このコンテンツは選択した言語では利用できません。
Chapter 16. Troubleshooting AMQ Interconnect
You can use the AMQ Interconnect logs to diagnose and troubleshoot error and performance issues with the routers in your router network.
16.1. Viewing log entries
You may need to view log entries to diagnose errors, performance problems, and other important issues. A log entry consists of an optional timestamp, the logging module, the logging level, and the log message.
Procedure
Do one of the following:
View log entries on the console.
By default, events are logged to the console, and you can view them there. However, if the
output
attribute is set for a particular logging module, then you can find those log entries in the specified location (stderr
,syslog
, or a file).Use the
qdstat --log
command to view recent log entries.You can use the
--limit
parameter to limit the number of log entries that are displayed. For more information aboutqdstat
, see qdstat man page.This example displays the last three log entries for
Router.A
:$ qdstat --log --limit=3 -r ROUTER.A Wed Jun 7 17:49:32 2019 ROUTER (none) Core action 'link_deliver' Wed Jun 7 17:49:32 2019 ROUTER (none) Core action 'send_to' Wed Jun 7 17:49:32 2019 SERVER (none) [2]:0 -> @flow(19) [next-incoming-id=1, incoming-window=61, next-outgoing-id=0, outgoing-window=2147483647, handle=0, delivery-count=1, link-credit=250, drain=false]
vhost
entries are only populated if multiTenant
is set to true
in the /etc/qpid-dispatch/qdrouterd.conf
configuration file.
Additional resources
- For more information about configuring logging modules, see Section 11.2, “Configuring default logging”.
16.2. Troubleshooting using logs
You can use AMQ Interconnect log entries to help diagnose error and performance issues with the routers in your network.
Example 16.1. Troubleshooting connections and links
In this example, ROUTER
logs show the lifecycle of a connection and a link that is associated with it.
2019-04-05 14:54:38.037248 -0400 ROUTER (info) [C1] Connection Opened: dir=in host=127.0.0.1:55440 vhost= encrypted=no auth=no user=anonymous container_id=95e55424-6c0a-4a5c-8848-65a3ea5cc25a props= 1 2019-04-05 14:54:38.038137 -0400 ROUTER (info) [C1][L6] Link attached: dir=in source={<none> expire:sess} target={$management expire:sess} 2 2019-04-05 14:54:38.041103 -0400 ROUTER (info) [C1][L6] Link lost: del=1 presett=0 psdrop=0 acc=1 rej=0 rel=0 mod=0 delay1=0 delay10=0 3 2019-04-05 14:54:38.041154 -0400 ROUTER (info) [C1] Connection Closed 4
- 1
- The connection is opened. Each connection has a unique ID (
C1
). The log also shows some information about the connection. - 2
- A link is attached over the connection. The link is identified with a unique ID (
L6
). The log also shows the direction of the link, and the source and target addresses. - 3
- The link is detached. The log shows the link’s terminal statistics.
- 4
- The connection is closed.
If necessary, you can use qdmanage
to enable protocol-level trace logging for a particular connection. You can use this to trace the AMQP frames. For example:
$ qdmanage update --type=connection --id=C1 enableProtocolTrace=true
Example 16.2. Troubleshooting the network topology
In this example, on Router.A
, the ROUTER_HELLO
logs show that it is connected to Router.B
, and that Router.B
is connected to Router.A
and Router.C
:
Tue Jun 7 13:50:21 2016 ROUTER_HELLO (trace) RCVD: HELLO(id=Router.B area=0 inst=1465307413 seen=['Router.A', 'Router.C']) 1 Tue Jun 7 13:50:21 2016 ROUTER_HELLO (trace) SENT: HELLO(id=Router.A area=0 inst=1465307416 seen=['Router.B']) 2 Tue Jun 7 13:50:22 2016 ROUTER_HELLO (trace) RCVD: HELLO(id=Router.B area=0 inst=1465307413 seen=['Router.A', 'Router.C']) Tue Jun 7 13:50:22 2016 ROUTER_HELLO (trace) SENT: HELLO(id=Router.A area=0 inst=1465307416 seen=['Router.B'])
On Router.B
, the ROUTER_HELLO
log shows the same router topology from a different perspective:
Tue Jun 7 13:50:18 2016 ROUTER_HELLO (trace) SENT: HELLO(id=Router.B area=0 inst=1465307413 seen=['Router.A', 'Router.C']) 1 Tue Jun 7 13:50:18 2016 ROUTER_HELLO (trace) RCVD: HELLO(id=Router.A area=0 inst=1465307416 seen=['Router.B']) 2 Tue Jun 7 13:50:19 2016 ROUTER_HELLO (trace) RCVD: HELLO(id=Router.C area=0 inst=1465307411 seen=['Router.B']) 3
Example 16.3. Tracing the link state between routers
Periodically, each router sends a Link State Request (LSR) to the other routers and receives a Link State Update (LSU) with the requested information. Exchanging the above information, each router can compute the next hops in the topology, and the related costs.
In this example, the ROUTER_LS
logs show the RA, LSR, and LSU messages sent between three routers:
Tue Jun 7 14:10:02 2016 ROUTER_LS (trace) SENT: LSR(id=Router.A area=0) to: Router.C Tue Jun 7 14:10:02 2016 ROUTER_LS (trace) SENT: LSR(id=Router.A area=0) to: Router.B Tue Jun 7 14:10:02 2016 ROUTER_LS (trace) SENT: RA(id=Router.A area=0 inst=1465308600 ls_seq=1 mobile_seq=1) 1 Tue Jun 7 14:10:02 2016 ROUTER_LS (trace) RCVD: LSU(id=Router.B area=0 inst=1465308595 ls_seq=2 ls=LS(id=Router.B area=0 ls_seq=2 peers={'Router.A': 1L, 'Router.C': 1L})) 2 Tue Jun 7 14:10:02 2016 ROUTER_LS (trace) RCVD: LSR(id=Router.B area=0) Tue Jun 7 14:10:02 2016 ROUTER_LS (trace) SENT: LSU(id=Router.A area=0 inst=1465308600 ls_seq=1 ls=LS(id=Router.A area=0 ls_seq=1 peers={'Router.B': 1})) Tue Jun 7 14:10:02 2016 ROUTER_LS (trace) RCVD: RA(id=Router.C area=0 inst=1465308592 ls_seq=1 mobile_seq=0) Tue Jun 7 14:10:02 2016 ROUTER_LS (trace) SENT: LSR(id=Router.A area=0) to: Router.C Tue Jun 7 14:10:02 2016 ROUTER_LS (trace) RCVD: LSR(id=Router.C area=0) 3 Tue Jun 7 14:10:02 2016 ROUTER_LS (trace) SENT: LSU(id=Router.A area=0 inst=1465308600 ls_seq=1 ls=LS(id=Router.A area=0 ls_seq=1 peers={'Router.B': 1})) Tue Jun 7 14:10:02 2016 ROUTER_LS (trace) RCVD: LSU(id=Router.C area=0 inst=1465308592 ls_seq=1 ls=LS(id=Router.C area=0 ls_seq=1 peers={'Router.B': 1L})) 4 Tue Jun 7 14:10:03 2016 ROUTER_LS (trace) Computed next hops: {'Router.C': 'Router.B', 'Router.B': 'Router.B'} 5 Tue Jun 7 14:10:03 2016 ROUTER_LS (trace) Computed costs: {'Router.C': 2L, 'Router.B': 1} Tue Jun 7 14:10:03 2016 ROUTER_LS (trace) Computed valid origins: {'Router.C': [], 'Router.B': []}
- 1
Router.A
sent LSR requests and an RA advertisement to the other routers on the network.- 2
Router.A
received an LSU fromRouter.B
, which has two peers:Router.A
, andRouter.C
(with a cost of1
).- 3
Router.A
received an LSR from bothRouter.B
andRouter.C
, and replied with an LSU.- 4
Router.A
received an LSU fromRouter.C
, which only has one peer:Router.B
(with a cost of1
).- 5
- After the LSR and LSU messages are exchanged,
Router.A
computed the router topology with the related costs.
Example 16.4. Tracing the state of mobile addresses attached to a router
In this example, the ROUTER_MA
logs show the Mobile Address Request (MAR) and Mobile Address Update (MAU) messages sent between three routers:
Tue Jun 7 14:27:20 2016 ROUTER_MA (trace) SENT: MAU(id=Router.A area=0 mobile_seq=1 add=['Cmy_queue', 'Dmy_queue', 'M0my_queue_wp'] del=[]) 1 Tue Jun 7 14:27:21 2016 ROUTER_MA (trace) RCVD: MAR(id=Router.C area=0 have_seq=0) 2 Tue Jun 7 14:27:21 2016 ROUTER_MA (trace) SENT: MAU(id=Router.A area=0 mobile_seq=1 add=['Cmy_queue', 'Dmy_queue', 'M0my_queue_wp'] del=[]) Tue Jun 7 14:27:22 2016 ROUTER_MA (trace) RCVD: MAR(id=Router.B area=0 have_seq=0) 3 Tue Jun 7 14:27:22 2016 ROUTER_MA (trace) SENT: MAU(id=Router.A area=0 mobile_seq=1 add=['Cmy_queue', 'Dmy_queue', 'M0my_queue_wp'] del=[]) Tue Jun 7 14:27:39 2016 ROUTER_MA (trace) RCVD: MAU(id=Router.C area=0 mobile_seq=1 add=['M0my_test'] del=[]) 4 Tue Jun 7 14:27:51 2016 ROUTER_MA (trace) RCVD: MAU(id=Router.C area=0 mobile_seq=2 add=[] del=['M0my_test']) 5
- 1
Router.A
sent MAU messages to the other routers in the network to notify them about the addresses added formy_queue
andmy_queue_wp
.- 2
Router.A
received a MAR message in response fromRouter.C
.- 3
Router.A
received another MAR message in response fromRouter.B
.- 4
Router.C
sent a MAU message to notify the other routers that it added and address formy_test
.- 5
Router.C
sent another MAU message to notify the other routers that it deleted the address formy_test
(because the receiver is detached).
Example 16.5. Finding information about messages sent and received by a router
In this example, the MESSAGE
logs show that Router.A
has sent and received some messages related to the Hello protocol, and sent and received some other messages on a link for a mobile address:
Tue Jun 7 14:36:54 2016 MESSAGE (trace) Sending Message{to='amqp:/_topo/0/Router.B/qdrouter' body='\d1\00\00\00\1b\00\00\00\04\a1\02id\a1\08R'} on link qdlink.p9XmBm19uDqx50R Tue Jun 7 14:36:54 2016 MESSAGE (trace) Received Message{to='amqp:/_topo/0/Router.A/qdrouter' body='\d1\00\00\00\8e\00\00\00 \a1\06ls_se'} on link qdlink.phMsJOq7YaFsGAG Tue Jun 7 14:36:54 2016 MESSAGE (trace) Received Message{ body='\d1\00\00\00\10\00\00\00\02\a1\08seque'} on link qdlink.FYHqBX+TtwXZHfV Tue Jun 7 14:36:54 2016 MESSAGE (trace) Sending Message{ body='\d1\00\00\00\10\00\00\00\02\a1\08seque'} on link qdlink.yU1tnPs5KbMlieM Tue Jun 7 14:36:54 2016 MESSAGE (trace) Sending Message{to='amqp:/_local/qdhello' body='\d1\00\00\00G\00\00\00\08\a1\04seen\d0'} on link qdlink.p9XmBm19uDqx50R Tue Jun 7 14:36:54 2016 MESSAGE (trace) Sending Message{to='amqp:/_topo/0/Router.C/qdrouter' body='\d1\00\00\00\1b\00\00\00\04\a1\02id\a1\08R'} on link qdlink.p9XmBm19uDqx50R
Example 16.6. Tracking configuration changes to a router
In this example, the AGENT
logs show that on Router.A
, address
, linkRoute
, and autoLink
entities were added to the router’s configuration file. When the router was started, the AGENT
module applied these changes, and they are now viewable in the log:
Tue Jun 7 15:07:32 2016 AGENT (debug) Add entity: ConnectorEntity(addr=127.0.0.1, allowRedirect=True, cost=1, host=127.0.0.1, identity=connector/127.0.0.1:5672:BROKER, idleTimeoutSeconds=16, maxFrameSize=65536, name=BROKER, port=5672, role=route-container, stripAnnotations=both, type=org.apache.qpid.dispatch.connector, verifyHostname=True) Tue Jun 7 15:07:32 2016 AGENT (debug) Add entity: RouterConfigAddressEntity(distribution=closest, identity=router.config.address/0, name=router.config.address/0, prefix=my_address, type=org.apache.qpid.dispatch.router.config.address, waypoint=False) Tue Jun 7 15:07:32 2016 AGENT (debug) Add entity: RouterConfigAddressEntity(distribution=balanced, identity=router.config.address/1, name=router.config.address/1, prefix=my_queue_wp, type=org.apache.qpid.dispatch.router.config.address, waypoint=True) Tue Jun 7 15:07:32 2016 AGENT (debug) Add entity: RouterConfigLinkrouteEntity(connection=BROKER, direction=in, distribution=linkBalanced, identity=router.config.linkRoute/0, name=router.config.linkRoute/0, prefix=my_queue, type=org.apache.qpid.dispatch.router.config.linkRoute) Tue Jun 7 15:07:32 2016 AGENT (debug) Add entity: RouterConfigLinkrouteEntity(connection=BROKER, direction=out, distribution=linkBalanced, identity=router.config.linkRoute/1, name=router.config.linkRoute/1, prefix=my_queue, type=org.apache.qpid.dispatch.router.config.linkRoute) Tue Jun 7 15:07:32 2016 AGENT (debug) Add entity: RouterConfigAutolinkEntity(address=my_queue_wp, connection=BROKER, direction=in, identity=router.config.autoLink/0, name=router.config.autoLink/0, type=org.apache.qpid.dispatch.router.config.autoLink) Tue Jun 7 15:07:32 2016 AGENT (debug) Add entity: RouterConfigAutolinkEntity(address=my_queue_wp, connection=BROKER, direction=out, identity=router.config.autoLink/1, name=router.config.autoLink/1, type=org.apache.qpid.dispatch.router.config.autoLink)
Example 16.7. Troubleshooting policy and vhost access rules
In this example, the POLICY
logs show that this router has no limits on maximum connections, and the default application policy is disabled:
Tue Jun 7 15:07:32 2016 POLICY (info) Policy configured maximumConnections: 0, policyFolder: '', access rules enabled: 'false' Tue Jun 7 15:07:32 2016 POLICY (info) Policy fallback defaultApplication is disabled
Example 16.8. Diagnosing errors
In this example, the ERROR
logs show that the router failed to start when an incorrect path was specified for the router’s configuration file:
$ qdrouterd --conf my_config Wed Jun 15 09:53:28 2016 ERROR (error) Python: Exception: Cannot load configuration file my_config: [Errno 2] No such file or directory: 'my_config' Wed Jun 15 09:53:28 2016 ERROR (error) Traceback (most recent call last): File "/usr/lib/qpid-dispatch/python/qpid_dispatch_internal/management/config.py", line 155, in configure_dispatch config = Config(filename) File "/usr/lib/qpid-dispatch/python/qpid_dispatch_internal/management/config.py", line 41, in __init__ self.load(filename, raw_json) File "/usr/lib/qpid-dispatch/python/qpid_dispatch_internal/management/config.py", line 123, in load with open(source) as f: Exception: Cannot load configuration file my_config: [Errno 2] No such file or directory: 'my_config' Wed Jun 15 09:53:28 2016 MAIN (critical) Router start-up failed: Python: Exception: Cannot load configuration file my_config: [Errno 2] No such file or directory: 'my_config' qdrouterd: Python: Exception: Cannot load configuration file my_config: [Errno 2] No such file or directory: 'my_config'
Additional resources
- For more information about logging modules, see Section 11.1, “Logging modules”.