10e7d6df6d
This removes compat code for namespaces (0.7), Drain(0.8) and other older features from releases older than Nomad 0.7
467 lines
11 KiB
Go
467 lines
11 KiB
Go
package command
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import (
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"bytes"
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"fmt"
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"io"
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"io/ioutil"
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"os"
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"strconv"
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"strings"
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"time"
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gg "github.com/hashicorp/go-getter"
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"github.com/hashicorp/nomad/api"
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"github.com/hashicorp/nomad/jobspec"
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"github.com/kr/text"
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"github.com/posener/complete"
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"github.com/ryanuber/columnize"
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)
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// maxLineLength is the maximum width of any line.
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const maxLineLength int = 78
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// formatKV takes a set of strings and formats them into properly
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// aligned k = v pairs using the columnize library.
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func formatKV(in []string) string {
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columnConf := columnize.DefaultConfig()
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columnConf.Empty = "<none>"
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columnConf.Glue = " = "
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return columnize.Format(in, columnConf)
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}
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// formatList takes a set of strings and formats them into properly
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// aligned output, replacing any blank fields with a placeholder
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// for awk-ability.
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func formatList(in []string) string {
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columnConf := columnize.DefaultConfig()
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columnConf.Empty = "<none>"
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return columnize.Format(in, columnConf)
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}
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// formatListWithSpaces takes a set of strings and formats them into properly
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// aligned output. It should be used sparingly since it doesn't replace empty
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// values and hence not awk/sed friendly
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func formatListWithSpaces(in []string) string {
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columnConf := columnize.DefaultConfig()
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return columnize.Format(in, columnConf)
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}
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// Limits the length of the string.
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func limit(s string, length int) string {
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if len(s) < length {
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return s
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}
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return s[:length]
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}
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// wrapAtLengthWithPadding wraps the given text at the maxLineLength, taking
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// into account any provided left padding.
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func wrapAtLengthWithPadding(s string, pad int) string {
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wrapped := text.Wrap(s, maxLineLength-pad)
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lines := strings.Split(wrapped, "\n")
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for i, line := range lines {
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lines[i] = strings.Repeat(" ", pad) + line
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}
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return strings.Join(lines, "\n")
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}
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// wrapAtLength wraps the given text to maxLineLength.
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func wrapAtLength(s string) string {
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return wrapAtLengthWithPadding(s, 0)
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}
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// formatTime formats the time to string based on RFC822
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func formatTime(t time.Time) string {
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if t.Unix() < 1 {
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// It's more confusing to display the UNIX epoch or a zero value than nothing
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return ""
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}
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// Return ISO_8601 time format GH-3806
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return t.Format("2006-01-02T15:04:05Z07:00")
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}
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// formatUnixNanoTime is a helper for formatting time for output.
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func formatUnixNanoTime(nano int64) string {
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t := time.Unix(0, nano)
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return formatTime(t)
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}
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// formatTimeDifference takes two times and determines their duration difference
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// truncating to a passed unit.
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// E.g. formatTimeDifference(first=1m22s33ms, second=1m28s55ms, time.Second) -> 6s
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func formatTimeDifference(first, second time.Time, d time.Duration) string {
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return second.Truncate(d).Sub(first.Truncate(d)).String()
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}
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// fmtInt formats v into the tail of buf.
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// It returns the index where the output begins.
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func fmtInt(buf []byte, v uint64) int {
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w := len(buf)
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for v > 0 {
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w--
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buf[w] = byte(v%10) + '0'
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v /= 10
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}
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return w
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}
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// prettyTimeDiff prints a human readable time difference.
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// It uses abbreviated forms for each period - s for seconds, m for minutes, h for hours,
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// d for days, mo for months, and y for years. Time difference is rounded to the nearest second,
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// and the top two least granular periods are returned. For example, if the time difference
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// is 10 months, 12 days, 3 hours and 2 seconds, the string "10mo12d" is returned. Zero values return the empty string
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func prettyTimeDiff(first, second time.Time) string {
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// handle zero values
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if first.IsZero() || first.UnixNano() == 0 {
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return ""
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}
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// round to the nearest second
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first = first.Round(time.Second)
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second = second.Round(time.Second)
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// calculate time difference in seconds
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var d time.Duration
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messageSuffix := "ago"
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if second.Equal(first) || second.After(first) {
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d = second.Sub(first)
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} else {
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d = first.Sub(second)
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messageSuffix = "from now"
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}
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u := uint64(d.Seconds())
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var buf [32]byte
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w := len(buf)
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secs := u % 60
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// track indexes of various periods
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var indexes []int
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if secs > 0 {
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w--
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buf[w] = 's'
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// u is now seconds
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w = fmtInt(buf[:w], secs)
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indexes = append(indexes, w)
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}
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u /= 60
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// u is now minutes
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if u > 0 {
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mins := u % 60
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if mins > 0 {
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w--
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buf[w] = 'm'
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w = fmtInt(buf[:w], mins)
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indexes = append(indexes, w)
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}
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u /= 60
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// u is now hours
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if u > 0 {
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hrs := u % 24
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if hrs > 0 {
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w--
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buf[w] = 'h'
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w = fmtInt(buf[:w], hrs)
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indexes = append(indexes, w)
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}
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u /= 24
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}
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// u is now days
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if u > 0 {
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days := u % 30
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if days > 0 {
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w--
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buf[w] = 'd'
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w = fmtInt(buf[:w], days)
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indexes = append(indexes, w)
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}
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u /= 30
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}
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// u is now months
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if u > 0 {
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months := u % 12
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if months > 0 {
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w--
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buf[w] = 'o'
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w--
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buf[w] = 'm'
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w = fmtInt(buf[:w], months)
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indexes = append(indexes, w)
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}
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u /= 12
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}
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// u is now years
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if u > 0 {
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w--
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buf[w] = 'y'
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w = fmtInt(buf[:w], u)
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indexes = append(indexes, w)
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}
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}
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start := w
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end := len(buf)
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// truncate to the first two periods
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num_periods := len(indexes)
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if num_periods > 2 {
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end = indexes[num_periods-3]
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}
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if start == end { //edge case when time difference is less than a second
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return "0s " + messageSuffix
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} else {
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return string(buf[start:end]) + " " + messageSuffix
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}
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}
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// getLocalNodeID returns the node ID of the local Nomad Client and an error if
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// it couldn't be determined or the Agent is not running in Client mode.
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func getLocalNodeID(client *api.Client) (string, error) {
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info, err := client.Agent().Self()
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if err != nil {
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return "", fmt.Errorf("Error querying agent info: %s", err)
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}
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clientStats, ok := info.Stats["client"]
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if !ok {
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return "", fmt.Errorf("Nomad not running in client mode")
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}
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nodeID, ok := clientStats["node_id"]
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if !ok {
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return "", fmt.Errorf("Failed to determine node ID")
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}
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return nodeID, nil
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}
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// evalFailureStatus returns whether the evaluation has failures and a string to
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// display when presenting users with whether there are failures for the eval
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func evalFailureStatus(eval *api.Evaluation) (string, bool) {
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if eval == nil {
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return "", false
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}
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hasFailures := len(eval.FailedTGAllocs) != 0
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text := strconv.FormatBool(hasFailures)
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if eval.Status == "blocked" {
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text = "N/A - In Progress"
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}
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return text, hasFailures
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}
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// LineLimitReader wraps another reader and provides `tail -n` like behavior.
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// LineLimitReader buffers up to the searchLimit and returns `-n` number of
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// lines. After those lines have been returned, LineLimitReader streams the
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// underlying ReadCloser
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type LineLimitReader struct {
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io.ReadCloser
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lines int
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searchLimit int
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timeLimit time.Duration
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lastRead time.Time
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buffer *bytes.Buffer
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bufFiled bool
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foundLines bool
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}
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// NewLineLimitReader takes the ReadCloser to wrap, the number of lines to find
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// searching backwards in the first searchLimit bytes. timeLimit can optionally
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// be specified by passing a non-zero duration. When set, the search for the
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// last n lines is aborted if no data has been read in the duration. This
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// can be used to flush what is had if no extra data is being received. When
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// used, the underlying reader must not block forever and must periodically
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// unblock even when no data has been read.
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func NewLineLimitReader(r io.ReadCloser, lines, searchLimit int, timeLimit time.Duration) *LineLimitReader {
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return &LineLimitReader{
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ReadCloser: r,
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searchLimit: searchLimit,
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timeLimit: timeLimit,
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lines: lines,
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buffer: bytes.NewBuffer(make([]byte, 0, searchLimit)),
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}
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}
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func (l *LineLimitReader) Read(p []byte) (n int, err error) {
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// Fill up the buffer so we can find the correct number of lines.
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if !l.bufFiled {
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b := make([]byte, len(p))
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n, err := l.ReadCloser.Read(b)
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if n > 0 {
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if _, err := l.buffer.Write(b[:n]); err != nil {
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return 0, err
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}
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}
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if err != nil {
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if err != io.EOF {
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return 0, err
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}
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l.bufFiled = true
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goto READ
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}
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if l.buffer.Len() >= l.searchLimit {
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l.bufFiled = true
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goto READ
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}
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if l.timeLimit.Nanoseconds() > 0 {
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if l.lastRead.IsZero() {
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l.lastRead = time.Now()
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return 0, nil
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}
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now := time.Now()
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if n == 0 {
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// We hit the limit
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if l.lastRead.Add(l.timeLimit).Before(now) {
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l.bufFiled = true
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goto READ
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} else {
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return 0, nil
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}
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} else {
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l.lastRead = now
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}
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}
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return 0, nil
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}
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READ:
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if l.bufFiled && l.buffer.Len() != 0 {
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b := l.buffer.Bytes()
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// Find the lines
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if !l.foundLines {
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found := 0
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i := len(b) - 1
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sep := byte('\n')
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lastIndex := len(b) - 1
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for ; found < l.lines && i >= 0; i-- {
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if b[i] == sep {
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lastIndex = i
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// Skip the first one
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if i != len(b)-1 {
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found++
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}
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}
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}
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// We found them all
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if found == l.lines {
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// Clear the buffer until the last index
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l.buffer.Next(lastIndex + 1)
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}
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l.foundLines = true
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}
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// Read from the buffer
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n := copy(p, l.buffer.Next(len(p)))
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return n, nil
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}
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// Just stream from the underlying reader now
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return l.ReadCloser.Read(p)
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}
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type JobGetter struct {
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// The fields below can be overwritten for tests
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testStdin io.Reader
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}
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// StructJob returns the Job struct from jobfile.
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func (j *JobGetter) ApiJob(jpath string) (*api.Job, error) {
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var jobfile io.Reader
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switch jpath {
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case "-":
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if j.testStdin != nil {
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jobfile = j.testStdin
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} else {
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jobfile = os.Stdin
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}
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default:
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if len(jpath) == 0 {
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return nil, fmt.Errorf("Error jobfile path has to be specified.")
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}
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job, err := ioutil.TempFile("", "jobfile")
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if err != nil {
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return nil, err
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}
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defer os.Remove(job.Name())
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if err := job.Close(); err != nil {
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return nil, err
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}
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// Get the pwd
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pwd, err := os.Getwd()
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if err != nil {
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return nil, err
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}
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client := &gg.Client{
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Src: jpath,
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Pwd: pwd,
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Dst: job.Name(),
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}
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if err := client.Get(); err != nil {
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return nil, fmt.Errorf("Error getting jobfile from %q: %v", jpath, err)
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} else {
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file, err := os.Open(job.Name())
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defer file.Close()
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if err != nil {
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return nil, fmt.Errorf("Error opening file %q: %v", jpath, err)
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}
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jobfile = file
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}
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}
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// Parse the JobFile
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jobStruct, err := jobspec.Parse(jobfile)
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if err != nil {
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return nil, fmt.Errorf("Error parsing job file from %s: %v", jpath, err)
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}
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return jobStruct, nil
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}
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// mergeAutocompleteFlags is used to join multiple flag completion sets.
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func mergeAutocompleteFlags(flags ...complete.Flags) complete.Flags {
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merged := make(map[string]complete.Predictor, len(flags))
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for _, f := range flags {
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for k, v := range f {
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merged[k] = v
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}
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}
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return merged
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}
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// sanitizeUUIDPrefix is used to sanitize a UUID prefix. The returned result
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// will be a truncated version of the prefix if the prefix would not be
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// queryable.
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func sanitizeUUIDPrefix(prefix string) string {
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hyphens := strings.Count(prefix, "-")
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length := len(prefix) - hyphens
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remainder := length % 2
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return prefix[:len(prefix)-remainder]
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}
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// commandErrorText is used to easily render the same messaging across commads
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// when an error is printed.
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func commandErrorText(cmd NamedCommand) string {
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return fmt.Sprintf("For additional help try 'nomad %s -help'", cmd.Name())
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}
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