Files
runc/libcontainer/process_linux.go
T
Marco Vedovati 9a599f62fb Support for logging from children processes
Add support for children processes logging (including nsexec).
A pipe is used to send logs from children to parent in JSON.
The JSON format used is the same used by logrus JSON formatted,
i.e. children process can use standard logrus APIs.

Signed-off-by: Marco Vedovati <mvedovati@suse.com>
2019-04-04 14:53:23 +03:00

597 lines
17 KiB
Go

// +build linux
package libcontainer
import (
"encoding/json"
"errors"
"fmt"
"io"
"os"
"os/exec"
"path/filepath"
"strconv"
"syscall" // only for Signal
"github.com/opencontainers/runc/libcontainer/cgroups"
"github.com/opencontainers/runc/libcontainer/configs"
"github.com/opencontainers/runc/libcontainer/intelrdt"
"github.com/opencontainers/runc/libcontainer/system"
"github.com/opencontainers/runc/libcontainer/utils"
"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)
getChildLogs()
}
type pipePair struct {
r *os.File
w *os.File
}
type setnsProcess struct {
cmd *exec.Cmd
parentPipe *os.File
childPipe *os.File
logPipe pipePair
cgroupPaths map[string]string
rootlessCgroups bool
intelRdtPath string
config *initConfig
fds []string
process *Process
bootstrapData io.Reader
}
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.(syscall.Signal)
if !ok {
return errors.New("os: unsupported signal type")
}
return unix.Kill(p.pid(), s)
}
func (p *setnsProcess) start() (err error) {
defer p.parentPipe.Close()
err = p.cmd.Start()
// close the write-side of the pipes (controlled by child)
p.childPipe.Close()
p.logPipe.w.Close()
if err != nil {
return newSystemErrorWithCause(err, "starting setns process")
}
if p.bootstrapData != nil {
if _, err := io.Copy(p.parentPipe, 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 {
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.parentPipe, p.config); err != nil {
return newSystemErrorWithCause(err, "writing config to pipe")
}
ierr := parseSync(p.parentPipe, 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(fmt.Errorf("invalid JSON payload from child"))
}
})
if err := unix.Shutdown(int(p.parentPipe.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.parentPipe).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) getChildLogs() {
go forwardLogs(p.logPipe.r)
}
type initProcess struct {
cmd *exec.Cmd
parentPipe *os.File
childPipe *os.File
logPipe pipePair
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.parentPipe).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() error {
defer p.parentPipe.Close()
err := p.cmd.Start()
p.process.ops = p
// close the write-side of the pipes (controlled by child)
p.childPipe.Close()
p.logPipe.w.Close()
if err != nil {
p.process.ops = nil
return newSystemErrorWithCause(err, "starting init process command")
}
// 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")
}
}
defer func() {
if err != nil {
// TODO: should not be the responsibility to call here
p.manager.Destroy()
if p.intelRdtManager != nil {
p.intelRdtManager.Destroy()
}
}
}()
if _, err := io.Copy(p.parentPipe, 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)
// Do this before syncing with child so that no children
// can escape the cgroup
if err := p.manager.Apply(childPid); err != nil {
return newSystemErrorWithCause(err, "applying cgroup configuration for process")
}
if p.intelRdtManager != nil {
if err := p.intelRdtManager.Apply(childPid); err != nil {
return newSystemErrorWithCause(err, "applying Intel RDT configuration for process")
}
}
// 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.parentPipe.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")
}
defer func() {
if err != nil {
// TODO: should not be the responsibility to call here
p.manager.Destroy()
}
}()
if err := p.createNetworkInterfaces(); err != nil {
return newSystemErrorWithCause(err, "creating network interfaces")
}
if err := p.sendConfig(); err != nil {
return newSystemErrorWithCause(err, "sending config to init process")
}
var (
sentRun bool
sentResume bool
)
ierr := parseSync(p.parentPipe, 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 hooks
if !p.config.Config.Namespaces.Contains(configs.NEWNS) {
// 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 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 = "creating"
for i, hook := range p.config.Config.Hooks.Prestart {
if err := hook.Run(s); err != nil {
return newSystemErrorWithCausef(err, "running prestart hook %d", i)
}
}
}
}
// Sync with child.
if err := writeSync(p.parentPipe, 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 = "creating"
for i, hook := range p.config.Config.Hooks.Prestart {
if err := hook.Run(s); err != nil {
return newSystemErrorWithCausef(err, "running prestart hook %d", i)
}
}
}
// Sync with child.
if err := writeSync(p.parentPipe, procResume); err != nil {
return newSystemErrorWithCause(err, "writing syncT 'resume'")
}
sentResume = true
default:
return newSystemError(fmt.Errorf("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(fmt.Errorf("could not synchronise after executing prestart hooks with container process"))
}
if err := unix.Shutdown(int(p.parentPipe.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) 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.parentPipe, 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.(syscall.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) getChildLogs() {
go forwardLogs(p.logPipe.r)
}
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
}