package builtin import ( "bytes" "encoding/json" "fmt" "io" "io/ioutil" "os" "time" "github.com/drone/drone/Godeps/_workspace/src/github.com/samalba/dockerclient" "github.com/drone/drone/pkg/docker" "github.com/drone/drone/pkg/queue" common "github.com/drone/drone/pkg/types" log "github.com/drone/drone/Godeps/_workspace/src/github.com/Sirupsen/logrus" ) var ( // Defult docker host address DefaultHost = "unix:///var/run/docker.sock" // Docker host address from environment variable DockerHost = os.Getenv("DOCKER_HOST") ) func init() { // if the environment doesn't specify a DOCKER_HOST // we should use the default Docker socket. if len(DockerHost) == 0 { DockerHost = DefaultHost } } type Runner struct { Updater } func (r *Runner) Run(w *queue.Work) error { var workers []*worker var client dockerclient.Client defer func() { recover() // ensures that all containers have been removed // from the host machine. for _, worker := range workers { worker.Remove() } // if any part of the commit fails and leaves // behind orphan sub-builds we need to cleanup // after ourselves. if w.Commit.State == common.StateRunning { // if any tasks are running or pending // we should mark them as complete. for _, b := range w.Commit.Builds { if b.State == common.StateRunning { b.State = common.StateError b.Finished = time.Now().UTC().Unix() b.Duration = b.Finished - b.Started b.ExitCode = 255 } if b.State == common.StatePending { b.State = common.StateError b.Started = time.Now().UTC().Unix() b.Finished = time.Now().UTC().Unix() b.Duration = 0 b.ExitCode = 255 } r.SetBuild(w.Repo, w.Commit, b) } // must populate build start if w.Commit.Started == 0 { w.Commit.Started = time.Now().UTC().Unix() } // mark the build as complete (with error) w.Commit.State = common.StateError w.Commit.Finished = time.Now().UTC().Unix() r.SetCommit(w.User, w.Repo, w.Commit) } }() // marks the build as running w.Commit.Started = time.Now().UTC().Unix() w.Commit.State = common.StateRunning err := r.SetCommit(w.User, w.Repo, w.Commit) if err != nil { return err } // create the Docker client. In this version of Drone (alpha) // we do not spread builds across clients, but this can and // (probably) will change in the future. client, err = dockerclient.NewDockerClient(DockerHost, nil) if err != nil { return err } // loop through and execute the build and // clone steps for each build task. for _, task := range w.Commit.Builds { // marks the task as running task.State = common.StateRunning task.Started = time.Now().UTC().Unix() err = r.SetBuild(w.Repo, w.Commit, task) if err != nil { return err } work := &work{ Repo: w.Repo, Commit: w.Commit, Keys: w.Keys, Netrc: w.Netrc, Yaml: w.Yaml, Build: task, Env: w.Env, Plugins: w.Plugins, } in, err := json.Marshal(work) if err != nil { return err } worker := newWorkerTimeout(client, w.Repo.Timeout) workers = append(workers, worker) cname := cname(task) pullrequest := (w.Commit.PullRequest != "") state, builderr := worker.Build(cname, in, pullrequest) switch { case builderr == ErrTimeout: task.State = common.StateKilled case builderr != nil: task.State = common.StateError case state != 0: task.ExitCode = state task.State = common.StateFailure default: task.State = common.StateSuccess } // send the logs to the datastore var buf bytes.Buffer rc, err := worker.Logs() if err != nil && builderr != nil { buf.WriteString("001 Error launching build") buf.WriteString(builderr.Error()) } else if err != nil { buf.WriteString("002 Error launching build") buf.WriteString(err.Error()) return err } else { defer rc.Close() docker.StdCopy(&buf, &buf, rc) } err = r.SetLogs(w.Repo, w.Commit, task, ioutil.NopCloser(&buf)) if err != nil { return err } // update the task in the datastore task.Finished = time.Now().UTC().Unix() task.Duration = task.Finished - task.Started err = r.SetBuild(w.Repo, w.Commit, task) if err != nil { return err } } // update the build state if any of the sub-tasks // had a non-success status w.Commit.State = common.StateSuccess for _, build := range w.Commit.Builds { if build.State != common.StateSuccess { w.Commit.State = build.State break } } err = r.SetCommit(w.User, w.Repo, w.Commit) if err != nil { return err } // loop through and execute the notifications and // the destroy all containers afterward. for i, build := range w.Commit.Builds { work := &work{ Repo: w.Repo, Commit: w.Commit, Keys: w.Keys, Netrc: w.Netrc, Yaml: w.Yaml, Build: build, Env: w.Env, Plugins: w.Plugins, } in, err := json.Marshal(work) if err != nil { return err } workers[i].Notify(in) break } return nil } func (r *Runner) Cancel(build *common.Build) error { client, err := dockerclient.NewDockerClient(DockerHost, nil) if err != nil { return err } return client.StopContainer(cname(build), 30) } func (r *Runner) Logs(build *common.Build) (io.ReadCloser, error) { client, err := dockerclient.NewDockerClient(DockerHost, nil) if err != nil { return nil, err } // make sure this container actually exists info, err := client.InspectContainer(cname(build)) if err != nil { return nil, err } // verify the container is running. if not we'll // do an exponential backoff and attempt to wait if !info.State.Running { for i := 0; ; i++ { time.Sleep(1 * time.Second) info, err = client.InspectContainer(info.Id) if err != nil { return nil, err } if info.State.Running { break } if i == 5 { return nil, dockerclient.ErrNotFound } } } return client.ContainerLogs(info.Id, logOptsTail) } func cname(build *common.Build) string { return fmt.Sprintf("drone-%d", build.ID) } func (r *Runner) Poll(q queue.Queue) { for { w := q.Pull() q.Ack(w) err := r.Run(w) if err != nil { log.Error(err) } } }