open-nomad/command/alloc_status.go

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package command
import (
"fmt"
"math"
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"sort"
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"strconv"
"strings"
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"time"
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humanize "github.com/dustin/go-humanize"
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"github.com/hashicorp/nomad/api"
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"github.com/hashicorp/nomad/api/contexts"
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"github.com/hashicorp/nomad/client/allocrunner/taskrunner/restarts"
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"github.com/posener/complete"
)
type AllocStatusCommand struct {
Meta
}
func (c *AllocStatusCommand) Help() string {
helpText := `
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Usage: nomad alloc status [options] <allocation>
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Display information about existing allocations and its tasks. This command can
be used to inspect the current status of an allocation, including its running
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status, metadata, and verbose failure messages reported by internal
subsystems.
General Options:
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` + generalOptionsUsage() + `
Alloc Status Options:
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-short
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Display short output. Shows only the most recent task event.
-stats
Display detailed resource usage statistics.
-verbose
Show full information.
-json
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Output the allocation in its JSON format.
-t
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Format and display allocation using a Go template.
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`
return strings.TrimSpace(helpText)
}
func (c *AllocStatusCommand) Synopsis() string {
return "Display allocation status information and metadata"
}
func (c *AllocStatusCommand) AutocompleteFlags() complete.Flags {
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return mergeAutocompleteFlags(c.Meta.AutocompleteFlags(FlagSetClient),
complete.Flags{
"-short": complete.PredictNothing,
"-verbose": complete.PredictNothing,
"-json": complete.PredictNothing,
"-t": complete.PredictAnything,
})
}
func (c *AllocStatusCommand) AutocompleteArgs() complete.Predictor {
return complete.PredictFunc(func(a complete.Args) []string {
client, err := c.Meta.Client()
if err != nil {
return nil
}
resp, _, err := client.Search().PrefixSearch(a.Last, contexts.Allocs, nil)
if err != nil {
return []string{}
}
return resp.Matches[contexts.Allocs]
})
}
func (c *AllocStatusCommand) Name() string { return "alloc status" }
func (c *AllocStatusCommand) Run(args []string) int {
var short, displayStats, verbose, json bool
var tmpl string
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flags := c.Meta.FlagSet(c.Name(), FlagSetClient)
flags.Usage = func() { c.Ui.Output(c.Help()) }
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flags.BoolVar(&short, "short", false, "")
flags.BoolVar(&verbose, "verbose", false, "")
flags.BoolVar(&displayStats, "stats", false, "")
flags.BoolVar(&json, "json", false, "")
flags.StringVar(&tmpl, "t", "", "")
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if err := flags.Parse(args); err != nil {
return 1
}
// Check that we got exactly one allocation ID
args = flags.Args()
// Get the HTTP client
client, err := c.Meta.Client()
if err != nil {
c.Ui.Error(fmt.Sprintf("Error initializing client: %s", err))
return 1
}
// If args not specified but output format is specified, format and output the allocations data list
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if len(args) == 0 && json || len(tmpl) > 0 {
allocs, _, err := client.Allocations().List(nil)
if err != nil {
c.Ui.Error(fmt.Sprintf("Error querying allocations: %v", err))
return 1
}
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out, err := Format(json, tmpl, allocs)
if err != nil {
c.Ui.Error(err.Error())
return 1
}
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c.Ui.Output(out)
return 0
}
if len(args) != 1 {
c.Ui.Error("This command takes one of the following argument conditions:")
c.Ui.Error(" * A single <allocation>")
c.Ui.Error(" * No arguments, with output format specified")
c.Ui.Error(commandErrorText(c))
return 1
}
allocID := args[0]
// Truncate the id unless full length is requested
length := shortId
if verbose {
length = fullId
}
// Query the allocation info
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if len(allocID) == 1 {
c.Ui.Error(fmt.Sprintf("Identifier must contain at least two characters."))
return 1
}
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allocID = sanitizeUUIDPrefix(allocID)
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allocs, _, err := client.Allocations().PrefixList(allocID)
if err != nil {
c.Ui.Error(fmt.Sprintf("Error querying allocation: %v", err))
return 1
}
if len(allocs) == 0 {
c.Ui.Error(fmt.Sprintf("No allocation(s) with prefix or id %q found", allocID))
return 1
}
if len(allocs) > 1 {
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out := formatAllocListStubs(allocs, verbose, length)
c.Ui.Output(fmt.Sprintf("Prefix matched multiple allocations\n\n%s", out))
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return 0
}
// Prefix lookup matched a single allocation
alloc, _, err := client.Allocations().Info(allocs[0].ID, nil)
if err != nil {
c.Ui.Error(fmt.Sprintf("Error querying allocation: %s", err))
return 1
}
// If output format is specified, format and output the data
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if json || len(tmpl) > 0 {
out, err := Format(json, tmpl, alloc)
if err != nil {
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c.Ui.Error(err.Error())
return 1
}
c.Ui.Output(out)
return 0
}
// Format the allocation data
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output, err := formatAllocBasicInfo(alloc, client, length, verbose)
if err != nil {
c.Ui.Error(err.Error())
return 1
}
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c.Ui.Output(output)
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if short {
c.shortTaskStatus(alloc)
} else {
var statsErr error
var stats *api.AllocResourceUsage
stats, statsErr = client.Allocations().Stats(alloc, nil)
if statsErr != nil {
c.Ui.Output("")
if statsErr != api.NodeDownErr {
c.Ui.Error(fmt.Sprintf("Couldn't retrieve stats: %v", statsErr))
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} else {
c.Ui.Output("Omitting resource statistics since the node is down.")
}
}
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c.outputTaskDetails(alloc, stats, displayStats)
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}
// Format the detailed status
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if verbose {
c.Ui.Output(c.Colorize().Color("\n[bold]Placement Metrics[reset]"))
c.Ui.Output(formatAllocMetrics(alloc.Metrics, true, " "))
Print resource usage w/ alloc-status + node-status When alloc-status is called, in it's long form only, print the resource utilization for that single allocation. When node-status is called, in it's long form only, print the TOTAL resource utilization that is occurring on that single node. Nomad Alloc Status: ``` % nomad alloc-status 195d3bf2 ID = 195d3bf2 Eval ID = c917e3ee Name = example.cache[1] Node ID = 1b2520a7 Job ID = example Client Status = running Evaluated Nodes = 1 Filtered Nodes = 0 Exhausted Nodes = 0 Allocation Time = 17.73µs Failures = 0 ==> Task "redis" is "running" Recent Events: Time Type Description 04/03/16 21:20:45 EST Started Task started by client 04/03/16 21:20:42 EST Received Task received by client ==> Status Allocation "195d3bf2" status "running" (0/1 nodes filtered) * Score "1b2520a7-6714-e78d-a8f7-68467dda6db7.binpack" = 1.209464 * Score "1b2520a7-6714-e78d-a8f7-68467dda6db7.job-anti-affinity" = -10.000000 ==> Resources CPU MemoryMB DiskMB IOPS 500 256 300 0 ``` Nomad Node Status: ``` % nomad node-status 57b3a55a ID = 57b3a55a Name = biscuits Class = <none> DC = dc1 Drain = false Status = ready Attributes = arch:amd64, cpu.frequency:3753.458875, cpu.modelname:Intel(R) Core(TM) i7-4770K CPU @ 3.50GHz, cpu.numcores:8, cpu.totalcompute:30027.671000, driver.docker:1, driver.docker.version:1.10.2, driver.exec:1, driver.raw_exec:1, hostname:biscuits, kernel.name:linux, kernel.version:4.4.0-9-generic, memory.totalbytes:25208934400, os.name:ubuntu, os.version:16.04, unique.cgroup.mountpoint:/sys/fs/cgroup, unique.network.ip-address:127.0.0.1, unique.storage.bytesfree:219781419008, unique.storage.bytestotal:246059892736, unique.storage.volume:/dev/sdb3 ==> Allocations ID Eval ID Job ID Task Group Desired Status Client Status 2c236883 aa11aca8 example cache run running 32f6e3d6 aa11aca8 example cache run running ==> Resource Utilization CPU MemoryMB DiskMB IOPS 1000 512 600 0 ```
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}
return 0
}
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func formatAllocBasicInfo(alloc *api.Allocation, client *api.Client, uuidLength int, verbose bool) (string, error) {
var formattedCreateTime, formattedModifyTime string
if verbose {
formattedCreateTime = formatUnixNanoTime(alloc.CreateTime)
formattedModifyTime = formatUnixNanoTime(alloc.ModifyTime)
} else {
formattedCreateTime = prettyTimeDiff(time.Unix(0, alloc.CreateTime), time.Now())
formattedModifyTime = prettyTimeDiff(time.Unix(0, alloc.ModifyTime), time.Now())
}
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basic := []string{
fmt.Sprintf("ID|%s", limit(alloc.ID, uuidLength)),
fmt.Sprintf("Eval ID|%s", limit(alloc.EvalID, uuidLength)),
fmt.Sprintf("Name|%s", alloc.Name),
fmt.Sprintf("Node ID|%s", limit(alloc.NodeID, uuidLength)),
fmt.Sprintf("Job ID|%s", alloc.JobID),
fmt.Sprintf("Job Version|%d", getVersion(alloc.Job)),
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fmt.Sprintf("Client Status|%s", alloc.ClientStatus),
fmt.Sprintf("Client Description|%s", alloc.ClientDescription),
fmt.Sprintf("Desired Status|%s", alloc.DesiredStatus),
fmt.Sprintf("Desired Description|%s", alloc.DesiredDescription),
fmt.Sprintf("Created|%s", formattedCreateTime),
fmt.Sprintf("Modified|%s", formattedModifyTime),
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}
if alloc.DeploymentID != "" {
health := "unset"
canary := false
if alloc.DeploymentStatus != nil {
if alloc.DeploymentStatus.Healthy != nil {
if *alloc.DeploymentStatus.Healthy {
health = "healthy"
} else {
health = "unhealthy"
}
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}
canary = alloc.DeploymentStatus.Canary
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}
basic = append(basic,
fmt.Sprintf("Deployment ID|%s", limit(alloc.DeploymentID, uuidLength)),
fmt.Sprintf("Deployment Health|%s", health))
if canary {
basic = append(basic, fmt.Sprintf("Canary|%v", true))
}
}
if alloc.RescheduleTracker != nil && len(alloc.RescheduleTracker.Events) > 0 {
attempts, total := alloc.RescheduleInfo(time.Unix(0, alloc.ModifyTime))
// Show this section only if the reschedule policy limits the number of attempts
if total > 0 {
reschedInfo := fmt.Sprintf("Reschedule Attempts|%d/%d", attempts, total)
basic = append(basic, reschedInfo)
}
}
if alloc.NextAllocation != "" {
basic = append(basic,
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fmt.Sprintf("Replacement Alloc ID|%s", limit(alloc.NextAllocation, uuidLength)))
}
if alloc.FollowupEvalID != "" {
nextEvalTime := futureEvalTimePretty(alloc.FollowupEvalID, client)
if nextEvalTime != "" {
basic = append(basic,
fmt.Sprintf("Reschedule Eligibility|%s", nextEvalTime))
}
}
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if verbose {
basic = append(basic,
fmt.Sprintf("Evaluated Nodes|%d", alloc.Metrics.NodesEvaluated),
fmt.Sprintf("Filtered Nodes|%d", alloc.Metrics.NodesFiltered),
fmt.Sprintf("Exhausted Nodes|%d", alloc.Metrics.NodesExhausted),
fmt.Sprintf("Allocation Time|%s", alloc.Metrics.AllocationTime),
fmt.Sprintf("Failures|%d", alloc.Metrics.CoalescedFailures))
}
return formatKV(basic), nil
}
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// futureEvalTimePretty returns when the eval is eligible to reschedule
// relative to current time, based on the WaitUntil field
func futureEvalTimePretty(evalID string, client *api.Client) string {
evaluation, _, err := client.Evaluations().Info(evalID, nil)
// Eval time is not a critical output,
// don't return it on errors, if its not set or already in the past
if err != nil || evaluation.WaitUntil.IsZero() || time.Now().After(evaluation.WaitUntil) {
return ""
}
return prettyTimeDiff(evaluation.WaitUntil, time.Now())
}
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// outputTaskDetails prints task details for each task in the allocation,
// optionally printing verbose statistics if displayStats is set
func (c *AllocStatusCommand) outputTaskDetails(alloc *api.Allocation, stats *api.AllocResourceUsage, displayStats bool) {
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for task := range c.sortedTaskStateIterator(alloc.TaskStates) {
state := alloc.TaskStates[task]
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c.Ui.Output(c.Colorize().Color(fmt.Sprintf("\n[bold]Task %q is %q[reset]", task, state.State)))
c.outputTaskResources(alloc, task, stats, displayStats)
c.Ui.Output("")
c.outputTaskStatus(state)
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}
}
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func formatTaskTimes(t time.Time) string {
if t.IsZero() {
return "N/A"
}
return formatTime(t)
}
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// outputTaskStatus prints out a list of the most recent events for the given
// task state.
func (c *AllocStatusCommand) outputTaskStatus(state *api.TaskState) {
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basic := []string{
fmt.Sprintf("Started At|%s", formatTaskTimes(state.StartedAt)),
fmt.Sprintf("Finished At|%s", formatTaskTimes(state.FinishedAt)),
fmt.Sprintf("Total Restarts|%d", state.Restarts),
fmt.Sprintf("Last Restart|%s", formatTaskTimes(state.LastRestart))}
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c.Ui.Output("Task Events:")
c.Ui.Output(formatKV(basic))
c.Ui.Output("")
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c.Ui.Output("Recent Events:")
events := make([]string, len(state.Events)+1)
events[0] = "Time|Type|Description"
size := len(state.Events)
for i, event := range state.Events {
msg := event.DisplayMessage
if msg == "" {
msg = buildDisplayMessage(event)
}
formattedTime := formatUnixNanoTime(event.Time)
events[size-i] = fmt.Sprintf("%s|%s|%s", formattedTime, event.Type, msg)
// Reverse order so we are sorted by time
}
c.Ui.Output(formatList(events))
}
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func buildDisplayMessage(event *api.TaskEvent) string {
// Build up the description based on the event type.
var desc string
switch event.Type {
case api.TaskSetup:
desc = event.Message
case api.TaskStarted:
desc = "Task started by client"
case api.TaskReceived:
desc = "Task received by client"
case api.TaskFailedValidation:
if event.ValidationError != "" {
desc = event.ValidationError
} else {
desc = "Validation of task failed"
}
case api.TaskSetupFailure:
if event.SetupError != "" {
desc = event.SetupError
} else {
desc = "Task setup failed"
}
case api.TaskDriverFailure:
if event.DriverError != "" {
desc = event.DriverError
} else {
desc = "Failed to start task"
}
case api.TaskDownloadingArtifacts:
desc = "Client is downloading artifacts"
case api.TaskArtifactDownloadFailed:
if event.DownloadError != "" {
desc = event.DownloadError
} else {
desc = "Failed to download artifacts"
}
case api.TaskKilling:
if event.KillReason != "" {
desc = fmt.Sprintf("Killing task: %v", event.KillReason)
} else if event.KillTimeout != 0 {
desc = fmt.Sprintf("Sent interrupt. Waiting %v before force killing", event.KillTimeout)
} else {
desc = "Sent interrupt"
}
case api.TaskKilled:
if event.KillError != "" {
desc = event.KillError
} else {
desc = "Task successfully killed"
}
case api.TaskTerminated:
var parts []string
parts = append(parts, fmt.Sprintf("Exit Code: %d", event.ExitCode))
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if event.Signal != 0 {
parts = append(parts, fmt.Sprintf("Signal: %d", event.Signal))
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}
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if event.Message != "" {
parts = append(parts, fmt.Sprintf("Exit Message: %q", event.Message))
}
desc = strings.Join(parts, ", ")
case api.TaskRestarting:
in := fmt.Sprintf("Task restarting in %v", time.Duration(event.StartDelay))
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if event.RestartReason != "" && event.RestartReason != restarts.ReasonWithinPolicy {
desc = fmt.Sprintf("%s - %s", event.RestartReason, in)
} else {
desc = in
}
case api.TaskNotRestarting:
if event.RestartReason != "" {
desc = event.RestartReason
} else {
desc = "Task exceeded restart policy"
}
case api.TaskSiblingFailed:
if event.FailedSibling != "" {
desc = fmt.Sprintf("Task's sibling %q failed", event.FailedSibling)
} else {
desc = "Task's sibling failed"
}
case api.TaskSignaling:
sig := event.TaskSignal
reason := event.TaskSignalReason
if sig == "" && reason == "" {
desc = "Task being sent a signal"
} else if sig == "" {
desc = reason
} else if reason == "" {
desc = fmt.Sprintf("Task being sent signal %v", sig)
} else {
desc = fmt.Sprintf("Task being sent signal %v: %v", sig, reason)
}
case api.TaskRestartSignal:
if event.RestartReason != "" {
desc = event.RestartReason
} else {
desc = "Task signaled to restart"
}
case api.TaskDriverMessage:
desc = event.DriverMessage
case api.TaskLeaderDead:
desc = "Leader Task in Group dead"
default:
desc = event.Message
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}
return desc
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}
Print resource usage w/ alloc-status + node-status When alloc-status is called, in it's long form only, print the resource utilization for that single allocation. When node-status is called, in it's long form only, print the TOTAL resource utilization that is occurring on that single node. Nomad Alloc Status: ``` % nomad alloc-status 195d3bf2 ID = 195d3bf2 Eval ID = c917e3ee Name = example.cache[1] Node ID = 1b2520a7 Job ID = example Client Status = running Evaluated Nodes = 1 Filtered Nodes = 0 Exhausted Nodes = 0 Allocation Time = 17.73µs Failures = 0 ==> Task "redis" is "running" Recent Events: Time Type Description 04/03/16 21:20:45 EST Started Task started by client 04/03/16 21:20:42 EST Received Task received by client ==> Status Allocation "195d3bf2" status "running" (0/1 nodes filtered) * Score "1b2520a7-6714-e78d-a8f7-68467dda6db7.binpack" = 1.209464 * Score "1b2520a7-6714-e78d-a8f7-68467dda6db7.job-anti-affinity" = -10.000000 ==> Resources CPU MemoryMB DiskMB IOPS 500 256 300 0 ``` Nomad Node Status: ``` % nomad node-status 57b3a55a ID = 57b3a55a Name = biscuits Class = <none> DC = dc1 Drain = false Status = ready Attributes = arch:amd64, cpu.frequency:3753.458875, cpu.modelname:Intel(R) Core(TM) i7-4770K CPU @ 3.50GHz, cpu.numcores:8, cpu.totalcompute:30027.671000, driver.docker:1, driver.docker.version:1.10.2, driver.exec:1, driver.raw_exec:1, hostname:biscuits, kernel.name:linux, kernel.version:4.4.0-9-generic, memory.totalbytes:25208934400, os.name:ubuntu, os.version:16.04, unique.cgroup.mountpoint:/sys/fs/cgroup, unique.network.ip-address:127.0.0.1, unique.storage.bytesfree:219781419008, unique.storage.bytestotal:246059892736, unique.storage.volume:/dev/sdb3 ==> Allocations ID Eval ID Job ID Task Group Desired Status Client Status 2c236883 aa11aca8 example cache run running 32f6e3d6 aa11aca8 example cache run running ==> Resource Utilization CPU MemoryMB DiskMB IOPS 1000 512 600 0 ```
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// outputTaskResources prints the task resources for the passed task and if
// displayStats is set, verbose resource usage statistics
func (c *AllocStatusCommand) outputTaskResources(alloc *api.Allocation, task string, stats *api.AllocResourceUsage, displayStats bool) {
resource, ok := alloc.TaskResources[task]
if !ok {
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return
}
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c.Ui.Output("Task Resources")
var addr []string
for _, nw := range resource.Networks {
ports := append(nw.DynamicPorts, nw.ReservedPorts...)
for _, port := range ports {
addr = append(addr, fmt.Sprintf("%v: %v:%v\n", port.Label, nw.IP, port.Value))
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}
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}
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var resourcesOutput []string
resourcesOutput = append(resourcesOutput, "CPU|Memory|Disk|Addresses")
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firstAddr := ""
if len(addr) > 0 {
firstAddr = addr[0]
}
// Display the rolled up stats. If possible prefer the live statistics
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cpuUsage := strconv.Itoa(*resource.CPU)
memUsage := humanize.IBytes(uint64(*resource.MemoryMB * bytesPerMegabyte))
var deviceStats []*api.DeviceGroupStats
if stats != nil {
if ru, ok := stats.Tasks[task]; ok && ru != nil && ru.ResourceUsage != nil {
if cs := ru.ResourceUsage.CpuStats; cs != nil {
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cpuUsage = fmt.Sprintf("%v/%v", math.Floor(cs.TotalTicks), cpuUsage)
}
if ms := ru.ResourceUsage.MemoryStats; ms != nil {
memUsage = fmt.Sprintf("%v/%v", humanize.IBytes(ms.RSS), memUsage)
}
deviceStats = ru.ResourceUsage.DeviceStats
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}
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}
resourcesOutput = append(resourcesOutput, fmt.Sprintf("%v MHz|%v|%v|%v",
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cpuUsage,
memUsage,
humanize.IBytes(uint64(*alloc.Resources.DiskMB*bytesPerMegabyte)),
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firstAddr))
for i := 1; i < len(addr); i++ {
resourcesOutput = append(resourcesOutput, fmt.Sprintf("||||%v", addr[i]))
}
c.Ui.Output(formatListWithSpaces(resourcesOutput))
if len(deviceStats) > 0 {
c.Ui.Output("")
c.Ui.Output("Device Stats")
c.Ui.Output(formatList(getDeviceResources(deviceStats)))
}
if stats != nil {
if ru, ok := stats.Tasks[task]; ok && ru != nil && displayStats && ru.ResourceUsage != nil {
c.Ui.Output("")
c.outputVerboseResourceUsage(task, ru.ResourceUsage)
}
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}
}
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// outputVerboseResourceUsage outputs the verbose resource usage for the passed
// task
func (c *AllocStatusCommand) outputVerboseResourceUsage(task string, resourceUsage *api.ResourceUsage) {
memoryStats := resourceUsage.MemoryStats
cpuStats := resourceUsage.CpuStats
deviceStats := resourceUsage.DeviceStats
if memoryStats != nil && len(memoryStats.Measured) > 0 {
c.Ui.Output("Memory Stats")
// Sort the measured stats
sort.Strings(memoryStats.Measured)
var measuredStats []string
for _, measured := range memoryStats.Measured {
switch measured {
case "RSS":
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measuredStats = append(measuredStats, humanize.IBytes(memoryStats.RSS))
case "Cache":
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measuredStats = append(measuredStats, humanize.IBytes(memoryStats.Cache))
case "Swap":
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measuredStats = append(measuredStats, humanize.IBytes(memoryStats.Swap))
case "Max Usage":
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measuredStats = append(measuredStats, humanize.IBytes(memoryStats.MaxUsage))
case "Kernel Usage":
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measuredStats = append(measuredStats, humanize.IBytes(memoryStats.KernelUsage))
case "Kernel Max Usage":
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measuredStats = append(measuredStats, humanize.IBytes(memoryStats.KernelMaxUsage))
}
}
out := make([]string, 2)
out[0] = strings.Join(memoryStats.Measured, "|")
out[1] = strings.Join(measuredStats, "|")
c.Ui.Output(formatList(out))
c.Ui.Output("")
}
if cpuStats != nil && len(cpuStats.Measured) > 0 {
c.Ui.Output("CPU Stats")
// Sort the measured stats
sort.Strings(cpuStats.Measured)
var measuredStats []string
for _, measured := range cpuStats.Measured {
switch measured {
case "Percent":
percent := strconv.FormatFloat(cpuStats.Percent, 'f', 2, 64)
measuredStats = append(measuredStats, fmt.Sprintf("%v%%", percent))
case "Throttled Periods":
measuredStats = append(measuredStats, fmt.Sprintf("%v", cpuStats.ThrottledPeriods))
case "Throttled Time":
measuredStats = append(measuredStats, fmt.Sprintf("%v", cpuStats.ThrottledTime))
case "User Mode":
percent := strconv.FormatFloat(cpuStats.UserMode, 'f', 2, 64)
measuredStats = append(measuredStats, fmt.Sprintf("%v%%", percent))
case "System Mode":
percent := strconv.FormatFloat(cpuStats.SystemMode, 'f', 2, 64)
measuredStats = append(measuredStats, fmt.Sprintf("%v%%", percent))
}
}
out := make([]string, 2)
out[0] = strings.Join(cpuStats.Measured, "|")
out[1] = strings.Join(measuredStats, "|")
c.Ui.Output(formatList(out))
}
if len(deviceStats) > 0 {
c.Ui.Output("")
c.Ui.Output("Device Stats")
printDeviceStats(c.Ui, deviceStats)
}
}
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// shortTaskStatus prints out the current state of each task.
func (c *AllocStatusCommand) shortTaskStatus(alloc *api.Allocation) {
tasks := make([]string, 0, len(alloc.TaskStates)+1)
tasks = append(tasks, "Name|State|Last Event|Time")
for task := range c.sortedTaskStateIterator(alloc.TaskStates) {
state := alloc.TaskStates[task]
lastState := state.State
var lastEvent, lastTime string
l := len(state.Events)
if l != 0 {
last := state.Events[l-1]
lastEvent = last.Type
lastTime = formatUnixNanoTime(last.Time)
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}
tasks = append(tasks, fmt.Sprintf("%s|%s|%s|%s",
task, lastState, lastEvent, lastTime))
}
c.Ui.Output(c.Colorize().Color("\n[bold]Tasks[reset]"))
c.Ui.Output(formatList(tasks))
}
// sortedTaskStateIterator is a helper that takes the task state map and returns a
// channel that returns the keys in a sorted order.
func (c *AllocStatusCommand) sortedTaskStateIterator(m map[string]*api.TaskState) <-chan string {
output := make(chan string, len(m))
keys := make([]string, len(m))
i := 0
for k := range m {
keys[i] = k
i++
}
sort.Strings(keys)
for _, key := range keys {
output <- key
}
close(output)
return output
}