package common import ( "context" "fmt" "log" "os" "strconv" "time" "github.com/hashicorp/packer/helper/communicator" "github.com/hashicorp/packer/helper/multistep" "github.com/hashicorp/packer/packer" ) // StepProvision runs the provisioners. // // Uses: // communicator packer.Communicator // hook packer.Hook // ui packer.Ui // // Produces: // const HttpIPNotImplemented = "ERR_HTTP_IP_NOT_IMPLEMENTED_BY_BUILDER" const HttpPortNotImplemented = "ERR_HTTP_PORT_NOT_IMPLEMENTED_BY_BUILDER" const HttpAddrNotImplemented = "ERR_HTTP_ADDR_NOT_IMPLEMENTED_BY_BUILDER" func PopulateProvisionHookData(state multistep.StateBag) map[string]interface{} { hookData := make(map[string]interface{}) // Load Builder hook data from state, if it has been set. hd, ok := state.GetOk("generated_data") if ok { hookData = hd.(map[string]interface{}) } // Warn user that the id isn't implemented hookData["ID"] = "ERR_ID_NOT_IMPLEMENTED_BY_BUILDER" // instance_id is placed in state by the builders. // Not yet implemented in Chroot, lxc/lxd, Azure, Qemu. // Implemented in most others including digitalOcean (droplet id), // docker (container_id), and clouds which use "server" internally instead // of instance. id, ok := state.GetOk("instance_id") if ok { hookData["ID"] = id } hookData["PackerRunUUID"] = os.Getenv("PACKER_RUN_UUID") // Packer HTTP info hookData["PackerHTTPIP"] = HttpIPNotImplemented hookData["PackerHTTPPort"] = HttpPortNotImplemented hookData["PackerHTTPAddr"] = HttpAddrNotImplemented httpPort, okPort := state.GetOk("http_port") if okPort { hookData["PackerHTTPPort"] = strconv.Itoa(httpPort.(int)) } httIP, okIP := state.GetOk("http_ip") if okIP { hookData["PackerHTTPIP"] = httIP.(string) } if okPort && okIP { hookData["PackerHTTPAddr"] = fmt.Sprintf("%s:%s", hookData["PackerHTTPIP"], hookData["PackerHTTPPort"]) } // Read communicator data into hook data comm, ok := state.GetOk("communicator_config") if !ok { log.Printf("Unable to load communicator config from state to populate provisionHookData") return hookData } commConf := comm.(*communicator.Config) // Loop over all field values and retrieve them from the ssh config hookData["Host"] = commConf.Host() hookData["Port"] = commConf.Port() hookData["User"] = commConf.User() hookData["Password"] = commConf.Password() hookData["ConnType"] = commConf.Type hookData["SSHPublicKey"] = string(commConf.SSHPublicKey) hookData["SSHPrivateKey"] = string(commConf.SSHPrivateKey) hookData["SSHPrivateKeyFile"] = commConf.SSHPrivateKeyFile hookData["SSHAgentAuth"] = commConf.SSHAgentAuth // Backwards compatibility; in practice, WinRMPassword is fulfilled by // Password. hookData["WinRMPassword"] = commConf.WinRMPassword return hookData } type StepProvision struct { Comm packer.Communicator } func (s *StepProvision) runWithHook(ctx context.Context, state multistep.StateBag, hooktype string) multistep.StepAction { // hooktype will be either packer.HookProvision or packer.HookCleanupProvision comm := s.Comm if comm == nil { raw, ok := state.Get("communicator").(packer.Communicator) if ok { comm = raw.(packer.Communicator) } } hook := state.Get("hook").(packer.Hook) ui := state.Get("ui").(packer.Ui) hookData := PopulateProvisionHookData(state) // Update state generated_data with complete hookData // to make them accessible by post-processors state.Put("generated_data", hookData) // Run the provisioner in a goroutine so we can continually check // for cancellations... if hooktype == packer.HookProvision { log.Println("Running the provision hook") } else if hooktype == packer.HookCleanupProvision { ui.Say("Provisioning step had errors: Running the cleanup provisioner, if present...") } errCh := make(chan error, 1) go func() { errCh <- hook.Run(ctx, hooktype, ui, comm, hookData) }() for { select { case err := <-errCh: if err != nil { if hooktype == packer.HookProvision { // We don't overwrite the error if it's a cleanup // provisioner being run. state.Put("error", err) } else if hooktype == packer.HookCleanupProvision { origErr := state.Get("error").(error) state.Put("error", fmt.Errorf("Cleanup failed: %s. "+ "Original Provisioning error: %s", err, origErr)) } return multistep.ActionHalt } return multistep.ActionContinue case <-ctx.Done(): log.Printf("Cancelling provisioning due to context cancellation: %s", ctx.Err()) return multistep.ActionHalt case <-time.After(1 * time.Second): if _, ok := state.GetOk(multistep.StateCancelled); ok { log.Println("Cancelling provisioning due to interrupt...") return multistep.ActionHalt } } } } func (s *StepProvision) Run(ctx context.Context, state multistep.StateBag) multistep.StepAction { return s.runWithHook(ctx, state, packer.HookProvision) } func (s *StepProvision) Cleanup(state multistep.StateBag) { // We have a "final" provisioner that gets defined by "error-cleanup-provisioner" // which we only call if there's an error during the provision run and // the "error-cleanup-provisioner" is defined. if _, ok := state.GetOk("error"); ok { s.runWithHook(context.Background(), state, packer.HookCleanupProvision) } }