// Copyright 2020 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 regtest import ( "bytes" "context" "fmt" "io" "io/ioutil" "net" "os" "os/exec" "path/filepath" "runtime/pprof" "strings" "sync" "testing" "time" "golang.org/x/tools/internal/jsonrpc2" "golang.org/x/tools/internal/jsonrpc2/servertest" "golang.org/x/tools/internal/lsp/cache" "golang.org/x/tools/internal/lsp/debug" "golang.org/x/tools/internal/lsp/fake" "golang.org/x/tools/internal/lsp/lsprpc" "golang.org/x/tools/internal/lsp/protocol" ) // Mode is a bitmask that defines for which execution modes a test should run. type Mode int const ( // Singleton mode uses a separate in-process gopls instance for each test, // and communicates over pipes to mimic the gopls sidecar execution mode, // which communicates over stdin/stderr. Singleton Mode = 1 << iota // Forwarded forwards connections to a shared in-process gopls instance. Forwarded // SeparateProcess forwards connection to a shared separate gopls process. SeparateProcess // NormalModes are the global default execution modes, when unmodified by // test flags or by individual test options. NormalModes = Singleton | Forwarded ) // A Runner runs tests in gopls execution environments, as specified by its // modes. For modes that share state (for example, a shared cache or common // remote), any tests that execute on the same Runner will share the same // state. type Runner struct { DefaultModes Mode Timeout time.Duration GoplsPath string AlwaysPrintLogs bool PrintGoroutinesOnFailure bool mu sync.Mutex ts *servertest.TCPServer socketDir string // closers is a queue of clean-up functions to run at the end of the entire // test suite. closers []io.Closer } type runConfig struct { editorConfig fake.EditorConfig modes Mode proxyTxt string timeout time.Duration skipCleanup bool gopath bool } func (r *Runner) defaultConfig() *runConfig { return &runConfig{ modes: r.DefaultModes, timeout: r.Timeout, } } // A RunOption augments the behavior of the test runner. type RunOption interface { set(*runConfig) } type optionSetter func(*runConfig) func (f optionSetter) set(opts *runConfig) { f(opts) } // WithTimeout configures a custom timeout for this test run. func WithTimeout(d time.Duration) RunOption { return optionSetter(func(opts *runConfig) { opts.timeout = d }) } // WithProxy configures a file proxy using the given txtar-encoded string. func WithProxy(txt string) RunOption { return optionSetter(func(opts *runConfig) { opts.proxyTxt = txt }) } // WithModes configures the execution modes that the test should run in. func WithModes(modes Mode) RunOption { return optionSetter(func(opts *runConfig) { opts.modes = modes }) } // WithEditorConfig configures the editors LSP session. func WithEditorConfig(config fake.EditorConfig) RunOption { return optionSetter(func(opts *runConfig) { opts.editorConfig = config }) } // InGOPATH configures the workspace working directory to be GOPATH, rather // than a separate working directory for use with modules. func InGOPATH() RunOption { return optionSetter(func(opts *runConfig) { opts.gopath = true }) } // SkipCleanup is used only for debugging: is skips cleaning up the tests state // after completion. func SkipCleanup() RunOption { return optionSetter(func(opts *runConfig) { opts.skipCleanup = true }) } // Run executes the test function in the default configured gopls execution // modes. For each a test run, a new workspace is created containing the // un-txtared files specified by filedata. func (r *Runner) Run(t *testing.T, filedata string, test func(t *testing.T, e *Env), opts ...RunOption) { t.Helper() config := r.defaultConfig() for _, opt := range opts { opt.set(config) } tests := []struct { name string mode Mode getServer func(context.Context, *testing.T) jsonrpc2.StreamServer }{ {"singleton", Singleton, singletonServer}, {"forwarded", Forwarded, r.forwardedServer}, {"separate_process", SeparateProcess, r.separateProcessServer}, } for _, tc := range tests { tc := tc if config.modes&tc.mode == 0 { continue } t.Run(tc.name, func(t *testing.T) { t.Helper() ctx, cancel := context.WithTimeout(context.Background(), config.timeout) defer cancel() ctx = debug.WithInstance(ctx, "", "") sandbox, err := fake.NewSandbox("regtest", filedata, config.proxyTxt, config.gopath) if err != nil { t.Fatal(err) } // Deferring the closure of ws until the end of the entire test suite // has, in testing, given the LSP server time to properly shutdown and // release any file locks held in workspace, which is a problem on // Windows. This may still be flaky however, and in the future we need a // better solution to ensure that all Go processes started by gopls have // exited before we clean up. if config.skipCleanup { defer func() { t.Logf("Skipping workspace cleanup: running in %s", sandbox.Workdir.RootURI()) }() } else { r.AddCloser(sandbox) } ss := tc.getServer(ctx, t) ls := &loggingFramer{} framer := ls.framer(jsonrpc2.NewRawStream) ts := servertest.NewPipeServer(ctx, ss, framer) env := NewEnv(ctx, t, sandbox, ts, config.editorConfig) defer func() { if t.Failed() && r.PrintGoroutinesOnFailure { pprof.Lookup("goroutine").WriteTo(os.Stderr, 1) } if t.Failed() || r.AlwaysPrintLogs { ls.printBuffers(t.Name(), os.Stderr) } env.CloseEditor() }() test(t, env) }) } } type loggingFramer struct { mu sync.Mutex buffers []*bytes.Buffer } func (s *loggingFramer) framer(f jsonrpc2.Framer) jsonrpc2.Framer { return func(nc net.Conn) jsonrpc2.Stream { s.mu.Lock() var buf bytes.Buffer s.buffers = append(s.buffers, &buf) s.mu.Unlock() stream := f(nc) return protocol.LoggingStream(stream, &buf) } } func (s *loggingFramer) printBuffers(testname string, w io.Writer) { s.mu.Lock() defer s.mu.Unlock() for i, buf := range s.buffers { fmt.Fprintf(os.Stderr, "#### Start Gopls Test Logs %d of %d for %q\n", i+1, len(s.buffers), testname) io.Copy(w, buf) fmt.Fprintf(os.Stderr, "#### End Gopls Test Logs %d of %d for %q\n", i+1, len(s.buffers), testname) } } func singletonServer(ctx context.Context, t *testing.T) jsonrpc2.StreamServer { return lsprpc.NewStreamServer(cache.New(ctx, nil)) } func (r *Runner) forwardedServer(ctx context.Context, t *testing.T) jsonrpc2.StreamServer { ts := r.getTestServer() return lsprpc.NewForwarder("tcp", ts.Addr) } // getTestServer gets the test server instance to connect to, or creates one if // it doesn't exist. func (r *Runner) getTestServer() *servertest.TCPServer { r.mu.Lock() defer r.mu.Unlock() if r.ts == nil { ctx := context.Background() ctx = debug.WithInstance(ctx, "", "") ss := lsprpc.NewStreamServer(cache.New(ctx, nil)) r.ts = servertest.NewTCPServer(context.Background(), ss, nil) } return r.ts } func (r *Runner) separateProcessServer(ctx context.Context, t *testing.T) jsonrpc2.StreamServer { // TODO(rfindley): can we use the autostart behavior here, instead of // pre-starting the remote? socket := r.getRemoteSocket(t) return lsprpc.NewForwarder("unix", socket) } // runTestAsGoplsEnvvar triggers TestMain to run gopls instead of running // tests. It's a trick to allow tests to find a binary to use to start a gopls // subprocess. const runTestAsGoplsEnvvar = "_GOPLS_TEST_BINARY_RUN_AS_GOPLS" func (r *Runner) getRemoteSocket(t *testing.T) string { t.Helper() r.mu.Lock() defer r.mu.Unlock() const daemonFile = "gopls-test-daemon" if r.socketDir != "" { return filepath.Join(r.socketDir, daemonFile) } if r.GoplsPath == "" { t.Fatal("cannot run tests with a separate process unless a path to a gopls binary is configured") } var err error r.socketDir, err = ioutil.TempDir("", "gopls-regtests") if err != nil { t.Fatalf("creating tempdir: %v", err) } socket := filepath.Join(r.socketDir, daemonFile) args := []string{"serve", "-listen", "unix;" + socket, "-listen.timeout", "10s"} cmd := exec.Command(r.GoplsPath, args...) cmd.Env = append(os.Environ(), runTestAsGoplsEnvvar+"=true") var stderr bytes.Buffer cmd.Stderr = &stderr go func() { if err := cmd.Run(); err != nil { panic(fmt.Sprintf("error running external gopls: %v\nstderr:\n%s", err, stderr.String())) } }() return socket } // AddCloser schedules a closer to be closed at the end of the test run. This // is useful for Windows in particular, as func (r *Runner) AddCloser(closer io.Closer) { r.mu.Lock() defer r.mu.Unlock() r.closers = append(r.closers, closer) } // Close cleans up resource that have been allocated to this workspace. func (r *Runner) Close() error { r.mu.Lock() defer r.mu.Unlock() var errmsgs []string if r.ts != nil { if err := r.ts.Close(); err != nil { errmsgs = append(errmsgs, err.Error()) } } if r.socketDir != "" { if err := os.RemoveAll(r.socketDir); err != nil { errmsgs = append(errmsgs, err.Error()) } } for _, closer := range r.closers { if err := closer.Close(); err != nil { errmsgs = append(errmsgs, err.Error()) } } if len(errmsgs) > 0 { return fmt.Errorf("errors closing the test runner:\n\t%s", strings.Join(errmsgs, "\n\t")) } return nil }