package amazonimport import ( "fmt" "log" "os" "strings" "github.com/aws/aws-sdk-go/aws" "github.com/aws/aws-sdk-go/service/ec2" "github.com/aws/aws-sdk-go/service/s3" "github.com/aws/aws-sdk-go/service/s3/s3manager" awscommon "github.com/hashicorp/packer/builder/amazon/common" "github.com/hashicorp/packer/common" "github.com/hashicorp/packer/helper/config" "github.com/hashicorp/packer/packer" "github.com/hashicorp/packer/template/interpolate" ) const BuilderId = "packer.post-processor.amazon-import" // Configuration of this post processor type Config struct { common.PackerConfig `mapstructure:",squash"` awscommon.AccessConfig `mapstructure:",squash"` // Variables specific to this post processor S3Bucket string `mapstructure:"s3_bucket_name"` S3Key string `mapstructure:"s3_key_name"` SkipClean bool `mapstructure:"skip_clean"` Tags map[string]string `mapstructure:"tags"` Name string `mapstructure:"ami_name"` Description string `mapstructure:"ami_description"` Users []string `mapstructure:"ami_users"` Groups []string `mapstructure:"ami_groups"` LicenseType string `mapstructure:"license_type"` RoleName string `mapstructure:"role_name"` Format string `mapstructure:"format"` ctx interpolate.Context } type PostProcessor struct { config Config } // Entry point for configuration parsing when we've defined func (p *PostProcessor) Configure(raws ...interface{}) error { p.config.ctx.Funcs = awscommon.TemplateFuncs err := config.Decode(&p.config, &config.DecodeOpts{ Interpolate: true, InterpolateContext: &p.config.ctx, InterpolateFilter: &interpolate.RenderFilter{ Exclude: []string{ "s3_key_name", }, }, }, raws...) if err != nil { return err } // Set defaults if p.config.Format == "" { p.config.Format = "ova" } if p.config.S3Key == "" { p.config.S3Key = "packer-import-{{timestamp}}." + p.config.Format } errs := new(packer.MultiError) // Check and render s3_key_name if err = interpolate.Validate(p.config.S3Key, &p.config.ctx); err != nil { errs = packer.MultiErrorAppend( errs, fmt.Errorf("Error parsing s3_key_name template: %s", err)) } // Check we have AWS access variables defined somewhere errs = packer.MultiErrorAppend(errs, p.config.AccessConfig.Prepare(&p.config.ctx)...) // define all our required parameters templates := map[string]*string{ "s3_bucket_name": &p.config.S3Bucket, } // Check out required params are defined for key, ptr := range templates { if *ptr == "" { errs = packer.MultiErrorAppend( errs, fmt.Errorf("%s must be set", key)) } } switch p.config.Format { case "ova", "raw", "vmdk", "vhd", "vhdx": default: errs = packer.MultiErrorAppend( errs, fmt.Errorf("invalid format '%s'. Only 'ova', 'raw', 'vhd', 'vhdx', or 'vmdk' are allowed", p.config.Format)) } // Anything which flagged return back up the stack if len(errs.Errors) > 0 { return errs } awscommon.LogEnvOverrideWarnings() packer.LogSecretFilter.Set(p.config.AccessKey, p.config.SecretKey, p.config.Token) log.Println(p.config) return nil } func (p *PostProcessor) PostProcess(ui packer.Ui, artifact packer.Artifact) (packer.Artifact, bool, error) { var err error session, err := p.config.Session() if err != nil { return nil, false, err } config := session.Config // Render this key since we didn't in the configure phase p.config.S3Key, err = interpolate.Render(p.config.S3Key, &p.config.ctx) if err != nil { return nil, false, fmt.Errorf("Error rendering s3_key_name template: %s", err) } log.Printf("Rendered s3_key_name as %s", p.config.S3Key) log.Println("Looking for image in artifact") // Locate the files output from the builder source := "" for _, path := range artifact.Files() { if strings.HasSuffix(path, "."+p.config.Format) { source = path break } } // Hope we found something useful if source == "" { return nil, false, fmt.Errorf("No %s image file found in artifact from builder", p.config.Format) } // open the source file log.Printf("Opening file %s to upload", source) file, err := os.Open(source) if err != nil { return nil, false, fmt.Errorf("Failed to open %s: %s", source, err) } ui.Message(fmt.Sprintf("Uploading %s to s3://%s/%s", source, p.config.S3Bucket, p.config.S3Key)) // Copy the image file into the S3 bucket specified uploader := s3manager.NewUploader(session) _, err = uploader.Upload(&s3manager.UploadInput{ Body: file, Bucket: &p.config.S3Bucket, Key: &p.config.S3Key, }) if err != nil { return nil, false, fmt.Errorf("Failed to upload %s: %s", source, err) } // May as well stop holding this open now file.Close() ui.Message(fmt.Sprintf("Completed upload of %s to s3://%s/%s", source, p.config.S3Bucket, p.config.S3Key)) // Call EC2 image import process log.Printf("Calling EC2 to import from s3://%s/%s", p.config.S3Bucket, p.config.S3Key) ec2conn := ec2.New(session) params := &ec2.ImportImageInput{ DiskContainers: []*ec2.ImageDiskContainer{ { Format: &p.config.Format, UserBucket: &ec2.UserBucket{ S3Bucket: &p.config.S3Bucket, S3Key: &p.config.S3Key, }, }, }, } if p.config.RoleName != "" { params.SetRoleName(p.config.RoleName) } if p.config.LicenseType != "" { ui.Message(fmt.Sprintf("Setting license type to '%s'", p.config.LicenseType)) params.LicenseType = &p.config.LicenseType } import_start, err := ec2conn.ImportImage(params) if err != nil { return nil, false, fmt.Errorf("Failed to start import from s3://%s/%s: %s", p.config.S3Bucket, p.config.S3Key, err) } ui.Message(fmt.Sprintf("Started import of s3://%s/%s, task id %s", p.config.S3Bucket, p.config.S3Key, *import_start.ImportTaskId)) // Wait for import process to complete, this takes a while ui.Message(fmt.Sprintf("Waiting for task %s to complete (may take a while)", *import_start.ImportTaskId)) err = awscommon.WaitUntilImageImported(aws.BackgroundContext(), ec2conn, *import_start.ImportTaskId) if err != nil { // Retrieve the status message import_result, err2 := ec2conn.DescribeImportImageTasks(&ec2.DescribeImportImageTasksInput{ ImportTaskIds: []*string{ import_start.ImportTaskId, }, }) statusMessage := "Error retrieving status message" if err2 == nil { statusMessage = *import_result.ImportImageTasks[0].StatusMessage } return nil, false, fmt.Errorf("Import task %s failed with status message: %s, error: %s", *import_start.ImportTaskId, statusMessage, err) } // Retrieve what the outcome was for the import task import_result, err := ec2conn.DescribeImportImageTasks(&ec2.DescribeImportImageTasksInput{ ImportTaskIds: []*string{ import_start.ImportTaskId, }, }) if err != nil { return nil, false, fmt.Errorf("Failed to find import task %s: %s", *import_start.ImportTaskId, err) } // Check it was actually completed if *import_result.ImportImageTasks[0].Status != "completed" { // The most useful error message is from the job itself return nil, false, fmt.Errorf("Import task %s failed: %s", *import_start.ImportTaskId, *import_result.ImportImageTasks[0].StatusMessage) } ui.Message(fmt.Sprintf("Import task %s complete", *import_start.ImportTaskId)) // Pull AMI ID out of the completed job createdami := *import_result.ImportImageTasks[0].ImageId if p.config.Name != "" { ui.Message(fmt.Sprintf("Starting rename of AMI (%s)", createdami)) resp, err := ec2conn.CopyImage(&ec2.CopyImageInput{ Name: &p.config.Name, SourceImageId: &createdami, SourceRegion: config.Region, }) if err != nil { return nil, false, fmt.Errorf("Error Copying AMI (%s): %s", createdami, err) } ui.Message(fmt.Sprintf("Waiting for AMI rename to complete (may take a while)")) if err := awscommon.WaitUntilAMIAvailable(aws.BackgroundContext(), ec2conn, *resp.ImageId); err != nil { return nil, false, fmt.Errorf("Error waiting for AMI (%s): %s", *resp.ImageId, err) } _, err = ec2conn.DeregisterImage(&ec2.DeregisterImageInput{ ImageId: &createdami, }) if err != nil { return nil, false, fmt.Errorf("Error deregistering existing AMI: %s", err) } ui.Message(fmt.Sprintf("AMI rename completed")) createdami = *resp.ImageId } // If we have tags, then apply them now to both the AMI and snaps // created by the import if len(p.config.Tags) > 0 { var ec2Tags []*ec2.Tag log.Printf("Repacking tags into AWS format") for key, value := range p.config.Tags { ui.Message(fmt.Sprintf("Adding tag \"%s\": \"%s\"", key, value)) ec2Tags = append(ec2Tags, &ec2.Tag{ Key: aws.String(key), Value: aws.String(value), }) } resourceIds := []*string{&createdami} log.Printf("Getting details of %s", createdami) imageResp, err := ec2conn.DescribeImages(&ec2.DescribeImagesInput{ ImageIds: resourceIds, }) if err != nil { return nil, false, fmt.Errorf("Failed to retrieve details for AMI %s: %s", createdami, err) } if len(imageResp.Images) == 0 { return nil, false, fmt.Errorf("AMI %s has no images", createdami) } image := imageResp.Images[0] log.Printf("Walking block device mappings for %s to find snapshots", createdami) for _, device := range image.BlockDeviceMappings { if device.Ebs != nil && device.Ebs.SnapshotId != nil { ui.Message(fmt.Sprintf("Tagging snapshot %s", *device.Ebs.SnapshotId)) resourceIds = append(resourceIds, device.Ebs.SnapshotId) } } ui.Message(fmt.Sprintf("Tagging AMI %s", createdami)) _, err = ec2conn.CreateTags(&ec2.CreateTagsInput{ Resources: resourceIds, Tags: ec2Tags, }) if err != nil { return nil, false, fmt.Errorf("Failed to add tags to resources %#v: %s", resourceIds, err) } } // Apply attributes for AMI specified in config // (duped from builder/amazon/common/step_modify_ami_attributes.go) options := make(map[string]*ec2.ModifyImageAttributeInput) if p.config.Description != "" { options["description"] = &ec2.ModifyImageAttributeInput{ Description: &ec2.AttributeValue{Value: &p.config.Description}, } } if len(p.config.Groups) > 0 { groups := make([]*string, len(p.config.Groups)) adds := make([]*ec2.LaunchPermission, len(p.config.Groups)) addGroups := &ec2.ModifyImageAttributeInput{ LaunchPermission: &ec2.LaunchPermissionModifications{}, } for i, g := range p.config.Groups { groups[i] = aws.String(g) adds[i] = &ec2.LaunchPermission{ Group: aws.String(g), } } addGroups.UserGroups = groups addGroups.LaunchPermission.Add = adds options["groups"] = addGroups } if len(p.config.Users) > 0 { users := make([]*string, len(p.config.Users)) adds := make([]*ec2.LaunchPermission, len(p.config.Users)) for i, u := range p.config.Users { users[i] = aws.String(u) adds[i] = &ec2.LaunchPermission{UserId: aws.String(u)} } options["users"] = &ec2.ModifyImageAttributeInput{ UserIds: users, LaunchPermission: &ec2.LaunchPermissionModifications{ Add: adds, }, } } if len(options) > 0 { for name, input := range options { ui.Message(fmt.Sprintf("Modifying: %s", name)) input.ImageId = &createdami _, err := ec2conn.ModifyImageAttribute(input) if err != nil { return nil, false, fmt.Errorf("Error modifying AMI attributes: %s", err) } } } // Add the reported AMI ID to the artifact list log.Printf("Adding created AMI ID %s in region %s to output artifacts", createdami, *config.Region) artifact = &awscommon.Artifact{ Amis: map[string]string{ *config.Region: createdami, }, BuilderIdValue: BuilderId, Session: session, } if !p.config.SkipClean { ui.Message(fmt.Sprintf("Deleting import source s3://%s/%s", p.config.S3Bucket, p.config.S3Key)) s3conn := s3.New(session) _, err = s3conn.DeleteObject(&s3.DeleteObjectInput{ Bucket: &p.config.S3Bucket, Key: &p.config.S3Key, }) if err != nil { return nil, false, fmt.Errorf("Failed to delete s3://%s/%s: %s", p.config.S3Bucket, p.config.S3Key, err) } } return artifact, false, nil }