package restart import ( "bytes" "errors" "fmt" "testing" "time" "github.com/hashicorp/packer/packer" ) func testConfig() map[string]interface{} { return map[string]interface{}{} } func TestProvisioner_Impl(t *testing.T) { var raw interface{} raw = &Provisioner{} if _, ok := raw.(packer.Provisioner); !ok { t.Fatalf("must be a Provisioner") } } func TestProvisionerPrepare_Defaults(t *testing.T) { var p Provisioner config := testConfig() err := p.Prepare(config) if err != nil { t.Fatalf("err: %s", err) } if p.config.RestartTimeout != 5*time.Minute { t.Errorf("unexpected restart timeout: %s", p.config.RestartTimeout) } if p.config.RestartCommand != "shutdown /r /f /t 0 /c \"packer restart\"" { t.Errorf("unexpected restart command: %s", p.config.RestartCommand) } } func TestProvisionerPrepare_ConfigRetryTimeout(t *testing.T) { var p Provisioner config := testConfig() config["restart_timeout"] = "1m" err := p.Prepare(config) if err != nil { t.Fatalf("err: %s", err) } if p.config.RestartTimeout != 1*time.Minute { t.Errorf("unexpected restart timeout: %s", p.config.RestartTimeout) } } func TestProvisionerPrepare_ConfigErrors(t *testing.T) { var p Provisioner config := testConfig() config["restart_timeout"] = "m" err := p.Prepare(config) if err == nil { t.Fatal("Expected error parsing restart_timeout but did not receive one.") } } func TestProvisionerPrepare_InvalidKey(t *testing.T) { var p Provisioner config := testConfig() // Add a random key config["i_should_not_be_valid"] = true err := p.Prepare(config) if err == nil { t.Fatal("should have error") } } func testUi() *packer.BasicUi { return &packer.BasicUi{ Reader: new(bytes.Buffer), Writer: new(bytes.Buffer), ErrorWriter: new(bytes.Buffer), } } func TestProvisionerProvision_Success(t *testing.T) { config := testConfig() // Defaults provided by Packer ui := testUi() p := new(Provisioner) // Defaults provided by Packer comm := new(packer.MockCommunicator) p.Prepare(config) waitForCommunicatorOld := waitForCommunicator waitForCommunicator = func(p *Provisioner) error { return nil } waitForRestartOld := waitForRestart waitForRestart = func(p *Provisioner, comm packer.Communicator) error { return nil } err := p.Provision(ui, comm) if err != nil { t.Fatal("should not have error") } expectedCommand := DefaultRestartCommand // Should run the command without alteration if comm.StartCmd.Command != expectedCommand { t.Fatalf("Expect command to be: %s, got %s", expectedCommand, comm.StartCmd.Command) } // Set this back! waitForCommunicator = waitForCommunicatorOld waitForRestart = waitForRestartOld } func TestProvisionerProvision_CustomCommand(t *testing.T) { config := testConfig() // Defaults provided by Packer ui := testUi() p := new(Provisioner) expectedCommand := "specialrestart.exe -NOW" config["restart_command"] = expectedCommand // Defaults provided by Packer comm := new(packer.MockCommunicator) p.Prepare(config) waitForCommunicatorOld := waitForCommunicator waitForCommunicator = func(p *Provisioner) error { return nil } waitForRestartOld := waitForRestart waitForRestart = func(p *Provisioner, comm packer.Communicator) error { return nil } err := p.Provision(ui, comm) if err != nil { t.Fatal("should not have error") } // Should run the command without alteration if comm.StartCmd.Command != expectedCommand { t.Fatalf("Expect command to be: %s, got %s", expectedCommand, comm.StartCmd.Command) } // Set this back! waitForCommunicator = waitForCommunicatorOld waitForRestart = waitForRestartOld } func TestProvisionerProvision_RestartCommandFail(t *testing.T) { config := testConfig() ui := testUi() p := new(Provisioner) comm := new(packer.MockCommunicator) comm.StartStderr = "WinRM terminated" comm.StartExitStatus = 1 p.Prepare(config) err := p.Provision(ui, comm) if err == nil { t.Fatal("should have error") } } func TestProvisionerProvision_WaitForRestartFail(t *testing.T) { config := testConfig() // Defaults provided by Packer ui := testUi() p := new(Provisioner) // Defaults provided by Packer comm := new(packer.MockCommunicator) p.Prepare(config) waitForCommunicatorOld := waitForCommunicator waitForCommunicator = func(p *Provisioner) error { return fmt.Errorf("Machine did not restart properly") } err := p.Provision(ui, comm) if err == nil { t.Fatal("should have error") } // Set this back! waitForCommunicator = waitForCommunicatorOld } func TestProvision_waitForRestartTimeout(t *testing.T) { retryableSleep = 10 * time.Millisecond config := testConfig() config["restart_timeout"] = "1ms" ui := testUi() p := new(Provisioner) comm := new(packer.MockCommunicator) var err error p.Prepare(config) waitForCommunicatorOld := waitForCommunicator waitDone := make(chan bool) waitContinue := make(chan bool) // Block until cancel comes through waitForCommunicator = func(p *Provisioner) error { for { select { case <-waitDone: waitContinue <- true } } } go func() { err = p.Provision(ui, comm) waitDone <- true }() <-waitContinue if err == nil { t.Fatal("should not have error") } // Set this back! waitForCommunicator = waitForCommunicatorOld } func TestProvision_waitForCommunicator(t *testing.T) { config := testConfig() // Defaults provided by Packer ui := testUi() p := new(Provisioner) // Defaults provided by Packer comm := new(packer.MockCommunicator) p.comm = comm p.ui = ui comm.StartStderr = "WinRM terminated" comm.StartExitStatus = 1 p.Prepare(config) err := waitForCommunicator(p) if err != nil { t.Fatalf("should not have error, got: %s", err.Error()) } expectedCommand := DefaultRestartCheckCommand // Should run the command without alteration if comm.StartCmd.Command != expectedCommand { t.Fatalf("Expect command to be: %s, got %s", expectedCommand, comm.StartCmd.Command) } } func TestProvision_waitForCommunicatorWithCancel(t *testing.T) { config := testConfig() // Defaults provided by Packer ui := testUi() p := new(Provisioner) // Defaults provided by Packer comm := new(packer.MockCommunicator) p.comm = comm p.ui = ui retryableSleep = 5 * time.Second p.cancel = make(chan struct{}) var err error comm.StartStderr = "WinRM terminated" comm.StartExitStatus = 1 // Always fail p.Prepare(config) // Run 2 goroutines; // 1st to call waitForCommunicator (that will always fail) // 2nd to cancel the operation waitStart := make(chan bool) waitDone := make(chan bool) go func() { waitStart <- true err = waitForCommunicator(p) waitDone <- true }() go func() { time.Sleep(10 * time.Millisecond) <-waitStart p.Cancel() }() <-waitDone // Expect a Cancel error if err == nil { t.Fatalf("Should have err") } } func TestRetryable(t *testing.T) { config := testConfig() count := 0 retryMe := func() error { t.Logf("RetryMe, attempt number %d", count) if count == 2 { return nil } count++ return errors.New(fmt.Sprintf("Still waiting %d more times...", 2-count)) } retryableSleep = 50 * time.Millisecond p := new(Provisioner) p.config.RestartTimeout = 155 * time.Millisecond err := p.Prepare(config) err = p.retryable(retryMe) if err != nil { t.Fatalf("should not have error retrying function") } count = 0 p.config.RestartTimeout = 10 * time.Millisecond err = p.Prepare(config) err = p.retryable(retryMe) if err == nil { t.Fatalf("should have error retrying function") } } func TestProvision_Cancel(t *testing.T) { config := testConfig() // Defaults provided by Packer ui := testUi() p := new(Provisioner) var err error comm := new(packer.MockCommunicator) p.Prepare(config) waitStart := make(chan bool) waitDone := make(chan bool) // Block until cancel comes through waitForCommunicator = func(p *Provisioner) error { waitStart <- true for { select { case <-p.cancel: } } } // Create two go routines to provision and cancel in parallel // Provision will block until cancel happens go func() { err = p.Provision(ui, comm) waitDone <- true }() go func() { <-waitStart p.Cancel() }() <-waitDone // Expect interrupt error if err == nil { t.Fatal("should have error") } }