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run_common.go
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run_common.go
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//go:build linux || freebsd
package buildah
import (
"bytes"
"encoding/json"
"errors"
"fmt"
"io"
"io/fs"
"net"
"os"
"os/exec"
"os/signal"
"path/filepath"
"runtime"
"strconv"
"strings"
"sync"
"sync/atomic"
"syscall"
"time"
"github.com/containers/buildah/bind"
"github.com/containers/buildah/copier"
"github.com/containers/buildah/define"
"github.com/containers/buildah/internal"
"github.com/containers/buildah/internal/tmpdir"
internalUtil "github.com/containers/buildah/internal/util"
"github.com/containers/buildah/internal/volumes"
"github.com/containers/buildah/pkg/overlay"
"github.com/containers/buildah/pkg/sshagent"
"github.com/containers/buildah/util"
"github.com/containers/common/libnetwork/etchosts"
"github.com/containers/common/libnetwork/network"
"github.com/containers/common/libnetwork/resolvconf"
netTypes "github.com/containers/common/libnetwork/types"
netUtil "github.com/containers/common/libnetwork/util"
"github.com/containers/common/pkg/config"
"github.com/containers/common/pkg/subscriptions"
"github.com/containers/image/v5/types"
imageTypes "github.com/containers/image/v5/types"
"github.com/containers/storage"
"github.com/containers/storage/pkg/fileutils"
"github.com/containers/storage/pkg/idtools"
"github.com/containers/storage/pkg/ioutils"
"github.com/containers/storage/pkg/lockfile"
"github.com/containers/storage/pkg/reexec"
"github.com/containers/storage/pkg/unshare"
storageTypes "github.com/containers/storage/types"
"github.com/opencontainers/go-digest"
"github.com/opencontainers/runtime-spec/specs-go"
"github.com/opencontainers/runtime-tools/generate"
"github.com/opencontainers/selinux/go-selinux/label"
"github.com/sirupsen/logrus"
"golang.org/x/exp/slices"
"golang.org/x/sys/unix"
"golang.org/x/term"
)
func (b *Builder) createResolvConf(rdir string, chownOpts *idtools.IDPair) (string, error) {
cfile := filepath.Join(rdir, "resolv.conf")
f, err := os.Create(cfile)
if err != nil {
return "", err
}
defer f.Close()
uid := 0
gid := 0
if chownOpts != nil {
uid = chownOpts.UID
gid = chownOpts.GID
}
if err = f.Chown(uid, gid); err != nil {
return "", err
}
if err := relabel(cfile, b.MountLabel, false); err != nil {
return "", err
}
return cfile, nil
}
// addResolvConf copies files from host and sets them up to bind mount into container
func (b *Builder) addResolvConfEntries(file string, networkNameServer []string,
spec *specs.Spec, keepHostServers, ipv6 bool,
) error {
defaultConfig, err := config.Default()
if err != nil {
return fmt.Errorf("failed to get config: %w", err)
}
var namespaces []specs.LinuxNamespace
if spec.Linux != nil {
namespaces = spec.Linux.Namespaces
}
dnsServers, dnsSearch, dnsOptions := b.CommonBuildOpts.DNSServers, b.CommonBuildOpts.DNSSearch, b.CommonBuildOpts.DNSOptions
nameservers := make([]string, 0, len(defaultConfig.Containers.DNSServers.Get())+len(dnsServers))
nameservers = append(nameservers, defaultConfig.Containers.DNSServers.Get()...)
nameservers = append(nameservers, dnsServers...)
searches := make([]string, 0, len(defaultConfig.Containers.DNSSearches.Get())+len(dnsSearch))
searches = append(searches, defaultConfig.Containers.DNSSearches.Get()...)
searches = append(searches, dnsSearch...)
options := make([]string, 0, len(defaultConfig.Containers.DNSOptions.Get())+len(dnsOptions))
options = append(options, defaultConfig.Containers.DNSOptions.Get()...)
options = append(options, dnsOptions...)
if len(nameservers) == 0 {
nameservers = networkNameServer
}
if err := resolvconf.New(&resolvconf.Params{
Path: file,
Namespaces: namespaces,
IPv6Enabled: ipv6,
KeepHostServers: keepHostServers,
Nameservers: nameservers,
Searches: searches,
Options: options,
}); err != nil {
return fmt.Errorf("building resolv.conf for container %s: %w", b.ContainerID, err)
}
return nil
}
// createHostsFile creates a containers hosts file
func (b *Builder) createHostsFile(rdir string, chownOpts *idtools.IDPair) (string, error) {
targetfile := filepath.Join(rdir, "hosts")
f, err := os.Create(targetfile)
if err != nil {
return "", err
}
defer f.Close()
uid := 0
gid := 0
if chownOpts != nil {
uid = chownOpts.UID
gid = chownOpts.GID
}
if err := f.Chown(uid, gid); err != nil {
return "", err
}
if err := relabel(targetfile, b.MountLabel, false); err != nil {
return "", err
}
return targetfile, nil
}
func (b *Builder) addHostsEntries(file, imageRoot string, entries etchosts.HostEntries, exclude []net.IP, preferIP string) error {
conf, err := config.Default()
if err != nil {
return err
}
base, err := etchosts.GetBaseHostFile(conf.Containers.BaseHostsFile, imageRoot)
if err != nil {
return err
}
return etchosts.New(&etchosts.Params{
BaseFile: base,
ExtraHosts: b.CommonBuildOpts.AddHost,
HostContainersInternalIP: etchosts.GetHostContainersInternalIP(etchosts.HostContainersInternalOptions{
Conf: conf,
Exclude: exclude,
PreferIP: preferIP,
}),
TargetFile: file,
ContainerIPs: entries,
})
}
// generateHostname creates a containers /etc/hostname file
func (b *Builder) generateHostname(rdir, hostname string, chownOpts *idtools.IDPair) (string, error) {
var err error
hostnamePath := "/etc/hostname"
var hostnameBuffer bytes.Buffer
hostnameBuffer.Write([]byte(fmt.Sprintf("%s\n", hostname)))
cfile := filepath.Join(rdir, filepath.Base(hostnamePath))
if err = ioutils.AtomicWriteFile(cfile, hostnameBuffer.Bytes(), 0o644); err != nil {
return "", fmt.Errorf("writing /etc/hostname into the container: %w", err)
}
uid := 0
gid := 0
if chownOpts != nil {
uid = chownOpts.UID
gid = chownOpts.GID
}
if err = os.Chown(cfile, uid, gid); err != nil {
return "", err
}
if err := relabel(cfile, b.MountLabel, false); err != nil {
return "", err
}
return cfile, nil
}
func setupTerminal(g *generate.Generator, terminalPolicy TerminalPolicy, terminalSize *specs.Box) {
switch terminalPolicy {
case DefaultTerminal:
onTerminal := term.IsTerminal(unix.Stdin) && term.IsTerminal(unix.Stdout) && term.IsTerminal(unix.Stderr)
if onTerminal {
logrus.Debugf("stdio is a terminal, defaulting to using a terminal")
} else {
logrus.Debugf("stdio is not a terminal, defaulting to not using a terminal")
}
g.SetProcessTerminal(onTerminal)
case WithTerminal:
g.SetProcessTerminal(true)
case WithoutTerminal:
g.SetProcessTerminal(false)
}
if terminalSize != nil {
g.SetProcessConsoleSize(terminalSize.Width, terminalSize.Height)
}
}
// Search for a command that isn't given as an absolute path using the $PATH
// under the rootfs. We can't resolve absolute symbolic links without
// chroot()ing, which we may not be able to do, so just accept a link as a
// valid resolution.
func runLookupPath(g *generate.Generator, command []string) []string {
// Look for the configured $PATH.
spec := g.Config
envPath := ""
for i := range spec.Process.Env {
if strings.HasPrefix(spec.Process.Env[i], "PATH=") {
envPath = spec.Process.Env[i]
}
}
// If there is no configured $PATH, supply one.
if envPath == "" {
defaultPath := "/usr/local/bin:/usr/local/sbin:/usr/bin:/usr/sbin:/bin:/sbin"
envPath = "PATH=" + defaultPath
g.AddProcessEnv("PATH", defaultPath)
}
// No command, nothing to do.
if len(command) == 0 {
return command
}
// Command is already an absolute path, use it as-is.
if filepath.IsAbs(command[0]) {
return command
}
// For each element in the PATH,
for _, pathEntry := range filepath.SplitList(envPath[5:]) {
// if it's the empty string, it's ".", which is the Cwd,
if pathEntry == "" {
pathEntry = spec.Process.Cwd
}
// build the absolute path which it might be,
candidate := filepath.Join(pathEntry, command[0])
// check if it's there,
if fi, err := os.Lstat(filepath.Join(spec.Root.Path, candidate)); fi != nil && err == nil {
// and if it's not a directory, and either a symlink or executable,
if !fi.IsDir() && ((fi.Mode()&os.ModeSymlink != 0) || (fi.Mode()&0o111 != 0)) {
// use that.
return append([]string{candidate}, command[1:]...)
}
}
}
return command
}
func (b *Builder) configureUIDGID(g *generate.Generator, mountPoint string, options RunOptions) (string, error) {
// Set the user UID/GID/supplemental group list/capabilities lists.
user, homeDir, err := b.userForRun(mountPoint, options.User)
if err != nil {
return "", err
}
if err := setupCapabilities(g, b.Capabilities, options.AddCapabilities, options.DropCapabilities); err != nil {
return "", err
}
g.SetProcessUID(user.UID)
g.SetProcessGID(user.GID)
g.AddProcessAdditionalGid(user.GID)
for _, gid := range user.AdditionalGids {
g.AddProcessAdditionalGid(gid)
}
for _, group := range b.GroupAdd {
if group == "keep-groups" {
if len(b.GroupAdd) > 1 {
return "", errors.New("the '--group-add keep-groups' option is not allowed with any other --group-add options")
}
g.AddAnnotation("run.oci.keep_original_groups", "1")
continue
}
gid, err := strconv.ParseUint(group, 10, 32)
if err != nil {
return "", err
}
g.AddProcessAdditionalGid(uint32(gid))
}
// Remove capabilities if not running as root except Bounding set
if user.UID != 0 && g.Config.Process.Capabilities != nil {
bounding := g.Config.Process.Capabilities.Bounding
g.ClearProcessCapabilities()
g.Config.Process.Capabilities.Bounding = bounding
}
return homeDir, nil
}
func (b *Builder) configureEnvironment(g *generate.Generator, options RunOptions, defaultEnv []string) {
g.ClearProcessEnv()
if b.CommonBuildOpts.HTTPProxy {
for _, envSpec := range config.ProxyEnv {
if envVal, ok := os.LookupEnv(envSpec); ok {
g.AddProcessEnv(envSpec, envVal)
}
}
}
for _, envSpec := range util.MergeEnv(util.MergeEnv(defaultEnv, b.Env()), options.Env) {
env := strings.SplitN(envSpec, "=", 2)
if len(env) > 1 {
g.AddProcessEnv(env[0], env[1])
}
}
}
// getNetworkInterface creates the network interface
func getNetworkInterface(store storage.Store, cniConfDir, cniPluginPath string) (netTypes.ContainerNetwork, error) {
conf, err := config.Default()
if err != nil {
return nil, err
}
// copy the config to not modify the default by accident
newconf := *conf
if len(cniConfDir) > 0 {
newconf.Network.NetworkConfigDir = cniConfDir
}
if len(cniPluginPath) > 0 {
plugins := strings.Split(cniPluginPath, string(os.PathListSeparator))
newconf.Network.CNIPluginDirs.Set(plugins)
}
_, netInt, err := network.NetworkBackend(store, &newconf, false)
if err != nil {
return nil, err
}
return netInt, nil
}
func netStatusToNetResult(netStatus map[string]netTypes.StatusBlock, hostnames []string) *netResult {
result := &netResult{
keepHostResolvers: false,
}
for _, status := range netStatus {
for _, dns := range status.DNSServerIPs {
result.dnsServers = append(result.dnsServers, dns.String())
}
for _, netInt := range status.Interfaces {
for _, netAddress := range netInt.Subnets {
e := etchosts.HostEntry{IP: netAddress.IPNet.IP.String(), Names: hostnames}
result.entries = append(result.entries, e)
if !result.ipv6 && netUtil.IsIPv6(netAddress.IPNet.IP) {
result.ipv6 = true
}
}
}
}
return result
}
// DefaultNamespaceOptions returns the default namespace settings from the
// runtime-tools generator library.
func DefaultNamespaceOptions() (define.NamespaceOptions, error) {
cfg, err := config.Default()
if err != nil {
return nil, fmt.Errorf("failed to get container config: %w", err)
}
options := define.NamespaceOptions{
{Name: string(specs.CgroupNamespace), Host: cfg.CgroupNS() == "host"},
{Name: string(specs.IPCNamespace), Host: cfg.IPCNS() == "host"},
{Name: string(specs.MountNamespace), Host: false},
{Name: string(specs.NetworkNamespace), Host: cfg.NetNS() == "host"},
{Name: string(specs.PIDNamespace), Host: cfg.PidNS() == "host"},
{Name: string(specs.UserNamespace), Host: cfg.Containers.UserNS == "" || cfg.Containers.UserNS == "host"},
{Name: string(specs.UTSNamespace), Host: cfg.UTSNS() == "host"},
}
return options, nil
}
func checkAndOverrideIsolationOptions(isolation define.Isolation, options *RunOptions) error {
switch isolation {
case IsolationOCIRootless:
// only change the netns if the caller did not set it
if ns := options.NamespaceOptions.Find(string(specs.NetworkNamespace)); ns == nil {
if _, err := exec.LookPath("slirp4netns"); err != nil {
// if slirp4netns is not installed we have to use the hosts net namespace
options.NamespaceOptions.AddOrReplace(define.NamespaceOption{Name: string(specs.NetworkNamespace), Host: true})
}
}
fallthrough
case IsolationOCI:
pidns := options.NamespaceOptions.Find(string(specs.PIDNamespace))
userns := options.NamespaceOptions.Find(string(specs.UserNamespace))
if (pidns != nil && pidns.Host) && (userns != nil && !userns.Host) {
return fmt.Errorf("not allowed to mix host PID namespace with container user namespace")
}
case IsolationChroot:
logrus.Info("network namespace isolation not supported with chroot isolation, forcing host network")
options.NamespaceOptions.AddOrReplace(define.NamespaceOption{Name: string(specs.NetworkNamespace), Host: true})
}
return nil
}
// fileCloser is a helper struct to prevent closing the file twice in the code
// users must call (fileCloser).Close() and not fileCloser.File.Close()
type fileCloser struct {
file *os.File
closed bool
}
func (f *fileCloser) Close() {
if !f.closed {
if err := f.file.Close(); err != nil {
logrus.Errorf("failed to close file: %v", err)
}
f.closed = true
}
}
// waitForSync waits for a maximum of 4 minutes to read something from the file
func waitForSync(pipeR *os.File) error {
if err := pipeR.SetDeadline(time.Now().Add(4 * time.Minute)); err != nil {
return err
}
b := make([]byte, 16)
_, err := pipeR.Read(b)
return err
}
func runUsingRuntime(options RunOptions, configureNetwork bool, moreCreateArgs []string, spec *specs.Spec, bundlePath, containerName string,
containerCreateW io.WriteCloser, containerStartR io.ReadCloser,
) (wstatus unix.WaitStatus, err error) {
if options.Logger == nil {
options.Logger = logrus.StandardLogger()
}
// Lock the caller to a single OS-level thread.
runtime.LockOSThread()
// Set up bind mounts for things that a namespaced user might not be able to get to directly.
unmountAll, err := bind.SetupIntermediateMountNamespace(spec, bundlePath)
if unmountAll != nil {
defer func() {
if err := unmountAll(); err != nil {
options.Logger.Error(err)
}
}()
}
if err != nil {
return 1, err
}
// Write the runtime configuration.
specbytes, err := json.Marshal(spec)
if err != nil {
return 1, fmt.Errorf("encoding configuration %#v as json: %w", spec, err)
}
if err = ioutils.AtomicWriteFile(filepath.Join(bundlePath, "config.json"), specbytes, 0o600); err != nil {
return 1, fmt.Errorf("storing runtime configuration: %w", err)
}
logrus.Debugf("config = %v", string(specbytes))
// Decide which runtime to use.
runtime := options.Runtime
if runtime == "" {
runtime = util.Runtime()
}
localRuntime := util.FindLocalRuntime(runtime)
if localRuntime != "" {
runtime = localRuntime
}
// Default to just passing down our stdio.
getCreateStdio := func() (io.ReadCloser, io.WriteCloser, io.WriteCloser) {
return os.Stdin, os.Stdout, os.Stderr
}
// Figure out how we're doing stdio handling, and create pipes and sockets.
var stdio sync.WaitGroup
var consoleListener *net.UnixListener
var errorFds, closeBeforeReadingErrorFds []int
stdioPipe := make([][]int, 3)
copyConsole := false
copyPipes := false
finishCopy := make([]int, 2)
if err = unix.Pipe(finishCopy); err != nil {
return 1, fmt.Errorf("creating pipe for notifying to stop stdio: %w", err)
}
finishedCopy := make(chan struct{}, 1)
var pargs []string
if spec.Process != nil {
pargs = spec.Process.Args
if spec.Process.Terminal {
copyConsole = true
// Create a listening socket for accepting the container's terminal's PTY master.
socketPath := filepath.Join(bundlePath, "console.sock")
consoleListener, err = net.ListenUnix("unix", &net.UnixAddr{Name: socketPath, Net: "unix"})
if err != nil {
return 1, fmt.Errorf("creating socket %q to receive terminal descriptor: %w", consoleListener.Addr(), err)
}
// Add console socket arguments.
moreCreateArgs = append(moreCreateArgs, "--console-socket", socketPath)
} else {
copyPipes = true
// Figure out who should own the pipes.
uid, gid, err := util.GetHostRootIDs(spec)
if err != nil {
return 1, err
}
// Create stdio pipes.
if stdioPipe, err = runMakeStdioPipe(int(uid), int(gid)); err != nil {
return 1, err
}
if spec.Linux != nil {
if err = runLabelStdioPipes(stdioPipe, spec.Process.SelinuxLabel, spec.Linux.MountLabel); err != nil {
return 1, err
}
}
errorFds = []int{stdioPipe[unix.Stdout][0], stdioPipe[unix.Stderr][0]}
closeBeforeReadingErrorFds = []int{stdioPipe[unix.Stdout][1], stdioPipe[unix.Stderr][1]}
// Set stdio to our pipes.
getCreateStdio = func() (io.ReadCloser, io.WriteCloser, io.WriteCloser) {
stdin := os.NewFile(uintptr(stdioPipe[unix.Stdin][0]), "/dev/stdin")
stdout := os.NewFile(uintptr(stdioPipe[unix.Stdout][1]), "/dev/stdout")
stderr := os.NewFile(uintptr(stdioPipe[unix.Stderr][1]), "/dev/stderr")
return stdin, stdout, stderr
}
}
} else {
if options.Quiet {
// Discard stdout.
getCreateStdio = func() (io.ReadCloser, io.WriteCloser, io.WriteCloser) {
return os.Stdin, nil, os.Stderr
}
}
}
runtimeArgs := slices.Clone(options.Args)
if options.CgroupManager == config.SystemdCgroupsManager {
runtimeArgs = append(runtimeArgs, "--systemd-cgroup")
}
// Build the commands that we'll execute.
pidFile := filepath.Join(bundlePath, "pid")
args := append(append(append(runtimeArgs, "create", "--bundle", bundlePath, "--pid-file", pidFile), moreCreateArgs...), containerName)
create := exec.Command(runtime, args...)
setPdeathsig(create)
create.Dir = bundlePath
stdin, stdout, stderr := getCreateStdio()
create.Stdin, create.Stdout, create.Stderr = stdin, stdout, stderr
args = append(options.Args, "start", containerName)
start := exec.Command(runtime, args...)
setPdeathsig(start)
start.Dir = bundlePath
start.Stderr = os.Stderr
kill := func(signal string) *exec.Cmd {
args := append(options.Args, "kill", containerName)
if signal != "" {
args = append(args, signal)
}
kill := exec.Command(runtime, args...)
kill.Dir = bundlePath
kill.Stderr = os.Stderr
return kill
}
args = append(options.Args, "delete", containerName)
del := exec.Command(runtime, args...)
del.Dir = bundlePath
del.Stderr = os.Stderr
// Actually create the container.
logrus.Debugf("Running %q", create.Args)
err = create.Run()
if err != nil {
return 1, fmt.Errorf("from %s creating container for %v: %s: %w", runtime, pargs, runCollectOutput(options.Logger, errorFds, closeBeforeReadingErrorFds), err)
}
defer func() {
err2 := del.Run()
if err2 != nil {
if err == nil {
err = fmt.Errorf("deleting container: %w", err2)
} else {
options.Logger.Infof("error from %s deleting container: %v", runtime, err2)
}
}
}()
// Make sure we read the container's exit status when it exits.
pidValue, err := os.ReadFile(pidFile)
if err != nil {
return 1, err
}
pid, err := strconv.Atoi(strings.TrimSpace(string(pidValue)))
if err != nil {
return 1, fmt.Errorf("parsing pid %s as a number: %w", string(pidValue), err)
}
var stopped uint32
var reaping sync.WaitGroup
reaping.Add(1)
go func() {
defer reaping.Done()
var err error
_, err = unix.Wait4(pid, &wstatus, 0, nil)
if err != nil {
wstatus = 0
options.Logger.Errorf("error waiting for container child process %d: %v\n", pid, err)
}
atomic.StoreUint32(&stopped, 1)
}()
if configureNetwork {
if _, err := containerCreateW.Write([]byte{1}); err != nil {
return 1, err
}
containerCreateW.Close()
logrus.Debug("waiting for parent start message")
b := make([]byte, 1)
if _, err := containerStartR.Read(b); err != nil {
return 1, fmt.Errorf("did not get container start message from parent: %w", err)
}
containerStartR.Close()
}
if copyPipes {
// We don't need the ends of the pipes that belong to the container.
stdin.Close()
if stdout != nil {
stdout.Close()
}
stderr.Close()
}
// Handle stdio for the container in the background.
stdio.Add(1)
go runCopyStdio(options.Logger, &stdio, copyPipes, stdioPipe, copyConsole, consoleListener, finishCopy, finishedCopy, spec)
// Start the container.
logrus.Debugf("Running %q", start.Args)
err = start.Run()
if err != nil {
return 1, fmt.Errorf("from %s starting container: %w", runtime, err)
}
defer func() {
if atomic.LoadUint32(&stopped) == 0 {
if err := kill("").Run(); err != nil {
options.Logger.Infof("error from %s stopping container: %v", runtime, err)
}
atomic.StoreUint32(&stopped, 1)
}
}()
// Wait for the container to exit.
interrupted := make(chan os.Signal, 100)
go func() {
for range interrupted {
if err := kill("SIGKILL").Run(); err != nil {
logrus.Errorf("%v sending SIGKILL", err)
}
}
}()
signal.Notify(interrupted, syscall.SIGHUP, syscall.SIGINT, syscall.SIGTERM)
for {
now := time.Now()
var state specs.State
args = append(options.Args, "state", containerName)
stat := exec.Command(runtime, args...)
stat.Dir = bundlePath
stat.Stderr = os.Stderr
stateOutput, err := stat.Output()
if err != nil {
if atomic.LoadUint32(&stopped) != 0 {
// container exited
break
}
return 1, fmt.Errorf("reading container state from %s (got output: %q): %w", runtime, string(stateOutput), err)
}
if err = json.Unmarshal(stateOutput, &state); err != nil {
return 1, fmt.Errorf("parsing container state %q from %s: %w", string(stateOutput), runtime, err)
}
switch state.Status {
case "running":
case "stopped":
atomic.StoreUint32(&stopped, 1)
default:
return 1, fmt.Errorf("container status unexpectedly changed to %q", state.Status)
}
if atomic.LoadUint32(&stopped) != 0 {
break
}
select {
case <-finishedCopy:
atomic.StoreUint32(&stopped, 1)
case <-time.After(time.Until(now.Add(100 * time.Millisecond))):
continue
}
if atomic.LoadUint32(&stopped) != 0 {
break
}
}
signal.Stop(interrupted)
close(interrupted)
// Close the writing end of the stop-handling-stdio notification pipe.
unix.Close(finishCopy[1])
// Wait for the stdio copy goroutine to flush.
stdio.Wait()
// Wait until we finish reading the exit status.
reaping.Wait()
return wstatus, nil
}
func runCollectOutput(logger *logrus.Logger, fds, closeBeforeReadingFds []int) string { //nolint:interfacer
for _, fd := range closeBeforeReadingFds {
unix.Close(fd)
}
var b bytes.Buffer
buf := make([]byte, 8192)
for _, fd := range fds {
nread, err := unix.Read(fd, buf)
if err != nil {
if errno, isErrno := err.(syscall.Errno); isErrno {
switch errno {
default:
logger.Errorf("error reading from pipe %d: %v", fd, err)
case syscall.EINTR, syscall.EAGAIN:
}
} else {
logger.Errorf("unable to wait for data from pipe %d: %v", fd, err)
}
continue
}
for nread > 0 {
r := buf[:nread]
if nwritten, err := b.Write(r); err != nil || nwritten != len(r) {
if nwritten != len(r) {
logger.Errorf("error buffering data from pipe %d: %v", fd, err)
break
}
}
nread, err = unix.Read(fd, buf)
if err != nil {
if errno, isErrno := err.(syscall.Errno); isErrno {
switch errno {
default:
logger.Errorf("error reading from pipe %d: %v", fd, err)
case syscall.EINTR, syscall.EAGAIN:
}
} else {
logger.Errorf("unable to wait for data from pipe %d: %v", fd, err)
}
break
}
}
}
return b.String()
}
func setNonblock(logger *logrus.Logger, fd int, description string, nonblocking bool) (bool, error) { //nolint:interfacer
mask, err := unix.FcntlInt(uintptr(fd), unix.F_GETFL, 0)
if err != nil {
return false, err
}
blocked := mask&unix.O_NONBLOCK == 0
if err := unix.SetNonblock(fd, nonblocking); err != nil {
if nonblocking {
logger.Errorf("error setting %s to nonblocking: %v", description, err)
} else {
logger.Errorf("error setting descriptor %s blocking: %v", description, err)
}
}
return blocked, err
}
func runCopyStdio(logger *logrus.Logger, stdio *sync.WaitGroup, copyPipes bool, stdioPipe [][]int, copyConsole bool, consoleListener *net.UnixListener, finishCopy []int, finishedCopy chan struct{}, spec *specs.Spec) {
defer func() {
unix.Close(finishCopy[0])
if copyPipes {
unix.Close(stdioPipe[unix.Stdin][1])
unix.Close(stdioPipe[unix.Stdout][0])
unix.Close(stdioPipe[unix.Stderr][0])
}
stdio.Done()
finishedCopy <- struct{}{}
close(finishedCopy)
}()
// Map describing where data on an incoming descriptor should go.
relayMap := make(map[int]int)
// Map describing incoming and outgoing descriptors.
readDesc := make(map[int]string)
writeDesc := make(map[int]string)
// Buffers.
relayBuffer := make(map[int]*bytes.Buffer)
// Set up the terminal descriptor or pipes for polling.
if copyConsole {
// Accept a connection over our listening socket.
fd, err := runAcceptTerminal(logger, consoleListener, spec.Process.ConsoleSize)
if err != nil {
logger.Errorf("%v", err)
return
}
terminalFD := fd
// Input from our stdin, output from the terminal descriptor.
relayMap[unix.Stdin] = terminalFD
readDesc[unix.Stdin] = "stdin"
relayBuffer[terminalFD] = new(bytes.Buffer)
writeDesc[terminalFD] = "container terminal input"
relayMap[terminalFD] = unix.Stdout
readDesc[terminalFD] = "container terminal output"
relayBuffer[unix.Stdout] = new(bytes.Buffer)
writeDesc[unix.Stdout] = "output"
// Set our terminal's mode to raw, to pass handling of special
// terminal input to the terminal in the container.
if term.IsTerminal(unix.Stdin) {
if state, err := term.MakeRaw(unix.Stdin); err != nil {
logger.Warnf("error setting terminal state: %v", err)
} else {
defer func() {
if err = term.Restore(unix.Stdin, state); err != nil {
logger.Errorf("unable to restore terminal state: %v", err)
}
}()
}
}
}
if copyPipes {
// Input from our stdin, output from the stdout and stderr pipes.
relayMap[unix.Stdin] = stdioPipe[unix.Stdin][1]
readDesc[unix.Stdin] = "stdin"
relayBuffer[stdioPipe[unix.Stdin][1]] = new(bytes.Buffer)
writeDesc[stdioPipe[unix.Stdin][1]] = "container stdin"
relayMap[stdioPipe[unix.Stdout][0]] = unix.Stdout
readDesc[stdioPipe[unix.Stdout][0]] = "container stdout"
relayBuffer[unix.Stdout] = new(bytes.Buffer)
writeDesc[unix.Stdout] = "stdout"
relayMap[stdioPipe[unix.Stderr][0]] = unix.Stderr
readDesc[stdioPipe[unix.Stderr][0]] = "container stderr"
relayBuffer[unix.Stderr] = new(bytes.Buffer)
writeDesc[unix.Stderr] = "stderr"
}
// Set our reading descriptors to non-blocking.
for rfd, wfd := range relayMap {
blocked, err := setNonblock(logger, rfd, readDesc[rfd], true)
if err != nil {
return
}
if blocked {
defer setNonblock(logger, rfd, readDesc[rfd], false) // nolint:errcheck
}
setNonblock(logger, wfd, writeDesc[wfd], false) // nolint:errcheck
}
if copyPipes {
setNonblock(logger, stdioPipe[unix.Stdin][1], writeDesc[stdioPipe[unix.Stdin][1]], true) // nolint:errcheck
}
runCopyStdioPassData(copyPipes, stdioPipe, finishCopy, relayMap, relayBuffer, readDesc, writeDesc)
}
func canRetry(err error) bool {
if errno, isErrno := err.(syscall.Errno); isErrno {
return errno == syscall.EINTR || errno == syscall.EAGAIN
}
return false
}
func runCopyStdioPassData(copyPipes bool, stdioPipe [][]int, finishCopy []int, relayMap map[int]int, relayBuffer map[int]*bytes.Buffer, readDesc map[int]string, writeDesc map[int]string) {
closeStdin := false
// Pass data back and forth.
pollTimeout := -1
for len(relayMap) > 0 {
// Start building the list of descriptors to poll.
pollFds := make([]unix.PollFd, 0, len(relayMap)+1)
// Poll for a notification that we should stop handling stdio.
pollFds = append(pollFds, unix.PollFd{Fd: int32(finishCopy[0]), Events: unix.POLLIN | unix.POLLHUP})
// Poll on our reading descriptors.
for rfd := range relayMap {
pollFds = append(pollFds, unix.PollFd{Fd: int32(rfd), Events: unix.POLLIN | unix.POLLHUP})
}
buf := make([]byte, 8192)
// Wait for new data from any input descriptor, or a notification that we're done.
_, err := unix.Poll(pollFds, pollTimeout)
if !util.LogIfNotRetryable(err, fmt.Sprintf("error waiting for stdio/terminal data to relay: %v", err)) {
return
}
removes := make(map[int]struct{})
for _, pollFd := range pollFds {
// If this descriptor's just been closed from the other end, mark it for
// removal from the set that we're checking for.
if pollFd.Revents&unix.POLLHUP == unix.POLLHUP {
removes[int(pollFd.Fd)] = struct{}{}
}
// If the descriptor was closed elsewhere, remove it from our list.
if pollFd.Revents&unix.POLLNVAL != 0 {
logrus.Debugf("error polling descriptor %s: closed?", readDesc[int(pollFd.Fd)])
removes[int(pollFd.Fd)] = struct{}{}
}
// If the POLLIN flag isn't set, then there's no data to be read from this descriptor.
if pollFd.Revents&unix.POLLIN == 0 {
continue
}
// Read whatever there is to be read.
readFD := int(pollFd.Fd)
writeFD, needToRelay := relayMap[readFD]
if needToRelay {
n, err := unix.Read(readFD, buf)
if !util.LogIfNotRetryable(err, fmt.Sprintf("unable to read %s data: %v", readDesc[readFD], err)) {
return
}
// If it's zero-length on our stdin and we're
// using pipes, it's an EOF, so close the stdin
// pipe's writing end.
if n == 0 && !canRetry(err) && int(pollFd.Fd) == unix.Stdin {
removes[int(pollFd.Fd)] = struct{}{}
} else if n > 0 {
// Buffer the data in case we get blocked on where they need to go.
nwritten, err := relayBuffer[writeFD].Write(buf[:n])
if err != nil {
logrus.Debugf("buffer: %v", err)
continue
}
if nwritten != n {
logrus.Debugf("buffer: expected to buffer %d bytes, wrote %d", n, nwritten)
continue
}
// If this is the last of the data we'll be able to read from this
// descriptor, read all that there is to read.
for pollFd.Revents&unix.POLLHUP == unix.POLLHUP {
nr, err := unix.Read(readFD, buf)
util.LogIfUnexpectedWhileDraining(err, fmt.Sprintf("read %s: %v", readDesc[readFD], err))
if nr <= 0 {
break
}
nwritten, err := relayBuffer[writeFD].Write(buf[:nr])
if err != nil {
logrus.Debugf("buffer: %v", err)
break
}
if nwritten != nr {
logrus.Debugf("buffer: expected to buffer %d bytes, wrote %d", nr, nwritten)
break
}
}
}
}
}
// Try to drain the output buffers. Set the default timeout
// for the next poll() to 100ms if we still have data to write.
pollTimeout = -1
for writeFD := range relayBuffer {
if relayBuffer[writeFD].Len() > 0 {
n, err := unix.Write(writeFD, relayBuffer[writeFD].Bytes())
if !util.LogIfNotRetryable(err, fmt.Sprintf("unable to write %s data: %v", writeDesc[writeFD], err)) {
return
}
if n > 0 {
relayBuffer[writeFD].Next(n)
}
if closeStdin && writeFD == stdioPipe[unix.Stdin][1] && stdioPipe[unix.Stdin][1] >= 0 && relayBuffer[stdioPipe[unix.Stdin][1]].Len() == 0 {
logrus.Debugf("closing stdin")
unix.Close(stdioPipe[unix.Stdin][1])
stdioPipe[unix.Stdin][1] = -1
}
}
if relayBuffer[writeFD].Len() > 0 {
pollTimeout = 100
}
}
// Remove any descriptors which we don't need to poll any more from the poll descriptor list.
for remove := range removes {
if copyPipes && remove == unix.Stdin {
closeStdin = true
if relayBuffer[stdioPipe[unix.Stdin][1]].Len() == 0 {
logrus.Debugf("closing stdin")
unix.Close(stdioPipe[unix.Stdin][1])
stdioPipe[unix.Stdin][1] = -1
}