Beispiel #1
0
func realMain() int {
	var wrapConfig panicwrap.WrapConfig

	if !panicwrap.Wrapped(&wrapConfig) {
		// Determine where logs should go in general (requested by the user)
		logWriter, err := logging.LogOutput()
		if err != nil {
			fmt.Fprintf(os.Stderr, "Couldn't setup log output: %s", err)
			return 1
		}

		// We always send logs to a temporary file that we use in case
		// there is a panic. Otherwise, we delete it.
		logTempFile, err := ioutil.TempFile("", "terraform-log")
		if err != nil {
			fmt.Fprintf(os.Stderr, "Couldn't setup logging tempfile: %s", err)
			return 1
		}
		defer os.Remove(logTempFile.Name())
		defer logTempFile.Close()

		// Setup the prefixed readers that send data properly to
		// stdout/stderr.
		doneCh := make(chan struct{})
		outR, outW := io.Pipe()
		go copyOutput(outR, doneCh)

		// Create the configuration for panicwrap and wrap our executable
		wrapConfig.Handler = panicHandler(logTempFile)
		wrapConfig.Writer = io.MultiWriter(logTempFile, logWriter)
		wrapConfig.Stdout = outW
		exitStatus, err := panicwrap.Wrap(&wrapConfig)
		if err != nil {
			fmt.Fprintf(os.Stderr, "Couldn't start Terraform: %s", err)
			return 1
		}

		// If >= 0, we're the parent, so just exit
		if exitStatus >= 0 {
			// Close the stdout writer so that our copy process can finish
			outW.Close()

			// Wait for the output copying to finish
			<-doneCh

			return exitStatus
		}

		// We're the child, so just close the tempfile we made in order to
		// save file handles since the tempfile is only used by the parent.
		logTempFile.Close()
	}

	// Call the real main
	return wrappedMain()
}
Beispiel #2
0
// Test performs an acceptance test on a resource.
//
// Tests are not run unless an environmental variable "TF_ACC" is
// set to some non-empty value. This is to avoid test cases surprising
// a user by creating real resources.
//
// Tests will fail unless the verbose flag (`go test -v`, or explicitly
// the "-test.v" flag) is set. Because some acceptance tests take quite
// long, we require the verbose flag so users are able to see progress
// output.
func Test(t TestT, c TestCase) {
	// We only run acceptance tests if an env var is set because they're
	// slow and generally require some outside configuration.
	if os.Getenv(TestEnvVar) == "" {
		t.Skip(fmt.Sprintf(
			"Acceptance tests skipped unless env '%s' set",
			TestEnvVar))
		return
	}

	isUnitTest := (os.Getenv(TestEnvVar) == UnitTestOverride)

	logWriter, err := logging.LogOutput()
	if err != nil {
		t.Error(fmt.Errorf("error setting up logging: %s", err))
	}
	log.SetOutput(logWriter)

	// We require verbose mode so that the user knows what is going on.
	if !testTesting && !testing.Verbose() && !isUnitTest {
		t.Fatal("Acceptance tests must be run with the -v flag on tests")
		return
	}

	// Run the PreCheck if we have it
	if c.PreCheck != nil {
		c.PreCheck()
	}

	// Build our context options that we can
	ctxProviders := c.ProviderFactories
	if ctxProviders == nil {
		ctxProviders = make(map[string]terraform.ResourceProviderFactory)
		for k, p := range c.Providers {
			ctxProviders[k] = terraform.ResourceProviderFactoryFixed(p)
		}
	}
	opts := terraform.ContextOpts{Providers: ctxProviders}

	// A single state variable to track the lifecycle, starting with no state
	var state *terraform.State

	// Go through each step and run it
	var idRefreshCheck *terraform.ResourceState
	idRefresh := c.IDRefreshName != ""
	errored := false
	for i, step := range c.Steps {
		var err error
		log.Printf("[WARN] Test: Executing step %d", i)
		state, err = testStep(opts, state, step)
		if err != nil {
			errored = true
			t.Error(fmt.Sprintf(
				"Step %d error: %s", i, err))
			break
		}

		// If we've never checked an id-only refresh and our state isn't
		// empty, find the first resource and test it.
		if idRefresh && idRefreshCheck == nil && !state.Empty() {
			// Find the first non-nil resource in the state
			for _, m := range state.Modules {
				if len(m.Resources) > 0 {
					if v, ok := m.Resources[c.IDRefreshName]; ok {
						idRefreshCheck = v
					}

					break
				}
			}

			// If we have an instance to check for refreshes, do it
			// immediately. We do it in the middle of another test
			// because it shouldn't affect the overall state (refresh
			// is read-only semantically) and we want to fail early if
			// this fails. If refresh isn't read-only, then this will have
			// caught a different bug.
			if idRefreshCheck != nil {
				log.Printf(
					"[WARN] Test: Running ID-only refresh check on %s",
					idRefreshCheck.Primary.ID)
				if err := testIDOnlyRefresh(c, opts, step, idRefreshCheck); err != nil {
					log.Printf("[ERROR] Test: ID-only test failed: %s", err)
					t.Error(fmt.Sprintf(
						"ID-Only refresh test failure: %s", err))
					break
				}
			}
		}
	}

	// If we never checked an id-only refresh, it is a failure.
	if idRefresh {
		if !errored && len(c.Steps) > 0 && idRefreshCheck == nil {
			t.Error("ID-only refresh check never ran.")
		}
	}

	// If we have a state, then run the destroy
	if state != nil {
		destroyStep := TestStep{
			Config:  c.Steps[len(c.Steps)-1].Config,
			Check:   c.CheckDestroy,
			Destroy: true,
		}

		log.Printf("[WARN] Test: Executing destroy step")
		state, err := testStep(opts, state, destroyStep)
		if err != nil {
			t.Error(fmt.Sprintf(
				"Error destroying resource! WARNING: Dangling resources\n"+
					"may exist. The full state and error is shown below.\n\n"+
					"Error: %s\n\nState: %s",
				err,
				state))
		}
	} else {
		log.Printf("[WARN] Skipping destroy test since there is no state.")
	}
}
Beispiel #3
0
// Test performs an acceptance test on a resource.
//
// Tests are not run unless an environmental variable "TF_ACC" is
// set to some non-empty value. This is to avoid test cases surprising
// a user by creating real resources.
//
// Tests will fail unless the verbose flag (`go test -v`, or explicitly
// the "-test.v" flag) is set. Because some acceptance tests take quite
// long, we require the verbose flag so users are able to see progress
// output.
func Test(t TestT, c TestCase) {
	// We only run acceptance tests if an env var is set because they're
	// slow and generally require some outside configuration.
	if os.Getenv(TestEnvVar) == "" {
		t.Skip(fmt.Sprintf(
			"Acceptance tests skipped unless env '%s' set",
			TestEnvVar))
		return
	}

	isUnitTest := (os.Getenv(TestEnvVar) == UnitTestOverride)

	logWriter, err := logging.LogOutput()
	if err != nil {
		t.Error(fmt.Errorf("error setting up logging: %s", err))
	}
	log.SetOutput(logWriter)

	// We require verbose mode so that the user knows what is going on.
	if !testTesting && !testing.Verbose() && !isUnitTest {
		t.Fatal("Acceptance tests must be run with the -v flag on tests")
		return
	}

	// Run the PreCheck if we have it
	if c.PreCheck != nil {
		c.PreCheck()
	}

	// Build our context options that we can
	ctxProviders := c.ProviderFactories
	if ctxProviders == nil {
		ctxProviders = make(map[string]terraform.ResourceProviderFactory)
		for k, p := range c.Providers {
			ctxProviders[k] = terraform.ResourceProviderFactoryFixed(p)
		}
	}
	opts := terraform.ContextOpts{Providers: ctxProviders}

	// A single state variable to track the lifecycle, starting with no state
	var state *terraform.State

	// Go through each step and run it
	for i, step := range c.Steps {
		var err error
		log.Printf("[WARN] Test: Executing step %d", i)
		state, err = testStep(opts, state, step)
		if err != nil {
			t.Error(fmt.Sprintf(
				"Step %d error: %s", i, err))
			break
		}
	}

	// If we have a state, then run the destroy
	if state != nil {
		destroyStep := TestStep{
			Config:  c.Steps[len(c.Steps)-1].Config,
			Check:   c.CheckDestroy,
			Destroy: true,
		}

		log.Printf("[WARN] Test: Executing destroy step")
		state, err := testStep(opts, state, destroyStep)
		if err != nil {
			t.Error(fmt.Sprintf(
				"Error destroying resource! WARNING: Dangling resources\n"+
					"may exist. The full state and error is shown below.\n\n"+
					"Error: %s\n\nState: %s",
				err,
				state))
		}
	} else {
		log.Printf("[WARN] Skipping destroy test since there is no state.")
	}
}