package command import ( "fmt" "sort" "strings" "time" "github.com/hashicorp/nomad/api" "github.com/hashicorp/nomad/scheduler" "github.com/posener/complete" ) const ( jobModifyIndexHelp = `To submit the job with version verification run: nomad job run -check-index %d %s When running the job with the check-index flag, the job will only be run if the job modify index given matches the server-side version. If the index has changed, another user has modified the job and the plan's results are potentially invalid.` // preemptionDisplayThreshold is an upper bound used to limit and summarize // the details of preempted jobs in the output preemptionDisplayThreshold = 10 ) type JobPlanCommand struct { Meta JobGetter } func (c *JobPlanCommand) Help() string { helpText := ` Usage: nomad job plan [options] Alias: nomad plan Plan invokes a dry-run of the scheduler to determine the effects of submitting either a new or updated version of a job. The plan will not result in any changes to the cluster but gives insight into whether the job could be run successfully and how it would affect existing allocations. If the supplied path is "-", the jobfile is read from stdin. Otherwise it is read from the file at the supplied path or downloaded and read from URL specified. A job modify index is returned with the plan. This value can be used when submitting the job using "nomad run -check-index", which will check that the job was not modified between the plan and run command before invoking the scheduler. This ensures the job has not been modified since the plan. Multiregion jobs do not return a job modify index. A structured diff between the local and remote job is displayed to give insight into what the scheduler will attempt to do and why. If the job has specified the region, the -region flag and NOMAD_REGION environment variable are overridden and the job's region is used. Plan will return one of the following exit codes: * 0: No allocations created or destroyed. * 1: Allocations created or destroyed. * 255: Error determining plan results. General Options: ` + generalOptionsUsage() + ` Plan Options: -diff Determines whether the diff between the remote job and planned job is shown. Defaults to true. -policy-override Sets the flag to force override any soft mandatory Sentinel policies. -verbose Increase diff verbosity. ` return strings.TrimSpace(helpText) } func (c *JobPlanCommand) Synopsis() string { return "Dry-run a job update to determine its effects" } func (c *JobPlanCommand) AutocompleteFlags() complete.Flags { return mergeAutocompleteFlags(c.Meta.AutocompleteFlags(FlagSetClient), complete.Flags{ "-diff": complete.PredictNothing, "-policy-override": complete.PredictNothing, "-verbose": complete.PredictNothing, }) } func (c *JobPlanCommand) AutocompleteArgs() complete.Predictor { return complete.PredictOr(complete.PredictFiles("*.nomad"), complete.PredictFiles("*.hcl")) } func (c *JobPlanCommand) Name() string { return "job plan" } func (c *JobPlanCommand) Run(args []string) int { var diff, policyOverride, verbose bool flags := c.Meta.FlagSet(c.Name(), FlagSetClient) flags.Usage = func() { c.Ui.Output(c.Help()) } flags.BoolVar(&diff, "diff", true, "") flags.BoolVar(&policyOverride, "policy-override", false, "") flags.BoolVar(&verbose, "verbose", false, "") if err := flags.Parse(args); err != nil { return 255 } // Check that we got exactly one job args = flags.Args() if len(args) != 1 { c.Ui.Error("This command takes one argument: ") c.Ui.Error(commandErrorText(c)) return 255 } path := args[0] // Get Job struct from Jobfile job, err := c.JobGetter.ApiJob(args[0]) if err != nil { c.Ui.Error(fmt.Sprintf("Error getting job struct: %s", err)) return 255 } // Get the HTTP client client, err := c.Meta.Client() if err != nil { c.Ui.Error(fmt.Sprintf("Error initializing client: %s", err)) return 255 } // Force the region to be that of the job. if r := job.Region; r != nil { client.SetRegion(*r) } // Force the namespace to be that of the job. if n := job.Namespace; n != nil { client.SetNamespace(*n) } // Setup the options opts := &api.PlanOptions{} if diff { opts.Diff = true } if policyOverride { opts.PolicyOverride = true } if job.IsMultiregion() { return c.multiregionPlan(client, job, opts, diff, verbose) } // Submit the job resp, _, err := client.Jobs().PlanOpts(job, opts, nil) if err != nil { c.Ui.Error(fmt.Sprintf("Error during plan: %s", err)) return 255 } exitCode := c.outputPlannedJob(job, resp, diff, verbose) c.Ui.Output(c.Colorize().Color(formatJobModifyIndex(resp.JobModifyIndex, path))) return exitCode } func (c *JobPlanCommand) multiregionPlan(client *api.Client, job *api.Job, opts *api.PlanOptions, diff, verbose bool) int { var exitCode int plans := map[string]*api.JobPlanResponse{} // collect all the plans first so that we can report all errors for _, region := range job.Multiregion.Regions { regionName := region.Name client.SetRegion(regionName) // Submit the job for this region resp, _, err := client.Jobs().PlanOpts(job, opts, nil) if err != nil { c.Ui.Error(fmt.Sprintf("Error during plan for region %q: %s", regionName, err)) exitCode = 255 } plans[regionName] = resp } if exitCode > 0 { return exitCode } for regionName, resp := range plans { c.Ui.Output(c.Colorize().Color(fmt.Sprintf("[bold]Region: %q[reset]", regionName))) regionExitCode := c.outputPlannedJob(job, resp, diff, verbose) if regionExitCode > exitCode { exitCode = regionExitCode } } return exitCode } func (c *JobPlanCommand) outputPlannedJob(job *api.Job, resp *api.JobPlanResponse, diff, verbose bool) int { // Print the diff if not disabled if diff { c.Ui.Output(fmt.Sprintf("%s\n", c.Colorize().Color(strings.TrimSpace(formatJobDiff(resp.Diff, verbose))))) } // Print the scheduler dry-run output c.Ui.Output(c.Colorize().Color("[bold]Scheduler dry-run:[reset]")) c.Ui.Output(c.Colorize().Color(formatDryRun(resp, job))) c.Ui.Output("") // Print any warnings if there are any if resp.Warnings != "" { c.Ui.Output( c.Colorize().Color(fmt.Sprintf("[bold][yellow]Job Warnings:\n%s[reset]\n", resp.Warnings))) } // Print preemptions if there are any if resp.Annotations != nil && len(resp.Annotations.PreemptedAllocs) > 0 { c.addPreemptions(resp) } return getExitCode(resp) } // addPreemptions shows details about preempted allocations func (c *JobPlanCommand) addPreemptions(resp *api.JobPlanResponse) { c.Ui.Output(c.Colorize().Color("[bold][yellow]Preemptions:\n[reset]")) if len(resp.Annotations.PreemptedAllocs) < preemptionDisplayThreshold { var allocs []string allocs = append(allocs, fmt.Sprintf("Alloc ID|Job ID|Task Group")) for _, alloc := range resp.Annotations.PreemptedAllocs { allocs = append(allocs, fmt.Sprintf("%s|%s|%s", alloc.ID, alloc.JobID, alloc.TaskGroup)) } c.Ui.Output(formatList(allocs)) return } // Display in a summary format if the list is too large // Group by job type and job ids allocDetails := make(map[string]map[namespaceIdPair]int) numJobs := 0 for _, alloc := range resp.Annotations.PreemptedAllocs { id := namespaceIdPair{alloc.JobID, alloc.Namespace} countMap := allocDetails[alloc.JobType] if countMap == nil { countMap = make(map[namespaceIdPair]int) } cnt, ok := countMap[id] if !ok { // First time we are seeing this job, increment counter numJobs++ } countMap[id] = cnt + 1 allocDetails[alloc.JobType] = countMap } // Show counts grouped by job ID if its less than a threshold var output []string if numJobs < preemptionDisplayThreshold { output = append(output, fmt.Sprintf("Job ID|Namespace|Job Type|Preemptions")) for jobType, jobCounts := range allocDetails { for jobId, count := range jobCounts { output = append(output, fmt.Sprintf("%s|%s|%s|%d", jobId.id, jobId.namespace, jobType, count)) } } } else { // Show counts grouped by job type output = append(output, fmt.Sprintf("Job Type|Preemptions")) for jobType, jobCounts := range allocDetails { total := 0 for _, count := range jobCounts { total += count } output = append(output, fmt.Sprintf("%s|%d", jobType, total)) } } c.Ui.Output(formatList(output)) } type namespaceIdPair struct { id string namespace string } // getExitCode returns 0: // * 0: No allocations created or destroyed. // * 1: Allocations created or destroyed. func getExitCode(resp *api.JobPlanResponse) int { // Check for changes for _, d := range resp.Annotations.DesiredTGUpdates { if d.Stop+d.Place+d.Migrate+d.DestructiveUpdate+d.Canary > 0 { return 1 } } return 0 } // formatJobModifyIndex produces a help string that displays the job modify // index and how to submit a job with it. func formatJobModifyIndex(jobModifyIndex uint64, jobName string) string { help := fmt.Sprintf(jobModifyIndexHelp, jobModifyIndex, jobName) out := fmt.Sprintf("[reset][bold]Job Modify Index: %d[reset]\n%s", jobModifyIndex, help) return out } // formatDryRun produces a string explaining the results of the dry run. func formatDryRun(resp *api.JobPlanResponse, job *api.Job) string { var rolling *api.Evaluation for _, eval := range resp.CreatedEvals { if eval.TriggeredBy == "rolling-update" { rolling = eval } } var out string if len(resp.FailedTGAllocs) == 0 { out = "[bold][green]- All tasks successfully allocated.[reset]\n" } else { // Change the output depending on if we are a system job or not if job.Type != nil && *job.Type == "system" { out = "[bold][yellow]- WARNING: Failed to place allocations on all nodes.[reset]\n" } else { out = "[bold][yellow]- WARNING: Failed to place all allocations.[reset]\n" } sorted := sortedTaskGroupFromMetrics(resp.FailedTGAllocs) for _, tg := range sorted { metrics := resp.FailedTGAllocs[tg] noun := "allocation" if metrics.CoalescedFailures > 0 { noun += "s" } out += fmt.Sprintf("%s[yellow]Task Group %q (failed to place %d %s):\n[reset]", strings.Repeat(" ", 2), tg, metrics.CoalescedFailures+1, noun) out += fmt.Sprintf("[yellow]%s[reset]\n\n", formatAllocMetrics(metrics, false, strings.Repeat(" ", 4))) } if rolling == nil { out = strings.TrimSuffix(out, "\n") } } if rolling != nil { out += fmt.Sprintf("[green]- Rolling update, next evaluation will be in %s.\n", rolling.Wait) } if next := resp.NextPeriodicLaunch; !next.IsZero() && !job.IsParameterized() { loc, err := job.Periodic.GetLocation() if err != nil { out += fmt.Sprintf("[yellow]- Invalid time zone: %v", err) } else { now := time.Now().In(loc) out += fmt.Sprintf("[green]- If submitted now, next periodic launch would be at %s (%s from now).\n", formatTime(next), formatTimeDifference(now, next, time.Second)) } } out = strings.TrimSuffix(out, "\n") return out } // formatJobDiff produces an annotated diff of the job. If verbose mode is // set, added or deleted task groups and tasks are expanded. func formatJobDiff(job *api.JobDiff, verbose bool) string { marker, _ := getDiffString(job.Type) out := fmt.Sprintf("%s[bold]Job: %q\n", marker, job.ID) // Determine the longest markers and fields so that the output can be // properly aligned. longestField, longestMarker := getLongestPrefixes(job.Fields, job.Objects) for _, tg := range job.TaskGroups { if _, l := getDiffString(tg.Type); l > longestMarker { longestMarker = l } } // Only show the job's field and object diffs if the job is edited or // verbose mode is set. if job.Type == "Edited" || verbose { fo := alignedFieldAndObjects(job.Fields, job.Objects, 0, longestField, longestMarker) out += fo if len(fo) > 0 { out += "\n" } } // Print the task groups for _, tg := range job.TaskGroups { _, mLength := getDiffString(tg.Type) kPrefix := longestMarker - mLength out += fmt.Sprintf("%s\n", formatTaskGroupDiff(tg, kPrefix, verbose)) } return out } // formatTaskGroupDiff produces an annotated diff of a task group. If the // verbose field is set, the task groups fields and objects are expanded even if // the full object is an addition or removal. tgPrefix is the number of spaces to prefix // the output of the task group. func formatTaskGroupDiff(tg *api.TaskGroupDiff, tgPrefix int, verbose bool) string { marker, _ := getDiffString(tg.Type) out := fmt.Sprintf("%s%s[bold]Task Group: %q[reset]", marker, strings.Repeat(" ", tgPrefix), tg.Name) // Append the updates and colorize them if l := len(tg.Updates); l > 0 { order := make([]string, 0, l) for updateType := range tg.Updates { order = append(order, updateType) } sort.Strings(order) updates := make([]string, 0, l) for _, updateType := range order { count := tg.Updates[updateType] var color string switch updateType { case scheduler.UpdateTypeIgnore: case scheduler.UpdateTypeCreate: color = "[green]" case scheduler.UpdateTypeDestroy: color = "[red]" case scheduler.UpdateTypeMigrate: color = "[blue]" case scheduler.UpdateTypeInplaceUpdate: color = "[cyan]" case scheduler.UpdateTypeDestructiveUpdate: color = "[yellow]" case scheduler.UpdateTypeCanary: color = "[light_yellow]" } updates = append(updates, fmt.Sprintf("[reset]%s%d %s", color, count, updateType)) } out += fmt.Sprintf(" (%s[reset])\n", strings.Join(updates, ", ")) } else { out += "[reset]\n" } // Determine the longest field and markers so the output is properly // aligned longestField, longestMarker := getLongestPrefixes(tg.Fields, tg.Objects) for _, task := range tg.Tasks { if _, l := getDiffString(task.Type); l > longestMarker { longestMarker = l } } // Only show the task groups's field and object diffs if the group is edited or // verbose mode is set. subStartPrefix := tgPrefix + 2 if tg.Type == "Edited" || verbose { fo := alignedFieldAndObjects(tg.Fields, tg.Objects, subStartPrefix, longestField, longestMarker) out += fo if len(fo) > 0 { out += "\n" } } // Output the tasks for _, task := range tg.Tasks { _, mLength := getDiffString(task.Type) prefix := longestMarker - mLength out += fmt.Sprintf("%s\n", formatTaskDiff(task, subStartPrefix, prefix, verbose)) } return out } // formatTaskDiff produces an annotated diff of a task. If the verbose field is // set, the tasks fields and objects are expanded even if the full object is an // addition or removal. startPrefix is the number of spaces to prefix the output of // the task and taskPrefix is the number of spaces to put between the marker and // task name output. func formatTaskDiff(task *api.TaskDiff, startPrefix, taskPrefix int, verbose bool) string { marker, _ := getDiffString(task.Type) out := fmt.Sprintf("%s%s%s[bold]Task: %q", strings.Repeat(" ", startPrefix), marker, strings.Repeat(" ", taskPrefix), task.Name) if len(task.Annotations) != 0 { out += fmt.Sprintf(" [reset](%s)", colorAnnotations(task.Annotations)) } if task.Type == "None" { return out } else if (task.Type == "Deleted" || task.Type == "Added") && !verbose { // Exit early if the job was not edited and it isn't verbose output return out } else { out += "\n" } subStartPrefix := startPrefix + 2 longestField, longestMarker := getLongestPrefixes(task.Fields, task.Objects) out += alignedFieldAndObjects(task.Fields, task.Objects, subStartPrefix, longestField, longestMarker) return out } // formatObjectDiff produces an annotated diff of an object. startPrefix is the // number of spaces to prefix the output of the object and keyPrefix is the number // of spaces to put between the marker and object name output. func formatObjectDiff(diff *api.ObjectDiff, startPrefix, keyPrefix int) string { start := strings.Repeat(" ", startPrefix) marker, markerLen := getDiffString(diff.Type) out := fmt.Sprintf("%s%s%s%s {\n", start, marker, strings.Repeat(" ", keyPrefix), diff.Name) // Determine the length of the longest name and longest diff marker to // properly align names and values longestField, longestMarker := getLongestPrefixes(diff.Fields, diff.Objects) subStartPrefix := startPrefix + keyPrefix + 2 out += alignedFieldAndObjects(diff.Fields, diff.Objects, subStartPrefix, longestField, longestMarker) endprefix := strings.Repeat(" ", startPrefix+markerLen+keyPrefix) return fmt.Sprintf("%s\n%s}", out, endprefix) } // formatFieldDiff produces an annotated diff of a field. startPrefix is the // number of spaces to prefix the output of the field, keyPrefix is the number // of spaces to put between the marker and field name output and valuePrefix is // the number of spaces to put infront of the value for aligning values. func formatFieldDiff(diff *api.FieldDiff, startPrefix, keyPrefix, valuePrefix int) string { marker, _ := getDiffString(diff.Type) out := fmt.Sprintf("%s%s%s%s: %s", strings.Repeat(" ", startPrefix), marker, strings.Repeat(" ", keyPrefix), diff.Name, strings.Repeat(" ", valuePrefix)) switch diff.Type { case "Added": out += fmt.Sprintf("%q", diff.New) case "Deleted": out += fmt.Sprintf("%q", diff.Old) case "Edited": out += fmt.Sprintf("%q => %q", diff.Old, diff.New) default: out += fmt.Sprintf("%q", diff.New) } // Color the annotations where possible if l := len(diff.Annotations); l != 0 { out += fmt.Sprintf(" (%s)", colorAnnotations(diff.Annotations)) } return out } // alignedFieldAndObjects is a helper method that prints fields and objects // properly aligned. func alignedFieldAndObjects(fields []*api.FieldDiff, objects []*api.ObjectDiff, startPrefix, longestField, longestMarker int) string { var out string numFields := len(fields) numObjects := len(objects) haveObjects := numObjects != 0 for i, field := range fields { _, mLength := getDiffString(field.Type) kPrefix := longestMarker - mLength vPrefix := longestField - len(field.Name) out += formatFieldDiff(field, startPrefix, kPrefix, vPrefix) // Avoid a dangling new line if i+1 != numFields || haveObjects { out += "\n" } } for i, object := range objects { _, mLength := getDiffString(object.Type) kPrefix := longestMarker - mLength out += formatObjectDiff(object, startPrefix, kPrefix) // Avoid a dangling new line if i+1 != numObjects { out += "\n" } } return out } // getLongestPrefixes takes a list of fields and objects and determines the // longest field name and the longest marker. func getLongestPrefixes(fields []*api.FieldDiff, objects []*api.ObjectDiff) (longestField, longestMarker int) { for _, field := range fields { if l := len(field.Name); l > longestField { longestField = l } if _, l := getDiffString(field.Type); l > longestMarker { longestMarker = l } } for _, obj := range objects { if _, l := getDiffString(obj.Type); l > longestMarker { longestMarker = l } } return longestField, longestMarker } // getDiffString returns a colored diff marker and the length of the string // without color annotations. func getDiffString(diffType string) (string, int) { switch diffType { case "Added": return "[green]+[reset] ", 2 case "Deleted": return "[red]-[reset] ", 2 case "Edited": return "[light_yellow]+/-[reset] ", 4 default: return "", 0 } } // colorAnnotations returns a comma concatenated list of the annotations where // the annotations are colored where possible. func colorAnnotations(annotations []string) string { l := len(annotations) if l == 0 { return "" } colored := make([]string, l) for i, annotation := range annotations { switch annotation { case "forces create": colored[i] = fmt.Sprintf("[green]%s[reset]", annotation) case "forces destroy": colored[i] = fmt.Sprintf("[red]%s[reset]", annotation) case "forces in-place update": colored[i] = fmt.Sprintf("[cyan]%s[reset]", annotation) case "forces create/destroy update": colored[i] = fmt.Sprintf("[yellow]%s[reset]", annotation) default: colored[i] = annotation } } return strings.Join(colored, ", ") }