func (d *driver) Exec(c *execdriver.Command, processConfig *execdriver.ProcessConfig, pipes *execdriver.Pipes, startCallback execdriver.StartCallback) (int, error) {
var (
inListen, outListen, errListen *npipe.PipeListener
term execdriver.Terminal
err error
randomID string = stringid.GenerateNonCryptoID()
serverPipeFormat, clientPipeFormat string
pid uint32
exitCode int32
)
active := d.activeContainers[c.ID]
if active == nil {
return -1, fmt.Errorf("Exec - No active container exists with ID %s", c.ID)
}
createProcessParms := hcsshim.CreateProcessParams{
EmulateConsole: processConfig.Tty, // Note NOT c.ProcessConfig.Tty
WorkingDirectory: c.WorkingDir,
}
// Configure the environment for the process // Note NOT c.ProcessConfig.Tty
createProcessParms.Environment = setupEnvironmentVariables(processConfig.Env)
// We use another unique ID here for each exec instance otherwise it
// may conflict with the pipe name being used by RUN.
// We use a different pipe name between real and dummy mode in the HCS
if dummyMode {
clientPipeFormat = `\\.\pipe\docker-exec-%[1]s-%[2]s-%[3]s`
serverPipeFormat = clientPipeFormat
} else {
clientPipeFormat = `\\.\pipe\docker-exec-%[2]s-%[3]s`
serverPipeFormat = `\\.\Containers\%[1]s\Device\NamedPipe\docker-exec-%[2]s-%[3]s`
}
// Connect stdin
if pipes.Stdin != nil {
stdInPipe := fmt.Sprintf(serverPipeFormat, c.ID, randomID, "stdin")
createProcessParms.StdInPipe = fmt.Sprintf(clientPipeFormat, c.ID, randomID, "stdin")
// Listen on the named pipe
inListen, err = npipe.Listen(stdInPipe)
if err != nil {
logrus.Errorf("stdin failed to listen on %s %s ", stdInPipe, err)
return -1, err
}
defer inListen.Close()
// Launch a goroutine to do the accept. We do this so that we can
// cause an otherwise blocking goroutine to gracefully close when
// the caller (us) closes the listener
go stdinAccept(inListen, stdInPipe, pipes.Stdin)
}
// Connect stdout
stdOutPipe := fmt.Sprintf(serverPipeFormat, c.ID, randomID, "stdout")
createProcessParms.StdOutPipe = fmt.Sprintf(clientPipeFormat, c.ID, randomID, "stdout")
outListen, err = npipe.Listen(stdOutPipe)
if err != nil {
logrus.Errorf("stdout failed to listen on %s %s", stdOutPipe, err)
return -1, err
}
defer outListen.Close()
go stdouterrAccept(outListen, stdOutPipe, pipes.Stdout)
// No stderr on TTY. Note NOT c.ProcessConfig.Tty
if !processConfig.Tty {
// Connect stderr
stdErrPipe := fmt.Sprintf(serverPipeFormat, c.ID, randomID, "stderr")
createProcessParms.StdErrPipe = fmt.Sprintf(clientPipeFormat, c.ID, randomID, "stderr")
errListen, err = npipe.Listen(stdErrPipe)
if err != nil {
logrus.Errorf("Stderr failed to listen on %s %s", stdErrPipe, err)
return -1, err
}
defer errListen.Close()
go stdouterrAccept(errListen, stdErrPipe, pipes.Stderr)
}
// While this should get caught earlier, just in case, validate that we
// have something to run.
if processConfig.Entrypoint == "" {
err = errors.New("No entrypoint specified")
logrus.Error(err)
return -1, err
}
// Build the command line of the process
createProcessParms.CommandLine = processConfig.Entrypoint
for _, arg := range processConfig.Arguments {
logrus.Debugln("appending ", arg)
createProcessParms.CommandLine += " " + arg
}
logrus.Debugln("commandLine: ", createProcessParms.CommandLine)
// Start the command running in the container.
pid, err = hcsshim.CreateProcessInComputeSystem(c.ID, createProcessParms)
if err != nil {
logrus.Errorf("CreateProcessInComputeSystem() failed %s", err)
return -1, err
}
// Note NOT c.ProcessConfig.Tty
if processConfig.Tty {
term = NewTtyConsole(c.ID, pid)
} else {
term = NewStdConsole()
}
processConfig.Terminal = term
// Invoke the start callback
if startCallback != nil {
startCallback(&c.ProcessConfig, int(pid))
}
if exitCode, err = hcsshim.WaitForProcessInComputeSystem(c.ID, pid); err != nil {
logrus.Errorf("Failed to WaitForProcessInComputeSystem %s", err)
return -1, err
}
// TODO Windows - Do something with this exit code
logrus.Debugln("Exiting Run() with ExitCode 0", c.ID)
return int(exitCode), nil
}
// Run implements the exec driver Driver interface
func (d *Driver) Run(c *execdriver.Command, pipes *execdriver.Pipes, startCallback execdriver.StartCallback) (execdriver.ExitStatus, error) {
var (
term execdriver.Terminal
err error
inListen, outListen, errListen *npipe.PipeListener
)
// Make sure the client isn't asking for options which aren't supported
err = checkSupportedOptions(c)
if err != nil {
return execdriver.ExitStatus{ExitCode: -1}, err
}
cu := &containerInit{
SystemType: "Container",
Name: c.ID,
IsDummy: dummyMode,
VolumePath: c.Rootfs,
IgnoreFlushesDuringBoot: c.FirstStart,
LayerFolderPath: c.LayerFolder,
}
for i := 0; i < len(c.LayerPaths); i++ {
cu.Layers = append(cu.Layers, layer{
ID: hcsshim.NewGUID(c.LayerPaths[i]).ToString(),
Path: c.LayerPaths[i],
})
}
// TODO Windows. At some point, when there is CLI on docker run to
// enable the IP Address of the container to be passed into docker run,
// the IP Address needs to be wired through to HCS in the JSON. It
// would be present in c.Network.Interface.IPAddress. See matching
// TODO in daemon\container_windows.go, function populateCommand.
if c.Network.Interface != nil {
var pbs []portBinding
// Enumerate through the port bindings specified by the user and convert
// them into the internal structure matching the JSON blob that can be
// understood by the HCS.
for i, v := range c.Network.Interface.PortBindings {
proto := strings.ToUpper(i.Proto())
if proto != "TCP" && proto != "UDP" {
return execdriver.ExitStatus{ExitCode: -1}, fmt.Errorf("invalid protocol %s", i.Proto())
}
if len(v) > 1 {
return execdriver.ExitStatus{ExitCode: -1}, fmt.Errorf("Windows does not support more than one host port in NAT settings")
}
for _, v2 := range v {
var (
iPort, ePort int
err error
)
if len(v2.HostIP) != 0 {
return execdriver.ExitStatus{ExitCode: -1}, fmt.Errorf("Windows does not support host IP addresses in NAT settings")
}
if ePort, err = strconv.Atoi(v2.HostPort); err != nil {
return execdriver.ExitStatus{ExitCode: -1}, fmt.Errorf("invalid container port %s: %s", v2.HostPort, err)
}
if iPort, err = strconv.Atoi(i.Port()); err != nil {
return execdriver.ExitStatus{ExitCode: -1}, fmt.Errorf("invalid internal port %s: %s", i.Port(), err)
}
if iPort < 0 || iPort > 65535 || ePort < 0 || ePort > 65535 {
return execdriver.ExitStatus{ExitCode: -1}, fmt.Errorf("specified NAT port is not in allowed range")
}
pbs = append(pbs,
portBinding{ExternalPort: ePort,
InternalPort: iPort,
Protocol: proto})
}
}
// TODO Windows: TP3 workaround. Allow the user to override the name of
// the Container NAT device through an environment variable. This will
// ultimately be a global daemon parameter on Windows, similar to -b
// for the name of the virtual switch (aka bridge).
cn := os.Getenv("DOCKER_CONTAINER_NAT")
if len(cn) == 0 {
cn = defaultContainerNAT
}
dev := device{
DeviceType: "Network",
Connection: &networkConnection{
NetworkName: c.Network.Interface.Bridge,
// TODO Windows: Fixme, next line. Needs HCS fix.
EnableNat: false,
Nat: natSettings{
Name: cn,
PortBindings: pbs,
},
},
}
if c.Network.Interface.MacAddress != "" {
windowsStyleMAC := strings.Replace(
c.Network.Interface.MacAddress, ":", "-", -1)
dev.Settings = networkSettings{
MacAddress: windowsStyleMAC,
}
}
cu.Devices = append(cu.Devices, dev)
} else {
logrus.Debugln("No network interface")
}
configurationb, err := json.Marshal(cu)
if err != nil {
return execdriver.ExitStatus{ExitCode: -1}, err
}
configuration := string(configurationb)
err = hcsshim.CreateComputeSystem(c.ID, configuration)
if err != nil {
logrus.Debugln("Failed to create temporary container ", err)
return execdriver.ExitStatus{ExitCode: -1}, err
}
// Start the container
logrus.Debugln("Starting container ", c.ID)
err = hcsshim.StartComputeSystem(c.ID)
if err != nil {
logrus.Errorf("Failed to start compute system: %s", err)
return execdriver.ExitStatus{ExitCode: -1}, err
}
defer func() {
// Stop the container
if terminateMode {
logrus.Debugf("Terminating container %s", c.ID)
if err := hcsshim.TerminateComputeSystem(c.ID); err != nil {
// IMPORTANT: Don't fail if fails to change state. It could already
// have been stopped through kill().
// Otherwise, the docker daemon will hang in job wait()
logrus.Warnf("Ignoring error from TerminateComputeSystem %s", err)
}
} else {
logrus.Debugf("Shutting down container %s", c.ID)
if err := hcsshim.ShutdownComputeSystem(c.ID); err != nil {
// IMPORTANT: Don't fail if fails to change state. It could already
// have been stopped through kill().
// Otherwise, the docker daemon will hang in job wait()
logrus.Warnf("Ignoring error from ShutdownComputeSystem %s", err)
}
}
}()
// We use a different pipe name between real and dummy mode in the HCS
var serverPipeFormat, clientPipeFormat string
if dummyMode {
clientPipeFormat = `\\.\pipe\docker-run-%[1]s-%[2]s`
serverPipeFormat = clientPipeFormat
} else {
clientPipeFormat = `\\.\pipe\docker-run-%[2]s`
serverPipeFormat = `\\.\Containers\%[1]s\Device\NamedPipe\docker-run-%[2]s`
}
createProcessParms := hcsshim.CreateProcessParams{
EmulateConsole: c.ProcessConfig.Tty,
WorkingDirectory: c.WorkingDir,
ConsoleSize: c.ProcessConfig.ConsoleSize,
}
// Configure the environment for the process
createProcessParms.Environment = setupEnvironmentVariables(c.ProcessConfig.Env)
// Connect stdin
if pipes.Stdin != nil {
stdInPipe := fmt.Sprintf(serverPipeFormat, c.ID, "stdin")
createProcessParms.StdInPipe = fmt.Sprintf(clientPipeFormat, c.ID, "stdin")
// Listen on the named pipe
inListen, err = npipe.Listen(stdInPipe)
if err != nil {
logrus.Errorf("stdin failed to listen on %s err=%s", stdInPipe, err)
return execdriver.ExitStatus{ExitCode: -1}, err
}
defer inListen.Close()
// Launch a goroutine to do the accept. We do this so that we can
// cause an otherwise blocking goroutine to gracefully close when
// the caller (us) closes the listener
go stdinAccept(inListen, stdInPipe, pipes.Stdin)
}
// Connect stdout
stdOutPipe := fmt.Sprintf(serverPipeFormat, c.ID, "stdout")
createProcessParms.StdOutPipe = fmt.Sprintf(clientPipeFormat, c.ID, "stdout")
outListen, err = npipe.Listen(stdOutPipe)
if err != nil {
logrus.Errorf("stdout failed to listen on %s err=%s", stdOutPipe, err)
return execdriver.ExitStatus{ExitCode: -1}, err
}
defer outListen.Close()
go stdouterrAccept(outListen, stdOutPipe, pipes.Stdout)
// No stderr on TTY.
if !c.ProcessConfig.Tty {
// Connect stderr
stdErrPipe := fmt.Sprintf(serverPipeFormat, c.ID, "stderr")
createProcessParms.StdErrPipe = fmt.Sprintf(clientPipeFormat, c.ID, "stderr")
errListen, err = npipe.Listen(stdErrPipe)
if err != nil {
logrus.Errorf("stderr failed to listen on %s err=%s", stdErrPipe, err)
return execdriver.ExitStatus{ExitCode: -1}, err
}
defer errListen.Close()
go stdouterrAccept(errListen, stdErrPipe, pipes.Stderr)
}
// This should get caught earlier, but just in case - validate that we
// have something to run
if c.ProcessConfig.Entrypoint == "" {
err = errors.New("No entrypoint specified")
logrus.Error(err)
return execdriver.ExitStatus{ExitCode: -1}, err
}
// Build the command line of the process
createProcessParms.CommandLine = c.ProcessConfig.Entrypoint
for _, arg := range c.ProcessConfig.Arguments {
logrus.Debugln("appending ", arg)
createProcessParms.CommandLine += " " + arg
}
logrus.Debugf("CommandLine: %s", createProcessParms.CommandLine)
// Start the command running in the container.
var pid uint32
pid, err = hcsshim.CreateProcessInComputeSystem(c.ID, createProcessParms)
if err != nil {
logrus.Errorf("CreateProcessInComputeSystem() failed %s", err)
return execdriver.ExitStatus{ExitCode: -1}, err
}
//Save the PID as we'll need this in Kill()
logrus.Debugf("PID %d", pid)
c.ContainerPid = int(pid)
if c.ProcessConfig.Tty {
term = NewTtyConsole(c.ID, pid)
} else {
term = NewStdConsole()
}
c.ProcessConfig.Terminal = term
// Maintain our list of active containers. We'll need this later for exec
// and other commands.
d.Lock()
d.activeContainers[c.ID] = &activeContainer{
command: c,
}
d.Unlock()
// Invoke the start callback
if startCallback != nil {
startCallback(&c.ProcessConfig, int(pid))
}
var exitCode int32
exitCode, err = hcsshim.WaitForProcessInComputeSystem(c.ID, pid)
if err != nil {
logrus.Errorf("Failed to WaitForProcessInComputeSystem %s", err)
return execdriver.ExitStatus{ExitCode: -1}, err
}
logrus.Debugf("Exiting Run() exitCode %d id=%s", exitCode, c.ID)
return execdriver.ExitStatus{ExitCode: int(exitCode)}, nil
}
func (d *driver) Run(c *execdriver.Command, pipes *execdriver.Pipes, startCallback execdriver.StartCallback) (execdriver.ExitStatus, error) {
var (
term execdriver.Terminal
err error
inListen, outListen, errListen *npipe.PipeListener
)
// Make sure the client isn't asking for options which aren't supported
err = checkSupportedOptions(c)
if err != nil {
return execdriver.ExitStatus{ExitCode: -1}, err
}
cu := &containerInit{
SystemType: "Container",
Name: c.ID,
IsDummy: dummyMode,
VolumePath: c.Rootfs,
IgnoreFlushesDuringBoot: c.FirstStart,
LayerFolderPath: c.LayerFolder,
}
for i := 0; i < len(c.LayerPaths); i++ {
cu.Layers = append(cu.Layers, layer{
Id: hcsshim.NewGUID(c.LayerPaths[i]).ToString(),
Path: c.LayerPaths[i],
})
}
if c.Network.Interface != nil {
dev := device{
DeviceType: "Network",
Connection: &networkConnection{
NetworkName: c.Network.Interface.Bridge,
EnableNat: false,
},
}
if c.Network.Interface.MacAddress != "" {
windowsStyleMAC := strings.Replace(
c.Network.Interface.MacAddress, ":", "-", -1)
dev.Settings = networkSettings{
MacAddress: windowsStyleMAC,
}
}
logrus.Debugf("Virtual switch '%s', mac='%s'", c.Network.Interface.Bridge, c.Network.Interface.MacAddress)
cu.Devices = append(cu.Devices, dev)
} else {
logrus.Debugln("No network interface")
}
configurationb, err := json.Marshal(cu)
if err != nil {
return execdriver.ExitStatus{ExitCode: -1}, err
}
configuration := string(configurationb)
err = hcsshim.CreateComputeSystem(c.ID, configuration)
if err != nil {
logrus.Debugln("Failed to create temporary container ", err)
return execdriver.ExitStatus{ExitCode: -1}, err
}
// Start the container
logrus.Debugln("Starting container ", c.ID)
err = hcsshim.StartComputeSystem(c.ID)
if err != nil {
logrus.Errorf("Failed to start compute system: %s", err)
return execdriver.ExitStatus{ExitCode: -1}, err
}
defer func() {
// Stop the container
if terminateMode {
logrus.Debugf("Terminating container %s", c.ID)
if err := hcsshim.TerminateComputeSystem(c.ID); err != nil {
// IMPORTANT: Don't fail if fails to change state. It could already
// have been stopped through kill().
// Otherwise, the docker daemon will hang in job wait()
logrus.Warnf("Ignoring error from TerminateComputeSystem %s", err)
}
} else {
logrus.Debugf("Shutting down container %s", c.ID)
if err := hcsshim.ShutdownComputeSystem(c.ID); err != nil {
// IMPORTANT: Don't fail if fails to change state. It could already
// have been stopped through kill().
// Otherwise, the docker daemon will hang in job wait()
logrus.Warnf("Ignoring error from ShutdownComputeSystem %s", err)
}
}
}()
// We use a different pipe name between real and dummy mode in the HCS
var serverPipeFormat, clientPipeFormat string
if dummyMode {
clientPipeFormat = `\\.\pipe\docker-run-%[1]s-%[2]s`
serverPipeFormat = clientPipeFormat
} else {
clientPipeFormat = `\\.\pipe\docker-run-%[2]s`
serverPipeFormat = `\\.\Containers\%[1]s\Device\NamedPipe\docker-run-%[2]s`
}
createProcessParms := hcsshim.CreateProcessParams{
EmulateConsole: c.ProcessConfig.Tty,
WorkingDirectory: c.WorkingDir,
ConsoleSize: c.ProcessConfig.ConsoleSize,
}
// Configure the environment for the process
createProcessParms.Environment = setupEnvironmentVariables(c.ProcessConfig.Env)
// Connect stdin
if pipes.Stdin != nil {
stdInPipe := fmt.Sprintf(serverPipeFormat, c.ID, "stdin")
createProcessParms.StdInPipe = fmt.Sprintf(clientPipeFormat, c.ID, "stdin")
// Listen on the named pipe
inListen, err = npipe.Listen(stdInPipe)
if err != nil {
logrus.Errorf("stdin failed to listen on %s err=%s", stdInPipe, err)
return execdriver.ExitStatus{ExitCode: -1}, err
}
defer inListen.Close()
// Launch a goroutine to do the accept. We do this so that we can
// cause an otherwise blocking goroutine to gracefully close when
// the caller (us) closes the listener
go stdinAccept(inListen, stdInPipe, pipes.Stdin)
}
// Connect stdout
stdOutPipe := fmt.Sprintf(serverPipeFormat, c.ID, "stdout")
createProcessParms.StdOutPipe = fmt.Sprintf(clientPipeFormat, c.ID, "stdout")
outListen, err = npipe.Listen(stdOutPipe)
if err != nil {
logrus.Errorf("stdout failed to listen on %s err=%s", stdOutPipe, err)
return execdriver.ExitStatus{ExitCode: -1}, err
}
defer outListen.Close()
go stdouterrAccept(outListen, stdOutPipe, pipes.Stdout)
// No stderr on TTY.
if !c.ProcessConfig.Tty {
// Connect stderr
stdErrPipe := fmt.Sprintf(serverPipeFormat, c.ID, "stderr")
createProcessParms.StdErrPipe = fmt.Sprintf(clientPipeFormat, c.ID, "stderr")
errListen, err = npipe.Listen(stdErrPipe)
if err != nil {
logrus.Errorf("stderr failed to listen on %s err=%s", stdErrPipe, err)
return execdriver.ExitStatus{ExitCode: -1}, err
}
defer errListen.Close()
go stdouterrAccept(errListen, stdErrPipe, pipes.Stderr)
}
// This should get caught earlier, but just in case - validate that we
// have something to run
if c.ProcessConfig.Entrypoint == "" {
err = errors.New("No entrypoint specified")
logrus.Error(err)
return execdriver.ExitStatus{ExitCode: -1}, err
}
// Build the command line of the process
createProcessParms.CommandLine = c.ProcessConfig.Entrypoint
for _, arg := range c.ProcessConfig.Arguments {
logrus.Debugln("appending ", arg)
createProcessParms.CommandLine += " " + arg
}
logrus.Debugf("CommandLine: %s", createProcessParms.CommandLine)
// Start the command running in the container.
var pid uint32
pid, err = hcsshim.CreateProcessInComputeSystem(c.ID, createProcessParms)
if err != nil {
logrus.Errorf("CreateProcessInComputeSystem() failed %s", err)
return execdriver.ExitStatus{ExitCode: -1}, err
}
//Save the PID as we'll need this in Kill()
logrus.Debugf("PID %d", pid)
c.ContainerPid = int(pid)
if c.ProcessConfig.Tty {
term = NewTtyConsole(c.ID, pid)
} else {
term = NewStdConsole()
}
c.ProcessConfig.Terminal = term
// Maintain our list of active containers. We'll need this later for exec
// and other commands.
d.Lock()
d.activeContainers[c.ID] = &activeContainer{
command: c,
}
d.Unlock()
// Invoke the start callback
if startCallback != nil {
startCallback(&c.ProcessConfig, int(pid))
}
var exitCode int32
exitCode, err = hcsshim.WaitForProcessInComputeSystem(c.ID, pid)
if err != nil {
logrus.Errorf("Failed to WaitForProcessInComputeSystem %s", err)
return execdriver.ExitStatus{ExitCode: -1}, err
}
logrus.Debugf("Exiting Run() exitCode %d id=%s", exitCode, c.ID)
return execdriver.ExitStatus{ExitCode: int(exitCode)}, nil
}