536 lines
15 KiB
Go
536 lines
15 KiB
Go
// +build linux
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package libcontainer
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import (
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"encoding/json"
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"fmt"
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"io"
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"net"
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"os"
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"strings"
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"syscall" // only for Errno
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"unsafe"
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"golang.org/x/sys/unix"
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"github.com/containerd/console"
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"github.com/opencontainers/runc/libcontainer/cgroups"
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"github.com/opencontainers/runc/libcontainer/configs"
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"github.com/opencontainers/runc/libcontainer/system"
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"github.com/opencontainers/runc/libcontainer/user"
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"github.com/opencontainers/runc/libcontainer/utils"
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"github.com/pkg/errors"
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"github.com/sirupsen/logrus"
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"github.com/vishvananda/netlink"
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)
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type initType string
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const (
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initSetns initType = "setns"
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initStandard initType = "standard"
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)
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type pid struct {
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Pid int `json:"pid"`
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PidFirstChild int `json:"pid_first"`
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}
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// network is an internal struct used to setup container networks.
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type network struct {
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configs.Network
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// TempVethPeerName is a unique temporary veth peer name that was placed into
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// the container's namespace.
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TempVethPeerName string `json:"temp_veth_peer_name"`
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}
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// initConfig is used for transferring parameters from Exec() to Init()
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type initConfig struct {
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Args []string `json:"args"`
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Env []string `json:"env"`
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Cwd string `json:"cwd"`
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Capabilities *configs.Capabilities `json:"capabilities"`
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ProcessLabel string `json:"process_label"`
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AppArmorProfile string `json:"apparmor_profile"`
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NoNewPrivileges bool `json:"no_new_privileges"`
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User string `json:"user"`
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AdditionalGroups []string `json:"additional_groups"`
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Config *configs.Config `json:"config"`
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Networks []*network `json:"network"`
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PassedFilesCount int `json:"passed_files_count"`
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ContainerId string `json:"containerid"`
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Rlimits []configs.Rlimit `json:"rlimits"`
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CreateConsole bool `json:"create_console"`
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ConsoleWidth uint16 `json:"console_width"`
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ConsoleHeight uint16 `json:"console_height"`
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Rootless bool `json:"rootless"`
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}
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type initer interface {
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Init() error
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}
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func newContainerInit(t initType, pipe *os.File, consoleSocket *os.File, fifoFd int) (initer, error) {
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var config *initConfig
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if err := json.NewDecoder(pipe).Decode(&config); err != nil {
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return nil, err
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}
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if err := populateProcessEnvironment(config.Env); err != nil {
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return nil, err
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}
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switch t {
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case initSetns:
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return &linuxSetnsInit{
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pipe: pipe,
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consoleSocket: consoleSocket,
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config: config,
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}, nil
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case initStandard:
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return &linuxStandardInit{
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pipe: pipe,
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consoleSocket: consoleSocket,
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parentPid: unix.Getppid(),
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config: config,
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fifoFd: fifoFd,
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}, nil
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}
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return nil, fmt.Errorf("unknown init type %q", t)
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}
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// populateProcessEnvironment loads the provided environment variables into the
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// current processes's environment.
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func populateProcessEnvironment(env []string) error {
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for _, pair := range env {
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p := strings.SplitN(pair, "=", 2)
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if len(p) < 2 {
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return fmt.Errorf("invalid environment '%v'", pair)
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}
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if err := os.Setenv(p[0], p[1]); err != nil {
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return err
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}
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}
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return nil
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}
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// finalizeNamespace drops the caps, sets the correct user
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// and working dir, and closes any leaked file descriptors
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// before executing the command inside the namespace
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func finalizeNamespace(config *initConfig) error {
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// Ensure that all unwanted fds we may have accidentally
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// inherited are marked close-on-exec so they stay out of the
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// container
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if err := utils.CloseExecFrom(config.PassedFilesCount + 3); err != nil {
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return errors.Wrap(err, "close exec fds")
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}
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capabilities := &configs.Capabilities{}
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if config.Capabilities != nil {
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capabilities = config.Capabilities
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} else if config.Config.Capabilities != nil {
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capabilities = config.Config.Capabilities
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}
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w, err := newContainerCapList(capabilities)
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if err != nil {
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return err
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}
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// drop capabilities in bounding set before changing user
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if err := w.ApplyBoundingSet(); err != nil {
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return errors.Wrap(err, "apply bounding set")
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}
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// preserve existing capabilities while we change users
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if err := system.SetKeepCaps(); err != nil {
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return errors.Wrap(err, "set keep caps")
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}
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if err := setupUser(config); err != nil {
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return errors.Wrap(err, "setup user")
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}
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if err := system.ClearKeepCaps(); err != nil {
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return errors.Wrap(err, "clear keep caps")
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}
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if err := w.ApplyCaps(); err != nil {
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return errors.Wrap(err, "apply caps")
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}
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if config.Cwd != "" {
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if err := unix.Chdir(config.Cwd); err != nil {
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return fmt.Errorf("chdir to cwd (%q) set in config.json failed: %v", config.Cwd, err)
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}
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}
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return nil
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}
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// setupConsole sets up the console from inside the container, and sends the
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// master pty fd to the config.Pipe (using cmsg). This is done to ensure that
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// consoles are scoped to a container properly (see runc#814 and the many
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// issues related to that). This has to be run *after* we've pivoted to the new
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// rootfs (and the users' configuration is entirely set up).
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func setupConsole(socket *os.File, config *initConfig, mount bool) error {
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defer socket.Close()
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// At this point, /dev/ptmx points to something that we would expect. We
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// used to change the owner of the slave path, but since the /dev/pts mount
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// can have gid=X set (at the users' option). So touching the owner of the
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// slave PTY is not necessary, as the kernel will handle that for us. Note
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// however, that setupUser (specifically fixStdioPermissions) *will* change
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// the UID owner of the console to be the user the process will run as (so
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// they can actually control their console).
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pty, slavePath, err := console.NewPty()
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if err != nil {
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return err
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}
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if config.ConsoleHeight != 0 && config.ConsoleWidth != 0 {
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err = pty.Resize(console.WinSize{
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Height: config.ConsoleHeight,
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Width: config.ConsoleWidth,
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})
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if err != nil {
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return err
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}
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}
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// After we return from here, we don't need the console anymore.
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defer pty.Close()
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// Mount the console inside our rootfs.
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if mount {
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if err := mountConsole(slavePath); err != nil {
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return err
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}
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}
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// While we can access console.master, using the API is a good idea.
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if err := utils.SendFd(socket, pty.Name(), pty.Fd()); err != nil {
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return err
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}
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// Now, dup over all the things.
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return dupStdio(slavePath)
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}
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// syncParentReady sends to the given pipe a JSON payload which indicates that
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// the init is ready to Exec the child process. It then waits for the parent to
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// indicate that it is cleared to Exec.
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func syncParentReady(pipe io.ReadWriter) error {
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// Tell parent.
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if err := writeSync(pipe, procReady); err != nil {
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return err
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}
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// Wait for parent to give the all-clear.
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if err := readSync(pipe, procRun); err != nil {
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return err
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}
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return nil
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}
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// syncParentHooks sends to the given pipe a JSON payload which indicates that
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// the parent should execute pre-start hooks. It then waits for the parent to
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// indicate that it is cleared to resume.
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func syncParentHooks(pipe io.ReadWriter) error {
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// Tell parent.
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if err := writeSync(pipe, procHooks); err != nil {
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return err
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}
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// Wait for parent to give the all-clear.
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if err := readSync(pipe, procResume); err != nil {
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return err
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}
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return nil
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}
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// setupUser changes the groups, gid, and uid for the user inside the container
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func setupUser(config *initConfig) error {
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// Set up defaults.
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defaultExecUser := user.ExecUser{
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Uid: 0,
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Gid: 0,
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Home: "/",
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}
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passwdPath, err := user.GetPasswdPath()
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if err != nil {
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return err
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}
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groupPath, err := user.GetGroupPath()
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if err != nil {
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return err
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}
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execUser, err := user.GetExecUserPath(config.User, &defaultExecUser, passwdPath, groupPath)
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if err != nil {
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return err
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}
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var addGroups []int
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if len(config.AdditionalGroups) > 0 {
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addGroups, err = user.GetAdditionalGroupsPath(config.AdditionalGroups, groupPath)
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if err != nil {
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return err
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}
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}
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// Rather than just erroring out later in setuid(2) and setgid(2), check
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// that the user is mapped here.
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if _, err := config.Config.HostUID(execUser.Uid); err != nil {
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return fmt.Errorf("cannot set uid to unmapped user in user namespace")
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}
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if _, err := config.Config.HostGID(execUser.Gid); err != nil {
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return fmt.Errorf("cannot set gid to unmapped user in user namespace")
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}
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if config.Rootless {
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// We cannot set any additional groups in a rootless container and thus
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// we bail if the user asked us to do so. TODO: We currently can't do
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// this check earlier, but if libcontainer.Process.User was typesafe
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// this might work.
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if len(addGroups) > 0 {
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return fmt.Errorf("cannot set any additional groups in a rootless container")
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}
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}
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// Before we change to the container's user make sure that the processes
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// STDIO is correctly owned by the user that we are switching to.
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if err := fixStdioPermissions(config, execUser); err != nil {
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return err
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}
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// This isn't allowed in an unprivileged user namespace since Linux 3.19.
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// There's nothing we can do about /etc/group entries, so we silently
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// ignore setting groups here (since the user didn't explicitly ask us to
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// set the group).
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if !config.Rootless {
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suppGroups := append(execUser.Sgids, addGroups...)
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if err := unix.Setgroups(suppGroups); err != nil {
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return err
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}
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}
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if err := system.Setgid(execUser.Gid); err != nil {
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return err
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}
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if err := system.Setuid(execUser.Uid); err != nil {
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return err
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}
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// if we didn't get HOME already, set it based on the user's HOME
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if envHome := os.Getenv("HOME"); envHome == "" {
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if err := os.Setenv("HOME", execUser.Home); err != nil {
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return err
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}
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}
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return nil
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}
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// fixStdioPermissions fixes the permissions of PID 1's STDIO within the container to the specified user.
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// The ownership needs to match because it is created outside of the container and needs to be
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// localized.
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func fixStdioPermissions(config *initConfig, u *user.ExecUser) error {
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var null unix.Stat_t
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if err := unix.Stat("/dev/null", &null); err != nil {
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return err
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}
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for _, fd := range []uintptr{
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os.Stdin.Fd(),
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os.Stderr.Fd(),
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os.Stdout.Fd(),
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} {
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var s unix.Stat_t
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if err := unix.Fstat(int(fd), &s); err != nil {
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return err
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}
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// Skip chown of /dev/null if it was used as one of the STDIO fds.
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if s.Rdev == null.Rdev {
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continue
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}
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// We only change the uid owner (as it is possible for the mount to
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// prefer a different gid, and there's no reason for us to change it).
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// The reason why we don't just leave the default uid=X mount setup is
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// that users expect to be able to actually use their console. Without
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// this code, you couldn't effectively run as a non-root user inside a
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// container and also have a console set up.
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if err := unix.Fchown(int(fd), u.Uid, int(s.Gid)); err != nil {
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// If we've hit an EINVAL then s.Gid isn't mapped in the user
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// namespace. If we've hit an EPERM then the inode's current owner
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// is not mapped in our user namespace (in particular,
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// privileged_wrt_inode_uidgid() has failed). In either case, we
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// are in a configuration where it's better for us to just not
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// touch the stdio rather than bail at this point.
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if err == unix.EINVAL || err == unix.EPERM {
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continue
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}
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return err
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}
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}
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return nil
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}
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// setupNetwork sets up and initializes any network interface inside the container.
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func setupNetwork(config *initConfig) error {
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for _, config := range config.Networks {
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strategy, err := getStrategy(config.Type)
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if err != nil {
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return err
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}
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if err := strategy.initialize(config); err != nil {
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return err
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}
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}
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return nil
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}
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func setupRoute(config *configs.Config) error {
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for _, config := range config.Routes {
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_, dst, err := net.ParseCIDR(config.Destination)
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if err != nil {
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return err
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}
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src := net.ParseIP(config.Source)
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if src == nil {
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return fmt.Errorf("Invalid source for route: %s", config.Source)
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}
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gw := net.ParseIP(config.Gateway)
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if gw == nil {
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return fmt.Errorf("Invalid gateway for route: %s", config.Gateway)
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}
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l, err := netlink.LinkByName(config.InterfaceName)
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if err != nil {
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return err
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}
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route := &netlink.Route{
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Scope: netlink.SCOPE_UNIVERSE,
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Dst: dst,
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Src: src,
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Gw: gw,
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LinkIndex: l.Attrs().Index,
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}
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if err := netlink.RouteAdd(route); err != nil {
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return err
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}
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}
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return nil
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}
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func setupRlimits(limits []configs.Rlimit, pid int) error {
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for _, rlimit := range limits {
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if err := system.Prlimit(pid, rlimit.Type, unix.Rlimit{Max: rlimit.Hard, Cur: rlimit.Soft}); err != nil {
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return fmt.Errorf("error setting rlimit type %v: %v", rlimit.Type, err)
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}
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}
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return nil
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}
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const _P_PID = 1
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type siginfo struct {
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si_signo int32
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si_errno int32
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si_code int32
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// below here is a union; si_pid is the only field we use
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si_pid int32
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// Pad to 128 bytes as detailed in blockUntilWaitable
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pad [96]byte
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}
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// isWaitable returns true if the process has exited false otherwise.
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// Its based off blockUntilWaitable in src/os/wait_waitid.go
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func isWaitable(pid int) (bool, error) {
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si := &siginfo{}
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_, _, e := unix.Syscall6(unix.SYS_WAITID, _P_PID, uintptr(pid), uintptr(unsafe.Pointer(si)), unix.WEXITED|unix.WNOWAIT|unix.WNOHANG, 0, 0)
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if e != 0 {
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return false, os.NewSyscallError("waitid", e)
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}
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return si.si_pid != 0, nil
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}
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// isNoChildren returns true if err represents a unix.ECHILD (formerly syscall.ECHILD) false otherwise
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func isNoChildren(err error) bool {
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switch err := err.(type) {
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case syscall.Errno:
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if err == unix.ECHILD {
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return true
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}
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case *os.SyscallError:
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if err.Err == unix.ECHILD {
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return true
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}
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}
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return false
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}
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// signalAllProcesses freezes then iterates over all the processes inside the
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// manager's cgroups sending the signal s to them.
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// If s is SIGKILL then it will wait for each process to exit.
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// For all other signals it will check if the process is ready to report its
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// exit status and only if it is will a wait be performed.
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func signalAllProcesses(m cgroups.Manager, s os.Signal) error {
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var procs []*os.Process
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if err := m.Freeze(configs.Frozen); err != nil {
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logrus.Warn(err)
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}
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pids, err := m.GetAllPids()
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if err != nil {
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m.Freeze(configs.Thawed)
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return err
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}
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for _, pid := range pids {
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p, err := os.FindProcess(pid)
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if err != nil {
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logrus.Warn(err)
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continue
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}
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procs = append(procs, p)
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if err := p.Signal(s); err != nil {
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logrus.Warn(err)
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}
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}
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if err := m.Freeze(configs.Thawed); err != nil {
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logrus.Warn(err)
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}
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subreaper, err := system.GetSubreaper()
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if err != nil {
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// The error here means that PR_GET_CHILD_SUBREAPER is not
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// supported because this code might run on a kernel older
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// than 3.4. We don't want to throw an error in that case,
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// and we simplify things, considering there is no subreaper
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// set.
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subreaper = 0
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}
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for _, p := range procs {
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if s != unix.SIGKILL {
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if ok, err := isWaitable(p.Pid); err != nil {
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if !isNoChildren(err) {
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logrus.Warn("signalAllProcesses: ", p.Pid, err)
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}
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continue
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} else if !ok {
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// Not ready to report so don't wait
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continue
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}
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}
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// In case a subreaper has been setup, this code must not
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// wait for the process. Otherwise, we cannot be sure the
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// current process will be reaped by the subreaper, while
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// the subreaper might be waiting for this process in order
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// to retrieve its exit code.
|
|
if subreaper == 0 {
|
|
if _, err := p.Wait(); err != nil {
|
|
if !isNoChildren(err) {
|
|
logrus.Warn("wait: ", err)
|
|
}
|
|
}
|
|
}
|
|
}
|
|
return nil
|
|
}
|