Troubleshooting Gitaly and Gitaly Cluster (FREE SELF)
Refer to the information below when troubleshooting Gitaly and Gitaly Cluster.
Troubleshoot Gitaly
The following sections provide possible solutions to Gitaly errors.
See also Gitaly timeout settings,
and our advice on parsing the gitaly/current
file.
Check versions when using standalone Gitaly servers
When using standalone Gitaly servers, you must make sure they are the same version as GitLab to ensure full compatibility:
- On the top bar, select Main menu > Admin on your GitLab instance.
- On the left sidebar, select Overview > Gitaly Servers.
- Confirm all Gitaly servers indicate that they are up to date.
Find storage resource details
You can run the following commands in a Rails console to determine the available and used space on a Gitaly storage:
Gitlab::GitalyClient::ServerService.new("default").storage_disk_statistics
# For Gitaly Cluster
Gitlab::GitalyClient::ServerService.new("<storage name>").disk_statistics
gitaly-debug
Use The gitaly-debug
command provides "production debugging" tools for Gitaly and Git
performance. It is intended to help production engineers and support
engineers investigate Gitaly performance problems.
To see the help page of gitaly-debug
for a list of supported sub-commands, run:
gitaly-debug -h
Commits, pushes, and clones return a 401
remote: GitLab: 401 Unauthorized
You need to sync your gitlab-secrets.json
file with your GitLab
application nodes.
fetching folder content
errors on repository pages
500 and Fetching folder content
, and in some cases 500
, errors indicate
connectivity problems between GitLab and Gitaly.
Consult the client-side gRPC logs
for details.
Client side gRPC logs
Gitaly uses the gRPC RPC framework. The Ruby gRPC
client has its own log file which may contain useful information when
you are seeing Gitaly errors. You can control the log level of the
gRPC client with the GRPC_LOG_LEVEL
environment variable. The
default level is WARN
.
You can run a gRPC trace with:
sudo GRPC_TRACE=all GRPC_VERBOSITY=DEBUG gitlab-rake gitlab:gitaly:check
If this command fails with a failed to connect to all addresses
error,
check for an SSL or TLS problem:
/opt/gitlab/embedded/bin/openssl s_client -connect <gitaly-ipaddress>:<port> -verify_return_error
Check whether Verify return code
field indicates a
known Omnibus GitLab configuration problem.
If openssl
succeeds but gitlab-rake gitlab:gitaly:check
fails,
check certificate requirements for Gitaly.
Server side gRPC logs
gRPC tracing can also be enabled in Gitaly itself with the GODEBUG=http2debug
environment variable. To set this in an Omnibus GitLab install:
-
Add the following to your
gitlab.rb
file:gitaly['env'] = { "GODEBUG=http2debug" => "2" }
-
Reconfigure GitLab.
Correlating Git processes with RPCs
Sometimes you need to find out which Gitaly RPC created a particular Git process.
One method for doing this is by using DEBUG
logging. However, this needs to be enabled
ahead of time and the logs produced are quite verbose.
A lightweight method for doing this correlation is by inspecting the environment
of the Git process (using its PID
) and looking at the CORRELATION_ID
variable:
PID=<Git process ID>
sudo cat /proc/$PID/environ | tr '\0' '\n' | grep ^CORRELATION_ID=
This method isn't reliable for git cat-file
processes, because Gitaly
internally pools and re-uses those across RPCs.
gitaly-ruby
traffic
Observing gitaly-ruby
is an internal implementation detail of Gitaly,
so, there's not that much visibility into what goes on inside
gitaly-ruby
processes.
If you have Prometheus set up to scrape your Gitaly process, you can see
request rates and error codes for individual RPCs in gitaly-ruby
by
querying grpc_client_handled_total
.
All gRPC calls made by gitaly-ruby
itself are internal calls from the main Gitaly process to one of its gitaly-ruby
sidecars.
Assuming your grpc_client_handled_total
counter only observes Gitaly,
the following query shows you RPCs are (most likely) internally
implemented as calls to gitaly-ruby
:
sum(rate(grpc_client_handled_total[5m])) by (grpc_method) > 0
401 Unauthorized
error
Repository changes fail with a If you run Gitaly on its own server and notice these conditions:
- Users can successfully clone and fetch repositories by using both SSH and HTTPS.
- Users can't push to repositories, or receive a
401 Unauthorized
message when attempting to make changes to them in the web UI.
Gitaly may be failing to authenticate with the Gitaly client because it has the wrong secrets file.
Confirm the following are all true:
-
When any user performs a
git push
to any repository on this Gitaly server, it fails with a401 Unauthorized
error:remote: GitLab: 401 Unauthorized To <REMOTE_URL> ! [remote rejected] branch-name -> branch-name (pre-receive hook declined) error: failed to push some refs to '<REMOTE_URL>'
-
When any user adds or modifies a file from the repository using the GitLab UI, it immediately fails with a red
401 Unauthorized
banner. -
Creating a new project and initializing it with a README successfully creates the project but doesn't create the README.
-
When tailing the logs on a Gitaly client and reproducing the error, you get
401
errors when reaching the/api/v4/internal/allowed
endpoint:# api_json.log { "time": "2019-07-18T00:30:14.967Z", "severity": "INFO", "duration": 0.57, "db": 0, "view": 0.57, "status": 401, "method": "POST", "path": "\/api\/v4\/internal\/allowed", "params": [ { "key": "action", "value": "git-receive-pack" }, { "key": "changes", "value": "REDACTED" }, { "key": "gl_repository", "value": "REDACTED" }, { "key": "project", "value": "\/path\/to\/project.git" }, { "key": "protocol", "value": "web" }, { "key": "env", "value": "{\"GIT_ALTERNATE_OBJECT_DIRECTORIES\":[],\"GIT_ALTERNATE_OBJECT_DIRECTORIES_RELATIVE\":[],\"GIT_OBJECT_DIRECTORY\":null,\"GIT_OBJECT_DIRECTORY_RELATIVE\":null}" }, { "key": "user_id", "value": "2" }, { "key": "secret_token", "value": "[FILTERED]" } ], "host": "gitlab.example.com", "ip": "REDACTED", "ua": "Ruby", "route": "\/api\/:version\/internal\/allowed", "queue_duration": 4.24, "gitaly_calls": 0, "gitaly_duration": 0, "correlation_id": "XPUZqTukaP3" } # nginx_access.log [IP] - - [18/Jul/2019:00:30:14 +0000] "POST /api/v4/internal/allowed HTTP/1.1" 401 30 "" "Ruby"
To fix this problem, confirm that your gitlab-secrets.json
file
on the Gitaly server matches the one on Gitaly client. If it doesn't match,
update the secrets file on the Gitaly server to match the Gitaly client, then
reconfigure.
If you've confirmed that your gitlab-secrets.json
file is the same on all Gitaly servers and clients,
the application might be fetching this secret from a different file. Your Gitaly server's
config.toml file
indicates the secrets file in use.
If that setting is missing, GitLab defaults to using .gitlab_shell_secret
under
/opt/gitlab/embedded/service/gitlab-rails/.gitlab_shell_secret
.
Repository pushes fail
When attempting git push
, you can see:
-
401 Unauthorized
errors. -
The following in server logs:
{ ... "exception.class":"JWT::VerificationError", "exception.message":"Signature verification raised", ... }
This error occurs when the GitLab server has been upgraded to GitLab 15.5 or later but Gitaly has not yet been upgraded.
From GitLab 15.5, GitLab authenticates with GitLab Shell using a JWT token instead of a shared secret. You should follow the recommendations on upgrading external Gitaly and upgrade Gitaly before the GitLab server.
deny updating a hidden ref
error
Repository pushes fail with a Due to a change
introduced in GitLab 13.12, Gitaly has read-only, internal GitLab references that users are not
permitted to update. If you attempt to update internal references with git push --mirror
, Git
returns the rejection error, deny updating a hidden ref
.
The following references are read-only:
- refs/environments/
- refs/keep-around/
- refs/merge-requests/
- refs/pipelines/
To mirror-push branches and tags only, and avoid attempting to mirror-push protected refs, run:
git push origin +refs/heads/*:refs/heads/* +refs/tags/*:refs/tags/*
Any other namespaces that the administrator wants to push can be included there as well via additional patterns.
Command line tools cannot connect to Gitaly
gRPC cannot reach your Gitaly server if:
- You can't connect to a Gitaly server with command-line tools.
- Certain actions result in a
14: Connect Failed
error message.
Verify you can reach Gitaly by using TCP:
sudo gitlab-rake gitlab:tcp_check[GITALY_SERVER_IP,GITALY_LISTEN_PORT]
If the TCP connection:
- Fails, check your network settings and your firewall rules.
- Succeeds, your networking and firewall rules are correct.
If you use proxy servers in your command line environment such as Bash, these can interfere with your gRPC traffic.
If you use Bash or a compatible command line environment, run the following commands to determine whether you have proxy servers configured:
echo $http_proxy
echo $https_proxy
If either of these variables have a value, your Gitaly CLI connections may be getting routed through a proxy which cannot connect to Gitaly.
To remove the proxy setting, run the following commands (depending on which variables had values):
unset http_proxy
unset https_proxy
Permission denied errors appearing in Gitaly or Praefect logs when accessing repositories
You might see the following in Gitaly and Praefect logs:
{
...
"error":"rpc error: code = PermissionDenied desc = permission denied",
"grpc.code":"PermissionDenied",
"grpc.meta.client_name":"gitlab-web",
"grpc.request.fullMethod":"/gitaly.ServerService/ServerInfo",
"level":"warning",
"msg":"finished unary call with code PermissionDenied",
...
}
This is a gRPC call error response code.
If this error occurs, even though the Gitaly auth tokens are set up correctly, it's likely that the Gitaly servers are experiencing clock drift.
Ensure the Gitaly clients and servers are synchronized, and use an NTP time server to keep them synchronized.
Gitaly not listening on new address after reconfiguring
When updating the gitaly['listen_addr']
or gitaly['prometheus_listen_addr']
values, Gitaly may
continue to listen on the old address after a sudo gitlab-ctl reconfigure
.
When this occurs, run sudo gitlab-ctl restart
to resolve the issue. This should no longer be
necessary because this issue is resolved.
Permission denied errors appearing in Gitaly logs when accessing repositories from a standalone Gitaly node
If this error occurs even though file permissions are correct, it's likely that the Gitaly node is experiencing clock drift.
Ensure that the GitLab and Gitaly nodes are synchronized and use an NTP time server to keep them synchronized if possible.
Health check warnings
The following warning in /var/log/gitlab/praefect/current
can be ignored.
"error":"full method name not found: /grpc.health.v1.Health/Check",
"msg":"error when looking up method info"
File not found errors
The following errors in /var/log/gitlab/gitaly/current
can be ignored.
They are caused by the GitLab Rails application checking for specific files
that do not exist in a repository.
"error":"not found: .gitlab/route-map.yml"
"error":"not found: Dockerfile"
"error":"not found: .gitlab-ci.yml"
Git pushes are slow when Dynatrace is enabled
Dynatrace can cause the /opt/gitlab/embedded/bin/gitaly-hooks
reference transaction hook,
to take several seconds to start up and shut down. gitaly-hooks
is executed twice when users
push, which causes a significant delay.
If Git pushes are too slow when Dynatrace is enabled, disable Dynatrace.
Troubleshoot Praefect (Gitaly Cluster)
The following sections provide possible solutions to Gitaly Cluster errors.
Check cluster health
Introduced in GitLab 14.5.
The check
Praefect sub-command runs a series of checks to determine the health of the Gitaly Cluster.
gitlab-ctl praefect check
The following sections describe the checks that are run.
Praefect migrations
Because Database migrations must be up to date for Praefect to work correctly, checks if Praefect migrations are up to date.
If this check fails:
- See the
schema_migrations
table in the database to see which migrations have run. - Run
praefect sql-migrate
to bring the migrations up to date.
Node connectivity and disk access
Checks if Praefect can reach all of its Gitaly nodes, and if each Gitaly node has read and write access to all of its storages.
If this check fails:
- Confirm the network addresses and tokens are set up correctly:
- In the Praefect configuration.
- In each Gitaly node's configuration.
- On the Gitaly nodes, check that the
gitaly
process being run asgit
. There might be a permissions issue that is preventing Gitaly from accessing its storage directories. - Confirm that there are no issues with the network that connects Praefect to Gitaly nodes.
Database read and write access
Checks if Praefect can read from and write to the database.
If this check fails:
-
See if the Praefect database is in recovery mode. In recovery mode, tables may be read only. To check, run:
select pg_is_in_recovery()
-
Confirm that the user that Praefect uses to connect to PostgreSQL has read and write access to the database.
-
See if the database has been placed into read-only mode. To check, run:
show default_transaction_read_only
Inaccessible repositories
Checks how many repositories are inaccessible because they are missing a primary assignment, or their primary is unavailable.
If this check fails:
- See if any Gitaly nodes are down. Run
praefect ping-nodes
to check. - Check if there is a high load on the Praefect database. If the Praefect database is slow to respond, it can lead health checks failing to persist to the database, leading Praefect to think nodes are unhealthy.
Check clock synchronization
Introduced in GitLab 14.8.
Authentication between Praefect and the Gitaly servers requires the server times to be in sync so the token check succeeds.
This check helps identify the root cause of permission denied
errors being logged by Praefect.
For offline environments where access to public pool.ntp.org
servers is not possible, the Praefect check
sub-command fails this
check with an error message similar to:
checking with NTP service at and allowed clock drift 60000ms [correlation_id: <XXX>]
Failed (fatal) error: gitaly node at tcp://[gitlab.example-instance.com]:8075: rpc error: code = DeadlineExceeded desc = context deadline exceeded
To resolve this issue, set an environment variable on all Praefect servers to point to an accessible internal NTP server. For example:
export NTP_HOST=ntp.example.com
Praefect errors in logs
If you receive an error, check /var/log/gitlab/gitlab-rails/production.log
.
Here are common errors and potential causes:
- 500 response code
-
ActionView::Template::Error (7:permission denied)
-
praefect['auth_token']
andgitlab_rails['gitaly_token']
do not match on the GitLab server.
-
-
Unable to save project. Error: 7:permission denied
- Secret token in
praefect['storage_nodes']
on GitLab server does not match the value ingitaly['auth_token']
on one or more Gitaly servers.
- Secret token in
-
- 503 response code
-
GRPC::Unavailable (14:failed to connect to all addresses)
- GitLab was unable to reach Praefect.
-
GRPC::Unavailable (14:all SubCons are in TransientFailure...)
- Praefect cannot reach one or more of its child Gitaly nodes. Try running the Praefect connection checker to diagnose.
-
Praefect database experiencing high CPU load
Some common reasons for the Praefect database to experience elevated CPU usage include:
- Prometheus metrics scrapes running an expensive query. If you have GitLab 14.2
or above, set
praefect['separate_database_metrics'] = true
ingitlab.rb
. - Read distribution caching is disabled, increasing the number of queries made to the database when user traffic is high. Ensure read distribution caching is enabled.
Determine primary Gitaly node
To determine the primary node of a repository:
-
In GitLab 14.6 and later, use the
praefect metadata
subcommand. -
In GitLab 13.12 to GitLab 14.5 with repository-specific primaries, use the
gitlab:praefect:replicas
Rake task. -
With legacy election strategies in GitLab 13.12 and earlier, the primary was the same for all repositories in a virtual storage. To determine the current primary Gitaly node for a specific virtual storage:
-
Use the
Shard Primary Election
Grafana chart on theGitlab Omnibus - Praefect
dashboard. This is recommended. -
If you do not have Grafana set up, use the following command on each host of each Praefect node:
curl localhost:9652/metrics | grep gitaly_praefect_primaries`
-
View repository metadata
Introduced in GitLab 14.6.
Gitaly Cluster maintains a metadata database about the repositories stored on the cluster. Use the praefect metadata
subcommand
to inspect the metadata for troubleshooting.
You can retrieve a repository's metadata by its Praefect-assigned repository ID:
sudo /opt/gitlab/embedded/bin/praefect -config /var/opt/gitlab/praefect/config.toml metadata -repository-id <repository-id>
You can also retrieve a repository's metadata by its virtual storage and relative path:
sudo /opt/gitlab/embedded/bin/praefect -config /var/opt/gitlab/praefect/config.toml metadata -virtual-storage <virtual-storage> -relative-path <relative-path>
Examples
To retrieve the metadata for a repository with a Praefect-assigned repository ID of 1:
sudo /opt/gitlab/embedded/bin/praefect -config /var/opt/gitlab/praefect/config.toml metadata -repository-id 1
To retrieve the metadata for a repository with virtual storage default
and relative path @hashed/b1/7e/b17ef6d19c7a5b1ee83b907c595526dcb1eb06db8227d650d5dda0a9f4ce8cd9.git
:
sudo /opt/gitlab/embedded/bin/praefect -config /var/opt/gitlab/praefect/config.toml metadata -virtual-storage default -relative-path @hashed/b1/7e/b17ef6d19c7a5b1ee83b907c595526dcb1eb06db8227d650d5dda0a9f4ce8cd9.git
Either of these examples retrieve the following metadata for an example repository:
Repository ID: 54771
Virtual Storage: "default"
Relative Path: "@hashed/b1/7e/b17ef6d19c7a5b1ee83b907c595526dcb1eb06db8227d650d5dda0a9f4ce8cd9.git"
Replica Path: "@hashed/b1/7e/b17ef6d19c7a5b1ee83b907c595526dcb1eb06db8227d650d5dda0a9f4ce8cd9.git"
Primary: "gitaly-1"
Generation: 1
Replicas:
- Storage: "gitaly-1"
Assigned: true
Generation: 1, fully up to date
Healthy: true
Valid Primary: true
Verified At: 2021-04-01 10:04:20 +0000 UTC
- Storage: "gitaly-2"
Assigned: true
Generation: 0, behind by 1 changes
Healthy: true
Valid Primary: false
Verified At: unverified
- Storage: "gitaly-3"
Assigned: true
Generation: replica not yet created
Healthy: false
Valid Primary: false
Verified At: unverified
Available metadata
The metadata retrieved by praefect metadata
includes the fields in the following tables.
Field | Description |
---|---|
Repository ID |
Permanent unique ID assigned to the repository by Praefect. Different to the ID GitLab uses for repositories. |
Virtual Storage |
Name of the virtual storage the repository is stored in. |
Relative Path |
Repository's path in the virtual storage. |
Replica Path |
Where on the Gitaly node's disk the repository's replicas are stored. |
Primary |
Current primary of the repository. |
Generation |
Used by Praefect to track repository changes. Each write in the repository increments the repository's generation. |
Replicas |
A list of replicas that exist or are expected to exist. |
For each replica, the following metadata is available:
Replicas Field |
Description |
---|---|
Storage |
Name of the Gitaly storage that contains the replica. |
Assigned |
Indicates whether the replica is expected to exist in the storage. Can be false if a Gitaly node is removed from the cluster or if the storage contains an extra copy after the repository's replication factor was decreased. |
Generation |
Latest confirmed generation of the replica. It indicates: - The replica is fully up to date if the generation matches the repository's generation. - The replica is outdated if the replica's generation is less than the repository's generation. - replica not yet created if the replica does not yet exist at all on the storage. |
Healthy |
Indicates whether the Gitaly node that is hosting this replica is considered healthy by the consensus of Praefect nodes. |
Valid Primary |
Indicates whether the replica is fit to serve as the primary node. If the repository's primary is not a valid primary, a failover occurs on the next write to the repository if there is another replica that is a valid primary. A replica is a valid primary if: - It is stored on a healthy Gitaly node. - It is fully up to date. - It is not targeted by a pending deletion job from decreasing replication factor. - It is assigned. |
Verified At |
Indicates last successful verification of the replica by the verification worker. If the replica has not yet been verified, unverified is displayed in place of the last successful verification time. Introduced in GitLab 15.0. |
Command fails with 'repository not found'
If the supplied value for -virtual-storage
is incorrect, the command returns the following error:
get metadata: rpc error: code = NotFound desc = repository not found
The documented examples specify -virtual-storage default
. Check the Praefect server setting praefect['virtual_storages']
in /etc/gitlab/gitlab.rb
.
Check that repositories are in sync
Is some cases the Praefect database can get out of sync with the underlying Gitaly nodes. To check that
a given repository is fully synced on all nodes, run the gitlab:praefect:replicas
Rake task
that checksums the repository on all Gitaly nodes.
The Praefect dataloss
command only checks the state of the repository in the Praefect database, and cannot
be relied to detect sync problems in this scenario.
Relation does not exist errors
By default Praefect database tables are created automatically by gitlab-ctl reconfigure
task.
However, the Praefect database tables are not created on initial reconfigure and can throw errors that relations do not exist if either:
- The
gitlab-ctl reconfigure
command isn't executed. - There are errors during the execution.
For example:
-
ERROR: relation "node_status" does not exist at character 13
-
ERROR: relation "replication_queue_lock" does not exist at character 40
-
This error:
{"level":"error","msg":"Error updating node: pq: relation \"node_status\" does not exist","pid":210882,"praefectName":"gitlab1x4m:0.0.0.0:2305","time":"2021-04-01T19:26:19.473Z","virtual_storage":"praefect-cluster-1"}
To solve this, the database schema migration can be done using sql-migrate
sub-command of
the praefect
command:
$ sudo /opt/gitlab/embedded/bin/praefect -config /var/opt/gitlab/praefect/config.toml sql-migrate
praefect sql-migrate: OK (applied 21 migrations)
Requests fail with 'repository scoped: invalid Repository' errors
This indicates that the virtual storage name used in the
Praefect configuration does not match the storage name used in
git_data_dirs
setting for GitLab.
Resolve this by matching the virtual storage names used in Praefect and GitLab configuration.
Gitaly Cluster performance issues on cloud platforms
Praefect does not require a lot of CPU or memory, and can run on small virtual machines. Cloud services may place other limits on the resources that small VMs can use, such as disk IO and network traffic.
Praefect nodes generate a lot of network traffic. The following symptoms can be observed if their network bandwidth has been throttled by the cloud service:
- Poor performance of Git operations.
- High network latency.
- High memory use by Praefect.
Possible solutions:
- Provision larger VMs to gain access to larger network traffic allowances.
- Use your cloud service's monitoring and logging to check that the Praefect nodes are not exhausting their traffic allowances.
Profiling Gitaly
Gitaly exposes several of Golang's built-in performance profiling tools on the Prometheus listen port. For example, if Prometheus is listening
on port 9236
of the GitLab server:
-
Get a list of running
goroutines
and their backtraces:curl --output goroutines.txt "http://<gitaly_server>:9236/debug/pprof/goroutine?debug=2"
-
Run a CPU profile for 30 seconds:
curl --output cpu.bin "http://<gitaly_server>:9236/debug/pprof/profile"
-
Profile heap memory usage:
curl --output heap.bin "http://<gitaly_server>:9236/debug/pprof/heap"
-
Record a 5 second execution trace. This will impact Gitaly's performance while running:
curl --output trace.bin "http://<gitaly_server>:9236/debug/pprof/trace?seconds=5"
On a host with go
installed, the CPU profile and heap profile can be viewed in a browser:
go tool pprof -http=:8001 cpu.bin
go tool pprof -http=:8001 heap.bin
Execution traces can be viewed by running:
go tool trace heap.bin