5.5 KiB
stage | group | info | comments | description |
---|---|---|---|---|
none | unassigned | To determine the technical writer assigned to the Stage/Group associated with this page, see https://about.gitlab.com/handbook/product/ux/technical-writing/#assignments | false | Next iteration of build logs architecture at GitLab |
Cloud Native Build Logs
Cloud native and the adoption of Kubernetes has been recognised by GitLab to be one of the top two biggest tailwinds that are helping us grow faster as a company behind the project.
This effort is described in a more details in the infrastructure team handbook.
Traditional build logs
Traditional job logs depend a lot on availability of a local shared storage.
Every time a GitLab Runner sends a new partial build output, we write this output to a file on a disk. This is simple, but this mechanism depends on shared local storage - the same file needs to be available on every GitLab web node machine, because GitLab Runner might connect to a different one every time it performs an API request. Sidekiq also needs access to the file because when a job is complete, the trace file contents are sent to the object store.
New architecture
New architecture writes data to Redis instead of writing build logs into a file.
In order to make this performant and resilient enough, we implemented a chunked I/O mechanism - we store data in Redis in chunks, and migrate them to an object store once we reach a desired chunk size.
Simplified sequence diagram is available below.
sequenceDiagram
autonumber
participant U as User
participant R as Runner
participant G as GitLab (rails)
participant I as Redis
participant D as Database
participant O as Object store
loop incremental trace update sent by a runner
Note right of R: Runner appends a build trace
R->>+G: PATCH trace [build.id, offset, data]
G->>+D: find or create chunk [chunk.index]
D-->>-G: chunk [id, index]
G->>I: append chunk data [chunk.index, data]
G-->>-R: 200 OK
end
Note right of R: User retrieves a trace
U->>+G: GET build trace
loop every trace chunk
G->>+D: find chunk [index]
D-->>-G: chunk [id]
G->>+I: read chunk data [chunk.index]
I-->>-G: chunk data [data, size]
end
G-->>-U: build trace
Note right of R: Trace chunk is full
R->>+G: PATCH trace [build.id, offset, data]
G->>+D: find or create chunk [chunk.index]
D-->>-G: chunk [id, index]
G->>I: append chunk data [chunk.index, data]
G->>G: chunk full [index]
G-->>-R: 200 OK
G->>+I: read chunk data [chunk.index]
I-->>-G: chunk data [data, size]
G->>O: send chunk data [data, size]
G->>+D: update data store type [chunk.id]
G->>+I: delete chunk data [chunk.index]
NFS coupling
In 2017, we experienced serious problems of scaling our NFS infrastructure. We even tried to replace NFS with CephFS - unsuccessfully.
Since that time it has become apparent that the cost of operations and maintenance of a NFS cluster is significant and that if we ever decide to migrate to Kubernetes we need to decouple GitLab from a shared local storage and NFS.
- NFS might be a single point of failure
- NFS can only be reliably scaled vertically
- Moving to Kubernetes means increasing the number of mount points by an order of magnitude
- NFS depends on extremely reliable network which can be difficult to provide in Kubernetes environment
- Storing customer data on NFS involves additional security risks
Moving GitLab to Kubernetes without NFS decoupling would result in an explosion of complexity, maintenance cost and enormous, negative impact on availability.
Iterations
- ✓ Implement the new architecture in way that it does not depend on shared local storage
- ✓ Evaluate performance and edge-cases, iterate to improve the new architecture
- ✓ Design cloud native build logs correctness verification mechanisms
- ✓ Build observability mechanisms around performance and correctness
- ✓ Rollout the feature into production environment incrementally
The work needed to make the new architecture production ready and enabled on GitLab.com had been tracked in Cloud Native Build Logs on GitLab.com epic.
Enabling this feature on GitLab.com is a subtask of making the new architecture generally available for everyone.
Status
This change has been implemented and enabled on GitLab.com.
We are working on an epic to make this feature more resilient and observable.
Who
Proposal:
Role | Who |
---|---|
Author | Grzegorz Bizon |
Architecture Evolution Coach | Gerardo Lopez-Fernandez |
Engineering Leader | Darby Frey |
Domain Expert | Kamil Trzciński |
Domain Expert | Sean McGivern |
DRIs:
Role | Who |
---|---|
Product | Thao Yeager |
Leadership | Darby Frey |
Engineering | Grzegorz Bizon |