// +build linux package libcontainer import ( "encoding/json" "errors" "fmt" "io" "os" "os/exec" "path/filepath" "strconv" "github.com/opencontainers/runc/libcontainer/cgroups" "github.com/opencontainers/runc/libcontainer/cgroups/fs2" "github.com/opencontainers/runc/libcontainer/configs" "github.com/opencontainers/runc/libcontainer/intelrdt" "github.com/opencontainers/runc/libcontainer/logs" "github.com/opencontainers/runc/libcontainer/system" "github.com/opencontainers/runc/libcontainer/utils" "github.com/sirupsen/logrus" "golang.org/x/sys/unix" ) // Synchronisation value for cgroup namespace setup. // The same constant is defined in nsexec.c as "CREATECGROUPNS". const createCgroupns = 0x80 type parentProcess interface { // pid returns the pid for the running process. pid() int // start starts the process execution. start() error // send a SIGKILL to the process and wait for the exit. terminate() error // wait waits on the process returning the process state. wait() (*os.ProcessState, error) // startTime returns the process start time. startTime() (uint64, error) signal(os.Signal) error externalDescriptors() []string setExternalDescriptors(fds []string) forwardChildLogs() } type filePair struct { parent *os.File child *os.File } type setnsProcess struct { cmd *exec.Cmd messageSockPair filePair logFilePair filePair cgroupPaths map[string]string rootlessCgroups bool intelRdtPath string config *initConfig fds []string process *Process bootstrapData io.Reader initProcessPid int } func (p *setnsProcess) startTime() (uint64, error) { stat, err := system.Stat(p.pid()) return stat.StartTime, err } func (p *setnsProcess) signal(sig os.Signal) error { s, ok := sig.(unix.Signal) if !ok { return errors.New("os: unsupported signal type") } return unix.Kill(p.pid(), s) } func (p *setnsProcess) start() (err error) { defer p.messageSockPair.parent.Close() err = p.cmd.Start() // close the write-side of the pipes (controlled by child) p.messageSockPair.child.Close() p.logFilePair.child.Close() if err != nil { return newSystemErrorWithCause(err, "starting setns process") } if p.bootstrapData != nil { if _, err := io.Copy(p.messageSockPair.parent, p.bootstrapData); err != nil { return newSystemErrorWithCause(err, "copying bootstrap data to pipe") } } if err = p.execSetns(); err != nil { return newSystemErrorWithCause(err, "executing setns process") } if len(p.cgroupPaths) > 0 { if err := cgroups.EnterPid(p.cgroupPaths, p.pid()); err != nil && !p.rootlessCgroups { // On cgroup v2 + nesting + domain controllers, EnterPid may fail with EBUSY. // https://github.com/opencontainers/runc/issues/2356#issuecomment-621277643 // Try to join the cgroup of InitProcessPid. if cgroups.IsCgroup2UnifiedMode() { initProcCgroupFile := fmt.Sprintf("/proc/%d/cgroup", p.initProcessPid) initCg, initCgErr := cgroups.ParseCgroupFile(initProcCgroupFile) if initCgErr == nil { if initCgPath, ok := initCg[""]; ok { initCgDirpath := filepath.Join(fs2.UnifiedMountpoint, initCgPath) logrus.Debugf("adding pid %d to cgroups %v failed (%v), attempting to join %q (obtained from %s)", p.pid(), p.cgroupPaths, err, initCg, initCgDirpath) // NOTE: initCgDirPath is not guaranteed to exist because we didn't pause the container. err = cgroups.WriteCgroupProc(initCgDirpath, p.pid()) } } } if err != nil { return newSystemErrorWithCausef(err, "adding pid %d to cgroups", p.pid()) } } } if p.intelRdtPath != "" { // if Intel RDT "resource control" filesystem path exists _, err := os.Stat(p.intelRdtPath) if err == nil { if err := intelrdt.WriteIntelRdtTasks(p.intelRdtPath, p.pid()); err != nil { return newSystemErrorWithCausef(err, "adding pid %d to Intel RDT resource control filesystem", p.pid()) } } } // set rlimits, this has to be done here because we lose permissions // to raise the limits once we enter a user-namespace if err := setupRlimits(p.config.Rlimits, p.pid()); err != nil { return newSystemErrorWithCause(err, "setting rlimits for process") } if err := utils.WriteJSON(p.messageSockPair.parent, p.config); err != nil { return newSystemErrorWithCause(err, "writing config to pipe") } ierr := parseSync(p.messageSockPair.parent, func(sync *syncT) error { switch sync.Type { case procReady: // This shouldn't happen. panic("unexpected procReady in setns") case procHooks: // This shouldn't happen. panic("unexpected procHooks in setns") default: return newSystemError(errors.New("invalid JSON payload from child")) } }) if err := unix.Shutdown(int(p.messageSockPair.parent.Fd()), unix.SHUT_WR); err != nil { return newSystemErrorWithCause(err, "calling shutdown on init pipe") } // Must be done after Shutdown so the child will exit and we can wait for it. if ierr != nil { p.wait() return ierr } return nil } // execSetns runs the process that executes C code to perform the setns calls // because setns support requires the C process to fork off a child and perform the setns // before the go runtime boots, we wait on the process to die and receive the child's pid // over the provided pipe. func (p *setnsProcess) execSetns() error { status, err := p.cmd.Process.Wait() if err != nil { p.cmd.Wait() return newSystemErrorWithCause(err, "waiting on setns process to finish") } if !status.Success() { p.cmd.Wait() return newSystemError(&exec.ExitError{ProcessState: status}) } var pid *pid if err := json.NewDecoder(p.messageSockPair.parent).Decode(&pid); err != nil { p.cmd.Wait() return newSystemErrorWithCause(err, "reading pid from init pipe") } // Clean up the zombie parent process // On Unix systems FindProcess always succeeds. firstChildProcess, _ := os.FindProcess(pid.PidFirstChild) // Ignore the error in case the child has already been reaped for any reason _, _ = firstChildProcess.Wait() process, err := os.FindProcess(pid.Pid) if err != nil { return err } p.cmd.Process = process p.process.ops = p return nil } // terminate sends a SIGKILL to the forked process for the setns routine then waits to // avoid the process becoming a zombie. func (p *setnsProcess) terminate() error { if p.cmd.Process == nil { return nil } err := p.cmd.Process.Kill() if _, werr := p.wait(); err == nil { err = werr } return err } func (p *setnsProcess) wait() (*os.ProcessState, error) { err := p.cmd.Wait() // Return actual ProcessState even on Wait error return p.cmd.ProcessState, err } func (p *setnsProcess) pid() int { return p.cmd.Process.Pid } func (p *setnsProcess) externalDescriptors() []string { return p.fds } func (p *setnsProcess) setExternalDescriptors(newFds []string) { p.fds = newFds } func (p *setnsProcess) forwardChildLogs() { go logs.ForwardLogs(p.logFilePair.parent) } type initProcess struct { cmd *exec.Cmd messageSockPair filePair logFilePair filePair config *initConfig manager cgroups.Manager intelRdtManager intelrdt.Manager container *linuxContainer fds []string process *Process bootstrapData io.Reader sharePidns bool } func (p *initProcess) pid() int { return p.cmd.Process.Pid } func (p *initProcess) externalDescriptors() []string { return p.fds } // getChildPid receives the final child's pid over the provided pipe. func (p *initProcess) getChildPid() (int, error) { var pid pid if err := json.NewDecoder(p.messageSockPair.parent).Decode(&pid); err != nil { p.cmd.Wait() return -1, err } // Clean up the zombie parent process // On Unix systems FindProcess always succeeds. firstChildProcess, _ := os.FindProcess(pid.PidFirstChild) // Ignore the error in case the child has already been reaped for any reason _, _ = firstChildProcess.Wait() return pid.Pid, nil } func (p *initProcess) waitForChildExit(childPid int) error { status, err := p.cmd.Process.Wait() if err != nil { p.cmd.Wait() return err } if !status.Success() { p.cmd.Wait() return &exec.ExitError{ProcessState: status} } process, err := os.FindProcess(childPid) if err != nil { return err } p.cmd.Process = process p.process.ops = p return nil } func (p *initProcess) start() (retErr error) { defer p.messageSockPair.parent.Close() err := p.cmd.Start() p.process.ops = p // close the write-side of the pipes (controlled by child) p.messageSockPair.child.Close() p.logFilePair.child.Close() if err != nil { p.process.ops = nil return newSystemErrorWithCause(err, "starting init process command") } defer func() { if retErr != nil { p.manager.Destroy() if p.intelRdtManager != nil { p.intelRdtManager.Destroy() } } }() // Do this before syncing with child so that no children can escape the // cgroup. We don't need to worry about not doing this and not being root // because we'd be using the rootless cgroup manager in that case. if err := p.manager.Apply(p.pid()); err != nil { return newSystemErrorWithCause(err, "applying cgroup configuration for process") } if p.intelRdtManager != nil { if err := p.intelRdtManager.Apply(p.pid()); err != nil { return newSystemErrorWithCause(err, "applying Intel RDT configuration for process") } } if _, err := io.Copy(p.messageSockPair.parent, p.bootstrapData); err != nil { return newSystemErrorWithCause(err, "copying bootstrap data to pipe") } childPid, err := p.getChildPid() if err != nil { return newSystemErrorWithCause(err, "getting the final child's pid from pipe") } // Save the standard descriptor names before the container process // can potentially move them (e.g., via dup2()). If we don't do this now, // we won't know at checkpoint time which file descriptor to look up. fds, err := getPipeFds(childPid) if err != nil { return newSystemErrorWithCausef(err, "getting pipe fds for pid %d", childPid) } p.setExternalDescriptors(fds) // Now it's time to setup cgroup namesapce if p.config.Config.Namespaces.Contains(configs.NEWCGROUP) && p.config.Config.Namespaces.PathOf(configs.NEWCGROUP) == "" { if _, err := p.messageSockPair.parent.Write([]byte{createCgroupns}); err != nil { return newSystemErrorWithCause(err, "sending synchronization value to init process") } } // Wait for our first child to exit if err := p.waitForChildExit(childPid); err != nil { return newSystemErrorWithCause(err, "waiting for our first child to exit") } if err := p.createNetworkInterfaces(); err != nil { return newSystemErrorWithCause(err, "creating network interfaces") } if err := p.updateSpecState(); err != nil { return newSystemErrorWithCause(err, "updating the spec state") } if err := p.sendConfig(); err != nil { return newSystemErrorWithCause(err, "sending config to init process") } var ( sentRun bool sentResume bool ) ierr := parseSync(p.messageSockPair.parent, func(sync *syncT) error { switch sync.Type { case procReady: // set rlimits, this has to be done here because we lose permissions // to raise the limits once we enter a user-namespace if err := setupRlimits(p.config.Rlimits, p.pid()); err != nil { return newSystemErrorWithCause(err, "setting rlimits for ready process") } // call prestart and CreateRuntime hooks if !p.config.Config.Namespaces.Contains(configs.NEWNS) { // Setup cgroup before the hook, so that the prestart and CreateRuntime hook could apply cgroup permissions. if err := p.manager.Set(p.config.Config); err != nil { return newSystemErrorWithCause(err, "setting cgroup config for ready process") } if p.intelRdtManager != nil { if err := p.intelRdtManager.Set(p.config.Config); err != nil { return newSystemErrorWithCause(err, "setting Intel RDT config for ready process") } } if p.config.Config.Hooks != nil { s, err := p.container.currentOCIState() if err != nil { return err } // initProcessStartTime hasn't been set yet. s.Pid = p.cmd.Process.Pid s.Status = configs.Creating hooks := p.config.Config.Hooks if err := hooks[configs.Prestart].RunHooks(s); err != nil { return err } if err := hooks[configs.CreateRuntime].RunHooks(s); err != nil { return err } } } // Sync with child. if err := writeSync(p.messageSockPair.parent, procRun); err != nil { return newSystemErrorWithCause(err, "writing syncT 'run'") } sentRun = true case procHooks: // Setup cgroup before prestart hook, so that the prestart hook could apply cgroup permissions. if err := p.manager.Set(p.config.Config); err != nil { return newSystemErrorWithCause(err, "setting cgroup config for procHooks process") } if p.intelRdtManager != nil { if err := p.intelRdtManager.Set(p.config.Config); err != nil { return newSystemErrorWithCause(err, "setting Intel RDT config for procHooks process") } } if p.config.Config.Hooks != nil { s, err := p.container.currentOCIState() if err != nil { return err } // initProcessStartTime hasn't been set yet. s.Pid = p.cmd.Process.Pid s.Status = configs.Creating hooks := p.config.Config.Hooks if err := hooks[configs.Prestart].RunHooks(s); err != nil { return err } if err := hooks[configs.CreateRuntime].RunHooks(s); err != nil { return err } } // Sync with child. if err := writeSync(p.messageSockPair.parent, procResume); err != nil { return newSystemErrorWithCause(err, "writing syncT 'resume'") } sentResume = true default: return newSystemError(errors.New("invalid JSON payload from child")) } return nil }) if !sentRun { return newSystemErrorWithCause(ierr, "container init") } if p.config.Config.Namespaces.Contains(configs.NEWNS) && !sentResume { return newSystemError(errors.New("could not synchronise after executing prestart and CreateRuntime hooks with container process")) } if err := unix.Shutdown(int(p.messageSockPair.parent.Fd()), unix.SHUT_WR); err != nil { return newSystemErrorWithCause(err, "shutting down init pipe") } // Must be done after Shutdown so the child will exit and we can wait for it. if ierr != nil { p.wait() return ierr } return nil } func (p *initProcess) wait() (*os.ProcessState, error) { err := p.cmd.Wait() if err != nil { return p.cmd.ProcessState, err } // we should kill all processes in cgroup when init is died if we use host PID namespace if p.sharePidns { signalAllProcesses(p.manager, unix.SIGKILL) } return p.cmd.ProcessState, nil } func (p *initProcess) terminate() error { if p.cmd.Process == nil { return nil } err := p.cmd.Process.Kill() if _, werr := p.wait(); err == nil { err = werr } return err } func (p *initProcess) startTime() (uint64, error) { stat, err := system.Stat(p.pid()) return stat.StartTime, err } func (p *initProcess) updateSpecState() error { s, err := p.container.currentOCIState() if err != nil { return err } p.config.SpecState = s return nil } func (p *initProcess) sendConfig() error { // send the config to the container's init process, we don't use JSON Encode // here because there might be a problem in JSON decoder in some cases, see: // https://github.com/docker/docker/issues/14203#issuecomment-174177790 return utils.WriteJSON(p.messageSockPair.parent, p.config) } func (p *initProcess) createNetworkInterfaces() error { for _, config := range p.config.Config.Networks { strategy, err := getStrategy(config.Type) if err != nil { return err } n := &network{ Network: *config, } if err := strategy.create(n, p.pid()); err != nil { return err } p.config.Networks = append(p.config.Networks, n) } return nil } func (p *initProcess) signal(sig os.Signal) error { s, ok := sig.(unix.Signal) if !ok { return errors.New("os: unsupported signal type") } return unix.Kill(p.pid(), s) } func (p *initProcess) setExternalDescriptors(newFds []string) { p.fds = newFds } func (p *initProcess) forwardChildLogs() { go logs.ForwardLogs(p.logFilePair.parent) } func getPipeFds(pid int) ([]string, error) { fds := make([]string, 3) dirPath := filepath.Join("/proc", strconv.Itoa(pid), "/fd") for i := 0; i < 3; i++ { // XXX: This breaks if the path is not a valid symlink (which can // happen in certain particularly unlucky mount namespace setups). f := filepath.Join(dirPath, strconv.Itoa(i)) target, err := os.Readlink(f) if err != nil { // Ignore permission errors, for rootless containers and other // non-dumpable processes. if we can't get the fd for a particular // file, there's not much we can do. if os.IsPermission(err) { continue } return fds, err } fds[i] = target } return fds, nil } // InitializeIO creates pipes for use with the process's stdio and returns the // opposite side for each. Do not use this if you want to have a pseudoterminal // set up for you by libcontainer (TODO: fix that too). // TODO: This is mostly unnecessary, and should be handled by clients. func (p *Process) InitializeIO(rootuid, rootgid int) (i *IO, err error) { var fds []uintptr i = &IO{} // cleanup in case of an error defer func() { if err != nil { for _, fd := range fds { unix.Close(int(fd)) } } }() // STDIN r, w, err := os.Pipe() if err != nil { return nil, err } fds = append(fds, r.Fd(), w.Fd()) p.Stdin, i.Stdin = r, w // STDOUT if r, w, err = os.Pipe(); err != nil { return nil, err } fds = append(fds, r.Fd(), w.Fd()) p.Stdout, i.Stdout = w, r // STDERR if r, w, err = os.Pipe(); err != nil { return nil, err } fds = append(fds, r.Fd(), w.Fd()) p.Stderr, i.Stderr = w, r // change ownership of the pipes in case we are in a user namespace for _, fd := range fds { if err := unix.Fchown(int(fd), rootuid, rootgid); err != nil { return nil, err } } return i, nil }