Pointspan 5.2 Features and Enhancements
Transcription
Pointspan 5.2 Features and Enhancements
Proprietary and Contents Section ii Aastra – 2808-001 Proprietary and Contents Section 1st Edition (February 9, 2009) © Copyright 2009 Aastra. All rights reserved. Information in this manual may change with product revisions. Aastra may add features or enhancements to the product(s) and/or program(s) described in this manual at any time. Technical Publications freezes the information in this manual based on the specified software and hardware releases. Publications writers incorporate such changes into newly released publication editions. Publications writers will incorporate any modifications provided to them after the publication release date into the next scheduled release of the publication. Aastra Intecom furnishes the application described in this manual under a license agreement and customers may use or copy information in the manuals only in accordance with the terms of the agreement. Contact Information Address any reader comments to: Aastra Customer Information Group Manager, M/S 1N 2811 Internet Boulevard Frisco, TX 75034-1851 You may also send email to techpubs@aastrausa.com What to Expect when Contacting Company Technical Publications will email responses to customers within seven business days of the contact. Note that product support is not available through this email address. For product support, contact the Aastra Customer Service Center (CSC) at 1-800-729-1872. Aastra may use or distribute review comments and information without incurring obligation. Trademarks and Acknowledgements Product registered trademarks and copyrights of the products included in this publication include Pointspan®, Centergy®, Centergy Remote®, and Centergy Reporting®, as registered trademarks of Aastra. This publication identifies all other products or services mentioned herein by the trademarks, service marks, or product names designated by the companies that market those products. The companies producing these trademarks and registered trademarks control ownership of them. Make all inquiries concerning such trademarks directly to those companies. Aastra - 2808-001 iii Proprietary and Contents Section Revision History The following represents the revision history of this publication: iv Revision Number Date Completed 2808-001 02/09/2009 Point of Contact Description Aastra Technical Publications – Bev Marsh Initial release of this publication. Aastra – 2808-001 Proprietary and Contents Section Table of Contents 1st Edition (February 9, 2009) ....................................................................................iii Contact Information ....................................................................................................iii What to Expect when Contacting Company ...............................................................iii Trademarks and Acknowledgements ..........................................................................iii Revision History.......................................................................................................... iv About This Publication ........................................................................................................... 1 Overview ...................................................................................................................... 1 Audience....................................................................................................................... 1 Organization ................................................................................................................. 1 Reference Publications ................................................................................................. 2 Terms and Acronyms ................................................................................................... 3 Chapter 1 Aastra SIP Phone Station Features .................................................................... 1 Aastra SIP Phone SPN ACD Features ................................................................................ 2 Agent Statistics............................................................................................................. 2 Queue Depth................................................................................................................. 3 Aastra SIP Phone Preferred Line ........................................................................................ 3 Preferred Line Behavior by Phone Feature .................................................................. 3 Busy Lamp Field/Direct Station Select............................................................................... 4 Functionality................................................................................................................. 4 Example ................................................................................................................. 4 Directed Call Pickup of BLF Line (DSS)..................................................................... 4 BLF Key....................................................................................................................... 5 Assign a BLF Key ........................................................................................................ 5 BTNS – Add a BLF Key .............................................................................................. 6 FONE Command.......................................................................................................... 8 3x-type Phones Renamed.................................................................................................. 10 Aastra - 2808-001 v Proprietary and Contents Section 5x-type Phones Renamed.................................................................................................. 10 Expansion Modules........................................................................................................... 10 New Button Template Types...................................................................................... 10 Key Type ............................................................................................................. 10 Button Template Types........................................................................................ 10 Features Supported on the Expansion Module Keys.................................................. 11 Model 536M............................................................................................................... 11 Model 560M............................................................................................................... 13 Column Display Format....................................................................................... 14 Using the 560M .......................................................................................................... 14 CLASS Services Remote Access for SIP Stations and Trunks ........................................ 15 SPAR Command ........................................................................................................ 15 Auto Dial for the 9143i, 9480i, and 9480i CT .................................................................. 16 Multi-Ring ........................................................................................................................ 16 Chapter 2 SPN Integrated Trunk Gateway via SIP.......................................................... 17 Overview........................................................................................................................... 17 Functionality ..................................................................................................................... 17 SIP Registration.......................................................................................................... 17 Security....................................................................................................................... 17 SIP Authentication............................................................................................... 17 Transport Layer Security (TLS) .......................................................................... 17 SIP Stations ................................................................................................................ 17 SIP Trunks ........................................................................................................................ 18 Connectivity......................................................................................................... 18 Inbound Calls.................................................................................................................... 18 Dialing and Routing ................................................................................................... 18 En-bloc Signaling ................................................................................................ 18 Inbound Trunk Group Selection................................................................................. 18 Inbound Trunk Selection ............................................................................................ 19 vi Aastra – 2808-001 Proprietary and Contents Section Trunk Glare ................................................................................................................ 19 No Inbound Trunk Available ..................................................................................... 20 Digit Analysis and Routing ........................................................................................ 20 Dialed and Direct Inward Dial (DID) .................................................................. 20 Terminated ........................................................................................................... 21 ACD Calls .................................................................................................................. 21 Outbound Calls ................................................................................................................. 21 Routing ....................................................................................................................... 21 Routing Calls to Local SIP Trunks............................................................................. 21 Short Term Queuing................................................................................................... 21 Outpulsed Number ..................................................................................................... 21 SIP Gateway Trunk Group Selection ......................................................................... 22 Remote Trunk Unavailable ........................................................................................ 22 Outbound Call Failures .............................................................................................. 23 Trunk Glare ................................................................................................................ 23 Pass-through Dialing......................................................................................................... 23 Class of Service Restrictions...................................................................................... 24 Data ............................................................................................................................ 24 Call Detail Recording (CDR) ..................................................................................... 24 Configuration .................................................................................................................... 25 Configure the AudioCodes Gateway.......................................................................... 25 Configure Pointspan ................................................................................................... 25 Licensed SIP Trunks and SIP Destinations ................................................................ 25 Define the System Wide Domain Name in SPAR ..................................................... 25 Create the SIP Trunk Group to Route Calls to the PSTN Gateway ........................... 27 SIP Trunk Group Parameter Descriptions ........................................................... 27 Define the PSTN Gateway in the new SIPG Command ............................................ 30 Parameter Descriptions ........................................................................................ 30 Build the SIP Trunk Card and Allocate SIP Trunk Ports ........................................... 35 Aastra - 2808-001 vii Proprietary and Contents Section CFG/SGW............................................................................................................ 36 UGRP/FDD.......................................................................................................... 37 UGRP/NPA.......................................................................................................... 37 ROUT Command................................................................................................. 38 PDT Command .................................................................................................... 38 PointSpan Utilities ............................................................................................................ 38 PointSpan Alarm ........................................................................................................ 38 CFG > SGW ............................................................................................................... 39 TUTL Display ............................................................................................................ 40 Chapter 3 911 Enhancements.............................................................................................. 41 Chapter 4 LLDP-MED ........................................................................................................ 43 LLDP-MED Support for Aastra SIP Stations ................................................................... 43 LLDP-MED Processing ............................................................................................. 43 LLDP-MED VLAN Auto-Discovery ......................................................................... 44 Administrative Advantages.................................................................................. 44 Emergency Location Identification Number (ELIN) ................................................. 44 Transmission of ELIN by SIP Station ................................................................. 44 Processing of ELIN.............................................................................................. 44 LLPD-MED Configuration ........................................................................................ 45 Aastra SIP Station Configuration File Parameters............................................... 45 FONE Command for LLDP-MED ............................................................................. 46 Emergency Location Identification by IP Address ........................................................... 48 Enable ELIP for a SIP Station.................................................................................... 48 Manage Emergency Location Identifiers for IP addresses......................................... 48 Define an Emergency Location Identifier for an IP address range...................... 48 Delete Emergency Location Identifier for an IP Address Range......................... 49 Modify Emergency Location Identifier for IP Address Range............................ 49 Display Emergency Location Identifiers for IP Address Range.......................... 49 Emergency Location Identifier Determined by IP Address Operation ...................... 50 viii Aastra – 2808-001 Proprietary and Contents Section Process an Emergency Call.................................................................................. 50 Determine the IP Address of a SIP Station.......................................................... 50 Prioritization Methods that Determine the Emergency Calling Party Number ... 50 Restrictions .......................................................................................................... 51 #*9 Diagnostic to speak Emergency Location Identifier Number ............................. 51 Chapter 5 IPMI Tool............................................................................................................ 53 Intelligent Platform Management Interface (IPMI) .......................................................... 53 IPMI Commands on the ECS ..................................................................................... 53 Chapter 6 SNMP Traps ....................................................................................................... 55 SNMP Traps from PointSpan ECS ................................................................................... 55 Requirements.............................................................................................................. 55 SNMP Trap Message Format and Content................................................................. 55 Man/Machine SNMP Parameters ............................................................................... 58 Console Monitor SNMP Command ........................................................................... 60 Console Messages ...................................................................................................... 60 Chapter 7 Sip Registration CIM, Event, EAC Update ARC............................................ 63 OAI CIM, Event, and ARC Messages .............................................................................. 63 Configuration ............................................................................................................. 63 Functionality............................................................................................................... 63 SIP Registration CIM........................................................................................... 63 Update Emergency Calling Party Number ARC ................................................. 64 OAI Requirements...................................................................................................... 64 CIM Message Formats ............................................................................................... 64 For Registration from SIP Stations:..................................................................... 64 For Registration from SIP Trunks: ...................................................................... 65 For Registration from SIP Gateways: .................................................................. 65 ARC Message Format for Update Emergency CPN .................................................. 66 SIP Registration Information ID ................................................................................ 67 SIP Gateway ID.......................................................................................................... 68 Aastra - 2808-001 ix Proprietary and Contents Section Chapter 8 Pointspan Alarms ............................................................................................... 69 SIP Alarms for SPN.......................................................................................................... 69 0359............................................................................................................................ 69 3700............................................................................................................................ 70 3703............................................................................................................................ 73 3704............................................................................................................................ 75 3705............................................................................................................................ 76 3706............................................................................................................................ 77 3710............................................................................................................................ 78 3720............................................................................................................................ 79 3730............................................................................................................................ 81 3790............................................................................................................................ 81 Modified Alarms............................................................................................................... 82 3600............................................................................................................................ 82 x Aastra – 2808-001 Proprietary and Contents Section About This Publication Overview This publication provides information on new features and enhancements provided by Pointspan switch software, version 5.2. Audience This publication provides information for all users of Pointspan switches that run or will run version 5.2 software. Organization This publication contains the following chapters. Aastra - 2808-001 Chapter, Topic Description Chapter 1, Aastra SIP Phone Station Features Describes new station features. Chapter 2, SPN Integrated Trunk Gateway via SIP The initial release of SPN trunking supports basic trunk calls using SIP signaling to a VoIP SIP media gateway that converts the SIP trunks to digital (ISDN PRI, T1) or analog trunks that interconnect to the Central Office (CO). The AudioCodes Mediant 1000 is used as the gateway. Chapter 3, 911 Enhancements Pointspan 5.2 introduces enhancements to emergency calling. Chapter 4, LLDP-MED The Aastra IP phones support Link Layer Discovery Protocol for Media Endpoint Devices (LLDP-MED). Chapter 5, IPMI Tool The IPMI tool resides on the SPN server and is used by the ECS server to remotely reboot, power-on, and query the status of the SPN server (power on or off). Chapter 6, SNMP Traps Simple Network Management Protocol (SNMP) is an internet-standard protocol for managing devices on IP networks. The SNMP protocol specifies ways that a SNMP manager can monitor and control an SNMP agent. 1 Chapter 1, Aastra SIP Phone Station Features Chapter, Topic Description Chapter 7, Sip Registration CIM, Event, EAC Update ARC Pointspan 5.2 introduces new OAI messages that provide notification when a SPN SIP device registers with the Pointspan system. Chapter 8, Pointspan Alarms New and modified alarms for Pointspan 5.2. Reference Publications The following publications provide related information. All are new for Pointspan 5.2. 2 Publication Number Title Description 2754-nnn SPN Installation and Operations Provides the SPN installation procedures. 2755-nnn SPN Database Man/Machine Commands for SPN. New procedures for creating SIP IP phones for SPN. Procedures and commands for maintenance and support of SIP phones. 2735-nnn 6753i IP Phone User Guide for SPN Information and Procedures for the 6753i IP phone on the SPN. 2736-nnn 6755i IP Phone User Guide for SPN Information and Procedures for the 6755i IP phone on the SPN. 2737-nnn 6757i IP Phone User Guide for SPN Information and Procedures for the 6757i IP phone on the SPN. 2738-nnn 6757i CT IP Phone User Guide for SPN Information and Procedures for the 6757i CT IP phone on the SPN. 2741-nnn 33i (9143i) IP Phone User Guide for SPN Information and Procedures for the 33i IP phone on the SPN. 2742-nnn 35i (9480i) IP Phone User Guide for SPN Information and Procedures for the 35i IP phone on the SPN. 2743-nnn 35i CT (9480i CT) IP Phone User Guide for SPN Information and Procedures for the 35i CT IP phone on the SPN. 2756-nnn 480i IP Phone User Guide for SPN Information and Procedures for the 480i IP phone on the SPN. 2757-nnn 480i CT IP Phone User Guide for SPN Information and Procedures for the 480i CT IP phone on the SPN. Aastra – 2808-001 Proprietary and Contents Section Publication Number Title Description 2758-nnn 9133i IP Phone User Guide for SPN Information and Procedures for the 9133i IP phone on the SPN. 5015-nnn Pointspan Alarms Online Help V5.0. Updated with new alarms for SPN and various other changes. 2822-nnn SoftACDAgent Toolbar Installation and configuration information for the toolbar. Terms and Acronyms The following terms apply to related information contained in this publication. Aastra - 2808-001 Term Definition AIP Alarm Information Processing. ALI Automatic Location Identification. ASN Abstract Syntax Notation. BER Basic Encoding Rules. BLF Busy Lamp Field. CM Console Monitor. CP Call Processing. CPN Calling Party Number. DLS Directory Lookup Service on the Pointspan System. DSS Direct Station Select. EAC Emergency Associated Calling Party Number. (FONE Command). ECS Pointspan Enterprise Control Server. ELIN Emergency Location Identification Number. ELIP Emergency Location Identification Determined by IP Address. IANA Internet Assigned Numbers Authority. IP Internet Protocol (IP) is a data-oriented protocol used for communicating data across a packet-switched network. IP Address An identifier for a computer or device on a TCP/IP network. Networks using the TCP/IP protocol route messages based on the IP address of the destination. The format of an IP address is a 32-bit numeric address written as four numbers separated by periods. Each number can be zero to 255. 3 Chapter 1, Aastra SIP Phone Station Features 4 Term Definition IPMI Intelligent Platform Management Interface - The IPMI tool resides on the SPN server and is used by the ECS server to remotely reboot, power-on, and query the status of the SPN server (power on or off) IPN Internet Protocol Node LLDP-MED Link Layer Discovery Protocol – Media Endpoint Discovery. Auto-discovery of LAN policies (such as VLAN) leading to "plug and play" networking. Device location discovery to allow creation of location databases and, in the case of VoIP, E911 services. Extended and automated power management of Power over Ethernet endpoints. Inventory management, allowing network administrators to track their network devices, and determine their characteristics (manufacturer, software and hardware versions, serial / asset number). MAC Address Media Access Control address. It is a number that acts like a name for each phone. It is located on the white sticker on the bottom of the phone. MIB Management Information Base. PDU Protocol Data Unit. PSAP Pointspan Application Processor. SIP – Session Initiation Protocol The protocol for VoIP and other text and multimedia sessions, like instant messaging, video, online games and other services. SNMP Simple Network Management Protocol. SPN SIP Pointspan Node - Provides integrated SIP and Pointspan station and system features. Aastra – 2808-001 Proprietary and Contents Section Aastra - 2808-001 TDM Time-Division Multiplexing (TDM) - A type of digital multiplexing where two or more signals or bit streams are transferred apparently simultaneously as sub-channels in one communication channel, but physically are taking turns on the channel. VLAN Virtual Local Area Network. A VLAN is a logical local area network (or LAN) that extends beyond a single traditional LAN to a group of LAN segments, given specific configurations. VoIP – Voice Over IP Voice over Internet Protocol (VoIP) is a technology that allows you to make telephone calls using a broadband Internet connection instead of a regular (or analog) phone line. 5 Chapter 1, Aastra SIP Phone Station Features 6 Aastra – 2808-001 Proprietary and Contents Section Chapter 1 Aastra SIP Phone Station Features The following new station features are available on the SPN for Aastra SIP phones in Pointspan 5.2. Feature Description Station Features SIP Phone ACD Agent Statistics. Queue Depth. SoftACDAgent Toolbar Provides ACD and other SIP phone features to softphone users. SIP Phone Preferred Line Returns the LCD display back to the preferred line after a call ends (incoming or outgoing). SIP Phone/ITE Phone Busy Lamp Field Busy Lamp Field (BLF) provides: SIP Phone Expansion Modules Aastra - 2808-001 Two new ACD feature keys for agent SIP phones: Status display of a voice line configured on another station. Directed Call Pickup of the ringing BLF line. The ability to place a call to the monitored BLF line using the BLF key. Two expansion modules are available for the 6755i, 6757i, and 6757i CT phones. (Maximum of 1 expansion module per phone.) 536M - 18 keys in each column (totaling 36 keys). 560M - 20 keys available on each page (totaling 60 softkeys) CLASS Services Remote Access for SPN SIP Phones The CLASS Services Remote Access feature allows a remote user (a SIP Station or user connecting to Pointspan via a SIP Trunk) to setup Call Forward-All, CLASS Selective Call Forward, and CLASS Anonymous Call Rejection features for a directory number (that supports those CLASS services) on Pointspan. 3x-type Phones Renamed Aastra 33i, 35i, and 35i CT phones are renamed. Auto-Dial Auto Dial for the 9143i, 9480i, and 9480i CT. Multi-Ring In Pointspan 5.2.F, SIP Trunks can be used to access the remote destination. 1 Chapter 1, Aastra SIP Phone Station Features Aastra SIP Phone SPN ACD Features Two ACD feature keys have been added to the button template: Agent Statistics Queue Depth Agent Statistics The Agent Statistics feature enables the agent to display current individual agent statistics on the LCD display of the Aastra SIP phones. The following statistics display when the Agent Statistics softkey is pressed: Screen Display 2 Description Agent Name and Extension Agent name and extension Online Dur Online Duration AVL Available The percentage of time available to receive calls ACD Automatic Call Distribution Percentage of time answering ACD calls WRP Wrap-up Percentage of time in Wrap-up state HLD Hold Percentage of time in Hold state WRK Work Percentage of time in Work state INC Incoming Percentage of time on incoming calls OUT Outgoing Percentage of time on outgoing calls INT Internal Percentage of time on internal calls Total ACD calls Total number of ACD calls Avg ACD Dur Average duration of ACD calls #OUTG Outgoing Total number of outgoing calls #INCM Incoming Total number of incoming calls Aastra – 2808-001 Proprietary and Contents Section Queue Depth The Queue Depth feature enables SIP agent phones to display current queue information on the LCD display. The following information displays with the Queue Depth softkey is pressed: Acronym Displayed Description CIQ Number of Calls In Queue AOL Number of Agents Online. Aastra SIP Phone Preferred Line The Preferred Line feature returns the LCD display back to the preferred line after a call ends (incoming or outgoing). The next time the phone goes off-hook, it selects the preferred line. The number of seconds it takes for the phone to switch back to the preferred line is determined by the Preferred Timeout parameter in the aastra.cfg configuration file. There are no Man/Machine requirements for this feature. L1 will always be the preferred line. Preferred Line Behavior by Phone Feature The following table provides the behavior of the preferred line focus feature with other features on the phone. Aastra - 2808-001 Phone Feature Preferred Line Behavior speeddial The line is already specified when the speeddial is created. The phone switches back immediately after the call ends. conference For incoming calls, the phone switches back immediately after the call ends. transfer For incoming or outgoing calls, the current behavior is that the same line used to transfer the call does not change. For incoming calls, the phone switches back immediately after the call transfers. blf The phone switches back immediately after the call ends. park The phone switches back immediately after the call ends. voicemail The phone switches back immediately after the call ends. redial The phone switches back immediately after the call ends. dialing For incomplete dialing on a non-preferred line, the focus does not change if some digits are entered. If no digits are entered or digits were cleared, the focus changes to the preferred line after the timeout has passed without activity on the phone. 3 Chapter 1, Aastra SIP Phone Station Features Phone Feature Preferred Line Behavior caller id Always displays. factory default Factory default and recovery mode clears the "preferred line" and "preferred line timeout" parameters, and the phone operates in a nonpreferred line mode. Busy Lamp Field/Direct Station Select The Busy Lamp Field (BLF)/Direct Station Select (DSS) feature allows display of the status of a voice line configured on another station. The total number of BLF/DSS keys configured on all stations in the system cannot exceed 5000. A maximum of 50 BLF keys can be configured per station. Functionality The BLF-monitored line on a SIP station can monitor any station in the system (ITE, STE, SIP, etc.) Ring-Splash Option - The phone can be configured to play a ring-splash tone when a call is placed to a BLF-monitored line. Example A manager has a BLF line configured on his phone for monitoring the status of a worker’s phone use. Three indicators show the status of the worker’s monitored line: Icon Display Description LED Status on your phone BLF-monitored line is active. Solid BLF-monitored line is idle. Off BLF monitored line is ringing. Blinking Directed Call Pickup of BLF Line (DSS) 4 The BLF monitoring station can pick up a ringing call on a BLF line. The user: – Hears the Ring-Splash and/or sees the LED blinking with the bell icon displayed. – Presses the BLF key. – Picks up the handset or presses the speaker key and is connected with the party that called the BLF line. Aastra – 2808-001 Proprietary and Contents Section The BLF monitoring station must NOT be in a call pickup group to use Directed Call Pickup. If the line associated with the BLF key is in a call pickup group; then when the BLF is called and the user presses the BLF key to answer the call, they may pick up another ringing line in the call pickup group instead of the BLF line. BLF Key A call can be placed to BLF directory number by pressing BLF key: The BLF key acts as speed dial key when the BLF-monitored line is idle. The call is originated on the registered line associated with the BLF key. Assign a BLF Key Three steps are required to assign a BLF key: 1. Define the key labeling format and the DLS name format in the SPAR command. 2. Assign the BLF key(s) in the BTNS command. 3. Assign the voice line to the BLF key in the FONE command. New SPAR Parameters Description BLL BLF Key labeling format This parameter defines the format that will be used for the LCD label display for BLF keys on SIP stations with softkeys and the 560M expansion module. The key can be labeled with the name or number of the line being monitored by the BLF key. The LCD display for a BLF key has 8 characters available to display a name. The name can be displayed in two different formats: 1) Six characters of the first name with last initial, or 2) First initial with six characters of the last name Example: George Washington can be displayed as “G Washin” or “George W” The display name is read from the DLS database. In order to display the first initial and last name, call processing needs to know how the name is stored in DLS. A new SPAR parameter, DNF is used to provide this information to CP. Example: SELECT COMMAND => SPAR SELECT MODE: PRINT, DISPLAY, UPDATE, TITLES => U ENTER UPDATE TYPE or ?......................P => U Aastra - 2808-001 5 Chapter 1, Aastra SIP Phone Station Features New SPAR Parameters Description SPECIFY SYSTEM PARAMETER TO MODIFY or - or ?. => BLL BLF KEY LABEL FORMAT: D, F, L or ? .........F BLF KEY LABEL FORMAT D...USE DIRECTORY NUMBER F...USE FIRST NAME AND LAST INITIAL FROM DLS L...USE FIRST INITIAL AND LAST NAME FROM DLS BLF KEY LABEL FORMAT: D, F, OR L ...........F => F *** VERIFY/DISPLAY *** ** UPDATABLE SYSTEM PARAMETERS 08/27/08 16:35:10 BLL...SIP BLF KEY LABEL FORMAT...........FIRST NAME + LAST INITIAL RETURN CONTINUES DISPLAY..... => DOES UPDATE VERIFY ? => DNF DLS Name Format This parameter provides information to call processing about how the DLS name is stored. This parameter indicates whether the name is stored as: First name first - George Washington or Last name first - Washington, George SPECIFY SYSTEM PARAMETER TO MODIFY or - or ?. => DNF DLS DIRECTORY NAME FORMAT: F, L, or ?.......F => ? DLS DIRECTORY NAME FORMAT F = DLS NAME FORMAT: FIRSTNAME LASTNAME L = DLS NAME FORMAT: LASTNAME, FIRSTNAME DLS DIRECTORY NAME FORMAT: F, L, or ?.......F => SPECIFY SYSTEM PARAMETER TO MODIFY or - or ?. => *** VERIFY/DISPLAY *** ** UPDATABLE SYSTEM PARAMETERS 08/27/08 16:35:10 DNF...DLS DIRECTORY NAME FORMAT..........FIRSTNAME LISTED FIRST RETURN CONTINUES DISPLAY..... => BTNS – Add a BLF Key New BTNS Parameter Description BSLF Assign a Busy Lamp Field key - (ITE, STE, SIP, etc). Example: SELECT COMMAND => BTNS SELECT MODE: PRINT, DISPLAY, UPDATE, SEARCH, TITLES => U SELECT MODE: C-Create; M-Modify or D-Delete.. => M SPECIFY TEMPLATE NUMBER:..................... => 157 6 Aastra – 2808-001 Proprietary and Contents Section New BTNS Parameter Description Specify BTNS Field to Modify or - or ?....... => EKY EXTENSION KEY NUMBER TO MODIFY: Return=END.. => 5 EKY-5 TYPE: U=Unas; Lx; Feature or ?...UNAS => ? AAAN..Agent Auto Answer ASTS..ACD Agent Statistics Dsp BSLF..Busy Lamp Field CLLR..Callers DIR1..Directory - Internal DIR3..Directory - Contacts DNDB..Do Not Disturb MAIL..Voice Mail OAI1..OAI Feature 1 OAI3..OAI Feature 3 OAI5..OAI Feature 5 OAI7..OAI Feature 7 OFFL..Agent Sign-on PKUP..Call Pickup RSSS..News Services WRAP..Agent Work/Wrap AGUN..Agent Unavailable AUTD..Automatic Dial CFWD..Call Forward CREC..Call Record DIR2..Directory – Corporate DIR4..Directory – Combined EMPT..Empty MSGD..Message Desk OAI2..OAI Feature 2 OAI4..OAI Feature 4 OAI6..OAI Feature 6 OAI8..OAI Feature 8 PARK..Call Park QUEU..ACD - Queue Depth SPD1..Speed Dial EKY-5 TYPE: U=Unas; Lx; Feature or ?...UNAS => BSLF EXTENSION KEY NUMBER TO MODIFY: Return=END.. => Specify BTNS Field to Modify or - or ?....... => *** VERIFY/DISPLAY *** 57i with 560 expansion ** BUTTON TEMPLATE # 157 TYPE: SIP / 57LE ** ** LINE/CALL APPEARANCE ASSOCIATIONS L1.....SELECT L2.....CALL APPEARANCE..L1 L3.....SELECT L4.....CALL APPEARANCE..L3 L5.....UNASSIGNED L6.....UNASSIGNED L7.....UNASSIGNED L8.....UNASSIGNED L9.....UNASSIGNED ** ********* KEY ASSIGNMENTS ********* KEY L1.....SELECT KEY L2.....CALL APPEARANCE..L1 KEY L3.....SELECT KEY L4.....CALL APPEARANCE..L3 TKEY...1.....FEATURE..........Callers TKEY...2.....FEATURE..........Voice Mail RETURN CONTINUES DISPLAY..... => TKEY...3.....UNASSIGNED TKEY...4.....FEATURE..........Forward TKEY...5.....UNASSIGNED TKEY...6.....UNASSIGNED TKEY...7.....UNASSIGNED TKEY...8.....UNASSIGNED TKEY...9.....UNASSIGNED TKEY..10.....UNASSIGNED SKEY...1.....FEATURE..........Queue Depth SKEY...2.....UNASSIGNED SKEY...3.....UNASSIGNED SKEY...4.....FEATURE..........Call Pkup SKEY...5.....UNASSIGNED SKEY...6.....FEATURE..........Call Park SKEY...7.....FEATURE..........On/Offline SKEY...8.....FEATURE..........Wrap/Work SKEY...9.....UNASSIGNED SKEY..10.....FEATURE..........Msg Desk Aastra - 2808-001 08/20/08 13:00:13 7 Chapter 1, Aastra SIP Phone Station Features New BTNS Parameter Description SKEY..11.....FEATURE..........AutoAnswer SKEY..12.....FEATURE..........CallRecord SKEY..13.....FEATURE..........Un-avail SKEY..14.....UNASSIGNED SKEY..15.....UNASSIGNED RETURN CONTINUES DISPLAY..... => SKEY..16.....UNASSIGNED SKEY..17.....FEATURE..........OAI 1 SKEY..18.....FEATURE..........OAI 2 SKEY..19.....FEATURE..........OAI 3 SKEY..20.....FEATURE..........OAI 4 EKEY...1.....FEATURE..........Busy Lamp EKEY...2.....FEATURE..........Busy Lamp EKEY...3.....FEATURE..........Busy Lamp EKEY...4.....FEATURE..........Agent Stat EKEY...5.....FEATURE..........Busy Lamp EKEY...6.....UNASSIGNED EKEY...7.....UNASSIGNED EKEY...8.....UNASSIGNED EKEY..59.....UNASSIGNED EKEY..60.....UNASSIGNED RDL...REDIAL KEY.........................ENABLE CNF...CONFERENCE KEY.....................ENABLE XFR...TRANSFER KEY.......................ENABLE DOES UPDATE VERIFY ? => Y FONE Command EKY/EKEY keys are expansion modules keys. New FONE Parameters Description BLF Assignments Assign a BLF line to a BLF key. SELECT COMMAND => FONE SELECT MODE: PRINT, DISPLAY, UPDATE => U UPDT MODE: C-Create M-Modify D-Delete........ => M ENTER PORT, LOCATION, WORK AT HOME or ?...... => 2.2.1.10 PORT TYPE....................SIP Specify Field to Modify or - or ?............ => BLF BLF ASSIGNMENTS (Button #-Type-Number): EKY01-BLF -4002 EKY02-BLF -2001 EKY03-BLF -4006 EKY05-BLF BLF BUTTON NUMBER: or ? Return=END........... => ? Enter BLF button number as follows SKYxx for softkey xx TKYxx for top softkey xx PKYxx for programmable key xx EKYxx for expansion key xx BLF BUTTON NUMBER: or ? Return=END........... VOICE LINE DIRECTORY NUMBER or ?............. USER GROUP................................... ASSOCIATED SIP LINE NUMBER................... BLF ASSIGNMENTS (Button #-Type-Number): EKY01-BLF -4002 EKY02-BLF -2001 EKEY - New key types for the expansion modules => => => => EKY05 2005 1 1 EKY03-BLF -4006 EKY05-BLF -2005 BLF BUTTON NUMBER: or ? Return=END........... => 8 Aastra – 2808-001 Proprietary and Contents Section New FONE Parameters Description Specify Field to Modify or - or ?............ => VERIFY DISPLAY FORMAT: N, D, or ?...........D => *** VERIFY DISPLAY *** ***...STATION......................PORT: 002.2.01.10 ***...STATION EQUIPMENT TYPE.............SIP ***...<mac>.CFG FILE VERSION.............On File=08/20/08 13:00:22 In Use=08/20/08 12:51:15 SPT...SIP PHONE TYPE.....................AASTRA 57I w/560M BTP...BUTTON TEMPLATE NUMBER.............157 KEY TYPE LINE ASSIGNMENT L1.........LINE SELECT....DRN:4010 -UGP:1...RING HFA – INACTIVE L2.........CALL APPEAR....DRN:4010 -UGP:1...RING HFA – INACTIVE L3.........LINE SELECT....DRN:4011 -UGP:1...RING HFA – INACTIVE L4.........CALL APPEAR....DRN:4011 -UGP:1...RING HFA – INACTIVE TOP KEY # TYPE FEATURE ID 1........FEATURE........Callers 2........FEATURE........Voice Mail 3........FEATURE........UNASSIGNED 4........FEATURE........Call Forward 5........FEATURE........UNASSIGNED 6........FEATURE........UNASSIGNED 7........FEATURE........UNASSIGNED 8........FEATURE........UNASSIGNED 9........FEATURE........UNASSIGNED 10........FEATURE........UNASSIGNED SOFT KEY # TYPE FEATURE ID 1........FEATURE........ACD - Queue Depth 2........FEATURE........UNASSIGNED RETURN CONTINUES DISPLAY..... => 3........FEATURE........UNASSIGNED 4........FEATURE........Call Pickup 5........FEATURE........UNASSIGNED 6........FEATURE........Call Park 7........FEATURE........Agent Sign-on 8........FEATURE........Agent Work/Wrap 9........FEATURE........UNASSIGNED 10........FEATURE........Message Desk 11........FEATURE........Agent Auto Answer 12........FEATURE........Call Record 13........FEATURE........Agent Unavailable 14........FEATURE........UNASSIGNED 15........FEATURE........UNASSIGNED 16........FEATURE........UNASSIGNED 17........FEATURE........OAI Feature 1 18........FEATURE........OAI Feature 2 19........FEATURE........OAI Feature 3 20........FEATURE........OAI Feature 4 EXPN KEY # TYPE FEATURE ID 1........FEATURE........Busy Lamp Field 2........FEATURE........Busy Lamp Field 3........FEATURE........Busy Lamp Field 4........FEATURE........ACD Agent Statistics Dsp RETURN CONTINUES DISPLAY..... => 5........FEATURE........Busy Lamp Field 6........FEATURE........UNASSIGNED AGENT AGENT Mail-MSG DISP Mail-MSG DISP 4002/1 2001/1 4006/1 (L1) (L1) (L3) 2005/1 (L1) 59........FEATURE........UNASSIGNED Aastra - 2808-001 9 Chapter 1, Aastra SIP Phone Station Features New FONE Parameters Description 60........FEATURE........UNASSIGNED DOES UPDATE VERIFY ? => Y 3x-type Phones Renamed Three Aastra SIP Phones have been renamed: Old New Aastra 33i Aastra 9143i Aastra 35i Aastra 9480i Aastra 35i CT Aastra 9480i CT 5x-type Phones Renamed Old New Aastra 53i Aastra 6753i Aastra 55i Aastra 6755i Aastra 57i Aastra 6757i Aastra 57i CT Aastra 6757i CT Expansion Modules Two expansion modules are available for the 6755i, 6757i, and 6757i CT phones (maximum of 1 expansion module per phone). 536M - 18 keys in each column (totaling 36 keys). 560M - 20 keys available on each page (totaling 60 softkeys) New Button Template Types Key Type The new key type in the button template is “EKEY/EKY”. Button Template Types New button templates types for the expansion modules are: 10 Type Phone 55SE AASTRA 6755I 536M 55LE AASTRA 6755I 560M Aastra – 2808-001 Proprietary and Contents Section Type Phone 57SE AASTRA 6757I 536M 57LE. AASTRA 6757I 560M 7CSE AASTRA 6757I CT 536M 7CLE AASTRA 6757I CT 560M Features Supported on the Expansion Module Keys Expansion Module keys support the same features as the phone keys. Feature Feature AAN Agent Auto Answer AGUN Agent Unavailable ASTS ACD Agent Statistics Dsp AUTD Automatic Dial BSLF Busy Lamp Field CFWD Call Forward CLLR Callers CREC Call Record DIR1 Directory - Internal DIR2 Directory – Corporate DIR3 Directory - Contacts DIR4 Directory – Combined DNDB Do Not Disturb EMPT Empty MAIL Voice Mail MSGD Message Desk OAI1 OAI Feature 1 OAI2 OAI Feature 2 OAI3 OAI Feature 3 OAI4 OAI Feature 4 OAI5 OAI Feature 5 OAI6 OAI Feature 6 OAI7 OAI Feature 7 OAI8 OAI Feature 8 OFFL Agent Sign-on PARK Call Park PKUP Call Pickup QUEU ACD - Queue Depth RSSS News Services SPD1 Speed Dial WRAP Agent Work/Wrap Model 536M The 536M provides 18 keys in each column (totaling 36 keys) on the keypad. Each key has an LED for call status indication. Paper labels are provided for key labeling. Aastra - 2808-001 11 Chapter 1, Aastra SIP Phone Station Features Figure 1. Model 536M Expansion Module Figure 2. Model 536M Keys 12 Aastra – 2808-001 Proprietary and Contents Section Figure 3. 55i with 536M Expansion Module (Max 1 per phone) Model 560M The 560M provides: An LCD screen for displaying key labels. 3 keys at the bottom left of the unit that represent "Page 1", "Page 2", and "Page 3" of the LCD display. 10 keys in each column providing 20 softkeys available on each page (totaling 60 softkeys per 560M.) Each key has an LED to indicate call status. Figure 4. Model 560M Expansion Module Aastra - 2808-001 13 Chapter 1, Aastra SIP Phone Station Features Column Display Format The 560M Expansion Module screen displays softkeys in column format. The function keys on the bottom left of the Module allow you to display 3 full screens of keys. Each screen consists of 2 columns. Using the 560M Step 1. Action Result Press the top key for Page 1. Or Press the middle key for Page 2. Or 2. Press the bottom key for Page 3. Press the desired feature key. Figure 5. 560M Page 1 Screen 14 Aastra – 2808-001 Proprietary and Contents Section Figure 6. 6757i CT with 560M Expansion Module (Max 1 per phone) CLASS Services Remote Access for SIP Stations and Trunks The CLASS Services Remote Access feature allows a remote user (SIP Station or user connecting to Pointspan via a SIP Trunk) to set up three specific CLASS Service features for a directory number that supports these CLASS service features on Pointspan. No other CLASS services are implemented. This means that a SIP Station can remotely access CLASS features for other types of stations but cannot access them itself. The following 3 CLASS features are available for SIP stations and trunks. CLASS Feature Turn ON Turn OFF Call Forward-All *72 *73 Selective Call Forward *63 for Access Anonymous Call Rejection *77 ON *87 OFF SPAR Command As a part of the feature, the CIG field in the SPAR command for an SPN partition must be set to the CLASS Services IVC Group to be used for both SIP Stations and SIP Trunks when changing either the Selective Call Forward or Anonymous Call Rejection features. This IVC Group is not needed if only the Call Forward-All feature is to be changed remotely; however, without the IVC prompt, the user could easily be confused. Aastra - 2808-001 15 Chapter 1, Aastra SIP Phone Station Features Auto Dial for the 9143i, 9480i, and 9480i CT The Auto Dial feature is now available for the 9143i (33i), the 9480i (35i), and the 9480i CT (35i CT) phones. Multi-Ring Multi-Ring is a PointSpan feature that allows additional external destinations to be alerted at the same time the internal station rings. The station or the Multi-Ring destination that answers first receives the call. An example of this capability is to ring a user’s cell phone at the same time their voice line rings on their station. One or more Multi-Ring facilities can be assigned to one voice line. In Pointspan 5.2.F and above, SIP Trunks can be used to access the remote destination. See 276002 Pointspan 5.0 Features and Enhancements. 16 Aastra – 2808-001 Proprietary and Contents Section Chapter 2 SPN Integrated Trunk Gateway via SIP Overview The initial release of SPN trunking supports basic trunk calls using SIP signaling to a VoIP SIP media gateway that converts the SIP trunks to digital (ISDN PRI, T1) or analog trunks that interconnect to the Central Office (CO). The AudioCodes Mediant 1000 and AudioCodes MP-114 FXS_FXO are used as the gateway(s). Functionality SIP Registration The following SIP Registration options are supported: Implicit Registration - The SIP gateway does not explicitly register with Pointspan. Instead, Pointspan database identifies the location of the SIP gateway and Pointspan performs an internal, implicit registration. Explicit SIP Registration per Gateway - A SIP gateway initiates a single explicit SIP Registration to indicate the gateway and all gateway trunks are available. All SIP trunks associated with a SIP gateway are placed Maintenance Out-of-Service (MOS) until an explicit or implicit registration of the SIP gateway completes successfully. At that time, the affected trunks are idled and placed in the appropriate SIP trunk group. Security SIP Authentication All SIP REGISTER and INVITE messages received to place a call on a SIP trunk are authenticated using the SIP Digest method of authentication. Transport Layer Security (TLS) Transport Layer Security (TLS) is not supported. SIP Stations A SIP gateway can support one or more SIP stations attached to that gateway. The SIP gateway would normally pass along the SIP signaling and RTP packets to Pointspan, allowing Pointspan to control the SIP station. However, if the network between PointSpan and AudioCodes fails, the SIP gateway can then take control to allow the stations to communicate locally and/or route to local SIP trunks also attached to the gateway. Aastra - 2808-001 17 Chapter 2, SPN Integrated Trunk Gateway via SIP SIP stations are optionally assignable to a SIP gateway. A SIP station attached to a SIP gateway registers and places and receives calls like any standalone SIP station. However, the SIP station configuration maintained and generated by Pointspan is affected by the use of the gateway in the path between the SPN and the station. Pointspan configures a SIP station attached to a SIP Gateway as follows: Outbound proxy - Set to the IP address of the SIP Gateway instead of the SPN. Proxy - Set to the IP address of the Session Border Controller (SBC) if an SBC exists between the SPN and the SIP Gateway. This causes the SIP Gateway to forward the SIP messages sent by the station to the Session Border Controller, which forwards them to the SPN. Aside from the difference in SIP station configuration, a SIP station behind a SIP Gateway operates the same as a standalone SIP station. SIP Trunks Connectivity SIP trunks are able to call or be the destination of a call from any type of station (SIP, ITE, STE), an attendant, or any type of trunk (SIP, ISDN PRI, T1, IXL, analog). Connections between a SIP trunk and any non-IP device require an IPI circuit within the connection path to provide IP to TDM conversion. Connections between a SIP trunk and any IP device (another SIP trunk or a SIP station) within the same partition or between partitions interconnected using the same IP network does not require the use of an IPI circuit. However, connections between a SIP trunk and any IP device in a different partition that is NOT interconnected using the same IP network requires two IPI circuits, and potentially one or more RSP links, in the connection. Inbound Calls Dialing and Routing En-bloc Signaling For an incoming SIP trunk call, only en-bloc signaling is supported. The entire destination number, and any authorization code and/or account code, is received in the SIP INVITE message. Existing domestic ISDN PRI trunks also only support en-bloc signaling. Inbound Trunk Group Selection Since an inbound SIP trunk call is received from the SIP gateway instead of from a specific SIP trunk, a method must be used to identify the specific SIP trunk group from which a SIP trunk is obtained to process the inbound call. If a SIP Inbound Call - Destination Selection Table exists for a SIP Gateway, the table is searched for an entry with matching originating and/or destination SIP URIs: 18 If a matching entry exists in the table, the entry indicates one of the following: Aastra – 2808-001 Proprietary and Contents Section – Identifies the SIP trunk group to use for the call. In addition, the entry identifies the actual destination number digits, the destination number plan and type, and inter-LATA carrier code to use for the call. This allows prefix digits to only be used to select the trunk group for the incoming call; these prefix digits can then be removed from the destination number used to place the call. If removed, the prefix digits do not appear in CDR and are otherwise not used by Pointspan. – Indicates the call is blocked. If the table does not have a defined entry matching the received information in the INVITE, a default entry in the table is used. Otherwise, no SIP Inbound Call - Destination Selection Table is assigned to the SIP Gateway. All inbound calls are blocked as described below. If the trunk group selection process yields no match in the Destination Selection Table (including when no Destination Selection Table exists): The call is terminated with a SIP " 404 Not Found" response. An aborted call CDR record using the new code "Call Restricted-SIP Trunk Call with No Matching Destination Selection" is generated. No trunk group or logical trunk port is identified in the aborted call CDR record. No alarm is generated on Pointspan. If the trunk group selection process yields an indication to block the call: The call is terminated with a SIP “403 Forbidden” response. An aborted call CDR record using a new code ("System Access Denied-SIP Blocked Call-Destination Selection" or "System Access Denied-SIP Blocked Call-Calling Party Selection") is generated. No trunk group or logical trunk port is identified in the aborted call CDR record. No alarm is generated on Pointspan. Otherwise, the selection process must yield a SIP trunk group from which a trunk is obtained to use for the call. In addition, the selection process yields the destination number, the destination number plan and type, and inter-LATA carrier code. Inbound Trunk Selection A SIP trunk assigned to the appropriate gateway is obtained from the selected SIP trunk group. A SIP trunk group may contain trunks from multiple SIP gateways, so the trunk obtained must be assigned to the SIP gateway from which the INVITE was received. Trunk Glare If no SIP trunk assigned to the gateway is available in the trunk group and the trunk group chooses to NOT IGNORE glare, a check is made for any pending outbound SIP trunk call to that SIP gateway using a trunk from that trunk group. An outbound SIP trunk call is considered pending when an INVITE has been sent but not response message has yet been received. Aastra - 2808-001 19 Chapter 2, SPN Integrated Trunk Gateway via SIP If one or more pending outbound SIP trunk calls exist, the last pending call is considered as experiencing trunk glare. Pointspan cancels the SIP INVITE request, releasing the existing trunk for use by the inbound call. The outbound call restarts route guide processing to select another trunk for that call. No Inbound Trunk Available If no SIP trunk is available after attempting to resolve trunk glare, the inbound call is terminated with a SIP “503 Service Unavailable” response. An aborted call CDR record using the new "Call Blocked-No SIP Trunk Available" code is generated; no logical trunk port will be identified in the CDR record. No alarm is generated on Pointspan. However, the All Trunks Busy (ATB) count is incremented within the inbound trunk group, regardless as to whether the trunk group has any available trunks belonging to other SIP gateways. Digit Analysis and Routing The inbound SIP Trunk Group determines how the dialed digits are to be interpreted and routed: Dialed and Direct Inward Dial (DID) Dialed number or DID directory number obtained from the destination number, destination number plan and type, and inter-LATA carrier code, in the same manner as processed for an inbound ISDN PRI trunk call. The dialed digits may consist of some or all of the following: Prefix digit(s) selecting the dial plan to use – SIP Trunk Group optionally specifies a Pre-defined Dialing Level (PDL) to use in place of receiving these digits. Prefix or postfix authorization code Prefix or postfix account code Destination number The call is routed using: 20 Normal Routing - Dialed digits are processed, translated, and routed using the User Group settings and tables. DNIS Routing - The User Group DNIS Routing table is searched for the dialed number. If a match is found, the call routes to the directory number specified by the DNIS Routing entry. Both DNIS Routing and Normal Routing - If the dialed number exists in the DNIS Routing table, the call routes to the DNIS Routing directory number; otherwise, the dialed digits are processed, translated, and routed using the User Group settings and tables. Aastra – 2808-001 Proprietary and Contents Section Terminated The call terminates on one of the following, as selected by the inbound SIP Trunk Group: Attendant Directory Number specified by SIP Trunk Group ACD Calls SIP trunk calls arriving at an ACD pilot are immediately answered and become billable, while non-SIP trunk calls are not billable while in queue unless an announcement is played. Outbound Calls Routing The existing User Group tables controlling the selection of a Route Guide to use for an outbound call are used. The selected Route Guide then chooses the trunk groups used for the outbound call. As with other types of trunk groups, an available (idle) trunk is selected from a SIP Trunk Group. That trunk is used for the call. Routing Calls to Local SIP Trunks It is often desirable and sometimes required to route calls to a public trunk local to the call originator. For example, emergency 911 calls must be delivered to a trunk near the location of the caller. In order to route a call to a SIP trunk that is local to the call originator, the existing Pointspan Physical Partitioning Feature is used. Physical Partitioning allows groups of users in separate physical locations to be assigned separate User Groups (maximum 1000 User Groups). Each User Group supports unique call routing tables while optionally sharing Call Handling Parameters with other User Groups. The User Group call routing tables must then be setup to select Route Guides that choose SIP Trunk Groups local to that caller. Short Term Queuing When no trunks are available and the Route Guide selects short-term queuing, the call waits for a trunk to become available in trunk groups specified in the route guide, including SIP Trunk Groups. A call can simultaneously short term queue on SIP Trunk Groups and other types of trunk groups. Outpulsed Number Only en-bloc signaling is supported; the entire destination number is sent in the SIP INVITE message. The Prefix Digit Table (PDT) determines the string of destination number digits, the destination number plan and type, and the destination Inter-LATA Carrier Code. The PDT is processed in the same manner as a call to an ISDN PRI trunk, Aastra - 2808-001 21 Chapter 2, SPN Integrated Trunk Gateway via SIP except that operator selection causes the appropriate digits to be outpulsed similar to a destination T1 or analog trunk. The destination number defined by the PDT is sent in both the Request-URI and “To:” URI of the sent SIP INVITE message. SIP Gateway Trunk Group Selection The SIP Gateway definition within Pointspan optionally specifies an Outbound Call Destination Number Translation Table. If the table exists, call processing locates an entry in the table matching the outbound SIP Trunk Group and outpulsed number, number plan and number type. That entry specifies the contents of the destination number sent in the SIP INVITE to the SIP gateway. The translation table may identify prefix digits used by the SIP gateway to determine what outbound trunk group (on the gateway) to which the call must be routed. The prefix digits are only used to select the trunk group within the SIP Gateway. They are not considered part of the destination number. Therefore, they will not appear in CDR and are not otherwise used by Pointspan. If the Outbound Call - Destination Number Translation Table does not exist, only the destination number built using the PDT is sent. The destination number is sent in a “sip:” URI as the URI User Name, with no leading “+” character. The domain name (or domain IP address) is that of the SIP Gateway. If the PDT identified an inter-LATA carrier code, that carrier code is included in a Carrier Id Code (";cic=") in the “sip:” URI. No other URI fields (display name or phone-context) is sent. As an alternative to providing prefix digits in the Outbound Call - Destination Number Translation Table, prefix digits may be added to the destination number in the PDT. However, these prefix digits will be considered as part of the destination number and thus will appear in CDR. Remote Trunk Unavailable When a call is placed out a SIP trunk, if the received response code is within a specific set of ”remote trunk unavailable” response codes, the response code indicates the SIP gateway could not continue to route the call because a remote trunk is unavailable. This may occur when the SIP gateway has one or more trunks to the Central Office out-ofservice. Pointspan takes the following actions: The SIP Trunk Group from which the SIP trunk was obtained is removed from the Route Guide used by the outbound call. The outbound call restarts routing at the beginning of the Route Guide, without the SIP Trunk Group. The existing SIP trunk is idled to be made available for other calls. This processing allows more SIP trunks to be available to the gateway than corresponding trunks on the gateway to the Central Office. When this occurs, the SIP Trunk Group is removed from the Route Guide used to obtain another trunk, therefore: 22 Aastra – 2808-001 Proprietary and Contents Section Calls cannot obtain and use trunks from any other SIP gateway that may be available in the removed outbound trunk group. Calls cannot short-term queue within Pointspan on the trunks within that SIP Trunk Group. However, if available, short-term queuing may take place within the SIP gateway. Outbound Call Failures When a call is placed out a SIP trunk, if no response is received to the SIP INVITE or the received response code is within a specific set of “failure” response codes, a SIP trunk failure has occurred. This indicates the SIP gateway is not responding, or has an internal failure. Alarm TRNK-3001 is generated when the failure occurs and another trunk is selected for the outbound call. A trunk signaling failure count is incremented for each failure and cleared whenever the trunk successfully is used. Once the trunk failure threshold is exceeded, alarm TRNK3006 is generated and the SIP trunk is placed Maintenance Out-of-Service (MOS). If a SIP gateway fails (before the gateway service check detects the failure), many TRNK-3001 and TRNK-3006 alarms may be generated before taking all of the SIP trunks related to the gateway out-of-service. However, this operation is consistent with the current handling of other types of trunks and should be familiar to operations personnel. Trunk Glare In addition to the previously discussed trunk glare processing related to handling of an inbound SIP trunk call, when a call is placed out a SIP trunk and the received response code is within a specific set of “trunk glare” response codes, the call is considered as experiencing trunk glare. This case of glare occurs when the SIP gateway responds to the outbound trunk call from Pointspan BEFORE sending a SIP INVITE for the inbound trunk call. Pointspan takes the following actions: The outbound call restarts routing at the beginning of the Route Guide. The existing outbound SIP trunk is idled to be made available for other calls, including any subsequently received inbound call. Note that the outbound SIP trunk is idled after the outbound call restarts route guide processing so that the trunk is not available for the outbound call. Trunk glare normally will only be an issue when this is the last trunk available in a trunk group defined at a specific SIP gateway, and the SIP gateway is in the process of selecting that trunk. Pass-through Dialing For outbound calls, pass-through dialing of digits dialed by a call originator is supported. The call originator may be any type of station (SIP, ITE, STE), an attendant, or trunk (SIP, ISDN PRI, T1, IXL, analog). The only exception is that connectivity between SIP trunks and DPN trunks is NOT supported (SIP trunks are not capable of calling or being called by DPN trunks). Aastra - 2808-001 23 Chapter 2, SPN Integrated Trunk Gateway via SIP Originating SIP Stations and SIP Trunks send pass-through digits as DTMF events within the RTP stream, according to RFC 2833, “RTP Payload for DTMF Digits, Telephony Tones and Telephony Signals”. These pass-through digits pass directly to a destination SIP Station or SIP Trunk within the RTP stream. Pointspan does not monitor or have access to these digits; therefore, they cannot be recorded in CDR or disabled. Non-SIP originators (such as ITEs, STEs, attendants, analog trunks, etc.) connect to a destination SIP Trunk utilizing an IPI circuit to convert the TDM voice to RTP packets. Pass-through dialed digits dialed by the non-SIP originator are either actual DTMF tones sent by the originator or are converted to a DTMF tone by Pointspan. Upon detecting a received DTMF tone from the originator, the IPI generates a corresponding DTMF event RTP packet, according to RFC 2833. That packet is sent in the RTP stream to the SIP Trunk. Similarly, originating SIP Stations and SIP Trunks connect to a non-SIP destination using an IPI. Pass-through digits sent by the originator are received as DTMF event RTP packets by the IPI, which then generates the appropriate DTMF tone that is sent to the destination. Since pass-through digits dialed by a SIP Station or SIP Trunk are contained with-in the RTP stream, they cannot be disabled or recorded in CDR. Class of Service Restrictions Existing Class of Service restrictions related to trunks applies to SIP trunks. This includes dialing restrictions, time-of-day restrictions, and feature restrictions. Data Only transmission of Voice and Modem/FAX is supported. No transmission of data is supported. Call Detail Recording (CDR) Recording of calls using a SIP trunk is the same as that for other types of trunks. SIP trunks are identified using the SIP Trunk Group number and SIP trunk logical port number. In some instances, a trunk group or trunk logical port number is not available. If an inbound call is blocked at the point a trunk group is selected, no trunk group is available. If a trunk cannot be obtained from a trunk group for an inbound call, no trunk logical port number is available. In these cases, the CDR record is identified with the new SIP Gateway Abort call type. The SIP Gateway is ONLY identified in SIP Gateway Abort CDR records. For calls identifying a SIP trunk, the SIP Gateway can be determined from the specific logical trunk port number. 24 Aastra – 2808-001 Proprietary and Contents Section Configuration Configure the AudioCodes Gateway The AudioCodes gateway is configured separately by Aastra installation personnel. Configure Pointspan Configure the following PointSpan tables to build a SIP trunk to a PSTN gateway: 1. Call the Aastra CSC to activate the number of licenses purchased for SIP Trunks. 1. Define the System Wide Domain Name in SPAR. 2. Use the Man/Maching PSWD command to enable the new SIPG command. 3. Create the SIP trunk group that routes calls to the PSTN gateway. 4. Define the PSTN gateway in the new SIPG M/M command. 5. Build the SIP trunk card and allocate SIP trunk ports. 6. Activate the SIP trunks. 7. Define a route that steers calls to the SIP Trunk. Licensed SIP Trunks and SIP Destinations To view the man-machine tables required to build a SIP trunk to a PSTN gateway, the feature must be enabled by Aastra installation personnel. A maximum of 100 SIP Trunk Gateways can be provisioned per Pointspan system. SIP Gateway trunks are licensed per SIP port, not by the individual gateway. A SPN VoIP license can be applied as a SPN SIP Terminal, SPN Generic SIP Terminal, SPN Integrated Gateway Trunk circuit. For example, a customer requires an AudioCodes gateway with 1 PRI span with 23 ISDN trunk circuits, an AudioCodes MediaPack with 2 FXS Analog stations and 7 SIP Terminals; 32 SPN VoIP licenses are required. Define the System Wide Domain Name in SPAR The SYSTEM-WIDE SIP DOMAIN NAME is typically the same name as the “SPN PROXY IP ADDR” parameter in PHYS PARTITION. Define the system-wide sip domain name: SELECT COMMAND => spar SELECT MODE: PRINT, DISPLAY, UPDATE, TITLES => d ENTER DISPLAY TYPE or ?.....................S => u ** UPDATABLE SYSTEM PARAMETERS 08/13/08 15:19:03 CDM...SYSTEM-WIDE SIP DOMAIN NAME........192.168.6.6 Aastra - 2808-001 25 Chapter 2, SPN Integrated Trunk Gateway via SIP Change PSWD Permissions on Table SIPG From PointSpan man-machine table PSWD, change the permissions on the SIPG command for terminal T0 and password P0 to enable display, print, update and titles. SELECT COMMAND => pswd SELECT MODE: PRINT, DISPLAY, UPDATE => u UPDATE MODE: C=Create,M=Modify,D=Delete => m TERMINAL OR PASSWORD # or Return=END or ? => p0 PASSWORD NAME........................EADS01AZ => MAX ALLOWED "LEVEL" NUMBER:.................3 => COMMAND MNEMONIC or - ....................... => sipg ENTER -=ALL; N=COMMAND NOT ALLOWED; <CR>=NO CHANGE 1,2,3= ADD THESE; R,3,5= REMOVE THESE. (modify only) ALLOWED ------NO NO NO NO OPTION # -------1 2 3 4 DESCRIPTION OF SUBCOMMAND ------------------------DISPLAY PRINT UPDATE TITLES SELECT SIPG OPTION NUMBERS or ? ............. => SELECT SIPG OPTION NUMBERS or ? ............. => COMMAND MNEMONIC or - ....................... => ** VERIFY DISPLAY ** MMP PASSWORD 0: "EADS01AZ" PERMISSIBILITY 09/09/08 14:35:27 ** MAXIMUM "LEVEL" ALLOWED BY PASSWORD: 3 ABVD........PRINT DISPLAY UPDATE COPY ACD.........PRINT DISPLAY UPDATE TITLES CHANGE ACDC........PRINT DISPLAY UPDATE TITLES ACDR........PRINT DISPLAY CLEAR ADMIN ACLK........(No modes defined for this command) ACUP........PRINT DISPLAY UPDATE FORMAT SAVE RESTORE AGID........PRINT DISPLAY UPDATE RESTORE AIDD........PRINT DISPLAY UPDATE AIP.........PRINT DISPLAY UPDATE ALRM........(No modes defined for this command) AMD.........PRINT DISPLAY AMSG........PRINT DISPLAY UPDATE SEARCH APRG........PRINT DISPLAY UPDATE ARCT........PRINT DISPLAY UPDATE SEARCH TITLES ASRP........PRINT DISPLAY CLEAR ATTR........PRINT DISPLAY UPDATE AVNT........PRINT DISPLAY BUILD CANCEL UPDATE BTNS........PRINT DISPLAY UPDATE SEARCH TITLES CAC.........PRINT DISPLAY UPDATE CACR........PRINT DISPLAY CLEAR RETURN CONTINUES DISPLAY..... => y DOES UPDATE VERIFY ? => y TABLE CHANGE PERFORMED ** MMP NOTE: SIGN-ON REQUIRED TO ACTIVATE CHANGE TERMINAL OR PASSWORD # or Return=END or ? => t0 COMMAND MNEMONIC or - ....................... => sipg ENTER -=ALL; N=COMMAND NOT ALLOWED; <CR>=NO CHANGE 1,2,3= ADD THESE; R,3,5= REMOVE THESE. (modify only) ALLOWED ------NO NO NO NO 26 OPTION # DESCRIPTION OF SUBCOMMAND -------- ------------------------1 2 3 4 DISPLAY PRINT UPDATE TITLES Aastra – 2808-001 Proprietary and Contents Section SELECT SIPG OPTION NUMBERS or ? ............. => SELECT SIPG OPTION NUMBERS or ? ............. => COMMAND MNEMONIC or - ....................... => ** VERIFY DISPLAY ** MMP TERMINAL 0: "C R" PERMISSIBILITY 09/09/08 14:35:45 ABVD........PRINT DISPLAY UPDATE COPY ACD.........PRINT DISPLAY UPDATE TITLES CHANGE ADMIN ACDC........PRINT DISPLAY UPDATE TITLES ACDR........PRINT DISPLAY CLEAR ADMIN ACLK........(No modes defined for this command) ACUP........PRINT DISPLAY UPDATE FORMAT SAVE RESTORE AGID........PRINT DISPLAY UPDATE RESTORE AIDD........PRINT DISPLAY UPDATE AIP.........PRINT DISPLAY UPDATE ALRM........(No modes defined for this command) AMD.........PRINT DISPLAY AMSG........PRINT DISPLAY UPDATE SEARCH APRG........PRINT DISPLAY UPDATE ARCT........PRINT DISPLAY UPDATE SEARCH TITLES ASRP........PRINT DISPLAY CLEAR ATTR........PRINT DISPLAY UPDATE AVNT........PRINT DISPLAY BUILD CANCEL UPDATE BTNS........PRINT DISPLAY UPDATE SEARCH TITLES CAC.........PRINT DISPLAY UPDATE CACR........PRINT DISPLAY CLEAR CARD........PRINT DISPLAY UPDATE MOVE RETURN CONTINUES DISPLAY..... => y DOES UPDATE VERIFY ? => y TABLE CHANGE PERFORMED ** MMP NOTE: SIGN-ON REQUIRED TO ACTIVATE CHANGE TERMINAL OR PASSWORD # or Return=END or ? => @ SELECT COMMAND => @ Create the SIP Trunk Group to Route Calls to the PSTN Gateway Build the SIP Trunk Group to send/receive calls to the PSTN Gateway: SIP Trunk Group Parameter Descriptions Parameter Description TRUNK GROUP TYPE: Build the Trunk Group as a SIP Trunk. SIP "From:" URI: U, A, S, T or ? Set to: S = Send Calling Party Name/Number using "sip:" URI If the Calling Party name and number is available, the SPN will send it to the gateway in the TO header using the “sip:” URI format. SIP P-ASSERTEDIDENTITY: Set to: AB = Send SIP "P-Asserted-Identity:" with "sip:" & "tel:" URIs The P-Asserted-Identity header field is used among trusted SIP entities (typically intermediaries) to carry the identity of the user sending a SIP message as it was verified by authentication. Aastra - 2808-001 27 Chapter 2, SPN Integrated Trunk Gateway via SIP Parameter Description P-Asserted-Identity: "Joe Smith" <sip:jsmith@aastra.com> A P-Asserted-Identity header field value MUST consist of exactly one name-addr or addr-spec. There may be one or two P-Asserted-Identity values. If there is one value, it MUST be a sip, sips, or tel URI. If there are two values, one value MUST be a sip or sips URI and the other MUST be a tel URI. It is worth noting that proxies can (and will) add and remove this header field. The P-Preferred-Identity header field is used from a user agent to a trusted proxy to carry the identity the user sending the SIP message wishes to be used for the PAsserted-Header field value that the trusted element will insert. P-Preferred-Identity: "Joe Smith" <sip:jsmith@aastra.com> A P-Preferred-Identity header field value MUST consist of exactly one name-addr or addr-spec. There may be one or two P-Preferred-Identity values. If there is one value, it MUST be a sip, sips, or tel URI. If there are two values, one value MUST be a sip or sips URI and the other MUST be a tel URI. It is worth noting that proxies can (and will) remove this header field. SIP DELAYED MEDIA: Set to: UN = Use only if necessary (when actual call originator is known when INVITE msg is sent) This field is required to establish early cut-thru on various call types (ACD, IXL…). SELECT COMMAND => grps;u;c;900 ENTER GROUPS TYPE or ?....................... => tgrp ENTER TITLE:.....____________________________________________ => SIP Trunk to PSTN Gateway ***...TRUNK GROUP........................900 TRUNK GROUP TYPE: or ?....................UNV => ? UNV DID DISA TERM ATDC OUTG 4WEM MAIL PAGE ANCM PRI MVCF DIPN UTIL 28 - UNIVERSAL DIRECT INWARD DIAL DIRECT INCOMING SYSTEM ACCESS TERMINATED DDCO (BOTHWAY) INCOMING TERMINATED TO ATTENDANT GROUND START OUTGOING 4 WIRE E&M (BOTHWAY) InteMail SYSTEM TRUNKS PAGING SYSTEM TRUNKS ANNOUNCEMENT SYSTEM TRUNKS PRIMARY RATE INTERFACE TRUNKS MOVACS CALL FACILITIES DIPN TRUNKS UTILITY TRUNKS Aastra – 2808-001 Proprietary and Contents Section SIP - SIP TRUNKS TRUNK GROUP TYPE: or ?....................UNV => sip TRUNK CLASS: D=DIAL REPTG TIE; A=AUTO IN TIE; L=LOCAL CO; F=FX; W=WATS; E=EQUAL ACC R=REMOTE ACCS..................L => USER GROUP NUMBER:........................... => 1 CONTENTS OF NATIONAL CALLING PARTY # or ?...U => SELECT USER GROUP CALLING PARTY # or ?....... => 2 DISPLAY CALLING PARTY NUMBER or ?..Y/N......N => y PRIVATE NETWORK: Y=YES; N=NO................N => OAI ASSOCIATED MEMBER: Y=YES; N=NO..........N => FAILURE THRESHOLD: 1-3, N=NONE..............3 => RESEIZE DELAY TIME IN 50MSEC INCREMENTS.....0 => MINIMUM HOLD TIME IN SECONDS................0 => TRUNK CALL HANDLING: I=INTERNAL; E=EXTERNAL.E => DISCONNECT SUPERVISION: Y=YES; N=NO.........Y => DIRECTION OF TRUNKS: B=BOTHWAY; I=INCOMING ONLY; O=OUTGOING ONLY............B => IGNORE GLARE: Y=YES; N=NO...................N => DTMF PASSTHROUGH TIMING INDEX: 1-7,N or ?...N => INCOMING TRUNK TYPE: T=TERMINATED D=DIALED AND DIRECT IN DIAL.................D => INCOMING CALL MESSAGE #: N = NONE...........N => ROUTING TYPE: NR, DN, E or ?...............NR => WHISPER MESSAGE SOURCE GROUP or ?...........N => NUMBER OF DID DIGITS TO COLLECT: 1-5........4 => DID PREFIX DIGITS: N=NONE..................N => TK GRP AUTH TYPE: A=APPEND; F=FILED; N=NONE.N => PRE-VALIDATE AUTHORIZATION: Y=YES; N=NO.....N => PREDEFINED LEVEL CODE: Code or ? N=NONE.....N => TIMEOUT TO ATTENDANT: Y=YES; N=NO...........N => CALLWAIT RINGBACK : Y=YES; N=NO.............N => TRUNK UPDATE CDR ON TRANSFER: N=NO; F=FIRST TRANSFER; -=ALL TRANSFERS.....- => InteMail LAMP MESSAGE USER GROUP LIST: USER GROUP (1-1000) or A=ALL or W=OWN........ => A INTER-UGRP NNP USER GROUP LIST: USER GROUP (1-1000) or A=ALL or W=OWN........ => A NIGHT DIRECTORY NUMBER: N=NONE..............N => STATION CALL RESTRICTION ENABLED: Y/N.......N => NETWORK PLAYS BUSY SIGNAL: Y or N............ => y NETWORK PLAYS REORDER: Y=Yes N=No...........Y => y TRUNK SELECTION: L=LONGEST IDLE; T=TOP DOWN; B=BOTTOM UP; D=LMS DISTRIBUTED..L => t CALLING PARTY NUMBER: S; A; D or ?..........S => CALLING PARTY NAME: Y; N; or ?..............Y => ON-NET CALL: CALLING PARTY # SELECT or ?....D => OFF-NET CALL: CALLING PARTY # SELECT or ?...D => i SIP "From:" URI: U, A, S, T or ?...........U => ? Select the contents of the SIP "From:" URI: U = Send Unavailable Calling Party Name/Number Send URI: sip:UNAVAILABLE@(Originator Domain Name)> A = Send Anonymous Calling Party Name/Number Send URI: "Anonymous" <sip:anonymous@anonymous.invalid> S = Send Calling Party Name/Number using "sip:" URI T = Send Calling Party Number ONLY using "tel:" URI SIP "From:" URI: U, A, S, T or ?...........U => s SIP P-ASSERTED-IDENTITY: or ?..............N => ? N AS AT AB PS Aastra - 2808-001 = = = = = Do NOT Send Send SIP "P-Asserted-Identity:" with "sip:" URI Send SIP "P-Asserted-Identity:" with "tel:" URI Send SIP "P-Asserted-Identity:" with "sip:" & "tel:" URIs Send SIP "P-Preferred-Identity:" with "sip:" URI 29 Chapter 2, SPN Integrated Trunk Gateway via SIP PT = Send SIP "P-Preferred-Identity:" with "tel:" URI PB = Send SIP "P-Preferred-Identity:" with "sip:" & "tel:" URIs SIP P-ASSERTED-IDENTITY: SIP DELAYED MEDIA: or ?..............N => ab or ?....................N => ? SIP Delayed Media (SDP in ACK msg instead of INVITE msg) N = Do NOT Use (send SDP in INVITE msg) UN = Use only if necessary (when actual call originator is known when INVITE msg is sent) UA = Use always (send SDP in ACK msg) SIP DELAYED MEDIA: or ?....................N => un DIAGNOSTIC PARAMETERS: Y or N...............N => *** VERIFY/DISPLAY *** DOES UPDATE VERIFY ? => y TABLE CHANGE PERFORMED Define the PSTN Gateway in the new SIPG Command Create an entry in SIPG for the PSTN Gateway: Parameter Descriptions SIPG Parameter Description SIP GATEWAY NAME User name used for Registration and Basic/Digest authentication with a Proxy / Registrar server. The parameter doesn't have a default value (empty string). (AudioCodes parameter SIP PARAMS/USERNAME.) 30 GATEWAY IP ADDRESS: The IP address assigned to the AudioCodes Gateway. ASSOCIATED SPN PARTITION: The SPN partition used to interface with the AudioCodes Gateway. USER GROUP NUMBER: The user group used to process incoming calls from the AudioCodes trunk. SEND ";user=phone" IN SIP URIs: Determines whether to add 'user=phone' string in SIP URI. The "user=phone" parameter is a hint that the part to the left of the '@' sign is actually a phone number, in case there are SIP users whose names happen to consist of all digits. No = 'user=phone' string isn't used in SIP URI. Yes = 'user=phone' string is part of the SIP URI (default). Aastra – 2808-001 Proprietary and Contents Section SIPG Parameter Description TRUNK GROUP IDENTIFICATION USE: Determines whether the SIP trunk group parameter, which specifies the Trunk Group to which the call belongs, is used. SIP REGISTRATION: N - Not Enabled = The 'tgrp' parameter isn't used (default). R - Only Receive and Use Trunk Group IDs from Gateway = The Trunk Group number is received in the 'tgrp' parameter value in the Contact header of incoming SIP messages. If a Trunk Group number is not associated with the call, the 'tgrp' parameter isn't included. A 'tgrp' value is not sent in outgoing messages. The received ‘tgrp’ value is used to entry into table TM9. S - Only Send Trunk Group IDs to Gateway = The Trunk Group number is added to the 'tgrp' parameter value in the Contact header of outgoing SIP messages. If a 'tgrp' value is specified in incoming messages, it is ignored. For outgoing SIP messages to AudioCodes, if the Request-URI includes a 'tgrp' parameter, AudioCodes routes the call according to that value (if possible). If the Contact header includes a 'tgrp' parameter, it is copied to the corresponding outgoing messages in that dialog. B - Send/Receive Trunk Group IDs to/from Gateway = The functionality of outgoing SIP messages is identical to the functionality described in options (R and S). Implicit or Explicit registration received from AudioCodes: N - No SIP Registration (Implicit) = As part of an implicit registration, Pointspan initiates a service check to determine if the SIP gateway is available to send or receive calls across the gateway’s SIP trunks. The service check consists of sending a SIP OPTIONS message. If the SIP gateway successfully responds to the message, the SIP gateway is considered in-service; therefore, Pointspan marks the SIP gateway as registered. The trunks associated with the gateway are idled and placed into the appropriate SIP trunk group. Aastra - 2808-001 31 Chapter 2, SPN Integrated Trunk Gateway via SIP SIPG Parameter Description When a gateway is out-of-service pending a successful implicit registration, Pointspan does NOT send any calls to the gateway; however, any SIP INVITE received from the gateway causes Pointspan to complete the implicit registration (marking the gateway as in-service and registered); Pointspan then accepts and processes the received call normally. G - SIP Registration By SIP Gateway (Explicit Registration) = The SIP gateway must send a SIP REGISTER message to Pointspan to initiate an explicit registration. Upon receiving and validating the request, Pointspan marks the SIP gateway as registered and responds with a 200 OK to the request. When a gateway is out-of-service pending a successful explicit registration, Pointspan does NOT send any calls to the gateway; however, any SIP INVITE received from the gateway causes Pointspan to place the SIP trunks inservice ONLY for received calls; Pointspan then accepts and processes the received call normally. Pointspan then continues to wait for the explicit registration before routing outbound calls to the gateway. Once registered (either implicitly or explicitly), Pointspan periodically (once every 15 seconds) performs a service check on each in-service SIP gateway to insure the gateway remains inservice. When the periodic service check fails or an existing explicit SIP registration expires and is not refreshed by the gateway, Pointspan generates an alarm and places all SIP trunks associated with the SIP gateway out-of-service. However, existing calls to Pointspan stations or trunks supporting disconnect supervision remain active until terminated by the remaining party in the call. The in-service status of the SIP gateway does not affect the operation of any SIP station assigned to that gateway. SIP stations, whether standalone or behind a SIP gateway, use a separate SIP registration process for determining eligibility to receive calls. 32 Aastra – 2808-001 Proprietary and Contents Section SIPG Parameter Description SENT AUTHENTICATION NAME: Defines the user name that is used in the From and To headers in REGISTER messages. AudioCodes parameter SIP PARAMS/ GWRegistrationName. If no value is specified (default) for this parameter, the UserName parameter is used instead. VALIDATE SIP AUTHENTICATION PSWD: Authenticate and verify the password received from AudioCodes. SIP AUTHENTICATION PASSWORD: The password used to authenticate requests received from the AudioCodes gateway. (AudioCodes parameter SIP PARAMS/ PASSWORD.) GATEWAY URI USER NAME: The username used for Registration and Basic/Digest authentication with a Proxy / Registrar server. The parameter doesn't have a default value (empty string). (AudioCodes parameter SIP PARAMS/USERNAME.) Aastra - 2808-001 GATEWAY URI DOMAIN NAME: The registrar domain name. If specified, the name is used as the Request-URI in REGISTER messages. If it isn't specified (default), the Registrar IP address, or Proxy name or IP address is used instead. The valid range is up to 49 characters. SIP GATEWAY SUPPORTS "REPLACES": Enables blind transfer. Blind transfer is performed after we have a call between A and B, and party A decides to immediately transfer the call to C without speaking with C. The result of the transfer is a call between B and C (just like consultation transfer only skipping the consultation stage). INCOMING CALL DESTINATION SELECTION TABLE: Associates inbound calls from a trunk group on the AudioCodes Gateway to a trunk group on PointSpan. For example, a PSTN call is received on AudioCodes trunk group (for example: 3) and sent to PointSpan. PointSpan routes the call as if it enter the switch on PointSpan’s trunk group (for example: 900). 33 Chapter 2, SPN Integrated Trunk Gateway via SIP OUTBOUND CALL DESTINATION TRANSLATION TABLE: Associates outbound calls from a trunk group on the PointSpan to a trunk group on AudioCodes Gateway. For example, a PSTN call is sent from PointSpan’s trunk group (for example: 900) to AudioCodes; when AudioCodes receives the call it will route the call to the PSTN on trunk group (for example: 3). SELECT COMMAND => sipg SELECT MODE: DISPLAY, PRINT, UPDATE, TITLES => u UPDT MODE: C-Create,M-Modify,D-Delete........ => c SIP GATEWAY #: or ?.......................... => 3 ENTER TITLE:.....____________________________________________ => AudioCodes 1 Gateway SIP GATEWAY NAME: or ?....................... => TB1AC1 GATEWAY IP ADDR: or ?........................ => 192.168.6.40 ASSOCIATED SPN PARTITION NUMBER.............. => 4 USER GROUP NUMBER or ?....................... => 1 SEND ";user=phone" IN SIP URIs: Y/N or ?....N => y TRUNK GROUP IDENTIFICATION USE: or ?........N => ? SELECT USE OF TRUNK GROUP IDENTIFICATION: N - Not Enabled - Do Not Send Trunk Group IDs or Use Received Trunk Group IDs R - Only Receive and Use Trunk Group IDs from Gateway S - Only Send Trunk Group IDs to Gateway B - Send/Receive Trunk Group IDs to/from Gateway TRUNK GROUP ID CONSISTS OF INGRESS and/or EGRESS TRUNK GROUP (";tgrp=") and TRUNK-CONTEXT (";trunk-context=") TRUNK GROUP IDENTIFICATION USE: or ?........N => b SIP REGISTRATION: G or N....................N => N Enter: SIP Registration: N = No SIP Registration G = SIP Registration By SIP Gateway SENT AUTHENTICATION NAME: or ?............... => TB1AC1 ***...RECEIVED AUTHENTICATION NAME.......TB1AC1 VALIDATE SIP AUTHENTICATION PASSWORD: or ?..Y => y SIP AUTHENTICATION PSWD...................... => TB1AC1PASS SIP GATEWAY URI USER NAME: or ?............................. => TB1AC1 SIP GATEWAY URI DOMAIN NAME: or ?............ => NONE SRP...SIP GATEWAY SUPPORTS "REPLACES".... YES => y GATEWAY GROUP POINTSPAN GROUP INCOMING CALL - DESTINATION SELECTION TABLE.. ACTION: S=SHOW; R=REMOVE; A=ADD, return=END.. INC CALL - DESTINATION SELECTION TABLE.. SIP GATEWAY TRUNK GROUP NUMBER............... POINTSPAN SIP TRUNK GROUP NUMBER............. INCOMING CALL - DESTINATION SELECTION TABLE.. ACTION: S=SHOW; R=REMOVE; A=ADD, return=END.. => a => 3 => 900 => OUTBOUND CALL - DESTINATION TRANSLATION TABLE.. ACTION: S=SHOW; R=REMOVE; A=ADD, return=END.. => a 34 Aastra – 2808-001 Proprietary and Contents Section OUTB CALL - DESTINATION TRANSLATION TABLE.. POINTSPAN SIP TRUNK GROUP NUMBER............. => 900 SIP GATEWAY TRUNK GROUP NUMBER............... => 3 OUTBOUND CALL - DESTINATION TRANSLATION TABLE.. ACTION: S=SHOW; R=REMOVE; A=ADD, return=END.. => *** VERIFY/DISPLAY *** AudioCodes 1 Gateway GNM...SIP GATEWAY NAME...................TB1AC1 IPA...GATEWAY IP ADDRESS.................192.168.6.40 ASP...ASSOCIATED SPN PARTITION...........4 UGP...USER GROUP NUMBER..................1 SIR...INVITE RESPONSE CODE TABLE NUMBER..DFLT UPH...SEND ";user=phone" IN SIP URIs.....YES TGS...TRUNK GROUP IDENTIFICATION.........SEND/RECEIVE IDs SRG...SIP REGISTRATION...................NO Explicit SIP Registration SAN...SENT AUTHENTICATION NAME........... TB1AC1 ***...RECEIVED AUTHENTICATION NAME....... SAD...VALIDATE SIP AUTHENTICATION PSWD...YES SPW...SIP AUTHENTICATION PASSWORD........ TB1AC1PASS ......CURRENT PASSWORD VERSION...........1 SUN...GATEWAY URI USER NAME.............. TB1AC1 SDN...GATEWAY URI DOMAIN NAME............ SRP...SIP GATEWAY SUPPORTS "REPLACES"....YES ICP...INC CALL - CALLING PARTY SLCT TBL..UNASSIGNED IDT...INC CALL - DESTINATION SLCT TBL....2 GATEWAY GROUP POINTSPAN GROUP RETURN CONTINUES DISPLAY..... => 3 900 OCP...OUTG CALL - CALLING PARTY XLTN TBL.UNASSIGNED ODT...OUTG CALL - DESTINATION XLTN TBL...4 POINTSPAN GROUP GATEWAY GROUP 900 3 DOES UPDATE VERIFY ? => y TABLE CHANGE PERFORMED Build the SIP Trunk Card and Allocate SIP Trunk Ports Build a SIP Trunk card and allocate SIP trunk ports. If the gateway has 23 ports (for example, a PRI), then build 23 ports on the card. SELECT COMMAND => card SELECT MODE: PRINT, DISPLAY, UPDATE, MOVE => UPDT MODE: C-Create M-Modify D-Delete P-Copy. ENTER LOCATION or ?.......................... CARD TYPE or ?............................... SIPS....SIP STATION u => c => 11.1.4 => ? SIPT....SIP TRUNK CARD TYPE or ?............................... => sipt *** VERIFY DISPLAY *** ***...CARD TYPE..........................SIPT DOES UPDATE VERIFY ? => y TABLE CHANGE PERFORMED Aastra - 2808-001 35 Chapter 2, SPN Integrated Trunk Gateway via SIP ** NOTE: SIP TRUNK PORTS MUST BE CREATED SEPARATELY ** ENTER LOCATION or ?.......................... => 11.1.4.1 # CONSECUTIVE/IDENTICAL SIP TRUNKS TO BUILD.. => 23 CREATING SIP 74 of 256 LICENSED ***...SIP TRUNK........PORT 011.1.04.01 TRUNK GROUP NUMBER........................... SIP GATEWAY NUMBER........................... CLASS OF SERVICE............................. OAI ASSOCIATED MEMBER: Y=YES; N=NO..........N NIGHT DIRECTORY NUMBER: N=NONE..............N => 900 => 1 => 1 => => *** VERIFY/DISPLAY *** ***...SIP TRUNK........PORT 011.1.04.01 ***...USER GROUP NUMBER..................1 ***...DIRECTION..........................BOTHWAY TGF...TRUNK GROUP NUMBER.................900 SGF...SIP GATEWAY NUMBER.................1 COS...CLASS OF SERVICE...................1 OAM...OAI ASSOCIATED MEMBER..............NO NDN...NIGHT ANSWER DIRECTORY.............NONE DOES UPDATE VERIFY ? => y TABLE CHANGE PERFORMED Activate the SIP Trunks Put the SIP trunks into service using the CFG command. After the trunk is built, it comes up in an “INACTIVE - Waiting for SPN to Initialize” state. Place the trunk in-service via the “I” command and the state changes to “INACTIVE - Waiting for SPN to Contact Gateway” state. After the SPN is able to communicate with the gateway, the state becomes “ACTIVE”. CFG/SGW SELECT COMMAND => cfg SELECT SUBCOMMAND or ?....................... => sgw SIP GATEWAY # or - or ?...................... => P, D, I, O, F or ?........................... => d Man-Machine T0 SIP GATEWAY STATUS DISPLAY GATEWAY NBR ----------1 09/09/08 System Console 15:12:02 STATUS -------------------------------------------------INACTIVE - Waiting for SPN to Initialize P, D, I, O, F or ?........................... => i CFG REQUEST COMPLETE P, D, I, O, F or ?........................... => d Man-Machine T0 SIP GATEWAY STATUS DISPLAY GATEWAY NBR ----------1 09/09/08 System Console 15:13:33 STATUS -------------------------------------------------INACTIVE - Waiting for SPN to Contact Gateway P, D, I, O, F or ?........................... => 36 Aastra – 2808-001 Proprietary and Contents Section SELECT COMMAND => cfg SELECT SUBCOMMAND or ?....................... => sgw SIP GATEWAY # or - or ?...................... => P, D, I, O, F or ?........................... => d SIP GATEWAY STATUS DISPLAY 08/26/08 GATEWAY NBR ----------1 15:36:24 STATUS -------------------------------------------------ACTIVE P, D, I, O, F or ?........................... => ? P D I O F = = = = = PRINT DISPLAY IN SERVICE OUT OF SERVICE FORCE OUT OF SERVICE Define a Route to Steer Calls to the SIP Trunk Refer to the “Pointspan System Database Administration” to create a route to place a call to the SIP trunk group. The following is an example route that was used to send calls to trunk group 900. In this example, the user dialed 91(901)888-5001 to out pulse digits 5001 on the SIP trunk. UGRP/FDD SELECT COMMAND => ugrp;d;1;fdd ** USER GROUP 1 SHARES FDDs WITH OTHER USER GROUP FDDs DISPLAY THE SHARING USER GROUPS?: Y=Yes; Return=No... => Primary User Group ** FIRST DIGIT DISPOSITION FOR USER GROUP# 1 08/25/08 1....FIRST DIGIT 1 FIXED LENGTH DIR. NUM. 4 DIGITS 2....FIRST DIGIT 2 FIXED LENGTH DIR. NUM. 4 DIGITS 3....FIRST DIGIT 3 FIXED LENGTH DIR. NUM. 4 DIGITS 4....FIRST DIGIT 4 FIXED LENGTH DIR. NUM. 4 DIGITS 5....FIRST DIGIT 5 FIXED LENGTH DIR. NUM. 4 DIGITS 6....FIRST DIGIT 6 FIXED LENGTH DIR. NUM. 4 DIGITS 7....FIRST DIGIT 7 FIXED LENGTH DIR. NUM. 4 DIGITS 8....FIRST DIGIT 8 BELL RECOMMENDED........AUTH NORMAL 9....FIRST DIGIT 9 BELL RECOMMENDED........NO AUTH NORMAL 0....FIRST DIGIT 0 ATTENDANT 17:04:59 NNP...NNP FIRST DIGITS.......................2 3 4 5 6 7 8 9 3DS...3 DIGIT SPEED NUMBER FIRST DIGITS...... 4DS...4 DIGIT SPEED NUMBER FIRST DIGITS...... ENTER DIALING LEVEL, RETURN = END or ?....... => @ END OF DISPLAY UGRP/NPA SELECT COMMAND => ugrp;d;1;npa ** USER GROUP 1 SHARES NPAs WITH OTHER USER GROUP NPAs DISPLAY THE SHARING USER GROUPS?: Y=Yes; Return=No... => NPA No., C, ? or Return=END.................. => 1 Unity npa ** NPA ROUTING TABLE 1 ** NPAs NOT SHOWN ARE BLOCKED Aastra - 2808-001 USER GROUP 1 08/25/08 37 Chapter 2, SPN Integrated Trunk Gateway via SIP NPA TREATMENT 214-->RGN 72 333-->RGN 700 606-->RGN 777 819-->RGN 93 940-->RGN 40 END OF DISPLAY NPA TREATMENT 222-->RGN 712 408-->RGN 10 707-->RGN 777 900-->RGN 97 972-->RGN 72 NPA TREATMENT 223-->RGN 82 469-->RGN 72 800-->RGN 72 901-->RGN 901 998-->RGN 95 NPA TREATMENT 301-->RGN 301 505-->RGN 72 817-->RGN 10 902-->RGN 902 999-->RGN 91 NPA No., C, ? or Return=END.................. => @ ROUT Command SELECT COMMAND => rout;d;901 SIP Gateway *** ROUTE GUIDE # 901 08/25/08 17:01:28 1 TRUNK GROUP 900 -- FRL: 0 -- PREFIX DIGIT STRING # 901 2 BUSYOUT ROUTE GUIDE # or ?........................... => @ PDT Command SELECT COMMAND => pdt;d;901 SIP Gateway *** OFF-NET PREFIX DIGIT TABLE # 901 1) DESTINATION NUMBER: PLAN: ISDN/TELEPHONY TYPE: SUBSCRIBER OUTPULSE NUMBER TYPE: DIRECTORY NUMBER: NO PREFIX DIGITS 08/25/08 PLUS 17:01:39 4 SIGNIFICANT DIGITS PointSpan Utilities Normal trunk utilities apply to the SIP trunks such as TUTL and MOS/MIS plus the new CFG sub-command SGW. Do not attempt to use the CFG;CRD command. To logically restart the SIP Gateway, use the CFG;SGW command; to take individual ports in and out of service use the MOS/MIS command management. PointSpan Alarm Verify the AudioCodes Gateway is up and ready to take calls – A PointSpan console alarm SIPG-3790. 38 Aastra – 2808-001 Proprietary and Contents Section CFG > SGW Verify the status of the SIP trunk via the cfg;sgw command. SELECT COMMAND => cfg SELECT SUBCOMMAND or ?....................... => sgw SIP GATEWAY # or - or ?...................... => P, D, I, O, F or ?........................... => ? P D I O F = = = = = PRINT DISPLAY IN SERVICE OUT OF SERVICE FORCE OUT OF SERVICE P, D, I, O, F or ?........................... => d SIP GATEWAY STATUS DISPLAY GATEWAY NBR ----------1 08/26/08 15:36:24 STATUS -------------------------------------------------ACTIVE MOS Display Verify the status of the SIP trunk ports via the MOS command. SELECT COMMAND => mos;d;;;;11.1.3 *** * ALL PORTS *** CB.SH.CD.CT ----------011.1.03.01 011.1.03.03 011.1.03.05 011.1.03.07 (011.1.03.01 - 011.1.03.72) 08/26/08 TYPE ----TRNK TRNK TRNK TRNK STATUS -----IDLE IDLE IDLE IDLE CB.SH.CD.CT ----------011.1.03.02 011.1.03.04 011.1.03.06 011.1.03.08 011.1.03.09 TRNK IDLE 011.1.03.10 011.1.03.11 TRNK IDLE 011.1.03.12 011.1.03.13 TRNK IDLE 011.1.03.14 011.1.03.15 TRNK IDLE 011.1.03.16 011.1.03.17 TRNK IDLE 011.1.03.18 011.1.03.19 TRNK IDLE 011.1.03.20 011.1.03.21 TRNK IDLE 011.1.03.22 011.1.03.23 TRNK IDLE 011.1.03.24 011.1.03.25 UNAS 011.1.03.26 011.1.03.27 UNAS 011.1.03.28 011.1.03.29 UNAS 011.1.03.30 011.1.03.31 UNAS 011.1.03.32 RETURN CONTINUES DISPLAY..... => ENTER LOCATION, or ?......................... => Aastra - 2808-001 TYPE ----TRNK TRNK TRNK TRNK TRNK TRNK TRNK TRNK TRNK TRNK TRNK UNAS UNAS UNAS UNAS UNAS 15:38:04 STATUS -----IDLE IDLE IDLE IDLE IDLE IDLE IDLE IDLE IDLE IDLE IDLE 39 Chapter 2, SPN Integrated Trunk Gateway via SIP TUTL Display Verify the status of the SIP trunk ports via the MOS command. SELECT COMMAND => tutl;d;d;900 DETAIL GROUP UTILIZATION REPORT: GROUP # 900 SIP Gateway GROUP: TRUNK ------INCOMING-----PORT STATUS NO. %USAGE AVG.DUR. 011.1.03.01 IDLE 0 00.00 00:00:00 011.1.03.02 IDLE 0 00.00 00:00:00 011.1.03.03 IDLE 0 00.00 00:00:00 011.1.03.04 IDLE 0 00.00 00:00:00 011.1.03.05 IDLE 0 00.00 00:00:00 011.1.03.06 IDLE 0 00.00 00:00:00 011.1.03.07 IDLE 0 00.00 00:00:00 011.1.03.08 IDLE 0 00.00 00:00:00 011.1.03.09 IDLE 0 00.00 00:00:00 011.1.03.10 IDLE 0 00.00 00:00:00 011.1.03.11 IDLE 0 00.00 00:00:00 011.1.03.12 IDLE 0 00.00 00:00:00 011.1.03.13 IDLE 0 00.00 00:00:00 011.1.03.14 IDLE 0 00.00 00:00:00 011.1.03.15 IDLE 0 00.00 00:00:00 011.1.03.16 IDLE 0 00.00 00:00:00 011.1.03.17 IDLE 0 00.00 00:00:00 011.1.03.18 IDLE 0 00.00 00:00:00 011.1.03.19 IDLE 0 00.00 00:00:00 011.1.03.20 IDLE 0 00.00 00:00:00 011.1.03.21 IDLE 0 00.00 00:00:00 011.1.03.22 IDLE 0 00.00 00:00:00 011.1.03.23 IDLE 0 00.00 00:00:00 40 08/26/08 ------OUTGOING-----NO. %USAGE AVG.DUR. 0 00.00 00:00:00 0 00.00 00:00:00 0 00.00 00:00:00 0 00.00 00:00:00 0 00.00 00:00:00 0 00.00 00:00:00 0 00.00 00:00:00 0 00.00 00:00:00 0 00.00 00:00:00 0 00.00 00:00:00 0 00.00 00:00:00 0 00.00 00:00:00 0 00.00 00:00:00 0 00.00 00:00:00 0 00.00 00:00:00 0 00.00 00:00:00 0 00.00 00:00:00 0 00.00 00:00:00 0 00.00 00:00:00 0 00.00 00:00:00 0 00.00 00:00:00 0 00.00 00:00:00 0 00.00 00:00:00 # OF FAIL 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 15:42:33 REPORT DURATION 03:18:02 03:18:02 03:18:02 03:18:02 03:18:02 03:18:02 03:18:02 03:18:02 03:18:02 03:18:02 03:18:02 03:18:02 03:18:02 03:18:02 03:18:02 03:18:02 03:18:02 03:18:06 03:18:06 03:18:06 03:18:06 03:18:06 03:18:06 Aastra – 2808-001 Proprietary and Contents Section Chapter 3 911 Enhancements The Pointspan SPN has supported E911 since its introduction with Pointspan release 5. Additional 911 functionality enhancements have been provided with Pointspan release 5.2. These enhancements include: OAI Call Information Message (OAI CIM) for SIP Device Registration OAI Application Requested Call (OAI ARC) Update of the Pointspan Station Emergency Associated Calling Party Number (EAC) LLDP-MED Emergency Location Identification Number (ELIN) support Emergency Location Identifier Determined by IP Address #*9 Diagnostic to Speak Emergency Calling Party Number Aastra - 2808-001 41 Chapter 3, 911 Enhancements 42 Aastra – 2808-001 Proprietary and Contents Section Chapter 4 LLDP-MED LLDP-MED Support for Aastra SIP Stations The Aastra IP phones support Link Layer Discovery Protocol for Media Endpoint Devices (LLDP-MED). LLDP-MED is designed for such things as: Auto-discovery of LAN policies (such as VLAN, Layer 2 Priority and Diffserv settings) leading to "plug and play" networking. Extended and automated power management of Power over Ethernet endpoints. Inventory management, allowing network administrators to track their network devices, and determine their characteristics (manufacturer, software and hardware versions, serial / asset number). On the Aastra IP Phones, LLDP-MED performs the following: Supports the MAC/PHY configuration (e.g. speed rate/duplex mode). Supports VLAN info from the network policy; this takes precedence over manual settings. Allows you to enable/disable LLDP-MED if required. Allows you to configure time interval between successive LLDP Data Unit (LLDPDU) frames. Allows LLDP packets to be received from the LAN port and allows them to reach the PC Port. Allows the phone to use the location information, Explicit Congestion Notification (ECN) Emergency Location Identification Number (ELIN), sent by the Ethernet switch, as a caller ID for making emergency calls. Requires Aastra SIP Station firmware release 2.3. The Aastra SIP Station Firmware release 2.3 will be released as SPN SIP Firmware Release 1.0.8. Requires network infrastructure that supports LLDP-MED. LLDP-MED Processing Enabling LLDP-MED on a SIP station allows the station to receive network configuration information from the Ethernet switch that it is connected to. The LLDP-MED capability of the SIP station has no real-time impact on the call processing of the Pointspan system. Aastra - 2808-001 43 Chapter 4, LLDP-MED LLDP-MED VLAN Auto-Discovery The SIP phone discovers the VLAN information upon phone restart by negotiating the LLDP-MED protocol with its network Ethernet switch prior to loading the Aastra.cfg and MAC.cfg files. If a VLAN is found during the LLDP protocol negotiation, the VLAN information programmed via the Pointspan station database and MAC.cfg file are ignored by the SIP phone. The VLAN discovery settings are for Ethernet #0 interface of the SIP phone. Administrative Advantages The LLDP-MED VLAN Auto-Discovery enhancement greatly simplifies VLAN management for Moves, Adds and Changes (MACs). When LLDP-MED for VLAN is enabled, the Pointspan database administrator is not required to provision the voice VLAN characteristics of the SPN SIP station. The VLAN methodology for the voice network can be established by the network administrator at installation and the Pointspan SPN user does not need to be matched to a specific VLAN. The VLAN parameters are discovered during SIP phone restart. In addition, if a SIP terminal requires relocation to a new VLAN segment, the user merely relocates their SIP Terminal and the VLAN settings are updated automatically. Without LLDP-MED for VLAN in use, the user must coordinate the phone relocation with the Pointspan database administrator, the Pointspan database must be updated at the scheduled move time, the SIP phone must be rebooted to ‘pick-up’ the configuration change, and it must be moved to the new location. Emergency Location Identification Number (ELIN) When ELIN is enabled for a SIP station and an emergency call is placed, Call Processing extracts the ELIN provided by the SIP station and sends it as the Calling Party Number when the call is originated to the emergency destination. Transmission of ELIN by SIP Station When an emergency call is originated from an ELIN enabled SIP station, it replaces the Display Name in the From: header of the INVITE with the ELIN read from the Ethernet switch it is connected to, based on a match-up of the “emergency string” in the aastra.cfg file. The Pointspan system supports an ELIN that consists of 10 to 16 numeric characters. If the SIP station is enabled for ELIN, but an ELIN is not provided by the switch then the SIP station sends in its normal Display Name in the From: header just as it would on a normal non-emergency call. When an emergency call is made the ELIP, EAC, or Calling Party number would be sent to the 911 operator in cases where the ELIN was not available. Processing of ELIN When an emergency call is placed from a SIP station, Call Processing must determine if the text provided in the Display Name is actually an ELIN. This is required because the 44 Aastra – 2808-001 Proprietary and Contents Section SIP station could have ELIN enabled, but the ELIN on the connected Ethernet switch may not be configured which would result in no ELIN being transmitted. Call Processing assumes that an ELIN is provided by the SIP station on an emergency call if all of the following conditions are true: The SIP station has ELIN enabled in the Pointspan database, The From: header Display Name is between 10 and 16 characters long, All characters of the From: header Display Name are numeric (no spaces or special characters) When an ELIN is supplied by a SIP station placing an emergency call, Call Processing uses the supplied ELIN as the Calling Party Number when placing the call to the PSAP. If no ELIN is provided by the SIP station on an emergency call, then the station’s EAC field is used as the Calling Party Number. If EAC is not configured for the station, then the Calling Party Number is determined by the settings of the voice line and user group. LLPD-MED Configuration Aastra SIP Station Configuration File Parameters There are 4 MAC/Aastra configuration file parameters for LLDP-MED. Parameter Description MAC.cfg file parameters: lldp The lldp: configuration parameter is used by the SIP station to enable and disable the LLDP-MED capability. On the Pointspan system the lldp: parameter is stored in the MAC.cfg file. The lldp: parameter is controlled by the Man-Machine FONE command. use lldp elin Controls the use of ELIN by the SIP station. If use lldp elin: is enabled then the SIP station sends in an ELIN when an emergency call is placed from the SIP station. The ELIN used by the SIP station is received from the connected Ethernet switch. On the Pointspan system the lldp: parameter is stored in the MAC.cfg file. The lldp: parameter is controlled by the Man-Machine FONE command. Aastra - 2808-001 45 Chapter 4, LLDP-MED Aastra.cfg file parameters: lldp interval Used to control the transmission of LLDPDU (LLDP Data Unit) frames by the SIP station. These LLDPDU frames publish information about the SIP station to the network allowing network administrators to track the SIP station and determine its characteristics (manufacturer, software and hardware versions, and serial / asset number). If the lldp interval is set to 0, then LLDPDU packet transmission is disabled. A non-zero value indicates the number of seconds between transmissions of the LLDPDU frames. On the Pointspan system the lldp interval: parameter is stored in the aastra.cfg file. The lldp interval: parameter is not controlled by any Man-Machine command. emergency dial plan Digit strings matching the emergency dial plan to allow the phone to detect an emergency call, such as 911, #*911. On the Pointspan system the lldp interval: parameter is stored in the aastra.cfg file. The lldp interval: parameter is not controlled by any Man-Machine command. FONE Command for LLDP-MED LLDP-MED is enabled for a SIP Station using the Man-Machine FONE command. There are two new prompts in the FONE command associated with LLDP-MED. When LLDP is enabled, the SIP station overrides the manually configured LAN settings such as VLAN, Layer 2 Priority and Diffserv settings and uses the settings received from the Ethernet switch. When LLDP is enabled for a station, the FONE command still allows the administrator to configure VLAN settings. However, LLDP will override VLAN settings for ethernet port 0 configured in the FONE command if they are different from what is received via LLDP. 46 FONE Paramater Function Description LLD Enables/Disables LLDP-MED for the station This prompt enables the LLDP-MED functionality for the SIP station. Aastra – 2808-001 Proprietary and Contents Section FONE Paramater Function Description ELI Enables the use of the Emergency Location Identification Number (ELIN) When LLDP is enabled, the SIP station has the ability to read an Emergency Location Identification Number (ELIN) from the Ethernet switch to which it is connected, and send this ELIN in as a calling party number when an emergency call is placed from the SIP station. The ELI prompt controls whether the SIP station will send in the ELIN when an emergency call is placed from the SIP station. The SIP station determines if an emergency call is placed based on the emergency dial plan configured in the phone. The user is prompted for ELI only if LLDP is enabled (FONE;LLD = Yes). Example: SELECT COMMAND => FONE SELECT MODE: PRINT, DISPLAY, UPDATE => U UPDT MODE: C-Create M-Modify D-Delete........ ENTER PORT, LOCATION, WORK AT HOME or ?...... LOCATION (wiring directory):................. CREATING SIP 15 of 500 LICENSED ENTER PHONE TYPE DEFAULT SET ID or ?......... ENTER PORT TYPE OR ?......................SIP => C => 2.2.1.50 => => => ***...STATION......................PORT: 002.2.01.50 SIP PHONE TYPE: OR ?.....................@@@@ => A57I BUTTON TEMPLATE NUMBER: 0=INDEX............. => 57 STATION USER GROUP NUMBER or ?............... => 1 ENABLE LLDP: Y=YES; N=NO or ?...............N => ? Enable Link-Layer Discovery Protocol Allows the SIP station to receive LAN settings from the Ethernet switch. Settings received from the Ethernet switch WILL override the manually configured settings if they are different. ENABLE LLDP: Y=YES; N=NO or ?...............N => Y ***Note: LLDP will override VLAN settings for ethernet port 0 configured in the FONE command if they are different from what is received via LLDP ENABLE ELIN: Y=YES; N=NO or ?...............N => ? (Note: Prompt appears only if LLDP is enabled) Enable use of Emergency Location Identifier Number (ELIN) as Calling Party Number for emergency calls. ENABLE ELIN: Y=YES; N=NO or ?...............N => Y Aastra - 2808-001 47 Chapter 4, LLDP-MED Emergency Location Identification by IP Address Emergency Location Identification Determined by IP Address (ELIP) is a method used to determine the calling party number to be used when a SIP station places an emergency call. Emergency Location Identification Determined by IP Address (ELIP) is a method used to determine the calling party number to be used when a SIP station places an emergency call. ELIP can be used when a customer's LAN infrastructure doesn't have the capability of using LLDP-MED and the customer can section off groups of phones by static IP or controlled DHCP ranges. When a SIP station enabled with ELIP places an emergency call, the Pointspan system searches a database to map the SIP station’s IP address to an Emergency Location Identifier to be used as the calling party number. The IP address provided by the SIP station in the Authentication/Registration process is used for this functionality. The new ELIP Man/Machine command is used to configure and maintain a database of IP address ranges used by the SIP stations of the Pointspan system. The database associates each range of addresses to an Emergency Location Identifier. Enable ELIP for a SIP Station Emergency Location by IP Address is enabled for a SIP station using the ELP option of the FONE command: Emergency Location Identification by IP Address.....N=> Y . *** VERIFY/DISPLAY *** . ELP...Emergency Location Identification by IP Address...YES Manage Emergency Location Identifiers for IP addresses Emergency Location Identifiers for IP addresses are managed using the new ELIP command that provides the following functions: Define an Emergency Location Identifier for an IP address range. Delete an Emergency Location Identifier for an IP address range. Update the Emergency Location Identifier for an IP address range. Display IP address ranges and Emergency Location Identifiers Define an Emergency Location Identifier for an IP address range To define an emergency location identifier for an IP address range, the starting IP address and ending IP address of the range and a Location Identifier must be specified. The starting and ending IP addresses can be the same to define a single address range. The Location Identifier can be from 1 to 16 digits in length. SELECT COMMAND => ELIP SELECT MODE: PRINT, DISPLAY, UPDATE => U UPDT MODE: C-Create M-Modify D-Delete........=> C 48 Aastra – 2808-001 Proprietary and Contents Section ENTER ENTER ENTER ENTER FIRST IP ADDRESS IN RANGE .............=> 10.70.102.100 LAST IP ADDRESS IN RANGE .............=> 10.70.102.199 EMERGENCY LOCATION IDENTIFIER .........=> 4693653226 FIRST IP ADDRESS IN RANGE .............=> *** VERIFY/DISPLAY *** START IP ADDRESS 10.70.102.100 END IP ADDRESS 10.70.102.199 LOCATION IDENTIFIER 4693653226 UPDATE VERIFY? => Delete Emergency Location Identifier for an IP Address Range To delete an Emergency Location Identifier, the user must specify exactly the starting and ending IP address of the range to be deleted. SELECT COMMAND => ELIP SELECT MODE: PRINT, DISPLAY, UPDATE => U UPDT MODE: C-Create M-Modify D-Delete........=> D DELETE ALL OR ENTRY ....................... E=> ENTER FIRST IP ADDRESS IN RANGE .............=> 10.70.102.100 ENTER LAST IP ADDRESS IN RANGE .............=> 10.70.102.199 START IP ADDRESS 10.70.102.100 END IP ADDRESS 10.70.102.199 LOCATION IDENTIFIER 4693653226 DELETE THIS ENTRY? => Modify Emergency Location Identifier for IP Address Range Using the ELIP command the user can modify the Location Identifier for a specified IP address range. The modify mode does not allow the user to modify the IP address range. If the user wishes to modify the IP address range, then the existing range must be deleted and the new range must be created. SELECT COMMAND => ELIP SELECT MODE: PRINT, DISPLAY, UPDATE => U UPDT MODE: C-Create M-Modify D-Delete........=> M ENTER FIRST IP ADDRESS IN RANGE .............=> 10.70.102.100 ENTER LAST IP ADDRESS IN RANGE .............=> 10.70.102.199 START IP ADDRESS END IP ADDRESS 10.70.102.100 10.70.102.199 LOCATION IDENTIFIER 4693653226 ENTER EMERGENCY LOCATION IDENTIFIER .........=> 4693653228 START IP ADDRESS END IP ADDRESS 10.70.102.100 10.70.102.199 LOCATION IDENTIFIER 4693653228 UPDATE VERIFY? => Display Emergency Location Identifiers for IP Address Range To display Location Identifiers for an IP address range the user may enter a ‘-‘ to display all defined ranges or the user may enter a specific IP address and the address range containing specified IP address will be displayed. SELECT COMMAND => ELIP SELECT MODE: PRINT, DISPLAY, UPDATE => D ENTER IP ADDRESS IN RANGE OR -.............=> - Aastra - 2808-001 49 Chapter 4, LLDP-MED START IP ADDRESS END IP ADDRESS 10.70.102.100 10.70.108.200 10.90.65.100 10.70.102.199 10.70.108.250 10.90.80.100 LOCATION IDENTIFIER 4693653226 9032421880 7032817689 ENTER IP ADDRESS IN RANGE or -.............=> 10.70.108.222 START IP ADDRESS END IP ADDRESS LOCATION IDENTIFIER 10.70.108.200 10.70.108.250 9032421880 Emergency Location Identifier Determined by IP Address Operation Process an Emergency Call When an emergency call is placed from an ELIP enabled SIP station, Call Processing determines the Calling Party Number to be used based on the IP address of the SIP station that initiated the call. The IP address of the SIP station is retrieved and a search is performed to determine if the IP address of the SIP station is in a range defined in the ELIP database. If the IP address is in a defined range of the ELIP database, the location identifier is extracted and used as the calling party number for the emergency call. If the IP address of the station is not in the ELIP database, then the SIP station EAC field is used. If the Station EAC field is not defined, the calling party number is determined by the normal processes using the settings of the voice line, user group, and SPAR. Determine the IP Address of a SIP Station The IP address used for ELIP processing is the registered or authenticated IP address of the SIP station. The registered/authenticated IP address for a station can be viewed using the SPN command and selecting the STATUS option. The “registered IP address” is the IP address that is provided in the Contact URI of the SIP REGISTER request. The “authenticated IP address” is the IP address that is provided in the Contact URI of the SIP request (the INVITE request for example) that is providing the authentication credentials. Prioritization Methods that Determine the Emergency Calling Party Number The Pointspan system provides multiple options for determining an Emergency Location Identifier. All of these methods can be enabled simultaneously on a single station. The following lists each method in order of the priority in which they will be used when more than one method is selected when an emergency call is originated: 50 Aastra – 2808-001 Proprietary and Contents Section Method Description ELIN (Emergency Location Identification Number) provided by LLDP-MED This method is used when all of the following conditions have been met: ELIP (Emergency Location Determined by IP Address): EAC (Emergency Associated Calling Party Number): Standard Calling Party Number based on voice line, user group, or SPAR. The calling station is SIP. ELIN is enabled (FONE Command). An ELIN is provided by the SIP station when the emergency call is placed. This method is used when the following conditions have been met: The calling station is SIP. ELIN is not enabled (FONE Command) or no ELIN was provided for the call. ELIP is enabled (FONE Command). The IP address of the calling station is in a range defined in the ELIP database (ELIP Command). This method is used when the following conditions have been met: An EAC is defined for the originating station (FONE Command). The originating station is not SIP, or ELIN and ELIP are not enabled (FONE Command) or could not be used. This method is used when all else fails. Restrictions The ELIP feature applies only to SPN SIP stations. The Location Identifier can be up to 16 digits in length. The ELIP feature does NOT apply to DPN stations. #*9 Diagnostic to speak Emergency Location Identifier Number A new diagnostic code has been added in Pointspan 5.2 that allows a user to hear the emergency location identifier for a station by dialing #*9. When #*9 is dialed on a station, call processing determines what the emergency location identifier is for the station and speaks the identifier to the user. When the complete identifier has been spoken the user will hear a zip-zip tone. If there is no emergency location identifier defined for the station the user will simply hear a zip-zip tone. #*9 is valid for any station in the Pointspan system. Aastra - 2808-001 51 Chapter 4, LLDP-MED 52 Aastra – 2808-001 Proprietary and Contents Section Chapter 5 IPMI Tool Intelligent Platform Management Interface (IPMI) The IPMI tool is introduced with the PS5.2 release. The IPMI tool resides on the SPN server and is used by the ECS server to remotely reboot, power-on, and query the status of the SPN server (power on or off). IPMI Commands on the ECS Step Action Result To check the status (power on/off) of the SPN server from PointSpan ECS: 1. From a TTY prompt on a PointSpan ECS server: Type spnstats / (OEMb)-> spnstats SPN4A Power Status: Chassis Power is on SPN4B Power Status: Chassis Power is on Power status check completed To power cycle the SPN server from PointSpan ECS: The spnboot command will restart a server that is running, or it will start a server that is powered off (the server must be connected to a power source). 1. From a TTY prompt on a PointSpan ECS server: Type spnboot <spn server> / (OEMb)-> spnboot version : 1.2.6.3 usage: spnboot x x = SPN Identifier as defined in ibx/cfg/bmc.cfg For example if "SPN3A 10.70.100.37" is in bmc.cfg, you would enter "spnboot 3A" to reboot the SPN whose BMC board has IP address 10.70.100.37. / (OEMb)-> spnboot 4A SPN4A BMC IP 198.242.31.xxx Turning power on ipmitool: Chassis Power Control: Up/On Doing power cycle ipmitool: Chassis Power Control: Cycle Power Cycled. Aastra - 2808-001 53 Chapter 5, IPMI Tool 54 Aastra – 2808-001 Proprietary and Contents Section Chapter 6 SNMP Traps SNMP Traps from PointSpan ECS Simple Network Management Protocol (SNMP) is an internet-standard protocol for managing devices on IP networks. The SNMP protocol specifies ways that a SNMP manager can monitor and control an SNMP agent. The PointSpan ECS SNMP Trap feature allows an ECS to send SNMP Traps to a maximum of 4 licensed SNMP managers. A trap is an unsolicited message (such as an error or status indication) the SNMP agent (the primary ECS) sends to an SNMP manager. The SNMP trap message contains the SNMP header information followed by the trap variable binding information in Abstract Syntax Notation version 1 (ASN.1) format with variables and values defined by a Management Information Base (MIB) document/file. The variable binding portion of the trap contains a text string variable (as the alarm would appear on the PointSpan Console Monitor screen) followed by subsequent individual variables representing each part of the alarm in binary form. A new database variable for alarm processing determines whether or not AIP processing is to generate a SNMP trap message per specific alarm. Error handling for the feature itself is limited to issuing a console monitor message. This is not a standard alarm. Requirements SNMP traps will be generated on the IPLK interface of the ECS/NCS/RCS. This will require either an SNMP manager on that subnet, a router or dual NIC server to forward packets to the appropriate subnet. This requires the assistance of on site IT personnel. SNMP Trap Message Format and Content The SNMP agent trap message packet is in SNMPv1 format. Field Name Syntax Description Version Standard SNMPv1 header format Describes the SNMP version number of the message. 0 = SNMPv1 format Community Aastra - 2808-001 Standard SNMPv1 header format Identifies the SNMP community in which the sender and recipient of this message are located. 55 Chapter 6, SNMP Traps Field Name Syntax Description PDU Type Standard SNMPv1 header format Indicates the PDU type. Enterprise Standard SNMPv1 header format An object identifier for a group, indicating the type of object that generated the trap. Agent IP Address Standard SNMPv1 header format 1 = Enterprise 205 = Aastra (registered with IANA) The IP address of the SNMP agent that generated the trap. This value is retrieved from the Pointspan “siteid” information. The default will be the “Primary addr:”. If this address is not defined, the alternative address will be derived from the “IPLK0(a/b) addr” of the host ECS generating the SNMP traps. If the IPLK0 address is used, the SNMP Manager will receive different SNMP Agent addresses depending on which Pointspan ECS in primary. 56 Generic Trap Standard SNMPv1 header format A code value specifying the predefined “generic” trap type. Specific Trap Standard SNMPv1 header format A code value indicating an implementationspecific trap type. Time Stamp Standard SNMPv1 header format The amount of time (in one-hundredth of a second ticks) since the Pointspan ECS (SNMP agent) last initialized or reinitialized the call processing task. Aastra – 2808-001 Proprietary and Contents Section Aastra - 2808-001 Field Name Syntax Variable Bindings Standard SNMPv1 format Description Data Size A set of variables (defined by the MIB object): 80 bytes Text string (as alarm would appear on Console Monitor screen). 4 bytes Task name (4-character pneumonic representing the task generating the alarm. 1 byte Alarm type (0=information, 1=Minor, 2=Major) 1 byte Primary ECS (1=A, 2=B) 1 byte Generating ECS (1=Primary, 2=Secondary) 2 bytes Equipment Class (defined by Alarm Information Processing equates) 2 bytes Alarm number 4 bytes Time (in UTC format) 4 bytes Data Word 0 4 bytes Data Word 1 4 bytes Data Word 2 4 bytes Data Word 3 57 Chapter 6, SNMP Traps Man/Machine SNMP Parameters The following Man/Machine commands are used to configure SNMP parameters: SPAR – SNM AIP – LSE Command Parameter Description SPAR SNM Number of licensed SNMP managers. Example: SELECT COMMAND => SPAR SELECT MODE: PRINT, DISPLAY, UPDATE, TITLES ENTER UPDATE TYPE or ?......................P SPECIFY SYSTEM PARAMETER TO MODIFY or - or ?. SNMP MANAGER: (1-4) or - or Return=END ...... SNMP MGR 2 IP ADDRESS : or ?..........1.2.3.4 SNMP MGR 2 PORT NUMBER: or ?..............162 SNMP MANAGER: (1-4) or - or Return=END....... SNMP MGR 1 IP ADDRESS : or ?......10.70.10.38 SNMP MGR 1 PORT NUMBER: or ?..............162 SNMP MGR 2 IP ADDRESS : or ?..........1.2.3.4 SNMP MGR 2 PORT NUMBER: or ?...............62 SNMP MGR 3 IP ADDRESS : or ?.....11.222.33.44 SNMP MGR 3 PORT NUMBER: or ?.............1024 SNMP MGR 4 IP ADDRESS : or ?................. SPECIFY SYSTEM PARAMETER TO MODIFY or - or ?. SNMP MANAGER: (1-4) or - or Return=END....... SNMP MGR 4 IP ADDRESS : or ?................. SNMP MGR 4 PORT NUMBER: or ?..............162 SNMP MANAGER: (1-4) or - or Return=END....... SPECIFY SYSTEM PARAMETER TO MODIFY or - or ?. *** VERIFY/DISPLAY *** ** UPDATABLE SYSTEM PARAMETERS 07/16/08 => => => => => => => => => => => => => => => => => => => => U U SNM 2 - SNM 4 10.70.102.8 15:45:11 PAS...UNIT IN SECONDS FOR PAUSE.................3 SECONDS D9D...DIRECT 911 DIALING........................YES RNT...RECORDING NOTIFICATION TONE...............EVERY 30 SECONDS SNM...SNMP MANAGER DESTINATIONS MGR --1 2 3 4 IP ADDRESS --------------- PORT# ----- 10.70.10.38 1.2.3.4 11.222.33.44 10.70.102.8 162 162 1024 162 DOES UPDATE VERIFY ? => Y TABLE CHANGE PERFORMED 58 Aastra – 2808-001 Proprietary and Contents Section AIP LSE Log report to SNMP. SNMP logging is already enabled automatically for most Major and Minor alarms. The AIP command is to manually activate an alarm that does not already have SNMP logging activated. Only CSC can make this update in AIP, it is password protected. Any manual updates will need to be documented by the customer as they will be removed on a PointSpan retrofit to a new PointSpan release. Customer must contact the Aastra CSC with the list of updates after each retrofit. Example: SELECT COMMAND => AIP SELECT MODE: PRINT, DISPLAY, UPDATE, SEARCH => U ENTER ALARM NUMBER FOR UPDATING.............. => 341 ************************************************* * * * Updates to P99 entries for: PFS, LCE, * * LDE, POP, CAN, CVT, OAL, SST, DRE, ATY, * * and STP can be temporary or permanent. * * Permanent updates are written to Q82. * * * * When the system is restarted, the P99 values * * will revert to the values specified in Q82. * * * * Updates to TC8 CHE (Call home) entry are * * written to the secondary and to the disk * * file (pfl 18) * * * ************************************************* AIP FIELD TO UPDATE, ? OR <RETURN>........... CHE..CALL HOME PFS..PROCESS ALARM FROM SECONDARY LCE..LOG REPORT TO CONSOLE LDE..LOG REPORT TO DISK LSE..LOG REPORT TO SNMP POP..POP THE STACK CAN..CANCEL THE TASK CVT..ALARM DISPLAY HEX OR DEC OAL..GENERATED BY FIRMWARE SST..STOP STATE STIM TRACE DRE..DUMP REGISTERS TO FILE0009 ATY..ALARM TYPE STP..SCRIPT TABLE POINTER AIP FIELD TO UPDATE, ? OR <RETURN>........... ACTIVATE LOGGING TO SNMP? Y/N...............N AIP FIELD TO UPDATE, ? OR <RETURN>........... ALARM DEFINITION ALARM # = 341 TYPE = INF EQUIPMENT CLASS = CARD LOG DISP STOP CALL CNSL DISK SNMP MODE SST HOME ---- ---- -----------YES YES YES HEX NO NO => ? => LSE => Y => SUMMARY SCRIPT 2NDMCU -----NO 07/17/08 POP CANCEL STACK TASK ----- ---NO NO REG. AMD --NO 16:46:05 O.ALRM -----NO SCRIPT INDEX ----26 DOES UPDATE VERIFY ? => Aastra - 2808-001 59 Chapter 6, SNMP Traps Console Monitor SNMP Command Console Monitor (CM) now has an “snmp” command. Parameter Description Format: snmp <parm>, where <parm> can be: s Stop sending SNMP messages. r Re-start sending SNMP messages. SNMP must have been previously initialized for messages to be sent. d Display SNMP messages to console in a hex/text display. q Quit displaying SNMP messages to the console. Console Messages Console messages are issued during SNMP initialization and if an error occurs on a UDP send. Initialization Messages The following are examples of initialization messages: 09:01:11 CP SNMP Successfully BINDed on local host (1) 09:01:11 CP SNMP mgr 1 at 10.70.10.56, port 162 destination initialized. (2) 09:01:11 CP SNMP mgr 2 at 10.70.10.56, port 8194 destination initialized. (3) 09:01:11 CP SNMP mgr 3 at 10.70.96.67, port 162 destination initialized. (4) 09:01:11 CP SNMP mgr 4 licensed but no IP address defined (5) Message (1) indicates that the local socket was successfully opened and bound to a port. Messages (2), (3), (4) indicate that the destination message structures for managers 1, 2, and 3 were successfully initialized. Message (5) indicates that 4 managers are licensed, but an IP address for manager 4 is not found. If a number larger than 4 is found, the following the following messages would be issued, but initialization would continue, and if successful, SNMP messages would be sent. SNMP: licensed mgrs 6 greater than max number SNMP managers allowed 4 Will use max allowed - 4 60 Aastra – 2808-001 Proprietary and Contents Section If an error occurs on creating the local socket, a message like the following would be issued, initialization would be aborted, and no SNMP messages would be sent. Call processing will still execute as normal. SNMP: socket open error, errno = 54 If an error occurs on binding the local socket to a local port, a message like the following would be issued, initialization would be aborted, and no SNMP messages would be sent. Call processing will still execute as normal. SNMP: Unable to BIND tb30! errno = 63 Send Error Messages If an error is returned from a UDP send, a message like the following will be issued, but no error recovery will be attempted. SNMP: send error. errno = 50, mgr=10.70.10.56 If not all the message bytes could be accepted by the UDP stack, a message like the following will be issued, but no error recovery will be attempted. SNMP: send error. to send=358, sent=63, mgr=10.70.10.56 Aastra - 2808-001 61 Chapter 6, SNMP Traps 62 Aastra – 2808-001 Proprietary and Contents Section Chapter 7 Sip Registration CIM, Event, EAC Update ARC OAI CIM, Event, and ARC Messages Pointspan 5.2 introduces new OAI messages that provide notification when a SPN SIP device registers with the Pointspan system. The new OAI CIM message is: SIP Registration CIM– this CIM is sent when a SIP devices registers with a Pointspan SPN. The new OAI Event message is: SIP Registration Event - this event is sent when a SIP devices registers with a with a Pointspan SPN. The new OAI ARC message is: Update Emergency Calling Party Number – this ARC updates the EAC field of the Man-Machine FONE command for a specified station. MRM-OK is return to the application when the disk has been updated successfully. If a disk error occurs when attempting to update the EAC field, then a new Disk Error MRM is returned. Configuration The SIP Station and line must be OAI associated to send the SIP registration CIM The MM command UGRP/UGP/OCC field will have the OAI channel assigned using the new OAI toolkit. The Events report on the OAI Channel defined in command CLCN (Call Center) OCC field. Functionality SIP Registration CIM The SIP Registration CIM contains the following information: SIP station registration: Line ID (OID.LID = 0x01) Station ID (OID.STAT = 0x2E) SIP Registration Info (OID.SREG = 0x5D) SIP trunk registration: Trunk ID (OID.TTID = 0x03) Null ID Aastra - 2808-001 63 Chapter 7, Sip Registration CIM, Event, EAC Update ARC SIP Registration Info (OID.SREG = 0x5D) SIP gateway registration: SIP Gateway ID (OID.SIPG = 0x5E) Null ID SIP Registration Info (OID.SREG = 0x5D) Update Emergency Calling Party Number ARC The “Update Emergency Calling Party Number” ARC contains the following information: Station ID (OID.STAT = 0x2E) Digits ID (OID.DGTS = 0x13) OAI Requirements Toolkit 6.9.0 and above, OAI packet log, and switch Oailog utility support for the new CIM, Event, and ARC specified in this document. New #defines: #define OAIK_CIM_SIP_REGISTRATION 60 #define OAIK_ARC_UPDATE_EMERGENCY_CPN #define OAIKID_SIP_REGISTRATION 100 93 #define OAIKID_SIP_GATEWAY 94 #define OAIK_MRM_DISK_ERROR 92 /* Error on disk read/write */ CIM Message Formats For Registration from SIP Stations: ------------------------------------------------| Application ID | Data Byte 1 ------------------------------------------------| Application Message ID(MSB) | Data Byte 2 ------------------------------------------------| Application Message ID(LSB) | Data Byte 3 ------------------------------------------------| Type = Call Information = 02 | Data Byte 4 ------------------------------------------------| Attr = 60(OMA.SREG) | Data Byte 5 -------------------------------------------------------------| Line Id – Type = 1 | Data Bytes ------------------------------------------------- as needed | Station Id – Type = 46 | for each ------------------------------------------------- message | Registration Info Id – Type = 93 | element ------------------------------------------------- 64 Aastra – 2808-001 Proprietary and Contents Section OAILOG Display: SIP Registration CIM 60 (HEX = 3c) A01-12:(SENT:CIM-SIP Registration) 10ms:26b1dd...Tue Sep 2 14:19:13 2008 LSF:00 LEN:2f AID:03 MNO:b1dd MTY:02 MAT:3c LSF:002f03b1 dd023c01 00014aa3 002e045b 0b21035d 1c000001 2cc0a806 1ec0a806 06c0a806 1e00085d 1a057305 53504e20 33 Yellow is the format for Registration from SIP stations Blue is the UGRP/LINE Pink is the station ID Green is the SIP Registration Information ID For Registration from SIP Trunks: ------------------------------------------------| Application ID | Data Byte 1 ------------------------------------------------| Application Message ID(MSB) | Data Byte 2 ------------------------------------------------| Application Message ID(LSB) | Data Byte 3 ------------------------------------------------| Type = Call Information = 02 | Data Byte 4 ------------------------------------------------| Attr = 60(OMA.SREG) | Data Byte 5 -------------------------------------------------------------| Trunk Id – Type = 1 | Data Bytes ------------------------------------------------- as needed | Null Id – Type = 127 | for each ------------------------------------------------- message | Registration Info Id – Type = 93 | element ------------------------------------------------- For Registration from SIP Gateways: ------------------------------------------------| Application ID | Data Byte 1 ------------------------------------------------| Application Message ID(MSB) | Data Byte 2 ------------------------------------------------| Application Message ID(LSB) | Data Byte 3 ------------------------------------------------| Type = Call Information = 02 | Data Byte 4 ------------------------------------------------| Attr = 60(OMA.SREG) | Data Byte 5 -------------------------------------------------------------| SIP Gateway Id – Type = 94 | Data Bytes ------------------------------------------------- as needed | Null Id – Type = 127 | for each ------------------------------------------------- message | Registration Info Id – Type = 93 | element ------------------------------------------------- Event Message format for Registration from SIP stations ------------------------------------------------| Application ID | ------------------------------------------------| Application Message ID(MSB) | ------------------------------------------------| Application Message ID(LSB) | ------------------------------------------------| Type = OAI Event = 08 | Aastra - 2808-001 Data Byte 1 Data Byte 2 Data Byte 3 Data Byte 4 65 Chapter 7, Sip Registration CIM, Event, EAC Update ARC ------------------------------------------------| Attr = 119(OMA.SPRG) | Data Byte 5 -------------------------------------------------------------| Unused | Data Byte 6 ------------------------------------------------| Time Stamp (Byte 1) | Data Byte 7 ------------------------------------------------|Time Stamp (Byte 2) | Data Byte 8 ------------------------------------------------| Time Stamp (Byte 3) | Data Byte 9 ------------------------------------------------| Time Stamp (Byte 4) | Data Byte 10 ------------------------------------------------| Message Sequence Number (Byte 1) | Data Byte 11 ------------------------------------------------| Message Sequence Number (Byte 2) | Data Byte 12 ------------------------------------------------| Message Sequence Number (Byte 3) | Data Byte 13 ------------------------------------------------| Message Sequence Number (Byte 4) | Data Byte 14 ------------------------------------------------| System Node Number | Data Byte 15 ------------------------------------------------|Partition Number | Data Byte 16 ------------------------------------------------| Unused | Data Byte 17 -------------------------------------------------------------| Line Id – Type = 1 | Data Bytes ------------------------------------------------- as needed | Station Id – Type = 46 | for each ------------------------------------------------- message | Registration Info Id – Type = 93 | element ------------------------------------------------- OAILOG Display: SIP Registration Event 119 (HEX = 77) A01-05:(SENT:EVNT-SIP REGISTRATION EVENT) 10ms:26b1dd...Tue Sep 2 14:19:13 2008 SEQ:000387ba LSF:00 LEN:40 AID:00 MNO:0000 MTY:08 MAT:77 LSF:00400000 00087700 48bd91b1 000387ba 00000000 31080001 00014aa3 00002e04 5b0b2103 5d1c0000 012cc0a8 061ec0a8 0606c0a8 061e0008 5d1a0573 0553504e 2033 Yellow is the format for Registration from SIP stations Blue is the UGRP/LINE Pink is the station ID Green is the SIP Registration Information ID ARC Message Format for Update Emergency CPN ------------------------------------------------| Application ID | Data Byte 1 ------------------------------------------------| Application Message ID(MSB) | Data Byte 2 ------------------------------------------------| Application Message ID(LSB) | Data Byte 3 ------------------------------------------------| Type = ARC = 02 | Data Byte 4 ------------------------------------------------| Attr = 100(OMA.UEAC) | Data Byte 5 -------------------------------------------------------------| Station Id – Type = 46 | Data Bytes ------------------------------------------------- as needed | Digits Id – Type = 19 | for each ------------------------------------------------- message element 66 Aastra – 2808-001 Proprietary and Contents Section SIP Registration Information ID 1 1 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2 2 2 3 3 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 |-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-| 0|I |I |E |E | X0|D |D |X |X | |T| | | | | | | |L| | | | | | | |P| | | | | | | |1| | | | | | | | |-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-| 4|E |E |T |T | X4|X |X |I |I | |2| | | | | | | |3| | | | | | | |P| | | | | | | |1| | | | | | | | |-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-| 8|T |T |F |F | X8|I |I |I |I | |2| | | | | | | |3| | | | | | | |P| | | | | | | |1| | | | | | | | |-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-| 12|F |F |C |C | XC|I |I |I |I | |2| | | | | | | |3| | | | | | | |P| | | | | | | |1| | | | | | | | |-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-| 16|C |C |M |M | X10|I |I |A |A | |2| | | | | | | |3| | | | | | | |C| | | | | | | |1| | | | | | | | |-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-| 20|M |M |M |M | X14|A |A |A |A | |2| | | | | | | |3| | | | | | | |4| | | | | | | |5| | | | | | | | |-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-| 24|T |T | X18|U |U | |L| | | | | | | |N| | | | | | | | |-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-| FIELD DESCRIPTION: IDT: IDL: EXP: EX1: EX2: EX3: TIP: TI1: TI2: TI3: FIP: FI1: FI2: FI3: CIP: CI1: CI2: CI3: MAC: MA1: MA2: MA3: MA4: MA5: TUL: TUN: Aastra - 2808-001 ID type. OID.SREG = 93 (X'5D') ID length Registration Expiration Time in seconds. (1st byte) Registration Expiration Time in seconds. (2nd byte) Registration Expiration Time in seconds. (3rd byte) Registration Expiration Time in seconds. (4th byte) TO: Domain IP Address, registered IP address (1st byte) TO: Domain IP Address, registered IP address (2nd byte) TO: Domain IP Address, registered IP address (3rd byte) TO: Domain IP Address, registered IP address (4th byte) FROM: Domain IP Address, registering IP address (1st byte) FROM: Domain IP Address, registering IP address (2nd byte) FROM: Domain IP Address, registering IP address (3rd byte) FROM: Domain IP Address, registering IP address (4th byte) Contact IP address (1st byte) Contact IP address (2nd byte) Contact IP address (3rd byte) Contact IP address (4th byte) MAC address of registered device (1st byte) MAC address of registered device (2nd byte) MAC address of registered device (3rd byte) MAC address of registered device (4th byte) MAC address of registered device (5th byte) MAC address of registered device (6th byte) TO: User Name length TO: User Name (1st character) 67 Chapter 7, Sip Registration CIM, Event, EAC Update ARC SIP Gateway ID 1 1 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2 2 2 3 3 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 |-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-| 0|I |I |S |S | X0|D |D |G |G | |T| | | | | | | |L| | | | | | | |N| | | | | | | |1| | | | | | | | |-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-| 4|S |S | X4|G |G | |L| | | | | | | |M| | | | | | | | |-+-+-+-+-+-+-+-|-+-+-+-+-+-+-+-| FIELD DESCRIPTION: IDT: IDL: SGN: SG1: SGL: SGM: 68 ID type. OID.SIPG = 94 (X'5F') ID length SIP Gateway Number SIP Gateway Number continued SIP Gateway name length SIP Gateway Name (1st character) Aastra – 2808-001 Proprietary and Contents Section Chapter 8 Pointspan Alarms SIP Alarms for SPN Refer to 591-5015-004 Pointspan Alarms Online Help V5.2. 0359 Aastra - 2808-001 Alarm Number Hex Value Type Class 0359 167 MAJ CARD - SIP Reason The SIP application has determined that there is a failure on the SIP Network. The SIP application is unable to communicate with the SIP stations. Result If the SIP application had been communicating with the SIP stations and then communications were lost, a warmstart/switchover to the standby SPN is attempted. If the SIP application had just been restarted and was never able to establish communication with any SIP devices, then the SPN is coldstarted in an attempt to re-establish communication to the SIP devices. Suspected Problem The standby SIP application is reporting that the equalization process has failed or that the equalization keep-alive poll has failed. This indicates that some updates from the online SPN may have been missed. Data Word 0 SIP application facility number. Data Word 1 SIP facility state. Data Word 2 Partition number of the SIP application. Data Word 3 Network Failure Reason Code: 1 = SIP application restarted and never was able to communicate with SIP devices. 2 = SIP application was up and communicating and then lost communication. Module R65A. System Required Action Restart the SIP application. Field Required Action Verify the application returns to service and SIP communications are restored. 69 Chapter 9, Pointspan Alarms 3700 Alarm Number Hex Value Type Class 3700 E74 MAJ SIPG Reason SIP Gateway registration or authentication failed. (Refer to reason code below for more information). Result SIP registration or authentication was rejected for a SIP Gateway. This alarm is similar to alarm SIP-3600 used for SIP Stations. Reason codes are coordinated between the alarms. Data Word 0 For Reason 1, 2, 16, or 17: SPN facility. All other reason codes: SIP Gateway facility. Data Word 1 70 Reason Code (decimal value): 1 (Reserved for alarm SIP-3600). 2 SIP Gateway identified in SIP Authentication Name does not exist on the SPN Partition. 3 (Reserved for alarm SIP-3600). 4 (Reserved for alarm SIP-3600). 5 Reported SIP authentication password does not match the password defined for the SIP Gateway. 6 Unsupported SIP Version - SIP version not SIP 2.0 or greater. 7 Invalid Registration Address-of-Record ("To:"). 8 Invalid Registering Address-of-Record ("From:"). 9 Invalid Contact Information. 10 Expiration Interval Too Short. 11 (Reserved for alarm SIP-3600). 12 Invalid Registration ID received in SIP Registration request message. 13 Q07 Disk Read of SIP Gateway password failed. Aastra – 2808-001 Proprietary and Contents Section Alarm Number Data Word 2 Hex Value Type Class 14 Existing SIP Registration expired and did not reregister within 10 minutes from the time of expiration -for a single SIP Gateway. 15 (Reserved for alarm SIP-3600). 16 SIP authentication domain is incorrect (does not match SPN IP Address). 17 (Reserved for alarm SIP-3600). 18 SIP Gateway implicit registration - Q07 disk read failed. 19 SIP Gateway implicit registration - SPN reported failure. 20 SIP Gateway implicit registration - SPN did not respond to request. 21 Explicit Registration received from SIP Gateway when SIP Gateway setup for Implicit Registration. For Reason 18, 20: Unused (0). For Reason 19: SIP response code ($SR.) received from SPN. All other reason codes: SIP Gateway IP address (where SIP registration or authentication was requested). Data Word 3 Action Taken: 0 Not Applicable (Reason=14). 1 SIP registration or authentication allowed to continue. 2 SIP registration or authentication rejected. 3 SIP Gateway implicit SIP registration will periodically be retried, until the implicit registration completes successfully. Module CG3A, CG5A. - E.SGRGF. System Required Action SIP Registration or Authentication Rejected (if indicated by action taken). Field Required Action Action to take based on Reason Code: Code 1 Aastra - 2808-001 Action (Reserved for alarm SIP-3600). 71 Chapter 9, Pointspan Alarms Alarm Number 72 Hex Value Type Class 2 Correct the SIP authentication name, or change the SIP Gateway proxy to that of the correct SPN partition 3 (Reserved for alarm SIP-3600). 4 (Reserved for alarm SIP-3600). 5 Correct the SIP authentication password in the SIP Gateway, or correct the password defined for the SIP Gateway. 6 Check SIP Gateway software version. 7 Check SIP Gateway configuration. 8 Check SIP Gateway configuration. 9 Check SIP Gateway configuration. 10 Increase SIP Gateway registration expires interval to a value more than the minimum (as defined for the SPN partition). 11 (Reserved for alarm SIP-3600). 12 Report to CSC (software support). 13 If occurs repeatedly, report to CSC (Software Support). 14 Verify SIP Gateway is on the network. Check network path. 15 (Reserved for alarm SIP-3600). 16 Correct the SIP authentication domain. 17 Report to CSC (software support). 18 If occurs repeatedly, report to CSC. 19 If occurs repeatedly, report to CSC. 20 If occurs repeatedly, report to CSC. 21 Either change Pointspan configuration for SIP Gateway to use Explicit SIP Registration, or change SIP Gateway configuration to disable SIP Registration. Aastra – 2808-001 Proprietary and Contents Section 3703 Alarm 3740 was renamed to 3703. Alarm Number Hex Value Type Class 3703 E77 INF SIPG Reason SIP trunk dialog (PM6) chain error. An error was found during validation / usage of the SIP Trunk Dialog (PM6 entry) Chain for a SIP Gateway. Result SIP trunk dialog chain rebuilt for SIP Gateway. Data Word 0 SIP Gateway Facility. Data Word 1 Aastra - 2808-001 Error Code (decimal value): 1 Chain has infinite loop. 11 Head entry contains an invalid PM6 entry #. 12 Head entry but no tail entry. 13 Head PM6 entry not allocated. 14 Head PM6 entry not assigned to SIP trunk. 15 Head PM6 entry not assigned to SIP trunk on this SIP Gateway. 16 Head PM6 entry has invalid backward link. 17 Head PM6 entry has invalid forward link. 21 Tail entry contains an invalid PM6 entry #. 22 Tail entry but no head entry. 23 Tail PM6 entry not allocated. 24 Tail PM6 entry not assigned to SIP trunk. 25 Tail PM6 entry not assigned to SIP trunk on this SIP Gateway. 26 Tail PM6 entry has invalid backward link. 27 Tail PM6 entry has invalid forward link. 31 (Unused). 32 (Unused). 33 PM6 entry (on chain) not allocated. 34 PM6 entry (on chain) not assigned to SIP trunk. 73 Chapter 9, Pointspan Alarms Alarm Number Data Word 2 Hex Value Type Class 35 PM6 entry (on chain) not assigned to SIP trunk on this SIP Gateway. 36 PM6 entry (on chain) has invalid backward link. 37 PM6 entry (on chain) has invalid forward link. Contents based on error code: Error codes 01, 11, 12, 13, 14, 15, 16, 17, 21, 22, 23, 24, 25: Head SIP Trunk Dialog (PM6 entry) for SIP Gateway. Error codes 26, 27: Tail SIP Trunk Dialog (PM6 entry) for SIP Gateway. Error codes 33, 34, 35: Previous PM6 Entry (on chain). Error code 36, 37: PM6 Entry (on chain). Data Word 3 Contents based on error code: Error codes 01, 11, 12, 13, 14, 15, 21, 22, 23, 24, 25: Tail SIP Trunk Dialog (PM6 entry) for SIP Gateway. Error codes 33, 34, 35: Invalid PM6 Entry. Error codes 16, 17, 26, 27, 36, 37: Invalid forward or backward link PM6 Entry. 74 Module CG1A - E.STDCE. System Required Action None. Field Required Action If alarm occurs several times, report to CSC. Aastra – 2808-001 Proprietary and Contents Section 3704 Alarm Number Hex Value Type Class 3704 E78 MIN SIPG Reason On a SIP Gateway, an ISDN PRI/T1 Span or Analog Trunk to the Public Network is Out-of-Service or has failed. This may be a temporary or permanent condition. This alarm is generated every time an outbound SIP trunk call is attempted and fails. The alarm is throttled to not be reported any more than once every 4 minutes for any particular Pointspan Trunk Group. If the condition changes and either an inbound or outbound call is successful across the SIP Trunk Group, alarm SIPG-3705 is generated to indicate the condition no longer exists (the trunks are back in-service). Result Aastra - 2808-001 Outbound call resubmitted to Route Guide processing in an attempt to select an alternative trunk (not within this SIP Trunk Group) for the outbound call. Data Word 0 SIP Gateway Facility. Data Word 1 Pointspan SIP Trunk Group. Data Word 2 SIP Request Id (for outbound call which received the indication the trunks are out-of-service). Data Word 3 SIP Response Code (received from SIP Gateway, indicating the trunks are out-of-service). Module C21A - E.SGTOS. System Required Action None. Field Required Action Consult status on SIP Gateway to determine why the trunk(s) to the Public Network are out-of-service/failed. Take appropriate action to bring the trunks back in-service. 75 Chapter 9, Pointspan Alarms 3705 Alarm Number Hex Value Type Class 3705 E79 INF SIPG Reason On a SIP Gateway, an ISDN PRI/T1 Span or Analog Trunk to the Public Network is now back In-Service. Alarm SIPG-3704 had been previously generated because a SIP Gateway reported trunks out-of-service or failed for an outbound call using this Pointspan SIP Trunk Group. Calls are now being processed normally for this SIP Trunk Group, indicating the out-of-service condition no longer exists. 76 Result Calls now processing normally across the Pointspan SIP Trunk Group. Data Word 0 SIP Gateway Facility. Data Word 1 SIP Trunk Group. Data Word 2 Unused (0). Data Word 3 Unused (0). Module C21A - E.SGTIS. System Required Action None. Field Required Action None. Aastra – 2808-001 Proprietary and Contents Section 3706 Alarm Number Hex Value Type Class 3706 E7A MIN SIPG Reason An outbound call routed through a SIP Gateway was rejected by the SIP Gateway due to a failure. The failure may be due to: Pointspan sending an incorrect Destination Number to the gateway. SIP Gateway improperly setup, such that there is no route to the destination, etc. Rejection of the call by the public network trunk to which the SIP Gateway routed the call. This alarm is generated every time an outbound SIP trunk call is attempted and fails. The alarm is throttled to not be reported any more than once every 4 minutes for any particular Pointspan Trunk Group. Aastra - 2808-001 Result Reorder played to caller due to the failed outbound call. Data Word 0 SIP Gateway Facility. Data Word 1 SIP Trunk Group. Data Word 2 SIP Request Id (for outbound call which received failure notification from the SIP Gateway). Data Word 3 SIP Response Code (received from SIP Gateway indicating the failure of the call). Module C21A - E.SGTCF System Required Action None. Field Required Action Check the following possible issues: Verify the destination number sent to the SIP Gateway by Pointspan is correct. Verify the Number Manipulation and Routing tables on the SIP Gateway are correct. Verify the called number is valid. 77 Chapter 9, Pointspan Alarms 3710 Alarm Number Hex Value Type Class 3710 E7E MAJ SIPG Reason SIP gateway not responding. (Refer to Reason Code below for more information.) Result Refer to Action Taken below. Active calls on the SIP Gateway may terminate. Data Word 0 SIP Gateway Facility. Data Word 1 SPN Partition Number (where the SIP Gateway resides). Data Word 2 SIP Gateway IP Address. Data Word 3 Reason Code (High Order half of Data Word 3): 1 SIP Registration Expired. 2 (Unused - Reserved). 3 Service check of SIP Gateway received no response. Action Taken (Low Order half of Data Word 3): 0 No action taken. 5 No calls on the SIP Gateway are terminated, except those calls that cannot be terminated by the connected party. Existing SIP Gateway registration is terminated. SIP trunks associated with the SIP Gateway are placed Maintenance Out-of-Service (MOS), pending a subsequent successful SIP Gateway registration. Calls in-transition on the SIP Gateway are terminated. No active calls on the SIP Gateway are terminated, except those calls that cannot be terminated by the connected party. Existing SIP Gateway registration is terminated. SIP trunks associated with the SIP Gateway are placed Maintenance Out-of-Service (MOS), pending a subsequent successful SIP Gateway registration. 6 78 Aastra – 2808-001 Proprietary and Contents Section Alarm Number Hex Value 7 Type Class All calls on the SIP Gateway (including active calls) are terminated. Existing SIP Gateway registration is terminated. SIP Trunks associated with SIP Gateway are placed Maintenance Out-of-Service (MOS), pending a subsequent successful SIP Gateway registration. Module CH2A - E.SGSUP. System Required Action None. Field Required Action Verify SIP Gateway connection to the network. Verify SIP Gateway is properly operating. Alarm Number Hex Value Type Class 3720 E88 MAJ SIPG Reason SIP Gateway Start-Up (Power-Up). 3720 This occurs when the SIP Gateway power cycles, or is otherwise re-started. (Refer to Reason Code below for more information). Result Active calls on the SIP Gateway may have been terminated. Refer to Action Taken below. Data Word 0 SIP Gateway Facility. Data Word 1 SPN Partition Number (where the SIP Gateway resides). Data Word 2 SIP Gateway IP Address. Data Word 3 Reason Code (High Order half of Data Word 3): 1 SIP Gateway Start-Up as Reported by Power-Up Notification. 2 SIP Gateway Start-Up as Detected by New SIP Registration. Action Taken (Low Order half of Data Word 3): Aastra - 2808-001 0 No action taken. 1 No calls on the SIP Gateway are terminated, except those calls that cannot be terminated by the connected party. 79 Chapter 9, Pointspan Alarms Alarm Number Hex Value 2 Class Calls in-transition on the SIP Gateway are terminated. No active calls on the SIP Gateway are terminated, except those calls that cannot be terminated by the connected party. 3 All calls on the SIP Gateway (including active calls) are terminated. 5 No calls on the SIP Gateway are terminated, except those calls that cannot be terminated by the connected party. Existing SIP Gateway registration is terminated. SIP Trunks associated with SIP Gateway are placed Maintenance Out-of-Service (MOS), pending a subsequent successful SIP Gateway registration. Calls in-transition on the SIP Gateway are terminated. No active calls on the SIP Gateway are terminated, except those calls that cannot be terminated by the connected party. Existing SIP Gateway registration is terminated. SIP trunks associated with SIP Gateway are placed Maintenance Out-of-Service (MOS), pending a subsequent successful SIP Gateway registration. All calls on the SIP Gateway (including active calls) are terminated. Existing SIP Gateway registration is terminated. SIP trunks associated with SIP Gateway are placed Maintenance Out-of-Service (MOS), pending a subsequent successful SIP Gateway registration. 6 7 80 Type Module CH2A - E.SGSUP. System Required Action None. Field Required Action None. Aastra – 2808-001 Proprietary and Contents Section 3730 Alarm Number Hex Value Type Class 3730 E92 MAJ SIPG Reason SIP Gateway Registration with different contact (than existing, active SIP Registration) SIP Gateway may register with a different contact when: Result SIP Gateway is restarted/powered-up and DHCP assigns a different IP address (this is not a problem). More than one SIP Gateway is configured with the SAME Authentication Name and Password (this configuration problem must be corrected). The following actions are taken: All calls on the SIP Gateway are terminated. Existing SIP Registration terminated for SIP Gateway. New SIP Registration completed with new Contact IP Address. Data Word 0 SIP Gateway Facility. Data Word 1 SPN Partition Number (where SIP Gateway resides). Data Word 2 SIP Gateway IP Address (Existing). (Contact IP Address from existing SIP Registration.) Data Word 3 SIP Gateway IP Address (New). (Contact IP Address from new SIP Registration.) Module CH2A - E.SGCON. System Required Action None. Field Required Action If alarm occurs several times: Alarm Number Hex Value Type Class 3790 ECE INF SIPG Reason SIP Gateway Active. Result SIP Gateway now available to place and receive calls. Verify the same Authentication Name and Password are NOT configured on more than one SIP Gateway. 3790 Aastra - 2808-001 81 Chapter 9, Pointspan Alarms Alarm Number Hex Value Type Class Data Word 0 SIP Gateway Facility. Data Word 1 SPN Partition Number (where SIP Gateway resides). Data Word 2 SIP Gateway IP Address. Data Word 3 SIP Gateway Number. Module CH2A - E.SGACT. System Required Action None. Field Required Action None. Modified Alarms 3600 Alarm Number Hex Value Type Class 3600 E10 MIN SIP Reason SIP Station registration or authentication failed. Refer to the reason codes in Data Word 1 below for more information. Result SIP registration or authentication was rejected for a SIP Station/Voice Line pair. This alarm is similar to alarm SIPG-3700 used for SIP Gateways. Reason codes are coordinated between the alarms. Data Word 0 If reason = 1, 2, 15, 16, or 17: SPN facility. All other reason codes: SIP Station Logical Port Facility. Data Word 1 82 Reason Code (decimal value): 1 SIP Authentication Name has an incorrect format or does not exist. The SIP Device (SIP Station or SIP Gateway) could not be determined. 2 SIP Station identified in SIP Authentication Name does not exist on the SPN Partition. 3 SIP Station is NOT reporting a MAC Address (which is needed to match against the MAC Address defined for the SIP Station). Aastra – 2808-001 Proprietary and Contents Section Alarm Number Hex Value Type Class 4 MAC Address reported by SIP Station does not match the MAC Address defined for the SIP Station. 5 Reported SIP Authentication Password does not match the password defined for the SIP Station. 6 Unsupported SIP Version - SIP version not SIP 2.0 or greater. 7 Invalid registration address-of-record ("To:"). 8 Invalid registering address-of-record ("From:"). 9 Invalid contact information. 10 Expires interval too short. 11 SIP Station (from Authentication Name) and Voice Line (from Registration Address-of-Record) not related. 12 Invalid Registration ID received in SIP Registration Request Message. 13 Q07 disk read of SIP station password failed. 14 Existing SIP registration expired and did not reregister within 10 minutes from the time of expiration -- for a single SIP Station. 15 Existing SIP registration expired and did not reregister within 10 minutes from the time of expiration -- for more than 3 SIP Stations within the 10-minute period. 16 SIP authentication domain is incorrect (does not match SPN IP Address). 17 SPN password request from ECS failed (Timeout). This reason code applies to SPN password requests for both SIP Stations and SIP Gateways. Data Word 2 18 (Reserved for alarm SIPG-3700). 19 (Reserved for alarm SIPG-3700). 20 (Reserved for alarm SIPG-3700). 21 (Reserved for alarm SIPG-3700). If reason = 15: Number of SIP Stations where SIP registration expired within 10minute period. All other reason codes: Aastra - 2808-001 83 Chapter 9, Pointspan Alarms Alarm Number Hex Value Type Class SIP Device IP Address (from which SIP Registration or Authentication was requested). Data Word 3 Module Field Required Action 84 Action Taken: 0 Not applicable (Reason=14 or 15). 1 SIP registration or authentication allowed to continue (not blocked due to MAC address validation failure). 2 SIP registration or authentication rejected. CG3A, CG5A, E.SREGF. Action to take based on Reason Code: Code Action 1 Correct the SIP authentication name. 2 Correct the SIP authentication name, or change SIP Station proxy to that of the correct SPN partition. 3 Change the SIP Station to enable reporting of the MAC Address to the SPN (only possible for Aastra phones). 4 If the defined SIP Station MAC Address is incorrect, change it to the proper MAC Address. If the SIP Station is attempting to register to an incorrect Pointspan logical port (as identified in the SIP authentication name), correct the SIP authentication name. 5 Correct the SIP authentication password in the SIP Station or correct the password defined for the SIP Station. 6 Check SIP Station software version. 7 Check SIP Station configuration. 8 Check SIP Station configuration. 9 Check SIP station configuration. 10 Increase SIP Station registration expires interval to a value more than the minimum (as defined for the SPN partition). 11 Check SIP station configuration. 12 Report to CSC (software support.) 13 If occurs repeatedly, report to CSC. 14 Verify SIP Station is plugged into the network. Check network path. Aastra – 2808-001 Proprietary and Contents Section Alarm Number Aastra - 2808-001 Hex Value Type Class 15 Check network path to SIP Stations. 16 Correct the SIP authentication domain. 17 Report to CSC (software support). 18 (Reserved for alarm SIPG-3700). 19 (Reserved for alarm SIPG-3700). 20 (Reserved for alarm SIPG-3700). 21 (Reserved for alarm SIPG-3700). 85 Chapter 9, Pointspan Alarms 86 Aastra – 2808-001