// 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 testenv import ( "context" "flag" "os" "os/exec" "reflect" "runtime" "strconv" "sync" "testing" "time" ) // HasExec reports whether the current system can start new processes // using os.StartProcess or (more commonly) exec.Command. func HasExec() bool { switch runtime.GOOS { case "aix", "android", "darwin", "dragonfly", "freebsd", "illumos", "linux", "netbsd", "openbsd", "plan9", "solaris", "windows": // Known OS that isn't ios or wasm; assume that exec works. return true case "ios", "js", "wasip1": // ios has an exec syscall but on real iOS devices it might return a // permission error. In an emulated environment (such as a Corellium host) // it might succeed, so try it and find out. // // As of 2023-04-19 wasip1 and js don't have exec syscalls at all, but we // may as well use the same path so that this branch can be tested without // an ios environment. fallthrough default: tryExecOnce.Do(func() { exe, err := os.Executable() if err != nil { return } if flag.Lookup("test.list") == nil { // We found the executable, but we don't know how to run it in a way // that should succeed without side-effects. Just forget it. return } // We know that a test executable exists and can run, because we're // running it now. Use it to check for overall exec support, but be sure // to remove any environment variables that might trigger non-default // behavior in a custom TestMain. cmd := exec.Command(exe, "-test.list=^$") cmd.Env = []string{} if err := cmd.Run(); err == nil { tryExecOk = true } }) return tryExecOk } } var ( tryExecOnce sync.Once tryExecOk bool ) // NeedsExec checks that the current system can start new processes // using os.StartProcess or (more commonly) exec.Command. // If not, NeedsExec calls t.Skip with an explanation. func NeedsExec(t testing.TB) { if !HasExec() { t.Skipf("skipping test: cannot exec subprocess on %s/%s", runtime.GOOS, runtime.GOARCH) } } // CommandContext is like exec.CommandContext, but: // - skips t if the platform does not support os/exec, // - if supported, sends SIGQUIT instead of SIGKILL in its Cancel function // - if the test has a deadline, adds a Context timeout and (if supported) WaitDelay // for an arbitrary grace period before the test's deadline expires, // - if Cmd has the Cancel field, fails the test if the command is canceled // due to the test's deadline, and // - sets a Cleanup function that verifies that the test did not leak a subprocess. func CommandContext(t testing.TB, ctx context.Context, name string, args ...string) *exec.Cmd { t.Helper() NeedsExec(t) var ( cancelCtx context.CancelFunc gracePeriod time.Duration // unlimited unless the test has a deadline (to allow for interactive debugging) ) if td, ok := Deadline(t); ok { // Start with a minimum grace period, just long enough to consume the // output of a reasonable program after it terminates. gracePeriod = 100 * time.Millisecond if s := os.Getenv("GO_TEST_TIMEOUT_SCALE"); s != "" { scale, err := strconv.Atoi(s) if err != nil { t.Fatalf("invalid GO_TEST_TIMEOUT_SCALE: %v", err) } gracePeriod *= time.Duration(scale) } // If time allows, increase the termination grace period to 5% of the // test's remaining time. testTimeout := time.Until(td) if gp := testTimeout / 20; gp > gracePeriod { gracePeriod = gp } // When we run commands that execute subprocesses, we want to reserve two // grace periods to clean up: one for the delay between the first // termination signal being sent (via the Cancel callback when the Context // expires) and the process being forcibly terminated (via the WaitDelay // field), and a second one for the delay between the process being // terminated and the test logging its output for debugging. // // (We want to ensure that the test process itself has enough time to // log the output before it is also terminated.) cmdTimeout := testTimeout - 2*gracePeriod if cd, ok := ctx.Deadline(); !ok || time.Until(cd) > cmdTimeout { // Either ctx doesn't have a deadline, or its deadline would expire // after (or too close before) the test has already timed out. // Add a shorter timeout so that the test will produce useful output. ctx, cancelCtx = context.WithTimeout(ctx, cmdTimeout) } } cmd := exec.CommandContext(ctx, name, args...) // Use reflection to set the Cancel and WaitDelay fields, if present. // TODO(bcmills): When we no longer support Go versions below 1.20, // remove the use of reflect and assume that the fields are always present. rc := reflect.ValueOf(cmd).Elem() if rCancel := rc.FieldByName("Cancel"); rCancel.IsValid() { rCancel.Set(reflect.ValueOf(func() error { if cancelCtx != nil && ctx.Err() == context.DeadlineExceeded { // The command timed out due to running too close to the test's deadline // (because we specifically set a shorter Context deadline for that // above). There is no way the test did that intentionally — it's too // close to the wire! — so mark it as a test failure. That way, if the // test expects the command to fail for some other reason, it doesn't // have to distinguish between that reason and a timeout. t.Errorf("test timed out while running command: %v", cmd) } else { // The command is being terminated due to ctx being canceled, but // apparently not due to an explicit test deadline that we added. // Log that information in case it is useful for diagnosing a failure, // but don't actually fail the test because of it. t.Logf("%v: terminating command: %v", ctx.Err(), cmd) } return cmd.Process.Signal(Sigquit) })) } if rWaitDelay := rc.FieldByName("WaitDelay"); rWaitDelay.IsValid() { rWaitDelay.Set(reflect.ValueOf(gracePeriod)) } t.Cleanup(func() { if cancelCtx != nil { cancelCtx() } if cmd.Process != nil && cmd.ProcessState == nil { t.Errorf("command was started, but test did not wait for it to complete: %v", cmd) } }) return cmd } // Command is like exec.Command, but applies the same changes as // testenv.CommandContext (with a default Context). func Command(t testing.TB, name string, args ...string) *exec.Cmd { t.Helper() return CommandContext(t, context.Background(), name, args...) }