package runner import ( "context" logger "courgette/internal/logging" workflow "courgette/internal/workflow" "errors" "fmt" "sync" ) type Runner struct { Labels map[string]string Driver ContainerDriver Runs int // Deferred tasks, in order their were scheduled. deferred *DeferredTaskManager } func NewRunner(driver ContainerDriver, labels map[string]string) Runner { return Runner{ Driver: driver, Labels: labels, deferred: NewDeferredTaskManager(), } } func (r *Runner) GetImageUriByLabel(label string) string { uri, exists := r.Labels[label] if exists { return uri } return "debian:latest" } func (r *Runner) GetContainerName(jobId string) string { return fmt.Sprintf("runner-%s", jobId) } // Executes a workflow using the runner. // // This is the high-level call that will set up the container // that the jobs will be executed in, run the jobs's steps and // tear down the container once no longer useful. func (r *Runner) RunWorkflow(workflow workflow.Workflow) TaskTracker { logger.Info("Executing workflow: %s", workflow.SourcePath) rootTracker := NewTaskTracker(nil) workflowContext := context.WithValue(context.Background(), "workflow", workflow) for _, group := range workflow.GetJobsAsGroups() { var groupWait sync.WaitGroup for _, job := range group { groupWait.Add(1) jobContext := context.WithValue(workflowContext, "currentJob", job) runJob := func(context context.Context) { defer groupWait.Done() jobTracker := NewTaskTracker(rootTracker).SetStatus("started") runnerImage := r.GetImageUriByLabel(job.RunsOn) containerName := r.GetContainerName(jobTracker.TaskId) logger.Info("Using image %s (label: %s)", runnerImage, job.RunsOn) if pullError := r.Driver.Pull(runnerImage); pullError != nil { jobTracker.SetStatus("failed").SetError(pullError) return } if runError := r.RunJobInContainer(runnerImage, containerName, context); runError != nil { jobTracker.SetStatus("failed").SetError(runError) return } jobTracker.SetStatus("success") r.deferred.RunDeferredTasksInScope(fmt.Sprintf("job-%s", containerName)) } go runJob(jobContext) } groupWait.Wait() } r.deferred.RunAllDeferredTasks() return *rootTracker } // Executes a command within the given container. // // If the command raises an error while in the container or fails to run // the command at all, an error is returned, otherwise nil. func (r *Runner) RunCommandInContainer(containerId string, command string) error { result := r.Driver.Exec(containerId, command) if result.Error != nil { return result.Error } if result.ExitCode != 0 { return errors.New(fmt.Sprintf("Command returned a non-zero exit code (%d).", result.ExitCode)) } return nil } // Executes a job within a container. // // The container is started before the job steps are run and cleaned up after. func (r *Runner) RunJobInContainer(imageUri string, containerId string, jobContext context.Context) error { r.Driver.Start(imageUri, containerId) r.deferred.Queue(fmt.Sprintf("job-%s", containerId), func() { logger.Info("Started cleaning up %s", containerId) r.Driver.Stop(containerId) }) job := jobContext.Value("currentJob").(workflow.Job) logger.Info("Started %s", containerId) for stepIndex, step := range job.Steps { logger.Info("Run: %s", step.Run) logger.Info("Using working directory %s", jobContext.Value("workflow").(workflow.Workflow).GetWorkingDirectory(job.Name, stepIndex)) var stepError error if step.Run != "" { stepError = r.RunCommandInContainer(containerId, step.Run) } if stepError != nil { return stepError } } return nil }