package common import ( gossh "code.google.com/p/go.crypto/ssh" "errors" "fmt" "github.com/mitchellh/multistep" "github.com/mitchellh/packer/communicator/ssh" "github.com/mitchellh/packer/packer" "log" "time" ) // StepConnectSSH is a multistep Step implementation that waits for SSH // 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 StepConnectSSH struct { // SSHAddress is a function that returns the TCP address to connect to // for SSH. This is a function so that you can query information // if necessary for this address. SSHAddress func(map[string]interface{}) (string, error) // SSHConfig is a function that returns the proper client configuration // for SSH access. SSHConfig func(map[string]interface{}) (*gossh.ClientConfig, error) // SSHWaitTimeout is the total timeout to wait for SSH to become available. SSHWaitTimeout time.Duration cancel bool comm packer.Communicator } func (s *StepConnectSSH) Run(state map[string]interface{}) multistep.StepAction { ui := state["ui"].(packer.Ui) var comm packer.Communicator var err error waitDone := make(chan bool, 1) go func() { ui.Say("Waiting for SSH to become available...") comm, err = s.waitForSSH(state) waitDone <- true }() log.Printf("Waiting for SSH, up to timeout: %s", s.SSHWaitTimeout) timeout := time.After(s.SSHWaitTimeout) WaitLoop: for { // Wait for either SSH 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 SSH: %s", err)) return multistep.ActionHalt } ui.Say("Connected to SSH!") s.comm = comm state["communicator"] = comm break WaitLoop case <-timeout: ui.Error("Timeout waiting for SSH.") s.cancel = true return multistep.ActionHalt case <-time.After(1 * time.Second): if _, ok := state[multistep.StateCancelled]; ok { // The step sequence was cancelled, so cancel waiting for SSH // and just start the halting process. s.cancel = true log.Println("Interrupt detected, quitting waiting for SSH.") return multistep.ActionHalt } } } return multistep.ActionContinue } func (s *StepConnectSSH) Cleanup(map[string]interface{}) { } func (s *StepConnectSSH) waitForSSH(state map[string]interface{}) (packer.Communicator, error) { handshakeAttempts := 0 var comm packer.Communicator for { time.Sleep(5 * time.Second) if s.cancel { log.Println("SSH wait cancelled. Exiting loop.") return nil, errors.New("SSH wait cancelled") } // First we request the TCP connection information address, err := s.SSHAddress(state) if err != nil { log.Printf("Error getting SSH address: %s", err) continue } // Retrieve the SSH configuration sshConfig, err := s.SSHConfig(state) if err != nil { log.Printf("Error getting SSH config: %s", err) continue } // Attempt to connect to SSH port connFunc := ssh.ConnectFunc("tcp", address, 5*time.Minute) nc, err := connFunc() if err != nil { log.Printf("TCP connection to SSH ip/port failed: %s", err) continue } nc.Close() // Then we attempt to connect via SSH config := &ssh.Config{ Connection: connFunc, SSHConfig: sshConfig, } comm, err = ssh.New(config) if err != nil { log.Printf("SSH handshake err: %s", err) handshakeAttempts += 1 if handshakeAttempts < 10 { // Try to connect via SSH a handful of times continue } return nil, err } break } return comm, nil }