// teardown is a helper function that we can use to // stop and remove the build container, its supporting image, // and the supporting service containers. func (b *Builder) teardown() error { // stop and destroy the container if b.container != nil { // debugging log.Info("removing build container") // stop the container, ignore error message b.dockerClient.Containers.Stop(b.container.ID, 15) // remove the container, ignore error message if err := b.dockerClient.Containers.Remove(b.container.ID); err != nil { log.Errf("failed to delete build container %s", b.container.ID) } } // stop and destroy the container services for i, container := range b.services { // debugging log.Infof("removing service container %s", b.Build.Services[i]) // stop the service container, ignore the error b.dockerClient.Containers.Stop(container.ID, 15) // remove the service container, ignore the error if err := b.dockerClient.Containers.Remove(container.ID); err != nil { log.Errf("failed to delete service container %s", container.ID) } } // destroy the underlying image if b.image != nil { // debugging log.Info("removing build image") if _, err := b.dockerClient.Images.Remove(b.image.ID); err != nil { log.Errf("failed to completely delete build image %s. %s", b.image.ID, err.Error()) } } return nil }
func (b *Builder) run() error { // create and run the container conf := docker.Config{ Image: b.image.ID, AttachStdin: false, AttachStdout: true, AttachStderr: true, } // configure if Docker should run in privileged mode host := docker.HostConfig{ Privileged: (b.Privileged && len(b.Repo.PR) == 0), } // debugging log.Noticef("starting build %s", b.Build.Name) // link service containers for i, service := range b.services { // convert name of the image to a slug _, name, _ := parseImageName(b.Build.Services[i]) // link the service container to our // build container. host.Links = append(host.Links, service.Name[1:]+":"+name) } // where are temp files going to go? tmpPath := "/tmp/drone" if len(os.Getenv("DRONE_TMP")) > 0 { tmpPath = os.Getenv("DRONE_TMP") } log.Infof("temp directory is %s", tmpPath) if err := os.MkdirAll(tmpPath, 0777); err != nil { return fmt.Errorf("Failed to create temp directory at %s: %s", tmpPath, err) } // link cached volumes conf.Volumes = make(map[string]struct{}) for _, volume := range b.Build.Cache { name := filepath.Clean(b.Repo.Name) branch := filepath.Clean(b.Repo.Branch) volume := filepath.Clean(volume) // with Docker, volumes must be an absolute path. If an absolute // path is not provided, then assume it is for the repository // working directory. if strings.HasPrefix(volume, "/") == false { volume = filepath.Join(b.Repo.Dir, volume) } // local cache path on the host machine // this path is going to be really long hostpath := filepath.Join(tmpPath, name, branch, volume) // check if the volume is created if _, err := os.Stat(hostpath); err != nil { // if does not exist then create os.MkdirAll(hostpath, 0777) } host.Binds = append(host.Binds, hostpath+":"+volume) conf.Volumes[volume] = struct{}{} // debugging log.Infof("mounting volume %s:%s", hostpath, volume) } // create the container from the image run, err := b.dockerClient.Containers.Create(&conf) if err != nil { return err } // cache instance of docker.Run b.container = run // attach to the container go func() { b.dockerClient.Containers.Attach(run.ID, &writer{b.Stdout}) }() // start the container if err := b.dockerClient.Containers.Start(run.ID, &host); err != nil { b.BuildState.ExitCode = 1 b.BuildState.Finished = time.Now().UTC().Unix() return err } // wait for the container to stop wait, err := b.dockerClient.Containers.Wait(run.ID) if err != nil { b.BuildState.ExitCode = 1 b.BuildState.Finished = time.Now().UTC().Unix() return err } // set completion time b.BuildState.Finished = time.Now().UTC().Unix() // get the exit code if possible b.BuildState.ExitCode = wait.StatusCode return nil }
func (b *Builder) setup() error { // temp directory to store all files required // to generate the Docker image. dir, err := ioutil.TempDir("", "drone-") if err != nil { return err } // clean up after our mess. defer os.RemoveAll(dir) // make sure the image isn't empty. this would be bad if len(b.Build.Image) == 0 { log.Err("Fatal Error, No Docker Image specified") return fmt.Errorf("Error: missing Docker image") } // if we're using an alias for the build name we // should substitute it now if alias, ok := builders[b.Build.Image]; ok { b.Build.Image = alias.Tag } // if this is a local repository we should symlink // to the source code in our temp directory if b.Repo.IsLocal() { // this is where we used to use symlinks. We should // talk to the docker team about this, since copying // the entire repository is slow :( // // see https://github.com/dotcloud/docker/pull/3567 //src := filepath.Join(dir, "src") //err = os.Symlink(b.Repo.Path, src) //if err != nil { // return err //} src := filepath.Join(dir, "src") cmd := exec.Command("cp", "-a", b.Repo.Path, src) if err := cmd.Run(); err != nil { return err } } // start all services required for the build // that will get linked to the container. for _, service := range b.Build.Services { // Parse the name of the Docker image // And then construct a fully qualified image name owner, name, tag := parseImageName(service) cname := fmt.Sprintf("%s/%s:%s", owner, name, tag) // Get the image info img, err := b.dockerClient.Images.Inspect(cname) if err != nil { // Get the image if it doesn't exist if err := b.dockerClient.Images.Pull(cname); err != nil { return fmt.Errorf("Error: Unable to pull image %s", cname) } img, err = b.dockerClient.Images.Inspect(cname) if err != nil { return fmt.Errorf("Error: Invalid or unknown image %s", cname) } } // debugging log.Infof("starting service container %s", cname) // Run the contianer run, err := b.dockerClient.Containers.RunDaemonPorts(cname, img.Config.ExposedPorts) if err != nil { return err } // Get the container info info, err := b.dockerClient.Containers.Inspect(run.ID) if err != nil { // on error kill the container since it hasn't yet been // added to the array and would therefore not get // removed in the defer statement. b.dockerClient.Containers.Stop(run.ID, 10) b.dockerClient.Containers.Remove(run.ID) return err } // Add the running service to the list b.services = append(b.services, info) } if err := b.writeIdentifyFile(dir); err != nil { return err } if err := b.writeBuildScript(dir); err != nil { return err } if err := b.writeProxyScript(dir); err != nil { return err } if err := b.writeDockerfile(dir); err != nil { return err } // debugging log.Info("creating build image") // check for build container (ie bradrydzewski/go:1.2) // and download if it doesn't already exist if _, err := b.dockerClient.Images.Inspect(b.Build.Image); err == docker.ErrNotFound { // download the image if it doesn't exist if err := b.dockerClient.Images.Pull(b.Build.Image); err != nil { return err } } else if err != nil { log.Errf("failed to inspect image %s", b.Build.Image) } // create the Docker image id := createUID() if err := b.dockerClient.Images.Build(id, dir); err != nil { return err } // debugging log.Infof("copying repository to %s", b.Repo.Dir) // get the image details b.image, err = b.dockerClient.Images.Inspect(id) if err != nil { // if we have problems with the image make sure // we remove it before we exit b.dockerClient.Images.Remove(id) return err } return nil }
func (b *Builder) run() error { // create and run the container conf := docker.Config{ Image: b.image.ID, AttachStdin: false, AttachStdout: true, AttachStderr: true, } host := docker.HostConfig{ Privileged: false, } // debugging log.Noticef("starting build %s", b.Build.Name) // link service containers for i, service := range b.services { image, ok := services[b.Build.Services[i]] if !ok { continue // THIS SHOULD NEVER HAPPEN } // link the service container to our // build container. host.Links = append(host.Links, service.Name[1:]+":"+image.Name) } // link cached volumes conf.Volumes = make(map[string]struct{}) for _, volume := range b.Build.Cache { name := filepath.Clean(b.Repo.Name) branch := filepath.Clean(b.Repo.Branch) volume := filepath.Clean(volume) // with Docker, volumes must be an absolute path. If an absolute // path is not provided, then assume it is for the repository // working directory. if strings.HasPrefix(volume, "/") == false { volume = filepath.Join(b.Repo.Dir, volume) } // local cache path on the host machine // this path is going to be really long hostpath := filepath.Join("/tmp/drone", name, branch, volume) // check if the volume is created if _, err := os.Stat(hostpath); err != nil { // if does not exist then create os.MkdirAll(hostpath, 0777) } host.Binds = append(host.Binds, hostpath+":"+volume) conf.Volumes[volume] = struct{}{} // debugging log.Infof("mounting volume %s:%s", hostpath, volume) } // create the container from the image run, err := b.dockerClient.Containers.Create(&conf) if err != nil { return err } // cache instance of docker.Run b.container = run // attach to the container go func() { b.dockerClient.Containers.Attach(run.ID, &writer{b.Stdout}) }() // start the container if err := b.dockerClient.Containers.Start(run.ID, &host); err != nil { b.BuildState.ExitCode = 1 b.BuildState.Finished = time.Now().UTC().Unix() return err } // wait for the container to stop wait, err := b.dockerClient.Containers.Wait(run.ID) if err != nil { b.BuildState.ExitCode = 1 b.BuildState.Finished = time.Now().UTC().Unix() return err } // set completion time b.BuildState.Finished = time.Now().UTC().Unix() // get the exit code if possible b.BuildState.ExitCode = wait.StatusCode return nil }