Cisco Systems Modem UBR904 User Manual

Troubleshooting Tips for the  
Cisco uBR904 Cable Modem  
The following sections are provided:  
Feature Summary  
This document provides MSOs (multiple service operators) with a set of software tools for  
troubleshooting a cable modem for data-over-cable connections. These tools are Cisco IOS  
troubleshooting commands used for verifying communication between the cable modem and other  
peripheral devices installed in the HFC network, such as the headend Cisco uBR7246, a DHCP  
server, and TFTP server.  
Benefits  
Troubleshooting Tips for the Cisco uBR904 Cable Modem 1  
 
List of Terms  
Prerequisites  
Cisco IOS Release 11.3(4)NA or later must be running inside the cable modem. Enter the show  
version EXEC command to display the software version level.  
Supported MIBs and RFCs  
The Cisco uBR904 cable modem supports the following:  
Radio Frequency Interface Specification—This specification is developed by the Multimedia  
Cable Network System (MCNS) corsortium. It defines the radio-frequency interface  
specification for high-speed data-over-cable systems.  
Cisco Standard MIBs—The Cisco Standard MIBs consist of CiscoWorks. CiscoWorks is the  
network management program for planning, troubleshooting, and monitoring Cisco  
internetworks. CiscoWorks uses SNMP protocols to monitor all SNMP devices.  
For more information about CiscoWorks on CCO, follow this path:  
Products & Ordering: Cisco Products: Network Management: CiscoWorks  
For more information about CiscoWorks on the Documentation CD-ROM, follow this path:  
Cisco Product Documentation: Network Management: CiscoWorks  
RF Interface MIB—The Radio Frequency Interface (RFI) MIB is specific to cable Data Over  
Cable Interface Specification (DOCSIS) implementations. The RIF MIB provides an interface  
that permits management of the Cisco uBR904 cable modem over the cable or Ethernet interface.  
Using SNMP management applications, this MIB allows access to statistics such as MAC, driver  
configuration, and counters through its interface.  
Cable Device MIB—The Cable Device MIB records statistics related to the configuration and  
status of the Cisco uBR904 cable modem. Statistics include an events log and device status. The  
Cable Device MIB is very similar to the RFI MIB in that both allow access to statistics; they are  
different in that the Cable Device MIB reports statistics on the Cisco uBR904 cable modem,  
while the RFI MIB reports statistics on the radio frequency transmissions over the cable  
television line.  
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CMTS to Cable Modem Network Topology  
CMTS to Cable Modem Network Topology  
Figure 1 shows the physical relationship between the devices in the HFC network and the cable  
modem.  
Figure 1  
Sample Topology  
ISP  
WAN  
IP-related  
ATM, FDDI, 100BT...  
100BT  
100BT  
100BT  
ISP @ home...  
Proxy server  
Cisco  
uBR7246  
CMTS  
100BT  
MSD: Maintenance Service  
Organization, Cable companies  
Upconvertor  
Analog TV  
DS-RF 54-860 Mhz  
Digital TV  
Fiber  
Transceiver  
80 km  
1000 ft  
Fiber node  
(Telephone pole,  
underground box)  
Drop box  
Distribution  
amplifier  
Top  
amplifier  
Cisco u BR904  
cable modem  
Release 11.3(4)NA  
4
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Understand How Basic Initialization Works  
Troubleshooting Tips  
Perform the following steps to troubleshoot a cable modem:  
Understand How Basic Initialization Works  
Before you troubleshoot a cable modem, you should be familiar with the cable modem initialization  
process. See Figure 2 and Table 1. Understanding this flowchart and sequence of events helps you  
determine where and why connections fail.  
The sequence numbers shown in Figure 2 are explained in Table 1, which appears after the  
illustration. The cable modem will complete all the steps in this flowchart each time the cable  
modem needs to reestablish ranging and registration with the CMTS.  
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Troubleshooting Tips  
Figure 2  
Cable Modem Initialization Flowchart  
Power  
on  
Scan for  
downstream  
channel  
Establish  
security  
1
2
6
7
Downstream  
sync  
established  
Security  
established  
Obtain  
upstream  
parameters  
Transfer  
operational  
parameters  
Upstream  
parameter  
acquired  
Transfer  
complete  
Register with  
the Cisco  
uBR7246  
Start  
Ranging  
3
4
5
8
9
Ranging and  
auto adjust  
completed  
Registration  
complete  
Establish  
IP  
connectivety  
Baseline  
privacy  
initialization  
Baseline  
privacy  
initialized  
IP  
complete  
Establish  
time of  
day  
Operational  
10  
Time of day  
established  
Release 11.3(4)NA  
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Connect to the Cable Modem  
.
Table 1  
Cable Modem Initialization Sequences and Events  
Sequence  
1
Event  
Description  
Scan for a downstream channel and  
establish synchronization with the  
headend Cisco uBR7246.  
The cable modem acquires a downstream channel from the  
headend, saves the last operational frequency in non-volatile  
memory, and tries to reacquire the saved downstream  
channel the next time a request is made.  
An ideal downstream signal is one that synchronizes QAM  
symbol timing, FEC framing, MPEG packetization, and  
recognizes downstream sync MAC layer messages.  
2
Obtain upsteam channel parameters.  
The cable modem waits for an upstream channel descriptor  
messages (UCD) from the headend Cisco uBR7246. This is  
done to retrieve transmission parameters for the upstream  
channel.  
3
4
Start ranging for power adjustments.  
Establish IP connectivity.  
The ranging process adjusts cable modem’s transmit power.  
The cable modem performs ranging in stages, ranging state  
1 and ranging state 2.  
The cable modem invokes DHCP requests to obtain an IP  
address, which is needed for IP connectivity. The DHCP  
request also includes the name of a file that contains  
additional configuration parameters, the TFTP server’s  
address, and the Time of Day (TOD) server’s address.  
5
Establish the time of day.  
The Cisco uBR904 cable modem accesses the TOD server  
for the current date and time, which is used to create time  
stamps for logged events (such as those displayed in the  
MAC log file).  
6
7
Establish security.  
Keys for privacy are exchanged between the cable modem  
and the CMTS (the Cisco uBR7246 cable router).  
Transfer operational parameters.  
After the DHCP and security operations are successful, the  
cable modem downloads operational parameters from a  
configuration file stored on a cable company’s TFTP server.  
8
Perform registration.  
The cable modem registers with the headend  
Cisco uBR7246. The cable modem is authorized to forward  
traffic into the cable network after the cable modem is  
initialized, authenticated, and configured.  
Note The Cisco uBR904 cable modem supports baseline  
privacy in Cisco IOS Release 11.3(5)NA and later.  
9
Comply with baseline privacy.  
Link level encryption keys are exchanged between the  
headend and the cable modem.  
10  
Enter the operational maintenance  
state.  
As soon as the cable modem is completely up and running,  
it enters operational maintenance state.  
Connect to the Cable Modem  
Telnet to the IP address assigned to the cable interface or Ethernet interface. If the interface is not  
up, you need to access the Cisco IOS software via the RJ-45 console port, which is a physical port  
on the back of the cable modem.  
Because the MAC log file only holds a snapshot of 1023 entries at a time, you should try to display  
the cable modem’s log file within 5 minutes of when the reset or problem occurs.  
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Troubleshooting Tips  
Display the Cable Modem’s MAC Log File  
A MAC layer circular log file is inside the cable modem. This file contains a history of log messages,  
such as state event activities and timestamps, which are used for troubleshooting purposes. This log  
file contains the most valuable information for a cable technician or engineer to debug the cable  
interface.  
The MAC log file is displayed by entering the show controller cable-modem 0 mac log EXEC  
command.  
The most useful display fields in this log file are the reported state changes. These fields are preceded  
by the message CMAC_LOG_STATE_CHANGE. These fields show how the cable modem progresses  
through the various processes involved in establishing communication with the CMTS and  
registration. The maintenance_stateis the normal operational state, and the  
wait_for_link_up_stateis the normal state when the interface is shutdown.  
Here is the normal progression of states as displayed by the MAC log:  
wait_for_link_up_state  
ds_channel_scanning_state  
wait_ucd_state  
wait_map_state  
ranging_1_state  
ranging_2_state  
dhcp_state  
establish_tod_state  
security_association_state  
configuration_file_state  
registration_state  
establish_privacy_state  
maintenance_state  
Note To translate this output into more meaningful information, see the “Interpret the MAC Log  
Here is what an example MAC log file looks like when the cable modem interface successfully  
comes up and registers with the cable network. The output you see is directly related to the messages  
that are exchanged between the cable modem and the CMTS (the Cisco uBR7246).  
uBR904# show controller cable-modem 0 mac log  
508144.340 CMAC_LOG_DRIVER_INIT_IDB_RESET  
508144.342 CMAC_LOG_LINK_DOWN  
0x08098FEA  
508144.344 CMAC_LOG_LINK_UP  
508144.348 CMAC_LOG_STATE_CHANGE  
ds_channel_scanning_state  
88/453000000/855000000/6000000  
89/93000000/105000000/6000000  
90/111250000/117250000/6000000  
91/231012500/327012500/6000000  
92/333015000/333015000/6000000  
93/339012500/399012500/6000000  
94/405000000/447000000/6000000  
95/123015000/129015000/6000000  
96/135012500/135012500/6000000  
97/141000000/171000000/6000000  
98/219000000/225000000/6000000  
99/177000000/213000000/6000000  
699000000  
508144.350 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.354 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.356 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.360 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.362 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.366 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.370 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.372 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.376 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.380 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.382 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.386 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.390 CMAC_LOG_WILL_SEARCH_SAVED_DS_FREQUENCY  
508145.540 CMAC_LOG_UCD_MSG_RCVD  
3
508146.120 CMAC_LOG_DS_64QAM_LOCK_ACQUIRED  
699000000  
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Display the Cable Modem’s MAC Log File  
508146.122 CMAC_LOG_DS_CHANNEL_SCAN_COMPLETED  
508146.124 CMAC_LOG_STATE_CHANGE  
wait_ucd_state  
508147.554 CMAC_LOG_UCD_MSG_RCVD  
3
508147.558 CMAC_LOG_UCD_NEW_US_FREQUENCY  
508147.558 CMAC_LOG_SLOT_SIZE_CHANGED  
508147.622 CMAC_LOG_FOUND_US_CHANNEL  
508147.624 CMAC_LOG_STATE_CHANGE  
20000000  
8
1
wait_map_state  
508148.058 CMAC_LOG_MAP_MSG_RCVD  
508148.060 CMAC_LOG_INITIAL_RANGING_MINISLOTS  
508148.062 CMAC_LOG_STATE_CHANGE  
40  
ranging_1_state  
9610  
28.0 dBmV (commanded)  
508148.064 CMAC_LOG_RANGING_OFFSET_SET_TO  
508148.066 CMAC_LOG_POWER_LEVEL_IS  
508148.068 CMAC_LOG_STARTING_RANGING  
508148.070 CMAC_LOG_RANGING_BACKOFF_SET  
508148.072 CMAC_LOG_RNG_REQ_QUEUED  
508148.562 CMAC_LOG_RNG_REQ_TRANSMITTED  
508148.566 CMAC_LOG_RNG_RSP_MSG_RCVD  
508148.568 CMAC_LOG_RNG_RSP_SID_ASSIGNED  
508148.570 CMAC_LOG_ADJUST_RANGING_OFFSET  
508148.572 CMAC_LOG_RANGING_OFFSET_SET_TO  
508148.574 CMAC_LOG_ADJUST_TX_POWER  
508148.576 CMAC_LOG_POWER_LEVEL_IS  
508148.578 CMAC_LOG_STATE_CHANGE  
508148.580 CMAC_LOG_RNG_REQ_QUEUED  
508155.820 CMAC_LOG_RNG_REQ_TRANSMITTED  
508155.824 CMAC_LOG_RNG_RSP_MSG_RCVD  
508155.826 CMAC_LOG_ADJUST_RANGING_OFFSET  
508155.826 CMAC_LOG_RANGING_OFFSET_SET_TO  
508155.828 CMAC_LOG_RANGING_CONTINUE  
508165.892 CMAC_LOG_RNG_REQ_TRANSMITTED  
508165.894 CMAC_LOG_RNG_RSP_MSG_RCVD  
508165.896 CMAC_LOG_ADJUST_TX_POWER  
508165.898 CMAC_LOG_POWER_LEVEL_IS  
508165.900 CMAC_LOG_RANGING_CONTINUE  
508175.962 CMAC_LOG_RNG_REQ_TRANSMITTED  
508175.964 CMAC_LOG_RNG_RSP_MSG_RCVD  
508175.966 CMAC_LOG_RANGING_SUCCESS  
508175.968 CMAC_LOG_STATE_CHANGE  
0
0
2
2408  
12018  
20  
33.0 dBmV (commanded)  
ranging_2_state  
2
-64  
11954  
-9  
31.0 dBmV (commanded)  
dhcp_state  
188.188.1.62  
4.0.0.1  
508176.982 CMAC_LOG_DHCP_ASSIGNED_IP_ADDRESS  
508176.984 CMAC_LOG_DHCP_TFTP_SERVER_ADDRESS  
508176.986 CMAC_LOG_DHCP_TOD_SERVER_ADDRESS  
508176.988 CMAC_LOG_DHCP_SET_GATEWAY_ADDRESS  
508176.988 CMAC_LOG_DHCP_TZ_OFFSET  
508176.990 CMAC_LOG_DHCP_CONFIG_FILE_NAME  
4.0.0.32  
360  
platinum.cm  
508176.992 CMAC_LOG_DHCP_ERROR_ACQUIRING_SEC_SVR_ADDR  
508176.996 CMAC_LOG_DHCP_COMPLETE  
508177.120 CMAC_LOG_STATE_CHANGE  
508177.126 CMAC_LOG_TOD_REQUEST_SENT  
508177.154 CMAC_LOG_TOD_REPLY_RECEIVED  
508177.158 CMAC_LOG_TOD_COMPLETE  
establish_tod_state  
3107617539  
508177.160 CMAC_LOG_STATE_CHANGE  
security_association_state  
508177.162 CMAC_LOG_SECURITY_BYPASSED  
508177.164 CMAC_LOG_STATE_CHANGE  
508177.166 CMAC_LOG_LOADING_CONFIG_FILE  
508178.280 CMAC_LOG_CONFIG_FILE_PROCESS_COMPLETE  
508178.300 CMAC_LOG_STATE_CHANGE  
configuration_file_state  
platinum.cm  
registration_state  
508178.302 CMAC_LOG_REG_REQ_MSG_QUEUED  
508178.306 CMAC_LOG_REG_REQ_TRANSMITTED  
508178.310 CMAC_LOG_REG_RSP_MSG_RCVD  
508178.312 CMAC_LOG_COS_ASSIGNED_SID  
508178.314 CMAC_LOG_RNG_REQ_QUEUED  
508178.316 CMAC_LOG_REGISTRATION_OK  
508178.318 CMAC_LOG_STATE_CHANGE  
1/2  
2
establish_privacy_state  
maintenance_state  
508178.320 CMAC_LOG_NO_PRIVACY  
508178.322 CMAC_LOG_STATE_CHANGE  
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Troubleshooting Tips  
You can display other aspects of the MAC layer by using variations of the show controller  
cable-modem 0 mac command:  
uBR904# show controller cable-modem 0 mac ?  
errors  
Mac Error Log data  
hardware All CM Mac Hardware registers  
log  
Mac log data  
resets  
state  
Resets of the MAC  
Current MAC state  
For examples and descriptions on how to use these keywords, see the show controller cable-modem  
mac command reference page.  
Interpret the MAC Log File and Take Action  
The MAC log file explains a detailed history of initialization events that occurred in the cable  
modem. All pertinent troubleshooting information is stored here.  
The following sample log file is organized by chronological sequence event. Sample comments are  
also included.  
Event 1—Wait for the Link to Come Up  
The MAC layer informs the cable modem’s drivers that it needs to reset. This is the first event that  
happens after the modem powers up and begins initialization. The fields LINK_DOWNand LINK_UPare  
similar to a shut and no shut on a standard Cisco interface.  
uBR904# show controller cable-modem 0 mac log  
528302.040 CMAC_LOG_LINK_DOWN  
528302.042 CMAC_LOG_RESET_FROM_DRIVER  
528302.044 CMAC_LOG_STATE_CHANGE  
528302.046 CMAC_LOG_DRIVER_INIT_IDB_SHUTDOWN  
528302.048 CMAC_LOG_LINK_DOWN  
wait_for_link_up_state  
0x08098D02  
528308.428 CMAC_LOG_DRIVER_INIT_IDB_RESET  
528308.432 CMAC_LOG_LINK_DOWN  
0x08098E5E  
528308.434 CMAC_LOG_LINK_UP  
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Interpret the MAC Log File and Take Action  
Event 2Scan for a Downstream Channel then Synchronize  
Different geographical regions and different cable plants use different frequency bands. The  
Cisco uBR904 cable modem uses a built-in default frequency scanning feature to address this issue.  
After the cable modem finds a successful downstream frequency channel, it saves the channel to  
NVRAM. The cable modem recalls this value the next time it needs to synchronize its frequency.  
The field CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BANDtells you what frequency the cable modem  
will scan for. The field CMAC_LOG_WILL_SEARCH_SAVED_DS_FREQUENCYtells you the frequency the  
cable modem locked onto and saved to NVRAM (for future recall). The field  
CMAC_LOG_DS_64QAM_LOCK_ACQUIREDcommunicates the same information. The field  
CMAC_LOG_DS_CHANNEL_SCAN_COMPLETEDindicates that the scanning and synchronization was  
successful.  
508144.348 CMAC_LOG_STATE_CHANGE  
ds_channel_scanning_state  
88/453000000/855000000/6000000  
89/93000000/105000000/6000000  
90/111250000/117250000/6000000  
91/231012500/327012500/6000000  
92/333015000/333015000/6000000  
93/339012500/399012500/6000000  
94/405000000/447000000/6000000  
95/123015000/129015000/6000000  
96/135012500/135012500/6000000  
97/141000000/171000000/6000000  
98/219000000/225000000/6000000  
99/177000000/213000000/6000000  
699000000  
508144.350 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.354 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.356 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.360 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.362 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.366 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.370 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.372 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.376 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.380 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.382 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.386 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
508144.390 CMAC_LOG_WILL_SEARCH_SAVED_DS_FREQUENCY  
508145.540 CMAC_LOG_UCD_MSG_RCVD  
3
508146.120 CMAC_LOG_DS_64QAM_LOCK_ACQUIRED  
699000000  
508146.122 CMAC_LOG_DS_CHANNEL_SCAN_COMPLETED  
A frequency band is a group of adjacent channels. These bands are numbered from 88 to 99. Each  
band has starting and ending digital carrier frequencies and a 6 MHz step size. For example, a search  
of EIA channels 95-97 is specified using band 89. The starting frequency is 93 Mhz, the ending  
frequency is 105 Mhz.  
The cable modem’s default frequency bands correspond to the North American EIA CATV channel  
plan for 6 MHz channel slots between 90 MHz and 858 MHz. For example, EIA channel 95 occupies  
the slot 90-96 MHz. The digital carrier frequency is specified as the center frequency of 93 MHz.  
Channel 95 is usually specified using the analog video carrier frequency of 91.25 Mhz, which lies  
1.75 Mhz below the center of the slot.  
The search table is arranged so that the first frequencies tried are above 450 Mhz. Because many  
CATV systems have been upgraded from 450 MHz to 750 MHz coaxial cable, digital channels have  
a high chance of being assigned in the new spectrum. The search table omits channels below 90 MHz  
and above 860 MHz since the DOCSIS specification does not mandate their coverage.  
Some CATV systems use alternative frequency plans such as the IRC (Incrementally Related  
Carrier) and HRC (Harmonically Related Carrier) plans. Most of the IRC channel slots overlap the  
EIA plan. The HRC plan is not supported by Cisco’s cable modems since so few cable plants are  
using this plan.  
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Troubleshooting Tips  
Event 3—Obtain Upstream Parameters  
The cable modem waits for an upstream channel descriptor messages (UCD) from the headend  
Cisco uBR7246. This is done to retrieve transmission parameters for the upstream channel.  
508146.124 CMAC_LOG_STATE_CHANGE  
wait_ucd_state  
508147.554 CMAC_LOG_UCD_MSG_RCVD  
3
508147.558 CMAC_LOG_UCD_NEW_US_FREQUENCY  
508147.558 CMAC_LOG_SLOT_SIZE_CHANGED  
508147.622 CMAC_LOG_FOUND_US_CHANNEL  
508147.624 CMAC_LOG_STATE_CHANGE  
20000000  
8
1
wait_map_state  
508148.058 CMAC_LOG_MAP_MSG_RCVD  
508148.060 CMAC_LOG_INITIAL_RANGING_MINISLOTS  
40  
Event 4—Start Ranging for Power Adjustments  
The ranging process adjusts cable modem’s transmit power. The cable modem performs ranging in  
two stages, ranging state 1 and ranging state 2.  
The field CMAC_LOG_POWER_LEVEL_ISis the power level that the Cisco uBR7246 told the cable  
modem to adjust to. The field CMAC_LOG_RANGING_SUCCESSindicates that the ranging adjustment was  
successful.  
508148.062 CMAC_LOG_STATE_CHANGE  
ranging_1_state  
9610  
28.0 dBmV (commanded)  
508148.064 CMAC_LOG_RANGING_OFFSET_SET_TO  
508148.066 CMAC_LOG_POWER_LEVEL_IS  
508148.068 CMAC_LOG_STARTING_RANGING  
508148.070 CMAC_LOG_RANGING_BACKOFF_SET  
508148.072 CMAC_LOG_RNG_REQ_QUEUED  
508148.562 CMAC_LOG_RNG_REQ_TRANSMITTED  
508148.566 CMAC_LOG_RNG_RSP_MSG_RCVD  
508148.568 CMAC_LOG_RNG_RSP_SID_ASSIGNED  
508148.570 CMAC_LOG_ADJUST_RANGING_OFFSET  
508148.572 CMAC_LOG_RANGING_OFFSET_SET_TO  
508148.574 CMAC_LOG_ADJUST_TX_POWER  
508148.576 CMAC_LOG_POWER_LEVEL_IS  
508148.578 CMAC_LOG_STATE_CHANGE  
508148.580 CMAC_LOG_RNG_REQ_QUEUED  
508155.820 CMAC_LOG_RNG_REQ_TRANSMITTED  
508155.824 CMAC_LOG_RNG_RSP_MSG_RCVD  
508155.826 CMAC_LOG_ADJUST_RANGING_OFFSET  
508155.826 CMAC_LOG_RANGING_OFFSET_SET_TO  
508155.828 CMAC_LOG_RANGING_CONTINUE  
508165.892 CMAC_LOG_RNG_REQ_TRANSMITTED  
508165.894 CMAC_LOG_RNG_RSP_MSG_RCVD  
508165.896 CMAC_LOG_ADJUST_TX_POWER  
508165.898 CMAC_LOG_POWER_LEVEL_IS  
508165.900 CMAC_LOG_RANGING_CONTINUE  
508175.962 CMAC_LOG_RNG_REQ_TRANSMITTED  
508175.964 CMAC_LOG_RNG_RSP_MSG_RCVD  
508175.966 CMAC_LOG_RANGING_SUCCESS  
0
0
2
2408  
12018  
20  
33.0 dBmV (commanded)  
ranging_2_state  
2
-64  
11954  
-9  
31.0 dBmV (commanded)  
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Interpret the MAC Log File and Take Action  
Event 5—Establish IP Connectivity  
After ranging is complete, the cable interface on the cable modem is up. Now the cable modem  
accesses a remote DHCP server to get an IP address. The DHCP request also includes the name of  
a file that contains additional configuration parameters, the TFTP server’s address, and the Time of  
Day (TOD) server’s address.  
The field CMAC_LOG_DHCP_ASSIGNED_IP_ADDRESSindicates the IP address assigned from the DHCP  
server to the cable modem interface. The field CMAC_LOG_DHCP_TFTP_SERVER_ADDRESSmarks the  
TFTP server’s address. The field CMAC_LOG_DHCP_TOD_SERVER_ADDRESS indicates the time of day  
server’s address. The field CMAC_LOG_DHCP_CONFIG_FILE_NAMEshows the filename containing the  
transmission parameters. The field CMAC_LOG_DHCP_COMPLETEshows that all the IP connectivity was  
a success.  
508175.968 CMAC_LOG_STATE_CHANGE  
dhcp_state  
188.188.1.62  
4.0.0.1  
508176.982 CMAC_LOG_DHCP_ASSIGNED_IP_ADDRESS  
508176.984 CMAC_LOG_DHCP_TFTP_SERVER_ADDRESS  
508176.986 CMAC_LOG_DHCP_TOD_SERVER_ADDRESS  
508176.988 CMAC_LOG_DHCP_SET_GATEWAY_ADDRESS  
508176.988 CMAC_LOG_DHCP_TZ_OFFSET  
4.0.0.32  
360  
508176.990 CMAC_LOG_DHCP_CONFIG_FILE_NAME  
508176.992 CMAC_LOG_DHCP_ERROR_ACQUIRING_SEC_SVR_ADDR  
508176.996 CMAC_LOG_DHCP_COMPLETE  
platinum.cm  
Event 6Establish the Time of Day  
The Cisco uBR904 cable modem accesses the Time of Day server for the current date and time,  
which is used to create time stamps for logged events. The field CMAC_LOG_TOD_COMPLETE indicates  
a successful time of day sequence.  
508177.120 CMAC_LOG_STATE_CHANGE  
508177.126 CMAC_LOG_TOD_REQUEST_SENT  
508177.154 CMAC_LOG_TOD_REPLY_RECEIVED  
508177.158 CMAC_LOG_TOD_COMPLETE  
establish_tod_state  
3107617539  
Event 7Establish Security  
The cable modem establishes a security association. The security_association_stateis normally  
bypassed since “full security” as defined by MCNS DOCSIS is not supported.  
“Full security” was a request made by MSOs for a very strong authorization and authentication  
check by the CMTS. This request was not granted by cable modem manufacturers. Cisco fully  
supports baseline privacy, which protects user’s data from getting “sniffed” on the cable network.  
508177.160 CMAC_LOG_STATE_CHANGE  
security_association_state  
508177.162 CMAC_LOG_SECURITY_BYPASSED  
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Troubleshooting Tips  
Event 8Transfer Operational Parameters  
After the DHCP and security operations are successful, the cable modem downloads operational  
parameters from a cable company’s TFTP server. These parameters are transferred via a  
configuration file. The field CMAC_LOG_DHCP_CONFIG_FILE_NAMEshows the filename containing the  
transmission parameters.  
508177.164 CMAC_LOG_STATE_CHANGE  
508177.166 CMAC_LOG_LOADING_CONFIG_FILE  
508178.280 CMAC_LOG_CONFIG_FILE_PROCESS_COMPLETE  
configuration_file_state  
platinum.cm  
Event 9Perform Registration  
The cable modem registers with the headend Cisco uBR7246. After the cable modem is initialized,  
authenticated, and configured, the cable modem is authorized to forward traffic into the cable  
network. A successful registration is indicated by the field CMAC_LOG_REGISTRATION_OK.  
508178.300 CMAC_LOG_STATE_CHANGE  
registration_state  
508178.302 CMAC_LOG_REG_REQ_MSG_QUEUED  
508178.306 CMAC_LOG_REG_REQ_TRANSMITTED  
508178.310 CMAC_LOG_REG_RSP_MSG_RCVD  
508178.312 CMAC_LOG_COS_ASSIGNED_SID  
508178.314 CMAC_LOG_RNG_REQ_QUEUED  
508178.316 CMAC_LOG_REGISTRATION_OK  
1/2  
2
Event 10Comply with Baseline Privacy  
Keys for baseline privacy are exchanged between the cable modem and the CMTS (the  
Cisco uBR7246 cable router). During this event, a link level encryption is performed so that a user’s  
data cannot be “sniffed” by anyone else who is on the cable network.  
Here is a trace that shows baseline privacy enabled. The key management protocol is responsible for  
exchanging 2 types of keys: KEKs and TEKs. The KEK (key exchange key, also referred to as the  
authorization key) is used by the headend CMTS to encrypt TEKs (traffic encryption keys) it sends  
to the cable modem. The TEKs are used to encrypt/decrypt the data. There is a TEK for each SID  
configured to use privacy.  
851.088 CMAC_LOG_STATE_CHANGE  
establish_privacy_state  
851.094 CMAC_LOG_PRIVACY_FSM_STATE_CHANGE  
machine: KEK, event/state:  
EVENT_1_PROVISIONED/STATE_A_START, new state: STATE_B_AUTH_WAIT  
851.102 CMAC_LOG_BPKM_REQ_TRANSMITTED  
851.116 CMAC_LOG_BPKM_RSP_MSG_RCVD  
851.120 CMAC_LOG_PRIVACY_FSM_STATE_CHANGE  
machine: KEK, event/state:  
EVENT_3_AUTH_REPLY/STATE_B_AUTH_WAIT, new state: STATE_C_AUTHORIZED  
856.208 CMAC_LOG_PRIVACY_FSM_STATE_CHANGE  
EVENT_2_AUTHORIZED/STATE_A_START, new state: STATE_B_OP_WAIT  
856.220 CMAC_LOG_BPKM_REQ_TRANSMITTED  
machine: TEK, event/state:  
856.224 CMAC_LOG_BPKM_RSP_MSG_RCVD  
856.230 CMAC_LOG_PRIVACY_FSM_STATE_CHANGE  
machine: TEK, event/state:  
EVENT_8_KEY_REPLY/STATE_B_OP_WAIT, new state: STATE_D_OPERATIONAL  
856.326 CMAC_LOG_PRIVACY_INSTALLED_KEY_FOR_SID  
856.330 CMAC_LOG_PRIVACY_ESTABLISHED  
2
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Use Additional Troubleshooting Commands  
Event 11Enter the Maintenance State  
As soon as the cable modem is completely up and running, it enters the operational maintenance  
state.  
508178.322 CMAC_LOG_STATE_CHANGE  
maintenance_state  
Use Additional Troubleshooting Commands  
You can use other show controller and debug cable modem commands to troubleshoot different  
aspects of a cable modem. However, the most useful command is the show controller cable-modem  
0 mac command.  
To display additional controller information inside a cable modem, enter one or more of the  
following commands in Privileged EXEC mode:  
Command  
Purpose  
Displays high-level controller information.  
Displays privacy state information.  
Displays information about the Data Encryption  
Standard (DES) engine registers.  
Displays information about the MAC and SID cable  
modem filters.  
Displays the mini-slot lookup table inside a cable  
modem.  
show controller cable-modem mac [errors | hardware |  
log | resets | state]  
Displays detailed MAC layer information.  
Displays physical layer information, such as receive  
and transmit physical registers.  
Displays tuning information.  
To debug different components of a cable modem, enter one or more of the following commands in  
Privileged EXEC mode:  
Command  
Purpose  
debug cable-modem bpkm {errors | events | packets}  
Debugs baseline privacy information.  
Debugs the bridge filter.  
Debugs cable interface errors.  
Debugs cable modem interface interrupts.  
debug cable-modem mac {log [verbose] | messages}  
Displays and debugs the MAC layer log entries in  
real time.  
Debugs map message processing information.  
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Command Reference  
Command Reference  
This section provides new commands for troubleshooting the Cisco uBR904 cable modem.  
All other commands used with this feature are documented in the Cisco IOS Release 11.3 command  
references.  
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show controller cable-modem  
show controller cable-modem  
To display high-level controller information about a cable modem, use the show controller  
cable-modem Privileged EXEC command.  
Syntax Description  
number  
Controller number inside the cable modem.  
Command Mode  
Privileged EXEC  
Usage Guidelines  
This command first appeared in Cisco IOS Release 11.3 NA.  
Sample Display  
Following is a sample output for this command:  
uBR904# show controller cable-modem 0  
BCM Cable interface 0:  
CM unit 0, idb 0x200EB4, ds 0x82D4748, regaddr = 0x800000, reset_mask 0x80  
station address 0010.7b43.aa01 default station address 0010.7b43.aa01  
PLD VERSION: 32  
MAC State is ranging_2_state, Prev States = 7  
MAC mcfilter 01E02F00 data mcfilter 01000000  
DS: BCM 3116 Receiver: Chip id = 2  
US: BCM 3037 Transmitter: Chip id = 30B4  
Tuner: status=0x00  
Rx: tuner_freq 699000000, symbol_rate 5055849, local_freq 11520000  
snr_estimate 33406, ber_estimate 0, lock_threshold 26000  
QAM in lock, FEC in lock, qam_mode QAM_64  
Tx: tx_freq 20000000, power_level 0x3E, symbol_rate 1280000  
DHCP: TFTP server = 4.0.0.32, TOD server = 4.0.0.188  
Security server = 0.0.0.0, Timezone Offest = 0.0.4.32  
Config filename =  
buffer size 1600  
RX data PDU ring with 32 entries at 0x201D40  
rx_head = 0x201D40 (0), rx_p = 0x82D4760 (0)  
RX MAC message ring with 8 entries at 0x201E80  
rx_head_mac = 0x201EB8 (7), rx_p_mac = 0x82D4810 (7)  
TX BD ring with 8 entries at 0x201FB8, tx_count = 0  
tx_head = 0x201FB8 (0), head_txp = 0x82D4888 (0)  
tx_tail = 0x201FB8 (0), tail_txp = 0x82D4888 (0)  
TX PD ring with 8 entries at 0x202038, tx_count = 0  
tx_head_pd = 0x202038 (0)  
tx_tail_pd = 0x202038 (0)  
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Command Reference  
Global control and status:  
global_ctrl_status=0x00  
interrupts:  
irq_pend=0x0008, irq_mask=0x00F7  
Related Commands  
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show controller cable-modem bpkm  
show controller cable-modem bpkm  
To display information about the baseline privacy key management exchange between the cable  
modem and the headend CMTS, use the show controller cable-modem bpkm Privileged EXEC  
command.  
show controller cable-modem number bpkm  
Syntax Description  
number  
Controller number inside the cable modem.  
Command Mode  
Privileged EXEC  
Usage Guidelines  
This command first appeared in Cisco IOS Release 11.3 NA.  
Sample Display  
The following output is displayed when the headend CMTS does not have baseline privacy enabled:  
uBR904# show controller cable-modem 0 bpkm  
CM Baseline Privacy Key Management  
configuration (in seconds):  
authorization wait time:  
10  
reauthorization wait time: 10  
authorization grace time:  
operational wait time:  
rekey wait time:  
600  
1
1
tek grace time:  
600  
authorization rej wait time: 60  
kek state: STATE_B_AUTH_WAIT  
sid 4:  
tek state: No resources assigned  
Related Commands  
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Command Reference  
show controller cable-modem des  
To display information about the Data Encryption Standard (DES) engine registers, use the show  
controller cable-modem des Privileged EXEC command.  
show controller cable-modem des  
Syntax Description  
This command has no key words or arguments.  
Command Mode  
Privileged EXEC  
Usage Guidelines  
This command first appeared in Cisco IOS Release 11.3 NA.  
Sample Display  
DES engine registers are displayed in the following example:  
uBR904# show controller cable-modem 0 des  
downstream des:  
ds_des_key_table:  
key 0: even 0, odd 0  
key 1: even 0, odd 0  
key 2: even 0, odd 0  
key 3: even 0, odd 0  
ds_des_cbc_iv_table:  
iv 0: even 0, odd 0  
iv 1: even 0, odd 0  
iv 2: even 0, odd 0  
iv 3: even 0, odd 0  
ds_des_sid_table:  
sid_1=0x0000, sid_2=0x0000, sid_3=0x0000, sid_4=0x0000  
ds_des_sid_enable=0x80, ds_des_ctrl=0x2E  
ds_des_sv=0x0F00  
ds_unencrypted_length=0x0C  
upstream des:  
us_des_key_table:  
key 0: even 0, odd 0  
key 1: even 0, odd 0  
key 2: even 0, odd 0  
key 3: even 0, odd 0  
us_des_cbc_iv_table:  
iv 0: even 0, odd 0  
iv 1: even 0, odd 0  
iv 2: even 0, odd 0  
iv 3: even 0, odd 0  
pb_req_bytes_to_minislots=0x10  
us_des_ctrl=0x00, us_des_sid_1= 0x1234  
ds_unencrypted_length=0x0C  
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show controller cable-modem des  
Related Commands  
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Command Reference  
show controller cable-modem filters  
To display the registers in the MAC hardware that are used for filtering received frames, use the show  
controller cable-modem filters Privileged EXEC command.  
show controller cable-modem filters  
Syntax Description  
There are no key words or arguments for this command.  
Command Mode  
Privileged EXEC  
Usage Guidelines  
This command first appeared in Cisco IOS Release 11.3 NA.  
Some of the filtering parameters are MAC hardware addresses, Station IDs (SID), and upstream  
channel IDs.  
This command is only useful for development engineers.  
Sample Display  
MAC and SID filter information is displayed in the following example:  
uBR904# show controller cable-modem 0 filters  
downstream mac message processing:  
ds_mac_da_filters:  
filter_1=0010.7b43.aa01, filter_2=0000.0000.0000  
filter_3=0000.0000.0000, filter_4=0000.0000.0000  
ds_mac_da_filter_ctrl=0x71, ds_mac_msg_sof=0x0000  
ds_mac_da_mc=01E02F00  
map_parser_sids:  
sid_1=0x0000, sid_2=0x0000, sid_3=0x0000, sid_4=0x0000  
ds_mac_filter_ctrl=0x00, us_channel_id=0x0000  
ds_pid=0x0000, mac_msg_proto_ver=FF 00  
reg_rang_req_sid=0x0000  
downstream data processing:  
ds_data_da_filter_table:  
filter_1 0010.7b43.aa01, filter_2 0000.0000.0000  
filter_3 0000.0000.0000, filter_4 0000.0000.0000  
ds_data_da_filter_ctrl=0x61, ds_pdu_sof=0xDEAD  
ds_data_da_mc=01000000  
upstream processing:  
us_ctrl_status=0x04, Minislots per request=0x01  
burst_maps:  
map[0]=0 map[1]=0 map[2]=0 map[3]=0  
bytes_per_minislot_exp=0x04  
us_map_parser_minislot_adv=0x03, maint_xmit=0x0000  
us_sid_table:  
sid_1=0x0000, sid_2=0x0000, sid_3=0x0000, sid_4=0x0000  
max_re_req=0x0010, rang_fifo=0x00  
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show controller cable-modem filters  
Related Commands  
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Command Reference  
show controller cable-modem lookup-table  
To display the mini-slot lookup table inside a cable modem, use the show controller cable-modem  
lookup-table Privileged EXEC command.  
show controller cable-modem lookup-table  
Syntax Description  
This command has no keywords or arguments.  
Command Mode  
Privileged EXEC  
Usage Guidelines  
This command first appeared in Cisco IOS Release 11.3 NA.  
This command shows the details of the lookup table. The driver uses this table to convert the size of  
a frame that the cable modem wants to transmit into a bandwidth request to the CMTS in  
“mini-slots.” The contents of this table are affected by the upstream symbol rate that is negotiated  
between the CMTS and the cable modem.  
This command is only useful for development engineers.  
Sample Display  
The lookup table is displayed in the following example:  
uBR904# show controller cable-modem 0 lookup-table  
PHY Overhead Lookup Table:  
01 01 01 01 01 01 01 02 02 02 02 02 02 02 02 02  
02 02 02 02 02 02 02 03 03 03 03 03 03 03 03 03  
03 03 03 03 03 03 03 04 04 04 04 04 04 04 04 04  
04 04 04 04 04 04 04 05 05 05 05 05 05 05 05 05  
05 05 05 05 05 05 05 06 06 06 06 06 06 06 06 06  
06 06 06 06 06 06 06 07 07 07 07 07 07 07 07 07  
07 07 07 07 07 07 07 08 08 08 08 08 08 08 08 08  
08 08 08 08 08 08 08 09 09 09 09 09 09 09 09 09  
09 09 09 09 09 09 09 0A 0A 0A 0A 0A 0A 0A 0A 0A  
0A 0A 0A 0A 0A 0A 0A 0B 0B 0B 0B 0B 0B 0B 0B 0B  
0B 0B 0B 0B 0B 0B 0B 0C 0C 0C 0C 0C 0C 0C 0C 0C  
0C 0C 0C 0C 0C 0C 0C 0D 0D 0D 0D 0D 0D 0D 0D 0D  
0D 0D 0D 0D 0D 0D 0D 0E 0E 0E 0E 0E 0E 0E 0E 0E  
0E 0E 0E 0E 0E 0E 0E 0F 0F 0F 0F 0F 0F 0F 0F 0F  
0F 0F 0F 0F 0F 0F 0F 10 10 10 10 10 10 10 10 10  
10 10 10 10 10 10 10 11 11 11 11 11 11 11 11 11  
11 11 11 11 11 11 11 12 12 12 12 12 12 12 12 12  
12 12 12 12 12 12 12 13 13 13 13 13 13 13 13 13  
13 13 13 13 13 13 13 14 14 14 14 14 14 14 14 14  
14 14 14 14 14 14 14 15 15 15 15 15 15 15 15 15  
15 15 15 15 15 15 15 16 16 16 16 16 16 16 16 16  
16 16 16 16 16 16 16 17 17 17 17 17 17 17 17 17  
17 17 17 17 17 17 17 18 18 18 18 18 18 18 18 18  
18 18 18 18 18 18 18 19 19 19 19 19 19 19 19 19  
19 19 19 19 19 19 19 1A 1A 1A 1A 1A 1A 1A 1A 1A  
1A 1A 1A 1A 1A 1A 1A 1B 1B 1B 1B 1B 1B 1B 1B 1B  
1B 1B 1B 1B 1B 1B 1B 1C 1C 1C 1C 1C 1C 1C 1C 1C  
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show controller cable-modem lookup-table  
1C 1C 1C 1C 1C 1C 1C 1D 1D 1D 1D 1D 1D 1D 1D 1D  
1D 1D 1D 1D 1D 1D 1D 1E 1E 1E 1E 1E 1E 1E 1E 1E  
1E 1E 1E 1E 1E 1E 1E 1F 1F 1F 1F 1F 1F 1F 1F 1F  
1F 1F 1F 1F 1F 1F 1F 20 20 20 20 20 20 20 20 20  
20 20 20 20 20 20 20 21 21 21 21 21 21 21 21 21  
21 21 21 21 21 21 21 22 22 22 22 22 22 22 22 22  
22 22 22 22 22 22 22 23 23 23 23 23 23 23 23 23  
23 23 23 23 23 23 23 24 24 24 24 24 24 24 24 24  
24 24 24 24 24 24 24 25 25 25 25 25 25 25 25 25  
25 25 25 25 25 25 25 26 26 26 26 26 26 26 26 26  
26 26 26 26 26 26 26 27 27 27 27 27 27 27 27 27  
27 27 27 27 27 27 27 28 28 28 28 28 28 28 28 28  
28 28 28 28 28 28 28 29 29 29 29 29 29  
29 29 29 29 29 29 29 2A 2A 2A 2A 2A 2A 2A 2A 2A  
2A 2A 2A 2A 2A 2A 2A 2B 2B 2B 2B 2B 2B 2B 2B 2B  
2B 2B 2B 2B 2B 2B 2B 2C 2C 2C 2C 2C 2C 2C 2C 2C  
2C 2C 2C 2C 2C 2C 2C 2D 2D 2D 2D 2D 2D 2D 2D 2D  
2D 2D 2D 2D 2D 2D 2D 2E 2E 2E 2E 2E 2E 2E 2E 2E  
2E 2E 2E 2E 2E 2E 2E 2F 2F 2F 2F 2F 2F 2F 2F 2F  
2F 2F 2F 2F 2F 2F 2F 30 30 30 30 30 30 30 30 30  
30 30 30 30 30 30 30 31 31 31 31 31 31 31 31 31  
31 31 31 31 31 31 31 32 32 32 32 32 32 32 32 32  
32 32 32 32 32 32 32 33 33 33 33 33 33 33 33 33  
33 33 33 33 33 33 33 34 34 34 34 34 34 34 34 34  
34 34 34 34 34 34 34 35 35 35 35 35 35 35 35 35  
35 35 35 35 35 35 35 36 36 36 36 36 36 36 36 36  
36 36 36 36 36 36 36 37 37 37 37 37 37 37 37 37  
37 37 37 37 37 37 37 38 38 38 38 38 38 38 38 38  
38 38 38 38 38 38 38 39 39 39 39 39 39 39 39 39  
.
.
.
Related Commands  
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Command Reference  
show controller cable-modem mac  
To show detailed MAC layer information for a cable modem, enter the show cable controller  
cable-modem number mac Privileged EXEC command.  
show controller cable-modem number mac [errors | hardware | log | resets | state]  
Syntax Description  
number  
The controller number inside the cable modem.  
errors  
(Optional) Displays a log of the error events that are reported to  
SNMP. This keyword gives you a way of looking at the error  
events without using a MIB.  
hardware  
log  
(Optional) Displays all MAC hardware registers.  
(Optional) Displays a history of MAC log messages, up to 1023  
entries. This is the same output that is displayed when the  
debug cable mac log command is entered.  
resets  
state  
(Optional) Extracts all the reset causes out of the MAC log file  
and summarizes them into a mini report.  
(Optional) Displays a summary of the MAC state.  
Command Mode  
Privileged EXEC  
Usage Guidelines  
This command first appeared in Cisco IOS Release 11.3 NA.  
MAC log messages are written to a circular log file even when debugging is not turned on. These  
messages include timestamps, events, and information pertinent to these events. Enter the show  
controller cable-modem number mac log command to view MAC log messages.  
If the cable modem interface fails to come up or resets periodically, the MAC log will capture what  
happened. For example, if an address is not obtained from the DHCP server, an error is logged,  
initialization starts over, and the cable modem scans for a downstream frequency.  
The most useful keywords for troubleshooting a cable modem are log, errors, and resets. See  
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show controller cable-modem mac  
Sample Display 1  
The following sample display shows the MAC log file for a cable-modem interface that has  
successfully come up:  
uBR904# show controller cable-modem 0 mac log  
*Mar 7 01:42:59: 528302.040 CMAC_LOG_LINK_DOWN  
*Mar 7 01:42:59: 528302.042 CMAC_LOG_RESET_FROM_DRIVER  
*Mar 7 01:42:59: 528302.044 CMAC_LOG_STATE_CHANGE  
*Mar 7 01:42:59: 528302.046 CMAC_LOG_DRIVER_INIT_IDB_SHUTDOWN  
*Mar 7 01:42:59: 528302.048 CMAC_LOG_LINK_DOWN  
wait_for_link_up_state  
0x08098D02  
*Mar 7 01:43:05: 528308.428 CMAC_LOG_DRIVER_INIT_IDB_RESET  
*Mar 7 01:43:05: 528308.432 CMAC_LOG_LINK_DOWN  
0x08098E5E  
*Mar 7 01:43:05: 528308.434 CMAC_LOG_LINK_UP  
*Mar 7 01:43:05: 528308.436 CMAC_LOG_STATE_CHANGE  
ds_channel_scanning_state  
88/453000000/855000000/6000000  
89/93000000/105000000/6000000  
90/111250000/117250000/6000000  
91/231012500/327012500/6000000  
92/333015000/333015000/6000000  
93/339012500/399012500/6000000  
94/405000000/447000000/6000000  
95/123015000/129015000/6000000  
96/135012500/135012500/6000000  
97/141000000/171000000/6000000  
98/219000000/225000000/6000000  
99/177000000/213000000/6000000  
663000000  
*Mar 7 01:43:05: 528308.440 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.444 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.448 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.452 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.456 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.460 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.462 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.466 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.470 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.474 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.478 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.482 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.486 CMAC_LOG_WILL_SEARCH_SAVED_DS_FREQUENCY  
*Mar 7 01:43:05: 528308.488 CMAC_LOG_WILL_SEARCH_USER_DS_FREQUENCY  
*Mar 7 01:43:07: 528310.292 CMAC_LOG_DS_64QAM_LOCK_ACQUIRED  
*Mar 7 01:43:07: 528310.294 CMAC_LOG_DS_CHANNEL_SCAN_COMPLETED  
*Mar 7 01:43:07: 528310.296 CMAC_LOG_STATE_CHANGE  
663000000  
663000000  
wait_ucd_state  
*Mar 7 01:43:08: 528310.892 CMAC_LOG_UCD_MSG_RCVD  
4
*Mar 7 01:43:08: 528310.896 CMAC_LOG_UCD_NEW_US_FREQUENCY  
*Mar 7 01:43:08: 528310.898 CMAC_LOG_SLOT_SIZE_CHANGED  
*Mar 7 01:43:08: 528310.970 CMAC_LOG_FOUND_US_CHANNEL  
*Mar 7 01:43:08: 528310.974 CMAC_LOG_STATE_CHANGE  
20000000  
8
1
wait_map_state  
*Mar 7 01:43:08: 528311.394 CMAC_LOG_MAP_MSG_RCVD  
*Mar 7 01:43:08: 528311.396 CMAC_LOG_INITIAL_RANGING_MINISLOTS  
*Mar 7 01:43:08: 528311.400 CMAC_LOG_STATE_CHANGE  
40  
ranging_1_state  
9610  
8.0 dBmV (commanded)  
*Mar 7 01:43:08: 528311.402 CMAC_LOG_RANGING_OFFSET_SET_TO  
*Mar 7 01:43:08: 528311.404 CMAC_LOG_POWER_LEVEL_IS  
*Mar 7 01:43:08: 528311.406 CMAC_LOG_STARTING_RANGING  
*Mar 7 01:43:08: 528311.408 CMAC_LOG_RANGING_BACKOFF_SET  
*Mar 7 01:43:08: 528311.412 CMAC_LOG_RNG_REQ_QUEUED  
*Mar 7 01:43:09: 528311.900 CMAC_LOG_RNG_REQ_TRANSMITTED  
*Mar 7 01:43:09: 528312.102 CMAC_LOG_T3_TIMER  
0
0
*Mar 7 01:43:12: 528314.622 CMAC_LOG_POWER_LEVEL_IS  
*Mar 7 01:43:12: 528314.624 CMAC_LOG_RANGING_BACKOFF_SET  
*Mar 7 01:43:12: 528314.628 CMAC_LOG_RNG_REQ_QUEUED  
*Mar 7 01:43:13: 528315.928 CMAC_LOG_RNG_REQ_TRANSMITTED  
*Mar 7 01:43:13: 528315.932 CMAC_LOG_RNG_RSP_MSG_RCVD  
*Mar 7 01:43:13: 528315.934 CMAC_LOG_RNG_RSP_SID_ASSIGNED  
*Mar 7 01:43:13: 528315.936 CMAC_LOG_ADJUST_RANGING_OFFSET  
*Mar 7 01:43:13: 528315.938 CMAC_LOG_RANGING_OFFSET_SET_TO  
*Mar 7 01:43:13: 528315.940 CMAC_LOG_ADJUST_TX_POWER  
*Mar 7 01:43:13: 528315.942 CMAC_LOG_POWER_LEVEL_IS  
*Mar 7 01:43:13: 528315.944 CMAC_LOG_STATE_CHANGE  
*Mar 7 01:43:13: 528315.948 CMAC_LOG_RNG_REQ_QUEUED  
*Mar 7 01:43:14: 528316.942 CMAC_LOG_RNG_REQ_TRANSMITTED  
*Mar 7 01:43:14: 528316.944 CMAC_LOG_RNG_RSP_MSG_RCVD  
*Mar 7 01:43:14: 528316.946 CMAC_LOG_ADJUST_TX_POWER  
*Mar 7 01:43:14: 528316.950 CMAC_LOG_POWER_LEVEL_IS  
*Mar 7 01:43:14: 528316.952 CMAC_LOG_RANGING_CONTINUE  
*Mar 7 01:43:15: 528317.956 CMAC_LOG_RNG_REQ_TRANSMITTED  
20.0 dBmV (commanded)  
2
0
4
2849  
12459  
20  
25.0 dBmV (commanded)  
ranging_2_state  
4
20  
30.0 dBmV (commanded)  
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Command Reference  
*Mar 7 01:43:15: 528317.958 CMAC_LOG_RNG_RSP_MSG_RCVD  
*Mar 7 01:43:15: 528317.960 CMAC_LOG_ADJUST_TX_POWER  
*Mar 7 01:43:15: 528317.962 CMAC_LOG_POWER_LEVEL_IS  
*Mar 7 01:43:15: 528317.964 CMAC_LOG_RANGING_CONTINUE  
*Mar 7 01:43:16: 528318.968 CMAC_LOG_RNG_REQ_TRANSMITTED  
*Mar 7 01:43:16: 528318.970 CMAC_LOG_RNG_RSP_MSG_RCVD  
*Mar 7 01:43:16: 528318.974 CMAC_LOG_RANGING_SUCCESS  
*Mar 7 01:43:16: 528318.976 CMAC_LOG_STATE_CHANGE  
*Mar 7 01:43:16: 528318.978 DHCP_COMPLETE  
14  
34.0 dBmV (commanded)  
dhcp_state  
*Mar 7 01:43:16: 528318.980 CMAC_LOG_STATE_CHANGE  
*Mar 7 01:43:16: 528318.982 CMAC_LOG_TOD_COMPLETE  
*Mar 7 01:43:16: 528318.984 CMAC_LOG_STATE_CHANGE  
*Mar 7 01:43:16: 528318.986 CMAC_LOG_SECURITY_BYPASSED  
*Mar 7 01:43:16: 528318.988 CMAC_LOG_STATE_CHANGE  
*Mar 7 01:43:16: 528318.992 CMAC_LOG_CONFIG_FILE_PROCESS_COMPLETE  
*Mar 7 01:43:16: 528319.028 CMAC_LOG_STATE_CHANGE  
*Mar 7 01:43:16: 528319.030 CMAC_LOG_REG_REQ_MSG_QUEUED  
*Mar 7 01:43:16: 528319.036 CMAC_LOG_REG_REQ_TRANSMITTED  
*Mar 7 01:43:16: 528319.038 CMAC_LOG_REG_RSP_MSG_RCVD  
*Mar 7 01:43:16: 528319.040 CMAC_LOG_COS_ASSIGNED_SID  
*Mar 7 01:43:16: 528319.044 CMAC_LOG_RNG_REQ_QUEUED  
*Mar 7 01:43:16: 528319.046 CMAC_LOG_REGISTRATION_OK  
*Mar 7 01:43:16: 528319.048 CMAC_LOG_STATE_CHANGE  
*Mar 7 01:43:16: 528319.052 CMAC_LOG_STATE_CHANGE  
establish_tod_state  
security_association_state  
configuration_file_state  
registration_state  
1/4  
4
establish_privacy_state  
maintenance_state  
If the DHCP server could not be reached, the error would look like this in the MAC log:  
497959.800 CMAC_LOG_STATE_CHANGE  
dhcp_state  
497969.864 CMAC_LOG_RNG_REQ_TRANSMITTED  
497969.866 CMAC_LOG_RNG_RSP_MSG_RCVD  
497979.936 CMAC_LOG_RNG_REQ_TRANSMITTED  
497979.938 CMAC_LOG_RNG_RSP_MSG_RCVD  
497989.802 CMAC_LOG_WATCHDOG_TIMER  
497989.804 CMAC_LOG_RESET_DHCP_WATCHDOG_EXPIRED  
497989.804 CMAC_LOG_STATE_CHANGE  
reset_interface_state  
497989.806 CMAC_LOG_DHCP_PROCESS_KILLED  
Sample Display 2  
MAC error log information is displayed in the following example, which is also reported via SNMP:  
uBR904# show controller cable-modem 0 mac errors  
62856.934 R02.0 No Ranging Response received. T3 time-out.  
62857.436 R02.0 No Ranging Response received. T3 time-out.  
62859.450 R02.0 No Ranging Response received. T3 time-out.  
62860.962 R02.0 No Ranging Response received. T3 time-out.  
62908.796 D05.0 TFTP Request sent. No Response/No Server.  
62949.080 D05.0 TFTP Request sent. No Response/No Server.  
62989.368 D05.0 TFTP Request sent. No Response/No Server.  
63029.650 D05.0 TFTP Request sent. No Response/No Server.  
63069.932 D05.0 TFTP Request sent. No Response/No Server.  
If the DHCP server could not be reached, the error would look like this in the MAC error display:  
uBR904# show controller cable-modem 0 mac errors  
497989.804 D01.0 Discover sent no Offer received. No available DHCP Server.  
498024.046 D01.0 Discover sent no Offer received. No available DHCP Server.  
498058.284 D01.0 Discover sent no Offer received. No available DHCP Server.  
Release 11.3(4)NA  
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show controller cable-modem mac  
Sample Displays 3  
The show controller cable-modem 0 mac resets command shows only the entries in the cable MAC  
log that begin with the field CMAC_LOG_RESET. Collectively presenting these fields provides you with  
a summary of the most recent reasons why the cable interface was reset.  
Reset messages and brief explainations are included in the following examples and in Table 1.  
However, the reset messages in Table 2 do not commonly occur.  
In the following example, the configuration file downloaded from the TFTP server could not be read.  
The file might not exist, or the file has incorrect permissions.  
uBR904# show controller cable-modem 0 mac resets  
62526.114 CMAC_LOG_RESET_CONFIG_FILE_READ_FAILED  
62564.368 CMAC_LOG_RESET_T4_EXPIRED  
62677.178 CMAC_LOG_RESET_CONFIG_FILE_READ_FAILED  
62717.462 CMAC_LOG_RESET_CONFIG_FILE_READ_FAILED  
62757.746 CMAC_LOG_RESET_CONFIG_FILE_READ_FAILED  
62796.000 CMAC_LOG_RESET_T4_EXPIRED  
62908.808 CMAC_LOG_RESET_CONFIG_FILE_READ_FAILED  
62949.092 CMAC_LOG_RESET_CONFIG_FILE_READ_FAILED  
62989.380 CMAC_LOG_RESET_CONFIG_FILE_READ_FAILED  
63029.662 CMAC_LOG_RESET_CONFIG_FILE_READ_FAILED  
63069.944 CMAC_LOG_RESET_CONFIG_FILE_READ_FAILED  
63110.228 CMAC_LOG_RESET_CONFIG_FILE_READ_FAILED  
63148.484 CMAC_LOG_RESET_T4_EXPIRED  
63261.296 CMAC_LOG_RESET_CONFIG_FILE_READ_FAILED  
The following example shows that the DHCP server could not be reached. The DHCP server took  
too long to respond.  
uBR904# show controller cable-modem 0 mac resets  
497989.804 CMAC_LOG_RESET_DHCP_WATCHDOG_EXPIRED  
498024.046 CMAC_LOG_RESET_DHCP_WATCHDOG_EXPIRED  
498058.284 CMAC_LOG_RESET_DHCP_WATCHDOG_EXPIRED  
This next example indicates that an event in the cable interface driver caused the interface to reset.  
This is often because a shut or clear command is currently being issued on the interface.  
uBR904# show controller cable-modem 0 mac resets  
527986.444 CMAC_LOG_RESET_FROM_DRIVER  
528302.042 CMAC_LOG_RESET_FROM_DRIVER  
528346.600 CMAC_LOG_RESET_FROM_DRIVER  
528444.494 CMAC_LOG_RESET_FROM_DRIVER  
Table 2  
Possible but Uncommon Cable Interface Reset Causes  
Description  
Message  
CMAC_LOG_RESET_CONFIG_FILE_PARSE_FAILED  
The format of the DOCSIS configuration file acquired  
from the TFTP server is not acceptable.  
CMAC_LOG_RESET_LOSS_OF_SYNC  
Synchronization with the CMTS has been lost (SYNC  
messages are not being received).  
CMAC_LOG_RESET_T4_EXPIRED  
Maintenance ranging opportunities for this modem are  
not being received from the CMTS.  
CMAC_LOG_RESET_DHCP_WATCHDOG_EXPIRED  
CMAC_LOG_RESET_TOD_WATCHDOG_EXPIRED  
The DHCP server took too long to respond.  
The Time Of Day server took too long to respond.  
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Command Reference  
Table 2  
Possible but Uncommon Cable Interface Reset Causes (Continued)  
Description  
Message  
CMAC_LOG_RESET_PRIVACY_WATCHDOG_EXPIRED  
CMAC_LOG_RESET_CHANGE_US_WATCHDOG_EXPIRED  
CMAC_LOG_RESET_SECURITY_WATCHDOG_EXPIRED  
The baseline privacy exchange with the CMTS took  
too long.  
The cable modem was unable to transmit a response to  
a UCC-REQ message.  
The “full security” exchange with the CMTS took too  
long.  
CMAC_LOG_RESET_CONFIG_FILE_WATCHDOG_EXPIRED  
CMAC_LOG_RESET_ALL_FREQUENCIES_SEARCHED  
The TFTP server took too long to respond.  
All downstream frequencies to be searched have been  
searched.  
This message indicates that downstream frequencies  
were found and the cable modem failed.  
CMAC_LOG_RESET_T2_EXPIRED  
Initial ranging opportunities are not being received.  
CMAC_LOG_RESET_T3_RETRIES_EXHAUSTED  
The CMTS failed to respond to a RNG-REQ message  
too many times.  
CMAC_LOG_RESET_RANGING_ABORTED  
The CMTS commanded the cable modem to abort the  
ranging process.  
CMAC_LOG_RESET_NO_MEMORY  
The cable modem has run out of memory.  
CMAC_LOG_RESET_CANT_START_PROCESS  
The cable modem was unable to start an internal  
process necessary to complete ranging and registration.  
CMAC_LOG_RESET_CONFIG_FILE_READ_FAILED  
The reading of the configuration file from the TFTP  
server failed. The file might not exist, or it has incorrect  
permissions.  
CMAC_LOG_RESET_AUTHENTICATION_FAILURE  
CMAC_LOG_RESET_SERVICE_NOT_AVAILABLE  
The cable modem failed authentication, as indicated in  
a REG-RSP message from the CMTS.  
The CMTS has failed the cable modem’s registration  
because a required or requested Class Of Service is not  
available.  
CMAC_LOG_RESET_T6_RETRIES_EXHAUSTED  
CMAC_LOG_RESET_MAINTENANCE_WATCHDOG_DRIVER  
CMAC_LOG_RESET_NET_ACCESS_MISSING  
The CMTS failed to respond to a REG-REQ message  
too many times.  
The cable modem MAC layer failed to detect a change  
in the interface driver.  
The Network Access parameter was missing from the  
DOCSIS configuration file.  
CMAC_LOG_RESET_FAILED_WRITE_ACCESS_CONTROL  
The cable modem was unable to set the Write Access  
Control for an SNMP parameter, as specified by the  
DOCSIS configuration file.  
CMAC_LOG_RESET_DHCP_FAILED  
The DHCP server did not respond with all the required  
values. The required values are: IP address, network  
mask, TFTP server IP address, time server IP address,  
DOCSIS configuration file name, and time zone offset.  
CMAC_LOG_RESET_CANT_START_DS_TUNER_PRCESS  
CMAC_LOG_RESET_TOO_MANY_DS_LOCKS_LOST  
The modem was unable to start the internal process  
used to manage the downstream tuner.  
Downstream QAM/FEC lock has been lost too many  
times.  
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show controller cable-modem mac  
Table 2  
Possible but Uncommon Cable Interface Reset Causes (Continued)  
Message  
Description  
CMAC_LOG_RESET_NO_SEND_TO_DS_TUNER_PROCESS  
The modem MAC layer process was unable to  
communicate with the downstream tuner management  
process.  
CMAC_LOG_RESET_DS_TUNER_WATCHDOG  
The downstream tuner process failed to report it's  
continuing operation for a long period of time.  
CMAC_LOG_RESET_UNABLE_TO_SET_MIB_OBJECT  
The cable modem was unable to set an SNMP  
parameter as specified by the DOCSIS configuration  
file.  
CMAC_LOG_RESET_MIB_OBJECT_PROCESS_WATCHDOG  
The internal MIB object took to long to process the  
entries in the DOCSIS configuration file.  
Sample Display 4  
This example display for the show controller cable-modem 0 mac hardware command shows the  
detailed configuration of the interface driver and MAC layer hardware. The most interesting bit is  
the station address (hardware address). The rest of the display is only of use to a software engineer.  
The MIB statistics reflect the MAC hardware counters for various events, but these counters are  
typically reset every few seconds, so their contents are not accurate in this display.  
uBR904# show controller cable-modem 0 mac hardware  
PLD VERSION: 32  
BCM3220 unit 0, idb 0x200EB4, ds 0x82D4748, regaddr = 0x800000, reset_mask  
0x80  
station address 0010.7b43.aa01 default station address 0010.7b43.aa01  
MAC mcfilter 01E02F00 data mcfilter 01000000  
buffer size 1600  
RX data PDU ring with 32 entries at 0x201D40  
rx_head = 0x201D40 (0), rx_p = 0x82D4760 (0)  
00 pak=0x82DF844 buf=0x227F1A status=0x80 pak_size=0  
01 pak=0x82E0BF4 buf=0x22C56A status=0x80 pak_size=0  
02 pak=0x82DF454 buf=0x22710A status=0x80 pak_size=0  
03 pak=0x82DF64C buf=0x227812 status=0x80 pak_size=0  
04 pak=0x82E0024 buf=0x229B3A status=0x80 pak_size=0  
05 pak=0x82DBF2C buf=0x21B332 status=0x80 pak_size=0  
06 pak=0x82DFE2C buf=0x229432 status=0x80 pak_size=0  
07 pak=0x82E0FE4 buf=0x22D37A status=0x80 pak_size=0  
08 pak=0x82DF064 buf=0x2262FA status=0x80 pak_size=0  
09 pak=0x82DEC74 buf=0x2254EA status=0x80 pak_size=0  
10 pak=0x82DEA7C buf=0x224DE2 status=0x80 pak_size=0  
11 pak=0x82DE884 buf=0x2246DA status=0x80 pak_size=0  
12 pak=0x82DE68C buf=0x223FD2 status=0x80 pak_size=0  
13 pak=0x82DE494 buf=0x2238CA status=0x80 pak_size=0  
14 pak=0x82DE29C buf=0x2231C2 status=0x80 pak_size=0  
15 pak=0x82DE0A4 buf=0x222ABA status=0x80 pak_size=0  
16 pak=0x82DDEAC buf=0x2223B2 status=0x80 pak_size=0  
17 pak=0x82DDCB4 buf=0x221CAA status=0x80 pak_size=0  
18 pak=0x82DDABC buf=0x2215A2 status=0x80 pak_size=0  
19 pak=0x82DD8C4 buf=0x220E9A status=0x80 pak_size=0  
20 pak=0x82DD6CC buf=0x220792 status=0x80 pak_size=0  
21 pak=0x82DD4D4 buf=0x22008A status=0x80 pak_size=0  
22 pak=0x82DD2DC buf=0x21F982 status=0x80 pak_size=0  
23 pak=0x82DD0E4 buf=0x21F27A status=0x80 pak_size=0  
24 pak=0x82DCEEC buf=0x21EB72 status=0x80 pak_size=0  
25 pak=0x82DCCF4 buf=0x21E46A status=0x80 pak_size=0  
26 pak=0x82DCAFC buf=0x21DD62 status=0x80 pak_size=0  
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Command Reference  
27 pak=0x82DC904 buf=0x21D65A status=0x80 pak_size=0  
28 pak=0x82DC70C buf=0x21CF52 status=0x80 pak_size=0  
29 pak=0x82DC514 buf=0x21C84A status=0x80 pak_size=0  
30 pak=0x82DC31C buf=0x21C142 status=0x80 pak_size=0  
31 pak=0x82DC124 buf=0x21BA3A status=0xA0 pak_size=0  
RX MAC message ring with 8 entries at 0x201E80  
rx_head_mac = 0x201EB0 (6), rx_p_mac = 0x82D480C (6)  
00 pak=0x82E0DEC buf=0x22CC72 status=0x80 pak_size=0  
01 pak=0x82E021C buf=0x22A242 status=0x80 pak_size=0  
02 pak=0x82E060C buf=0x22B052 status=0x80 pak_size=0  
03 pak=0x82E11DC buf=0x22DA82 status=0x80 pak_size=0  
04 pak=0x82DFC34 buf=0x228D2A status=0x80 pak_size=0  
05 pak=0x82E09FC buf=0x22BE62 status=0x80 pak_size=0  
06 pak=0x82DEE6C buf=0x225BF2 status=0x80 pak_size=0  
07 pak=0x82DFA3C buf=0x228622 status=0xA0 pak_size=0  
TX BD ring with 8 entries at 0x201FB8, tx_count = 0  
tx_head = 0x201FB8 (0), head_txp = 0x82D4888 (0)  
tx_tail = 0x201FB8 (0), tail_txp = 0x82D4888 (0)  
00 pak=0x000000 buf=0x200000 status=0x00 pak_size=0  
01 pak=0x000000 buf=0x200000 status=0x00 pak_size=0  
02 pak=0x000000 buf=0x200000 status=0x00 pak_size=0  
03 pak=0x000000 buf=0x200000 status=0x00 pak_size=0  
04 pak=0x000000 buf=0x200000 status=0x00 pak_size=0  
05 pak=0x000000 buf=0x200000 status=0x00 pak_size=0  
06 pak=0x000000 buf=0x200000 status=0x00 pak_size=0  
07 pak=0x000000 buf=0x200000 status=0x20 pak_size=0  
TX PD ring with 8 entries at 0x202038, tx_count = 0  
tx_head_pd = 0x202038 (0)  
tx_tail_pd = 0x202038 (0)  
00 status=0x00 bd_index=0x0000 len=0x0000 hdr_len=0x0000  
ehdr: 00 00 00 2E FF FF  
01 status=0x00 bd_index=0x0001 len=0x0000 hdr_len=0x0000  
ehdr: 00 00 00 2E FF FF  
02 status=0x00 bd_index=0x0002 len=0x0000 hdr_len=0x0000  
ehdr: 00 00 00 2E FF FF  
03 status=0x00 bd_index=0x0003 len=0x0000 hdr_len=0x0000  
ehdr: 00 00 00 2E FF FF  
04 status=0x00 bd_index=0x0004 len=0x0000 hdr_len=0x0000  
ehdr: 00 00 00 2E 00 00  
05 status=0x00 bd_index=0x0005 len=0x0000 hdr_len=0x0000  
ehdr: 00 00 00 2E 00 00  
06 status=0x00 bd_index=0x0006 len=0x0000 hdr_len=0x0000  
ehdr: 00 00 00 00 00 00  
07 status=0x20 bd_index=0x0007 len=0x0000 hdr_len=0x0000  
ehdr: 00 00 00 00 00 00  
MIB Statistics  
DS fifo full = 0, Rerequests = 0  
DS mac msg overruns = 0, DS data overruns = 0  
Qualified maps = 0, Qualified syncs = 0  
CRC fails = 0, HDR chk fails = 0  
Data pdus = 0, Mac msgs = 0  
Valid hdrs = 0  
BCM3220 Registers:  
downstream dma:  
ds_data_bd_base=0x001D40, ds_mac_bd_base=0x001E80  
ds_data_dma_ctrl=0x98, ds_mac_dma_ctrl=0x98  
ds_dma_data_index=0x0000, ds_dma_msg_index=0x0000  
upstream dma:  
us_bd_base=0x001FB8, us_pd_base=0x002038  
us_dma_ctrl=0x00, us_dma_tx_start=0x00  
global control and status:  
global_ctrl_status=0x00  
interrupts:  
irq_pend=0x0018, irq_mask=0x00E7  
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show controller cable-modem mac  
timing recovery circuit:  
loop_enable=0x00, minislot_divisor=0x00  
K0_ctrl=0x06, K1_ctrl=0x07, acq_threshhold=0x01  
err_threshhold=0x04, timeout_threshold=0xFF  
nco_bias=0x4F7004F7, ranging_offset=0x00000000  
ts_err=0x00, sync_valid=0x00, delta_F=0x00  
timeout_err=0x00  
spi:  
dynamic_ctrl=0x09, static_ctr=0x9F, autonomous=0x01  
irq_ack=0x00, spi_cmd=0x51, spi_addr=0x11  
spi_data= FF/00/00/00/00/00/00  
burst profiles:  
profile 0:  
01 19 1D 00 00 00 00 00 00 00 00 00 00 00 00 00  
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00  
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00  
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00  
profile 1:  
profile 2:  
profile 3:  
01 19 1D 03 00 00 00 00 00 00 00 00 00 00 00 00  
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00  
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00  
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00  
01 19 1D 04 00 00 00 00 00 00 00 00 00 00 00 00  
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00  
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00  
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00  
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00  
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00  
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00  
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00  
Sample Display 5  
The show controller cable-modem 0 mac state command summarizes the state of the cable MAC  
layer. If the cable MAC layer is in the wait_for_link_up_state, the information shown in the  
display corresponds to the last time the interface was up. This allows useful information to be  
acquired from this display even though the modem has not been able to range and register. The  
normal operational state of the interface is the maintenance_state.  
uBR904# show controller cable-modem 0 mac state  
MAC State:  
maintenance_state  
Ranging SID:  
Registered:  
Privacy Established:  
DS ID:  
5
TRUE  
TRUE  
1
DS Frequency:  
DS Symbol Rate:  
DS QAM Mode  
DS Search:  
663000000  
5056941  
64QAM  
88 453000000 855000000 6000000  
89 93000000 105000000 6000000  
90 111250000 117250000 6000000  
91 231012500 327012500 6000000  
92 333015000 333015000 6000000  
93 339012500 399012500 6000000  
94 405000000 447000000 6000000  
95 123015000 129015000 6000000  
96 135012500 135012500 6000000  
97 141000000 171000000 6000000  
Troubleshooting Tips for the Cisco uBR904 Cable Modem 33  
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Command Reference  
98 219000000 225000000 6000000  
99 177000000 213000000 6000000  
US ID:  
1
US Frequency:  
20000000  
US Power Level:  
34.0 (dBmV)  
US Symbol Rate:  
1280000  
Ranging Offset:  
12460  
Mini-Slot Size:  
8
Change Count:  
4
Preamble Pattern:  
Burst Descriptor 0:  
Interval Usage Code:  
Modulation Type:  
Differential Encoding:  
Preamble Length:  
Preamble Value Offset:  
FEC Error Correction:  
CC CC CC CC CC CC CC CC CC CC CC CC CC CC 0D 0D  
1
1
2
64  
56  
0
FEC Codeword Info Bytes: 16  
Scrambler Seed:  
338  
Maximum Burst Size:  
Guard Time Size:  
Last Codeword Length:  
Scrambler on/off:  
1
8
1
1
Burst Descriptor 1:  
Interval Usage Code:  
Modulation Type:  
3
1
Differential Encoding:  
Preamble Length:  
Preamble Value Offset:  
FEC Error Correction:  
2
128  
0
5
FEC Codeword Info Bytes: 34  
Scrambler Seed:  
338  
Maximum Burst Size:  
Guard Time Size:  
Last Codeword Length:  
Scrambler on/off:  
0
48  
1
1
Burst Descriptor 2:  
Interval Usage Code:  
Modulation Type:  
4
1
Differential Encoding:  
Preamble Length:  
Preamble Value Offset:  
FEC Error Correction:  
2
128  
0
5
FEC Codeword Info Bytes: 34  
Scrambler Seed:  
338  
Maximum Burst Size:  
Guard Time Size:  
Last Codeword Length:  
Scrambler on/off:  
0
48  
1
1
Burst Descriptor 3:  
Interval Usage Code:  
Modulation Type:  
5
1
Differential Encoding:  
Preamble Length:  
Preamble Value Offset:  
FEC Error Correction:  
2
72  
48  
5
FEC Codeword Info Bytes: 75  
Scrambler Seed:  
Maximum Burst Size:  
Guard Time Size:  
Last Codeword Length:  
Scrambler on/off:  
Config File:  
338  
0
8
1
1
Network Access:  
Vendor ID:  
TRUE  
0.240.30  
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show controller cable-modem mac  
Baseline Privacy:  
Auth. Wait Timeout:  
Reauth. Wait Timeout:  
Auth. Grace Time:  
Op. Wait Timeout:  
Retry Wait Timeout:  
TEK Grace Time:  
10  
10  
600  
1
1
600  
Auth. Reject Wait Time: 60  
COS 1:  
Assigned SID:  
5
Max Downstream Rate:  
Max Upstream Rate:  
Upstream Priority:  
Min Upstream Rate:  
Max Upstream Burst:  
Privacy Enable:  
4000000  
2000000  
7
100000  
12  
TRUE  
Ranging Backoff Start:  
Ranging Backoff End:  
Data Backoff Start:  
Data Backoff End:  
IP Address:  
0 (at initial ranging)  
4 (at initial ranging)  
0 (at initial ranging)  
4 (at initial ranging)  
0.0.0.0  
Net Mask:  
0.0.0.0  
TFTP Server IP Address:  
Time Server IP Address:  
Config File Name:  
Time Zone Offset:  
223.255.254.254  
188.188.1.5  
muck/ebuell/tftp/cm_conf  
-28800  
Related Commands  
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Command Reference  
show controller cable-modem phy  
To display detailed contents about the registers used in the downstream physical hardware used by  
a cable modem, use the show controller cable-modem phy Privileged EXEC command.  
show controller cable-modem phy {receive | transmit}  
Syntax Description  
receive  
Displays all receive registers in the  
downstream physical hardware.  
transmit  
Displays all transmit registers in the  
upstream physical hardware.  
Command Mode  
Privileged EXEC  
Usage Guidelines  
This command first appeared in Cisco IOS Release 11.3 NA.  
This command is only useful for development engineers.  
Sample Display  
Physical receive registers are displayed in the following example:  
uBR904# show controller cable-modem 0 phy receive  
BCM3116 Receiver Registers: Chip ID = C2C1  
rstctl=  
frzctl=20 qamctl=1B lmsctl=0B tpctl=00 fmtctl=24  
ffectl=3F irqsts=09 irqmask=00 stoscm=9E rstctr=00 frzctl2=46  
dvctl=30  
idepth=55 eqlctl=00 tstctl=02 berctl=00 clkset=00  
tunset=00 tunctl=03  
FFC coefficient registers:  
F0=0067FFBC F1=FF880080 F2=00C1FEFB F3=FF75019D  
F4=00C5FD89 F5=FF6D0485 F6=FC95F690 F7=2D280000  
DFE coefficient registers:  
D00=0636031E D01=FBDD0314 D02=0077FD39 D03=001B00C6  
D04=0024FF74 D05=0015007E D06=000CFFC4 D07=FFC0004B  
D08=0044FFF6 D09=FFE00019 D10=00190005 D11=FFD3FFAD  
D12=FFD3FFE0 D13=001A000A D14=FFF3FFED D15=0008FFFD  
D16=FFFC0024 D17=0023FFDF D18=0029FFFF D19=000D001E  
D20=00020017 D21=00250001 D22=0007FFF4 D23=FFF60014  
ldsft=B0EE  
ldsnre=0098AF ldif=0D004E  
ldbbi=00000000  
ldbbq=00000000 ldali=032E00  
ldaii=E62AF2 ldbrfo=705A05  
ldbri=F9CDC200 lddrfo=007E7D lddri=007EF0  
FEC correctable error count:  
0
FEC uncorrectable error count: 0  
Bit Error Rate Count: 0  
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show controller cable-modem phy  
Physical transmit registers are displayed in the following example:  
uBR904# show controller cable-modem 0 phy transmit  
BCM3037 Transmitter Registers:  
part_id  
test_mode  
test_misc  
power  
port  
map  
= 3037  
= 00  
= 2009  
= 0000  
= 6F  
rev_id  
test_input = 00  
rst  
power_2  
pll  
= 01  
= 00  
= 00  
= F7  
= 28  
= 66  
mod  
tx_oen_bdly = 14  
tx_oen_edly = C8  
prbs_cfg  
burst  
dac  
= 00C000  
= 0000  
= 37  
baud  
if_freq  
tx_config  
= 1A36E3  
= 200000  
= 00  
burst config 0 : prbs_init  
= FFFFFF  
= 00  
rs  
qam  
= 343E  
= 01  
fec  
pream_len  
burst config 1 : prbs_init  
= 0018  
= FFFFFE  
= 1C  
offset = 0000  
rs  
= 033B  
= 65  
fec  
qam  
pream_len  
burst config 2 : prbs_init  
= 0000  
= FFFFFE  
= 1D  
offset = 0000  
rs  
= 033B  
= 65  
fec  
qam  
pream_len  
burst config 3 : prbs_init  
= 0000  
= FFFFFE  
= 1E  
= FFFFFE  
= 1F  
= 0000  
= FFFFFE  
= 0F  
offset = 0000  
rs  
qam  
rs  
= 033B  
= 65  
= 033B  
= 65  
fec  
burst config 4 : prbs_init  
fec  
pream_len  
burst config 5 : prbs_init  
fec  
qam  
offset = 0000  
rs  
qam  
= 033B  
= 66  
pream_len  
= 0000  
offset = 0000  
Eq Coeff:  
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00  
Preamble values:  
CC CC CC CC CC 0D 0D CC CC CC CC CC CC CC CC 0D  
04 25 01 01 01 01 02 01 02 03 02 00 40 04 02 00  
40 05 01 00 06 01 10 07 02 01 52 08 01 01 09 01  
08 0A 01 01 0B 01 02 04 25 03 01 01 01 02 01 02  
03 02 00 50 04 02 00 30 05 01 00 06 01 22 07 02  
01 52 08 01 00 09 01 30 0A 01 01 0B 01 02 04 25  
04 01 01 01 02 01 02 03 02 00 40 04 02 00 40 05  
01 00 06 01 22 07 02 01 52 08 01 00 09 01 30 0A  
Related Commands  
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Command Reference  
show controller cable-modem tuner  
To display the settings for the upstream and downstream tuners used by a cable modem, use the show  
controller cable-modem tuner Privileged EXEC command.  
show controller cable-modem tuner  
Syntax Description  
There are no key words or arguments for this command.  
Command Mode  
Privileged EXEC  
Usage Guidelines  
This command first appeared in Cisco IOS Release 11.3 NA.  
Sample Display  
The cable modem’s tuner settings are displayed in the following example. See Table 3 for output  
field possibilities and descriptions.  
uBR904# show controller cable-modem 0 tuner  
Tuner: status=0x00  
Rx: tuner_freq 507000000, symbol_rate 5360736, local_freq 11520000  
snr_estimate 17488, ber_estimate 0, lock_threshold 26000  
QAM not in lock, FEC not in lock, qam_mode QAM_64  
Tx: tx_freq 20000000, power_level 0x3E, symbol_rate 1280000  
Table 3  
Show Controller Cable-Modem Tuner Field Descriptions  
Field  
Description  
tuner_freq  
symbol_rate  
Indicates the current downstream frequency.  
Indicates the downstream or upstream symbol rate in use.  
snr_estimate  
ber_estimate  
QAM status  
Signal to noise estimate in dB X 1000.  
Bit error rate estimate (always 0).  
Indicates if QAM/FEC loc has been acquired and the modulation  
mode in use.  
tx_freq  
Current upstream frequency.  
power_level  
Transmit power level as set in the hardware. The units are unique  
to the hardware used. Use the show controller cable-modem 0  
mac state EXEC command to see the power level in dBmV.  
Related Commands  
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show controller cable-modem tuner  
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Command Reference  
show interface cable-modem  
To display information about the cable modem interface on a cable modem, use the show interface  
cable-modem EXEC command.  
show interface cable-modem number [accounting | counters | crb | irb | type]  
Syntax Description  
number  
Cable modem interface number.  
accounting  
(Optional) Displays the number of packets of each protocol type  
that has been sent through the cable modem interface.  
counters  
crb  
(Optional) Shows MIB counters on the cable interface.  
(Optional) Displays routing and bridging information pertaining  
to the cable interface.  
irb  
(Optional) Displays routing and bridging information pertaining  
to the cable interface.  
Command Mode  
EXEC  
Usage Guidelines  
This command first appeared in Cisco IOS Release 11.3 NA.  
Sample Display  
Traffic passing through the cable modem interface is shown in the following example:  
uBR904# show interface cable-modem 0  
cable-modem0 is up, line protocol is up  
Hardware is BCM3220, address is 0010.7b43.aa01 (bia 0010.7b43.aa01)  
Internet address is 188.188.1.60/16  
MTU 1500 bytes, BW 27000 Kbit, DLY 1000 usec, rely 255/255, load 1/255  
Encapsulation , loopback not set, keepalive not set  
ARP type: ARPA, ARP Timeout 04:00:00  
Last input 00:07:04, output 00:00:41, output hang never  
Last clearing of "show interface" counters never  
Queueing strategy: fifo  
Output queue 0/40, 0 drops; input queue 0/75, 0 drops  
5 minute input rate 0 bits/sec, 0 packets/sec  
5 minute output rate 0 bits/sec, 0 packets/sec  
4495 packets input, 1153221 bytes, 0 no buffer  
Received 8 broadcasts, 0 runts, 0 giants, 0 throttles  
0 input errors, 0 CRC, 0 frame, 0 overrun, 0 ignored, 0 abort  
12841 packets output, 1708272 bytes, 0 underruns  
0 output errors, 0 collisions, 11 interface resets  
0 output buffer failures, 0 output buffers swapped out  
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show interface cable-modem  
The following example displays the number of packets and each protocol type passing through the  
cable modem interface:  
uBR904# show int cable-modem 0 accounting  
cable-modem0  
Protocol  
Pkts In  
545  
Chars In  
185502  
964995  
3066  
Pkts Out Chars Out  
IP  
Trans. Bridge  
ARP  
159  
12597  
86  
90240  
1611142  
4128  
3878  
73  
MIB counters on the cable interface are displayed in the next example:  
uBR904# show int cable-modem 0 counters  
Cable specific counters:  
Ranging requests sent : 50982  
Downstream FIFO full  
Re-requests  
: 0  
: 7277  
DS MAC Message Overruns: 0  
DS Data Overruns  
Received MAPs  
Received Syncs  
Message CRC failures  
Header CRC failures  
Data PDUs  
DS MAC messages  
Valid Headers  
Sync losses  
: 0  
: 254339485  
: 53059555  
: 0  
: 1394  
: 5853  
: 307861745  
: 307869065  
: 0  
Pulse losses  
: 1  
BW request failures  
: 6  
Routing and bridging information on the cable modem interface is displayed in the next example:  
uBR904# show int cable-modem 0 crb  
cable-modem0  
Bridged protocols on cable-modem0:  
ip  
Software MAC address filter on cable-modem0  
Hash Len  
Address  
Matches Act  
Type  
0x00: 0 ffff.ffff.ffff  
0x2A: 0 0900.2b01.0001  
0x7A: 0 0010.7b43.aa01  
0xC2: 0 0180.c200.0000  
0xC2: 1 0180.c200.0000  
3877 RCV Physical broadcast  
0 RCV DEC spanning tree  
573 RCV Interface MAC address  
0 RCV IEEE spanning tree  
0 RCV IBM spanning tree  
soho5#show int cable-modem 0 type ?  
ethernet Show ethernet vlan type  
trbrf  
Show BRF tokenring vlan type  
Related Commands  
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Debug Commands  
Debug Commands  
The following new debug commands are available to troubleshoot a cable modem:  
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debug cable-modem bpkm  
debug cable-modem bpkm  
To debug baseline privacy information on a cable modem, use the debug cable-modem mac  
Privileged EXEC command. The no form of this command turns debugging messages off.  
[no] debug cable-modem bpkm {errors | events | packets}  
Syntax Description  
errors  
events  
packets  
Debugs cable modem privacy errors.  
Debugs events related to cable baseline privacy.  
Debugs baseline privacy packets.  
Command Mode  
Privileged EXEC  
Usage Guidelines  
This command first appeared in Cisco IOS Release 11.3 NA.  
Sample Display  
Figure 3 shows the required keywords within the debug cable-modem bpkm command. You must  
choose one.  
Figure 3  
Sample Debug Cable-Modem Bpkm Output  
uBR904# debug cable-modem bpkm ?  
errors  
events  
Cable Modem privacy errors  
events related to cable baseline privacy  
packets baseline privacy packets  
Figure 4 shows output when the headend does not have privacy enabled.  
Figure 4  
Sample Debug Cable-Modem Bpkm Output  
uBR904# debug cable bpkm  
cm_bpkm_fsm(): machine: KEK, event/state: EVENT_4_TIMEOUT/STATE_B_AUTH_WAIT, new state:  
STATE_B_AUTH_WAIT  
cm_bpkm_fsm(): machine: KEK, event/state: EVENT_4_TIMEOUT/STATE_B_AUTH_WAIT, new state:  
STATE_B_AUTH_WAIT  
%LINEPROTO-5-UPDOWN: Line protocol on Interface cable-modem0, changed state to down  
cm_bpkm_fsm(): machine: KEK, event/state: EVENT_1_PROVISIONED/STATE_A_START, new state:  
STATE_B_AUTH_WAIT  
%LINEPROTO-5-UPDOWN: Line protocol on Interface cable-modem0, changed state to up  
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Debug Commands  
Related Commands  
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debug cable-modem bridge  
debug cable-modem bridge  
Use the debug cable-modem bridge Privileged EXEC command to debug bridge filter processing  
information on a cable modem. The no form of this command turns debugging messages off.  
[no] debug cable-modem bridge  
Usage Guidelines  
This command first appeared in Cisco IOS Release 11.3 NA.  
When the interface is down, all bridge table entries learned on the Ethernet interface are set to discard  
because traffic is not bridged until the cable interface has completed initialization. After the interface  
is completely up (the line protocol), bridge table entries learned on the Ethernet interface program  
the cable’s MAC data filters. The cable MAC hardware filters out any received packets whose  
addresses, are not in the filters. In this way, the cable interface only receives packets addressed to its  
own MAC address or an address it has learned on the Ethernet interface.  
Sample Display  
Figure 5 shows sample display output for the debug cable-modem bridge Privileged EXEC  
command  
Figure 5  
Sample Debug Cable-Modem Bridge Output  
uBR904# debug cable-modem bridge  
%LINEPROTO-5-UPDOWN: Line protocol on Interface cable-modem0, changed state to downshut  
cm_tbridge_add_entry(): MAC not initialized, discarding entry: 00e0.fe7a.186fno shut  
cm_tbridge_add_entry(): MAC not initialized, discarding entry: 00e0.fe7a.186f  
%LINEPROTO-5-UPDOWN: Line protocol on Interface cable-modem0, changed state to up  
cm_tbridge_add_entry(): Adding entry 00e0.fe7a.186f to filter 2  
Related Commands  
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Debug Commands  
debug cable-modem error  
Use the the debug cable-modem error Privileged EXEC command to enable debugging messages  
for the cable interface driver. The no form of this command turns debugging messages off.  
[no] debug cable-modem error  
Usage Guidelines  
This command first appeared in Cisco IOS Release 11.3 NA.  
This command displays detailed output about the sanity checking of received frame formats, the  
acquisition of downstream QAM/FEC lock, the receipt or non receipt of SYNC messages from the  
CMTS, reception errors, and bandwidth request failures.  
Sample Display  
Figure 6 shows sample display output for the debug cable-modem error command.  
Figure 6  
Sample Debug Cable-Modem Error Output  
uBR904# debug cable-modem error  
*Mar 7 20:16:29: AcquireSync(): Update rate is 100 Hz  
*Mar 7 20:16:30: 1st Sync acquired after 1100 ms.  
*Mar 7 20:16:30: Recovery loop is locked (7/9)  
*Mar 7 20:16:30: 2nd Sync acquired after 100 ms.  
*Mar 7 20:16:30: Recovery loop is locked (10/15)  
Related Commands  
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debug cable-modem interrupts  
debug cable-modem interrupts  
Use the debug cable-modem interrupts command to debug cable modem interrupts. The no form  
of this command turns debugging messages off.  
[no] debug cable-modem interrupts  
Usage Guidelines  
This command first appeared in Cisco IOS Release 11.3 NA.  
Sample Display  
Figure 7 shows sample debug output for cable modem interrupts.  
Figure 7  
Sample Debug Cable-Modem Interrupts Output  
uBR904# debug cable-modem interrupts  
*** bcm3220_rx_mac_msg_interrupt ***  
*** bcm3220_rx_mac_msg_interrupt ***  
### bcm3220_tx_interrupt ###  
*** bcm3220_rx_mac_msg_interrupt ***  
### bcm3220_tx_interrupt ###  
*** bcm3220_rx_mac_msg_interrupt ***  
### bcm3220_tx_interrupt ###  
### bcm3220_tx_interrupt ###  
### bcm3220_tx_interrupt ###  
### bcm3220_tx_interrupt ###  
Related Commands  
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Debug Commands  
debug cable-modem mac  
Use the debug cable-modem mac Privileged EXEC command to troubleshoot the cable modem  
MAC layer. The no form of this command turns debugging messages off.  
[no] debug cable-modem mac {log [verbose] | messages}  
Syntax Description  
log  
Realtime MAC log display.  
verbose  
messages  
(Optional) Displays periodic MAC layer events, such as ranging.  
MAC layer management messages.  
Usage Guidelines  
This command first appeared in Cisco IOS Release 11.3 NA.  
Of all the available debug cable modem commands, the most useful is debug cable-modem mac  
log.  
Mac log messages are written to a circular log file even when debugging is not turned on. These  
messages include timestamps, events, and information pertinent to these events. Enter the debug  
cable-modem mac log command to view Mac log messages. If you want to view this information  
without entering debug mode, enter the show controller cable-modem number mac log command.  
The same information is displayed by both commands.  
If the cable modem interface fails to come up or resets periodically, the Mac log will show what  
happened. For example, if an address is not obtained from the DHCP server, an error is logged,  
initialization starts over, and the cable modem scans for a downstream frequency. The debug  
cable-modem mac log command displays the log from oldest entry to newest entry.  
After initial ranging is successful (dhcp_state has been reached), further RNG-REQ/RNG-RSP  
messages and watchdog timer entries are suppressed from output, unless the verbose keyword suffix  
is used. For example, the debug cable-modem mac log verbose command is entered. Note that  
CMAC_LOG_WATCHDOG_TIMERentries while in the maintenance_state are normal when using the  
verbose keyword.  
Sample Displays  
Figure 8 shows sample display output from the debug cable-modem mac log Privileged EXEC  
command. After the debug command is entered, the fields of the output are: the date, local time,  
seconds since bootup, the log message, and in some cases a parameter that gives more detail about  
the log entry.  
The line “0 events dropped due to lack of a chunk” at the end of a display indicates that no  
log entries were discarded due to a temporary lack of memory. This means the log is accurate and  
reliable.  
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debug cable-modem mac  
Figure 8  
Sample Debug Cable-Modem Mac Log Output  
uBR904# debug cable-modem mac log  
*Mar 7 01:42:59: 528302.040 CMAC_LOG_LINK_DOWN  
*Mar 7 01:42:59: 528302.042 CMAC_LOG_RESET_FROM_DRIVER  
*Mar 7 01:42:59: 528302.044 CMAC_LOG_STATE_CHANGE  
*Mar 7 01:42:59: 528302.046 CMAC_LOG_DRIVER_INIT_IDB_SHUTDOWN  
*Mar 7 01:42:59: 528302.048 CMAC_LOG_LINK_DOWN  
wait_for_link_up_state  
0x08098D02  
*Mar 7 01:43:05: 528308.428 CMAC_LOG_DRIVER_INIT_IDB_RESET  
*Mar 7 01:43:05: 528308.432 CMAC_LOG_LINK_DOWN  
0x08098E5E  
*Mar 7 01:43:05: 528308.434 CMAC_LOG_LINK_UP  
*Mar 7 01:43:05: 528308.436 CMAC_LOG_STATE_CHANGE  
*Mar 7 01:43:05: 528308.440 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.444 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.448 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.452 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.456 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.460 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.462 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.466 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.470 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.474 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.478 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.482 CMAC_LOG_WILL_SEARCH_DS_FREQUENCY_BAND  
*Mar 7 01:43:05: 528308.486 CMAC_LOG_WILL_SEARCH_SAVED_DS_FREQUENCY  
*Mar 7 01:43:05: 528308.488 CMAC_LOG_WILL_SEARCH_USER_DS_FREQUENCY  
*Mar 7 01:43:07: 528310.292 CMAC_LOG_DS_64QAM_LOCK_ACQUIRED  
.
ds_channel_scanning_state  
88/453000000/855000000/6000000  
89/93000000/105000000/6000000  
90/111250000/117250000/6000000  
91/231012500/327012500/6000000  
92/333015000/333015000/6000000  
93/339012500/399012500/6000000  
94/405000000/447000000/6000000  
95/123015000/129015000/6000000  
96/135012500/135012500/6000000  
97/141000000/171000000/6000000  
98/219000000/225000000/6000000  
99/177000000/213000000/6000000  
663000000  
663000000  
663000000  
.
.
528383.992 CMAC_LOG_STATE_CHANGE  
registration_state  
528384.044 CMAC_LOG_REG_REQ_MSG_QUEUED  
528384.050 CMAC_LOG_REG_REQ_TRANSMITTED  
528384.052 CMAC_LOG_REG_RSP_MSG_RCVD  
528384.078 CMAC_LOG_COS_ASSIGNED_SID  
528384.102 CMAC_LOG_RNG_REQ_QUEUED  
528384.102 CMAC_LOG_REGISTRATION_OK  
528384.102 CMAC_LOG_STATE_CHANGE  
1/4  
4
establish_privacy_state  
maintenance_state  
528384.102 CMAC_LOG_STATE_CHANGE  
528388.444 CMAC_LOG_RNG_REQ_TRANSMITTED  
528388.444 CMAC_LOG_RNG_RSP_MSG_RCVD  
528398.514 CMAC_LOG_RNG_REQ_TRANSMITTED  
528398.516 CMAC_LOG_RNG_RSP_MSG_RCVD  
528408.584 CMAC_LOG_RNG_REQ_TRANSMITTED  
528408.586 CMAC_LOG_RNG_RSP_MSG_RCVD  
528414.102 CMAC_LOG_WATCHDOG_TIMER  
528418.654 CMAC_LOG_RNG_REQ_TRANSMITTED  
528418.656 CMAC_LOG_RNG_RSP_MSG_RCVD  
528428.726 CMAC_LOG_RNG_REQ_TRANSMITTED  
528428.728 CMAC_LOG_RNG_RSP_MSG_RCVD  
528438.796 CMAC_LOG_RNG_REQ_TRANSMITTED  
528438.798 CMAC_LOG_RNG_RSP_MSG_RCVD  
528444.102 CMAC_LOG_WATCHDOG_TIMER  
528444.492 CMAC_LOG_LINK_DOWN  
528444.494 CMAC_LOG_RESET_FROM_DRIVER  
528444.494 CMAC_LOG_STATE_CHANGE  
528444.494 CMAC_LOG_DRIVER_INIT_IDB_SHUTDOWN  
528444.494 CMAC_LOG_LINK_DOWN  
wait_for_link_up_state  
0x08098D02  
528474.494 CMAC_LOG_WATCHDOG_TIMER  
528504.494 CMAC_LOG_WATCHDOG_TIMER  
528534.494 CMAC_LOG_WATCHDOG_TIMER  
0 events dropped due to lack of a chunk  
Troubleshooting Tips for the Cisco uBR904 Cable Modem 49  
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Debug Commands  
Figure 9 compares the output of the debug cable-modem mac log command with the debug  
cable-modem mac log verbose command. The keyword verbose displays periodic events such as  
ranging.  
Figure 9  
Sample Debug Cable-Modem Mac Log and Verbose Output  
uBR904# debug cable mac log  
Cable Modem mac log debugging is on  
uBR904#  
uBR904#  
uBR904# debug cable mac log verbose  
Cable Modem mac log debugging is on (verbose)  
uBR904#  
574623.810 CMAC_LOG_RNG_REQ_TRANSMITTED  
574623.812 CMAC_LOG_RNG_RSP_MSG_RCVD  
574627.942 CMAC_LOG_WATCHDOG_TIMER  
574633.880 CMAC_LOG_RNG_REQ_TRANSMITTED  
574633.884 CMAC_LOG_RNG_RSP_MSG_RCVD  
574643.950 CMAC_LOG_RNG_REQ_TRANSMITTED  
574643.954 CMAC_LOG_RNG_RSP_MSG_RCVD  
574654.022 CMAC_LOG_RNG_REQ_TRANSMITTED  
574654.024 CMAC_LOG_RNG_RSP_MSG_RCVD  
574657.978 CMAC_LOG_WATCHDOG_TIMER  
574664.094 CMAC_LOG_RNG_REQ_TRANSMITTED  
574664.096 CMAC_LOG_RNG_RSP_MSG_RCVD  
574674.164 CMAC_LOG_RNG_REQ_TRANSMITTED  
574674.166 CMAC_LOG_RNG_RSP_MSG_RCVD  
uBR904# no debug cable mac log verbose  
Cable Modem mac log debugging is off  
uBR904#  
574684.234 CMAC_LOG_RNG_REQ_TRANSMITTED  
574684.238 CMAC_LOG_RNG_RSP_MSG_RCVD  
Figure 10 shows display output for the debug cable mac messages Privileged EXEC command.  
This command causes received cable MAC management messages to be displayed in a verbose  
format. The messages that are displayed are UCD, MAP, RNG-RSP, REG-RSP and UCC. In  
addition, transmitted REG-REQs are displayed in hex dump format. The output from this command  
is very verbose and is usually not needed for normal interface debugging. The command is most  
useful when attempting to attach a cable modem to an uncertified CMTS. For a description of the  
displayed fields of each message, refer to the MCNS DOCSIS RFI spec, v1.0.  
Figure 10  
Sample Debug Cable-Modem Mac Messages Output  
uBR904# debug cable mac messages  
*Mar 7 01:44:06:  
*Mar 7 01:44:06: UCD MESSAGE  
*Mar 7 01:44:06: -----------  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
FRAME HEADER  
FC  
MAC_PARM  
LEN  
MAC MANAGEMENT MESSAGE HEADER  
DA  
SA  
msg LEN  
DSAP  
SSAP  
- 0xC2 == MAC Management  
- 0x00  
- 0xD3  
- 01E0.2F00.0001  
- 00E0.1EA5.BB60  
- C1  
- 0  
- 0  
Release 11.3(4)NA  
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debug cable-modem mac  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
CC 0D 0D  
control  
version  
type  
RSVD  
US Channel ID  
- 03  
- 01  
- 02 == UCD  
- 0  
- 1  
Configuration Change Count - 4  
Mini-Slot Size  
DS Channel ID  
Symbol Rate  
Frequency  
Preamble Pattern  
- 8  
- 1  
- 8  
- 20000000  
- CC CC CC CC CC CC CC CC CC CC CC CC CC  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
Burst Descriptor 0  
Interval Usage Code  
Modulation Type  
Differential Encoding  
Preamble Length  
Preamble Value Offset  
FEC Error Correction  
FEC Codeword Info Bytes  
Scrambler Seed  
Maximum Burst Size  
Guard Time Size  
Last Codeword Length  
Scrambler on/off  
Burst Descriptor 1  
Interval Usage Code  
Modulation Type  
Differential Encoding  
Preamble Length  
Preamble Value Offset  
FEC Error Correction  
FEC Codeword Info Bytes  
Scrambler Seed  
Maximum Burst Size  
Guard Time Size  
Last Codeword Length  
Scrambler on/off  
Burst Descriptor 2  
Interval Usage Code  
Modulation Type  
Differential Encoding  
Preamble Length  
Preamble Value Offset  
FEC Error Correction  
FEC Codeword Info Bytes  
Scrambler Seed  
Maximum Burst Size  
Guard Time Size  
Last Codeword Length  
Scrambler on/off  
Burst Descriptor 3  
Interval Usage Code  
Modulation Type  
- 1  
- 1 == QPSK  
- 2 == OFF  
- 64  
- 56  
- 0  
- 16  
- 0x0152  
- 1  
- 8  
- 1 == FIXED  
- 1 == ON  
- 3  
- 1 == QPSK  
- 2 == OFF  
- 128  
- 0  
- 5  
- 34  
- 0x0152  
- 0  
- 48  
- 1 == FIXED  
- 1 == ON  
- 4  
- 1 == QPSK  
- 2 == OFF  
- 128  
- 0  
- 5  
- 34  
- 0x0152  
- 0  
- 48  
- 1 == FIXED  
- 1 == ON  
- 5  
- 1 == QPSK  
- 2 == OFF  
- 72  
- 48  
- 5  
- 75  
- 0x0152  
- 0  
Differential Encoding  
Preamble Length  
Preamble Value Offset  
FEC Error Correction  
FEC Codeword Info Bytes  
Scrambler Seed  
Maximum Burst Size  
Guard Time Size  
Last Codeword Length  
Scrambler on/off  
- 8  
- 1 == FIXED  
- 1 == ON  
Troubleshooting Tips for the Cisco uBR904 Cable Modem 51  
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Debug Commands  
*Mar 7 01:44:06:  
*Mar 7 01:44:06: MAP MESSAGE  
*Mar 7 01:44:06: -----------  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
*Mar 7 01:44:06:  
.
FRAME HEADER  
FC  
MAC_PARM  
LEN  
EHDR  
- 0xC3 == MAC Management with Extended Header  
- 0x02  
- 0x42  
- 0x00 0x00  
MAC MANAGEMENT MESSAGE HEADER  
DA - 01E0.2F00.0001  
.
.
*Mar 7 01:44:17: RNG-RSP MESSAGE  
*Mar 7 01:44:17: ---------------  
*Mar 7 01:44:17:  
*Mar 7 01:44:17:  
*Mar 7 01:44:17:  
*Mar 7 01:44:17:  
*Mar 7 01:44:17:  
*Mar 7 01:44:17:  
.
FRAME HEADER  
FC  
MAC_PARM  
LEN  
MAC MANAGEMENT MESSAGE HEADER  
DA  
- 0xC2 == MAC Management  
- 0x00  
- 0x2B  
- 00F0.1EB2.BB61  
.
.
*Mar 7 01:44:20: REG-REQ MESSAGE  
*Mar 7 01:44:20: ---------------  
*Mar 7 01:44:20: C20000A5 000000E0 1EA5BB60 00F01EB2  
*Mar 7 01:44:20: BB610093 00000301 06000004 03010104  
*Mar 7 01:44:20: 1F010101 0204003D 09000304 001E8480  
*Mar 7 01:44:20: 04010705 04000186 A0060200 0C070101  
*Mar 7 01:44:20: 080300F0 1E112A01 04000000 0A020400  
*Mar 7 01:44:20: 00000A03 04000002 58040400 00000105  
*Mar 7 01:44:20: 04000000 01060400 00025807 04000000  
*Mar 7 01:44:20: 3C2B0563 6973636F 06105E4F C908C655  
*Mar 7 01:44:20: 61086FD5 5C9D756F 7B730710 434D5453  
*Mar 7 01:44:20: 204D4943 202D2D2D 2D2D2D2D 0C040000  
*Mar 7 01:44:20: 00000503 010100  
*Mar 7 01:44:20:  
*Mar 7 01:44:20:  
*Mar 7 01:44:20: REG-RSP MESSAGE  
*Mar 7 01:44:20: ---------------  
*Mar 7 01:44:20:  
*Mar 7 01:44:20:  
*Mar 7 01:44:20:  
*Mar 7 01:44:20:  
*Mar 7 01:44:20:  
*Mar 7 01:44:20:  
.
FRAME HEADER  
FC  
MAC_PARM  
LEN  
MAC MANAGEMENT MESSAGE HEADER  
DA  
- 0xC2 == MAC Management  
- 0x00  
- 0x29  
- 00F0.1EB2.BB61  
.
.
Related Commands  
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debug cable-modem map  
debug cable-modem map  
Use the debug cable-modem map Privileged EXEC command to display the timing from MAP  
messages to sync messages and the timing between MAP messages. The no form of this command  
disables debugging output.  
[no] debug cable-modem map  
Usage Guidelines  
This command first appeared in Cisco IOS Release 11.3 NA.  
Sample Display  
Figure 11 shows display output for the debug cable map Privileged EXEC command.  
Figure 11  
Sample Debug Cable-Modem Map Output  
uBR904# debug cable-modem map  
Cable Modem MAP debugging is on  
uBR904#  
*Mar 7 20:12:08: 595322.942: Min MAP to sync=72  
*Mar 7 20:12:08: 595322.944: Max map to map time is 40  
*Mar 7 20:12:08: 595322.982: Min MAP to sync=63  
*Mar 7 20:12:08: 595323.110: Max map to map time is 41  
*Mar 7 20:12:08: 595323.262: Min MAP to sync=59  
*Mar 7 20:12:08: 595323.440: Max map to map time is 46  
*Mar 7 20:12:09: 595323.872: Min MAP to sync=58  
Related Commands  
Troubleshooting Tips for the Cisco uBR904 Cable Modem 53  
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What to do Next  
What to do Next  
For more troubleshooting tips, see the chapter “Troubleshooting the Installation” in the Cisco Cable  
Modem Installation and Configuration Guide.  
Release 11.3(4)NA  
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