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|
// Copyright 2018 The gVisor Authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// Package sandbox creates and manipulates sandboxes.
package sandbox
import (
"context"
"fmt"
"io"
"math"
"os"
"os/exec"
"strconv"
"strings"
"syscall"
"time"
"github.com/cenkalti/backoff"
specs "github.com/opencontainers/runtime-spec/specs-go"
"github.com/syndtr/gocapability/capability"
"golang.org/x/sys/unix"
"gvisor.dev/gvisor/pkg/cleanup"
"gvisor.dev/gvisor/pkg/control/client"
"gvisor.dev/gvisor/pkg/control/server"
"gvisor.dev/gvisor/pkg/coverage"
"gvisor.dev/gvisor/pkg/eventchannel"
"gvisor.dev/gvisor/pkg/log"
"gvisor.dev/gvisor/pkg/sentry/control"
"gvisor.dev/gvisor/pkg/sentry/platform"
"gvisor.dev/gvisor/pkg/sync"
"gvisor.dev/gvisor/pkg/unet"
"gvisor.dev/gvisor/pkg/urpc"
"gvisor.dev/gvisor/runsc/boot"
"gvisor.dev/gvisor/runsc/boot/platforms"
"gvisor.dev/gvisor/runsc/cgroup"
"gvisor.dev/gvisor/runsc/config"
"gvisor.dev/gvisor/runsc/console"
"gvisor.dev/gvisor/runsc/specutils"
)
// Sandbox wraps a sandbox process.
//
// It is used to start/stop sandbox process (and associated processes like
// gofers), as well as for running and manipulating containers inside a running
// sandbox.
//
// Note: Sandbox must be immutable because a copy of it is saved for each
// container and changes would not be synchronized to all of them.
type Sandbox struct {
// ID is the id of the sandbox (immutable). By convention, this is the same
// ID as the first container run in the sandbox.
ID string `json:"id"`
// Pid is the pid of the running sandbox (immutable). May be 0 if the sandbox
// is not running.
Pid int `json:"pid"`
// UID is the user ID in the parent namespace that the sandbox is running as.
UID int `json:"uid"`
// GID is the group ID in the parent namespace that the sandbox is running as.
GID int `json:"gid"`
// Cgroup has the cgroup configuration for the sandbox.
Cgroup *cgroup.Cgroup `json:"cgroup"`
// OriginalOOMScoreAdj stores the value of oom_score_adj when the sandbox
// started, before it may be modified.
OriginalOOMScoreAdj int `json:"originalOomScoreAdj"`
// child is set if a sandbox process is a child of the current process.
//
// This field isn't saved to json, because only a creator of sandbox
// will have it as a child process.
child bool
// statusMu protects status.
statusMu sync.Mutex
// status is the exit status of a sandbox process. It's only set if the
// child==true and the sandbox was waited on. This field allows for multiple
// threads to wait on sandbox and get the exit code, since Linux will return
// WaitStatus to one of the waiters only.
status unix.WaitStatus
}
// Args is used to configure a new sandbox.
type Args struct {
// ID is the sandbox unique identifier.
ID string
// Spec is the OCI spec that describes the container.
Spec *specs.Spec
// BundleDir is the directory containing the container bundle.
BundleDir string
// ConsoleSocket is the path to a unix domain socket that will receive
// the console FD. It may be empty.
ConsoleSocket string
// UserLog is the filename to send user-visible logs to. It may be empty.
UserLog string
// IOFiles is the list of files that connect to a 9P endpoint for the mounts
// points using Gofers. They must be in the same order as mounts appear in
// the spec.
IOFiles []*os.File
// MountsFile is a file container mount information from the spec. It's
// equivalent to the mounts from the spec, except that all paths have been
// resolved to their final absolute location.
MountsFile *os.File
// Gcgroup is the cgroup that the sandbox is part of.
Cgroup *cgroup.Cgroup
// Attached indicates that the sandbox lifecycle is attached with the caller.
// If the caller exits, the sandbox should exit too.
Attached bool
}
// New creates the sandbox process. The caller must call Destroy() on the
// sandbox.
func New(conf *config.Config, args *Args) (*Sandbox, error) {
s := &Sandbox{ID: args.ID, Cgroup: args.Cgroup}
// The Cleanup object cleans up partially created sandboxes when an error
// occurs. Any errors occurring during cleanup itself are ignored.
c := cleanup.Make(func() {
if err := s.destroy(); err != nil {
log.Warningf("error destroying sandbox: %v", err)
}
})
defer c.Clean()
// Create pipe to synchronize when sandbox process has been booted.
clientSyncFile, sandboxSyncFile, err := os.Pipe()
if err != nil {
return nil, fmt.Errorf("creating pipe for sandbox %q: %v", s.ID, err)
}
defer clientSyncFile.Close()
// Create the sandbox process.
err = s.createSandboxProcess(conf, args, sandboxSyncFile)
// sandboxSyncFile has to be closed to be able to detect when the sandbox
// process exits unexpectedly.
sandboxSyncFile.Close()
if err != nil {
return nil, err
}
// Wait until the sandbox has booted.
b := make([]byte, 1)
if l, err := clientSyncFile.Read(b); err != nil || l != 1 {
err := fmt.Errorf("waiting for sandbox to start: %v", err)
// If the sandbox failed to start, it may be because the binary
// permissions were incorrect. Check the bits and return a more helpful
// error message.
//
// NOTE: The error message is checked because error types are lost over
// rpc calls.
if strings.Contains(err.Error(), io.EOF.Error()) {
if permsErr := checkBinaryPermissions(conf); permsErr != nil {
return nil, fmt.Errorf("%v: %v", err, permsErr)
}
}
return nil, err
}
c.Release()
return s, nil
}
// CreateSubcontainer creates a container inside the sandbox.
func (s *Sandbox) CreateSubcontainer(conf *config.Config, cid string, tty *os.File) error {
log.Debugf("Create sub-container %q in sandbox %q, PID: %d", cid, s.ID, s.Pid)
var files []*os.File
if tty != nil {
files = []*os.File{tty}
}
if err := s.configureStdios(conf, files); err != nil {
return err
}
sandboxConn, err := s.sandboxConnect()
if err != nil {
return fmt.Errorf("couldn't connect to sandbox: %v", err)
}
defer sandboxConn.Close()
args := boot.CreateArgs{
CID: cid,
FilePayload: urpc.FilePayload{Files: files},
}
if err := sandboxConn.Call(boot.ContMgrCreateSubcontainer, &args, nil); err != nil {
return fmt.Errorf("creating sub-container %q: %v", cid, err)
}
return nil
}
// StartRoot starts running the root container process inside the sandbox.
func (s *Sandbox) StartRoot(spec *specs.Spec, conf *config.Config) error {
log.Debugf("Start root sandbox %q, PID: %d", s.ID, s.Pid)
conn, err := s.sandboxConnect()
if err != nil {
return err
}
defer conn.Close()
// Configure the network.
if err := setupNetwork(conn, s.Pid, conf); err != nil {
return fmt.Errorf("setting up network: %v", err)
}
// Send a message to the sandbox control server to start the root
// container.
if err := conn.Call(boot.ContMgrRootContainerStart, &s.ID, nil); err != nil {
return fmt.Errorf("starting root container: %v", err)
}
return nil
}
// StartSubcontainer starts running a sub-container inside the sandbox.
func (s *Sandbox) StartSubcontainer(spec *specs.Spec, conf *config.Config, cid string, stdios, goferFiles []*os.File) error {
log.Debugf("Start sub-container %q in sandbox %q, PID: %d", cid, s.ID, s.Pid)
if err := s.configureStdios(conf, stdios); err != nil {
return err
}
sandboxConn, err := s.sandboxConnect()
if err != nil {
return fmt.Errorf("couldn't connect to sandbox: %v", err)
}
defer sandboxConn.Close()
// The payload must contain stdin/stdout/stderr (which may be empty if using
// TTY) followed by gofer files.
payload := urpc.FilePayload{}
payload.Files = append(payload.Files, stdios...)
payload.Files = append(payload.Files, goferFiles...)
// Start running the container.
args := boot.StartArgs{
Spec: spec,
Conf: conf,
CID: cid,
FilePayload: payload,
}
if err := sandboxConn.Call(boot.ContMgrStartSubcontainer, &args, nil); err != nil {
return fmt.Errorf("starting sub-container %v: %v", spec.Process.Args, err)
}
return nil
}
// Restore sends the restore call for a container in the sandbox.
func (s *Sandbox) Restore(cid string, spec *specs.Spec, conf *config.Config, filename string) error {
log.Debugf("Restore sandbox %q", s.ID)
rf, err := os.Open(filename)
if err != nil {
return fmt.Errorf("opening restore file %q failed: %v", filename, err)
}
defer rf.Close()
opt := boot.RestoreOpts{
FilePayload: urpc.FilePayload{
Files: []*os.File{rf},
},
SandboxID: s.ID,
}
// If the platform needs a device FD we must pass it in.
if deviceFile, err := deviceFileForPlatform(conf.Platform); err != nil {
return err
} else if deviceFile != nil {
defer deviceFile.Close()
opt.FilePayload.Files = append(opt.FilePayload.Files, deviceFile)
}
conn, err := s.sandboxConnect()
if err != nil {
return err
}
defer conn.Close()
// Configure the network.
if err := setupNetwork(conn, s.Pid, conf); err != nil {
return fmt.Errorf("setting up network: %v", err)
}
// Restore the container and start the root container.
if err := conn.Call(boot.ContMgrRestore, &opt, nil); err != nil {
return fmt.Errorf("restoring container %q: %v", cid, err)
}
return nil
}
// Processes retrieves the list of processes and associated metadata for a
// given container in this sandbox.
func (s *Sandbox) Processes(cid string) ([]*control.Process, error) {
log.Debugf("Getting processes for container %q in sandbox %q", cid, s.ID)
conn, err := s.sandboxConnect()
if err != nil {
return nil, err
}
defer conn.Close()
var pl []*control.Process
if err := conn.Call(boot.ContMgrProcesses, &cid, &pl); err != nil {
return nil, fmt.Errorf("retrieving process data from sandbox: %v", err)
}
return pl, nil
}
// NewCGroup returns the sandbox's Cgroup, or an error if it does not have one.
func (s *Sandbox) NewCGroup() (*cgroup.Cgroup, error) {
return cgroup.NewFromPid(s.Pid)
}
// Execute runs the specified command in the container. It returns the PID of
// the newly created process.
func (s *Sandbox) Execute(conf *config.Config, args *control.ExecArgs) (int32, error) {
log.Debugf("Executing new process in container %q in sandbox %q", args.ContainerID, s.ID)
if err := s.configureStdios(conf, args.Files); err != nil {
return 0, err
}
conn, err := s.sandboxConnect()
if err != nil {
return 0, s.connError(err)
}
defer conn.Close()
// Send a message to the sandbox control server to start the container.
var pid int32
if err := conn.Call(boot.ContMgrExecuteAsync, args, &pid); err != nil {
return 0, fmt.Errorf("executing command %q in sandbox: %v", args, err)
}
return pid, nil
}
// Event retrieves stats about the sandbox such as memory and CPU utilization.
func (s *Sandbox) Event(cid string) (*boot.EventOut, error) {
log.Debugf("Getting events for container %q in sandbox %q", cid, s.ID)
conn, err := s.sandboxConnect()
if err != nil {
return nil, err
}
defer conn.Close()
var e boot.EventOut
// TODO(b/129292330): Pass in the container id (cid) here. The sandbox
// should return events only for that container.
if err := conn.Call(boot.ContMgrEvent, nil, &e); err != nil {
return nil, fmt.Errorf("retrieving event data from sandbox: %v", err)
}
e.Event.ID = cid
return &e, nil
}
func (s *Sandbox) sandboxConnect() (*urpc.Client, error) {
log.Debugf("Connecting to sandbox %q", s.ID)
conn, err := client.ConnectTo(boot.ControlSocketAddr(s.ID))
if err != nil {
return nil, s.connError(err)
}
return conn, nil
}
func (s *Sandbox) connError(err error) error {
return fmt.Errorf("connecting to control server at PID %d: %v", s.Pid, err)
}
// createSandboxProcess starts the sandbox as a subprocess by running the "boot"
// command, passing in the bundle dir.
func (s *Sandbox) createSandboxProcess(conf *config.Config, args *Args, startSyncFile *os.File) error {
// nextFD is used to get unused FDs that we can pass to the sandbox. It
// starts at 3 because 0, 1, and 2 are taken by stdin/out/err.
nextFD := 3
binPath := specutils.ExePath
cmd := exec.Command(binPath, conf.ToFlags()...)
cmd.SysProcAttr = &unix.SysProcAttr{}
// Open the log files to pass to the sandbox as FDs.
//
// These flags must come BEFORE the "boot" command in cmd.Args.
if conf.LogFilename != "" {
logFile, err := os.OpenFile(conf.LogFilename, os.O_APPEND|os.O_CREATE|os.O_WRONLY, 0644)
if err != nil {
return fmt.Errorf("opening log file %q: %v", conf.LogFilename, err)
}
defer logFile.Close()
cmd.ExtraFiles = append(cmd.ExtraFiles, logFile)
cmd.Args = append(cmd.Args, "--log-fd="+strconv.Itoa(nextFD))
nextFD++
}
test := ""
if len(conf.TestOnlyTestNameEnv) != 0 {
// Fetch test name if one is provided and the test only flag was set.
if t, ok := specutils.EnvVar(args.Spec.Process.Env, conf.TestOnlyTestNameEnv); ok {
test = t
}
}
if conf.DebugLog != "" {
debugLogFile, err := specutils.DebugLogFile(conf.DebugLog, "boot", test)
if err != nil {
return fmt.Errorf("opening debug log file in %q: %v", conf.DebugLog, err)
}
defer debugLogFile.Close()
cmd.ExtraFiles = append(cmd.ExtraFiles, debugLogFile)
cmd.Args = append(cmd.Args, "--debug-log-fd="+strconv.Itoa(nextFD))
nextFD++
}
if conf.PanicLog != "" {
panicLogFile, err := specutils.DebugLogFile(conf.PanicLog, "panic", test)
if err != nil {
return fmt.Errorf("opening panic log file in %q: %v", conf.PanicLog, err)
}
defer panicLogFile.Close()
cmd.ExtraFiles = append(cmd.ExtraFiles, panicLogFile)
cmd.Args = append(cmd.Args, "--panic-log-fd="+strconv.Itoa(nextFD))
nextFD++
}
covFilename := conf.CoverageReport
if covFilename == "" {
covFilename = os.Getenv("GO_COVERAGE_FILE")
}
if covFilename != "" && coverage.Available() {
covFile, err := specutils.DebugLogFile(covFilename, "cov", test)
if err != nil {
return fmt.Errorf("opening debug log file in %q: %v", covFilename, err)
}
defer covFile.Close()
cmd.ExtraFiles = append(cmd.ExtraFiles, covFile)
cmd.Args = append(cmd.Args, "--coverage-fd="+strconv.Itoa(nextFD))
nextFD++
}
// Add the "boot" command to the args.
//
// All flags after this must be for the boot command
cmd.Args = append(cmd.Args, "boot", "--bundle="+args.BundleDir)
// Create a socket for the control server and donate it to the sandbox.
addr := boot.ControlSocketAddr(s.ID)
sockFD, err := server.CreateSocket(addr)
log.Infof("Creating sandbox process with addr: %s", addr[1:]) // skip "\00".
if err != nil {
return fmt.Errorf("creating control server socket for sandbox %q: %v", s.ID, err)
}
controllerFile := os.NewFile(uintptr(sockFD), "control_server_socket")
defer controllerFile.Close()
cmd.ExtraFiles = append(cmd.ExtraFiles, controllerFile)
cmd.Args = append(cmd.Args, "--controller-fd="+strconv.Itoa(nextFD))
nextFD++
defer args.MountsFile.Close()
cmd.ExtraFiles = append(cmd.ExtraFiles, args.MountsFile)
cmd.Args = append(cmd.Args, "--mounts-fd="+strconv.Itoa(nextFD))
nextFD++
specFile, err := specutils.OpenSpec(args.BundleDir)
if err != nil {
return err
}
defer specFile.Close()
cmd.ExtraFiles = append(cmd.ExtraFiles, specFile)
cmd.Args = append(cmd.Args, "--spec-fd="+strconv.Itoa(nextFD))
nextFD++
cmd.ExtraFiles = append(cmd.ExtraFiles, startSyncFile)
cmd.Args = append(cmd.Args, "--start-sync-fd="+strconv.Itoa(nextFD))
nextFD++
if conf.ProfileBlock != "" {
blockFile, err := os.OpenFile(conf.ProfileBlock, os.O_CREATE|os.O_WRONLY, 0644)
if err != nil {
return fmt.Errorf("opening block profiling file %q: %v", conf.ProfileBlock, err)
}
defer blockFile.Close()
cmd.ExtraFiles = append(cmd.ExtraFiles, blockFile)
cmd.Args = append(cmd.Args, "--profile-block-fd="+strconv.Itoa(nextFD))
nextFD++
}
if conf.ProfileCPU != "" {
cpuFile, err := os.OpenFile(conf.ProfileCPU, os.O_CREATE|os.O_WRONLY, 0644)
if err != nil {
return fmt.Errorf("opening cpu profiling file %q: %v", conf.ProfileCPU, err)
}
defer cpuFile.Close()
cmd.ExtraFiles = append(cmd.ExtraFiles, cpuFile)
cmd.Args = append(cmd.Args, "--profile-cpu-fd="+strconv.Itoa(nextFD))
nextFD++
}
if conf.ProfileHeap != "" {
heapFile, err := os.OpenFile(conf.ProfileHeap, os.O_CREATE|os.O_WRONLY, 0644)
if err != nil {
return fmt.Errorf("opening heap profiling file %q: %v", conf.ProfileHeap, err)
}
defer heapFile.Close()
cmd.ExtraFiles = append(cmd.ExtraFiles, heapFile)
cmd.Args = append(cmd.Args, "--profile-heap-fd="+strconv.Itoa(nextFD))
nextFD++
}
if conf.ProfileMutex != "" {
mutexFile, err := os.OpenFile(conf.ProfileMutex, os.O_CREATE|os.O_WRONLY, 0644)
if err != nil {
return fmt.Errorf("opening mutex profiling file %q: %v", conf.ProfileMutex, err)
}
defer mutexFile.Close()
cmd.ExtraFiles = append(cmd.ExtraFiles, mutexFile)
cmd.Args = append(cmd.Args, "--profile-mutex-fd="+strconv.Itoa(nextFD))
nextFD++
}
if conf.TraceFile != "" {
traceFile, err := os.OpenFile(conf.TraceFile, os.O_CREATE|os.O_WRONLY, 0644)
if err != nil {
return fmt.Errorf("opening trace file %q: %v", conf.TraceFile, err)
}
defer traceFile.Close()
cmd.ExtraFiles = append(cmd.ExtraFiles, traceFile)
cmd.Args = append(cmd.Args, "--trace-fd="+strconv.Itoa(nextFD))
nextFD++
}
// If there is a gofer, sends all socket ends to the sandbox.
for _, f := range args.IOFiles {
defer f.Close()
cmd.ExtraFiles = append(cmd.ExtraFiles, f)
cmd.Args = append(cmd.Args, "--io-fds="+strconv.Itoa(nextFD))
nextFD++
}
gPlatform, err := platform.Lookup(conf.Platform)
if err != nil {
return err
}
if deviceFile, err := gPlatform.OpenDevice(); err != nil {
return fmt.Errorf("opening device file for platform %q: %v", conf.Platform, err)
} else if deviceFile != nil {
defer deviceFile.Close()
cmd.ExtraFiles = append(cmd.ExtraFiles, deviceFile)
cmd.Args = append(cmd.Args, "--device-fd="+strconv.Itoa(nextFD))
nextFD++
}
// TODO(b/151157106): syscall tests fail by timeout if asyncpreemptoff
// isn't set.
if conf.Platform == "kvm" {
cmd.Env = append(cmd.Env, "GODEBUG=asyncpreemptoff=1")
}
// The current process' stdio must be passed to the application via the
// --stdio-fds flag. The stdio of the sandbox process itself must not
// be connected to the same FDs, otherwise we risk leaking sandbox
// errors to the application, so we set the sandbox stdio to nil,
// causing them to read/write from the null device.
cmd.Stdin = nil
cmd.Stdout = nil
cmd.Stderr = nil
var stdios [3]*os.File
// If the console control socket file is provided, then create a new
// pty master/replica pair and set the TTY on the sandbox process.
if args.Spec.Process.Terminal && args.ConsoleSocket != "" {
// console.NewWithSocket will send the master on the given
// socket, and return the replica.
tty, err := console.NewWithSocket(args.ConsoleSocket)
if err != nil {
return fmt.Errorf("setting up console with socket %q: %v", args.ConsoleSocket, err)
}
defer tty.Close()
// Set the TTY as a controlling TTY on the sandbox process.
cmd.SysProcAttr.Setctty = true
// The Ctty FD must be the FD in the child process's FD table,
// which will be nextFD in this case.
// See https://github.com/golang/go/issues/29458.
cmd.SysProcAttr.Ctty = nextFD
// Pass the tty as all stdio fds to sandbox.
stdios[0] = tty
stdios[1] = tty
stdios[2] = tty
if conf.Debug {
// If debugging, send the boot process stdio to the
// TTY, so that it is easier to find.
cmd.Stdin = tty
cmd.Stdout = tty
cmd.Stderr = tty
}
} else {
// If not using a console, pass our current stdio as the
// container stdio via flags.
stdios[0] = os.Stdin
stdios[1] = os.Stdout
stdios[2] = os.Stderr
if conf.Debug {
// If debugging, send the boot process stdio to the
// this process' stdio, so that is is easier to find.
cmd.Stdin = os.Stdin
cmd.Stdout = os.Stdout
cmd.Stderr = os.Stderr
}
}
// Detach from this session, otherwise cmd will get SIGHUP and SIGCONT
// when re-parented.
cmd.SysProcAttr.Setsid = true
// nss is the set of namespaces to join or create before starting the sandbox
// process. Mount, IPC and UTS namespaces from the host are not used as they
// are virtualized inside the sandbox. Be paranoid and run inside an empty
// namespace for these. Don't unshare cgroup because sandbox is added to a
// cgroup in the caller's namespace.
log.Infof("Sandbox will be started in new mount, IPC and UTS namespaces")
nss := []specs.LinuxNamespace{
{Type: specs.IPCNamespace},
{Type: specs.MountNamespace},
{Type: specs.UTSNamespace},
}
if gPlatform.Requirements().RequiresCurrentPIDNS {
// TODO(b/75837838): Also set a new PID namespace so that we limit
// access to other host processes.
log.Infof("Sandbox will be started in the current PID namespace")
} else {
log.Infof("Sandbox will be started in a new PID namespace")
nss = append(nss, specs.LinuxNamespace{Type: specs.PIDNamespace})
cmd.Args = append(cmd.Args, "--pidns=true")
}
// Joins the network namespace if network is enabled. the sandbox talks
// directly to the host network, which may have been configured in the
// namespace.
if ns, ok := specutils.GetNS(specs.NetworkNamespace, args.Spec); ok && conf.Network != config.NetworkNone {
log.Infof("Sandbox will be started in the container's network namespace: %+v", ns)
nss = append(nss, ns)
} else if conf.Network == config.NetworkHost {
log.Infof("Sandbox will be started in the host network namespace")
} else {
log.Infof("Sandbox will be started in new network namespace")
nss = append(nss, specs.LinuxNamespace{Type: specs.NetworkNamespace})
}
// These are set to the uid/gid that the sandbox process will use.
s.UID = os.Getuid()
s.GID = os.Getgid()
// User namespace depends on the network type. Host network requires to run
// inside the user namespace specified in the spec or the current namespace
// if none is configured.
if conf.Network == config.NetworkHost {
if userns, ok := specutils.GetNS(specs.UserNamespace, args.Spec); ok {
log.Infof("Sandbox will be started in container's user namespace: %+v", userns)
nss = append(nss, userns)
specutils.SetUIDGIDMappings(cmd, args.Spec)
} else {
log.Infof("Sandbox will be started in the current user namespace")
}
// When running in the caller's defined user namespace, apply the same
// capabilities to the sandbox process to ensure it abides to the same
// rules.
cmd.Args = append(cmd.Args, "--apply-caps=true")
// If we have CAP_SYS_ADMIN, we can create an empty chroot and
// bind-mount the executable inside it.
if conf.TestOnlyAllowRunAsCurrentUserWithoutChroot {
log.Warningf("Running sandbox in test mode without chroot. This is only safe in tests!")
} else if specutils.HasCapabilities(capability.CAP_SYS_ADMIN) {
log.Infof("Sandbox will be started in minimal chroot")
cmd.Args = append(cmd.Args, "--setup-root")
} else {
return fmt.Errorf("can't run sandbox process in minimal chroot since we don't have CAP_SYS_ADMIN")
}
} else {
// If we have CAP_SETUID and CAP_SETGID, then we can also run
// as user nobody.
if conf.TestOnlyAllowRunAsCurrentUserWithoutChroot {
log.Warningf("Running sandbox in test mode as current user (uid=%d gid=%d). This is only safe in tests!", os.Getuid(), os.Getgid())
log.Warningf("Running sandbox in test mode without chroot. This is only safe in tests!")
} else if specutils.HasCapabilities(capability.CAP_SETUID, capability.CAP_SETGID) {
log.Infof("Sandbox will be started in new user namespace")
nss = append(nss, specs.LinuxNamespace{Type: specs.UserNamespace})
cmd.Args = append(cmd.Args, "--setup-root")
const nobody = 65534
if conf.Rootless {
log.Infof("Rootless mode: sandbox will run as nobody inside user namespace, mapped to the current user, uid: %d, gid: %d", os.Getuid(), os.Getgid())
} else {
// Map nobody in the new namespace to nobody in the parent namespace.
s.UID = nobody
s.GID = nobody
}
// Set credentials to run as user and group nobody.
cmd.SysProcAttr.Credential = &syscall.Credential{Uid: nobody, Gid: nobody}
cmd.SysProcAttr.UidMappings = []syscall.SysProcIDMap{
{
ContainerID: nobody,
HostID: s.UID,
Size: 1,
},
}
cmd.SysProcAttr.GidMappings = []syscall.SysProcIDMap{
{
ContainerID: nobody,
HostID: s.GID,
Size: 1,
},
}
// A sandbox process will construct an empty root for itself, so it has
// to have CAP_SYS_ADMIN and CAP_SYS_CHROOT capabilities.
cmd.SysProcAttr.AmbientCaps = append(cmd.SysProcAttr.AmbientCaps, uintptr(capability.CAP_SYS_ADMIN), uintptr(capability.CAP_SYS_CHROOT))
} else {
return fmt.Errorf("can't run sandbox process as user nobody since we don't have CAP_SETUID or CAP_SETGID")
}
}
if err := s.configureStdios(conf, stdios[:]); err != nil {
return fmt.Errorf("configuring stdios: %w", err)
}
for _, file := range stdios {
cmd.ExtraFiles = append(cmd.ExtraFiles, file)
cmd.Args = append(cmd.Args, "--stdio-fds="+strconv.Itoa(nextFD))
nextFD++
}
// Set Args[0] to make easier to spot the sandbox process. Otherwise it's
// shown as `exe`.
cmd.Args[0] = "runsc-sandbox"
mem, err := totalSystemMemory()
if err != nil {
return err
}
if s.Cgroup != nil {
cpuNum, err := s.Cgroup.NumCPU()
if err != nil {
return fmt.Errorf("getting cpu count from cgroups: %v", err)
}
if conf.CPUNumFromQuota {
// Dropping below 2 CPUs can trigger application to disable
// locks that can lead do hard to debug errors, so just
// leaving two cores as reasonable default.
const minCPUs = 2
quota, err := s.Cgroup.CPUQuota()
if err != nil {
return fmt.Errorf("getting cpu qouta from cgroups: %v", err)
}
if n := int(math.Ceil(quota)); n > 0 {
if n < minCPUs {
n = minCPUs
}
if n < cpuNum {
// Only lower the cpu number.
cpuNum = n
}
}
}
cmd.Args = append(cmd.Args, "--cpu-num", strconv.Itoa(cpuNum))
memLimit, err := s.Cgroup.MemoryLimit()
if err != nil {
return fmt.Errorf("getting memory limit from cgroups: %v", err)
}
if memLimit < mem {
mem = memLimit
}
}
cmd.Args = append(cmd.Args, "--total-memory", strconv.FormatUint(mem, 10))
if args.UserLog != "" {
f, err := os.OpenFile(args.UserLog, os.O_WRONLY|os.O_CREATE|os.O_APPEND, 0664)
if err != nil {
return fmt.Errorf("opening compat log file: %v", err)
}
defer f.Close()
cmd.ExtraFiles = append(cmd.ExtraFiles, f)
cmd.Args = append(cmd.Args, "--user-log-fd", strconv.Itoa(nextFD))
nextFD++
}
_ = nextFD // All FD assignment is finished.
if args.Attached {
// Kill sandbox if parent process exits in attached mode.
cmd.SysProcAttr.Pdeathsig = unix.SIGKILL
// Tells boot that any process it creates must have pdeathsig set.
cmd.Args = append(cmd.Args, "--attached")
}
// Add container as the last argument.
cmd.Args = append(cmd.Args, s.ID)
// Log the FDs we are donating to the sandbox process.
for i, f := range cmd.ExtraFiles {
log.Debugf("Donating FD %d: %q", i+3, f.Name())
}
log.Debugf("Starting sandbox: %s %v", binPath, cmd.Args)
log.Debugf("SysProcAttr: %+v", cmd.SysProcAttr)
if err := specutils.StartInNS(cmd, nss); err != nil {
err := fmt.Errorf("starting sandbox: %v", err)
// If the sandbox failed to start, it may be because the binary
// permissions were incorrect. Check the bits and return a more helpful
// error message.
//
// NOTE: The error message is checked because error types are lost over
// rpc calls.
if strings.Contains(err.Error(), unix.EACCES.Error()) {
if permsErr := checkBinaryPermissions(conf); permsErr != nil {
return fmt.Errorf("%v: %v", err, permsErr)
}
}
return err
}
s.OriginalOOMScoreAdj, err = specutils.GetOOMScoreAdj(cmd.Process.Pid)
if err != nil {
return err
}
s.child = true
s.Pid = cmd.Process.Pid
log.Infof("Sandbox started, PID: %d", s.Pid)
return nil
}
// Wait waits for the containerized process to exit, and returns its WaitStatus.
func (s *Sandbox) Wait(cid string) (unix.WaitStatus, error) {
log.Debugf("Waiting for container %q in sandbox %q", cid, s.ID)
if conn, err := s.sandboxConnect(); err != nil {
// The sandbox may have exited while before we had a chance to wait on it.
// There is nothing we can do for subcontainers. For the init container, we
// can try to get the sandbox exit code.
if !s.IsRootContainer(cid) {
return unix.WaitStatus(0), err
}
log.Warningf("Wait on container %q failed: %v. Will try waiting on the sandbox process instead.", cid, err)
} else {
defer conn.Close()
// Try the Wait RPC to the sandbox.
var ws unix.WaitStatus
err = conn.Call(boot.ContMgrWait, &cid, &ws)
conn.Close()
if err == nil {
if s.IsRootContainer(cid) {
if err := s.waitForStopped(); err != nil {
return unix.WaitStatus(0), err
}
}
// It worked!
return ws, nil
}
// See comment above.
if !s.IsRootContainer(cid) {
return unix.WaitStatus(0), err
}
// The sandbox may have exited after we connected, but before
// or during the Wait RPC.
log.Warningf("Wait RPC to container %q failed: %v. Will try waiting on the sandbox process instead.", cid, err)
}
// The sandbox may have already exited, or exited while handling the Wait RPC.
// The best we can do is ask Linux what the sandbox exit status was, since in
// most cases that will be the same as the container exit status.
if err := s.waitForStopped(); err != nil {
return unix.WaitStatus(0), err
}
if !s.child {
return unix.WaitStatus(0), fmt.Errorf("sandbox no longer running and its exit status is unavailable")
}
s.statusMu.Lock()
defer s.statusMu.Unlock()
return s.status, nil
}
// WaitPID waits for process 'pid' in the container's sandbox and returns its
// WaitStatus.
func (s *Sandbox) WaitPID(cid string, pid int32) (unix.WaitStatus, error) {
log.Debugf("Waiting for PID %d in sandbox %q", pid, s.ID)
var ws unix.WaitStatus
conn, err := s.sandboxConnect()
if err != nil {
return ws, err
}
defer conn.Close()
args := &boot.WaitPIDArgs{
PID: pid,
CID: cid,
}
if err := conn.Call(boot.ContMgrWaitPID, args, &ws); err != nil {
return ws, fmt.Errorf("waiting on PID %d in sandbox %q: %v", pid, s.ID, err)
}
return ws, nil
}
// IsRootContainer returns true if the specified container ID belongs to the
// root container.
func (s *Sandbox) IsRootContainer(cid string) bool {
return s.ID == cid
}
// Destroy frees all resources associated with the sandbox. It fails fast and
// is idempotent.
func (s *Sandbox) destroy() error {
log.Debugf("Destroy sandbox %q", s.ID)
if s.Pid != 0 {
log.Debugf("Killing sandbox %q", s.ID)
if err := unix.Kill(s.Pid, unix.SIGKILL); err != nil && err != unix.ESRCH {
return fmt.Errorf("killing sandbox %q PID %q: %v", s.ID, s.Pid, err)
}
if err := s.waitForStopped(); err != nil {
return fmt.Errorf("waiting sandbox %q stop: %v", s.ID, err)
}
}
return nil
}
// SignalContainer sends the signal to a container in the sandbox. If all is
// true and signal is SIGKILL, then waits for all processes to exit before
// returning.
func (s *Sandbox) SignalContainer(cid string, sig unix.Signal, all bool) error {
log.Debugf("Signal sandbox %q", s.ID)
conn, err := s.sandboxConnect()
if err != nil {
return err
}
defer conn.Close()
mode := boot.DeliverToProcess
if all {
mode = boot.DeliverToAllProcesses
}
args := boot.SignalArgs{
CID: cid,
Signo: int32(sig),
Mode: mode,
}
if err := conn.Call(boot.ContMgrSignal, &args, nil); err != nil {
return fmt.Errorf("signaling container %q: %v", cid, err)
}
return nil
}
// SignalProcess sends the signal to a particular process in the container. If
// fgProcess is true, then the signal is sent to the foreground process group
// in the same session that PID belongs to. This is only valid if the process
// is attached to a host TTY.
func (s *Sandbox) SignalProcess(cid string, pid int32, sig unix.Signal, fgProcess bool) error {
log.Debugf("Signal sandbox %q", s.ID)
conn, err := s.sandboxConnect()
if err != nil {
return err
}
defer conn.Close()
mode := boot.DeliverToProcess
if fgProcess {
mode = boot.DeliverToForegroundProcessGroup
}
args := boot.SignalArgs{
CID: cid,
Signo: int32(sig),
PID: pid,
Mode: mode,
}
if err := conn.Call(boot.ContMgrSignal, &args, nil); err != nil {
return fmt.Errorf("signaling container %q PID %d: %v", cid, pid, err)
}
return nil
}
// Checkpoint sends the checkpoint call for a container in the sandbox.
// The statefile will be written to f.
func (s *Sandbox) Checkpoint(cid string, f *os.File) error {
log.Debugf("Checkpoint sandbox %q", s.ID)
conn, err := s.sandboxConnect()
if err != nil {
return err
}
defer conn.Close()
opt := control.SaveOpts{
FilePayload: urpc.FilePayload{
Files: []*os.File{f},
},
}
if err := conn.Call(boot.ContMgrCheckpoint, &opt, nil); err != nil {
return fmt.Errorf("checkpointing container %q: %v", cid, err)
}
return nil
}
// Pause sends the pause call for a container in the sandbox.
func (s *Sandbox) Pause(cid string) error {
log.Debugf("Pause sandbox %q", s.ID)
conn, err := s.sandboxConnect()
if err != nil {
return err
}
defer conn.Close()
if err := conn.Call(boot.LifecyclePause, nil, nil); err != nil {
return fmt.Errorf("pausing container %q: %v", cid, err)
}
return nil
}
// Resume sends the resume call for a container in the sandbox.
func (s *Sandbox) Resume(cid string) error {
log.Debugf("Resume sandbox %q", s.ID)
conn, err := s.sandboxConnect()
if err != nil {
return err
}
defer conn.Close()
if err := conn.Call(boot.LifecycleResume, nil, nil); err != nil {
return fmt.Errorf("resuming container %q: %v", cid, err)
}
return nil
}
// Cat sends the cat call for a container in the sandbox.
func (s *Sandbox) Cat(cid string, files []string, out *os.File) error {
log.Debugf("Cat sandbox %q", s.ID)
conn, err := s.sandboxConnect()
if err != nil {
return err
}
defer conn.Close()
if err := conn.Call(boot.FsCat, &control.CatOpts{
Files: files,
FilePayload: urpc.FilePayload{Files: []*os.File{out}},
}, nil); err != nil {
return fmt.Errorf("Cat container %q: %v", cid, err)
}
return nil
}
// Usage sends the collect call for a container in the sandbox.
func (s *Sandbox) Usage(cid string, Full bool) (control.MemoryUsage, error) {
log.Debugf("Usage sandbox %q", s.ID)
conn, err := s.sandboxConnect()
if err != nil {
return control.MemoryUsage{}, err
}
defer conn.Close()
var m control.MemoryUsage
err = conn.Call(boot.UsageCollect, &control.MemoryUsageOpts{
Full: Full,
}, &m)
return m, err
}
// UsageFD sends the usagefd call for a container in the sandbox.
func (s *Sandbox) UsageFD(cid string) (*control.MemoryUsageRecord, error) {
log.Debugf("Usage sandbox %q", s.ID)
conn, err := s.sandboxConnect()
if err != nil {
return nil, err
}
defer conn.Close()
var m control.MemoryUsageFile
if err := conn.Call(boot.UsageUsageFD, &control.MemoryUsageFileOpts{
Version: 1,
}, &m); err != nil {
return nil, fmt.Errorf("UsageFD failed: %v", err)
}
if len(m.FilePayload.Files) != 2 {
return nil, fmt.Errorf("wants exactly two fds")
}
return control.NewMemoryUsageRecord(*m.FilePayload.Files[0], *m.FilePayload.Files[1])
}
// Reduce sends the reduce call for a container in the sandbox.
func (s *Sandbox) Reduce(cid string, wait bool) error {
log.Debugf("Reduce sandbox %q", s.ID)
conn, err := s.sandboxConnect()
if err != nil {
return err
}
defer conn.Close()
return conn.Call(boot.UsageReduce, &control.UsageReduceOpts{
Wait: wait,
}, nil)
}
// Stream sends the AttachDebugEmitter call for a container in the sandbox, and
// dumps filtered events to out.
func (s *Sandbox) Stream(cid string, filters []string, out *os.File) error {
log.Debugf("Stream sandbox %q", s.ID)
conn, err := s.sandboxConnect()
if err != nil {
return err
}
defer conn.Close()
r, w, err := unet.SocketPair(false)
if err != nil {
return err
}
wfd, err := w.Release()
if err != nil {
return fmt.Errorf("failed to release write socket FD: %v", err)
}
if err := conn.Call(boot.EventsAttachDebugEmitter, &control.EventsOpts{
FilePayload: urpc.FilePayload{Files: []*os.File{
os.NewFile(uintptr(wfd), "event sink"),
}},
}, nil); err != nil {
return fmt.Errorf("AttachDebugEmitter failed: %v", err)
}
return eventchannel.ProcessAll(r, filters, out)
}
// IsRunning returns true if the sandbox or gofer process is running.
func (s *Sandbox) IsRunning() bool {
if s.Pid != 0 {
// Send a signal 0 to the sandbox process.
if err := unix.Kill(s.Pid, 0); err == nil {
// Succeeded, process is running.
return true
}
}
return false
}
// Stacks collects and returns all stacks for the sandbox.
func (s *Sandbox) Stacks() (string, error) {
log.Debugf("Stacks sandbox %q", s.ID)
conn, err := s.sandboxConnect()
if err != nil {
return "", err
}
defer conn.Close()
var stacks string
if err := conn.Call(boot.DebugStacks, nil, &stacks); err != nil {
return "", fmt.Errorf("getting sandbox %q stacks: %v", s.ID, err)
}
return stacks, nil
}
// HeapProfile writes a heap profile to the given file.
func (s *Sandbox) HeapProfile(f *os.File, delay time.Duration) error {
log.Debugf("Heap profile %q", s.ID)
conn, err := s.sandboxConnect()
if err != nil {
return err
}
defer conn.Close()
opts := control.HeapProfileOpts{
FilePayload: urpc.FilePayload{Files: []*os.File{f}},
Delay: delay,
}
return conn.Call(boot.ProfileHeap, &opts, nil)
}
// CPUProfile collects a CPU profile.
func (s *Sandbox) CPUProfile(f *os.File, duration time.Duration) error {
log.Debugf("CPU profile %q", s.ID)
conn, err := s.sandboxConnect()
if err != nil {
return err
}
defer conn.Close()
opts := control.CPUProfileOpts{
FilePayload: urpc.FilePayload{Files: []*os.File{f}},
Duration: duration,
}
return conn.Call(boot.ProfileCPU, &opts, nil)
}
// BlockProfile writes a block profile to the given file.
func (s *Sandbox) BlockProfile(f *os.File, duration time.Duration) error {
log.Debugf("Block profile %q", s.ID)
conn, err := s.sandboxConnect()
if err != nil {
return err
}
defer conn.Close()
opts := control.BlockProfileOpts{
FilePayload: urpc.FilePayload{Files: []*os.File{f}},
Duration: duration,
}
return conn.Call(boot.ProfileBlock, &opts, nil)
}
// MutexProfile writes a mutex profile to the given file.
func (s *Sandbox) MutexProfile(f *os.File, duration time.Duration) error {
log.Debugf("Mutex profile %q", s.ID)
conn, err := s.sandboxConnect()
if err != nil {
return err
}
defer conn.Close()
opts := control.MutexProfileOpts{
FilePayload: urpc.FilePayload{Files: []*os.File{f}},
Duration: duration,
}
return conn.Call(boot.ProfileMutex, &opts, nil)
}
// Trace collects an execution trace.
func (s *Sandbox) Trace(f *os.File, duration time.Duration) error {
log.Debugf("Trace %q", s.ID)
conn, err := s.sandboxConnect()
if err != nil {
return err
}
defer conn.Close()
opts := control.TraceProfileOpts{
FilePayload: urpc.FilePayload{Files: []*os.File{f}},
Duration: duration,
}
return conn.Call(boot.ProfileTrace, &opts, nil)
}
// ChangeLogging changes logging options.
func (s *Sandbox) ChangeLogging(args control.LoggingArgs) error {
log.Debugf("Change logging start %q", s.ID)
conn, err := s.sandboxConnect()
if err != nil {
return err
}
defer conn.Close()
if err := conn.Call(boot.LoggingChange, &args, nil); err != nil {
return fmt.Errorf("changing sandbox %q logging: %v", s.ID, err)
}
return nil
}
// DestroyContainer destroys the given container. If it is the root container,
// then the entire sandbox is destroyed.
func (s *Sandbox) DestroyContainer(cid string) error {
if err := s.destroyContainer(cid); err != nil {
// If the sandbox isn't running, the container has already been destroyed,
// ignore the error in this case.
if s.IsRunning() {
return err
}
}
return nil
}
func (s *Sandbox) destroyContainer(cid string) error {
if s.IsRootContainer(cid) {
log.Debugf("Destroying root container by destroying sandbox, cid: %s", cid)
return s.destroy()
}
log.Debugf("Destroying container, cid: %s, sandbox: %s", cid, s.ID)
conn, err := s.sandboxConnect()
if err != nil {
return err
}
defer conn.Close()
if err := conn.Call(boot.ContMgrDestroySubcontainer, &cid, nil); err != nil {
return fmt.Errorf("destroying container %q: %v", cid, err)
}
return nil
}
func (s *Sandbox) waitForStopped() error {
if s.child {
s.statusMu.Lock()
defer s.statusMu.Unlock()
if s.Pid == 0 {
return nil
}
// The sandbox process is a child of the current process,
// so we can wait it and collect its zombie.
if _, err := unix.Wait4(int(s.Pid), &s.status, 0, nil); err != nil {
return fmt.Errorf("error waiting the sandbox process: %v", err)
}
s.Pid = 0
return nil
}
ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
defer cancel()
b := backoff.WithContext(backoff.NewConstantBackOff(100*time.Millisecond), ctx)
op := func() error {
if s.IsRunning() {
return fmt.Errorf("sandbox is still running")
}
return nil
}
return backoff.Retry(op, b)
}
// configureStdios change stdios ownership to give access to the sandbox
// process. This may be skipped depending on the configuration.
func (s *Sandbox) configureStdios(conf *config.Config, stdios []*os.File) error {
if conf.Rootless || conf.TestOnlyAllowRunAsCurrentUserWithoutChroot {
// Cannot change ownership without CAP_CHOWN.
return nil
}
for _, file := range stdios {
log.Debugf("Changing %q ownership to %d/%d", file.Name(), s.UID, s.GID)
if err := file.Chown(s.UID, s.GID); err != nil {
return err
}
}
return nil
}
// deviceFileForPlatform opens the device file for the given platform. If the
// platform does not need a device file, then nil is returned.
func deviceFileForPlatform(name string) (*os.File, error) {
p, err := platform.Lookup(name)
if err != nil {
return nil, err
}
f, err := p.OpenDevice()
if err != nil {
return nil, fmt.Errorf("opening device file for platform %q: %w", name, err)
}
return f, nil
}
// checkBinaryPermissions verifies that the required binary bits are set on
// the runsc executable.
func checkBinaryPermissions(conf *config.Config) error {
// All platforms need the other exe bit
neededBits := os.FileMode(0001)
if conf.Platform == platforms.Ptrace {
// Ptrace needs the other read bit
neededBits |= os.FileMode(0004)
}
exePath, err := os.Executable()
if err != nil {
return fmt.Errorf("getting exe path: %v", err)
}
// Check the permissions of the runsc binary and print an error if it
// doesn't match expectations.
info, err := os.Stat(exePath)
if err != nil {
return fmt.Errorf("stat file: %v", err)
}
if info.Mode().Perm()&neededBits != neededBits {
return fmt.Errorf(specutils.FaqErrorMsg("runsc-perms", fmt.Sprintf("%s does not have the correct permissions", exePath)))
}
return nil
}
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