// Copyright 2015 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 shared_test import ( "bufio" "bytes" "debug/elf" "encoding/binary" "errors" "flag" "fmt" "go/build" "io" "io/ioutil" "log" "math/rand" "os" "os/exec" "path/filepath" "regexp" "runtime" "strings" "testing" "time" ) var gopathInstallDir, gorootInstallDir, suffix string // This is the smallest set of packages we can link into a shared // library (runtime/cgo is built implicitly). var minpkgs = []string{"runtime", "sync/atomic"} var soname = "libruntime,sync-atomic.so" // run runs a command and calls t.Errorf if it fails. func run(t *testing.T, msg string, args ...string) { c := exec.Command(args[0], args[1:]...) if output, err := c.CombinedOutput(); err != nil { t.Errorf("executing %s (%s) failed %s:\n%s", strings.Join(args, " "), msg, err, output) } } // goCmd invokes the go tool with the installsuffix set up by TestMain. It calls // t.Fatalf if the command fails. func goCmd(t *testing.T, args ...string) { newargs := []string{args[0], "-installsuffix=" + suffix} if testing.Verbose() { newargs = append(newargs, "-x") } newargs = append(newargs, args[1:]...) c := exec.Command("go", newargs...) var output []byte var err error if testing.Verbose() { fmt.Printf("+ go %s\n", strings.Join(newargs, " ")) c.Stdout = os.Stdout c.Stderr = os.Stderr err = c.Run() output = []byte("(output above)") } else { output, err = c.CombinedOutput() } if err != nil { if t != nil { t.Fatalf("executing %s failed %v:\n%s", strings.Join(c.Args, " "), err, output) } else { log.Fatalf("executing %s failed %v:\n%s", strings.Join(c.Args, " "), err, output) } } } // TestMain calls testMain so that the latter can use defer (TestMain exits with os.Exit). func testMain(m *testing.M) (int, error) { // Because go install -buildmode=shared $standard_library_package always // installs into $GOROOT, here are some gymnastics to come up with a unique // installsuffix to use in this test that we can clean up afterwards. myContext := build.Default runtimeP, err := myContext.Import("runtime", ".", build.ImportComment) if err != nil { return 0, fmt.Errorf("import failed: %v", err) } for i := 0; i < 10000; i++ { try := fmt.Sprintf("%s_%d_dynlink", runtimeP.PkgTargetRoot, rand.Int63()) err = os.Mkdir(try, 0700) if os.IsExist(err) { continue } if err == nil { gorootInstallDir = try } break } if err != nil { return 0, fmt.Errorf("can't create temporary directory: %v", err) } if gorootInstallDir == "" { return 0, errors.New("could not create temporary directory after 10000 tries") } if testing.Verbose() { fmt.Printf("+ mkdir -p %s\n", gorootInstallDir) } defer os.RemoveAll(gorootInstallDir) // Some tests need to edit the source in GOPATH, so copy this directory to a // temporary directory and chdir to that. scratchDir, err := ioutil.TempDir("", "testshared") if err != nil { return 0, fmt.Errorf("TempDir failed: %v", err) } if testing.Verbose() { fmt.Printf("+ mkdir -p %s\n", scratchDir) } defer os.RemoveAll(scratchDir) err = filepath.Walk(".", func(path string, info os.FileInfo, err error) error { scratchPath := filepath.Join(scratchDir, path) if info.IsDir() { if path == "." { return nil } if testing.Verbose() { fmt.Printf("+ mkdir -p %s\n", scratchPath) } return os.Mkdir(scratchPath, info.Mode()) } else { fromBytes, err := ioutil.ReadFile(path) if err != nil { return err } if testing.Verbose() { fmt.Printf("+ cp %s %s\n", path, scratchPath) } return ioutil.WriteFile(scratchPath, fromBytes, info.Mode()) } }) if err != nil { return 0, fmt.Errorf("walk failed: %v", err) } os.Setenv("GOPATH", scratchDir) if testing.Verbose() { fmt.Printf("+ export GOPATH=%s\n", scratchDir) } myContext.GOPATH = scratchDir if testing.Verbose() { fmt.Printf("+ cd %s\n", scratchDir) } os.Chdir(scratchDir) // All tests depend on runtime being built into a shared library. Because // that takes a few seconds, do it here and have all tests use the version // built here. suffix = strings.Split(filepath.Base(gorootInstallDir), "_")[2] goCmd(nil, append([]string{"install", "-buildmode=shared"}, minpkgs...)...) myContext.InstallSuffix = suffix + "_dynlink" depP, err := myContext.Import("depBase", ".", build.ImportComment) if err != nil { return 0, fmt.Errorf("import failed: %v", err) } gopathInstallDir = depP.PkgTargetRoot return m.Run(), nil } func TestMain(m *testing.M) { flag.Parse() // Some of the tests install binaries into a custom GOPATH. // That won't work if GOBIN is set. os.Unsetenv("GOBIN") exitCode, err := testMain(m) if err != nil { log.Fatal(err) } os.Exit(exitCode) } // The shared library was built at the expected location. func TestSOBuilt(t *testing.T) { _, err := os.Stat(filepath.Join(gorootInstallDir, soname)) if err != nil { t.Error(err) } } func hasDynTag(f *elf.File, tag elf.DynTag) bool { ds := f.SectionByType(elf.SHT_DYNAMIC) if ds == nil { return false } d, err := ds.Data() if err != nil { return false } for len(d) > 0 { var t elf.DynTag switch f.Class { case elf.ELFCLASS32: t = elf.DynTag(f.ByteOrder.Uint32(d[0:4])) d = d[8:] case elf.ELFCLASS64: t = elf.DynTag(f.ByteOrder.Uint64(d[0:8])) d = d[16:] } if t == tag { return true } } return false } // The shared library does not have relocations against the text segment. func TestNoTextrel(t *testing.T) { sopath := filepath.Join(gorootInstallDir, soname) f, err := elf.Open(sopath) if err != nil { t.Fatal("elf.Open failed: ", err) } defer f.Close() if hasDynTag(f, elf.DT_TEXTREL) { t.Errorf("%s has DT_TEXTREL set", soname) } } // The shared library does not contain symbols called ".dup" func TestNoDupSymbols(t *testing.T) { sopath := filepath.Join(gorootInstallDir, soname) f, err := elf.Open(sopath) if err != nil { t.Fatal("elf.Open failed: ", err) } defer f.Close() syms, err := f.Symbols() if err != nil { t.Errorf("error reading symbols %v", err) return } for _, s := range syms { if s.Name == ".dup" { t.Fatalf("%s contains symbol called .dup", sopath) } } } // The install command should have created a "shlibname" file for the // listed packages (and runtime/cgo, and math on arm) indicating the // name of the shared library containing it. func TestShlibnameFiles(t *testing.T) { pkgs := append([]string{}, minpkgs...) pkgs = append(pkgs, "runtime/cgo") if runtime.GOARCH == "arm" { pkgs = append(pkgs, "math") } for _, pkg := range pkgs { shlibnamefile := filepath.Join(gorootInstallDir, pkg+".shlibname") contentsb, err := ioutil.ReadFile(shlibnamefile) if err != nil { t.Errorf("error reading shlibnamefile for %s: %v", pkg, err) continue } contents := strings.TrimSpace(string(contentsb)) if contents != soname { t.Errorf("shlibnamefile for %s has wrong contents: %q", pkg, contents) } } } // Is a given offset into the file contained in a loaded segment? func isOffsetLoaded(f *elf.File, offset uint64) bool { for _, prog := range f.Progs { if prog.Type == elf.PT_LOAD { if prog.Off <= offset && offset < prog.Off+prog.Filesz { return true } } } return false } func rnd(v int32, r int32) int32 { if r <= 0 { return v } v += r - 1 c := v % r if c < 0 { c += r } v -= c return v } func readwithpad(r io.Reader, sz int32) ([]byte, error) { data := make([]byte, rnd(sz, 4)) _, err := io.ReadFull(r, data) if err != nil { return nil, err } data = data[:sz] return data, nil } type note struct { name string tag int32 desc string section *elf.Section } // Read all notes from f. As ELF section names are not supposed to be special, one // looks for a particular note by scanning all SHT_NOTE sections looking for a note // with a particular "name" and "tag". func readNotes(f *elf.File) ([]*note, error) { var notes []*note for _, sect := range f.Sections { if sect.Type != elf.SHT_NOTE { continue } r := sect.Open() for { var namesize, descsize, tag int32 err := binary.Read(r, f.ByteOrder, &namesize) if err != nil { if err == io.EOF { break } return nil, fmt.Errorf("read namesize failed: %v", err) } err = binary.Read(r, f.ByteOrder, &descsize) if err != nil { return nil, fmt.Errorf("read descsize failed: %v", err) } err = binary.Read(r, f.ByteOrder, &tag) if err != nil { return nil, fmt.Errorf("read type failed: %v", err) } name, err := readwithpad(r, namesize) if err != nil { return nil, fmt.Errorf("read name failed: %v", err) } desc, err := readwithpad(r, descsize) if err != nil { return nil, fmt.Errorf("read desc failed: %v", err) } notes = append(notes, ¬e{name: string(name), tag: tag, desc: string(desc), section: sect}) } } return notes, nil } func dynStrings(t *testing.T, path string, flag elf.DynTag) []string { f, err := elf.Open(path) if err != nil { t.Fatalf("elf.Open(%q) failed: %v", path, err) } defer f.Close() dynstrings, err := f.DynString(flag) if err != nil { t.Fatalf("DynString(%s) failed on %s: %v", flag, path, err) } return dynstrings } func AssertIsLinkedToRegexp(t *testing.T, path string, re *regexp.Regexp) { for _, dynstring := range dynStrings(t, path, elf.DT_NEEDED) { if re.MatchString(dynstring) { return } } t.Errorf("%s is not linked to anything matching %v", path, re) } func AssertIsLinkedTo(t *testing.T, path, lib string) { AssertIsLinkedToRegexp(t, path, regexp.MustCompile(regexp.QuoteMeta(lib))) } func AssertHasRPath(t *testing.T, path, dir string) { for _, tag := range []elf.DynTag{elf.DT_RPATH, elf.DT_RUNPATH} { for _, dynstring := range dynStrings(t, path, tag) { for _, rpath := range strings.Split(dynstring, ":") { if filepath.Clean(rpath) == filepath.Clean(dir) { return } } } } t.Errorf("%s does not have rpath %s", path, dir) } // Build a trivial program that links against the shared runtime and check it runs. func TestTrivialExecutable(t *testing.T) { goCmd(t, "install", "-linkshared", "trivial") run(t, "trivial executable", "./bin/trivial") AssertIsLinkedTo(t, "./bin/trivial", soname) AssertHasRPath(t, "./bin/trivial", gorootInstallDir) } // Build a trivial program in PIE mode that links against the shared runtime and check it runs. func TestTrivialExecutablePIE(t *testing.T) { goCmd(t, "build", "-buildmode=pie", "-o", "trivial.pie", "-linkshared", "trivial") run(t, "trivial executable", "./trivial.pie") AssertIsLinkedTo(t, "./trivial.pie", soname) AssertHasRPath(t, "./trivial.pie", gorootInstallDir) } // Build a division test program and check it runs. func TestDivisionExecutable(t *testing.T) { goCmd(t, "install", "-linkshared", "division") run(t, "division executable", "./bin/division") } // Build an executable that uses cgo linked against the shared runtime and check it // runs. func TestCgoExecutable(t *testing.T) { goCmd(t, "install", "-linkshared", "execgo") run(t, "cgo executable", "./bin/execgo") } func checkPIE(t *testing.T, name string) { f, err := elf.Open(name) if err != nil { t.Fatal("elf.Open failed: ", err) } defer f.Close() if f.Type != elf.ET_DYN { t.Errorf("%s has type %v, want ET_DYN", name, f.Type) } if hasDynTag(f, elf.DT_TEXTREL) { t.Errorf("%s has DT_TEXTREL set", name) } } func TestTrivialPIE(t *testing.T) { name := "trivial_pie" goCmd(t, "build", "-buildmode=pie", "-o="+name, "trivial") defer os.Remove(name) run(t, name, "./"+name) checkPIE(t, name) } func TestCgoPIE(t *testing.T) { name := "cgo_pie" goCmd(t, "build", "-buildmode=pie", "-o="+name, "execgo") defer os.Remove(name) run(t, name, "./"+name) checkPIE(t, name) } // Build a GOPATH package into a shared library that links against the goroot runtime // and an executable that links against both. func TestGopathShlib(t *testing.T) { goCmd(t, "install", "-buildmode=shared", "-linkshared", "depBase") AssertIsLinkedTo(t, filepath.Join(gopathInstallDir, "libdepBase.so"), soname) goCmd(t, "install", "-linkshared", "exe") AssertIsLinkedTo(t, "./bin/exe", soname) AssertIsLinkedTo(t, "./bin/exe", "libdepBase.so") AssertHasRPath(t, "./bin/exe", gorootInstallDir) AssertHasRPath(t, "./bin/exe", gopathInstallDir) // And check it runs. run(t, "executable linked to GOPATH library", "./bin/exe") } // The shared library contains a note listing the packages it contains in a section // that is not mapped into memory. func testPkgListNote(t *testing.T, f *elf.File, note *note) { if note.section.Flags != 0 { t.Errorf("package list section has flags %v, want 0", note.section.Flags) } if isOffsetLoaded(f, note.section.Offset) { t.Errorf("package list section contained in PT_LOAD segment") } if note.desc != "depBase\n" { t.Errorf("incorrect package list %q, want %q", note.desc, "depBase\n") } } // The shared library contains a note containing the ABI hash that is mapped into // memory and there is a local symbol called go.link.abihashbytes that points 16 // bytes into it. func testABIHashNote(t *testing.T, f *elf.File, note *note) { if note.section.Flags != elf.SHF_ALLOC { t.Errorf("abi hash section has flags %v, want SHF_ALLOC", note.section.Flags) } if !isOffsetLoaded(f, note.section.Offset) { t.Errorf("abihash section not contained in PT_LOAD segment") } var hashbytes elf.Symbol symbols, err := f.Symbols() if err != nil { t.Errorf("error reading symbols %v", err) return } for _, sym := range symbols { if sym.Name == "go.link.abihashbytes" { hashbytes = sym } } if hashbytes.Name == "" { t.Errorf("no symbol called go.link.abihashbytes") return } if elf.ST_BIND(hashbytes.Info) != elf.STB_LOCAL { t.Errorf("%s has incorrect binding %v, want STB_LOCAL", hashbytes.Name, elf.ST_BIND(hashbytes.Info)) } if f.Sections[hashbytes.Section] != note.section { t.Errorf("%s has incorrect section %v, want %s", hashbytes.Name, f.Sections[hashbytes.Section].Name, note.section.Name) } if hashbytes.Value-note.section.Addr != 16 { t.Errorf("%s has incorrect offset into section %d, want 16", hashbytes.Name, hashbytes.Value-note.section.Addr) } } // A Go shared library contains a note indicating which other Go shared libraries it // was linked against in an unmapped section. func testDepsNote(t *testing.T, f *elf.File, note *note) { if note.section.Flags != 0 { t.Errorf("package list section has flags %v, want 0", note.section.Flags) } if isOffsetLoaded(f, note.section.Offset) { t.Errorf("package list section contained in PT_LOAD segment") } // libdepBase.so just links against the lib containing the runtime. if note.desc != soname { t.Errorf("incorrect dependency list %q, want %q", note.desc, soname) } } // The shared library contains notes with defined contents; see above. func TestNotes(t *testing.T) { goCmd(t, "install", "-buildmode=shared", "-linkshared", "depBase") f, err := elf.Open(filepath.Join(gopathInstallDir, "libdepBase.so")) if err != nil { t.Fatal(err) } defer f.Close() notes, err := readNotes(f) if err != nil { t.Fatal(err) } pkgListNoteFound := false abiHashNoteFound := false depsNoteFound := false for _, note := range notes { if note.name != "Go\x00\x00" { continue } switch note.tag { case 1: // ELF_NOTE_GOPKGLIST_TAG if pkgListNoteFound { t.Error("multiple package list notes") } testPkgListNote(t, f, note) pkgListNoteFound = true case 2: // ELF_NOTE_GOABIHASH_TAG if abiHashNoteFound { t.Error("multiple abi hash notes") } testABIHashNote(t, f, note) abiHashNoteFound = true case 3: // ELF_NOTE_GODEPS_TAG if depsNoteFound { t.Error("multiple depedency list notes") } testDepsNote(t, f, note) depsNoteFound = true } } if !pkgListNoteFound { t.Error("package list note not found") } if !abiHashNoteFound { t.Error("abi hash note not found") } if !depsNoteFound { t.Error("deps note not found") } } // Build a GOPATH package (depBase) into a shared library that links against the goroot // runtime, another package (dep2) that links against the first, and and an // executable that links against dep2. func TestTwoGopathShlibs(t *testing.T) { goCmd(t, "install", "-buildmode=shared", "-linkshared", "depBase") goCmd(t, "install", "-buildmode=shared", "-linkshared", "dep2") goCmd(t, "install", "-linkshared", "exe2") run(t, "executable linked to GOPATH library", "./bin/exe2") } func TestThreeGopathShlibs(t *testing.T) { goCmd(t, "install", "-buildmode=shared", "-linkshared", "depBase") goCmd(t, "install", "-buildmode=shared", "-linkshared", "dep2") goCmd(t, "install", "-buildmode=shared", "-linkshared", "dep3") goCmd(t, "install", "-linkshared", "exe3") run(t, "executable linked to GOPATH library", "./bin/exe3") } // If gccgo is not available or not new enough call t.Skip. Otherwise, // return a build.Context that is set up for gccgo. func prepGccgo(t *testing.T) build.Context { gccgoName := os.Getenv("GCCGO") if gccgoName == "" { gccgoName = "gccgo" } gccgoPath, err := exec.LookPath(gccgoName) if err != nil { t.Skip("gccgo not found") } cmd := exec.Command(gccgoPath, "-dumpversion") output, err := cmd.CombinedOutput() if err != nil { t.Fatalf("%s -dumpversion failed: %v\n%s", gccgoPath, err, output) } if string(output) < "5" { t.Skipf("gccgo too old (%s)", strings.TrimSpace(string(output))) } gccgoContext := build.Default gccgoContext.InstallSuffix = suffix + "_fPIC" gccgoContext.Compiler = "gccgo" gccgoContext.GOPATH = os.Getenv("GOPATH") return gccgoContext } // Build a GOPATH package into a shared library with gccgo and an executable that // links against it. func TestGoPathShlibGccgo(t *testing.T) { gccgoContext := prepGccgo(t) libgoRE := regexp.MustCompile("libgo.so.[0-9]+") depP, err := gccgoContext.Import("depBase", ".", build.ImportComment) if err != nil { t.Fatalf("import failed: %v", err) } gccgoInstallDir := filepath.Join(depP.PkgTargetRoot, "shlibs") goCmd(t, "install", "-compiler=gccgo", "-buildmode=shared", "-linkshared", "depBase") AssertIsLinkedToRegexp(t, filepath.Join(gccgoInstallDir, "libdepBase.so"), libgoRE) goCmd(t, "install", "-compiler=gccgo", "-linkshared", "exe") AssertIsLinkedToRegexp(t, "./bin/exe", libgoRE) AssertIsLinkedTo(t, "./bin/exe", "libdepBase.so") AssertHasRPath(t, "./bin/exe", gccgoInstallDir) // And check it runs. run(t, "gccgo-built", "./bin/exe") } // The gccgo version of TestTwoGopathShlibs: build a GOPATH package into a shared // library with gccgo, another GOPATH package that depends on the first and an // executable that links the second library. func TestTwoGopathShlibsGccgo(t *testing.T) { gccgoContext := prepGccgo(t) libgoRE := regexp.MustCompile("libgo.so.[0-9]+") depP, err := gccgoContext.Import("depBase", ".", build.ImportComment) if err != nil { t.Fatalf("import failed: %v", err) } gccgoInstallDir := filepath.Join(depP.PkgTargetRoot, "shlibs") goCmd(t, "install", "-compiler=gccgo", "-buildmode=shared", "-linkshared", "depBase") goCmd(t, "install", "-compiler=gccgo", "-buildmode=shared", "-linkshared", "dep2") goCmd(t, "install", "-compiler=gccgo", "-linkshared", "exe2") AssertIsLinkedToRegexp(t, filepath.Join(gccgoInstallDir, "libdepBase.so"), libgoRE) AssertIsLinkedToRegexp(t, filepath.Join(gccgoInstallDir, "libdep2.so"), libgoRE) AssertIsLinkedTo(t, filepath.Join(gccgoInstallDir, "libdep2.so"), "libdepBase.so") AssertIsLinkedToRegexp(t, "./bin/exe2", libgoRE) AssertIsLinkedTo(t, "./bin/exe2", "libdep2") AssertIsLinkedTo(t, "./bin/exe2", "libdepBase.so") // And check it runs. run(t, "gccgo-built", "./bin/exe2") } // Testing rebuilding of shared libraries when they are stale is a bit more // complicated that it seems like it should be. First, we make everything "old": but // only a few seconds old, or it might be older than gc (or the runtime source) and // everything will get rebuilt. Then define a timestamp slightly newer than this // time, which is what we set the mtime to of a file to cause it to be seen as new, // and finally another slightly even newer one that we can compare files against to // see if they have been rebuilt. var oldTime = time.Now().Add(-9 * time.Second) var nearlyNew = time.Now().Add(-6 * time.Second) var stampTime = time.Now().Add(-3 * time.Second) // resetFileStamps makes "everything" (bin, src, pkg from GOPATH and the // test-specific parts of GOROOT) appear old. func resetFileStamps() { chtime := func(path string, info os.FileInfo, err error) error { return os.Chtimes(path, oldTime, oldTime) } reset := func(path string) { if err := filepath.Walk(path, chtime); err != nil { log.Fatalf("resetFileStamps failed: %v", err) } } reset("bin") reset("pkg") reset("src") reset(gorootInstallDir) } // touch changes path and returns a function that changes it back. // It also sets the time of the file, so that we can see if it is rewritten. func touch(t *testing.T, path string) (cleanup func()) { data, err := ioutil.ReadFile(path) if err != nil { t.Fatal(err) } old := make([]byte, len(data)) copy(old, data) if bytes.HasPrefix(data, []byte("!\n")) { // Change last digit of build ID. // (Content ID in the new content-based build IDs.) const marker = `build id "` i := bytes.Index(data, []byte(marker)) if i < 0 { t.Fatal("cannot find build id in archive") } j := bytes.IndexByte(data[i+len(marker):], '"') if j < 0 { t.Fatal("cannot find build id in archive") } i += len(marker) + j - 1 if data[i] == 'a' { data[i] = 'b' } else { data[i] = 'a' } } else { // assume it's a text file data = append(data, '\n') } if err := ioutil.WriteFile(path, data, 0666); err != nil { t.Fatal(err) } if err := os.Chtimes(path, nearlyNew, nearlyNew); err != nil { t.Fatal(err) } return func() { if err := ioutil.WriteFile(path, old, 0666); err != nil { t.Fatal(err) } } } // isNew returns if the path is newer than the time stamp used by touch. func isNew(t *testing.T, path string) bool { fi, err := os.Stat(path) if err != nil { t.Fatal(err) } return fi.ModTime().After(stampTime) } // Fail unless path has been rebuilt (i.e. is newer than the time stamp used by // isNew) func AssertRebuilt(t *testing.T, msg, path string) { t.Helper() if !isNew(t, path) { t.Errorf("%s was not rebuilt (%s)", msg, path) } } // Fail if path has been rebuilt (i.e. is newer than the time stamp used by isNew) func AssertNotRebuilt(t *testing.T, msg, path string) { t.Helper() if isNew(t, path) { t.Errorf("%s was rebuilt (%s)", msg, path) } } func TestRebuilding(t *testing.T) { goCmd(t, "install", "-buildmode=shared", "-linkshared", "depBase") goCmd(t, "install", "-linkshared", "exe") // If the source is newer than both the .a file and the .so, both are rebuilt. t.Run("newsource", func(t *testing.T) { resetFileStamps() cleanup := touch(t, "src/depBase/dep.go") defer func() { cleanup() goCmd(t, "install", "-linkshared", "exe") }() goCmd(t, "install", "-linkshared", "exe") AssertRebuilt(t, "new source", filepath.Join(gopathInstallDir, "depBase.a")) AssertRebuilt(t, "new source", filepath.Join(gopathInstallDir, "libdepBase.so")) }) // If the .a file is newer than the .so, the .so is rebuilt (but not the .a) t.Run("newarchive", func(t *testing.T) { resetFileStamps() goCmd(t, "list", "-linkshared", "-f={{.ImportPath}} {{.Stale}} {{.StaleReason}} {{.Target}}", "depBase") AssertNotRebuilt(t, "new .a file before build", filepath.Join(gopathInstallDir, "depBase.a")) cleanup := touch(t, filepath.Join(gopathInstallDir, "depBase.a")) defer func() { cleanup() goCmd(t, "install", "-v", "-linkshared", "exe") }() goCmd(t, "install", "-v", "-linkshared", "exe") AssertNotRebuilt(t, "new .a file", filepath.Join(gopathInstallDir, "depBase.a")) AssertRebuilt(t, "new .a file", filepath.Join(gopathInstallDir, "libdepBase.so")) }) } func appendFile(t *testing.T, path, content string) { f, err := os.OpenFile(path, os.O_WRONLY|os.O_APPEND, 0660) if err != nil { t.Fatalf("os.OpenFile failed: %v", err) } defer func() { err := f.Close() if err != nil { t.Fatalf("f.Close failed: %v", err) } }() _, err = f.WriteString(content) if err != nil { t.Fatalf("f.WriteString failed: %v", err) } } func writeFile(t *testing.T, path, content string) { err := ioutil.WriteFile(path, []byte(content), 0644) if err != nil { t.Fatalf("ioutil.WriteFile failed: %v", err) } } func TestABIChecking(t *testing.T) { goCmd(t, "install", "-buildmode=shared", "-linkshared", "depBase") goCmd(t, "install", "-linkshared", "exe") // If we make an ABI-breaking change to depBase and rebuild libp.so but not exe, // exe will abort with a complaint on startup. // This assumes adding an exported function breaks ABI, which is not true in // some senses but suffices for the narrow definition of ABI compatibility the // toolchain uses today. resetFileStamps() appendFile(t, "src/depBase/dep.go", "func ABIBreak() {}\n") goCmd(t, "install", "-buildmode=shared", "-linkshared", "depBase") c := exec.Command("./bin/exe") output, err := c.CombinedOutput() if err == nil { t.Fatal("executing exe did not fail after ABI break") } scanner := bufio.NewScanner(bytes.NewReader(output)) foundMsg := false const wantLine = "abi mismatch detected between the executable and libdepBase.so" for scanner.Scan() { if scanner.Text() == wantLine { foundMsg = true break } } if err = scanner.Err(); err != nil { t.Errorf("scanner encountered error: %v", err) } if !foundMsg { t.Fatalf("exe failed, but without line %q; got output:\n%s", wantLine, output) } // Rebuilding exe makes it work again. goCmd(t, "install", "-linkshared", "exe") run(t, "rebuilt exe", "./bin/exe") // If we make a change which does not break ABI (such as adding an unexported // function) and rebuild libdepBase.so, exe still works, even if new function // is in a file by itself. resetFileStamps() writeFile(t, "src/depBase/dep2.go", "package depBase\nfunc noABIBreak() {}\n") goCmd(t, "install", "-buildmode=shared", "-linkshared", "depBase") run(t, "after non-ABI breaking change", "./bin/exe") } // If a package 'explicit' imports a package 'implicit', building // 'explicit' into a shared library implicitly includes implicit in // the shared library. Building an executable that imports both // explicit and implicit builds the code from implicit into the // executable rather than fetching it from the shared library. The // link still succeeds and the executable still runs though. func TestImplicitInclusion(t *testing.T) { goCmd(t, "install", "-buildmode=shared", "-linkshared", "explicit") goCmd(t, "install", "-linkshared", "implicitcmd") run(t, "running executable linked against library that contains same package as it", "./bin/implicitcmd") } // Tests to make sure that the type fields of empty interfaces and itab // fields of nonempty interfaces are unique even across modules, // so that interface equality works correctly. func TestInterface(t *testing.T) { goCmd(t, "install", "-buildmode=shared", "-linkshared", "iface_a") // Note: iface_i gets installed implicitly as a dependency of iface_a. goCmd(t, "install", "-buildmode=shared", "-linkshared", "iface_b") goCmd(t, "install", "-linkshared", "iface") run(t, "running type/itab uniqueness tester", "./bin/iface") } // Access a global variable from a library. func TestGlobal(t *testing.T) { goCmd(t, "install", "-buildmode=shared", "-linkshared", "globallib") goCmd(t, "install", "-linkshared", "global") run(t, "global executable", "./bin/global") AssertIsLinkedTo(t, "./bin/global", soname) AssertHasRPath(t, "./bin/global", gorootInstallDir) }