// Execute a WorkOrder and populate its response object func (wo *WorkOrder) Execute() (error error) { logger.Info("Starting work on WorkOrder: %d with \"%s\"", wo.Id, wo.Message) // setup command to be run with arguments from the command line wo_args := strings.Split(wo.Message, " ") base_args := strings.Split(os.Getenv("CMD_BASE"), " ") cmd := exec.Command(base_args[0]) cmd.Args = append(base_args[0:], wo_args[0:]...) cmd.Dir = os.Getenv("CMD_DIR") // collect stdout and stderr var output bytes.Buffer cmd.Stdout = &output cmd.Stderr = &output // start timing command start_time := time.Now() // execute the command if err := cmd.Start(); err != nil { logger.Error("cmd.Start:", err) error = err } // http://stackoverflow.com/questions/10385551/get-exit-code-go if err := cmd.Wait(); err != nil { if exiterr, ok := err.(*exec.ExitError); ok { // The program has exited with an exit code != 0 // This works on both Unix and Windows. Although package // syscall is generally platform dependent, WaitStatus is // defined for both Unix and Windows and in both cases has // an ExitStatus() method with the same signature. if status, ok := exiterr.Sys().(syscall.WaitStatus); ok { // logger.Info("Exit Status: %d", status.ExitStatus()) wo.response.Result.ExitStatus = status.ExitStatus() } } else { logger.Error("cmd.Wait: %v", err) error = err } } // calculate the time taken to complete the command end_time := time.Now() wo.response.TimeTaken = end_time.Sub(start_time).Seconds() wo.response.CompletedAt = &end_time // attach the output of the command to the result message wo.response.Result.Message = output.String() logger.Info("Completed WorkOrder: %d", wo.Id) return }
// Report on the result of the WorkOrders execution. // This method requires that the WorkOrder has been Executed. func (wo *WorkOrder) Report() (error error) { report_queue := os.Getenv("SQS_REPORT_QUEUE") logger.Info("Sending response to '%s' for: %d", report_queue, wo.Id) // prepare the response object wo.response.Id = wo.Id // create sqs client client, err := sqs.NewFrom(os.Getenv("SQS_WORKER_ACCESS_KEY"), os.Getenv("SQS_WORKER_SECRET_KEY"), "us-east-1") if err != nil { logger.Error("Could not report: %d - %v", wo.Id, err) error = err return } // get the SQS queue queue, err := client.GetQueue(report_queue) if err != nil { logger.Error("REPORT QUEUE ERROR: %d - %v", wo.Id, err) error = err return } // trim the message so that it will fit in SQS if len(wo.response.Result.Message) > 60000 { logger.Info("Trimming WorkOrder %d message down from %d chars", wo.Id, len(wo.response.Result.Message)) wo.response.Result.Message = wo.response.Result.Message[0:30000] + "\n\n...(truncated)...\n\n" + wo.response.Result.Message[len(wo.response.Result.Message)-30000:] } // marshal the response object into json data, err := json.Marshal(wo.response) if err != nil { logger.Error("Could not convert response to JSON for: %d - %v", wo.Id, err) error = err return } // send the report to the queue _, err = queue.SendMessage(string(data)) if err != nil { logger.Error("Could not report: %d - %v", wo.Id, err) error = err } return }
func main() { logger.Info("Sending messages...") // create sqs client client, err := sqs.NewFrom(os.Getenv("ADMIN_AWS_ACCESS_KEY_ID"), os.Getenv("ADMIN_AWS_SECRET_ACCESS_KEY"), "us-east-1") if err != nil { logger.Fatal("CLIENT ERROR:", err, "asdf", "asdfdasfd") } // get the SQS queue queue, err := client.GetQueue(os.Getenv("SQS_RECIEVE_QUEUE")) if err != nil { logger.Fatal("QUEUE ERROR:", err) } for i := 0; i < 100; i++ { var wo work_order.WorkOrder current_time := time.Now() wo.Id = i wo.JobId = 1 wo.Message = strconv.Itoa(rand.Intn(80)) wo.CreatedAt = ¤t_time wo.UpdatedAt = ¤t_time wo.Queue = os.Getenv("SQS_RECIEVE_QUEUE") data, err := json.Marshal(wo) if err != nil { logger.Error("JSON error: %v", err) } queue.SendMessage(string(data)) } // quit logger.Info("Exiting.") os.Exit(0) }
func main() { logger.Info("Starting worker v%s", VERSION) // get worker count workers, err := strconv.Atoi(os.Getenv("WORKER_COUNT")) if err != nil { workers = 10 } logger.Info("Worker count: %d", workers) // access key, secret key, receive queue and report queue should be in ENV variables logger.Info("SQS queue: %s", os.Getenv("SQS_WORKER_QUEUE")) // create sqs client client, err := sqs.NewFrom(os.Getenv("SQS_WORKER_ACCESS_KEY"), os.Getenv("SQS_WORKER_SECRET_KEY"), "us-east-1") if err != nil { logger.Fatal("CLIENT ERROR: %v", err) } // get the SQS queue queue, err := client.GetQueue(os.Getenv("SQS_WORKER_QUEUE")) if err != nil { logger.Fatal("QUEUE ERROR: %v", err) } logger.Info("Worker started.") // create the wait group var wg sync.WaitGroup for { // get some messages from the sqs queue logger.Debug("Checking for messages on the queue...") resp, err := queue.ReceiveMessageWithVisibilityTimeout(workers, 60) if err != nil { logger.Error("Could not receive messages: %v", err) time.Sleep(10 * time.Second) } if cap(resp.Messages) == 0 { logger.Debug("Did not find any messages on the queue.") } // for each message for _, message := range resp.Messages { // get the message details wo, err := work_order.NewFromJson(message.Body) if err != nil { logger.Error("Could not process SQS message: %s with JSON ERROR: %v", message.MessageId, err) } else { // process the message in a goroutine wg.Add(1) go processMessage(queue, message, wo, &wg) } } // wait for each goroutine to exit wg.Wait() } }