Skip to content

Latest commit

 

History

History
407 lines (311 loc) · 16.4 KB

README.md

File metadata and controls

407 lines (311 loc) · 16.4 KB

go-githubapp GoDoc

A library for building GitHub Apps and other services that handle GitHub webhooks.

The library provides an http.Handler implementation that dispatches webhook events to the correct place, removing boilerplate and letting you focus on the logic of your application.

Usage

Most users will implement githubapp.EventHandler for each webhook event that needs to be handled. A single implementation can also respond to multiple event types if they require the same actions:

type CommentHandler struct {
    githubapp.ClientCreator
}

func (h *CommentHandler) Handles() []string {
    return []string{"issue_comment"}
}

func (h *CommentHandler) Handle(ctx context.Context, eventType, deliveryID string, payload []byte) error {
    // from github.com/google/go-github/github
    var event github.IssueCommentEvent
    if err := json.Unmarshal(payload, &event); err != nil {
        return err
    }

    // do something with the content of the event
}

We recommend embedding githubapp.ClientCreator in handler implementations as an easy way to access GitHub clients.

Once you define handlers, register them with an event dispatcher and associate it with a route in any net/http-compatible HTTP router:

func registerRoutes(c githubapp.Config) {
    cc := githubapp.NewDefaultCachingClientCreator(c)

    http.Handle("/api/github/hook", githubapp.NewDefaultEventDispatcher(c,
        &CommentHandler{cc},
        // ...
    ))
}

Examples

The example package contains a fully functional server using go-githubapp. The example app responds to comments on pull requests by commenting with a copy of the comment body.

To run the app, update example/config.yml with appropriate secrets and then run:

./godelw dep
./godelw run example

Dependencies

go-githubapp has minimal dependencies, but does make some decisions:

Logging and metrics are only active when they are configured (see below). This means you can add your own logging or metrics libraries without conflict, but will miss out on the free built-in support.

Asynchronous Dispatch

GitHub imposes timeouts on webhook delivery responses. If an application does not respond in time, GitHub closes the connection and marks the delivery as failed. go-githubapp optionally supports asynchronous dispatch to help solve this problem. When enabled, the event dispatcher sends a response to GitHub after validating the payload and then runs the event handler in a separate goroutine.

To enable, select an appropriate scheduler and configure the event dispatcher to use it:

dispatcher := githubapp.NewEventDispatcher(handlers, secret, githubapp.WithScheduler(
    githubapp.AsyncScheduler(),
))

The following schedulers are included in the library:

  • DefaultScheduler - a synchronous scheduler that runs event handlers in the current goroutine. This is the default mode.

  • AsyncScheduler - an asynchronous scheduler that handles each event in a new goroutine. This is the simplest asynchronous option.

  • QueueAsyncScheduler - an asynchronous scheduler that queues events and handles them with a fixed pool of worker goroutines. This is useful to limit the amount of concurrent work.

AsyncScheduler and QueueAsyncScheduler support several additional options and customizations; see the documentation for details.

Structured Logging

go-githubapp uses rs/zerolog for structured logging. A logger must be stored in the context.Context associated with each http.Request:

func (d *EventDispatcher) ServeHTTP(w http.ResponseWriter, r *http.Request) {
    logger := zerolog.Ctx(r.Context())
    ...
}

If there is no logger in the context, log output is disabled. It's expected that HTTP middleware, like that provided by the hlog package, configures the http.Request context automatically.

Below are the standard keys used when logging events. They are also exported as constants.

exported constant key definition
LogKeyEventType github_event_type the github event type header
LogKeyDeliveryID github_delivery_id the github event delivery id header
LogKeyInstallationID github_installation_id the installation id the app is authenticating with
LogKeyRepositoryName github_repository_name the repository name of the pull request being acted on
LogKeyRepositoryOwner github_repository_owner the repository owner of the pull request being acted on
LogKeyPRNum github_pr_num the number of the pull request being acted on

Where appropriate, the library creates derived loggers with the above keys set to the correct values.

GitHub Clients

Authenticated and configured GitHub clients can be retrieved from githubapp.ClientCreator implementations. The library provides a basic implementation and a caching version.

There are three types of clients and two API versions for a total of six distinct clients:

  • An application client authenticates as the application and can only call limited APIs that mostly return application metadata.
  • An installation client authenticates as an installation and can call any APIs where the has been installed and granted permissions.
  • A token client authenticates with a static OAuth2 token associated with a user account.

go-githubapp also exposes various configuration options for GitHub clients. These are provided when calling githubapp.NewClientCreator:

  • githubapp.WithClientUserAgent sets a User-Agent string for all clients
  • githubapp.WithClientTimeout sets a timeout for requests made by all clients
  • githubapp.WithClientCaching enables response caching for all v3 (REST) clients. The cache can be configured to always validate responses or to respect the cache headers returned by GitHub. Re-validation is useful if data often changes faster than the requested cache duration.
  • githubapp.WithClientMiddleware allows customization of the http.RoundTripper used by all clients and is useful if you want to log requests or emit metrics about GitHub requests and responses.

The library provides the following middleware:

  • githubapp.ClientMetrics emits the standard metrics described below
  • githubapp.ClientLogging logs metadata about all requests and responses
baseHandler, err := githubapp.NewDefaultCachingClientCreator(
    config.Github,
    githubapp.WithClientUserAgent("example-app/1.0.0"),
    githubapp.WithClientCaching(false, func() httpcache.Cache { return httpcache.NewMemoryCache() }),
    githubapp.WithClientMiddleware(
        githubapp.ClientMetrics(registry),
        githubapp.ClientLogging(zerolog.DebugLevel),
    ),
    ...
)

Metrics

go-githubapp uses rcrowley/go-metrics to provide metrics. Metrics are optional and disabled by default.

GitHub clients emit the following metrics when configured with the githubapp.ClientMetrics middleware:

metric name type definition
github.requests counter the count of successfully completed requests made to GitHub
github.requests.2xx counter like github.requests, but only counting 2XX status codes
github.requests.3xx counter like github.requests, but only counting 3XX status codes
github.requests.4xx counter like github.requests, but only counting 4XX status codes
github.requests.5xx counter like github.requests, but only counting 5XX status codes
github.requests.cached counter the count of successfully cached requests
github.rate.limit[installation:<id>] gauge the maximum number of requests permitted to make per hour, tagged with the installation id
github.rate.remaining[installation:<id>] gauge the number of requests remaining in the current rate limit window, tagged with the installation id

When using asynchronous dispatch, the githubapp.WithSchedulingMetrics option emits the following metrics:

metric name type definition
github.event.queue gauge the number of queued unprocessed event
github.event.workers gauge the number of workers actively processing events
github.event.dropped counter the number events dropped due to limited queue capacity
github.event.age histogram the age (queue time) in milliseconds of events at processing time

The MetricsErrorCallback and MetricsAsyncErrorCallback error callbacks for the event dispatcher and asynchronous schedulers emit the following metrics:

metric name type definition
github.handler.error[event:<type>] counter the number of processing errors, tagged with the GitHub event type

Note that metrics need to be published in order to be useful. Several publishing options are available or you can implement your own.

Background Jobs and Multi-Organization Operations

While applications will mostly operate on the installation IDs provided in webhook payloads, sometimes there is a need to run background jobs or make API calls against multiple organizations. In these cases, use an application client to look up specific installations of the application and then construct an installation client to make API calls:

func getOrganizationClient(cc githubapp.ClientCreator, org string) (*github.Client, error) {
    // create a client to perform actions as the application
    appClient, err := cc.NewAppClient()
    if err != nil {
        return nil, err
    }

    // look up the installation ID for a particular organization
    installations := githubapp.NewInstallationsService(appClient)
    install := installations.GetByOwner(context.Background(), org)

    // create a client to perform actions on that specific organization
    return cc.NewInstallationClient(install.ID)
}

Config Loading

The appconfig package provides a flexible configuration loader for finding repository configuration. It supports repository-local files, files containing remote references, and organization-level defaults.

By default, the loader will:

  1. Try a list of paths in the repository
  2. If a file exists at a path, load its contents
  3. If the contents define a remote reference, load the remote file. Otherwise, return the contents.
  4. If no files exist in the repository, try a list of paths in a .github repository owned by the same owner.

Users can customize the paths, the remote reference encoding, whether remote references are enabled, the name of the owner-level default repository, and whether the owner-level default is enabled.

The standard remote reference encoding is YAML:

remote: owner/repo
path: config/app.yml
ref: develop

Usage is straightforward:

func loadConfig(ctx context.Context, client *github.Client, owner, repo, ref string) (*AppConfig, error) {
    loader := appconfig.NewLoader([]string{".github/app.yml"})

    c, err := loader.LoadConfig(ctx, client, onwer, repo, ref)
    if err != nil {
        return nil, err
    }
    if c.IsUndefined() {
        return nil, nil
    }

    var appConfig AppConfig
    if err := yaml.Unmarshal(c.Content, &appConfig); err != nil {
        return nil, err
    }
    return &appConfig, nil
}

OAuth2

The oauth2 package provides an http.Handler implementation that simplifies OAuth2 authentication with GitHub. When a user visits the endpoint, they are redirected to GitHub to authorize the application. GitHub redirects back to the same endpoint, which performs the code exchange and obtains a token for the user. The token is passed to a callback for further processing.

func registerOAuth2Handler(c githubapp.Config) {
    http.Handle("/api/auth/github", oauth2.NewHandler(
        oauth2.GetConfig(c, []string{"user:email"}),
        // force generated URLs to use HTTPS; useful if the app is behind a reverse proxy
        oauth2.ForceTLS(true),
        // set the callback for successful logins
        oauth2.OnLogin(func(w http.ResponseWriter, r *http.Request, login *oauth2.Login) {
            // look up the current user with the authenticated client
            client := github.NewClient(login.Client)
            user, _, err := client.Users.Get(r.Context(), "")
            // handle error, save the user, ...

            // redirect the user back to another page
            http.Redirect(w, r, "/dashboard", http.StatusFound)
        }),
    ))
}

Production applications should also use the oauth2.WithStore option to set a secure StateStore implementation. oauth2.SessionStateStore is a good choice that uses alexedwards/scs to store the state in a session.

Customizing Webhook Responses

For most applications, the default responses should be sufficient: they use correct status codes and include enough information to match up GitHub delivery records with request logs. If your application has additional requirements for responses, two methods are provided for customization:

  • Error responses can be modified with a custom error callback. Use the WithErrorCallback option when creating an event dispatcher.

  • Non-error responses can be modified with a custom response callback. Use the WithResponseCallback option when creating an event dispatcher.

  • Individual hook responses can be modified by calling the SetResponder function before the handler returns. Note that if you register a custom response handler as described above, you must make it aware of handler-level responders if you want to keep using SetResponder. See the default response callback for an example of how to implement this.

Stability and Versioning Guarantees

While we've used this library to build multiple applications internally, there's still room for API tweaks and improvements as we find better ways to solve problems. These will be backwards compatible when possible and should require only minor changes when not.

Releases will be tagged periodically and will follow semantic versioning, with new major versions tagged after any backwards-incompatible changes. Still, we recommend vendoring this library to avoid surprises.

In general, fixes will only be applied to trunk and future releases, not backported to older versions.

Contributing

Contributions and issues are welcome. For new features or large contributions, we prefer discussing the proposed change on a GitHub issue prior to a PR.

New functionality should avoid adding new dependencies if possible and should be broadly useful. Feature requests that are specific to certain uses will likely be declined unless they can be redesigned to be generic or optional.

Before submitting a pull request, please run tests and style checks:

./godelw verify

License

This library is made available under the Apache 2.0 License.