package uhost import ( "context" "fmt" "math/rand" "strings" "time" ucloudcommon "github.com/hashicorp/packer/builder/ucloud/common" "github.com/hashicorp/packer/common/retry" "github.com/hashicorp/packer/helper/multistep" "github.com/hashicorp/packer/packer" "github.com/ucloud/ucloud-sdk-go/services/uhost" "github.com/ucloud/ucloud-sdk-go/ucloud" ) type stepCreateInstance struct { Region string Zone string InstanceType string InstanceName string BootDiskType string SourceImageId string UsePrivateIp bool instanceId string } func (s *stepCreateInstance) Run(ctx context.Context, state multistep.StateBag) multistep.StepAction { client := state.Get("client").(*ucloudcommon.UCloudClient) conn := client.UHostConn ui := state.Get("ui").(packer.Ui) ui.Say("Creating Instance...") resp, err := conn.CreateUHostInstance(s.buildCreateInstanceRequest(state)) if err != nil { return ucloudcommon.Halt(state, err, "Error on creating instance") } instanceId := resp.UHostIds[0] err = retry.Config{ Tries: 20, ShouldRetry: func(err error) bool { return ucloudcommon.IsExpectedStateError(err) }, RetryDelay: (&retry.Backoff{InitialBackoff: 2 * time.Second, MaxBackoff: 6 * time.Second, Multiplier: 2}).Linear, }.Run(ctx, func(ctx context.Context) error { inst, err := client.DescribeUHostById(instanceId) if err != nil { return err } if inst.State == "ResizeFail" { return fmt.Errorf("resizing instance failed") } if inst.State == "Install Fail" { return fmt.Errorf("install failed") } if inst == nil || inst.State != ucloudcommon.InstanceStateRunning { return ucloudcommon.NewExpectedStateError("instance", instanceId) } return nil }) if err != nil { return ucloudcommon.Halt(state, err, fmt.Sprintf("Error on waiting for instance %q to become available", instanceId)) } ui.Message(fmt.Sprintf("Creating instance %q complete", instanceId)) instance, err := client.DescribeUHostById(instanceId) if err != nil { return ucloudcommon.Halt(state, err, fmt.Sprintf("Error on reading instance when creating %q", instanceId)) } s.instanceId = instanceId state.Put("instance", instance) // instance_id is the generic term used so that users can have access to the // instance id inside of the provisioners, used in step_provision. state.Put("instance_id", instance) if instance.BootDiskState != ucloudcommon.BootDiskStateNormal { ui.Say("Waiting for boot disk of instance initialized") if s.BootDiskType == "local_normal" || s.BootDiskType == "local_ssd" { ui.Message(fmt.Sprintf("Warning: It takes around 10 mins for boot disk initialization when `boot_disk_type` is %q", s.BootDiskType)) } err = retry.Config{ Tries: 200, ShouldRetry: func(err error) bool { return ucloudcommon.IsExpectedStateError(err) }, RetryDelay: (&retry.Backoff{InitialBackoff: 2 * time.Second, MaxBackoff: 12 * time.Second, Multiplier: 2}).Linear, }.Run(ctx, func(ctx context.Context) error { inst, err := client.DescribeUHostById(instanceId) if err != nil { return err } if inst.BootDiskState != ucloudcommon.BootDiskStateNormal { return ucloudcommon.NewExpectedStateError("boot_disk of instance", instanceId) } return nil }) if err != nil { return ucloudcommon.Halt(state, err, fmt.Sprintf("Error on waiting for boot disk of instance %q initialized", instanceId)) } ui.Message(fmt.Sprintf("Waiting for boot disk of instance %q initialized complete", instanceId)) } return multistep.ActionContinue } func (s *stepCreateInstance) Cleanup(state multistep.StateBag) { if s.instanceId == "" { return } _, cancelled := state.GetOk(multistep.StateCancelled) _, halted := state.GetOk(multistep.StateHalted) ui := state.Get("ui").(packer.Ui) ctx := context.TODO() if cancelled || halted { ui.Say("Deleting instance because of cancellation or error...") } else { ui.Say("Deleting instance...") } client := state.Get("client").(*ucloudcommon.UCloudClient) conn := client.UHostConn instance, err := client.DescribeUHostById(s.instanceId) if err != nil { if ucloudcommon.IsNotFoundError(err) { return } ui.Error(fmt.Sprintf("Error on reading instance when deleting %q, %s", s.instanceId, err.Error())) return } if instance.State != ucloudcommon.InstanceStateStopped { stopReq := conn.NewStopUHostInstanceRequest() stopReq.UHostId = ucloud.String(s.instanceId) if _, err = conn.StopUHostInstance(stopReq); err != nil { ui.Error(fmt.Sprintf("Error on stopping instance when deleting %q, %s", s.instanceId, err.Error())) return } err = retry.Config{ Tries: 30, ShouldRetry: func(err error) bool { return ucloudcommon.IsExpectedStateError(err) }, RetryDelay: (&retry.Backoff{InitialBackoff: 2 * time.Second, MaxBackoff: 6 * time.Second, Multiplier: 2}).Linear, }.Run(ctx, func(ctx context.Context) error { instance, err := client.DescribeUHostById(s.instanceId) if err != nil { return err } if instance.State != ucloudcommon.InstanceStateStopped { return ucloudcommon.NewExpectedStateError("instance", s.instanceId) } return nil }) if err != nil { ui.Error(fmt.Sprintf("Error on waiting for stopping instance when deleting %q, %s", s.instanceId, err.Error())) return } } deleteReq := conn.NewTerminateUHostInstanceRequest() deleteReq.UHostId = ucloud.String(s.instanceId) deleteReq.ReleaseUDisk = ucloud.Bool(true) deleteReq.ReleaseEIP = ucloud.Bool(true) if _, err = conn.TerminateUHostInstance(deleteReq); err != nil { ui.Error(fmt.Sprintf("Error on deleting instance %q, %s", s.instanceId, err.Error())) return } err = retry.Config{ Tries: 30, ShouldRetry: func(err error) bool { return !ucloudcommon.IsNotFoundError(err) }, RetryDelay: (&retry.Backoff{InitialBackoff: 2 * time.Second, MaxBackoff: 6 * time.Second, Multiplier: 2}).Linear, }.Run(ctx, func(ctx context.Context) error { _, err := client.DescribeUHostById(s.instanceId) return err }) if err != nil { ui.Error(fmt.Sprintf("Error on waiting for instance %q to be deleted: %s", s.instanceId, err.Error())) return } ui.Message(fmt.Sprintf("Deleting instance %q complete", s.instanceId)) } func (s *stepCreateInstance) buildCreateInstanceRequest(state multistep.StateBag) *uhost.CreateUHostInstanceRequest { client := state.Get("client").(*ucloudcommon.UCloudClient) conn := client.UHostConn srcImage := state.Get("source_image").(*uhost.UHostImageSet) config := state.Get("config").(*Config) connectConfig := &config.RunConfig.Comm var password string if srcImage.OsType == "Linux" { password = config.Comm.SSHPassword } if password == "" { password = fmt.Sprintf("%s%s%s", s.randStringFromCharSet(5, ucloudcommon.DefaultPasswordStr), s.randStringFromCharSet(1, ucloudcommon.DefaultPasswordSpe), s.randStringFromCharSet(5, ucloudcommon.DefaultPasswordNum)) if srcImage.OsType == "Linux" { connectConfig.SSHPassword = password } } req := conn.NewCreateUHostInstanceRequest() t, _ := ucloudcommon.ParseInstanceType(s.InstanceType) req.CPU = ucloud.Int(t.CPU) req.Memory = ucloud.Int(t.Memory) req.Name = ucloud.String(s.InstanceName) req.LoginMode = ucloud.String("Password") req.Zone = ucloud.String(s.Zone) req.ImageId = ucloud.String(s.SourceImageId) req.ChargeType = ucloud.String("Dynamic") req.Password = ucloud.String(password) req.MachineType = ucloud.String("N") req.MinimalCpuPlatform = ucloud.String("Intel/Auto") if t.HostType == "o" { req.MachineType = ucloud.String("O") } if v, ok := state.GetOk("security_group_id"); ok { req.SecurityGroupId = ucloud.String(v.(string)) } if v, ok := state.GetOk("vpc_id"); ok { req.VPCId = ucloud.String(v.(string)) } if v, ok := state.GetOk("subnet_id"); ok { req.SubnetId = ucloud.String(v.(string)) } bootDisk := uhost.UHostDisk{} bootDisk.IsBoot = ucloud.String("true") bootDisk.Size = ucloud.Int(srcImage.ImageSize) bootDisk.Type = ucloud.String(ucloudcommon.BootDiskTypeMap.Convert(s.BootDiskType)) req.Disks = append(req.Disks, bootDisk) if !s.UsePrivateIp { operatorName := ucloud.String("International") if strings.HasPrefix(s.Region, "cn-") { operatorName = ucloud.String("Bgp") } networkInterface := uhost.CreateUHostInstanceParamNetworkInterface{ EIP: &uhost.CreateUHostInstanceParamNetworkInterfaceEIP{ Bandwidth: ucloud.Int(30), PayMode: ucloud.String("Traffic"), OperatorName: operatorName, }, } req.NetworkInterface = append(req.NetworkInterface, networkInterface) } return req } func (s *stepCreateInstance) randStringFromCharSet(strlen int, charSet string) string { rand.Seed(time.Now().UTC().UnixNano()) result := make([]byte, strlen) for i := 0; i < strlen; i++ { result[i] = charSet[rand.Intn(len(charSet))] } return string(result) }