open-nomad/command/helpers.go

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package command
import (
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"bytes"
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"fmt"
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"io"
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"strconv"
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"time"
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"github.com/hashicorp/nomad/api"
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"github.com/ryanuber/columnize"
)
// formatKV takes a set of strings and formats them into properly
// aligned k = v pairs using the columnize library.
func formatKV(in []string) string {
columnConf := columnize.DefaultConfig()
columnConf.Empty = "<none>"
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columnConf.Glue = " = "
return columnize.Format(in, columnConf)
}
// formatList takes a set of strings and formats them into properly
// aligned output, replacing any blank fields with a placeholder
// for awk-ability.
func formatList(in []string) string {
columnConf := columnize.DefaultConfig()
columnConf.Empty = "<none>"
return columnize.Format(in, columnConf)
}
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// formatListWithSpaces takes a set of strings and formats them into properly
// aligned output. It should be used sparingly since it doesn't replace empty
// values and hence not awk/sed friendly
func formatListWithSpaces(in []string) string {
columnConf := columnize.DefaultConfig()
return columnize.Format(in, columnConf)
}
// Limits the length of the string.
func limit(s string, length int) string {
if len(s) < length {
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return s
}
return s[:length]
}
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// formatTime formats the time to string based on RFC822
func formatTime(t time.Time) string {
return t.Format("01/02/06 15:04:05 MST")
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}
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// formatUnixNanoTime is a helper for formatting time for output.
func formatUnixNanoTime(nano int64) string {
t := time.Unix(0, nano)
return formatTime(t)
}
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// formatTimeDifference takes two times and determines their duration difference
// truncating to a passed unit.
// E.g. formatTimeDifference(first=1m22s33ms, second=1m28s55ms, time.Second) -> 6s
func formatTimeDifference(first, second time.Time, d time.Duration) string {
return second.Truncate(d).Sub(first.Truncate(d)).String()
}
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// getLocalNodeID returns the node ID of the local Nomad Client and an error if
// it couldn't be determined or the Agent is not running in Client mode.
func getLocalNodeID(client *api.Client) (string, error) {
info, err := client.Agent().Self()
if err != nil {
return "", fmt.Errorf("Error querying agent info: %s", err)
}
var stats map[string]interface{}
stats, _ = info["stats"]
clientStats, ok := stats["client"].(map[string]interface{})
if !ok {
return "", fmt.Errorf("Nomad not running in client mode")
}
nodeID, ok := clientStats["node_id"].(string)
if !ok {
return "", fmt.Errorf("Failed to determine node ID")
}
return nodeID, nil
}
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// evalFailureStatus returns whether the evaluation has failures and a string to
// display when presenting users with whether there are failures for the eval
func evalFailureStatus(eval *api.Evaluation) (string, bool) {
if eval == nil {
return "", false
}
hasFailures := len(eval.FailedTGAllocs) != 0
text := strconv.FormatBool(hasFailures)
if eval.Status == "blocked" {
text = "N/A - In Progress"
}
return text, hasFailures
}
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// LineLimitReader wraps another reader and provides `tail -n` like behavior.
// LineLimitReader buffers up to the searchLimit and returns `-n` number of
// lines. After those lines have been returned, LineLimitReader streams the
// underlying ReadCloser
type LineLimitReader struct {
io.ReadCloser
lines int
searchLimit int
timeLimit time.Duration
lastRead time.Time
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buffer *bytes.Buffer
bufFiled bool
foundLines bool
}
// NewLineLimitReader takes the ReadCloser to wrap, the number of lines to find
// searching backwards in the first searchLimit bytes. timeLimit can optionally
// be specified by passing a non-zero duration. When set, the search for the
// last n lines is aborted if no data has been read in the duration. This
// can be used to flush what is had if no extra data is being received. When
// used, the underlying reader must not block forever and must periodically
// unblock even when no data has been read.
func NewLineLimitReader(r io.ReadCloser, lines, searchLimit int, timeLimit time.Duration) *LineLimitReader {
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return &LineLimitReader{
ReadCloser: r,
searchLimit: searchLimit,
timeLimit: timeLimit,
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lines: lines,
buffer: bytes.NewBuffer(make([]byte, 0, searchLimit)),
}
}
func (l *LineLimitReader) Read(p []byte) (n int, err error) {
// Fill up the buffer so we can find the correct number of lines.
if !l.bufFiled {
b := make([]byte, len(p))
n, err := l.ReadCloser.Read(b)
if n > 0 {
if _, err := l.buffer.Write(b[:n]); err != nil {
return 0, err
}
}
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if err != nil {
if err != io.EOF {
return 0, err
}
l.bufFiled = true
goto READ
}
if l.buffer.Len() >= l.searchLimit {
l.bufFiled = true
goto READ
}
if l.timeLimit.Nanoseconds() > 0 {
if l.lastRead.IsZero() {
l.lastRead = time.Now()
return 0, nil
}
now := time.Now()
if n == 0 {
// We hit the limit
if l.lastRead.Add(l.timeLimit).Before(now) {
l.bufFiled = true
goto READ
} else {
return 0, nil
}
} else {
l.lastRead = now
}
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}
return 0, nil
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}
READ:
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if l.bufFiled && l.buffer.Len() != 0 {
b := l.buffer.Bytes()
// Find the lines
if !l.foundLines {
found := 0
i := len(b) - 1
sep := byte('\n')
lastIndex := len(b) - 1
for ; found < l.lines && i >= 0; i-- {
if b[i] == sep {
lastIndex = i
// Skip the first one
if i != len(b)-1 {
found++
}
}
}
// We found them all
if found == l.lines {
// Clear the buffer until the last index
l.buffer.Next(lastIndex + 1)
}
l.foundLines = true
}
// Read from the buffer
n := copy(p, l.buffer.Next(len(p)))
return n, nil
}
// Just stream from the underlying reader now
return l.ReadCloser.Read(p)
}