package engine import ( "bufio" "fmt" "github.com/dotcloud/docker/utils" "io" "os" "sort" "strings" ) // Installer is a standard interface for objects which can "install" themselves // on an engine by registering handlers. // This can be used as an entrypoint for external plugins etc. type Installer interface { Install(*Engine) error } type Handler func(*Job) Status var globalHandlers map[string]Handler func init() { globalHandlers = make(map[string]Handler) } func Register(name string, handler Handler) error { _, exists := globalHandlers[name] if exists { return fmt.Errorf("Can't overwrite global handler for command %s", name) } globalHandlers[name] = handler return nil } func unregister(name string) { delete(globalHandlers, name) } // The Engine is the core of Docker. // It acts as a store for *containers*, and allows manipulation of these // containers by executing *jobs*. type Engine struct { handlers map[string]Handler catchall Handler hack Hack // data for temporary hackery (see hack.go) id string Stdout io.Writer Stderr io.Writer Stdin io.Reader Logging bool } func (eng *Engine) Register(name string, handler Handler) error { _, exists := eng.handlers[name] if exists { return fmt.Errorf("Can't overwrite handler for command %s", name) } eng.handlers[name] = handler return nil } func (eng *Engine) RegisterCatchall(catchall Handler) { eng.catchall = catchall } // New initializes a new engine. func New() *Engine { eng := &Engine{ handlers: make(map[string]Handler), id: utils.RandomString(), Stdout: os.Stdout, Stderr: os.Stderr, Stdin: os.Stdin, Logging: true, } eng.Register("commands", func(job *Job) Status { for _, name := range eng.commands() { job.Printf("%s\n", name) } return StatusOK }) // Copy existing global handlers for k, v := range globalHandlers { eng.handlers[k] = v } return eng } func (eng *Engine) String() string { return fmt.Sprintf("%s", eng.id[:8]) } // Commands returns a list of all currently registered commands, // sorted alphabetically. func (eng *Engine) commands() []string { names := make([]string, 0, len(eng.handlers)) for name := range eng.handlers { names = append(names, name) } sort.Strings(names) return names } // Job creates a new job which can later be executed. // This function mimics `Command` from the standard os/exec package. func (eng *Engine) Job(name string, args ...string) *Job { job := &Job{ Eng: eng, Name: name, Args: args, Stdin: NewInput(), Stdout: NewOutput(), Stderr: NewOutput(), env: &Env{}, } if eng.Logging { job.Stderr.Add(utils.NopWriteCloser(eng.Stderr)) } // Catchall is shadowed by specific Register. if handler, exists := eng.handlers[name]; exists { job.handler = handler } else if eng.catchall != nil && name != "" { // empty job names are illegal, catchall or not. job.handler = eng.catchall } return job } // ParseJob creates a new job from a text description using a shell-like syntax. // // The following syntax is used to parse `input`: // // * Words are separated using standard whitespaces as separators. // * Quotes and backslashes are not interpreted. // * Words of the form 'KEY=[VALUE]' are added to the job environment. // * All other words are added to the job arguments. // // For example: // // job, _ := eng.ParseJob("VERBOSE=1 echo hello TEST=true world") // // The resulting job will have: // job.Args={"echo", "hello", "world"} // job.Env={"VERBOSE":"1", "TEST":"true"} // func (eng *Engine) ParseJob(input string) (*Job, error) { // FIXME: use a full-featured command parser scanner := bufio.NewScanner(strings.NewReader(input)) scanner.Split(bufio.ScanWords) var ( cmd []string env Env ) for scanner.Scan() { word := scanner.Text() kv := strings.SplitN(word, "=", 2) if len(kv) == 2 { env.Set(kv[0], kv[1]) } else { cmd = append(cmd, word) } } if len(cmd) == 0 { return nil, fmt.Errorf("empty command: '%s'", input) } job := eng.Job(cmd[0], cmd[1:]...) job.Env().Init(&env) return job, nil } func (eng *Engine) Logf(format string, args ...interface{}) (n int, err error) { if !eng.Logging { return 0, nil } prefixedFormat := fmt.Sprintf("[%s] %s\n", eng, strings.TrimRight(format, "\n")) return fmt.Fprintf(eng.Stderr, prefixedFormat, args...) }