// The chroot package is able to create an Amazon AMI without requiring // the launch of a new instance for every build. It does this by attaching // and mounting the root volume of another AMI and chrooting into that // directory. It then creates an AMI from that attached drive. package chroot import ( "errors" "fmt" "github.com/mitchellh/goamz/ec2" "github.com/mitchellh/multistep" awscommon "github.com/mitchellh/packer/builder/amazon/common" "github.com/mitchellh/packer/common" "github.com/mitchellh/packer/packer" "log" "runtime" ) // The unique ID for this builder const BuilderId = "mitchellh.amazon.chroot" // Config is the configuration that is chained through the steps and // settable from the template. type Config struct { common.PackerConfig `mapstructure:",squash"` awscommon.AccessConfig `mapstructure:",squash"` awscommon.AMIConfig `mapstructure:",squash"` ChrootMounts [][]string `mapstructure:"chroot_mounts"` CopyFiles []string `mapstructure:"copy_files"` DevicePath string `mapstructure:"device_path"` MountCommand string `mapstructure:"mount_command"` MountPath string `mapstructure:"mount_path"` SourceAmi string `mapstructure:"source_ami"` UnmountCommand string `mapstructure:"unmount_command"` tpl *packer.ConfigTemplate } type Builder struct { config Config runner multistep.Runner } func (b *Builder) Prepare(raws ...interface{}) error { md, err := common.DecodeConfig(&b.config, raws...) if err != nil { return err } b.config.tpl, err = packer.NewConfigTemplate() if err != nil { return err } b.config.tpl.UserVars = b.config.PackerUserVars b.config.tpl.Funcs(awscommon.TemplateFuncs) // Defaults if b.config.ChrootMounts == nil { b.config.ChrootMounts = make([][]string, 0) } if b.config.CopyFiles == nil { b.config.CopyFiles = make([]string, 0) } if len(b.config.ChrootMounts) == 0 { b.config.ChrootMounts = [][]string{ []string{"proc", "proc", "/proc"}, []string{"sysfs", "sysfs", "/sys"}, []string{"bind", "/dev", "/dev"}, []string{"devpts", "devpts", "/dev/pts"}, []string{"binfmt_misc", "binfmt_misc", "/proc/sys/fs/binfmt_misc"}, } } if len(b.config.CopyFiles) == 0 { b.config.CopyFiles = []string{"/etc/resolv.conf"} } if b.config.MountCommand == "" { b.config.MountCommand = "mount" } if b.config.MountPath == "" { b.config.MountPath = "packer-amazon-chroot-volumes/{{.Device}}" } if b.config.UnmountCommand == "" { b.config.UnmountCommand = "umount" } // Accumulate any errors errs := common.CheckUnusedConfig(md) errs = packer.MultiErrorAppend(errs, b.config.AccessConfig.Prepare(b.config.tpl)...) errs = packer.MultiErrorAppend(errs, b.config.AMIConfig.Prepare(b.config.tpl)...) for i, mounts := range b.config.ChrootMounts { if len(mounts) != 3 { errs = packer.MultiErrorAppend( errs, errors.New("Each chroot_mounts entry should be three elements.")) break } for j, entry := range mounts { b.config.ChrootMounts[i][j], err = b.config.tpl.Process(entry, nil) if err != nil { errs = packer.MultiErrorAppend(errs, fmt.Errorf("Error processing chroot_mounts[%d][%d]: %s", i, j, err)) } } } for i, file := range b.config.CopyFiles { var err error b.config.CopyFiles[i], err = b.config.tpl.Process(file, nil) if err != nil { errs = packer.MultiErrorAppend(errs, fmt.Errorf("Error processing copy_files[%d]: %s", i, err)) } } if b.config.SourceAmi == "" { errs = packer.MultiErrorAppend(errs, errors.New("source_ami is required.")) } templates := map[string]*string{ "device_path": &b.config.DevicePath, "mount_command": &b.config.MountCommand, "source_ami": &b.config.SourceAmi, "unmount_command": &b.config.UnmountCommand, } for n, ptr := range templates { var err error *ptr, err = b.config.tpl.Process(*ptr, nil) if err != nil { errs = packer.MultiErrorAppend( errs, fmt.Errorf("Error processing %s: %s", n, err)) } } if errs != nil && len(errs.Errors) > 0 { return errs } log.Printf("Config: %+v", b.config) return nil } func (b *Builder) Run(ui packer.Ui, hook packer.Hook, cache packer.Cache) (packer.Artifact, error) { if runtime.GOOS != "linux" { return nil, errors.New("The amazon-chroot builder only works on Linux environments.") } region, err := b.config.Region() if err != nil { return nil, err } auth, err := b.config.AccessConfig.Auth() if err != nil { return nil, err } ec2conn := ec2.New(auth, region) // Setup the state bag and initial state for the steps state := new(multistep.BasicStateBag) state.Put("config", &b.config) state.Put("ec2", ec2conn) state.Put("hook", hook) state.Put("ui", ui) // Build the steps steps := []multistep.Step{ &StepInstanceInfo{}, &StepSourceAMIInfo{}, &StepFlock{}, &StepPrepareDevice{}, &StepCreateVolume{}, &StepAttachVolume{}, &StepEarlyUnflock{}, &StepMountDevice{}, &StepMountExtra{}, &StepCopyFiles{}, &StepChrootProvision{}, &StepEarlyCleanup{}, &StepSnapshot{}, &StepRegisterAMI{}, &awscommon.StepAMIRegionCopy{ Regions: b.config.AMIRegions, }, &awscommon.StepModifyAMIAttributes{ Description: b.config.AMIDescription, Users: b.config.AMIUsers, Groups: b.config.AMIGroups, }, &awscommon.StepCreateTags{ Tags: b.config.AMITags, }, } // Run! if b.config.PackerDebug { b.runner = &multistep.DebugRunner{ Steps: steps, PauseFn: common.MultistepDebugFn(ui), } } else { b.runner = &multistep.BasicRunner{Steps: steps} } b.runner.Run(state) // If there was an error, return that if rawErr, ok := state.GetOk("error"); ok { return nil, rawErr.(error) } // If there are no AMIs, then just return if _, ok := state.GetOk("amis"); !ok { return nil, nil } // Build the artifact and return it artifact := &awscommon.Artifact{ Amis: state.Get("amis").(map[string]string), BuilderIdValue: BuilderId, Conn: ec2conn, } return artifact, nil } func (b *Builder) Cancel() { if b.runner != nil { log.Println("Cancelling the step runner...") b.runner.Cancel() } }