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Showing posts with label CLI. Show all posts
Showing posts with label CLI. Show all posts

Wednesday, May 28, 2008

Succession Signaling Server - Tips Part 2

phong In the first part of this two post series I gave you a small sample of some CLI diagnostic commands that are available in the Succession Signaling Server v4.5. In this post I'm going to get a little more detailed and focus on some very specific commands used for troubleshooting voice quality in a VoIP network.

For the purpose of this post we'll assume that we're using and i2004 (Phase 2) phone. These commands are available on i2002,i2004, and i2007 (Phase 2 phones only). And also available on the 1120e/1140e and 1150e (they might be available on the i2050 softphone).

With the phone online you can remotely command the phone to perform a number of basic network troubleshooting commands as well as retrieve detailed network statistics. From the CLI interface of the Succession Signaling Server you can issue the following commands;

rPing <TN | IP>, <dest>[,<count>]
This command will instruct the phone to ping an IP address.

oam> rPing 10.1.198.50, 10.1.240.40, 5
27/05/2008 18:16:34 LOG0006 VTM:
rPing Report from set (10.1.198.50) 64 bytes packets received from IP 10.1.240.40
27/05/2008 18:16:34 LOG0006 VTM:
rPing Report from set (10.1.198.50) ICMP sequence is 0
27/05/2008 18:16:34 LOG0006 VTM:
rPing Report from set (10.1.198.50) round trip time in ms: 20
27/05/2008 18:16:35 LOG0006 VTM:
rPing Report from set (10.1.198.50) 64 bytes packets received from IP 10.1.240.40
27/05/2008 18:16:35 LOG0006 VTM:
rPing Report from set (10.1.198.50) ICMP sequence is 1
27/05/2008 18:16:35 LOG0006 VTM:
rPing Report from set (10.1.198.50) round trip time in ms: 20
27/05/2008 18:16:36 LOG0006 VTM:
rPing Report from set (10.1.198.50) 64 bytes packets received from IP 10.1.240.40
27/05/2008 18:16:36 LOG0006 VTM:
rPing Report from set (10.1.198.50) ICMP sequence is 2
27/05/2008 18:16:36 LOG0006 VTM:
rPing Report from set (10.1.198.50) round trip time in ms: 20
27/05/2008 18:16:37 LOG0006 VTM:
rPing Report from set (10.1.198.50) 64 bytes packets received from IP 10.1.240.40
27/05/2008 18:16:37 LOG0006 VTM:
rPing Report from set (10.1.198.50) ICMP sequence is 3
27/05/2008 18:16:37 LOG0006 VTM:
rPing Report from set (10.1.198.50) round trip time in ms: 20
27/05/2008 18:16:38 LOG0006 VTM:
rPing Report from set (10.1.198.50) 64 bytes packets received from IP 10.1.240.40
27/05/2008 18:16:38 LOG0006 VTM:
rPing Report from set (10.1.198.50) ICMP sequence is 4
27/05/2008 18:16:38 LOG0006 VTM:
rPing Report from set (10.1.198.50) round trip time in ms: 20
27/05/2008 18:16:38 LOG0006 VTM:
rPing Report from set (10.1.198.50) 64 bytes packets received from IP 10.1.240.40
27/05/2008 18:16:38 LOG0006 VTM:
rPing Report from set (10.1.198.50) 5 packets transmitted 5 packets received, 0 packets lost
27/05/2008 18:16:38 LOG0006 VTM:
rPing Report from set (10.1.198.50) minimum round trip time in ms: 20
27/05/2008 18:16:38 LOG0006 VTM:
rPing Report from set (10.1.198.50) average round trip time in ms: 20
27/05/2008 18:16:38 LOG0006 VTM:
rPing Report from set (10.1.198.50) maximum round trip time in ms: 20
oam>

rPingStop <TN | IP>
This command will instruct the phone to stop pinging.

rTraceRoute <TN | IP>, <dest>, <count>
This command will instruct the phone to trace the route of the destination address. 
oam> rTraceRoute 10.1.198.50, 10.1.240.40, 3
27/05/2008 18:22:56 LOG0006 VTM: rTraceRoute Report from set (10.1.198.50): 1 -- 10.1.198.1: 0ms  0ms  0ms
27/05/2008 18:22:56 LOG0006 VTM: rTraceRoute Report from set (10.1.198.50): 2 -- 10.1.144.40: 20ms  20ms  20ms
27/05/2008 18:22:56 LOG0006 VTM: rTraceRoute Report from set (10.1.198.50): 3 -- 10.1.144.8: 20ms  20ms  20ms
27/05/2008 18:22:56 LOG0006 VTM: rTraceRoute Report from set (10.1.198.50): rTraceRoute completed !

oam>

rTraceRouteStop <TN | IP>
This command will instruct the phone to stop the trace route.

RUDPStatShow <TN |IP>[, <clear>]
This command will display the RUDP statistics from the phone.


oam> RUDPStatShow 10.1.198.50
27/05/2008 18:27:19 LOG0006 VTM:
RUDPStatShow Report from set (10.1.198.50) Number of Message Sent: 451
27/05/2008 18:27:19 LOG0006 VTM:
RUDPStatShow Report from set (10.1.198.50) Number of Message Received: 153149
27/05/2008 18:27:19 LOG0006 VTM:
RUDPStatShow Report from set (10.1.198.50) Number of Retries: 1
27/05/2008 18:27:19 LOG0006 VTM:
RUDPStatShow Report from set (10.1.198.50) Number of Resets: 0
27/05/2008 18:27:19 LOG0006 VTM:
RUDPStatShow Report from set (10.1.198.50) Uptime of Current TPS Registration: 0days 4hours 19minutes 8seconds

You can also append a value of 1 to the previous query to clear the statistics;


oam> RUDPStatShow 10.1.198.50, 1
RUDPStatShow: clear statistics after RUDPStatShow
27/05/2008 18:29:04 LOG0006 VTM:
RUDPStatShow Report from set (10.1.198.50) Number of Message Sent: 0
27/05/2008 18:29:04 LOG0006 VTM:
RUDPStatShow Report from set (10.1.198.50) Number of Message Received: 0
27/05/2008 18:29:04 LOG0006 VTM:
RUDPStatShow Report from set (10.1.198.50) Number of Retries: 0
27/05/2008 18:29:04 LOG0006 VTM:
RUDPStatShow Report from set (10.1.198.50) Number of Resets: 0
27/05/2008 18:29:04 LOG0006 VTM:
RUDPStatShow Report from set (10.1.198.50) Uptime of Current TPS Registration: 0days 4hours 20minutes 53seconds

eStatShow <TN | IP> [, <clear]
This command will display the Ethernet statistics from the phone.


oam> eStatShow 10.1.198.50
27/05/2008 18:30:55 LOG0006 VTM:
eStatShow Report from set (10.1.198.50) Duplex Mode: 1
27/05/2008 18:30:55 LOG0006 VTM:
eStatShow Report from set (10.1.198.50) Auto Negotiate Protocol Received: 0x3
27/05/2008 18:30:55 LOG0006 VTM:
eStatShow Report from set (10.1.198.50) Interface Speed: 1
27/05/2008 18:30:55 LOG0006 VTM:
eStatShow Report from set (10.1.198.50) LAN Priority Bit: 0
27/05/2008 18:30:55 LOG0006 VTM:
eStatShow Report from set (10.1.198.50) VLAN ID: 1
27/05/2008 18:30:55 LOG0006 VTM:
eStatShow Report from set (10.1.198.50) Packet Collision Peg Count: 0
27/05/2008 18:30:55 LOG0006 VTM:
eStatShow Report from set (10.1.198.50) CRC Error Peg Count: 0
27/05/2008 18:30:55 LOG0006 VTM:
eStatShow Report from set (10.1.198.50) Frame Error Peg Count: 0

As with the RUDPStatShow command you append a value of 1 to the query to clear the Ethernet statistics. I'll skip the example but the command would be "eStatShow 10.1.198.50, 1".

isetInfoShow <TN | IP>
This command will display the phone configuration and server information.

oam> isetInfoShow 10.1.198.50
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report (DHCPConfig) from Set (10.1.198.50) Terminal Type: i2002 Ph2
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report (DHCPConfig) from Set (10.1.198.50) Firmware Version: 0604DBG
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report (DHCPConfig) from Set (10.1.198.50) Hardware ID: 18-001765ffe0fc-6602
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report from Set (10.1.198.50) Firmware ID: 0x02
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report from Set (10.1.198.50) Manufacture Code: 0x001765
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report from Set (10.1.198.50) Color Code: 0x66
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report from Set (10.1.198.50) PEC Code: NTDU91AA
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report from Set (10.1.198.50) DHCP Server IP: 10.1.198.10
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report from Set (10.1.198.50) VLAN Priority: 6
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report from Set (10.1.198.50) VLAN ID: 14
27/05/2008 18:36:34 LOG0006 VTM: Set IP Address: 10.1.198.50
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report from Set (10.1.198.50) Set Subnet Mask: 255.255.255.0
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report from Set (10.1.198.50) Set IP Gateway Address: 10.1.198.1
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report from Set (10.1.198.50) Boot Mode: 47
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report(Server Info) from Set (10.1.198.50) Server 1
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report(Server Info) from Set (10.1.198.50) Server IP = 10.1.240.40
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report(Server Info) from Set (10.1.198.50) Port Number = 4100
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report(Server Info) from Set (10.1.198.50) Action = 1
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report(Server Info) from Set (10.1.198.50) Retry = 5
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report(Server Info) from Set (10.1.198.50) Server 2
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report(Server Info) from Set (10.1.198.50) Server IP = 10.1.240.40
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report(Server Info) from Set (10.1.198.50) Port Number = 4100
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report(Server Info) from Set (10.1.198.50) Action = 1
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report(Server Info) from Set (10.1.198.50) Retry = 5
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report(Server Info) from Set (10.1.198.50) Server 3
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report(Server Info) from Set (10.1.198.50) Server IP = 0.0.0.0
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report(Server Info) from Set (10.1.198.50) Port Number = 0
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report(Server Info) from Set (10.1.198.50) Action = 1
27/05/2008 18:36:34 LOG0006 VTM:
isetInfoShow Report(Server Info) from Set (10.1.198.50) Retry = 0

RTPStatShow <TN | IP>
This command will display network metrics and QoS values.

NOTE: You'll need to be in PDT to execute this command from the CLI interface of the Succession Signaling Server. In order to enter PDT simply hold down the <CTRL> while typing the letters "PDT".


pdt> RTPStatShow 10.1.198.50
27/05/2008 18:42:10 LOG0006 shell: RTPStatShow: IP 10.1.198.50 is not an active set, displays the statistics from previous call
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Far End IP address: 10.1.240.45
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Far End Port: 5224
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Local Packet Sent: 57
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Local Packet Received: 0
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Local Packet Received out of order : 0
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Local Pkt Loss: 0%
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Local Average Jitter: 0ms
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Local Latency: 0ms
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Local Listening R: 93
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Vocoder Type: 0
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Local Avg Net Loss Rate: 0.00%
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Local Avg Discard Rate: 0.00%
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Local Avg Burst Density: 0.00%
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Local Avg Burst Length: 0ms
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Local Gap Density: 0.00%
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Local Gap Length: 0ms
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Local Avg End System Delay: 5ms
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Local Avg Noise Level: 0dBm
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Local Avg Signal Power: 0dBm
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Local Round Trip Time Avg: 0ms
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Local Round Trip Time Avg High: 0ms
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Remote Listening R: 0
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Remote Avg Net Loss Rate: 0.00%
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Remote Avg Discard Rate: 0.00%
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Remote Avg Burst Density: 0.00%
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Remote Avg Burst Length: 0ms
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Remote Gap Density: 0.00%
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Remote Gap Length: 0ms
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Remote Avg End System Delay: 0ms
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Remote Avg Noise Level: 0dBm
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Remote Avg Signal Power: 0dBm
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Remote Round Trip Time Avg: 0ms
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Remote Round Trip Time Avg High: 0ms
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Remote Packet Loss: 0%
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Remote Average Jitter: 0ms
27/05/2008 18:42:10 LOG0006 VTM:
RTPStatShow Report (RTCP-XR) from Set (10.1.198.50) Remote Latency: 0ms

Well by now you're probably asking yourself what does all this mean. Well hopefully you aren't completely lost. The first few commands are used to test basic connectivity, rPing and rTraceRoute. You would use these commands to make sure that an IP phone could communicate with a VGMC (Voice Gateway Media Card) or perhaps even another IP phone. Once you know you have basic network connectivity then you might need to look at some of the network statistics. Perhaps there is an auto-negotiation issue or perhaps there is too much packet loss leading too poor voice quality.

Note: did you know that you can perform pings an trace routes from the phone itself? After the phone has successfully booted and is connecting to the Nortel Call Server just press the "Services" key twice and select "Network Diagnostic Tools".

Cheers!

Posted by Michael McNamara at 6:00 PM 2 comments

Tuesday, May 13, 2008

Succession Signaling Server - Tips Part 1

communication_server_1000_200x107 I thought I would share some of the more useful CLI commands that be found in the Nortel Succession 4.5 Signaling Server. You can access the CLI interface by TELNETing into the Signaling Server. You can also issue may of these commands from Element Manager, the web based GUI.

isetShow - display all IP phones connected (registered) to this signaling server.

oam> isetShow

Set Information
---------------
    IP Address      NAT  Model Name                       Type      RegType  State         Up  Time       Set-TN       Regd-TN           HWID           FWVsn  UNIStimVsn SrcPort DstPort
------------------ ---- -------------------------------- ---------- ------- ------------ -------------- ------------ ------------ -------------------- ------- ---------- ------- -------
10.1.1.146              IP Phone 1150E                   IPACD      Regular online           7 10:00:30 152-00-00-09 152-00-00-09 18-001bbaf1cf58-66     C4L      2.9      5100    5000
10.1.1.123              IP Phone 2004 Phase 2            i2004 Ph2  Regular online           7 10:00:30 152-00-00-26 152-00-00-26 18-000ae4754301-66     DBG      2.9      5100    5000
10.1.1.124              IP Phone 2004 Phase 2            i2004 Ph2  Regular online           7 10:00:20 152-00-00-18 152-00-00-18 18-000ae4753f65-66     DBG      2.9      5100    5000
10.1.1.122              IP Phone 1140E                   i2004 Ph2  Regular online           7 10:00:14 152-00-00-05 152-00-00-05 18-001365ff6c03-66     C4L      2.9      5100    5000
10.1.1.111              IP Phone 2004 Phase 2            i2004 Ph2  Regular online           7 10:00:12 152-00-00-04 152-00-00-04 18-000ae4753fc9-66     DBG      2.9      5100    5000
10.1.1.118              IP Phone 2004 Phase 2            i2004 Ph2  Regular online           7 10:00:04 152-00-00-20 152-00-00-20 18-000ae4753fba-66     DBG      2.9      5100    5000
10.1.1.133              IP Phone 2007 Phase 2            i2004 Ph2  Regular online           7 09:59:41 152-00-01-02 152-00-01-02 18-000ae4769cc1-66     C4J      2.9      5100    5000
10.1.1.119              IP Phone 2004 Phase 2            i2004 Ph2  Regular online           7 09:59:40 152-00-00-27 152-00-00-27 18-000ae4754009-66     DBG      2.9      5100    5000
10.1.1.112              IP Phone 2004 Phase 2            i2004 Ph2  Regular online           7 09:59:36 152-00-00-19 152-00-00-19 18-000ae4753fe6-66     DBG      2.9      5100    5000
10.1.1.120              IP Phone 1140E                   i2004 Ph2  Regular online           7 09:59:26 152-00-00-01 152-00-00-01 18-001365ff5e4f-66     C4L      2.9      5100    5000
10.1.1.121              IP Phone 1140E                   i2004 Ph2  Regular online           7 09:59:18 152-00-00-02 152-00-00-02 18-001365ff717a-66     C4L      2.9      5100    5000
10.1.1.130              IP Phone 2004 Phase 2            i2004 Ph2  Regular online           7 09:57:18 152-00-00-08 152-00-00-08 18-000ae47544d3-66     DBG      2.9      5100    5000
10.1.1.127              IP Phone 2004 Phase 2            i2004 Ph2  Regular online           7 09:57:13 152-00-00-21 152-00-00-21 18-000ae4753fc5-66     DBG      2.9      5100    5000
10.1.1.106              IP Phone 2002 Phase 2            i2002 Ph2  Regular online           7 09:57:13 152-00-01-13 152-00-01-13 18-001bbaf40445-66     DBG      2.9      5100    5000
10.1.1.131              IP Phone 2004 Phase 2            i2004 Ph2  Regular online           7 09:56:58 152-00-00-24 152-00-00-24 18-000ae4754088-66     DBG      2.9      5100    5000
10.1.1.107              IP Phone 2002 Phase 2            i2002 Ph2  Regular online           7 09:56:42 152-00-01-14 152-00-01-14 18-001bbaf4a628-66     DBG      2.9      5100    5000
10.1.1.117              IP Phone 1140E                   i2004 Ph2  Regular online           7 09:54:48 152-00-00-00 152-00-00-00 18-001365ff6d7e-66     C4L      2.9      5100    5000
10.1.1.100              IP Phone 1140E                   i2004 Ph2  Regular online           7 09:54:45 152-00-01-16 152-00-01-16 18-001365ff1a9c-66     C4L      2.9      5100    5000
10.1.1.151              IP Phone 1150E                   IPACD      Regular busy             7 02:14:56 152-00-00-30 152-00-00-30 18-001bbaf1cf96-66     C4L      2.9      5100    5000
10.1.2.119              Nortel WLAN 2211 Handset         i2004      Regular online           1 08:33:34 152-00-00-12 152-00-00-12 30-00907a0284f8-66     071      2.9      5100    5000
10.1.5.58               IP Phone 2007 Phase 2            i2004 Ph2  Regular online           0 10:24:58 152-00-00-10 152-00-00-10 18-000ae4769cc8-66     C4J      2.9      5100    5000
10.1.1.154              IP Phone 1150E                   IPACD      Regular online           0 04:14:49 152-00-01-28 152-00-01-28 18-001bbaf1cfd2-66     C4L      2.9      5100    5000

Total sets = 22
oam>

electShow - display all registered and unregistered components.


oam> electShow
Node ID       : 1
Node Master   : Yes
Up Time       : 7 days, 10 hours, 9 mins, 47 secs
TN            : 000 00 00 00
Host Type     : ISP 1100
TLAN IP Addr  : 10.1.140.20
ELAN IP Addr  : 10.1.139.20
Election Duration       : 15
Wait for Result time    : 35
Master Broadcast period : 30
===== master tps =====
Host Type   TN            TLAN IP Addr
ISP 1100    000 00 00 00  10.1.140.20
Next timeout    : 16 sec
AutoAnnounce    : 1
Timer duration  : 60 (Next timeout in 3 sec)
====== all tps ======
Num  TN            Host Type   ELAN MAC           TLAN IP Addr     ELAN IP Addr     Up Time       NumOfSets  TimeOut
001  000 00 00 00  ISP 1100    00:02:b3:f6:52:0a  10.1.140.20    10.1.139.20    007 10:09:47  27         0
002  000 00 00 00  ISP 1100    00:02:b3:f6:50:9c  10.1.140.21    10.1.139.21    125 22:37:09  25         0
003  052 00 01 00  SMC         00:20:d8:d0:d9:a1  10.1.140.43    10.1.139.43    125 22:07:13  0          0
004  036 00 12 00  SMC         00:20:d8:d0:d0:fb  10.1.140.42    10.1.139.42    125 22:17:13  0          0
005  008 00 12 00  SMC         00:20:d8:d0:fc:83  10.1.140.45    10.1.139.45    125 22:15:12  0          1
006  016 00 04 00  SMC         00:20:d8:d1:12:63  10.1.140.41    10.1.139.41    125 22:15:13  0          0
007  052 00 07 00  SMC         00:20:d8:d0:dc:4d  10.1.140.44    10.1.139.44    004 13:43:53  0          1


====== All cards in node configuration are registered ======




vtrkShow - display the virtual trunk status and available channels


oam> vtrkShow
---------------------------
VTRK Summary
---------------------------
VTRK status   : Active
Protocol      : H323
D-Channel     : 30
Customer      : 0
Channels Idle : 146
Channels Busy : 11
Channels Mbsy : 0
Channels Pend : 0
Channels Dsbl : 0
Channels Ukwn : 0
Channels Total: 157
Chid ranges   : 1 to 157

VTRK State = Active
---------------------------
VTRK Status = Enabled
---------------------------


umsPolicyShow - display the available firmware for each phone model


oam> umsPolicyShow

Total policies = 1

Name             Upgrade      Protocol  Retries
---------------  -----------  --------  -------
DEFAULT          ANY          UFTP     -1


Available firmware:
FW ID  FWVsn  Model                             Policy Name      File name
-----  -----  --------------------------------  ---------------  --------------
0x00   B76    IP Phone 2004 Phase 0/1           DEFAULT          /u/fw/x00.fw
0x00   B76    IP Phone 2002 Phase 1             DEFAULT          /u/fw/x01.fw
0x02   DBG    IP Phone 2004 Phase 2             DEFAULT          /u/fw/x02.fw
0x02   DBG    IP Phone 2002 Phase 2             DEFAULT          /u/fw/x02.fw
0x02   DBG    IP Phone 2001 Phase 2             DEFAULT          /u/fw/x02.fw
0x10   S58    IP Audio Conference Phone 2033    DEFAULT          /u/fw/x10.fw
0x21   C4J    IP Phone 2007 Phase 2             DEFAULT          /u/fw/x21.fw
0x24   C39    IP Phone 1120E                    DEFAULT          /u/fw/x24.fw
0x25   C4L    IP Phone 1140E                    DEFAULT          /u/fw/x25.fw
0x27   C4L    IP Phone 1150E                    DEFAULT          /u/fw/x27.fw


Total firmware = 8


While I won't go into every single command I will highlight a few additional commands;

ping - very useful for troubleshooting basic connectivity
routeShow - display the routing table including ELAN and TLAN

In a future post I hope to cover the remote iset diagnostic commands that are available for the IP phones.

Cheers!

Posted by Michael McNamara at 9:00 PM 0 comments

Wednesday, November 7, 2007

WS5100 v3.x Getting Started

The following document is provided as a basic guide on how to configure the Motorola WS5100 Wireless LAN Switch with release 3.x software. You should use the initial username of “cli” at the login prompt. At the username/password prompts you should use “admin” and “superuser” respectively.

You should connect to the console port a serial cable (null) with 19200,8,N,1.

The example below will configure Ethernet 2 as a trunk port with the management interface in VLAN 200 (10.107.255.199/24) and the default gateway as 10.107.255.1. The order of the commands is very important when you start to trunk the interface.

Please press Enter to activate this console.
WS5100 release 3.0.3.0-003R
Login as 'cli' to access CLI.
WS5100 login: cli

User Access Verification

Username: admin
Password: *********
Welcome to CLI

WS5100>
WS5100> enable
WS5100# configure terminal

WS5100(config)# interface eth2
WS5100(config-if)# switchport mode trunk
WS5100(config-if)# switchport trunk native vlan 200
WS5100(config-if)# switchport trunk native tagged
WS5100(config-if)# switchport trunk allowed vlan none
WS5100(config-if)# switchport trunk allowed vlan add 200
WS5100(config-if)# exit

WS5100(config)# interface vlan 200
WS5100(config-if)# ip address 10.107.255.199/24
WS5100(config-if)# management
WS5100(config-if)# exit

WS5100(config)# interface vlan 1
WS5100(config-if)# no ip address
WS5100(config-if)# shutdown
WS5100(config-if)# exit

WS5100(config)# ip default-gateway 10.107.255.1
WS5100(config)# end
WS5100# write memory
Once you've complete those steps you should be able to ping the device. At that point you can connect to the web based console to complete the configuration.
https://10.107.255.199
You should of course substitute the IP addresses above with your own addresses.

Cheers!

Posted by Michael McNamara at 7:59 PM 0 comments
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