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

 // Copyright 2023 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

 import (
 	"internal/abi"
 	"runtime/internal/sys"
 )

 func XTestInlineUnwinder(t TestingT) {
 	if TestenvOptimizationOff() {
 		t.Skip("skipping test with inlining optimizations disabled")
 	}

 	pc1 := abi.FuncPCABIInternal(tiuTest)
 	f := findfunc(pc1)
 	if !f.valid() {
 		t.Fatalf("failed to resolve tiuTest at PC %#x", pc1)
 	}

 	want := map[string]int{
 		"tiuInlined1:3 tiuTest:10":               0,
 		"tiuInlined1:3 tiuInlined2:6 tiuTest:11": 0,
 		"tiuInlined2:7 tiuTest:11":               0,
 		"tiuTest:12":                             0,
 	}
 	wantStart := map[string]int{
 		"tiuInlined1": 2,
 		"tiuInlined2": 5,
 		"tiuTest":     9,
 	}

 	// Iterate over the PCs in tiuTest and walk the inline stack for each.
 	prevStack := "x"
 	for pc := pc1; pc < pc1+1024 && findfunc(pc) == f; pc += sys.PCQuantum {
 		stack := ""
 		u, uf := newInlineUnwinder(f, pc)
 		if file, _ := u.fileLine(uf); file == "?" {
 			// We're probably in the trailing function padding, where findfunc
 			// still returns f but there's no symbolic information. Just keep
 			// going until we definitely hit the end. If we see a "?" in the
 			// middle of unwinding, that's a real problem.
 			//
 			// TODO: If we ever have function end information, use that to make
 			// this robust.
 			continue
 		}
 		for ; uf.valid(); uf = u.next(uf) {
 			file, line := u.fileLine(uf)
 			const wantFile = "symtabinl_test.go"
 			if !hasSuffix(file, wantFile) {
 				t.Errorf("tiuTest+%#x: want file ...%s, got %s", pc-pc1, wantFile, file)
 			}

 			sf := u.srcFunc(uf)

 			name := sf.name()
 			const namePrefix = "runtime."
 			if hasPrefix(name, namePrefix) {
 				name = name[len(namePrefix):]
 			}
 			if !hasPrefix(name, "tiu") {
 				t.Errorf("tiuTest+%#x: unexpected function %s", pc-pc1, name)
 			}

 			start := int(sf.startLine) - tiuStart
 			if start != wantStart[name] {
 				t.Errorf("tiuTest+%#x: want startLine %d, got %d", pc-pc1, wantStart[name], start)
 			}
 			if sf.funcID != abi.FuncIDNormal {
 				t.Errorf("tiuTest+%#x: bad funcID %v", pc-pc1, sf.funcID)
 			}

 			if len(stack) > 0 {
 				stack += " "
 			}
 			stack += FmtSprintf("%s:%d", name, line-tiuStart)
 		}

 		if stack != prevStack {
 			prevStack = stack

 			t.Logf("tiuTest+%#x: %s", pc-pc1, stack)

 			if _, ok := want[stack]; ok {
 				want[stack]++
 			}
 		}
 	}

 	// Check that we got all the stacks we wanted.
 	for stack, count := range want {
 		if count == 0 {
 			t.Errorf("missing stack %s", stack)
 		}
 	}
 }

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

 // Below here is the test data for XTestInlineUnwinder

 var tiuStart = lineNumber() // +0
 var tiu1, tiu2, tiu3 int    // +1
 func tiuInlined1() { // +2
 	tiu1++ // +3
 } // +4
 func tiuInlined2() { // +5
 	tiuInlined1() // +6
 	tiu2++        // +7
 } // +8
 func tiuTest() { // +9
 	tiuInlined1() // +10
 	tiuInlined2() // +11
 	tiu3++        // +12
 } // +13
	// Copyright 2023 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

	import (
	"internal/abi"
	"runtime/internal/sys"
	)

	func XTestInlineUnwinder(t TestingT) {
	if TestenvOptimizationOff() {
	t.Skip("skipping test with inlining optimizations disabled")
	}

	pc1 := abi.FuncPCABIInternal(tiuTest)
	f := findfunc(pc1)
	if !f.valid() {
	t.Fatalf("failed to resolve tiuTest at PC %#x", pc1)
	}

	want := map[string]int{
	"tiuInlined1:3 tiuTest:10": 0,
	"tiuInlined1:3 tiuInlined2:6 tiuTest:11": 0,
	"tiuInlined2:7 tiuTest:11": 0,
	"tiuTest:12": 0,
	}
	wantStart := map[string]int{
	"tiuInlined1": 2,
	"tiuInlined2": 5,
	"tiuTest": 9,
	}

	// Iterate over the PCs in tiuTest and walk the inline stack for each.
	prevStack := "x"
	for pc := pc1; pc < pc1+1024 && findfunc(pc) == f; pc += sys.PCQuantum {
	stack := ""
	u, uf := newInlineUnwinder(f, pc)
	if file, _ := u.fileLine(uf); file == "?" {
	// We're probably in the trailing function padding, where findfunc
	// still returns f but there's no symbolic information. Just keep
	// going until we definitely hit the end. If we see a "?" in the
	// middle of unwinding, that's a real problem.
	//
	// TODO: If we ever have function end information, use that to make
	// this robust.
	continue
	}
	for ; uf.valid(); uf = u.next(uf) {
	file, line := u.fileLine(uf)
	const wantFile = "symtabinl_test.go"
	if !hasSuffix(file, wantFile) {
	t.Errorf("tiuTest+%#x: want file ...%s, got %s", pc-pc1, wantFile, file)
	}

	sf := u.srcFunc(uf)

	name := sf.name()
	const namePrefix = "runtime."
	if hasPrefix(name, namePrefix) {
	name = name[len(namePrefix):]
	}
	if !hasPrefix(name, "tiu") {
	t.Errorf("tiuTest+%#x: unexpected function %s", pc-pc1, name)
	}

	start := int(sf.startLine) - tiuStart
	if start != wantStart[name] {
	t.Errorf("tiuTest+%#x: want startLine %d, got %d", pc-pc1, wantStart[name], start)
	}
	if sf.funcID != abi.FuncIDNormal {
	t.Errorf("tiuTest+%#x: bad funcID %v", pc-pc1, sf.funcID)
	}

	if len(stack) > 0 {
	stack += " "
	}
	stack += FmtSprintf("%s:%d", name, line-tiuStart)
	}

	if stack != prevStack {
	prevStack = stack

	t.Logf("tiuTest+%#x: %s", pc-pc1, stack)

	if _, ok := want[stack]; ok {
	want[stack]++
	}
	}
	}

	// Check that we got all the stacks we wanted.
	for stack, count := range want {
	if count == 0 {
	t.Errorf("missing stack %s", stack)
	}
	}
	}

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

	// Below here is the test data for XTestInlineUnwinder

	var tiuStart = lineNumber() // +0
	var tiu1, tiu2, tiu3 int // +1
	func tiuInlined1() { // +2
	tiu1++ // +3
	} // +4
	func tiuInlined2() { // +5
	tiuInlined1() // +6
	tiu2++ // +7
	} // +8
	func tiuTest() { // +9
	tiuInlined1() // +10
	tiuInlined2() // +11
	tiu3++ // +12
	} // +13