Diagnostics

The arvados-client diagnostics command exercises basic cluster functionality, and identifies some common installation and configuration problems. Especially after upgrading or reconfiguring Arvados or server/network infrastructure, it can be the quickest way to identify problems.

Using system privileges

On a server node, it is easiest to run the diagnostics command with system privileges. The word sudo here instructs the arvados-client command to load Controller.ExternalURL and SystemRootToken from /etc/arvados/config.yml and use those credentials to run tests with system privileges.

When run this way, diagnostics will also include health checks.

# arvados-client sudo diagnostics

Using regular user privileges

On any node (server node, shell node, or a workstation outside the system network), you can also run diagnostics by setting the usual ARVADOS_API_HOST and ARVADOS_API_TOKEN environment variables. Typically this is done with a regular user account.

$ export ARVADOS_API_HOST=zzzzz.arvadosapi.com
$ export ARVADOS_API_TOKEN=xxxxxxxxxx
$ arvados-client diagnostics

Internal/external client detection

The diagnostics output indicates whether its client connection is categorized by the server as internal or external. If you run diagnostics automatically with cron or a monitoring tool, you can use the -internal-client or -external-client flag to specify how you expect the client to be categorized, and the test will fail otherwise. Example:

# arvados-client sudo diagnostics -internal-client
[...]

--- cut here --- error summary ---

ERROR     60: checking internal/external client detection (11 ms): expecting internal=true external=false, but found internal=false external=true

Container-running options

By default, the diagnostics command builds a custom Docker image containing a copy of its own binary, and uses that image to run diagnostic checks from inside an Arvados container. This can help detect problems like lack of network connectivity between containers and Arvados cluster services.

The default approach works well if the client host (i.e., the host where you invoke arvados-client diagnostics) meets certain conditions:

  • Docker is installed and working (so the diagnostics command can run docker build and docker save).
  • Its hardware and kernel are similar to the cluster’s compute instances (so the arvados-client binary and the custom-built Docker image are compatible with the compute instances).
  • Network bandwidth supports uploading the Docker image (about 100 megabytes) in less than a minute.

The following options provide flexibility in case the default approach is not suitable.

  • -priority=0 skips the container-running part of the diagnostics suite.
  • -docker-image="hello-world" uses a tiny “hello world” image that is already embedded in the arvados-client binary. This works even if the client host does not have any docker tools installed, and it minimizes the data transferred during the diagnostics suite. It provides less test coverage than the default option, but it will at least check that it is possible to run a container on the cluster.
  • -docker-image=X (where X is a Docker image name or a portable data hash) uses a Docker image that has already been uploaded to your Arvados cluster using arv keep docker. In this case the diagnostics tool will run a container with the command echo {timestamp}.
  • -docker-image-from=NAME builds a custom Docker image on the fly as described above, but using the specified image as a base instead of the default debian:slim-stable image. Note that the build recipe runs commands like apt-get install [...] libfuse2 ca-certificates so only Debian-based base images are supported. For more flexibility, use one of the above -docker-image=... options.
  • -timeout=2m extends the time limit for each HTTP request made by the diagnostics suite, including the process of uploading a custom-built Docker image, to 2 minutes (the default HTTP request timeout is 10 seconds, and the default upload time limit is either the HTTP timeout or 1 minute, whichever is longer).

Example output

# arvados-client sudo diagnostics
INFO       5: running health check (same as `arvados-server check`)
INFO      10: getting discovery document from https://zzzzz.arvadosapi.com/discovery/v1/apis/arvados/v1/rest
INFO      20: getting exported config from https://zzzzz.arvadosapi.com/arvados/v1/config
INFO      30: getting current user record
INFO      40: connecting to service endpoint https://keep.zzzzz.arvadosapi.com/
INFO      41: connecting to service endpoint https://*.collections.zzzzz.arvadosapi.com/
INFO      42: connecting to service endpoint https://download.zzzzz.arvadosapi.com/
INFO      43: connecting to service endpoint wss://ws.zzzzz.arvadosapi.com/websocket
INFO      44: connecting to service endpoint https://workbench.zzzzz.arvadosapi.com/
INFO      45: connecting to service endpoint https://workbench2.zzzzz.arvadosapi.com/
INFO      50: checking CORS headers at https://zzzzz.arvadosapi.com/
INFO      51: checking CORS headers at https://keep.zzzzz.arvadosapi.com/d41d8cd98f00b204e9800998ecf8427e+0
INFO      52: checking CORS headers at https://download.zzzzz.arvadosapi.com/
INFO      60: checking internal/external client detection
INFO      61: reading+writing via keep service at https://keep.zzzzz.arvadosapi.com:443/
INFO      80: finding/creating "scratch area for diagnostics" project
INFO      90: creating temporary collection
INFO     100: uploading file via webdav
INFO     110: checking WebDAV ExternalURL wildcard (https://*.collections.zzzzz.arvadosapi.com/)
INFO     120: downloading from webdav (https://d41d8cd98f00b204e9800998ecf8427e-0.collections.zzzzz.arvadosapi.com/foo)
INFO     121: downloading from webdav (https://d41d8cd98f00b204e9800998ecf8427e-0.collections.zzzzz.arvadosapi.com/sha256:feb5d9fea6a5e9606aa995e879d862b825965ba48de054caab5ef356dc6b3412.tar)
INFO     122: downloading from webdav (https://download.zzzzz.arvadosapi.com/c=d41d8cd98f00b204e9800998ecf8427e+0/_/foo)
INFO     123: downloading from webdav (https://download.zzzzz.arvadosapi.com/c=d41d8cd98f00b204e9800998ecf8427e+0/_/sha256:feb5d9fea6a5e9606aa995e879d862b825965ba48de054caab5ef356dc6b3412.tar)
INFO     124: downloading from webdav (https://a15a27cbc1c7d2d4a0d9e02529aaec7e-128.collections.zzzzz.arvadosapi.com/sha256:feb5d9fea6a5e9606aa995e879d862b825965ba48de054caab5ef356dc6b3412.tar)
INFO     125: downloading from webdav (https://download.zzzzz.arvadosapi.com/c=zzzzz-4zz18-twitqma8mbvwydy/_/sha256:feb5d9fea6a5e9606aa995e879d862b825965ba48de054caab5ef356dc6b3412.tar)
INFO     130: getting list of virtual machines
INFO     140: getting workbench1 webshell page
INFO     150: connecting to webshell service
INFO     160: running a container
INFO      ... container request submitted, waiting up to 10m for container to run
INFO    9990: deleting temporary collection

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The content of this documentation is licensed under the Creative Commons Attribution-Share Alike 3.0 United States licence.
Code samples in this documentation are licensed under the Apache License, Version 2.0.