// +build linux package namespaces import ( "encoding/json" "io" "os" "os/exec" "syscall" "github.com/docker/libcontainer/cgroups" "github.com/docker/libcontainer/cgroups/fs" "github.com/docker/libcontainer/cgroups/systemd" "github.com/docker/libcontainer/configs" "github.com/docker/libcontainer/network" "github.com/docker/libcontainer/system" ) // TODO(vishh): This is part of the libcontainer API and it does much more than just namespaces related work. // Move this to libcontainer package. // Exec performs setup outside of a namespace so that a container can be // executed. Exec is a high level function for working with container namespaces. func Exec(args []string, env []string, command *exec.Cmd, container *configs.Config, state *configs.State) error { var err error // create a pipe so that we can syncronize with the namespaced process and // pass the state and configuration to the child process parent, child, err := newInitPipe() if err != nil { return err } defer parent.Close() command.ExtraFiles = []*os.File{child} command.Dir = container.RootFs command.SysProcAttr.Cloneflags = uintptr(GetNamespaceFlags(container.Namespaces)) if err := command.Start(); err != nil { child.Close() return err } child.Close() terminate := func(terr error) error { // TODO: log the errors for kill and wait command.Process.Kill() command.Wait() return terr } encoder := json.NewEncoder(parent) if err := encoder.Encode(container); err != nil { return terminate(err) } process := processArgs{ Env: append(env[0:], container.Env...), Args: args, } if err := encoder.Encode(process); err != nil { return terminate(err) } started, err := system.GetProcessStartTime(command.Process.Pid) if err != nil { return terminate(err) } // Do this before syncing with child so that no children // can escape the cgroup cgroupPaths, err := SetupCgroups(container, command.Process.Pid) if err != nil { return terminate(err) } defer cgroups.RemovePaths(cgroupPaths) var networkState network.NetworkState if err := InitializeNetworking(container, command.Process.Pid, &networkState); err != nil { return terminate(err) } // send the state to the container's init process then shutdown writes for the parent if err := encoder.Encode(networkState); err != nil { return terminate(err) } // shutdown writes for the parent side of the pipe if err := syscall.Shutdown(int(parent.Fd()), syscall.SHUT_WR); err != nil { return terminate(err) } // wait for the child process to fully complete and receive an error message // if one was encoutered var ierr *initError if err := json.NewDecoder(parent).Decode(&ierr); err != nil && err != io.EOF { return terminate(err) } if ierr != nil { return terminate(ierr) } state.InitPid = command.Process.Pid state.InitStartTime = started state.NetworkState = networkState state.CgroupPaths = cgroupPaths return nil } // DefaultCreateCommand will return an exec.Cmd with the Cloneflags set to the proper namespaces // defined on the container's configuration and use the current binary as the init with the // args provided // // console: the /dev/console to setup inside the container // init: the program executed inside the namespaces // root: the path to the container json file and information // pipe: sync pipe to synchronize the parent and child processes // args: the arguments to pass to the container to run as the user's program func DefaultCreateCommand(container *configs.Config, console, dataPath, init string, pipe *os.File, args []string) *exec.Cmd { // get our binary name from arg0 so we can always reexec ourself env := []string{ "console=" + console, "pipe=3", "data_path=" + dataPath, } command := exec.Command(init, append([]string{"init", "--"}, args...)...) // make sure the process is executed inside the context of the rootfs command.Dir = container.RootFs command.Env = append(os.Environ(), env...) if command.SysProcAttr == nil { command.SysProcAttr = &syscall.SysProcAttr{} } command.SysProcAttr.Cloneflags = uintptr(GetNamespaceFlags(container.Namespaces)) command.SysProcAttr.Pdeathsig = syscall.SIGKILL command.ExtraFiles = []*os.File{pipe} return command } // SetupCgroups applies the cgroup restrictions to the process running in the container based // on the container's configuration func SetupCgroups(container *configs.Config, nspid int) (map[string]string, error) { if container.Cgroups != nil { c := container.Cgroups if systemd.UseSystemd() { return systemd.Apply(c, nspid) } return fs.Apply(c, nspid) } return map[string]string{}, nil } // InitializeNetworking creates the container's network stack outside of the namespace and moves // interfaces into the container's net namespaces if necessary func InitializeNetworking(container *configs.Config, nspid int, networkState *network.NetworkState) error { for _, config := range container.Networks { strategy, err := network.GetStrategy(config.Type) if err != nil { return err } if err := strategy.Create((*network.Network)(config), nspid, networkState); err != nil { return err } } return nil }