package main import ( "flag" "fmt" "os" "os/signal" "path/filepath" "syscall" "github.com/docker/containerd/osutils" "github.com/docker/docker/pkg/term" ) func writeMessage(f *os.File, level string, err error) { fmt.Fprintf(f, `{"level": "%s","msg": "%s"}`, level, err) } type controlMessage struct { Type int Width int Height int } // containerd-shim is a small shim that sits in front of a runtime implementation // that allows it to be repartented to init and handle reattach from the caller. // // the cwd of the shim should be the bundle for the container. Arg1 should be the path // to the state directory where the shim can locate fifos and other information. func main() { flag.Parse() cwd, err := os.Getwd() if err != nil { panic(err) } f, err := os.OpenFile(filepath.Join(cwd, "shim-log.json"), os.O_CREATE|os.O_WRONLY|os.O_APPEND|os.O_SYNC, 0666) if err != nil { panic(err) } if err := start(f); err != nil { // this means that the runtime failed starting the container and will have the // proper error messages in the runtime log so we should to treat this as a // shim failure because the sim executed properly if err == errRuntime { f.Close() return } // log the error instead of writing to stderr because the shim will have // /dev/null as it's stdio because it is supposed to be reparented to system // init and will not have anyone to read from it writeMessage(f, "error", err) f.Close() os.Exit(1) } } func start(log *os.File) error { // start handling signals as soon as possible so that things are properly reaped // or if runtime exits before we hit the handler signals := make(chan os.Signal, 2048) signal.Notify(signals) // set the shim as the subreaper for all orphaned processes created by the container if err := osutils.SetSubreaper(1); err != nil { return err } // open the exit pipe f, err := os.OpenFile("exit", syscall.O_WRONLY, 0) if err != nil { return err } defer f.Close() control, err := os.OpenFile("control", syscall.O_RDWR, 0) if err != nil { return err } defer control.Close() p, err := newProcess(flag.Arg(0), flag.Arg(1), flag.Arg(2)) if err != nil { return err } defer func() { if err := p.Close(); err != nil { writeMessage(log, "warn", err) } }() if err := p.create(); err != nil { p.delete() return err } msgC := make(chan controlMessage, 32) go func() { for { var m controlMessage if _, err := fmt.Fscanf(control, "%d %d %d\n", &m.Type, &m.Width, &m.Height); err != nil { continue } msgC <- m } }() var exitShim bool for { select { case s := <-signals: switch s { case syscall.SIGCHLD: exits, _ := osutils.Reap() for _, e := range exits { // check to see if runtime is one of the processes that has exited if e.Pid == p.pid() { exitShim = true writeInt("exitStatus", e.Status) } } } // runtime has exited so the shim can also exit if exitShim { p.delete() p.Wait() return nil } case msg := <-msgC: switch msg.Type { case 0: // close stdin if p.stdinCloser != nil { p.stdinCloser.Close() } case 1: if p.console == nil { continue } ws := term.Winsize{ Width: uint16(msg.Width), Height: uint16(msg.Height), } term.SetWinsize(p.console.Fd(), &ws) } } } return nil } func writeInt(path string, i int) error { f, err := os.Create(path) if err != nil { return err } defer f.Close() _, err = fmt.Fprintf(f, "%d", i) return err }