Debugging and Reporting Bugs in Contiv-VPP ========================================== Bug Report Structure -------------------- - `Deployment description <#describe-deployment>`__: Briefly describes the deployment, where an issue was spotted, number of k8s nodes, is DHCP/STN/TAP used. - `Logs <#collecting-the-logs>`__: Attach corresponding logs, at least from the vswitch pods. - `VPP config <#inspect-vpp-config>`__: Attach output of the show commands. - `Basic Collection Example <#basic-example>`__ Describe Deployment ~~~~~~~~~~~~~~~~~~~ Since contiv-vpp can be used with different configurations, it is helpful to attach the config that was applied. Either attach ``values.yaml`` passed to the helm chart, or attach the `corresponding part `__ from the deployment yaml file. .. code:: yaml contiv.yaml: |- TCPstackDisabled: true UseTAPInterfaces: true TAPInterfaceVersion: 2 NatExternalTraffic: true MTUSize: 1500 IPAMConfig: PodSubnetCIDR: 10.1.0.0/16 PodNetworkPrefixLen: 24 PodIfIPCIDR: 10.2.1.0/24 VPPHostSubnetCIDR: 172.30.0.0/16 VPPHostNetworkPrefixLen: 24 NodeInterconnectCIDR: 192.168.16.0/24 VxlanCIDR: 192.168.30.0/24 NodeInterconnectDHCP: False Information that might be helpful: - Whether node IPs are statically assigned, or if DHCP is used - STN is enabled - Version of TAP interfaces used - Output of ``kubectl get pods -o wide --all-namespaces`` Collecting the Logs ~~~~~~~~~~~~~~~~~~~ The most essential thing that needs to be done when debugging and **reporting an issue** in Contiv-VPP is **collecting the logs from the contiv-vpp vswitch containers**. a) Collecting Vswitch Logs Using kubectl ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ In order to collect the logs from individual vswitches in the cluster, connect to the master node and then find the POD names of the individual vswitch containers: :: $ kubectl get pods --all-namespaces | grep vswitch kube-system contiv-vswitch-lqxfp 2/2 Running 0 1h kube-system contiv-vswitch-q6kwt 2/2 Running 0 1h Then run the following command, with *pod name* replaced by the actual POD name: :: $ kubectl logs -n kube-system -c contiv-vswitch Redirect the output to a file to save the logs, for example: :: kubectl logs contiv-vswitch-lqxfp -n kube-system -c contiv-vswitch > logs-master.txt b) Collecting Vswitch Logs Using Docker ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ If option a) does not work, then you can still collect the same logs using the plain docker command. For that, you need to connect to each individual node in the k8s cluster, and find the container ID of the vswitch container: :: $ docker ps | grep contivvpp/vswitch b682b5837e52 contivvpp/vswitch "/usr/bin/supervisor…" 2 hours ago Up 2 hours k8s_contiv-vswitch_contiv-vswitch-q6kwt_kube-system_d09b6210-2903-11e8-b6c9-08002723b076_0 Now use the ID from the first column to dump the logs into the ``logs-master.txt`` file: :: $ docker logs b682b5837e52 > logs-master.txt Reviewing the Vswitch Logs ^^^^^^^^^^^^^^^^^^^^^^^^^^ In order to debug an issue, it is good to start by grepping the logs for the ``level=error`` string, for example: :: $ cat logs-master.txt | grep level=error Also, VPP or contiv-agent may crash with some bugs. To check if some process crashed, grep for the string ``exit``, for example: :: $ cat logs-master.txt | grep exit 2018-03-20 06:03:45,948 INFO exited: vpp (terminated by SIGABRT (core dumped); not expected) 2018-03-20 06:03:48,948 WARN received SIGTERM indicating exit request Collecting the STN Daemon Logs ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ In STN (Steal The NIC) deployment scenarios, often need to collect and review the logs from the STN daemon. This needs to be done on each node: :: $ docker logs contiv-stn > logs-stn-master.txt Collecting Logs in Case of Crash Loop ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ If the vswitch is crashing in a loop (which can be determined by increasing the number in the ``RESTARTS`` column of the ``kubectl get pods --all-namespaces`` output), the ``kubectl logs`` or ``docker logs`` would give us the logs of the latest incarnation of the vswitch. That might not be the original root cause of the very first crash, so in order to debug that, we need to disable k8s health check probes to not restart the vswitch after the very first crash. This can be done by commenting-out the ``readinessProbe`` and ``livenessProbe`` in the contiv-vpp deployment YAML: .. code:: diff diff --git a/k8s/contiv-vpp.yaml b/k8s/contiv-vpp.yaml index 3676047..ffa4473 100644 --- a/k8s/contiv-vpp.yaml +++ b/k8s/contiv-vpp.yaml @@ -224,18 +224,18 @@ spec: ports: # readiness + liveness probe - containerPort: 9999 - readinessProbe: - httpGet: - path: /readiness - port: 9999 - periodSeconds: 1 - initialDelaySeconds: 15 - livenessProbe: - httpGet: - path: /liveness - port: 9999 - periodSeconds: 1 - initialDelaySeconds: 60 + # readinessProbe: + # httpGet: + # path: /readiness + # port: 9999 + # periodSeconds: 1 + # initialDelaySeconds: 15 + # livenessProbe: + # httpGet: + # path: /liveness + # port: 9999 + # periodSeconds: 1 + # initialDelaySeconds: 60 env: - name: MICROSERVICE_LABEL valueFrom: If VPP is the crashing process, please follow the [CORE_FILES](CORE_FILES.html) guide and provide the coredump file. Inspect VPP Config ~~~~~~~~~~~~~~~~~~ Inspect the following areas: - Configured interfaces (issues related basic node/pod connectivity issues): :: vpp# sh int addr GigabitEthernet0/9/0 (up): 192.168.16.1/24 local0 (dn): loop0 (up): l2 bridge bd_id 1 bvi shg 0 192.168.30.1/24 tapcli-0 (up): 172.30.1.1/24 - IP forwarding table: :: vpp# sh ip fib ipv4-VRF:0, fib_index:0, flow hash:[src dst sport dport proto ] locks:[src:(nil):2, src:adjacency:3, src:default-route:1, ] 0.0.0.0/0 unicast-ip4-chain [@0]: dpo-load-balance: [proto:ip4 index:1 buckets:1 uRPF:0 to:[7:552]] [0] [@0]: dpo-drop ip4 0.0.0.0/32 unicast-ip4-chain [@0]: dpo-load-balance: [proto:ip4 index:2 buckets:1 uRPF:1 to:[0:0]] [0] [@0]: dpo-drop ip4 ... ... 255.255.255.255/32 unicast-ip4-chain [@0]: dpo-load-balance: [proto:ip4 index:5 buckets:1 uRPF:4 to:[0:0]] [0] [@0]: dpo-drop ip4 - ARP Table: :: vpp# sh ip arp Time IP4 Flags Ethernet Interface 728.6616 192.168.16.2 D 08:00:27:9c:0e:9f GigabitEthernet0/8/0 542.7045 192.168.30.2 S 1a:2b:3c:4d:5e:02 loop0 1.4241 172.30.1.2 D 86:41:d5:92:fd:24 tapcli-0 15.2485 10.1.1.2 SN 00:00:00:00:00:02 tapcli-1 739.2339 10.1.1.3 SN 00:00:00:00:00:02 tapcli-2 739.4119 10.1.1.4 SN 00:00:00:00:00:02 tapcli-3 - NAT configuration (issues related to services): :: DBGvpp# sh nat44 addresses NAT44 pool addresses: 192.168.16.10 tenant VRF independent 0 busy udp ports 0 busy tcp ports 0 busy icmp ports NAT44 twice-nat pool addresses: :: vpp# sh nat44 static mappings NAT44 static mappings: tcp local 192.168.42.1:6443 external 10.96.0.1:443 vrf 0 out2in-only tcp local 192.168.42.1:12379 external 192.168.42.2:32379 vrf 0 out2in-only tcp local 192.168.42.1:12379 external 192.168.16.2:32379 vrf 0 out2in-only tcp local 192.168.42.1:12379 external 192.168.42.1:32379 vrf 0 out2in-only tcp local 192.168.42.1:12379 external 192.168.16.1:32379 vrf 0 out2in-only tcp local 192.168.42.1:12379 external 10.109.143.39:12379 vrf 0 out2in-only udp local 10.1.2.2:53 external 10.96.0.10:53 vrf 0 out2in-only tcp local 10.1.2.2:53 external 10.96.0.10:53 vrf 0 out2in-only :: vpp# sh nat44 interfaces NAT44 interfaces: loop0 in out GigabitEthernet0/9/0 out tapcli-0 in out :: vpp# sh nat44 sessions NAT44 sessions: 192.168.20.2: 0 dynamic translations, 3 static translations 10.1.1.3: 0 dynamic translations, 0 static translations 10.1.1.4: 0 dynamic translations, 0 static translations 10.1.1.2: 0 dynamic translations, 6 static translations 10.1.2.18: 0 dynamic translations, 2 static translations - ACL config (issues related to policies): :: vpp# sh acl-plugin acl - “Steal the NIC (STN)” config (issues related to host connectivity when STN is active): :: vpp# sh stn rules - rule_index: 0 address: 10.1.10.47 iface: tapcli-0 (2) next_node: tapcli-0-output (410) - Errors: :: vpp# sh errors - Vxlan tunnels: :: vpp# sh vxlan tunnels - Vxlan tunnels: :: vpp# sh vxlan tunnels - Hardware interface information: :: vpp# sh hardware-interfaces Basic Example ~~~~~~~~~~~~~ `contiv-vpp-bug-report.sh `__ is an example of a script that may be a useful starting point to gathering the above information using kubectl. Limitations: - The script does not include STN daemon logs nor does it handle the special case of a crash loop Prerequisites: - The user specified in the script must have passwordless access to all nodes in the cluster; on each node in the cluster the user must have passwordless access to sudo. Setting up Prerequisites ^^^^^^^^^^^^^^^^^^^^^^^^ To enable logging into a node without a password, copy your public key to the following node: :: ssh-copy-id @ To enable running sudo without a password for a given user, enter: :: $ sudo visudo Append the following entry to run ALL command without a password for a given user: :: ALL=(ALL) NOPASSWD:ALL You can also add user ```` to group ``sudo`` and edit the ``sudo`` entry as follows: :: # Allow members of group sudo to execute any command %sudo ALL=(ALL:ALL) NOPASSWD:ALL Add user ```` to group ```` as follows: :: sudo adduser or as follows: :: usermod -a -G Working with the Contiv-VPP Vagrant Test Bed ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ The script can be used to collect data from the `Contiv-VPP test bed created with Vagrant `__. To collect debug information from this Contiv-VPP test bed, do the following steps: \* In the directory where you created your vagrant test bed, do: :: vagrant ssh-config > vagrant-ssh.conf - To collect the debug information do: :: ./contiv-vpp-bug-report.sh -u vagrant -m k8s-master -f /vagrant-ssh.conf