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debug ip icmp
Hey Folks,
I'm debugging my pings and I only get ICMP echoes going one way even though the pings are successful. Why is that? According to cisco documentation I should get output of echoes going both ways.
Is there a way to configure the debug ip icmp command to give me the output I want?
Thanks in advance
I'm debugging my pings and I only get ICMP echoes going one way even though the pings are successful. Why is that? According to cisco documentation I should get output of echoes going both ways.
Is there a way to configure the debug ip icmp command to give me the output I want?
Thanks in advance
Gimme gimme gimme
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Paul Boz
Member Posts: 2,620 ■■■■■■■■□□
I just tested it and found that I'm also only getting ICMP traps in one direction, so I turned on ICMP debugging on both devices (originator and target) and saw the complete sequence of send/receives.R4#ping 192.168.1.2 Type escape sequence to abort. Sending 5, 100-byte ICMP Echos to 192.168.1.2, timeout is 2 seconds: !!!!! Success rate is 100 percent (5/5), round-trip min/avg/max = 72/108/156 ms R4# 02:19:18: ICMP: echo reply rcvd, src 192.168.1.2, dst 192.168.3.2 02:19:18: ICMP: echo reply rcvd, src 192.168.1.2, dst 192.168.3.2 02:19:18: ICMP: echo reply rcvd, src 192.168.1.2, dst 192.168.3.2 02:19:18: ICMP: echo reply rcvd, src 192.168.1.2, dst 192.168.3.2 02:19:18: ICMP: echo reply rcvd, src 192.168.1.2, dst 192.168.3.2 R4#
R1# 02:21:58: ICMP: echo reply sent, src 192.168.1.2, dst 192.168.3.2 02:21:58: ICMP: echo reply sent, src 192.168.1.2, dst 192.168.3.2 02:21:58: ICMP: echo reply sent, src 192.168.1.2, dst 192.168.3.2 02:21:58: ICMP: echo reply sent, src 192.168.1.2, dst 192.168.3.2 02:21:58: ICMP: echo reply sent, src 192.168.1.2, dst 192.168.3.2 R1#
Basically you ARE seeing both sides. the !!!!! confirms that the packets were sent, and the debug confirms the reply.CCNP | CCIP | CCDP | CCNA, CCDA
CCNA Security | GSEC |GCFW | GCIH | GCIA
pbosworth@gmail.com
http://twitter.com/paul_bosworth
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Paul#4
Inactive Imported Users Posts: 57 ■■□□□□□□□□
Good idea Paul.
So this means the ICMP Echo Requests are not being captured by the debug ip ICMP command.
The Echo Replies are working....
I guess we know they are being sent because of the ping command, but I thought we would be able to monitor them with debug ip icmp. Thanks for the help.
This kind of sucks but I guess thats the way it works. Gimme gimme gimme -
OptionsPaul Boz
Member Posts: 2,620 ■■■■■■■■□□
I think the reasoning is that well, you know where you want your packets to go, and you more than likely know the interface they're leaving (I hope so at least) so just by telling you that the ICMP pings are completing (!!!!!) it's giving you all you really need to know.CCNP | CCIP | CCDP | CCNA, CCDA
CCNA Security | GSEC |GCFW | GCIH | GCIA
pbosworth@gmail.com
http://twitter.com/paul_bosworth
Blog: http://www.infosiege.net/ -
Optionstech-airman
Member Posts: 953
Paul#4 wrote:Hey Folks,
I'm debugging my pings and I only get ICMP echoes going one way even though the pings are successful. Why is that? According to cisco documentation I should get output of echoes going both ways.
Is there a way to configure the debug ip icmp command to give me the output I want?
Thanks in advance
Paul#4,
Questions:- Which model of router are you pinging from?
- Which IOS version do you have running on the router?
- What "cisco documentation" are you referring to?
Here's what my Cisco 2621 router running IOS version 12.2(5d) said. 172.16.185.254 is the IP address for the router's fa0/1 interface. 192.168.0.1 is the IP address for my DSL modem.>en Password: #debug ? aaa AAA Authentication, Authorization and Accounting access-expression Boolean access expression adjacency adjacency all Enable all debugging arp IP ARP and HP Probe transactions async Async interface information backup Backup events bri-interface bri network interface events callback Callback activity cca CCA activity cdapi CDAPI information cdp CDP information chat Chat scripts activity compress COMPRESS traffic condition Condition confmodem Modem configuration database conn Connection Manager information cops COPS cpp Cpp information custom-queue Custom output queueing dhcp DHCP client activity dialer Dial on Demand dnsix Dnsix information domain Domain Name System dxi atm-dxi information eigrp EIGRP Protocol information entry Incoming queue entries ethernet-interface Ethernet network interface events fastethernet Fast Ethernet interface information frame-relay Frame Relay interface interface ip IP information isdn ISDN information lapb LAPB protocol transactions lex LAN Extender protocol list Set interface or/and access list for the next debug command llc2 LLC2 type II Information modem Modem control/process activation nhrp NHRP protocol ntp NTP information nvram Debug NVRAM behavior packet Log unknown packets pad X25 PAD protocol ppp PPP (Point to Point Protocol) information printer LPD printer protocol priority Priority output queueing probe HP Probe Proxy Requests qdm QoS Device Manager radius RADIUS protocol rif RIF cache transactions rtr RTR Monitor Information serial Serial interface information smf Software MAC filter snapshot Snapshot activity snmp SNMP information spanning-tree Spanning tree debugging standby Hot standby protocol tacacs TACACS authentication and authorization tbridge Transparent Bridging telnet Incoming telnet connections template Template activity tftp TFTP debugging tgrm Trunk Group Resource Manager info token Token Ring information tunnel Generic Tunnel Interface udptn UDPtn async data transport v120 V120 information vprofile Virtual Profile information vtemplate Virtual Template information x25 X.25, CMNS and XOT information x28 X28 mode #debug ip ? bgp BGP information cache IP cache operations cef IP CEF operations cgmp CGMP protocol activity dhcp Dynamic Host Configuration Protocol drp Director response protocol dvmrp DVMRP protocol activity egp EGP information eigrp IP-EIGRP information error IP error debugging flow IP Flow switching operations ftp FTP dialogue html HTML connections http HTTP connections icmp ICMP transactions igmp IGMP protocol activity igrp IGRP information interface IP interface configuration changes mbgp MBGP information mcache IP multicast cache operations mhbeat IP multicast heartbeat monitoring mpacket IP multicast packet debugging mrm IP Multicast Routing Monitor mrouting IP multicast routing table activity msdp Multicast Source Discovery Protocol (MSDP) mtag IP multicast tagswitching activity nat NAT events nbar StILE - traffic classification Engine ospf OSPF information packet General IP debugging and IPSO security transactions peer IP peer address activity pim PIM protocol activity policy Policy routing rgmp RGMP protocol activity rip RIP protocol transactions routing Routing table events rsvp RSVP protocol activity rtp RTP information sd Session Directory (SD) security IP security options socket Socket event tcp TCP information tempacl IP temporary ACL trigger-authentication Trigger authentication udp UDP based transactions urd URL RenDezvous (URD) wccp WCCP information #debug ip icmp ? <cr> #debug ip icmp
Looks like for me, "#debug ip icmp" is as "deep" as I can get for the command. Here's some router output when I ping: 1) the ip address for one of the router's interfaces and 2) the ip address for another router.#debug ip icmp ICMP packet debugging is on #ping 172.16.185.254 Type escape sequence to abort. Sending 5, 100-byte ICMP Echos to 172.16.185.254, timeout is 2 seconds: !!!!! Success rate is 100 percent (5/5), round-trip min/avg/max = 1/2/4 ms # 1y27w: ICMP: echo reply sent, src 172.16.185.254, dst 172.16.185.254 1y27w: ICMP: echo reply rcvd, src 172.16.185.254, dst 172.16.185.254 1y27w: ICMP: echo reply sent, src 172.16.185.254, dst 172.16.185.254 1y27w: ICMP: echo reply rcvd, src 172.16.185.254, dst 172.16.185.254 1y27w: ICMP: echo reply sent, src 172.16.185.254, dst 172.16.185.254 1y27w: ICMP: echo reply rcvd, src 172.16.185.254, dst 172.16.185.254 1y27w: ICMP: echo reply sent, src 172.16.185.254, dst 172.16.185.254 1y27w: ICMP: echo reply rcvd, src 172.16.185.254, dst 172.16.185.254 1y27w: ICMP: echo reply sent, src 172.16.185.254, dst 172.16.185.254 1y27w: ICMP: echo reply rcvd, src 172.16.185.254, dst 172.16.185.254 #ping 192.168.0.1 Type escape sequence to abort. Sending 5, 100-byte ICMP Echos to 192.168.0.1, timeout is 2 seconds: !!!!! Success rate is 100 percent (5/5), round-trip min/avg/max = 1/2/4 ms # 1y27w: ICMP: echo reply rcvd, src 192.168.0.1, dst 192.168.1.2 1y27w: ICMP: echo reply rcvd, src 192.168.0.1, dst 192.168.1.2 1y27w: ICMP: echo reply rcvd, src 192.168.0.1, dst 192.168.1.2 1y27w: ICMP: echo reply rcvd, src 192.168.0.1, dst 192.168.1.2 1y27w: ICMP: echo reply rcvd, src 192.168.0.1, dst 192.168.1.2
The key words that you see are "echo reply." That means "#debug ip icmp" only tracks the "echo reply" packets from the destination back to the source.
In order for your to "see what you want" is for you to turn on "#debug ip packet detail" and look out for the lines with "ICMP type=8" like the following....#ping 172.16.185.254 Type escape sequence to abort. Sending 5, 100-byte ICMP Echos to 172.16.185.254, timeout is 2 seconds: !!!!! Success rate is 100 percent (5/5), round-trip min/avg/max = 4/5/8 ms # 1y27w: IP: s=172.16.185.254 (local), d=172.16.185.254 (FastEthernet0/1), len 100 , sending 1y27w: ICMP type=8, code=0 1y27w: IP: s=172.16.185.254 (FastEthernet0/1), d=172.16.185.254 (FastEthernet0/1 ), len 100, rcvd 3 1y27w: ICMP type=8, code=0 1y27w: IP: s=172.16.185.254 (local), d=172.16.185.254 (FastEthernet0/1), len 100 , sending 1y27w: ICMP type=0, code=0 1y27w: IP: s=172.16.185.254 (FastEthernet0/1), d=172.16.185.254 (FastEthernet0/1 ), len 100, rcvd 3 1y27w: ICMP type=0, code=0 1y27w: IP: s=172.16.185.254 (local), d=172.16.185.254 (FastEthernet0/1), len 100 , sending 1y27w: ICMP type=8, code=0 1y27w: IP: s=172.16.185.254 (FastEthernet0/1), d=172.16.185.254 (FastEthernet0/1 ), len 100, rcvd 3 1y27w: ICMP type=8, code=0 1y27w: IP: s=172.16.185.254 (local), d=172.16.185.254 (FastEthernet0/1), len 100 , sending 1y27w: ICMP type=0, code=0 1y27w: IP: s=172.16.185.254 (FastEthernet0/1), d=172.16.185.254 (FastEthernet0/1 ), len 100, rcvd 3 1y27w: ICMP type=0, code=0 1y27w: IP: s=172.16.185.254 (local), d=172.16.185.254 (FastEthernet0/1), len 100 , sending 1y27w: ICMP type=8, code=0 1y27w: IP: s=172.16.185.254 (FastEthernet0/1), d=172.16.185.254 (FastEthernet0/1 ), len 100, rcvd 3 1y27w: ICMP type=8, code=0 1y27w: IP: s=172.16.185.254 (local), d=172.16.185.254 (FastEthernet0/1), len 100 , sending 1y27w: ICMP type=0, code=0 1y27w: IP: s=172.16.185.254 (FastEthernet0/1), d=172.16.185.254 (FastEthernet0/1 ), len 100, rcvd 3 1y27w: ICMP type=0, code=0 1y27w: IP: s=172.16.185.254 (local), d=172.16.185.254 (FastEthernet0/1), len 100 , sending 1y27w: ICMP type=8, code=0 1y27w: IP: s=172.16.185.254 (FastEthernet0/1), d=172.16.185.254 (FastEthernet0/1 ), len 100, rcvd 3 1y27w: ICMP type=8, code=0 1y27w: IP: s=172.16.185.254 (local), d=172.16.185.254 (FastEthernet0/1), len 100 , sending 1y27w: ICMP type=0, code=0 1y27w: IP: s=172.16.185.254 (FastEthernet0/1), d=172.16.185.254 (FastEthernet0/1 ), len 100, rcvd 3 1y27w: ICMP type=0, code=0 1y27w: IP: s=172.16.185.254 (local), d=172.16.185.254 (FastEthernet0/1), len 100 , sending 1y27w: ICMP type=8, code=0 1y27w: IP: s=172.16.185.254 (FastEthernet0/1), d=172.16.185.254 (FastEthernet0/1 ), len 100, rcvd 3 1y27w: ICMP type=8, code=0 1y27w: IP: s=172.16.185.254 (local), d=172.16.185.254 (FastEthernet0/1), len 100 , sending 1y27w: ICMP type=0, code=0 1y27w: IP: s=172.16.185.254 (FastEthernet0/1), d=172.16.185.254 (FastEthernet0/1 ), len 100, rcvd 3 1y27w: ICMP type=0, code=0
However, pinging an IP address of another router even with "#debug ip packet detail", I couldn't see any sending or receiving of neither ICMP packets of type 8 nor ICMP packets of type 0.
So based on "#debug ip icmp" and "#debug ip packet detail", I do not know how to obtain "...output of echos going both ways."
So I have to ask again what "cisco document" are you referring to when you said "According to cisco documentation I should get output of echoes going both ways."?
Source:- Understanding the Ping and Traceroute Commands - Cisco Systems - http://www.cisco.com/en/US/products/sw/iosswrel/ps1831/products_tech_note09186a00800a6057.shtml
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dtlokee
Member Posts: 2,378 ■■■■□□□□□□
Depending on where the router is located in the path it could be a fast switching issue where the router is fast switching the packets so they are not shown in the debug output. Try using the "no ip route-cache" command to see if it changes.The only easy day was yesterday!