Source file src/runtime/runtime-gdb_unix_test.go

     1  // Copyright 2023 The Go Authors. All rights reserved.
     2  // Use of this source code is governed by a BSD-style
     3  // license that can be found in the LICENSE file.
     4  
     5  //go:build unix
     6  
     7  package runtime_test
     8  
     9  import (
    10  	"bytes"
    11  	"fmt"
    12  	"internal/testenv"
    13  	"io"
    14  	"os"
    15  	"os/exec"
    16  	"path/filepath"
    17  	"regexp"
    18  	"runtime"
    19  	"syscall"
    20  	"testing"
    21  )
    22  
    23  func canGenerateCore(t *testing.T) bool {
    24  	// Ensure there is enough RLIMIT_CORE available to generate a full core.
    25  	var lim syscall.Rlimit
    26  	err := syscall.Getrlimit(syscall.RLIMIT_CORE, &lim)
    27  	if err != nil {
    28  		t.Fatalf("error getting rlimit: %v", err)
    29  	}
    30  	// Minimum RLIMIT_CORE max to allow. This is a conservative estimate.
    31  	// Most systems allow infinity.
    32  	const minRlimitCore = 100 << 20 // 100 MB
    33  	if lim.Max < minRlimitCore {
    34  		t.Skipf("RLIMIT_CORE max too low: %#+v", lim)
    35  	}
    36  
    37  	// Make sure core pattern will send core to the current directory.
    38  	b, err := os.ReadFile("/proc/sys/kernel/core_pattern")
    39  	if err != nil {
    40  		t.Fatalf("error reading core_pattern: %v", err)
    41  	}
    42  	if string(b) != "core\n" {
    43  		t.Skipf("Unexpected core pattern %q", string(b))
    44  	}
    45  
    46  	coreUsesPID := false
    47  	b, err = os.ReadFile("/proc/sys/kernel/core_uses_pid")
    48  	if err == nil {
    49  		switch string(bytes.TrimSpace(b)) {
    50  		case "0":
    51  		case "1":
    52  			coreUsesPID = true
    53  		default:
    54  			t.Skipf("unexpected core_uses_pid value %q", string(b))
    55  		}
    56  	}
    57  	return coreUsesPID
    58  }
    59  
    60  const coreSignalSource = `
    61  package main
    62  
    63  import (
    64  	"flag"
    65  	"fmt"
    66  	"os"
    67  	"runtime/debug"
    68  	"syscall"
    69  )
    70  
    71  var pipeFD = flag.Int("pipe-fd", -1, "FD of write end of control pipe")
    72  
    73  func enableCore() {
    74  	debug.SetTraceback("crash")
    75  
    76  	var lim syscall.Rlimit
    77  	err := syscall.Getrlimit(syscall.RLIMIT_CORE, &lim)
    78  	if err != nil {
    79  		panic(fmt.Sprintf("error getting rlimit: %v", err))
    80  	}
    81  	lim.Cur = lim.Max
    82  	fmt.Fprintf(os.Stderr, "Setting RLIMIT_CORE = %+#v\n", lim)
    83  	err = syscall.Setrlimit(syscall.RLIMIT_CORE, &lim)
    84  	if err != nil {
    85  		panic(fmt.Sprintf("error setting rlimit: %v", err))
    86  	}
    87  }
    88  
    89  func main() {
    90  	flag.Parse()
    91  
    92  	enableCore()
    93  
    94  	// Ready to go. Notify parent.
    95  	if err := syscall.Close(*pipeFD); err != nil {
    96  		panic(fmt.Sprintf("error closing control pipe fd %d: %v", *pipeFD, err))
    97  	}
    98  
    99  	for {}
   100  }
   101  `
   102  
   103  // TestGdbCoreSignalBacktrace tests that gdb can unwind the stack correctly
   104  // through a signal handler in a core file
   105  func TestGdbCoreSignalBacktrace(t *testing.T) {
   106  	if runtime.GOOS != "linux" {
   107  		// N.B. This test isn't fundamentally Linux-only, but it needs
   108  		// to know how to enable/find core files on each OS.
   109  		t.Skip("Test only supported on Linux")
   110  	}
   111  	if runtime.GOARCH != "386" && runtime.GOARCH != "amd64" {
   112  		// TODO(go.dev/issue/25218): Other architectures use sigreturn
   113  		// via VDSO, which we somehow don't handle correctly.
   114  		t.Skip("Backtrace through signal handler only works on 386 and amd64")
   115  	}
   116  
   117  	checkGdbEnvironment(t)
   118  	t.Parallel()
   119  	checkGdbVersion(t)
   120  
   121  	coreUsesPID := canGenerateCore(t)
   122  
   123  	// Build the source code.
   124  	dir := t.TempDir()
   125  	src := filepath.Join(dir, "main.go")
   126  	err := os.WriteFile(src, []byte(coreSignalSource), 0644)
   127  	if err != nil {
   128  		t.Fatalf("failed to create file: %v", err)
   129  	}
   130  	cmd := exec.Command(testenv.GoToolPath(t), "build", "-o", "a.exe", "main.go")
   131  	cmd.Dir = dir
   132  	out, err := testenv.CleanCmdEnv(cmd).CombinedOutput()
   133  	if err != nil {
   134  		t.Fatalf("building source %v\n%s", err, out)
   135  	}
   136  
   137  	r, w, err := os.Pipe()
   138  	if err != nil {
   139  		t.Fatalf("error creating control pipe: %v", err)
   140  	}
   141  	defer r.Close()
   142  
   143  	// Start the test binary.
   144  	cmd = testenv.Command(t, "./a.exe", "-pipe-fd=3")
   145  	cmd.Dir = dir
   146  	cmd.ExtraFiles = []*os.File{w}
   147  	var output bytes.Buffer
   148  	cmd.Stdout = &output // for test logging
   149  	cmd.Stderr = &output
   150  
   151  	if err := cmd.Start(); err != nil {
   152  		t.Fatalf("error starting test binary: %v", err)
   153  	}
   154  	w.Close()
   155  
   156  	pid := cmd.Process.Pid
   157  
   158  	// Wait for child to be ready.
   159  	var buf [1]byte
   160  	if _, err := r.Read(buf[:]); err != io.EOF {
   161  		t.Fatalf("control pipe read get err %v want io.EOF", err)
   162  	}
   163  
   164  	// 💥
   165  	if err := cmd.Process.Signal(os.Signal(syscall.SIGABRT)); err != nil {
   166  		t.Fatalf("erroring signaling child: %v", err)
   167  	}
   168  
   169  	err = cmd.Wait()
   170  	t.Logf("child output:\n%s", output.String())
   171  	if err == nil {
   172  		t.Fatalf("Wait succeeded, want SIGABRT")
   173  	}
   174  	ee, ok := err.(*exec.ExitError)
   175  	if !ok {
   176  		t.Fatalf("Wait err got %T %v, want exec.ExitError", ee, ee)
   177  	}
   178  	ws, ok := ee.Sys().(syscall.WaitStatus)
   179  	if !ok {
   180  		t.Fatalf("Sys got %T %v, want syscall.WaitStatus", ee.Sys(), ee.Sys())
   181  	}
   182  	if ws.Signal() != syscall.SIGABRT {
   183  		t.Fatalf("Signal got %d want SIGABRT", ws.Signal())
   184  	}
   185  	if !ws.CoreDump() {
   186  		t.Fatalf("CoreDump got %v want true", ws.CoreDump())
   187  	}
   188  
   189  	coreFile := "core"
   190  	if coreUsesPID {
   191  		coreFile += fmt.Sprintf(".%d", pid)
   192  	}
   193  
   194  	// Execute gdb commands.
   195  	args := []string{"-nx", "-batch",
   196  		"-iex", "add-auto-load-safe-path " + filepath.Join(testenv.GOROOT(t), "src", "runtime"),
   197  		"-ex", "backtrace",
   198  		filepath.Join(dir, "a.exe"),
   199  		filepath.Join(dir, coreFile),
   200  	}
   201  	cmd = testenv.Command(t, "gdb", args...)
   202  
   203  	got, err := cmd.CombinedOutput()
   204  	t.Logf("gdb output:\n%s", got)
   205  	if err != nil {
   206  		t.Fatalf("gdb exited with error: %v", err)
   207  	}
   208  
   209  	// We don't know which thread the fatal signal will land on, but we can still check for basics:
   210  	//
   211  	// 1. A frame in the signal handler: runtime.sigtramp
   212  	// 2. GDB detection of the signal handler: <signal handler called>
   213  	// 3. A frame before the signal handler: this could be foo, or somewhere in the scheduler
   214  
   215  	re := regexp.MustCompile(`#.* runtime\.sigtramp `)
   216  	if found := re.Find(got) != nil; !found {
   217  		t.Fatalf("could not find sigtramp in backtrace")
   218  	}
   219  
   220  	re = regexp.MustCompile("#.* <signal handler called>")
   221  	loc := re.FindIndex(got)
   222  	if loc == nil {
   223  		t.Fatalf("could not find signal handler marker in backtrace")
   224  	}
   225  	rest := got[loc[1]:]
   226  
   227  	// Look for any frames after the signal handler. We want to see
   228  	// symbolized frames, not garbage unknown frames.
   229  	//
   230  	// Since the signal might not be delivered to the main thread we can't
   231  	// look for main.main. Every thread should have a runtime frame though.
   232  	re = regexp.MustCompile(`#.* runtime\.`)
   233  	if found := re.Find(rest) != nil; !found {
   234  		t.Fatalf("could not find runtime symbol in backtrace after signal handler:\n%s", rest)
   235  	}
   236  }
   237  
   238  const coreCrashThreadSource = `
   239  package main
   240  
   241  /*
   242  #cgo CFLAGS: -g -O0
   243  #include <stdio.h>
   244  #include <stddef.h>
   245  void trigger_crash()
   246  {
   247  	int* ptr = NULL;
   248  	*ptr = 1024;
   249  }
   250  */
   251  import "C"
   252  import (
   253  	"flag"
   254  	"fmt"
   255  	"os"
   256  	"runtime/debug"
   257  	"syscall"
   258  )
   259  
   260  func enableCore() {
   261  	debug.SetTraceback("crash")
   262  
   263  	var lim syscall.Rlimit
   264  	err := syscall.Getrlimit(syscall.RLIMIT_CORE, &lim)
   265  	if err != nil {
   266  		panic(fmt.Sprintf("error getting rlimit: %v", err))
   267  	}
   268  	lim.Cur = lim.Max
   269  	fmt.Fprintf(os.Stderr, "Setting RLIMIT_CORE = %+#v\n", lim)
   270  	err = syscall.Setrlimit(syscall.RLIMIT_CORE, &lim)
   271  	if err != nil {
   272  		panic(fmt.Sprintf("error setting rlimit: %v", err))
   273  	}
   274  }
   275  
   276  func main() {
   277  	flag.Parse()
   278  
   279  	enableCore()
   280  
   281  	C.trigger_crash()
   282  }
   283  `
   284  
   285  // TestGdbCoreCrashThreadBacktrace tests that runtime could let the fault thread to crash process
   286  // and make fault thread as number one thread while gdb in a core file
   287  func TestGdbCoreCrashThreadBacktrace(t *testing.T) {
   288  	if runtime.GOOS != "linux" {
   289  		// N.B. This test isn't fundamentally Linux-only, but it needs
   290  		// to know how to enable/find core files on each OS.
   291  		t.Skip("Test only supported on Linux")
   292  	}
   293  	if runtime.GOARCH != "386" && runtime.GOARCH != "amd64" {
   294  		// TODO(go.dev/issue/25218): Other architectures use sigreturn
   295  		// via VDSO, which we somehow don't handle correctly.
   296  		t.Skip("Backtrace through signal handler only works on 386 and amd64")
   297  	}
   298  
   299  	testenv.SkipFlaky(t, 65138)
   300  
   301  	testenv.MustHaveCGO(t)
   302  	checkGdbEnvironment(t)
   303  	t.Parallel()
   304  	checkGdbVersion(t)
   305  
   306  	coreUsesPID := canGenerateCore(t)
   307  
   308  	// Build the source code.
   309  	dir := t.TempDir()
   310  	src := filepath.Join(dir, "main.go")
   311  	err := os.WriteFile(src, []byte(coreCrashThreadSource), 0644)
   312  	if err != nil {
   313  		t.Fatalf("failed to create file: %v", err)
   314  	}
   315  	cmd := exec.Command(testenv.GoToolPath(t), "build", "-o", "a.exe", "main.go")
   316  	cmd.Dir = dir
   317  	out, err := testenv.CleanCmdEnv(cmd).CombinedOutput()
   318  	if err != nil {
   319  		t.Fatalf("building source %v\n%s", err, out)
   320  	}
   321  
   322  	// Start the test binary.
   323  	cmd = testenv.Command(t, "./a.exe")
   324  	cmd.Dir = dir
   325  	var output bytes.Buffer
   326  	cmd.Stdout = &output // for test logging
   327  	cmd.Stderr = &output
   328  
   329  	if err := cmd.Start(); err != nil {
   330  		t.Fatalf("error starting test binary: %v", err)
   331  	}
   332  
   333  	pid := cmd.Process.Pid
   334  
   335  	err = cmd.Wait()
   336  	t.Logf("child output:\n%s", output.String())
   337  	if err == nil {
   338  		t.Fatalf("Wait succeeded, want SIGABRT")
   339  	}
   340  	ee, ok := err.(*exec.ExitError)
   341  	if !ok {
   342  		t.Fatalf("Wait err got %T %v, want exec.ExitError", ee, ee)
   343  	}
   344  	ws, ok := ee.Sys().(syscall.WaitStatus)
   345  	if !ok {
   346  		t.Fatalf("Sys got %T %v, want syscall.WaitStatus", ee.Sys(), ee.Sys())
   347  	}
   348  	if ws.Signal() != syscall.SIGABRT {
   349  		t.Fatalf("Signal got %d want SIGABRT", ws.Signal())
   350  	}
   351  	if !ws.CoreDump() {
   352  		t.Fatalf("CoreDump got %v want true", ws.CoreDump())
   353  	}
   354  
   355  	coreFile := "core"
   356  	if coreUsesPID {
   357  		coreFile += fmt.Sprintf(".%d", pid)
   358  	}
   359  
   360  	// Execute gdb commands.
   361  	args := []string{"-nx", "-batch",
   362  		"-iex", "add-auto-load-safe-path " + filepath.Join(testenv.GOROOT(t), "src", "runtime"),
   363  		"-ex", "backtrace",
   364  		filepath.Join(dir, "a.exe"),
   365  		filepath.Join(dir, coreFile),
   366  	}
   367  	cmd = testenv.Command(t, "gdb", args...)
   368  
   369  	got, err := cmd.CombinedOutput()
   370  	t.Logf("gdb output:\n%s", got)
   371  	if err != nil {
   372  		t.Fatalf("gdb exited with error: %v", err)
   373  	}
   374  
   375  	re := regexp.MustCompile(`#.* trigger_crash`)
   376  	if found := re.Find(got) != nil; !found {
   377  		t.Fatalf("could not find trigger_crash in backtrace")
   378  	}
   379  }
   380  

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