package command import ( "fmt" "io" "os" "os/signal" "strings" "syscall" "time" "github.com/hashicorp/nomad/api" "github.com/hashicorp/nomad/api/contexts" "github.com/posener/complete" ) type LogsCommand struct { Meta } func (l *LogsCommand) Help() string { helpText := ` Usage: nomad logs [options] Streams the stdout/stderr of the given allocation and task. General Options: ` + generalOptionsUsage() + ` Logs Specific Options: -stderr Display stderr logs. -verbose Show full information. -job Use a random allocation from the specified job ID. -f Causes the output to not stop when the end of the logs are reached, but rather to wait for additional output. -tail Show the logs contents with offsets relative to the end of the logs. If no offset is given, -n is defaulted to 10. -n Sets the tail location in best-efforted number of lines relative to the end of the logs. -c Sets the tail location in number of bytes relative to the end of the logs. ` return strings.TrimSpace(helpText) } func (l *LogsCommand) Synopsis() string { return "Streams the logs of a task." } func (c *LogsCommand) AutocompleteFlags() complete.Flags { return mergeAutocompleteFlags(c.Meta.AutocompleteFlags(FlagSetClient), complete.Flags{ "-stderr": complete.PredictNothing, "-verbose": complete.PredictNothing, "-job": complete.PredictAnything, "-f": complete.PredictNothing, "-tail": complete.PredictAnything, "-n": complete.PredictAnything, "-c": complete.PredictAnything, }) } func (l *LogsCommand) AutocompleteArgs() complete.Predictor { client, _ := l.Meta.Client() return complete.PredictFunc(func(a complete.Args) []string { if len(a.Completed) > 1 { return nil } resp, err := client.Search().PrefixSearch(a.Last, contexts.Allocs) if err != nil { return []string{} } return resp.Matches[contexts.Allocs] }) } func (l *LogsCommand) Run(args []string) int { var verbose, job, tail, stderr, follow bool var numLines, numBytes int64 flags := l.Meta.FlagSet("logs", FlagSetClient) flags.Usage = func() { l.Ui.Output(l.Help()) } flags.BoolVar(&verbose, "verbose", false, "") flags.BoolVar(&job, "job", false, "") flags.BoolVar(&tail, "tail", false, "") flags.BoolVar(&follow, "f", false, "") flags.BoolVar(&stderr, "stderr", false, "") flags.Int64Var(&numLines, "n", -1, "") flags.Int64Var(&numBytes, "c", -1, "") if err := flags.Parse(args); err != nil { return 1 } args = flags.Args() if numArgs := len(args); numArgs < 1 { if job { l.Ui.Error("Job ID required. See help:\n") } else { l.Ui.Error("Allocation ID required. See help:\n") } l.Ui.Error(l.Help()) return 1 } else if numArgs > 2 { l.Ui.Error(l.Help()) return 1 } client, err := l.Meta.Client() if err != nil { l.Ui.Error(fmt.Sprintf("Error initializing client: %v", err)) return 1 } // If -job is specified, use random allocation, otherwise use provided allocation allocID := args[0] if job { allocID, err = getRandomJobAlloc(client, args[0]) if err != nil { l.Ui.Error(fmt.Sprintf("Error fetching allocations: %v", err)) return 1 } } // Truncate the id unless full length is requested length := shortId if verbose { length = fullId } // Query the allocation info if len(allocID) == 1 { l.Ui.Error(fmt.Sprintf("Alloc ID must contain at least two characters.")) return 1 } if len(allocID)%2 == 1 { // Identifiers must be of even length, so we strip off the last byte // to provide a consistent user experience. allocID = allocID[:len(allocID)-1] } allocs, _, err := client.Allocations().PrefixList(allocID) if err != nil { l.Ui.Error(fmt.Sprintf("Error querying allocation: %v", err)) return 1 } if len(allocs) == 0 { l.Ui.Error(fmt.Sprintf("No allocation(s) with prefix or id %q found", allocID)) return 1 } if len(allocs) > 1 { // Format the allocs out := formatAllocListStubs(allocs, verbose, length) l.Ui.Error(fmt.Sprintf("Prefix matched multiple allocations\n\n%s", out)) return 1 } // Prefix lookup matched a single allocation alloc, _, err := client.Allocations().Info(allocs[0].ID, nil) if err != nil { l.Ui.Error(fmt.Sprintf("Error querying allocation: %s", err)) return 1 } var task string if len(args) >= 2 { task = args[1] if task == "" { l.Ui.Error("Task name required") return 1 } } else { // Try to determine the tasks name from the allocation var tasks []*api.Task for _, tg := range alloc.Job.TaskGroups { if *tg.Name == alloc.TaskGroup { if len(tg.Tasks) == 1 { task = tg.Tasks[0].Name break } tasks = tg.Tasks break } } if task == "" { l.Ui.Error(fmt.Sprintf("Allocation %q is running the following tasks:", limit(alloc.ID, length))) for _, t := range tasks { l.Ui.Error(fmt.Sprintf(" * %s", t.Name)) } l.Ui.Error("\nPlease specify the task.") return 1 } } logType := "stdout" if stderr { logType = "stderr" } // We have a file, output it. var r io.ReadCloser var readErr error if !tail { r, readErr = l.followFile(client, alloc, follow, task, logType, api.OriginStart, 0) if readErr != nil { readErr = fmt.Errorf("Error reading file: %v", readErr) } } else { // Parse the offset var offset int64 = defaultTailLines * bytesToLines if nLines, nBytes := numLines != -1, numBytes != -1; nLines && nBytes { l.Ui.Error("Both -n and -c set") return 1 } else if nLines { offset = numLines * bytesToLines } else if nBytes { offset = numBytes } else { numLines = defaultTailLines } r, readErr = l.followFile(client, alloc, follow, task, logType, api.OriginEnd, offset) // If numLines is set, wrap the reader if numLines != -1 { r = NewLineLimitReader(r, int(numLines), int(numLines*bytesToLines), 1*time.Second) } if readErr != nil { readErr = fmt.Errorf("Error tailing file: %v", readErr) } } if readErr != nil { l.Ui.Error(readErr.Error()) return 1 } defer r.Close() io.Copy(os.Stdout, r) return 0 } // followFile outputs the contents of the file to stdout relative to the end of // the file. func (l *LogsCommand) followFile(client *api.Client, alloc *api.Allocation, follow bool, task, logType, origin string, offset int64) (io.ReadCloser, error) { cancel := make(chan struct{}) frames, err := client.AllocFS().Logs(alloc, follow, task, logType, origin, offset, cancel, nil) if err != nil { return nil, err } signalCh := make(chan os.Signal, 1) signal.Notify(signalCh, os.Interrupt, syscall.SIGTERM) // Create a reader var r io.ReadCloser frameReader := api.NewFrameReader(frames, cancel) frameReader.SetUnblockTime(500 * time.Millisecond) r = frameReader go func() { <-signalCh // End the streaming r.Close() }() return r, nil }