示例#1
0
func genManifest(path string) *schema.ImageManifest {
	// Get runtime.json and config.json
	runtimePath := path + "/runtime.json"
	configPath := path + "/config.json"

	runtime, err := ioutil.ReadFile(runtimePath)
	if err != nil {
		if debugEnabled {
			log.Printf("Open file runtime.json failed: %v", err)
		}
		return nil
	}

	config, err := ioutil.ReadFile(configPath)
	if err != nil {
		if debugEnabled {
			log.Printf("Open file config.json failed: %v", err)
		}
		return nil
	}

	var spec specs.LinuxSpec
	err = json.Unmarshal(config, &spec)
	if err != nil {
		if debugEnabled {
			log.Printf("Unmarshal config.json failed: %v", err)
		}
		return nil
	}

	var runSpec specs.LinuxRuntimeSpec
	err = json.Unmarshal(runtime, &runSpec)
	if err != nil {
		if debugEnabled {
			log.Printf("Unmarshal runtime.json failed: %v", err)
		}
		return nil
	}
	// Begin to convert runtime.json/config.json to manifest
	m := new(schema.ImageManifest)

	// 1. Assemble "acKind" field
	m.ACKind = schema.ImageManifestKind

	// 2. Assemble "acVersion" field
	m.ACVersion = schema.AppContainerVersion

	// 3. Assemble "name" field
	m.Name = types.ACIdentifier(manifestName)

	// 4. Assemble "labels" field
	// 4.1 "version"
	label := new(types.Label)
	label.Name = types.ACIdentifier("version")
	label.Value = spec.Version
	m.Labels = append(m.Labels, *label)
	// 4.2 "os"
	label = new(types.Label)
	label.Name = types.ACIdentifier("os")
	label.Value = spec.Platform.OS
	m.Labels = append(m.Labels, *label)
	// 4.3 "arch"
	label = new(types.Label)
	label.Name = types.ACIdentifier("arch")
	label.Value = spec.Platform.Arch
	m.Labels = append(m.Labels, *label)

	// 5. Assemble "app" field
	app := new(types.App)
	// 5.1 "exec"
	app.Exec = spec.Process.Args

	prefixDir := ""
	//var exeStr string
	if app.Exec == nil {
		app.Exec = append(app.Exec, "/bin/sh")
	} else {
		if !filepath.IsAbs(app.Exec[0]) {
			if spec.Process.Cwd == "" {
				prefixDir = "/"
			} else {
				prefixDir = spec.Process.Cwd
			}
		}
		app.Exec[0] = prefixDir + app.Exec[0]
	}

	// 5.2 "user"
	app.User = fmt.Sprintf("%d", spec.Process.User.UID)
	// 5.3 "group"
	app.Group = fmt.Sprintf("%d", spec.Process.User.GID)
	// 5.4 "eventHandlers"
	event := new(types.EventHandler)
	event.Name = "pre-start"
	for index := range runSpec.Hooks.Prestart {
		event.Exec = append(event.Exec, runSpec.Hooks.Prestart[index].Path)
		event.Exec = append(event.Exec, runSpec.Hooks.Prestart[index].Args...)
		event.Exec = append(event.Exec, runSpec.Hooks.Prestart[index].Env...)
	}
	if len(event.Exec) == 0 {
		event.Exec = append(event.Exec, "/bin/echo")
		event.Exec = append(event.Exec, "-n")
	}
	app.EventHandlers = append(app.EventHandlers, *event)
	event = new(types.EventHandler)
	event.Name = "post-stop"
	for index := range runSpec.Hooks.Poststop {
		event.Exec = append(event.Exec, runSpec.Hooks.Poststop[index].Path)
		event.Exec = append(event.Exec, runSpec.Hooks.Poststop[index].Args...)
		event.Exec = append(event.Exec, runSpec.Hooks.Poststop[index].Env...)
	}
	if len(event.Exec) == 0 {
		event.Exec = append(event.Exec, "/bin/echo")
		event.Exec = append(event.Exec, "-n")
	}
	app.EventHandlers = append(app.EventHandlers, *event)
	// 5.5 "workingDirectory"
	app.WorkingDirectory = spec.Process.Cwd
	// 5.6 "environment"
	env := new(types.EnvironmentVariable)
	for index := range spec.Process.Env {
		s := strings.Split(spec.Process.Env[index], "=")
		env.Name = s[0]
		env.Value = s[1]
		app.Environment = append(app.Environment, *env)
	}

	// 5.7 "mountPoints"
	for index := range spec.Mounts {
		mount := new(types.MountPoint)
		mount.Name = types.ACName(spec.Mounts[index].Name)
		mount.Path = spec.Mounts[index].Path
		mount.ReadOnly = false
		app.MountPoints = append(app.MountPoints, *mount)
	}

	// 5.8 "ports"

	// 5.9 "isolators"
	if runSpec.Linux.Resources != nil {
		if runSpec.Linux.Resources.CPU.Quota != 0 {
			cpuLimt := new(ResourceCPU)
			cpuLimt.Limit = fmt.Sprintf("%dm", runSpec.Linux.Resources.CPU.Quota)
			isolator := new(types.Isolator)
			isolator.Name = types.ACIdentifier("resource/cpu")
			bytes, _ := json.Marshal(cpuLimt)

			valueRaw := json.RawMessage(bytes)
			isolator.ValueRaw = &valueRaw

			app.Isolators = append(app.Isolators, *isolator)
		}
		if runSpec.Linux.Resources.Memory.Limit != 0 {
			memLimt := new(ResourceMem)
			memLimt.Limit = fmt.Sprintf("%dG", runSpec.Linux.Resources.Memory.Limit/(1024*1024*1024))
			isolator := new(types.Isolator)
			isolator.Name = types.ACIdentifier("resource/memory")
			bytes, _ := json.Marshal(memLimt)

			valueRaw := json.RawMessage(bytes)
			isolator.ValueRaw = &valueRaw

			app.Isolators = append(app.Isolators, *isolator)
		}
	}

	if len(spec.Linux.Capabilities) != 0 {
		isolatorCapSet := new(IsolatorCapSet)
		isolatorCapSet.Sets = append(isolatorCapSet.Sets, spec.Linux.Capabilities...)

		isolator := new(types.Isolator)
		isolator.Name = types.ACIdentifier(types.LinuxCapabilitiesRetainSetName)
		bytes, _ := json.Marshal(isolatorCapSet)

		valueRaw := json.RawMessage(bytes)
		isolator.ValueRaw = &valueRaw

		app.Isolators = append(app.Isolators, *isolator)
	}

	// 6. "annotations"

	// 7. "dependencies"

	// 8. "pathWhitelist"

	m.App = app

	return m
}