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// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package ssa_test
import (
"bytes"
"flag"
"fmt"
"internal/testenv"
"io"
"io/ioutil"
"os"
"os/exec"
"path/filepath"
"regexp"
"runtime"
"strconv"
"strings"
"testing"
"time"
)
var update = flag.Bool("u", false, "update test reference files")
var verbose = flag.Bool("v", false, "print debugger interactions (very verbose)")
var dryrun = flag.Bool("n", false, "just print the command line and first debugging bits")
var useDelve = flag.Bool("d", false, "use Delve (dlv) instead of gdb, use dlv reverence files")
var force = flag.Bool("f", false, "force run under not linux-amd64; also do not use tempdir")
var repeats = flag.Bool("r", false, "detect repeats in debug steps and don't ignore them")
var inlines = flag.Bool("i", false, "do inlining for gdb (makes testing flaky till inlining info is correct)")
var hexRe = regexp.MustCompile("0x[a-zA-Z0-9]+")
var numRe = regexp.MustCompile("-?[0-9]+")
var stringRe = regexp.MustCompile("\"([^\\\"]|(\\.))*\"")
var leadingDollarNumberRe = regexp.MustCompile("^[$][0-9]+")
var optOutGdbRe = regexp.MustCompile("[<]optimized out[>]")
var numberColonRe = regexp.MustCompile("^ *[0-9]+:")
var gdb = "gdb" // Might be "ggdb" on Darwin, because gdb no longer part of XCode
var debugger = "gdb" // For naming files, etc.
var gogcflags = os.Getenv("GO_GCFLAGS")
// optimizedLibs usually means "not running in a noopt test builder".
var optimizedLibs = (!strings.Contains(gogcflags, "-N") && !strings.Contains(gogcflags, "-l"))
// TestNexting go-builds a file, then uses a debugger (default gdb, optionally delve)
// to next through the generated executable, recording each line landed at, and
// then compares those lines with reference file(s).
// Flag -u updates the reference file(s).
// Flag -d changes the debugger to delve (and uses delve-specific reference files)
// Flag -v is ever-so-slightly verbose.
// Flag -n is for dry-run, and prints the shell and first debug commands.
//
// Because this test (combined with existing compiler deficiencies) is flaky,
// for gdb-based testing by default inlining is disabled
// (otherwise output depends on library internals)
// and for both gdb and dlv by default repeated lines in the next stream are ignored
// (because this appears to be timing-dependent in gdb, and the cleanest fix is in code common to gdb and dlv).
//
// Also by default, any source code outside of .../testdata/ is not mentioned
// in the debugging histories. This deals both with inlined library code once
// the compiler is generating clean inline records, and also deals with
// runtime code between return from main and process exit. This is hidden
// so that those files (in the runtime/library) can change without affecting
// this test.
//
// These choices can be reversed with -i (inlining on) and -r (repeats detected) which
// will also cause their own failures against the expected outputs. Note that if the compiler
// and debugger were behaving properly, the inlined code and repeated lines would not appear,
// so the expected output is closer to what we hope to see, though it also encodes all our
// current bugs.
//
// The file being tested may contain comments of the form
// //DBG-TAG=(v1,v2,v3)
// where DBG = {gdb,dlv} and TAG={dbg,opt}
// each variable may optionally be followed by a / and one or more of S,A,N,O
// to indicate normalization of Strings, (hex) addresses, and numbers.
// "O" is an explicit indication that we expect it to be optimized out.
// For example:
/*
if len(os.Args) > 1 { //gdb-dbg=(hist/A,cannedInput/A) //dlv-dbg=(hist/A,cannedInput/A)
*/
// TODO: not implemented for Delve yet, but this is the plan
//
// After a compiler change that causes a difference in the debug behavior, check
// to see if it is sensible or not, and if it is, update the reference files with
// go test debug_test.go -args -u
// (for Delve)
// go test debug_test.go -args -u -d
func TestNexting(t *testing.T) {
skipReasons := "" // Many possible skip reasons, list all that apply
if testing.Short() {
skipReasons = "not run in short mode; "
}
testenv.MustHaveGoBuild(t)
if !*useDelve && !*force && !(runtime.GOOS == "linux" && runtime.GOARCH == "amd64") {
// Running gdb on OSX/darwin is very flaky.
// Sometimes it is called ggdb, depending on how it is installed.
// It also sometimes requires an admin password typed into a dialog box.
// Various architectures tend to differ slightly sometimes, and keeping them
// all in sync is a pain for people who don't have them all at hand,
// so limit testing to amd64 (for now)
skipReasons += "not run unless linux-amd64 or -d (delve) or -f (force); "
}
if *useDelve {
debugger = "dlv"
_, err := exec.LookPath("dlv")
if err != nil {
skipReasons += "not run because dlv (requested by -d option) not on path; "
}
} else {
_, err := exec.LookPath(gdb)
if err != nil {
if runtime.GOOS != "darwin" {
skipReasons += "not run because gdb not on path; "
} else {
// On Darwin, MacPorts installs gdb as "ggdb".
_, err = exec.LookPath("ggdb")
if err != nil {
skipReasons += "not run because gdb (and also ggdb) not on path; "
} else {
gdb = "ggdb"
}
}
}
}
if skipReasons != "" {
t.Skip(skipReasons[:len(skipReasons)-2])
}
optFlags := "" // Whatever flags are needed to test debugging of optimized code.
dbgFlags := "-N -l"
if !*useDelve && !*inlines {
// For gdb (default), disable inlining so that a compiler test does not depend on library code.
// TODO: Technically not necessary in 1.10, but it causes a largish regression that needs investigation.
optFlags += " -l"
}
subTest(t, debugger+"-dbg", "hist", dbgFlags)
subTest(t, debugger+"-dbg", "scopes", dbgFlags)
subTest(t, debugger+"-dbg", "i22558", dbgFlags)
subTest(t, debugger+"-dbg-race", "i22600", dbgFlags, "-race")
optSubTest(t, debugger+"-opt", "hist", optFlags)
optSubTest(t, debugger+"-opt", "scopes", optFlags)
}
// subTest creates a subtest that compiles basename.go with the specified gcflags and additional compiler arguments,
// then runs the debugger on the resulting binary, with any comment-specified actions matching tag triggered.
func subTest(t *testing.T, tag string, basename string, gcflags string, moreargs ...string) {
t.Run(tag+"-"+basename, func(t *testing.T) {
testNexting(t, basename, tag, gcflags, moreargs...)
})
}
// optSubTest is the same as subTest except that it skips the test if the runtime and libraries
// were not compiled with optimization turned on. (The skip may not be necessary with Go 1.10 and later)
func optSubTest(t *testing.T, tag string, basename string, gcflags string, moreargs ...string) {
// If optimized test is run with unoptimized libraries (compiled with -N -l), it is very likely to fail.
// This occurs in the noopt builders (for example).
t.Run(tag+"-"+basename, func(t *testing.T) {
if *force || optimizedLibs {
testNexting(t, basename, tag, gcflags, moreargs...)
} else {
t.Skip("skipping for unoptimized stdlib/runtime")
}
})
}
func testNexting(t *testing.T, base, tag, gcflags string, moreArgs ...string) {
// (1) In testdata, build sample.go into test-sample.<tag>
// (2) Run debugger gathering a history
// (3) Read expected history from testdata/sample.<tag>.nexts
// optionally, write out testdata/sample.<tag>.nexts
testbase := filepath.Join("testdata", base) + "." + tag
tmpbase := filepath.Join("testdata", "test-"+base+"."+tag)
// Use a temporary directory unless -f is specified
if !*force {
tmpdir, err := ioutil.TempDir("", "debug_test")
if err != nil {
panic(fmt.Sprintf("Problem creating TempDir, error %v\n", err))
}
tmpbase = filepath.Join(tmpdir, "test-"+base+"."+tag)
if *verbose {
fmt.Printf("Tempdir is %s\n", tmpdir)
}
defer os.RemoveAll(tmpdir)
}
exe := tmpbase
runGoArgs := []string{"build", "-o", exe, "-gcflags=all=" + gcflags}
runGoArgs = append(runGoArgs, moreArgs...)
runGoArgs = append(runGoArgs, filepath.Join("testdata", base+".go"))
runGo(t, "", runGoArgs...)
nextlog := testbase + ".nexts"
tmplog := tmpbase + ".nexts"
var dbg dbgr
if *useDelve {
dbg = newDelve(tag, exe)
} else {
dbg = newGdb(tag, exe)
}
h1 := runDbgr(dbg, 1000)
if *dryrun {
fmt.Printf("# Tag for above is %s\n", dbg.tag())
return
}
if *update {
h1.write(nextlog)
} else {
h0 := &nextHist{}
h0.read(nextlog)
if !h0.equals(h1) {
// Be very noisy about exactly what's wrong to simplify debugging.
h1.write(tmplog)
cmd := exec.Command("diff", "-u", nextlog, tmplog)
line := asCommandLine("", cmd)
bytes, err := cmd.CombinedOutput()
if err != nil && len(bytes) == 0 {
t.Fatalf("step/next histories differ, diff command %s failed with error=%v", line, err)
}
t.Fatalf("step/next histories differ, diff=\n%s", string(bytes))
}
}
}
type dbgr interface {
start()
stepnext(s string) bool // step or next, possible with parameter, gets line etc. returns true for success, false for unsure response
quit()
hist() *nextHist
tag() string
}
func runDbgr(dbg dbgr, maxNext int) *nextHist {
dbg.start()
if *dryrun {
return nil
}
for i := 0; i < maxNext; i++ {
if !dbg.stepnext("n") {
break
}
}
h := dbg.hist()
return h
}
func runGo(t *testing.T, dir string, args ...string) string {
var stdout, stderr bytes.Buffer
cmd := exec.Command(testenv.GoToolPath(t), args...)
cmd.Dir = dir
if *dryrun {
fmt.Printf("%s\n", asCommandLine("", cmd))
return ""
}
cmd.Stdout = &stdout
cmd.Stderr = &stderr
if err := cmd.Run(); err != nil {
t.Fatalf("error running cmd (%s): %v\nstdout:\n%sstderr:\n%s\n", asCommandLine("", cmd), err, stdout.String(), stderr.String())
}
if s := stderr.String(); s != "" {
t.Fatalf("Stderr = %s\nWant empty", s)
}
return stdout.String()
}
// tstring provides two strings, o (stdout) and e (stderr)
type tstring struct {
o string
e string
}
func (t tstring) String() string {
return t.o + t.e
}
type pos struct {
line uint16
file uint8 // Artifact of plans to implement differencing instead of calling out to diff.
}
type nextHist struct {
f2i map[string]uint8
fs []string
ps []pos
texts []string
vars [][]string
}
func (h *nextHist) write(filename string) {
file, err := os.Create(filename)
if err != nil {
panic(fmt.Sprintf("Problem opening %s, error %v\n", filename, err))
}
defer file.Close()
var lastfile uint8
for i, x := range h.texts {
p := h.ps[i]
if lastfile != p.file {
fmt.Fprintf(file, " %s\n", h.fs[p.file-1])
lastfile = p.file
}
fmt.Fprintf(file, "%d:%s\n", p.line, x)
// TODO, normalize between gdb and dlv into a common, comparable format.
for _, y := range h.vars[i] {
y = strings.TrimSpace(y)
fmt.Fprintf(file, "%s\n", y)
}
}
file.Close()
}
func (h *nextHist) read(filename string) {
h.f2i = make(map[string]uint8)
bytes, err := ioutil.ReadFile(filename)
if err != nil {
panic(fmt.Sprintf("Problem reading %s, error %v\n", filename, err))
}
var lastfile string
lines := strings.Split(string(bytes), "\n")
for i, l := range lines {
if len(l) > 0 && l[0] != '#' {
if l[0] == ' ' {
// file -- first two characters expected to be " "
lastfile = strings.TrimSpace(l)
} else if numberColonRe.MatchString(l) {
// line number -- <number>:<line>
colonPos := strings.Index(l, ":")
if colonPos == -1 {
panic(fmt.Sprintf("Line %d (%s) in file %s expected to contain '<number>:' but does not.\n", i+1, l, filename))
}
h.add(lastfile, l[0:colonPos], l[colonPos+1:])
} else {
h.addVar(l)
}
}
}
}
// add appends file (name), line (number) and text (string) to the history,
// provided that the file+line combo does not repeat the previous position,
// and provided that the file is within the testdata directory. The return
// value indicates whether the append occurred.
func (h *nextHist) add(file, line, text string) bool {
// Only record source code in testdata unless the inlines flag is set
if !*inlines && !strings.Contains(file, "/testdata/") {
return false
}
fi := h.f2i[file]
if fi == 0 {
h.fs = append(h.fs, file)
fi = uint8(len(h.fs))
h.f2i[file] = fi
}
line = strings.TrimSpace(line)
var li int
var err error
if line != "" {
li, err = strconv.Atoi(line)
if err != nil {
panic(fmt.Sprintf("Non-numeric line: %s, error %v\n", line, err))
}
}
l := len(h.ps)
p := pos{line: uint16(li), file: fi}
if l == 0 || *repeats || h.ps[l-1] != p {
h.ps = append(h.ps, p)
h.texts = append(h.texts, text)
h.vars = append(h.vars, []string{})
return true
}
return false
}
func (h *nextHist) addVar(text string) {
l := len(h.texts)
h.vars[l-1] = append(h.vars[l-1], text)
}
func invertMapSU8(hf2i map[string]uint8) map[uint8]string {
hi2f := make(map[uint8]string)
for hs, i := range hf2i {
hi2f[i] = hs
}
return hi2f
}
func (h *nextHist) equals(k *nextHist) bool {
if len(h.f2i) != len(k.f2i) {
return false
}
if len(h.ps) != len(k.ps) {
return false
}
hi2f := invertMapSU8(h.f2i)
ki2f := invertMapSU8(k.f2i)
for i, hs := range hi2f {
if hs != ki2f[i] {
return false
}
}
for i, x := range h.ps {
if k.ps[i] != x {
return false
}
}
for i, hv := range h.vars {
kv := k.vars[i]
if len(hv) != len(kv) {
return false
}
for j, hvt := range hv {
if hvt != kv[j] {
return false
}
}
}
return true
}
// canonFileName strips everything before "/src/" from a filename.
// This makes file names portable across different machines,
// home directories, and temporary directories.
func canonFileName(f string) string {
i := strings.Index(f, "/src/")
if i != -1 {
f = f[i+1:]
}
return f
}
/* Delve */
type delveState struct {
cmd *exec.Cmd
tagg string
*ioState
atLineRe *regexp.Regexp // "\n =>"
funcFileLinePCre *regexp.Regexp // "^> ([^ ]+) ([^:]+):([0-9]+) .*[(]PC: (0x[a-z0-9]+)"
line string
file string
function string
}
func newDelve(tag, executable string, args ...string) dbgr {
cmd := exec.Command("dlv", "exec", executable)
cmd.Env = replaceEnv(cmd.Env, "TERM", "dumb")
if len(args) > 0 {
cmd.Args = append(cmd.Args, "--")
cmd.Args = append(cmd.Args, args...)
}
s := &delveState{tagg: tag, cmd: cmd}
// HAHA Delve has control characters embedded to change the color of the => and the line number
// that would be '(\\x1b\\[[0-9;]+m)?' OR TERM=dumb
s.atLineRe = regexp.MustCompile("\n=>[[:space:]]+[0-9]+:(.*)")
s.funcFileLinePCre = regexp.MustCompile("> ([^ ]+) ([^:]+):([0-9]+) .*[(]PC: (0x[a-z0-9]+)[)]\n")
s.ioState = newIoState(s.cmd)
return s
}
func (s *delveState) tag() string {
return s.tagg
}
func (s *delveState) stepnext(ss string) bool {
x := s.ioState.writeReadExpect(ss+"\n", "[(]dlv[)] ")
excerpts := s.atLineRe.FindStringSubmatch(x.o)
locations := s.funcFileLinePCre.FindStringSubmatch(x.o)
excerpt := ""
if len(excerpts) > 1 {
excerpt = excerpts[1]
}
if len(locations) > 0 {
fn := canonFileName(locations[2])
if *verbose {
if s.file != fn {
fmt.Printf("%s\n", locations[2]) // don't canonocalize verbose logging
}
fmt.Printf(" %s\n", locations[3])
}
s.line = locations[3]
s.file = fn
s.function = locations[1]
s.ioState.history.add(s.file, s.line, excerpt)
// TODO: here is where variable processing will be added. See gdbState.stepnext as a guide.
// Adding this may require some amount of normalization so that logs are comparable.
return true
}
if *verbose {
fmt.Printf("DID NOT MATCH EXPECTED NEXT OUTPUT\nO='%s'\nE='%s'\n", x.o, x.e)
}
return false
}
func (s *delveState) start() {
if *dryrun {
fmt.Printf("%s\n", asCommandLine("", s.cmd))
fmt.Printf("b main.test\n")
fmt.Printf("c\n")
return
}
err := s.cmd.Start()
if err != nil {
line := asCommandLine("", s.cmd)
panic(fmt.Sprintf("There was an error [start] running '%s', %v\n", line, err))
}
s.ioState.readExpecting(-1, 5000, "Type 'help' for list of commands.")
expect("Breakpoint [0-9]+ set at ", s.ioState.writeReadExpect("b main.test\n", "[(]dlv[)] "))
s.stepnext("c")
}
func (s *delveState) quit() {
expect("", s.ioState.writeRead("q\n"))
}
/* Gdb */
type gdbState struct {
cmd *exec.Cmd
tagg string
args []string
*ioState
atLineRe *regexp.Regexp
funcFileLinePCre *regexp.Regexp
line string
file string
function string
}
func newGdb(tag, executable string, args ...string) dbgr {
// Turn off shell, necessary for Darwin apparently
cmd := exec.Command(gdb, "-nx",
"-iex", fmt.Sprintf("add-auto-load-safe-path %s/src/runtime", runtime.GOROOT()),
"-ex", "set startup-with-shell off", executable)
cmd.Env = replaceEnv(cmd.Env, "TERM", "dumb")
s := &gdbState{tagg: tag, cmd: cmd, args: args}
s.atLineRe = regexp.MustCompile("(^|\n)([0-9]+)(.*)")
s.funcFileLinePCre = regexp.MustCompile(
"([^ ]+) [(][^)]*[)][ \\t\\n]+at ([^:]+):([0-9]+)")
// runtime.main () at /Users/drchase/GoogleDrive/work/go/src/runtime/proc.go:201
// function file line
// Thread 2 hit Breakpoint 1, main.main () at /Users/drchase/GoogleDrive/work/debug/hist.go:18
s.ioState = newIoState(s.cmd)
return s
}
func (s *gdbState) tag() string {
return s.tagg
}
func (s *gdbState) start() {
run := "run"
for _, a := range s.args {
run += " " + a // Can't quote args for gdb, it will pass them through including the quotes
}
if *dryrun {
fmt.Printf("%s\n", asCommandLine("", s.cmd))
fmt.Printf("tbreak main.test\n")
fmt.Printf("%s\n", run)
return
}
err := s.cmd.Start()
if err != nil {
line := asCommandLine("", s.cmd)
panic(fmt.Sprintf("There was an error [start] running '%s', %v\n", line, err))
}
s.ioState.readExpecting(-1, -1, "[(]gdb[)] ")
x := s.ioState.writeReadExpect("b main.test\n", "[(]gdb[)] ")
expect("Breakpoint [0-9]+ at", x)
s.stepnext(run)
}
func (s *gdbState) stepnext(ss string) bool {
x := s.ioState.writeReadExpect(ss+"\n", "[(]gdb[)] ")
excerpts := s.atLineRe.FindStringSubmatch(x.o)
locations := s.funcFileLinePCre.FindStringSubmatch(x.o)
excerpt := ""
addedLine := false
if len(excerpts) == 0 && len(locations) == 0 {
if *verbose {
fmt.Printf("DID NOT MATCH %s", x.o)
}
return false
}
if len(excerpts) > 0 {
excerpt = excerpts[3]
}
if len(locations) > 0 {
fn := canonFileName(locations[2])
if *verbose {
if s.file != fn {
fmt.Printf("%s\n", locations[2])
}
fmt.Printf(" %s\n", locations[3])
}
s.line = locations[3]
s.file = fn
s.function = locations[1]
addedLine = s.ioState.history.add(s.file, s.line, excerpt)
}
if len(excerpts) > 0 {
if *verbose {
fmt.Printf(" %s\n", excerpts[2])
}
s.line = excerpts[2]
addedLine = s.ioState.history.add(s.file, s.line, excerpt)
}
if !addedLine {
// True if this was a repeat line
return true
}
// Look for //gdb-<tag>=(v1,v2,v3) and print v1, v2, v3
vars := varsToPrint(excerpt, "//"+s.tag()+"=(")
for _, v := range vars {
response := printVariableAndNormalize(v, func(v string) string {
return s.ioState.writeReadExpect("p "+v+"\n", "[(]gdb[)] ").String()
})
s.ioState.history.addVar(response)
}
return true
}
// printVariableAndNormalize extracts any slash-indicated normalizing requests from the variable
// name, then uses printer to get the value of the variable from the debugger, and then
// normalizes and returns the response.
func printVariableAndNormalize(v string, printer func(v string) string) string {
slashIndex := strings.Index(v, "/")
substitutions := ""
if slashIndex != -1 {
substitutions = v[slashIndex:]
v = v[:slashIndex]
}
response := printer(v)
// expect something like "$1 = ..."
dollar := strings.Index(response, "$")
cr := strings.Index(response, "\n")
if dollar == -1 { // some not entirely expected response, whine and carry on.
if cr == -1 {
response = strings.TrimSpace(response) // discards trailing newline
response = strings.Replace(response, "\n", "<BR>", -1)
return "$ Malformed response " + response
}
response = strings.TrimSpace(response[:cr])
return "$ " + response
}
if cr == -1 {
cr = len(response)
}
// Convert the leading $<number> into the variable name to enhance readability
// and reduce scope of diffs if an earlier print-variable is added.
response = strings.TrimSpace(response[dollar:cr])
response = leadingDollarNumberRe.ReplaceAllString(response, v)
// Normalize value as requested.
if strings.Contains(substitutions, "A") {
response = hexRe.ReplaceAllString(response, "<A>")
}
if strings.Contains(substitutions, "N") {
response = numRe.ReplaceAllString(response, "<N>")
}
if strings.Contains(substitutions, "S") {
response = stringRe.ReplaceAllString(response, "<S>")
}
if strings.Contains(substitutions, "O") {
response = optOutGdbRe.ReplaceAllString(response, "<Optimized out, as expected>")
}
return response
}
// varsToPrint takes a source code line, and extracts the comma-separated variable names
// found between lookfor and the next ")".
// For example, if line includes "... //gdb-foo=(v1,v2,v3)" and
// lookfor="//gdb-foo=(", then varsToPrint returns ["v1", "v2", "v3"]
func varsToPrint(line, lookfor string) []string {
var vars []string
if strings.Contains(line, lookfor) {
x := line[strings.Index(line, lookfor)+len(lookfor):]
end := strings.Index(x, ")")
if end == -1 {
panic(fmt.Sprintf("Saw variable list begin %s in %s but no closing ')'", lookfor, line))
}
vars = strings.Split(x[:end], ",")
for i, y := range vars {
vars[i] = strings.TrimSpace(y)
}
}
return vars
}
func (s *gdbState) quit() {
response := s.ioState.writeRead("q\n")
if strings.Contains(response.o, "Quit anyway? (y or n)") {
s.ioState.writeRead("Y\n")
}
}
type ioState struct {
stdout io.ReadCloser
stderr io.ReadCloser
stdin io.WriteCloser
outChan chan string
errChan chan string
last tstring // Output of previous step
history *nextHist
}
func newIoState(cmd *exec.Cmd) *ioState {
var err error
s := &ioState{}
s.history = &nextHist{}
s.history.f2i = make(map[string]uint8)
s.stdout, err = cmd.StdoutPipe()
line := asCommandLine("", cmd)
if err != nil {
panic(fmt.Sprintf("There was an error [stdoutpipe] running '%s', %v\n", line, err))
}
s.stderr, err = cmd.StderrPipe()
if err != nil {
panic(fmt.Sprintf("There was an error [stdouterr] running '%s', %v\n", line, err))
}
s.stdin, err = cmd.StdinPipe()
if err != nil {
panic(fmt.Sprintf("There was an error [stdinpipe] running '%s', %v\n", line, err))
}
s.outChan = make(chan string, 1)
s.errChan = make(chan string, 1)
go func() {
buffer := make([]byte, 4096)
for {
n, err := s.stdout.Read(buffer)
if n > 0 {
s.outChan <- string(buffer[0:n])
}
if err == io.EOF || n == 0 {
break
}
if err != nil {
fmt.Printf("Saw an error forwarding stdout")
break
}
}
close(s.outChan)
s.stdout.Close()
}()
go func() {
buffer := make([]byte, 4096)
for {
n, err := s.stderr.Read(buffer)
if n > 0 {
s.errChan <- string(buffer[0:n])
}
if err == io.EOF || n == 0 {
break
}
if err != nil {
fmt.Printf("Saw an error forwarding stderr")
break
}
}
close(s.errChan)
s.stderr.Close()
}()
return s
}
func (s *ioState) hist() *nextHist {
return s.history
}
// writeRead writes ss, then reads stdout and stderr, waiting 500ms to
// be sure all the output has appeared.
func (s *ioState) writeRead(ss string) tstring {
if *verbose {
fmt.Printf("=> %s", ss)
}
_, err := io.WriteString(s.stdin, ss)
if err != nil {
panic(fmt.Sprintf("There was an error writing '%s', %v\n", ss, err))
}
return s.readExpecting(-1, 500, "")
}
// writeReadExpect writes ss, then reads stdout and stderr until something
// that matches expectRE appears. expectRE should not be ""
func (s *ioState) writeReadExpect(ss, expectRE string) tstring {
if *verbose {
fmt.Printf("=> %s", ss)
}
if expectRE == "" {
panic("expectRE should not be empty; use .* instead")
}
_, err := io.WriteString(s.stdin, ss)
if err != nil {
panic(fmt.Sprintf("There was an error writing '%s', %v\n", ss, err))
}
return s.readExpecting(-1, -1, expectRE)
}
func (s *ioState) readExpecting(millis, interlineTimeout int, expectedRE string) tstring {
timeout := time.Millisecond * time.Duration(millis)
interline := time.Millisecond * time.Duration(interlineTimeout)
s.last = tstring{}
var re *regexp.Regexp
if expectedRE != "" {
re = regexp.MustCompile(expectedRE)
}
loop:
for {
var timer <-chan time.Time
if timeout > 0 {
timer = time.After(timeout)
}
select {
case x, ok := <-s.outChan:
if !ok {
s.outChan = nil
}
s.last.o += x
case x, ok := <-s.errChan:
if !ok {
s.errChan = nil
}
s.last.e += x
case <-timer:
break loop
}
if re != nil {
if re.MatchString(s.last.o) {
break
}
if re.MatchString(s.last.e) {
break
}
}
timeout = interline
}
if *verbose {
fmt.Printf("<= %s%s", s.last.o, s.last.e)
}
return s.last
}
// replaceEnv returns a new environment derived from env
// by removing any existing definition of ev and adding ev=evv.
func replaceEnv(env []string, ev string, evv string) []string {
evplus := ev + "="
var found bool
for i, v := range env {
if strings.HasPrefix(v, evplus) {
found = true
env[i] = evplus + evv
}
}
if !found {
env = append(env, evplus+evv)
}
return env
}
// asCommandLine renders cmd as something that could be copy-and-pasted into a command line
// If cwd is not empty and different from the command's directory, prepend an approprirate "cd"
func asCommandLine(cwd string, cmd *exec.Cmd) string {
s := "("
if cmd.Dir != "" && cmd.Dir != cwd {
s += "cd" + escape(cmd.Dir) + ";"
}
for _, e := range cmd.Env {
if !strings.HasPrefix(e, "PATH=") &&
!strings.HasPrefix(e, "HOME=") &&
!strings.HasPrefix(e, "USER=") &&
!strings.HasPrefix(e, "SHELL=") {
s += escape(e)
}
}
for _, a := range cmd.Args {
s += escape(a)
}
s += " )"
return s
}
// escape inserts escapes appropriate for use in a shell command line
func escape(s string) string {
s = strings.Replace(s, "\\", "\\\\", -1)
s = strings.Replace(s, "'", "\\'", -1)
// Conservative guess at characters that will force quoting
if strings.ContainsAny(s, "\\ ;#*&$~?!|[]()<>{}`") {
s = " '" + s + "'"
} else {
s = " " + s
}
return s
}
func expect(want string, got tstring) {
if want != "" {
match, err := regexp.MatchString(want, got.o)
if err != nil {
panic(fmt.Sprintf("Error for regexp %s, %v\n", want, err))
}
if match {
return
}
match, err = regexp.MatchString(want, got.e)
if match {
return
}
fmt.Printf("EXPECTED '%s'\n GOT O='%s'\nAND E='%s'\n", want, got.o, got.e)
}
}