide messaging. Instead of deploying one OMM with DECT base stations installed at different sites, or deploying DECT base stations and a dedicated OMM at each site, you can create a multi-site SIP-DECT system with local survivability and centralized management capabilities. You deploy OMMs and DECT base stations as a standalone system at each site, but manage the entire SIP-DECT system through the MOM interface. For more information on this feature, see the Multi-OMM Manager Configuration and Administration Guide. 2.11 SIMPLIFIED LICENSING With SIP-DECT 6.0 or later, the licensing model is simplified. The system no longer distinguishes between different DECT base station soft-brands, and some licenses are deprecated. See section 3.3.2 for more information. Please note: New license files are not compatible with SIP-DECT 4.0 (or older) systems. 2.12 EXTENDED REGULATORY DOMAIN SUPPORT SIP-DECT 6.1 enables operation of the SIP-DECT solution in more countries. The SIP-DECT system can be operated in all countries that allow operation of DECT devices with frequency bands and transmit power settings supported by the current SIP DECT phones and base stations. In most cases, this requires different frequency channel and transmit power settings. This feature is intended mainly for installations on cruise liners, where the SIP-DECT system requires a switch of regulatory domain depending on the actual location of the ship. Such systems are planned and installed based on a site survey with 100mW transmit power. The lower transmit power value is used at all times, independent from the regulatory domain. A new regulatory domain, 1910-1927MHz_250mW, has been added for South America. You can configure this regulatory domain via the OMP (System -> Basic settings -> DECT tab); see section 6.5.1.2 for configuration details. In addition, a new parameter is introduced to limit the DECT base station transmit power to 100mW, independent of the active regulatory domain. The active transmit power is sent to the DECT phone when it registers its location with the OMM. The DECT phone adjusts its transmit power to the value received from the OMM. 27 SIP-DECT OM System Manual 2.13 DECT PHONE FUNCTIONALITY 2.13.1 DECT PHONE DOWNLOAD OVER AIR The Mitel 600 series DECT Phones can download and upgrade their firmware via DECT over the air. As of SIP-DECT 6.0, the DECT base station software images (iprfp3G.dnld and iprfp4G.dnld) contains the Mitel 600 DECT phone software. The 3rd generation RFPs can house the SIP-DECT 8.0 OMM as in previous releases. The OMM supports the 2nd, 3rd and 4th generation RFPs. If the DECT base station houses the OMM, the OMM uses this software to update the DECT phones. The DECT base station OMM no longer automatically attempts to load a DECT phone software image from a DECT base station software URL when provided via DHCP or local configuration. For specific maintenance purposes only, SIP-DECT allows configuration of a URL via the OMM Web service or OMP to use an alternative DECT phone software image (see section 5.4.1.8). The Mitel 600 DECT phone firmware packages are delivered in the 600.dnld file for the OMM running on a DECT base station. For large installations using a Linux Server-hosted OMM, a DECT base station software images
(iprfp3G.dnld and iprfp4G.dnld) without Mitel 600 DECT phone software is available to reduce network traffic in update scenarios. The DECT phone firmware packages are included in the OMM installation package for Red Hat Enterprise Linux (RHEL) and CentOS for the Linux server version of the OMM. Please note: An DECT base station upgrade from SIP-DECT 3.0 to 6.0 or later is not supported due to the extended DECT base station software image. The 3.0 software does not accept the extended software image. For large installations using a Linux Server OMM, the DECT base station software images
(iprfp3G.dnld and iprfp4G.dnld) without Mitel 600 DECT phone software can be used. This software image supports a direct RFP upgrade from SIP-DECT 3.0 to 6.1. 4th Generation RFP houses the OMM 2.13.1.1 The 4th generation RFPs come with more hardware resources in terms of CPU speed and memory. It is recommended to operate the OMM on a 4G RFP. Please note: If you move the OMM and you want to keep the existing dynamic user phone relation which is stored in the OMM DB backup file, then activate the option Preserve user device relation at DB restore in the new OMM. The new OMM restores the relation between the user and the DECT phone during DB import. If this option is not set, then all dynamic user gets logged out from their DECT phones when importing the OMM DB into the new OMM. 28 Enhanced Feature Overview If the OMM is operated on 4G RFP, then 1024 DECT users and phones are supported. (512 DECT users and phones if the OMM is operated on a 3G RFP). The 4G RFP comes with the configuration button, which allows to switch to the SIP-DECT with Cloud-ID
(SDC) mode. As of SIP-DECT 8.0, a 4G RFP is required to run an SDC OMM. 2.13.2 CENTRAL DECT PHONE CONFIGURATION OVER AIR (COA) SIP-DECT 6.0 and later supports centralized DECT phone configuration over the air (CoA) for Mitel 602 DECT phones. DECT phone CoA is useful for deployment of special configuration to a single DECT phone or a large number of DECT phones. No local access to the DECT phone is required. DECT phone CoA is implemented by providing additional configuration information to the well-known configuration files or providing profiles via OMP. Configuration can be changed at the device level
(DECT subscription) or the user level (based on login). Configuration of all DECT phones with a predefined default profile is also supported. Up to 20 possible DECT phone profiles make it easy to adapt to different usage scenarios for heterogeneous user groups
(e.g., nurses and doctors in hospital environments). See section 8.23 for more information on this feature. CoA enhancements 2.13.2.1 The Mitel 602 DECT phone 6.1 firmware (bundled with SIP-DECT release 6.1) includes new features which are configurable via Configuration over Air (CoA). New configuration commands allow you to overwrite local key programming on the Mitel 602 DECT phones. SIP-DECT 6.1 also supports configuration of the new XML application hooks introduced for the XML terminal interface via CoA (see section 2.32). In addition, the Mitel 602 DECT phone 6.1 firmware introduces variable lists. A variable list includes a number of items, each of which corresponds to an action to be performed on the DECT phone. For more information, see section 8.23.5. 29 SIP-DECT OM System Manual 2.13.3 OMM DECT PHONE PROVISIONING While some users in the SIP-DECT system use a dedicated DECT phone, it is also possible to operate shared DECT phones. The SIP-DECT solution provides an enhanced DECT phone sharing and provisioning concept that enables the management of a large number of DECT phones and provides a flexible subscription model. The SIP-DECT system allows logging into and out of different DECT phones with a personalized user account, import of user data from an external provisioning server, automatic subscription of new DECT phones, and control of subscription-specific system functions from DECT phones. See the SIP-DECT DECT Phone Sharing and Provisioning Guide for details on this feature. 2.13.4 MITEL 600 DECT PHONE DIAL EDITOR MODE It is assumed that most customers use digits only in their dialing plan, and that it is more convenient if dial editors support only the digits 0 to 9, * and #. The Dial editor supports digits only flag (on the OMP (System -> Advanced settings -> DECT Phones tab) enables this mode. In this mode, the * has the meaning of a digit to be merely dialed, even if it short-pressed. If the mode is not set to digits only, the short pressed * will change the editor mode to alphanumeric. 2.13.5 MITEL 602 DECT PHONE CUSTOMIZABLE BOOT TEXTS By default, the text shown on the Mitel 600 DECT phone at start up is Mitel-specific (branded in the firmware). Customers can also define their own text (on the OMP (System -> Advanced settings ->
DECT Phones tab). 2.13.6 OMM-CENTRALIZED CALL LOGS SIP-DECT 7.0 introduces support for OMM-centralized call logs for SIP-DECT systems using the Mitel MX-ONE call server. The OMM-centralized call log features the OMM manager caller and redial list entries pushed by the MX-
ONE call server for all DECT phones in the system. When this feature is enabled, DECT phone users can access the OMM-centralized call log on their DECT phones using the existing XML hooks for caller list and redial list. The OMM also handles the missed call notifications for the DECT phone. If the number of missed calls changes, the OMM sends the information to the DECT phone. The OMM sorts the call log entries according to the most recent entry. Call log entries from the same day are listed with the time stamp and older entries are listed with the date stamp. For information on how to enable OMM-centralized call logs, see section 5.9.5.2 (Modifying an XML Hook via the OMM web service) or section 6.12.8.2 (Modifying an XML Hook via the OMP). 2.13.7 USER INDIVIDUAL DECT PHONE PIN KEY LOCK 2.13.7.1 OMM Key Lock with PIN Management 30 Enhanced Feature Overview The Mitel 600d DECT phone family Mitel 612d, 622d, 632d, 650c offers a new PIN management to protect the DECT Phone. As of SIP-DECT 8.0 and the DECT phone SW 7.2, the key lock PIN is managed by the OMM to improve the shift worker support and the roaming between OMMs in a MOM setup. If the DECT phone is subscribed to a SIP-DECT system, the local DECT phone key lock PIN settings are suppressed and the OMM managed PIN is used. Although PIN key lock settings may be suppressed the user can change his PIN. The key lock with PIN can be managed through Web, OMP, OMM configuration files and by the user through the DECT phone UI in System menu/Administration/Key lock. Note that this is not possible for external users, that is, users who are provisioned through user.cfg file. If user data are provisioned through user.cfg files, then the provisioning platform is the data master and there is no option to update data towards the provisioning platform when changed in the SIP-
DECT system. Therefore, data changes in the SIP-DECT system are prevented. For information on how to activate the feature, see section 6.10.4.12 Key lock tab. 2.13.7.2 Resetting DECT Phone PIN If a user has forgotten his PIN to unlock the DECT phone, the administrator can setup a new PIN through OMP, if the phone is reachable by the system; see section 6.10.4.12 Key lock tab. If the DECT phone is not reachable by the system, the phone may be master-reset by a procedure described in the Mitel 600 DECT Phone User Guide. 2.14 HOT DESKING With SIP-DECT 6.2 and later, hot desking functionality, as provided by the MiVoice Business platform, is supported. Users with hot desking permissions are configured in the OMM system without a bound device, and the hot desking capability flag set to enabled. The hot desking capability allows a user to use the same extension on multiple devices. For example, a user who has a hot desk extension can log into the DECT phone and be automatically logged out of the desk phone (and vice versa). The user can initiate a log out from the DECT phone via the Administration menu on the device. 2.15 CONFERENCING To improve the integration with different SIP servers, SIP-DECT includes support for centralized and internal three-way conferencing. The centralized conferencing feature is based on RFC 4579 and supports the use of external third party conference servers (e.g. Broadsoft or Sylantro servers), which are RFC 4579-compliant. SIP-DECT also includes an integrated conference server implementation based on RFC 4579. The integrated conference server offers three-way conferencing to SIP-DECT users who are hosted on SIP servers without their own conference solution. The centralized as well as the integrated conferencing feature allows users to:
merge two active calls together into a conference call transfer another party into the conference when on an active conference call 31 SIP-DECT OM System Manual disconnect from an active conference call while allowing the other participants to remain connected Regardless whether the centralized or the integrated conferencing is used, conferences can be initiated from the Mitel 600 and Mitel 142d DECT phones. For a detailed description of conferencing functionality, see section 8.21. 2.15.1 CONFERENCING AUDIO NOTIFICATION The SIP-DECT Integrated Conference Server (ICS) notifies all conference participants when someone is joining or leaving the conference. The notification is a specific tone for joining and a specific tone for leaving the conference. 2.15.2 CENTRALIZED CONFERENCING WITH MIVOICE BUSINESS SIP-DECT 6.1 introduces support for centralized conferences hosted by the MiVoice Business platform. The SIP signaling implemented by the MiVoice Business platform require that the SIP-DECT implementation initiate a conference via blind transfer. The conference mode (External blind transfer) can be configured globally for all SIP-DECT users (via the OMP System -> SIP -> Conference tab) or configured individually for SIP-DECT users (via the OMP DECT Phones -> Users -> Conference tab). SIP-DECT 6.1 also introduces a new Feature Access Code. The new Blind transfer Feature Access Code allows a user to initiate a SIP blind transfer from the Mitel 600 DECT phone. You can configure the FAC via the OMM web service (see section 5.9.4) or the OMP (see section 6.12.2). Please note: Overlap sending is not supported for FAC. The blind transfer FAC and the following transfer target number must be entered en-bloc. The blind transfer FAC cannot be triggered manually from the dial editor. To support the integration of SIP-DECT with the MiVoice Business platform, SIP-DECT 6.1 extends the XML terminal interface for the Mitel 600 DECT phone to include new predefined XML application hooks. These additional functions can be applied to the DECT phone's programmable keys or accessed from a menu. You must configure the appropriate hooks in the OM via the OMM Web service or OMP (System Features -> XML Applications) to make the applications avialable on the Mitel 600 DECT phones. 2.15.3 N-WAY CONFERENCING SIP-DECT introduces off release 7.1 support of n-way conferencing in conjunction with third party conference servers which are compliant with RFC4579 (for example, Broadsoft). This functionality allows to easily extend an already established 3-way conference by adding further participants. The creator of the conference has to execute the following steps to accomplish this:
make an inquiry call to the next participant. if the called party accepts the call, then enter the options menu. select entry "conference". the called party is added to the conference. 32 Enhanced Feature Overview 2.16 SIP OVER UDP/TCP/TLS In addition to UDP, SIP-DECT also supports TCP and TLS as transport protocols for SIP signaling. The OMM provides the following transport protocol modes:
UDP: All SIP messages are sent/received via UDP TCP: All SIP messages are sent/received via TCP UDP/TCP: All outgoing connections are always set up via TCP, but incoming SIP messages are also accepted when sent over UDP TLS: All SIP messages are sent/received via TLS connections Persistent TLS: All SIP messages are sent/received over TLS connections. The OMM tries to keep the connection to the SIP server open permanently. 2.17 SIP MULTIPORT Some call server platforms (e.g. Cisco CUCM) and internet telephony provider environments (SBCs) do not accept SIP registration from different users who have the same IP address and port, but require a unique source signaling port for every SIP extension. By default, the OMM uses one source port for all extensions, but does allow the configuration of individual local signaling ports for users and conference rooms. The port range is set per protocol (i.e., UDP/TCP and TLS), and must not overlap with other ports in use. The following parameters can be configured or read per user (see section 6.10.4) and conference room:
Fixed port: Port used explicitly for SIP signaling. If set to 0, an automatically calculated port is used for this user or conference room. The default is 0. Calculated port: A read-only parameter whose calculation is based on the internal user or conference room ID and a configurable port range, in a way that all users or conference rooms are spread over the range. The calculation is based on the following rules:
UserPortCount = UserPortRangeStart - UserPortRangeEnd + 1 UserPort = ((UserID 1) % UserPortCount) + UserPortRangeStart ConfRoomPortCount = ConfRoomPortRangeStart - ConfRoomPortRangeEnd + 1 ConfRoomPort = (ConfRoomID % ConfRoomPortCount) + ConfRoomPortRangeStart The Calculated port is first updated with the SIP registration of the user or conference room. Depending on the Register Traffic Shaping settings and the number of users/conference rooms, the update may take some time. The port ranges used for the port calculation can be configured globally for all SIP DECT users and conference rooms via the OMP (see section 6.5.4.1). Please note: To provide each user and/or conference room with a unique port using the port calculation, the port range must be greater than or equal to the number of users or conference rooms. 33 SIP-DECT OM System Manual Configuration Rules for Port Ranges Please note the following configuration rules for configuration of the UDP/TCP and TLS port ranges:
Port ranges for users and conference rooms may not overlap. A port range configured outside the defaults (5060, 5061, 4060, 4061) can be within the range 17000 32767. Port ranges may not overlap with the ports of other OMM services. See section 12.6 for a list of all protocols and ports. If the OMM is running on a DECT base station, the ranges may not include ports used by other DECT base station protocols. See section 10.4 for a list of all ports and protocols. The port range for conference rooms is limited to 100 ports. The port range for users is limited to the following:
RFP OMM: Maximum 512 ports (1024 ports if OMM runs on RFP 4G). Linux Server OMM: Maximum 10,000 ports. 2.18 UTF-8 ENCODING The UTF-8 support allows the display of a wider range of language specific characters (e.g., umlauts) and facilitates localization for different markets. The OMM and the Mitel 600 DECT phone family support UTF-8 for text messaging. In addition, the OMM and the Mitel 600 DECT phones support an extended character set for User parameters (configurable via WEB, OMP or external user configuration files) System name User name Number SIP display names und SIP user ids of incoming and outgoing calls Call logs LDAP directory access XML terminal interface objects For third-party GAP DECT phones, Mitel DECT 142 / Mitel 142d or Mitel 600 with older firmware releases, the UTF-8 character set is not supported. If possible, the OMM maps UTF-8 character to LATIN-1. Please note: The available set of characters is defined by the DECT phone. Please see
/31/. User configuration files must be encoded in UTF-8. 2.19 ALPHANUMERIC DIALING SIP-DECT supports the dialing of alphanumeric characters. This allows a user to dial names (e.g. Heinrich.Mueller) as well as digits. 34 Enhanced Feature Overview If SIP URI dialing such as name@domain is used, you must use an (outbound) proxy that supports the interpretation of SIP user names, including domain names. Please note: The Digit treatment feature handles dialed digit strings only. It cannot be applied with UTF-8/alphanumeric dialing. 2.20 VOICE MAIL NUMBER You can configure a system-wide voice mail number. This number is used by the Mitel 600 DECT phone family if a voice box call is initiated. The system-wide voice mail number can be overruled by a user-
specific voice mail number. If there is no voice mail number configured or another type of DECT phone is used, the voice mail number must be configured locally on the DECT phone. Please note: The voice mail number is supported by the external user data configuration files. The parameter UD_VoiceMailNumber can be set in the user_common.cfg and/or user.cfg or LoginID.cfg e.g. UD_VoiceMailNumber=222. For details, see the SIP-
DECT DECT Phone Sharing and Provisioning Guide. 2.21 CALL HANDLING SIP-DECT supports a number of features for enhanced call handling. 2.21.1 DIVERSION INDICATION The OMM supports the displaying of diversion indications for Mitel 142d and Mitel 600 DECT phones based on the SIP Diversion Header defined in RFC 5806. This feature is only available with iPBXs generating such Diversion Headers. When an outgoing call from a Mitel 142d / Mitel 600 phone is being diverted to another destination (i.e. via call forward), the phone displays the Caller ID (phone number and/or caller name) of the new destination and the reason for the call diversion (if delivered from IPBX). Similarly, at the new destination, the Caller ID of the original call destination is displayed. Example:
1 Tim calls Mark at 5142. 2 Marks phone is busy and diverts the incoming call to Roger at 5141. 3 Tims phone displays the extensions where the call is being diverted to and the reason for diverting the call. 4 Rogers phone starts ringing and displays the name and number of the phone the incoming call (Tim) and the original called destination (5142). 35 SIP-DECT OM System Manual 2.21.2 CALL COMPLETED ELSEWHERE SIP-DECT supports the SIP Reason header field defined in RFC 3326. When SIP-DECT receives a CANCEL request including a Reason header field with cause=200, the incoming call will be marked as accepted in the local incoming call logs of the Mitel 600 and Mitel 142d phones. 2.21.3 SEMI-ATTENDED TRANSFER The SIP message sequence for a Semi-Attended Transfer allows the transferor to start the transfer while the target phone is still ringing. SIP-DECT supports different behaviors for semi-attended transfers. This can be configured on the OMP SIP -> Advanced settings tab (see section 6.5.4.2). The supported modes are:
Semi-attended transfer mode Refer-to with replaces Behavior Blind Blind Attended No Yes
-
The semi-attended transfer is handled as a blind transfer. The phone sends CANCEL before REFER for semi-attended transfer. The semi-attended transfer is handled as a blind transfer. The phone sends REFER with Replaces for semi-attended transfer and no CANCEL. This behavior is not SIP compliant but necessary for some iPBX platforms. The semi-attended transfer is handled as an attended transfer. Both lines of the transferor remain active until the transfer succeeds. This behavior is compliant to RFC 5589. Please note: The mode Semi-attended transfer mode: Blind with Refer-to with replaces:
yes is not SIP compliant and should only be used on iPBX platforms that require that signaling. 2.21.4 THIRD LINE HANDLING FOR MITEL 142D AND 600 DECT PHONES In earlier implementations of SIP-DECT user call control, a waiting call forces the user to react to that call (accept or reject), before he can use other supplementary services like call transfer, conference or inquiry call options. 36 Enhanced Feature Overview In the new implementation, a third line is reserved for call waiting purposes. The waiting call is kept in the background, even if the receiving user decides to finish supplementary services first (see rule at the end of this subsection). It is also kept, if two lines are already used for brokering (in the former implementation, the incoming call was answered with busy state). After one of those lines is released, the waiting call can be accessed by the known means (by R-key or the referring menu options). Please note: The Third Line Handling is available for Mitel 142d and Mitel 600 DECT phones, but not for third party GAP phones. Third Line Handling follows the existing MMI philosophy of the DECT phones. If the user wants to continue supplementary services when a call comes in:
R-Key will accept the incoming call. All supplementary services will involve that incoming call directly or indirectly. Selecting Transfer or Brokering offers the possibility to keep the waiting call and continue supplementary services with the former line only. The waiting call is not involved but can be accepted later. Please note: The Third Line Handling feature offers the option to receive a further incoming call only. A user cannot open a third line as the active part (e.g. to open a further third line for an inquiry call in a brokering situation, where two lines are already involved). 2.21.5 CALL TRANSFER ENHANCEMENTS FOR MITEL 142D DECT PHONES The blind transfer has been slightly simplified. The second confirmation after selection of the transfer targets number by the start button is removed. So the steps are reduced to:
Press I-Key within a basic call Select Transfer Select editor or phonebooks Edit or select destination and press OK In earlier OMM releases (SIP-DECT 4.0 and earlier), call transfer had to be initiated via menu. Pressing the hook key led to the release of the active line and a callback menu popped up. The OMM now allows the use of the hook key for call transfer, as it is already known from Mitel 600 DECT phones. To enable this feature, the administrator must enable the Call Transfer by Hook feature in the OMP System -> SIP -> Supplementary Services menu. To initiate a transfer via the hook key, do the following:
initiate an inquiry call and dial wait for completed connection (optional) press the hook key You can still initiate a transfer via the menu. If the transfer by hook capability is set, the release of the active line in brokering state must be done via the menu option Release:
Press I-Key within an inquiry call or brokering state 37 SIP-DECT OM System Manual Select Release 2.22 TRUNCATING SIP USER NAME IN SIP URI If user name info in SIP to-/from-/contact headers or p-asserted-identity is extended by a suffix, which is separated by a semicolon, this suffix is truncated before the username is printed to call displays or DECT phone internal call logs. Example: If the DECT phone receives Contact: "Dominique B. sip:5405;openSipsTestproxy@testlab.mitel.randd.com only 5405 will be extracted as user name to be printed. The display name Dominique B. will also be shown, but the extension openSipsTestproxy will be removed. To enable this feature, the administrator must set the Truncate Caller Identification parameter in the OMP System -> SIP -> Supplementary Services menu. 2.23 OM LOCATING APPLICATION You can set up a system to locate and track DECT phones in your DECT system. This includes a separate Web user interface, which for example can be operated by service personnel to locate a DECT phone that has triggered an alarm. See the OpenMobility Locating Application User Guide for details
(see /27/). The OM Locating application can display small maps showing the placement of a DECT base station. In earlier SIP-DECT releases, these graphic maps had to be generated manually by using a graphic editing program. The OM Management Portal (OMP) can be used to generate the graphic map images needed by the OM Locating application. Images showing the floor plan of the buildings belonging to the OM system can be imported into the OMP. In a next step the RFPs of the SIP-DECT system can be placed on these images with drag and drop. Finally for each of the RFPs, the graphic map images will be generated in the format and size as required by the OM Locating application. The process and the OMP functionality for this feature are described in detail in section 8.26. 2.24 EXTENDED MESSAGING You can set up an extended messaging and alarms system (e.g. to provide automated reactions on alarms triggered by DECT phones or on alert messages). The extended messaging system may also provide message-based services, and may also be integrated with external computer systems. See the OpenMobility Integrated Messaging & Alerting User Guide for details. 2.25 VIDEO SUPPORT The SIP-DECT solution supports snapshot images and video streaming via USB video devices connected to DECT base stations. 38 Enhanced Feature Overview 2.25.1 USB VIDEO DEVICES You can configure and use USB video devices that are fully supported by the UVC video class device driver. The USB video device is connected to the USB port of a SIP-DECT RFP 35. In conjunction with the Surveillance feature of the OM Locating application, the USB video devices generate snapshot images and video streams. One USB camera (only the types Logitech HD Webcam C615 or Logitech HD Pro Webcam C920) can directly be connected to a SIP-DECT RFP 35/43. Such cameras are used as well with the OM Locating Application as with the Terminal Video feature. For a detailed description see section 8.27. 2.25.2 TERMINAL VIDEO With SIP-DECT 5.0 and later, the Mitel 602 DECT phones support video streams from cameras connected to SIP-DECT base stations RFP 35/43. When a user has the video stream permission, he can choose in the system menu from a list of cameras to connect. Video Streaming is only available when the DECT phone is connected to a 3rd or 4th generation RFP and the permission is set for the site and the DECT phone. 39 SIP-DECT OM System Manual Video streams are treated like a call by the DECT phone, and require two (of eight) air channels on the RFP for each stream. The DECT phone can also perform handover between DECT base stations with an active video connection. A video connection is automatically terminated by the system in case that any related capability (e.g. video stream permission) is changed. The maximum number of simultaneous terminal video streams per camera is restricted to 10. Connection and configuration of cameras is similar to the steps for the locating application. Special steps necessary for terminal video are:
Enable all sites that have the technical capability (only 3rd or 4th generation RFPs) via OMP for terminal video. Enable the additional service Video stream permission via OMP (DECT Phones ->
Users) for those users who are allowed to use this feature. Please note: It is strongly recommended to set the radio fixed parts attributes building, floor and room, if you configure a huge system with a large number of cameras. This will ease the selection of cameras on the DECT phone menu. A video camera must be configured in OMP before it can be offered to applications and the Mitel 602 DECT phones. The selection of the menu Cameras is offered in the Mitel 602 DECT phone System menu (e.g. long press on Menu >>>), if at least one camera is plugged and activated by the enable flag the DECT phone user has the permission to select cameras the DECT phone is located within a site, which allows terminal video Navigation within the camera menu will be done by OK (and ESC) keys. To establish a video stream, press hook off if the name of your camera is selected. If the number of cameras exceeds the visible lines of the DECT phones display, the presentation is arranged hierarchically. In this case, at least one sublevel must be selected before camera names are offered. The hierarchy of the referenced DECT base station (site, building, etc) is inherited for that purpose. The destination of a video call is added to the DECT phone internal redial list. Please note: Audio calls or any system service activities are not possible during an established video link. Any kind of auto callback (initiated by a message or pushed by XML notification to direct dial) is not supported for video calls. 2.26 USER MONITORING The OMM monitors the status of the users DECT phone to verify the users availability to receive calls or messages. By default, passive and active user monitoring is disabled. In addition to the standard request, response and notification messages, the OMM generates alarm triggers if a user becomes unavailable. The alarm triggers can be consumed by the OM IMA, the OM Locating application, or another application using OM AXI. If a user becomes available again, the OMM sends an additional alarm trigger to indicate the change in status. 40 Enhanced Feature Overview User status information is available via OM AXI and OMP. For a detailed description of the User monitoring feature, see section 8.29. 2.27 CORPORATE DIRECTORY INTEGRATION The SIP-DECT solution supports integration of up to five directory servers. The configured directories are displayed in a list on the Mitel 600 DECT phone when the user invokes the central directory function, and search by name to retrieve phone or mobile numbers (as well as email addresses for SIP-DECT messaging applications). Note that users can only access one directory at a time. SIP-DECT supports LDAP and XML directories, and as of SIP-DECT 6.2, Broadsoft XSI-based directories are also supported. XML-based directory services can be implemented using the XML terminal interface. The SIP user name and SIP authentication credentials can be used for directory access, or can be specified separately. If different from the SIP user name and authentication credentials, the user name and credentials must be explicitly configured for each user. For configuration information see section 6.12.5. 2.28 INTEGRATION INTO EXTERNAL MANAGEMENT SYSTEMS You can use the following features to integrate the SIP-DECT system into external management systems:
Each DECT base station may run an SNMP agent that can be queried by SNMP management software (see 8.19). To further integrate into external configuration management systems, the DECT systems configuration is available my means of ASCII-based configuration files. You can configure automatic import of configuration files from an external server. For more information, see section 8.8. The OM AXI software application interface can also be used for integration into external systems. See the OM Application XML Interface (OM AXI) specification, see /31/. 2.29 SYSTEM CONFIGURATION TOOLS You can configure and maintain the SIP-DECT system with two different applications:
the Web-based OMM Web service (see section 5) the Java-based OM Management Portal (OMP, see section 6) Both applications support the essential configuration and administration settings required for smaller SIP-DECT systems. However, for larger SIP-DECT systems using enhanced features, some settings are only available in the OMP application. The following table lists the features and settings that are available in each configuration tool:
Feature Web OMP 41 SIP-DECT OM System Manual SNMP configuration DB management: User data import Configuration and start of a system dump Download system dump to PC Event information display (Event log) WLAN profile configuration Dynamic DECT phone subscriptions (OpenMobility provisioning) Locating settings for DECT phone Paging areas Alarm Triggers DECT base station sync. View DECT base station statistics DECT base station data export Capturing unconfigured DECT base stations Configuration of XML applications (SIP-DECT XML terminal interface) Configuration of SIP backup servers User monitoring Yes No Yes No Yes Yes No No No No No No No Yes Yes No No Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes 2.30 SIP ENHANCEMENTS With SIP-DECT 6.0 and later, the SIP-DECT solution provides several enhancements to the SIP protocol implementation. 2.30.1 GLOBALLY ROUTABLE USER-AGENT URIS (GRUUS) Globally Routable User-Agent URIs (GRUUs) provide a way for anyone on the Internet to route a call to a specific instance of a SIP User-Agent. IP-DECT provides GRUU support according to RFC 5627. A sip.instance is added to all non-GRUU contacts. You can enable or disable this support via OMP or Web service (System -> SIP -> Basic Settings). 2.30.2 SESSION TIMER SIP-DECT supports RFC4028 Session Timers in the Session Initiation Protocol (SIP) to keep call sessions alive and to determine whether established call sessions are still alive. You can configure the session refresh period via OMP or Web service (System -> SIP -> Advanced Settings). 2.30.3 SIP CONTACT MATCHING In special Network Address Translation (NAT) environments, the Contact URI in a SIP response to a REGISTER request may not match the URI originally sent out. 42 Enhanced Feature Overview In such cases, SIP-DECT offers the SIP contact matching configuration parameter. You can enable this parameter via OMP or Web service (System -> SIP -> Advanced Settings). 2.30.4 CONFIGURABLE CALL REJECT STATE CODES The SIP status codes for user-rejected calls and device-unreachable calls are configurable via OMP and Web service (System -> SIP -> Advanced Settings). 2.30.5 CALL RELEASE TIMERS SIP-DECT 6.0 or later allows changing certain system default timers. These timers determine the DECT phone call behavior when calls are released by the B party. You can configure the Call release timeout, Hold call release timeout, and Failed call release timeout parameters via OMP or Web service (System -> SIP -> Supplementary Services). 2.30.6 INCOMING CALL TIMEOUT Incoming calls are automatically rejected when the user does not answer the call within 180 seconds. This time period is too short for special customer use cases. You can configure this interval through the Incoming call timeout parameter through OMP or Web service (System>SIP>Advanced Settings). 2.30.7 CALL REJECT ON SILENT CHARGING If the following 2 conditions are fulfilled, all Mitel 600 DECT phones reject incoming calls:
If the flag Call reject on silent charging is set. If the phones are in charging mode and silent charging is activated in the phone. If the flag is set by OMP or WEB service. The parameter is grouped under System>SIP>Supplementary Services. 2.30.8 ROUTE HEADER In some special environments, SIP outbound proxies do not support SIP Route header. For such cases, SIP-DECT offers the Remove route configuration parameter. If this parameter is enabled, SIP Route headers are not added to SIP messages sent to outbound proxies. You can enable this parameter through OMP or through Web service (System>SIP>Advanced Settings>General). 2.30.9 MWI SUBSCRIPTION PERIOD SIP-DECT supports MWI subscription based on /21/. The configuration parameter Explicit MWI subscription period enables configuring the requested duration in seconds, which is the interval at which SIP-DECT re-subscribes to MWI before the MWI subscription times out. You can enable this parameter through OMP or through Web service (System>SIP>Advanced Settings>General). 43 SIP-DECT OM System Manual 2.31 AUTO ANSWER, INTERCOM CALLS AND AUDIO SETTINGS Certain call features force the DECT phone to call a specified SIP user automatically and, as an option, to establish a speech path immediately without any intervention by the DECT phone user. SIP-DECT allows control of the following audio settings on the DECT phone to prevent unauthorized parties from hearing the call:
Speech path can be initially set to be muted A warning tone may be generated SIP-DECT also supports intercom calls. This means that the originating party can force the called partys phone to establish a speech path immediately. Control of the same audio settings applies. 2.31.1 INTERCOM CALLS A DECT phone can be forced to answer an incoming SIP call automatically if certain information is included in the SIP header. A DECT phone user can also initiate an intercom call, which automatically triggers the destination to talk. Intercom calls can interrupt active calls (barge in). If it is an established basic call, the active call is put on hold. In more complex call situations, a barge in always supercedes existing active calls, unless the active call is a SOS call. The call is identified as an intercom call if the SIP INVITE header includes:
a Call-Info header containing answer-after=0 an Alert-Info header containing info=alert-autoanswer Please note: This feature is only available for Mitel 600 DECT Phones, version 4.0 or higher. Barge-in of incoming intercom call 2.31.1.1 If a barge in action on an existing call is necessary, note the following rules about the treatment of existing active calls:
If the user is in a basic call (one line already active) or is brokering (two lines are used), the active line is placed on hold and kept in the background. No line is released. Incoming ringing calls which are not yet connected are converted to waiting calls. If a third line is open due to a waiting call, that call is released and the line is replaced by the intercom call. Outgoing calls that have not yet been answered and are in a dialing state, are released. If a call is on hold by the B party, the call is released. An on-hold by the B party is difficult to maintain while another line has an active audio stream. Normally, the user should be able to resume the interrupted calls again when the intercom call is finished. However, the calls may fail if several maintained lines collide with call exceptions (e.g., a failed call transfer that was maintained in the background). Please note: Barge-in is rejected if the DECT phone is part of a SOS/alarm call. 44 Enhanced Feature Overview 2.31.1.2 Outgoing intercom calls A DECT phone can initiate an intercom call. The user must dial the configured access code, followed by the destinations user id / number. If a DECT phone generates an intercom call, an Alert-Info header is added to the SIP INVITE:
the Alert-Info header contains <http://x>info=alert-autoanswer 2.31.2 AUTO ANSWER AUDIO SETTINGS You can configure global auto-answer settings through the OMM Web service or the OMP. Global settings are valid for all DECT phone users in the system, except users who have individual settings. Incoming call settings:
Auto answer allowed (default: true) Microphone mute (default: true) Warning tone (default: true). A short ringtone is played if there are no active calls. If there is an active call in a barge in situation, the ringing will be in-band. Allow barge in (default: true) Outgoing call setting:
Dial prefix (default: string is empty). Empty string means that an intercom call cannot be initiated by a DECT phone. User-specific incoming call setting 2.31.2.1 You can set user-specific settings via OMP, but not the OMM Web Service. Default values for all parameters are inherited from global settings. 2.32 SIP-DECT XML TERMINAL INTERFACE The SIP-DECT XML terminal interface allows external applications to provide content for the user on the DECT phones display and much more. The interface is derived from the XML API for Mitel SIP Phones and coexists with the OM AXI features e.g. text messaging. Partners can get access to the interface specification /37/ by registering for the A2P2 program. To call a certain URI, there are a number of hooks available for the Mitel 600 DECT phones which can be put on a programmable key or can be called from a menu. You can activate the predefined XML hooks via the OMM Web service (see section 5.9.5) or the OMP (see section 6.12.8). You can also activate the XML hooks through the Configuration over Air (CoA) feature, see section 8.23 for more information. Please note: From SIP-DECT release 3.1 on, behavior for XML objects has been added or changed (see SIP-DECT XML terminal interface specifications for more details). 2.32.1 FEATURE ACCESS CODES TRANSLATION Many PBXs allow the control of PBX supplementary services by dialing specific numbers called feature access codes (FAC). SIP-DECT supports the Feature Access Codes Translation XML application to avoid conflicts between SIP-DECT feature access codes or digit treatment rules and PBX feature access codes. If Feature Access Codes Translation is activated, SIP-DECT users can chose FAC menu on 45 SIP-DECT OM System Manual the Mitel 600 or Mitel 142d DECT phones in any call state and enter the feature code en-bloc. The input is sent to the PBX (Application server) within a URI request. This feature can be configured using OMP on the XML applications page (see section 6.12.8). 2.32.2 RING TONE SELECTION FOR (ALARM) MESSAGES This feature extends the capability to set ringer tones to provide an acoustic signal to the receiver of a message and is related to messaging configuration and management function described in the OM Application XML Interface Specification. In previous SIP-DECT releases, the melody field offered ten tones, selected by an identifier. In the current release, the explicitToneSelection field allows the user to select a tone, which does not have to belong to the set of melody tones, by the name string. If both are set, the explicitToneSelection value takes precedence. IMPORTANT : Depending on the DECT phone, not all strings may work. The string value is not checked for correctness. Invalid or unknown string values are ignored. Please note: The OM Message & Alerting License is required to use these features. 2.33 SOFTWARE UPDATE DISPERSION SIP-DECT supports following 2 features to control and manage the update process in SIP-DECT system:
Time-controlled Daily automatic reload of configuration and firmware files Time-controlled RFP software update A new configuration parameter Maximum delay allows a randomly spread over the given delay, when a reload or an update starts. The additional new configuration parameter Autonomous SW update check by OMM allows to disable the default behaviour of the RFP-OMMs to check for a new software image, whenever a RFP re-configuration (DHCP renew, OM Configurator, ipdect.cfg, <MAC>.cfg) happens. 46 Licensing 3 LICENSING 3.1 LICENSING MODEL Licenses are required based on the SIP-DECT system size and feature set. Licensed features include:
the number of configured DECT base stations the Messaging application the Locating application For information on the messaging and locating applications see the appropriate documents listed in the References section (section 10.8). Note: A license to upgrade the SIP-DECT software to a SIP-DECT 6.0 or later is no longer required. The License settings page in the OMM Web Service provides a summary of the SIP-DECT licenses installed. 3.1.1 SYSTEM LICENSES To properly address small, medium and large installations, the SIP-DECT offering is split into the following categories, according to system size. Note: As of SIP-DECT 6.0, no distinction is made between DECT base station brands. License and feature rules apply equally to all DECT base station types (standard RFP, L-RFP). Only the DECT base station hardware determines available functionality. 47 SIP-DECT OM System Manual Small systems 1 .. 5 DECT base stations No license required Telephony and basic messaging only No locating or enhanced messaging functionality PARK code for up to 256 DECT base stations required for operation (provided by the online PARK service) Note: Existing SIP-DECT systems with up to five L-RFPs are automatically migrated to the integrated license model. Larger systems still require a valid license file. Medium systems up to 256 DECT base stations (minimum 3 DECT base stations) OM System License required for the number of DECT base stations (10, 20, 50, 100, etc) Licenses for Messaging and Locating can be added PARK code for 256 DECT base stations included in license file Large systems up to 4,096 DECT base stations OM System License required for the number of DECT base stations OpenMobility Manager (core software) resides on one or two Linux-based PCs Licenses for Enhanced Messaging and Locating can be added PARK code for 4096 DECT base stations included Note: With SIP-DECT Release 6.0 or later, there is no longer a demonstration mode for the OMM. 3.1.2 ABOUT G.729 CHANNELS With SIP-DECT Release 6.0 or later, the number of G.729 channels is no longer limited to a specific fixed number or license. The number of G.729 channels depends only on the resources available (i.e., DECT base station capacity and number of base stations). 3.1.3 PARK SERVICE A Portable Access Rights Key (PARK) is required to operate a SIP-DECT system with up to five DECT base stations. (For systems with more than five DECT base stations, the generated license file contains the PARK code). With SIP-DECT 6.0 or later, the PARK code is provided via a centralized Web service;
you do not need to enter the code manually (as in earlier SIP-DECT releases). A PARK for up to 256 DECT base stations is available upon request from the OMM Web service. 48 Licensing You must have an internet connection to access the online PARK service. If no internet connection is available, you can download a PARK request file from the OMM (PARK service URL is https://parkmanager.mitel.com/pm/parks/fetch.xhtml) and upload it to the PARK server from a computer that is connected to the Internet. You can then import the file into the OMM. If you have a valid license file that includes a PARK, this mechanism is not necessary. 3.1.4 UPGRADE LICENSE With SIP-DECT Release 6.0 or later, you do not require a license to upgrade to a newer release. Older systems with an OM Activation License for L-RFPs (3..20 RFP-L) require a license upgrade, which is available from the License server at no cost. Note that you must already have three MAC addresses registered on the license server for the license upgrade. 3.1.5 GRACE PERIOD The OMM identifies medium and large systems using the unique PARK as well as the MAC addresses of up to three DECT base stations (called validation RFPs here). Three DECT base stations guarantee redundancy when a hardware or network error occurs. An odd number of DECT base stations prevents system duplication by splitting the system into two separate parts. When the first validation DECT base station is disconnected, the OMM generates a warning and displays the message on the Status page of the OM Web service (see also section 5.3). If the second validation DECT base station is disconnected, the OMM treats it as a license violation, and starts the timer on a 30-day grace period. When the timer expires, the OMM restricts all licensed features. When the validation DECT base stations are reconnected to the OMM, the grace period is incremented until it reaches its maximum of 30 days. 49 SIP-DECT OM System Manual 3.1.6 LICENSE VIOLATIONS AND RESTRICTIONS A license can be violated in three ways:
The number of configured items exceeds the number of licensed items. In this case the associated feature is restricted:
the audio stream of calls is dropped after 30 seconds when the number of connected DECT base stations exceeds the licensed number the messaging application limits the type of messages to info, low, normal and high the locating feature is stopped For SIP-DECT 5.0 (or older) systems, the software version in the license file does not match the software version running on the OMM. The OMM has no connection to at least two of the validation DECT base stations and the grace period has expired. The restrictions above are in place until at least two validation DECT base stations are reconnected to the OMM. 3.2 UPLOADING A LICENSE FILE A license file must be generated on the Mitel license server. The license confirmation provided when you order your system contains detailed information on how to generate the license file. The file can be uploaded into the OMM either via Web service (see section 5.10) or via the OMP (see section 6.13). A license file contains a PARK for system identification. If the newly imported PARK differs from the current PARK, the OMM performs a restart. In this case, all existing DECT phone subscriptions will be deleted. Note:
The file can be opened with a text editor to view the license or activation parameter. The license file includes an installation ID. This ID prevents the administrator from loading the wrong license file with a different PARK (resulting in all DECT phones being unsubscribed). The download page for the license file displays the installation ID. If no Installation ID is configured (value 0, which is the default), the ID is automatically set while loading the license file. If the ID does not fit to the license file, the license file import will fail. The installation ID does not change when you load a new license file from the license server, unless the PARK has changed. 50 The SIP-DECT license file format prepares the system for receiving licenses from Mitel PBXs or to act as a license key server for other Mitel products in future releases. Please note: New license files (as of SIP-DECT 5.0) are not compatible with previous versions of SIP-DECT systems (SIP DECT 2.1 4.0). Licensing 3.3 LICENSE MODELS 3.3.1 SMALL SYSTEM (UNLICENSED) When changing the PARK on the System settings page of the OM Web service, the OMM uses the built-in license resp. the standard license for a small system. The built-in license for small system features:
up to five DECT base stations standard telephony sending messages from DECT phones for all users no locating Messaging features are generally restricted to type Info, Low, Normal and High for all users (no Emergency and no Locating Alert). When there are more than five DECT base stations configured, only the first five base stations stay in the configuration database. All other base stations are dropped silently. 3.3.2 MEDIUM OR LARGE SYSTEM When the PARK is set through the upload of a license file, the OMM enters the licensed state. In this state the OMM uses the following license features coded into the license file. System license (Medium):
Three and up to 256 base stations System license (Large):
Three and up to 4096 base stations Software version of the OMM allowed to be executed Messaging license:
Whether clients are allowed to receive alarm messages or have enhanced messaging options Locating license:
Number of locatable DECT phones Whether the locating application is allowed to execute When you generate a license file from the license server, you must enter the MAC address of three base stations. These three validation base stations are used to operate the grace period as described in section 3.1.5. When obtaining the license file from the license server, it is possible to use the PARK used for a small or medium system installation. This prevents the need to re-subscribe all DECT phones. 51 SIP-DECT OM System Manual Note: As of SIP-DECT 6.0, the PARK can no longer be changed manually on the System settings page of the OM Web service. 52 Getting Started 4 GETTING STARTED The following example describes the steps required for a minimal SIP-DECT configuration. 4.1 BASE STATION STARTUP CONFIGURATION Start up information for each DECT base station needs to be provided by DHCP or OM Configurator. To use DHCP, specific vendor options must be configured in the DHCP Server for SIP-DECT (see section 8.5.4.1). In this example, the OM Configurator is used to provide a static IP Configuration to the RFPs. 1 Connect the DECT base station(s) to your LAN and power up the units. 2 Open the OM Configurator and select your network interface via the General -> Options menu. 3 Click Scan to find the base stations connected to your LAN (enter user name and password: omm /
omm for initial configuration until start-up) 4 Select a base station entry and double-click for configuration. 5 Enter the configuration parameters for the base station. For configuration details, see section 8.7. 6 Click OK when you have entered configuration parameters. 7 Click Send Configuration to apply the configuration to the DECT base station. 8 To configure the next unit, select another base station entry from the table, set the appropriate parameters (and confirm with OK), and click Send Configuration. Note:
The OM Configurator requires the Java Runtime Environment version 1.7 or higher. 4.2 SYSTEM CONFIGURATION As soon as the OMM starts up, open a browser and connect (https://<IP_address>). Login with the user:
omm and password: omm for the initial configuration. The OMM forces you to change the login, which then also applies to the OM Configurator. The OMM Web service provides basic parameters to setup the system, which is sufficient for this example scenario. To configure the OMM in detail, use the OM Management Portal (OMP). This application requires a current Java 1.7 to run and supports detailed OMM configuration and monitoring. The OMM Web service provides a link to run the OMP application via Java Web start. 53 SIP-DECT OM System Manual 4.3 SYSTEM SETTINGS The OMM System settings menu provides the basic settings to operate the SIP-DECT system. System name: Customer Name Remote access: Allow SSH access Tone Scheme: Scheme to simulate call control tones (country-dependent). PARK: The system needs a PARK code to operate. Use the Online PARK service to obtain a PARK code (see section 3.1.3) (five or more RFP systems). Regulatory domain: DECT regulatory domain applicable to your local region. DECT authentication code: Define as template for the subscription of new DECT phones. Voice mail number: Your system voicemail number. A Mitel 600 phone will then offer the voice box in the Handset menu. 4.4 BASE STATIONS Configure all base stations (formerly referred to as Radio Fixed Parts) from the Base Stations menu
(including the OMM DECT base stations). When you click on the Start button below the Capturing unconfigured DECT base stations caption, the OMM lists all DECT base stations trying to connect. Click on New to configure a new base station. 54 Getting Started The base station configuration requires:
-
base station MAC address
- Name e.g. location
- Site (default: 1)
- DECT active
- DECT cluster (default: 1) The Status for each DECT base station is shown in the Base Stations section. Active: DECT Radio State (Active Connected: DECT base station is connected to the OMM, DECT base station must be configured first.
, Searching
, disabled
, Off
/ - ) 4.5 SIP SETTINGS Configure the SIP connection to the call server that the OMM must connect to in the OMM System ->
SIP menu. Make sure the Advanced checkbox in the top bar is enabled. The SIP user account (SIP-ID, Auth, and password) configuration is part of the DECT Phones configuration. 55 SIP-DECT OM System Manual The default SIP signaling port for SIP-DECT is 5060 / UDP. Change if this is required by the SIP Server. Enter values for the following:
Proxy Server:
PBX IP or DNS Name Proxy Port:
5060 Registration Server: PBX IP or DNS Name Registration Port: 5060 Use the default RTP settings unless your installation requires a different configuration. Use the default DTMF settings unless your installation requires a different configuration. 4.6 DECT PHONES SIP-DECT allows multiple configuration and provisioning methods for DECT phones. In this example we use fixed DECT phones. A SIP-extension must be configured for each DECT phone (user) on the SIP call server. To add a new DECT phone, go to the DECT Phones menu (ensure the Advanced option in the top bar is enabled) and click New. 56 Getting Started Enter values for the following:
Display name: Extension Name Number/SIP user name: SIP-ID e.g. terminal phone number IPEI: Handset hardware identifier (optional) DECT authentication code: Code for Handset subscription. If this field is left empty, the system-
wide DECT authentication code is used (see section 4.3). Authentication user name: SIP user name Password: SIP Extension password To subscribe new DECT phones, subscriptions must be permitted by the OMM. Use Wildcard subscription if no IPEI is set. To subscribe new Mitel 600 DECT phones, open the DECT phone System > Subscriptions menu. Select New system and enter the Authentication code provided in your System Settings (e.g. 123456). The DECT phone prompts you to enter a PARK or to proceed with the subscription without a PARK. Set the PARK if several DECT systems are around, otherwise the DECT phone tries to subscribe to the first available DECT system. 4.6.1 DECT PHONE AND SIP STATE VERIFICATION You can check the DECT phone state and SIP registration status from the DECT Phones page. Click on the magnifying glass icon beside the entry for the DECT phone you just created to view details on the SIP registration status. 57 SIP-DECT OM System Manual Switch the DECT phone off / on to force SIP user registrations. 58 OMM Web Service 5 OMM WEB SERVICE The OMM acts as an HTTP/HTTPS server. The HTTP server binds to port 80 and HTTPS binds to port 443 by default. A HTTP request on port 80 will be redirected to HTTPS on port 443. 5.1 LOGIN The OMM allows more than one user at a time to configure the system. A user must authenticate with a user name and a password. Both strings are case-sensitive. With initial installation, or after discarding all settings, the OMM Web service is accessible via a default built-in user account with user omm and password omm. With the first login to a new SIP-DECT software version, the user must accept the End User License Agreement (EULA) (see section 5.11). If the default built-in user account is active, the administrator must change the default account data
(passwords) of the Full access and root account. The meaning of the different account types is described in section 8.17.1. Please note: The OMM forces a change to the default account data. As long as the passwords are unchanged, the OMM will not allow any other configuration. After login in, the following menus are available (with the Advanced option enabled in the top bar):
Status menu: Displays the system status (see section 5.3). System menu: Allows configuration of general SIP-DECT system parameters (see section 5.4). Sites menu: Allows grouping of DECT base stations into different sites (see section 5.5). Base Stations menu: Allows configuration and administration of the attached base stations (see section 5.6). DECT Phones menu: Allows administration of the DECT phones (see section 5.7). WLAN menu: Allows configuration of WLAN parameters (see section 5.8). 59 SIP-DECT OM System Manual System Features menu: Allows administration of system features like digit treatment and directory (see section 5.9). Licenses menu: Allows administration of licenses (see section 5.10). Info menu: Displays the End User License Agreement (EULA) (see section 5.11). 5.2 LOGOUT If no user action takes place, the OMM automatically logs the user out after 5 minutes. To log out from the system, click the Logout button on the upper right of the OM Web service screen. 5.3 STATUS MENU The Status page provides information on the SIP-DECT system status. In case of system errors, system warning messages are also displayed on this page. 60 OMM Web Service 5.4 SYSTEM MENU The System menu comprises general parameters to configure and administer the system parameters of the SIP-DECT solution. 5.4.1 SYSTEM SETTINGS MENU The System settings cover global settings for the OpenMobility Manager. You can perform the following tasks from the System Settings menu:
configure global settings (see the following sub-sections) restart the OMM (see section 5.4.1.17) update the OMM (see section 5.4.1.18) The following sections describe the parameters that can be set. Note:
The following information describes all parameters visible when the Advanced option (in the top bar) is enabled. 5.4.1.1 General settings System Name: Enter the system name. Remote Access: Switches on/off the SSH access to all DECT base stations of the DECT system. For more information on the SSH access see section 9.3.5. Tone scheme: Select the country in which the OMM resides. This enables country specific tones (busy tone, dial tone, etc). 61 SIP-DECT OM System Manual 5.4.1.2 DECT settings PARK: This setting depends on the licensing mode. Small systems: Enter the PARK code obtained from the PARK service (see section 3.1.3). License file: Shows the PARK included in the license file. DECT power limit 100mW: Limits the DECT base station transmit power to 100mW, independent of the selected regulatory domain. Enable for SIP-DECT installations that are mobile (e.g., on cruise liners that travel between countries). See section 2.12 for more information on this feature. Encryption: Activate this option if you want to enable DECT encryption for the whole system. Please note: Make sure that all deployed third party DECT phones support DECT encryption. If not, encryption can be disabled per DECT phone (see 6.10.4). Restrict subscription duration: Activate this option if you want to restrict the duration for DECT phone subscriptions to 2 minutes after subscription activation. This option is not useful in case that you want to subscribe more than one DECT phone at a time or together with auto-create on subscription. It should be activated exclusively in case that there is a special need. DECT monitor: For monitoring the DECT system behavior of the OpenMobility Manager, the separate DECT monitor application exists. This tool needs an access to the OpenMobility Manager which is disabled by default and can be enabled here. Because of security, the DECT monitor flag is not stored permanently in the internal flash memory of the OMM/DECT base station. After a reset, the DECT monitor flag is ever disabled. Regulatory domain: Specifies where the IP DECT is used. Supported regulatory domains are:
EMEA US (FCC/IC) Brazil Taiwan South America (Radio 1910-1927Mhz 250mW) Note that 3rd and 4th generation DECT base stations support different DECT frequencies. These devices can operate in different regulatory domains provided that the Regulatory domain setting is configured accordingly. For older 2nd generation DECT base stations, there are different DECT base station models to meet different regulatory domain demands. To setup a North American FCC compliant DECT base station, the value must be set to US (FCC/IC). In a North American US (FCC/IC) deployment, ETSI compliant DECT base stations are made inactive and cannot be activated if the regulatory domain is set to US (FCC/IC). The reverse is also true. WARNING:
Note that selecting the incorrect regulatory domain may result in a violation of applicable laws in your country. Note: Whenever you modify the regulatory domain, a warning is displayed. You must confirm it first to apply the changed setting. 62 OMM Web Service DECT authentication code: The authentication code is used during initial DECT phone subscription as a security option. A code entered here provides a system-
wide DECT authentication code for each DECT phone subscription. Alternatively, a DECT phone-specific authentication code can be set (see section 5.7.1). DECT phone user login type: Specifies the system-wide variant for DECT phone login method. Two kinds of login types are supported: the user can either be determined by the telephone number (Number) or by the unique user login ID
(Login ID). Both elements are part of each user data set. Note: Changing this setting forces an automatic logout of all logged in DECT phones. In case, the OMM works within a system along with MOM or UDS, this will happen in all OMMs of this system. Preserve user device relation at DB restore: Enables the preservation of the user DECT phone association with an OMM database restore. This option is only applicable for database snapshots from SIP-DECT 6.0 or later. Note:
If you want to restore the association, enable this option BEFORE uploading a database for an OMM restore. The current OMM value is used, not the setting in the database being uploaded. 5.4.1.3 WLAN settings This setting applies to RFP 42/43/48 WLAN base stations. Regulatory domain: Select the regulatory domain of the WLAN network. This setting depends on the country and is prescribed by the laws of that country. Only the setting prescribed for that country must be used. For more information on the WLAN settings see the sections 5.8 and 8.18. WARNING:
Please note that selecting the incorrect regulatory domain may result in a violation of applicable law in your country!
Note: Whenever you modify the regulatory domain, a warning is displayed. You must confirm it first to apply the changed setting. Please note: If you upgrade a system to release 3.0 or higher, you must configure the appropriate regulatory domain. 5.4.1.4 DECT base stations update Mode: DECT base station update mode One by one (every single DECT base stations is updated separately) or All at once (all DECT base stations are updated in one step). 63 SIP-DECT OM System Manual Trigger: When this option is selected, the DECT base station update is time-
controlled. Time: Time for time controlled updates. 5.4.1.5 Maximum delay This parameter specifies the maximum time (in minutes) and the OMM waits past the schedule time before starting the update process. 5.4.1.6 Calculated time of delay The calculated time for scheduled update (24h time format). This parameter is read-only and is calculated by the OMM based on given Time of Day and Maximum Delay. 5.4.1.7 OMP web start Configure specific source: Enables the specific URL to an external file server for retrieving the OMP jar file. Protocol: Specifies the protocol used to retrieve the OMP file. Server: Specifies the IP address or name of the external file server. Port: Specifies the port of the external file server. Path: Specifies the location of the OMP jar file on the external file server. 5.4.1.8 DECT phones firmware update With SIP-DECT 6.0 or later, the DECT base station software images (iprfp3G.dnld and iprfp4G.dnld) contains the Mitel 600 DECT phone software. For specific maintenance purposes only, you can configure a URL to use an alternative DECT phone software image. The Mitel 600 DECT phone firmware packages are delivered in the 600.dnld file for the OMM running on a DECT base station. Activate firmware update: Enables or disables the Download over Air feature. The OMM provides a DECT phone firmware update over the air when this feature is activated. For more information on, see section 8.22. Configure specific source: Enables the specific URL to an external file server for retrieving the DECT phone firmware file. Protocol: Specifies the protocol used to retrieve the firmware file from the external server. Server: Specifies the IP address or name of the external file server. Port: Specifies the port of the external file server. User name: Specifies the user name to authenticate on the external file server. Password: Specifies the password to authenticate on the external file server. Password confirmation: Confirms the password to authenticate on the external file server. Path: Specifies the location of the firmware file on the external file server. 64 OMM Web Service Use common certificate configuration: Enables the use of the system-wide certificate validation settings for this URL, as configured on the System ->
Provisioning -> Certificates page (see section 5.4.2). 5.4.1.9 Voice mail Voice mail number: Specifies a system-wide voice mail number. This number is used by the Mitel 600 DECT phone family if the voice box is called. 5.4.1.10 OM Integrated Messaging & Alerting service The OpenMobility Manager provides an integrated message and alarm service. The Internal message routing (DECT phone <> DECT phone) can be activated/deactivated. For a detailed description, see
/28/. Internal message routing (phone <> phone): Enables or disables internal messaging between DECT phones. Configure specific destination: Enables the specific URL to an external file server for retrieving the IMA configuration file. Protocol: Specifies the protocol used to retrieve the IMA configuration file from the external server. Server: Specifies the IP address or name of the external file server. Port: Specifies the port of the external file server. User name: Specifies the user name to authenticate on the external file server. Password: Specifies the password to authenticate on the external file server. Password confirmation: Confirms the password to authenticate on the external file server. Path & filename: Specifies the location and file name of the IMA configuration file on the external file server. Use common certificate configuration: Enables the use of the system-wide certificate validation settings for this URL, as configured on the System ->
Provisioning -> Certificates page (see section 5.4.2). 5.4.1.11 The OMM and the DECT base stations are capable of propagating syslog messages. Syslog Active: Enables or disables collection of syslog messages. IP address: Address of the host that should collect the syslog messages. Port: Port of the host that should collect the syslog messages. Forward OMM Messages to syslog: (Visible only on a PC-hosted OMM system) Enables/disables forwarding of syslog messages from the PC-hosted OMM. 65 SIP-DECT OM System Manual Software update URL 5.4.1.12 With SIP-DECT 6.0 or later, DECT base stations in small SIP-DECT systems (~10 RFPs) can obtain their software image from the DECT base station hosting the OMM, if they have no valid URL from which to load their software (see section 8.9.3 for information on URL syntax). If the OMM is running on a DECT base station, the OMM DECT base station delivers the software to the connected DECT base stations. The new software image for the OMM DECT base station can be provided as an iprfp3G.dnld and iprfp4G.dnld file on an external file server. You configure the URL for the software image in this section. Configure specific source: Enables the specific URL for downloading the iprfp3G.dnld file (as opposed to the ConfigURL, which points to an external file server for all configuration and resource files). Protocol: Specifies the protocol used to fetch the software image file. Port: Specifies the port of the external file server. Server: Specifies the IP address or name of the external file server. User name: Specifies the user name to authenticate on the external file server. Password: Specifies the password to authenticate on the external file server. Password confirmation: Confirms the password to authenticate on the external file server. Path: Specifies the location of the software image file on the external file server. Use common certificate configuration: Enables the use of the system-wide certificate validation settings for this URL, as configured on the System ->
Provisioning -> Certificates page (see section 5.4.2). System dump 5.4.1.13 A system dump is a file that holds information about the OpenMobility Manager and all connected DECT base stations. With the Remote System Dump feature, a system dump is transferred to a remote server. You can configure a specific destination, otherwise the system ConfigURL is used. The system dump is generated manually by pressing the Dump button or automatically at the specified time. Please ensure that the fileserver used allows writing or creation of system dumps. Trigger: Enables the automatic generation of a system dump time every day at the time specified in the Time field. Time: The time of day the system automatically generates a system dump file (only activated if the Trigger checkbox is enabled). Dump: Immediately triggers the generation of a system dump file. Configure specific source: Enables the specific URL for transferring the system dump file (as opposed to the ConfigURL, which points to an external file server for all configuration and resource files). Protocol: Specifies the protocol used to transfer the system dump file. Port: Specifies the port of the external file server. Server: Specifies the IP address or name of the external file server. User name: Specifies the user name to authenticate on the external file server. 66 OMM Web Service Password: Specifies the password to authenticate on the external file server. Password confirmation: Confirms the password to authenticate on the external file server. Path: Specifies where the system dump file is stored on the external file server. Use common certificate configuration: Enables the use of the system-wide certificate validation settings for this URL, as configured on the System ->
Provisioning -> Certificates page (see section 5.4.2). Core dump URL 5.4.1.14 Fatal software problems may result in memory dumps, in core files. The DECT base station can transfer the core files to a remote fileserver. With SIP-DECT 6.0 or later, you can configure a specific URL to an external file server where core dump files should be transferred and stored. The Core dump URL is used by each DECT base station connected to the OMM. Without a configured Core dump URL, whether and where core files are transferred is dependent on specific DECT base station settings. Without any special configuration, the files are transferred to the server that is used to retrieve the system software (i.e., the directory of the boot image). Configure specific destination: Enables the specific URL to an external file server for transferring and storing core files. Protocol: Specifies the protocol used to transfer the core files. Server: Specifies the IP address or name of the external file server. Port: Specifies the port of the external file server. Path: Specifies the location of the core files on the external file server. Net parameters 5.4.1.15 To allow the prioritization of Voice Packets and/or Signaling Packets (SIP) inside the used network the IP parameter ToS (Type of Service) should be configured. ToS for voice packets: Determines the type of service (ToS resp. DiffServ) byte of the IP packet header for all packets that transport RTP voice streams. ToS for signalling packets: Determines the type of service (ToS resp. DiffServ) byte of the IP packet header for all packets related to VoIP signaling. TTL (Time to live): Determines the maximum hop count for all IP packets. Date and time 5.4.1.16 If OMM DECT base stations start an SNTP client, the date and time of the configured time zone is synchronized with the Mitel DECT 142 / Mitel 142d and Mitel 600 DECT phones. The date and time will be provided by the OMM to these DECT phones if they initiate a DECT location registration. The rules for a time zone can be configured in the Time zones menu (see section 5.4.5). NTP server: The NTP servers used for time synchronization. 67 SIP-DECT OM System Manual Time zone: Specifies the time zone in which the OMM is operating. This feature is exclusively available on the OMM DECT base station. On PC-OMM configurations, the PC time and time zone is used. Restarting the OMM 5.4.1.17 You can restart the OMM by clicking on the Restart button in the top right corner of the System Settings page. 1 Click on the Restart button. The Restart dialog window opens. 2 In the Restart dialog window, set the following options:
Discard OMM DB and configuration files: Specifies whether OMM database and configuration data is removed from the DECT base station, including the data retrieved from RCS. Local IP configuration remains unaffected. This parameter is only available on an OMM DECT base station. Reset OMM RFP(s) to factory defaults: Specifies whether all data is removed from the DECT BASE STATION including the OMM database, configuration files and local IP configuration. Note: Both options also affect the standby OMM. 3 Click OK. A Restart web page opens and displays a progress bar. The login page is loaded automatically if the OMM is reachable again. Updating the OMM 5.4.1.18 An Update button is available on the System settings web page. Pressing the Update button forces the DECT base stations to check for new software and initiates the software update. For more details about updating the OMM, see the section 8.14. 5.4.2 PROVISIONING MENU SIP-DECT supports provisioning through external configuration files. With SIP-DECT 6.0 or later, you can configure a URL for an external file server, from which all configuration files can be downloaded. The configured provisioning server URL is used for secure connections to the file server to retrieve configuration or firmware files. For more information on this feature, see section 8.8.1. The Provisioning menu allows you to set parameters for the external provisioning server. 68 OMM Web Service 5.4.2.1 Current configuration file URL Current configuration file URL: URL for the configuration file that is currently loaded. 5.4.2.2 System credentials System credentials are used to retrieve configuration and resource files from the configured provisioning server for protocols supporting authentication or servers requesting authentication. For HTTP/HTTPS, basic and digest authentication are supported. System credentials can also be inherited for specific URLs, where no user credentials are specified. User name: Specifies the user name for authentication against the provisioning server. Password: Specifies the password for authentication against the provisioning server Password confirmation: Confirms the password for authentication against the provisioning server. 5.4.2.3 Configuration file URL Active: Enables or disables the configuration file URL feature. Protocol: Specifies the protocol to be used to fetch the configuration files. Server: Specifies the IP address or name of the provisioning server. Port: Specifies the provisioning servers port number. Path: Specifies the path to the configuration and resource files on the provisioning server. 69 SIP-DECT OM System Manual 5.4.2.4 Daily automatic reload of configuration and firmware files Active: Enables automatic reload of the configuration and resource files on a daily basis, at the specified time. Time of day: Time for scheduled reload of configuration and firmware files. 5.4.2.5 Autonomous SW update check by OMM When this is activated, the RFP-OMMs (active, standby) checks autonomous for a new software, whenever a RFP re-configuration (DHCP renew, OM Configurator, ipdect.cfg, <MAC>.cfg) happens. 5.4.2.6 Maximum delay This parameter specifies the maximum time (in minutes) and the OMM waits past the schedule time before starting the reload of configuration and firmware files. The Maximum Delay has only an effect, when Daily automatic reload of configuration and firmware files is activated. 5.4.2.7 Calculated time of delay The calculated time for scheduled reload of configuration and firmware files (24h time format). This parameter is read-only and is calculated by the OMM based on given Time of Day and Maximum Delay. 5.4.2.8 Certificates The OMM uses a trusted certificate chain to validate the server. This is required if the server has no certificate derived from a trusted CA root certificate, where the OMM uses the Mozilla CA Certificate List. You can specify the validation methods to be used. Trusted certificate(s): Read-only; specifies the number of trusted certificates deployed on the OMM. Local certificate chain: Read-only; specifies the number of local certificate chains deployed on the OMM. Private key: Read-only; specifies whether a private key file is deployed on the OMM. Private key password: Specifies a password for the private key file. Password confirmation: Confirms the password for the private key file. Delete certificates/key: Allows the user to delete existing certificates and private key files from the OMM. SSL version: The SSL protocol version to use for the configuration file server connection. Available options are: TLS1.0, TLS1.1, TLS1.2 or AUTO, where AUTO accepts all protocol versions. Validate certificates: Enables or disables certificate validation. If enabled, the server certificate is validated against trusted CAs (signed by a CA from the Mozilla CA certificate list) and the configured trusted certificates. 70 OMM Web Service Validate expires: Enables or disables the validation of certificate expiry. When this parameter is enabled, the client verifies whether or not a certificate has expired prior to accepting the certificate. Validate host name: Enables or disables the validation of hostnames on the OMM. Allow unconfigured trusted certificates: If enabled, this parameter disables any server certificate validation as long as no trusted certificate was imported into the OMM. AXI commands in a received configuration file may import such trusted certificates into the OMM. Import certificates with first connection: If enabled (in conjunction with the Allow unconfigured trusted certificates parameter), the trusted certificate will be imported from the cert chain delivered in the server response without any validation, as long as no trusted certificate was imported previously into the OMM. 5.4.2.9 Manual import You can overwrite the hard coded OMM certificate by importing trusted certificates, a local certificate chain and a private key file. Import PEM file with: Specifies the type of file to be imported (trusted certificate, local certificate, or private key). Import PEM file: Specifies the location of the file to be imported. 5.4.3 SIP MENU The SIP settings cover all global settings matching the SIP signaling and the RTP voice streams. Parameters are grouped under the tabs described below. 5.4.3.1 Basic settings You can set basic SIP settings for the system on the Basic settings menu. 71 SIP-DECT OM System Manual Proxy server: IP address or name of the SIP proxy server. If a host name and domain are used for the proxy server parameter, ensure that a DNS server and a domain are specified for your SIP-DECT system via DHCP or the OM Configurator tool. Proxy port: SIP proxy servers port number. Default is 5060. To enable DNS SRV support for proxy lookups, use a value of 0 for the proxy port. In case that TLS is used, the value shall be changed to 5061. Registrar server: IP address or name of the SIP registrar. Enables the DECT phones to be registered with a registrar. If a host name and domain are used for the proxy server parameter, ensure that a DNS server and a domain are specified for your SIP-DECT system via DHCP or the OM Configurator tool. Registrar port: SIP registrars port number. Default is 5060. To enable DNS SRV support for registrar lookups, use a value of 0 for the registrar port. In case that TLS is used, the value shall be changed to 5061. Registration period: The requested registration period, in seconds, from the registrar. Default is 3600. Globally Routable User Agent (URL): Enables support for Globally Routable User-
Agent URIs (GRUUs). GRUUs provide a way for anyone on the Internet to route a call to a specific instance of a SIP User-Agent. Outbound proxy server: This setting is optional. You can enter the address of the outbound proxy server in this field. All SIP messages originating from the OMM are sent to this server. For example, if you have a Session Border Controller in your network, then you would normally set its address here. Outbound proxy port: The proxy port on the proxy server to which the OMM sends all SIP messages. Default is 5060. In case that TLS is used, the value shall be changed to 5061. Transport protocol: The protocol used by the OMM to send/receive SIP signaling. Default is UDP. Local UDP/TCP port range: The port range to be used for DECT users when UDP/TCP is used as the transport protocol. The default is 5060 5060. Local TLS port range: The port range to be used for DECT users when TLS is used as the transport protocol. The default is 5061 5061. There are certain rules to note when configuring port ranges; see section 2.17 for more information. 5.4.3.2 Advanced settings You can set more advanced SIP settings for the system on the Advanced settings menu. Explicit MWI subscription: Some SIP Call Managers such as the Asterisk support Message Waiting Indication (MWI) based on /21/. An MWI icon is displayed on a DECT phone (Mitel DECT 142 / Mitel 142d, Mitel 600) if the user has received a voice message on his voice box which is supported by the SIP Call Manager. If Explicit MWI subscription is enabled, the OMM sends explicit for each DECT phone an MWI subscription message to the Proxy or Outbound Proxy Server. Explicit MWI subscription period: The requested duration in seconds, before the MWI subscription times out. SIP-DECT re-subscribes to MWI before the subscription period ends. 72 OMM Web Service User agent info: If this option is enabled, the OMM sends information on his version inside the SIP headers User-Agent/Server. Dial terminator: The dial terminator is configurable (up to 2 characters; 0 9, *,
# or empty). The default dial terminator is #. A dial terminator is necessary if digit treatment shall be applied on outgoing calls and overlapped sending is used. Registration failed retry timer: Specifies the time, in seconds, that the OMM waits between registration attempts when the registration is rejected by the registrar. Default is 1200 seconds. Registration timeout retry timer: Specifies the time that the OMM waits between registration attempts when the registration timed out. Default is 180 seconds. Session timer: The interval, in seconds, between re-INVITE requests sent from the OMM to keep a SIP session alive. The minimum session timer is 90 seconds and the maximum is 86400 seconds. The default is 0 (i.e., feature is disabled). Transaction timer: The time period in milliseconds that the OMM allows a call server (proxy/registrar) to respond to SIP messages that it sends. If the OMM does not receive a response in the time period designated for this parameter, the OMM assumes the message as timed out. In this case the call server is recorded to the blacklist. Valid values are 4000 to 64000. Default is 4000 milliseconds. Blacklist time out: The time period in minutes an unreachable call server stays in the blacklist. Valid values are 0 to 1440. Default is 5 minutes. Incoming call timeout: The time, in seconds, that the OMM waits for a user to accept an incoming call before rejecting the call automatically. The minimum time is 30 seconds and the maximum is 300 seconds. The default is 180 seconds. Determine remote party by: You can select the SIP header from which the remote party information (user id and display name) should be determined. If P-Asserted-
Identity (default value) is selected but no such header is received, a fallback to the mandatory From / To header will be done. This feature can be configured by choosing one of the two values. Note: When SIP-DECT receives a SIP header P-Asserted-Identity in ringing state during an outgoing call, the included identity information (e.g. SIP display name and user-id) will be displayed on Mitel 600 and Mitel 142d phones as new call target. In addition, the outgoing call log of the Mitel 600 and Mitel 142d phones will be updated with the new given identity. Multiple 180 Ringing: If this feature is deactivated, the OMM sends out only one 180 Ringing response for an incoming call if PRACK is not supported. If this feature is activated, the OMM retransmits multiple times the 180 Ringing response for an incoming call if PRACK is not supported. This ensures that the calling side receives a 180 Ringing response in case of packet losses on the network. By default this feature is active. 73 SIP-DECT OM System Manual Semi-attended transfer mode and Refer-to with replaces:
Semi-attended transfer mode Refer-to with replaces Behavior Blind Blind No Yes Attended
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The semi-attended transfer is handled as a blind transfer. The phone sends CANCEL before REFER for semi-attended transfer. The semi-attended transfer is handled as a blind transfer. The phone sends REFER with Replaces for semi-attended transfer and no CANCEL. This behavior is not SIP compliant but necessary for some iPBX platforms. The semi-attended transfer is handled as an attended transfer. Both lines of the transferor remain active until the transfer succeeds. This behavior is compliant to RFC 5589. Please note: The mode Semi-attended transfer mode: Blind with Refer-to with replaces:
yes is not SIP compliant and should only be used on iPBX platforms that require this type of signaling. Remove route: Enables or disables the addition of the Route header in a SIP packet. Enable this parameter for outbound proxies that do not support Route headers. Please note: When enabled, this breaks all support for SIP routing. So, if some other devices in the network attempts to add itself to the route, it fails. SIP contact matching: Specifies the method used by the OMM to match the Contact header in a SIP response to a REGISTER request. Available options are:
URI Match user username, domain name, phone IP and port and transport IP only Match the IP address of the phone only Username only Match the username only IP and user name Match the IP address of the phone and the username The default is URI. Call reject state code (user reject): Specifies the SIP state code sent as response when the user rejects an incoming call by pressing the Reject option. Valid values are 400 to 699. The default is 486 Out of range state code (device unreachable): Specifies the SIP state code sent as response when the incoming call is rejected because the DECT phone is unreachable (e.g., the DECT phone is out of range or out of battery power). Valid values are 400 to 699. The default is 486. 5.4.3.3 RTP settings You can set RTP parameters in the RTP settings section. RTP port base: Each RFP needs a continuous port area of 68 UDP ports for RTP voice streaming. The RTP port base is the start port number of that area. Default is 16320. 74 OMM Web Service Preferred codec 1 4: Specifies a customized codec preference list which allows you to use the preferred codecs. The Codec 1 has the highest and Codec 4 the lowest priority. Note: With SIP-DECT Release 3.0 or higher the voice codecs G.722
(wideband), G.711 u-law, G.711 A-law and G.729 A are supported. The previously supported codec G.723 is no longer available. Preferred packet time (10, 20 or 30 msec): Determines the length of voice samples collected before sending out a new RTP packet. A small setting improves voice quality at the expense of data transmission overhead. Default is 20 milliseconds. Silence suppression: Enables automatic silence detection in the RTP voice data stream to optimize the data transfer volume. Receiver precedence on CODEC negotiation:
The ON (option is enabled) setting means:
The CODEC selection for incoming SDP offers based on the own preference order list. The first entry in the OMM preferred codec list matching an entry in the incoming SDP offer will be selected. The OFF (option is disabled) setting means:
The CODEC selection based on the preference order list of incoming SDP offer. The first entry in the incoming order list matching an entry of OMM preferred codec list will be selected. This is the default and is as recommended in RFC 3264. Eliminate comfort noise packets: If this feature is activated, then comfort noise packets are removed from the RTP media stream which causes gaps in the sequence numbers. This can be used if comfort noise packets e.g. in G.711 media streams disturb voice calls in certain installations. Single codec reply in SDP: If this feature is activated, the OMM answers to SDP offers (included in the SIP signalization) with a single codec in the SDP answer. 5.4.3.4 DTMF settings You can set DTMF parameters in the DTMF section. Out-of-band: Used to configure whether DTMF Out-of-band is preferred or not. Method: The OMM supports the following DTMF Out-of-band methods:
RTP (RFC 2833) Transmits DTMF as RTP events according to RFC 2833 (/14/) after the payload type negotiation via SIP/SDP. If the payload type is not negotiated, in band will be used automatically. INFO The SIP INFO method is used to transmit DTMF tones as telephone events
(application/dtmf-relay). This setting should be used if RFC 2833 is not supported. BOTH DTMF telephones events are send according to RFC 2833 and as well as SIP INFO method. Note: Possibly, the other party recognizes events twice. 75 SIP-DECT OM System Manual Payload type: If the Out-of-band option is enabled, this setting specifies the payload type which is used for sending DTMF events based on section 4.5, reference /14/. 5.4.3.5 Registration traffic shaping Registration traffic shaping parameters allow you to limit the number of simultaneous SIP registrations at startup/fail over of the OMM. This feature is always activated because disabling it may overload the OMM or the call server. Some providers use a keep-alive mechanism based on SIP registration renewals for remote endpoints that are behind a Network Address Translator (NAT), as in an IP-Centrex solution. The keep-alive mechanism keeps the pinhole open and ensures communication between the remote endpoint and the Session Border Controller (SBC). The OMM feature that spreads the registration renewals to prevent bottlenecks in large systems is not compatible with the keep-alive mechanism. With SIP-DECT 6.0 or later, you can disable the spread mechanism and configure a registration renewal timer to allow support for the NAT feature. Simultaneous registrations: The maximum number of simultaneously started registrations. Waiting time: The waiting time between a registration finish and starting the next registration in ms (0-1000ms). Spread registration renewals: If set to ON, the OMM distributes all DECT phone registration renewals automatically, between half-way through the registration period and 30 seconds before expiry. This prevents registration renewal bottlenecks. Default is ON. Renewal timer: The time, in seconds, during which the OMM renews DECT phone registrations before expiry (if Spread registration renewals is set OFF). The DECT phone automatically sends registration renewals half-way through the registration period, unless the half-way point is greater than the threshold value. For example, if the threshold value is set to 60 seconds and the registration period is 600 seconds, the phone sends the renewal REGISTER message 60 seconds prior to the expiration of the registration period. If the registration period is 100 seconds, the renewal is sent at the half-way point as (100/2) < 60. Valid values are 0 to 2147483647. Default is 15. 5.4.3.6 Supplementary Services The Supplementary Services section contains various parameters releated to call control. Call forwarding / Diversion: The DECT phone user can (de)activate call forwarding/diversion in the OMM via DECT phone menu. In some installations the implemented call forwarding/diversion feature in the IPBX system is in conflict with the OMM-based call forwarding/diversion. Thus, the OMM-based call forwarding/diversion can be deactivated to let the menu on the DECT phone disappear. This setting becomes active on DECT phones with the next DECT Locating Registration process (can be forced by switching the DECT phone off and on again). Call forwarding that is already activated is ignored if the call forwarding feature is deactivated. 76 OMM Web Service Local line handling: In some installations the implemented multiple line support in the IPBX system is in conflict with the OMM based multiple line support. Thus, the OMM based multiple line support can be deactivated. Note, that the OMM based multiple line support is active by default. A deactivation of the Local line handling flag results in the following implications:
Only one line is handled for each user (except for an SOS call 0F0F1) If a user presses the R key or hook-off key in a call active state, a DTMF event is send to the IPBX via SIP INFO including signal 16 (hook-flash). All Hook-flash events are sent in every case via SIP INFO, independent of the configured or negotiated DTMF method during call setup. All other key events are sent via the configured or negotiated DTMF method. The OMM-based call features Call waiting, Call Transfer, Brokering and Hold are no longer supported. This setting becomes active on DECT phones with the next DECT Locating Registration process (can be forced by switching the DECT phone off and on again). Automatic ringback on hold call: Enables or disables a ringback on the loudspeaker if the B party of the active line releases the call. The ringing begins after the call release timeout interval (see description below). Call transfer by hook on (Mitel 600): Enables call transfer via the hook key on a Mitel 600 DECT phone (in addition to call transfer via menu). Call transfer by hook on (Mitel 142): Enables call transfer via the hook key on a Mitel 142 DECT phone (in addition to call transfer via menu). Truncate Caller Indication after ;: If the user name info in SIP to-/from-/contact headers or p-asserted-identity is extended by a suffix, which is separated by a semicolon, this suffix is truncated before the username is printed to call displays or DECT phone internal call logs. SIP reRegister after 2 active OMM failover: Enables SIP re-registration of all users from the active OMM when the system detects two active OMMs (in a failover scenario). Call release timeout: Specifies the time, in seconds, after which an active line is released if the DECT phone user has not gone on-hook after the B party on an active call releases the call. Hold call release timeout: Specifies the time, in seconds, after which the active line is released if the DECT phone user has not switched to a held line (when the B party on a held call releases the call). Failed call release timeout: Specifies the time, in seconds, after which an active line is released if the called party is busy, or the call is rejected for any reason. 1 The OM SOS call feature is unchanged. The initiation of a SOS call in call active state results in the creation of a new line which handles the SOS call. 77 SIP-DECT OM System Manual 5.4.3.7 Intercom Push-to-talk-Outgoing calls/Incoming calls You can set global auto-answer settings in the Intercom Push-to-talk section. For more information on this feature, see section 2.31. Outgoing calls Incoming calls Initialization prefix for Push-to-talk: String to be entered when initiating an intercom call. An empty string indicates that the DECT phone cannot initiate an intercom call. Auto answer: Enables or disables auto-answer on incoming calls. Microphone mute: Enables or disables microphone muting when incoming calls are automatically answered. Warning tone: Enables or disables warning tone on incoming call. A short ringtone is played if there are no active calls. If there is an active call in a barge in situation, the ringing will be in-band. Allow barge in: Allows/disallows barge-in on existing calls. 5.4.3.8 Security You can set security-specific settings in the Security section. Persistent TLS keep alive timer active: When enabled and Persistent TLS is selected as transport protocol, the OMM sends out keep alive messages periodically to keep the TLS connection open. Persistent TLS keep alive timer timeout: Specifies the time pattern, in seconds, in which the OMM sends out keep-alive messages. Valid values are 10 to 3600. Default is 30 seconds. Send SIPS over TLS active: When enabled, and TLS or Persistent TLS is selected as transport protocol, the OMM uses SIPS URIs in the SIP signaling. Default is ON. TLS-Authentication: When enabled and TLS or Persistent TLS is selected as transport protocol, the OMM validates the authenticity of the remote peer via exchanged certificates and the configured Trusted certificates. Default is ON. TLS-Common-Name-Validation: When enabled and TLS authentication is selected, the OMM validates the Alternative Name and Common Name of the remote peer certificate against the configured proxy, registrar and outbound proxy settings. If there is no match, an established TLS connection will be closed immediately. Trusted certificate(s): The number of imported trusted certificates (read-only). Local certification chain: Indicates the number of imported certificates in the local certificate chain (read-only). Private key: Indicates whether the OMM has a private key file (read-only). Delete certificates/key: Allows deletion of all certificates and the local key. 78 5.4.3.9 Certificate server Set the parameters on the Certificate server tab to automatically import Trusted, Local Certificates and a Private Key files from an external server for SIP signaling. OMM Web Service Active: Enables the feature. Protocol: Specifies the preferred protocol (FTP, TFTP, FTPS, HTTP, HTTPS, SFTP) Server: Specifies the name or IP address of the external file servedr. User name: Specifies the user name to authenticate against the external file server. Password: Specifies the password to authenticate against the external file server. Password confirmation: Confirms the password to authenticate against the external file server. Path: Specifies the path on the file server to the certificate files. Trusted certificate file: Specifies the name of the PEM file on the specified server, including the trusted certificates. Local certificate file: Specifies the name of the PEM file on the external server including the local certificate or a certificate chain. Private key file: Specifies the name of the PEM file on the external server including the local key. Port: Specifies the certificate servers port number. Use default port: If selected, the default port associated with the selected protocol is used. Use common certificate configuration: Enables the use of the system-wide certificate validation settings, as configured on the System -> Provisioning ->
Certificates page (see section 5.4.2.8). 5.4.3.10 Manual import Set the parameters for manual import of certificate keys. Import PEM file with: Allows selection of the kind of certificate/key to be imported. Import PEM file: Specifies the file to be imported. Import: Triggers an import of the file. 5.4.4 USER ADMINISTRATION MENU After initial installation or after removing the configuration file, the OMM Web service is accessible via a built-in user account with user omm and password omm. If the default built-in user account is active, the administrator must change the default account data of the Full access and Root (SSH only) account. The meaning of the different account types is described in section 8.17.1. Please note: The OMM forces you to change the default account data. As long as the passwords are unchanged, the OMM will not allow any other configuration. 79 SIP-DECT OM System Manual These settings are case sensitive and can be changed on the User administration web page. Account type: Select the account type you wish to change. Active: This setting applies to the Read-only access account. Using this account, a user is not allowed to configure any item of the OMM installation. The account can be deactivated. User name: If desired, enter a new user name. Old password: Related to the Full Access Account, to change the password the old password must be typed in again. Password, Password confirmation: Enter the appropriate data in these fields. The OMM has several rules to check the complexity of the new password. A new password will not be accepted if:
the new password is not five or more characters long the new password does not contain characters from at least three of the following groups: lower case, upper case, digits or other characters the new password has 50% or more of the same character ('World11111' or
'W1o1r1l1d1') the new password contains one of the following items (either upper or lower case as well as forward or backward):
account name host name (IP address) old password some adjoining keystrokes (e.g. 'qwert') Password aging: A timeout for the password can be set. Select the duration, the password should be valid. 80 OMM Web Service 5.4.5 TIME ZONES MENU Note:
This menu is only available if the OMM resides on a DECT base station. On the Time zones page, the OMM provides all available time zones. They are set with their known daylight savings time rules adjusted to the Universal Coordinated Time (UTC) per default. The difference to the UTC time is shown in the UTC difference column. In case of a configured daylight savings time rule (DST column) this is also marked for each time zone. The date and time are provided by the OMM to the Mitel 142 and Mitel 600 DECT phones if the DECT phone initiates a DECT location registration. This will be done in the following cases:
Subscribing to the OMM Entering the network again after the DECT signal was lost Power on Silent charging feature is active at the phone and the phone is taken out of the charger After a specific time to update date and time 81 SIP-DECT OM System Manual The following tasks can be performed on the Time zones page:
Changing the time zones (see section 5.4.5.1) Resetting time zones (see section 5.4.5.2) 5.4.5.1 Changing Time Zones It is possible to change the time zone rules for maximal five time zones. Changed rules are marked with a bold time zone name in the table. The changes are saved in the configuration file and are restored after each OpenMobility Manager startup. 1 To change the settings of a time zone, click on the icon left behind the time zone entry. The Configure time zone dialog opens. 2 You can change the standard time and the daylight savings time (DST) of a time zone. If the time zone has no DST, only the UTC difference can be configured. For the DST both points of time (begin of standard time and begin of daylight savings time) must be specified exactly. Therefore a certain day in the month or a certain week day in a month can be used. 5.4.5.2 Resetting Time Zones To reset individual time zone settings, press the Default button on the Time zones web page. This sets all time zones back to the default values and deletes the changed time zone rules in the configuration file. 5.4.6 SNMP MENU To manage a larger RFP network, an SNMP agent is provided for each RFP. This will give alarm information and allow an SNMP management system (such as HP Open View) to manage this network. On the SNMP page of the OMM Web service you configure the SNMP service settings. You can configure the following SNMP parameters using the OMM web service:
82 OMM Web Service General settings Read-only community: The SNMP community string forms a password that is sent by the SNMP management system when querying devices. The query is answered only if the SNMP community string matches. You may use public as a default keyword for read-only access. System contact: Enter a descriptive text that typically is displayed in the SNMP management software. Trap handling Activate the checkbox behind the Trap handling section to enable this feature. Trap community: This community string is used if the SNMP agent informs the SNMP management system about events (traps). Trap host IP address: Enter the IP Address that the SNMP agent uses to send traps. Further notes The RFP needs an initial (one-time) OMM connection to receive its SNMP configuration. In case of a reset, this configuration does not change. Changing the SNMP configuration on the OMM forces all agents to be reconfigured. The agent does not support MIB-II write access, SNMPv2-MIB read/write access, NET-SNMP-MIB read/write access, NET-SNMP-AGENT-MIB read/write access and SNMPv3. For background information on using SNMP with the SIP-DECT system, see section 8.19. 5.4.7 DB MANAGEMENT MENU The database management (DB) menu allows flexible backup and restore management of the OMM database. The OMM database contains all configuration settings which are configurable via the OMM Web service interface. 83 SIP-DECT OM System Manual The OMM database can be:
manually imported from the Web browsers file system or from an external server
(see section 5.4.7.1), manually exported to the Web browsers file system or to an external server (see section 5.4.7.2), automatically exported to an external server when configuration modifications are done (see section 5.4.7.3). Note:
The OMM database is saved in a compressed file in a proprietary format. Any modification of this file outside the OMM is not allowed. The system support the following protocols for the transport to or from an external server: FTP, TFTP, FTPS, HTTP, HTTPS, SFTP. 5.4.7.1 Manual Database Import Please note: A manual import of a database results in a reset of the OMM. In the Manual import section of the Database management page enter the following:
1 Protocol:
To import a database from the Web browsers file system the protocol FILE must be selected. To import a database from an external server select the preferred protocol (e.g. HTTP). 2 Server: IP address or the name of the external server. 3 User name, Password (in case of import from an external server): If necessary, enter the account data of the server. 4 File: Path and file name which include the OMM database. If you have selected the FILE protocol, the Browse button is displayed and you can to select the file from the file system. 5 Use common certificate configuration: Enables the use of the system-wide certificate validation settings, as configured on the System -> Provisioning -> Certificates page (see section 5.4.2.8). 6 Press the Load button. Before the OMM accepts the database, a validation check is performed. If the database is verified as valid, the OMM will be reset to activate the new database. Please note: After the reset, all configuration in the restored database takes effect with the exception of the user account settings. The user account settings can be only modified locally via the OMM Web service and are never restored by a database import. 5.4.7.2 Manual Database Export In the Manual export section of the Database management page enter the following:
1 Protocol: Select the preferred protocol. If you want to export the database to the Web browsers file system, select the FILE setting. 2 Server: Enter the IP address or the name of the server. 84 OMM Web Service 3 User name, Password: If necessary, enter the account data of the server. 4 File: Enter the path and filename where the database is to be saved. 5 Use common certificate configuration: Enables the use of the system-wide certificate validation settings, as configured on the System -> Provisioning -> Certificates page (see section 5.4.2.8). 6 Press the Save button. 5.4.7.3 Automatic Database Export The automatic database export feature allows an automatic database backup to an external server for each configuration modification. If this feature is activated, the OMM transfers a backup file to a configured external server any time configuration changes occur (e.g. DECT phone subscription). The backup file overwrites any existing backup files. Please note: Synchronization with an NTP server is mandatory for an automatic database export. For NTP server configuration, see section 8.5.4 and section 8.6. In the Automatic export section of the Database management page enter the following:
1 Active: Activate this option to enable the automatic export feature. 2 Protocol: Select the preferred protocol. 3 Server: Enter the IP address or the name of the server. 4 Port: Enter the port of the server. 5 User name, Password: If necessary, enter the account data of the server. 6 File: Enter the path and filename where the database is to be saved. The OMM writes the database into a file on the external server with following name convention:
<yymmdd>_<system_name>_<PARK>_omm_conf.gz If the system name contains non-standard ASCII character then these character are replaced by _. 7 Use common certificate configuration: Enables the use of the system-wide certificate validation settings, as configured on the System -> Provisioning -> Certificates page (see section 5.4.2.8). 8 Press the OK button. 5.4.8 EVENT LOG MENU The Event log page displays important event information on OMM system functions, e.g. security aspects. A more detailed system log is available by configuring the Syslog function in the System settings menu (see section 5.4.1.11). 85 SIP-DECT OM System Manual To clear the display, press the Clear button. 5.5 SITES MENU DECT base stations can be grouped into different sites. A site consists of the following parameters:
ID: Identification number of the site. Name: The name of the site. Hi-Q Audio Technology, SRTP, Enhanced DECT Security: Indicates whether
(one of) these features are enabled for the site. Base stations: The number of base stations assigned to the site. You can perform the following tasks:
create a new site (see section 5.5.1) edit a site (see section 5.5.2) delete a site (see section 5.5.3) 5.5.1 CREATING A NEW SITE 1 On the Sites page press the New button. The Configure site dialog opens. 86 OMM Web Service 2 In the Configure site window, specify values for the following parameters:
ID: Enter the identification number of the site. A value between 1 and 250 is possible. If no value is given, the OMM selects the next free ID. Name: Enter the name of the site. Hi-Q audio technology, SRTP, Enhanced DECT security: Enable or disable these capabilities. Only 3rd and 4th generation RFPs are supported where these features are enabled. You can mix new RFP types with older RFP 32/34 and RFP 42 WLAN base stations where these features are disabled. 3 Press the OK button to save your changes. 5.5.2 EDITING A SITE You can change the name of an existing site:
1 On the Sites page click on the icon left behind the site entry. The Configure site dialog opens. 2 Change the site name. 3 Press the OK button. 5.5.3 DELETING A SITE Note: Only sites without assigned base stations can be deleted. At least one site must remain, so the last site cannot be deleted. To delete an existing site:
1 On the Sites web page click on the The Delete site dialog opens. 2 Press the Delete button. icon left behind the site entry. 5.6 BASE STATIONS MENU All configured base stations are listed on the Base stations page. The base stations are sorted by their Ethernet (MAC) addresses. 87 SIP-DECT OM System Manual You can select a sorting criterion for the RFP table. In the Sorted by field, select the criterion:
DECT clusters: The base stations are sorted by clusters. All used clusters are displayed in the navigation bar on the left side. The OMM base station is marked with a bold font. WLAN profiles: The base stations are sorted by WLAN profile (see section 5.8). Sites: The base stations are sorted by sites (see section 5.5). All used sites are displayed in the navigation bar on the left side. The OMM base station is marked with a bold font. The table provides information on all configured base stations and their status in several columns:
ID: An internal number that is used to manage the base station. Name: Indicates the base station's name (see section 5.6.3). MAC address: Indicates the base station's MAC address (see section 5.6.3). IP address: Shows the current IP address of the RFP. The IP address may change over time by using dynamic IP assignment on the DHCP server. HW type: When the base stations connect to the OMM, they submit their hardware type. The hardware type is displayed in this column. If an error message is indicated in this column, there is a mismatch between the base station and the OMM software version (see section 5.6.2). Site: Indicates the site the base station is assigned to (see section 5.5). RPN: Shows the Radio Fixed Part Number that is currently used by the RFP. Reflective environment: Indicates if the base station is operated in a reflective environment (see section 5.6.3). Connected: Indicates if the base station is connected to the OMM (see section 5.6.1). Active: Indicates if the base station is active (see section 5.6.1). The following tasks can be performed on the Base stations page:
Create and change base stations (see section 5.6.3). 88 OMM Web Service Capture base stations (see section 5.6.4). Delete base stations (see section 5.6.5). Find my SIP-DECT base station (see section 5.6.6). 5.6.1 BASE STATION STATES For each base station the state of the DECT subsystem is displayed. These states are:
Synchronous The RFP is up and running. The RFP recognizes and is recognized by other RFPs in its cluster through its air interface and delivers a synchronous clock signal to the DECT phones. Asynchronous The RFP has not been able to synchronize to its neighbors yet. No DECT communication is possible. But nevertheless the RFP has already been able to connect to the OMM. This phase should usually last only for a few seconds after starting up the RFP or the OMM. If this state lasts longer this is an indication for a hardware or network failure. Searching The RFP has lost synchronization to its neighbors. No DECT communication is possible. This phase should usually last only for a few seconds after starting up the RFP or the OMM. If this state lasts longer or is re-entered after being in a synchronous state this is an indication for a bad location of the RFP. Inactive The RFP has connected to the OMM but the air interface has not been switched on yet. For any RFP with activated DECT functionality this phase should last only for a few seconds after starting up the RFP. If this state lasts longer this may indicate a hardware failure. Not connected The RFP was configured but has not connected to the OMM yet. Therefore the IP address column is empty. 89 SIP-DECT OM System Manual Software Update available The RFP is connected to the OMM. The OMM has found new software on the TFTP server. The RFP is waiting for the OMM to initiate a reboot. In the meantime is the RFP fully operational. 5.6.2 OMM / RFP SOFTWARE VERSION CHECK When the DECT base stations connect to the OMM, they submit their software version. If this version differs from the OMM software version and the versions are incompatible, the RFP connection attempt is rejected. This could happen when using several TFTP servers with different OpenMobility software versions. In this case, the RFP is marked with an error message. Moreover a global error message is displayed on the RFP list web page if at least one version mismatch has been found. 5.6.3 CREATING AND CHANGING BASE STATIONS 1 To configure a new RFP, click the New button on the Base Stations page. To change the configuration of an existing RFP click on the The New base station (or the Configure base station) dialog opens. icon left beside the base station entry. 2 Configure the base station (see parameter descriptions below). 3 Click OK. Please note: DECT regulatory domain, WLAN regulatory domain and WLAN profile must be configured first. Otherwise DECT and/or WLAN cannot be enabled. The following parameters can be set in the New base station and the Configure base station dialogs:
General settings MAC address: Each RFP is identified by its unique MAC address (6 bytes hex format, colon separated). Enter the MAC address (as it appears on the back of the base station chassis). Name: For easier administration each RFP can be associated with a location string. The location string can hold up to 20 characters. Site: If several sites exist (see section 5.5), select the site the RFP is assigned to. DECT settings The DECT functionality for each RFP can be switched on/off. DECT cluster: If DECT is active the RFP can be assigned to a cluster. Preferred synchronization source: Activate this checkbox if the RFP should be used as synchronization source for the other RFPs in the cluster. For background information on RFP synchronization see section 8.2. 90 OMM Web Service Reflective environment: Within areas containing lot of reflective surfaces (e.g. metal or metal coated glass) in an open space environment the voice quality of a DECT call can be disturbed because of signal reflections which arrive on the DECT phone or RFP using multipath propagation. Calls may have permanent drop outs while moving and high error rates on the RFPs and DECT phones. For such environment, Mitel has developed the DECT XQ enhancement into the RFP base stations and the Mitel 600 DECT phones family. Using this enhancement by switching the Reflective environment flag on might reduce drop outs and cracking noise. As soon as Reflective environment is switched on, the number of calls on an RFP is reduced to 4 calls at the same time. Please note: The RFPs and DECT phones use more bandwidth on the Air Interfaces if the Reflective environment attribute is switched on. Therefore this is used when problems caused by metal reflections are detected. WLAN settings The WLAN section applies to RFPs of the type RFP 42 WLAN, RFP 43 WLAN and RFP 48 WLAN only. For details about WLAN configurations please see section 8.18. The WLAN RFPs have different WLAN parameters, which are configurable in the RFP configuration dialog. Activation check box: Enables or disables the WLAN function for this RFP. WLAN profile: Select the desired profile from the list. This applies all settings made in the respective WLAN profile to the current RFP. For information on configuring WLAN profiles see section 5.8.1. Please note: WLAN settings are only configurable if the RFP has been connected at least once to detect the hardware type and a proper WLAN profile is configured (see also section 5.8.1). WLAN cannot be enabled in the New DECT base station dialog if the hardware type is unknown. The following settings are not applied by the WLAN profile. Configure these settings for each DECT base station individually. Antenna diversity (RFP 42 WLAN only): This option should generally be activated so that the AP (Access Point) can automatically select the antenna with the best transmission and reception characteristics. Antenna (RFP 42 WLAN only): If Antenna diversity is switched off, this setting determines the antenna that is used for transmitting or receiving WLAN data. 802.11 channel: Determines the WLAN channel used by the current RFP. The channel numbers available are determined by the WLAN Regulatory domain setting on the System settings page. Output power level (default: Full): Determines the signal power level used by the RFP to send WLAN data. You may limit the power level to minimize interferences with other WLAN devices. The actual power level is also capped by the WLAN Regulatory domain setting on the System settings page. 91 SIP-DECT OM System Manual RFP 43: 300 MBit/s (n) 2x2 MIMO RFP 48: 450 MBit/s (n) or 600 MBit/s (ac) 3x3 MIMO 5.6.4 CAPTURING DECT BASE STATIONS Base stations that are assigned to the OMM by DHCP options or OM Configurator settings may connect to the system. 1 On the Base Stations page, press the Start button below the Capturing unconfigured DECT base stations caption. The page is updated with the MAC addresses of those base stations that attempted to register with the OMM (unregistered RFPs). Note:
These entries are not actually stored, and are lost after an OMM reset. 2 By clicking on the edit icon of the appropriate base station, you can add further data and store the base station (see section 5.6.3). 5.6.5 DELETING DECT BASE STATIONS To delete an existing DECT base station:
1 On the Base Stations page, click on the icon left beside the RFP entry. The Delete base station? dialog opens showing the current configuration of this RFP. 2 Click the Delete button. Please note: The RFPs bound to a license (License RFPs) cannot be deleted. The License RFPs are displayed in the list with a license icon information on licenses, see section 3.3.2). instead of the trash icon. For further 5.6.6 FIND MY SIP-DECT BASE STATION This is a new web page and currently located at http://www.teqdomain.de/RFPsearch/ (to be changed), which is used to scan the local customer network for RFPs running a SIP-DECT 8.0 SW or higher. This helps to determine the IP addresses of the base stations assigned by DHCP. The IP address of the client PC is determined automatically if it is supported by the browser. The search IP range is initialized automatically. Otherwise, the customer needs to enter the IP range. 92 OMM Web Service The results get listed with the base station MAC address, IP address and optionally the RFP generation and configuration state. The configuration web GUI of the OMM running on the base station or the base station that is assigned to, can be opened by clicking the Open button of the listed data record. 93 SIP-DECT OM System Manual For Microsoft Edge, the Internet Properties needs to be changed. In the Security tab, for the Local intranet in the Advanced view of the Sites configuration, an entry http://*.teqdomain.de (to be changed) needs to be added. 5.7 DECT PHONES MENU The DECT Phones page provides an overview of all configured DECT phones sorted by their number. To keep the list concise, the complete list is split up into sub lists containing up to 100 DECT phones. You can move back and forth in increments of 100 DECT phones. The table provides information on the DECT phones and their status in several columns:
Display name: Indicates the DECT phone name. Number/SIP user name: Indicates the internal call number of the DECT phone. IPEI: Indicates the DECT phone IPEI. Subscribed: Indicates if the DECT phone is subscribed to the system. Download: This column is only displayed if the Download over Air feature is started successfully and provides information about the download status of the DECT phone software (see section 8.22). Note: All DECT phone data that are configured as unbound (split into DECT phone and user data) are also listed at the OM Web service when a user is logged in at the DECT phone, but they cannot be deleted or changed. This is indicated by the and icons. Unbound DECT phones where no user is logged in are not displayed on the DECT phones page. The following tasks can be performed on the DECT Phones page:
create and change DECT phones (see section 5.7.1) import DECT phone configuration files (see section 5.7.2), subscribe DECT phones (see section 5.7.3) delete DECT phones (see section 5.7.4) search within the DECT phone list (see section 5.7.5) 94 OMM Web Service 5.7.1 CREATING AND CHANGING DECT PHONES 1 To configure a new DECT phone, click the New button on the DECT phones page. To change the configuration of an existing DECT phone click on the phones entry. The New DECT phone or the Configure DECT phone dialog opens. icon left beside the DECT 2 Configure the DECT phone (see parameter descriptions below). 3 Press the OK button. The following parameters can be set in the New DECT phone and the Configure DECT phone dialog:
General settings Display name: The name parameter represents the SIP Display Name field. This parameter is optional but recommended. Number/SIP user name: The number is the SIP account number or extension for the DECT phone. IPEI: This optional setting is the DECT phone IPEI number. On a Mitel DECT 142 /
Mitel 142d DECT phone, the IPEI can be found via the following path of the DECT phone menu: Main menu > Phone settings > System. On a Mitel 600 DECT phone, the IPEI can be found in the System DECT phone menu. Consult the DECT phones user guide for further information. DECT authentication code: The DECT authentication code is used during initial DECT subscription as a security option and can be set here for each DECT phone separately (DECT phone-specific DECT authentication code). This parameter is optional. If no DECT phone-specific DECT authentication code is set, the system-
wide DECT authentication code is used. Login/Additional ID: The additional ID can be used as a mean for data search within wildcard subscription (because of the IPEI is not configured which selects the data otherwise). Delete subscription: This option is only available when configuring an existing DECT phone (in the Configure DECT phone dialog). If this option is selected, the DECT phone will be unsubscribed. SOS number, ManDown number: SOS and ManDown are calling numbers which will be automatically called as soon as an SOS or ManDown event happens. If no individual SOS or ManDown number is configured for a DECT phone, the number of the appropriate alarm trigger will be used as a system-wide calling number in case of a SOS or ManDown event. Please see /31/ for details. Voice mail number: The voice mail number is the number which will be automatically called as soon as a voice mail call is initiated on the Mitel 600 DECT phone. If there is no individual voice mail number configured in this field, then the system-wide voice mail number is used (see also the System setting menu, section 5.4.1.9). If there is no voice mail number configured (neither the individual nor the system-wide) or another DECT phone type is used, then the voice mail number must be configured locally in the DECT phone. Number used for visibility checks: Provides phone number or SIP user name used for standby OMM visibility checks. 95 SIP-DECT OM System Manual SIP authentication User service Key lock User name: The SIP Authentication user name is optional but recommended. It represents the name which will be used during SIP registration and authentication. If no name is given the number will be used by default. Password, Password confirmation: The password will be used during SIP registration and authentication. Enter the appropriate data in these fields. Use SIP user name: Specifies whether the XSI user name is taken from the user's SIP data. The generated format is <sip user name>@<sip registrar domain>. Possible values are Global, On, or Off. Use SIP user authentication: Specifies whether the XSI authentication name and password are taken from users SIP data. The generated format is <sip authentication name>@<sip registrar domain>. Possible values are Global, On, or Off. User name: Specifies the users user name for the XSI service (if Use SIP user name is set to Off). The user name is part of the access url path of a XSI request
(e.g., /com.broadsoft.xsi-actions/v2.0/user/<service user name>/directories/Enterprise?firstName=A*). Authentication name: Specifies the name to authenticate the user for XSI services
(if Use SIP user authentication is set to Off). Password, Password confirmation: Specifies the password to authenticate the user for XSI services. Active: This enables the Key lock menu under System menu/Administration on the Mitel 600d DECT phone. To prevent change of the time by the user disable the feature here. PIN, PIN confirmation: The DECT phone default PIN is set to 0000. It is the same default PIN as for the local DECT phone feature. Adjust a new PIN here if the user had forgotten its PIN. Timer: The phone is locked automatically after the selected time (in seconds). If the timer is set to None, the key lock is not automatically activated if the DECT phone is not used, and the long press of the # key does not activate the key lock with PIN. 5.7.2 IMPORTING DECT PHONE CONFIGURATION FILES A set of DECT phones can also be configured in a semi-automatic manner by import of a configuration file. 1 On the DECT Phones page press the Import button. The DECT phone enrolment page opens. 2 Select your configuration file and press the Import button. For information on the file layout, see section 12.2.1. 3 A parsing protocol can be read, if you press the referring Log file button. All successfully imported data records are presented in a list. 4 Select the DECT phones you want to add to the OMM database by selecting the appropriate checkboxes, and click Add. 96 OMM Web Service All successfully stored records are marked green in the Added column. Failed records are marked with a red star. 5 To read error hints in the referring log file, press the Log file button. Error hints can also be read in a syslog trace. 6 To remove imported data entries, activate the check box next to the desired entries. Press Delete to remove the selected entries. 5.7.3 SUBSCRIBING DECT PHONES Preparation by OMM Web service After adding a DECT phone configuration to the OMM, the DECT phone must be subscribed. The OMM must first be enabled to allow subscriptions from DECT phones. This is done by pressing the following buttons on the DECT Phones page. Start button under the Subscription with configured IPEI caption (see section 5.7.3.1). This button enables subscription for the next 24 hours. Start button and time interval parameter under the Wildcard subscription caption. This button enables wildcard subscription for the selected time. After expiry the subscription with configured IPEIs is still enabled for 24 hours. Note:
To ease the first installation of a DECT system, the subscription is enabled permanently while at least one DECT phone (with IPEI) is set up in the database and no DECT phone is subscribed. After successful subscription of the first DECT phone the subscription will still be enabled for 24 hours. The time is further limited if the feature 'Restrict subscription duration' is active (see chapter 5.4.1.2 DECT settings). Subscription steps, done by DECT phone After the DECT phone configuration is complete on the OMM and the OMM is allowing new subscriptions, each DECT phone must subscribe to the system. On each DECT phone, the administrator or user must subscribe to the SIP-DECT system through the System -> Subscriptions menu. The specific PARK code for the SIP-DECT system should be entered to subscribe to the system. Please note: The PARK is displayed in the top-right corner of the DECT Phones page. Each SIP-DECT deployment has a unique PARK code. If the administrator configured a global or device-specific DECT authentication code, the administrator/user must enter in the code before the DECT phone subscribes to the system. For wildcard subscription, an additional ID may be configured (see sub section Wildcard Subscription). 5.7.3.1 Subscription with Configured IPEI The DECT phone data to be assigned to the subscribing DECT phone are identified by the IPEI. The identity of a DECT phone (IPEI) is already known by the system before the DECT phone attempts to subscribe. Unknown DECT phones are not allowed to subscribe in this mode. 97 SIP-DECT OM System Manual To enable subscriptions, click the Start button under the section Subscription with configured IPEIs caption on the DECT Phones page. The OMM allows a subscription of configured but not subscribed DECT phones during the next 24 hours. The administrator must press the Subscribe button again to permit more DECT phones to subscribe to the SIP-DECT system. Note: Older DECT phones may not offer the possibility to enter an access code (AC). You should always subscribe these DECT phones with configured IPEI to maintain security. The time is further limited if the feature 'Restrict subscription duration' is active (see chapter 5.4.1.2 DECT settings). 5.7.3.2 Wildcard Subscription To minimize administration effort, subscription is also possible, if the IPEI is not configured. But because of the loss of further security by IPEI check, this kind of subscription is only allowed within a short default time interval of 2 minutes. To enable subscriptions, press the Start button of the section Wildcard subscription on the DECT phones page. If necessary, increase the time interval (or refresh subscription permission in time). The OMM will allow a wildcard subscription during the set time interval. In case of timeout the permission is lost. Only subscription with IPEI remains allowed within the fixed limit of 24 hours. To achieve a selection of data during subscription (e.g. the user name being assigned to the DECT phone), the field additional ID can be set in OMM data. If the OMM receives a valid additional ID during subscription, the referring data are assigned to the DECT phone. If the additional ID is requested for a data record, the DECT phone user must type it. Additional ID can be set within the authentication code menu. Please type the R-Key and type the additional ID. Note:
The time is further limited if the feature 'Restrict subscription duration' is active (see chapter 5.4.1.2 DECT settings). Please note: The input of the additional ID is only possible with Mitel 142 and Mitel 600 DECT phones. The value is not supported on third party GAP phones. If GAP phones are going to subscribe wildcard, the first free DECT phone data record without any additional ID will be assigned. 5.7.4 DELETING DECT PHONES To delete an existing DECT phone:
1 On the DECT phone page click on the icon left beside the DECT phone entry. The Delete DECT phone? dialog opens showing the current configuration of this DECT phone. 2 Press the Delete button. 98 OMM Web Service 5.7.5 SEARCHING THE DECT PHONE LIST You can use the search function to search for a specific DECT phone in the DECT phone list. The search function allows you to find a DECT phone by a given number or IPEI. 1 On the DECT phones page click on the Search button. The Search DECT phone dialog opens. 2 Enter the DECT phones number or IPEI. At least one parameter must be set. The entered number or IPEI must match exactly with a DECT phones number or IPEI. If number and IPEI are given then a DECT phone must exist in the OMMs database whose number and IPEI match both otherwise the search fails. If a DECT phone with the specified number and/or IPEI was found, a list is displayed with this DECT phone as the first entry. The search function can also be used to get to the right sub list in one step. 5.7.6 DISPLAYING USER AND DECT PHONE DATA You can display a summary of user status and DECT phone configuration in a pop-up window on the DECT Phone page. Click the magnifying glass icon beside a DECT phone entry to view the User/device status & configuration window. Note: A configuration and status summary for the DECT phone is also available on the DECT phone under the Administration menu. The presentation layout is similar to the OMM Web service window, but the DECT phone only displays its own data. The following table describes the parameters in the User/device status & configuration window. Parameter User status Registered Description Current SIP user registration status Yes = registered No = not registered Registrar server type Current SIP registrar: Primary or backup SIP registrar (secondary or tertiary) Registrar server IP address of the SIP Registrar Registrar port Port number of the SIP Registrar Calculated local port SIP users automatically determined client port Silent charging CoA data loaded Current silent charging state Yes = in silent charging mode No = not in silent charging mode COA data sent to DECT phone Yes = data has been sent No = no data sent User configuration data User Id Internal system identifier for the user User rel. Type Type of association between the user and DECT phone. Dynamic or fixed. Name Users name 99 SIP-DECT OM System Manual Number Description 1 Description 2 User lang. SOS number MD number SIP user name or number Additional textual description for a user (e.g., department or function) Additional textual description for a user (e.g., department or function) Language setting on the DECT phone Emergency number to be dialed when the SOS key has been pressed Emergency number to be dialed when a sensor alarm (Mitel 600 DECT phone) has been initiated VM number Voice mail number (dialed by a long press of 1 key on the Mitel 600 DECT phone) SIP auth. user name SIP authentication user name SIP auth. password SIP authentication password Fixed local port SIP users configured fixed client port (used for SIP registration) Login/Add ID PIN External Permanent VIP Visibility checks Hot desking supported ID used for user identification during login procedure at the DECT phone OR ID used for wildcard subscription during DECT phone subscription procedure PIN used for user identification during login procedure at the DECT phone
******* = a PIN is set, empty = no PIN is set User data provided by an external provisioning server (<user>.cfg) Yes = user data imported from a server No = user data only stored internally in the OMM DB Indicates whether the user is stored in all OMMs in a Multi-OMM Manager (MOM) managed system. Yes = user data is stored in all OMMs in the SIP-DECT system. No = user data only stored in the local OMM (i.e., where the device is currently registerd). To guarantee a minimum blackout for a very important person (e.g. emergency user) the SIP (re-)registration of such people can be prioritized. Yes = prioritized No = not prioritized The OMM standby feature uses an existing SIP account to check the availability of the registrar. Yes = this account is used No = this account is not used Hot desking capability; only available for users with a dynamic association with a DECT phone. Yes = user is registered for hot desking on the call server. No = user is not registered for hot desking on the call server. Auto logout on charging A user can be logged out of the device automatically when the Mitel 600 DECT phone is placed in the charger cradle. Yes = automatic logout when put in charger No = no automatic logout User log out requires authentication. Yes = user logout with authentication No = user logout without authentication Users permissions to send text messages using the Mitel 600 DECT phone Yes = user is authorized to send text messages No = user is not authorized to send text messages Authenticate logout Sending messages 100 Sending vCards Receiving vCards Video stream perm. Locate Tracking DECT locatable Keep personal dir. Forward mode Forward time Forward dest. Hold ring back time Call waiting disabled Auto answer Microphone mute Warning tone Allow barge in OMM Web Service Users permissions to send vCards using the Mitel 600 DECT phone Yes = user is authorized to send vCards No = user is not authorized to vCards Indicates whether the user accepts received vCards Yes = incoming vCards are accepted No = incoming vCards are not accepted Users permissions to access video using the Mitel 602 DECT phone Yes = user is authorized to access video No = user is not authorized to access video Users permissions to locate other users using the Mitel 600 DECT phone Yes = user can locate other users No = user cannot locate other users Tracking forces the Mitel 600 DECT phone to indicate every change of the DECT base station even in idle state Yes = tracking is active No = tracking is inactive Permission to locate the user (i.e., through the SIP-DECT locating solution) Yes = locating the user is permitted No = not permitted The local directory of the Mitel 600 DECT phone is usually the users personal directory and is cleared at logout. If deleting the directory content is not desirable, this option can be set Yes = local directory is not cleared No = local directory is cleared Mode of Call diversion or Call forwarding (Off, Immediately, Busy, No answer, Busy
& no answer) Time delay in seconds before the incoming call is redirected. Destination of the redirected call Time in minutes after which the user wants to be reminded of the connection on hold 0 = Off, no reminder An incoming call is signaled in-band if the user is otherwise engaged (Call waiting). This feature can be disabled Yes = call waiting is disabled No = call waiting feature is active Enables or disables auto-answer on incoming calls. If auto answer is enabled, the DECT phone plays a tone to alert the user before answering the call. If auto answer is disabled, the DECT phone treats the incoming call as a normal call. Enables or disables microphone muting when incoming calls are automatically answered. Enables or disables a warning tone to play when the DECT phone receives an incoming call on an active line. A short ringtone is played if there are no active calls. If there is an active call in a barge in situation, the ringing will be in-band. Allows/disallows how the DECT phone handles incoming calls while the DECT phone is on an active call. When enabled an incoming call takes precedence over an active call, by placing the active call on hold and automatically answering the call. When disabled the DECT phone treats an incoming call like a normal call. Monitoring mode SIP-DECT supports a User Monitoring feature to check the availability of a user to 101 SIP-DECT OM System Manual receive calls or messages. On = monitoring feature is active Off = monitoring feature is not activated Conference server type User-specific setting of the conference service to be used for three-way conferencing None = three-way conferencing is disabled Global = OMM system setting is used (default) Integrated = integrated conference server is used Conference server URI URI for the external conference server Use CoA profile ID of the CoA (Central DECT phone configuration over air) profile Use SIP user name Uses SIP user name for XSI directory access Use SIP user auth. Uses SIP authentication credentials for XSI directory access User service user name User name for XSI service (if SIP credentials not used for XSI directory access) User service auth name Authentication name for XSI service (if SIP credentials not used for XSI directory access) User service password Password for XSI service (if SIP credentials not used for XSI directory access) Device status IPEI HW type SW version Subscribed Encryption International Portable Equipment Identifier (globally unique identifier of the DECT phone) Hardware type of 600 DECT phone or 142d otherwise unknown Version of the software on the Mitel 600 DECT phone Subscription status of the DECT phone Yes = DECT phone is subscribed No = DECT phone is not subscribed DECT encryption status Yes = Encryption is enabled No = Encryption is disabled Capability Messaging Messaging capability of the DECT phone Yes = DECT phone supports messaging No = DECT phone does not support messaging Capability Enh. Locating Capability Video Enhanced locating capability of the DECT phone Yes = DECT phone supports enhanced locating No = DECT phone does not support enhanced locating Video capability of the DECT phone Yes = DECT phone supports video No = DECT phone does not support video Capability CoA profile CoA capability (Central DECT phone configuration over air) of the DECT phone Yes = DECT phone supports CoA No = DECT phone does not support CoA Device auto-created Auto-creation occurs when the DECT phone data set is automatically generated in the OMMs database at subscription time. No administrative task is required onthe SIP-DECT system to subscribe a DECT phone in this auto-create mode. Yes = DECT phone has been subscribed in auto-create mode No = DECT phone has not been subscribed in auto-create mode 102 OMM Web Service Default CoA profile loaded A default CoA profile (Central DECT phone configuration over air) can be sent to a 600 DECT phone Yes = a default profile was sent No = no default profile was sent Device configuration data Device ID Internal system identifier for the DECT phone 5.8 WLAN MENU The WLAN menu allows you to manage the wireless LAN function of all WLAN capable RFPs that are connected to the OMM. You can view and change wireless parameters and security settings to adapt the WLAN configuration to suit your needs. You can also check how many and which wireless clients are currently connected. Nevertheless, the WLAN function is only available for base stations of the type RFP 42 WLAN and RFP 43 WLAN. Note: You cannot activate the WLAN function for the OMM, even if the OMM base station is an RFP 42 WLAN. For a detailed description on WLAN configuration, see the section 8.18. 5.8.1 WLAN PROFILES MENU WLAN settings are grouped in WLAN profiles. You need at least one WLAN profile that can be assigned to one or more WLAN-RFPs. You can define more than one WLAN profile, to a maximum of 20 WLAN profiles. You can manage / change the desired WLAN settings for a group of WLAN-RFPs by changing their assigned WLAN profiles. Moreover, you can manage different settings, for example separate WLAN profiles for different buildings, a special WLAN profile for temporary use, or WLAN profile for RFPs only useable by guests. Note the different WLAN profile types:
RFP type RFP 42 WLAN RFP 43 WLAN RFP 48 WLAN WLAN profile type RFP 42 RFP 43 RFP 48 HT40 (RFP 43/48 WLAN only): Very high throughout mode with 80 MHz bandwidth increases data rate up to 1300 MBit/s (3x3 MIMO). HT80 (RFP 48 WLAN only): Includes the HT40/HT20 bandwidth setting. A channel with a bandwidth of 80 MHz occupies 4 WLAN channels with a bandwidth of 20 MHz. The WLAN profiles menu allows configuration and administration of these WLAN profiles. 103 SIP-DECT OM System Manual You can:
create and change WLAN profiles (see section 5.8.1.1) delete WLAN profiles (see section 5.8.1.2) export WLAN profiles (see section 5.8.1.3) The defined WLAN profiles are then assigned to one or more WLAN base stations (see section 5.8.2). Note, that some device-specific WLAN settings are not part of a WLAN profile, such as the channel and the antenna configuration. These settings are defined separately for each base station (see section 5.6.3). 5.8.1.1 Creating and Changing WLAN Profiles You need at least one active WLAN profile in order to operate the WLAN function for an RFP 42/43/48 WLAN device. 1 Navigate to the WLAN profiles page. This page shows the number of existing WLAN profiles and a list of available WLAN profiles. 2 If you create a new WLAN profile, configure the RFP type first to get the correct input fields. Select the appropriate profile (RFP 42, RFP 43 or RFP 48) from the WLAN profile type selection list. 3 To add a new WLAN profile, press the New button. To change an existing WLAN profile, click on the icon available on the left of the WLAN profile entry. The New WLAN profile page resp. the WLAN profile [Number] page shows the WLAN profile configuration. 4 Change the desired settings of the WLAN profile. You need at last to define the ESSID setting. The different settings are explained in detail in the sections below. 5 Activate the Profile active setting; otherwise the WLAN profile is inactive which de-activates the WLAN function for base stations that are assigned to this WLAN profile. 6 Press the OK button to apply the settings. If you created a new WLAN profile, you can proceed by assigning the WLAN profile to the desired base stations (see section 5.6.3). If you changed an existing WLAN profile, the settings are applied to the assigned base stations automatically. The following parameters are available on the New WLAN profile page and on the WLAN profile
[Number] page:
General settings 104 Profile active: Activate this checkbox to activate the profile. This in turn activates the WLAN function for all RFPs that are assigned to the WLAN profile. OMM Web Service SSID: Enter a descriptive character string to identify the WLAN network (e.g. OurCompany).The service set identifier is broadcasted by the RFP within WLAN beacons in a regularly interval. The SSID identifies the WLAN network and is visible by all WLAN clients. This is typically used with a scan function, e.g. from a WLAN client that tries to establish a connection. The SSID should not exceed 32 characters and it is advisable not to use unusual characters that may trigger WLAN client software bugs. VLAN tag (number, 1..4094, default: off): You can separate VoIP and client data traffic (transferred via WLAN) by using different virtual LANs, e.g. to prevent bulk data transfers to interfere with VoIP. To use a separate VLAN for the client data traffic, activate the check box and enter the desired VLAN number (see sections 8.18 and 8.12). Beacon period (milliseconds, 50..65535, default: 100 ms): Determines the WLAN beacon interval. A higher value can save some WLAN airtime that can be used for data transfers. DTIM period (number, 1..255, default: 5): Determines the number of beacons between DTIM messages. These messages manage the WLAN wakeup/sleep function e.g. that is critical for battery powered WLAN clients. RTS threshold (bytes, 0..4096, default: 2346): If a WLAN packet exceeds this threshold, it will be transferred with RTS/CTS handshake. This may improve transfer reliability if several WLANs share the same channel. The default of 2346 byte switches off this function because the IP-MTU is typically only 1500 byte. Fragmentation threshold (bytes, 0..4096, default: 2346): If a WLAN packet exceeds this threshold, it will be transferred in chunks. This may improve transfer reliability for a weak connection. The default of 2346 bytes switches off this function because the IP-MTU is typically only 1500 byte. This option is now unavailable for RFP 48. Maximum rate (list of rates in Mbps, 1..54, default: 54): This setting applies to RFP 42 WLAN only. Determines the maximum transfer rate used by the RFP. You can limit the rate to increase the WLAN range, e.g. to prevent WLAN clients in the vicinity of the RFP to disturb distant WLAN clients. 802.11 mode (RFP 42 WLAN selection list: Mixed / 802.11b only / 802.11g only, default: Mixed): Both the older and long-ranged B-Mode and the newer and faster G-Mode are typically supported by WLAN clients. You can change this setting to prevent problems with very old WLAN clients.
(RFP 43/48 WLAN selection list: 802.11bg /802.11b only / 802.11g only /
802.11abg /802.11n, default: 802.11bg): On the RFP 43/ RFP 48 profile you can choose additionally 802.11 modes 802.11abg, 802.11n and the mode 802.11ac is only available for RFP 48 WLAN. Mode Open WEP WPA v.1 (802.1x + PSK) WPA v.2 (802.1x + PSK) 802.11abg 802.11n/802.11ac yes yes yes yes yes no no yes 105 SIP-DECT OM System Manual Hidden SSID mode (on / off, default: off): If switched on, the transmission of the SSID within beacons is suppressed. This in turn requires a more elaborate and manual connection procedure for WLAN clients. Interference avoidance (on / off, default: off): This setting applies to RFP 42 WLAN only. Enables a WLAN procedure to enhance radio interference avoidance. Security settings These settings determine the encryption used for the WLAN connection. Select one of the four modes
(Open, WEP, WPA, or Radius). This will activate / gray-out the necessary additional input fields that specify further security settings on the WLAN profile page. Open system: Enable this option to deactivate authentication and encryption (Hotel mode). Note, that all data is transferred un-encrypted in this mode, which can be easily eavesdropped with any WLAN equipment. Wired equivalent privacy (WEP): Enable this option to use the older WEP encryption mode. This mode may be useful, e.g. if your WLAN should support older WLAN clients that do not implement the recommended WPA encryption. Privacy (on / off, default: off): De-activate this setting to use no authentication
(Open System) with standard WEP encryption. Activate this setting to use an additional shared key authentication between the RFP and the WLAN client. Number of tx keys (number, 1..4, default: 1): The WEP encryption can use a single shared key or multiple shared keys (key rotation). Select the number of shared keys, select how to enter a shared key (by default as Text or as Hex value), and select the Cipher length (see Key settings below). Default tx key (number, 1..4, default: 1): If more than one shared keys is used, you can select the default shared key. You must configure the same default key on the WLAN client. Key #1 Key #4: Enter one or more shared key. The Cipher length setting
(see Key settings below) determines the length of the required input. If you selected to enter as Text (see above), input a password with 5, 13, or 29 characters that matches a 64 or 128 bit cipher. If you selected to enter as Hex value, you can input a hexadecimal number with 10, 26, or 58 characters (0-9, a-f). Press the Generate button to generate a random shared key that matches the current settings. WiFi protected access (WPA): Enable this option to use the recommended WPA encryption mode.
(selection, WPA any / WPA v.1 / WPA v.2, default: WPA any): Select the WPA Type version required for WLAN clients. The WPA any setting allows WPA v.1 and WPA v.2 to be used concurrently. The WPA v.1 setting enforces the use of the older RC4-based encryption. The WPA v.2 setting enforces the use of the stronger AES encryption. You can also change the distribution interval (see Key settings below). 802.1x (Radius): Select this option if your WLAN should use a RADIUS server for WLAN client authentication (Enterprise WPA with different username/password combinations per client). You must also specify the (see below). For details about the RADIUS authentication procedure, using the public keys, and importing certificates to the WLAN clients see the Radius settings documentation of your RADIUS server product. 106 OMM Web Service Pre-shared key: Select this option to use a single shared key for all WLAN clients (Value setting below). A WLAN client user needs to enter the shared key in order to connect. Value: You can enter a shared key as Text. Use a longer text sequence with alphanumeric characters and special characters to enhance the shared key strength. A text shared key is case sensitive. Alternatively, the shared key can be entered as Hex value (hexadecimal number, 0-9, a-f). Press the Generate button to generate a random shared key that matches the current settings. MAC access filters (on / off, default: off): This setting applies to RFP 43 WLAN only. You can limit WLAN access for WLAN clients with specified MAC addresses. Note, that without encryption this should not be used for security reasons. You can configure a list of MAC addresses that are allowed to connect via the MAC access filters tab on the WLAN profile page. BSS isolation (on / off, default: off): In a standard WLAN setup, each WLAN client can contact other WLAN clients. For special purposes (e.g. Internet caf setup), you may switch on this options to protect WLAN clients from eavesdropping on other WLAN clients. Cipher length (selection, 64 Bits / 128 Bits / 256 Bits (RFP 42 WLAN only), default:
64 Bits): Determines the key length used for the WEP encryption. Larger bit sequences provide better security but may be unsupported by very old WLAN clients. Distribution interval (seconds, 60..86400): Determines how often the WEP encryption is re-negotiated. Key settings Radius settings The parameters in this section can only be configured if the 802.1x (Radius) configuration is used. IP address: Enter the IP address of the RADIUS server. Port: Enter the port number used to connect to the RADIUS server. Press the Default button to change to the standard port. Secret: Enter the character string that is used by the RFP to secure the communication with the RADIUS server. QoS settings WME: (on / off, VLAN or DiffServ (RFP 42 WLAN only), default RFP 42 WLAN:
off/VLAN, default RFP 43 WLAN: off): You can enable the Wireless Media Extensions to prioritize WLAN traffic. The WLAN traffic priority is determined by VLAN number or by examining the DiffServ data field of IP packets. SSID2 SSID4 Tabs You can enable up to three additional virtual WLAN networks that are managed by their SSID. This can be used for example to provide WLAN access for guests that is separated from the company WLAN by means of VLAN tags and encryption settings. To activate this feature proceed as follows:
1 Switch to the appropriate SSID tab, e.g. SSID2. Activate the Active check box to enable the additional virtual WLAN. The tab provides separate configuration items for the selected SSID. 2 Enter at least a new SSID. Also enter a currently unused VLAN tag number. 107 SIP-DECT OM System Manual 3 You can specify different authentication/encryption settings for each SSID section. For example, you can use WPA / Pre-shared key with different passwords. Note that some configuration combinations are incompatible with multiple SSIDs. For example, the wireless hardware only manages a single WEP encryption key. Also, some features apply to all defined SSIDs, including the MAC access filters list. You can edit the MAC access filters list via the MAC access filters tab on the WLAN profile page. You can import a prepared list of MAC addresses (*.txt. file, one line per MAC address) Use the Browse button to select the file from the file system. Afterwards press the Import button. To configure single MAC addresses, use the New button in the General settings section. Enter the address in the following New MAC access filter dialog. To delete a single MAC address, click on the Use the Delete all button to delete the entire list. Using the Save button you can export the MAC address filter list. icon left behind the address entry. The Associate column indicates for each MAC address if the respective WLAN client is currently connected to the WLAN. 5.8.1.2 Deleting WLAN Profiles To delete an existing WLAN profile:
1 You cannot remove WLAN profile that is in use. To remove a currently used WLAN profile, you must select another WLAN profile for all assigned RFPs first (see section 5.6.3). 2 On the WLAN profiles page click on the icon next to the profile entry. The Delete WLAN profile? dialog opens showing a summary of the WLAN profiles configuration. 3 Press the Delete button. 5.8.1.3 Exporting WLAN Profiles To simplify the configuration of wireless devices, you can export SSID configuration to a XML WLAN profile file. To export the configuration, click on the On Windows 7 you can use the netsh wlan add profile filename=xxx command to import a WLAN configuration. Many other tools to import WLAN configuration files are available for Windows Vista /
Windows XP systems (for example wlan.exe from Microsoft). icon. 5.8.2 WLAN CLIENTS MENU The WLAN clients page shows the status of all WLAN clients currently connected to the WLAN. This can be used for example for troubleshooting purposes. The display shows the total number of connected WLAN clients and a list of RFPs that are part of the WLAN. For each RFP, the WLAN client connected to the RFP are listed. You can view the MAC address and the current Status of each WLAN client. 5.9 SYSTEM FEATURES MENU The System features menu allows administration of system features concerning call number handling and directory access. 108 OMM Web Service 5.9.1 DIGIT TREATMENT MENU A number manipulation is provided by the digit treatment feature for corporate directories that handles both incoming and outgoing calls. Digit treatment for LDAP directories A chosen number from an LDAP directory entry is checked against the external prefix pattern and if a pattern matches, it is replaced by the configured internal prefix pattern. Only the best matching rule will be applied. Before a rule is applied, the following characters are automatically removed from the LDAP directory entry: %, space, ( and ). The result of the conversion is sent to the DECT phone to be displayed e.g. in the directory entry details and entered in the redial list. Note: A conversion performed for an LDAP directory entry can be reversed if the rule is also activated for an outgoing call. Incoming call The calling party number of an incoming call is checked against the configured external prefix pattern and if a pattern matches it will be replaced by the internal prefix pattern. Only the best matching rule will be applied. The result of the conversion is sent to the DECT phone to be displayed and entered in the call log 1. Outgoing call The dialed number of an outgoing call is checked against the configured internal prefix pattern and if a pattern matches it will be replaced by the external prefix pattern. This applies to en-bloc dialed numbers and to overlap sending as long as the SIP session has not been initiated. Note:
To support digit treatment and overlap sending, it is necessary to have a dial terminator configured. The result of the conversion is not sent to the DECT phone to be displayed or entered in the call log 2. The following tasks can be performed on the Digit treatment page:
creating and changing Digit treatment entries (see section 5.9.1.1) deleting Digit treatment entries(see section 5.9.1.2) 5.9.1.1 Creating and Changing Digit treatment Entries 1 To configure a new entry, click the New button on the Digit treatment page. To change the configuration of an existing entry click on the The New digit treatment entry or the Configure digit treatment entry dialog opens. icon left beside the entry. 2 External pattern: Enter an external prefix pattern with up to 32 characters that matches an incoming call number or a number received via a directory entry. The prefix to be substituted for calling party 1 For Incoming Call/Calling Party Number: Depending on the capabilities of the DECT phone and the level of integration. 2 For Outgoing Call/Called Number: If the user dials the number from the redial list again, the same procedure will be applied as for the initial dialing. 109 SIP-DECT OM System Manual numbers has the same character set as the user telephone number (e.g., :+*~#,;.-
_!$%&/()=?09aAzZ). 3 Internal pattern: Enter an internal prefix pattern with up to 32 characters that replaces the external pattern for the directory entry / incoming calls or vice versa for outgoing calls. An internal prefix pattern can be composed of characters *, # and 0 9. Please note: The plus character (+) can only be dialed and transferred to a call log with a Mitel 600 DECT phone. 4 Direction: Select one of the following options:
Incoming calls: Rule applies on incoming calls. Outgoing calls: Rule applies on outgoing calls. Incoming and outgoing calls: Rule applies on incoming and outgoing calls. Apply on directory only: Rule applies to directories only. 5 Directory: This option can be used to specify the rule for incoming and/or outgoing calls. Activate this option if the rule applies to directories. 6 Sites: Specifies the sites for which a rule is applied e.g. 1, 2 (see section 5.5). If set to 0, the rule applies to all sites i.e. the rule will be applied to all calls or corporate directory requests. 7 Press the OK button. 5.9.1.2 Deleting Digit treatment Entries To delete an existing entry:
1 On the Digit treatment page click on the icon left behind the entry. The Delete digit treatment entry? dialog opens showing the current configuration of this entry. 2 Press the Delete button. 5.9.2 DIRECTORY MENU The Directory menu allows you to manage connections to one or more LDAP, XML or XMI servers to support central corporate directories. The OMM supports multiple LDAP, XML or XSI servers with specific parameter settings to support different types of directories (e.g. global corporate directory, group specific directory, personal directory). XML-based directory services can be implemented using the XML terminal interface. If there is more than one directory server configured, all are displayed on the DECT phone interface when the user invokes the Central Directory function. The user can choose one of the entries in the list. The name of an entry shown in the list is configured in the OMM when creating the directory server entry. The OMM determines the display order of the directories in the DECT phone menu by the order specified by the administrator. You can configure up to five external directories. If only one directory server is configured, the name configured in the OMM is ignored, and the directory is accessed directly when the user presses the System softkey on the DECT phone (>>>) or selects the Central directory option from the menu. 110 OMM Web Service 5.9.2.1 Creating and Changing Directory Entries You can configure directory entries (or change existing entries) from the Directory page (or the Directory (comp. mode) page for older SIP-DECT systems) in the OMM web interface. Parameters that require configuration depend on the type of directory you are configuring. To change the configuration of an existing entry click the Edit icon (
steps described below to set parameter values. You can change the order of the directory entries by selecting a directory entry in the list and clicking the up or down arrows in the right panel (under Tasks). Changing the order of directory entries in the list changes the order in which they appear on the DECT phone.
) beside the entry, and follow the To create or edit a directory entry, do the following:
1 Select the Directory entry in the System Features menu (left pane). 2 Click New on the Directory page, or click the pencil icon beside an existing directory entry in the list. The New directory entry (or Configure directory entry) dialog opens. 3 Specify values for the directory server as described in the following table. Note that only certain paremters are required, depending on the directory server type. Parameter Description LDAP XML XSI Active Type Enables or disables the directory entry on the DECT phone. Interface type supported by the directory server. Possible values:
LDAP XML XSI Enterprise XSI Enterprise common XSI Group XSI Group common XSI Personal Name Search base Search type Display type Name to be displayed for the directory (Latin-1 character set is supported). Location in the directory from which the search begins (e.g., ou=people, o=my com). The configuration is valid for all DECT phones that support the LDAP directory feature. To make search requests unique for different users, the search base configuration can include placeholders that are replaced by user-specific values when submitting the LDAP request to a server. The following placeholders are defined:
<TEL> (for the users telephone number)
<DESC1> (for the users Description 1 attribute)
<DESC2> (for the users Description 2 attribute) SIPProxy (for the current primary, secondary or tertiary SIP server address); supported for release 6.1 and later Attribute on which searches are performed (Surname or Given name). Display mode for search results (Surname, First Name or Given name Surname). Server search timeout Interval (in seconds) during which the OMM waits for search results from the LDAP server (1 10 seconds). 111 SIP-DECT OM System Manual Parameter Protocol Server port Server User name Password Description LDAP XML XSI Transfer protocol used to communicate with the XML or XSI directory server (http or https). Port for the LDAP directory server (default is 389). Note: SSL (default port 689) is not supported. Windows Active Directory Server uses port 3268. IP address or FQDN of the directory server. Name of the account for directory server access, if required. Password for directory server access, if required. Note: If no user/password is specified, an anonymous bind takes place. SIP-DECT supports LDAP simple bind. Path (and parameters) URL (with parameters, if required) to the XML directory on the XML directory server. Use common certificate configuration Enables or disables use of the systems certificates (loaded for provisioning purposes) for HTTPS directory access 4 Click OK to save your changes. 5.9.2.2 Deleting Directory Entries 1 To delete an existing directory entry click on the icon on the left of the entry on the Directory page. The Delete directory entry dialog opens showing the current configuration of this entry. 2 Press the Delete button. 5.9.3 DIRECTORY (COMP. MODE) MENU In SIP-DECT 6.2 and later, the underlying database model for directory support in SIP-DECT has changed. To support backwards compatibility, the Directory (comp. mode) page provides directory configuration and maintenance for existing SIP-DECT systems with LDAP or XML directory support. To create or edit a directory entry using the old database model, do the following:
1 Select the Directory (comp. mode) entry in the System Features menu (left pane). 2 Click New on the Directory (comp. mode) page, or click the pencil icon beside an existing entry. The New directory entry (or Configure directory entry) dialog opens. 3 In the New directory entry dialog (or the Configure directory entry dialog, for existing entries), specify values for the directory server as described in the following table. Note that only certain paremters are required, depending on the directory server type. Parameter Description LDAP XML Active Order Type Name Protocol 112 Enables or disables the directory entry on the DECT phone. Specify where you want the directory entry to appear in the list. Interface type supported by the directory server. Possible values:
LDAP or XML. Name to be displayed for the directory (Latin-1 character set is supported). Transfer protocol used to communicate with the XML directory server (HTTP or HTTPS). OMM Web Service LDAP XML Parameter Server name Server port Search base User name Password Search type Display type Description IP address or FQDN of the directory server. Port for the LDAP directory server (default is 389). Note: SSL (default port 689) is not supported. Windows Active Directory Server uses port 3268. Location in the directory from which the search begins (e.g., ou=people, o=my com). The configuration is valid for all DECT phones that support the LDAP directory feature. To make search requests unique for different users, the search base configuration can include placeholders that are replaced by user-specific values when submitting the LDAP request to a server. The following placeholders are defined:
<TEL> (for the users telephone number)
<DESC1> (for the users Description 1 attribute)
<DESC2> (for the users Description 2 attribute) SIPProxy (for the current primary, secondary or tertiary SIP server address); supported for release 6.1 and later Name of the account for directory server access, if required. Password for directory server access, if required. Note: If no user/password is specified, an anonymous bind takes place. SIP-DECT supports LDAP simple bind. Attribute on which searches are performed (Surname or Given name). Display mode for search results (Surname, First Name or Given name Surname). Server search timeout Interval (in seconds) during which the OMM waits for search results from the LDAP server (1 10 seconds). Path (and parameters) URL (with parameters, if required) to the XML directory on the XML directory server. 4 Click OK to save your changes. 5.9.4 FEATURE ACCESS CODES MENU Feature access codes (FAC) allow a DECT phone user to perform specific actions on the OMM from any subscribed DECT phone. 113 SIP-DECT OM System Manual To configure the FAC feature, do the following:
1 FAC number: Enter a unique FAC number. 2 Activate the appropriate checkbox(es) to enable the corresponding FAC feature(s). For each enabled FAC feature enter an assigned access code. Activate subscription: Activate subscription of the DECT phone. Activate wildcard subscription: Activate subscription of the DECT phone (if no IPEI is configured). Deactivate subscription: De-activate DECT phone subscription. User login: Log the user into the DECT phone. User logout: Log the user out of the DECT phone. Set system credentials for provisioning: Allow a user to set system credentials via the Mitel 600 DECT phone. Blind transfer: Initiate a blind transfer from the DECT phone. When a user dials the Blind transfer FAC en-bloc (in an active call state) followed by a target number, SIP-DECT initiates a blind transfer to the given target number. 3 Press the OK button. Users can perform the relevant operations by dialing the FAC number followed by the FAC access code en-bloc from any subscribed DECT phone. In the example above a subscribed user can activate the OMM DECT subscription by dialing *134567 en-bloc. Please note: Overlap sending is not supported for FAC. FAC number and FAC action code must be entered en-bloc. FAC functions will be confirmed by an audible indication to the user (in-band tone signals). 114 OMM Web Service 5.9.5 XML APPLICATIONS MENU The SIP-DECT XML terminal interface allows external applications to provide content for the user on the Mitel 600 DECT phone. To make the XML terminal interface applications available for the DECT phone user, you must configure the appropriate hooks in the XML Applications menu. When the application hook is enabled in the OMM, Mitel 600 DECT phone users can program a softkey with the specific hook (or select the relevant menu option) to trigger the associated action. The side keys on the Mitel 600 DECT phones only display icons in idle state. In an active call state, only the two softkeys below the display indicate the active feature. The following table summarizes the predefined XML application hooks:
Hook Caller list Redial list DECT Phone menu
>>> > Info > Caller List
>>> > Info > Redial List Description Hook to replace the local caller list. You can use this hook to enable the centralized call log feature (MX-ONE systems only). Call log support provided on an external server":
The call logs are located on an external XML server. Each call log action on the DECT phone is requested to the external XML server and the server answers this with XML responses. The content is displayed on the DECT phone for the user. The URL-path in the configuration differs from
"CSIntegration?object=history" which is an indication for the OMM centralized call log feature. Hook to replace the local redial list. You can use this hook to enable the centralized call log feature (MX-ONE systems only).
"OMM centralized Call log support provided by the OMM internally":
The call logs are pushed from the PBX (e. g. Mitel MX-
One) to the OMM through SIP and the OMM provides the call logs for all the DECT phones as an "XML server". The URL-path in the configuration be
"CSIntegration?object=history" which is an indication for the OMM centralized call log feature. 115 SIP-DECT OM System Manual Hook Presence Server menu Action URI Description Hook to reach a presence application . Hook to reach a server menu. The OMM system menu is available as a menu entry in the local main menu of the DECT phone (>>> softkey). If no user is assigned to the DECT phone, the server menu is the only available XML application hook. DECT Phone menu
>>> > Presence
>>> > Info > Server URI to be called in case of user/device events. The URI is configured in the OMM via OMP. Content can be pushed towards the DECT phone via SIP notify. n/a Feature access codes Hook to provide Feature Access Codes translation. Call completion Park call Unpark call Pickup Take Call forward Call routing
(Mitel 602 DECT phones only) Call protection
(Mitel 602 DECT phones only) Hook to provide callback option when a user places an outgoing call and wants to request a callback before releasing the call.
>>> > Info > Calback Hook to the Park Call service interface.
>>> > Call option > Park call Hook to the Unpark Call service interface.
>>> > Unpark call Hook to the Pickup Call service interface. Hook to Take Call service interface.
>>> > Pickup
>>> > Take Hook to the Call Forward service interface.
>>> > Call forward Hook to the Personal Call Routing service interface.
>>> > Call routing Hook to the PBX call protection service interface.
>>> > Call protection Voice box Hook to Voice Mail service interface.
>>> > Info > Voice box These hooks can be activated or deactivated but not deleted. You can create up to 10 additional hooks. Note:
The Call forward XML hook replaces the Call forwarding /
diversion supplementary service. When activated, the Call forwarding / diversion supplementary service is automatically deactivated and all user-specific settings are removed. 5.9.5.1 Creating a New XML Hook To create a new XML hook, do the following:
1 On the XML Applications page, click New. The New XML application window opens. 2 Configure the following parameters for the XML hook:
Active: Activates or deactivates the XML hook. Name: Name for the XML hook (not applicable for predefined XML hooks) Protocol: HTTP or HTTPS. Server: IP address or name of the server which provides the XML content. SIP-DECT 6.0 and later supports SIPProxy placeholders for XML Server application URLs in systems with SIP redundancy. Where applications are located on a SIP server, XML applications must be addressed using the current primary, secondary or tertiary SIP server address. In those cases, the SIPProxy placeholder can be used as server input. User name: Login user name if an authentication is required by the server. 116 OMM Web Service Password, Password confirmation: Password if authentication is required by the server. Path (and parameter): Path and query of the URI. For Feature access codes translation, the Path settings contains placeholders for the queried translation:
{subsc} = Number, {ppn} = Device ID, {fac} = FAC. 3 Click OK to save your changes. 5.9.5.2 Modifying an XML Hook To change the configuration of an existing XML hook, do the following:
1 On the XML Applications page, click on the Edit (pencil) icon beside the XML hook entry. The Configure XML application window opens. 2 Edit the XML application parameters (described above) as necessary. Note that you cannot change the name of a predefined XML hook. Note: SIP-DECT 7.0 and later supports centralized call logs for systems using the MX-ONE call server. To enable this feature, you must enter CSIntegration?object=history" as the value for the Path parameter. This applies to both the Caller list and Redial list predefined XML hooks. 3 Click OK to save your changes. 5.9.5.3 Deleting an XML Hook You cannot delete any predefined XML hooks. You can only delete XML hooks that you have created. To delete an XML hook, do the following:
1 On the XML Applications page, click on the Delete (garbage can) icon beside the XML hook entry. The Delete XML application? window opens. 2 Click Delete to confirm deletion of the XML hook. 5.10 LICENSES MENU The Licenses page provides an overview on the currently used license. On this page you can also import an activation or license file:
1 Select the path and file name where the activation or license key is stored. 2 Click the Import button. For a detailed description on the OMM licensing model, see section 3.3. 5.11 INFO MENU The Info page displays the End User License Agreement (EULA). With the first login to a new SIP-DECT software version, this page is displayed automatically and the user must accept the EULA by clicking the Accept button. 117 SIP-DECT OM System Manual 6 OM MANAGEMENT PORTAL (OMP) The OM Management Portal (OMP) is a Java tool used to manage the SIP-DECT solution. It can be used to view and configure OMM system data and has integrated monitoring and other maintenance features. SIP-DECT supports Java web start to start the OMP. Java 1.7 is required to run OMP 5.0 or later. By default, the source for the OMP binary is a Mitel web server (RFP-OMM) or the OMP.jar from the RPM installation (PC-OMM). You can also configure a different source (System settings -> OMP web start in the OMM Web service, or System -> Advanced settings -> Additional services OMP web start in the OMP). The following configuration order is used:
GUI-configured OMP web start URL in RFP-OMM installations Environment variable OM_WebStartUrl (e.g. set by ipdect.cfg configuration file) Mitel web server (RFP-OMM) / from RPM installation (PC-OMM) You can download the OMP jar file from the OMM Web service by clicking on the OMP link in the top bar:
Double-click on the downloaded file (OMP.jnlp) and click Run in the dialog window. The OM Management Portal starts and prompts for login credentials. Please note: Configuration of a non-default source must not contain login credentials because this is not supported by the Java Web Start mechanism. The HTTP/FTP server must be configured accordingly. This section lists all parameters which can be configured and viewed using OMP. All parameters which are also accessible by the OM Web service are described in the appropriate OM Web service section
(section 5). New parameters which are only accessible via OMP are described in this section. 6.1 LOGIN The OMM allows more than one user at a time to configure the system. To log in to the system enter the following data:
IP address of the OMM. User name, Password: Enter a user name and a password. Both strings are checked case sensitive. With initial installation or after removing the configuration file, the OMM Web service is accessible via a default built-in user account with user omm and password omm. The System name is set by the system administrator after first successful login to the OMM, see section 6.5.1. 118 OM Management Portal (OMP) The system name and the IP address of successful logins are stored in the local OMP preferences and can be reselected for further logins. Up to 10 different login datasets can be stored. On a Linux system, preferences are stored in the users home directory
~/.java/.userPrefs/. On a Windows system, preferences are stored in the registry node HKEY_CURRENT_USER/Software/JavaSoft/Prefs/. After login the OMP is set to the configuration mode page showing the system status page which contains health state information of the connected OMM (see section 6.4). If there is a version difference between the OMP and the OMM, this will also be indicated here. Details can be viewed in the Help:
About AXI menu (see section 6.15). 6.2 LOGOUT There is no automatic logout for the OMP. The user must log out manually. To log out from the system:
Click on the Close icon Select the Exit entry from the General drop-down menu. in the upper right corner of the OMP window Note:
If the OMM link is broken, the OMP asks if you want to reconnect to the OMM. In that case, you must enter the login data again. 6.3 OMP MAIN WINDOW The header of the OMP window shows the version of the connected OMM. OMP mode toolbar buttons The OMP provides different modes: Configuration mode, Monitor mode and Planning mode. Configuration mode allows changing of parameters. In monitor mode, parameters are only displayed, but are not changeable. Monitor mode provides additional features, e.g. system and RFP statistics and RFP synchronization monitoring. Planning mode enables the creation of graphics which can be used with the OM Locating application to visualize the placement of the RFPs (see also /27/). To select the desired mode, press the appropriate button in the upper toolbar of the OMP window:
Configuration mode Monitor mode Planning mode Main menus The OMP provides two main menus which are available in all program situations:
General menu, see section 6.14. Help menu, see section 6.15. 119 SIP-DECT OM System Manual Navigation panel Both configuration and monitor mode contain a navigation panel. This panel contains the mode-
dependant menu. Status bar The status bar is located at the bottom of the main window. It shows the following items:
Encryption state:
The icon indicates that encryption is enabled. icon indicates that encryption is disabled. The This setting can be configured in the DECT tab of the System settings menu (see also section 6.5.1). PARK, Subscription state: Clicking on one of the following icons enables / disables subscription. The icon indicates that subscription is enabled. The Subscription can also be enabled / disabled in the DECT phones menu (see also section 6.7.8). icon indicates that subscription is disabled. Auto-create on subscription state: Clicking on one of the following icons enables /
disables Auto-create on subscription. The icon indicates that Auto-create on subscription is enabled. icon indicates that Auto-create on subscription is disabled. The This setting can also be configured in the DECT tab of the System settings menu (see also section 6.5.1). Connection status to the OMM:
If connected to the OMM, the IP address of the OMM is displayed. OMP is disconnected from the OMM. Info console General OMP events are displayed the Info console. 6.4 STATUS MENU The system status is displayed after startup of OMP. The Status panel provides information about the system health states, and contains the following tabs:
Overview (see section 6.4.1) DECT base stations (see section 6.4.2) Users (see section 6.4.3) Devices (see section 6.4.4) 120 OM Management Portal (OMP) Sites (see section 6.4.5) Conference (see section 6.4.6) Video devices (see section 6.4.7) 6.4.1 OVERVIEW The Overview tab consists of a System panel providing general system health states information and a Features panel which shows health states of system features. Some of these features are optional;
that means the relevant health state is only shown if the feature is activated in system. The Overview tab shows following system information:
System uptime: Elapsed time since OMM start (in days, hours and minutes) Licenses: Licenses health state Standby OMM: Standby OMM IP address and health state of standby configuration
(if no standby OMM is configured a grey cross is shown) Synchronization state: Synchronization health state DECT base stations: Base stations health state SIP: SIP health state DB import/export: DB import/export health state Downloading new firmware to portable parts: (Health) state of firmware download to DECT phones Provisioning server: Health state of provisioning server health state 121 SIP-DECT OM System Manual OMM configuration file processing: Health state of configuration file processing. Depending on OMM system configuration, the Features tab consists of all or a subset of these health states:
OM Integrated Messaging & Alerting service: Messaging and alerting feature health state (always active) SIP certificate server: SIP certificate server health state (always active) Configuration over Air: Central DECT phone configuration over air state (optional) User data server: User data server health state (optional) User monitoring: User monitoring health state (optional) Video: Video health state (optional) Health states can have the following values:
inactive or unknown error OK 6.4.1.1 OMM Standby Configuration OMM standby configuration must be built of the same RFP generations. Valid configurations are:
RFP4G <- Standby -> RFP4G RFP3G <- Standby -> RFP3G Linux Server/OVA <- Standby -> Linux Server/OVA In previous releases, OMM standby configuration is not available for SIP-DECT with Cloud-ID, that is, in SDC mode. 6.4.2 DECT BASE STATIONS The DECT base stations tab contains the following sections: General, DECT and WLAN. The General panel provides counters related to RFP configuration and state:
Total: Total number of RFPs configured 122 OM Management Portal (OMP) Connected: Number of RFPs connected to OMM Invalid branding: Number of connected RFPs with invalid branding Standby misconfigured: Number of connected RFPs with wrong standby configuration Version mismatch: Number of connected RFPs running with wrong software version Software update: Number of connected RFPs requesting software update USB overload: Number of connected RFPs detecting overload at their USB port Encryption not supported: Number of connected RFPs not supporting encryption Advanced features not supported: Number of connected RFPs not supporting Advanced features which covers Hi-Q audio technology, Terminal video, Enhanced DECT security and SRTP. The DECT panel provides counters related to RFPs DECT configuration and state:
DECT switched on: Number of configured RFPs with DECT switched on DECT running: Number of connected RFPs with DECT running Used cluster: Number of configured clusters Used paging areas: Number of paging areas used by RFPs The WLAN panel provides counters related to RFPs WLAN configuration and state:
WLAN switched on: Number of configured RFPs with WLAN switched on WLAN running: Number of connected RFPs with WLAN running Profiles: Number of WLAN profiles used by RFPs 6.4.3 USERS The Users tab provides information about DECT phone users. 123 SIP-DECT OM System Manual The General panel provides counters concerning DECT phones user configuration and states:
Total: Total number of configured users SIP registered: Number of configured users registered at SIP server Monitored active: Number of configured users with active monitoring enabled Monitored passive: Number of configured users with passive monitoring enabled Sending messages permission: Number of configured users with message sending permission enabled DECT locatable: Number of configured users with DECT locatable enabled The User monitoring states panel provides counters concerning DECT phone user monitoring state Warning: Number of monitored users in state Warning Unavailable: Number of monitored users in state Unavailable Escalated: Number of monitored users in state Escalated The Number for visibility checks panel provides phone number or SIP user name used for standby OMM visibility checks. 6.4.4 DEVICES The Devices tab provides information about DECT phones. 124 OM Management Portal (OMP) The General panel contains counters related to DECT phones:
Total: Total number of configured DECT phones Subscribed: Number of configured DECT phones which are subscribed to OMM The Downloading new firmware to portable parts panel provides information about state of DECT phone firmware download:
Status: Status of firmware download Loading firmware from: URL of firmware download container Firmware version: Version info of firmware container Known downloadable: Number of DECT phones known as downloadable Already updated: Number of DECT phones already updated Waiting for download: Number of DECT phones waiting for download Currently downloading: Number of DECT phones currently downloading Barred: Number of downloadable DECT phones currently barred Download error: Number of downloadable DECT phones with download error Unreachable: Number of downloadable DECT phones currently unreachable Detached: Number downloadable DECT phones currently detached 6.4.5 SITES The Sites tab provides counters concerning site configuration and state:
125 SIP-DECT OM System Manual Total: Total number of configured sites Contains RFPs: Number of sites with dedicated RFPs Hi-Q audio technology: Number of sites with Hi-Q audio technology enabled Enhanced DECT security: Number of sites with Enhanced DECT security enabled Secure real time transport protocol: Number of sites with Secure real time transport protocol (SRTP) enabled Terminal video: Number of sites with terminal video enabled 6.4.6 CONFERENCE The Conference tab provides conference channel information:
Total: Total number of conference channels in system Available: Number of currently available conference channels 6.4.7 VIDEO DEVICES The Video devices tab provides video device state information. 126 OM Management Portal (OMP) The General panel provides video device configuration related counters:
Total: Total number of configured video devices Checkpoint: Number of video devices enabled The State panel provides video device state related counters:
Unplugged: Number of video devices in state unplugged Inactive: Number of video devices in state inactive Active: Number of video devices in state active Failure: Number of video devices in state failure 6.5 SYSTEM MENU The System menu allows configuration and display of global OMM settings. The system settings are changeable in configuration mode. Change of some parameters can cause the OMM to be reset. In this case a new login is required. The System menu provides the following entries:
Configuration mode Basic settings Advanced settings SIP User administration Data management Monitor mode Basic settings Advanced settings Statistics SIP User administration Data management See section 6.5.1 6.5.2 6.5.3 6.5.4 6.5.6 6.5.7 6.5.1 BASIC SETTINGS MENU The Basic settings menu contains general settings for the OpenMobility Manager. 127 SIP-DECT OM System Manual The Basic settings menu contains the following tabs:
General (see section 6.5.1.1) DECT (see section 6.5.1.2) WLAN (see section 6.5.1.3) Software update URL (only on systems where the OMM is running on a DECT base station) (see section 6.5.1.4) 6.5.1.1 General settings You can set the following parameters on the General tab of the Basic Settings menu. General Syslog System name: Name of the SIP-DECT system. Remote access: Enables or disables SSH access to all RFPs in the DECT system. For more information on SSH access, see section 9.3.5. Tone scheme: Specifies the country in which the OMM resides, which enables country-specific tones (e.g., busy tone, dial tone, etc). Time zone: Specifies the time zone in which the OMM is operating. Active: Enables propagation of syslog messages by the OMM and RFPs. IP address: Address of the host that collects the syslog messages. Port: Port of the host that collects the syslog messages. Forward OMM Messages to syslog: (Visible only on a PC-hosted OMM system) Enables/disables forwarding of syslog messages from the PC-hosted OMM. RFP software update Mode: RFP update mode. Options are One by one (each RFP is updated separately) or All at once (all RFPs are updated in one operation). 128 OM Management Portal (OMP) Time-controlled: Indicates whether the start of the RFP update is time-controlled. Time of day: Specifies the time for time-controlled RFP updates. Note: Updates triggers can be controlled through update intervals
(DHCP, config files) or manually triggered via the Update button. The General tab contains two additional buttons (aside from default buttons):
Update: Requests an immediate update of RFP software. Restart: Requests an OMM restart. 6.5.1.2 DECT settings For a description of the parameters which can be set in the DECT tab, see the description of the System settings page of the OMM Web service (see section 5.4.1). The corresponding parameters are described in the DECT settings and Downloading new firmware to portable parts page sections, with the exceptions noted below. The following settings are only available in the OMP. Regulatory domain: The OMP offers an additional regulatory domain selection
(Radio 1910-1927MHz 250mW) for SIP-DECT operation in some South American countries. See section 2.12 for more information on this feature. SARI: Specify the Secondary Access Rights Identifier (SARI) for the Dual Homing feature. DECT phones subscribe to the SARI (instead of the PARK) to ensure that user data is synchronized across all OMMs in the system. See section 8.16 for more information on this feature. You can click the Generate SARI button to generate the SARI from the system PARK code. Paging area size: Select the number of paging areas for the SIP-DECT system. A paging area can consist of up to 256 RFPs (and the smallest group can consist of 16 RFPs). The configuration of the paging areas is done in the Paging areas menu of the OMP (see section 6.7.2). Restricted subscription duration: Restricts the time period throughout which a DECT phone can be subscribed to 2 minutes. Furthermore, the subscription mode will be disabled immediately after every successful subscription of a DECT phone. Auto-create on subscription: Activate this option if an unbound subscription of DECT phones should be allowed. See the OM DECT Phone Sharing and Provisioning Guide for more information. 6.5.1.3 WLAN settings For a description of the parameters which can be set in the WLAN tab, see the description of the System settings page of the OMM Web service. The same parameters are described in the WLAN settings section (section 5.4.1.3). 6.5.1.4 Software Update URL settings With SIP-DECT 6.0 or later, DECT base stations in small SIP-DECT systems (~10 RFPs) can obtain their software image from the RFP OMM, if they have no valid URL from which to load their software. If the OMM is running on a RFP, the RFP OMM delivers the software to the connected RFPs. 129 SIP-DECT OM System Manual You configure the URL for the RFP software image (iprfp3G.dnld and iprfp4G.dnld) on this tab. This tab is only available when the OMM resides on an RFP. For a description of the parameters that can be set in the Software update URL tab, see the description of the System settings page of the OMM Web service. The same parameters are described in the Software update URL (see section 5.4.1.12). 6.5.2 ADVANCED SETTINGS MENU The Advanced settings menu contains additional settings for the OpenMobility Manager. The Advanced settings menu contains the following tabs:
Net parameters (see section 6.5.2.1) DECT phones (see section 6.5.2.2) DECT phone firmware (see section 6.5.2.3) IMA (see section 6.5.2.4) Additional services (see section 6.5.2.5) User monitoring (see section 6.5.2.6) Special branding (see section 6.5.2.7) Core dump (see section 6.5.2.8) Remote system dump (see section 6.5.2.9) OMM certificate (see section 6.5.2.10) OMM certificate server (see section 6.5.2.11) SNMP (see section 6.5.2.12) Time zones (see section 6.5.2.13) Pre-Login banner (see section 6.5.2.14) 130 OM Management Portal (OMP) 6.5.2.1 Net parameters For a description of the parameters that can be set in the Net parameters tab, see the description of the System settings page of the OMM Web service. The same parameters are described in the Net Parameters section (section 5.4.1.15). Input format QoS parameter: Format for quality of service parameter. Available options are ToS or DiffServ. QoS for voice packets: Specifies the value of the type of service (ToS ) or DiffServ byte (depending on the QoS input format value) of the IP packet header for all packets that transport RTP voice streams. QoS for signalling packets: Specifies the value of the type of service (ToS ) or DiffServ byte (depending on the QoS input format value) of the IP packet header for all packets related to VoIP signaling. TTL (Time to live): Specifies the maximum hop count for all IP packets. 802.1p voice priority: Specifies the VLAN priority tag for RTP packets. 802.1p signaling priority: Specifies the VLAN priority tag for VoIP signaling packets. 6.5.2.2 DECT Phones The OMM can set certain start-up text settings on the DECT Phone over the air. For more information on this feature see section 2.13.5. Dial editor supports digits only: Enables a digits-only mode for the DECT phone dial editor. In this mode, the * has the meaning of a digit to be dialed, even if short-
pressed. If the mode is not enabled, a short press of the * key changes the editor mode to alphanumric. Set startup window headline: Enables display of the text string specified in the Startup window headline field. Startup window headline: Text headine to be displayed in the DECT phone window at startup. Default value is my company. Set startup window text: Enables display of the text string specified in the Startup window text field. Startup window text: Text string to be displayed in the DECT phone window at start. Empty by default. Truncate portable part user name: Enables or disables truncating the name of the user registered to the DECT phone. 131 SIP-DECT OM System Manual 6.5.2.3 DECT phones firmware The OMM can provide a DECT phone firmware update over the air. If the Activate firmware update checkbox is enabled, the Download over Air feature is activated. For more information on this feature, see section 8.22. For a description of the parameters on the DECT Phone firmware tab, see section 5.4.1.8. 6.5.2.4 IMA The Integrated Message and Alarm (IMA) configuration is stored in the OMM database. You can configure a specific URL for the OMM to retrieve the IMA configuration file (ima.cfg). The IMA configuration remains available even if the configured server becomes unavailable. When you set a specific URL, the OMM uses that URL to load the IMA configuration file during startup. If no specific IMA configuration file source is configured, the provisioning server settings (ConfigURL) are used to retrieve the ima.cfg file. For a description of the parameters on the IMA tab, see the description of the System settings page of the OMM Web service. The same parameters are described in the OM Integrated Messaging &
Alerting service section (section 5.4.1.10). 6.5.2.5 Additional services For a description of the parameters on the Additional services tab, see the description of the System settings page of the OMM Web service. The same parameters are described in the following sections:
Voice mail (section 5.4.1.9) OMP web start (section 5.4.1.7) Date and time (for NTP servers, see section 5.4.1.16) 6.5.2.6 User monitoring The User monitoring tab allows you to configure the system-wide parameters for the user monitoring feature. Locating escalation: If this option enabled, the alarm trigger LOC-ERR-
USERSTATE will be generated by the OMM. Default setting is off. Start-up delay: The start-up delay defines the period of time the user monitoring start-up is delayed (between 2 and 15 minutes) after failover or system start-up. Escalation delay: The escalation delay defines the period of time the user monitoring will wait before the unavailable status is escalated. Activity timeout 1: The activity timeout 1 defines the maximum time (between 30 and 1440 minutes) between user activities in passive monitoring mode. Activity timeout 2: The activity timeout 2 defines the maximum time (between 5 and 60 minutes) between user activities in active monitoring mode. Battery threshold: The battery threshold defines the minimum battery load
(between 0 and 100% in steps of 5%). 132 OM Management Portal (OMP) 6.5.2.7 Special branding With SIP-DECT 6.0 or later, you can integrate a customer-specific logo into the OMM Web service interface (displayed beside the Mitel logo in the top bar). The Special Branding tab allows you to specify the location of the branding image file (customer_image.png) on an external file server. When you set a specific URL, the OMM uses that URL to load the image file during startup. If no specific customer logo file source is configured, the provisioning server settings (ConfigURL) are used to retrieve the image file. The branding image is stored permanently in the OMM database. The file is deleted automatically when the branding image URL configuration is disabled. The picture should not be larger than 50 pixels high and 216 pixels wide. By special request, you can use specific branding key to lock the OMM; the key must be branded to all DECT phones before they can be subscribed. See section 8.25 for more information on this feature. PP Branding key Active key: Displays the current branding key associated with the DECT phones. New key: Specifies the new branding key generated through the DECTSuiteBrandingInstallation.exe utility. Branding image URL Active: Enables the specific URL for downloading the customer_image.png file (as opposed to the ConfigURL, which points to an external file server for all configuration and resource files). Protocol: Specifies the protocol used to fetch the image file. Port: Specifies the port of the external file server. Server: Specifies the IP address or name of the external file server. User name: Specifies the user name to authenticate on the external file server. Password: Specifies the password to authenticate on the external file server. Password confirmation: Confirms the password to authenticate on the external file server. Directory: Specifies the location of the image file on the external file server. Use common certificate configuration: Enables the use of the same certificate validation settings for the image file URL as specified for the ConfigURL. 6.5.2.8 Core Dump Fatal software problems may result in memory dumps, in core files. The IP RFP can transfer the core files to a remote fileserver. With SIP-DECT 6.0 or later, you can configure a specific URL to an external file server where core dump files should be transferred and stored. The Core dump URL is used by each RFP connected to the OMM. Without a configured Core dump URL, whether and where core files are transferred is dependent on specific RFP settings. Without any special configuration, the files are transferred to the server that is used to retrieve the system software (i.e., the directory of the boot image). 133 SIP-DECT OM System Manual For a description of the parameters on the Core Dump tab, refer to the description of the System settings page of the OMM Web service. The same parameters are described in the Core dump URL section (section 5.4.1.14). 6.5.2.9 Remote system dump A system dump is a file that holds information about the OpenMobility Manager and all connected RFPs. With the Remote System Dump feature, a system dump is transferred to a remote server. You can configure a specific destination, otherwise the system configuration URL is used. The system dump is generated manually by pressing the dump button or automatically at the configured time. Please ensure that the used fileserver allows writing or creating system dumps. For a description of the parameters on the Remote system Dump tab, refer to the description of the System settings page of the OMM Web service. The same parameters are described in the System dump section (section 5.4.1.13). 6.5.2.10 OMM Certificate You can overwrite the hard-coded OMM certificate by importing a local certificate chain and a private key file which may be password-protected. The OMM certificate will be used for incoming AXI and HTTPS connections to the OMM services. If the OMM can be reached from the internet by a domain and an appropriate CA certificate has been imported, no security warnings are displayed in web browsers that trust the CA root certificate. For more information on this feature, see section 8.10. Certificates/key PEM file import Private key: Indicates whether the OMM has a private key file (read-only). Local certificate chain: Indicates the number of local certificate chains deployed on the OMM (read-only). Delete certificates/key: Allows you to delete any existing certificate or key files. Import PEM file with: Indicates the content type of the PEM file being imported. Available options are Local certificate chain or Private key. File: Specifies the location of the PEM file to be imported. Import: Triggers the import of the specified PEM file. Private key password Private key password: Specifies the password to be used for the private key file if you want the file to be password-protected. Password confirmation: Confirms the password for the private key file. 134 6.5.2.11 OMM certificate server OMM certificates can be updated automatically through configuration of a secure OMM certificate server URL. OM Management Portal (OMP) Active: Enables the feature. Protocol: Specifies the preferred protocol (FTP, TFTP, FTPS, HTTP, HTTPS, SFTP). Server: Specifies the name or IP address of the external file server. Port: Specifies the certificate servers port number Use default port: If selected, the default port associated with the selected protocol is used. User name: Specifies the user name to authenticate against the external file server. Password: Specifies the password to authenticate against the external file server. Password confirmation: Confirms the password to authenticate against the external file server. Path without filename: Specifies the path on the file server to the certificate files. Use common certificate configuration: Enables the use of the system-wide certificate validation settings, as configured under the System -> Provisioning menu (see section 6.5.5). Local certificate file: Specifies the name of the PEM file on the external server including the local certificate or a certificate chain. Private key file: Specifies the name of the PEM file on the external server including the local key. SNMP 6.5.2.12 To manage a larger RFP network, an SNMP agent is provided for each RFP. The SNMP agent provides alarm information and allows an SNMP management system (such as HP Open View) to manage this network. The SNMP sub menu of the OMP provides configuration of SNMP service settings. For a description of the parameters on the SNMP tab, refer to the description of the SNMP menu of the OMM Web service (see section 5.4.6). Time zones 6.5.2.13 The OMM provides all available time zones on the Time zones tab. They are set with their known daylight savings time rules adjusted to the Universal Coordinated Time (UTC) by default. The difference to the UTC time is shown in the UTC difference field. In addition, you can configure a new (free) time zone. The date and time are provided by the OMM to the Mitel 142d and Mitel 600 DECT phones if the DECT phone initiates a DECT location registration. The DECT phone initiates a DECT location registration when:
subscribing to the OMM entering the network again after the DECT signal was lost 135 SIP-DECT OM System Manual at power on silent charging feature is active at the phone and the phone is taken out of the charger after a specific time to update date and time You can change the time zone rules for up to five time zones. The changes are saved in the configuration file and are restored after each OpenMobility Manager startup. General Difference local standard time to UTC: The difference (in minutes) between the local standard time and UTC time. Daylight savings time: Enables or disables application of Daylight Savings Time
(DST) for the time zone. If disabled, the Standard time and Daylight savings time tabs are not accessible. Difference daylight savings time to standard time: The difference (in minutes) between Daylight Savings Time (DST) and Standard Time for the time zone. If the Daylight savings time parameter on the General tab is enabled, you can change the standard time and the daylight savings time (DST) of a time zone in the Standard time and Daylight savings time tabs. If the time zone has no DST, only the UTC difference can be configured. For the DST both points of time (begin of standard time and begin of daylight savings time) must be specified exactly. Therefore a certain day in the month or a certain week day in a month can be used. The following commands are available to edit time zones:
OK: Confirm the changed time zone settings. Cancel: Cancels the operation and resets the changed time zone back to the default setting. Default: Resets all individual time zone settings to the default values and deletes the changed time zone rules in the configuration file. Pre-Login banner 6.5.2.14 There is an optional customer editable banner available, whcih allows to display security notes or similar on OMP and OMMs Web interface prior to login. 136 You can modify and activate the banner through OMP. OM Management Portal (OMP) 137 SIP-DECT OM System Manual 6.5.3 STATISTICS MENU (MONITORING MODE ONLY) The Statistics page provides system statistics counters which can be used to check system behavior. The page is only available in Monitor Mode. Statistic counters beginning with + are counters that are taken over by the standby OMM in case of a failover. All other counters are reset to default values in case of a failover. For more details about the standby feature, see section 8.15. You can:
Refresh all: request OMM update for all statistics counters. Clear all: reset all statistics counters in OMM. If a statistics counter is selected in the table, it is shown in a detail panel. This detail panel provides all available information for this statistics counter. You can:
update this single statistics counter by pressing the Refresh button, or reset this single statistics counter by pressing the Clear button. 138 OM Management Portal (OMP) 6.5.4 SIP MENU The SIP menu contains global settings for SIP signaling and RTP voice streams. The SIP menu contains the following tabs:
Basic settings (see section 6.5.4.1) Advanced settings (see section 6.5.4.2) Registration traffic shaping (see section 6.5.4.3) Backup settings (see section 6.5.4.4) RTP settings (see section 6.5.4.5) DTMF settings (see section 6.5.4.6) Intercom Push-to-talk (see section 6.5.4.7) Supplementary services (see section 6.5.4.8) Conference (see section 6.5.4.9) 139 SIP-DECT OM System Manual Security (see section 6.5.4.10) Certificate server (see section 6.5.4.11) 6.5.4.1 Basic settings For a description of the parameters on the Basic settings tab, see the description of the System -> SIP menu of the OMM Web service. The same parameters are described in the Basic settings section
(section 5.4.3.1). In addition, the following parameters (related to SIP multiport support) are available on the Basic settings tab:
Local port range DECT phone user UDP/TCP: The port range to be used for DECT users when UDP/TCP is used as the transport protocol. The default is 5060 5060. DECT phone user TLS: The port range to be used for DECT users when TLS is used as the transport protocol. The default is 5061 5061. Conference room UDP/TCP: The port range to be used for Conference Rooms when UDP/TCP is used as the transport protocol. The default is 4060 4060. Conference room TLS: The port range to be used for DECT users when TLS is used as the transport protocol. The default is 4061 4061. Note:
There are certain rules to note when configuring port ranges, see section 2.17 for more information. 6.5.4.2 Advanced settings You can set several additional SIP parameters on the Advanced settings tab. For a description of the parameters on the Advanced settings tab, refer to the description of the System -> SIP menu of the OMM Web service. The same parameters are described in the Advanced settings section (section 5.4.3.2). In addition, the following parameters are available in the OMP only:
X-Aastra-Id info: Enable or disable inclusion of the private X-Aastra-Id header in each SIP REGISTER message. User agent info compatibility mode: If the User agent info option is enabled, the OMM sends information on his version inside the SIP User-Agent/Server headers;
this parameter ensures backward compatibility with version information used in older SIP-DECT software releases. 6.5.4.3 Registration traffic shaping Registration traffic shaping parameters allow you to limit the number of simultaneous SIP registrations at startup/fail over of the OMM. This feature is always activated because disabling it may overload the OMM or the call server. 140 OM Management Portal (OMP) For a description of the parameters on the Registration traffic shaping tab, see the description of the System -> SIP page of the OMM Web service. The same parameters are described in the Registration traffic shaping section (section 5.4.3.5). 6.5.4.4 Backup settings To increase the operational availability of the system in critical environments like hospitals, the OMM offers a failover redundancy mechanism for the SIP server. In addition to the primary proxy, outbound proxy and registrar server, you can configure two additional levels of backup servers (secondary and tertiary servers). The OMM failover behavior in detail depends on the backup server settings set here. A full description of the behavior and deployment hints can be found in section 8.20.3. Secondary proxy server / port, Secondary registrar server / port, Secondary outbound server / port: Enter the parameters for the secondary server in these fields. Tertiary proxy server / port, Tertiary registrar server / port, Tertiary outbound server / port: Enter the parameters for the tertiary server in these fields. Note: Server addresses can be configured as IP addresses, names or a fully qualified domain names. It is possible to configure a mixture of IP addresses, names or fully qualified domain names for the different servers. If fully qualified domain names are configured and the respective port setting is configured to zero
(0), DNS SRV queries will be performed to locate a list of servers in the domain (see 0). Failover keep alive: The keep-alive mechanism allows transferring all users registered on a failed server (failover) to secondary/tertiary servers as well as automatically switching back to primary servers. Otherwise, failover is executed only single users. Enable this option if you want to use this feature (default: off). Failover keep alive time: For each registration target, a user could be registered successful with, a keep alive procedure is started. Enter the time in this field after which a new keep-alive procedure must be started (1-60 minutes, default 10 min.). For a detailed description of the keep-alive mechanism see section 8.20.4. 6.5.4.5 RTP settings For a description of the parameters on the RTP settings tab, see the description of the System -> SIP page of the OMM Web service. The same parameters are described in the RTP settings section
(section 5.4.3.3). 6.5.4.6 DTMF settings For a description of the parameters on the DTMF settings tab, see the description of the System -> SIP page of the OMM Web service. The same parameters are described in the DTMF settings section
(section 5.4.3.4). 141 SIP-DECT OM System Manual 6.5.4.7 Intercom Push-to-talk You can set global auto-answer settings on the Intercom Push-to-talk tab. For more information on this feature, see section 2.31. Incoming calls Outgoing calls Auto answer: Enables or disables auto-answer on incoming calls. Microphone mute: Enables or disables microphone muting when incoming calls are automatically answered. Warning tone: Enables or disables warning tone on incoming call. A short ringtone is played if there are no active calls. If there is an active call in a barge in situation, the ringing will be in-band. Allow barge in: Allows/disallows barge-in on existing calls. Initialization prefix for push-to-talk: String to be entered when initiating an intercom call. An empty string indicates that the DECT phone cannot initiate an intercom call. 6.5.4.8 Supplementary services For a description of the parameters on the Supplementary services tab, see the description of the System -> SIP page of the OMM Web service. The same parameters are described in the Supplementary Services section (section 5.4.3.6). 6.5.4.9 Conference You can define the conference mode globally for all SIP-DECT users on the Conference tab. For more information on the Conferencing feature, see section 8.21. Server type: Specifies the operational mode for the conference server. Available options are:
Integrated: The conference server integrated in the SIP-DECT system is used.
- None: Neither external nor internal conference server is used.
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- External: An external conference server (e.g., Broadsoft) is used.
- External Blind Transfer: An external conference server is used (e.g. MiVoice Business). The initiation of the conference is signaled as a blind transfer to the destination specified in the URL parameter. URL: Specifies the URL for the conference server. Security 6.5.4.10 For a description of the parameters on the Security tab, see the description of the System -> SIP page of the OMM Web service. The same parameters are described in the Security section (section 5.4.3.8) and the Manual Import section (section 5.4.3.10). 142 OM Management Portal (OMP) Certificate server 6.5.4.11 For a description of the parameters on the Certificate server tab, see the description of the System ->
SIP page of the OMM Web service. The same parameters are described in the Certificate server section (section 5.4.3.9). 6.5.5 PROVISIONING MENU SIP-DECT supports provisioning through external configuration files. With SIP-DECT 6.0 or later, you can configure a URL for an external file server, from which all configuration files can be downloaded. The configured provisioning server URL is used for secure connections to the file server to retrieve configuration or firmware files. The Provisioning menu contains settings related to the provisioning server. The Provisioning menu contains the following tabs:
Provisioning (see section 6.5.5.1) Provisioning certificate (see section 6.5.5.2) Certificate server (see section 6.5.5.3) System credentials (see section 6.5.5.4) 6.5.5.1 Provisioning Configuration files URL Active: Enable the configuration file URL feature. Protocol: The protocol to be used to fetch the configuration files. Port: Provisioning servers port number. Use default port: If selected, the default port associated with the selected protocol is used. 143 SIP-DECT OM System Manual SSL settings Server: IP address or name of the provisioning server. Path: Path to the configuration and resource files on the provisioning server. Validate certificates: Enables or disables certificate validation. If enabled, the server certificate is validated against trusted CAs (signed by a CA from the Mozilla CA certificate list) and the configured trusted certificates. Validate expires: Enables or disables the validation of certificate expiry. When this parameter is enabled, the client verifies whether or not a certificate has expired prior to accepting the certificate. Validate host name: Enables or disables the validation of hostnames on the OMM. Allow unconfigured trusted certificates: If enabled, this parameter disables any server certificate validation as long as no trusted certificate was imported into the OMM. AXI commands in a received configuration file may import such trusted certificates into the OMM. Import certificates with first connection: If enabled (in conjunction with the Allow unconfigured trusted certificates parameter), the trusted certificate will be imported from the cert chain delivered in the server response without any validation, as long as no trusted certificate was imported previously into the OMM. SSL version: The SSL protocol version to use for the configuration file server connection. Available options are: TLS1.0, TLS1.1, TLS1.2 or AUTO, where AUTO accepts all protocol versions. Daily automatic reload of configuration and firmware files Active: Enables automatic reload of the configuration and resource files on a daily basis, at the specified time. Time of day: Time for scheduled reload of configuration and firmware files. 6.5.5.2 Provisioning certificates Provisioning certificates are used for secure connections to configuration or firmware file servers that support mutual authentication. A trusted certificate chain is used by the OMM to validate the server. This is required if the server has no certificate derived from a trusted CA root certificate, where the OMM uses the Mozilla CA Certificate List. If no server certificate is available, the validation against trusted and CA certificates can be disabled in the certificate validation options (only encrypted TLS connection). The local certificate chain plus the private key are provided from the OMM to servers requesting mutual authentication. The private key file may be password protected. 6.5.5.3 Certificate server The provisioning certificates can be updated automatically through configuration of a secure provisioning certificate server URL. Active: Enable automatic updating of certificates the feature. Protocol: Specifies the preferred protocol (FTP, TFTP, FTPS, HTTP, HTTPS, SFTP) Server: Specifies the name or IP address of the external file server. 144 OM Management Portal (OMP) Port: Specifies the certificate servers port number Use default port: If selected, the default port associated with the selected protocol is used. User name: Specifies the user name to authenticate against the external file server. Password: Specifies the password to authenticate against the external file server. Password confirmation: Confirms the password to authenticate against the external file server. Path without filename: Specifies the path on the file server to the certificate files. Use common certificate configuration: Enables the use of the system-wide certificate validation settings, as configured on the System -> Provisioning ->
Provisioning certificates page (see section 6.5.5.2) Trusted certificate file: Specifies the name of the PEM file on the specified server, including the trusted certificates. Local certificate file: Specifies the name of the PEM file on the external server including the local certificate or a certificate chain. Private key file: Specifies the name of the PEM file on the external server including the local key. 6.5.5.4 System credentials System credentials are used to retrieve configuration and resource files from the configured provisioning server for protocols supporting authentication or servers requesting authentication. For HTTP/HTTPS, basic and digest authentication are supported. User name: Specifies the user name for authentication against the provisioning server. Password: Specifies the password for authentication against the provisioning server Password confirmation: Confirms the password for authentication against the provisioning server. 6.5.6 USER ADMINISTRATION MENU In the User administration menu you configure the OMM user accounts. 145 SIP-DECT OM System Manual The three user accounts Full access, Read-only and Root (ssh only) available via the User administration page of the OMM Web service can also be configured in the OMP. These three predefined user accounts cannot be removed or renamed. Only the Read-only account can be activated and deactivated. The permissions are fixed. This is consistent with the OMM WEB service. The meaning of the different account types is described in section 8.17.1. In addition, the OMP allows to create additional user accounts (login and password) and to assign specific permissions. The tasks which can be performed are mode-dependant. Configuration mode Monitor mode See section Create: Create new user account Configure: Configure selected user account in detail panel Delete: Delete selected user account Show details: Shows selected user account in detail panel 6.5.6.1 6.5.6.2 6.5.6.3 6.5.6.4 146 OM Management Portal (OMP) 6.5.6.1 Creating New User Accounts It is possible to create additional user accounts (login and password) and to assign specific permissions. These accounts are mainly designed to have specific login data and permissions for applications which are using OM AXI to connect with the OMM. Note:
Individual user accounts cannot be used for a login to the OMM Web service nor SSH. Adding individual user accounts is only possible in Configuration Mode. To add a user account, do the following:
1 In the Tasks bar click on the Create command. The New user account panel opens. It provides various tabs where the account data must be entered. 2 Configure the user account, see parameter description below. 3 Press the OK button. The following parameters can be set in the tabs of the New user account panel:
General For a description of the parameters which can be set in the General tab, see the description of the User administration page of the OMM Web service (see section 6.5.6.). Permissions The permissions for an individual user account can be set independent from any license status even if some of the permissions can only been used with an appropriate license. If an application connects with the OMM via OM AXI, then the permissions been sent from the OMM to the application is the result of the configured permissions for this account and the actual license status. For more information please see the OM Application XML Interface (OM AXI) specification /31/. 147 SIP-DECT OM System Manual The permissions have the following meaning:
Permission Description Read Write Messaging info Messaging Read OMM data (OM AXI get requests) Set OMM data (OM AXI set requests) Sent messages with priority Info Sent messages with priority Low, Normal and High Messaging emergency Sent messages with priority Emergency Messaging locating Sent messages with priority LocatingAlert Locating Monitoring Video Permission to query the position of DECT phones and to track DECT phone positions Permission to monitor various technical aspects of the mobility system Permission for video streaming 6.5.6.2 Changing a User Account Changing user accounts is only possible in configuration mode. To change the configuration of an existing user account, do the following:
1 Select the appropriate user account in the account table. 2 In the Tasks bar click on the Configure command. 3 Change the user account parameters (see parameter descriptions in section 6.5.6.1). 4 Press the OK button. Please note: The predefined user accounts Full access, Read-only and Root (ssh only) user accounts cannot be renamed. Also their permissions are fixed and cannot be changed. 6.5.6.3 Viewing User Account Details You can view the configuration of a user account in monitor mode. Proceed as follows:
1 Select the appropriate user account in the table. 2 In the Tasks bar click on the Show details command. The user account data is displayed in the user account detail panel. 3 To close the user account detail panel, click the Cancel button. 6.5.6.4 Deleting User Accounts Deleting user accounts is only possible in configuration mode. To delete one or more existing user accounts proceed as follows:
1 Select the appropriate account(s) in the user account table by activating the corresponding checkbox(es). 2 In the Tasks bar click on the Delete command. 3 Confirm the displayed prompt with OK. 148 OM Management Portal (OMP) Please note: The predefined user accounts Full access, Read-only and Root (ssh only) user accounts cannot be removed. 6.5.7 DATA MANAGEMENT MENU The Data management menu provides access to data related to import and export features. The Data management contains the following tabs:
Auto DB export (see section 6.5.7.1) User data import (see section 6.5.7.2) DECT phones synchronization (see section 6.5.7.3) Manual DB import (see section 6.5.7.4) Manual DB export (see section 6.5.7.5) Maintenance (see section 6.5.7.6) IMA (see section 6.5.7.7) 6.5.7.1 Automatic DB export The automatic database export feature allows an automatic database backup to an external server for each configuration modification. Please note: Synchronization with an NTP server is mandatory for an automatic database export. For NTP server configuration, see section 8.5.4 and section 5.4.1.16. For a description of the parameters on the Automatic DB export tab, see the description of the System
-> Data management page of the OMM Web service. The same parameters are described in the Automatic Database Export section (section 5.4.7.3). 149 SIP-DECT OM System Manual 6.5.7.2 User data import The user data import feature allows the import of user data from an external provisioning server. Configure specific source: Enables the specific URL to an external file server for retrieving the user data file. Protocol: Specifies the preferred protocol. Port: Specifies the port on the server. Server: Specifies the IP address or the name of the server. User name, Password, Password confirmation: Specifies the credentials for the server. Path: Specifies the path to the file containing the user data. Use common certificate configuration: Enables the use of the system-wide certificate validation settings, as configured on the System -> Provisioning ->
Certificates page (see section 5.4.2.8). Please note: If no credentials are specified for secure protocols, the system credentials are automatically used (see section 5.4.2.2). If the system credentials must not be used, the user name and password must be explicitly set here even for anonymous settings. For further information on the user data import, see the OM DECT Phone Sharing and Provisioning Guide. 6.5.7.3 DECT phones synchronization The user data synchronization feature ensures that all user and device database information is distributed to all OMM instances in the system. Each peripheral OMM must have a connection to the AXI interface of the central OMM (and the standby central OMM, if configured) to send and receive updated user data information. Specify the same user credentials used to access the central OMM via the OMP. For more information on this feature, see section 8.16. Activate synchronization: Enable user data synchronization for the OMM. OMM1: Specifies the IP address of the central OMM. OMM2: Specifies the IP address of a second central OMM, in the case of a standby configuration. User name: Specifies the user name required to access the central OMM. Password: Specifies the password required to access the central OMM. Password confirmation: Confirms the password required to access the central OMM. 6.5.7.4 Manual DB import The manual database import feature allows the import of an OMM database. 150 OM Management Portal (OMP) Please note: A manual import of a database results in a reset of the OMM. For a description of the parameters on the Manual DB import tab, see the description of the System ->
Data management page of the OMM Web service. The same parameters are described in the Manual Database Import section (section 5.4.7.1). 6.5.7.5 Manual DB export The manual database export feature allows a manual database backup to an external server. For a description of the parameters on the Manual DB export tab, see the description of the System ->
Data management page of the OMM Web service. The same parameters are described in the Manual Database Export section (section 5.4.7.2). 6.5.7.6 Maintenance In the Maintenance panel, you can perform a system dump, for example, for product support information purposes. A file sysdump.txt is created in the selected directory. Click the Directory button to select the directory, then click the Download button to start the system dump. 6.5.7.7 IMA You can upload an IMA configuration file manually. To validate the existing configuration, the IMA configuration can be also downloaded. An uploaded IMA configuration may be overwritten if a server for the IMA configuration file is configured or if the ima.cfg is available on the provisioning server. The IMA configuration can be deleted regardless of its source. Config file import To upload an IMA configuration file, click the File button to browse to the file, then click Import. Config file export To download the current IMA configuration file, click the Directory button to select the destination directory, then click Export. Delete config file To delete the IMA configuration file, click Delete. 6.5.8 EVENT LOG MENU The Event Log menu provides information about system events. The menu is only available in Monitor Mode. 151 SIP-DECT OM System Manual 6.5.8.1 Event log detail panel 152 OM Management Portal (OMP) 6.6 SITES MENU DECT base stations can be grouped into different sites. The Sites menu allows configuration and display of configured sites. An empty system has one predefined site (ID: 1) named default. The system requires a minimum of one site. A site contains the following parameters:
ID: Identification number of the site. A value between 1 and 250 is possible. If no value is given, the OMM selects the next free ID. Name: The name of the site. Hi-Q audio technology /
Enhanced DECT security /
Terminal video /
SRTP: These capabilities must be enabled or disabled specific for every site. In sites, which are configured to provide this functionality, exclusively 3rd and 4th generation RFPs are applicable. In sites without this capability, it is allowed to mix these new RFP types with 2nd generation RFPs. Number of RFPs: The number of RFPs which are assigned to this site. You can perform the following tasks:
Create: Create a new site in the General tab. Configure: Configure an existing site in the General tab. Delete: Delete selected sites (only sites without assigned RFPs can be deleted). Show details (only in Monitor Mode): Shows configuration of a selected site in the General tab. 153 SIP-DECT OM System Manual 6.7 DECT BASE STATIONS MENU DECT base stations can be configured and viewed in the DECT base stations menu. Configuration mode Device list Paging areas Capturing Enrolment Export Monitor mode Device list Sync view Statistics See section 6.7.1 6.7.2 6.7.3 6.7.4 6.7.5 6.7.6 6.7.7 6.7.1 DEVICE LIST MENU The Device list panel displays all configured DECT base stations in a table. The device list is available in Configuration Mode and Monitor Mode. The Active column shows the following states:
DECT is not enabled and/or RFP not connected. DECT is enabled and RFP connected, but DECT has not been activated yet. DECT is enabled and RFP is connected, but RFP is not synchronized and searches for other synchronized RFPs. DECT is enabled and RFP is connected and synchronized. Note:
If the Active column is not displayed, you can activate it in the Select columns dialog, see section 6.7.1.7. The tasks you can perform are mode-dependant. Configuration mode Monitor mode Create: Create new base station in detail panel Configure: Configure selected base station in detail panel 154 See section 6.7.1.2 6.7.1.3 OM Management Portal (OMP) Configuration mode Monitor mode See section Delete: Delete selected RFP Select columns: Select columns/parameters to be shown in RFP table Filter: Show only RFP datasets in table which contain a special search string Show details: Show selected base station in detail panel Show sync. relations: Show synchronization relation for selected RFPs Select columns: Select columns/parameters to be shown in RFP table 6.7.1.4 6.7.1.5 6.7.1.6 6.7.1.7 Filter: Show only RFP datasets in table which contain a special search string 6.7.1.8 6.7.1.1 DECT Base Station Detail Panel The DECT base station detail panel is used for configuration/display of RFP settings and creation of new RFP datasets. To call up the DECT base station detail panel, do one of the following:
Choose one of the commands in the task bar on the right of the DECT base stations panel (Create, Configure, or Show details) Double-click on the appropriate RFP entry in the RFP table. The DECT base station detail panel contains the following parameter groups sorted in different tabs. Status tab The Status tab is only available in Monitor Mode, and shows system status information for the selected DECT base station. 155 SIP-DECT OM System Manual General tab This tab contains the general DECT base station parameters. DECT tab This tab contains the DECT base station's DECT parameters. WLAN tab This tab contains the DECT base station's WLAN parameters. Settings in the WLAN tab apply to RFP 42/43/48 WLAN base stations only. 156 OM Management Portal (OMP) Hardware tab In Monitor Mode, this tab shows hardware information of the selected DECT base station. In configuration mode, the DECT base station Hardware type can be set if it is connecting to the OMM for the first time. Once the correct hardware type is received from the DECT base station, you cannot change it. 157 SIP-DECT OM System Manual 6.7.1.2 Adding New DECT Base Stations You must be in Configuration Mode to add a new DECT base station. To add a DECT base station to the list of known base stations, do the following:
1 Click Create under the Tasks lists on the right side of the DECT base stations window. The New radio fixed part panel opens. 2 Configure the DECT base station (see parameter descriptions below). 3 Click OK. The following parameters can be set in the tabs of the New DECT base station panel:
General tab DECT tab Name: The name for the RFP. MAC address: Each RFP is identified by its unique MAC address (6 bytes hex format, colon separated). Enter the MAC address, it can be found on the back of the chassis. Site: If several sites exist, select the site the RFP is assigned to. Building, Floor, Room: For easier localization of the RFP you can enter data in these fields. Conference channels: Activate this option to enable the RFP to provide channels for 3-way conferencing. This option is available for 3rd or 4th generation RFPs (see section 8.21.2). DECT switched on: The DECT functionality for each RFP can be switched on/off. DECT cluster: If DECT is active the RFP can be assigned to a cluster. Paging area: Enter the paging area, the RFP is assigned to. Note:
The Paging area size is set in the DECT tab of the System settings menu (see section 6.5.1). The assignment between RFPs and paging areas can be changed in the Paging areas menu (see section 6.7.2). Preferred synchronization source: Activate this checkbox if the RFP should be used as synchronization source for the other RFPs in the cluster. For background information on RFP synchronization see section 8.2. Reflective environment: Within areas containing lot of reflective surfaces (e.g. metal or metal coated glass) in an open space environment the voice quality of a DECT call can be disturbed because of signal reflections which arrive on the DECT phone or RFP using multipath propagation. Calls may have permanent drop outs while moving and high error rates on the RFPs and DECT phones. For such environment Mitel has developed the DECT XQ enhancement into base stations and the Mitel 600 DECT phones family. Using this enhancement by switching the Reflective environment flag on might reduce drop outs and cracking noise. As soon as Reflective environment is switched on, the number of calls on an RFP 32/34 respectively. RFP 42 WLAN, RFP 35/36/37 IP resp. RFP 43 WLAN or RFP 44/45/47 respectively. RFP 48 WLAN is reduced to 4 calls at the same time. 158 OM Management Portal (OMP) Please note: The RFPs and DECT phones use more bandwidth on the Air Interfaces if the Reflective environment is switched on. Therefore this shall only be used when problems sourced by metal reflections are detected. WLAN tab Settings in the WLAN tab apply to RFPs of the type RFP 42/43/48 WLAN, RFP 43 WLAN and RFP 48 WLAN only. For details about WLAN configurations please see section 8.18. Please note: WLAN properties can only be set if the correct hardware type is configured in the Hardware tab. WLAN switched on: The WLAN functionality for an RFP 42 WLAN, RFP 43 WLAN or RFP 48 WLAN can be switched on/off. For a description of the other parameters which can be set in the WLAN tab, see the description of the DECT base stations page of the OMM Web service (see section 5.6.3). The corresponding parameters can be found there in the WLAN settings section. Hardware tab WLAN properties can only be set if the correct hardware type is configured. This can be done manually before an RFP connects with the OMM and an automatic detection is possible (Auto setting). 6.7.1.3 Changing DECT base station configuration Changing RFPs is only possible in configuration mode. To change the configuration of an existing RFP, do the following:
1 Select the appropriate RFP in the RFP table. 2 Click Configure under the Tasks lists on the right side of the DECT base stations window. The DECT base station detail panel opens. 3 Change RFP parameters (see descriptions in section 6.7.1.2). 4 Click OK. 6.7.1.4 Viewing DECT base station Details You can view the configuration of an RFP in Monitor Mode. Proceed as follows:
1 Select the appropriate RFP in the RFP table. 2 Click Show details under the Tasks lists on the right side of the DECT base stations window. The DECT base station detail panel opens. 3 To close the RFP detail panel, click Cancel. 6.7.1.5 Deleting DECT base stations You can only delete DECT base stations in Configuration Mode. To delete a DECT base station, do the following:
1 Select the DECT base station (s) in the table by selecting the corresponding checkbox(es). 159 SIP-DECT OM System Manual 2 Click Delete under the Tasks lists on the right side of the DECT base stations window. The Delete selected DECT base station(s) dialog opens showing a confirmation prompt. 3 Click OK to confirm. Please note: License DECT base stations cannot be deleted. 6.7.1.6 Showing Synchronization Relations You can view the synchronization relations of a DECT base station in Monitor Mode. Do the following:
1 Select the appropriate RFPs in the RFP table. At least two RFPs must be selected to show their synchronization relations. 2 Click Show sync. Relations under the Tasks lists on the right side of the DECT base stations window. The view switches to the Sync view menu . For further information see section 6.7.6. 6.7.1.7 Selecting Columns You can customize the parameters shown in the DECT base station table:
1 Click Select columns under the Tasks lists on the right side of the DECT base stations window. The Select columns dialog opens. 2 Select the columns that shall be shown by activating the appropriate checkboxes. 3 Click the OK button. The DECT base station table is updated accordingly. 6.7.1.8 Filtering the DECT base station table You can filter the list of DECT base station datasets shown in the table by using a filter. 1 Click Filter under the Tasks lists on the right side of the DECT base stations window. The Filter dialog opens. 2 Enter the search string that serves as filter criterion. You can enter digits and characters. The search is case sensitive. 3 Click on the Filter button. The Filter dialog is closed and the table is adjusted accordingly. 4 To reset the filter, click on the Filter command in the task bar on the right of the DECT base stations panel. 5 In the Filter dialog click on the Reset button. 6.7.2 PAGING AREAS MENU The Paging area menu shows all configured RFPs in a tree structure consisting of two trees:
The left Unassigned RFPs tree contains all RFPs without an assigned paging area. The right Paging areas tree shows all configured paging areas with RFPs assigned to these paging areas. 160 OM Management Portal (OMP) All DECT base stations are shown including their site and optional hierarchy (building, floor, and room) settings. DECT base stations can be moved by drag and drop from unassigned tree to paging area tree and vice versa, as well as between different paging areas inside the paging area tree. Only one DECT base station node can be moved at once. If a site or a hierarchy node is selected, all DECT base stations that are children of this node are moved. If a paging area is completely filled with DECT base stations, moving additional DECT base stations in that paging area is not permitted. If not all DECT base stations (selected by a site or hierarchy node) can be moved into a paging area, you are asked if you want to move as many DECT base stations as possible or if the operation should be cancelled. Note:
The Paging area size is set in the DECT tab of the System settings menu (see section 6.5.1). 6.7.3 CAPTURING MENU OMP supports the capture of DECT base stations that try to connect to OMM. These DECT base stations are assigned to OMM by DHCP options or OMM Configurator settings. Capturing is only accessible in Configuration Mode. Available tasks:
Capturing: Start/stop capturing (active capturing is indicated with a green check mark) Add all: Add all captured DECT base stations to OMM Add selected: Add selected DECT base stations to OMM Remove all: Remove selected DECT base stations from list (without adding to OMM) 161 SIP-DECT OM System Manual Remove selected: Remove selected DECT base stations from list (without adding to OMM) Select columns: Select DECT base station capturing table columns to be shown 6.7.4 ENROLMENT MENU The Enrolment menu allows import of DECT base station datasets using a configuration file. For information about required configuration file format, see section 12.3. 1 Click the File button. A file system dialog opens in which you can select the configuration file. The configuration file must be encoded in UTF-8. 2 To check the results from reading the configuration file press the Show log file button. In case of file format errors these errors are listed here. If reading of configuration file is successful, all DECT base station datasets read are shown in a newly created table. This table contains, apart from some DECT base station parameters, the Status column which shows the current import status for every DECT base station dataset:
Not enrolled yet Enrolment failed OK (Enrolment successful) 3 Start the import by selecting one of the following commands:
Add all: Import all DECT base station datasets into the OMM. Add selected: Import selected DECT base station datasets to the OMM. For selection activate the corresponding checkboxes in the DECT base station table. Remove all: Remove all DECT base station datasets from table. The table will be hidden. Remove selected: Remove selected DECT base station datasets from table. If the table is empty after removing of datasets, the table will be hidden. For selection activate the corresponding checkboxes in the DECT base station table. Show status: Show import status of a selected DECT base station dataset. If enrolment failed for this DECT base station, a message describing the enrolment error is shown. Select columns: Select the columns that shall be shown in DECT base station table
(see also 6.7.1.7). 6.7.5 EXPORT MENU The Export menu allows export of all DECT base stations enrolled to the OMM to a .csv file. The generated file can be viewed with a standard spreadsheet application. All enrolled DECT base stations are shown in a table. 162 OM Management Portal (OMP) The following tasks can be performed:
Export all: Export all DECT base station datasets. Export selected: Export selected DECT base station datasets. Select parameters: Select DECT base station parameters to be written to the .csv file (select all DECT base station parameters or a subset of these parameters). Select columns: Select the columns to be written to the .csv file. When the export begins, a file system dialog opens where you can select the export file name. If all parameters are selected for export, the export file can be re-imported using the Enrolment function (see section 6.7.4). For information about DECT base station export file format, see Appendix (section 12.4). 6.7.6 SYNC VIEW MENU The Sync view menu allows verification of the synchronization between DECT base stations in a graphical manner. Note:
For information on DECT base station synchronization, see section 8.2. To open the task panel, click the arrow icon in the upper right corner of the Sync view panel. The task panel is displayed on the right. The following tasks can be performed:
Show all RFPs: If this checkbox is activated, all configured RFPs are shown in the sync panel; else only selected RFPs are shown. 163 SIP-DECT OM System Manual RFP positioning: If this checkbox is activated, RFP positions can be changed; else RFP positions are fixed. Reset monitoring: Reset all active sync view monitoring relations. Image: Select background image for sync panel. Reset view: Reset selected view (zero coordinates are reset to the left upper corner of the sync view panel). Refresh RSSI: Request new RSSI values from OMM for active sync relations. Viewing sync relations DECT base stations for which sync relations shall be shown, can be selected as follows:
Select (more than one) DECT base station in device list table. or Activate DECT base station mouse menu in sync view: Press the right mouse button while mouse cursor is on an DECT base station icon and select the Activate Monitoring command from the context menu. The color of the DECT base station icon indicates synchronization state of that DECT base station:
Grey: Inactive Red: Not synchronized Yellow: Searching Green: Synchronized Sync relations between DECT base stations are represented by arrows. Viewing RSSI values The color of the arrows between DECT base stations is an indication of the RSSI value of the link:
Red: RSSI < -90 dBm Orange: -90 dBm <= RSSI <= -70 dBm Green: RSSI > -70 dBm If the mouse is moved over a DECT base station with monitoring activated, a tool tip with RSSI values is displayed. You can use the RSSI threshold slider to limit the display of values in the tool tip. 6.7.7 STATISTICS MENU The DECT base stations -> Statistics menu provides information about DECT base station statistics counters. It contains:
an overview panel with all statistics counters (see section 6.7.7.1) multiple statistics group panels, where related statistics counter types are grouped together (see section 6.7.7.2). The menu is only available in Monitor Mode. 164 6.7.7.1 DECT base station Statistics Overview The DECT base station statistics overview page contains a list of DECT base stations by ID, and an overview of all DECT base station statistics counters. OM Management Portal (OMP) The following tasks can be performed:
Refresh RFP: Request counter update by OMM for selected DECT base station statistics counters. Refresh all: Request counter update by OMM for all DECT base station statistics counters. Clear RFP: Clear all DECT base station statistics counters on selected DECT base station. Clear all: Clear all DECT base station statistics counters. If a DECT base station is selected (left RFP ID table), the statistics counter table shows counter values for that DECT base station (right table). When a statistics counter entry is selected, a detail panel opens which shows more detailed information for that counter. The detail panel shows values for total occurrence and occurrence in current and last week. You can clear the selected statistics counter on the selected DECT base station by pressing the Clear button. 6.7.7.2 DECT base station Statistics Group Panels The DECT base station statistics group panels divide DECT base station statistics counters into logical groups. This allows display of all statistics counters of a special group of all DECT base stations in one table. The group panels are listed under the Statistics menu entry in the left panel. Note that with SIP-DECT 6.0 or later, the statistic data collected by the BMC part of each DECT base station device (in the DECT MAC layer) are now shown with the DECT base station statistic data collected by the OMM. 165 SIP-DECT OM System Manual As an update between OMM and DECT base station usually occurs once every hour, it can take up to one hour for an event that increments a BMC statistic counter to appear in the OMP. The following tasks can be performed:
Refresh RFP: Request counter update by OMM for selected DECT base station. Refresh all: Request counter update by OMM for all counters. Clear group RFP: Clear counter group of selected DECT base stations. Clear group: Clear counter group of all DECT base stations. Clear RFP: Clear all counters of selected DECT base station. Clear all: Clear all counters of all DECT base stations. 6.7.8 QUALITY MENU OMP provides a monitoring ability for critical IP network parameters. Administrators can check basic network quality information for all DECT base stations. This includes Voice quality (Jitter, Packet lost) and OMM to RFP link quality (Roundtrip delay). The menu is only available in Monitor Mode. 6.7.8.1 IP IP quality menu provides information about link quality between DECT base stations and OMM. Displayed parameters:
ID: Radio fixed part identifier Connected time: Time the RFP is connected to OMM (sec) Current RTT: Current roundtrip time between RFP and OMM (msec) Max. RTT: Maximal detected roundtrip time between RFP and OMM Count: Number of roundtrip time measures
< 25 msec: Number of roundtrip time measures lower than 25 msec
< 50 msec: Number of roundtrip time measures between 25 and 50 msec
< 150 msec: Number of roundtrip time measures between 50 and 150 msec
< 500 msec: Number of roundtrip time measures between 150 and 500 msec
>= 500 msec: Number of roundtrip time measures 500 msec and more 166 OM Management Portal (OMP) Available tasks:
Select columns: Columns to be shown in IP quality table 6.7.8.2 Media Stream Media stream panel provides information about voice quality. Displayed parameters:
ID: Radio fixed part identifier Connects Duration (sec) TX packets RX packets Lost packets Max. jitter(msec) Available tasks:
Clear RFP: Clear values for selected RFPs Clear all: Clear values for all RFPs Select columns: Select media stream quality table columns to be shown 6.7.8.3 Synchronization Synchronization panel allows checking the synchronization status of RFPs which allows identifying RFPs with bad synchronization coverage. Synchronization monitoring can optionally be run in snapshoot mode. If this mode is activated, data update must be triggered by a user otherwise data were updated automatically anytime if new values arrive from OMM. 167 SIP-DECT OM System Manual Available parameters:
ID: Radio fixed part id DECT cluster: Cluster of the RFP Sync state: Synchronization state of the RFP Strong relations Low relations Max. RSSI (dBm) Min. RSSI (dBm) Available tasks in media synchronization quality table:
Snapshot mode: Enable snapshot mode (green check mark indicates snapshot mode is on) Update: Request data update in snapshoot mode Select columns: Select synchronization quality table columns to be shown 6.8 WLAN MENU OMP supports configuration of WLAN profiles and provides an overview of wireless clients currently connected. 6.8.1 PROFILES OMM supports up to 20 WLAN profiles, which can be added, changed and deleted in OMP configuration mode. Configuration and state of any WLAN profile can be checked in monitoring mode. 6.8.1.1 WLAN Profiles - configuration mode WLAN profile configuration menu provides an overview of all configured WLAN profiles. 168 OM Management Portal (OMP) The following tasks are available in this menu:
Create profile: Create a new WLAN profile (available if the maximal number of 10 WLAN profiles is not yet reached) Configure profile: Reconfigure selected profile Delete profile: Deletes a selected profile (only available if selected profile is not in use by any Radio fixed part) Delete all profiles: Deletes all existing profiles (only available if none of these profiles is in use by any Radio fixed part) Configure MAC filter: Add, configure, delete MAC filter for selected profile Select columns: Select WLAN profile table columns to be shown 6.8.1.2 WLAN Profiles Monitoring Mode WLAN profile monitoring menu shows all configured WLAN profiles. The following tasks are available:
Show Profile: Show details of selected WLAN profile Show MAC filter: Show configured MAC filter of selected WLAN profile Select columns: Select WLAN profile table columns to be shown 6.8.1.3 WLAN Profile Detail Panel WLAN profile detail panel is used to create, reconfigure or show a profile. It consists of different tabs which are used for general settings of WLAN profile, SSID configuration and SSID security settings. WLAN profile detail panel is opened if one of the following tasks is performed in WLAN profile menu:
Create profile (configuration mode) Configure profile (configuration mode) Show profile (monitoring mode) The General tab is always shown and configures/shows general settings of this profile like enabling of profile and profile type. 169 SIP-DECT OM System Manual The SSID selection tab is used for enabling of SSIDs. At least SSID 1 is always enabled. SSID 2, SSID 3 and SSID 4 can be activated optional. The SSID x general tab is shown for any activated SSID. Among other things, you can use it to select Security type. 170 A tab SSID x security is shown as well. It is accessible only for SSIDs with security type set to WEP or WPA. If security type stays at Open this tab is inactive. It allows setting of all necessary security parameters for this SSID. OM Management Portal (OMP) 6.8.1.4 MAC Access Filter Detail Panel MAC access filter detail panel in configuration mode allows the adding, configuring and deleting of MAC access filters. File import and export of MAC access filters is supported as well. Monitoring mode shows all configured MAC access filters only. MAC access filter detail panel is opened if one of the following tasks is performed in WLAN profile menu:
Configure MAC filter (configuration mode) Show MAC filter (monitoring mode) The General tab in configuration mode shows all configured MAC access filter. The following actions are available:
Create: Create new MAC access filter Configure: Change name of selected MAC access filter Delete: Delete all selected MAC access filter The Import tab (configuration mode only) provides import of a list of MAC access filter from file. The Export tab (configuration mode only) provides export of all configured MAC access filters to file. If no MAC access filter is configured, this tab is inactive. 6.8.1.5 Clients WLAN clients menu which is available in monitoring mode only, shows all currently connected wireless clients. 171 SIP-DECT OM System Manual 6.9 VIDEO DEVICES MENU The Video devices panel lists all configured video devices. The device list is available in Configuration Mode as well as in Monitor mode. New video device entries show up automatically after they are connected to and recognized by a DECT base station. The Plugged and State columns shows the following states:
/ unplugged Video device is not connected.
/ plugged Video device is connected.
/ started Video device is being watched in the OM Locating application.
/ stopped Video device is connected but disabled in the OMP. The Tag column shows the USB ID of the connected video device. The USB path column shows the USB port number to be used, e.g. 1 is a video device connected directly to the RFP while 1.1 indicates an indirect connection using an USB hub. The tasks which can be performed are mode-dependant. Configuration mode Monitor mode See section Configure: Configure selected video device in detail panel Delete: Delete selected disconnected video device Filter: Show only video device entries in table which contains a special search string Show details: Show selected video device in detail panel Filter: Show only video device entries in table which contains a special search string 6.9.1 6.9.2 6.9.3 6.9.4 6.9.1 CHANGING VIDEO DEVICES Changing video devices is only possible in Configuration Mode. To change the configuration of an existing video device, do the following:
1 Select the appropriate video device in the video devices table. 2 In the task bar on the right of the Video devices panel click on the Configure command. The video device detail panel opens. 3 Change video device parameters, see description below. 4 Press the OK button. Please note: You cannot change the configuration for a video device that is being watched in the OM Locating application (State column shows active). You must disable the video device first by deactivating the Active option. The following parameters can be set in the General tab of the Video devices panel:
Active: Disable this option to switch off the video device. This also switches off the status LED of the video device immediately (if applicable). Name: Enter a meaningful name for the video device. 172 OM Management Portal (OMP) Building, Floor, Room: For easier localization of the video device you can enter data in these fields. Resolution: Select a resolution for the video device. Higher resolutions require more bandwidth when watching the video image in the OM Locating application. Note, that not all video devices support all available resolutions. Default: VGA (640 x 480). Frame rate: Select a frame rate (2-10 frames per second). Higher frame rates require more bandwidth when watching the video image in the OM Locating application. 6.9.2 VIEWING VIDEO DEVICE DETAILS You can view the configuration of a video device in monitor mode. Proceed as follows:
1 Select the appropriate video device in the video devices table. 2 In the task bar on the right of the Video devices panel click on the Show details command. The video device detail panel opens (see 0). 3 Click Cancel to close the video device detail panel. 6.9.3 DELETING VIDEO DEVICES Deleting video devices is only possible in Configuration Mode. To delete one or more existing video devices proceed as follows:
1 Select the appropriate video device(s) in the video devices table by activating the corresponding checkbox(es). Note that you can only delete disconnected video devices. 2 In the task bar on the right of the Video devices panel click on the Delete command. The Delete selected video devices(s) dialog opens showing a confirmation prompt. 3 Confirm the displayed prompt with OK. 6.9.4 FILTERING VIDEO DEVICE TABLE You can filter the list of video device entries shown in the video devices table by using a filter. 1 In the task bar on the right of the Video devices panel click on the Filter command. The Filter dialog opens. 2 Enter the search string that serves as filter criterion. You can enter digits and characters. The search is case sensitive. 3 Click on the Filter button. The Filter dialog is closed and the video device table will be adapted accordingly. 4 To reset the filter, click on the Filter command in the task bar on the right of the Video devices panel. 5 In the Filter dialog click on the Reset button. 6.10 DECT PHONES MENU DECT phone datasets can be configured and viewed in the DECT phones menu. The DECT Phones menu contains different submenus. Each submenu displays its own table of DECT phone datasets. 173 SIP-DECT OM System Manual Configuration mode Monitor mode See section Overview: Displays all user and device-
related DECT phone data Overview: Displays all user and device-
related DECT phone data Users:Displays all DECT phone user data Devices: Displays all DECT phone device data Devices: Displays all DECT phone device data 6.10.1 6.10.2 6.10.3 User monitoring: Displays the status of all monitored users 8.29.7.3 6.10.1 OVERVIEW MENU In the Overview panel, all user-related and device-related DECT phone data are listed in a table. The overview is available in Configuration Mode and Monitor mode. In Configuration Mode, the Overview panel allows you to create fixed DECT phones (i.e., user and device are permanently associated). The Active column shows the following states:
- DECT phone is not subscribed to the system.
- DECT phone is subscribed to the system. Note:
If the Active column is not displayed, you can activate it in the Select columns dialog, see section 6.10.9. To view the user-device-relation, ensure that the User ID and Device ID columns are also activated. In monitor mode you can view the registration status of a DECT phone user by activating the Registered, Registrar server type, Registrar server and Registrar port columns. See section 6.10.9 for information on selecting columns and section 8.20.6 for information on the SIP registration status. 174 OM Management Portal (OMP) The tasks you can perform are mode-dependant. Configuration mode Monitor mode See section Create: Create new fixed DECT phone dataset in detail panel Configure: Configure selected DECT phone user and device dataset in detail panel Delete: Delete selected DECT phone user and device dataset (in case of fixed relation) or delete DECT phone user and set device to unbound status (in case of dynamic relation) Subscription: Start DECT phone subscription Wildcard subscription: Start DECT phone wildcard subscription Show details: Show selected DECT phone user and device dataset in detail panel Select columns: Select columns/parameters to be shown in DECT phone table Select columns: Select columns/parameters to be shown in DECT phone table Filter: Show only DECT phone datasets in table which contain a special search string Filter: Show only DECT phone datasets in table which contain a special search string Change rel. type: Change the DECT phone relation type Log events: Enable/disable DECT phone event log 6.10.5 6.10.6 6.10.4 6.10.8 6.10.7 6.10.7 6.10.9 6.10.10 6.10.11 6.10.11 175 SIP-DECT OM System Manual 6.10.2 USERS MENU In the Users panel, all DECT phone user data are listed in a table. The Users panel allows you to create
(unbound) users (which should be able to login and logout at a device). Note: Use the Select columns dialog (see section 6.10.9) to display the desired DECT phone user data. The following tasks can be performed:
Create: Create new unbound DECT Phone user dataset (see section 6.10.5). Configure: Configure selected DECT Phone user dataset (see section 6.10.6). Delete: Delete selected DECT Phone user dataset. Also delete device data in case of a fixed relation (see section 6.10.8). Select columns: Select parameter columns to be shown in table (see section 6.10.9). Filter: Filter DECT phone datasets shown in table for string set in filter mask (see section 6.10.10). Change rel. type: Change the DECT phone relation type (see section 6.10.11). 6.10.3 DEVICES MENU In the Devices panel, all DECT phone device data are listed in a table. The Device panel allows you to configure the DECT part of a DECT phone device dataset. Devices cannot be created separately. They are created automatically during subscription (unbound) or they are created fixed bound to a user when a user is created in the Overview submenu. 176 OM Management Portal (OMP) The following tasks can be performed:
Note: Use the Select columns dialog (see section 6.10.9) to display the desired DECT phone device data. Configure: Configure selected DECT phone device dataset (see section 6.10.6). Delete: Delete selected DECT phone device dataset (see section 6.10.8). Subscription: Start DECT phone subscription (see section 6.10.7). Wildcard subscription: Start DECT phone wildcard subscription (see section 6.10.7). Select columns: Select parameter columns to be shown in table (see section 6.10.9). Filter: Filter DECT phone datasets shown in table for string set in filter mask (see section 6.10.10). 6.10.4 DEVICE DETAIL PANEL The Device detail panel is used for configuration/showing of device settings and creation of new DECT phone datasets. To open the Device detail panel, choose one of the commands in the task bar on the right of the DECT Phones panel
(Configure) or double-click on the appropriate device entry in the device table The Device detail panel contains the different parameter groups sorted in tabs. The tabs displayed depend on the current mode and the panel from which the DECT phone detail panel was invoked. Overview panel (configuration and monitor mode): The DECT phone detail panel contains all tabs listed below. 177 SIP-DECT OM System Manual User panel (configuration mode): The DECT phone detail panel contains all tabs but not DECT. Device panel (configuration mode): The DECT phone detail panel contains only DECT. 6.10.4.1 The General tab contains general settings for the DECT phone dataset. General tab Name: The DECT phone user name (up to 20 characters). Number: The DECT phone telephone number, up to 31 characters
(1234567890*#azAz+- _.!$%&/()=?$&). Please be aware that only *,# and 0 to 9 can be dialed with a DECT phone. Description 1 and Description 2: Free text comments with up to16 characters each. Login/Additional ID: The additional ID can be used as a mean for data search within wildcard subscription (because of the IPEI is not configured which selects the data otherwise). PIN, PIN confirmation: A user PIN to be entered during user login. Note:
The attempt to set the user PIN to an empty string sets the PIN to the default value 0000. 6.10.4.2 The SIP contains the SIP authentication parameters for the DECT phone dataset. SIP tab Authentication user name: The SIP Authentication user name is optional but recommended. It represents the name which will be used during SIP registration and authentication. If no name is given the number will be used by default. Password, Password confirmation: The password will be used during SIP registration and authentication. Enter the appropriate data in these fields. VIP: Enable this option if the registration of this user should be prioritized (default off). VIP users will be registered first. For more information on prioritized registration, see section 8.20.5. Used for visibility checks: Enables the use of this user account to check the availability of the iPBX (e.g., in fail over situations). See section 8.20.7 for more information on this feature. Fixed port: Specifies the port used explicitly for SIP signaling. If set to 0, an automatically calculated port is used. The default is 0. See section 2.17 for more information on this feature. Incoming calls tab 6.10.4.3 The Incoming calls tab allows you to set device-specific settings for auto-answering incoming calls. Default values for all parameters are inherited from global settings (see section 6.5.4.7). Auto answer: Enables or disables auto-answer on incoming calls. 178 OM Management Portal (OMP) Microphone mute: Enables or disables microphone muting when incoming calls are automatically answered. Warning tone: Enables or disables warning tone on incoming call. A short ringtone is played if there are no active calls. If there is an active call in a barge in situation, the ringing will be in-band Allow barge in: Allows/disallows barge-in on existing calls. 6.10.4.4 The Conference tab contains parameters for three-way conferencing for the DECT phone dataset. Conference tab Server type: Determines the conference service to be used for three-way conferencing. Possible values are:
None: Disables 3-way conferencing. Global: The OMM system setting is used (default). Integrated: The integrated conference server is used. External: An external conference server is used. External Blind Transfer: An external conference server is used (e.g., MiVoice Business). The initiation of the conference is signaled as a blind transfer to the destination specified in the URL parameter. URL: Address of an external conference server (field only activated if the server type is External). For more information see section 8.20.7. DECT tab 6.10.4.5 The DECT tab contains parameters DECT configuration of the DECT phone dataset. When configuring a device (see 6.10.3), only the DECT tab is shown in the DECT phone detail panel. IPEI: This optional setting is the DECT phone IPEI number. On a Mitel DECT 142 /
Mitel 142d DECT phone, the IPEI can be found via the following path of the device menu: Main menu > Phone settings > System. On a Mitel 600 DECT phone, the IPEI can be found in the System device menu. Consult the DECT phones user guide for further information. DECT authentication code: The DECT authentication code is used during initial DECT subscription as a security option and can be set here for each DECT phone device separately (DECT phone-specific DECT authentication code). If no DECT phone-specific DECT authentication code is set, the system-wide DECT authentication code is used. Encryption: If the encryption feature is enabled for the whole system (in the System settings menu, see section 6.5.1), you can de-activate the DECT encryption for this device. Please note: The DECT phone device must support DECT encryption which is not a mandatory feature. 179 SIP-DECT OM System Manual Subscribe to PARI only: Ensures that the DECT phone subscribes to the PARK code (of a single OMM, within a Dual Homing installation) and not to the SARI. This option is only available for fixed user device pairs, and must be set before subscription takes place. For this reason, you should set the parameter immediately when creating the DECT phone device. Delete subscription: This option is only available when configuring an existing DECT phone. If this option is activated, the subscription data will be deleted which also requires a re-subscription of the DECT phone device. Messaging tab 6.10.4.6 The Messaging tab contains parameters for the OM Integrated Messaging and Alerting service on the DECT phone dataset. If a user is created independent of any specific configuration, the Sending messages and Sending vCards features are enabled by default. Sending messages permission: If this option is enabled, the DECT phone can send messages (if this function is supported by the device). Note:
For further information see the document SIP-DECT OM Integrated Messaging & Alerting Application Installation, Administration & User Guide. Sending vCards permission: Allows the user to send personal directory entries as a vCard message from the DECT phone to other users (if this function is supported by the device). Receiving vCards permission: If this option is enabled, all received vCard messages are automatically processed and written into the personal directory of the DECT phone (if this function is supported by the device). 6.10.4.7 The Locating tab contains parameters for configuring location parameters for the DECT phone. Locating tab Locating permission: This option applies to Mitel 600 DECT phones only. If this option is enabled, the user is allowed to determine the location of other DECT phones. The main menu of the Mitel 600 DECT phones provides an extra Locating menu entry for this function. Tracking: If this option is enabled, the operator of the OM Locating application is able to use the constant tracking feature for the DECT phone. Note that this feature consumes more of the DECT phones battery power, because it activates a DECT base station update if the device roams and is not in communication. You also cannot enable this feature, if the DECT locatable option is disabled. DECT locatable: If this option is enabled, the DECT phone is locatable. Either with the OM Locating application or by querying its location from other DECT phones. 6.10.4.8 The Additional services tab contains additional optional parameters for the DECT phone dataset. Additional services tab SOS number: User-specific SOS number that is dialed automatically if the SOS key on the DECT phone is pressed. 180 OM Management Portal (OMP) ManDown number: User specific Man down number that is dialed automatically if a Man down event happens. This event is triggered by the sensor of a Mitel 600 DECT phone. If no individual SOS or Man down number is configured for a DECT phone, the number of the appropriate alarm trigger will be used as calling number in case of a SOS or Man down event. Please see /31/ for details. Voice mail number: The number that will be automatically called as soon as a voice mail call is initiated on the Mitel 600 DECT phone. If there is no individual voice mail number configured in this field, then the system-wide voice mail number is used (see also the System setting menu, section 6.5.1). If there is no voice mail number configured (neither the individual nor the system-wide) or another DECT phone type is used, then the voice mail number must be configured locally in the DECT phone. Keep personal directory: Activate this option, to keep the personal directory data in the DECT phone if the user logs out. External: A user data set can either be provisioned on an external user data server or locally in the OMM database. To provide an easy way to change the provisioning storage of user data sets, the user data sets can be moved from an external user data server into the local OMM database and vice versa. Deactivate the External option if you want to move user data sets from an external user data server into the local OMM database. External to internal transformation rules: To change a user data set from an external user data server to an internally provisioned one, the following conditions must be applied to the data set:
external provisioned on an external user data server user data set device relation must not be fixed Internal to external transformation rules: To change a user data set from local OMM database to an external user data server provisioned one the following conditions must be applied for the data set:
external provisioned on an external server user data set device relation must not be fixed an external user data server must be available Video stream permission: Activate this option to allow video streaming on the Mitel 602 DECT phone. See section 8.28 for details on this feature. Hot desking supported: Enables or disables Hot desking functionality (for SIP-
DECT systems using the MiVoice Business platform). Only available for users with a dynamic association with a DECT phone. When enabled, the user is registered as a Hot Desking user on the MiVoice Business call server. See section 2.14 for details on this feature. Auto logout on charging: Enables or disables automatic user log out on the DECT phone when the device is placed in the charger cradle. Only available for users with a dynamic association with a DECT phone. Note that the Silent charging option must be enabled on the DECT phone. Authenticate logout: Enables or disables whether it is necessary for the user to authenticate in case of logout. 181 SIP-DECT OM System Manual User monitoring tab 6.10.4.9 The User monitoring tab contains parameters to configure the user-specific parameters for the User Monitoring feature. For a description of the parameters which can be set in the User monitoring tab, see the description in section 8.29.7.2. Configuration data tab 6.10.4.10 The Configuration data tab allows you to assign a Configuration over Air (CoA) profile to a DECT phone user. See section 8.23 for more information on this feature. Profile id: Specifies the CoA configuration profile you want to assign to the DECT phone user. Note: When a COA profile is deleted, its profile ID assignment to DECT phone users remains. If a new CoA profile is created and acquires this profile ID (the IDs are assigned in sequential order), any DECT phone users with the old profile ID are automatically assigned to the new CoA profile. If you do not want the DECT phone users to automatically inherit any new CoA profile that has the profile ID, you must remove the profile ID assignment manually. 6.10.4.11 User service tab The User service tab allows you to specify parameters related to user authentication for XSI services. Use SIP user name: Specifies whether the XSI user name is taken from the user's SIP data. The generated format is <sip user name>@<sip registrar domain>. Possible values are Global, On, or Off. Use SIP user authentication: Specifies whether the XSI authentication name and password are taken from users SIP data. The generated format is <sip authentication name>@<sip registrar domain>. Possible values are Global, On, or Off. User name: Specifies the users user name for the XSI service (if Use SIP user name is set to Off). The username is part of the access url path of a XSI request
(e.g., /com.broadsoft.xsi-actions/v2.0/user/<service user name>/directories/Enterprise?firstName=A*). Authentication name: Specifies the name to authenticate the user for XSI services
(if Use SIP user authentication is set to Off). Password: Specifies the password to authenticate the user for XSI services. Password confirmation: confirms the password to authenticate the user for XSI services. 182 OM Management Portal (OMP) Please note: As of SIP-DECT 8.0, the access to the system configuration through the DECT phone UI is disabled by default to improve system security. The user can enable the menus through OMP. 6.10.4.12 Key lock tab The Mitel 600d DECT phone family offers an optional PIN to protect the DECT Phone. For SIP-DECT 8.0 and the DECT phone SW 7.2, the key lock PIN is managed by the OMM to improve the shift worker support and the roaming between OMMs in a MOM setup. The local DECT phone key lock PIN settings are suppressed if the DECT phone is subscribed with a SIP-DECT system. The key lock with PIN can be managed through OMP, OMM configuration files and by the user through the DECT phone UI in System menu/ Administration/ Key lock. Note that this is not possible for external users, that is, users who are provisioned through user.cfg file. If user data are provisioned through user.cfg files, then the provisioning platform is the data master and there is no option to update data towards the provisioning platform when changed in the SIP-DECT system. Therefore, data changes in the SIP-DECT system are prevented. The following default values apply when creating a new user or when upgrading from the previous release 7.1-CK14 or older. Active: The feature is set active. This enables the Key lock menu under System menu/Administration on the Mitel 600d DECT phone. To prevent change of the time by the user disable the feature here. Timer: The timer is set to None (Off on the DECT phone). The key lock is not automatically activated if the DECT phone is not used, and the long press of the #
key (
) does not activate the key lock with PIN. 183 SIP-DECT OM System Manual PIN and PIN confirmation: The DECT phone default PIN is set to 0000. It is the same default PIN as for the local DECT phone feature. Adjust a new PIN here if the user had forgotten its PIN. From the user perspective, the DECT phone key lock with PIN is not active by default but can be activated through the DECT phone UI. For GDPR compliance activate the timer. The user may set his individual PIN. If the active flag is not set, the whole feature is disabled, and the key lock DECT phone menu is removed from the DECT phone UI. The submenu Enter new PIN remains. This is necessary, because the PIN may be mandatory to open some DECT phone menus like Security, or others if configured by COA. The user shall have the opportunity to change the PIN by himself, even if key lock feature is disabled. The DECT phone key lock PIN to protect the Mitel 600 DECT phone is reset to default 0000 on user logout to improve usability in shift worker scenarios. Additionally, user call filter and private caller lists are removed from the DECT phone. The PIN for key lock is restored on user login to the DECT phone. The Mitel 600 DECT Phone USB interface is locked automatically when the phone is locked with a PIN. 6.10.5 CREATING DECT PHONE DATASETS Creating DECT phone datasets is only possible in Configuration Mode. You can create the fixed DECT phone dataset or only the DECT phone user data. To create a DECT phone dataset, do the following:
1 Click Create under the Task list on the right-hand side of the DECT Phones window. 184 OM Management Portal (OMP) In the Overview submenu you can create a fixed DECT phone dataset (with combined user and device data). In the Users submenu you can create an unbound user. This user can login and log out on any configured device. The DECT phone detail panel opens and provides tabs where the DECT phone data must be entered. 2 Configure the DECT phone, see parameter description in section 6.10.4. 3 Press the OK button. 6.10.6 CONFIGURING DECT PHONE DATASETS Configuring DECT phone datasets is only possible in Configuration Mode. To configure an existing DECT phone dataset proceed as follows:
1 Select a DECT Phone from the table, and click Configure under the Task list on the right-hand side of the DECT Phones window. In the Overview submenu you can configure the whole DECT phone dataset (user and device data). In the Users submenu you can configure the DECT phone user data. In the Device submenu you can configure the DECT phone device data. The DECT phone detail panel opens. 2 Change the DECT phone dataset as desired, see parameter description in section 6.10.4. 3 Press the OK button. 6.10.7 SUBSCRIBING DECT PHONE DATASETS After adding a DECT phone dataset to the OMM, the DECT phone must be subscribed. The OMM must first be enabled to allow subscriptions from DECT phones. Subscribing DECT phone datasets is possible in the Overview panel and in the Device panel. To start subscription, press one of the following commands in the DECT phones menu:
Subscription: Start DECT phone subscription with configured IPEI. For more information on this see section 5.7.3.1. Wildcard subscription: Start DECT phone wildcard subscription (without configured IPEI). In the Wildcard subscription dialog, which is now opened, enter the Timeout for this subscription method. Press the Start button. For more information on this see section 5.7.3.2. 6.10.8 DELETING DECT PHONE DATASETS Deleting DECT phone datasets is only possible in configuration mode. You can delete the fixed DECT phone dataset (in case of fixed relation) or only the DECT phone user data resp. the DECT phone device data (in case of dynamic relation). To delete one or more existing DECT phone datasets proceed as follows:
1 Select the appropriate DECT phone dataset(s) in the DECT phone table by activating the corresponding checkbox(es). 2 In the task bar on the right of the DECT phones panel click on the Delete command. 185 SIP-DECT OM System Manual In the Overview submenu the whole DECT phone dataset will be deleted. In the Users submenu only the DECT phone user data will be deleted. In the Devices submenu only the DECT phone device data will be deleted. The Delete [xxx] dialog opens showing a confirmation prompt. 3 Confirm the displayed prompt with OK. 6.10.9 SELECTING COLUMNS You can adapt the parameters shown in the DECT phone table to your needs:
1 Click Select columns under the Task list on the right-hand side of the DECT Phones window. The Select columns dialog opens. 2 Select the columns that shall be shown by activating the appropriate checkboxes. 3 Click the OK button. 4 The DECT phone table will be adapted accordingly. 6.10.10 FILTERING DECT PHONE TABLE You can filter the list of DECT phone datasets shown in the DECT phone table by using a filter. 1 Click Filter under the Task list on the right-hand side of the DECT Phones window. The Filter dialog opens. 2 Enter the search string that serves as filter criterion. You can enter digits and characters. The search is case sensitive. 3 Click on the Filter button. The Filter dialog is closed and the DECT phone table will be adapted accordingly. 4 To reset the filter, click on the Filter command in the task bar on the right of the DECT phones panel. 5 In the Filter dialog click on the Reset button. 6.10.11 CHANGING THE RELATION TYPE You can change a user data-device relation data set from fixed to dynamic and vice versa. This means the login/logout feature can be enabled or disabled for a DECT phone. The user data device relation can only be changed by the admin user. To change the relation type of a DECT phone:
1 Select the appropriate DECT phone dataset(s) in the DECT phone table by activating the corresponding checkbox(es). 2 Click Change rel. type under the Task list on the right-hand side of the DECT Phones window. Rules to change the relation from fixed to dynamic The DECT phone must be subscribed. A user login/logout PIN is configured in the user data set. 186 OM Management Portal (OMP) Depending on the DECT phone user login type (LoginID), in the DECT tab of the System settings menu, the Login ID option must be set in the DECT phone user login type field. IMPORTANT : If there is no specific PIN configured then 0000 is automatically set. Rules to change the relation from dynamic to fixed The user relation type must be Dynamic (not Unbound). The user data set is not retrieved from an external user data server / the user data set is provisioned locally in the OMM database. 6.10.12 ENABLING / DISABLING DECT PHONE EVENT LOG You can store a DECT phone event log file in Monitor Mode. Do the following:
1 To enable/disable the DECT phone event log, click Log events under the Task list on the right-hand side of the DECT Phones window:
- DECT phone event log is enabled.
- DECT phone event log is disabled. 2 Repeat step 1 to disable/enable the DECT phone event log. The DECT phone event log will be stored in a file called pp_event.log. This file can be found in the users home directory:
On a Linux system it is located under ~/.oamp, On a windows system under c:/Users/<user>/MyDocuments/.Oamp. 6.10.13 USER MONITORING User monitoring menu available in monitoring mode only a list of the DECT Phone users who are configured for user monitoring. The following parameters are displayed for each DECT Phone user:
User ID Name Number Related device ID Mode: User monitoring mode (active or passive) Combined User Status (CUS) Handset Assignment Status (HAS) (Dynamic User logged on) Handset Subscription Status (HSS) (DECT subscribed) Handset registration status (HRS) (DECT attached) Handset activity status (HCS) (Handset active within time period) SIP user registration status (SRS) (SIP user registered) Silent charging status (SCS) (Silent charging + Charger) Call diversion status (CDS) (immediate call diversion enabled) 187 SIP-DECT OM System Manual Handset battery status (HBS) (Battery power above limit, warn only) Software status (SWS) (minimal required software version, warn only) Monitoring parameter can have these values:
- Available
- Warning
- Unavailable
- Escalated 6.11 CONFERENCE ROOMS MENU On this menu page you managed individual conference rooms for the Integrated Conference Server
(ICS). For details on how to configure the conferencing feature, see section 8.21. The tasks which can be performed are mode-dependant. Configuration mode Monitor mode See section Create: Create conference room Configure: Configure selected conference room Show details: Show details about a selected conference room Delete: Delete selected conference room 6.11.1 CREATING CONFERENCE ROOMS 6.11.1 6.11.2 6.11.4 6.11.3 In Configuration Mode you can create new conference rooms. Conference rooms will be registered on the configured SIP registrar, thus you must enter the SIP account data to be used. 188 OM Management Portal (OMP) 1 Click Create in the Tasks menu of the Conference rooms page. 2 In the General tab, enter the conference room parameters. Name: Enter the SIP display name for the SIP account to be used. Conference ID: Enter the SIP user id. User name: Enter the SIP authentication name. Password, Password confirmation: Enter the password that is required by the SIP server. Fixed SIP port: Enter the port used explicitly for SIP signaling. If set to 0, an automatically calculated port is used for this conference room. The default is 0. See section 2.17 for more information on this feature. 3 Click OK. 6.11.2 CONFIGURING CONFERENCE ROOMS In Configuration Mode you can configure an existing conference room. 1 Select the appropriate conference room entry in the conference rooms table. 2 Click Configure. The General tab is displayed showing the current conference room configuration. 3 Change the conference room parameters as required. 4 Click OK. 6.11.3 DELETING CONFERENCE ROOMS In Configuration Mode, you can delete conference rooms. 1 Select one or more conference rooms entries in the conference rooms table. 2 Click Delete. A confirmation dialog appears. 3 Click OK to confirm. 189 SIP-DECT OM System Manual 6.11.4 VIEWING CONFERENCE ROOM DETAILS In Monitor Mode, you can view the details of a conference room. 1 Select the appropriate conference room entry in the conference room table. 2 Click Show details. The General tab is displayed showing the conference room configuration. 3 Click Cancel to close the tab. 6.12 ALARM TRIGGERS MENU SYSTEM FEATURES MENU The System features menu provides the following entries:
Configuration mode General settings Monitor mode General settings Feature access codes Feature access codes Alarm triggers Digit treatment Directory XML applications CoA profiles Alarm triggers Digit treatment Directory XML applications CoA profiles See section 6.12.1 6.12.2 6.12.3 6.12.4 6.12.5 6.12.8 6.12.9 6.12.1 GENERAL SETTINGS MENU The General settings menu allows to configure/view the FAC number prefix used for feature access codes and alarm triggers. 1 FAC number and prefix for alarm triggers: Enter a unique FAC number. 2 Press the OK button. 190 6.12.2 FEATURE ACCESS CODES MENU The Feature access codes menu is used to configure/view the feature access codes parameters. OM Management Portal (OMP) The FAC number which introduces the feature access code (see also section 6.12.1) is displayed. For a description of the parameters which can be set in this menu see section 5.9.4. 6.12.3 ALARM TRIGGERS MENU The Alarm triggers menu allows configuration and display of numerous alarm trigger datasets. There are two predefined alarm triggers (SOS and MANDOWN) which cannot be deleted. 191 SIP-DECT OM System Manual The tasks which can be performed are mode-dependant. Configuration mode Create: Create alarm trigger Configure: Configure a selected alarm trigger Delete: Delete selected alarm triggers Monitor mode See section Show details: Show parameters of a selected alarm trigger 6.12.3.1 6.12.3.2 6.12.3.4 6.12.3.3 6.12.3.1 In Configuration Mode you can create new alarm triggers. Creating Alarm triggers 1 Click Create. In the General tab enter the alarm trigger parameters. 2 Trigger ID: Enter the AlarmTrigger ID that the OMM sends to identify the alarm scenario and the source that triggers the alarm. 3 Feature access code: Enter the feature access code that the user dials to initiate the alarm. 4 Comment: Enter a comment for the new trigger. 5 Prefix: This field displays the FAC number which introduces the feature access code (see also section 6.12.1). 6 Number: Enter the number to be called if the user triggers the alarm by dialing the feature access code. If no number is specified, the call is released. 7 Press the OK button. Configuring Alarm triggers 6.12.3.2 In Configuration Mode you can configure an existing alarm trigger. 1 In the alarm trigger table click on the appropriate trigger entry. 2 Click Configure. The General tab is displayed showing the current trigger configuration. 3 Change the trigger parameters. 192 OM Management Portal (OMP) 4 Press the OK button. Deleting Alarm triggers 6.12.3.3 In Configuration mode you can delete alarm triggers. The predefined alarm triggers (SOS and Man down) cannot be deleted. 1 In the alarm trigger table click on one or more trigger entries. 2 Click Delete. 3 Confirm the displayed prompt with OK. View Alarm trigger Details 6.12.3.4 In Monitor Mode you can view the details of an alarm trigger. 1 In the alarm trigger table click on the appropriate trigger entry. 2 Click Show details. The General tab is displayed showing the trigger configuration. 3 Click Cancel to close the tab. 6.12.4 DIGIT TREATMENT MENU The Digit treatment menu allows you to configure the number manipulation that is provided by the digit treatment feature for LDAP corporate directories. For a description of tasks and parameters available in this menu, see section 5.9.1. 193 SIP-DECT OM System Manual 6.12.5 DIRECTORY MENU The Directory menu allows configuration of LDAP, XML or XSI -based corporate directory services. The tasks which can be performed are mode-dependant. Configuration mode Monitor mode Create: Create new directory entry in detail panel Configure: Configure selected directory entry in detail panel Delete: Delete selected directory entry/entries Show details: Show selected directory entry in detail panel See section 6.12.5.1 6.12.5.2 6.12.5.3 6.12.5.4 Creating New Directory Entries 6.12.5.1 Adding directory entries is only possible in configuration mode. You can configure up to five directory entries. To add a new entry, do the following:
1 In the Tasks panel, click Create. The New directory entry panel opens and provides various tabs where the directory data must be entered. 2 Configure the directory entry (see parameter descriptions below). 3 Click OK to save your changes. You can specify values for the following parameters in the New directory entry panel:
194 OM Management Portal (OMP) General tab The following table describes the parameters on the General tab and to which directory type they apply. Parameter Type Description LDAP XML XSI Interface type supported by the directory server. Possible values:
LDAP XML XSI Enterprise XSI Enterprise common XSI Group XSI Group common XSI Personal Enables or disables the directory entry on the DECT phone. Name to be displayed for the directory (Latin-1 character set is supported). Note: If there is only one directory entry configured, this value is ignored when the user searches for a number in the telephones central directory. SIP-DECT 6.0 and later supports the SIPProxy placeholder for a directory entry name, in place of the current primary, secondary or tertiary SIP server address. Location in the LDAP directory from which the search begins
(e.g., ou=people, o=my com). The configuration is valid for all DECT phones that support the LDAP directory feature. To make search requests unique for different users, the search base configuration can include placeholders that are replaced by user-specific values when submitting the LDAP request to a server. The following placeholders are defined:
<TEL> (for the users telephone number)
<DESC1> (for the users Description 1 attribute)
<DESC2> (for the users Description 2 attribute) SIPProxy (for the current primary, secondary or tertiary SIP server address); supported for release 6.1 and later Attribute on which searches are performed (Surname or Given name). Display mode for search results (Surname, First Name or Given name Surname). Active Name Search base Search type Display type Server search timeout Interval (in seconds) during which the OMM waits for search results from the LDAP server (1 10 seconds). URL tab The following table describes the parameters on the URL tab and to which directory type they apply. Parameter Protocol Port Description LDAP XML XSI Transfer protocol used to communicate with the XML or XSI directory server (http or https). Server port number. Specify a value, or enable the Use default port flag. For LDAP, the default is 389. SSL (default port 689) is not supported. Windows Active Directory Server uses port 3268. 195 SIP-DECT OM System Manual Parameter Server User name Password Description For XML or XSI, the default is 80 for HTTP, and 443 for HTTPS. LDAP XML XSI IP address or FQDN of the directory server. Name of the account for directory server access, if required. Password for directory server access, if required. Confirm the password in the next field. Note: If no user/password is specified, an anonymous bind takes place. SIP-DECT supports LDAP simple bind. Path (and parameters) URL (with parameters, if required) to the XML directory on the XML directory server. Use common certificate configuration Enables or disables use of the systems certificates (loaded for provisioning purposes) for HTTPS directory access. Changing a Directory Entry 6.12.5.2 Changing directory entry is only possible in configuration mode. To change the configuration of an existing directory entry, do the following:
1 Select the appropriate directory entry in the table. 2 Click Configure in the Tasks panel. 3 Change the directory entry parameters as required (see parameter descriptions in section 6.12.5.1). 4 Click OK. Viewing Directory Entry Details 6.12.5.3 You can view the configuration of a directory in Monitor Mode. Do the following:
1 Select the appropriate directory entry in the table. 2 In the Tasks bar click Show details. The directory entry data is displayed in the detail panel. 3 Click Cancel to close the directory entry detail panel. Deleting Directory Entries 6.12.5.4 Deleting directory entries is only possible in Configuration Mode. To delete one or more existing entries, do the following:
1 Select the appropriate entry/entries in the directory entry table by activating the corresponding checkbox(es). 2 In the Tasks pane, click Delete. A confirmation dialog opens. 3 Click OK to confirm. 6.12.6 EASY MIGRATION FROM CORPORATE DIRECTORY (COMP. MODE) TO NEW CORPORATE DIRECTORY STRUCTURE If there is a corporate directory (comp. mode) entry and a new corporate directory structure entry with identical settings, then the corporate directory (comp. mode) entry gets automatically removed. 196 Use case: Migration from old to new structure with provisioning files w/o manual configuration and to avoid double entries. OM Management Portal (OMP) The following parameters is considered for comparison:
Directory type (LDAP, XML) Name Server Path 6.12.7 DIRECTORY (COMP. MODE) MENU With the introduction of XSI directory support in SIP-DECT 6.2, the underlying database model for directory support in SIP-DECT has changed. To support backwards compatibility, the Directory (comp) page provides directory configuration and maintenance for existing SIP-DECT systems with LDAP or XML directory support. The Directory (comp. mode) menu allows configuration of LDAP or XML corporate directory services. Creating New Directory Entries 6.12.7.1 Adding directory entries is only possible in configuration mode. You can configure up to five directory entries. To add a new entry, do the following:
4 In the Tasks panel, click Create. The New directory entry panel opens and provides various tabs where the directory data must be entered. 5 Configure the directory entry (see parameter descriptions below). 197 SIP-DECT OM System Manual 6 Click OK to save your changes. You can specify values for the following parameters in the New directory entry panel:
General tab The following table describes the parameters on the General tab. Parameter Description Type Active Order Name Interface type supported by the directory server. Possible values: LDAP or XML. Enables or disables the directory entry on the DECT phone. Specifies where you want the directory to appear in the list. Name to be displayed for the directory (Latin-1 character set is supported). Note: If there is only one directory entry configured, this value is ignored when the user searches for a number in the telephones central directory. SIP-DECT 6.0 and later supports the SIPProxy placeholder for a directory entry name, in place of the current primary, secondary or tertiary SIP server address. LDAP tab The following table describes the parameters on the LDAP tab (only available when LDAP is selected as the directory type). Parameter Search base Search type Display type Server Port User name Password Description Location in the LDAP directory from which the search begins (e.g., ou=people, o=my com). The configuration is valid for all DECT phones that support the LDAP directory feature. To make search requests unique for different users, the search base configuration can include placeholders that are replaced by user-specific values when submitting the LDAP request to a server. The following placeholders are defined:
<TEL> (for the users telephone number)
<DESC1> (for the users Description 1 attribute)
<DESC2> (for the users Description 2 attribute) SIPProxy (for the current primary, secondary or tertiary SIP server address);
supported for release 6.1 and later Attribute on which searches are performed (Surname or Given name). Display mode for search results (Surname, First Name or Given name Surname). IP address or FQDN of the directory server. Server port number. The default is 389. SSL (default port 689) is not supported. Windows Active Directory Server uses port 3268. Name of the account for directory server access, if required. Password for directory server access, if required. Confirm in the next field. Note: If no user/password is specified, an anonymous bind takes place. SIP-DECT supports LDAP simple bind. Server search timeout Interval (in seconds) during which the OMM waits for search results from the LDAP server
(1 10 seconds). 198 OM Management Portal (OMP) XML application tab The following table describes the parameters on the XML application tab (only available when XML is selected as the directory type). Parameter Description Protocol Port Server User name Password Transfer protocol used to communicate with the XML directory server (HTTP or HTTPS). Server port number. Default is 80 for HTTP, and 443 for HTTPS. IP address or FQDN of the directory server. Name of the account for directory server access, if required. Password for directory server access, if required. Confirm the password in the next field. Path (and parameters) URL (with parameters, if required) to the XML directory on the XML directory server. Changing a Directory Entry 6.12.7.2 Changing directory entry is only possible in configuration mode. To change the configuration of an existing directory entry, do the following:
1 Select the appropriate directory entry in the table. 2 Click Configure in the Tasks panel. 3 Change the directory entry parameters as required (see parameter descriptions above). 4 Click OK to save your changes. Viewing Directory Entry Details 6.12.7.3 You can view the configuration of a directory in Monitor Mode. Do the following:
1 Select the appropriate directory entry in the table. 2 In the Tasks bar click Show details. The directory entry data is displayed in the detail panel. 3 Click Cancel to close the directory entry detail panel. Deleting Directory Entries 6.12.7.4 Deleting directory entries is only possible in Configuration Mode. To delete one or more existing entries, do the following:
1 Select the appropriate entry/entries in the directory entry table by activating the corresponding checkbox(es). 2 In the Tasks bar click Delete. A confirmation dialog opens. 3 Click OK to confirm. 6.12.8 XML APPLICATIONS MENU The SIP-DECT XML terminal interface allows external applications to provide content for the user on the Mitel 600 DECT phone display. To make the XML terminal interface applications available to the DECT phone user, the relevant hooks must be configured in the XML applications menu. 199 SIP-DECT OM System Manual There are 15 predefined hooks and 10 hooks which can be freely defined. For a full list of the predefined hooks and their descriptions, see section 5.9.5. These hooks can be activated or deactivated but not deleted. Up to 10 additional hooks can be created dynamically. Please note: Caller list and Redial list replace the local caller and redial lists of the Mitel 600 if activated. These XML hooks can also be used to enable the centralized call log feature (MX-ONE systems only). Additionally the list access must be set to Automatic or PBX on the DECT phone in the Settings > List access menu. If the list access is set to Local, the local list is used by the DECT phone. Note: An XML directory entry is also read-only listed in the XML applications menu. For information on configuring XML directories please see section 6.12.5.1. An activated hook becomes available on a DECT phone (including the corresponding menu entry) after the next DECT location registration of the DECT phone. This can be forced by switching the DECT phone off and on. The same applies if a hook is deactivated. 200
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OM Management Portal (OMP) The tasks you can perform in the XML applications menu are mode-dependant. Configuration mode Create: Create new XML hooks Configure: Configure selected XML hook in detail panel Monitor mode See section 6.12.8.1 6.12.8.2 Delete: Delete selected XML hook 6.12.8.4 Show details: Shows selected XML hook in detail panel 6.12.8.3 Creating a New XML Hook 6.12.8.1 In addition to the 15 predefined XML hooks, you can create up to 10 additional XML hooks. You can only add XML hooks in Configuration Mode. To add an XML hook, do the following:
1 In the Tasks bar click on Create. The New XML application panel opens. 2 Specify values for the following XML hook parameters:
Active: This setting activates or deactivates a configured XML application entry. Name: The predefined hooks have fixed predefined names. A name must be configured for the free defined hooks. Protocol: Select the protocol HTTP or HTTPS. Server: Enter the IP address or the name of the server which provides the XML content. Note: SIP-DECT 6.0 and later supports SIPProxy placeholders for XML Server application URLs within SIP redundancy setups. In cases where applications are located on a SIP server, it is necessary to address XML applications by using the current primary, secondary or tertiary SIP server address. In those cases, the SIPProxy placeholder can be used as server input. 201 SIP-DECT OM System Manual User name: Enter the login user name if an authentication is required by the server. Password, Password confirmation: Enter the password if the authentication is required by the server. Path (and parameter): Enter the path and query of the URI. For Feature access codes translation, the Path settings contains placeholders for the queried translation: {subsc} = Number, {ppn} = Device ID, {fac} = FAC. 3 Click OK to save your changes. 6.12.8.2 Modifying an XML Hook You can only modify XML hooks in Configuration Mode. To change the configuration of an existing XML hook, do the following:
1 Select the appropriate XML hook in the table. 2 In the Tasks bar, click Configure. 3 Edit the XML application parameters (described above) as necessary. You cannot change the name of a predefined XML hook. Note: SIP-DECT 7.0 and later supports centralized call logs for systems using the MX-ONE call server. To enable this feature, you must enter CSIntegration?object=history" as the value for the Path parameter. This applies to both the Caller list and Redial list predefined XML hooks. See the description comment in chapter 5.9.5. 4 Click OK. Viewing XML Hook Details 6.12.8.3 You can view the configuration of an XML hook in Monitor Mode. Do the following:
1 Select the appropriate XML hook in the table. 2 In the Tasks bar click on the Show details command. The user account data is displayed in the user account detail panel. 3 Click Cancel to close the XML hook detail panel. Deleting XML Hooks 6.12.8.4 You can only delete XML hooks in Configuration Mode. You cannot delete any predefined XML hooks. To delete an XML hook, do the following:
1 Select the appropriate XML hook(s) in the table by activating the corresponding checkbox(es). 2 In the Tasks bar, click Delete. A confirmation dialog opens. 3 Click OK to confirm. 202 OM Management Portal (OMP) 6.12.9 COA PROFILES MENU SIP-DECT 6.0 and later supports central configuration over the air (CoA) for Mitel 602 DECT phones. The CoA profiles page lists the available CoA profiles that can be downloaded to the DECT phones. Note:
The profiles generated by the user_common.cfg configuration file are also listed in this window. When managed with OMP, they can be overwritten when the user_common.cfg configuration file is reloaded. The maximum download size is 4kB. You can import CoA profiles via the CoA Profiles menu. Once you have imported the profiles, you can assign them to specific DECT phone users. To create a new CoA profile:
1 Click Create under the Tasks list on the right-hand side of the CoA profiles window. The New CoA profile dialog opens. 2 Configure the settings for the CoA profile:
- Name: Specify a name for the CoA profile
- Default: Indicate whether this is the default CoA profile to be used
-
ID: Select an ID for the CoA profile from the drop-down menu. 3 Click Import file to select the CoA file to import. The CoA profiles page displays the new CoA profile in the table. 203 SIP-DECT OM System Manual 6.13 LICENSES MENU The Licenses pageprovides an overview of licenses currently in use. In Configuration Mode, you can also import a license file. The license information is displayed in the following tabs:
Status: Shows general license information. License file: Allows import of a license file. System: Shows system license status. Messaging: Shows Integrated Messaging and Alerting Service (IMA) license status. Locating: Shows Locating license status. General tab The General tab displays general information about the current system license. License file tab The License file tab allows you to import a license file (only possible in Configuration Mode). 1 Click the File button to select the path and file name where the license file is stored. 2 Click the Import button. System tab The System tab provides OM System license information. This includes supported software version and number of licensed DECT base stations (RFPs) compared to number of connected DECT base stations. Messaging tab The Messaging tab provides OM Messaging and Alerting license information. Locating tab The Locating tab provides OM Locating license information. 204 OM Management Portal (OMP) 6.14 GENERAL MENU The General menu is available in all program situations. It contains following submenus:
Exit: Selecting this menu entry opens the exit dialog to close the OMP. Options: Selecting this menu entry opens the Options dialog (see below). Options - General tab Language: You can select the OMP language. After changing the language, the OMP is automatically closed and must be started again. The field User directory shows the path where the following files are saved if necessary:
System dump file sys_dump.txt Expert console log file spy.log when the application terminates Exception log file spy_trace_<date>_pxxx in case of a Java exception, file name extension xxx ranges from 000 to 999 In the Warnings section you can activate/deactivate the display of warning messages in the OMP. Notes on log files The mechanism for creating the log files is the same as the PC OMM spy log mechanism, what means:
The maximum size of the log file is 1 GB 1000 log files per day at maximum Only the 30 newest created log files are kept, older ones are removed automatically Log files older than 6 days are removed 205 SIP-DECT OM System Manual Options - Log file tab In the Log file tab you can enable several trace levels. 6.15 HELP MENU The Help menu is available in all program situations. It contains following submenus:
Info: Selecting this menu entry displays the End User License Agreement (EULA). About AXI: Selecting this menu entry displays the About AXI dialog. This dialog compares the protocol version numbers which are provided by the OMM with the protocol version numbers supported by the OMP. The warning icons show a version mismatch. A version number - means the protocol element is not used by OMP. or 206 OM Management Portal (OMP) About OMP: Selecting this menu entry displays the OMP version info and copyright. 207 SIP-DECT OM System Manual 7 DECT PHONE The DECT phone has a special system menu for administration of the DECT system. 7.1 KEY LOCK WITH PIN 7.1.1 MAINTAIN THE PIN The PIN is used to allow access to the Security menu and to lock the phone. The user can adjust his PIN and the feature Key lock with PIN here: System menu/Administration. The submenu Key lock is hidden if the feature is disabled. The update to SIP-DECT 7.1SP1 causes a reset of the DECT phone key lock PIN to default 0000. 7.1.2 UNLOCK A LOCKED MITEL 600 DECT PHONE As of SIP-DECT 8.0 and DECT phone SW 7.2, the DECT phone can be reset to factory defaults if the DECT phone is protected with a PIN, and no other option can be used to unlock the phone; for example, set the PIN through the OMM to a defined value. If a wrong PIN are successively entered 3 times, then a reset procedure can be activated by entering the code ***778#. 208 DECT Phone The reset procedure requests the password Master to reset all data on the phone, which also removes the subscription and the PIN lock. The DECT phone needs to be subscribed with a DECT system after the reset. Note: Be aware that the Master reset deletes all data from the DECT phone. 209 SIP-DECT OM System Manual 7.1.3 SETUP AUTOMATIC KEY LOCK WITH PIN The following pictures show an example how to turn off the DECT phone key lock with PIN through the Mitel 600d DECT Phone UI. Select the lock key and enter the PIN to unlock the phone Long press of the option soft key opens the system menu Select Administration Select Key lock Option to change the PIN Option to change the key lock parameter Time for the automatic key lock is set to 120 seconds Off and various timer values are available Choose the desired value, for example, Off and confirm with OK Confirmation that the chosen values is stored Key lock with PIN is Turned Off The update to SIP-DECT 7.1SP1 causes a reset of the DECT phone key lock PIN to default 0000. 210 Configuration and Administration 8 CONFIGURATION AND ADMINISTRATION This section provides detailed information on various configuration and administration aspects of the SIP-DECT solution. 8.1 IP SIGNALING AND MEDIA STREAM To establish a call between an IP Phone and a DECT phone (for example, Mitel 600), the following IP streams must be established:
A signaling channel to and from the SIP phone. A signaling channel to and from the OMM. A control interface between the OMM and the RFP that has a connection to the DECT phone (known as the primary RFP). A Real Time Protocol (RTP) / Real Time Control Protocol (RTCP) connection between the SIP phone and the primary RFP. The following figure illustrates this scenario. To establish a call between two DECT phones, the same IP streams must be established like in the scenario before, except the IP phone is not involved. The following figure illustrates this scenario. 211 SIP-DECT OM System Manual A call from one DECT phone to another that resides on the same RFP will loop back within the RFP if no media gateway is involved. So the call will not pass through to the Local Area Network (LAN). Although the voice packets will not impact LAN traffic, signal packets will. If the DECT phone user is moving, the DECT phone detects that another RFP has a better signal strength and, therefore, it starts the handover process. The media stream from the IP phone cannot move to the secondary RFP, so the primary RFP uses the LAN to direct the voice to the secondary RFP, as shown in the following figure. As the DECT phone user moves into the next RFP zone of coverage, the DECT phone detects that the RFP has a better signal strength. Again the media stream from the SIP phone cannot move to the secondary RFP, so the primary RFP uses the LAN to direct the voice to the new secondary RFP. 212 Configuration and Administration 8.2 DECT BASE STATION SYNCHRONIZATION To guarantee a seamless handover if a caller moves from one DECT base station zone of coverage to another DECT base station zone of coverage, an accurate synchronization of the DECT base stations is necessary. The DECT base stations are synchronized over the air interface. The first DECT base station to complete startup transmits a signal on the air for the other DECT base stations to synchronize from. If a DECT base station gets in sync, it transmits a signal on the air and becomes the sync source for the next DECT base station. Only DECT base stations that can receive a synchronization signal become synchronized. For the DECT base station to sync to another DECT base station, the signal strength cannot drop below
-70 dBm. You must consider this requirement during the site survey. As long as a DECT base station is not in sync, no calls can be established using this DECT base station. If a DECT base station loses the synchronization, the DECT base station does not accept new calls
(busy bit). There is a delay of maximum 3 minutes until the active calls on this DECT base station are finished. Then it tries to get synchronized again. 213 SIP-DECT OM System Manual A SIP-DECT installation is more reliable if a DECT base station can receive the signal from more than only one DECT base station because the other signals are also used for synchronization. The sync-over-air solution is very reliable because all existing redundant paths are used for synchronization. Thus, hardware tolerances have only very little influence. No DECT base station has a key position. Only unfavorable setups without redundant synchronization paths can cause problems. Sometimes DECT base stations do not need to be synchronized (e.g. if they are in different buildings). These DECT base stations can be put into different clusters. DECT base stations in different clusters are not synchronized with each other. Different clusters start up at the same time independently. 8.2.1 INITIAL SYNCHRONIZATION PROCEDURE To avoid synchronization problems and to speed up the synchronization on system startup, an initial synchronization procedure is used. For every cluster the following synchronization stages are defined. Synchronization stage 0 If at least one preferred DECT base station was configured, the synchronization process waits up to 30 seconds for an incoming startup message of such a preferred DECT base station. Receiving a message will finishing stage 0 and the synchronization process jumps to stage 1. If no message is received within 30 seconds, this stage will be terminated and the next stage begins. If no preferred DECT base station was configured, this stage is ignored. Synchronization stage 1 If a preferred DECT base station was determined in stage 0, this one becomes the synchronization source for the subsequent DECT base stations. Otherwise 214 Configuration and Administration the first DECT base station that sends a startup message becomes the synchronization source for the subsequent DECT base stations. In this stage, only DECT base stations reporting an RSSI value better than
-65 dBm are permitted to perform synchronization. If a DECT base station has completede its synchronization, this DECT base station will be also a synchronization source for other upcoming DECT base stations. The initial timeout for this stage is 30 seconds. Whenever a DECT base station has finished its synchronization in this stage a new stage timeout value is calculated. If no DECT base station comes up within the timeout time or if all the upcoming DECT base stations do not fit the RSSI threshold, this stage will be terminated and the next stage begins. Synchronization stage 2 The behavior of this stage is identical to stage 1, but an RSSI threshold value of -70 dBm is significant. Synchronization stage 3 The behavior of this stage is identical to stage 1, but an RSSI threshold value of -75 dBm is significant. Synchronization finished No more RSSI threshold value is significant. All DECT base stations that failed the stage conditions above are now permitted to perform synchronization. The last level synchronization finished will be achieved either all registered DECT base stations of this cluster are synchronized or the timer of stage 3 expires. 8.2.2 CHECKING THE SYNCHRONIZATION OF A NETWORK For every cluster a periodically check of the synchronization of the network is done. If the network is split into at least two subnets, all the RFPs of the lesser subnet(s) will be resynchronized. While doing initial synchronization procedure this check is deactivated. You can check the DECT base station synchronization from the Sync view menu of the OM Management Portal (OMP), see section 6.7.6. 8.3 DECT BASE STATION CHANNEL CAPACITY The DECT base station has 12 available time slots on air; eight can have associated DSP/media resources for media streams. All DECT time slots are used for control signaling, software download over air, messaging and bearer handover independent of associated DSP/media resources. If all eight media stream channels are used, the DECT base station announces a busy bit. In that case, the DECT phones determine whether another DECT base station has an appropriate signal strength. If so, the DECT phone performs a handover to that DECT base station. Once the handover is complete, the DECT base station lowers its busy bit. Whenever the busy state is announced a log entry is made to the system logs. If the announcement of busy raises in a specific area, an additional DECT base station should be installed to double the number of media streams available for calls. 215 SIP-DECT OM System Manual Notes on Hi-Q connections Each Hi-Q connection uses twice the capacity of conventional narrowband on the DECT air interface. Due to this fact, four Hi-Q connections (instead of eight) can be established via one DECT base station. It is not possible to have DECT XQ audio combined with Hi-Q audio within the same connection. 8.4 NETWORK INFRASTRUCTURE PREREQUISITES To establish and maintain an SIP-DECT installation, a network infrastructure is assumed, which comprises at least the following components:
DECT base stations DECT phones IP PBX/media server (for example, Asterisk) TFTP server Depending on the operational modes the following services should be provided:
DHCP TFTP SNTP DNS LDAP Syslog daemon Notes on network infrastructure prerequisites In NA outdoor RFPs may only be installed with the antennas shipped with the units. No other antennas or cabling are permitted. In EMEA the outdoor RFPs are shipped without antennas and you may use the units with one of the optional antennas
(separate order no.). A TFTP server is no longer required for boot of a 3rd or 4th generation RFPs. TFTP, FTP(S), HTTP(S), SFTP are supported for 3rd or 4th generation RFPs software update. 8.5 SIP-DECT STARTUP This section contains detailed information on the startup (booting) process of the SIP-DECT solution. For booting 2nd generation RFPs, there must be at least one TFTP server on the attached network to load the OMM/RFP application software. 3rd or 4th generation RFPs uses the internal flash to start the boot image. A fileserver is only needed for software update over the network. 216 Configuration and Administration The essential network settings can be alternatively:
Communicated by a DHCP server at startup time. Configured on the RFP with the OM Configurator tool (see section 7.6). The settings made by the OM Configurator will be saved permanently in the internal flash memory of each OMM/RFP. 8.5.1 TFTP AND DHCP SERVER REQUIREMENTS TFTP server requirements The DECT base station obtains the boot image file from a TFTP server. The requirement list for the used TFTP server is defined as follows:
The support of RFC 1350 /1/ is mandatory. To accelerate the download of a boot image file for older 2nd generation DECT base stations, it is possible to increase the packet size of the transmitted TFTP packets from 512 bytes per packet to 1468 bytes per packet. To use this optional feature, the TFTP server must support RFC 2347 /3/ and RFC 2348 /4/. To reduce the overall download time of the older 2nd generation DECT base stations in a system, it is possible to use TFTP multicast download. To use this optional feature, the TFTP server must support RFC 2090 /2/ and RFC 2349 /5/. To use the TFTP multicast option, the attached network must support multicast too. Furthermore a support of IGMP, RFC 2236 /6/ is required. Note:
If many DECT base stations loading the boot image simultaneously, the network load could increase significant. To balance the network load or for backup reasons, it is possible to configure more than one TFTP server in a network. DHCP server requirements A DHCP server needs to support RFC 2131 /9/. The TFTP and DHCP server need not to reside on the same host. 8.5.2 BOOTING STEPS Booting is performed in two steps:
1 Starting the boot process. 2 Starting the application. Booter startup On startup each DECT base station tries to determine its own IP address and other settings of the IP interface from the configuration settings in the internal flash memory. If no settings are available or these settings are disabled, the DECT base station tries to determine these settings via DHCP. Depending on the DECT base station type, the DECT base station software is to be loaded:
A 3rd generation DECT base station gets the application image from internal flash memory. 217 SIP-DECT OM System Manual An older 2nd generation DECT base station only has a small standalone application built into the flash. This software realizes the so-called net boot process. The RFP gets the application image file from the TFTP server. Application startup After starting the application image, the RFP software checks the local network settings in its internal flash memory. If no settings are available or if they are disabled, the RFP software starts a DHCP client to determine the IP address of the OMM and other application startup settings. The RFP software acquires the OMM IP address:
within the local network settings if active through DHCP request DECT base station configuration file (see 8.7.7) If the IP address of the actual RFP device matches one of the acquired OMM IP addresses, the DECT base station software continues in OMM mode. Otherwise, the DECT base station runs as normal DECT base station without OMM mode. Note: Only 3rd generation DECT base stations are able to run in OMM mode while older 2nd generation DECT base stations cannot function as OMM. 8.5.3 BOOTER STARTUP The SIP-DECT DECT base station software includes a booter with the following features:
VLAN can be configured via the OM Configurator without a static IP configuration. This means that the first DHCP request will be done by using VLAN. To balance the network load with older 2nd generation RFP devices, up to three TFTP servers can be configured. This can be done using the OM Configurator (local setting) or using the DHCP option 150. Before starting the download, the TFTP server will be selected randomly by the booter. But, if the option Preferred TFTP server was set by the OM Configurator, the option TFTP server address will specify the TFTP server to use. No randomly selection will be done in this case. Older 2nd generation RFPs only: to reduce the number of TFTP packets sent by the TFTP server, the packet size can be increased. This will be done by using a TFTP option (see 8.5.1 TFTP server requirements). Older 2nd generation RFPs only: Multicast TFTP download is possible if the TFTP server and the connected network support this. To indicate the actual state of the booter, the LEDs of the RFP will be used (see 8.5.5). 8.5.3.1 DHCP Client Within the initial boot process the DHCP client supports the following parameters:
IP address Net mask Gateway 218 mandatory mandatory mandatory Configuration and Administration Boot file name RFPs TFTP server RFPs Public option 224: OpenMobility / OpenMobilitySIP-DECT VLAN-ID TFTP server list mandatory for older mandatory for older mandatory optional optional 8.5.3.1.1 DHCP Request The DHCP client sends the vendor class identifier (code 60) OpenMobility3G (3rd generation RFPs) or OpenMobility (older 2nd generation RFPs) and requests the following options in the parameter request list (code 55):
Subnet mask option (code 1) Router option (code 3) VLAN ID option (code 132) TFTP server list (code 150) Public option 224 (code 224) Public option 225 (code 225) Public option 226 (code 226)
(string OpenMobility or OpenMobilitySIP-DECT)
(VLAN ID, not relevant for SIP-DECT)
(not relevant for SIP-DECT) 8.5.3.1.2 DHCP Offer The DHCP client selects the DHCP server according to the following rules:
The public option 224 (code 224) has a value equal to the string OpenMobility, or The public option 224 (code 224) has a value equal to the string OpenMobilitySIP-DECT. If none of the two rules above match, the DHCP offer is ignored. Information retrieved from the DHCP offer:
The IP address to use is taken from the yiaddr field in the DHCP message. The IP net mask is taken from the subnet mask option (code 1). The default gateway is taken from the router option (code 3). The TFTP server IP address is taken from the siaddr field in the DHCP message and additionally DHCP option 150, if available. The boot image filename is taken from the file field in the DHCP message, if this field is empty, the default filename is used. 8.5.3.1.3 Retries If the DHCP client does not get an appropriate DHCP offer, a new DHCP request is send after 1 second. After 3 DHCP requests are sent the DHCP client will sleep for 60 seconds. During this time the booter accepts a local configuration with the OM Configurator. 219 SIP-DECT OM System Manual This cycle repeats every 3 minutes until either all the required DHCP options are provided or the system is manually configured using the OM Configurator tool. 8.5.3.2 TFTP Client The TFTP client will download the application image from the TFTP server. Both TFTP server and the name of the application image are supplied via the DHCP client. The application image is checksum protected. Downloading the application image via TFTP is mandatory for older 2nd generation RFPs only. 3rd generation RFPs will load the application image from the internal flash, and (if configured) also download the application image via TFTP for update. 8.5.3.3 Booter Update With older second generation RFPs, each application software image comes with the latest released booter software. The application software will update the booter automatically. With third generation RFPs, the booter will only be updated if you update the software. If you downgrade the RFPs application software image to an older release, the booter does not downgrade automatically. In addition, if you want to use the OM Configurator tool (see 8.7), the OM Configurator version must match the booter software version. 8.5.4 APPLICATION STARTUP After successfully starting the application software, the DECT base station checks the local network settings in its internal flash. If no settings are available or if they are disabled, it starts a DHCP client to determine the IP address of the OMM and other application startup settings. 8.5.4.1 DHCP Client The DHCP client is capable of receiving broadcast and unicast DHCP replies. Therefore the flags field is 0x0000. The DHCP request contains the well-known magic cookie (0x63825363) and the end option
(0xFF). Parameters The following parameters are supported within this step:
Option / Field Meaning IP address of the IP-RFP Mandatory yes Parameter named Boot Server Host Name with value as the IP address of the TFTP server no (3G/4G RFPs) yes (older 2G RFPs) Parameter named Bootfile Name with value of the path
(optional) and name of the application image. For example iprfp3G.dnld (3rd generation RFPs) and iprfp4G.dnld (4th generation RFPs), or iprfp2G.tftp (older 2nd generation RFPs). no (3G/4G RFPs) yes (older 2G RFPs) yiaddr siaddr file option 1 option 3 option 6 Subnet mask Default Gateway Domain Name Server 220 no no no Option / Field Meaning Mandatory Configuration and Administration option 15 option 42 option 43 option 66 option 132 option 150 option 224 option 226 option 233 option 234 option 236 Domain Name IP address of a NTP server Vendor-specific options (see table below) Provisioning URL for the OMM (ConfigURL). URL of an external server that provides configuration files for the Base Station(s) hosting the OMM. Note: In SIP-DECT 2.1 - 6.1, this option was used for the RFP Config file server. If you want to specify a URL for the RFP Config file server, use option 233 instead. VlanId TftpServerIpList Parameter named magic_str must be set to value
"OpenMobility" or "OpenMobilitySIP-DECT". Enabling 802.1X feature (set to 1). URL that specifies the protocol, server and path to access the DECT base station configuration files (see section 7.9). For SIP-DECT 6.1 or earlier, this option takes priority over option 66 when set. Provisioning URL for the OMM (ConfigURL). URL of an external server that provides configuration files for the Base Station(s) hosting the OMM. This mode value determines which instance (OMM, RFP) shall use the given Provisioning URL (Option 43-2, 66 or 234). Valid values are:
1. The RFP shall use the given Provisioning URL. 2. The OMM and RFP shall use the given Provisioning URL. Else: The OMM shall use the given Provisioning URL. no no yes no no no yes no no no no Vendor specific options The Vendor Specific Options consist of:
Vendor Specific Option Meaning option 10 option 14 option 15 ommip1: Used to select the IP-RFP that hosts the Open Mobility Manager (OMM). syslogip: IP address of a Syslog Daemon syslogport: Port of a Syslog Daemon option 17
(SIP-DECT 5.0 and older) Country: Used to select the country in which the OMM resides. This enables country specific tones (busy tone, dial tone, ). Length Mandatory 4 4 2 2 yes no no no 221 SIP-DECT OM System Manual option 18
(SIP-DECT 5.0 and older) option 19 option 43 sub-option 1
(SIP-DECT 6.2 and later) option 43 sub-option 2 x 4 ntpservname: Name of a NTP Server ommip2: Used to select a secondary IP-RFP that hosts the standby Open Mobility Manager
(OMM). This option must be included if the OMM Standby feature is used (see section 7.15). URL that specifies the protocol, server and path to access the DECT base station configuration files (see section 7.9). Provisioning URL for the OMM (ConfigURL). URL of an external server that provides configuration files for the Base Station(s) hosting the OMM. no no no no option 43 sub-option 226 Enable 802.1x feature (set to 1). 1 no Example An example of the minimal contents for the Option 43 parameter value would be:
0a 04 C0 A8 00 01 where C0 A8 00 01 represents 192.168.0.1 for the OMM IP. The option 43 contains a string of codes in hex the format is option number length value in this example 0a = option 10 (ommip1) 04 = following value is 4 blocks long C0 A8 00 01 = 192.168.0.1 If there is more than one option, add the next option at the end of the previous one. Depending of the DHCP server you must end the option 43 with FF. Country specific tones (SIP-DECT 5.0 and older ONLY) Tones for the following countries are supported:
Country Germany Great Britain Switzerland Spain Italy Russia Belgium Netherlands Czechoslovakia Austria Denmark Slovakia Country code 1 2 3 4 6 7 8 9 10 11 12 13 222 Country code 15 16 17 18 19 20 21 22 24 25 100 101 Country Hungary Poland Belarus Estonia Latvia Lithuania Ukraine Norway Sweden Taiwan North America France Configuration and Administration 14 Finland 102 Australia 8.5.4.2 Configuration using DHCP The DHCP client of the RFP family requests several parameters that are used to configure the RFP. The DHCP client vendor class identifier (option 60) is different for the different RFP generations:
3rd generation RFPs (RFP 35/36/37 IP / RFP 43 WLAN) use OpenMobility3G. 4th generation RFPs (RFP 44/45/47 IP / RFP 48 WLAN) use OpenMobility4G. Older 2nd generation RFPs (RFP 32/34 / RFP 42 WLAN use) OpenMobility. BOOTP/DHCP Option siaddr File 150 224 Meaning Type Remarks IP address of the TFTP server 4 octets Path to the boot image server by the TFTP server N octets TFTP server list N * 4 octets Optional for 3G/4G RFPs for SW update;
Mandatory for older 2G RFPs because of the NETBOOT process;
Optional for 3G and 4G RFPs for SW update;
Mandatory for older 2G RFPs because of the NETBOOT process Only used by the NETBOOT process of older 2G RFPs Magic String OpenMobility or OpenMobilitySIP-DECT The client uses this option to select the server, mandatory
* The magic string OpenMobilitySIP-DECT instead of OpenMobility (as defined in SIP-DECT 2.x) makes sure that a SIP-DECT software is loaded into 3rd or 4th generation RFPs eventhough a different, non-SIP-DECT SW is previously installed and running. 8.5.4.3 Selecting the Right DHCP Server The DHCP client requests its own IP address using code 50. The DHCP client will select the DHCP server that offers the currently used IP address. Additionally the mandatory options must be offered otherwise the DHCP offer is ignored by the DHCP client. If no matching reply was received, the DHCP client resends the request 2 times after 1 second. Then the DHCP client will wait for 1 minute before resending 3 requests again. If the DHCP client cannot accept a DHCP offer within 30 minutes, the RFP is rebooted. 223 SIP-DECT OM System Manual 8.5.5 RFP LEDS 8.5.5.1 3rd Generation RFPs RFP 35 IP RFP 36 IP RFP 37 IP RFP 43 WLAN 8.5.5.1.1 LED States RFP 32/34 IP RFP 32/34 NA RFP 35/36 IP RFP 42 WLAN RFP 43 WLAN LED 1 Info / Booter; LED 2 System;
LED 3 DECT; LED 4 (unused) LED 1 Info / Booter; LED 2 System LED 3 DECT; LED 4 WLAN 8.5.5.1.2 Booter LED Status RFP 35/36 IP, RFP 43 WLAN The RFP 35/36 IP and RFP 43 WLAN booter uses LED1 for signaling its activity. After power up, the LED 1 (INFO) is red. The successful start of the boot image is signaled by the LED 1 turning orange. 224 Configuration and Administration RFP 32/34 IP, RFP 32/34 NA, RFP 42 WLAN The following table illustrates the different meaning of the LEDs while the booter is active. LED1 (INFO) LED2 (OMM /
SYSTEM) LED3
(DECT) LED4
(WLAN) Booter cont. cont. cont. cont. cont. 1s 1s 1,9s 0,1s cont. cont. cont. 0,25s 0,25s 0,25s 0,25s cont. 0,25s 0,25s 0,25s 0,25s cont. 3,9s 0,1s cont. cont. cont. cont. cont. Now, the kernel / application is running: LED1 will never be RED Power connected Wait for OMM Configurator Input DHCP DHCP failed, wait for OMM Configurator Input TFTP download after DHCP TFTP download after local configuration TFTP download after DHCP Multicast TFTP download after local configuration and multicast TFTP failed, wait for OMM Configurator Input 8.5.5.1.3 Application LED Status The following tables illustrate the different meaning of the LEDs while the application is starting or active. RFP 35/36 IP, RFP 43 WLAN LED1 (INFO) LED2 (OMM /
LED3 (DECT) LED4 (WLAN) SYSTEM) Kernel cont. RFPM 1s 1s 1,85s 0,5s 0,5s 0,5s 0,85s 0,15s cont. kernel boot phase
(inflator, ) DHCP phase DHCP failure (idle loop) obtaining external configuration external configuration failure Ready 225 SIP-DECT OM System Manual LED1 (INFO) LED2 (OMM /
LED3 (DECT) LED4 (WLAN) SYSTEM) 1,85s 0,15s RFP general RFP DECT RFP WLAN 1s 1s 1,85s 0,15s cont. 1,85s 0,15s 1,85s 0,15s cont. 1,85s 0,15s cont 1,85s 0,15s 1,85s 0,15s Reboot request cont. cont. cont. 8.5.5.2 4th Generation RFPs Up & running + RFP houses OMM OMM connect phase OMM connection failure (idle loop) Up & running (OMM connected) Up & running + OMM warning Up & running + OMM failure DECT not configured on this RFP DECT inactive (not synced yet) DECT 'on air'
DECT + call active DECT + call active
+busy bit cont. WLAN not configured on this RFP 1,85s 0,15s WLAN inactive yet cont. WLAN 'on air'
1,85s 0,15s cont. cont. WLAN + assoc. clients WLAN failure (e.g. 10 Mbit/s uplink) RFP will reboot RFP 44 RFP 45 RFP 47 and RFP 47 DRC (Indoor and Outdoor Unit) RFP 48 WLAN See the section 1.2.1.1 RFP 4G DECT Base Station family for more information. 226 Configuration and Administration 8.5.5.2.1 LED States The following tables show the LED status of an RFP according to the different states. A red respectively orange colored field in the table means that the LED glows permanently in red or orange. A split field with e.g. the specification 1s/1s means that the LED is flashing with a frequency of one second LED red on and one second LED off. Grey means that the LED is off. The new RFP family is equipped with one colored LED, which shows the individual states of the 4th generation RFP. LED color/rhythm Description continuous continuous 1s 1,9s 1s 0,1s continuous 1s 1s continuous 1s 1s continuous continuous 1s 1s continuous 0,1 sec 0,1 sec 0,1 sec 0,1 sec 0,1 sec 0,1 sec 0,1 sec 0,1 sec 0,1 sec 0,1 sec Booter phase Kernel boot phase Configuration phase DHCP failure (idle loop) System up and Running (with or without OMM ) OMM connection phase OMM connected DECT inactive (not synced yet) DECT on air WLAN on air DECT inactive (not synced yet) + WLAN on air DECT + WLAN on air Button pressed: 0 sec < t < 3 sec = no action Button pressed: 3 sec < t < 8 sec = Activate Cloud-Id Button pressed: 8 sec < t < 10 sec = no action Button pressed: 10 sec < t < 15 sec = Factory Reset Button pressed: 15 sec < t < oo = no action 8.5.5.2.2 Turning Off the RFP 4G LED To turn off the RFP 4G LED, 1. Go to the DECT base stations tab. 2. Select the Advanced settings option and select the Disabled LED check box to disable the LED for the active DECT and WLAN states. 227 SIP-DECT OM System Manual 8.6 STATE GRAPH OF THE START-UP PHASES The following figure illustrates the start-up phase for older 2nd generation RFPs. 3rd and 4th generation RFPs use a similar start-up sequence, but they start with the application phase (see below). 228 Power ON wait until Ethernet link is up base station reboot if new configuration is received by OMM Configurator Timeout or OMM Configurator input received wait 6 seconds for OMM Configurator input wait 60 seconds for OMM Configurator input No OMM Configurator input Check for Local Configuration Inactive active and VLAN configured If only VLAN is configured active but no VLAN configured no offer or offer not ok. after retry. enable configured VLAN ID VLAN ID is in use TFTP Server list Only one server is configured contact this server TFTP Download send read request yes Server offer Multicast TFTP IGMP join group no TFTP Download Start Application Phase DHCP Offer is valid If DHCP offer with VLAN code received multiple Servers are configured No other Server available contact Servers from List Download failed. retry other configured servers Download failed only one Server configured other TFTP Server configured Configuration and Administration 229 SIP-DECT OM System Manual Start Application Phase Check for Local Configuration inactive DHCP active enable configured parameter valid offer received DHCP no answer or offer not okay
(try 3 minutes) failed if no valid config is available on this RFP Check for RFP config file not set Application init config file server is set download and apply RFP config files apply config files
(overwrite local parameter) failed Check for OMM IP this RFP is OMM start OMM application RFP application connect to OMM failed failed connect to OMM apply config from OMM init configured applications syslog SNMP DECT WLAN up & running
*any time major config change of local configuration Failure e.g. connection to OMM lost 230 Configuration and Administration 8.7 LOCAL DECT BASE STATION CONFIGURATION (OM CONFIGURATOR) As an alternative to DHCP configuration, you can use the OM Configurator tool to statically configure the DECT base stations individually. RFP settings configured through the OM Configurator tool are saved permanently in the internal flash memory of the RFP. The OM Configurator version must match the installed SIP-DECT software version to be used for the local configuration of RFPs. Please note: The OM Configurator requires the Java Runtime Environment version 1.7 or higher. Please note: An initial configuration of the 3rd or 4th generation RFPs through the OM Configurator tool requires a login and password. The default login and password is omm and omm. No login is required for the initial configuration of the previous RFP family (2nd generation). If the RFP is configured by the OMM later on, the OMM also sets the configuration password. You must enter the OMMs full access user and password in the OM Configurator tool then. At start-up of the OM Configurator displays a table with configuration data for all RFPs. The task bar on the right side shows permitted actions. The Info console in the lower part of the window shows information and errors as they occur during OM Configurator operation 231 SIP-DECT OM System Manual 8.7.1 SELECTING THE NETWORK INTERFACE You can select the network interface of the computer used by the OM Configurator via the General ->
Options menu. The selected interface is shown on the status line of the program. 8.7.2 ADDING DECT BASE STATIONS FOR CONFIGURATION Before you can configure an RFP, you must add the RFP to the OM Configurator database. You can add an RFP record by:
scanning for RFPs that are already attached to the network entering the MAC address of the RFP loading a configuration file that contains RFP MAC addresses and configuration parameters Please note: Adding an RFP to the OM Configurator database does not modify the RFP configuration. Configuration data must be transmitted explicitly to the RFP(s) through the Send Configuration option. 8.7.3 SCANNING FOR DECT BASE STATIONS The OM Configurator tool can scan for RFPs on the LAN segment. If get configuration after detecting an RFP is enabled, the OM Configurator attempts to fetch the local configuration settings from all RFPs that are detected during the scan. The program uses the user/password combination if an access without login data fails. If show only successfully accessed RFPs is enabled, the OM Configurator adds only RFPs that provide configuration information to its database, and displays those RFPs in the OM Configurator table. The use Proxy parameter allows access to RFPs that are located in network segments other than the segment that hosts the OM Configurator. The IP-address field must contain the address of a RFP located in the network segment to be scanned. This RFP works as proxy and must be up and running. You initiate the scan process by clicking OK button. The OM Configurator adds the results to the table. 232 Configuration and Administration In rare cases, it is possible that a RFP is expected to appear in the table after the scan operation but does not. If this occurs, repeat the scan operation. 8.7.4 ADDING DECT BASE STATIONS MANUALLY You can add an RFP to the OMM Configurator database manually. When you click the Add RFP option in the task bar, the OM Configurator displays the Add RFP dialog. You must specify the MAC address of the RFP in the MAC Address field. Optionally, you can also specify an IP address. If an IP address is assigned, the OM Configurator automatically proposes an incremented IP address the next time the Add RFP function is invoked. 8.7.5 LOADING DECT BASE STATION DATA FROM FILE You can import an RFP configuration file to the OM Configurator. When you click on the Load RFP Config option, the OM Configurator opens a dialog window that prompts you to browse for the configuration file. All found valid RFP entries in the file are added to the OM Configurator database and displayed in the table. 8.7.6 EDITING DECT BASE STATION CONFIGURATION DATA You can edit the configuration of a DECT base station stored in the OM Configurator database. When you double-click on a table row, the OM Configurator displays a Detail Data window below the table, with the General panel activated. You can also access this window by selecting one or more entries in the table and clicking the Edit configuration option in the task bar. 233 SIP-DECT OM System Manual You can change parameters for multiple RFPs by selecting more than one RFP in the table. Parameter settings that differ between the selected RFPs are shown as *** and retain their values if you do not make any modifications. You cannot change the IP address value when you select more than one RFP. If more than one parameter value is allowed (e.g. Router, DNS addresses), you must separate the values by a space. If you click the Reset Configuration button, all configuration parameters are removed and local configuration in the OM Configurator is disabled. The Send Configuration option is also needed in this case in order to update the configuration of the RFP locally. When you click the OK button, changed parameter values are committed to the database. The system performs validation checks for some parameter values. If this check fails, the system displays an error message in the Info console and the misconfigured parameter value is marked with a red frame (allowing you to correct the value). Modified RFP records are marked (
If you press Cancel or select another RFP in the table, any changes are discarded. When you press either OK or Cancel, the Detail Data panel disappears and a number of task bar options (e.g. Send Configuration) are re-enabled.
) beside the corresponding table row. 8.7.6.1 Other parameter panel You can set and edit less frequently used parameters on the Other panel of the Detail Data window. If the parameter you want to add or edit is listed in the table on the Other panel, click on it to display the parameter name and value in the fields on the top-right side of the panel. Click the Change button to commit the changed value. If the parameter value field is empty, the parameter is cleared on the RFP when you click Send Configuration. You can add a new parameter by selecting a parameter name from the drop-down list and clicking the New button. 8.7.6.2 Copy and Paste You can assign parameter values from one RFP to one or more other RFPs. To perform this operation, you must ensure that the Detail Data window is not active. If the Detail Data window is open, commit your changes or cancel to close the window. Select an RFP in the table and click the Copy Configuration option in the task bar. Next, select one or more RFPs as destination RFP(s) and click the Paste Configuration option. The system displays the Paste Data dialog window. 234 Configuration and Administration If the Assign IP Addresses option is enabled, you must provide a valid IP address in the Start Address field. The system may display a suggested address, based on a previous paste or Add RFP operation. The IP address is incremented by one for each RFP. If the Overwrite existing addresses parameter is not enabled, an IP address is only assigned if the IP address field of the target RFP is empty. 8.7.6.3 Configuration Parameters The following table lists the available configuration parameters for the DECT base station. Parameter Mandatory/Optional Description Use local config Mandatory Specifies whether the local configuration settings should be used at boot-up or not IP Address Net Mask Mandatory Mandatory IP address of the DECT base station. Subnet mask of the IP network TFTP server address Mandatory IP address of the TFTP server (set to 0.0.0.0 if not used) TFTP file name TFTP server list Preferred TFTP server Mandatory The boot file to be read from the TFTP server List of additional TFTP servers to load the boot file TFTP server from which to load the boot file first Used only by:
RFP 32/34 RFP 42 WLAN Optional Used only by:
RFP 32/34 RFP 42 WLAN Optional OMM address Mandatory IP address of the OpenMobility Manager Router DNS address DNS domain Broadcast address 2nd OMM address VLAN ID Use VLAN and DHCP Optional Optional Optional Optional Optional Optional Optional IP address of the default gateway IP address of the DNS server Domain name of the network Broadcast address for the network IP address of the standby OMM VLAN identifier Specifies whether only the local VLAN configuration settings should be used when booting or not Syslog server address Optional Destination IP address for the syslog file Syslog server port RFP configuration file server Optional Optional Destination port address for the syslog file URL of a server with RFP configuration files
(ipdect.cfg|<MAC>.cfg) alternatively or in addition to OM Configurator settings. Syntax:
{ftp|ftps|http|https}://[user:password@]server/[directory/]
or tftp://server/[directory/]
235 SIP-DECT OM System Manual 8.7.7 APPLYING CONFIGURATION CHANGES To apply new or changed configuration to RFP devices, select one or more RFP entries from the table and click the Send Configuration option in the task bar. Note: You must close the Detail Data window to apply configuration changes to an RFP. If the Detail Data window is open, the Send Configuration option is disabled. The OM Configurator displays the Protocol settings dialog window. The settings in the Protocol settings dialog are preset to the values used for the Scan operation or the last Send Configuration operation. If the values are correct, click OK to transfer the data to the RFP device. Before sending the data, the system performs a check on mandatory parameters and the validity of some parameter values. If this check fails, an error is reported in the Info console. The system displays a message in the Info console window indicating success or failure of the data transfer operation for each RFP. If data is transferred successfully, the OM Configurator displays a checkmark beside the row for the corresponding RFP. The OM Configurator attempts data transfer three times (two seconds apart) before reporting an error. Depending on the network environment and current RFP status, the data transfer may fail in rare cases. If a failure to transfer data occurs, click the Send Configuration option again to re-initialize the data transfer. If the data transfer fails, the OM Configurator displays an X beside the row for the corresponding RFP. 8.7.8 FACTORY RESET RFPs are protected against unauthorized configuration changes by user authentication (user and password), which are also used to configure the OMM via web service or OMP. To reset a RFPs configuration, select the RFP entry in the table and click the Factory Reset option in the task bar. This option is only enabled when a single RFP entry is selected. The option is disabled if multiple RFPs are selected. The system displays the Factory reset settings dialog window. Set the correct login data (user and password) and RFP proxy address (if required). The system auto-fills the fields with the values used for previous Scan, Send Configuration or Factory Reset operations. If the specified login (omm/omm) does not work and the login credentials of the last system the RFP was used with are unknown, you can reset the RFP to factory settings by sending a cookie string to the OpenMobility manufacturer support and entering the received reset key. The OM Configurator copies the cookie string to the clip board. 8.7.9 SAVING AND LOADING A DECT BASE STATION LIST You can save the configuration of one or more RFPs to a RFP configuration file. Select the RFP entries in the table and click the Save RFP Config option in the task bar. (Note that if the Detail Data window is active, the Save RFP Config option is disabled.) 236 Configuration and Administration RFP configuration data is loaded from the file and added to the OM Configurator database via the Load RFP config option. You must initiate the Send Configuration operation after executing the Load RFP config operation for the configuration to take effect on the select RFPs. Please note: The data sequence has been changed from previous releases of the SIP-
DECT OM Configurator. Import of files based on the old data sequence format may result in import errors or the incorrect assignment of parameter values. 8.7.10 REMOVING DECT BASE STATION ENTRIES You can remove all RFP data records from the OM Configurator different from the current SIP-DECT release database through the Clear List option in the OM Configurator task. You can remove one or more RFP records from the OM Configurator database by selecting one or more entries in the table and clicking on the Remove selected RFP option. Ensure that you do not remove data records before configuration is sent to the RFP device (via the Send Configuration operation). Changes made to RFP configuration data but not sent to RFP device are lost on the remove operation. You can add RFP configuration data again through the operations described above. 8.7.11 COMPATIBILITY WITH OLDER SIP-DECT RELEASES It is not recommended to use the OM Configurator for configuration different from the current SIP-DECT release for configuration of RFPs with software from an earlier SIP-DECT release. Configured parameters of an RFP which are unknown to actual OM Configurator are shown in the Other parameter panel with the name used at the protocol level. In most cases, this name will be different from the display name known from previous versions of OM Configurator. You can edit or remove such parameters and new values will be transferred to the RFP when you execute the Send configuration operation. 8.8 OMM CONFIGURATION AND RESOURCE FILES The OMM supports certain configuration files containing commands in AXI style, to support auto-
configuration of small and simple installations in provider environments. It is assumed that the configuration files are automatically generated in a standardized way, to prevent configuration failures. The following list summarizes all of the configuration and resource files related to the provisioning of a SIP-DECT system:
ipdect.cfg / <MAC>.cfg / <PARK>.cfg These files contain configuration parameters and are used to configure the OMM automatically. There is one common file ipdect.cfg for all RFPs and one file <MAC>.cfg for every single IP-RFP. The RFP specific <MAC>.cfg is requested if indicated in the common ipdect.cfg file. It is possible that all RFPs request ipdect.cfg and only selected RFPs request the <MAC>.cfg (for specific configuration on some RFPs). usr_common.cfg / <user>.cfg 237 SIP-DECT OM System Manual These files are related to the External User Data Provisioning feature, whereby <user> refers to
<Number/SIP user name> or <LoginID>.
<user>.cfg can also refer to user.cfg, a common file name for all users. This concept allows a provisioning server to provide user-specific settings on demand using one file name based on the specific user credentials. ima.cfg This file includes the configuration for Integrated Messaging & Alerting Application, and can be loaded permanently. iprfp3G.dnld This file includes the software image for RFP 35/36/37 IP / RFP 43 WLAN. This file also includes the software images for the Mitel 600 DECT phone family. RFPs can load their software image directly from the RFP OMM. iprfp4G.dnld This file includes the software image for RFP 44/45 IP and RFP 48 WLAN. This file also includes the software images for the Mitel 600 DECT phone family. RFPs can load their software image directly from the RFP OMM. license.xml This file includes the license for a specific SIP-DECT system. customer_image.png This resource file can include a customer logo displayed to display on the OMM Web service. With SIP-DECT 6.0 or later, all of these files can be loaded from the same external file server, if configured (see the below CONFIGURATION FILE URL section). 8.8.1 CONFIGURATION FILE URL SIP-DECT supports provisioning through external configuration files. With SIP-DECT 6.0 or later, you can configure a URL for an external file server, from which all configuration files can be downloaded. The configuration file server URL (ConfigURL) can be configured in the OMM (System -> Provisioning
-> Configuration file URL), via DHCP or the Redirection and Configuration Service (RCS). Note:
If the external file server requires credentials for authentication, the credentials must be configured using the DECT phone or the Web service. The following files are automatically requested if a provisioning server is set:
Configuration files supporting startup parameters and OM AXI code for the OMM configuration ipdect.cfg
<mac>.cfg (note that if a standby OMM is set, two MACs are present)
<PARK>.cfg (PARK in MAC address format: e.g. 001F11234001) User configuration files (for user login on DECT phone) user_common.cfg
<user.cfg>
user.cfg 238 Configuration and Administration Integrated Messaging and Alerting Service (IMA) (for alarm scenarios, email accounts, RSS feeds) - ima.cfg OMM license file - license.xml Logo for OM Web-Portal (Branding) - customer_image.png You can also configure individual URLs for most configuration files. If present, the individual URL is used for the configured feature. At startup, the OMM tries to retrieve the configuration file URL (ConfigURL) from the following sources, in the order listed. The OMM uses the first URL it finds to load the configuration and resource files. The URL can be set through the following methods (in order of priority):
1 OMM database (e.g. System > Provisioning > Configuration file URL in either OMM Web service or OMP) 2 DHCP option 66 (SIP-DECT 6.2 or higher) 3 DHCP vendor specific option 43 sub-option 2 4 DHCP option 234 5 Redirection and Configuration Service (RCS) on initial setup only Once a URL is set, it is stored in the OMM database. The URL can be overwritten at a later time e.g. during provisioning after authentication. Other DECT base stations only apply the ipdect.cfg and <mac>.cfg files without OM AXI. Note:
The ConfigURL only applies to the RFP OMM, which must be running SIP-DECT 6.0 or higher. 8.8.1.1 Syntax The ConfigURL has the following syntax:
<protocol>://<user>:<password>@<server>/<path>?<parameter>&<parameter>
Supported protocols: ftp,ftps,tftp,sftp,http,https Credentials should be secured by transport protocol or digest authentication. The ConfigURL supports additional parameters to modify the certificate validation behavior for the configuration file server:
cm: <https client method > - TLS1.0, TLS1.1, TLS1.2 or AUTO (AUTO= all) vc: <validate certificates> - valid settings are: 0 or 1 The OMM includes a list of trusted CAs (Mozilla CA certificate list ) ve: <validate expires> - validation of certificate expiry: 0 or 1 vh: <validate hostname> - validation of hostnames: 0 or 1 uc: allow un-configured trusted certificates> - allow untrusted certs: 0 or 1 If set to 1, validation is disables as long as no trusted certificate was imported. ic: <import certificate> - import server certificate as trusted: 0 or 1 If ic=1 + uc=1, the trusted certificate will be imported without any validation, as long as no trusted certificate was imported previously. You can view and change the ConfigURL via the OMM Web service (see section 5.4.2) or the OMP (see section 6.5.5.1). 239 SIP-DECT OM System Manual 8.8.2 SPECIFIC CONFIGURATION URLS In addition to the common ConfigURL, you can configure specific URLs for individual configuration and resource files in the OMM database. As soon as a specific URL is set, the OMM uses that URL to load the appropriate configuration/resource file during startup. Note that the user_common.cfg file is loaded from the ConfigURL and the specific URL when both URLs are set. Configuration / Resource File OMM Web Service OMP Location of Specific URL user_common.cfg / <user>.cfg N/A ima.cfg iprfp3G.dnld Iprfp4G.dnld 600.dnld System > Data management > User data import See section 6.5.7.2. System > Advanced settings > IMA See section 6.5.2.4. System > System settings > OM Integrated Messaging & Alerting service See section 5.4.1. System > System settings > Software update URL See section 5.4.1.10. System > Basic settings > Software Update URL See section 6.5.1.4. System > System settings > Software update URL See section 5.4.1.10. System > Basic settings > Software Update URL See section 6.5.1.4. System > System settings > DECT phones firmware update See section 5.4.1.6. System > Advanced settings > PP firmware See section 6.5.2.3. customer_image.png N/A iprfp2G.tftp System > Advanced settings > Special Branding See section 6.5.2.7 8.8.3 RELOAD OF CONFIGURATION AND RESOURCE FILES The OMM automatically tries to load all configuration and resource files (ipdect.cfg, <MAC>.cfg, PARK.cfg, ima.cfg, user_common.cfg, update check for iprfp3G.dnld and iprfp4G.dnld, and so on) from the retrieved ConfigURL or specific URL (if present in the OMM database) at startup. Note:
The <user>.cfg and user.cfg files are only loaded on demand. They are not loaded automatically. In addition, the OMM supports several mechanisms for updating the configuration by triggering a reload of the configuration and resource files:
DHCP lease time If the OMM is running on a RFP and DHCP is used, all configuration and resource files are reloaded when half of the DHCP lease time has elapsed. Daily automatic reload of configuration and firmware files You can enable this option and specify a specific time of day to reload configuration files via the OMM Web service or the OMP (System -> Provisioning -> Daily automatic reload of configuration and firmware files). 240 Configuration and Administration Manual reload via Update button You can trigger a manual reload of all configuration and resource files by clicking the Update button in the OMM Web service (System ->System settings page ) or OMP (System -> System settings
-> General tab). 600 DECT phone Administration menu When a user with a 600 DECT Phone selects the Sync system data option in the Administration menu, the OMM reloads all configuration and resource files. When a user with a 600 DECT Phone selects the Sync user data option in the Administration menu, the OMM reloads the <user>.cfg file for that user. SIP Notify message When the OMM receives a SIP Notify message with the check-sync event for a user, the OMM reloads the configuration file <user>.cfg for that user. When the OMM receives a SIP Notify message with the prov-sync or resync event for any user, the OMM reloads all configuration and resource files. The SIP Notify with prov-sync or resync can be also addressed to the OMM (without the user portion in the request URI). 8.8.4 AXI COMMANDS IN CONFIGURATION FILES With SIP-DECT 6.0 or later, the OMM supports configuration files containing commands in AXI style, for OMM configuration. The OMM attempts to load the following files from the Configuration File URL, and processes them in this order:
1 ipdect.cfg 2 <MAC>.cfg (RFP OMM only) 3 <PARK>.cfg (PARK in MAC address format: e.g. PARK: 1F11234001; MAC address format 001F11234001) Note that the actual file name of the <MAC>.cfg depends on MAC address of the RFP where the OMM is running. The active OMM and the standby OMM request different files, even if they belong to one system. To ensure that both OMMs can retrieve the same file independent of which one is active, each OMM requests the <PARK>.cfg. The PARK identifies a SIP-DECT system in a unique way. None of the files are mandatory and they can be empty. The AXI commands can be all in one file or split up as needed. Example configuration file The following example shows how to include AXI commands in a configuration file.
### SIP-DECT OMM Config example pls. be aware that some commands cannot be applied to SIP-DECT with Cloud-ID e.g. request PARK from server, set regulatory domain etc. and some commands depend on the actual use case/setup
### Confirm EULA
<SetEULAConfirm confirm="1" />
### Set full access account 241 SIP-DECT OM System Manual
<SetAccount plainText="1" > <account id="1" password="Sip!12" active="1" aging="none" />
</SetAccount>
### Set root account
<SetAccount plainText="1" > <account id="2" password="Sip!12" active="1" aging="none" />
</SetAccount>
### Set system name
<SetSystemName name="6.1 NB" />
### Tone scheme
<SetSysToneScheme toneScheme="DE" />
### OMP web start #####
<SetOMPURL> <url enable="1" protocol="FTP" host="ber-rd5014" path="/pub/SIP-DECT/Linux"
/></SetOMPURL>
### Enable SSH ###
<SetRemoteAccess enable="1" />
### Request a valid PARK from a Server ####
<PARKFromServer />
### Set DECT Regulatory Domain ###
<SetDECTRegDomain regDomain="EMEA" />
### Set WLAN Domain/contry ###
<SetWLANRegDomain regDomain="DE" />
### Enable Auto-create on subscription ####
<SetDevAutoCreate enable="1" />
### Set DECT AC ####
<SetDECTAuthCode ac="35239" />
### Set specific user data URL ####
<SetUserDataServer plainText="1" useCommonFileNameOnServer="1" ><url enable="1"
protocol="HTTPS" host="wwww.domain.de" path="/lpueschel/test/" username="lpueschel"
password="lpueschel" validateCerts="0" /></SetUserDataServer>
### Set SIP Proxy and Registrar ###
<SetBasicSIP transportProt="UDP" proxyServer="172.30.206.9" proxyPort="5060"
regServer="172.30.206.9" regPort="5060" regPeriod="3600" />
### use addId="" for Login at DECT DECT phone ####
<SetDECT phoneLoginVariant login="ID" />
#### Set Portrange 17000 - 32767 ####
<SetPortRangeSIP ><userUdpTcp startPort="17000" endPort="17511" /><userTls startPort="18000" endPort="18511" /></SetPortRangeSIP>
#### Set SOS/ManDown emergency number ####
<SetAlarmTrigger><trigger id="0" triggerId="SOS" fac="SOS" comment="" num="110"
/></SetAlarmTrigger>
<SetAlarmTrigger><trigger id="1" triggerId="MANDOWN" fac="MANDOWN" comment="" num="112"
/></SetAlarmTrigger>
### Set common voice mail number ###
<SetSysVoiceboxNum voiceboxNum="6333" />
WARNING:
Configuration files must be automatically generated in a standardized way to avoid configuration failures. Configuration failures could cause a SIP-DECT system outage. 242 Configuration and Administration Note that this configuration file approach has limitations. For example:
Insufficient for managing data objects that are dynamically created and addressed by an index (e.g. RFPs) No administrator feedback for commands that cannot be processed (e.g., unknown commands, invalid parameter, conflicts which other configuration settings) 8.8.4.1 User Data in Configuration Files Configuration files are generally insufficient for managing data objects that are dynamically created and addressed by an index. Therefore, it is necessary to configure user data also. This allows providers to manage the user data (to a limited extent) without using the <user>.cfg files. The <user>.cfg concept supports the complete range of user-related SIP-DECT functions, including a user-specific DECT phone configuration. The user data in configuration files as described here supports only a limited set of parameters. To allow user data in configuration files, the following rules must be applied:
1 Initialize all possible data sets with default values Number/SIP user name is automatically set to uid<X> (e.g,. uid1):
<CreatePPUser plainText=1 replaceData=1><user uid="1" name="" num="" addId=""
sipAuthId="" sipPw="" pin="" fixedSipPort="0" /> </CreatePPUser>
<CreatePPUser plainText=1 replaceData=1><user uid="512" name="" num="" addId=""
sipAuthId="" sipPw="" pin="" fixedSipPort="0" /> </CreatePPUser>
2 To add a user, set appropriate data:
<CreatePPUser plainText=1 replaceData=1><user uid="1" name="Account004 Mitel"
num="040226332195" addId="195" sipAuthId="040226332195" sipPw="broadnet.01" pin="195"
fixedSipPort="0" /> </CreatePPUser>
3 To remove a user, set to default data:
<CreatePPUser plainText=1 replaceData=1><user uid="1" name="" num="" addId=""
sipAuthId="" sipPw="" pin="" fixedSipPort="0" /></CreatePPUser>
This supports the use of templates such as the following:
<CreatePPUser plainText=1 replaceData=1><user uid="1" name="%BWNAME-1%" num="%BWLINEPORT-
1%" addId="%BWEXTENSION-1%" sipAuthId="%BWAUTHUSER-1%" sipPw="%BWAUTHPASSWORD-1%"
pin="%BWEXTENSION-1%" fixedSipPort="0" /></CreatePPUser>
8.8.5 USER CONFIGURATION FILES The user configuration files (user_common.cfg and <user>.cfg) enable the External User Data Provisioning feature, which allows customers to import user data from a provisioning server. See the SIP-DECT OM DECT Handset Sharing & Provisioning Installation & Administration User Guide for a full description of that feature. In addition <user>.cfg can also refer to user.cfg, a common file name for all users. SIP-DECT 6.0 introduced the UDS_CommonUserFileName configuration attribute. When enabled, the OMM tries to fetch the same user.cfg file from the provisioning server for each user executing the login procedure, such that the login credentials of each user are used to access the provisioning server. This 243 SIP-DECT OM System Manual means that the provisioning server executes user authentication and provides a user-specific user.cfg when the user is authorized. The UDS_CommonUserFileName attribute is enabled/disabled via the user_common.cfg file. Please note: The common user file name feature is only applicable in combination with the file transfer protocols FTP, FTPS, HTTP, HTTPS or SFTP, which may require user/password credentials. Changing this attribute might cause login/logout problems for the users, because of changed authentication. It is up to the administrator to force user logouts (delete users) optionally. In any case, the administrator must publish new authentication data to users for their logins and logouts. This value is stored in the OMM database. So, the setting is stored over system restart and has no default value when not explicitly set in the user_common.cfg file. Note that the OM_UniqueId=NUMBER/UID variable in the user_common.cfg file is no longer supported. The following table summarizes the combinations of provisioning server access and type of user validation supported:
Provisioning Server access Requested files User validation Supported DECT phones User data import URL User data import credentials No certificate validation
<number | SIP user name>.cfg
<loginID>.cfg OMM authenticates user against PIN from .cfg files GAP Mitel 142d Mitel 600 User data import URL User data import credentials System Provisioning Certificate validation
<number | SIP user name>.cfg
<loginID>.cfg OMM authenticates user against PIN from .cfg files GAP Mitel 142d Mitel 600 244 Configuration and Administration
<number | SIP user name>.cfg
<loginID>.cfg OMM authenticates user against PIN from .cfg files GAP Mitel 142d Mitel 600 user.cfg user.cfg user.cfg Mitel 600 Mitel 600 Mitel 600 Provisioning server authenticates user at file request with user credentials Provisioning server authenticates user at file request with user credentials Provisioning server authenticates user at file request with user credentials System Provisioning URL System Provisioning credentials System Provisioning Certificate validation User data import URL User credentials
(UDS_CommonUserFI leName=YES) No certificate validation User data import URL User credentials
(UDS_CommonUserFI leName=YES) System Provisioning Certificate validation System provisioning URL User credentials
(UDS_CommonUserFIl eName=YES) System Provisioning Certificate validation 8.8.6 DIGEST AUTHENTICATION AND CERTIFICATE VALIDATION The OMM supports system credentials for provisioning to retrieve configuration and resource files from a server that requires user/password authentication. System credentials are used to retrieve files from the external provisioning server defined by the configuration file URL, for protocols supporting authentication or servers requesting authentication. For HTTP/HTTPS, basic and digest authentication are supported. You can set the system credentials via:
OMM Web service System -> Provisioning -> System credentials page (see section 5.4.2.2) OMP System -> Provisioning -> System credentials tab (see section 6.5.5.4) Mitel 600 DECT phone user interface (through Feature Access Code or the Administration menu) System credentials are also inherited if sources other than the configuration file URL are configured for specific configuration or resource files, without credentials. The system credentials are used only if requested by the file server. 245 SIP-DECT OM System Manual 8.8.6.1 System credentials via Mitel 600 DECT Phone user interface A Mitel 600 DECT phone user can set, change or delete system credentials from the Mitel 600 DECT phone via:
a configured feature access code (FAC) the Administration menu on the user interface Note:
The user must log in to OMM before being allowed to change valid credentials. If credentials are not set or are invalid
(indicated by a health state), the OMM login is omitted. Setting the credentials via feature access codes requires configuration of a FAC number through the System Features -> Feature Access Codes menu of the OMM web service (see section 5.9.4) or the OMP (see section 6.12.2). When the user dials the configured feature access code, the user can select between the Create/Change and Delete options. The Administration menu additionally offers a health indication
(ok or not ok). Depending on the health state, the user may be forced to login to the OMM first. 8.8.7 DECT BASE STATION SOFTWARE IMAGE FROM RFP OMM To simplify the upgrade process for existing SIP-DECT installations in provider environments, SIP-DECT 6.0 and later provides support for a feature that allows RFPs to load their software image directly from the connected OMM. If the RFP has no valid URL from which to load the software, they attempt to load the software from the connected OMM. If the OMM is running on a RFP, the RFP OMM delivers the software to the connected RFPs. A new software image for the RFP OMM can be provided as a iprfp3G.dnld/iprfp4G.dnld file on an external file server. The software update URL can be configured via the OMM Web service (see section 5.4.1.12) or OMP (see section 6.5.1.4). In SIP-DECT 8.0, OMM RFP4G provides SW images for RFP3G and RFP4G base stations. Because, the RFP3G is not able to hold the RFP4G SW image, an OMM RFP3G cannot provide the iprfp4G.dnld to an RFP4G. 8.8.8 REDIRECTION AND CONFIGURATION SERVICE (RCS) The Redirection and Configuration Service (RCS) simplifies SIP DECT installation and management. When the MAC address or the PARK of a SIP-DECT OMM is entered in the RCS server, a SIP-DECT OMM is routed to its assigned server for configuration upon initial start-up. If the OMM does not find a ConfigURL during initial setup, the OMM contacts the RCS to request a ConfigURL, using its RFP MAC address. If the RFP MAC Address is configured in the RCS, the RCS provides a ConfigURL that points to an external provisioning server. The OMM attempts to load all configuration and resource files from the ConfigURL received from RCS. 246 Configuration and Administration SIP-DECT RCS 2. OMM inquiry upon start-up 3. Re-direction to Configuration Server 4. SIP-DECT OMM Configuration 1. Registration of RFPs MAC address or SIP-DECT Systems PARK Service Provider Note:
The SIP-DECT OMM only uses the ConfigURL from RCS. Other information provided from RCS is not supported. The OMM requests information from RCS only if no information has been retrieved from RCS prior to the request. The response is stored permanently in the OMM. To force a new RCS request, the OMM must be reset to default settings, through the Discard OMM DB and configuration files or Reset OMM RFP(s) to factory defaults on restart (see section 5.4.1.17). 8.8.9 CUSTOMER LOGO ON OMM WEB SERVICE SIP-DECT 6.0 and later supports the integration of a customer-specific logo on the OMM Web service interface. If a customer_image.png file is available on an external file server, customers can integrate their own logo into the OMM. This logo is displayed beside the Mitel logo on the top bar. This image can be imported by:
Configuration of a branding image URL to a file server using OMP (see section 6.5.2.7) Automatic search for a file named customer_image.png on the provisioning server The branding image is stored permanently in the OMM database, ensuring that the image is available even if a configured file server or provisioning server is not reachable. The file is deleted automatically from the server on a file not found response or by disabling the branding image URL configuration. The picture should not be larger than 50 pixels high and 216 pixels wide. 8.9 DECT BASE STATION CONFIGURATION FILES 8.9.1.1 Third Generation DECT base Stations Configuration Files IP-RFPs support two DECT base stations configuration files (downloaded from a server) to get configuration settings. There is one common file ipdect.cfg for all DECT base stations and one file specific file <MAC>.cfg for every IP-RFP. The DECT base station requests the ipdect.cfg file if a URL is provided. The RFP specific <MAC>.cfg is requested if this is indicated in the common ipdect.cfg file. 247 SIP-DECT OM System Manual It is possible that all RFPs request ipdect.cfg and only selected RFPs request the <MAC>.cfg to obtain a specific configuration on some RFPs. 8.9.1.2 Fourth Generation DECT Base Stations Configuration Files The 4G RFP supports configuration files known as RFP or base station configurations files. Such files can contain the URL for the RFP SW update. As of SIP-DECT 8.0, the new parameter OM_SwImageUrl4G is introduced to configure the SW update URL for 4G RFPs. The SW update URL for 3G RFPs can be configured with the existing parameter OM_SwImageUrl or the new parameter OM_SwImageUrl3G. For example:
# path to the software image OM_SwImageUrl=ftp://login:password@server/iprfp3G.dnld OM_SwImageUrl3G= ftp://login:password@server/iprfp3G.dnld OM_SwImageUrl4G= ftp://login:password@server/iprfp4G.dnld. 8.9.2 STANDARD IP SETTINGS Standard IP settings (which are necessary for access to the RFP configuration files) are configured via DHCP (see section 8.5) or OM Configurator (see section 8.7). These are:
IP address Net mask Gateway (i.e. router) Boot file name TFTP server Public option 224: OpenMobility or OpenMobilitySIP-DECT (to identify the relevant DHCP offer) Domain Name Server (optional) Domain Name
(optional) URL to the RFP configuration files All other parameters can be set by using an RFP configuration file even if standard DHCP options or OM Configurator parameters exist. 8.9.3 CONFIGURATION FILE SOURCE A TFTP / FTP(S) / HTTP(S) URL specifies the protocol, server and path to access the RFP configuration files. The URL can include account data if appropriate. Syntax:
{ftp|ftps|http|https}://[user:password@]server/[directory/]
or tftp://server/[directory/]
The URL configuration is provided via DHCP option code 233 (prio1), or the OM Configurator. 248 Configuration and Administration ipdect.cfg is mandatory if an URL is provided by DHCP or local static configuration via the OM Configurator.
<MAC>.cfg is mandatory if it is indicated in the ipdect.cfg that a <MAC>.cfg exists for the DECT base station. (There is a key word to indicate that a
<MAC>.cfg exists for every DECT base station.) Mandatory means that if a file cannot be loaded, the DECT base station does not start. This is relevant for the following scenarios:
RFP boot / startup (after power on, software update, etc) A change of the URL 8.9.4 PARAMETER SETTINGS PRIORITY Some parameters can be set via DHCP / OM Configurator or by using the files ipdect.cfg or
<MAC>.cfg. If a parameter is provided through more than one of the possible ways, the last setting has priority. There is the following order:
DHCP / OM Configurator ipdect.cfg
<MAC>.cfg It is also possible to remove settings. 8.9.5 SOFTWARE UPDATE SETTINGS FOR 3RD GENERATION DECT BASE STATIONS A configuration parameter specifies the location of the software that will be installed into the flash of an RFP 35/36/37 IP / RFP 43 WLAN and activated by the OpenMobility Manager. OM_SwImageUrl=ftp://172.30.207.21/openmobility/iprfp3G.dnld TFTP, FTP(S), HTTP(S) are supported for an RFP 35/36/37 IP / RFP 43 WLAN software update. 8.9.6 SOFTWARE UPDATE SETTINGS FOR 4TH GENERATION DECT BASE STATIONS A configuration parameter specifies the location of the software that gets installed into the flash of an RFP 44/45/47 IP / RFP 48 WLAN and activated by the OpenMobility Manager. OM_SwImageUrl=ftp://172.30.207.21/openmobility/iprfp4G.dnld TFTP, FTP(S), HTTP(S) are supported for an RFP 44/45/47 IP / RFP 48 WLAN software update. 8.9.7 TIMES WHEN RFP CONFIGURATION TIMES ARE READ The configuration files are read by the RFP application e.g. during startup as shown in the following figure. 249 SIP-DECT OM System Manual Configuration files are read by the RFP application at the following times:
RFP reboot Restart of an application e.g. OMM DHCP renew and DHCP bound Configuration changes via OM Configurator RFP configuration file update check 8.9.8 RFP CONFIGURATION FILE UPDATE CHECK RFP configuration file update check has the following characteristics:
The interval is configurable in the RFP configuration files (minimum interval: 5 minutes; maximum interval: 7 days). Default interval: 24 hours. Both RFP configuration files are checked if relevant. 250 Configuration and Administration If the configuration file(s) cannot be retrieved The RFP continues operation with the last successfully retrieved configuration file(s). The RFP will try to retrieve the configuration files again, starting with an interval of one minute and doubling this interval with each retry, not exceeding the update check interval (either default or configured). If the RFP is using DHCP, a renewal of the lease is scheduled so that possible changes in DHCP configuration will be detected. Failure to retrieve the configuration files is reported via Syslog. 8.9.9 HANDLING OF PARAMETER CHANGES A change of a parameter (DHCP / OM Configurator, RFP configuration files) does not necessarily mean a change to the RFPs configuration because the parameter could be covered up or previously set using an alternative way. Example 1:
IP address of a Syslog Daemon has been changed in ipdect.cfg but is covered up by <MAC>.cfg in which this parameter has not been changed. Example 2:
A parameter is new in <MAC>.cfg but has been set previously in ipdect.cfg with the same parameter value. Only if a parameter change causes a change in RFP configuration (as a sum of e.g. DHCP / OM Configurator, ipdect.cfg and <MAC>.cfg files) will the RFP perform a configuration update procedure. Depending on the changed parameter, an RFP configuration update is done:
On the fly without any service interruption e.g. IP address of a Syslog Daemon has been changed. With an application restart e.g. OMM IP address has been changed. 8.9.10 CONFIGURATION FILE SYNTAX
################################################################################
# sample configuration file for the OpenMobility system
# retrieved via the net using file transfer protocols
# like tftp, ftp, http, https, ftps
#
################################################################################
# comments start with the hash sign: "#"
#
################################################################################
# BOOL variables support the following values
# YES Y 1 TRUE (case does not matter)
# NO N 0 FALSE (case does not matter)
# other values are interpreted as false 251 SIP-DECT OM System Manual
#
################################################################################
# personal configuration files
#
# personal configuration files have the following name
# <OWN-MAC>.cfg, where <OWN-MAC>.cfg is of the form
# e.g. 003042ABCDEF.cfg
# all RFPs will also load the <OWN-MAC>.cfg file OM_PersonalConfigAll=1 # BOOL
# DO load the individual file for the RFP with mac 003042FFF0D0
# no matter what OM_PersonalConfigAll says OM_PersonalConfig_003042FFF0D0=y
# DO NOT load the individual file for the RFP with mac 003042ABCDEF
# no matter what OM_PersonalConfigAll says OM_PersonalConfig_003042ABCDEF=n # BOOL
# time interval for checking the remote cfg files in seconds
# minimum value is 300 (5 minutes)
# maximum value is 604800 (7 days) OM_ConfigCheckInterval=500
################################################################################
# OpenMobility system
#
# the OpenMobilityManager ip addresses OM_ManagerIpAddress1=172.30.205.17 OM_ManagerIpAddress2=172.30.205.18
# path to the software image OM_SwImageUrl=ftp://172.30.207.21/openmobility/sw/iprfp3G.dnld
################################################################################
# SYSLOG
#
OM_SyslogIpAddress=172.30.207.20 OM_SyslogPort=10115
################################################################################
# transfer core files to the following directory
#
252 Configuration and Administration OM_CoreFileSrvUrl=ftp://10.103.35.20/corefiles 8.10 CONSOLIDATED CERTIFICATE MANAGEMENT SIP-DECT has various secured interfaces to support secure connections for file imports from local servers or provisioning servers. By default, the OMM Web server uses the hardcoded self-signed OMM certificate as local certificate for encrypted AXI connections, for provisioning (mutual authentication), and for SIP-over-TLS connections. Certificate and authentication validation settings for these secure connections can be inherited from the configuration file URL (see section 8.8.1). 8.10.1 SIP OVER TLS CERTIFICATES SIP over TLS certificates are used for secure SIP connections. The hard coded self-signed OMM certificate is used by default, however you can import trusted certificates, a local certificate chain and a private key file (optionally password-protected) via:
OMP (System -> SIP -> Security tab) OMM Web service (System -> SIP -> Security) A certificate server (usually running on a Mitel call server) 8.10.2 OMM CERTIFICATE (WEB SERVICE / AXI) The OMM Web server uses the hard coded self-signed OMM certificate by default as the local certificate for encrypted AXI connections. You can overwrite the hard coded OMM certificate by importing a local certificate chain and a private key file (optionally password-protected) via the OMP (System -> Advanced settings -> OMM Certificate tab). You can also configure an OMM certificate server (System -> Advanced settings -> OMM Certificate server tab) to enable provisioning of OMM certificate files. The OMM certificate will be used for incoming AXI and HTTPS connections to the OMM services. If the OMM can be reached from the internet by a domain and an appropriate CA certificate has been imported, no security warnings are displayed in web browsers trusting the CA root certificate. 8.10.3 PROVISIONING CERTIFICATES Provisioning certificates are used for secure connections to configuration or firmware file servers with support for mutual authentication (i.e., for FTP, FTPS, and HTTPs protocols). The OMM uses a trusted certificate chain to validate the server. This is required if the server has no certificate derived from a trusted CA root certificate, where the OMM uses the Mozilla CA Certificate List. If no server certificate is available, you can disable the validation against trusted and CA certificates. By default, the hard-coded self-signed OMM certificate is used for mutual authentication. You can overwrite the hard coded OMM certificate by importing trusted certificates, a local certificate chain and a private key file (optionally password-protected) via:
OMM Web service System -> Provisioning -> Certificates page (see section 5.4.2.8) 253 SIP-DECT OM System Manual OMP System -> Provisioning -> Provisioning Certificates tab (see section 6.5.5.2) A provisioning certificate server through OMP System -> Provisioning -> Certificates server tab (see section 6.5.5.3) The OMM provides the local certificate chain and the private key to servers requesting mutual authentication. The private key file may be password protected. The system credentials can be inherited if specific sources for configuration and resource files are configured, where the Use common certificate configuration option is enabled. 8.10.4 CERTIFICATE VALIDATION If the HTTPS or FTPS protocol is used to retrieve files from the configured provisioning server, the OMM validates the server certificates according to the certificate validation settings. You can configure the certificate validation settings via OMP (System -> Provisioning -> Provisioning SSL settings) or the OMM Web service (System -> Provisioning -> Certificates). Certificate validation settings can also be part of the ConfigURL provided by the RCS or via DHCP. If you want to use the same validation settings for a specific URL (i.e., other than the configuration file URL), enable the Use common certificate configuration parameter when configuring the URL (unless the Import certificates with first connection parameter is enabled). 8.11 3RD AND 4TH GENERATION RFP SOFTWARE UPDATE The DECT base station checks several locations for a software update. If found, the software is copied to the flash memory, leaving the current software intact. After successful installation, the OMM is notified about the new software. Activation of the software is then managed by the active OMM. DECT base stations that do not have a connection to the OMM activate and start the software immediately. Locations for software updates:
Attached USB mass storage device with a software image iprfp3G.dnld in its root directory (Only 3rd generation RFPs). The USB mass storage device must be formatted using the vfat32 file system. If ipdect.cfg supplies the OM_SwImageUrl variable, the URI is used to get the boot image. See section 8.9. TFTP server, path and file configured using the OM Configurator or via DHCP. OMM (SIP-DECT 6.0 or later): If the RFP has no valid URL from which to load the software, they attempt to load the software from the connected OMM. If the OMM is running on a DECT base station, the RFP OMM delivers the software to the connected base stations. See section 8.8.7 for more information. 8.12 802.1Q SUPPORT The IP RFPs support VLANs according to IEEE 802.1Q. VLAN can be administered on a per port basis of the LAN switch assuming that the IP RFPs are connected to a single port of a switched Ethernet environment, or by assigning a VLAN ID to the IP RFP matching the VLAN they should operate in. 254 Configuration and Administration VLAN tagging has only to be set to IP RFPs in the last case. The whole section refers to that case. With this, also 802.1p priority within Ethernet frames is enabled. The scope of the following description is restricted to VLAN tagging and obtaining the VLAN ID. Quality of Service mechanisms like 802.1p priority and DiffServ are not described in this section. VLAN implementation notes referring to IP RFPs:
IP RFPs are not able to support VLAN ID 0 as described later in this section. Any other valid VLAN ID can be configured. If a VLAN ID is configured, all traffic from an IP RFP will be tagged with this VLAN ID. The VLAN ID configured for an IP RFP is also used for the OMM running on this IP RFP. Once a VLAN ID is set to the IP RFP, incoming frames are only accepted if they are tagged as well. Therefore the switch port must be configured as a tagged trunk for this VLAN. The VLAN configurations can be done using DHCP or the interface for the local static configuration, the OM Configurator. The use of VLAN does influence the boot up process of the IP RFP because the VLAN configuration takes place during the boot up phase. The default setting is not to tag the traffic. 802.1Q tagging is enabled if the VLAN ID is set. If no VLAN ID is set 802.1Q is disabled. VLAN ID 0 VLAN ID 0 means that the IP RFPs traffic belongs to the port/native VLAN. The Ethernet switch port to which the IP RFP is connected must be configured to accept 802.1Q tagging for this to work and the switch must interpret VLAN ID 0 as the port/native VLAN ID per the IEEE 802.1Q standard. The packets from the IP RFP are tagged with VLAN ID 0 and the packets sent to the IP RFP are tagged with the port/native VLAN ID. This scenario does not work, because the IP RFP supports only one VLAN ID in both directions. That means the VLAN ID in the receive direction must be the same as the send direction. 8.12.1 BOOT PHASE OF IP RFPS (DHCP) Because the IP RFP does not know about VLAN at the beginning of the start up, two DHCP scopes are required. This applies regardless of the Ethernet switch being used. The following scenario with arbitrary VLAN Ids details the steps an IP RFP would go through in a typical dual-VLAN implementation. Step A. DHCP scope within the native VLAN:
1 IP RFP boots up and obtains an address on the native VLAN. 2 The data VLAN DHCP option 132 directs the IP RFP to go to voice VLAN. Step B. DHCP scope within the voice VLAN:
1 IP RFP releases the data VLAN address and obtains an address on the voice VLAN and all other parameters. The voice VLAN does not have the DHCP option 132, because an IP RFP already on the voice VLAN does not need to be directed to go there. 255 SIP-DECT OM System Manual 2 IP RFP is operational on the voice VLAN. If a reboot or power cycle occurs, the IP RFP returns to step A. If an IP RFP cannot obtain an address on the voice VLAN, due to network or DHCP problems then the IP RFP falls back automatically to untagged frames (native VLAN). To avoid the DHCP scope within the native VLAN the VLAN ID to be used can be set permanently via OMC without losing the ability to provide other parameter via DHCP, see section 8.7. 8.12.2 BOOT PHASE OF IP RFPS (LOCAL CONFIGURATION) The PC running the OM Configurator must be a member of the native VLAN for the first configuration, later on within the voice VLAN set. If a wrong or unknown VLAN ID is set, you can overwrite or read the configuration using no VLAN tag on the switch port in the first six seconds after the RFP is connected to a power supply / PoE. After six seconds the RFP applies the local configuration and starts using the parameters. 8.13 INSTALLING OMM IN HOST MODE In this case, the OMM software must be installed on a PC running Red Hat Enterprise Linux 7 or CentOS 7. The network parameters with which the OMM works in this mode depend on this PCs network configuration. Once started, OMM works permanently on the PC. In case of fatal error or PC restart, OMM will restart automatically. Please note: Check that the versions of the OMM and RFP software on your SIP-DECT installation are the same. 8.13.1 SYSTEM REQUIREMENTS The OMM application is a 32-bit/x86 application that can be installed on a 32-bit or 64-bit
(recommended) operating system. The PC-based OMM requires the following configuration:
Red Hat Enterprise Linux 7 or CentOS 7 operating system Server hardware minimum:
Processor : Dual Core Intel Xeon 3065, 2.33GHz, 4MB cache Bus 1333 MHz Memory : 4GB DDR2 SDRAM 667 MHz Hard disk: 80 GB SATA 7200 rpm 1 GBit/s Ethernet interface 8.13.2 INSTALLING THE OMM SOFTWARE The OMM software for the Linux Redhat server is provided as a self-extracting executable file (e.g., SIP-
DECT_6.1.bin). This binary file contains two Red Hat packages:
256 Configuration and Administration SIP-DECT-OMM-<SIP-DECT-version>.i586.rpm OpenMobility Manager software. SIP-DECT-HANDSET-<DECT phone-version>.i586.rpm Software for Mitel 600 DECT phones The Mitel 600 DECT phone software can be updated via the Air interface, see section 8.22. A separate software package can also be provided for specific updates of the DECT phone software. IMPORTANT : Log in as root to install and/or update OMM. If you do not login as root to open the OMM console, the path to ommconsole is not set. You must enter the whole path /usr/sbin/ommconsole to start the OMM console. Command syntax For extraction and automatic standard installation sh SIP-DECT_<version>.bin For extraction and automatic standard installation sh SIP-DECT_<version>.bin -f For extraction of RFP packages only sh SIP-DECT_<version>.bin x RPM packages can also be installed manually. For a first OMM type installation rpm i SIP-DECT-OMM-<version>.i586.rpm For an OMM software update (see section 7.14) rpm U SIP-DECT-OMM-<version>.i586.rpm For Mitel 600 DECT phone software installation rpm i SIP-DECT-HANDSET-<version>.i586.rpm To delete a software release rpm e SIP-DECT-HANDSET and rpm e SIP-DECT-OMM To check an installed release rpm qi SIP-DECT-OMM or rpm qi SIP-DECT- HANDSET After the installation phase, start OMM by running the command
/etc/init.d/sip-dect-omm start 8.13.3 CONFIGURING THE START PARAMETERS The basic data for initializing OMM is stored in the file /etc/sysconfig/SIP-DECT. It can be edited to modify the OMM interface.
##############################################
# OMM configuration file
##############################################
# if you use a different interface for omm activate/correct parameter below
#OMM_IF="eth0"
257 SIP-DECT OM System Manual
#
OMM_CONFIG_FILE=/opt/SIP-DECT/tmp/omm_conf.txt
#
#if you use OMM resiliency for OMM activate parameter below with OMMs IP adresses
#OMM_RESILIENCY="192.168.0.1:192.168.0.2"
#
# Automatic OMM database import:
# TFTP / FTP / HTTP(S) URL specifies the import server and file Parameters OMM_IF OMM_CONFIG_FILE OMM_RESILIENCY Description Interface for communicating with the RFPs (by default: eth0) File that contains the OMM configuration (by default: /opt/SIP-
DECT/tmp/omm_conf.txt) In case of OMM redundancy, enter the two IP addresses of the OMMs. See also section 7.15. 8.13.4 SPECIFIC COMMANDS TROUBLESHOOTING The OMM software is installed but does not work automatically when the PC starts. The command below stops or starts OMM manually (User root):
/etc/init.d/sip-dect [start|stop|restart]. The command line interface for OMM is accessible via telnet on port 8107. Malfunction To check whether OMM is working, see the list of procedures for the SIP-DECT process. If OMM does not start, delete the lock file /var/lock/subsys/SIP-DECT. To delete the OMM configuration remove the OMM configuration file /opt/SIP-DECT/tmp/omm_conf.txt
(by default). 8.14 UPDATING THE OMM The procedures for updating an existing DECT installation with new software depend on whether a single OMM or standby OMM installation is used whether the OMM is running on an RFP or PC The OMM standby feature is described in section 8.15. The update mechanism allows an update of the RFPs with minimum impact to DECT services, especially for installations with a standby OMM. All RFPs check the availability of a new boot image file automatically when:
the DHCP lease is refreshed, the RFP lost the connection to the OMM, one of the service applications running on the RFP must be restarted, and an RFP configuration file update check is done (see section 8.7.7). 258 Configuration and Administration Please note: Make sure that all configured software sources point to the same software version, so that the OMM and all RFPs are running the same software version. Please note: RFPs without a configured software image URL (via DHCP, OMC or ipdect.cfg/<mac>.cfg) retrieve their software directly from the OMM. In this case, the RFP activates the software immediately. This feature is only available with 3G RFPs. As soon as an RFP detects a new boot image file on the TFTP server (or the software download server using FTPS or HTTPS), it notifies the OMM. The OMM keeps track when it is safe to restart an RFP in order to leave the DECT service synchronized. RFPs scheduled for restart are marked with a yellow sign within the Web service (see section 5.6.1) or in a separate column within the OM Management Portal (OMP), see section 6.7.1.1. Please note: Only software upgrades from the preceding two releases are tested for upgrade to the current release. Additional steps may be required to upgrade systems with software that is three or more releases behind the current release. 8.14.1 UPDATING A SINGLE OMM INSTALLATION In the case of a single OMM installation, a DECT network outage during the update procedure is unavoidable. Please note: Updating a single OMM installation results in a DECT network outage during the update procedure. For the update, replace the boot image file on the TFTP server(s) with the new one. OMM in RFP mode If the OMM is running on an RFP, force the update of this RFP by pressing the Update button on the System settings web page (see section 5.4.1.18). The RFP checks the boot image file on the TFTP server and reboots if a new one is found. OMM in host mode (on Linux server) If the OMM is running on a dedicated Linux server, install the new software as described in section 8.13.2 on the PC with the command SIP-DECT_<version>.bin. This stops the running OMM automatically and installs the new software. After the installation phase, restart the OMM by executing the command /etc/init.d/sip-dect-omm start. As soon as the RFPs lose the connection to the OMM (because of the update), the RFPs detects that a new image file is on the TFTP server and reboot with the new image file. 8.14.2 UPDATING A STANDBY OMM INSTALLATION Please note: Updating a standby OMM installation causes a switch over between both OMMs. All active calls will be dropped. 259 SIP-DECT OM System Manual For the update replace the boot image file on the TFTP server(s) with the new one. OMM in RFP mode Force the update by pressing the Update button on the System settings web page (see section 5.4.1.18). The OMM-RFP checks the boot image file on the TFTP server and initiates an update procedure, if a new image file has been found. The automated update procedure performs the following steps:
1 Reboot the RFP residing the standby OMM. 2 Reboot the RFP residing the active OMM which causes a failover to the standby OMM. 3 Reboot all other RFPs that are able to find the new boot image file one by one. This is managed by the new active OMM. This procedure reduces the downtime of the SIP-DECT system to a minimum due to the optimized failover. Please note: Please be aware that a minimum downtime of the system can only be reached if the system was in a stable working state when initiating the update and the IP infrastructure guarantees a fast update of the OMM RFPs (e.g., no 64kbit/s line to download the SW into the RFP). OMM in host mode (on Linux server) For an update with a minimum impact to the DECT service do the following:
1 Replace the boot image file on the TFTP server(s). 2 Manually update the standby OMM. a) Stop the OMM service. b) Install the new software. c) Start the OMM service. d) Wait at least 30 seconds before you go on with updating the active OMM. 3 Manually update the active OMM. a) Stop the OMM service. b) Install the new software. c) Wait at least 30 seconds. d) Start the OMM service. Please note: A one-by-one update of RFPs is not possible if the signaling interface between the OMM and the RFP has been changed. Please see the release notes delivered with the software. To enforce an update of the whole DECT system at once, deactivate / update both OMMs simultaneously. The RFPs will lost the connection to both OMMs and will automatically restart with the new boot image file. 260 Configuration and Administration 8.15 OMM STANDBY To perform OMM standby, two OpenMobility Managers must be provided in an OMM network. One operates as the active OMM, and the other operates as the standby OMM. In the event that the RFP designated as the OMM fails, the other RFP, designated as the secondary OMM automatically assumes the role of the OpenMobility Manager. How OMM Standby works During system start-up, each RFP retrieves either one (if no standby OMM is configured) or two (if OMM Standby is configured) OMM IP addresses and both try to connect to each other. The active OMM serves all connections from RFPs or DECT phones. During normal operations, both the active and the standby OMM are in contact and monitor each others operational state. They continually exchange their current standby states and the standby OMM receives a copy of any configuration changes on the active OMM. As long as both OMMs are in contact, their databases are synchronized automatically. If the primary OMM fails, the OMM responsibilities are taken over by the standby OMM to maintain operation. A No Standby warning is displayed on the OMM web interface, indicating that there are no longer two functioning OMMs in the network or cluster. Configuration changes are made unsafely in this situation. If the active OMM fails, the inactive OMM recognizes this and begins to act as the active OMM, and starts the web service. If the connection between the two OMMs fails, the network or cluster essentially breaks into two operational parts. The standby OMM becomes the active OMM. At this point, the two OMMs cannot detect one another and, therefore, cannot synchronize. When the connection between the two OMMs is re-established, the synchronization of the OMMs forces one OMM to become the standby OMM again. Once the recently failed OMM returns to service and becomes the inactive OMM, it does not resume the role of active OMM. 8.15.1 CONFIGURING OMM STANDBY Each RFP of the DECT system must be configured with two OMM IP addresses. Both OMM addresses can be either configured via DHCP (see section 8.5.1) or with the OM Configurator (see section 8.7). 8.15.2 FAIL OVER SITUATIONS Fail over occurs when:
an OMM error occurs on the active OMM. the RFP acting as the active OMM is shut down or rebooted at the SSH console. the OMM is rebooted in the web browser menu. the active OMM is unreachable. The standby OMM becomes the active OMM when:
the configured SIP Proxy/Registrar is reachable. the other OMM has a larger IP Address while no OMM is active and both OMMs are in contact with each other (normally at system startup). 261 SIP-DECT OM System Manual When the OMMs get in contact again:
both OMMs check which one ran for a longer period. That one will become the active OMM. The other one falls back to the standby one. 8.15.3 FAILOVER FAILURE SITUATIONS Failover failure occurs when the connection between OMMs fails and the configured SIP Proxy/Registrar is unreachable. In this case the active OMM waits until the SIP Proxy/Registrar is reachable. The following state diagram shows the OMM Standby states:
OMM sync OK: OMMs are synchronized and are able to exchange their operational states OMM sync NOK: OMMs are not synchronized and are not able to exchange their operational states
*1) In this state the DECT air interface might not be in a definite state as both OMMs are active but cannot connect with each other! This is caused by IP network failures and cannot be handled by the SIP-DECT system in a proper automatic way. In such a scenario it is not predetermined which RFP connects with which of the 2 OMMs. The DECT network can split-up into two unsynchronized DECT sub-networks. This can cause voice quality and handover problems. With these states ( SIP inactive) the OMM standby mechanism takes care in the start up phase that all SIP users does not become active if the PBX is not reachable. This avoids a possible double SIP 262 Configuration and Administration registration when the PBX and the other OMM is reachable again before both OMMs negotiate which OMM becomes the active one. The double SIP registrations might cause a user not to be reachable when his latest SIP registration came from that OMM that was negotiated to be the inactive one and the SIP registrar cannot handle two or more simultaneous registrations (non-forking proxy). Similarly, it could happen in rare cases that both OMMs become temporarily active. In such a situation all SIP-DECT users would be SIP registered from both OMMs to the configured PBX. This can cause problems, if the PBX accepts only one registration per user (non-forking proxy). To prevent such problems a mechanism is implemented to detect situations with two active OMMs. If such a situation is detected the remaining active OMM SIP re-registers all users to the PBX if the OMM SIP reRegister after 2 active OMM failover parameter is set (see section 5.4.3.6). 8.15.4 SPECIFIC STANDBY SITUATIONS Some aspects must be described in case of OMM state changes when they are unsynchronized. How a standby OMM becomes active 8.15.4.1 In an unsynchronized OMM state, the standby OMM must decide whether to become active or not. The OMM tries to contact the configured SIP proxy and registrar. If a specific user account has not been designated to use for visibility checks (see section 8.20.7), the OMM starts a SIP registration for the DECT phone with the lowest phone number and sends an OPTIONS request to the configured proxy. If there is an answer the SIP proxy/registrar is considered reachable and the OMM becomes active. 8.15.4.2 When OMMs are not synchronized In an unsynchronized OMM Standby state, the connection between the OMMs is broken. In case of a network problem, both OMMs might be in this state. During this time an inconsistent OpenMobility system is operational with some constraints. The OMM Web service issues a warning with the message No Standby for both OMMs and it is possible that configuration changes made are not saved. When both OMMs are in contact again, the longer running OMM becomes the active OMM and overwrites the database file in the standby OMM. Configuration changes made in this OMM instance are lost. Two DECT air interfaces 8.15.4.3 When both OMMs are in an unsynchronized and active state, they are fully operational. DECT base stations that lose their connection to the OMM because of a network outage might connect to the other OMM. Two DECT air interfaces are present and work in parallel. Note: Since both air interfaces use the same PARK, it is impossible to determine on which OMM a location registration succeeds. For DECT phones different situations are possible:
They do not notice this situation:
active calls stay established, depending on network conditions;
263 SIP-DECT OM System Manual DECT phones can make and receive new calls, depending on an available PBX connection;
DECT phones can do handover to RFPs connected to the same OMM;
DECT phones can call DECT phones that are registered to the other OMM They lose their RFP base station and perform a new location registration:
active calls are broken;
DECT phones can make and receive new calls, depending on an available PBX connection;
DECT phones can do handover to RFPs connected to the same OMM;
DECT phones can call DECT phones that are registered to the other OMM;
They lose their RFP base station and search the DECT network without finding another one:
active calls are broken;
DECT phones stay in searching for network until an air interface is available again. Note: Handover between DECT phones located to RFPs that are controlled by different OMMs is not possible. When the OMMs are in contact again, the inconsistencies are resolved. 8.16 USER DATA SYNCHRONIZATION (MIVOICE 5000 DUAL HOMING SUPPORT) SIP-DECT 6.1 introduces support for user data synchronization to ensure that SIP-DECT telephony services survive if the network connection to the OMM goes down. The feature ensures user and device database redundancy among all OMM instances in the system. When user data synchronization is enabled on an OMM instance, the OMM propagates changes in user, device, Configuration over Air (CoA) profiles or SARI configuration to a central OMM. AXI is used to distribute configuration changes between the central and peripheral OMMs. 264 Configuration and Administration Instead of subscribing to the standard Primary Access Rights Key (PARK) of a single OMM when registering with the system, the DECT phones subscribe using the Secondary Access Rights Identifier
(SARI) that applies to multiple OMMs in the system. All DECT phones that are subscribed to the system using the SARI can roam between sites (and OMMs). The PARK of the central OMM is defined to be the SARI. Please note: Subscription to the SARI and successful roaming is only supported for Mitel 600 DECT phones. Behavior of third party GAP phones is not guaranteed. It is recommended that you add 3rd party GAP phones as fixed devices and configure them to subscribe to the PARI only. See section 6.10.4.5 for more information. All DECT phone users are registered to a central SIP proxy, used by all OMM sites (as long as the network environment is stable). OMM sites may implement local secondary SIP proxies, where local DECT phones register in case of a failed network connection. 8.16.1 ROAMING The following sections describe the roaming concepts supported with the user data synchronization feature. Device roaming 8.16.1.1 All DECT phones that subscribe successfully to the system SARI can roam between sites. Subscription to the system SARI is enabled by default when a DECT phone is created. SIP registration is renewed automatically with the OMM at the new site so that users can make and receive calls from all sites. Unbound devices can also roam, but they are not SIP registered. 265 SIP-DECT OM System Manual User roaming 8.16.1.2 Users with existing DECT phones can go to another site and log into an unbound DECT phone. The login to the old DECT phone is removed, and when the SIP registration is renewed, the DECT phone is registered with the OMM at the new site, so that the user can make and receive calls from there. 8.16.1.3 Move of SIP registration The SIP registration follows the user's location, according to the following rules:
When the change in site location is detected, the new OMM initiates a SIP registration. All other OMM sites are notified of the change, such that the OMM for the previous site does not renew the DECT phone SIP registration and broadcasts the change to all other OMMs. When the new OMM receives the update from the previous OMM, the SIP registration is repeated. If there is any interruption in the user data synchronization, other OMMs are not notified of the change. In this case, the OMM at the new site initiates a SIP registration a soon as the change in site is detected. If the OMM does not receive an update within 30 seconds, the new OMM renews the SIP registration anyway. When user data synchronization is restored, the appropriate notifications resume:
The previous OMM does not renew SIP registration for the DECT phone and broadcasts the information to all other OMMs. The OMM at the new site repeats the SIP registration when the update is received. Please note: If the OMM hosting an active Mitel DECT phone does not receive an updated location registration for the device for more than two hours, the OMM does not renew the SIP registration until the location registration is refreshed. 8.16.2 SETTING UP USER DATA SYNCHRONIZATION Data synchronization is only implemented for user, DECT phone, and Configuration over Air (CoA) data. The SARI is copied from the central OMM to the peripheral OMMs. All other data must be configured on each OMM individually. If there are any configuration conflicts due to network connection failure, the user and device changes (that have the same key id) with the most recent time stamp are used. To set up user data synchronization for your SIP-DECT system, you must:
define the central OMM and generate a SARI for all OMMs to use when registering to the system configure links to the central OMM from every peripheral OMM in the system create a dedicated user account to verify standby OMM availability Defining the central OMM 8.16.2.1 You must select an OMM to act as the central OMM for user data synchronization. When you have selected the OMM, generate the SARI from the OMM's PARK value (via the OMP System -> Basic settings -> DECT tab). See section 6.5.1.2 for configuration details. 266 Configuration and Administration All Mitel 600 DECT phones registered with the OMM can then roam to all other OMM sites (which may be added later). Configuring links to the the central OMM 8.16.2.2 Each peripheral OMM in the system must connect to the AXI interface of the central OMM for user data synchronization. If a standby configuration is used for the central system, both OMMs must be configured in the peripheral OMMs. You configure the connection to the central OMM via the OMP System -> Data management -> DECT phones synchronization tab (see section 6.5.7.3 for configuration details). Before you link a peripheral OMM to the central OMM, you must delete all user and device data, and CoA profiles from the local OMM. After the connection is established, verify that the user and device data from the central OMM have been received, then reconfigure the deleted users and devices. Please note: Concurrent configuration of user and device data may cause conficts. This can happen if one or more OMMs are not visible due to network issues. If conflicts are detect for user or devices with the same key Id, those with the most recent timestamp are kept. SIP-DECT provisioning mechanisms ensure that there are no conflicts with user data synchronization. However, the system cannot regulate operations such as "auto-create on subscription". Under rare circumstances, conflicts can arise with the result that a user action may be ignored. Repeat the action to ensure it is registered by the system. You must also ensure that the calling party numbers do not conflict with any conference room, FAC prefix or alarm trigger number across all OMMs in the system. Please note: The user data synchronisation mechanism does not validate conference room, FAC prefix or alarm trigger numbers. If such numbers conflict with a user's calling number, synchronisation terminates immediately. Creating a user account for standby visibility checks 8.16.2.3 If the active or standby OMM loses connectivity, each OMM checks connectivity to the SIP proxy. By default, a real SIP user account is used to check the availability of the OMM (via a SIP registration to the SIP proxy). In a dual homing environment, this may impact the users telephony services due to the data synchronization. To avoid this issue, you must create a virtual SIP user to be used exclusively for checking OMM availability (one account for the entire system). See 8.20.7 for more information on this feature. 8.16.3 USER DATA SYNCHRONIZATION MODES The user/device synchronization runs on every peripheral OMM with a configured link to the central OMM. The synchronization function requires an internal AXI connection and an external AXI connection to the central OMM. There are two synchronization modes: System startup or reconnection to resolve conflicts and copy new or changed datasets, and dynamic synchronization mode. 267 SIP-DECT OM System Manual Start-up / reconnection mode 8.16.3.1 In start-up/reconnection mode, the user data synchronization service reconciles the data in the peripheral OMMs and central OMM. The steps in the user data synchronization mechanism are:
1 Read user/device data and profiles from internal AXI. 2 Read SARI from external AXI. 3 Set SARI on internal AXI. 4 Read user/device data and profiles from external AXI. 5 Resolve conflicts. Inconsistent associations (one device bound to two different users):
Association is deleted on the system with the older user/device timestamps. An unbound user remains. Inconsistent number (two different user datasets using the same number):
The user with the older timestamp is deleted (including any existing device associations) Inconsistent additional ID (two different user datasets with the same additional ID): The user with the older timestamp is deleted (including any existing device associations) Inconsistent association (one user bound to two different devices):
Association is deleted on the system with older user/device timestamps. An unbound device may remain if an IPEI was configured, otherwise the device is deleted. Inconsistent IPEI (two different device datasets with the same IPEI): The device with the older timestamp is deleted (including any existing user associations) 6 Copy data. Data with the most recent timestamp is copied to either the peripheral OMM (if data in the central OMM is more recent) or the central OMM (if data in the peripheral OMM is more recent), including:
profile datasets with newer timestamps changed users with newer timestamps (with the device dataset, if bound) new users (with the device dataset, if bound) changed unbound devices with newer timestamps new unbound devices Dynamic mode 8.16.3.2 In dynamic synchronization mode, events related to new, changed, or deleted users/devices received from one OMM are applied on the other OMM. In rare cases, when configuration changes are made on multiple OMMs simultaneously (e.g. by configuration via OMP/Web, login/logout on devices, auto-create on subscription, etc), thereby creating new conflicts, the user data synchronization service closes the AXI connections and restarts after a minute to initiate a new synchronization. 268 Configuration and Administration 8.17 MANAGING ACCOUNT DATA FOR SYSTEM ACCESS Each RFP provides different independent access types:
The OMM Web service/HTTPS interface (see section 5);
The OMP (see section 6);
The OMM Web service and the OMP are mainly used for configuration and administration. The OM Configurator (see section 8.7);
The OM Configurator is mainly used for static local configuration of an RFP. The SSH user shell (see section 9.3.5). The SSH user shell is mainly used from experts for diagnosis. Each of this these access types uses the same account data. The account data can be altered at the User account page of the OMM Web. The OMM delivers all the necessary account data to all connected RFPs. The RFPs save the account data inside their permanent memory. This has some implications:
An RFP out of the box uses the default account data as long as this RFP is not connected to the OMM. An RFP which was connected for at least one time with the OMM uses the account data from the OMM. When the account data are changed on the OMM, any not connected RFPs will continue to use the older passwords. 8.17.1 ACCOUNT TYPES There are three different account types:
Full access: This access type is the normal access for the configuration. Using this access it is allowed to configure the OMM and each RFP. On the SSH interface of an RFP this access type allows login for debug information e. g. pinging another RFP to check visibility. The factory setting for this account is Name:
'omm'
Password: 'omm'
Active:
'n/a'
Read-only access: As the name suggests this access type is not allowed to configure any item of the OMM installation. This access type can only be used on the OM Web service. The account can be deactivated. The factory setting for this account is Name:
'user'
Password: 'user'
Active:
'yes Root (SSH only) access: This access type is only applicable on the SSH interface of an RFP. Its purpose is to get detailed information e. g. parameters from the kernel. The access using this account type is not reachable from other hosts hence a login using the full access type is necessary. 269 SIP-DECT OM System Manual The factory setting for this account is Name:
Password: '22222'
Active:
'root'
'n/a'
Please note: It is highly recommended not to use the Root (SSH only) access account type. It is meant for technical support only. 8.17.2 POTENTIAL PITFALLS When an RFP is configured via the OM Configurator and is taken out of an installation, the RFP may become unusable:
When this RFP comes up, it finds a valid configuration in its permanent memory. It will hence skip DHCP for booting. But when this configuration is not valid anymore (e.g. the TFTP server has a new IP address meanwhile), the RFP isn't able to complete the boot and is hence not able to connect to the OMM. The RFP will not get newer passwords from the OMM. It is therefore recommended to switch of the OM Configurator before taking an RFP out of an installation. But nevertheless the OM Configurator allows to reset the permanent memory of an RFP (the Mitel support must be connected). 8.18 WLAN CONFIGURATION 8.18.1 WLAN CONFIGURATION STEPS (RFP 42 WLAN / RFP 43 WLAN ONLY) The correct configuration of an RFP with a WLAN interface requires the correct configuration of the DECT part. The second step is to specify the Regulatory domain of the WLAN network at the System settings page of the OMM web service (see section 5.4.1.3). WARNING:
Please note that selecting the incorrect regulatory domain may result in a violation of applicable law in your country!
Select one of the two-letter country codes. This setting depends on the country and is prescribed by the laws of that country. Only the setting prescribed for that country must be used. The third step is to specify the WLAN parameters in a profile (see section 5.8.1). The WLAN profile determines the name (SSID) of the WLAN network and other parameters. The encryption and authentication procedures are especially important and must be planned carefully beforehand. 270 Configuration and Administration The access point can be assigned to a VLAN that conforms to 802.1q. All the data that is received from and that is to be forwarded to the WLAN clients is then carried by the configured VLAN. All other data, such as VoIP packets, configuration data or authentication data (Radius), is given the VLAN tag configured for the RFP. The switch port of the network component to which the access point is connected must be configured as a trunk port. Note:
The RFP 42/43/48 WLAN must be connected at least via a 100BaseT Ethernet link in order to activate the RFPs WLAN function. As a forth step, you must assign a WLAN profile to a configured RFP. This can be done on the DECT base stations page of the OMM web service or on the OMP DECT base stations -> Device list page. Note that specific radio settings for the RFP, such the channel-, 802.11abgn mode-, or antenna settings, are also done in this step. 8.18.2 WLAN CONFIGURATION STEPS (RFP 48 WLAN) 8.18.2.1 Support of 802.11ac WLAN 802.11ac is backward compatible with 802.11a and n. Like the RFP 43, the RFP 48 can only work in one WLAN spectrum at the same time (2.4 GHz or 5 GHz). Within the 2.4 GHz spectrum, the WLAN module supports the 802.11b/g/n modes in the same way as the RFP 43. The third antenna of the RFP 48 increases the data throughput in n mode from 300Mbit/s to 450 Mbps. In ac mode, HT80 channel bandwidth and 256-QAM modulation increase the data throughout up to 1300 Mbps. To enable the DFS channels, Go to System>System Settings (Advanced). Select the Dynamic Frequency Selection (DFS) 271 SIP-DECT OM System Manual
-
to enable the ac mode and HT80: WLAN\WLAN Profiles (new/edit). HT80 includes the HT40/HT20 bandwidth setting. A channel with a bandwidth of 80 MHz occupies 4 WLAN channels with a bandwidth of 20 MHz.
-
to activate WLAN and to set the WLAN profile / channel / power level for a base station (edit):
272 Configuration and Administration The selected WLAN channels have a default bandwidth of 20 MHz. If the WLAN profile options like HT80/ HT40 MHz is activated, the necessary center channel is automatically selected in the corresponding areas during the configuration itself. In the 2.4 GHz band, a channel with 40 MHz bandwidth is only established if no other 20 MHz channel is disturbed. Otherwise, a fallback to 20 MHz bandwidth is made. WLAN is a shared media. Depending on the application, it is useful to have 4 RFPs with a bandwidth of 20 MHz (for canteen room) or to have one RFP with a bandwidth with 80 MHz (for video conference room). 8.18.3 OPTIMIZING THE WLAN Beacon Interval Transmitting beacons requires transmission channel capacity. A shorted beacon interval increases the WLAN network's ability to detect signals, thus improving its availability. At the same time, it increases the network's ability to adjust the mutually negotiated signal strength. A longer beacon interval saves WLAN air time and also reduces the power consumption of mobile WLAN clients. RTS Threshold If the network throughput is low or if many retransmissions occur, the RTS/CTS handshake can be activated by reducing the RTS threshold value below 1500 byte. This can improve throughput, especially in environments where reflection and attenuation cause problems for HF. Fragmentation Threshold In environments where there is lot of interference and poor radio quality, reducing the fragment size below 1500 bytes can improve the effective throughput. However, transmitted data frames must be fragmented, which means a higher load on the RFPs processor. This option is not configurable with RFP 48 WLAN. 273 SIP-DECT OM System Manual DTIM Period The DTIM period specifies the interval between transmissions of the broadcast and multicast packets. All WLAN clients must be active during this interval. Increasing the DTIM period lowers the clients power consumption slightly. Not all programs can manage the increase in response times, however. Channel Allocation Every WLAN RFP must be configured to a channel. You should ensure that the channel settings do not overlap. WLAN RFPs within range of each other should be configured at least five channels apart. When the radio field is planned, the WLAN RFPs of foreign WLANs that may be operating in the vicinity must be taken into account. When planning the radio coverage for a two-dimensional area, please bear in mind that the distance between any two base stations operating on the same frequency must be at least twice their range. The range can be adjusted by lowering the output power level. 802.11i: WPA2-Enterprise Pre-Authentication for fast Roaming WLAN stations (e.g. laptop) which decide to roam to another WLAN access point (AP) must perform the full authentication process with the new AP. In 802.1x (RADIUS) networks this can take a long time resulting in network dropouts during the roam. The AP share authentication information with other APs, so the station can authenticate faster (pre-auth) when roaming to a new AP. This method reduces network dropouts significantly. The RFP 43 and RFP 48 automatically enables pre-authentication for WPA-Enterprise enabled WLANs. The RFP 42 does not support this feature. Channel Configuration Feedback for HT40 and Transmit Power The HT40 channel configuration in 802.11n enabled networks may not always become active because of other access points that use channels that would overlap. In this case, the RFP 43 and RFP 48 will fall back to HT20. The effective channel configuration and the transmit power are reported to the OpenMobility Manager. Users can inspect these parameters using the WEB interface and the OMP and may change the channel to a frequency without overlapping APs. 274 Configuration and Administration Support of 802.11ac-WLAN for RFP 48 WLAN The RFP 48 WLAN is a new WLAN module, which supports the WLAN ac mode wave 1. Within the 5 GHz spectrum, the ac mode is 2,5x faster as the n mode of WLAN. The RFP 48 is 4x faster with comparison to the RFP 43 having two antennas. This is achieved by more efficient coding (256-QAM) with more bandwidth (HT80) per channel and one more antenna (3x3 MIMO compared to the RFP 43:
2x2 MIMO). For more information about data rates, see: http://mcsindex.com/
8.18.4 SECURING THE WLAN In order to ensure that communication in the WLAN network is secure, several measures must be taken. Firstly, data packets transmitted via the openly visible radio interface must be encrypted, and secondly, all WLAN components that provide services must authenticate themselves. There are different encryption methods available that you configure within the WLAN profile (see section 5.8.1). However, only the recent WiFi protected access (WPA) encryption offers sufficient security against possible intruders. You should not use the (older) WEP encryption for your company LAN. Especially with larger WLAN installations, the single shared secret offered by WPA-personal may not be sufficient for your security requirements, because any person that connects to the WLAN needs to know the same shared secret. For this reason, you should also setup RADIUS authentication that is supported by all RFP 42 WLAN, RFP 43 WLAN and RFP 48 WLAN devices. A Radius Server (Remote Authentication Dial In User Service) handles 802.1x Authentication, thus authorizing different WLAN clients with an individual username / password combination to log in. We recommend a Radius Server with EAP-TLS (e.g. FreeRadius or MS Windows 2003 IAS Server) and a Certificate Authority (CA). The RADIUS authentication takes place between the RADIUS server and the RADIUS client, with the WLAN RFP to pass-through this communication. You should refer to the documentation that comes with your RADIUS product for details on how to setup, maintain and operate the RADIUS system. The WLAN module of RFP 48 supports Dynamic Frequency Selection (DFS) and Transmit Power Control (TPC). These features are required for the radar detection (flight and weather) and are necessary to use the WLAN channels 52 140 in Europe and USA. If radar pattern detected, the RFP 48 changes its WLAN channel by itself to another channel without radar for half an hour. The 5GHz high band with its channels 149 165 is supported too. 8.19 SNMP CONFIGURATION To manage a larger RFP network, an SNMP agent is provided for each RFP. This will give alarm information and allow an SNMP management system (such as HP Open View) to manage this network. The SNMP agents can be configured in the SNMP menu of the OM Web service (see section 5.4.6). All SNMP agents are configured by the OMM. Additional parameters that are valid for the individual RFP
(e.g. sysLocation and sysName) are generated. The sysLocation parameter corresponds to the location configured via the OMM web interface. The sysName parameter is generated using the MAC address and the RFP device type (e.g. RFP 43 WLAN). The RFP uptime can be requested by reading the sysUpTime parameter. This value indicates how long the RFP application software is running. It does not indicate the uptime of the operating system which does not correspond to the operational RFP state. The SNMP agent responds to SNMPv1-read and SNMPv2c-read requests for the standard MIB-II objects. The Management Information Base (MIB-II) contains 11 object groups. The agent receives both SNMPv1 and SNMPv2c traps. It sends a coldStart trap when it first starts up. It also sends an 275 SIP-DECT OM System Manual enterprise-specific trap nsNotifyShutdown when it stops. When the SNMP agent receives an SNMP request using an unknown community name, it sends an authenticationFailure trap. The SNMP agent also generates an enterprise-specific trap nsNotifyRestart (rather than the standard coldStart or warmStart traps) after being reconfigured. 8.20 BACKUP SIP PROXY/REGISTRAR This section provides an overview about the supported redundancy concepts with SIP-DECT to realize a high availability solution together with IPBX redundancy mechanism. The focus of this section is IPBX redundancy. For information regarding OMM redundancy, see section 8.15. 8.20.1 REGISTER REDIRECT To allow IPBX systems to spread the registration and call traffic over different servers the OMM supports 301 (Moved Permanently) or 302 (Moved Temporarily) responses for registrations. When a 301 or 302 response is received, the OMM follows the redirect and registers the concerning user to the given address. If more than one contact address are given in the 301/302 response, the OMM tries to contact the registrars successively until the registration succeeds. If the redirected register succeeds and if the configured proxy and registrar are identical, all subsequent INVITE requests are sent to the redirected server. In the other case all subsequent INVITE requests will be sent to the (outbound) proxy or secondary/tertiary (outbound) proxy. 276 Configuration and Administration 8.20.2 DNS SRV If a full qualified domain name is configured as proxy, outbound proxy or registrar server and the respective port setting is set to zero (0), the OMM performs a DNS SRV query before an appropriate SIP transaction is started. Herewith the OMM locates a list of servers responsible for the given SIP domain. With this configuration, the default port (5060) is used for every server address acquired with this mechanism. The DNS SRV results are sorted by priority and weight in ascending order by the OMM. As soon as the DNS SRV query succeeds, the OMM starts the appropriate SIP transaction by sending the request to the server with the uppermost priority and weight of the DNS SRV result. If there is no answer from the first SIP server in a configurable time frame (Transaction Timer parameter), or a 5xx response is received, it will be assumed as unreachable and the OMM tries to contact the next server of the DNS SRV result. Therefore the request will be send to the second server of the DNS SRV query result. If there is also no answer in the given time frame or a 5xx response is received from the second server, the request will be send to the third server and so on. When there is an answer other than 5xx from one of the contacted servers, this server will be used for this transaction. To prevent situations where the OMM tries to contact with each new transaction servers which are unreachable (out of service), the OMM offers a blacklist feature. If there is no answer from a SIP server, this specific server can be put into a blacklist and will not be contacted anymore for a configurable time of Blacklist time out minutes by all adjacent SIP transactions. In differentiation to the concepts described in the following sections note that independent of which SIP server is used, all requests send by the OMM carry the same sender Address-of-Record (AOR) 1. This 1 RFC 3261: An address-of-record (AOR) is a SIP or SIPS URI that points to a domain with a location service that can map the URI to another URI where the user might be available. Typically, the location service is populated through registrations. An AOR is frequently thought of as the public address of the user. 277 SIP-DECT OM System Manual means that the sender URI consisting of user-ID and domain is not changed during a failover to another server. 8.20.3 BACKUP SIP SERVERS The SIP-DECT solution allows configuration of two additional levels of backup servers, in addition to the primary proxy, outbound proxy and registrar server. These two additional levels of backup servers are referred to as secondary and tertiary servers in the following sections. SIP backup servers can be configured in the System -> SIP menu of the OM Management Portal
(OMP), see also section 6.5.4. You can configure IP addresses, names or full qualified domain names as server addresses. It is also possible to configure a mixture of IP addresses, names or full qualified domain names for the different servers. If fully qualified domain names are configured and the respective port setting is configured to zero (0), DNS SRV queries are performed to locate a list of servers in the domain. It is assumed that all server addresses are specified by name or IP address. With fully qualified domain names, the behavior described in section 8.20.2 is performed in addition to contact the SIP servers in the given domain. This redundancy mechanism is based on a failover concept where the OMM first tries to contact the primary server. If the primary server fails, the OMM tries to contact the secondary server and if the secondary server fails also, the OMM tries to contact the tertiary server. The OMM failover behavior in detail depends on the backup server settings. 8.20.3.1 In this case is no failover to a secondary/tertiary (outbound) proxy / registrar is possible. No Secondary/Tertiary Proxy, Outbound Proxy and Registrar Configured 278 Configuration and Administration Secondary/Tertiary Proxy and Registrar Configured 8.20.3.2 All REGISTER and re-REGISTER requests attempt to use the primary registrar first. If the primary registrar fails (e.g. no answer in transaction timer time frame), the user is tried to register with the secondary/tertiary registrar using as AOR the secondary/tertiary proxy address. When the registration with the secondary/tertiary registrar succeeds:
the MWI subscription is moved to the secondary/tertiary proxy, all subsequent INVITE requests attempt to use the secondary/tertiary proxy, the registration of all other users currently registered with the failed server will be automatically refreshed if the Failover keep alive setting is enabled (see page 141). For this purpose, the re-register requests will be queued and proceed according to the settings for Registration traffic shaping (see section 5.4.3.5). If a user was registered successfully with the secondary/tertiary registrar and can be registered again with the primary registrar e.g. during a re-registration:
the MWI subscription is moved back to the primary (outbound) proxy, all subsequent INVITE requests attempt to use the primary (outbound) proxy again, the registration of all other users currently registered with the secondary/tertiary registrar will be automatically refreshed. As long as no successful registration exists, all INVITE requests attempt to use the primary (outbound) proxy as first. If the INVITE request to the primary proxy fails, the INVITE request attempts to use the secondary/tertiary proxy. If an INVITE request fails (no answer in transaction timer time frame) send to a proxy identical with own registrar, the registration will be refreshed. Secondary/Tertiary Proxy, Registrar and Outbound Proxy Configured 8.20.3.3 In this case, the OMM behavior is as described in section 8.20.3.2 but all requests for the secondary/tertiary proxy/registrar are sent through the outbound proxy. 279 SIP-DECT OM System Manual Secondary/Tertiary Proxy Configured Only 8.20.3.4 All REGISTER, INVITE and SUBSCRIBE requests attempt to use the primary proxy or registrar first. If an INVITE/SUBSCRIBE request fails, the INVITE/SUBSCRIBE request attempts to use the secondary/tertiary proxy. 8.20.3.5 The OMM behavior is as described in section 8.20.3.2, but:
Secondary/Tertiary Outbound Proxy Configured Only all requests for the secondary/tertiary proxy/registrar are send through the outbound proxy;
if the registration with the primary registrar fails, the registration is re-tried using the primary proxy address as AOR sent through the outbound proxy. Secondary/Tertiary Registrar Configured Only 8.20.3.6 All REGISTER, INVITE and SUBSCRIBE requests attempt to use the primary proxy or registrar first. If a REGISTER request fails, the request attempts to use the secondary/tertiary registrar. 8.20.4 KEEP ALIVE MECHANISM A keep-alive mechanism implemented in the OMM allows the automatic failover to secondary/tertiary servers or automatic coming back to primary servers. The keep-alive mechanism is based on the registration process and utilizes the special behavior that all REGISTER and re-REGISTER requests are sent to the primary registrar first. The following configuration parameters are introduced: Failover keep alive and Failover keep alive time. These parameters are set in the OM Management Portal (OMP) on the Backup settings tab of the System: SIP menu (see page 141). For each registration target, a user could be registered successful with, a keep alive procedure is started. For this purpose the first user registered successful on a registration target will be selected to re-
register all Failover keep alive time before the registration period expires. If the re-registration of this selected user detects that the current primary server fails, the registration of all users registered on the same server will be refreshed automatically. For this purpose the re-register requests are queued and proceed according to the registration traffic settings (see section 5.4.3.5 for OMM Web or section 6.5.4.3 for OMP). If the re-registration of a selected user detects that the primary server is available again, the registration of all users registered on a secondary/tertiary registrar will be refreshed. 8.20.5 PRIORITIZED REGISTRATION Depending on the settings for Registration traffic shaping, the registration of a high number of users could need minutes. In effect single users could not be reachable for minutes during startup. To guarantee a minimum blackout for very important people (e.g. emergency user) the registration of such people can be prioritized. Therefore a special user attribute VIP (very important person) is introduced. The corresponding option is set in the SIP tab of the DECT phone Detail Panel (see page 178). 280 Configuration and Administration 8.20.6 MONITORING THE SIP REGISTRATION STATUS The SIP registration status of a DECT phone user can be monitored by using the OpenMobility Management Portal (OMP). In OMP monitor mode you can view on which registrar a specific DECT phone user is registered and whether the server is a primary, secondary or tertiary server. To monitor the SIP registration status proceed as follows:
1 Launch the OMP (see section 6.1) and navigate to the DECT Phones -> Overview menu. 2 Switch to Monitor Mode. 3 Activate the Registered, Registrar server type, Registrar server and Registrar port columns (see section 6.10.9). 8.20.7 CONFIGURABLE USER ACCOUNT FOR STANDBY CHECK The Standby OMM feature of SIP-DECT allows configuration of the user account to be used to check iPBX availability. Such an availability check starts automatically in fail over situations. Therefore, the OMM starts a SIP registration for a specific DECT phone user and sends an OPTIONS request to the configured SIP proxy. If there is an answer, the SIP proxy/registrar is considered reachable and the standby OMM becomes active. With older SIP-DECT releases, the OMM used the user account with the lowest phone number for the check procedure. To select a specific user account for this purpose, enable the Used for visibility checks flag on the SIP tab when creating or editing a DECT phone. Please note: The Used for visibility checks flag can only be set for one user. The number for visibility checks is shown in the OMP under Status -> Users -> Number. If the flag is not set for a specific user, the OMM uses the user account with the lowest phone number. 8.20.8 OMM STANDBY ENHANCEMENT With SIP-DECT systems using the OMM standby feature it could happen in rare cases that both OMMs become temporarily active. In such a situation all SIP-DECT users were SIP registered from both OMMs to the configured PBX. This can cause problems, when the PBX accepts only one registration per user
(non-forking proxy). To prevent such problems a mechanism is realized to detect situations with two active OMMs. When such a situation is detected the remaining active OMM will SIP re-register all users to the PBX. This mechanism can be enabled/disabled via the OMP SIP->Supplementary Services tab (see section 6.5.4.8). 281 SIP-DECT OM System Manual 8.21 CONFERENCING Depending on the type of conference server used, SIP-DECT offers the following operational modes:
None: Neither external nor internal conference server is used. Integrated: The conference server integrated in SIP-DECT is used. External: An external conference server is used, e.g. Broadsoft or Sylantro. 407-oamp-sys-sip-conference.tif External Blind Transfer: A MiVoice Business conference server is used, whose proprietary SIP signaling requires that the initiation of the conference be signaled to the destination (as specified in the URL parameter) as a blind transfer. The conference mode can be configured globally for all SIP-DECT users on the OMP System -> SIP ->
Conference tab (see section 6.5.4.9). Alternatively, the conference mode for individual users can be configured on the OMP DECT Phones -> Users -> Conference tab (see section 6.10.4.4). When the Global setting is selected for a user, the global system conference mode will be used for this user. 282 Configuration and Administration The default for the global system conference mode is None. For the user-specific mode, the default is Global. The global and/or user specific conference mode can also be configured via OMM configuration files or the OMM application XML interface (AXI). 8.21.1 CENTRALIZED CONFERENCING To enable SIP centralized conferencing on DECT phones select External as Server type for all users on the OMPs System -> SIP page or for specific users on the OMPs DECT Phones -> Users page. If there is specified a proxy / registrar server, then to reach the conference media server via the proxy server, set the URI field to one of the following prefixes:
Conf (Sylantro server) Conference (Broadsoft server) Examples To set the URI field to conf or Conference, specify conf@<proxy-server-address>:<proxy-port> or Conference@<proxy-server-address>:<proxy-port>. To reach the conference media server using a different address/port then that is specified by the proxy, set the URI field to conf@<media-server-address>:<media-port>
8.21.2 INTEGRATED CONFERENCE SERVER (ICS) The conference server integrated in SIP-DECT is based on the SIP standard RFC 4579 and allows SIP-
DECT users the ad-hoc initiation of 3-way conferences. If this feature is enabled, it allows SIP-DECT users having an active call and holding another call to select 3 party in the Options menu of a Mitel 600 DECT phone to initiate an ad-hoc 3-way conference. If a 3-way conference is initiated, the conference initiator and both connected parties are transferred to the next free conference room hosted on one of the RFP 35 / 36 / 37 / 43 devices. ICS provides the full range of voice codecs (G722, G711 -law, G711 a-law and G729) and supports trans-coding for all parties in a three-way conference session. 283 SIP-DECT OM System Manual Enabling the SIP-DECT integrated 3-way conferencing requires the following configuration steps:
Enable internal conference mode Select RFP devices for conferencing Configure conference rooms Enable internal conference mode 8.21.2.1 To enable SIP-DECT internal 3-way conferencing for DECT phones select Integrated as the Server type setting for all users on the OMPs System-> SIP page or for specific users on the OMPs DECT Phones -> Users page. Select RFP devices for conferencing 8.21.2.2 Select some of the RFP devices from your SIP-DECT infrastructure to provide conferences. For this enable the Conference cannels flag for each selected RFP on the OMPs DECT base stations ->
Devices -> General tab. Please note: Only RFP 35 / 36 / 37 / 43 / 44 / 45 / 48 devices support 3-way conferences. 284 Configuration and Administration Depending on the DECT and G.729 configuration, an RFP device enabled for conferencing provides between 3 and 24 conference channels. To compute one 3-way conference 3 conference channels are necessary. In particular, the G.729 codec, with its high consumption of computing time, reduces the number of available conference channels according to the following table. DECT enabled Conferencing enabled G.729 enabled Conference channels DECT voice channels Yes Yes Yes No No No Yes Yes Yes Yes Yes/No No Yes No Yes 0 15 3 24 9 8 8 5 0 0 Please note: Activating the Conference channels option on an RFP with enabled DECT and in a system with enabled G.729 reduces the available DECT channels on that RFP from 8 to 5. If the G.729 codec is not necessary on your iPBX platform, disable the G.729 codecs on the OMPs the System: SIP page / RTP settings tab to obtain the maximum number of conference channels. The total number of conference channels in the SIP-DECT system is presented the OMPs Status ->
Conference tab. The Total parameter provides the total number of conference channels in the system and the Available parameter provides the current number of available conference channels. 8.21.3 CONFIGURE CONFERENCE ROOMS When a three-way conference is initiated by a SIP-DECT user, the initiator and the connected parties will be transferred to the next free conference room using SIP signalling. These conference rooms must be configured on the OMPs Conference rooms page with their SIP user id and SIP password (see section 6.11). Configure as many conference rooms as necessary and as conference channels are available (3 channels per conference). These conference rooms will be SIP registered on the configured SIP registrar and must be reachable via the configured SIP proxy for SIP signalling. 285 SIP-DECT OM System Manual The following parameters can be configured for each conference room Name: SIP display name Conference ID: SIP user id User Name: SIP authentication name Password: SIP password Fixed SIP port: Port used explicitly for SIP signaling. If set to 0 (default), an automatically calculated port is used for this conference room. See section 2.17 for more information. Calculated port: Auto-calculated port used for SIP signaling (read-only). Only used if no value is specified for Fixed SIP port. All configured conference rooms will be registered on the registrar / iPBX configured in OMM. If the X-
Aastra-Id Info option is enabled on the OMPs System: SIP -> Advanced settings tab, a private X-
Aastra-Id header is sent out which identifies that these are conference rooms. 286 Configuration and Administration The X-Aastra-Id header has the following format for all conference rooms:
X-Aastra-Id: type="29" model="01" version="1.0.0"
The headers attributes have the following properties:
type model version the type parameter contains the phone type the value for all SIP-DECT conference rooms is 29 type = DQUOTE (1*2HEXDIG) DQUOTE its the model of the terminal the value for all SIP-DECT conference rooms is 01 model = DQUOTE (1*2HEXDIG) DQUOTE the version is intended for later releases the value for all SIP-DECT conference rooms is 1.0.0 version = DQUOTE (1*16token) DQUOTE 287 SIP-DECT OM System Manual 8.22 DOWNLOAD OVER AIR The Download Over Air feature allows updating the DECT phone firmware without any user interaction or interruption of the telephony services over the existing DECT air interface. This feature is currently available for the Mitel 600 DECT Phones. With SIP-DECT 6.0 and later, the SIP-DECT RFP software images (iprfp3G.dnld or iprfp4G.dnld) contains the Mitel 600 DECT phone software. If the RFP houses the OMM, the OMM uses this software to update the DECT phones. The RFP OMM no longer automatically attempts to load a DECT phone software image from a RFP software URL when provided via DHCP or local configuration. For specific maintenance purposes only, SIP-DECT allows configuration of a URL via the OMM Web service or OMP to use an alternative DECT phone software image (see section 5.4.1.8). The Mitel 600 DECT phone firmware packages are delivered in the 600.dnld file for the OMM running on an RFP. 8.22.1 HOW DOWNLOAD OVER AIR WORKS If the Download over Air feature is activated (see section 5.4.1.8), the OMM acts as a download server that provides the firmware for downloads. The DECT phone sends its firmware version within the DECT attachment procedure. If the firmware version does not match the version provided by the OMM, the DECT phone will be queued into the update-queue. Later on the queued DECT phones will be paged to establish a download connection. After the connection is established, the OMM sends its actual DECT phone firmware version and the DECT phone will request a DECT phone description file. After receiving the DECT phone description file, the DECT phone decides which files are missing or must be updated. If files are missing or must be updated the DECT phone initiates the download procedure. The OMM takes care of the following download scenarios automatically:
If a DECT phones becomes unreachable e.g. when the DECT phone is switched off, the OMM will update the DECT phone when the DECT phone becomes available again. The OMM will take care of the software download while the user is moving between base stations (roaming) and location areas. The OMM has the capability of resuming a download from the point where it was last interrupted (e.g., the user leaves the coverage area during download or the DECT phone runs out of battery power). The OMM updates new DECT phones subscribed to the system. While the DECT phone is barred (e.g. low battery or Download over Air is disabled at the local menu), the download will be postponed. The download happens without any user intervention. During the download, the telephony services, the roaming- and handover procedures are still available. The download stops automatically when e. g. the DECT phone leaves the coverage area or the RFP gets busy. The download resumes automatically when the stop cause is solved. The Mitel 600 DECT phones have two partitions in the internal flash memory to hold 2 different software versions. During the download the new firmware is written to one partition and the DECT phone is running from the other partition. After the download is successfully completed, the new firmware will be activated when the DECT phone is in the idle state. The download of a single DECT phone with a firmware of 1 MB takes approximately 90 minutes. The number of DECT phones which can be downloaded depends on the available system resources. 288 Configuration and Administration The number of simultaneous downloads is limited per OMM (RFP: 30, PC: unlimited) and per RFP (6, decreased with each call). The Download over Air service is delayed after a system startup for a while to allow the whole DECT system to become active. This may last several minutes. 8.22.2 HOW TO CONFIGURE DOWNLOAD OVER AIR This section describes configuration of the Download Over Air feature via the OM Web service. The feature can also be configured using the OM Management Portal (OMP). The Download over Air feature can be activated or deactivated on the System Settings web page (see section 5.4.1.8). In the OMP, you can enable the Download over Air feature in the System -> Advanced settings -> PP firmware tab (see section 6.5.2.3). If the Download over Air feature is activated, the status of the Activate firmware update parameter is shown as enabled, service together with some statistics is displayed in the DECT phones section of the Status web page. The DECT phone firmware container for DECT phone firmware update over the air includes packages for the Mitel 600 DECT phones. The available versions are also displayed on the Status web page. Please note: The Loading firmware from on the OpenMobility Manager Status web page is only updated on restart of the OpenMobility Manager. Changing the location while the OpenMobility Manager is running has no effect. The individual download status of each DECT phone is shown on the DECT Phones web page. 289 SIP-DECT OM System Manual The details in the Download column have the following meaning:
Icon
-
Meaning Impossible to download the firmware to that DECT phone (e.g. not a Mitel 600 DECT phone) The DECT phone is paged to establish a download connection. In case of a successful connection establishment the DECT phone calculates the number of bytes to download. This may take several seconds. xx kbytes left The download is ongoing and xx kbytes are left. The firmware of this DECT phone is up to date. The DECT phone is queued in the update-queue for updating (pending). Warning The download is barred because of one of the following reasons:
The DECT phone is busy (temporary status). The battery power is lower than 50% and the DECT phone is not connected to the docking station or the USB interface. This is not the master download system. A DECT phone can be enrolled on several OpenMobility systems. The first system to which the DECT phone will be enrolled is the master system. The DECT phone downloads only from the master system. A different master system can be chosen inside the local menu of the DECT phone. The download is disabled in the local menu of the DECT phone. The specific reason is shown as a tooltip. Error The download failed because of one of the following reasons:
checksum error, file system error, error while writing firmware to flash, version mismatch, error while expanding firmware container. The specific reason is shown as a tooltip. 290 Configuration and Administration Icon Meaning Info The download is not possible because:
the DECT phone is not reachable the DECT phone is detached The specific reason is shown as a tooltip. In the OMP, the Download over Air service status is displayed in the Status menu (see section 6.4). 8.23 CENTRAL DECT PHONE CONFIGURATION OVER AIR (COA) Centralized DECT phone configuration over the air is supported for Mitel 602 DECT phones. Configurable parameters include:
settings (loudness, contrast, etc) menu items (switch on or off, enable password protection) key assignments (including an override of manual key programming) variable lists DECT phone configuration over air (CoA) is useful for deployment of special configuration to a single DECT phone or a large number of DECT phones. No local access to the DECT phone is required. DECT phone CoA is implemented by providing additional configuration information to the well-known configuration files or providing profiles via OMP. Configuration can be changed at the device level
(DECT subscription) or the user level (based on login). Configuration of all DECT phones with a predefined default profile is also supported. Up to 20 DECT phone profiles make it easy to adapt to different usage scenarios for heterogeneous user groups (e.g., nurses and doctors in hospital environments). IMPORTANT : This feature requires 6.00 DECT phone software or later. IMPORTANT : Centralized DECT phone configuration over the air is only available on the Download over Air (DoA) master system. 8.23.1 CONFIGURATION FILES You can use three kinds of configuration files:
Default DECT phone configuration profile Default configuration file used for all suitable DECT phones. The configuration is loaded into the DECT phone when subscription is complete, even if a user has not logged in to the device. DECT phone configuration profiles User-focused DECT phone configuration file used for a group of users. The configuration is loaded into the DECT phone when a user belonging to this group logs in to the device. DECT phone user individual configuration settings Individual DECT phone configuration settings used for a single user. The configuration is loaded into the DECT phone when the user logs in to the device. 291 SIP-DECT OM System Manual The system consolidates the DECT phone settings before loading the configuration settings for a logged-
in user into the DECT phone. Settings from DECT phone profiles overwrite default configuration settings, and individual user configuration settings overwrite DECT phone profiles and default configuration settings. For a complete list of supported settings, see section 12.5. Configuration can be completed by using OMP (file import and download configuration settings) and user configuration files (user_common.cfg and <user.cfg files), wherein a list of user friendly settings can be used for the DECT phone configuration. Please note: Deleting or overwriting configuration files on a DECT phone does not restore configuration to default or previous settings. Configuration elements that are not part of the new downloaded configuration file persist. To restore all settings, the administrator must initiate a power off/on at the DECT phone or use a default configuration file that contains all relevant settings. To avoid interfering with the telephony or message service (especially with respect to alarm messages within the SIP-DECT system), only one configuration data download to the DECT phone is performed at a time. Therefore, changing the default profile settings or other profile settings may take some time in a large system, until all the related DECT phones are updated. 8.23.2 CONFIGURATION FILE DOWNLOAD TO DECT PHONES Profiles are downloaded to the DECT phone via the messaging mechanism, in conjunction with the internal message type CONF_OVER_AIR. This occurs in parallel with general message transfer to the DECT phone, and the lowest priority is used to ensure that the download does not interfere with the delivery of urgent messages. The message mechanism is also used to confirm a successful profile download, through AXI events. Profile downloads to DECT phones are limited system-wide to a maximum of one download at a time to ensure no interference with OMM system operation. You can view the download on the OMM console
(console command hcm).The download state is also part of the system dump. Download Triggers 8.23.2.1 The OMM maintains a profile download list for all DECT phones that have configuration data to be set. These DECT phones are stored with the checksum of configuration data to be set. A DECT phone is included in this list when:
the OMM system starts up and the associated DECT phone has configuration data to be set the associated DECT phones configuration data changes (this is communicated via AXI), such as:
change in the default configuration profile change in the configuration profile for the user of the associated DECT phone change in the individual user configuration profile for the user using the associated DECT phone change in the configuration profile assigned to the user using the associated DECT phone Profile downloads to the DECT phones (as maintained in the profile download list) are scheduled at regular intervals. A new download to DECT phones in the profile download list is scheduled when:
a configuration change occurs on the DECT phone (via AXI notification) 292 Configuration and Administration a location registration is received, and the checksum of the configuration data stored in the profile download list is different from the checksum sent in the location registration a download to a DECT phone completes 8.23.3 COA CONFIGURATION USING OMP OMP configuration of DECT phones is restricted. You can do the following through OMP:
List the current user and device state via the DECT Phones -> Overview menu and DECT Phones -> Devices -> Configuration data tab (in Monitoring mode) Import the default profile and one to 20 individual profiles via the System features -
> COA profiles menu (see section 6.12.9) Assign one of 20 profiles to an internal user via the DECT Phones -> Users ->
Configuration data tab (see section 6.10.4.10) The syntax of the profiles that can be imported by the OMP is the same as that specified for the user_common.cfg and <user>.cfg files. Please note: CoA configuration via OMM Web service is not supported. You can only list the current user and DECT phone state in the User and DECT phone configuration and status data summary. 8.23.4 CONFIGURATION USING USR_COMMON.CFG/<USER>/CFG FILES The user_common.cfg and <user>.cfg configuration files are used for DECT phone configuration. The following configuration attributes in the user_common.cfg file control central DECT phone configuration:
Default profile settings OM_Profile.0.Default.<key>=<values>
OM_Profile.0.Default.<key>=<values>
Where Default is the reserved name for the default profile, and <key> is one of the configuration settings with its <values> to be set. Example:
OM_Profile.0.Default.UD_DispLang="en"
OM_Profile.0.Default.UD_DispFont="large"
OM_Profile.0.Default.UD_DispColor="black"
one of up to 20 profile settings OM_Profile.<no>.<name.<key>=<values>
OM_Profile.<no>.<name>.<key>=<values>
Where <no> is the number of the profile, <name> is the name of the profile to be configured, and
<key> is one of the configuration settings with its <values> to be set. 293 SIP-DECT OM System Manual Example:
OM_Profile.5.Doctor.UD_DispLang="en"
OM_Profile.5. Doctor.UD_DispFont="large"
OM_Profile.5. Doctor .UD_DispColor="black"
Please note: To assign a profile to a user, you can use the UD_PpProfileId= <profileNo>
setting in <user>.cfg files. When <profileNo> is 0, no profile or (depending on configuration) the default profile is used. The default profile is defined in user_common.cfg. Please note: A complete removal of a profile from user_common.cfg does not remove the profile in the OMM database. It must be explicitly deleted in the OMM database. For individual user DECT phone configuration settings, the following configuration attributes are available in the <user>.cfg file:
User configuration settings
<key>=<values>
<key>=<values>
Where <key> is one of the configuration settings with its <values> to be set. Example:
UD_DispLang=en UD_DispFont=large UD_DispColor=black 8.23.4.1 CoA Example UD_ConfigurationName = "omm-test"
UD_DispLang="en"
UD_DispFont="small"
UD_DispColor="black"
UD_RingerMelodyIntern="ringing_1"
UD_RingerMelodyExtern="ringing_2"
UD_RingerVolumeIntern="increasing"
UD_RingerVolumeExtern="increasing"
Configuration file is named omm-test Language is set to English Display font is set to small Display color scheme is set to black Internal call melody is set to melody ringing_1 Internal call melody is set to melody ringing_2 Internal call ringer volume is set to increasing External call ringer volume is set to increasing See section 10.4 for a full list of supported CoA configuration parameters. 8.23.5 VARIABLE LISTS The Mitel 602 DECT phone 6.1 firmware introduces variable lists. A variable list includes a number of items, each of which corresponds to an action to be performed on the DECT phone. A list item consists of an index identifier (1..10) and either a number (to be dialed) or a function/feature that is supported by the DECT phone. Other attributes are optional. If there is a FunctionID, the entry does not have a sub key line in the variable list. If there is a number and a FunctionID the DECT phone executes the associated action (if available); otherwise, the DECT phone dials the number. 294 Configuration and Administration Item Attribute Type Description Example Index Number Name FunctionID Decimal number Index of list item (1..10) 7 quoted UTF8-string Number to dial
\x2312*777*
(use \x23 for # in configuration file) quoted UTF8-string Text displayed for item My Voice Box Function-ID-string Function or feature to execute pbx_directory ShortName/Icon quoted UTF8-string Short name and/or icon displayed
\xEE808B VB Handsfree VisibleSpecifier Boolean ( or 1) Dial in hands-free mode 4 digit string of 0 or 1 Item visible in idle, dial, alerting and active state 1 1000 The CoA profile supports two variable lists for each DECT phone. Each list can contain up to 10 items. Use the UD_VListEntry configuration command to configure an item for one of the lists. The first value specifies the index (1 or 2) of the list, followed by the attributes listed above. The values-attribute pairs must be separated by a space and their position in the configuration command are fixed. Unused attributes must be indicated by empty strings if they are followed by non-empty attributes. Unused attributes (empty strings) can be omitted at the end of the configuration command. A variable list can hold a name and/or short name (used to represent it in another list or near a programmed soft key or side key). The short name attribute also allows you to specify an icon. A third attribute, sub item, determines whether or not subitems (sub key lines) of a list are displayed. By default, the subitem (sub key line) is only displayed if the item is selected. List Attribute Name ShortName/Icon SubItems Examples:
Type Description Example quoted UTF8-string Text displayed for list My Own Menu quoted UTF8-string Short name and/or icon displayed
\xEE808B M1 Boolean (0 or 1) Show sub-key line of selected item 1
#PBX Menu using COA variable list UD_ConfigurationName=PBX Menu
#Key assignment (function: vlst1 and vlst2) UD_KeyAssignmentIdle=esc vlst1
#Menu Design UD_VListName = 1 "Call services" #Titel UD_VListShortName = 1 "More" #Softkey UD_VListSubItems = 1 0 #Display Details per Item
### PLACEHOLDERs to add into Number field:
#<no> will be replaced with a number from handset editor e.g. "*12*<no>#"
295 SIP-DECT OM System Manual
#<dial> will be replaced with a number from handset editor or directory, caller-list...
#<t=> following dial-digits will be delayed for ... ms e.g. <t=3000ms>
#<inf=...> set info-box with ... string for (3000ms) continue dialing after info box e.g.
#<inf=Please wait>
#<r=...> call will be released after ... ms e.g. <r=10000>
#<close> will close this Menu.
### Entry: UD_VListEntry = List Index "Number" "Name" FunctionID "ShortName" Handsfree
# Visible
#ITEM TYPE DESCRIPTION
#List decimal number item belong to variable list (1..2)
#Index decimal number index of list item (1..10)
#Number quoted UTF8-string number to dial "*1234" (use \x23 for #)
#Name quoted UTF8-string displayed text of item "My Voice Box"
#FunctionID function-ID-string function/feature to execute e.g. pbx_directory
#
(if available, preference over number)
#ShortName quoted UTF8-string displayed short name and/or icon
#Handsfree Boolean (0 or 1) dial in hands-free-mode
#Visible 4-digit-string of 0 or 1 item visible in idle-, dial-, alerting- and
#
active-state e.g.1000
#notice: to skip a parameter in the row use "" (even if the type is unquoted)
### idle menu functions
#Call Forward **8 (predial) + number
#Call Forward Cancel ##8 (dial)
#Do Not Disturb *5 (dial)
#Do Not Dist. Cancel #5 (dial)
#Call Pickup
*6 (dial)
#Call Park Retrieve *8# (predial) + number
#Direct/Group Page *37 (predial) + number
#Loudspeaker Page **9 (dial) UD_VListEntry = 1 1 "**8<dial>\x23<inf=Call FWD enabled><r=2000>" "Call Forward" "" "" ""
UD_VListEntry = 1 2 "\x23\x238<inf=CallFWD off><r=1000><close>" "Call Forward Cancel" ""
"" ""
UD_VListEntry = 1 3 "*5<inf=DND enabled><r=1000><close>" "Do Not Disturb" "" ""
UD_VListEntry = 1 4 "\x235<inf=DND off><r=1000><close>" "Do Not Dist. Cancel" "" ""
UD_VListEntry = 1 5 "*6<close>" "Call Pickup" "" "" ""
UD_VListEntry = 1 6 "*8\x23<dial>" "Call Park Retrieve" "" "" ""
UD_VListEntry = 1 7 "*37<dial>" "Direct/Group Page" "" "" ""
UD_VListEntry = 1 8 "**9<close>" "Loudspeaker Page" "" "" ""
8.23.5.1 The following table lists the UTF8-codes for Mitel 602 DECT phone icons. Icon coding 296 Configuration and Administration ICON UTF8-Code Description
\xEE8083
\xEE8084
\xEE8085
\xEE8086
\xEE8088
\xEE80B0
\xEE80BC
\xEE80BE
\xEE81A5
\xEE80BA
\xEE808A
\xEE808B
\xEE808C
\xEE818C
\xEE808D
\xEE808E
\xEE808F
\xEE809B
\xEE809C
\xEE81B0
\xEE8092
\xEE8182
\xEE80A0
\xEE80A1
\xEE8196
\xEE8199
\xEE818C
\xEE8181
\xEE80A1
\xEE8099
\xEE80A7 Arrow Up Arrow Down Arrow Left Arrow Right Fox Key Locked Search Info Attention Tip Telbook Private number Telbook Mobile number Telbook Business number VIP number Telbook Fax number Telbook Email address Telbook Name Hook off / Predial Hook on / Release Register recall DTMF 3-party List Incoming call list List Outgoing call list List Private directory /
List Central directory List VIP List Filter / Call Filtered Call outgoing Call Waiting Call Rejected
\xEE81AD Call SOS 297 SIP-DECT OM System Manual ICON UTF8-Code Description
\xEE809D
\xEE8098
\xEE809B
\xEE80B8
\xEE80A3
\xEE80A4
\xEE8195
\xEE81AE
\xEE81B1
\xEE81B2
\xEE8296
\xEE80BF
\xEE8298
\xEE8292 Call Headset autoanswer Call Loudspeaker autoanswer Call Hook autoanswer Call deflected Call missed Call answered Call on Voicebox Call VIP Pickup Pickup select Call Park Call protection Call routing Callback Call Deflection for incoming call in ringing state 8.23.5.2 In this, an incoming call can be deflected to another extension. In ringing state, Deflect call is offered in the option menu. This option allows to enter the target extension to which the call gets deflected. The target can also be chosen from one of the directories or call logs. The DECT phone returns to the idle state after confirming the target extension. Depending on the actual call log management of the call server platform, the deflected call is shown as an answered or missed call. 298 Configuration and Administration Number string coding 8.23.5.3 Note that the number specified in the list item may include one or more placeholders, so that, for example, the user can enter a number before the number is dialed. The placeholder keywords are specified in angle brackets ("< >"). If the dialed number includes angle brackets, you must use << >>. Number Placeholder Description
<no>
<dial>
<close>
<t=>
<inf=...>
<r=...>
If the number strings consists of <no>, it is replaced with a number from the DECT phone editor If the number string consists of <dial> it is replaced with a number from the DECT phone editor or directory, caller-list. For example, "*12*<no>#" -> ok <edit-number>
send cc-info"*12*"<edit-number>"# (numbers may include letters like abcd... if the system supports alpha dialing) All parents (e.g a list from witch this item is started) are closed Following dial-digits are delayed for ... ms e.g. <t=3000ms>
Set info-box with ... string for (3000ms) continue dialing after info box ( e.g.
<inf=Please wait>) Call is released after ... ms e.g. <r=10000>
8.24 EXTENDED DECT PHONE INTERFACE With SIP-DECT 6.0 and later, the Mitel 600 DECT phones include an Administration menu that offers administrative functions to the user such as login, logout, and configuration and status summary display. The menu is available as an option under the System menu which can be accessed via the main menu of the DECT phone, or directly by a long press of the right soft key >>>. Please note: The Administration menu is only available on Mitel 600 DECT phones, version 4.0 or higher. The following table summarizes the options under the Administration menu. The menus allow basic OMM configuration and require a login (the same account and password as used for administrative access via OMP or Web service). Menu option Description OMM login 1. 2. 3. 4. 5. Login Logout PP state User can log in to the DECT phone (free DECT phone only) User can log out of the DECT phone (free DECT phone only) Display user/device configuratoin and status data summary
(see section 5.7.6 for details) Sync user data Refresh SIP registration and synchronize user data, if they are stored externally Sync system data Reload configuration and resource files Yes 299 SIP-DECT OM System Manual 6. 7. 8. 9. System credentials Set authentication for provisioning servers (see section 8.8.6.1) Conditional Status System Display basic OMM network settings (e.g., DHCP, IP addresses) Set basic OMM system data SIP users/devices Perform basic configuration of users and DECT phones Yes Yes 10. Version Display current OMM software version The options available depend on the DECT phone state and the OMM platform (i.e., RFP OMM or Linux Server). The following table summarizes the options under the Administration menu according to device state and OMM platform. Menu option Fixed device Logged out Logged in RFP OMM Linux Server OMM 1. 2. 3. 4. 5. 6. 7. 8. 9. Login Logout PP state Sync user data Sync system data System credentials Status System SIP users/devices 10. Version The following table summarizes the submenus available according to the OMM platform. Submenu SIP-DECT RFP OMM Linux Server OMM 1. 2. 3. 4. 5. System name Date and Time SIP User administration Restart 300 Configuration and Administration 8.25 OMM/DECT PHONE LOCK WITH BRANDING ID With SIP-DECT 6.0 and later, customers can use a specific branding key to lock the OMM. The key must be branded to all DECT phones before they can be subscribed. Note:
This feature is only available by special request. Please contact your Mitel representative for more information. You generate the branding key using the DECTSuiteBrandingInstallation.exe tool (provided by Mitel on special request). When you have the generated keys, you set the branding key in the OMP, via the System -> Advanced Settings -> Special branding tab (see section 6.5.2.7). The branding key can be only removed from the OMM system by using a special key, also generated with the DECT-Suite PC Tool and entered in the OMP Special branding tab. You must remove the branding key before changing to a different brand. 8.25.1 SUBSCRIBING THE DECT PHONE The user who subscribes the DECT phone must explicitly invoke the transfer of the branding key (done in the AC-Editor). Add R* (or R<additional_id> in one case) as a suffix to the typed AC code (or just R*, if there is no AC code). Type R* for normal subscription for fixed devices. Type R* for auto-create by subscription. Type R* for wildcard subscription without DECT phone data record selection. Type R<additional_id> for wildcard subscription with record selection by the additional id. 8.26 DEVICE PLACEMENT The OM Locating application uses small graphic maps for visualization of DECT base station placement. From SIP-DECT release 3.1 on, these graphics can be created with the OMP in Planning Mode. 8.26.1 PLACEMENT VIEW By using the mouse with drag and drop, you can move RFP icons to their correct mounting position on the loaded background image. Note that you must provide background images first (see also /27/). A DECT base station is drawn as green circle with its ID number inside. Background images can be loaded into the application on the Image Management panel (see section 8.26.3). The assignment of devices to the currently active image must be done on the DECT base stations page. 8.26.1.1 Functionality of the Placement View Left mouse click selects/deselects the DECT base station the mouse is pointing to. A selected device is shown with thicker border. Drag and drop functionality: a device can be moved while the left mouse button is pressed and hold. 301 SIP-DECT OM System Manual If left mouse button is hold and no device is selected, the complete view content gets moved. By turning the mouse wheel the view gets scaled up or down depending from the direction of turning. By pressing the right mouse button a pop-up menu is displayed:
000-oamp-planning-mode-context-menu.tif Move selected RFPs: All selected devices (drawn with a thick border) will be moved to the current position of the mouse pointer. Distances between the devices are not changed as long as all devices can be drawn inside the background image. Moving devices to the area outside the upper or left border of the image is not possible. Reset selection: The selection is canceled for all currently selected devices. Remove selected device(s): Selected devices are removed from the current image after confirmation in a dialog box. Those devices can be assigned to an image again via the DECT base stations menu (see also section 8.26.2). If no devices are selected but the mouse is pointing to a device, that device is removed from the image without further inquiry. Reset view: The view is redrawn in its original appearance. Any translation and scaling applied to the view is cancelled. 8.26.1.2 The Placement view can be activated by:
Activation of the Placement View Selecting the Placement view menu entry. The currently loaded image with its assigned devices is displayed. If no image is currently loaded, the view is empty. Double-clicking on a table row in the DECT base stations view. This activates the placement view with the image the clicked device is assigned to. Selecting the Assign to active image task in the DECT base stations view. The selected devices are assigned from the table to the current image. If a selected device was already assigned to another image, the assignment is changed upon confirmation in a dialog window. Selecting an entry in the Image management view (double-click or click on Show image task). 8.26.2 DECT BASE STATIONS VIEW The view shows a table based list of RFP. When you select table rows and click Assign to active image, the selected devices are assigned to the currently active image. Devices already assigned are tagged with a green sign in the table column Positioned. If a selected device was already assigned to another image, the assignment will be changed when confirmed through a confirmation dialog. 302 Configuration and Administration 8.26.3 IMAGE MANAGEMENT VIEW With the Image management view all background images assigned to the SIP-DECT system can be managed. Also, the generation of the graphic maps used by the OM Locating application can be started by this view. If the user activates this view and a background image was loaded, the OMP automatically creates a project file the current SIP-DECT system on the PC. This file contains references to the background image files and the device assignment and placement coordinates. It automatically gets reloaded to the application if the OMP user enters the Device Placement menu again during a connection to the same SIP-DECT system. The images and placement coordinates are stored only on the local PC and not together with the SIP-
DECT system configuration (due to storage size limitations). Therefore it is recommended to export the project and save the project data at a secure place after finishing the placement of devices for a SIP-
DECT system. Show image Task 8.26.3.1 After selecting an image entry from the table with a left mouse click and then selecting the Show image task, the image will be displayed with its assigned devices in the Placement view. A left mouse double click on a table entry also opens the Placement view. Add image Task 8.26.3.2 With the Add image task, the user calls up a File Open dialog which allows the addition of one or more background images stored on the PC to the system. The OMP supports *.jpg and *.png image files. A maximum of 800 images can be managed by the OMP. The maximum size per image is limited to 3000 pixel in both height and width. Remove image Task 8.26.3.3 The selected image table entries will be removed from the current project after an inquiry dialog. All devices which were already assigned to one of the removed images will be reset to unassigned state. Generate Task 8.26.3.4 By choosing this task the user can start the generation of the graphics data needed by the OM Locating application. The OMP will only create graphics data for selected image table. In a file save dialog the user can select a storage directory for the generated graphics data. A progress dialog informs about the actual status of the generation process. If the process is canceled by the user, the OMP will finish generation of graphics data for the actual background image before stopping the process. Import project Task 8.26.3.5 With the Import project task the user can load a previously exported project. Images and device placements done before importing a project will be substituted by the data contained in the project. The system name and the PARK are not checked during this operation. It is possible to import a project created for another system or after the system name or PARK was changed. 303 SIP-DECT OM System Manual Devices are managed by their IDs. If a device ID from imported data cannot be matched with a device ID from the system the OMP is currently connected to, the placement data for such a device will not be imported. The image files will not be copied. The actual project will save references to the storage place of the images. Export project Task 8.26.3.6 With the Export project task, the user opens a File Save dialog where the user can select a directory for the exported data, or create a new one. The OMP exports the project file and copies all background image files to the chosen destination. A project exported with this task can be imported again via the Import project task. 8.26.3.7 The OM Locating application needs two graphic maps for each device:
Adjust overview size Task One detail map image showing the position of an RFP in same scale as the background image on which the device was placed. An overview map showing a bigger area of the background image down scaled and the position of the RFP. There is no special requirement to the scale of the used background images. The selection of the overview scale may differ depending from building or area proportions. With the Adjust overview zoom task the user can adjust the down scale zoom factor for the overview map images (2) individually for the currently selected background image. 304 Configuration and Administration The content of an area generated as overview map is shown by the transparent overlay square. Changing the size of this area can be done by grabbing the light blue point at the right upper edge and moving the edge to (or away from) the center of the area. By grabbing the red point in the middle of the overlay square it is possible to move the overlay square around. For generation of the overview map images the position of overlay square does not matter. Only the size is important to calculate the scale ratio for down scaling. Set overview size Task 8.26.3.8 Instead of adjusting the scale factor for down scaling on generation of overview maps with the method described in section 8.26.3.7 it is possible to set a scale factor for the selected images. The value of the scale factor must be chosen with the slider Overview size in the task panel prior to assign it to one, several or all images with the Set overview size task. 8.27 MONITORING WITH USB VIDEO DEVICES To use an USB video device in interaction with the OM Locating application, a video user account must to be configured. In addition the configuration and activation of a video device (USB Web Cam) itself is needed. 8.27.1 CONFIGURATION OF A VIDEO USER ACCOUNT An active user account with at least read and video permissions must to be configured, to use it inside the OM Locating application. Please note: If you have already configured the OMMs Full access account within the OM Locating application to access OMM service, you must change this account to the video-
enabled account created in this step. 305 SIP-DECT OM System Manual 8.27.2 CONFIGURATION OF USB VIDEO DEVICES You configure video devices on the OMPs Video devices page (see section 6.9). The Video devices page contains a list of known video devices and you can access the configuration window for the video devices by double-clicking on an entry. Use the left side of the panel to enter a description of the camera and its position. On the right side of the window, you can set the parameters for Resolution and Frame rate. The selected values for resolution and frame rate must fit the parameter specifications of the camera device. Changes to these settings are not possible on cameras in a started state (i.e., viewed in the OM Location application). By setting the Active option, the video device is permitted to send images. 8.27.3 MONITORING WITH USB VIDEO DEVICES Using the OMP monitoring mode for a video device opens a window with two tabs, the General tab and the Status tab. On the General tab the actual configuration of the video device will be shown. On the Status tab the actual status of the camera device will be shown. The tag is an internal identifier of a video device, the RFP ID is the identifier of the RFP the video device is plugged in, USB path is an identification of the plug-in position and State is the actual state of the video device. 8.28 TERMINAL VIDEO As of SIP-DECT 5.0, Mitel 602 DECT phones support video streams from cameras connected to SIP-
DECT RFP 35/43 base stations. When a user has video stream permission, he can choose in the system menu from a list of cameras to connect. Video Streaming is only available when the DECT phone is connected to a RFP 35 and the permission is set for the site and the DECT phone. Video streams are treated like a call by the DECT phone, which require two (of eight) air channels on the RFP for each stream. The DECT phone can also perform handover between DECT base stations with an active video connection. A video connection is automatically terminated by the system in case that any related capability (e.g. video stream permission) is changed. 306 Configuration and Administration 8.28.1 TECHNICAL DETAILS Terminal video resolution and framerate are independent from the configured camera resolution and framerate. The resolution of the terminal video stream is automatically downscaled to 176 * 144 pixels (QCIF) with a frame rate of approximately 2 frames per second. The resulting overall delay is below 2 seconds. The maximum number of simultaneous terminal video streams per camera is restricted to 10. 8.28.2 OMP CONFIGURATION STEPS Connection and configuration of cameras is similar to the steps required to configure the locating application. Special steps necessary for terminal video are:
Enable all sites, which have the technical capability (only 3rd or 4th generation RFPs are referred to it), via OMP for terminal video. Enable via OMP (DECT Phones -> Users -> Additional services) by setting the Video stream permission for those users who are allowed to use this feature. Please note: It is strongly recommended that you set the DECT base station attributes building, floor and room, if you configure a large system with a large number of cameras. This makes selection of cameras on the DECT phone menu easier. 8.28.3 CAMERA SELECTION VIA DECT PHONE MENU The Cameras menu is available in the Mitel 602 DECT phone System menu, if at least one camera is plugged and activated by the enable flag the DECT phone user has the permission to select cameras the DECT phone is located within a site, which allows terminal video The user navigates within the camera menu using the OK (and ESC) keys. When the desired camera is selected in the list, the user can press the hook off button to establish a video stream. If the number of cameras exceeds the lines of the DECT phones display, the presentation is arranged hierarchically. At least one sublevel must be selected in this case before camera names are offered. The hierarchy of the referred DECT base stations (site, building, etc) is inherited for that purpose. The destination of a video call is added to the DECT phone internal redial list. Please note: During an established video link, audio calls or any system service activities are not possible. Any kind of auto callback (initiated by a message by a message or pushed by xml notification to direct dial) is not supported. 8.29 USER MONITORING To check the availability of a user in terms of the possibility to receive calls or messages, the OMM monitors the status of the users DECT device. 307 SIP-DECT OM System Manual 8.29.1 OVERVIEW With the user monitoring feature the following fixed set of status information is monitored:
Is a DECT phone assigned to the user?
Is the DECT phone subscribed to the DECT system?
Handset assignment status (HAS) Handset subscription status (HSS) Is the DECT phone currently registered /signed in?
Handset registration status (HRS) Are there DECT phone activities within a specific timeframe?
Is the user registered at the SIP registrar?
Is the DECT phone not in silent charging mode (silent charging option active and in the charger cradle)?
Handset activity status (HCS) SIP user registration status (SRS) Silent charging status (SCS) Is the feature immediate call diversion inactive?
Call diversion status (CDS) Is the battery charge higher than the configured threshold?
Does the DECT phone have the minimum required software version?
Handset battery state (HBS) Software Status (SWS) If all questions can be answered with Yes then the user status is set to Available. This set of status information is monitored if user monitoring is enabled for a user. The status of all monitored users is displayed in the DECT Phones -> User monitoring menu (see also section 8.29.7.3). The status information can have one of the following values:
The sum of all specific states is presented by the Combined User Status. If one of the states is set to unavailable, the resulting Combined User Status is set to unavailable as well. Because of dependencies between the states, some states cannot be determined if a higher level state is not fulfilled. For example, if the user has no DECT phone assigned, the DECT phone registration status cannot be determined. If a status cannot be determined, the status value is set to Unknown
(empty in OMP). The status information is available via OM AXI and OMP. 308 Configuration and Administration IMPORTANT : To address customer specific requirements, external applications (e.g. 3rd party software) can provide an addapted functionality of the user monitoring or even more just by using OM AXI. This can be completed by the use of the XML terminal interface. In addition to the standard request, response and notification messages, the OMM generates alarm triggers if a user becomes unavailable. The alarm triggers can be consumed by the OM IMA, OM Locating or another application using OM AXI. If a user becomes available again, the OMM informs about this status change by sending an additional alarm trigger. The specific alarm trigger LOC-ERR-USERSTATE is defined for locating. This alarm trigger is displayed in the OM Locating application with the icon. IMPORTANT : The OM Locating application does not list users who are not locatable, e.g. locating not enabled for the users or because they have no DECT phone assigned. Therefore, the OM Locating application can not handle the LOC-ERR-
USERSTATE with the escalation of the DECT phones assignment state (HAS). 8.29.2 STATUS ATTRIBUTES AND VALIDATION MECHANISMS The combined user status (CUS) is the sum of the specific status information. The CUS is calculated based on the flowing rules:
Specific states which are set to Unknown are ignored. 309 SIP-DECT OM System Manual CUS is set to Available if none of the specific states is set to Warning, Unavailable or Escalated. CUS is set to Warning if at least one of the specific states is set to Warning and none of the other states is set to Unavailable or Escalated. CUS is set to Unavailable if at least one of the specific states is set to Unavailable and none of the other states is set to Escalated. CUS is set to Escalated if at least one of the specific states is set to Escalated. The status Unavailable is changed to Escalated after the escalation timeout has elapsed and an alarm trigger has been generated. 8.29.2.1 A DECT phone must be assigned to the user otherwise the status is Unavailable. Handset Assignment Status (HAS) Fixed user device relation A DECT phone can be assigned permanently to a user (fixed user device relation). Then the status is always available. Dynamic user device relation A DECT phone can be dynamically assigned to a user (dynamic user device relation) and login and logout on a DECT phone is used. If the user is logged out (unbound), the status is Unavailable. If the user is logged in (dynamic), the status is available. Login and logout also change the SIP registration. Precondition: The user must exist in the OMM database. Handset Subscription Status (HSS) 8.29.2.2 The DECT phone must be subscribed otherwise the status is Unavailable. Precondition: A DECT phone must be assigned to the user. Handset Registration Status (HRS) 8.29.2.3 The DECT phone must be attached / signed in (successful location registration) otherwise the status is Unavailable The DECT phone may sent a detach message if it is switched off. Precondition: A DECT phone must be assigned to the user (fixed, logged in) and the DECT phone is subscribed. 8.29.2.4 A communication over the air must occur regularly otherwise the status is Unavailable. Handset Activity Status (HCS) Passive monitoring With every activity between DECT phone and the DECT system (e.g. call setup) the activity information will be updated (last activity, current activity status). This indicates when the DECT phone was the last time able to communicate with the DECT system i.e. within the area of coverage, sufficient battery level, 310 Configuration and Administration etc. There must be an activity within the timeframe defined by the Activity timeout 1 (min. 30 minutes, max. 1440 minutes). Any activity between the DECT phone and the systems sets the status to available. Active monitoring Each DECT phone, that shall be monitored actively, will refresh its registration automatically within the Activity timeout 2 (min. 5 minutes, max. 60 minutes). Each activity sets the status to available. Active and passive monitoring If the DECT phone was not active for the period of time defined by the activity timeout, the OMM automatically initiates an activity between the DECT phone and the DECT system to check the DECT connectivity. If this fails, the OMM sets the status to Unavailable but tries to connect to the DECT phone two times more within the next 2 minutes. The OMM then continues to check the DECT connectivity base on the configured time frame. If the status is already Unavailable, the OMM does not verify the status by two additional tests within 2 minutes. If a check was successful, the status is set to available. If a DECT phone could not be reached (e.g. during call setup or messaging delivery), the OMM tries to connect to the DECT phone two times more within the next 2 minutes before the status is set to Unavailable. Precondition: A DECT phone must be assigned to the user (fixed, logged in). The DECT phone is subscribed and attached (at least once). SIP User Registration Status (SRS) 8.29.2.5 The user must be successfully registered at the configured SIP registrar otherwise the status is Unavailable. A SIP registration is initiated automatically by the OMM during start-up if the users DECT phone was attached to the DECT system before restart/failover. The SIP registration will not initiated automatically by the OMM during start-up if the user has no assigned DECT phone (fixed user device relation, login), the DECT phone is not subscribed or the DECT phone was detached (e.g. switched off) before restart/failover. A user will be deregistered if the DECT phone subscription is deleted/terminated, the user logs off from a DECT phone or the DECT phone is detached (e.g. switch off). Precondition: A DECT phone must be assigned to the user (fixed, logged in). The DECT phone is subscribed and attached (at least once). Silent Charging Status (SCS) 8.29.2.6 If silent charging is enabled and the DECT phone is put into the charger, the DECT phone is in silent charging mode and does not indicate incoming calls with an audible signal. The DECT phone must not be in silent charging mode otherwise the status is Unavailable. Precondition: A DECT phone must be assigned to the user (fixed, logged in). The DECT phone is subscribed and attached/signed in to the DECT system. 311 SIP-DECT OM System Manual Call Diversion Status (CDS) 8.29.2.7 The user has no immediate call diversion (unconditional call forwarding) configured otherwise the status is Unavailable. If the user has configured a call diversion for No answer / Busy no answer with a forward time 0, this will be handled by user monitoring like unconditional call forwarding. Precondition: The user must exist in the OMM database. The SIP supplementary service Call forwarding / Diversion is enabled in the OMM (see pages 76 and 142). Handset Battery Status (HBS) 8.29.2.8 The battery level of the DECT phone must be greater than the configured threshold value; otherwise the status is set to Warning. Precondition: A DECT phone must be assigned to the user (fixed, logged in). The DECT phone is subscribed and attached. Delivery of battery level is supported. 1 Software Status (SWS) 8.29.2.9 The DECT phone software must provide the minimum of required features which could be controlled by the current OMM version. Therefore the appropriate minimum DECT phone software version is hard coded in the OMM and validated by user monitoring. The status will be set to Warning if the DECT phone software version is less than the hard coded value of the OMM. Delivery of the software version is supported only by Mitel 600 devices. Precondition: A DECT phone must be assigned to the user (fixed, logged in). The DECT phone is subscribed and attached. 2 8.29.3 ESCALATION If the OMM detects the unavailability of a user (marked as unavailable), this will be escalated only once by submitting a warning alarm trigger via OM AXI. If the OMM detects finally the unavailability of a user (marked as unavailable/escalated), this will be escalated only once by submitting an alarm trigger via OM AXI. The user must become available again before the unavailability of a user will be escalated the next time. 8.29.4 ALARM TRIGGERS The UMON-WARNING-USERSTATE alarm trigger is used to escalate the detection of the unavailability. The alarm triggers UMON-ERROR-USERSTATE and LOC-ERROR-
USERSTATE are used to escalate the final detection of the unavailability. 1 The Mitel 600 DECT phone family provides battery status information if the DECT phones are updated to the current software version. 2 The Mitel 600 DECT phone family provides software version information if the DECT phones are updated to the current software version. 312 Configuration and Administration The UMON-OK-USERSTATE alarm trigger is sent by the OMM if a user becomes available again. These are static, predefined alarm triggers like SOS and MANDOWN which do not have a telephone number to call. The alarm triggers UMON-WARN-USERSTATE, UMON-ERR-USERSTATE and LOCERR-
USERSTATE provide information about the cause why the user became unavailable (one or more of status attribute IDs: HAS, HSS, HRS, HCS, SRS, SCS, CDS, ). 8.29.5 OM LOCATING APPLICATION To be visible in the OM Locating application, the monitored user must be locatable. Tracking can be enabled. The alarm trigger LOC-ERR-USERSTATE is handled like SOS (
will be established. The alarm trigger LOC-ERR-USERSTATE will be displayed as a Customer specific event (
), ManDown (
) but no voice call
). 8.29.6 LICENSING AND SYSTEM CAPACITIES The User monitoring feature does not require a specific license. The number of monitored users is limited, as follows:
RFP OMM PC OMM Passive monitored users: 30 Active monitored users: 20 Passive monitored users: 300 Active monitored users: 200 An OMM system health state will be set if the number of monitored users exceeds the system capabilities. In this case also an associated health state alarm trigger will be generated. 8.29.7 CONFIGURATION User monitoring can be administered via the OMP. 313 SIP-DECT OM System Manual 8.29.7.1 System settings: User monitoring Menu The following parameters can be configured on system level. Locating escalation: If this option enabled, the alarm trigger LOC-ERR-
USERSTATE will be generated by the OMM. Default setting is off. Start-up delay: The start-up delay defines the period of time the user monitoring start-up is delayed (between 2 and 15 minutes) after failover or system start-up. Escalation delay: The escalation delay defines the period of time the user monitoring will wait before the unavailable status is escalated. Activity timeout 1: The activity timeout 1 defines the maximum time (between 30 and 1440 minutes) between user activities in passive monitoring mode. Activity timeout 2: The activity timeout 2 defines the maximum time (between 5 and 60 minutes) between user activities in active monitoring mode. Battery threshold: The battery threshold defines the minimum battery load
(between 0 and 100% in steps of 5%). 314 8.29.7.2 DECT Phones Menu Configuration and Administration The following parameter can be configured on user level. Monitoring mode: The user monitoring mode can be set to Off, Passive or Active. Off disables user monitoring. Passive and Active enable user monitoring and control the mode of the DECT phone activity status supervision. Default setting is Off. If user monitoring is activated, the VIP option in the DECT Phones -> Users -> SIP tab for the user will be set automatically (see page 178). The VIP option will not be reset if the user monitoring mode is set to Off. DECT Phones -> User monitoring Menu 8.29.7.3 The status of all monitored users is presented by the OMM in the DECT Phones -> User monitoring menu. User Configuration Files 8.29.7.4 The parameter UD_UserMonitoring controls the monitoring for a user. The parameter can be set to Off, Passive, or Active. 8.29.7.5 OM IMA Application If messages shall be sent out by the OM IMA application, the administrator must configure appropriate alarm scenarios for the alarm triggers in the OM IMA configuration file:
UMON-OK-USERSTATE UMON-WARN-USERSTATE UMON-ERR-USERSTATE 8.29.8 START AND FAILOVER The availability status is set to Unknown at start-up. The monitoring feature does not escalate any user status during start-up until a configurable delay of min. 2 minutes and max. 15 minutes has elapsed. 315 SIP-DECT OM System Manual The start-up delay should be adjusted according to the system start-up. The system start-up depends on the actual physical configuration, infrastructure components and parameter settings. The statistic counter Sync RFP start-up time and Sync Cluster start-up time help to find an appropriate value for the start-up delay. As soon as the start-up delay has elapsed, the status attributes are checked and the availability status will be determined. If the result is Unavailable, the status will be escalated. The SIP registration process runs independently from the user monitoring start-up and infrastructure start-up. Monitored users as well as other users, who have the VIP flag set, are registered first. 8.29.9 SUPPORTED DECT PHONES The Mitel 600 DECT phone family is fully supported. 1 The following states are managed independent of the DECT phone type:
Handset assignment status (HAS) Handset subscription status (HSS) Handset registration status (HRS) Handset activity status (HCS)7F7F2 SIP user registration status (SRS) Call diversion status (CDS) Notes on Mitel 142d The Mitel 142d DECT phones are supported by SIP-DECT and have an enhanced feature set compared to GAP DECT phones. For Mitel 142d the availability status is always set to Warning because of the limited feature set. The following states are not supported:
Handset battery state (HBS) always set to Unknown Software Status (SWS) always set to Warning to indicate the limited feature set Silent charging state (SCS) always Unknown If the DECT phone is put into silent charging mode then it sends a Detach, like it is switched off. Comments on GAP DECT phones GAP DECT phones are supported by SIP-DECT with a basic feature set. The availability status is always set to Warning because of the limited feature set. 1 The DECT phones must be equipped with the software version that corresponds to the SIPDECT release. Otherwise, functionality may be limited. 2 GAP devices do not support the active monitoring. 316 Configuration and Administration The following states are not supported:
Handset battery state (HBS) always Unknown Software Status (SWS) always set to Warning to indicate the limited feature set Silent charging state (SCS) always Unknown GAP DECT phones do not support the active monitoring (Handset activity status /HCS). In general, there is no guarantee for the correct interworking of the 3rd party DECT phone with SIP-DECT. 8.29.10 RESTRICTIONS The described mechanisms check the status information in the OMM. Therefore the solution has certain limitations. The OMM determines the availability of the DECT device which does not necessarily represents the availability of the user. It is not possible to determine whether a user actually carries his device with or not. The check of the availability does not include the infrastructure to which the OMM is connected (e.g. call manager, etc.). A user appears as available even if the call manager fails. Feature (especially call diversion) when managed by the call server can undermine the monitoring. If a user is removed from the OMM, the monitoring stops without escalation. It cannot be checked if the user belongs to an alarm scenario configured in the alarm server or any other application scenario. 8.30 SRTP Together with the new 3rd or 4th generation RFPs, SIP-DECT supports SRTP to encrypt the RTP voice streams and SDES for the SRTP key exchange. There are three options for SRTP:
SRTP only: Only SRTP calls will be accepted, all other will be rejected (the audio part of the SDP contains RTP/SAVP). SRTP preferred: All calls will be initiated as secured, but accepted if they are not secured (the audio part of the SDP contain RTP/AVP). SRTP disabled: Only RTP calls will be initiated as not ciphered and incoming ciphering algorithm will be not accepted. All communications are established unencrypted. SIP-DECT provides the cipher suite AES_CM_128_HMAC_SHA1_80. 317 SIP-DECT OM System Manual SRTP calls from DECT phones with DECT handover require that the SRTP functionality must be homogenously available on all effected RFPs. To allow mixed installations with the older RFP types 32/34 and 42 WLAN, the SRTP feature can be enabled or disabled per site. Whereby, SRTP can only be activated on sites with only 3rd or 4th generation RFPs included. IMPORTANT : A handover of an SRTP call to a site with disabled SRTP will drop the call. IMPORTANT : SDES specifies as key exchange method the negotiation over SDP included in the SIP signaling. Therefore, we recommend to use TLS to encrypt the key exchange. IMPORTANT : Please enable SRTP = only mode exclusively when all communication can be established with SRTP. Depending on the call server some features or gateways may not offer SRTP. 8.31 SIP OVER TLS The transport protocol modes TLS or Persistent TLS enable a private and authenticated signaling, including safe key exchange for SRTP encryption. The transport protocol and all further security settings can be set via the OMP System -> SIP-> Security tab and the OMP System -> SIP-> Certificate Server tab. The following parameters can be set:
8.31.1.1 General Transport protocol: The protocol used by the OMM to send/receive SIP signaling. Default is UDP. Persistent TLS Keep alive timer active: When enabled and Persistent TLS is selected as transport protocol, the OMM sends out keep alive messages periodically to keep the TLS connection open. Persistent TLS Keep alive timer timeout: Specifies the time, in seconds, between keep-alive messages sent out by the OMM. Valid values are 10 to 3600. Default is 30 seconds. Send SIPS over TLS active: When enabled and TLS or Persistent TLS is selected as transport protocol, the OMM uses SIPS URIs in the SIP signaling. Default is ON. TLS authentication: When enabled and TLS or Persistent TLS is selected as transport protocol, the OMM validates the authenticity of the remote peer via exchanged certificates and the configured Trusted certificates. Default is ON. TLS common name validation: When enabled and TLS authentication is selected the OMM validates the Alternative Name and Common Name of the remote peer certificate against the configured proxy, registrar and outbound proxy settings. If there is no match an established TLS connection will be closed immediately. 318 Configuration and Administration 8.31.1.2 PEM file import Allows the manual import of Trusted, Local Certificates and a Private Key in PEM file format. The following parameters can only be read and should ease the handling of certificates:
Trusted Certificates: The number of imported trusted certificates. Local Certificate chain: The number of imported certificates in the local certificate chain. Private Key: Is a private key imported or not. 8.31.1.3 Certificate server Optionally is also an automatic import of Trusted, Local Certificates and a Private Key files from an external server possible. This can be configured on the Certificate Server tab. The following parameters allow an automatic import:
Active: Enable or disable the automatic import. Protocol: Selects the preferred protocol (FTP, TFTP, FTPS, HTTP, HTTPS, SFTP) Server: IP address or name of the server User Name / Password / Password confirmation: The server account data if necessary. Path: The path on the server to certificate files. Trusted certificate file: The name of the PEM file on the given server including the trusted certificates. Local certificate file: The name of the PEM file on the given server including the local certificate or a certificate chain. Private key file: The name of the PEM file on the given server including the local key. 8.31.2 CERTIFICATES The use of TLS or Persistent TLS requires the import of certificates to become operational. Item When Needed Setting Trusted Certificates For TLS and Persistent TLS A PEM file with a list of all (self-signed) CA certificates needed to verify remote certificates. May also contain trusted intermediate certificates instead of or in addition to self-signed certificates In many cases there is only one certificate in this list:
The self-signed certificate which is used by the SIP proxy and registrar or which was used to sign that certificate. Local Certificate Private Key For TLS: Always A PEM file with the OMMs certificate chain For Persistent TLS: Only if the server verifies the client certificate A PEM file with the OMMs private key 319 SIP-DECT OM System Manual All certificates and keys must be provided as X.509 certificates in PEM file format. They must use the RSA algorithm for their keys and signatures and MD5 or SHA-1 for their hashes. Although PEM files usually contain a textual description of the certificate, only the Base64-encoded portions between
-----BEGIN CERTIFICATE-----
and
-----END CERTIFICATE-----
are actually evaluated. However, the files can be uploaded to the OMM with their full content. There are two sets of certificates which can be set up in the OMM, which are described in the following sections. Trusted Certificates The trusted certificates are used to verify the signatures of certificates sent by remote hosts. The corresponding PEM file may contain multiple certificates. Their order is not relevant. Certificates are searched in the trust store according their subject name, the key identifier (if present), and the serial number as taken from the certificate to be verified. Local Certificates The local certificate or local certificate chain is sent to remote hosts for authentication. In corresponding PEM files the host certificate must be in the first position, followed by intermediate certificates if applicable. The last certificate is the self-signed root-certificate of the CA. The root certificate may be omitted from the list, as the remote host must possess it anyway to verify the validity. This means that if there are no intermediate certificates, this file may contain only one single certificate. 8.31.3 PRIVATE KEY The Private Key is also contained in a PEM file. The Local Certificate must match to the Private Key. Although PEM files may contain a textual description of the key, only the Base64-encoded portions between
-----BEGIN RSA PRIVATE KEY-----
and
-----END RSA PRIVATE KEY-----
is actually evaluated. However, the file can be uploaded to the OMM with its full content. 8.31.4 TLS TRANSPORT MODE The OMM distinguishes the both TLS transport modes TLS and Persistent TLS. When the OMM is configured to use TLS (Transport protocol: TLS), TLS connections to remote peers, e.g. SIP proxies and registrars, are connected as needed. For TLS connections initiated by the OMM, it is a TLS client. If a remote peer sets up a TLS connection, the OMM is the TLS server. Connections are closed when they have not been in use for a certain time. The terms server and client refer to TLS connections below, not to SIP transactions. 320 Configuration and Administration The OMM always verifies the server certificate when it sets up an outgoing connection and it verifies the client certificate on incoming connections. Therefore following configuration parameters must be set for this mode: Trusted Certificates, Local Certificate and Private Key. When the OMM is configured to use persistent TLS (Transport protocol: Persistent TLS), it sets up TLS connections to SIP Servers and keeps them connected. When a connection is closed for whatever reason, the OMM tries to re-establish it immediately. It does not accept incoming connections from remote ends. Thus the OMM is always TLS client when Persistent TLS is in use. The advantage of Persistent TLS is a faster call setup time and lower processing power needed on both sides. The OMM always verifies the server certificate, therefore following configuration parameters must be set for this mode: Trusted Certificates If the server verifies the client certificate, additionally Local Certificate and Private Key must be set. 8.31.5 VERIFICATION OF REMOTE CERTIFICATES When TLS authentication is ON, a remote certificate is verified by the OMM as follows:
The signature of the certificate is checked with the public key of the signing certificate. The certificate chain is checked until a Trusted Certificate is found. If self-signed certificate is found which is not trusted, the verification fails. The current time must be in the validity period of the certificate. For this mechanism a correct system time must be provided (e.g. NTP). If one or more of these checks fail, the TLS connection will be closed. Please note: All certificates are only valid for a limited time given by the issuer. As soon as the validity is expired no further communication is possible. The certificates must be replaced before to prevent a breakdown of call services. When TLS authentication is OFF, the OMM verifies the remote certificates and logs any failure but the established TLS connection will not be closed in case of verification failures. IMPORTANT : To prevent man-in-the-middle attacks we recommend not to disable the TLS authentication in unsecure environments. We recommend setting TLS authentication and TLS common name validation to ON in any unsecure environments for the best security. 8.31.6 ADDITIONAL SECURITY CONSIDERATIONS For highest security requirements there are additional considerations to be taken into account when enrolling an OpenMobility system. To prevent manipulations during the initial upload of certificates and keys to the OMM completely, this should be done in a small private network without a physical connection to an insecure network. IMPORTANT : To prevent manipulation of certificates and keys in unsecure environments we recommend not to use the automatic import of certificates and keys. Especially the unsecure protocols TFTP, FTP and HTTP must be avoided. It is 321 SIP-DECT OM System Manual also recommended to protect the selected protocol with a login to prevent unauthorized access to the private key file. Furthermore, it is important that the root and administrator passwords of the OpenMobility system are safe, because with these passwords an attacker could change the configuration to manipulate the system in various ways. Although all keys and certificates in the database are encrypted, an automated database backup or download could be a security leak if the network, transport protocol or servers used are not protected against manipulations. 8.32 DECT ENHANCED SECURITY Security aspects in the DECT standard have been improved after concerns were raised in the market in recent years. Therefore various enhancements have been introduced. The usage of many security features, which were already available in the DECT standard (respectively GAP) from the beginning, was left optional for the devices. These mechanisms became mandatory together with CAT-iq. Almost each of these functionalities was present and used within SIP-DECT right from the start. Furthermore, some new features have been added to GAP:
Encryption of all calls (not only voice calls) Re-keying during a call Early encryption Each procedure brings additional guarantee on security and is an integral part of the SIP-DECT solution. The feature set can be enabled or disabled per site. This distinction is necessary due to the fact, that enhanced security is available with RFPs 35/36/37/43/44/45/48 only. From release 5.0 on, when DECT enhanced security is enabled, every connection will be encrypted, not only voice calls, but also such as service calls (e.g. list access) or messaging. Additionally, the cipher key used for encryption during an ongoing call is changed every 60 seconds. Finally, every connection is encrypted immediately upon establishment to protect the early stages of the signaling such as dialing or CLIP information. DECT enhanced security is only supported together with Mitel 602 DECT phones. Older terminals (e.g. 6x0d or 142d) or GAP phones will still operate as ever, but not provide the new security mechanisms. 8.33 MIGRATION OF RFP SL35 IP FROM SIP-DECT LITE 3.1 TO SIP-
DECT 6.1 The SIP-DECT Lite solution realized a single-cell DECT network that offered only limited radio coverage and was operated with one RFP SL35 IP. The SIP-DECT Lite solution was part of the SIP-DECT product family that offered larger radio coverage by realizing multi-cell DECT networks with up to 256 RFPs. You can integrate the RFP SL35 IP to a multi-cell SIP-DECT network. The migration from SIP-DECT Lite to the current release of the standard SIP-DECT system is supported. During the migration the SIP-
DECT Lite software is replaced by the standard SIP-DECT software on the RFP SL35 IP and a reset to the factory setting is performed. All configuration data are removed from the base station. The following migration process must be performed. 322 Configuration and Administration Precondition: Unique UNLOCK.xml file is available for the specific RFP SL35 IP. 1 Remove the USB flash memory from the RFP SL35 IP and plug it into your computer. 2 Copy the unlock.xml file onto the USB flash memory. 3 Copy the standard SIP-DECT SW (iprfp3G.dnld) onto the USB flash memory of the RFP. 4 Check if the following files are on the USB flash memory (no other files should be on the USB flash memory except SIP-DECT Lite DB backup field omm_conf.txt which is not relevant). a. PARK.xml b. UNLOCK.xml c. iprfp3G.dnld 5 Remove the USB flash memory from your computer and plug into the RFP SL35 IP. 6 The migration process starts automatically after plugging the USB flash memory into the RFP. 7 Wait for the RFP reboot and start-up. Do not interrupt the electric power during this process. 8 The SW update for RFPs in standard SIP-DECT installations are provided by other means than to copy the SW on the USB flash memory. Therefore the iprfp3G.dnld must be removed from the USB flash memory. Make sure that the PARK.xml and UNLOCK.xml remain on the USB flash memory. 9 Also after the migration, make sure that the USB flash memory is always plugged in the RFP. 10 Now, the RFP SL35 IP has the standard SIP-DECT SW and the UNLOCK.xml file and can be operated in standard SIP-DECT installations. Please follow the standard procedures to setup a SIP-
DECT installation. 8.34 802.1X CERTIFICATE BASED AUTHENTICATION You can assign a group certificate to all RFPs of a SIP-DECT installation for certificate based authentification to open the switch ports the RFPs are connected to. 323 SIP-DECT OM System Manual 8.34.1 802.1X CONFIGURATION You can import trusted certificates, a local certificate chain and a private key file for 802.1x certificate based authentication manually through OMP or OMM configuration files. 8.34.1.1 Configure and store 802.1x certificate settings 802.1x certificate data are optional parameters. 802.1x certificate based authentication works only if valid certificate data is configured and the feature is set to enabled. 802.1x certificate data is stored centrally in OMM database and can be set by OMP, through an OMM provisioning file or from a certificate server. The centrally stored 802.1x certificate data remains valid until it is changed or removed by one of the configuration sources. The stored 802.1x certificate data is used after a reset/reboot/power cycle even if the provisioning server is not reachable. RFPs receive the encrypted 802.1x certificate data from OMM via a HTTP file request, for example, after reboot or after notification of new certificate data from the OMM. Only RFPs can decrypt and use the certificate data. The 802.1x certificate data will be stored locally on RFPs. 324 Configuration and Administration 8.34.1.2 Configure and store 802.1x certificate server settings 802.1x certificate server settings are optional parameters. If configured, the OMM uses the configured file server to load/update the 802.1x certificate data (group certificate, private key, Trusted (CA) certificate(s)) 802.1x certificate server settings are stored centrally in OMM database and can be set by OMP or via an OMM provisioning file. 8.34.1.3 Discard OMM DB or RFP factory reset, which are offered as restart options The 802.1x certificate data and the 802.1x certificate server settings on the (RFP-) OMM are lost. The 802.1x certificate data and the 802.1x certificate server settings have to be configured again; otherwise, the RFPs receive empty 802.1x certificate data on the next 802.1x update. To delete 802.1x certificate data from a RFP, the data can be deleted on the OMM
(applies to connected RFPs), or a factory reset of an RFP can be initiated (OM-
Configurator or through an prepared USB stick). 8.34.2 PREREQUISITES REFERRING TO 802.1X TOPOLOGY 802.1x group certificate based authentication runs in networks, which fulfill needs of a proper running 802.1x administration:
Radius server Switch port configuration Closed mode (initial 802.1x configuration in safe environment) or low-impact mode
(DHCP, DNS, NTP, TFTP, HTTP (for the transfer of the 802.1x configuration to the RFPs)) enabled. HTTP traffic between the OMM and RFPs in different VLAN (guest VLAN for unauthorized clients) needs to be routed by a layer 3 switch or router so authorized RFPs can receive their 802.1x configuration or guest VLAN (DHCP, DNS, NTP, TFTP - HTTPS to OMM needs to be routed). Traffic between different VLANs (including the native VLAN) is routed by a layer 3 switch or router. Even a proper routing between native VLAN and SDC VLAN is mandatory or guest VLAN
(DHCP, DNS, NTP, TFTP - HTTPS to OMM needs to be routed) Full access to productive network after successfull 802.1x authentication 8.34.3 802.1X FEATURE DESCRIPTION All RFPs of an installation needs to get updated to a firmware which supports 802.1x
(either in a secure environment or on a switch port in low-impact mode or in a guest VLAN were access to DHCP and TFTP is possible). 325 SIP-DECT OM System Manual Initial 802.1x certificate request from OMM needs to be enabled on the RFP through local configuration (OM-Configurator parameter independent from local configuration flag) or a DHCP option (option 43 suboption + unused DHCP option) to prevent impact on existing installations. If 802.1x certificates are already loaded to an RFP, updates are requested independent from this local or DHCP configuration. OMP supports the configuration of 802.1x group certificate data or alternatively the configuration of a certificate server for automatic update of the certificates from a file server. For the group certificate, a unique 802.1x identity for all RFPs is supported. To enable 802.1x on RFP each of them is initialized by DHCP option or OM_Configurator. Otherwise the feature is inactive for a RFP (see 7.36). RFPs request RSA encrypted 802.1x certificate data through HTTP from the active OMM (either in a secure environment or on a switch port in low-impact mode or in a guest VLAN were access to DHCP and to the OMM via HTTP is possible). Certificate data is requested/updated, for example on RFP startup or after a certificate update has been triggered by the OMM. In addition to the certificate data, a RFP receives and applies the admin and root login credentials (user name and password hash). Thereby access to the RFP root file system is no longer possible with the default password of previously unconfigured RFPs. The certificate data is stored reset proof in the RFPs. If an 802.1x certificate data file was received from the OMM, RFP admin and root login credentials cannot be changed through the IPL protocol between OMM and RFP (for example, by connecting to a different OMM system > factory reset required). You can delete 802.1x certificate data from the OMM. Afterwards, the data is deleted from connected RFPs. New edit mode in OMP for 802.1x certificate settings to prevent inconsistent configuration (changed settings will not be used before leaving the edit mode). New DECT base station attribute 802.1x configuration mismatch for the device list in OMP monitoring mode. New health states for 802.1x are supported. A warning message appears while the 802.1x edit mode is active and shows mismatch errors if certificates cannot be updated from the 802.1x certificate server or if not all RFPs have the correct certificate checksum (certificate mismatch). 326 Configuration and Administration New health state for 802.1x 802.1x configuration mismatch in DECT base stations device list (OMP monitoring mode). 327 SIP-DECT OM System Manual 328 Configuration and Administration You can import trusted certificates, a local certificate chain and a private key file for 802.1x certificate based authentication manually through OMP or OMM configuration files. Certificates/key: Shows the number of active 802.1x trusted certificates, the number of 802.1x local certificate chains and whether a 802.1x private key is used. All can be deleted with the Deletecertificates/key button. PEM file import / Import PEM file with: Specifies the type of file 802.1x (trusted certificate, local certificate, or private key) and the location of the file to be imported. General/Client identity: 802.1x supplicant client identity. Private key password/ Password: Specifies the password for the 802.1x private key file. 329 SIP-DECT OM System Manual 8.35 802.1X CERTIFICATE SERVER CONFIGURATION Through configuration of a 802.1x certificate server URL, you can update the 802.1x certificate data automatically. Configuration of the 802.1x certificate server using OMP. User name: Specifies the user name for authentication against the certificate server. Password: Specifies the password for authentication against the certificate server. Active: Enables or disables the certificate server URL feature. Protocol: Specifies the protocol to be used to fetch the certificate files. One of FTP /
FTPS / SFTP / HTTP / HTTPS / TFTP / None. Port: Specifies the certificate servers port number or use of the default port for the used protocol. Server: Specifies the IP address or name of the certificate server. Path without the filename: Specifies the path to the certificate files on the certificate server. Trusted certificates file: Filename of the trusted certificates to read from the server. 330 Configuration and Administration Local certificate chain file: Filename of the local certificates to read from the server. Private key file: Filename of the private key to read from the server. 8.36 INITIATE 802.1X BY DHCP OPTIONS OR OM_CONFIGURATOR Before 802.1x starts the feature, it has to be initialized by DHCP or by the OM_Configurator tool. 8.36.1 DHCP OPTIONS There are two ways, either DHCP option 226 or the vendor specific option 43 (code 226) can be used. DHCP option 226 set this option to 1 the option is optional Vendor specific option 43 set code 226 to 1 code 226 is optional 8.36.2 OM_CONFIGURATOR Select the parameter Activate 802.1x and set it to true. If .csv config files are used, set the common value use_802_1x=1. 331 SIP-DECT OM System Manual 9 MAINTENANCE 9.1 SITE SURVEY MEASUREMENT EQUIPMENT If a SIP-DECT installation must be planned, a sufficient distribution of DECT base stations that meets the requirements for reliable synchronization and connectivity to the DECT phones is necessary. The site survey kit may help you. It comprises:
One measuring RFP with its own power supply. A tripod and a battery for the RFP. Two reference DECT phones with chargers. Battery chargers. Optional a measuring DECT phone which can monitor other makers DECT radio sources. 9.2 CHECKING THE MITEL HANDSET FIRMWARE VERSION You can display the version information of a Mitel 600 or Mitel 142d DECT phone with a few keystrokes. Check the firmware version to determine whether an update is required to overcome any user issues. 11 Press the Menu soft key. 12 Select System (only to highlight). 13 Press OK. 14 Select Version Number. 15 Press OK. The display shows the software and the hardware version of the Mitel DECT phone. 9.3 DIAGNOSTIC 9.3.1 MITEL DECT PHONE SITE SURVEY MODE You can switch a Mitel 600 or Mitel 142d DECT phones into site survey mode with a few keystrokes. In this mode the phone will display the RFPs and the actual field strength of the receiving signal in dBm. 1 Press the Menu soft key. 2 Enter the following key sequence ***76# (Mitel 600 ) or R***76# (Mitel 142d). 3 Select Site Survey. 4 Press OK. 5 To leave the site survey mode, switch the phone off and on again. 332 The following display is shown on the Mitel DECT phone:
PARK: 1F-10-FF-F0-21 RFP ID: 02*
Maintenance RFPI 10FFF21 02 Frame error FE PP: FP:
Field strength
-dBm 50 57 50 RFP ID RPN02 01 00 RFP ID: 02*
*The ID of RFP to which the PP is currently associated to. Menu Phonebook In this example the DECT phone is currently connected to the RFP with the number 02. The RFPs 01 and 00 are also visible. The number 10FFF221 02 on the upper right side refers to the PARK (Example 1F-10-F2-21) of the SIP-DECT system and to the RFP to which the phone is currently connected to. 9.3.2 MITEL HANDSET AUTO CALL TEST MODE You can switch a Mitel 600 or Mitel 142d DECT phones into auto call test mode with a few keystrokes. In this mode the phone will call a specified number cyclically. You can use this feature to generate traffic for test purposes. This mode is also active if the phone is on the charger. 1 Press the Menu soft key. 2 Enter the following key sequence ***76# (Mitel 600 ) or R***76# (Mitel 142d). 3 Select Auto Call Test. 4 Press OK. 5 Enter the phone number to call. 6 Press OK. 7 Enter a number of seconds between two calls. 8 Press OK. 9 Enter a number of seconds a call shall be active. 10 Press OK. The test will be started automatically. 11 To stop the test, switch the phone off and on again. 9.3.3 MITEL HANDSET AUTO ANSWER TEST MODE You can switch a Mitel 600 or Mitel 142d DECT phone into auto answer test mode with a few keystrokes. In this mode, the phone answers incoming calls automatically. You can use this feature together with phones in the auto call test mode (see the above section 9.3.2) for test purposes. This mode is also active if the phone is on the charger. 333 SIP-DECT OM System Manual 1 Press the Menu soft key. 2 Enter the following key sequence ***76# (Mitel 600 ) or R***76# (Mitel 142d). 3 Select Auto Answer. 4 Press OK. 5 Enter a number of seconds the phone shall ring before it will answer the call. 6 Press OK. 7 Enter a number of seconds a call shall be active. 8 Press OK. The test will be started automatically. 9 To stop the test, switch the phone off and on again. 9.3.4 SYSLOG The OpenMobility Manager and the RFPs are capable of propagating Syslog messages conforming to RFC 3164 (see /13/). This feature together with the IP address of a host collecting these messages can be configured. Syslog must be enabled by:
DHCP using the suboption 14 and 15 of vendor option 43. Setting the syslog daemon server and port via the web interface. To set up the syslog via DHCP or the OM Configurator has the advantage that syslogs are available in earlier states of the RFP startup. The level of syslog messages in the default state allows the user to have control over the general system state and major failures. 334 Maintenance 9.3.5 SSH USER SHELL Each RFP offers a lot of commands within the SSH shell. Most of them are useful for diagnostics and may help experts to resolve failures. Note: Some commands can harm the system operation. The SSH access of an RFP is open if the RFP is connected to an OMM and the Remote Access is switched on or the RFP is not connected to an OMM. To activate the SSH access of an RFP that has a connection to an OMM, enable the Remote access checkbox on the OMM System settings web page (see section 5.4.1.1). In the OMP, the SSH access is activated/deactivated in the General tab of the System -> Basic settings menu (see section 6.5.1). 9.3.5.1 Login To log into the SSH user shell:
1 Open an SSH session to the IP DECT base station with the Full access user name. 2 Enter the password for the Full access account (see also 8.17.1). The output should look like:
Welcome to IP RFP OpenMobility SIP Only Version 2.1.x last reset cause: hardware reset (Power-on reset) omm@172.30.206.94's password:
omm@172.30.206.94 >
9.3.5.2 Command Overview Type help to get a command overview:
Command exit,quit,bye ommconsole ip_rfpconsole rfpm_console wlan_console ics_console ldb setconsole noconsole dmesg logread su Description Leave session OMM console RFP console RFP manager console WLAN console ICS console View / set local configuration (OmConfigurator) Duplicate messages to console Do not duplicate messages to console Messages from last boot Last messages Switch to user root 335 SIP-DECT OM System Manual ping traceroute free ps top ifconfig uptime reboot date Well known ping Well known traceroute Well known free Well known ps Well known top Well known ifconfig Well known uptime Well known reboot Well known date (time in UTC) 9.3.5.3 OMM Console On Linux Server You can call the OMM console on the Linux server which runs the OMM using the ommconsole command. Log on as root as it is necessary to install and/or update OMM. IMPORTANT : If you not login as root to open the OMM console then the path to ommconsole is not set and you must enter the whole path /usr/sbin/ommconsole to start the OMM console. 9.3.5.4 RFP Console Commands If you type ip_rfpconsole you are able to use the following commands on each RFP:
Command Description
?
bt confmix help logger deftrc runtime mem exit heap heapcheck heapdetails jpeg lu10 mclose 336 Displays Command Help Table Bluetooth commands Displays status of conference mixer Displays Command Help Table Send a string to the syslog daemon Resets all trace settings to default Reports the process runtime Show memory and heap Leave this console Shows heap buffer statistics Verifies the guard space of all via doss allocated buffer. Heap functions are locked during check Print detailed heap usage Jpeg helper commands Lu10 SDU <-> PDU converter Close a media channel Maintenance Command Description mconf media mopen mroute mstart mstop mswo mtime mutex omms Configure IP settings for a media channel Display state of media channels Open a media channel Display media routes Start a media channel Stop a media channel Codec switch over for an active call Display media time statistics Lists all created MXP mutexes Shows connection status to OMM(s) otpdbCheck Check all OTP pages for valid elements queues reset resume sem signals spy suspend tasks tickres timer video Lists all created MXP queues Resets the IPRFP application Resume bmc activity Lists all created MXP semaphores Print signal dwell time in queues Set/display spy levels: [ <key #> <level #> ]
Suspend bmc activity Lists all running MXP tasks Print tick resolution Print running timer Video commands Please note: The spy command enables you to increase the level of syslog messages. This should be only used by instructions of the support organization because it can harm the system operation. 9.3.5.5 OMM Console Commands If you have opened the session on the OMM RFP and you type ommconsole, you are able to use the following OpenMobility Manager (OMM) related commands:
Command Description
?
adb axi axic Displays Command Help Table Automatic DB export and import (ADB) console AXI commands Task console for AXI command processing of provisioning files 337 SIP-DECT OM System Manual Command Description cert cmi cnf cron help logger deftrc dlc dm dsip epr Certificate import console CMI commands Show configuration parameters Display pending cron jobs Displays Command Help Table Send a string to the syslog daemon Resets all trace settings to default DECT Data Link Control Download Over Air Manager DSIP commands External provisioning task (EPR) console and dynamic users console runtime Report the process runtime mem exit gmi hcm heartbeat ima inspect ipc ipl iplfilter lic loc mon msm msmtrc mutex nwk prov queues rcmd rfp rfpd rfps 338 Show memory and heap Leave this console DECTnet2 Inter Working Unit Handset configuration management task (HCM) console Configure heartbeat mechanism for IP-RFPs IMA commands Display information of a user Display socket communication Display connected RFPs Configure which RFPs spy messages are generated for LIC commands Info about locating extension Toggle monitor functionality Display states within MediaStreamManagement Display / modify list of traced DECT phoneNs List all created MXP mutexes DECT network layer Prov-related commands List all created MXP queues Remote command on RFPs shell Radio Fixed Part Control Radio Fixed Part Debug Radio Fixed Part Statistic Command Description Maintenance rping rspy rsx rtt sem spy standby stat sync sysdump tasks tickres trc tzone uds umo upd update uptime ver video wlan xml xsc Request one or more RFPs to ping a host Remote configure spy levels on IP-RFPs Toggle RSX debug port on RFPs Set event flag for high RTT values / clear values List all created MXP semaphores Set/display spy levels: [ <key #> <level #> ]
Displays redundant OMMs Statistic Commands for RFP synchronization Initiate system dump List all running MXP tasks Print tick resolution Back trace task Time zone commands UDS commands UMO commands Display update status of RFPs Force all connected RFPs to search for new software Display OpenMobility Manager uptime Version information Command for video devices Display states within Wireless LAN Management XML browser task (XML) console XSC commands Please note: The spy command enables you to increase the level of syslog messages especially for subsystems of the OMM. This should be only used by instructions of the support organization because it can harm the system operation. 9.3.6 CORE FILE CAPTURING Fatal software problems may result in memory dumps, so called core files. These core files are helpful in analyzing the problem that caused the abnormal termination of the program. The IP RFP is capable of transferring the core files to a remote fileserver. Without any special configuration the files are transferred to the TFTP server that is used to get the system software. The path used is the directory of 339 SIP-DECT OM System Manual the boot image. These two configuration items are retrieved from DHCP or via local configuration using the OM Configurator. You can configure the URL to a writable directory via the OMM (see section 5.4.1.14) or through the OM_CoreFileSrvUrl variable in the ipdect.cfg configuration files. Please note: The server must allow writing new files (not typically enabled by default). 9.3.7 DECT MONITOR Please note: The DECT Monitor has been replaced by OMP but the DECT Monitor can still be used without warranty for SIP-DECT installations with a standard PARK and up to 256 RFPs all within paging area 0. For better error detection in the SIP-DECT system the DECT Monitor can be used. The DECT Monitor is an MS Windows based stand-alone program. It provides the possibility to give a real-time overview of the current IP DECT base station and telephone states in the SIP-DECT system. The following features are provided by the DECT Monitor:
Reading out of the DECT configuration of an SIP-DECT system. Configuration can be stored in an ASCII file. Display of DECT transactions IP DECT base station <> telephone in clear tabular form with highlighting of handover situations. Real-time display. Display of further events concerning the status or actions of IP DECT base stations and telephones of the SIP-DECT system. All events can also be recorded in a log file. Display of the synchronization relations between the RFPs. Monitoring of systems with up to 256 IP DECT base stations and 512 DECT phones. Reading out and display of IP DECT RFP statistics data, either for a single IP DECT RFP or for all IP DECT RFPs. Display of DECT central data of the SIP-DECT system. The DECT Monitor program can only be used when the DECT monitor checkbox is activated on the flag in the OMM System settings web page. Please note: Because of security, the DECT monitor flag is not stored permanently in the internal flash memory of the OMM/RFP. After a reset the DECT monitor flag is disabled. The DECT monitor program is used together with the SIP-DECT system. When the program is started, the user is requested to enter the IP address of the IP DECT RFP or the server running the OpenMobility Manager (OMM) software. There can be several reasons for an unsuccessful link establishment:
Operation of DECT monitor is not enabled inside the OMM. Use the OMM web service to enable DECT monitor operation. IP address is not correct. It must be the address of the RFP the OMM is running on. 340 Maintenance A link routed to the RFP is not supported. The program displays the IP address which was used last time. When the program is started, a link to the OMM is automatically established and the program window shows all user configured child windows and tables. When all links have been established, the DECT data of the system are automatically read out and entered in the tables RFP-Table and DECT phone-Table. This procedure is called Config Request. Next, the defined trace options (Event Mask) are sent to the OMM. The options which are sent to the OMM are always those which were active the last time the program was exited. If the trace option Transaction establish/release is activated, the OMM will deliver all existing transactions. Following this, the OMM system delivers the desired trace data. The user can either communicate with the program interactively (see below) or he can simply activate a log file in which to record the data. Following this initialization, the user can carry out the following modifications:
The trace settings can be modified using the menu item Options-Event Mask. Transmission to the OMM takes place after confirmation of the settings with OK. A Config Request can be sent again to the OMM. A log file can be activated. By means of various dialogs, the configuration data of the telephones, RFPs and control modules can be displayed and stored in ASCII files. The following information is displayed dynamically in the tables:
Transactions between telephone and DECT system. These are displayed in both tables. Simple transactions are displayed in black on a white background; during handover, both transactions involved are displayed in white on a red background. The Location Registration and Detach events are displayed in the tables for approx. 1-2s after their occurrence (light green background), if possible. There is no display in the FP table if there is no column free for display. If the event has already been displayed, it can be overwritten at any time. The events are not displayed if they occur during an on-going transaction. Irrelevant of whether the events are displayed in the tables, they are always entered in the FP/DECT phone-Events window and in the log file (provided that this is open). The following color scheme is used for display of the RFPs in the RFP table:
341 SIP-DECT OM System Manual RFP gray-blue: IP DECT base station is not active (not connected or disturbance). RFP black: IP DECT base station is active. The data of an RFP are displayed in a dialogue box after clicking on the respective RFP field in the RFP table. The statistics data of the RFP can be called up from this dialogue box. The following color scheme is used for display of the telephone in the DECT phone table:
DECT phone black: Handset is enrolled. It is assumed that the telephone can be reached. DECT phone blue: Handset can presumably not be reached. Detach was received, or when an attempt was made to reach a telephone, the DECT phone did not answer. DECT phone gray blue: Handset not enrolled. The data of a telephone are displayed in a dialog box after clicking on the respective telephone field in the FP table. The Sync Info child window contains all IP DECT base stations and shows their synchronization and relation states to each other. Selecting the IP DECT base stations with the right mouse button, the user can change visibility views and can even force a resynchronization of an IP DECT base station. There are several optional child windows selectable. They are all listed below and give some more information about the SIP-DECT systems. Mostly they are statistics and for internal use only. 342 Maintenance 343 SIP-DECT OM System Manual 10 REGULATORY COMPLIANCE AND SAFETY INFORMATION (4TH GENERATION DECT BASE STATIONS) For regulatory and basic installation guidelines necessary for the proper and safe functioning of this equipment, refer to the Safety Instructions (document part number 5701204601RA) packaged with the system and posted on the eDocs web site (http://edocs.mitel.com/). Read and follow all information contained in the Safety Instructions document before attempting to install or use Mitel products. Only trained, qualified service personnel shall install or maintain Mitel products. 344 Safety Information (3rd Generation Dect Base Stations) 11 SAFETY INFORMATION (3RD GENERATION DECT BASE STATIONS) 11.1 CE MARKING This certifies the conformity of the product placed on the market prior to June 13th 2017 with the regulations which apply in accordance with the RTTE Directive 1999/5/EC. For a copy of the original signed declaration (in full conformance with EN45014), contact the Regulatory Approvals Manager at Mitel Networks Ltd., Castlegate Business Park, Portskewett, Monmouthshire, NP26 5Yr, United Kingdom, or visit http://www.mitel.com/regulatory-declarations. On or after June 13th 2017 hereby, Mitel Networks declares that the product is in compliance with Directive 2014/53/EU. The full text of the EU declaration of conformity is available at the following internet address: http://www.mitel.com/regulatory-declarations. 11.2 COMMUNICATIONS REGULATION INFORMATION The regulation information in this section applies to the following supported DECT base stations:
RFP 32 IP RFP 34 IP RFP 35 IP RFP 36 IP RFP 37 DRC 11.2.1 FCC NOTICES (U.S. ONLY) This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions:
(1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Modifications not expressly approved by this company could void the user's authority to operate the equipment. NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. 345 SIP-DECT OM System Manual 11.3 HEALTH AND SAFETY 11.3.1 EXPOSURE TO RADIO FREQUENCY (RF) SIGNALS:
The wireless phone is a radio transmitter and receiver. It is designed and manufactured not to exceed the emission limits for exposure to radio frequency (RF) energy set by the Federal Communications Commission (FCC) of the U.S. Government. These limits are part of comprehensive guidelines and establish permitted levels of RF energy for the general population. The guidelines are based on the safety standards previously set by both U.S. and international standards bodies. These standards include a substantial safety margin designed to assure the safety of all persons, regardless of age and health. This device and its antenna must not be co-located or operating in conjunction with any other antenna or transmitter. The radiating element of the RFP should be installed during operating at a separation distance greater than 20 cm between user and device. The device complies with the requirements for routine evaluation limits. 11.3.2 INDUSTRY CANADA (CANADA ONLY) Operation of this device is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device. Privacy of communications may not be ensured when using this telephone. Exposure to Radio Frequency (RF) Signals:
The wireless phone is a radio transmitter and receiver. It is designed and manufactured not to exceed the emission limit for exposure to radio frequency (RF) energy set by the Ministry of Health (Canada), Safety Code 6. These limits are part of comprehensive guidelines and established permitted levels of RF energy for the general population. These guidelines are based on the safety standards previously set by international standard bodies. These standards include a substantial safety margin designed to assure the safety of all persons, regardless of age and health. This device and its antenna must not be co-located or operating in conjunction with any other antenna or transmitter. The radiating element of the RFP should be installed during operating at a separation distance greater than 20 cm between user and device. This device complies with the requirements for routine evaluation limits. 11.4 INFORMATIONS RGLEMENTAIRES EN MATIRE DE COMMUNICATIONS Les informations dans cette section concerne les suivantes stations radio :
RFP 32 IP RFP 34 IP RFP 35 IP RFP 36 IP RFP 37 DRC 346 Safety Information (3rd Generation Dect Base Stations) 11.4.1 NOTES FCC (USA UNIQUEMENT) Cet appareil est conforme la partie 15 des rgles FCC. Son exploitation est soumise aux deux conditions suivantes: (1) Cet appareil ne doit causer aucune interfrence dommageable et (2) cet appareil doit tolrer toute interfrence reue l'inclusion des interfrences susceptibles de causer une opration non dsire. Les modifications non expressment agres par cette entreprise pourraient rendre caduque l'habilitation de l'utilisateur exploiter cet quipement. NOTA: Cet quipement a t test et jug conforme aux limitations pour un appareil numrique de classe B en vertu de la partie 15 des rgles FCC. Ces limitations ont t conues pour garantir une protection raisonnable contre les interfrences dommageables dans les installations rsidentielles. Cet quipement gnre, utilise et peut rayonner des ondes radio et peut causer des interfrences dommageables dans les communications par radio s'il n'est pas install et utilis conformment aux instructions. Cependant, l'absence d'interfrences dans une installation particulire n'est pas garantie. Si cet quipement perturbe de faon importante la rception de la radio ou de la tlvision (interfrences qui peuvent tre dtermines en arrtant et en remettrant l'appareil en marche), l'utilisateur est invit tenter de corriger les interfrences en prenant une ou plusieurs des mesures suivantes:
Rorienter ou dplacer l'antenne de rception. loigner l'quipement du rcepteur. Raccorder l'quipement une prise d'un circuit diffrent de celui auquel est raccord le rcepteur. Consulter le revendeur ou un technicien radio/TV. 347 SIP-DECT OM System Manual 12 APPENDIX This Appendix contains additional information and examples for configuring your SIP-DECT system. 12.1 PRE-CONFIGURATION FILE RULES The following file format description can be used to administrate the RFP and DECT phone configuration with external applications, e.g. an external configuration management tool or a PBX communications system. The framework of the text file follows strictly defined rules. The main framework is divided in two parts:
1 An instruction section is used to drive a generic data creation for those fields not filled within data sequence section. 2 A data sequence section defines data record fields. Each of them is explicitly set. Layout rules in detail are:
Comments start with #. Each record is terminated by the regular expressions \r or \n. Instruction settings are made like: <tag> = <value>. Data sequence sections start with the key word data_sequence. This key word is mandatory for file processing to proceed. All instructions must be written before this row. Data sequence record fields are separated by colon ;. Colons have also to be set for empty fields if at least one follows which is not empty. Otherwise a position mismatch of fields will occur. If fields have several values assigned (that may be true for a few local RFP configuration fields like ntp_address), they must be separated by comma ,. Because data sequence fields are separated by a colon, the content of that section can be generated by a *.csv export of Excel Sheet and copied into the configuration file. Instructions are only processed on those fields that are left empty within the data sequence section. Notes:
12.2 DECT PHONE CONFIGURATION FILE (OMM DATABASE) 12.2.1 SUPPORTED INSTRUCTIONS Instruction start_number no_of_number Explanation Numbers can be generated automatically. This instruction defines the start value. If start_number is given, this instruction defines the maximum of numbers which are generated. ac (authentication code) If set to number, ac will be equal to number. 348 Appendix If a value is advised, it will be taken as a start number which will be increased for each new record. If these instructions are set, the value will be taken as default value for the empty corresponding field within the data sequence section records. SOS/Mandown denote the user specific numbers. The Locatable, Localization, and Tracking flags are ignored by Web import. additional_pin sip_user sip_pw sos_number mandown_number locatable localization tracking 12.2.2 DATA SECTION FIELDS The data section contains the following field order:
1 Number 2 Name 3 AC 4 IPEI 5 Additional ID 6 Sip user name 7 Sip password 8 SOS number 9 Mandown number 10 Locatable (ignored by Web import and always set to inactive) 11 Localization (ignored by Web import and always set to inactive) 12 Tracking (ignored by Web import and always set to inactive) 13 Description1 (ignored by Web import and always set to ) 14 Description2 (ignored by Web import and always set to ) 349 SIP-DECT OM System Manual 12.2.3 EXAMPLE The following screen shot shows a DECT phone configuration. This corresponds to the given configuration file. DECT phone configuration file:
# -----------------------#
# instruction section:
# -----------------------#
# -- start_number = {<start value for numbers to be generated>}
# -- no_of_number = {<maximum of generated numbers>}
# -- ac = {<""number"">, <start value for ac's to be generated>}
# -- additional_pin = {<""number"">, <start value for id's >}
# -- sip_user = {<""number"">, <start value for id's >}
# -- SIP password = {<""number"">, <start value for id's >}
# -- SOS number = {<common default>)
# -- Mandown number
# -- Locatable (ignored by Web import and always set to inactive)
# -- Localization (ignored by Web import and always set to inactive)
# -- Tracking (ignored by Web import and always set to inactive) start_number = 5401 no_of_number = 10 ac = 1001 additional_pin = number sip_user = number sip_pw = number 350 Appendix sos_number=5002 mandown_number=5002
# ---------------------#
# data sequence:
# ---------------------#
# 1. number
# 2. name
# 3. AC
# 4. IPEI
# 5. additionalId
# 6. SIP user
# 7. SIP password
# 8. sos no
# 9. mandown no
# 10. locatable (ignored by Web import and always set to inactive)
# 11. localization (ignored by Web import and always set to inactive)
# 12. tracking (ignored by Web import and always set to inactive)
# 13. descr1 (ignored by Web import and always set to "")
# 14. descr2 (ignored by Web import and always set to "") data_sequence;;;;;;;;;;;;;
# 1. number;2. name;3. AC;4. IPEI ;5. additionalId;6. SIP user;7. SIP password;8. sos no;9. mandown no;10. locatable;11. localization;12. tracking;13. descr1;14. descr2 101;DECT phone 1;;0081008625768;;;;;;;;;;
104;DECT phone 4;;0007701154842;;;;;;;;;;
;Kiel Phone1;;0127105395099;5401;5401;5401;30;30;;;;;
;Karl May;;;;;;;;;;;;
;Karl Valentin;;;;;;;;;;;;
;Karl Heinz;;;;;;;;;;;;
;Radi Radenkowicz;;;;;;;;;;;;
;Radi Rettich;;;;;;;;;;;;
;Wadi Wade;;;;;;;;;;;;
Parse log about import / instruction processing OK: start_number = 5401 OK: ac = 1001 OK: additional_pin = number OK: sip_user = number OK: sip_pw = number OK: sos_number = 5002 OK: mandown_number = 5002 351 SIP-DECT OM System Manual OK: no_of_number = 10 Section processing:
[]
352 Appendix 12.3 RFP CONFIGURATION FILE / CENTRAL (OMM DATABASE) You can import of DECT base station configurations using files via the OMP. Supported Instructions 12.3.1.1 All instructions are taken as a common value and are applied to all records in the data sequence section of that file if the corresponding field is empty. Instruction Explanation active cluster paging_area Activation of DECT: {0 or false = inactive, 1 or true = active }
Cluster, the RFP is referred to - RFP-OMM: {1..256}, PC-OMM: {1..4096}
Paging area, the RFP is referred to: {unassigned, 0..127}
Ignored by WEB import and always set to 0 (Paging area 0) sync_source Synchronization source: {0 or false = inactive, 1 or true = active }
refl_env site Reflective environment: {0 or false = no, 1 or true = yes }
Site Id: {1..250}
wlan_profile Reference key to an existing WLAN profile wlan_antenna Antenna settings: {0=diversity, 1, 2}
wlan_channel_bg WLAN channel: {0..14 (size depends on regulatory domain) }
wlan_power WLAN power: {6, 12, 25, 50,100 (in percent)}
wlan_act Activation of WLAN: {0 or false = inactive, 1 or true = active }
Data Section Fields 12.3.1.2 The data section contains the following field order:
1 MAC address 2 Name 3 DECT activated 4 DECT cluster 5 Paging area (always set to 0, PA0) 6 Preferred sync. 7 Reflective env. 8 Site ID (if left empty then set to the lowest Site ID) 9 Building (ignored by Web import and always set to ) 10 Floor (ignored by Web import and always set to ) 11 Room (ignored by Web import and always set to ) 12 WLAN profile 13 WLAN antenna 14 WLAN channel 15 WLAN power 16 WLAN activated 353 SIP-DECT OM System Manual Example 12.3.1.3 The following figure shows the results of a DECT base station enrolment operation via the OMP DECT base stations -> Enrolment page. RFP configuration file/central:
##############################################################################
# instruction section:
##############################################################################
#active
# Activation of DECT:
# {'0' or 'false '= inactive, '1' or 'true' = active}
#cluster
# Cluster, the RFP is referred to:
# {1..256} (RFP OMM) or {1..4096} (PC OMM)
#paging_area
# Ignored by Web import and always set to "0" (PA0)
# Paging area, the RFP is referred to: {'unassigned, '0'..'127'}
#sync_source
# Synchronisation source:
# '0' or 'false '= inactive, '1' or 'true' = active}
#refl_env
# Reflective environment:
# '0' or 'false '= no, '1' or 'true' = yes}
#site
# Site Id: {1..250}
#wlan_profile
# Reference key to an existing WLAN profile
#wlan_antenna
# Antenna settings: {0=diversity, 1, 2}
354 Appendix
#wlan_channel_bg
# WLAN channel: {0..14 (size depends on regulatory domain) }
#wlan_power
# WLAN power = { 6, 12, 25, 50,100 (in percent)}
#wlan_act
# Activation of WLAN:
# '0' or 'false '= inactive, '1' or 'true' = active}
#Note: Web import allows only "0" or "1" for Boolean
##############################################################################
active=1 cluster=100 refl_evc=1 site=1
##############################################################################
data_sequence
##############################################################################
#MAC address;Name;DECT activated;DECT cluster;Paging area;Preferred sync.;
#Reflective env.;Site ID;Building;Floor;Room;WLAN profile;WLAN antenna;
#WLAN channel;WLAN power;WLAN activated 00:30:42:0D:97:1A;R451P31a03054;1;1;0;0;0;1;31;4;;;;;;
00:30:42:0D:95:D8;R439 SWT 31A-0-3-1-2;1;1;0;1;0;1;31;4;;;;;;
00:30:42:0C:BD:7B;R440 P31a-03-07-4;1;1;0;0;0;3;31;4 00:30:42:0D:95:CE;Patchschrank Kueche;1;1;0;0;0;3;31;4 00:30:42:0D:95:CC;R414 OpenMob lab;1;2;0;0;0;3;;
00:30:42:0D:95:CA;R414 OpenMob lab;1;2;0;0;0;3;31;4 00:30:42:0C:BD:DD;R403 System test lab;1;2;0;0;0;3;31;4 00:30:42:0D:95:DB;R451 P31a-4-2-15-8;1;1;0;0;0;1;31;4 00:30:42:0D:95:D9;R439 P31a-4-2-12-13;1;1;0;0;0;3;31;4 00:30:42:0D:95:D6;R447 P31a-4-2-13-18;1;1;0;0;0;3;31;4 00:30:42:0D:95:E7;R447 P31a-4-2-14-13;1;1;0;0;0;1;31;4 00:30:42:0D:22:5A;R433 P31a-4-2-11-10;1;1;0;0;0;3;31;4 00:30:42:0C:BD:68;R433 P31a-4-2-11-13;1;1;0;0;0;1;31;4 00:30:42:0B:92:FC;R443 Test board;1;1;0;0;0;1;31;4 00:30:42:FF:F0:D0;plexiglas;1;1;0;0;0;1;;
00:30:42:0D:27:7D;R434 P31M-0-1-5-19;1;1;0;0;0;3;31;4 00:30:42:0A:C9:62;R439 Decke re.;1;1;0;0;0;1;;
00:30:42:0D:E3:F6;R436 Wand oben ln;1;1;0;0;0;1;;
00:30:42:08:31:5F;R434 Decke ln. Tr;1;1;0;0;0;1 00:30:42:08:31:64;R440 Decke re Fnstr;1;1;0;0;0;1 355 SIP-DECT OM System Manual Parse log about import / instruction processing 12.3.2 RFP CONFIGURATION FILE / LOCAL (OM CONFIGURATOR) Supported Instructions 12.3.2.1 All instructions are taken as a common value and are applied to all records in the data sequence section of that file if the corresponding field is empty. Instruction active net_mask tftp_server tftp_file omm_1 omm_2 gateway dns_server dns_domain syslog_addr syslog_port use_vlan 356 Explanation Local configuration active: {0=inactive(use DHCP instead), 1=active}
Net mask IP address of TFTP server Path and name of boot file OMM IP address IP address of backup OMM Default gateway Up to two DNS server IP addresses local DNS domain IP address of syslog daemon Listen port of syslog daemon VLAN is enabled Appendix Instruction srvlst broadcast_addr vlan_id preferred_tftp config_file_server Explanation List of further tftp server local broadcast address VLAN Id tftp_server is preferred configuration server Data Section Fields 12.3.2.2 The data section contains the following field order:
1 MAC address of RFP 2 Local configuration active flag 3 IP address of RFP 4 Net mask 5 TFTP server 6 TFTP_FILE 7 OMM IP address 8 IP address of backup OMM 9 Default gateway 10 DNS server 11 DNS domain 12 Syslog daemon IP address 13 Syslog listen port 14 Use VLAN 15 Server list 16 Broadcast address 17 VLAN Id 18 Preferred TFTP server 19 Configuration file server 12.3.2.3 Example RFP configuration file/local (OM Configurator):
# --------------------#
# instruction section #
# --------------------#
active = 1 net_mask = 255.255.0.0 tftp_server= 172.30.200.92 tftp_file = iprfp2G.tftp 357 SIP-DECT OM System Manual omm_1 = 172.30.111.188 omm_2 = 172.30.11.181 gateway = 172.30.0.2 dns_server = 172.30.0.4,172.30.0.21 dns_domain = aastra.de syslog_addr= 172.30.200.92 use_vlan = 1 srvlist = 172.30.0.4,172.30.0.21 broadcast_addr = 172.30.255.255 vlan_id = 4 preferred_tftp = 1 config_file_server = https://server/configfiles/
# --------------#
# data sequence #
# --------------#
# 1. MAC_ADDR ! no instruction supported !
# 2. ACTIVE_FLAG
# 3. RFPADDR ! no instruction supported !
# 4. NET_MASK
# 5. TFTP_SERVER
# 6. TFTP_FILE
# 7. OMM1
# 8. OMM2
# 9. GATEWAY
#10. DNS_SERVER
#11. DNS_DOMAIN
#12. SYSLOG_ADDR
#13. SYSLOG_PORT
#14. USE_VLAN
#15. SRVLIST
#16. BROADCAST_ADDR
#17. VLAN_ID
#18. PREFERRED_TFTP
#19. CONFIG_FILE_SERVER data_sequence 00-30-42-01-01-01;;172.30.111.1 00-30-42-02-02-02;;172.30.111.2 358 Parse log for import / instruction processing ok: active = 1 ok: net_mask = 255.255.0.0 ok: tftp_server = 172.30.200.92 ok: tftp_file = iprfp2G.tftp ok: omm_1 = 172.30.111.188 ok: omm_2 = 172.30.11.181 ok: gateway = 172.30.0.2 ok: dns_server = 172.30.0.4,172.30.0.21 ok: dns_domain = mitel.com ok: syslog_addr = 172.30.200.92 not set: syslog_port ok: use_vlan = 1 ok: srvlist = 172.30.0.4,172.30.0.21 ok: broadcast_addr = 172.30.255.255 ok: vlan_id = 4 ok: preferred_tftp = 1 ok: config_file_server = https://server/configfiles/
:parsing ok:
processing of section: data_sequence
[]
create data:
[]
RFP configuration:
[]
Appendix 359 SIP-DECT OM System Manual 12.4 RFP EXPORT FILE FORMAT General RFP export files are created by OMM Management Portal in csv-file format which can be easily viewed by a spreadsheet application. Export file contains all or a part of the following parameters:
MAC address Location name DECT active Cluster Paging area Synchronization source Reflective environment Site Building Floor Room WLAN profile reference WLAN antenna WLAN Channel_bg WLAN power WLAN active Example Following example RFP export file contains all exportable RFP parameters and is re-importable by OMM Management Portal.
##################################################
# RFP data export file: '/home/user/example.csv'
# Date: 24.09.10 Time: 15:58:19
##################################################
#
# Exported parameters:
#
# MAC address
# Name
# DECT activated
# DECT cluster
# Paging area
# Preferred sync.
# Reflective env.
# Site ID
# Building
# Floor 360 Appendix
# Room
# WLAN profile
# WLAN antenna
# WLAN channel
# WLAN power
# WLAN activated
#
##################################################
MAC address;Name;DECT activated;DECT cluster;Paging area;Preferred sync.;Reflective env.;Site ID;Building;Floor;Room;WLAN profile;WLAN antenna;WLAN channel;WLAN power;WLAN activated data_sequence 00:30:42:0E:71:41;License RFP 1;
true;1;0;false;true;1;B1;F1;R1;1;0;;100;false 00:30:42:0E:26:F1;License RFP 2;
true;1;0;false;false;1;B1;F2;R1;1;0;;100;false 00:30:42:0E:75:59;License RFP 3;
true;1;0;true;false;1;B1;F2;R2;1;0;;100;false 361 SIP-DECT OM System Manual 12.5 COA CONFIGURATION PARAMETERS In addition to the information provided in section 8.23, the following sections provide examples of a CoA configuration files, and an overview of all supported parameters. 12.5.1 CONFIGURATION OF VARIABLE LISTS A variable list includes a number of list items, each of which can be executed in the usual way by selecting it. A list item consists of an item index (1..10) and either a number (to be dialed) or a function/feature that is supported by the handset. Other attributes of a list item are optional. Item-Attribute Type Description Example Index Number Name decimal number index of list item (1..10) 7 quoted UTF8-string number to dial quoted UTF8-string displayed text of item
#12#777#
My Voice Box FunctionID function-ID-string function/feature to execute pbx_directory ShortName/Icon quoted UTF8-string displayed short name and/or icon\xEE808B VB Handsfree Boolean (0 or 1) dial in hands-free-mode VisibleSpecifier 4-digit-string of 0 or 1 item visible in idle-, dial-, 1 1000 alerting- and active-state There are 2 variable lists available, and each can hold up to 10 list items. To configure an item for one of the lists the command key UD_VListEntry is used. The first value specifies the index (1 or 2) of the considered list, followed by the above mentioned attributes in the given order. Always remember that the different values/attributes must be separated by whitespace and their positions in the configuration command are fixed. Unused attributes must be indicated by empty strings if they are followed by nonempty attributes, unused attributes (empty strings) can be omitted at the end of the configuration command. Examples:
UD_VListEntry = 1 1 "#12#777#" "My Voice Box" "" "VB" 1 UD_VListEntry = 1 2 "043116967777" "Alice"
UD_VListEntry = 1 3 "043116968888" "Bob\'s Phone" "" "BP \xEE808B"
UD_VListEntry = 2 1 "" "App 5" f_5 "A5" "" 1000 Additionally a variable list can hold a name and/or short name used for representing it in another list or near a programmed soft key or side key. Again, the short name attribute allows specifying an icon as well. A third attribute, sub item, determines whether or not a selected list item is to be displayed with sub item (sub key line). List-Attribute Type Description Example Name quoted UTF8-string displayed text of list My Own Menu ShortName/Icon quoted UTF8-string displayed short name and/or icon\xEE808B M1 SubItems Boolean (0 or 1) show sub key line of selected item 1 Again, the corresponding configuration commands take the list index (1 or 2) as first value. 362 Appendix Examples:
UD_VListName = 1 "My Own Menu"
UD_VListShortName = 1 "\xEE808B M1"
UD_VListSubItems = 1 1 12.5.2 EXTENDED COA EXAMPLES 12.5.3 EXAMPLE 1 UD_ConfigurationName="Umlaute (UTF-8): , Escape-Sequenzen: ' \" \\ \r \n \t \f, andere UTF-8-Zeichen: "
# display-einstellungen UD_DispLang=en UD_DispFont=large UD_DispColor=black
# ringer-einstellungen UD_RingerVolumeIntern=level_1 UD_RingerVolumeExtern=level_2 UD_RingerMelodyIntern=classical_1 UD_RingerMelodyExtern=pippi_longstocking
# ausblenden/sperren von features UD_FunctionMenuHide=active_features true UD_FunctionMenuHide=prog_x true UD_FunctionUserProtected=system_x true
# programmieren von tasten (idle-zustand) UD_KeyAssignmentIdle=side1 voice_box UD_KeyAssignmentIdle=ok MenuInfNew UD_KeyAssignmentIdle=long.esc inf UD_KeyAssignmentIdle=esc pbx_directory UD_KeyAssignmentIdle=long.esc directories 12.5.4 EXAMPLE 2 UD_ConfigurationName = "omm-test" # dies definiert den namen des coa-files (versys)
### message options UD_MessageMelodyNormal = basic_1 UD_MessageMelodyUrgent = basic_2 UD_MessageMelodyAlarm = basic_3 363 SIP-DECT OM System Manual UD_MessageVolumeNormal = level_1 UD_MessageVolumeUrgent = level_2 UD_MessageVolumeAlarm = level_3 UD_MessageOverwrite = true
### ringer melody options UD_RingerMelodyIntern = butterfly UD_RingerMelodyExtern = barock UD_RingerMelodyUnknown = ballade UD_RingerMelodyCallback = fancy UD_RingerMelodyRecall = comelody UD_RingerMelodyVip = easy_groove UD_RingerMelodySpecial = happy_fair UD_RingerMelodyAlarm = kitafun UD_RingerMelodyAppointment = latin_dance
### ringer volume options UD_RingerVolumeIntern = off UD_RingerVolumeExtern = increasing UD_RingerVolumeUnknown = level_1 UD_RingerVolumeCallback = level_2 UD_RingerVolumeRecall = level_3 UD_RingerVolumeVip = level_4 UD_RingerVolumeSpecial = level_5 UD_RingerVolumeAlarm = level_6 UD_RingerVolumeAppointment = level_7
### ringer settings UD_RingMode = repeat UD_RingBuzz = true UD_RingVibra = true UD_RingHeadset = false
### attention tones UD_ToneKey = inactive active UD_ToneCnf = active UD_ToneMnend = active no_speaker UD_ToneAccu = active vibra UD_ToneRange = inactive active no_speaker vibra UD_ToneOutrange = inactive 364
### audio UD_AudioNoisedetect = true UD_AudioLoudenv = false UD_AudioSpkCharger = handsfree
### Systems/Subscription/<System X>
UD_DialCharset = ABC_123 UD_DialCodeImax = 3 UD_DialCodeSys = "6"
### display UD_DispLang=en UD_DispFont=large UD_DispColor=black
### illumination UD_LightDim = 2h UD_LightDisp = 2m UD_LightKey = 45s UD_LightKeyoptIncom = true UD_LightKeyoptAlarm = false UD_LightKeyoptCharge = false UD_LightCharge = 60s UD_LightCall = 30s UD_LightMsgMsg = 10s UD_LightMsgInf = 20s UD_LightMsgJob = 30s UD_LightMsgSos = 60s
### led indications UD_LedAlive = true UD_LedIncom = true UD_LedRange = false UD_LedCharge = true UD_LedInfo = false UD_LedSpk = true UD_LedAutoans = false UD_LedAppoint = false UD_LedAlarm = false
### list access UD_ListmodeRedial = pbx Appendix 365 SIP-DECT OM System Manual UD_ListmodeCaller = pbx UD_ListmodeFilter = block_list
### device options UD_ModeSilentcharge = true UD_ModeChargeranswr = false UD_ModeAutoanswr = true UD_ModeAutoquickhook = false UD_ModeKey = oem
### phone lock UD_LockKeyAuto = true UD_LockKeyTime = 30s UD_LockKeyPin = true UD_LockPin = "1234"
UD_LockAdmin = "4711"
### SOS call UD_SosNum = "4711"
UD_SosMelody = weekend UD_SosVolume = increasing UD_SosHandsfree = true
### alarm sensor UD_SosMdNumber = "0815"
UD_SosMdAutoanswr = true UD_SosMdModePre = false UD_SosMdModeDown = true UD_SosMdModeNomove = true UD_SosMdModeEsc = false UD_SosMdModeRep = false UD_SosMdSenseAngle = flat UD_SosMdSenseMove = high UD_SosMdSenseEsc = medium UD_SosMdNomoDown = conversation system_menu local_menu UD_SosMdNomoNomove = conversation UD_SosMdNomoEsc = idle conversation system_menu local_menu UD_SosMdDelayDown = 20s UD_SosMdDelayNomove = 30s UD_SosMdDelayEsc = 45s UD_SosMdTimePre = 30s UD_SosMdTimeRep = 60s UD_SosMdTone = true 366 Appendix UD_SosMdVibra = false
### function/feature access UD_FunctionMenuHide=active_features true UD_FunctionMenuHide=prog_x TRUE UD_FunctionLocked=time_x true UD_FunctionUserProtected=system_x true UD_FunctionUserProtected=dir_x true UD_FunctionAdminProtected=system_x true UD_FunctionGrayed=system_x true
### assignment of keys UD_KeyAssignmentIdle=side1 caller UD_KeyAssignmentIdle=ok MenuInfNew UD_KeyAssignmentIdle=long.ok inf UD_KeyAssignmentIdle=esc pbx_directory UD_KeyAssignmentIdle=long.esc directories UD_KeyAssignmentActive=esc nop 12.5.5 EXAMPLE 3 UD_ConfigurationName = "omm-test" # dies definiert den namen des coa-files (versys)
### function/feature access UD_FunctionMenuHide = scheme true UD_FunctionLocked = scheme true UD_FunctionGrayed = scheme true UD_FunctionUserProtected = scheme true UD_FunctionAdminProtected = scheme true 12.5.6 EXAMPLE 4
#UD_ConfigurationName = "omm-test" # dies definiert den namen des coa-files (versys)
### assignment of keys
#UD_KeyAssignmentIdle=side1 sos_loc
#UD_KeyAssignmentIdle=side2 shock
#UD_KeyAssignmentIdle=side3 sensor_menu
#UD_KeyAssignmentIdleMaster=side1 sos_loc
#UD_KeyAssignmentIdleMaster=side2 shock
#UD_KeyAssignmentIdleMaster=side3 sensor_menu 367 SIP-DECT OM System Manual UD_KeyAssignmentIdle=down gappp_directory UD_ConfigurationName= jwede-1 UD_DispFont= normal UD_DispColor= black UD_KeyAssignmentIdle=side1 vlst1 UD_KeyAssignmentActive=side1 vlst2 UD_VListEntry = 1 1 "*8010" "Unpark 10" "" "" ""
UD_VListEntry = 1 2 "80*11" "Unpark 11" "" "" ""
UD_VListName = 1 "Unpark call"
UD_VListShortName = 1 "\xEE8296"
UD_VListSubItems = 1 0 UD_VListEntry = 2 1 "#58110" "Park 10" "" "" ""
UD_VListEntry = 2 2 "58#111" "Park 11" "" "" ""
UD_VListName = 2 "Park call"
UD_VListShortName = 2 "\xEE8296"
UD_VListSubItems = 2 0
### var-lists
#UD_VListName = 1 "Extra-Men 1"
#UD_VListName = 2 "Extra-Men 2"
#UD_VListShortName = 2 \xEE808B
#UD_VListSubItems = 2 1
### var-list entries
# parameters: list item number-to-dial name fkt shortname/icon handsfree visible(idle,dial,alert,active)
# 1..2 1..10 quoted-string quoted-string string quoted-string 0..1 4-digit-string-of(0,1)
#UD_VListEntry= 1 9 "*7*<no>#" "Krger's" f_1 "nam
\xEE808B"
#UD_VListEntry= 2 2 "043116962222<ln=4>" "xx\\yy" f_5 "nam2"
"" 1000
#UD_VListEntry= 1
"\238\128\139"
3 "043116967777<<>" "xx\"yy" inf
#UD_VListEntry= 1 7 "043116960000" "xx\'yy" "" "$
\xEE808B"
## max=20 30
## mul=11 3 368 Appendix
## substr = 1001 1 1
## xxx = bbb
# in strings: so soll es sein:
# cfg
-> lua
# "xx\\yy"
-> 'xx\\yy'
# "xx\'yy"
-> 'xx\'yy' (auch: "xx'yy" -> 'xx\'yy')
# "xx\"yy"
-> 'xx"yy'
# "xx\ryy"
-> 'xx\ryy'
# "xx\nyy"
-> 'xx\nyy'
# "xx\tyy"
-> 'xx\tyy'
# "xx\fyy"
-> 'xx\fyy'
# "xx\234yy" -> 'xx\234yy'
# icons:
# "xx\x01yy" -> 'xxyy'
# :
# "xx\x1fyy" -> 'xxyy'
# "xx\xee808byy" -> 'xx yy'
12.5.7 EXAMPLE 5
#UD_ConfigurationName = "omm-test" # dies definiert den namen des coa-files (versys)
### assignment of keys UD_KeyAssignmentIdle=side1 sos_loc UD_KeyAssignmentIdle=side2 shock UD_KeyAssignmentIdle=side3 sensor_menu UD_KeyAssignmentIdleMaster=side1 sos_loc UD_KeyAssignmentIdleMaster=side2 shock UD_KeyAssignmentIdleMaster=side3 sensor_menu UD_KeyAssignmentActiveSos=red nop UD_KeyAssignmentActiveSos=d0 dial_0 UD_KeyAssignmentActiveSos=d1 dial_1 UD_KeyAssignmentActiveSos=d2 dial_2 UD_KeyAssignmentActiveSos=d3 dial_3 UD_KeyAssignmentActiveSos=d4 dial_4 UD_KeyAssignmentActiveSos=d5 dial_5 UD_KeyAssignmentActiveSos=d6 dial_6 UD_KeyAssignmentActiveSos=d7 dial_7 UD_KeyAssignmentActiveSos=d8 dial_8 UD_KeyAssignmentActiveSos=d9 dial_9 369 SIP-DECT OM System Manual UD_KeyAssignmentActiveSos=star dial_star UD_KeyAssignmentActiveSos=hash dial_hash UD_KeyAssignmentActiveSosMaster=red nop 12.5.8 SUPPORTED COA PARAMETERS The following keys and values are supported in the CoA configuration files. used in configuration commands: <key> = <value> [ <value> ]
// KEY_xxx key
// VAL_xxx value
"UD_ConfigurationName" // <string>
// message melody options
"UD_MessageMelodyNormal" // VAL_MELODY_xxx
"UD_MessageMelodyUrgent" // VAL_MELODY_xxx
"UD_MessageMelodyAlarm" // VAL_MELODY_xxx
// message volume options
"UD_MessageVolumeNormal" // VAL_VOLUME_xxx
"UD_MessageVolumeUrgent" // VAL_VOLUME_xxx
"UD_MessageVolumeAlarm" // VAL_VOLUME_xxx
// message overwrite
"UD_MessageOverwrite" // true/false
// ringer melody options
"UD_RingerMelodyIntern" // VAL_MELODY_xxx
"UD_RingerMelodyExtern" // VAL_MELODY_xxx
"UD_RingerMelodyUnknown" // VAL_MELODY_xxx
"UD_RingerMelodyCallback" // VAL_MELODY_xxx
"UD_RingerMelodyRecall" // VAL_MELODY_xxx
"UD_RingerMelodyVip" // VAL_MELODY_xxx
"UD_RingerMelodySpecial" // VAL_MELODY_xxx
"UD_RingerMelodyAlarm" // VAL_MELODY_xxx
"UD_RingerMelodyAppointment" // VAL_MELODY_xxx
// ringer volume options
"UD_RingerVolumeIntern" // VAL_VOLUME_xxx
"UD_RingerVolumeExtern" // VAL_VOLUME_xxx
"UD_RingerVolumeUnknown" // VAL_VOLUME_xxx
"UD_RingerVolumeCallback" // VAL_VOLUME_xxx
"UD_RingerVolumeRecall" // VAL_VOLUME_xxx 370
"UD_RingerVolumeVip" // VAL_VOLUME_xxx
"UD_RingerVolumeSpecial" // VAL_VOLUME_xxx
"UD_RingerVolumeAlarm" // VAL_VOLUME_xxx
"UD_RingerVolumeAppointment" // VAL_VOLUME_xxx
// melodies
"weekend" // Weekend
"butterfly"
// Butterfly
"barock" // Barock
"ballade" // Ballade
"fancy" // Fancy
"comelody" // Comelody
"easy_groove" // Easy groove
"happy_fair" // Happy fair
"kitafun"
// Kitafun
"latin_dance" // Latin dance
"little_asia" // Little asia
"mango_selassi" // Mango selassi
"parka" // Parka
"remember" // Remember
"rocky_lane" // Rocky lane
"ringing_1"
// Ringing 1
"ringing_2" // Ringing 2
"ringing_3" // Ringing 3
"ringing_4" // Ringing 4
"ringing_5" // Ringing 5
"ringing_6" // Ringing 6
"ringing_7" // Ringing 7
"ring_vintage" // Ring vintage
"vibes" // Vibes
"attack" // Attack
"doorbell" // Doorbell
"boogie" // Boogie
"polka" // Polka
"classical_1" // Classical 1
"classical_2"
// Classical 2
"classical_3" // Classical 3
"classical_4" // Classical 4
"alla_turca" // Alla turca
"entertainer" // Entertainer
"jollygood" // Jollygood
"in_the_saints" // In the saints
"drunken_sailor" // Drunken sailor Appendix 371 SIP-DECT OM System Manual
"mary_had" // Mary had
"shell_be_walking" // Shell be walking
"pippi_longstocking" // Pippi longstocking
"policehorn" // Policehorn
"synthesizer" // Synthesizer
"after_work"
// After work
"beep" // Beep
"basic_1" // Basic 1
"basic_2" // Basic 2
"basic_3" // Basic 3
"basic_4" // Basic 4
"basic_5" // Basic 5
"basic_6" // Basic 6
"basic_7" // Basic 7
"basic_8" // Basic 8
"alarm_1" // Alarm 1
"alarm_2" // Alarm 2
"alarm_3" // Alarm 3
"alarm_4" // Alarm 4
"alarm_5" // Alarm 5
"alarm_6" // Alarm 6
"alarm_7" // Alarm 7
"6700_one" // 6700 One
"6700_two" // 6700 Two
"6700_three" // 6700 Three
"6700_four" // 6700 Four
"6700_five" // 6700 Five
"1_attention_tone" // 1 Attention tone
"2_attention_tones" // 2 Attention tones
"3_attention_tones" // 3 Attention tones
"4_attention_tones" // 4 Attention tones
"5_attention_tones" // 5 Attention tones
"6_attention_tones" // 6 Attention tones
"7_attention_tones" // 7 Attention tones
"8_attention_tones" // 8 Attention tones
"9_attention_tones" // 9 Attention tones
"10_attention_tones" // 10 Attention tones
// volumes
"off" // off
"increasing" // increasing
"level_1" // Level-1
"level_2" // Level-2 372
"level_3" // Level-3
"level_4" // Level-4
"level_5" // Level-5
"level_6" // Level-6
"level_7" // Level-7
// ringer settings
"UD_RingMode" // VAL_RING_MODE_xxx
"UD_RingBuzz" // true/false
"UD_RingVibra" // true/false
"UD_RingHeadset" // true/false
"repeat" // repeat
"once" // once
// attention tones
"UD_ToneKey" // VAL_TONE_xxx (up to 3 values)
"UD_ToneCnf" // VAL_TONE_xxx (up to 3 values)
"UD_ToneMnend" // VAL_TONE_xxx (up to 3 values)
"UD_ToneAccu" // VAL_TONE_xxx (up to 3 values)
"UD_ToneRange" // VAL_TONE_xxx (up to 3 values)
"UD_ToneOutrange" // VAL_TONE_xxx (up to 3 values)
"inactive" // inactive
"active" // active
"no_speaker" // without Loudspeaker
"vibra" // Vibration
// audio
"UD_AudioNoisedetect" // true/false
"UD_AudioLoudenv" // true/false
"UD_AudioSpkCharger" // VAL_AUDIO_SPK_CHARGER_xxx
"release" // Release
"handsfree" // Handsfree
// Systems/Subscription/<System X>
"UD_DialCharset" // VAL_DIAL_ABC_xxx
"UD_DialCodeImax" // VAL_DIAL_CODE_IMAX_xxx
"UD_DialCodeSys" // <digit-string>
"123_" // 123...
"ABC_123" // ABC...123 Appendix 373 SIP-DECT OM System Manual
"123_ABC_" // 123...ABC...
"ABC__123" // ABC......123
"123_ABC" // 123...ABC
"automatic" // automatic
"1" // 1
"2" // 2
"3" // 3
"4" // 4
"5" // 5
"6" // 6
"7"
// 7
"8" // 8
// display
"UD_DispLang" // VAL_DISP_LANG_xxx
"UD_DispFont" // VAL_DISP_FONT_xxx
"UD_DispColor" // VAL_DISP_COLOR_xxx
"default" // default
"de" // D - Deutsch
"en" // GB - English
"fr" // FR - Franais
"es" // ES - Espaol
"it" // I - Italiano
"nl" // NL - Nederlands
"sv" // S - Svenska
"da"
// DK - Dansk
"pt" // P - Portugus
"no" // N - Norsk
"cs" // Cz - Cesky
"sk" // SK - Sloven\u010dina - Slovensky
"fi" // Su - Suomi
"hu"
// H - Magyar - Hungarian
"ru" // RU - \u0420\u0443\u0441\u0441\u043a\u0438\u0439 - Russian
"tr" // TURK - Trke
"pl" // PL - Polski
"et" // EST - Esti
"small"
// Small
"normal" // Normal
"large" // Large 374
"gray" // Gray
"black" // Black
"business" // Business
"future" // Future
"plain" // Plain
"sweet"
// Sweet
// illumination
"UD_LightDim" // VAL_LIGHT_DIM_xxx
"UD_LightDisp" // VAL_LIGHT_DISP_xxx
"UD_LightKey" // VAL_LIGHT_KEY_xxx
"UD_LightKeyoptIncom" // true/false
"UD_LightKeyoptAlarm" // true/false
"UD_LightKeyoptCharge" // true/false
"UD_LightCharge" // VAL_LIGHT_CHARGE_xxx
"UD_LightCall" // VAL_LIGHT_CALL_xxx
"UD_LightMsgMsg" // VAL_LIGHT_MSG_MSG_xxx
"UD_LightMsgInf" // VAL_LIGHT_MSG_INF_xxx
"UD_LightMsgJob" // VAL_LIGHT_MSG_JOB_xxx
"UD_LightMsgSos" // VAL_LIGHT_MSG_SOS_xxx
"off" // off
"1m" // 1 min
"10m" // 10 min
"1h" // 60 min
"2h"
// 120 min
"4h" // 240 min
"10h" // 600 min
"on" // on
"10s" // 10 sec
"20s" // 20 sec
"30s" // 30 sec
"45s" // 45 sec
"60s" // 60 sec
"2m" // 120 sec
"4m" // 240 sec
"off" // off
"1s" // 1 sec
"3s" // 3 sec
"5s" // 5 sec
"10s"
// 10 sec Appendix 375 SIP-DECT OM System Manual
"20s" // 20 sec
"30s" // 30 sec
"45s" // 45 sec
"60s" // 60 sec
"2m" // 120 sec
"4m" // 240 sec
"off" // off
"1s"
// 1 sec
"3s" // 3 sec
"5s" // 5 sec
"10s" // 10 sec
"20s" // 20 sec
"30s" // 30 sec
"45s" // 45 sec
"60s" // 60 sec
"2m" // 120 sec
"4m" // 240 sec
"off" // off
"1s" // 1 sec
"3s" // 3 sec
"5s" // 5 sec
"10s" // 10 sec
"20s"
// 20 sec
"30s" // 30 sec
"45s" // 45 sec
"60s" // 60 sec
"2m" // 120 sec
"3m" // 180 sec
"4m" // 240 sec
"on" // on
"nochange" // No change
"dimmed" // Light dimmed
"5s" // 5 sec
"10s" // 10 sec
"20s" // 20 sec
"30s" // 30 sec
"45s" // 45 sec
"60s"
// 60 sec
"2m" // 120 sec
"4m" // 240 sec 376
"nochange" // No change
"dimmed" // Light dimmed
"5s" // 5 sec
"10s" // 10 sec
"20s"
// 20 sec
"30s" // 30 sec
"45s" // 45 sec
"60s" // 60 sec
"2m" // 120 sec
"4m" // 240 sec
"nochange" // No change
"dimmed" // Light dimmed
"5s" // 5 sec
"10s" // 10 sec
"20s" // 20 sec
"30s" // 30 sec
"45s" // 45 sec
"60s" // 60 sec
"2m" // 120 sec
"4m"
// 240 sec
"dimmed" // Light dimmed
"30s" // 30 sec
"60s" // 60 sec
"2m" // 120 sec
"3m" // 180 sec
"4m" // 240 sec
"5m"
// 300 sec
// led indications
"UD_LedAlive" // true/false
"UD_LedIncom" // true/false
"UD_LedRange" // true/false
"UD_LedCharge" // true/false
"UD_LedInfo" // true/false
"UD_LedSpk" // true/false
"UD_LedAppoint" // true/false
"UD_LedAlarm" // true/false
// list access
"UD_ListmodeRedial" // VAL_LISTMODE_REDIAL_xxx Appendix 377 SIP-DECT OM System Manual
"UD_ListmodeCaller" // VAL_LISTMODE_CALLER_xxx
"UD_ListmodeFilter"
// VAL_LISTMODE_FILTER_xxx
"local" // local
"automatic" // automatic
"pbx" // PBX
"local" // local
"automatic" // automatic
"pbx" // PBX
"accept_list"
// Accept list
"block_list" // Block list
"filter_off" // Filter off
// device options
"UD_ModeSilentcharge" // true/false
"UD_ModeChargeranswr" // true/false
"UD_ModeAutoanswr" // true/false
"UD_ModeAutoquickhook" // true/false
"UD_ModeKey" // VAL_MODE_KEY_xxx
"emo" // Esc >>> Ok
"oem" // Ok Esc >>>
"eom" // Esc Ok >>>
"meo" // >>> Esc Ok
"EMO" // Esc Menu Ok
"OEM" // Ok Esc Menu
"EOM" // Esc Ok Menu
"MEO" // Menu Esc Ok
// phone lock
"UD_LockKeyAuto" // true/false
"UD_LockKeyTime" // VAL_LOCK_KEY_T_xxx
"UD_LockKeyPin"
// true/false
"UD_LockPin" // <digit-string>
"UD_LockAdmin" // <digit-string>
"5s" // 5 sec
"10s" // 10 sec
"20s" // 20 sec
"30s" // 30 sec
"40s"
// 40 sec 378
"50s" // 50 sec
"60s" // 60 sec
"90s" // 90 sec
"120s" // 120 sec
// SOS call
"UD_SosNum" // <digit-string>
"UD_SosMelody" // VAL_MELODY_xxx
"UD_SosVolume" // VAL_VOLUME_xxx
"UD_SosHandsfree" // true/false
// alarm sensor
"UD_SosMdNumber" // <digit-string>
"UD_SosMdAutoanswr" // true/false
"UD_SosMdModePre" // true/false
"UD_SosMdModeDown" // true/false
"UD_SosMdModeNomove" // true/false
"UD_SosMdModeEsc" // true/false
"UD_SosMdModeRep" // true/false
"UD_SosMdSenseAngle" // VAL_SOSMD_SENSE_ANGLE_xxx
"UD_SosMdSenseMove" // VAL_SOSMD_SENSE_MOVE_xxx
"UD_SosMdSenseEsc" // VAL_SOSMD_SENSE_ESC_xxx
"UD_SosMdNomoDown" // VAL_SOSMD_NOMO_xxx (up to 4 values)
"UD_SosMdNomoNomove" // VAL_SOSMD_NOMO_xxx (up to 4 values)
"UD_SosMdNomoEsc" // VAL_SOSMD_NOMO_xxx (up to 4 values)
"UD_SosMdDelayDown"
// VAL_SOSMD_DELAY_DOWN_xxx
"UD_SosMdDelayNomove" // VAL_SOSMD_DELAY_NOMOVE_xxx
"UD_SosMdDelayEsc" // VAL_SOSMD_DELAY_ESC_xxx
"UD_SosMdTimePre" // VAL_SOSMD_T_PRE_xxx
"UD_SosMdTimeRep" // VAL_SOSMD_T_REP_xxx
"UD_SosMdTone"
// true/false
"UD_SosMdVibra" // true/false
"steep" // Steep
"medium" // Medium
"flat" // Flat
"low" // Low
"medium" // Medium
"high" // High
"low" // Low
"medium" // Medium Appendix 379 SIP-DECT OM System Manual
"high" // High
"idle" // in idle
"conversation" // during conversation
"local_menu" // in local menu
"system_menu" // in system menu
"1s" // 1 sec
"2s" // 2 sec
"5s" // 5 sec
"10s" // 10 sec
"20s" // 20 sec
"30s" // 30 sec
"45s" // 45 sec
"60s"
// 60 sec
"75s" // 75 sec
"10s" // 10 sec
"20s" // 20 sec
"30s" // 30 sec
"45s" // 45 sec
"60s" // 60 sec
"75s" // 75 sec
"1s" // 1 sec
"2s" // 2 sec
"5s" // 5 sec
"10s" // 10 sec
"20s" // 20 sec
"30s" // 30 sec
"45s" // 45 sec
"60s"
// 60 sec
"75s" // 75 sec
"10s" // 10 sec
"20s" // 20 sec
"30s" // 30 sec
"45s" // 45 sec
"60s" // 60 sec
"75s" // 75 sec
"5s" // 5 sec
"10s" // 10 sec 380
"20s" // 20 sec
"30s" // 30 sec
"45s" // 45 sec
"60s" // 60 sec
"75s" // 75 sec
"120s"
// 120 sec
"240s" // 240 sec
// function/feature access
"UD_FunctionMenuHide" // VAL_FUNCTION_xxx and true/false
"UD_FunctionLocked" // VAL_FUNCTION_xxx and true/false
"UD_FunctionGrayed" // VAL_FUNCTION_xxx and true/false
"UD_FunctionUserProtected" // VAL_FUNCTION_xxx and true/false
"UD_FunctionAdminProtected" // VAL_FUNCTION_xxx and true/false
// functions/features available on device
"pbx_unpark" // <<< Unpark call(*)
"pbx_park" // <<< Pickup/Park(*)
"gappp_pickup" // <<< Pickup call(*)
"pbx_take" // <<< Take call(*)
"gappp_call_forward" // <<< Call diversion(*)
"pbx_call_routing" // <<< Call routing(*)
"gappp_pickup_select" // Pickup select
"gappp_announcement" // Announcement
"gappp_intercom" // Intercom
"gappp_vip_call" // VIP call
"inf" // >>> Info (menu item only)
"caller" // Caller list
"redial" // Redial list
"box_x" // >>> Voice box
"box_set_x" // Voice box settings
"voice_box_menu" // Settings/Voice mail(*)
"active_features" // >>> Active features
"msg_x" // >>> Text message / Jobs / Mails(*)
"omm_def_msg" // Pre-defined messages
"msg_opt_x" // Message options
"mel_msg_x" // Melodies
"mel_msg" // Normal message
"mel_msgurg" // Urgent message
"mel_msgsos" // Alarm message
"vol_msg_x"
// Volume
"vol_msg" // Normal message
"vol_msgurg" // Urgent message Appendix 381 SIP-DECT OM System Manual
"vol_msgsos" // Alarm message
"msg_pop" // Popup
"msg_ovwr" // Overwrite
"msg_del" // Delete/Delete all
"directory_x" // >>> Directories
"vip" // VIP list
"vip_x" // Edit/Add VIP list entry
"dir_x" // Personal directory
"book_x" // Edit/Add personal directory entry
"quick_x"
// Quick call
"add_to" // Add to...(VIP/Filter/Personal/Central directory)
"pbx_directory" // Central directory(*)
"time_x" // >>> Time functions
"alarm_x" // Alarm clock 1...3
"appointment_x"
// Appointment 1...3
"tea_timer" // Timer
"audio_x" // >>> Audio
"volume_menu" // Volume settings
"tone_menu" // Attention tones
"tone_key" // Key click
"tone_cnf" // Confirm tones
"tone_end" // End of menu
"tone_bat" // Battery warning
"tone_charger" // Charger beep
"tone_cov" // Coverage warning
"tone_range" // Out of range
"tone_wait" // Call waiting
"tone_sensor" // Pre alarm (63x only)
"load_environment" // Loud environment
"audio_hd" // Audio quality (only 650)
"ring_x" // >>> Ringing
"ring_mel_x" // Ringer melodies
"mel_int" // Internal call
"mel_ext" // External call
"mel_unk" // Unknown number
"mel_nym" // Anonymous
"mel_ccbs" // Callback
"mel_recall" // Recall
"mel_vip" // VIP call
"mel_special" // Special call
"mel_sos" // Emergency call
"mel_alarm" // Alarm
"mel_app" // Appointment 382
"ring_volume" // Ringer volume
"vol_int" // Internal call
"vol_ext" // External call
"vol_unk" // Unknown number
"vol_nym" // Anonymous
"vol_ccbs" // Callback
"vol_recall" // Recall
"vol_vip" // VIP call
"vol_special" // Special call
"vol_sos" // Emergency call
"vol_alarm" // Alarm
"vol_app" // Appointment
"ring_type_x" // Ringer type
"play_once" // Play melody once on/off
"silent_charging" // Silent charging
"noise_detection" // Noise detection on/off
"ring_device_x" // Ringer device
"ring_off" // Ringer/Buzzer on/off
"ring_hs" // Corded headset-ring on/off
"ring_vibra" // Vibrator-ring on/off
"datamanagment" // >>> Data management / SD Card
"filter_xx" // >>> Call filter
"filter_x" // Edit call filter
"system_x" // >>> System/Subscription
"start_enrol" // <New system>
"subs_auto" // Auto search
"subs_sel" // Select subscription
"subs_stop" // Stop searching
"subs_opt" // >Edit subscription
"no_plan" // Number plan
"ehs_x" // >>> Enhanced security
"bt_x" // >>> Bluetooth (only 62x/63x/65x)
"bt_edit_x"
// >Edit Bluetooth
"set_xx" // >>> User settings
"prog_x" // Key programming
"disp_x" // Display settings
"language" // Language
"font" // Font settings
"color"
// Color schemes
"scheme" // Menu structure
"pic_x" // Idle picture
"illu_x" // Illumination/Light
"disp_dim" // Display dimming Appendix 383 SIP-DECT OM System Manual
"disp_light" // Display
"disp_key" // Keyboard
"disp_charger" // Charger
"disp_call" // Conversation
"disp_inf" // Info message
"disp_msg" // Text message
"disp_job1" // Job
"disp_sos" // SOS alarm
"disp_led" // LED indications
"led_alife" // Life indication
"led_incom" // Incoming call
"led_range" // Out of range
"led_charge" // Charge indication
"led_inf" // Infos
"led_spk" // Handsfree
"led_app" // Appointment
"led_alarm" // Alarm
"list_settings" // List access
"device_opt" // Device options
"security_x" // >>> Security
"lock_x" // >>> Lock
"keylock" // Key lock
"pinlock" // Phone lock
"change_pin" // Change PIN
"sos_x" // >>> SOS call
"tms_x" // >>> Alarm sensor (63x only)
"set_pre_alarm" // Pre alarm
"set_mandown" // Mandown
"set_no_move" // No movement alarm
"set_shock" // Shock alarm
"set_rep_alarm" // Repeate alarm
"tms_opt_x" // >Sensor options
"rst_x" // >>> Reset to default
"off_menu" // >>> Off menu
"off" // Power off
"menu" // Menu
"ring_toggle" // Ringer/Buzzer on/off
"profile_x" // >>> Profiles
"prof_no" // <No profile>
"prof_norm" // Normal
"prof_hs" // Headset
"prof_meet" // Meeting
"prof_loud" // Loud 384 Appendix
"prof_my" // <Profile 05>
"prof_ed_x" // Edit profiles
"prof_ed_norm" // Edit Normal
"prof_ed_hs" // Edit Headset
"prof_ed_meet"
// Edit Meeting
"prof_ed_loud" // Edit Loud
"usb_mode" // USB mode
"doa_master" // DOA master
"f_x" // <<< XML Applications / Functions 01..10(*)
"pbx_fkeys" // <<< List of applications / functions(*)
"f_1" // App/F01(*)
"f_2" // App/F02(*)
"f_3" // App/F03(*)
"f_4" // App/F04(*)
"f_5" // App/F05(*)
"f_6" // App/F06(*)
"f_7"
// App/F07(*)
"f_8" // App/F08(*)
"f_9" // App/F09(*)
"f_10" // App/F10(*)
"vlstx" // Variable lists
"vlst1" // Variable list 1
"vlst1_1" // List 1 item 1
"vlst1_2" // List 1 item 2
"vlst1_3" // List 1 item 3
"vlst1_4" // List 1 item 4
"vlst1_5" // List 1 item 5
"vlst1_6" // List 1 item 6
"vlst1_7" // List 1 item 7
"vlst1_8" // List 1 item 8
"vlst1_9" // List 1 item 9
"vlst1_10" // List 1 item 10
"vlst2" // Variable list 2
"vlst2_1" // List 2 item 1
"vlst2_2" // List 2 item 2
"vlst2_3"
// List 2 item 3
"vlst2_4" // List 2 item 4
"vlst2_5" // List 2 item 5
"vlst2_6" // List 2 item 6
"vlst2_7" // List 2 item 7
"vlst2_8" // List 2 item 8
"vlst2_9"
// List 2 item 9
"vlst2_10" // List 2 item 10 385 SIP-DECT OM System Manual
"menu_x" // All menus
"opt" // All dial/call options
// assignment of keys
"UD_KeyAssignmentIdle" // VAL_KEY_xxx and VAL_FKT_IDLE_xxx
"UD_KeyAssignmentDial" // VAL_KEY_xxx and VAL_FKT_DIAL_xxx
"UD_KeyAssignmentAlert" // VAL_KEY_xxx and VAL_FKT_ALERT_xxx
"UD_KeyAssignmentActive" // VAL_KEY_xxx and VAL_FKT_ACTIVE_xxx
"UD_KeyAssignmentActiveSos" // VAL_KEY_xxx and VAL_FKT_ACTIVE_SOS_xxx
"UD_KeyAssignmentIdleMaster" // VAL_KEY_xxx and VAL_FKT_IDLE_xxx
"UD_KeyAssignmentDialMaster" // VAL_KEY_xxx and VAL_FKT_DIAL_xxx
"UD_KeyAssignmentAlertMaster" // VAL_KEY_xxx and VAL_FKT_ALERT_xxx
"UD_KeyAssignmentActiveMaster" // VAL_KEY_xxx and VAL_FKT_ACTIVE_xxx
"UD_KeyAssignmentActiveSosMaster" // VAL_KEY_xxx and VAL_FKT_ACTIVE_SOS_xxx
// keys available on device
"sos" // SOS-key (sos)
"side1" // Side key up (side1)
"side2" // Side key middle (side2)
"side3" // Side key down (side3)
"vip" // Hotkey (vip)
"ok" // Softkey left (ok)
"esc" // Softkey middle (esc)
"opt"
// Softkey right (opt)
"left" // Navi. left (left)
"right" // Navi. right (right)
"up" // Navi. up (up)
"down" // Navi. down (down)
"green" // Hook off (green)
"red" // Hook on (red)
"long.sos" // SOS-key long (long.sos)
"long.side1" // Side key up long (long.side1)
"long.side2" // Side key middle long (long.side2)
"long.side3" // Side key down long (long.side3)
"long.vip" // Hotkey long (long.vip)
"long.ok" // Softkey left long (long.ok)
"long.esc" // Softkey middle long (long.esc)
"long.opt" // Softkey right long (long.opt)
"long.left"
// Navi. left long (long.left)
"long.right" // Navi. right long (long.right)
"long.green" // Hook off long (long.green)
"long.red" // Hook on long (long.red) 386
"long.d0" // Key 0 long (long.d0)
"long.d1"
// Key 1 long (long.d1)
"long.d2" // Key 2 long (long.d2)
"long.d3" // Key 3 long (long.d3)
"long.d4" // Key 4 long (long.d4)
"long.d5" // Key 5 long (long.d5)
"long.d6" // Key 6 long (long.d6)
"long.d7" // Key 7 long (long.d7)
"long.d8" // Key 8 long (long.d8)
"long.d9" // Key 9 long (long.d9)
"long.star" // Star key long (long.star)
"long.hash" // Hash key long (long.hash)
"d0" // Key 0 (d0)
"d1" // Key 1 (d1)
"d2" // Key 2 (d2)
"d3" // Key 3 (d3)
"d4" // Key 4 (d4)
"d5" // Key 5 (d5)
"d6"
// Key 6 (d6)
"d7" // Key 7 (d7)
"d8" // Key 8 (d8)
"d9" // Key 9 (d9)
"star" // Star key (star)
"hash" // Hash key (hash)
"del" // C-key (del)
"spk" // Handsfree (spk)
"long.del" // C-key long (long.del)
"long.spk" // Handsfree long (long.spk)
// functions available in IDLE state
"nop" // <no function>
"prog"
// <key programming>
"menu" // >>>Menu
"dyn_pbx_option" // >>>System options / main menu
"pbx_server_menu" // >>>Server menu
"alarm_time" // Time/Alarms
"alarm" // Alarm clock
"appointment" // Appointment
"tea_timer" // Timer
"directories" // Directories (Personal/Central/VIP-list)
"get_name" // Get name from personal directory
"book" // Personal directory
"gappp_directory" // Central directory (obsolete) Appendix 387 SIP-DECT OM System Manual
"pbx_directory" // Central directory(*)
"vip" // VIP list
"quick0" // Quick call list
"sos_menu" // SOS call: with confirmation
"sos" // SOS call
"sos_loc" // Localisation alarm
"shock" // Shock detection
"alarm_call" // Alarm call
"sensor_menu" // Alarm sensor
"navi" // Navigation key
"inf" // (i) Info menu
"MenuInfNew" // (i) New infos
"voice_box" // Voice box
"caller" // Caller list
"redial" // Redial list
"omm_jobs"
// Job list
"BestMsg" // Text messages
"omm_inbox" // Inbox/Text messages
"omm_outbox" // Outbox/Text messages
"omm_def_msg" // Pre-defined messages
"txt_send" //
Send new text message
"active_features" // Active Handset features
"feature_access_code" // Feature access codes(*)
"pbx_unpark" // Unpark call(*)
"gappp_pickup" // Pickup call(*)
"pbx_take" // Take call(*)
"locating_editor" // Locating(*)
"pbx_presence" // Presence(*)
"pbx_dnd" // Call protection(*)
"gappp_call_forward" // Call diversion(*)
"pbx_call_routing" // Call routing(*)
"profile" // Profile
"datamanagment" // Data managment
"keylock" // Key lock
"pinlock" // Pin/Phone lock
"light_toggle" // Light on/off
"bt" // Bluetooth settings
"bt_state" // BT status (on/off)
"ring_off" // Ringer on/off
"vol_ok" // Volume settings
"audio_hd" // HiQ audio on/off
"off" // Power off
"predial" // Please dial editor 388
"version"
// Version info
"filter_menu" // Call filter
"filter_state" // Call filter state
"pbx_fkeys" // XML Applications
"f_1" // App 1
"f_2" // App 2
"f_3"
// App 3
"f_4" // App 4
"f_5" // App 5
"f_6" // App 6
"f_7" // App 7
"f_8" // App 8
"f_9" // App 9
"f_10" // App 10
"vlstx" // Variable lists
"vlst1" // Variable list 1
"vlst1_1" // List 1 item 1
"vlst1_2" // List 1 item 2
"vlst1_3" //
List 1 item 3
"vlst1_4" // List 1 item 4
"vlst1_5" // List 1 item 5
"vlst1_6" // List 1 item 6
"vlst1_7" // List 1 item 7
"vlst1_8" // List 1 item 8
"vlst1_9" // List 1 item 9
"vlst1_10" // List 1 item 10
"vlst2" // Variable list 2
"vlst2_1" // List 2 item 1
"vlst2_2" // List 2 item 2
"vlst2_3"
// List 2 item 3
"vlst2_4" // List 2 item 4
"vlst2_5" // List 2 item 5
"vlst2_6" // List 2 item 6
"vlst2_7" // List 2 item 7
"vlst2_8" // List 2 item 8
"vlst2_9" // List 2 item 9
"vlst2_10" // List 2 item 10
// functions available in DIAL state
"nop" // <no function>
"sk_dyn1" // <dynamic soft-key>
"caller" // Caller list
"redial" // Redial list Appendix 389 SIP-DECT OM System Manual
"get_name" // Get name from personal directory
"book_req" // Personal directory
"gappp_directory" // Central directory (obsolete)
"pbx_directory" // Central directory(*)
"vip" // VIP list
"add_to" // Add to... (VIP-, Filter-list, Personal directory)
"gappp_pickup_select" // Pickup select
"gappp_vip_call" // VIP call
"gappp_announcement" // Announcement
"gappp_intercom" // Intercom
"vlstx" // Variable lists
"vlst1" // Variable list 1
"vlst1_1" // List 1 item 1
"vlst1_2" // List 1 item 2
"vlst1_3"
// List 1 item 3
"vlst1_4" // List 1 item 4
"vlst1_5" // List 1 item 5
"vlst1_6" // List 1 item 6
"vlst1_7" // List 1 item 7
"vlst1_8" // List 1 item 8
"vlst1_9" // List 1 item 9
"vlst1_10" // List 1 item 10
"vlst2" // Variable list 2
"vlst2_1" // List 2 item 1
"vlst2_2" // List 2 item 2
"vlst2_3"
// List 2 item 3
"vlst2_4" // List 2 item 4
"vlst2_5" // List 2 item 5
"vlst2_6" // List 2 item 6
"vlst2_7" // List 2 item 7
"vlst2_8" // List 2 item 8
"vlst2_9" // List 2 item 9
"vlst2_10" // List 2 item 10
// functions available in ALERTING state
"nop" // <no function>
"sk_dyn1" // <dynamic soft-key>
"opt"
// >>>Call options
"acc" // Accept call / Hook off
"rej" // Reject call / Hook on
"ring_off" // Ringing off
"add_to" // Add to... (VIP-, Filter-list, Personal directory)
"opt_ccbs" // Callback CCBS 390
"opt_ccnr" // Callback CCNR
"opt_mcid" // Intercept MCID
"opt_pickup" // Pickup call
"opt_pickup_select" // Pickup select
"opt_park" // Park call/Unpark call
"opt_take" // Take call
"vlstx" // Variable lists
"vlst1" // Variable list 1
"vlst1_1" // List 1 item 1
"vlst1_2" // List 1 item 2
"vlst1_3" //
List 1 item 3
"vlst1_4" // List 1 item 4
"vlst1_5" // List 1 item 5
"vlst1_6" // List 1 item 6
"vlst1_7" // List 1 item 7
"vlst1_8" // List 1 item 8
"vlst1_9" // List 1 item 9
"vlst1_10" // List 1 item 10
"vlst2" // Variable list 2
"vlst2_1" // List 2 item 1
"vlst2_2" // List 2 item 2
"vlst2_3"
// List 2 item 3
"vlst2_4" // List 2 item 4
"vlst2_5" // List 2 item 5
"vlst2_6" // List 2 item 6
"vlst2_7" // List 2 item 7
"vlst2_8" // List 2 item 8
"vlst2_9" // List 2 item 9
"vlst2_10" // List 2 item 10
// functions available in ACTIVE state
"nop" // <no function>
"sk_dyn1" // <dynamic soft-key>
"opt" // >>>Call options
"pbx_server_menu" // >>>Server menu(*)
"feature_access_code" // >>>Feature access codes(*)
"dial_r" // (R) Register recall
"opt_ect" // Transfer call
"opt_brokering" // Brokering
"opt_hold" // Hold call
"opt_3pty" // Conference start/stopp
"opt_park" // Park call/Unpark call
"rel" // Release call / Hook on Appendix 391 SIP-DECT OM System Manual
"add_to" // Add to... (VIP-, Filter-list, Personal directory)
"book" // Personal directory
"gappp_directory" // Central directory (obsolete)
"pbx_directory" // Central directory(*)
"vip" // VIP list
"quick0" // Quick call list
"filter" // Call filter list
"caller" // Caller list
"redial" // Redial list
"txt_send" // Send new text message
"vol_ok" // Volume settings
"vol_up" // Volume +
"vol_down" // Volume -
"mute" // Microphone on/off
"audio_hd" // HiQ audio on/off
"bt_toggle" // Transfer BT <-> Handset
"opt_ccbs" // Callback CCBS
"opt_ccnr"
// Callback CCNR
"opt_mcid" // Intercept MCID
"opt_pickup" // Pickup
"opt_pickup_select" // Pickup select
"opt_take" // Take call
"vlstx" // Variable lists
"vlst1" //
Variable list 1
"vlst1_1" // List 1 item 1
"vlst1_2" // List 1 item 2
"vlst1_3" // List 1 item 3
"vlst1_4" // List 1 item 4
"vlst1_5" // List 1 item 5
"vlst1_6" // List 1 item 6
"vlst1_7" // List 1 item 7
"vlst1_8" // List 1 item 8
"vlst1_9" // List 1 item 9
"vlst1_10" // List 1 item 10
"vlst2"
// Variable list 2
"vlst2_1" // List 2 item 1
"vlst2_2" // List 2 item 2
"vlst2_3" // List 2 item 3
"vlst2_4" // List 2 item 4
"vlst2_5" // List 2 item 5
"vlst2_6" // List 2 item 6
"vlst2_7" // List 2 item 7
"vlst2_8" // List 2 item 8 392 Appendix
"vlst2_9" // List 2 item 9
"vlst2_10" // List 2 item 10
// functions available in ACTIVE_SOS state
"nop" // <no function>
"sk_dyn1" // <dynamic soft-key>
"opt" // >>>Call options
"pbx_server_menu" // >>>Server menu(*)
"feature_access_code" // >>>Feature access codes(*)
"dial_r" // (R) Register recall
"opt_ect" // Transfer call
"opt_brokering" // Brokering
"opt_hold" // Hold call
"opt_3pty" // Conference start/stopp
"opt_park"
// Park call/Unpark call
"rel" // Release call / Hook on
"add_to" // Add to... (VIP-, Filter-list, Personal directory)
"book" // Personal directory
"gappp_directory" // Central directory (obsolete)
"pbx_directory" // Central directory(*)
"vip" // VIP list
"quick0" // Quick call list
"filter" // Call filter list
"caller" // Caller list
"redial"
// Redial list
"txt_send" // Send new text message
"vol_ok" // Volume settings
"vol_up" // Volume +
"vol_down" // Volume -
"mute" // Microphone on/off
"audio_hd"
// HiQ audio on/off
"bt_toggle" // Transfer BT <-> Handset
"opt_ccbs" // Callback CCBS
"opt_ccnr" // Callback CCNR
"opt_mcid" // Intercept MCID
"opt_pickup" // Pickup
"opt_pickup_select" // Pickup select
"opt_take" // Take call
"predial_hook_dyn" // Dial editor
"dial_0" // Dial 0
"dial_1" // Dial 1
"dial_2" // Dial 2
"dial_3"
// Dial 3 393 SIP-DECT OM System Manual
"dial_4" // Dial 4
"dial_5" // Dial 5
"dial_6" // Dial 6
"dial_7" // Dial 7
"dial_8" // Dial 8
"dial_9" // Dial 9
"dial_star" // Dial *
"dial_hash" // Dial #
"dial_dtmf" // Dial DTMF
"vlstx" // Variable lists
"vlst1" // Variable list 1
"vlst1_1" // List 1 item 1
"vlst1_2" // List 1 item 2
"vlst1_3" // List 1 item 3
"vlst1_4" // List 1 item 4
"vlst1_5" // List 1 item 5
"vlst1_6" // List 1 item 6
"vlst1_7"
// List 1 item 7
"vlst1_8" // List 1 item 8
"vlst1_9" // List 1 item 9
"vlst1_10" // List 1 item 10
"vlst2" // Variable list 2
"vlst2_1" // List 2 item 1
"vlst2_2" // List 2 item 2
"vlst2_3" // List 2 item 3
"vlst2_4" // List 2 item 4
"vlst2_5" // List 2 item 5
"vlst2_6" // List 2 item 6
"vlst2_7" // List 2 item 7
"vlst2_8" // List 2 item 8
"vlst2_9" // List 2 item 9
"vlst2_10" // List 2 item 10
"UD_VListName" // <list-index 1..2> <utf8-string>
"UD_VListShortName" // <list-index 1..2> <utf8-string>
"UD_VListSubItems" // <list-index 1..2> <boolean>
// list-index item-index number-to-dial longname function-id shortname/icon handsfree visible(idle,dial,alert,active
// 1..2 1..10 VAL_FKT_VLIST_xxx true/false/1/0
"UD_VListEntry" // <string> <string> <utf8-string> <utf8-string>
<string> <utf8-string> <boolean> <4-digit-string-of(0,1)>
// functions available in VLIST 394 Appendix
"x" // Dummy-Function-ID
"vlst1" // Variable list 1
"vlst2" // Variable list 2
"menu" // Menu
"active_features" // Active Handset features
"alarm"
// Alarm clock
"appointment" // Appointment
"tea_timer" // Timer
"show_time_date" // Date/Time
"bt" // Bluetooth settings
"bt_state" // BT status (on/off)
"datamanagment" // Data managment
"keylock" // Key lock
"pinlock" // Pin/Phone lock
"profile" // Profile
"predial" // Please dial editor
"off" // Power off
"off_menu"
// Off menu
"ring_off" // Ringer on/off
"audio_hd" // HiQ audio on/off
"vol_ok" // Volume settings
"light_toggle" // Light on/off
"version" // Version info
"navi"
// Navigation key
"inf" // (i) Info menu
"MenuInfNew" // (i) New infos
"voice_box" // Voice box
"caller" // Caller list
"redial" // Redial list
"pbx_email"
// Email list
"pbx_fax" // Fax list
"omm_jobs" // Job list
"BestMsg" // Text messages
"omm_inbox" // Inbox/Text messages
"omm_outbox" // Outbox/Text messages
"omm_def_msg" // Pre-defined messages
"txt_send" // Send new text message
"gappp_cost" // Cost infos
"pbx_feature" // Active PBX features
"filter_menu" // Call filter
"filter_state" // Call filter state
"filter_list" // Call filter list
"directories" // Directories (Personal/Central/VIP-list) 395 SIP-DECT OM System Manual
"get_name" // Get name from personal directory
"book"
// Personal directory
"gappp_intern" // Internal directory
"pbx_directory" // Central directory
"vip" // VIP list
"feature_access_code" // Feature access codes
"pbx_reception"
// Hotel reception
"quick0" // Quick call list
"sos_menu" // SOS call: with confirmation
"sos" // SOS call
"sos_loc" // Localisation alarm
"shock" // Shock detection
"alarm_call" // Alarm call
"sensor_menu" // Alarm sensor
"dyn_pbx_option" // System options / Main menu
"pbx_server_menu" // Server menu
"pbx_options" // System Options
"gappp_call_forward"
// Call diversion
"pbx_call_routing" // Call routing
"pbx_dnd" // Call protection
"pbx_presence" // Presence
"locating_editor" // Locating
"pbx_take" // Take call
"pbx_unpark" // Unpark call
"pbx_park" // Park/Pickup
"gappp_pickup" // Pickup call
"pbx_fkeys" // XML Applications
"f_1" // App 1
"f_2" // App 2
"f_3" // App 3
"f_4" // App 4
"f_5" // App 5
"f_6" // App 6
"f_7" // App 7
"f_8" // App 8
"f_9" // App 9
"f_10" // App 10
"gappp_door" // Door opener
"gappp_door1" // Door 1
"gappp_door2" // Door 2
"gappp_pickup_select" // Pickup select
"gappp_announcement" // Announcement
"gappp_intercom" // Intercom 396 Appendix
"gappp_vip_call" // VIP call
"suppress_no" // Suppress no on/off
"sel_line" // Select line
"line_1" // L1
"line_2" // L2
"line_3" // L3
"line_4"
// L4
"line_5" // L5
"line_6" // L6
"line_7" // L7
"line_8" // L8
"line_9" // L9
"line_10" // L10
"sk_dyn1"
// <dynamic soft-key>
"opt" // Call options
"add_to" // Add to... (VIP-, Filter-list, Personal directory)
"filter" // Call filter list
"opt_called_lines" // Called lines
"dial_r"
// (R) Register recall
"opt_ect" // Transfer call
"opt_deflect" // Deflect call
"opt_ccbs" // Callback CCBS
"opt_ccnr" // Callback CCNR
"opt_mcid" // Intercept MCID
"opt_receive" // Receive call
"opt_reject" // Reject call
"opt_int" // DECT intern
"opt_brokering" // Brokering
"opt_hold" // Hold call
"opt_3pty" // Conference start/stopp
"opt_record"
// Recording start/stopp
"opt_retrieve" // Retrieve call in hold
"opt_privious" // Previous call
"opt_release" // Release call
"rel" // Release call / Hook on
"pbx_park" // Park call/Unpark call
"opt_booking_no" // Booking no
"vol_up" // Volume +
"vol_down" // Volume -
"mute" // Microphone on/off
"bt_toggle" // Transfer BT <-> Handset 397 SIP-DECT OM System Manual 12.6 PROTOCOLS AND PORTS Protocol OpenMobility Manager Server port Client port HTTPS server tcp server HTTP server (redirect to https) tcp server 443 or as configured 80 or as configured HTTP/HTTPS client for the SIP-DECT XML terminal interface tcp RFP control protocol OMM Standby OM AXI DECTnet monitor LDAP TFTP client HTTP client HTTPS client explicit FTPS client implicit FTPS client OM AXI server TCP OM AXI server TLS SIP Integrated Conference Server
(ICS) Telnet (OMM console, Linux server based OMM only) tcp server tcp server tcp server tcp server tcp client udp tcp tcp tcp tcp tcp server tcp server udp udp 80/443 16321 16322 12622 8106 any any
> 1024 any any any any 389 or as configured
>=1024 (see note) 69 / given by server
>=1024 (see note) 80 or as configured
>=1024 (see note) 443 or as configured
>=1024 (see note) 21 or as configured
>=1024 (see note) 990 or as configured
>=1024 (see note) 12621 12622 5060 5062 Any Any as configured as configured tcp server localhost 8107 localhost any Note: Unbound ports start at port 1024. Protocol HTTP/HTTPS client for the SIP-DECT XML terminal interface tcp RFP control protocol HTTP server (redirect to OMM web server (http)) SSH server DHCP client TFTP client tcp client tcp server tcp server udp udp IP-RFP Server port 80/443 Client port
> 1024 16321
>=1024 (see note) 80 or as configured 22 67 Any Any 68 69 / given by server
>=1024 (see note) 398 SIP-DECT OM System Manual Protocol OMCFG server NTP client Syslog client DNS client SNMP agent (server) SNMP trap agent (client) udp udp udp udp udp udp IP-RFP Server port 64000 123 514 or as configured 53 161
>=1024 (see note) RSXport (debug only) tcp server 38477 RTP/RTCP (server) udp Range of [RTP port base +
71] even ports for RTP, odd ports for RTCP. Port base is 16320 or as configured. RTP/RTCP (client) udp any Client port 64000 123 514
>=1024 (see note) Any 162 Any Any Range of [RTP port base
+ 71] even ports for RTP, odd ports for RTCP. Port base is 16320 or as configured. Integrated Conference Server (ICS) RTP/RTCP (server) Any Range of [ICS RTP port base + 2 * no. conf. channels] even ports for RTP, odd ports for RTCP. ICS Port base is end of RTP range plus 1. Integrated Conference Server (ICS) RTP/RTCP (client) any Range of [ICS RTP port base + 2 * no. conf. channels] even ports for RTP, odd ports for RTCP. ICS Port base is end of RTP range plus 1. Network Analysis Probe tcp server 18215 Any Note: Unbound ports start at port 1024. 399 SIP-DECT OM System Manual 12.7 ABBREVIATIONS AC ADPCM COA DECT DHCP DSP FCC GAP IMA IPBX IPEI OM Authentication Code Adaptive Differential Pulse Code Modulation Configuration Over Air Digital Enhanced Cordless Telecommunication Dynamic Host Configuration Protocol Digital Signal Processor Federal Communications Commission Generic Access Profile Integrated Messaging and Alerting Service IP PBX, a telephony system using IP / VoIP International Portable Equipment Identity OpenMobility OM AXI OM Application XML Interface OM Configurator OM Locating OpenMobility Manager OM Management Portal Portable Access Rights Key Private Branch Exchange, a customer premises telephony system Portable Part (DECT phone or device) Redirection and Configuration Service Radio Fixed Part (DECT base station) Real Time Control Protocol Real Time Protocol Trivial File Transfer Protocol OMC OML OMM OMP PARK PBX PP RCS RFP RTCP RTP TFTP 400 SIP-DECT OM System Manual 12.8 DEFINITIONS Asterisk Asterisk is a complete Open Source PBX in software. It runs on Linux, BSD and MacOSX and provides many features. Asterisk supports voice over IP in many protocols, and can interoperate with almost all standards-based telephony equipment. Base station Please see: RFP or Radio Fixed Part DECT GAP Handover IPEI Digital Enhanced Cordless Telecommunication The standard (ETS 300 175) essentially specifies the air interface, known as the radio interface. Voice and data can both be transmitted via this interface. Its technical key characteristics for Europe are:
Frequency range: Approx. 1880 1900 MHz (approximately 20 MHz bandwidth) 10 carrier frequencies (1728 kHz spacing) with 12 time slots each Doubling the number of time slots (to 24) using the TDMA process Net data rate per channel of 32 kbps
(for voice transmission using ADPCM) Voice coding using the ADPCM method Its technical key characteristics for North American are:
Frequency range: Approx. 1920 1930 MHz (approximately 10 MHz bandwidth) 5 carrier frequencies (1728 kHz spacing) with 12 time slots each) Doubling the number of time slots (to 24) using the TDMA process Net data rate per channel of 32 kbps
(for voice transmission using ADPCM) Voice coding using the ADPCM method Generic Access Profile The GAP standard (ETS 300 444) is based on the same technology as DECT, but is limited to the most important basic features. This standard was created in order to allow telephones of different vendors to be used on any type of DECT system. It thus represents the smallest common denominator of all manufacturer-specific variants of the DECT standard. An important limitation in the GAP standard is that external handover is not possible. For this reason connection handover is used, which is supported by GAP terminals. The operation of GAP-capable telephones is comparable to that of analogue terminals. For example, features can be called up via * and # procedures. A handover is similar to roaming, but occurs during an ongoing call. A handover normally takes place in the background, without disrupting the call
(seamless handover). International Portable Equipment Identity 13-digit identification code for DECT phones Example: 00019 0592015 3
(the final digit is the checksum). The code is represented in decimal form. This code is globally unique. 401 SIP-DECT OM System Manual PARK Portable Access Rights Key Access code for the Portable Part. This code determines whether a DECT phone can access a particular DECT system. Used for unique selection of a dedicated the system from a DECT phone at enrolment/subscription time. Provided via the PARK online service and unique to each SIP-DECT deployment. Radio Fixed Part
(RFP) An RFP provides a DECT radio cell and terminates the radio link from the portable DECT device. One or more RFPs build the area of radio coverage. Roaming While in motion, the DECT phone performs ongoing measurements to determine which RFP is best received. The one that can be best received is defined as the active RFP. To prevent the DECT phone from rapidly switching back and forth between two RFPs that have similar signal strength, certain threshold values are in effect. 402 SIP-DECT OM System Manual 12.9 REFERENCES
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/8/
/9/
/10/
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/13/
/14/
/15/
/16/
/17/
/18/
/19/
/20/
/21/
/22/
/23/
/24/
/25/
/26/
/27/
/28/
RFC 1350, The TFTP Protocol, Revision 2, July 1992 RFC 2090, TFTP Multicast Option, February 1997 RFC 2347, TFTP Option Extension, May 1998 RFC 2348, TFTP Block size Option, May 1998 RFC 2349, TFTP Timeout Interval and Transfer Size Options, May 1998 RFC 2236, Internet Group Management Protocol, Version 2, November 1997 RFC 1889, RTP: A Transport Protocol for Real-Time Applications, January 1996 RFC 2030, Simple Network Time Protocol (SNTP) Version 4 for IPv4, IPv6 and OSI, October 1996 RFC 2131, Dynamic Host Configuration Protocol, March 1997 RFC 2327, SDP: Session Description Protocol, April 1998 RFC 2474, Definition of the Differentiated Service Field (DS Field) in the IPv4 and IPv6 Headers, December 1998 RFC 2617, HTTP Authentication: Basic and Digest Access Authentication, June 1999 RFC 3164, The BSD Sys Log Protocol, August 2001 RFC 2833, RTP Payload for DTMF Digits, Telephony Tones and Telephony Signals, May 2000 RFC 3261, Session Initiation Protocol (SIP), June 2002 RFC 3264, An Offer/Answer Model with Session Description Protocol (SDP), June 2002 RFC 3326, The Reason Header Field for SIP, December 2002 RFC 3420, Internet Media Type message/sipfrag, November 2002 RFC 3515, The Session Initiation Protocol (SIP) Refer method, April 2003 RFC 3665, The Session Initiation Protocol (SIP) Basic Call Flow Examples, December 2003 RFC 3842, A Message Summary and Message Waiting Indication Event Package for the Session Initiation Protocol (SIP), August 2004 RFC 3891, The Session Initiation Protocol (SIP) Replaces Header, September 2004 RFC 3892, The Session Initiation Protocol (SIP) Referred-By Mechanism, September 2004 RFC 4566, SDP: Session Description Protocol RFC 5806, Diversion Indication in SIP, March 2010 Compendium OpenMobility SIP-DECT 4.0 Solution; Installation & Administration SIP-DECT; OM Locating Application; Installation, Administration & User Guide SIP-DECT; OM Integrated Messaging & Alerting Application; Installation, Administration & User Guide SIP-DECT; OM Handset Sharing & Provisioning; User Guide SIP-DECT; OM User Monitoring; User Guide SIP-DECT; Mitel 600 ; Messaging & Alerting Applications; User Guide
/29/
/30/
/31/
/32/ Mitel 600 series SIP-DECT Users Guide
/33/
/34/
/35/
/36/
aad-0384 SIP_DECT OM Application XML Interface RFC 2782, A DNS RR for specifying the location of services (DNS SRV) RFC 3262, Reliability of Provisional Responses in the Session Initiation Protocol (SIP) RFC 3311, The Session Initiation Protocol (SIP) UPDATE Method 403 SIP-DECT OM System Manual
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/43/
/44/
/45/
/46/
/47/
req-0175 SIP-DECT XMLTerminal Interface for Mitel 600 DECT Phone Family RFC 4579, Session Initiation Protocol (SIP) Call Control - Conferencing for User Agents RFC 5589, Session Initiation Protocol (SIP) Call Control Transfer RFC 2246, The TLS Protocol Version 1.0 RFC 2459, Internet X.509 Public Key Infrastructure certificate RFC 3711, The Secure Real-Time Transport Protocol (SRTP) RFC 4346, The Transport Layer Security (TLS) Protocol Version 1.1 RFC 4568, Session Description Protocol (SDP); Security Description for Media Streams RFC 5246, The Transport Layer Security (TLS) Protocol Version 1.2 RFC 5630, The Use of the SIPS URI Scheme in the Session Initiation Protocol (SIP) SIP-DECT_LinuxServerInstallation 404 SIP-DECT OM System Manual Copyright 2018, Mitel Networks Corporation. All Rights Reserved. The Mitel word and logo are Mitel.com trademarks of Mitel Networks Corporation. Any reference to third party trademarks are for reference only and Mitel makes no representation of ownership of these marks. 405
| frequency | equipment class | purpose | ||
|---|---|---|---|---|
| 1 | 2018-10-18 | 1921.536 ~ 1928.448 | PUB - Part 15 Unlicensed PCS Base Station | Original Equipment |
| app s | Applicant Information | |||||
|---|---|---|---|---|---|---|
| 1 | Effective |
2018-10-18
|
||||
| 1 | Applicant's complete, legal business name |
Mitel Networks
|
||||
| 1 | FCC Registration Number (FRN) |
0010405959
|
||||
| 1 | Physical Address |
350 Legget Drive
|
||||
| 1 |
Kanata, N/A
|
|||||
| 1 |
Canada
|
|||||
| app s | TCB Information | |||||
| 1 | TCB Application Email Address |
v******@tuvsud.com
|
||||
| 1 | TCB Scope |
A3: Unlicensed Personal Communication System (PCS) devices
|
||||
| app s | FCC ID | |||||
| 1 | Grantee Code |
EHT
|
||||
| 1 | Equipment Product Code |
RFP4445
|
||||
| app s | Person at the applicant's address to receive grant or for contact | |||||
| 1 | Name |
P**** S******
|
||||
| 1 | Title |
Regulatory Approvals Prime
|
||||
| 1 | Telephone Number |
613 5******** Extension:
|
||||
| 1 | Fax Number |
613 5********
|
||||
| 1 |
p******@mitel.com
|
|||||
| app s | Technical Contact | |||||
| n/a | ||||||
| app s | Non Technical Contact | |||||
| n/a | ||||||
| app s | Confidentiality (long or short term) | |||||
| 1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
| 1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
| 1 | If so, specify the short-term confidentiality release date (MM/DD/YYYY format) | 04/10/2019 | ||||
| if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
| app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
| 1 | Is this application for software defined/cognitive radio authorization? | No | ||||
| 1 | Equipment Class | PUB - Part 15 Unlicensed PCS Base Station | ||||
| 1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | DECT base station | ||||
| 1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
| 1 | Modular Equipment Type | Does not apply | ||||
| 1 | Purpose / Application is for | Original Equipment | ||||
| 1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
| 1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
| 1 | Grant Comments | Power listed is conducted. The device and its antenna(s) must be installed to provide a separation distance of at least 20 cm from all persons. Installers and end-users must be provided with operating conditions for satisfying RF exposure compliance. | ||||
| 1 | Is there an equipment authorization waiver associated with this application? | No | ||||
| 1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
| app s | Test Firm Name and Contact Information | |||||
| 1 | Firm Name |
TUV SUD CANADA (Laval)
|
||||
| 1 | Name |
W****** E****
|
||||
| 1 | Telephone Number |
813-2********
|
||||
| 1 |
w******@tuvsud.com
|
|||||
| Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
| 1 | 1 | 15D | 68 | 1921.53600000 | 1928.44800000 | 0.0980000 | |||||||||||||||||||||||||||||||||||
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC