// Copyright 2011 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 main import ( "bytes" "fmt" "go/ast" "go/build" "go/doc" "go/parser" "go/token" "os" "os/exec" "path" "path/filepath" "runtime" "sort" "strings" "text/template" "time" "unicode" "unicode/utf8" ) // Break init loop. func init() { cmdTest.Run = runTest } var cmdTest = &Command{ CustomFlags: true, UsageLine: "test [-c] [-i] [-p n] [-x] [importpath...] [flags for test binary]", Short: "test packages", Long: ` 'Go test' automates testing the packages named by the import paths. It prints a summary of the test results in the format: ok archive/tar 0.011s FAIL archive/zip 0.022s ok compress/gzip 0.033s ... followed by detailed output for each failed package. 'Go test' recompiles each package along with any files with names matching the file pattern "*_test.go". These additional files can contain test functions, benchmark functions, and example functions. See 'go help testfunc' for more. By default, go test needs no arguments. It compiles and tests the package with source in the current directory, including tests, and runs the tests. The package is built in a temporary directory so it does not interfere with the non-test installation. The flags handled by 'go test' itself are: -c Compile the test binary to pkg.test but do not run it. -i Install packages that are dependencies of the test. Do not run the test. -p n Compile and test up to n packages in parallel. The default value is the number of CPUs available. -x Print each subcommand go test executes. The test binary also accepts flags that control execution of the test; these flags are also accessible by 'go test'. See 'go help testflag' for details. See 'go help importpath' for more about import paths. See also: go build, go vet. `, } var helpTestflag = &Command{ UsageLine: "testflag", Short: "description of testing flags", Long: ` The 'go test' command takes both flags that apply to 'go test' itself and flags that apply to the resulting test binary. The test binary, called pkg.test, where pkg is the name of the directory containing the package sources, has its own flags: -test.v Verbose output: log all tests as they are run. -test.run pattern Run only those tests matching the regular expression. -test.bench pattern Run benchmarks matching the regular expression. By default, no benchmarks run. -test.cpuprofile cpu.out Write a CPU profile to the specified file before exiting. -test.memprofile mem.out Write a memory profile to the specified file when all tests are complete. -test.memprofilerate n Enable more precise (and expensive) memory profiles by setting runtime.MemProfileRate. See 'godoc runtime MemProfileRate'. To profile all memory allocations, use -test.memprofilerate=1 and set the environment variable GOGC=off to disable the garbage collector, provided the test can run in the available memory without garbage collection. -test.parallel n Allow parallel execution of test functions that call t.Parallel. The value of this flag is the maximum number of tests to run simultaneously; by default, it is set to the value of GOMAXPROCS. -test.short Tell long-running tests to shorten their run time. It is off by default but set during all.bash so that installing the Go tree can run a sanity check but not spend time running exhaustive tests. -test.timeout t If a test runs longer than t, panic. -test.benchtime n Run enough iterations of each benchmark to take n seconds. The default is 1 second. -test.cpu 1,2,4 Specify a list of GOMAXPROCS values for which the tests or benchmarks should be executed. The default is the current value of GOMAXPROCS. For convenience, each of these -test.X flags of the test binary is also available as the flag -X in 'go test' itself. Flags not listed here are passed through unaltered. For instance, the command go test -x -v -cpuprofile=prof.out -dir=testdata -update will compile the test binary and then run it as pkg.test -test.v -test.cpuprofile=prof.out -dir=testdata -update `, } var helpTestfunc = &Command{ UsageLine: "testfunc", Short: "description of testing functions", Long: ` The 'go test' command expects to find test, benchmark, and example functions in the "*_test.go" files corresponding to the package under test. A test function is one named TestXXX (where XXX is any alphanumeric string not starting with a lower case letter) and should have the signature, func TestXXX(t *testing.T) { ... } A benchmark function is one named BenchmarkXXX and should have the signature, func BenchmarkXXX(b *testing.B) { ... } An example function is similar to a test function but, instead of using *testing.T to report success or failure, prints output to os.Stdout and os.Stderr. That output is compared against the function's doc comment. An example without a doc comment is compiled but not executed. Godoc displays the body of ExampleXXX to demonstrate the use of the function, constant, or variable XXX. An example of a method M with receiver type T or *T is named ExampleT_M. There may be multiple examples for a given function, constant, or variable, distinguished by a trailing _xxx, where xxx is a suffix not beginning with an upper case letter. Here is an example of an example: func ExamplePrintln() { Println("The output of this example function.") // Output: The output of this example function. } The entire test file is presented as the example when it contains a single example function, at least one other function, type, variable, or constant declaration, and no test or benchmark functions. See the documentation of the testing package for more information. `, } var ( testC bool // -c flag testI bool // -i flag testP int // -p flag testX bool // -x flag testV bool // -v flag testFiles []string // -file flag(s) TODO: not respected testTimeout string // -timeout flag testArgs []string testBench bool testStreamOutput bool // show output as it is generated testShowPass bool // show passing output testKillTimeout = 10 * time.Minute ) func runTest(cmd *Command, args []string) { var pkgArgs []string pkgArgs, testArgs = testFlags(args) pkgs := packagesForBuild(pkgArgs) if len(pkgs) == 0 { fatalf("no packages to test") } if testC && len(pkgs) != 1 { fatalf("cannot use -c flag with multiple packages") } // If a test timeout was given and is parseable, set our kill timeout // to that timeout plus one minute. This is a backup alarm in case // the test wedges with a goroutine spinning and its background // timer does not get a chance to fire. if dt, err := time.ParseDuration(testTimeout); err == nil { testKillTimeout = dt + 1*time.Minute } // show passing test output (after buffering) with -v flag. // must buffer because tests are running in parallel, and // otherwise the output will get mixed. testShowPass = testV // stream test output (no buffering) when no package has // been given on the command line (implicit current directory) // or when benchmarking. // Also stream if we're showing output anyway with a // single package under test. In that case, streaming the // output produces the same result as not streaming, // just more immediately. testStreamOutput = len(pkgArgs) == 0 || testBench || (len(pkgs) <= 1 && testShowPass) buildX = testX if testP > 0 { buildP = testP } var b builder b.init() if testI { buildV = testV deps := map[string]bool{ // Dependencies for testmain. "testing": true, "regexp": true, } for _, p := range pkgs { // Dependencies for each test. for _, path := range p.info.Imports { deps[path] = true } for _, path := range p.info.TestImports { deps[path] = true } } // translate C to runtime/cgo if deps["C"] { delete(deps, "C") deps["runtime/cgo"] = true if buildContext.GOOS == runtime.GOOS && buildContext.GOARCH == runtime.GOARCH { deps["cmd/cgo"] = true } } // Ignore pseudo-packages. delete(deps, "unsafe") all := []string{} for path := range deps { all = append(all, path) } sort.Strings(all) a := &action{} for _, p := range packagesForBuild(all) { a.deps = append(a.deps, b.action(modeInstall, modeInstall, p)) } b.do(a) return } var builds, runs, prints []*action // Prepare build + run + print actions for all packages being tested. for _, p := range pkgs { buildTest, runTest, printTest, err := b.test(p) if err != nil { errorf("%s", err) continue } builds = append(builds, buildTest) runs = append(runs, runTest) prints = append(prints, printTest) } // Ultimately the goal is to print the output. root := &action{deps: prints} // Force the printing of results to happen in order, // one at a time. for i, a := range prints { if i > 0 { a.deps = append(a.deps, prints[i-1]) } } // If we are benchmarking, force everything to // happen in serial. Could instead allow all the // builds to run before any benchmarks start, // but try this for now. if testBench { for i, a := range builds { if i > 0 { // Make build of test i depend on // completing the run of test i-1. a.deps = append(a.deps, runs[i-1]) } } } // If we are building any out-of-date packages other // than those under test, warn. okBuild := map[*Package]bool{} for _, p := range pkgs { okBuild[p] = true } warned := false for _, a := range actionList(root) { if a.p != nil && a.f != nil && !okBuild[a.p] && !a.p.fake { okBuild[a.p] = true // don't warn again if !warned { fmt.Fprintf(os.Stderr, "warning: building out-of-date packages:\n") warned = true } fmt.Fprintf(os.Stderr, "\t%s\n", a.p.ImportPath) } } if warned { args := strings.Join(pkgArgs, " ") if args != "" { args = " " + args } fmt.Fprintf(os.Stderr, "installing these packages with 'go test -i%s' will speed future tests.\n\n", args) } b.do(root) } func (b *builder) test(p *Package) (buildAction, runAction, printAction *action, err error) { if len(p.info.TestGoFiles)+len(p.info.XTestGoFiles) == 0 { build := &action{p: p} run := &action{p: p} print := &action{f: (*builder).notest, p: p, deps: []*action{build}} return build, run, print, nil } // Build Package structs describing: // ptest - package + test files // pxtest - package of external test files // pmain - pkg.test binary var ptest, pxtest, pmain *Package // go/build does not distinguish the dependencies used // by the TestGoFiles from the dependencies used by the // XTestGoFiles, so we build one list and use it for both // ptest and pxtest. No harm done. var imports []*Package var stk importStack stk.push(p.ImportPath + "_test") for _, path := range p.info.TestImports { p1 := loadPackage(path, &stk) if p1.Error != nil { return nil, nil, nil, p1.Error } imports = append(imports, p1) } stk.pop() // Use last element of import path, not package name. // They differ when package name is "main". _, elem := path.Split(p.ImportPath) testBinary := elem + ".test" // The ptest package needs to be importable under the // same import path that p has, but we cannot put it in // the usual place in the temporary tree, because then // other tests will see it as the real package. // Instead we make a _test directory under the import path // and then repeat the import path there. We tell the // compiler and linker to look in that _test directory first. // // That is, if the package under test is unicode/utf8, // then the normal place to write the package archive is // $WORK/unicode/utf8.a, but we write the test package archive to // $WORK/unicode/utf8/_test/unicode/utf8.a. // We write the external test package archive to // $WORK/unicode/utf8/_test/unicode/utf8_test.a. testDir := filepath.Join(b.work, filepath.FromSlash(p.ImportPath+"/_test")) ptestObj := buildToolchain.pkgpath(testDir, p) // Create the directory for the .a files. ptestDir, _ := filepath.Split(ptestObj) if err := b.mkdir(ptestDir); err != nil { return nil, nil, nil, err } if err := writeTestmain(filepath.Join(testDir, "_testmain.go"), p); err != nil { return nil, nil, nil, err } // Test package. if len(p.info.TestGoFiles) > 0 { ptest = new(Package) *ptest = *p ptest.GoFiles = nil ptest.GoFiles = append(ptest.GoFiles, p.GoFiles...) ptest.GoFiles = append(ptest.GoFiles, p.info.TestGoFiles...) ptest.target = "" ptest.Imports = stringList(p.info.Imports, p.info.TestImports) ptest.imports = append(append([]*Package{}, p.imports...), imports...) ptest.pkgdir = testDir ptest.fake = true a := b.action(modeBuild, modeBuild, ptest) a.objdir = testDir + string(filepath.Separator) a.objpkg = ptestObj a.target = ptestObj a.link = false } else { ptest = p } // External test package. if len(p.info.XTestGoFiles) > 0 { pxtest = &Package{ Name: p.Name + "_test", ImportPath: p.ImportPath + "_test", Dir: p.Dir, GoFiles: p.info.XTestGoFiles, Imports: p.info.TestImports, t: p.t, info: &build.DirInfo{}, imports: imports, pkgdir: testDir, fake: true, } pxtest.imports = append(pxtest.imports, ptest) a := b.action(modeBuild, modeBuild, pxtest) a.objdir = testDir + string(filepath.Separator) a.objpkg = buildToolchain.pkgpath(testDir, pxtest) a.target = a.objpkg } // Action for building pkg.test. pmain = &Package{ Name: "main", Dir: testDir, GoFiles: []string{"_testmain.go"}, t: p.t, info: &build.DirInfo{}, imports: []*Package{ptest}, fake: true, } if pxtest != nil { pmain.imports = append(pmain.imports, pxtest) } // The generated main also imports testing and regexp. stk.push("testmain") ptesting := loadPackage("testing", &stk) if ptesting.Error != nil { return nil, nil, nil, ptesting.Error } pregexp := loadPackage("regexp", &stk) if pregexp.Error != nil { return nil, nil, nil, pregexp.Error } pmain.imports = append(pmain.imports, ptesting, pregexp) a := b.action(modeBuild, modeBuild, pmain) a.objdir = testDir + string(filepath.Separator) a.objpkg = filepath.Join(testDir, "main.a") a.target = filepath.Join(testDir, testBinary) + b.exe pmainAction := a if testC { // -c flag: create action to copy binary to ./test.out. runAction = &action{ f: (*builder).install, deps: []*action{pmainAction}, p: pmain, target: testBinary + b.exe, } printAction = &action{p: p, deps: []*action{runAction}} // nop } else { // run test runAction = &action{ f: (*builder).runTest, deps: []*action{pmainAction}, p: p, ignoreFail: true, } cleanAction := &action{ f: (*builder).cleanTest, deps: []*action{runAction}, p: p, } printAction = &action{ f: (*builder).printTest, deps: []*action{cleanAction}, p: p, } } return pmainAction, runAction, printAction, nil } // runTest is the action for running a test binary. func (b *builder) runTest(a *action) error { args := stringList(a.deps[0].target, testArgs) a.testOutput = new(bytes.Buffer) if buildN || buildX { b.showcmd("", "%s", strings.Join(args, " ")) if buildN { return nil } } if a.failed { // We were unable to build the binary. a.failed = false fmt.Fprintf(a.testOutput, "FAIL\t%s [build failed]\n", a.p.ImportPath) setExitStatus(1) return nil } cmd := exec.Command(args[0], args[1:]...) cmd.Dir = a.p.Dir var buf bytes.Buffer if testStreamOutput { cmd.Stdout = os.Stdout cmd.Stderr = os.Stderr } else { cmd.Stdout = &buf cmd.Stderr = &buf } t0 := time.Now() err := cmd.Start() // This is a last-ditch deadline to detect and // stop wedged test binaries, to keep the builders // running. tick := time.NewTimer(testKillTimeout) if err == nil { done := make(chan error) go func() { done <- cmd.Wait() }() select { case err = <-done: // ok case <-tick.C: cmd.Process.Kill() err = <-done fmt.Fprintf(&buf, "*** Test killed: ran too long.\n") } tick.Stop() } out := buf.Bytes() t1 := time.Now() t := fmt.Sprintf("%.3fs", t1.Sub(t0).Seconds()) if err == nil { if testShowPass { a.testOutput.Write(out) } fmt.Fprintf(a.testOutput, "ok \t%s\t%s\n", a.p.ImportPath, t) return nil } setExitStatus(1) if len(out) > 0 { a.testOutput.Write(out) // assume printing the test binary's exit status is superfluous } else { fmt.Fprintf(a.testOutput, "%s\n", err) } fmt.Fprintf(a.testOutput, "FAIL\t%s\t%s\n", a.p.ImportPath, t) return nil } // cleanTest is the action for cleaning up after a test. func (b *builder) cleanTest(a *action) error { run := a.deps[0] testDir := filepath.Join(b.work, filepath.FromSlash(run.p.ImportPath+"/_test")) os.RemoveAll(testDir) return nil } // printTest is the action for printing a test result. func (b *builder) printTest(a *action) error { clean := a.deps[0] run := clean.deps[0] os.Stdout.Write(run.testOutput.Bytes()) run.testOutput = nil return nil } // notest is the action for testing a package with no test files. func (b *builder) notest(a *action) error { fmt.Printf("? \t%s\t[no test files]\n", a.p.ImportPath) return nil } // isTest tells whether name looks like a test (or benchmark, according to prefix). // It is a Test (say) if there is a character after Test that is not a lower-case letter. // We don't want TesticularCancer. func isTest(name, prefix string) bool { if !strings.HasPrefix(name, prefix) { return false } if len(name) == len(prefix) { // "Test" is ok return true } rune, _ := utf8.DecodeRuneInString(name[len(prefix):]) return !unicode.IsLower(rune) } // writeTestmain writes the _testmain.go file for package p to // the file named out. func writeTestmain(out string, p *Package) error { t := &testFuncs{ Package: p, Info: p.info, } for _, file := range p.info.TestGoFiles { if err := t.load(filepath.Join(p.Dir, file), "_test", &t.NeedTest); err != nil { return err } } for _, file := range p.info.XTestGoFiles { if err := t.load(filepath.Join(p.Dir, file), "_xtest", &t.NeedXtest); err != nil { return err } } f, err := os.Create(out) if err != nil { return err } defer f.Close() if err := testmainTmpl.Execute(f, t); err != nil { return err } return nil } type testFuncs struct { Tests []testFunc Benchmarks []testFunc Examples []testFunc Package *Package Info *build.DirInfo NeedTest bool NeedXtest bool } type testFunc struct { Package string // imported package name (_test or _xtest) Name string // function name Output string // output, for examples } var testFileSet = token.NewFileSet() func (t *testFuncs) load(filename, pkg string, seen *bool) error { f, err := parser.ParseFile(testFileSet, filename, nil, parser.ParseComments) if err != nil { return err } for _, d := range f.Decls { n, ok := d.(*ast.FuncDecl) if !ok { continue } if n.Recv != nil { continue } name := n.Name.String() switch { case isTest(name, "Test"): t.Tests = append(t.Tests, testFunc{pkg, name, ""}) *seen = true case isTest(name, "Benchmark"): t.Benchmarks = append(t.Benchmarks, testFunc{pkg, name, ""}) *seen = true } } for _, e := range doc.Examples(f) { if e.Output == "" { // Don't run examples with no output. continue } t.Examples = append(t.Examples, testFunc{pkg, "Example" + e.Name, e.Output}) *seen = true } return nil } var testmainTmpl = template.Must(template.New("main").Parse(` package main import ( "regexp" "testing" {{if .NeedTest}} _test {{.Package.ImportPath | printf "%q"}} {{end}} {{if .NeedXtest}} _xtest {{.Package.ImportPath | printf "%s_test" | printf "%q"}} {{end}} ) var tests = []testing.InternalTest{ {{range .Tests}} {"{{.Name}}", {{.Package}}.{{.Name}}}, {{end}} } var benchmarks = []testing.InternalBenchmark{ {{range .Benchmarks}} {"{{.Name}}", {{.Package}}.{{.Name}}}, {{end}} } var examples = []testing.InternalExample{ {{range .Examples}} {"{{.Name}}", {{.Package}}.{{.Name}}, {{.Output | printf "%q"}}}, {{end}} } var matchPat string var matchRe *regexp.Regexp func matchString(pat, str string) (result bool, err error) { if matchRe == nil || matchPat != pat { matchPat = pat matchRe, err = regexp.Compile(matchPat) if err != nil { return } } return matchRe.MatchString(str), nil } func main() { testing.Main(matchString, tests, benchmarks, examples) } `))