package communicator import ( "bytes" "context" "errors" "fmt" "io" "log" "strings" "time" "github.com/hashicorp/packer/communicator/winrm" "github.com/hashicorp/packer/helper/multistep" "github.com/hashicorp/packer/packer" winrmcmd "github.com/masterzen/winrm" ) // StepConnectWinRM is a multistep Step implementation that waits for WinRM // to become available. It gets the connection information from a single // configuration when creating the step. // // Uses: // ui packer.Ui // // Produces: // communicator packer.Communicator type StepConnectWinRM struct { // All the fields below are documented on StepConnect Config *Config Host func(multistep.StateBag) (string, error) WinRMConfig func(multistep.StateBag) (*WinRMConfig, error) WinRMPort func(multistep.StateBag) (int, error) } func (s *StepConnectWinRM) Run(_ context.Context, state multistep.StateBag) multistep.StepAction { ui := state.Get("ui").(packer.Ui) var comm packer.Communicator var err error cancel := make(chan struct{}) waitDone := make(chan bool, 1) go func() { ui.Say("Waiting for WinRM to become available...") comm, err = s.waitForWinRM(state, cancel) waitDone <- true }() log.Printf("Waiting for WinRM, up to timeout: %s", s.Config.WinRMTimeout) timeout := time.After(s.Config.WinRMTimeout) WaitLoop: for { // Wait for either WinRM to become available, a timeout to occur, // or an interrupt to come through. select { case <-waitDone: if err != nil { ui.Error(fmt.Sprintf("Error waiting for WinRM: %s", err)) return multistep.ActionHalt } ui.Say("Connected to WinRM!") state.Put("communicator", comm) break WaitLoop case <-timeout: err := fmt.Errorf("Timeout waiting for WinRM.") state.Put("error", err) ui.Error(err.Error()) close(cancel) return multistep.ActionHalt case <-time.After(1 * time.Second): if _, ok := state.GetOk(multistep.StateCancelled); ok { // The step sequence was cancelled, so cancel waiting for WinRM // and just start the halting process. close(cancel) log.Println("Interrupt detected, quitting waiting for WinRM.") return multistep.ActionHalt } } } return multistep.ActionContinue } func (s *StepConnectWinRM) Cleanup(multistep.StateBag) { } func (s *StepConnectWinRM) waitForWinRM(state multistep.StateBag, cancel <-chan struct{}) (packer.Communicator, error) { ctx := context.TODO() var comm packer.Communicator for { select { case <-cancel: log.Println("[INFO] WinRM wait cancelled. Exiting loop.") return nil, errors.New("WinRM wait cancelled") case <-time.After(5 * time.Second): } host, err := s.Host(state) if err != nil { log.Printf("[DEBUG] Error getting WinRM host: %s", err) continue } port := s.Config.WinRMPort if s.WinRMPort != nil { port, err = s.WinRMPort(state) if err != nil { log.Printf("[DEBUG] Error getting WinRM port: %s", err) continue } } user := s.Config.WinRMUser password := s.Config.WinRMPassword if s.WinRMConfig != nil { config, err := s.WinRMConfig(state) if err != nil { log.Printf("[DEBUG] Error getting WinRM config: %s", err) continue } if config.Username != "" { user = config.Username } if config.Password != "" { password = config.Password } } log.Println("[INFO] Attempting WinRM connection...") comm, err = winrm.New(&winrm.Config{ Host: host, Port: port, Username: user, Password: password, Timeout: s.Config.WinRMTimeout, Https: s.Config.WinRMUseSSL, Insecure: s.Config.WinRMInsecure, TransportDecorator: s.Config.WinRMTransportDecorator, }) if err != nil { log.Printf("[ERROR] WinRM connection err: %s", err) continue } break } // run an "echo" command to make sure winrm is actually connected before moving on. var connectCheckCommand = winrmcmd.Powershell(`if (Test-Path variable:global:ProgressPreference){$ProgressPreference='SilentlyContinue'}; echo "WinRM connected."`) var retryableSleep = 5 * time.Second // run an "echo" command to make sure that the winrm is connected for { cmd := &packer.RemoteCmd{Command: connectCheckCommand} var buf, buf2 bytes.Buffer cmd.Stdout = &buf cmd.Stdout = io.MultiWriter(cmd.Stdout, &buf2) select { case <-cancel: log.Println("WinRM wait canceled, exiting loop") return comm, fmt.Errorf("WinRM wait canceled") case <-time.After(retryableSleep): } log.Printf("Checking that WinRM is connected with: '%s'", connectCheckCommand) ui := state.Get("ui").(packer.Ui) err := cmd.RunWithUi(ctx, comm, ui) if err != nil { log.Printf("Communication connection err: %s", err) continue } log.Printf("Connected to machine") stdoutToRead := buf2.String() if !strings.Contains(stdoutToRead, "WinRM connected.") { log.Printf("echo didn't succeed; retrying...") continue } break } return comm, nil }