- Preface
- Using Cisco IOS XE Software
- SIP and SPA Product Overview
- Overview of the SIP
- Configuring the SIP
- Troubleshooting the SIP
- Overview of the ATM SPAs
- Configuring the ATM SPAs
- Troubleshooting the ATM SPAs
- Overview of the Ethernet SPAs
- Configuring the Ethernet SPAs
- Troubleshooting the Gigabit Ethernet SPAs
- Overview of the POS SPAs
- Configuring the POS SPAs
- Overview of the Serial SPAs
- Configuring the 8-Port Channelized T1/E1 Serial SPA
- Configuring the 2-Port and 4-Port Channelized T3 SPAs
- Configuring the 2-Port and 4-Port T3/E3 Serial SPA
- Configuring the 4-Port Serial Interface SPA
- Configuring the 1-Port Channelized OC-3/STM-1 SPA and 1-Port Channelized OC-12/STM-4 SPA
- Troubleshooting the Serial SPAs
- Overview of the Cisco WebEx Node for the Cisco ASR 1000 Series Routers
- Configuring the Cisco WebEx Node for the ASR 1000 Series Aggregation Services Routers
- Troubleshooting the Cisco WebEx Node for the ASR 1000 Series Aggregation Services Routers
- Overview of the Cisco DSP SPA for the ASR 1000 Series Aggregation Services Routers
- Configuring the Cisco DSP SPA for the ASR 1000 Series Aggregation Services Routers
- Upgrading Field-Programmable Devices
- Classifying and Scheduling Packets for the ASR 1000 Series Aggregation Services Routers
- Overview of the Circuit Emulation over Packet Shared Port Adapter
- Configuring the Circuit Emulation over Packet Shared Port Adapter
- Index
Configuring the Cisco WebEx Node for the ASR 1000 Series Aggregation Services Routers
This chapter provides information about configuring the Cisco WebEx Node for ASR 1000 Series on the Cisco ASR 1000 Series Aggregation Services Routers, also referred to in this document as the Cisco WebEx Node SPA.
Prerequisites
Complete the following prerequisites to successfully activate your Cisco WebEx Node for ASR 1000 Series:
- Registering with the WebEx Data Center and the Cisco WebEx Node Management System
- Completing the Cisco WebEx Node SPA Configuration Prerequisites
Registering with the WebEx Data Center and the Cisco WebEx Node Management System
To successfully activate a Cisco WebEx Node for ASR 1000 Series, certain registration and provisioning activities must be performed with the WebEx Data Center using the Cisco WebEx Node Management System. The Cisco WebEx Node Management System also provides monitoring and reporting for Cisco WebEx nodes.
Once the SPA is registered with the WebEx Data Center, certain node security information must be gathered and then configured on the Cisco WebEx Node for ASR 1000 Series.
 Note | Registering your Cisco WebEx Node SPA and establishing an account in the Cisco WebEx Node Management System are two separate activities. If you are responsible for the management of Cisco WebEx Node SPAs for your enterprise, then it is likely that you will also acquire an account in the Cisco WebEx Node Management System application. Otherwise, you will work with your enterprise WebEx administrator to exchange the appropriate information to properly provision your Cisco WebEx Node SPA with the WebEx Data Center and configure it locally at the Cisco ASR 1000 Series Router. |
Note | For details about working with the Cisco WebEx Node Management System, see the Cisco WebEx Node Management System Administrator’s Guide. |
- Obtaining an Account in the Cisco WebEx Node Management System
- Registering a Cisco WebEx Node SPA in the Cisco WebEx Node Management System
Obtaining an Account in the Cisco WebEx Node Management System
If you will be monitoring and maintaining Cisco WebEx Node SPAs for your enterprise, then you will need to obtain an account in the Cisco WebEx Node Management System.
Consider the following important information about Cisco WebEx Node Management System accounts:
- You must change your password within 90 days. If you do not change your password, your account will move to “Inactive” status.
- If you do not successfully log in to the Cisco WebEx Node Management System after three attempts, the account moves to “Locked” status.
To acquire an account in the Cisco WebEx Node Management System, perform the following steps:
1. Contact your Cisco WebEx administrator with the following information to set up your initial account information:
2. Once your Cisco WebEx Node Management System account is created, you can log in to the application by going to the following URL:
3. On the login page for the Cisco WebEx Node Management System, enter your username and temporary password in the appropriate boxes.
4. From the Account List page, go to the Edit Account page to change your password by checking the box next to your user account and click the pencil icon to access your account information page.
5. On the Edit Account page, click the Change Password link to open the Change Password dialog box.
6. In the Change Password dialog box, enter your old password and new password in the corresponding fields and click OK.
DETAILED STEPS
| Step 1 |
Contact your Cisco WebEx administrator with the following information to set up your initial account information:
| ||
| Step 2 | Once your Cisco WebEx Node Management System account is created, you can log in to the application by going to the following URL: | ||
| Step 3 |
On the login page for the Cisco WebEx Node Management System, enter your username and temporary password in the appropriate boxes.
| ||
| Step 4 | From the Account List page, go to the Edit Account page to change your password by checking the box next to your user account and click the pencil icon to access your account information page. | ||
| Step 5 | On the Edit Account page, click the Change Password link to open the Change Password dialog box. | ||
| Step 6 | In the Change Password dialog box, enter your old password and new password in the corresponding fields and click OK. |
Registering a Cisco WebEx Node SPA in the Cisco WebEx Node Management System
This section describes the information required to perform initial activation of your Cisco WebEx Node SPA in the Cisco WebEx Node Management System.
Note | This task must be performed by a registered Cisco WebEx Node Management user. This could be someone in the role of a Cisco WebEx administrator for your enterprise, or multiple individuals responsible for Cisco WebEx Node management for your enterprise. |
1. To register and provision your Cisco WebEx Node for the ASR 1000 Series, contact your Cisco WebEx administrator with the following information to register your Cisco WebEx Node SPA with the WebEx Data Center:
2. After the Cisco WebEx Node SPA is registered in the Cisco WebEx Node Management System, obtain the following information from the Node Information page for the SPA in the Cisco WebEx Node Management System:
DETAILED STEPS
| Step 1 |
To register and provision your Cisco WebEx Node for the ASR 1000 Series, contact your Cisco WebEx administrator with the following information to register your Cisco WebEx Node SPA with the WebEx Data Center:
| ||
| Step 2 |
After the Cisco WebEx Node SPA is registered in the Cisco WebEx Node Management System, obtain the following information from the Node Information page for the SPA in the Cisco WebEx Node Management System:
|
Completing the Cisco WebEx Node SPA Configuration Prerequisites
Prior to configuring the Cisco WebEx Node SPA, you must ensure that the following tasks are completed:
- A Cisco IOS XE software image is loaded on your Cisco ASR 1000 Series Router that is compatible with the Cisco WebEx Node SPA. The Cisco WebEx Node SPA provides K9 encryption, and you must also download and install the optional sipspawmak9 subpackage. To complete the installation of the Cisco Webex Node SPA, perform the steps mentioned in the following sections:
For more information about Cisco IOS XE package compatibility and installation instructions, see the Consolidated Packages and Sub-Package Management chapter of the http://www.cisco.com/en/US/docs/routers/asr1000/configuration/guide/chassis/asrswcfg.html Cisco ASR 1000 Series Aggregation Services Routers Software Configuration Guide .
- After the router is configured to run using individual subpackages, download and install the webex sipspawmak9 subpackage. Use the request platform software package install rp rp-slot-number file storage-device:sipspa-package-name command in the privileged EXEC mode or the diagnostic mode to upgrade the SIPSPA subpackage. For example:
router# request platform software package install rp 0 file bootflash:asr1000rp1-sipspawmak9.2011-11-23_09.34_cmaddine.pkg .
- A DNS entry for the IP address is assigned to each Cisco WebEx Node SPA.
- An IP address is allocated for the Cisco IOS XE interface configuration on the Cisco ASR 1000 Series Aggregation Services Router side.
- An IP address is also allocated for the internal interface configuration on the Cisco WebEx Node SPA side.
- The IP address that is allocated for the Cisco IOS XE interface configuration on the Cisco ASR 1000 Series Router side and the IP address that is allocated for the internal interface configuration on the Cisco WebEx Node SPA side must be on the same subnet.
- Verify that certain WebEx Data Center servers (such as the Cisco WebEx Data Center SSL gateway and the Cisco WebEx Node Management server) are reachable and not blocked from access by the Cisco ASR 1000 Series Router. If access to these servers is blocked, then the Cisco WebEx Node SPA might not activate properly.
Configuration Tasks
This section describes how to configure the Cisco WebEx Node for ASR 1000 Series and verify the configuration. For information about managing your system images and configuration files, refer to the following:
- Specifying the Service Engine Interface Address on the Cisco WebEx Node SPA
- Configuring the Virtual Service Engine Interface
- Saving the Configuration
- Shutting Down and Removing the Cisco WebEx Node SPA
Specifying the Service Engine Interface Address on the Cisco WebEx Node SPA
To configure or monitor SPA interfaces, you need to specify the physical location of the SIP, SPA, and interface in the CLI. The interface address format is slot/subslot/port, where:
-
slot—Specifies the chassis slot number in the Cisco ASR 1000 Series Router where the SIP is installed.
-
subslot—Specifies the secondary slot of the SIP where the SPA is installed.
-
port—Specifies the number of the individual interface port on a SPA.
The following example shows how to specify the service engine interface on a Cisco WebEx Node SPA installed in the first subslot of a SIP (0) installed in chassis slot 2:
Router(config)# interface service-engine 2/0/0
For more information about identifying slots and subslots, see the “Identifying Slots and Subslots for the SIPs and SPAs” section in the Configuring the SIP chapter.
Configuring the Virtual Service Engine Interface
Configuration of the Cisco WebEx Node SPA begins with the setup of a virtual service engine interface. This Cisco IOS XE virtual interface is created to allow services running on the Cisco WebEx Node SPA to communicate through the Cisco ASR 1000 Series Router with the Internet. The interface simulates a 2.5-GB Ethernet interface and facilitates the connection between the Cisco WebEx Data Center and Cisco WebEx clients.
A service-engine interface on the Cisco WebEx Node SPA has two IP addresses:
- Router-side IP address—Configured with the ip address command. The IP address on the router side acts like a gateway to the WebEx services running on the SPA side.
- Internal SPA interface IP address—Configured with the service-engine ip address command.
Virtual Service-Engine Interface Configuration Guidelines
To successfully configure the virtual service-engine interface, complete the following guidelines:
- The Network Address Translation (NAT) must be configured to convert the private address of the service engine to the public address.
- The router-side IP address must be configured using the ip address command.
- The service-engine IP address must be on the same subnet as the router-side IP address for the service-engine interface (configured using the ip address command.)
- The service-engine ip address command must be configured before you configure the service-engine default-gateway command.
- The service-engine default-gateway IP address must match the router-side IP address.
Note | Before you can configure the Cisco WebEx Node SPA, you must shut down the service-engine interface using the shutdown interface configuration command. To activate the service-engine interface, use the no shutdown command. |
1. Router(config)# ip nat inside source static private-ip-address public-ip- address
2. Router(config)# interface service- engine slot/subslot/0
3. Router(config-if)# ip address router-side-ip-address
4. Router(config-if)# service-engine ip address module-side-ip-address subnet-mask
5. Router(config-if)# service-engine default-gateway gateway-ip-address
6. Router(config-if)# service-engine nameserver name-server1-ip-address name-server2-ip-address
7. Router(config-if)# service-engine hostname module-side-hostname module-side-domain-name
8. Router(config-if)# service-engine wma-url url-string
9. Router(config-if)# service-engine wma-token token-string
10. Router(config-if)# service-engine wma-passcode name-string key-string
11. Router(config-if)# no shutdown
DETAILED STEPS
| Command or Action | Purpose | |||
|---|---|---|---|---|
| Step 1 | Router(config)# ip nat inside source static private-ip-address public-ip- address |
Enables the NAT of the inside source address, which converts the private address of the service engine to the public address.
| ||
| Step 2 | Router(config)# interface service- engine slot/subslot/0 |
Specifies the service engine interface to configure, where: | ||
| Step 3 | Router(config-if)# ip address router-side-ip-address |
Specifies the IP address of the router-side interface. | ||
| Step 4 | Router(config-if)# service-engine ip address module-side-ip-address subnet-mask |
Configures the Cisco WebEx Node SPA service engine IP address, where:
| ||
| Step 5 | Router(config-if)# service-engine default-gateway gateway-ip-address |
Specifies the IP address for the service engine default gateway.
| ||
| Step 6 | Router(config-if)# service-engine nameserver name-server1-ip-address name-server2-ip-address |
Specifies the primary and secondary domain name server that will be used by the WebEx Node SPA, where:
| ||
| Step 7 | Router(config-if)# service-engine hostname module-side-hostname module-side-domain-name |
Specifies the host name and domain name given to the Cisco WebEx Node SPA, where:
| ||
| Step 8 | Router(config-if)# service-engine wma-url url-string |
Specifies the URL provided by registration and provisioning of the SPA in the Cisco WebEx Node Management System. For more information, see the Registering with the WebEx Data Center and the Cisco WebEx Node Management System. | ||
| Step 9 | Router(config-if)# service-engine wma-token token-string |
Specifies the encrypted token string provided by the Cisco WebEx Node Management System.
| ||
| Step 10 | Router(config-if)# service-engine wma-passcode name-string key-string |
Specifies the WebEx Node SPA name and key used for authentication, where:
| ||
| Step 11 | Router(config-if)# no shutdown |
Activates the interface. |
The following is an example of the use of these configurations:
ip nat inside source static 10.200.72.18 192.0.2.1 interface Service-Engine1/0/0 ip address 10.200.72.17 255.255.255.252 ip nat inside ip virtual-reassembly service-engine ip address 10.200.72.18 255.255.255.252 service-engine default-gateway 10.200.72.17 service-engine nameserver 10.100.4.10 10.100.4.20 service-engine hostname spawma1 cisco.com service-engine wma-url https://wmabts.webex.com/wmams service-engine wma-token 45484b3e-8ea5-41e5-b050-49409006d14e service-engine wma-passcode SPAWMA1 0552055C271A4B5C4D5D424A5B5E007F73722B6B33264457125659500C0E555159
Note | Because the passcode is encrypted, the output will not reveal the configured token or passcode. |
What To Do Next
Verify the configuration in the Verifying the Service Engine Configuration.
Saving the Configuration
To save your running configuration to nonvolatile random-access memory (NVRAM), use the following command in privileged EXEC configuration mode:
|
Command |
Purpose |
|---|---|
|
Router# copy running-config startup-config |
Writes the new configuration to NVRAM. |
For more information about managing your system image and configuration files, refer to the Cisco IOS XE Configuration Fundamentals Configuration Guide and Cisco IOS Configuration Fundamentals Command Reference publications that correspond to your Cisco IOS XE software release.
Shutting Down and Removing the Cisco WebEx Node SPA
Because the Cisco WebEx Node SPA has a hard disk drive (HDD), it is necessary to shut down gracefully before physically removing the SPA from the Cisco ASR 1000 Series Router. This action allows the operating system to unmount the file system and put the HDD in standby mode to prevent data corruption or physical damage to the HDD.
The Cisco WebEx Node SPA can be shut down in one of two ways:
- You can use the hw-module subslot stop command to gracefully shut down the SPA before physically removing the hardware from the chassis. To shut down the Cisco WebEx Node SPA, use the following command in EXEC mode:
|
Command |
Purpose |
|---|---|
|
Router# hw-module subslot slot/subslot stop |
Shuts down the Cisco WebEx Node SPA located in the slot and subslot locations indicated. |
- You can use the Shutdown button located on the left side of the faceplate. Use the tip of a pen or other similar blunt object to press the button.
Once the shutdown operation is initiated by either method, the SYS LED starts to blink (green) to indicate the shutdown operation is in progress. Once the shutdown operation is completed, the SYS LED turns off to show that the SPA can now be removed.
 Caution | Make sure to wait until the SYS LED turns off before removing the SPA. |
The following example shows the use of the hw-module subslot stop command:
Router# hw-module subslot 0/0 stop ASR1004# *Feb 18 12:37:32.260:%SPA_OIR-6-OFFLINECARD: SPA (SPA-WMA-K9) offline in subslot 0/0 *Feb 18 12:37:32.260:%ASR1000_OIR-6-SOFT_STOPSPA: SPA(SPA-WMA-K9) stopped in subslot 0/0, interfaces disabled ASR1004# show platform Chassis type: ASR1004 Slot Type State Insert time (ago) --------- ------------------- --------------------- ----------------- 0 ASR1000-SIP10 ok 16:20:50 0/0 SPA-WMA-K9 stopped 00:00:13 0/1 SPA-WMA-K9 ok 16:18:32 R0 ASR1000-RP1 ok, active 16:20:50 F0 ASR1000-ESP10 ok, active 16:20:50 P0 ASR1004-PWR-AC ok 16:19:23 P1 ASR1004-PWR-AC ok 16:19:23 Slot CPLD Version Firmware Version --------- ------------------- --------------------------------------- 0 07091401 12.2(33r)XN2 R0 07062111 12.2(33r)XN2 F0 07051680 12.2(33r)XN2
Verifying the Service Engine Configuration
There are several commands that provide current information and status of the Cisco WebEx Node SPA, service engine, and other components.
- Showing Cisco WebEx Node SPA Settings and Activity
- Showing Service Engine Status
- Configuring the WebEx Node
Showing Cisco WebEx Node SPA Settings and Activity
You can use the show interfaces service-engine command to display Cisco WebEx Node SPA configuration settings and current activity. After configuration, make sure that the service-engine interface is “up” and the line protocol is “up” as shown in the following example:
Router# show interfaces service-engine
1/0/0
Service-Engine0/1/0 is up, line protocol is up
Hardware is SPA-WMA-K9, address is 001f.6c25.bd10 (bia 001f.6c25.bd10)
Internet address is 10.200.72.18/30
MTU 1500 bytes, BW 2500000 Kbit, DLY 1000 usec,
reliability 255/255, txload 1/255, rxload 1/255
Encapsulation ARPA, loopback not set
Keepalive not supported
ARP type: ARPA, ARP Timeout 04:00:00
Last input 03:43:59, output 00:00:35, output hang never
Last clearing of "show interface" counters never
Input queue: 0/375/0/0 (size/max/drops/flushes); Total output drops: 2
Queueing strategy: fifo
Output queue: 0/40 (size/max)
5 minute input rate 0 bits/sec, 0 packets/sec
5 minute output rate 0 bits/sec, 0 packets/sec
19 packets input, 1302 bytes, 0 no buffer
Received 0 broadcasts (0 IP multicasts)
0 runts, 0 giants, 0 throttles
0 input errors, 0 CRC, 0 frame, 0 overrun, 0 ignored
0 input packets with dribble condition detected
1091 packets output, 371289 bytes, 0 underruns
0 output errors, 0 collisions, 1 interface resets
0 babbles, 0 late collision, 0 deferred
0 lost carrier, 0 no carrier
0 output buffer failures, 0 output buffers swapped out
Showing Service Engine Status
To show service engine status including a listing of the applications that are active, use the show hw-module subslot service-engine status command as shown in the following example:
Router# show hw-module subslot 1/0 service-engine status Service Engine is Cisco SPA-WMA-K9 Service Engine state: Steady (0x300) Service Engine OS Version: 1.0.0, Application Version: 1.0.0 Application: WebEx Node (Web Conferencing) Application Status: Online Configuration: Int ip address: 10.200.72.18 , mask: 255.255.255.252 GW ip address: 10.200.72.17 Nameserver 1: 10.100.4.10 , Nameserver 2: 10.100.4.20 Hostname: spawma1, Domain name: cisco.com WMA URL - https://wmabts.webex.com/wmams WMA Token - 45484b3e-8ea5-41e5-b050-49409006d14e WMA Passcode Name - cisco_test, key:0552055C271A4B5C4D5D424A5B5E007F
Note | Since the passcode and token are encrypted, the actual content is not displayed. |
Verify that the service engine is reported in “Steady” state, and the Application Status is “Online.” If the Application Status is “Online,” then verify that the indicated operation mode (“Web Conferencing” or “Voice and Video Conferencing”) is correct. If not, contact Cisco WebEx Technical Support to correct the problem.
If the Application Status field is “Offline” then the operation mode (indicated in parenthesis in "Application" field) will show that it is not configured, as shown in the following sample output:
Router# show hw-module subslot 1/0 service-engine status Service Engine is Cisco SPA-WMA-K9 Service Engine state: Steady (0x300) Service Engine OS Version: 1.0.0, Application Version: 1.0.0 Application: WebEx Node (operation mode not configured) Application Status: Offline
This occurs when the connection to the Cisco WebEx Data Center fails, and therefore provisioning information about the operation mode can not be retrieved. For more information about provisioning, see the Registering with the WebEx Data Center and the Cisco WebEx Node Management System. For additional troubleshooting information, refer to the Troubleshooting the Cisco WebEx Node for the ASR 1000 Series Aggregation Services Routers chapter.
Configuring the WebEx Node
The security patch for the WebEx Node has been integrated into Cisco IOS XE Release 3.8.2 and Cisco IOS XE Release 3.9.1S. To install the security patch, the Cisco ASR 1000 Series Aggregation Services Routers and the WebEx SPA modules need to be upgraded to either Cisco IOS XE Release 3.8.2 or Cisco IOS XE Release 3.9.1S.
You can only install the WebEx Node subpackage when the Cisco ASR 1000 Series Aggregation Services Router is rebooted in the subpackage mode.
If the router is already booted up in the subpackage mode with the required release (3.08.02 or 3.09.01), copy the optional subpackage (sipspawma) pertaining to the same release in the same directory in which the subpackages are stored, and then install the same optional subpackage (sipspawma). In this case, no router reload is necessary.
If the router is started with a consolidated image of any release, or is started in the subpackage mode with a release that is different from the required release, copy the required consolidated image (3.08.02 or 3.09.01) in an appropriate media, create and install the subpackages from the consolidated image to bootflash, copy the optional subpackage (sipspawma) in the same directory in bootflash, and reload the system in the subpackage mode. After the router is up and running, install the optional subpackage (sipspawma).
For more information, see the “C onsolidated Packages and Sub-Package Management” and “Software Upgrade Process” chapters in the Cisco ASR 1000 Series Aggregation Services Routers Software Configuration Guide.
- Configuring the WebEx Node Using a USB Memory Stick as a Backup
- Configuring the WebEx Node Using a USB Memory Stick as a Backup
- Configuring the WebEx Node from the Bootflash
- Configuring the WebEx Node from the Bootflash
Configuring the WebEx Node Using a USB Memory Stick as a Backup
To use this method, we recommend that you to use a 4-GB USB memory stick as a backup device.
Note | If you do not want to create a backup with a USB memory device, a backup can be created through a bootflash. |
Perform the following steps to configure the WebEx Node using a USB memory stick as a backup in Cisco IOS XE Release 3.8.2:
1. Download the Cisco ASR 1000 Series Aggregation Services Router software from: http://software.cisco.com/download/navigator.html?mdfid=281716314&flowid=1362
2. Log in to a Cisco ASR 1000 Series Aggregation Services Router, and copy the consolidated package to the USB0 drive:
3. Copy the sipspawmak9 package to the USB0 drive:
4. Expand the consolidated package into the bootflash:
5. Copy the expanded packages and the packages.conf file from the USB drive to the bootflash:
6. Repeat step 1 to step 5 for the remaining packages.
7. If you are running a dual RP system (hardware redundant system), perform the following step, else skip to step 9.
8. Copy the expanded packages and the packages.conf file from the USB drive to the standby bootflash:
9. Enter the configuration mode:
10. Remove the old boot package from the bootflash:
11. Log in to the Cisco ASR 1000 Series Aggregation Services Router.
12. Verify if the new packages are running after the Cisco ASR 1000 Series Aggregation Services Router reboots:
13. Check whether the ROMMON version in the WebEx SPA is up-to-date by using the show platform command. If it is not, use the upgrade rommon all command to update the ROMMON.
14. Deploy the WebEx SPA package:
15. Verify that the SPA is active:
16. Go to https://wma.webex.com and log in.
17. Choose Administration > Node Management.
18. Select all the individual node names.
19. Copy the wma-passcode string to all the nodes:
20. Enter the configuration mode:
21. Enter the individual SPA interfaces, and re-enter the wma-passcodes:
22. Write the configuration to memory:
23. Verify that the running configuration is pointing to the correct node determined in Step 9.
24. Make sure that you are on the same network as the Cisco ASR 1000 Series Aggregation Services Router or VPN, and then start a WebEx meeting.
25. Verify that network traffic is traversing the WebEx SPA card on the Cisco ASR 1000 Series Aggregation Services Router by running the following commands:
26. Access the SIP console by using the request platform software console attach slot/subslot command.
DETAILED STEPS
| Step 1 | Download the Cisco ASR 1000 Series Aggregation Services Router software from: http://software.cisco.com/download/navigator.html?mdfid=281716314&flowid=1362
The consolidated package is asr1000rp1-adventerprisek9.03.08.02.S.153-1.S2.bin. The WebEx Node package is asr1000rp2-sipspawmak9.03.08.02.S.153-2.S1.pkg |
| Step 2 |
Log in to a Cisco ASR 1000 Series Aggregation Services Router, and copy the consolidated package to the USB0 drive: Example:
copy tftp: usb0:
IP address | name of remote host {1.1.1.1}
Source filename [asr1000rp1-adventerprisek9.03.08.02.S.153-1.S2.bin]
Destination filename [asr1000rp1-adventerprisek9.03.08.02.S.153-1.S2.bin]
|
| Step 3 |
Copy the sipspawmak9 package to the USB0 drive: Example:
copy tftp: bootflash:
Address or name of remote host {1.1.1.1}
Source filename [asr1000rp2-sipspawmak9.03.08.02.S.153-1.S2.pkg]
Destination filename [asr1000rp2-sipspawmak9.03.08.02.S.153-1.S2.pkg]
|
| Step 4 |
Expand the consolidated package into the bootflash: Example: request platform software package expand file bootflash:asr1000rp1-adventerprisek9.03.08.02.S.153-1.S2.bin to bootflash: |
| Step 5 |
Copy the expanded packages and the packages.conf file from the USB drive to the bootflash: Example: copy usb0:asr1000rp2-sipspawmak9.03.08.02.S.153-1.S2.pkg bootflash: copy usb0:packages.conf bootflash: copy usb0:asr1000rp2-ipbase.03.08.02.S.153-1.S2.bin bootflash: |
| Step 6 | Repeat step 1 to step 5 for the remaining packages. |
| Step 7 | If you are running a dual RP system (hardware redundant system), perform the following step, else skip to step 9. |
| Step 8 | Copy the expanded packages and the packages.conf file from the USB drive to the standby bootflash: Example: copy usb0:asr1000rp2-sipspawmak9.03.08.02.S.153-1.S2.pkg stby-bootflash: copy usb0:packages.conf stby-bootflash: copy usb0:asr1000rp2-ipbase.03.08.02.S.153-1.S2.bin stby-bootflash: Repeat this step for the remaining packages. |
| Step 9 |
Enter the configuration mode: Example: configure terminal |
| Step 10 |
Remove the old boot package from the bootflash: Example: Router(config)# no boot system Router(config)# config-register 0x2102 Router(config)# boot system flash bootflash:packages.conf Router(config)# exit Router# write memory Router# reload |
| Step 11 | Log in to the Cisco ASR 1000 Series Aggregation Services Router. |
| Step 12 |
Verify if the new packages are running after the Cisco ASR 1000 Series Aggregation Services Router reboots: Example: show version running |
| Step 13 | Check whether the ROMMON version in the WebEx SPA is up-to-date by using the show platform command. If it is not, use the upgrade rommon all command to update the ROMMON. |
| Step 14 |
Deploy the WebEx SPA package: Example: request platform software package install rp <rp-slot-number> file bootflash:asr1000rp2-sipspawmak9.03.08.02.S.153-1.S2.pkg Here, rp-slot-number is active-rp-slot-number For a dual RP system, perform this additional step: Example: request platform software package install rp <stby-rp-slot-number> file stby-bootflash:asr1000rp2-sipspawmak9.03.08.02.S.153-1.S2.pkg |
| Step 15 |
Verify that the SPA is active: Example: show platform |
| Step 16 | Go to https://wma.webex.com and log in. |
| Step 17 | Choose Administration > Node Management. |
| Step 18 | Select all the individual node names. |
| Step 19 |
Copy the wma-passcode string to all the nodes: Example: mtg_webex-web d2bc97983456676fbb7ea5cfcc2c3a57 |
| Step 20 |
Enter the configuration mode: Example: configure terminal |
| Step 21 |
Enter the individual SPA interfaces, and re-enter the wma-passcodes: Example: interface service-Engine 0/0/0 ip address <ip addr> <subnet mask> shutdown service-engine ip address <ip addr> <subnet mask> service-engine default-gateway <ip addr> service-engine nameserver <primary DNS nameserver> <secondary DNS nameserver> service-engine hostname <spa name> <domainname> service-engine wma-url <webex url for wma spa config> no shutdown show hw-module subslot <subslot> service-engine status Repeat Step 19 for all the interfaces. |
| Step 22 |
Write the configuration to memory: Example: write memory |
| Step 23 | Verify that the running configuration is pointing to the correct node determined in Step 9. Example: show running-configuration |
| Step 24 | Make sure that you are on the same network as the Cisco ASR 1000 Series Aggregation Services Router or VPN, and then start a WebEx meeting. |
| Step 25 |
Verify that network traffic is traversing the WebEx SPA card on the Cisco ASR 1000 Series Aggregation Services Router by running the following commands: Example: show platform hardware qfp act interface if-name service-engine0/0/0 statistics show platform hardware qfp act interface if name service-engine0/1/0 statistics |
| Step 26 | Access the SIP console by using the request platform software console attach slot/subslot command. |
Configuring the WebEx Node Using a USB Memory Stick as a Backup
Perform the following steps to configure the WebEx Node using a USB memory stick as a backup in Cisco IOS XE Release 3.9.1S.
Note | If you do not want to create a backup with a USB memory device, a backup can be created through bootflash. |
1. Download the Cisco ASR 1000 Series Aggregation Services Router software from: http://software.cisco.com/download/navigator.html?mdfid=281716314&flowid=1362
2. Log in to a Cisco ASR 1000 Series Aggregation Services Router, and copy the consolidated package to the USB0 drive:
3. Copy the sipspawmak9 package to the USB0 drive:
4. Expand the consolidated package into the bootflash:
5. Copy the expanded packages and the packages.conf file from the USB drive to the bootflash:
6. Repeat step 1 to step 5 for the remaining packages.
7. If you are running a dual RP system (hardware redundant system), perform the following step, else skip to step 9.
8. Copy the expanded packages and the packages.conf file from the USB drive to the standby bootflash:
9. Enter the configuration mode:
10. Remove the old boot package from the bootflash:
11. Log in to the Cisco ASR 1000 Series Aggregation Services Router.
12. Verify if the new packages are running after the Cisco ASR 1000 Series Aggregation Services Router reboots:
13. Check whether the ROMMON version in the WebEx SPA is up-to-date by using the show platform command. If it is not, use the upgrade rommon all command to update the ROMMON.
14. Deploy the WebEx SPA package:
15. Verify that the SPA is active:
16. Go to https://wma.webex.com and log in.
17. Choose Administration > Node Management.
18. Select all the individual node names.
19. Copy the wma-passcode string to all the nodes, for example, mtg_webex-web d2bc97983456676fbb7ea5cfcc2c3a57.
20. Enter the configuration mode:
21. Enter the individual SPA interfaces, and re-enter the wma-passcodes:
22. Write the configuration to memory:
23. Verify that the running configuration is pointing to the correct node determined in Step 9:
24. Make sure that you are on the same network as the Cisco ASR 1000 Series Aggregation Services Router or VPN, and then start a WebEx meeting.
25. Verify that network traffic is traversing the WebEx SPA card on the Cisco ASR 1000 Series Aggregation Services Router by running the following commands:
26. Access the SIP console by using the request platform software console attach slot/subslot command.
DETAILED STEPS
| Step 1 |
Download the Cisco ASR 1000 Series Aggregation Services Router software from:
http://software.cisco.com/download/navigator.html?mdfid=281716314&flowid=1362
The consolidated package is asr1000rp1-adventerprisek9.03.09.01.S.153-2.S1.bin The WebEx Node package is asr1000rp1-sipspawmak9.03.09.01.S.153-2.S1.pkg |
| Step 2 |
Log in to a Cisco ASR 1000 Series Aggregation Services Router, and copy the consolidated package to the USB0 drive: Example:
copy tftp: usb0:
Address or name of remote host {1.1.1.1}
Source filename [asr1000rp1-adventerprisek9.03.09.01.S.153-2.S1.bin]
Destination filename [asr1000rp1-adventerprisek9.03.09.01.S.153-2.S1.bin]
|
| Step 3 |
Copy the sipspawmak9 package to the USB0 drive: Example:
copy tftp: bootflash:
Address or name of remote host {1.1.1.1}
Source filename [asr1000rp1-sipspawmak9.03.09.01.S.153-2.S1.pkg]
Destination filename [asr1000rp1-sipspawmak9.03.09.01.S.153-2.S1.pkg]
|
| Step 4 |
Expand the consolidated package into the bootflash: Example: Request platform software package expand file bootflash:asr1000rp1-adventerprisek9.03.09.01.S.153-2.S1.bin to bootflash: |
| Step 5 |
Copy the expanded packages and the packages.conf file from the USB drive to the bootflash: Example: copy usb0:asr1000rp1-sipspawmak9.03.09.01.S.153-2.S1.pkg bootflash: copy usb0:packages.conf bootflash: copy usb0:asr1000rp2-ipbase.03.08.02.S.153-1.S2.bin bootflash: |
| Step 6 | Repeat step 1 to step 5 for the remaining packages. |
| Step 7 | If you are running a dual RP system (hardware redundant system), perform the following step, else skip to step 9. |
| Step 8 |
Copy the expanded packages and the packages.conf file from the USB drive to the standby bootflash: Example: copy usb0:asr1000rp1-sipspawmak9.03.09.01.S.153-2.S1.pkg stby-bootflash: copy usb0:packages.conf stby-bootflash: copy usb0:asr1000rp2-ipbase.03.08.02.S.153-1.S2.bin stby-bootflash: Repeat this step for the remaining packages. |
| Step 9 |
Enter the configuration mode: Example: configure terminal |
| Step 10 |
Remove the old boot package from the bootflash: Example: Router(config)# no boot system Router(config)# config-register 0x2102 Router(config)# boot system flash bootflash:packages.conf Router(config)# exit Router# write memory Router# reload |
| Step 11 | Log in to the Cisco ASR 1000 Series Aggregation Services Router. |
| Step 12 |
Verify if the new packages are running after the Cisco ASR 1000 Series Aggregation Services Router reboots: Example: show version running |
| Step 13 | Check whether the ROMMON version in the WebEx SPA is up-to-date by using the show platform command. If it is not, use the upgrade rommon all command to update the ROMMON. |
| Step 14 |
Deploy the WebEx SPA package: Example: request platform software package install rp <rp-slot-number> file bootflash:asr1000rp1-sipspawmak9.03.09.01.S.153-2.S1.pkg Here, rp-slot-number is active-rp-slot-number. For a dual RP system, perform this additional step: Example: request platform software package install rp <stby-rp-slot-number> file stby-bootflash: asr1000rp1-sipspawmak9.03.09.01.S.153-2.S1.pkg |
| Step 15 |
Verify that the SPA is active: Example: show platform |
| Step 16 | Go to https://wma.webex.com and log in. |
| Step 17 | Choose Administration > Node Management. |
| Step 18 | Select all the individual node names. |
| Step 19 | Copy the wma-passcode string to all the nodes, for example, mtg_webex-web d2bc97983456676fbb7ea5cfcc2c3a57. |
| Step 20 |
Enter the configuration mode: Example: configure terminal |
| Step 21 |
Enter the individual SPA interfaces, and re-enter the wma-passcodes: Example: interface service-Engine 0/0/0 ip address <ip addr> <subnet mask> shutdown service-engine ip address <ip addr> <subnet mask> service-engine default-gateway <ip addr> service-engine nameserver <primary DNS nameserver> <secondary DNS nameserver> service-engine hostname <spa name> <domainname> service-engine wma-url <webex url for wma spa config> no shutdown show hw-module subslot <subslot> service-engine status Repeat Step 19 for all the interfaces. |
| Step 22 |
Write the configuration to memory: Example: write memory |
| Step 23 | Verify that the running configuration is pointing to the correct node determined in Step 9: Example: show running-configuration |
| Step 24 | Make sure that you are on the same network as the Cisco ASR 1000 Series Aggregation Services Router or VPN, and then start a WebEx meeting. |
| Step 25 |
Verify that network traffic is traversing the WebEx SPA card on the Cisco ASR 1000 Series Aggregation Services Router by running the following commands: Example: show platform hardware qfp act interface if-name service-engine0/0/0 statistics show platform hardware qfp act interface if name service-engine0/1/0 statistics |
| Step 26 | Access the SIP console by using the request platform software console attach slot/subslot command. |
Configuring the WebEx Node from the Bootflash
Perform the following steps to configure the WebEx Node from the bootflash in Cisco IOS XE Release 3.8.2.
1. Download the Cisco ASR 1000 Series Aggregation Services Routers software from: http://software.cisco.com/download/navigator.html?mdfid=281716314&flowid=1362
2. Copy the consolidated package to the bootflash:
3. Copy the sipspawmak9 package to the bootflash:
4. Expand the consolidated package into the bootflash:
5. If you are running a dual RP system (hardware redundant system), perform the following step, else skip to step 7.
6. Copy the consolidated image to the standby bootflash:
7. Expand the consolidated package into the standby bootflash:
8. Enter the configuration mode:
9. Remove the old boot package from the bootflash:
10. Log in to the Cisco ASR 1000 Series Aggregation Services Router.
11. Verify that the new packages are running after the Cisco ASR 1000 Series Aggregation Services Router reboots:
12. Check whether the ROMMON version in WebEx SPA is up-to-date by using the show platform command. If it is not, use the upgrade rommon all command to update the ROMMON version.
13. Deploy the WebEx SPA package:
14. Verify that the SPA is active:
15. Go to https://wma.webex.com and log in.
16. Choose Administration > Node management
17. Select all the individual node names.
18. Copy the wma-passcode string to all the nodes, for example, mtg_webex-web d2bc97983456676fbb7ea5cfcc2c3a57
19. Enter the configuration mode:
20. Enter the individual SPA interfaces, and re-enter the wma-passcodes:
21. Write configuration to memory:
22. Verify that the running configuration is pointing to the correct node determined in Step 8:
23. Make sure that you are on the same network as the Cisco ASR 1000 Series Aggregation Services Router or VPN, and start a WebEx meeting.
24. Verify that network traffic is traversing the WebEx SPA card on the Cisco ASR 1000 Series Aggregation Services Router by running the following commands:
25. Access the SIP console by using request platform software console attach slot/subslot command.
DETAILED STEPS
| Step 1 | Download the Cisco ASR 1000 Series Aggregation Services Routers software from: http://software.cisco.com/download/navigator.html?mdfid=281716314&flowid=1362
The consolidated package is asr1000rp1-adventerprisek9.03.08.02.S.153-1.S2.bin The WebEx Node package is asr1000rp2-sipspawmak9.03.08.02.S.153-1.S2.pkg |
| Step 2 |
Copy the consolidated package to the bootflash: Example:
copy tftp: bootflash:
Address or name of remote host {1.1.1.1}
Source filename [asr1000rp1-adventerprisek9.03.08.02.S.153-1.S2.bin]
Destination filename [asr1000rp1-adventerprisek9.03.08.02.S.153-1.S2.bin]
|
| Step 3 |
Copy the sipspawmak9 package to the bootflash: Example:
copy tftp: bootflash:
Address or name of remote host {1.1.1.1}
Source filename [asr1000rp2-sipspawmak9.03.08.02.S.153-1.S2.pkg]
Destination filename [asr1000rp2-sipspawmak9.03.08.02.S.153-1.S2.pkg]
|
| Step 4 |
Expand the consolidated package into the bootflash: Example: request platform software package expand file bootflash:asr1000rp1-adventerprisek9.03.08.02.S.153-1.S2.bin |
| Step 5 | If you are running a dual RP system (hardware redundant system), perform the following step, else skip to step 7. |
| Step 6 |
Copy the consolidated image to the standby bootflash: Example: copy bootflash:asr1000rp1-adventerprisek9.03.08.02.S.153-1.S2.bin stby-bootflash: copy bootflash:asr1000rp2-sipspawmak9.03.08.02.S.153-1.S2.pkg stby-bootflash: |
| Step 7 |
Expand the consolidated package into the standby bootflash: Example: Request platform software package expand file stby-bootflash:asr1000rp1-adventerprisek9.03.08.02.S.153-1.S2.bin to stby-bootflash: |
| Step 8 |
Enter the configuration mode: Example: configure terminal |
| Step 9 |
Remove the old boot package from the bootflash: Example: Router(config)# no boot system Router(config)# config-register 0x2102 Router(config)# boot system flash bootflash:packages.conf Router(config)# exit Router# write memory Router# reload |
| Step 10 | Log in to the Cisco ASR 1000 Series Aggregation Services Router. |
| Step 11 |
Verify that the new packages are running after the Cisco ASR 1000 Series Aggregation Services Router reboots: Example: show version running |
| Step 12 | Check whether the ROMMON version in WebEx SPA is up-to-date by using the show platform command. If it is not, use the upgrade rommon all command to update the ROMMON version. |
| Step 13 |
Deploy the WebEx SPA package: Example: request platform software package install rp rp-slot-number file bootflash:asr1000rp2-sipspawmak9.03.08.02.S.153-1.S2.pkg Here, rp-slot-number is active-rp-slot-number. For a dual RP system, perform this additional step: Example: request platform software package install rp stby-rp-slot-number file stby-bootflash: asr1000rp2-sipspawmak9.03.08.02.S.153-1.S2.pkg |
| Step 14 |
Verify that the SPA is active: Example: show platform |
| Step 15 | Go to https://wma.webex.com and log in. |
| Step 16 | Choose Administration > Node management |
| Step 17 | Select all the individual node names. |
| Step 18 | Copy the wma-passcode string to all the nodes, for example, mtg_webex-web d2bc97983456676fbb7ea5cfcc2c3a57 |
| Step 19 |
Enter the configuration mode: Example: configure terminal |
| Step 20 |
Enter the individual SPA interfaces, and re-enter the wma-passcodes: Example: interface service-Engine 0/0/0 ip address <ip addr> <subnet mask> shutdown service-engine ip address <ip addr> <subnet mask> service-engine default-gateway <ip addr> servicepengine wma-passcode <wma-token> service-engine nameserver <primary DNS nameserver> <secondary DNS nameserver> service-engine hostname <spa name> <domainname> service-engine wma-url <webex url for wma spa config> no shutdown show hw-module subslot <subslot> service-engine status Repeat Step 19 for all the interfaces. |
| Step 21 |
Write configuration to memory: Example: write memory |
| Step 22 | Verify that the running configuration is pointing to the correct node determined in Step 8: Example: show running-configuration |
| Step 23 | Make sure that you are on the same network as the Cisco ASR 1000 Series Aggregation Services Router or VPN, and start a WebEx meeting. |
| Step 24 |
Verify that network traffic is traversing the WebEx SPA card on the Cisco ASR 1000 Series Aggregation Services Router by running the following commands: Example: show platform hardware qfp act interface if-name service-engine0/0/0 statistics show platform hardware qfp act interface if name service-engine0/1/0 statistics |
| Step 25 | Access the SIP console by using request platform software console attach slot/subslot command. |
Configuring the WebEx Node from the Bootflash
Perform the following steps to configure the WebEx Node from the bootflash in Cisco IOS XE Release 3.9.1.
1. Download the software of the Cisco ASR 1000 Series Aggregation Services Routers from: http://software.cisco.com/download/navigator.html?mdfid=281716314&flowid=1362
2. Copy the consolidated package to the bootflash:
3. Copy the sipspawmak9 package to the bootflash:
4. Expand the consolidated package into the bootflash:
5. If you are running a dual RP system (hardware redundant system), perform the following step, else skip to step 7.
6. Copy the consolidated image to the standby bootflash:
7. Expand the consolidated package into the standby bootflash:
8. Enter the configuration mode:
9. Remove the old boot package from the bootflash:
10. Log in to the Cisco ASR 1000 Series Aggregation Services Router.
11. Verify that the new packages are running after the Cisco ASR 1000 Series Aggregation Services Router reboots:
12. Check whether the ROMMON version in WebEx SPA is up-to-date by using the show platform command. If it is not, use the upgrade rommon all command to update the ROMMON version.
13. Deploy the WebEx SPA package:
14. Verify that the SPA is active:
15. Go to https://wma.webex.com and log in.
16. Choose Administration > Node management.
17. Select all the individual node names.
18. Copy the wma-passcode string to all the nodes, for example, mtg_webex-web d2bc97983456676fbb7ea5cfcc2c3a57
19. Enter the configuration mode:
20. Enter the individual SPA interfaces, and re-enter the wma-passcodes:
21. Write configuration to memory:
22. Verify that the running configuration is pointing to the correct node determined in Step 8:
23. Make sure that you are on the same network as the Cisco ASR 1000 Series Aggregation Services Router or VPN, and start a WebEx meeting.
24. Verify that network traffic is traversing the WebEx SPA card on the Cisco ASR 1000 Series Aggregation Services Router by running the following commands:
25. Access the SIP console by using the request platform software console attach slot/subslot command.
DETAILED STEPS
| Step 1 | Download the software of the Cisco ASR 1000 Series Aggregation Services Routers from: http://software.cisco.com/download/navigator.html?mdfid=281716314&flowid=1362
The consolidated package is asr1000rp1-adventerprisek9.03.09.01.S.153-2.S1.bin The WebEx node package is asr1000rp1-sipspawmak9.03.09.01.S.153-2.S1.pkg |
| Step 2 |
Copy the consolidated package to the bootflash: Example:
copy tftp: bootflash:
Address or name of remote host {1.1.1.1}
Source filename [asr1000rp1-adventerprisek9.03.09.01.S.153-2.S1.bin]
Destination filename [asr1000rp1-adventerprisek9.03.09.01.S.153-2.S1.bin]
|
| Step 3 |
Copy the sipspawmak9 package to the bootflash: Example:
copy tftp: bootflash:
Address or name of remote host {1.1.1.1}
Source filename [asr1000rp1-sipspawmak9.03.09.01.S.153-2.S1.pkg]
Destination filename [asr1000rp1-sipspawmak9.03.09.01.S.153-2.S1.pkg]
|
| Step 4 |
Expand the consolidated package into the bootflash: Example: request platform software package expand file bootflash:asr1000rp1-adventerprisek9.03.09.01.S.153-2.S1.bin |
| Step 5 | If you are running a dual RP system (hardware redundant system), perform the following step, else skip to step 7. |
| Step 6 |
Copy the consolidated image to the standby bootflash: Example: copy bootflash:asr1000rp1-adventerprisek9.03.09.01.S.153-2.S1.bin stby-bootflash: copy bootflash:asr1000rp1-sipspawmak9.03.09.01.S.153-2.S1.pkg stby-bootflash: |
| Step 7 |
Expand the consolidated package into the standby bootflash: Example: request platform software package expand file stby-bootflash:asr1000rp1-adventerprisek9.03.09.01.S.153-2.S1.bin to stby-bootflash: |
| Step 8 |
Enter the configuration mode: Example: configure terminal |
| Step 9 |
Remove the old boot package from the bootflash: Example: Router(config)# no boot system Router(config)# config-register 0x2102 Router(config)# boot system flash bootflash:packages.conf Router(config)# exit Router# write memory Router# reload |
| Step 10 | Log in to the Cisco ASR 1000 Series Aggregation Services Router. |
| Step 11 |
Verify that the new packages are running after the Cisco ASR 1000 Series Aggregation Services Router reboots: Example: show version running |
| Step 12 | Check whether the ROMMON version in WebEx SPA is up-to-date by using the show platform command. If it is not, use the upgrade rommon all command to update the ROMMON version. |
| Step 13 |
Deploy the WebEx SPA package: Example: request platform software package install rp rp-slot-number file bootflash:asr1000rp1-sipspawmak9.03.09.01.S.153-2.S1.pkg Here, rp-slot-number is active-rp-slot-number. For a dual RP system, perform this additional step: Example: request platform software package install rp stby-rp-slot-number file stby-bootflash: asr1000rp1-sipspawmak9.03.09.01.S.153-2.S1.pkg |
| Step 14 |
Verify that the SPA is active: Example: show platform |
| Step 15 | Go to https://wma.webex.com and log in. |
| Step 16 | Choose Administration > Node management. |
| Step 17 | Select all the individual node names. |
| Step 18 | Copy the wma-passcode string to all the nodes, for example, mtg_webex-web d2bc97983456676fbb7ea5cfcc2c3a57 |
| Step 19 |
Enter the configuration mode: Example: configure terminal |
| Step 20 |
Enter the individual SPA interfaces, and re-enter the wma-passcodes: Example: interface service-Engine 0/0/0 ip address <ip addr> <subnet mask> shutdown service-engine ip address <ip addr> <subnet mask> service-engine default-gateway <ip addr> service-engine wma-passcode <wma-token> service-engine nameserver <primary DNS nameserver> <secondary DNS nameserver> service-engine hostname <spa name> <domainname> service-engine wma-url <webex url for wma spa config> no shutdown show hw-module subslot <subslot> service-engine status Repeat Step 19 for all the interfaces. |
| Step 21 |
Write configuration to memory: Example: write memory |
| Step 22 | Verify that the running configuration is pointing to the correct node determined in Step 8: Example: show running-configuration |
| Step 23 | Make sure that you are on the same network as the Cisco ASR 1000 Series Aggregation Services Router or VPN, and start a WebEx meeting. |
| Step 24 |
Verify that network traffic is traversing the WebEx SPA card on the Cisco ASR 1000 Series Aggregation Services Router by running the following commands: Example: show platform hardware qfp act interface if-name service-engine0/0/0 statistics show platform hardware qfp act interface if name service-engine0/1/0 statistics |
| Step 25 | Access the SIP console by using the request platform software console attach slot/subslot command. |
Configuration Examples
This section includes an example for configuring a Cisco WebEx Node SPA installed in a Cisco ASR 1000 Series Router:
Router# config t Router(config)# ip nat inside source static 10.200.72.18 192.0.2.1 Router(config)# interface service-engine 1/0/0 Router(config-if)# ip address 10.200.72.17 255.255.255.252 Router(config-if)# service-engine ip address 10.200.72.18 255.255.255.252 Router(config-if)# service-engine default-gateway 10.200.72.17 Router(config-if)# service-engine nameserver 10.100.4.10 10.100.4.20 Router(config-if)# service-engine hostname spawma1 cisco.com Router(config-if)# service-engine wma-url https://wmabts.webex.com/wmams Router(config-if)# service-engine wma-passcode spawma1 2b51221d2c08f405913bbee1eb9f6ec6 Router(config-if)# service-engine wma-token 45484b3e-8ea5-41e5-b050-49409006d14e Router(config-if)# no shutdown
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