080e329cb1
To clarify the role of actor, the request data that initiates an event has been separated. The ActorRecord is pared down to just the username. This eliminates confusion about where event related data should be added. Signed-off-by: Stephen J Day <stephen.day@docker.com>
355 lines
12 KiB
Go
355 lines
12 KiB
Go
package registry
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import (
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"fmt"
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"net"
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"net/http"
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"os"
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"code.google.com/p/go-uuid/uuid"
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log "github.com/Sirupsen/logrus"
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"github.com/docker/distribution/api/v2"
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"github.com/docker/distribution/auth"
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"github.com/docker/distribution/configuration"
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"github.com/docker/distribution/storage"
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"github.com/docker/distribution/storage/notifications"
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"github.com/docker/distribution/storagedriver"
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"github.com/docker/distribution/storagedriver/factory"
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"github.com/gorilla/mux"
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)
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// App is a global registry application object. Shared resources can be placed
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// on this object that will be accessible from all requests. Any writable
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// fields should be protected.
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type App struct {
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Config configuration.Configuration
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// InstanceID is a unique id assigned to the application on each creation.
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// Provides information in the logs and context to identify restarts.
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InstanceID string
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router *mux.Router // main application router, configured with dispatchers
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driver storagedriver.StorageDriver // driver maintains the app global storage driver instance.
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registry storage.Registry // registry is the primary registry backend for the app instance.
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accessController auth.AccessController // main access controller for application
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// events contains notification related configuration.
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events struct {
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sink notifications.Sink
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source notifications.SourceRecord
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}
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layerHandler storage.LayerHandler // allows dispatch of layer serving to external provider
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}
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// NewApp takes a configuration and returns a configured app, ready to serve
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// requests. The app only implements ServeHTTP and can be wrapped in other
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// handlers accordingly.
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func NewApp(configuration configuration.Configuration) *App {
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app := &App{
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Config: configuration,
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InstanceID: uuid.New(),
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router: v2.Router(),
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}
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// Register the handler dispatchers.
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app.register(v2.RouteNameBase, func(ctx *Context, r *http.Request) http.Handler {
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return http.HandlerFunc(apiBase)
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})
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app.register(v2.RouteNameManifest, imageManifestDispatcher)
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app.register(v2.RouteNameTags, tagsDispatcher)
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app.register(v2.RouteNameBlob, layerDispatcher)
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app.register(v2.RouteNameBlobUpload, layerUploadDispatcher)
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app.register(v2.RouteNameBlobUploadChunk, layerUploadDispatcher)
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var err error
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app.driver, err = factory.Create(configuration.Storage.Type(), configuration.Storage.Parameters())
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if err != nil {
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// TODO(stevvooe): Move the creation of a service into a protected
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// method, where this is created lazily. Its status can be queried via
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// a health check.
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panic(err)
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}
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app.configureEvents(&configuration)
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app.registry = storage.NewRegistryWithDriver(app.driver)
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authType := configuration.Auth.Type()
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if authType != "" {
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accessController, err := auth.GetAccessController(configuration.Auth.Type(), configuration.Auth.Parameters())
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if err != nil {
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panic(fmt.Sprintf("unable to configure authorization (%s): %v", authType, err))
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}
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app.accessController = accessController
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}
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layerHandlerType := configuration.LayerHandler.Type()
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if layerHandlerType != "" {
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lh, err := storage.GetLayerHandler(layerHandlerType, configuration.LayerHandler.Parameters(), app.driver)
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if err != nil {
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panic(fmt.Sprintf("unable to configure layer handler (%s): %v", layerHandlerType, err))
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}
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app.layerHandler = lh
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}
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return app
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}
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// register a handler with the application, by route name. The handler will be
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// passed through the application filters and context will be constructed at
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// request time.
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func (app *App) register(routeName string, dispatch dispatchFunc) {
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// TODO(stevvooe): This odd dispatcher/route registration is by-product of
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// some limitations in the gorilla/mux router. We are using it to keep
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// routing consistent between the client and server, but we may want to
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// replace it with manual routing and structure-based dispatch for better
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// control over the request execution.
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app.router.GetRoute(routeName).Handler(app.dispatcher(dispatch))
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}
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// configureEvents prepares the event sink for action.
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func (app *App) configureEvents(configuration *configuration.Configuration) {
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// Configure all of the endpoint sinks.
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var sinks []notifications.Sink
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for _, endpoint := range configuration.Notifications.Endpoints {
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if endpoint.Disabled {
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log.Infof("endpoint %s disabled, skipping", endpoint.Name)
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continue
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}
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log.Infof("configuring endpoint %v (%v), timeout=%s, headers=%v", endpoint.Name, endpoint.URL, endpoint.Timeout, endpoint.Headers)
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endpoint := notifications.NewEndpoint(endpoint.Name, endpoint.URL, notifications.EndpointConfig{
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Timeout: endpoint.Timeout,
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Threshold: endpoint.Threshold,
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Backoff: endpoint.Backoff,
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Headers: endpoint.Headers,
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})
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sinks = append(sinks, endpoint)
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}
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// NOTE(stevvooe): Moving to a new queueing implementation is as easy as
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// replacing broadcaster with a rabbitmq implementation. It's recommended
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// that the registry instances also act as the workers to keep deployment
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// simple.
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app.events.sink = notifications.NewBroadcaster(sinks...)
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// Populate registry event source
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hostname, err := os.Hostname()
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if err != nil {
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hostname = configuration.HTTP.Addr
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} else {
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// try to pick the port off the config
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_, port, err := net.SplitHostPort(configuration.HTTP.Addr)
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if err == nil {
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hostname = net.JoinHostPort(hostname, port)
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}
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}
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app.events.source = notifications.SourceRecord{
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Addr: hostname,
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InstanceID: app.InstanceID,
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}
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}
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func (app *App) ServeHTTP(w http.ResponseWriter, r *http.Request) {
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defer r.Body.Close() // ensure that request body is always closed.
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// Set a header with the Docker Distribution API Version for all responses.
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w.Header().Add("Docker-Distribution-API-Version", "registry/2.0")
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app.router.ServeHTTP(w, r)
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}
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// dispatchFunc takes a context and request and returns a constructed handler
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// for the route. The dispatcher will use this to dynamically create request
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// specific handlers for each endpoint without creating a new router for each
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// request.
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type dispatchFunc func(ctx *Context, r *http.Request) http.Handler
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// TODO(stevvooe): dispatchers should probably have some validation error
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// chain with proper error reporting.
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// singleStatusResponseWriter only allows the first status to be written to be
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// the valid request status. The current use case of this class should be
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// factored out.
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type singleStatusResponseWriter struct {
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http.ResponseWriter
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status int
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}
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func (ssrw *singleStatusResponseWriter) WriteHeader(status int) {
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if ssrw.status != 0 {
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return
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}
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ssrw.status = status
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ssrw.ResponseWriter.WriteHeader(status)
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}
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// dispatcher returns a handler that constructs a request specific context and
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// handler, using the dispatch factory function.
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func (app *App) dispatcher(dispatch dispatchFunc) http.Handler {
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return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
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context := app.context(r)
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if err := app.authorized(w, r, context, context.vars["name"]); err != nil {
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return
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}
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// decorate the authorized repository with an event bridge.
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context.Repository = notifications.Listen(
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context.Repository, app.eventBridge(context, r))
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context.log = log.WithField("name", context.Repository.Name())
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handler := dispatch(context, r)
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ssrw := &singleStatusResponseWriter{ResponseWriter: w}
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handler.ServeHTTP(ssrw, r)
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// Automated error response handling here. Handlers may return their
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// own errors if they need different behavior (such as range errors
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// for layer upload).
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if context.Errors.Len() > 0 {
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if ssrw.status == 0 {
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w.WriteHeader(http.StatusBadRequest)
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}
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serveJSON(w, context.Errors)
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}
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})
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}
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// context constructs the context object for the application. This only be
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// called once per request.
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func (app *App) context(r *http.Request) *Context {
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vars := mux.Vars(r)
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context := &Context{
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App: app,
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RequestID: uuid.New(),
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urlBuilder: v2.NewURLBuilderFromRequest(r),
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}
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// Store vars for underlying handlers.
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context.vars = vars
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return context
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}
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// authorized checks if the request can proceed with access to the requested
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// repository. If it succeeds, the repository will be available on the
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// context. An error will be if access is not available.
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func (app *App) authorized(w http.ResponseWriter, r *http.Request, context *Context, repo string) error {
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if app.accessController == nil {
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// No access controller, so we simply provide access.
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context.Repository = app.registry.Repository(repo)
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return nil // access controller is not enabled.
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}
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var accessRecords []auth.Access
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if repo != "" {
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resource := auth.Resource{
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Type: "repository",
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Name: repo,
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}
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switch r.Method {
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case "GET", "HEAD":
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accessRecords = append(accessRecords,
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auth.Access{
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Resource: resource,
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Action: "pull",
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})
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case "POST", "PUT", "PATCH":
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accessRecords = append(accessRecords,
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auth.Access{
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Resource: resource,
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Action: "pull",
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},
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auth.Access{
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Resource: resource,
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Action: "push",
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})
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case "DELETE":
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// DELETE access requires full admin rights, which is represented
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// as "*". This may not be ideal.
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accessRecords = append(accessRecords,
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auth.Access{
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Resource: resource,
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Action: "*",
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})
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}
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} else {
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// Only allow the name not to be set on the base route.
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route := mux.CurrentRoute(r)
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if route == nil || route.GetName() != v2.RouteNameBase {
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// For this to be properly secured, context.Name must always be set
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// for a resource that may make a modification. The only condition
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// under which name is not set and we still allow access is when the
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// base route is accessed. This section prevents us from making that
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// mistake elsewhere in the code, allowing any operation to proceed.
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w.Header().Set("Content-Type", "application/json; charset=utf-8")
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w.WriteHeader(http.StatusForbidden)
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var errs v2.Errors
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errs.Push(v2.ErrorCodeUnauthorized)
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serveJSON(w, errs)
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}
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}
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if err := app.accessController.Authorized(r, accessRecords...); err != nil {
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switch err := err.(type) {
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case auth.Challenge:
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w.Header().Set("Content-Type", "application/json; charset=utf-8")
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err.ServeHTTP(w, r)
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var errs v2.Errors
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errs.Push(v2.ErrorCodeUnauthorized, accessRecords)
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serveJSON(w, errs)
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default:
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// This condition is a potential security problem either in
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// the configuration or whatever is backing the access
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// controller. Just return a bad request with no information
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// to avoid exposure. The request should not proceed.
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context.log.Errorf("error checking authorization: %v", err)
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w.WriteHeader(http.StatusBadRequest)
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}
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return err
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}
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// At this point, the request should have access to the repository under
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// the requested operation. Make is available on the context.
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context.Repository = app.registry.Repository(repo)
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return nil
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}
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// eventBridge returns a bridge for the current request, configured with the
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// correct actor and source.
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func (app *App) eventBridge(ctx *Context, r *http.Request) notifications.Listener {
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// TODO(stevvooe): Need to extract user data from request context using
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// auth system. Would prefer to do this during logging refactor and
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// addition of user and google context type.
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actor := notifications.ActorRecord{
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Name: "--todo--",
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}
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request := notifications.NewRequestRecord(ctx.RequestID, r)
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return notifications.NewBridge(ctx.urlBuilder, app.events.source, actor, request, app.events.sink)
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}
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// apiBase implements a simple yes-man for doing overall checks against the
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// api. This can support auth roundtrips to support docker login.
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func apiBase(w http.ResponseWriter, r *http.Request) {
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const emptyJSON = "{}"
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// Provide a simple /v2/ 200 OK response with empty json response.
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w.Header().Set("Content-Type", "application/json; charset=utf-8")
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w.Header().Set("Content-Length", fmt.Sprint(len(emptyJSON)))
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fmt.Fprint(w, emptyJSON)
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}
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