// 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 gosym import ( "debug/elf" "internal/testenv" "io/ioutil" "os" "os/exec" "path/filepath" "runtime" "strings" "testing" ) var ( pclineTempDir string pclinetestBinary string ) func dotest(t *testing.T) { testenv.MustHaveGoBuild(t) // For now, only works on amd64 platforms. if runtime.GOARCH != "amd64" { t.Skipf("skipping on non-AMD64 system %s", runtime.GOARCH) } var err error pclineTempDir, err = ioutil.TempDir("", "pclinetest") if err != nil { t.Fatal(err) } pclinetestBinary = filepath.Join(pclineTempDir, "pclinetest") cmd := exec.Command(testenv.GoToolPath(t), "build", "-o", pclinetestBinary) cmd.Dir = "testdata" cmd.Env = append(os.Environ(), "GOOS=linux") cmd.Stdout = os.Stdout cmd.Stderr = os.Stderr if err := cmd.Run(); err != nil { t.Fatal(err) } } func endtest() { if pclineTempDir != "" { os.RemoveAll(pclineTempDir) pclineTempDir = "" pclinetestBinary = "" } } // skipIfNotELF skips the test if we are not running on an ELF system. // These tests open and examine the test binary, and use elf.Open to do so. func skipIfNotELF(t *testing.T) { switch runtime.GOOS { case "dragonfly", "freebsd", "linux", "netbsd", "openbsd", "solaris": // OK. default: t.Skipf("skipping on non-ELF system %s", runtime.GOOS) } } func getTable(t *testing.T) *Table { f, tab := crack(os.Args[0], t) f.Close() return tab } func crack(file string, t *testing.T) (*elf.File, *Table) { // Open self f, err := elf.Open(file) if err != nil { t.Fatal(err) } return parse(file, f, t) } func parse(file string, f *elf.File, t *testing.T) (*elf.File, *Table) { s := f.Section(".gosymtab") if s == nil { t.Skip("no .gosymtab section") } symdat, err := s.Data() if err != nil { f.Close() t.Fatalf("reading %s gosymtab: %v", file, err) } pclndat, err := f.Section(".gopclntab").Data() if err != nil { f.Close() t.Fatalf("reading %s gopclntab: %v", file, err) } pcln := NewLineTable(pclndat, f.Section(".text").Addr) tab, err := NewTable(symdat, pcln) if err != nil { f.Close() t.Fatalf("parsing %s gosymtab: %v", file, err) } return f, tab } func TestLineFromAline(t *testing.T) { skipIfNotELF(t) tab := getTable(t) if tab.go12line != nil { // aline's don't exist in the Go 1.2 table. t.Skip("not relevant to Go 1.2 symbol table") } // Find the sym package pkg := tab.LookupFunc("debug/gosym.TestLineFromAline").Obj if pkg == nil { t.Fatalf("nil pkg") } // Walk every absolute line and ensure that we hit every // source line monotonically lastline := make(map[string]int) final := -1 for i := 0; i < 10000; i++ { path, line := pkg.lineFromAline(i) // Check for end of object if path == "" { if final == -1 { final = i - 1 } continue } else if final != -1 { t.Fatalf("reached end of package at absolute line %d, but absolute line %d mapped to %s:%d", final, i, path, line) } // It's okay to see files multiple times (e.g., sys.a) if line == 1 { lastline[path] = 1 continue } // Check that the is the next line in path ll, ok := lastline[path] if !ok { t.Errorf("file %s starts on line %d", path, line) } else if line != ll+1 { t.Fatalf("expected next line of file %s to be %d, got %d", path, ll+1, line) } lastline[path] = line } if final == -1 { t.Errorf("never reached end of object") } } func TestLineAline(t *testing.T) { skipIfNotELF(t) tab := getTable(t) if tab.go12line != nil { // aline's don't exist in the Go 1.2 table. t.Skip("not relevant to Go 1.2 symbol table") } for _, o := range tab.Files { // A source file can appear multiple times in a // object. alineFromLine will always return alines in // the first file, so track which lines we've seen. found := make(map[string]int) for i := 0; i < 1000; i++ { path, line := o.lineFromAline(i) if path == "" { break } // cgo files are full of 'Z' symbols, which we don't handle if len(path) > 4 && path[len(path)-4:] == ".cgo" { continue } if minline, ok := found[path]; path != "" && ok { if minline >= line { // We've already covered this file continue } } found[path] = line a, err := o.alineFromLine(path, line) if err != nil { t.Errorf("absolute line %d in object %s maps to %s:%d, but mapping that back gives error %s", i, o.Paths[0].Name, path, line, err) } else if a != i { t.Errorf("absolute line %d in object %s maps to %s:%d, which maps back to absolute line %d\n", i, o.Paths[0].Name, path, line, a) } } } } func TestPCLine(t *testing.T) { dotest(t) defer endtest() f, tab := crack(pclinetestBinary, t) defer f.Close() text := f.Section(".text") textdat, err := text.Data() if err != nil { t.Fatalf("reading .text: %v", err) } // Test PCToLine sym := tab.LookupFunc("main.linefrompc") wantLine := 0 for pc := sym.Entry; pc < sym.End; pc++ { off := pc - text.Addr // TODO(rsc): should not need off; bug in 8g if textdat[off] == 255 { break } wantLine += int(textdat[off]) t.Logf("off is %d %#x (max %d)", off, textdat[off], sym.End-pc) file, line, fn := tab.PCToLine(pc) if fn == nil { t.Errorf("failed to get line of PC %#x", pc) } else if !strings.HasSuffix(file, "pclinetest.s") || line != wantLine || fn != sym { t.Errorf("PCToLine(%#x) = %s:%d (%s), want %s:%d (%s)", pc, file, line, fn.Name, "pclinetest.s", wantLine, sym.Name) } } // Test LineToPC sym = tab.LookupFunc("main.pcfromline") lookupline := -1 wantLine = 0 off := uint64(0) // TODO(rsc): should not need off; bug in 8g for pc := sym.Value; pc < sym.End; pc += 2 + uint64(textdat[off]) { file, line, fn := tab.PCToLine(pc) off = pc - text.Addr if textdat[off] == 255 { break } wantLine += int(textdat[off]) if line != wantLine { t.Errorf("expected line %d at PC %#x in pcfromline, got %d", wantLine, pc, line) off = pc + 1 - text.Addr continue } if lookupline == -1 { lookupline = line } for ; lookupline <= line; lookupline++ { pc2, fn2, err := tab.LineToPC(file, lookupline) if lookupline != line { // Should be nothing on this line if err == nil { t.Errorf("expected no PC at line %d, got %#x (%s)", lookupline, pc2, fn2.Name) } } else if err != nil { t.Errorf("failed to get PC of line %d: %s", lookupline, err) } else if pc != pc2 { t.Errorf("expected PC %#x (%s) at line %d, got PC %#x (%s)", pc, fn.Name, line, pc2, fn2.Name) } } off = pc + 1 - text.Addr } }