0741d3e57f
* tests: misc test fixes for go1.14 - math.go is now ambiguous due to changes to the go runtime so specify that we mean our own math.go in _fixtures - go list -m requires vendor-mode to be disabled so pass '-mod=' to it in case user has GOFLAGS=-mod=vendor - update version of go/packages, required to work with go 1.14 (and executed go mod vendor) - Increased goroutine migration in one development version of Go 1.14 revealed a problem with TestCheckpoints in command_test.go and rr_test.go. The tests were always wrong because Restart(checkpoint) doesn't change the current thread but we can't assume that when the checkpoint was taken the current goroutine was running on the same thread. * goversion: update maximum supported version * Makefile: disable testing lldb-server backend on linux with Go 1.14 There seems to be some incompatibility with lldb-server version 6.0.0 on linux and Go 1.14. * proc/gdbserial: better handling of signals - if multiple signals are received simultaneously propagate all of them to the target threads instead of only one. - debugserver will drop an interrupt request if a target thread simultaneously receives a signal, handle this situation. * dwarf/line: normalize backslashes for windows executables Starting with Go 1.14 the compiler sometimes emits backslashes as well as forward slashes in debug_line, normalize everything to / for conformity with the behavior of previous versions. * proc/native: partial support for Windows async preempt mechanism See https://github.com/golang/go/issues/36494 for a description of why full support for 1.14 under windows is problematic. * proc/native: disable Go 1.14 async preemption on Windows See https://github.com/golang/go/issues/36494
292 lines
9.4 KiB
Go
292 lines
9.4 KiB
Go
package gdbserial_test
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import (
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"flag"
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"fmt"
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"os"
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"os/exec"
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"path/filepath"
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"runtime"
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"testing"
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"github.com/go-delve/delve/pkg/logflags"
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"github.com/go-delve/delve/pkg/proc"
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"github.com/go-delve/delve/pkg/proc/gdbserial"
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protest "github.com/go-delve/delve/pkg/proc/test"
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)
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func TestMain(m *testing.M) {
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var logConf string
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flag.StringVar(&logConf, "log", "", "configures logging")
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flag.Parse()
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logflags.Setup(logConf != "", logConf, "")
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os.Exit(protest.RunTestsWithFixtures(m))
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}
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func withTestRecording(name string, t testing.TB, fn func(t *proc.Target, fixture protest.Fixture)) {
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fixture := protest.BuildFixture(name, 0)
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protest.MustHaveRecordingAllowed(t)
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if path, _ := exec.LookPath("rr"); path == "" {
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t.Skip("test skipped, rr not found")
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}
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t.Log("recording")
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p, tracedir, err := gdbserial.RecordAndReplay([]string{fixture.Path}, ".", true, []string{})
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if err != nil {
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t.Fatal("Launch():", err)
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}
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t.Logf("replaying %q", tracedir)
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defer p.Detach(true)
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fn(p, fixture)
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}
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func assertNoError(err error, t testing.TB, s string) {
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if err != nil {
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_, file, line, _ := runtime.Caller(1)
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fname := filepath.Base(file)
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t.Fatalf("failed assertion at %s:%d: %s - %s\n", fname, line, s, err)
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}
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}
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func setFunctionBreakpoint(p proc.Process, t *testing.T, fname string) *proc.Breakpoint {
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_, f, l, _ := runtime.Caller(1)
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f = filepath.Base(f)
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addrs, err := proc.FindFunctionLocation(p, fname, 0)
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if err != nil {
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t.Fatalf("%s:%d: FindFunctionLocation(%s): %v", f, l, fname, err)
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}
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if len(addrs) != 1 {
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t.Fatalf("%s:%d: setFunctionBreakpoint(%s): too many results %v", f, l, fname, addrs)
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}
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bp, err := p.SetBreakpoint(addrs[0], proc.UserBreakpoint, nil)
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if err != nil {
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t.Fatalf("%s:%d: FindFunctionLocation(%s): %v", f, l, fname, err)
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}
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return bp
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}
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func TestRestartAfterExit(t *testing.T) {
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protest.AllowRecording(t)
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withTestRecording("testnextprog", t, func(p *proc.Target, fixture protest.Fixture) {
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setFunctionBreakpoint(p, t, "main.main")
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assertNoError(proc.Continue(p), t, "Continue")
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loc, err := p.CurrentThread().Location()
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assertNoError(err, t, "CurrentThread().Location()")
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err = proc.Continue(p)
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if _, isexited := err.(proc.ErrProcessExited); err == nil || !isexited {
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t.Fatalf("program did not exit: %v", err)
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}
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assertNoError(p.Restart(""), t, "Restart")
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assertNoError(proc.Continue(p), t, "Continue (after restart)")
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loc2, err := p.CurrentThread().Location()
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assertNoError(err, t, "CurrentThread().Location() (after restart)")
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if loc2.Line != loc.Line {
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t.Fatalf("stopped at %d (expected %d)", loc2.Line, loc.Line)
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}
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err = proc.Continue(p)
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if _, isexited := err.(proc.ErrProcessExited); err == nil || !isexited {
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t.Fatalf("program did not exit (after exit): %v", err)
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}
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})
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}
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func TestRestartDuringStop(t *testing.T) {
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protest.AllowRecording(t)
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withTestRecording("testnextprog", t, func(p *proc.Target, fixture protest.Fixture) {
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setFunctionBreakpoint(p, t, "main.main")
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assertNoError(proc.Continue(p), t, "Continue")
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loc, err := p.CurrentThread().Location()
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assertNoError(err, t, "CurrentThread().Location()")
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assertNoError(p.Restart(""), t, "Restart")
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assertNoError(proc.Continue(p), t, "Continue (after restart)")
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loc2, err := p.CurrentThread().Location()
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assertNoError(err, t, "CurrentThread().Location() (after restart)")
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if loc2.Line != loc.Line {
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t.Fatalf("stopped at %d (expected %d)", loc2.Line, loc.Line)
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}
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err = proc.Continue(p)
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if _, isexited := err.(proc.ErrProcessExited); err == nil || !isexited {
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t.Fatalf("program did not exit (after exit): %v", err)
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}
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})
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}
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func setFileBreakpoint(p proc.Process, t *testing.T, fixture protest.Fixture, lineno int) *proc.Breakpoint {
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_, f, l, _ := runtime.Caller(1)
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f = filepath.Base(f)
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addrs, err := proc.FindFileLocation(p, fixture.Source, lineno)
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if err != nil {
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t.Fatalf("%s:%d: FindFileLocation(%s, %d): %v", f, l, fixture.Source, lineno, err)
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}
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if len(addrs) != 1 {
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t.Fatalf("%s:%d: setFileLineBreakpoint(%s, %d): too many results %v", f, l, fixture.Source, lineno, addrs)
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}
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bp, err := p.SetBreakpoint(addrs[0], proc.UserBreakpoint, nil)
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if err != nil {
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t.Fatalf("%s:%d: SetBreakpoint: %v", f, l, err)
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}
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return bp
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}
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func TestReverseBreakpointCounts(t *testing.T) {
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protest.AllowRecording(t)
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withTestRecording("bpcountstest", t, func(p *proc.Target, fixture protest.Fixture) {
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endbp := setFileBreakpoint(p, t, fixture, 28)
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assertNoError(proc.Continue(p), t, "Continue()")
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loc, _ := p.CurrentThread().Location()
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if loc.PC != endbp.Addr {
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t.Fatalf("did not reach end of main.main function: %s:%d (%#x)", loc.File, loc.Line, loc.PC)
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}
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p.ClearBreakpoint(endbp.Addr)
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assertNoError(p.Direction(proc.Backward), t, "Switching to backward direction")
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bp := setFileBreakpoint(p, t, fixture, 12)
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startbp := setFileBreakpoint(p, t, fixture, 20)
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countLoop:
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for {
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assertNoError(proc.Continue(p), t, "Continue()")
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loc, _ := p.CurrentThread().Location()
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switch loc.PC {
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case startbp.Addr:
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break countLoop
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case bp.Addr:
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// ok
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default:
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t.Fatalf("unexpected stop location %s:%d %#x", loc.File, loc.Line, loc.PC)
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}
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}
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t.Logf("TotalHitCount: %d", bp.TotalHitCount)
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if bp.TotalHitCount != 200 {
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t.Fatalf("Wrong TotalHitCount for the breakpoint (%d)", bp.TotalHitCount)
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}
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if len(bp.HitCount) != 2 {
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t.Fatalf("Wrong number of goroutines for breakpoint (%d)", len(bp.HitCount))
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}
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for _, v := range bp.HitCount {
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if v != 100 {
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t.Fatalf("Wrong HitCount for breakpoint (%v)", bp.HitCount)
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}
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}
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})
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}
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func getPosition(p *proc.Target, t *testing.T) (when string, loc *proc.Location) {
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var err error
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when, err = p.When()
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assertNoError(err, t, "When")
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loc, err = p.CurrentThread().Location()
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assertNoError(err, t, "Location")
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return
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}
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func TestCheckpoints(t *testing.T) {
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protest.AllowRecording(t)
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withTestRecording("continuetestprog", t, func(p *proc.Target, fixture protest.Fixture) {
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// Continues until start of main.main, record output of 'when'
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bp := setFunctionBreakpoint(p, t, "main.main")
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assertNoError(proc.Continue(p), t, "Continue")
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when0, loc0 := getPosition(p, t)
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t.Logf("when0: %q (%#x) %x", when0, loc0.PC, p.CurrentThread().ThreadID())
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// Create a checkpoint and check that the list of checkpoints reflects this
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cpid, err := p.Checkpoint("checkpoint1")
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if cpid != 1 {
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t.Errorf("unexpected checkpoint id %d", cpid)
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}
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assertNoError(err, t, "Checkpoint")
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checkpoints, err := p.Checkpoints()
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assertNoError(err, t, "Checkpoints")
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if len(checkpoints) != 1 {
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t.Fatalf("wrong number of checkpoints %v (one expected)", checkpoints)
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}
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// Move forward with next, check that the output of 'when' changes
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assertNoError(proc.Next(p), t, "First Next")
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assertNoError(proc.Next(p), t, "Second Next")
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when1, loc1 := getPosition(p, t)
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t.Logf("when1: %q (%#x) %x", when1, loc1.PC, p.CurrentThread().ThreadID())
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if loc0.PC == loc1.PC {
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t.Fatalf("next did not move process %#x", loc0.PC)
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}
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if when0 == when1 {
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t.Fatalf("output of when did not change after next: %q", when0)
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}
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// Move back to checkpoint, check that the output of 'when' is the same as
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// what it was when we set the breakpoint
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p.Restart(fmt.Sprintf("c%d", cpid))
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g, _ := proc.FindGoroutine(p, 1)
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p.SwitchGoroutine(g)
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when2, loc2 := getPosition(p, t)
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t.Logf("when2: %q (%#x) %x", when2, loc2.PC, p.CurrentThread().ThreadID())
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if loc2.PC != loc0.PC {
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t.Fatalf("PC address mismatch %#x != %#x", loc0.PC, loc2.PC)
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}
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if when0 != when2 {
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t.Fatalf("output of when mismatched %q != %q", when0, when2)
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}
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// Move forward with next again, check that the output of 'when' matches
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assertNoError(proc.Next(p), t, "First Next")
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assertNoError(proc.Next(p), t, "Second Next")
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when3, loc3 := getPosition(p, t)
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t.Logf("when3: %q (%#x)", when3, loc3.PC)
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if loc3.PC != loc1.PC {
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t.Fatalf("PC address mismatch %#x != %#x", loc1.PC, loc3.PC)
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}
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if when3 != when1 {
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t.Fatalf("when output mismatch %q != %q", when1, when3)
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}
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// Delete breakpoint, move back to checkpoint then next twice and check
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// output of 'when' again
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_, err = p.ClearBreakpoint(bp.Addr)
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assertNoError(err, t, "ClearBreakpoint")
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p.Restart(fmt.Sprintf("c%d", cpid))
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g, _ = proc.FindGoroutine(p, 1)
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p.SwitchGoroutine(g)
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assertNoError(proc.Next(p), t, "First Next")
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assertNoError(proc.Next(p), t, "Second Next")
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when4, loc4 := getPosition(p, t)
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t.Logf("when4: %q (%#x)", when4, loc4.PC)
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if loc4.PC != loc1.PC {
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t.Fatalf("PC address mismatch %#x != %#x", loc1.PC, loc4.PC)
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}
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if when4 != when1 {
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t.Fatalf("when output mismatch %q != %q", when1, when4)
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}
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// Delete checkpoint, check that the list of checkpoints is updated
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assertNoError(p.ClearCheckpoint(cpid), t, "ClearCheckpoint")
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checkpoints, err = p.Checkpoints()
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assertNoError(err, t, "Checkpoints")
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if len(checkpoints) != 0 {
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t.Fatalf("wrong number of checkpoints %v (zero expected)", checkpoints)
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}
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})
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}
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func TestIssue1376(t *testing.T) {
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// Backward Continue should terminate when it encounters the start of the process.
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protest.AllowRecording(t)
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withTestRecording("continuetestprog", t, func(p *proc.Target, fixture protest.Fixture) {
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bp := setFunctionBreakpoint(p, t, "main.main")
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assertNoError(proc.Continue(p), t, "Continue (forward)")
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_, err := p.ClearBreakpoint(bp.Addr)
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assertNoError(err, t, "ClearBreakpoint")
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assertNoError(p.Direction(proc.Backward), t, "Switching to backward direction")
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assertNoError(proc.Continue(p), t, "Continue (backward)")
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})
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}
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