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package integration
import (
"io"
"io/ioutil"
"os"
"os/exec"
"path"
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"runtime"
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"strings"
"testing"
"time"
)
func TestIsKilledFalseWithNonKilledProcess ( t * testing . T ) {
lsCmd := exec . Command ( "ls" )
lsCmd . Start ( )
// Wait for it to finish
err := lsCmd . Wait ( )
if IsKilled ( err ) {
t . Fatalf ( "Expected the ls command to not be killed, was." )
}
}
func TestIsKilledTrueWithKilledProcess ( t * testing . T ) {
longCmd := exec . Command ( "top" )
// Start a command
longCmd . Start ( )
// Capture the error when *dying*
done := make ( chan error , 1 )
go func ( ) {
done <- longCmd . Wait ( )
} ( )
// Then kill it
longCmd . Process . Kill ( )
// Get the error
err := <- done
if ! IsKilled ( err ) {
t . Fatalf ( "Expected the command to be killed, was not." )
}
}
func TestRunCommandWithOutput ( t * testing . T ) {
echoHelloWorldCmd := exec . Command ( "echo" , "hello" , "world" )
out , exitCode , err := RunCommandWithOutput ( echoHelloWorldCmd )
expected := "hello world\n"
if out != expected || exitCode != 0 || err != nil {
t . Fatalf ( "Expected command to output %s, got %s, %v with exitCode %v" , expected , out , err , exitCode )
}
}
func TestRunCommandWithOutputError ( t * testing . T ) {
cmd := exec . Command ( "doesnotexists" )
out , exitCode , err := RunCommandWithOutput ( cmd )
expectedError := ` exec: "doesnotexists": executable file not found in $PATH `
if out != "" || exitCode != 127 || err == nil || err . Error ( ) != expectedError {
t . Fatalf ( "Expected command to output %s, got %s, %v with exitCode %v" , expectedError , out , err , exitCode )
}
wrongLsCmd := exec . Command ( "ls" , "-z" )
expected := ` ls : invalid option -- 'z'
Try ' ls -- help ' for more information .
`
out , exitCode , err = RunCommandWithOutput ( wrongLsCmd )
if out != expected || exitCode != 2 || err == nil || err . Error ( ) != "exit status 2" {
t . Fatalf ( "Expected command to output %s, got out:%s, err:%v with exitCode %v" , expected , out , err , exitCode )
}
}
func TestRunCommandWithStdoutStderr ( t * testing . T ) {
echoHelloWorldCmd := exec . Command ( "echo" , "hello" , "world" )
stdout , stderr , exitCode , err := RunCommandWithStdoutStderr ( echoHelloWorldCmd )
expected := "hello world\n"
if stdout != expected || stderr != "" || exitCode != 0 || err != nil {
t . Fatalf ( "Expected command to output %s, got stdout:%s, stderr:%s, err:%v with exitCode %v" , expected , stdout , stderr , err , exitCode )
}
}
func TestRunCommandWithStdoutStderrError ( t * testing . T ) {
cmd := exec . Command ( "doesnotexists" )
stdout , stderr , exitCode , err := RunCommandWithStdoutStderr ( cmd )
expectedError := ` exec: "doesnotexists": executable file not found in $PATH `
if stdout != "" || stderr != "" || exitCode != 127 || err == nil || err . Error ( ) != expectedError {
t . Fatalf ( "Expected command to output out:%s, stderr:%s, got stdout:%s, stderr:%s, err:%v with exitCode %v" , "" , "" , stdout , stderr , err , exitCode )
}
wrongLsCmd := exec . Command ( "ls" , "-z" )
expected := ` ls : invalid option -- 'z'
Try ' ls -- help ' for more information .
`
stdout , stderr , exitCode , err = RunCommandWithStdoutStderr ( wrongLsCmd )
if stdout != "" && stderr != expected || exitCode != 2 || err == nil || err . Error ( ) != "exit status 2" {
t . Fatalf ( "Expected command to output out:%s, stderr:%s, got stdout:%s, stderr:%s, err:%v with exitCode %v" , "" , expectedError , stdout , stderr , err , exitCode )
}
}
func TestRunCommandWithOutputForDurationFinished ( t * testing . T ) {
cmd := exec . Command ( "ls" )
out , exitCode , timedOut , err := RunCommandWithOutputForDuration ( cmd , 50 * time . Millisecond )
if out == "" || exitCode != 0 || timedOut || err != nil {
t . Fatalf ( "Expected the command to run for less 50 milliseconds and thus not time out, but did not : out:[%s], exitCode:[%d], timedOut:[%v], err:[%v]" , out , exitCode , timedOut , err )
}
}
func TestRunCommandWithOutputForDurationKilled ( t * testing . T ) {
cmd := exec . Command ( "sh" , "-c" , "while true ; do echo 1 ; sleep .1 ; done" )
out , exitCode , timedOut , err := RunCommandWithOutputForDuration ( cmd , 500 * time . Millisecond )
ones := strings . Split ( out , "\n" )
if len ( ones ) != 6 || exitCode != 0 || ! timedOut || err != nil {
t . Fatalf ( "Expected the command to run for 500 milliseconds (and thus print six lines (five with 1, one empty) and time out, but did not : out:[%s], exitCode:%d, timedOut:%v, err:%v" , out , exitCode , timedOut , err )
}
}
func TestRunCommandWithOutputForDurationErrors ( t * testing . T ) {
cmd := exec . Command ( "ls" )
cmd . Stdout = os . Stdout
if _ , _ , _ , err := RunCommandWithOutputForDuration ( cmd , 1 * time . Millisecond ) ; err == nil || err . Error ( ) != "cmd.Stdout already set" {
t . Fatalf ( "Expected an error as cmd.Stdout was already set, did not (err:%s)." , err )
}
cmd = exec . Command ( "ls" )
cmd . Stderr = os . Stderr
if _ , _ , _ , err := RunCommandWithOutputForDuration ( cmd , 1 * time . Millisecond ) ; err == nil || err . Error ( ) != "cmd.Stderr already set" {
t . Fatalf ( "Expected an error as cmd.Stderr was already set, did not (err:%s)." , err )
}
}
func TestRunCommandWithOutputAndTimeoutFinished ( t * testing . T ) {
cmd := exec . Command ( "ls" )
out , exitCode , err := RunCommandWithOutputAndTimeout ( cmd , 50 * time . Millisecond )
if out == "" || exitCode != 0 || err != nil {
t . Fatalf ( "Expected the command to run for less 50 milliseconds and thus not time out, but did not : out:[%s], exitCode:[%d], err:[%v]" , out , exitCode , err )
}
}
func TestRunCommandWithOutputAndTimeoutKilled ( t * testing . T ) {
cmd := exec . Command ( "sh" , "-c" , "while true ; do echo 1 ; sleep .1 ; done" )
out , exitCode , err := RunCommandWithOutputAndTimeout ( cmd , 500 * time . Millisecond )
ones := strings . Split ( out , "\n" )
if len ( ones ) != 6 || exitCode != 0 || err == nil || err . Error ( ) != "command timed out" {
t . Fatalf ( "Expected the command to run for 500 milliseconds (and thus print six lines (five with 1, one empty) and time out with an error 'command timed out', but did not : out:[%s], exitCode:%d, err:%v" , out , exitCode , err )
}
}
func TestRunCommandWithOutputAndTimeoutErrors ( t * testing . T ) {
cmd := exec . Command ( "ls" )
cmd . Stdout = os . Stdout
if _ , _ , err := RunCommandWithOutputAndTimeout ( cmd , 1 * time . Millisecond ) ; err == nil || err . Error ( ) != "cmd.Stdout already set" {
t . Fatalf ( "Expected an error as cmd.Stdout was already set, did not (err:%s)." , err )
}
cmd = exec . Command ( "ls" )
cmd . Stderr = os . Stderr
if _ , _ , err := RunCommandWithOutputAndTimeout ( cmd , 1 * time . Millisecond ) ; err == nil || err . Error ( ) != "cmd.Stderr already set" {
t . Fatalf ( "Expected an error as cmd.Stderr was already set, did not (err:%s)." , err )
}
}
func TestRunCommand ( t * testing . T ) {
lsCmd := exec . Command ( "ls" )
exitCode , err := RunCommand ( lsCmd )
if exitCode != 0 || err != nil {
t . Fatalf ( "Expected runCommand to run the command successfully, got: exitCode:%d, err:%v" , exitCode , err )
}
var expectedError string
exitCode , err = RunCommand ( exec . Command ( "doesnotexists" ) )
expectedError = ` exec: "doesnotexists": executable file not found in $PATH `
if exitCode != 127 || err == nil || err . Error ( ) != expectedError {
t . Fatalf ( "Expected runCommand to run the command successfully, got: exitCode:%d, err:%v" , exitCode , err )
}
wrongLsCmd := exec . Command ( "ls" , "-z" )
expected := 2
expectedError = ` exit status 2 `
exitCode , err = RunCommand ( wrongLsCmd )
if exitCode != expected || err == nil || err . Error ( ) != expectedError {
t . Fatalf ( "Expected runCommand to run the command successfully, got: exitCode:%d, err:%v" , exitCode , err )
}
}
func TestRunCommandPipelineWithOutputWithNotEnoughCmds ( t * testing . T ) {
_ , _ , err := RunCommandPipelineWithOutput ( exec . Command ( "ls" ) )
expectedError := "pipeline does not have multiple cmds"
if err == nil || err . Error ( ) != expectedError {
t . Fatalf ( "Expected an error with %s, got err:%s" , expectedError , err )
}
}
func TestRunCommandPipelineWithOutputErrors ( t * testing . T ) {
cmd1 := exec . Command ( "ls" )
cmd1 . Stdout = os . Stdout
cmd2 := exec . Command ( "anything really" )
_ , _ , err := RunCommandPipelineWithOutput ( cmd1 , cmd2 )
if err == nil || err . Error ( ) != "cannot set stdout pipe for anything really: exec: Stdout already set" {
t . Fatalf ( "Expected an error, got %v" , err )
}
cmdWithError := exec . Command ( "doesnotexists" )
cmdCat := exec . Command ( "cat" )
_ , _ , err = RunCommandPipelineWithOutput ( cmdWithError , cmdCat )
if err == nil || err . Error ( ) != ` starting doesnotexists failed with error: exec: "doesnotexists": executable file not found in $PATH ` {
t . Fatalf ( "Expected an error, got %v" , err )
}
}
func TestRunCommandPipelineWithOutput ( t * testing . T ) {
cmds := [ ] * exec . Cmd {
// Print 2 characters
exec . Command ( "echo" , "-n" , "11" ) ,
// Count the number or char from stdin (previous command)
exec . Command ( "wc" , "-m" ) ,
}
out , exitCode , err := RunCommandPipelineWithOutput ( cmds ... )
expectedOutput := "2\n"
if out != expectedOutput || exitCode != 0 || err != nil {
t . Fatalf ( "Expected %s for commands %v, got out:%s, exitCode:%d, err:%v" , expectedOutput , cmds , out , exitCode , err )
}
}
// Simple simple test as it is just a passthrough for json.Unmarshal
func TestUnmarshalJSON ( t * testing . T ) {
emptyResult := struct { } { }
if err := UnmarshalJSON ( [ ] byte ( "" ) , & emptyResult ) ; err == nil {
t . Fatalf ( "Expected an error, got nothing" )
}
result := struct { Name string } { }
if err := UnmarshalJSON ( [ ] byte ( ` { "name": "name"} ` ) , & result ) ; err != nil {
t . Fatal ( err )
}
if result . Name != "name" {
t . Fatalf ( "Expected result.name to be 'name', was '%s'" , result . Name )
}
}
func TestConvertSliceOfStringsToMap ( t * testing . T ) {
input := [ ] string { "a" , "b" }
actual := ConvertSliceOfStringsToMap ( input )
for _ , key := range input {
if _ , ok := actual [ key ] ; ! ok {
t . Fatalf ( "Expected output to contains key %s, did not: %v" , key , actual )
}
}
}
func TestCompareDirectoryEntries ( t * testing . T ) {
tmpFolder , err := ioutil . TempDir ( "" , "integration-cli-utils-compare-directories" )
if err != nil {
t . Fatal ( err )
}
defer os . RemoveAll ( tmpFolder )
file1 := path . Join ( tmpFolder , "file1" )
file2 := path . Join ( tmpFolder , "file2" )
os . Create ( file1 )
os . Create ( file2 )
fi1 , err := os . Stat ( file1 )
if err != nil {
t . Fatal ( err )
}
fi1bis , err := os . Stat ( file1 )
if err != nil {
t . Fatal ( err )
}
fi2 , err := os . Stat ( file2 )
if err != nil {
t . Fatal ( err )
}
cases := [ ] struct {
e1 [ ] os . FileInfo
e2 [ ] os . FileInfo
shouldError bool
} {
// Empty directories
{
[ ] os . FileInfo { } ,
[ ] os . FileInfo { } ,
false ,
} ,
// Same FileInfos
{
[ ] os . FileInfo { fi1 } ,
[ ] os . FileInfo { fi1 } ,
false ,
} ,
// Different FileInfos but same names
{
[ ] os . FileInfo { fi1 } ,
[ ] os . FileInfo { fi1bis } ,
false ,
} ,
// Different FileInfos, different names
{
[ ] os . FileInfo { fi1 } ,
[ ] os . FileInfo { fi2 } ,
true ,
} ,
}
for _ , elt := range cases {
err := CompareDirectoryEntries ( elt . e1 , elt . e2 )
if elt . shouldError && err == nil {
t . Fatalf ( "Should have return an error, did not with %v and %v" , elt . e1 , elt . e2 )
}
if ! elt . shouldError && err != nil {
t . Fatalf ( "Should have not returned an error, but did : %v with %v and %v" , err , elt . e1 , elt . e2 )
}
}
}
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// FIXME make an "unhappy path" test for ListTar without "panicking" :-)
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func TestListTar ( t * testing . T ) {
tmpFolder , err := ioutil . TempDir ( "" , "integration-cli-utils-list-tar" )
if err != nil {
t . Fatal ( err )
}
defer os . RemoveAll ( tmpFolder )
// Let's create a Tar file
srcFile := path . Join ( tmpFolder , "src" )
tarFile := path . Join ( tmpFolder , "src.tar" )
os . Create ( srcFile )
cmd := exec . Command ( "/bin/sh" , "-c" , "tar cf " + tarFile + " " + srcFile )
_ , err = cmd . CombinedOutput ( )
if err != nil {
t . Fatal ( err )
}
reader , err := os . Open ( tarFile )
if err != nil {
t . Fatal ( err )
}
defer reader . Close ( )
entries , err := ListTar ( reader )
if err != nil {
t . Fatal ( err )
}
if len ( entries ) != 1 && entries [ 0 ] != "src" {
t . Fatalf ( "Expected a tar file with 1 entry (%s), got %v" , srcFile , entries )
}
}
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func TestRandomTmpDirPath ( t * testing . T ) {
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path := RandomTmpDirPath ( "something" , runtime . GOOS )
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prefix := "/tmp/something"
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if runtime . GOOS == "windows" {
prefix = os . Getenv ( "TEMP" ) + ` \something `
}
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expectedSize := len ( prefix ) + 11
if ! strings . HasPrefix ( path , prefix ) {
t . Fatalf ( "Expected generated path to have '%s' as prefix, got %s'" , prefix , path )
}
if len ( path ) != expectedSize {
t . Fatalf ( "Expected generated path to be %d, got %d" , expectedSize , len ( path ) )
}
}
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func TestConsumeWithSpeed ( t * testing . T ) {
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reader := strings . NewReader ( "1234567890" )
chunksize := 2
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bytes1 , err := ConsumeWithSpeed ( reader , chunksize , 1 * time . Second , nil )
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if err != nil {
t . Fatal ( err )
}
if bytes1 != 10 {
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t . Fatalf ( "Expected to have read 10 bytes, got %d" , bytes1 )
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}
}
func TestConsumeWithSpeedWithStop ( t * testing . T ) {
reader := strings . NewReader ( "1234567890" )
chunksize := 2
stopIt := make ( chan bool )
go func ( ) {
time . Sleep ( 1 * time . Millisecond )
stopIt <- true
} ( )
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bytes1 , err := ConsumeWithSpeed ( reader , chunksize , 20 * time . Millisecond , stopIt )
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if err != nil {
t . Fatal ( err )
}
if bytes1 != 2 {
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t . Fatalf ( "Expected to have read 2 bytes, got %d" , bytes1 )
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}
}
func TestParseCgroupPathsEmpty ( t * testing . T ) {
cgroupMap := ParseCgroupPaths ( "" )
if len ( cgroupMap ) != 0 {
t . Fatalf ( "Expected an empty map, got %v" , cgroupMap )
}
cgroupMap = ParseCgroupPaths ( "\n" )
if len ( cgroupMap ) != 0 {
t . Fatalf ( "Expected an empty map, got %v" , cgroupMap )
}
cgroupMap = ParseCgroupPaths ( "something:else\nagain:here" )
if len ( cgroupMap ) != 0 {
t . Fatalf ( "Expected an empty map, got %v" , cgroupMap )
}
}
func TestParseCgroupPaths ( t * testing . T ) {
cgroupMap := ParseCgroupPaths ( "2:memory:/a\n1:cpuset:/b" )
if len ( cgroupMap ) != 2 {
t . Fatalf ( "Expected a map with 2 entries, got %v" , cgroupMap )
}
if value , ok := cgroupMap [ "memory" ] ; ! ok || value != "/a" {
t . Fatalf ( "Expected cgroupMap to contains an entry for 'memory' with value '/a', got %v" , cgroupMap )
}
if value , ok := cgroupMap [ "cpuset" ] ; ! ok || value != "/b" {
t . Fatalf ( "Expected cgroupMap to contains an entry for 'cpuset' with value '/b', got %v" , cgroupMap )
}
}
func TestChannelBufferTimeout ( t * testing . T ) {
expected := "11"
buf := & ChannelBuffer { make ( chan [ ] byte , 1 ) }
defer buf . Close ( )
go func ( ) {
time . Sleep ( 100 * time . Millisecond )
io . Copy ( buf , strings . NewReader ( expected ) )
} ( )
// Wait long enough
b := make ( [ ] byte , 2 )
_ , err := buf . ReadTimeout ( b , 50 * time . Millisecond )
if err == nil && err . Error ( ) != "timeout reading from channel" {
t . Fatalf ( "Expected an error, got %s" , err )
}
// Wait for the end :)
time . Sleep ( 150 * time . Millisecond )
}
func TestChannelBuffer ( t * testing . T ) {
expected := "11"
buf := & ChannelBuffer { make ( chan [ ] byte , 1 ) }
defer buf . Close ( )
go func ( ) {
time . Sleep ( 100 * time . Millisecond )
io . Copy ( buf , strings . NewReader ( expected ) )
} ( )
// Wait long enough
b := make ( [ ] byte , 2 )
_ , err := buf . ReadTimeout ( b , 200 * time . Millisecond )
if err != nil {
t . Fatal ( err )
}
if string ( b ) != expected {
t . Fatalf ( "Expected '%s', got '%s'" , expected , string ( b ) )
}
}
// FIXME doesn't work
// func TestRunAtDifferentDate(t *testing.T) {
// var date string
// // Layout for date. MMDDhhmmYYYY
// const timeLayout = "20060102"
// expectedDate := "20100201"
// theDate, err := time.Parse(timeLayout, expectedDate)
// if err != nil {
// t.Fatal(err)
// }
// RunAtDifferentDate(theDate, func() {
// cmd := exec.Command("date", "+%Y%M%d")
// out, err := cmd.Output()
// if err != nil {
// t.Fatal(err)
// }
// date = string(out)
// })
// }