209 lines
9 KiB
Markdown
209 lines
9 KiB
Markdown
# Working with the GitHub importer
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In GitLab 10.2 a new version of the GitHub importer was introduced. This new
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importer performs its work in parallel using Sidekiq, greatly reducing the time
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necessary to import GitHub projects into a GitLab instance.
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The GitHub importer offers two different types of importers: a sequential
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importer and a parallel importer. The Rake task `import:github` uses the
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sequential importer, while everything else uses the parallel importer. The
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difference between these two importers is quite simple: the sequential importer
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does all work in a single thread, making it more useful for debugging purposes
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or Rake tasks. The parallel importer on the other hand uses Sidekiq.
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## Requirements
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* GitLab CE 10.2.0 or newer.
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* Sidekiq workers that process the `github_importer` and
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`github_importer_advance_stage` queues (this is enabled by default).
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* Octokit (used for interacting with the GitHub API)
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## Code structure
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The importer's codebase is broken up into the following directories:
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* `lib/gitlab/github_import`: this directory contains most of the code such as
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the classes used for importing resources.
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* `app/workers/gitlab/github_import`: this directory contains the Sidekiq
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workers.
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* `app/workers/concerns/gitlab/github_import`: this directory contains a few
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modules reused by the various Sidekiq workers.
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## Architecture overview
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When a GitHub project is imported we schedule and execute a job for the
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`RepositoryImportworker` worker as all other importers. However, unlike other
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importers we don't immediately perform the work necessary. Instead work is
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divided into separate stages, with each stage consisting out of a set of Sidekiq
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jobs that are executed. Between every stage a job is scheduled that periodically
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checks if all work of the current stage is completed, advancing the import
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process to the next stage when this is the case. The worker handling this is
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called `Gitlab::GithubImport::AdvanceStageWorker`.
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## Stages
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### 1. RepositoryImportWorker
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This worker will kick off the import process by simply scheduling a job for the
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next worker.
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### 2. Stage::ImportRepositoryWorker
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This worker will import the repository and wiki, scheduling the next stage when
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done.
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### 3. Stage::ImportBaseDataWorker
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This worker will import base data such as labels, milestones, and releases. This
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work is done in a single thread since it can be performed fast enough that we
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don't need to perform this work in parallel.
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### 4. Stage::ImportPullRequestsWorker
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This worker will import all pull requests. For every pull request a job for the
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`Gitlab::GithubImport::ImportPullRequestWorker` worker is scheduled.
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### 5. Stage::ImportIssuesAndDiffNotesWorker
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This worker will import all issues and pull request comments. For every issue we
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schedule a job for the `Gitlab::GithubImport::ImportIssueWorker` worker. For
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pull request comments we instead schedule jobs for the
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`Gitlab::GithubImport::DiffNoteImporter` worker.
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This worker processes both issues and diff notes in parallel so we don't need to
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schedule a separate stage and wait for the previous one to complete.
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Issues are imported separately from pull requests because only the "issues" API
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includes labels for both issue and pull requests. Importing issues and setting
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label links in the same worker removes the need for performing a separate crawl
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through the API data, reducing the number of API calls necessary to import a
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project.
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### 6. Stage::ImportNotesWorker
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This worker imports regular comments for both issues and pull requests. For
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every comment we schedule a job for the
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`Gitlab::GithubImport::ImportNoteWorker` worker.
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Regular comments have to be imported at the end since the GitHub API used
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returns comments for both issues and pull requests. This means we have to wait
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for all issues and pull requests to be imported before we can import regular
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comments.
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### 7. Stage::FinishImportWorker
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This worker will wrap up the import process by performing some housekeeping
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(such as flushing any caches) and by marking the import as completed.
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## Advancing stages
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Advancing stages is done in one of two ways:
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- Scheduling the worker for the next stage directly.
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- Scheduling a job for `Gitlab::GithubImport::AdvanceStageWorker` which will
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advance the stage when all work of the current stage has been completed.
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The first approach should only be used by workers that perform all their work in
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a single thread, while `AdvanceStageWorker` should be used for everything else.
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The way `AdvanceStageWorker` works is fairly simple. When scheduling a job it
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will be given a project ID, a list of Redis keys, and the name of the next
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stage. The Redis keys (produced by `Gitlab::JobWaiter`) are used to check if the
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currently running stage has been completed or not. If the stage has not yet been
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completed `AdvanceStageWorker` will reschedule itself. Once a stage finishes
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`AdvanceStageworker` will refresh the import JID (more on this below) and
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schedule the worker of the next stage.
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To reduce the number of `AdvanceStageWorker` jobs scheduled this worker will
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briefly wait for jobs to complete before deciding what the next action should
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be. For small projects this may slow down the import process a bit, but it will
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also reduce pressure on the system as a whole.
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## Refreshing import JIDs
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GitLab includes a worker called `StuckImportJobsWorker` that will periodically
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run and mark project imports as failed if they have been running for more than
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15 hours. For GitHub projects this poses a bit of a problem: importing large
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projects could take several hours depending on how often we hit the GitHub rate
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limit (more on this below), but we don't want `StuckImportJobsWorker` to mark
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our import as failed because of this.
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To prevent this from happening we periodically refresh the expiration time of
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the import process. This works by storing the JID of the import job in the
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database, then refreshing this JID's TTL at various stages throughout the import
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process. This is done by calling `Project#refresh_import_jid_expiration`. By
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refreshing this TTL we can ensure our import does not get marked as failed so
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long we're still performing work.
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## GitHub rate limit
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GitHub has a rate limit of 5 000 API calls per hour. The number of requests
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necessary to import a project is largely dominated by the number of unique users
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involved in a project (e.g. issue authors). Other data such as issue pages
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and comments typically only requires a few dozen requests to import. This is
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because we need the Email address of users in order to map them to GitLab users.
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We handle this by doing the following:
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1. Once we hit the rate limit all jobs will automatically reschedule themselves
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in such a way that they are not executed until the rate limit has been reset.
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1. We cache the mapping of GitHub users to GitLab users in Redis.
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More information on user caching can be found below.
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## Caching user lookups
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When mapping GitHub users to GitLab users we need to (in the worst case)
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perform:
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1. One API call to get the user's Email address.
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1. Two database queries to see if a corresponding GitLab user exists. One query
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will try to find the user based on the GitHub user ID, while the second query
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is used to find the user using their GitHub Email address.
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Because this process is quite expensive we cache the result of these lookups in
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Redis. For every user looked up we store three keys:
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- A Redis key mapping GitHub usernames to their Email addresses.
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- A Redis key mapping a GitHub Email addresses to a GitLab user ID.
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- A Redis key mapping a GitHub user ID to GitLab user ID.
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There are two types of lookups we cache:
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- A positive lookup, meaning we found a GitLab user ID.
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- A negative lookup, meaning we didn't find a GitLab user ID. Caching this
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prevents us from performing the same work for users that we know don't exist
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in our GitLab database.
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The expiration time of these keys is 24 hours. When retrieving the cache of a
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positive lookups we refresh the TTL automatically. The TTL of false lookups is
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never refreshed.
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Because of this caching layer it's possible newly registered GitLab accounts
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won't be linked to their corresponding GitHub accounts. This however will sort
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itself out once the cached keys expire.
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The user cache lookup is shared across projects. This means that the more
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projects get imported the fewer GitHub API calls will be needed.
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The code for this resides in:
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* `lib/gitlab/github_import/user_finder.rb`
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* `lib/gitlab/github_import/caching.rb`
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## Mapping labels and milestones
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To reduce pressure on the database we do not query it when setting labels and
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milestones on issues and merge requests. Instead we cache this data when we
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import labels and milestones, then we reuse this cache when assigning them to
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issues/merge requests. Similar to the user lookups these cache keys are expired
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automatically after 24 hours of not being used.
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Unlike the user lookup caches these label and milestone caches are scoped to the
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project that is being imported.
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The code for this resides in:
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* `lib/gitlab/github_import/label_finder.rb`
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* `lib/gitlab/github_import/milestone_finder.rb`
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* `lib/gitlab/github_import/caching.rb`
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