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go/src/runtime/symtab_test.go
Michael Pratt e4a4161f1f runtime: non-strict InlTreeIndex lookup in Frames.Next 
When using cgo, some of the frames can be provided by cgoTraceback, a
cgo-provided function to generate C tracebacks. Unlike Go tracebacks,
cgoTraceback has no particular guarantees that it produces valid
tracebacks.

If one of the (invalid) frames happens to put the PC in the alignment
region at the end of a function (filled with int 3's on amd64), then
Frames.Next will find a valid funcInfo for the PC, but pcdatavalue will
panic because PCDATA doesn't cover this PC.

Tolerate this case by doing a non-strict PCDATA lookup. We'll still show
a bogus frame, but at least avoid throwing.

Fixes #44971

Change-Id: I9eed728470d6f264179a7615bd19845c941db78c
Reviewed-on: https://go-review.googlesource.com/c/go/+/301369
Trust: Michael Pratt <mpratt@google.com>
Run-TryBot: Michael Pratt <mpratt@google.com>
TryBot-Result: Go Bot <gobot@golang.org>
Reviewed-by: Cherry Zhang <cherryyz@google.com>
2021-03-30 15:43:47 +00:00

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// 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)
}
}
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