package hcsshim import ( "encoding/json" "io" "runtime" "sync" "syscall" "time" "github.com/Sirupsen/logrus" ) // ContainerError is an error encountered in HCS type process struct { handleLock sync.RWMutex handle hcsProcess processID int container *container cachedPipes *cachedPipes callbackNumber uintptr } type cachedPipes struct { stdIn syscall.Handle stdOut syscall.Handle stdErr syscall.Handle } type processModifyRequest struct { Operation string ConsoleSize *consoleSize `json:",omitempty"` CloseHandle *closeHandle `json:",omitempty"` } type consoleSize struct { Height uint16 Width uint16 } type closeHandle struct { Handle string } type processStatus struct { ProcessID uint32 Exited bool ExitCode uint32 LastWaitResult int32 } const ( stdIn string = "StdIn" stdOut string = "StdOut" stdErr string = "StdErr" ) const ( modifyConsoleSize string = "ConsoleSize" modifyCloseHandle string = "CloseHandle" ) // Pid returns the process ID of the process within the container. func (process *process) Pid() int { return process.processID } // Kill signals the process to terminate but does not wait for it to finish terminating. func (process *process) Kill() error { process.handleLock.RLock() defer process.handleLock.RUnlock() operation := "Kill" title := "HCSShim::Process::" + operation logrus.Debugf(title+" processid=%d", process.processID) if process.handle == 0 { return makeProcessError(process, operation, "", ErrAlreadyClosed) } var resultp *uint16 err := hcsTerminateProcess(process.handle, &resultp) err = processHcsResult(err, resultp) if err != nil { return makeProcessError(process, operation, "", err) } logrus.Debugf(title+" succeeded processid=%d", process.processID) return nil } // Wait waits for the process to exit. func (process *process) Wait() error { operation := "Wait" title := "HCSShim::Process::" + operation logrus.Debugf(title+" processid=%d", process.processID) err := waitForNotification(process.callbackNumber, hcsNotificationProcessExited, nil) if err != nil { return makeProcessError(process, operation, "", err) } logrus.Debugf(title+" succeeded processid=%d", process.processID) return nil } // WaitTimeout waits for the process to exit or the duration to elapse. It returns // false if timeout occurs. func (process *process) WaitTimeout(timeout time.Duration) error { operation := "WaitTimeout" title := "HCSShim::Process::" + operation logrus.Debugf(title+" processid=%d", process.processID) err := waitForNotification(process.callbackNumber, hcsNotificationProcessExited, &timeout) if err != nil { return makeProcessError(process, operation, "", err) } logrus.Debugf(title+" succeeded processid=%d", process.processID) return nil } // ExitCode returns the exit code of the process. The process must have // already terminated. func (process *process) ExitCode() (int, error) { process.handleLock.RLock() defer process.handleLock.RUnlock() operation := "ExitCode" title := "HCSShim::Process::" + operation logrus.Debugf(title+" processid=%d", process.processID) if process.handle == 0 { return 0, makeProcessError(process, operation, "", ErrAlreadyClosed) } properties, err := process.properties() if err != nil { return 0, makeProcessError(process, operation, "", err) } if properties.Exited == false { return 0, makeProcessError(process, operation, "", ErrInvalidProcessState) } if properties.LastWaitResult != 0 { return 0, makeProcessError(process, operation, "", syscall.Errno(properties.LastWaitResult)) } logrus.Debugf(title+" succeeded processid=%d exitCode=%d", process.processID, properties.ExitCode) return int(properties.ExitCode), nil } // ResizeConsole resizes the console of the process. func (process *process) ResizeConsole(width, height uint16) error { process.handleLock.RLock() defer process.handleLock.RUnlock() operation := "ResizeConsole" title := "HCSShim::Process::" + operation logrus.Debugf(title+" processid=%d", process.processID) if process.handle == 0 { return makeProcessError(process, operation, "", ErrAlreadyClosed) } modifyRequest := processModifyRequest{ Operation: modifyConsoleSize, ConsoleSize: &consoleSize{ Height: height, Width: width, }, } modifyRequestb, err := json.Marshal(modifyRequest) if err != nil { return err } modifyRequestStr := string(modifyRequestb) var resultp *uint16 err = hcsModifyProcess(process.handle, modifyRequestStr, &resultp) err = processHcsResult(err, resultp) if err != nil { return makeProcessError(process, operation, "", err) } logrus.Debugf(title+" succeeded processid=%d", process.processID) return nil } func (process *process) properties() (*processStatus, error) { operation := "properties" title := "HCSShim::Process::" + operation logrus.Debugf(title+" processid=%d", process.processID) var ( resultp *uint16 propertiesp *uint16 ) err := hcsGetProcessProperties(process.handle, &propertiesp, &resultp) err = processHcsResult(err, resultp) if err != nil { return nil, err } if propertiesp == nil { return nil, ErrUnexpectedValue } propertiesRaw := convertAndFreeCoTaskMemBytes(propertiesp) properties := &processStatus{} if err := json.Unmarshal(propertiesRaw, properties); err != nil { return nil, err } logrus.Debugf(title+" succeeded processid=%d, properties=%s", process.processID, propertiesRaw) return properties, nil } // Stdio returns the stdin, stdout, and stderr pipes, respectively. Closing // these pipes does not close the underlying pipes; it should be possible to // call this multiple times to get multiple interfaces. func (process *process) Stdio() (io.WriteCloser, io.ReadCloser, io.ReadCloser, error) { process.handleLock.RLock() defer process.handleLock.RUnlock() operation := "Stdio" title := "HCSShim::Process::" + operation logrus.Debugf(title+" processid=%d", process.processID) if process.handle == 0 { return nil, nil, nil, makeProcessError(process, operation, "", ErrAlreadyClosed) } var stdIn, stdOut, stdErr syscall.Handle if process.cachedPipes == nil { var ( processInfo hcsProcessInformation resultp *uint16 ) err := hcsGetProcessInfo(process.handle, &processInfo, &resultp) err = processHcsResult(err, resultp) if err != nil { return nil, nil, nil, makeProcessError(process, operation, "", err) } stdIn, stdOut, stdErr = processInfo.StdInput, processInfo.StdOutput, processInfo.StdError } else { // Use cached pipes stdIn, stdOut, stdErr = process.cachedPipes.stdIn, process.cachedPipes.stdOut, process.cachedPipes.stdErr // Invalidate the cache process.cachedPipes = nil } pipes, err := makeOpenFiles([]syscall.Handle{stdIn, stdOut, stdErr}) if err != nil { return nil, nil, nil, makeProcessError(process, operation, "", err) } logrus.Debugf(title+" succeeded processid=%d", process.processID) return pipes[0], pipes[1], pipes[2], nil } // CloseStdin closes the write side of the stdin pipe so that the process is // notified on the read side that there is no more data in stdin. func (process *process) CloseStdin() error { process.handleLock.RLock() defer process.handleLock.RUnlock() operation := "CloseStdin" title := "HCSShim::Process::" + operation logrus.Debugf(title+" processid=%d", process.processID) if process.handle == 0 { return makeProcessError(process, operation, "", ErrAlreadyClosed) } modifyRequest := processModifyRequest{ Operation: modifyCloseHandle, CloseHandle: &closeHandle{ Handle: stdIn, }, } modifyRequestb, err := json.Marshal(modifyRequest) if err != nil { return err } modifyRequestStr := string(modifyRequestb) var resultp *uint16 err = hcsModifyProcess(process.handle, modifyRequestStr, &resultp) err = processHcsResult(err, resultp) if err != nil { return makeProcessError(process, operation, "", err) } logrus.Debugf(title+" succeeded processid=%d", process.processID) return nil } // Close cleans up any state associated with the process but does not kill // or wait on it. func (process *process) Close() error { process.handleLock.Lock() defer process.handleLock.Unlock() operation := "Close" title := "HCSShim::Process::" + operation logrus.Debugf(title+" processid=%d", process.processID) // Don't double free this if process.handle == 0 { return nil } if err := process.unregisterCallback(); err != nil { return makeProcessError(process, operation, "", err) } if err := hcsCloseProcess(process.handle); err != nil { return makeProcessError(process, operation, "", err) } process.handle = 0 runtime.SetFinalizer(process, nil) logrus.Debugf(title+" succeeded processid=%d", process.processID) return nil } // closeProcess wraps process.Close for use by a finalizer func closeProcess(process *process) { process.Close() } func (process *process) registerCallback() error { context := ¬ifcationWatcherContext{ channels: newChannels(), } callbackMapLock.Lock() callbackNumber := nextCallback nextCallback++ callbackMap[callbackNumber] = context callbackMapLock.Unlock() var callbackHandle hcsCallback err := hcsRegisterProcessCallback(process.handle, notificationWatcherCallback, callbackNumber, &callbackHandle) if err != nil { return err } context.handle = callbackHandle process.callbackNumber = callbackNumber return nil } func (process *process) unregisterCallback() error { callbackNumber := process.callbackNumber callbackMapLock.RLock() context := callbackMap[callbackNumber] callbackMapLock.RUnlock() if context == nil { return nil } handle := context.handle if handle == 0 { return nil } // hcsUnregisterProcessCallback has its own syncronization // to wait for all callbacks to complete. We must NOT hold the callbackMapLock. err := hcsUnregisterProcessCallback(handle) if err != nil { return err } closeChannels(context.channels) callbackMapLock.Lock() callbackMap[callbackNumber] = nil callbackMapLock.Unlock() handle = 0 return nil }