// Copyright 2018 Google Inc. // // 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 cmd import ( "encoding/json" "fmt" "io/ioutil" "os" "os/exec" "strconv" "strings" "syscall" "time" "context" "flag" "github.com/google/subcommands" specs "github.com/opencontainers/runtime-spec/specs-go" "gvisor.googlesource.com/gvisor/pkg/log" "gvisor.googlesource.com/gvisor/pkg/sentry/control" "gvisor.googlesource.com/gvisor/pkg/sentry/kernel/auth" "gvisor.googlesource.com/gvisor/pkg/urpc" "gvisor.googlesource.com/gvisor/runsc/boot" "gvisor.googlesource.com/gvisor/runsc/sandbox" "gvisor.googlesource.com/gvisor/runsc/specutils" ) // Exec implements subcommands.Command for the "exec" command. type Exec struct { cwd string env stringSlice // user contains the UID and GID with which to run the new process. user user extraKGIDs stringSlice caps stringSlice detach bool processPath string pidFile string } // Name implements subcommands.Command.Name. func (*Exec) Name() string { return "exec" } // Synopsis implements subcommands.Command.Synopsis. func (*Exec) Synopsis() string { return "execute new process inside the container" } // Usage implements subcommands.Command.Usage. func (*Exec) Usage() string { return `exec [command options] [command options] || --process process.json Where "" is the name for the instance of the container and "" is the command to be executed in the container. "" can't be empty unless a "-process" flag provided. EXAMPLE: If the container is configured to run /bin/ps the following will output a list of processes running in the container: # runc exec ps OPTIONS: ` } // SetFlags implements subcommands.Command.SetFlags. func (ex *Exec) SetFlags(f *flag.FlagSet) { f.StringVar(&ex.cwd, "cwd", "", "current working directory") f.Var(&ex.env, "env", "set environment variables (e.g. '-env PATH=/bin -env TERM=xterm')") f.Var(&ex.user, "user", "UID (format: [:])") f.Var(&ex.extraKGIDs, "additional-gids", "additional gids") f.Var(&ex.caps, "cap", "add a capability to the bounding set for the process") f.BoolVar(&ex.detach, "detach", false, "detach from the container's process") f.StringVar(&ex.processPath, "process", "", "path to the process.json") f.StringVar(&ex.pidFile, "pid-file", "", "filename that the sandbox pid will be written to") } // Execute implements subcommands.Command.Execute. It starts a process in an // already created sandbox. func (ex *Exec) Execute(_ context.Context, f *flag.FlagSet, args ...interface{}) subcommands.ExitStatus { e, id, err := ex.parseArgs(f) if err != nil { Fatalf("error parsing process spec: %v", err) } conf := args[0].(*boot.Config) waitStatus := args[1].(*syscall.WaitStatus) s, err := sandbox.Load(conf.RootDir, id) if err != nil { Fatalf("error loading sandox: %v", err) } if e.WorkingDirectory == "" { e.WorkingDirectory = s.Spec.Process.Cwd } if e.Envv == nil { e.Envv, err = resolveEnvs(s.Spec.Process.Env, ex.env) if err != nil { Fatalf("error getting environment variables: %v", err) } } // containerd expects an actual process to represent the container being // executed. If detach was specified, starts a child in non-detach mode, // write the child's PID to the pid file. So when the container returns, the // child process will also return and signal containerd. if ex.detach { binPath, err := specutils.BinPath() if err != nil { Fatalf("error getting bin path: %v", err) } var args []string for _, a := range os.Args[1:] { if !strings.Contains(a, "detach") { args = append(args, a) } } cmd := exec.Command(binPath, args...) cmd.Stdin = os.Stdin cmd.Stdout = os.Stdout cmd.Stderr = os.Stderr if err := cmd.Start(); err != nil { Fatalf("failure to start child exec process, err: %v", err) } log.Infof("Started child (PID: %d) to exec and wait: %s %s", cmd.Process.Pid, binPath, args) // Wait for PID file to ensure that child process has started. Otherwise, // '--process' file is deleted as soon as this process returns and the child // may fail to read it. sleepTime := 10 * time.Millisecond for start := time.Now(); time.Now().Sub(start) < 10*time.Second; { _, err := os.Stat(ex.pidFile) if err == nil { break } if pe, ok := err.(*os.PathError); !ok || pe.Err != syscall.ENOENT { Fatalf("unexpected error waiting for PID file, err: %v", err) } log.Infof("Waiting for PID file to be created...") time.Sleep(sleepTime) sleepTime *= sleepTime * 2 if sleepTime > 1*time.Second { sleepTime = 1 * time.Second } } *waitStatus = 0 return subcommands.ExitSuccess } if ex.pidFile != "" { if err := ioutil.WriteFile(ex.pidFile, []byte(strconv.Itoa(os.Getpid())), 0644); err != nil { Fatalf("error writing pid file: %v", err) } } // Get the executable path, which is a bit tricky because we have to // inspect the environment PATH which is relative to the root path. // If the user is overriding environment variables, PATH may have been // overwritten. rootPath := s.Spec.Root.Path e.Filename, err = specutils.GetExecutablePath(e.Argv[0], rootPath, e.Envv) if err != nil { Fatalf("error getting executable path: %v", err) } ws, err := s.Execute(e) if err != nil { Fatalf("error getting processes for sandbox: %v", err) } *waitStatus = ws return subcommands.ExitSuccess } // parseArgs parses exec information from the command line or a JSON file // depending on whether the --process flag was used. Returns an ExecArgs and // the ID of the sandbox to be used. func (ex *Exec) parseArgs(f *flag.FlagSet) (*control.ExecArgs, string, error) { if ex.processPath == "" { // Requires at least a container ID and command. if f.NArg() < 2 { f.Usage() return nil, "", fmt.Errorf("both a container-id and command are required") } e, err := ex.argsFromCLI(f.Args()[1:]) return e, f.Arg(0), err } // Requires only the container ID. if f.NArg() != 1 { f.Usage() return nil, "", fmt.Errorf("a container-id is required") } e, err := ex.argsFromProcessFile() return e, f.Arg(0), err } func (ex *Exec) argsFromCLI(argv []string) (*control.ExecArgs, error) { extraKGIDs := make([]auth.KGID, 0, len(ex.extraKGIDs)) for _, s := range ex.extraKGIDs { kgid, err := strconv.Atoi(s) if err != nil { Fatalf("error parsing GID: %s, %v", s, err) } extraKGIDs = append(extraKGIDs, auth.KGID(kgid)) } caps, err := capabilities(ex.caps) if err != nil { return nil, fmt.Errorf("capabilities error: %v", err) } return &control.ExecArgs{ Argv: argv, WorkingDirectory: ex.cwd, FilePayload: urpc.FilePayload{Files: []*os.File{os.Stdin, os.Stdout, os.Stderr}}, KUID: ex.user.kuid, KGID: ex.user.kgid, ExtraKGIDs: extraKGIDs, Capabilities: caps, }, nil } func (ex *Exec) argsFromProcessFile() (*control.ExecArgs, error) { f, err := os.Open(ex.processPath) if err != nil { return nil, fmt.Errorf("error opening process file: %s, %v", ex.processPath, err) } defer f.Close() var p specs.Process if err := json.NewDecoder(f).Decode(&p); err != nil { return nil, fmt.Errorf("error parsing process file: %s, %v", ex.processPath, err) } return argsFromProcess(&p) } // argsFromProcess performs all the non-IO conversion from the Process struct // to ExecArgs. func argsFromProcess(p *specs.Process) (*control.ExecArgs, error) { // Create capabilities. caps, err := specutils.Capabilities(p.Capabilities) if err != nil { return nil, fmt.Errorf("error creating capabilities: %v", err) } // Convert the spec's additional GIDs to KGIDs. extraKGIDs := make([]auth.KGID, 0, len(p.User.AdditionalGids)) for _, GID := range p.User.AdditionalGids { extraKGIDs = append(extraKGIDs, auth.KGID(GID)) } return &control.ExecArgs{ Argv: p.Args, Envv: p.Env, WorkingDirectory: p.Cwd, FilePayload: urpc.FilePayload{Files: []*os.File{os.Stdin, os.Stdout, os.Stderr}}, KUID: auth.KUID(p.User.UID), KGID: auth.KGID(p.User.GID), ExtraKGIDs: extraKGIDs, Capabilities: caps, }, nil } // resolveEnvs transforms lists of environment variables into a single list of // environment variables. If a variable is defined multiple times, the last // value is used. func resolveEnvs(envs ...[]string) ([]string, error) { // First create a map of variable names to values. This removes any // duplicates. envMap := make(map[string]string) for _, env := range envs { for _, str := range env { parts := strings.SplitN(str, "=", 2) if len(parts) != 2 { return nil, fmt.Errorf("invalid variable: %s", str) } envMap[parts[0]] = parts[1] } } // Reassemble envMap into a list of environment variables of the form // NAME=VALUE. env := make([]string, 0, len(envMap)) for k, v := range envMap { env = append(env, fmt.Sprintf("%s=%s", k, v)) } return env, nil } // capabilities takes a list of capabilities as strings and returns an // auth.TaskCapabilities struct with those capabilities in every capability set. // This mimics runc's behavior. func capabilities(cs []string) (*auth.TaskCapabilities, error) { var specCaps specs.LinuxCapabilities for _, cap := range cs { specCaps.Ambient = append(specCaps.Ambient, cap) specCaps.Bounding = append(specCaps.Bounding, cap) specCaps.Effective = append(specCaps.Effective, cap) specCaps.Inheritable = append(specCaps.Inheritable, cap) specCaps.Permitted = append(specCaps.Permitted, cap) } return specutils.Capabilities(&specCaps) } // stringSlice allows a flag to be used multiple times, where each occurrence // adds a value to the flag. For example, a flag called "x" could be invoked // via "runsc exec -x foo -x bar", and the corresponding stringSlice would be // {"x", "y"}. type stringSlice []string // String implements flag.Value.String. func (ss *stringSlice) String() string { return fmt.Sprintf("%v", *ss) } // Get implements flag.Value.Get. func (ss *stringSlice) Get() interface{} { return ss } // Set implements flag.Value.Set. func (ss *stringSlice) Set(s string) error { *ss = append(*ss, s) return nil } // user allows -user to convey a UID and, optionally, a GID separated by a // colon. type user struct { kuid auth.KUID kgid auth.KGID } func (u *user) String() string { return fmt.Sprintf("%+v", *u) } func (u *user) Get() interface{} { return u } func (u *user) Set(s string) error { parts := strings.SplitN(s, ":", 2) kuid, err := strconv.Atoi(parts[0]) if err != nil { return fmt.Errorf("couldn't parse UID: %s", parts[0]) } u.kuid = auth.KUID(kuid) if len(parts) > 1 { kgid, err := strconv.Atoi(parts[1]) if err != nil { return fmt.Errorf("couldn't parse GID: %s", parts[1]) } u.kgid = auth.KGID(kgid) } return nil }