src/runtime/symtab_test.go - go - Git at Google

 // Copyright 2009 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 runtime_test

 import (
 	"runtime"
 	"strings"
 	"testing"
 	"unsafe"
 )

 func TestCaller(t *testing.T) {
 	procs := runtime.GOMAXPROCS(-1)
 	c := make(chan bool, procs)
 	for p := 0; p < procs; p++ {
 		go func() {
 			for i := 0; i < 1000; i++ {
 				testCallerFoo(t)
 			}
 			c <- true
 		}()
 		defer func() {
 			<-c
 		}()
 	}
 }

 // These are marked noinline so that we can use FuncForPC
 // in testCallerBar.
 //go:noinline
 func testCallerFoo(t *testing.T) {
 	testCallerBar(t)
 }

 //go:noinline
 func testCallerBar(t *testing.T) {
 	for i := 0; i < 2; i++ {
 		pc, file, line, ok := runtime.Caller(i)
 		f := runtime.FuncForPC(pc)
 		if !ok ||
 			!strings.HasSuffix(file, "symtab_test.go") ||
 			(i == 0 && !strings.HasSuffix(f.Name(), "testCallerBar")) ||
 			(i == 1 && !strings.HasSuffix(f.Name(), "testCallerFoo")) ||
 			line < 5 || line > 1000 ||
 			f.Entry() >= pc {
 			t.Errorf("incorrect symbol info %d: %t %d %d %s %s %d",
 				i, ok, f.Entry(), pc, f.Name(), file, line)
 		}
 	}
 }

 func lineNumber() int {
 	_, _, line, _ := runtime.Caller(1)
 	return line // return 0 for error
 }

 // Do not add/remove lines in this block without updating the line numbers.
 var firstLine = lineNumber() // 0
 var (                        // 1
 	lineVar1             = lineNumber()               // 2
 	lineVar2a, lineVar2b = lineNumber(), lineNumber() // 3
 )                        // 4
 var compLit = []struct { // 5
 	lineA, lineB int // 6
 }{ // 7
 	{ // 8
 		lineNumber(), lineNumber(), // 9
 	}, // 10
 	{ // 11
 		lineNumber(), // 12
 		lineNumber(), // 13
 	}, // 14
 	{ // 15
 		lineB: lineNumber(), // 16
 		lineA: lineNumber(), // 17
 	}, // 18
 }                                     // 19
 var arrayLit = [...]int{lineNumber(), // 20
 	lineNumber(), lineNumber(), // 21
 	lineNumber(), // 22
 }                                  // 23
 var sliceLit = []int{lineNumber(), // 24
 	lineNumber(), lineNumber(), // 25
 	lineNumber(), // 26
 }                         // 27
 var mapLit = map[int]int{ // 28
 	29:           lineNumber(), // 29
 	30:           lineNumber(), // 30
 	lineNumber(): 31,           // 31
 	lineNumber(): 32,           // 32
 }                           // 33
 var intLit = lineNumber() + // 34
 	lineNumber() + // 35
 	lineNumber() // 36
 func trythis() { // 37
 	recordLines(lineNumber(), // 38
 		lineNumber(), // 39
 		lineNumber()) // 40
 }

 // Modifications below this line are okay.

 var l38, l39, l40 int

 func recordLines(a, b, c int) {
 	l38 = a
 	l39 = b
 	l40 = c
 }

 func TestLineNumber(t *testing.T) {
 	trythis()
 	for _, test := range []struct {
 		name string
 		val  int
 		want int
 	}{
 		{"firstLine", firstLine, 0},
 		{"lineVar1", lineVar1, 2},
 		{"lineVar2a", lineVar2a, 3},
 		{"lineVar2b", lineVar2b, 3},
 		{"compLit[0].lineA", compLit[0].lineA, 9},
 		{"compLit[0].lineB", compLit[0].lineB, 9},
 		{"compLit[1].lineA", compLit[1].lineA, 12},
 		{"compLit[1].lineB", compLit[1].lineB, 13},
 		{"compLit[2].lineA", compLit[2].lineA, 17},
 		{"compLit[2].lineB", compLit[2].lineB, 16},

 		{"arrayLit[0]", arrayLit[0], 20},
 		{"arrayLit[1]", arrayLit[1], 21},
 		{"arrayLit[2]", arrayLit[2], 21},
 		{"arrayLit[3]", arrayLit[3], 22},

 		{"sliceLit[0]", sliceLit[0], 24},
 		{"sliceLit[1]", sliceLit[1], 25},
 		{"sliceLit[2]", sliceLit[2], 25},
 		{"sliceLit[3]", sliceLit[3], 26},

 		{"mapLit[29]", mapLit[29], 29},
 		{"mapLit[30]", mapLit[30], 30},
 		{"mapLit[31]", mapLit[31+firstLine] + firstLine, 31}, // nb it's the key not the value
 		{"mapLit[32]", mapLit[32+firstLine] + firstLine, 32}, // nb it's the key not the value

 		{"intLit", intLit - 2*firstLine, 34 + 35 + 36},

 		{"l38", l38, 38},
 		{"l39", l39, 39},
 		{"l40", l40, 40},
 	} {
 		if got := test.val - firstLine; got != test.want {
 			t.Errorf("%s on firstLine+%d want firstLine+%d (firstLine=%d, val=%d)",
 				test.name, got, test.want, firstLine, test.val)
 		}
 	}
 }

 func TestNilName(t *testing.T) {
 	defer func() {
 		if ex := recover(); ex != nil {
 			t.Fatalf("expected no nil panic, got=%v", ex)
 		}
 	}()
 	if got := (*runtime.Func)(nil).Name(); got != "" {
 		t.Errorf("Name() = %q, want %q", got, "")
 	}
 }

 var dummy int

 func inlined() {
 	// Side effect to prevent elimination of this entire function.
 	dummy = 42
 }

 // A function with an InlTree. Returns a PC within the function body.
 //
 // No inline to ensure this complete function appears in output.
 //
 //go:noinline
 func tracebackFunc(t *testing.T) uintptr {
 	// This body must be more complex than a single call to inlined to get
 	// an inline tree.
 	inlined()
 	inlined()

 	// Acquire a PC in this function.
 	pc, _, _, ok := runtime.Caller(0)
 	if !ok {
 		t.Fatalf("Caller(0) got ok false, want true")
 	}

 	return pc
 }

 // Test that CallersFrames handles PCs in the alignment region between
 // functions (int 3 on amd64) without crashing.
 //
 // Go will never generate a stack trace containing such an address, as it is
 // not a valid call site. However, the cgo traceback function passed to
 // runtime.SetCgoTraceback may not be completely accurate and may incorrect
 // provide PCs in Go code or the alignement region between functions.
 //
 // Go obviously doesn't easily expose the problematic PCs to running programs,
 // so this test is a bit fragile. Some details:
 //
 // * tracebackFunc is our target function. We want to get a PC in the
 //   alignment region following this function. This function also has other
 //   functions inlined into it to ensure it has an InlTree (this was the source
 //   of the bug in issue 44971).
 //
 // * We acquire a PC in tracebackFunc, walking forwards until FuncForPC says
 //   we're in a new function. The last PC of the function according to FuncForPC
 //   should be in the alignment region (assuming the function isn't already
 //   perfectly aligned).
 //
 // This is a regression test for issue 44971.
 func TestFunctionAlignmentTraceback(t *testing.T) {
 	pc := tracebackFunc(t)

 	// Double-check we got the right PC.
 	f := runtime.FuncForPC(pc)
 	if !strings.HasSuffix(f.Name(), "tracebackFunc") {
 		t.Fatalf("Caller(0) = %+v, want tracebackFunc", f)
 	}

 	// Iterate forward until we find a different function. Back up one
 	// instruction is (hopefully) an alignment instruction.
 	for runtime.FuncForPC(pc) == f {
 		pc++
 	}
 	pc--

 	// Is this an alignment region filler instruction? We only check this
 	// on amd64 for simplicity. If this function has no filler, then we may
 	// get a false negative, but will never get a false positive.
 	if runtime.GOARCH == "amd64" {
 		code := *(*uint8)(unsafe.Pointer(pc))
 		if code != 0xcc { // INT $3
 			t.Errorf("PC %v code got %#x want 0xcc", pc, code)
 		}
 	}

 	// Finally ensure that Frames.Next doesn't crash when processing this
 	// PC.
 	frames := runtime.CallersFrames([]uintptr{pc})
 	frame, _ := frames.Next()
 	if frame.Func != f {
 		t.Errorf("frames.Next() got %+v want %+v", frame.Func, f)
 	}
 }
	// Copyright 2009 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 runtime_test

	import (
	"runtime"
	"strings"
	"testing"
	"unsafe"
	)

	func TestCaller(t *testing.T) {
	procs := runtime.GOMAXPROCS(-1)
	c := make(chan bool, procs)
	for p := 0; p < procs; p++ {
	go func() {
	for i := 0; i < 1000; i++ {
	testCallerFoo(t)
	}
	c <- true
	}()
	defer func() {
	<-c
	}()
	}
	}

	// These are marked noinline so that we can use FuncForPC
	// in testCallerBar.
	//go:noinline
	func testCallerFoo(t *testing.T) {
	testCallerBar(t)
	}

	//go:noinline
	func testCallerBar(t *testing.T) {
	for i := 0; i < 2; i++ {
	pc, file, line, ok := runtime.Caller(i)
	f := runtime.FuncForPC(pc)
	if !ok \|\|
	!strings.HasSuffix(file, "symtab_test.go") \|\|
	(i == 0 && !strings.HasSuffix(f.Name(), "testCallerBar")) \|\|
	(i == 1 && !strings.HasSuffix(f.Name(), "testCallerFoo")) \|\|
	line < 5 \|\| line > 1000 \|\|
	f.Entry() >= pc {
	t.Errorf("incorrect symbol info %d: %t %d %d %s %s %d",
	i, ok, f.Entry(), pc, f.Name(), file, line)
	}
	}
	}

	func lineNumber() int {
	_, _, line, _ := runtime.Caller(1)
	return line // return 0 for error
	}

	// Do not add/remove lines in this block without updating the line numbers.
	var firstLine = lineNumber() // 0
	var ( // 1
	lineVar1 = lineNumber() // 2
	lineVar2a, lineVar2b = lineNumber(), lineNumber() // 3
	) // 4
	var compLit = []struct { // 5
	lineA, lineB int // 6
	}{ // 7
	{ // 8
	lineNumber(), lineNumber(), // 9
	}, // 10
	{ // 11
	lineNumber(), // 12
	lineNumber(), // 13
	}, // 14
	{ // 15
	lineB: lineNumber(), // 16
	lineA: lineNumber(), // 17
	}, // 18
	} // 19
	var arrayLit = [...]int{lineNumber(), // 20
	lineNumber(), lineNumber(), // 21
	lineNumber(), // 22
	} // 23
	var sliceLit = []int{lineNumber(), // 24
	lineNumber(), lineNumber(), // 25
	lineNumber(), // 26
	} // 27
	var mapLit = map[int]int{ // 28
	29: lineNumber(), // 29
	30: lineNumber(), // 30
	lineNumber(): 31, // 31
	lineNumber(): 32, // 32
	} // 33
	var intLit = lineNumber() + // 34
	lineNumber() + // 35
	lineNumber() // 36
	func trythis() { // 37
	recordLines(lineNumber(), // 38
	lineNumber(), // 39
	lineNumber()) // 40
	}

	// Modifications below this line are okay.

	var l38, l39, l40 int

	func recordLines(a, b, c int) {
	l38 = a
	l39 = b
	l40 = c
	}

	func TestLineNumber(t *testing.T) {
	trythis()
	for _, test := range []struct {
	name string
	val int
	want int
	}{
	{"firstLine", firstLine, 0},
	{"lineVar1", lineVar1, 2},
	{"lineVar2a", lineVar2a, 3},
	{"lineVar2b", lineVar2b, 3},
	{"compLit[0].lineA", compLit[0].lineA, 9},
	{"compLit[0].lineB", compLit[0].lineB, 9},
	{"compLit[1].lineA", compLit[1].lineA, 12},
	{"compLit[1].lineB", compLit[1].lineB, 13},
	{"compLit[2].lineA", compLit[2].lineA, 17},
	{"compLit[2].lineB", compLit[2].lineB, 16},

	{"arrayLit[0]", arrayLit[0], 20},
	{"arrayLit[1]", arrayLit[1], 21},
	{"arrayLit[2]", arrayLit[2], 21},
	{"arrayLit[3]", arrayLit[3], 22},

	{"sliceLit[0]", sliceLit[0], 24},
	{"sliceLit[1]", sliceLit[1], 25},
	{"sliceLit[2]", sliceLit[2], 25},
	{"sliceLit[3]", sliceLit[3], 26},

	{"mapLit[29]", mapLit[29], 29},
	{"mapLit[30]", mapLit[30], 30},
	{"mapLit[31]", mapLit[31+firstLine] + firstLine, 31}, // nb it's the key not the value
	{"mapLit[32]", mapLit[32+firstLine] + firstLine, 32}, // nb it's the key not the value

	{"intLit", intLit - 2*firstLine, 34 + 35 + 36},

	{"l38", l38, 38},
	{"l39", l39, 39},
	{"l40", l40, 40},
	} {
	if got := test.val - firstLine; got != test.want {
	t.Errorf("%s on firstLine+%d want firstLine+%d (firstLine=%d, val=%d)",
	test.name, got, test.want, firstLine, test.val)
	}
	}
	}

	func TestNilName(t *testing.T) {
	defer func() {
	if ex := recover(); ex != nil {
	t.Fatalf("expected no nil panic, got=%v", ex)
	}
	}()
	if got := (*runtime.Func)(nil).Name(); got != "" {
	t.Errorf("Name() = %q, want %q", got, "")
	}
	}

	var dummy int

	func inlined() {
	// Side effect to prevent elimination of this entire function.
	dummy = 42
	}

	// A function with an InlTree. Returns a PC within the function body.
	//
	// No inline to ensure this complete function appears in output.
	//
	//go:noinline
	func tracebackFunc(t *testing.T) uintptr {
	// This body must be more complex than a single call to inlined to get
	// an inline tree.
	inlined()
	inlined()

	// Acquire a PC in this function.
	pc, _, _, ok := runtime.Caller(0)
	if !ok {
	t.Fatalf("Caller(0) got ok false, want true")
	}

	return pc
	}

	// Test that CallersFrames handles PCs in the alignment region between
	// functions (int 3 on amd64) without crashing.
	//
	// Go will never generate a stack trace containing such an address, as it is
	// not a valid call site. However, the cgo traceback function passed to
	// runtime.SetCgoTraceback may not be completely accurate and may incorrect
	// provide PCs in Go code or the alignement region between functions.
	//
	// Go obviously doesn't easily expose the problematic PCs to running programs,
	// so this test is a bit fragile. Some details:
	//
	// * tracebackFunc is our target function. We want to get a PC in the
	// alignment region following this function. This function also has other
	// functions inlined into it to ensure it has an InlTree (this was the source
	// of the bug in issue 44971).
	//
	// * We acquire a PC in tracebackFunc, walking forwards until FuncForPC says
	// we're in a new function. The last PC of the function according to FuncForPC
	// should be in the alignment region (assuming the function isn't already
	// perfectly aligned).
	//
	// This is a regression test for issue 44971.
	func TestFunctionAlignmentTraceback(t *testing.T) {
	pc := tracebackFunc(t)

	// Double-check we got the right PC.
	f := runtime.FuncForPC(pc)
	if !strings.HasSuffix(f.Name(), "tracebackFunc") {
	t.Fatalf("Caller(0) = %+v, want tracebackFunc", f)
	}

	// Iterate forward until we find a different function. Back up one
	// instruction is (hopefully) an alignment instruction.
	for runtime.FuncForPC(pc) == f {
	pc++
	}
	pc--

	// Is this an alignment region filler instruction? We only check this
	// on amd64 for simplicity. If this function has no filler, then we may
	// get a false negative, but will never get a false positive.
	if runtime.GOARCH == "amd64" {
	code := (uint8)(unsafe.Pointer(pc))
	if code != 0xcc { // INT $3
	t.Errorf("PC %v code got %#x want 0xcc", pc, code)
	}
	}

	// Finally ensure that Frames.Next doesn't crash when processing this
	// PC.
	frames := runtime.CallersFrames([]uintptr{pc})
	frame, _ := frames.Next()
	if frame.Func != f {
	t.Errorf("frames.Next() got %+v want %+v", frame.Func, f)
	}
	}