func (runner *buildRunner) Run(buildScript *script.Build, repo *repo.Repo, key []byte, buildOutput io.Writer) (bool, error) { builder := build.New(runner.dockerClient) builder.Build = buildScript builder.Repo = repo builder.Key = key builder.Stdout = buildOutput builder.Timeout = runner.timeout err := builder.Run() return builder.BuildState == nil || builder.BuildState.ExitCode != 0, err }
func run(path string) { dockerClient := docker.New() // parse the Drone yml file s, err := script.ParseBuildFile(path) if err != nil { log.Err(err.Error()) os.Exit(1) return } // get the repository root directory dir := filepath.Dir(path) code := repo.Repo{ Name: dir, Branch: "HEAD", // should we do this? Path: dir, } // does the local repository match the // $GOPATH/src/{package} pattern? This is // important so we know the target location // where the code should be copied inside // the container. if gopath, ok := getRepoPath(dir); ok { code.Dir = gopath } else if gopath, ok := getGoPath(dir); ok { // in this case we found a GOPATH and // reverse engineered the package path code.Dir = gopath } else { // otherwise just use directory name code.Dir = filepath.Base(dir) } // this is where the code gets uploaded to the container // TODO move this code to the build package code.Dir = filepath.Join("/var/cache/drone/src", filepath.Clean(code.Dir)) // track all build results var builders []*build.Builder // ssh key to import into container var key []byte if len(*identity) != 0 { key, err = ioutil.ReadFile(*identity) if err != nil { fmt.Printf("[Error] Could not find or read identity file %s\n", *identity) os.Exit(1) return } } builds := []*script.Build{s} // loop through and create builders for _, b := range builds { //script.Builds { builder := build.New(dockerClient) builder.Build = b builder.Repo = &code builder.Key = key builder.Stdout = os.Stdout builder.Timeout = *timeout if *parallel == true { var buf bytes.Buffer builder.Stdout = &buf } builders = append(builders, builder) } switch *parallel { case false: runSequential(builders) case true: runParallel(builders) } // if in parallel mode, print out the buffer // if we had a failure for _, builder := range builders { if builder.BuildState.ExitCode == 0 { continue } if buf, ok := builder.Stdout.(*bytes.Buffer); ok { log.Noticef("printing stdout for failed build %s", builder.Build.Name) println(buf.String()) } } // this exit code is initially 0 and will // be set to an error code if any of the // builds fail. var exit int fmt.Printf("\nDrone Build Results \033[90m(%v)\033[0m\n", len(builders)) // loop through and print results for _, builder := range builders { build := builder.Build res := builder.BuildState duration := time.Duration(res.Finished - res.Started) switch { case builder.BuildState.ExitCode == 0: fmt.Printf(" \033[32m\u2713\033[0m %v \033[90m(%v)\033[0m\n", build.Name, humanizeDuration(duration*time.Second)) case builder.BuildState.ExitCode != 0: fmt.Printf(" \033[31m\u2717\033[0m %v \033[90m(%v)\033[0m\n", build.Name, humanizeDuration(duration*time.Second)) exit = builder.BuildState.ExitCode } } os.Exit(exit) }