diff options
author | gVisor bot <gvisor-bot@google.com> | 2020-07-14 19:05:02 +0000 |
---|---|---|
committer | gVisor bot <gvisor-bot@google.com> | 2020-07-14 19:05:02 +0000 |
commit | bc8cb79b0cd28d1c89673df09324459c529491b5 (patch) | |
tree | b1751f6d6f6b9e7ad7f7bd6c912e5019f6dcf638 /runsc/boot/loader.go | |
parent | dfde222bdd6a9730fde00796c5d83cf05fcadb45 (diff) | |
parent | 1bfb556ccdaee28ffea0cbdc37007edb10fa22c4 (diff) |
Merge release-20200622.1-153-g1bfb556cc (automated)
Diffstat (limited to 'runsc/boot/loader.go')
-rw-r--r-- | runsc/boot/loader.go | 248 |
1 files changed, 115 insertions, 133 deletions
diff --git a/runsc/boot/loader.go b/runsc/boot/loader.go index 0c0423ab2..a48547ea5 100644 --- a/runsc/boot/loader.go +++ b/runsc/boot/loader.go @@ -77,29 +77,34 @@ import ( _ "gvisor.dev/gvisor/pkg/sentry/socket/unix" ) -// Loader keeps state needed to start the kernel and run the container.. -type Loader struct { - // k is the kernel. - k *kernel.Kernel - - // ctrl is the control server. - ctrl *controller - +type containerInfo struct { conf *Config - // console is set to true if terminal is enabled. - console bool + // spec is the base configuration for the root container. + spec *specs.Spec - watchdog *watchdog.Watchdog + // procArgs refers to the container's init task. + procArgs kernel.CreateProcessArgs // stdioFDs contains stdin, stdout, and stderr. stdioFDs []int // goferFDs are the FDs that attach the sandbox to the gofers. goferFDs []int +} - // spec is the base configuration for the root container. - spec *specs.Spec +// Loader keeps state needed to start the kernel and run the container.. +type Loader struct { + // k is the kernel. + k *kernel.Kernel + + // ctrl is the control server. + ctrl *controller + + // root contains information about the root container in the sandbox. + root containerInfo + + watchdog *watchdog.Watchdog // stopSignalForwarding disables forwarding of signals to the sandboxed // container. It should be called when a sandbox is destroyed. @@ -108,9 +113,6 @@ type Loader struct { // restore is set to true if we are restoring a container. restore bool - // rootProcArgs refers to the root sandbox init task. - rootProcArgs kernel.CreateProcessArgs - // sandboxID is the ID for the whole sandbox. sandboxID string @@ -175,8 +177,6 @@ type Args struct { // StdioFDs is the stdio for the application. The Loader takes ownership of // these FDs and may close them at any time. StdioFDs []int - // Console is set to true if using TTY. - Console bool // NumCPU is the number of CPUs to create inside the sandbox. NumCPU int // TotalMem is the initial amount of total memory to report back to the @@ -322,7 +322,7 @@ func New(args Args) (*Loader, error) { dogOpts.TaskTimeoutAction = args.Conf.WatchdogAction dog := watchdog.New(k, dogOpts) - procArgs, err := newProcess(args.ID, args.Spec, creds, k, k.RootPIDNamespace()) + procArgs, err := createProcessArgs(args.ID, args.Spec, creds, k, k.RootPIDNamespace()) if err != nil { return nil, fmt.Errorf("creating init process for root container: %v", err) } @@ -370,17 +370,18 @@ func New(args Args) (*Loader, error) { eid := execID{cid: args.ID} l := &Loader{ - k: k, - conf: args.Conf, - console: args.Console, - watchdog: dog, - spec: args.Spec, - goferFDs: args.GoferFDs, - stdioFDs: stdioFDs, - rootProcArgs: procArgs, - sandboxID: args.ID, - processes: map[execID]*execProcess{eid: {}}, - mountHints: mountHints, + k: k, + watchdog: dog, + sandboxID: args.ID, + processes: map[execID]*execProcess{eid: {}}, + mountHints: mountHints, + root: containerInfo{ + conf: args.Conf, + stdioFDs: stdioFDs, + goferFDs: args.GoferFDs, + spec: args.Spec, + procArgs: procArgs, + }, } // We don't care about child signals; some platforms can generate a @@ -408,8 +409,8 @@ func New(args Args) (*Loader, error) { return l, nil } -// newProcess creates a process that can be run with kernel.CreateProcess. -func newProcess(id string, spec *specs.Spec, creds *auth.Credentials, k *kernel.Kernel, pidns *kernel.PIDNamespace) (kernel.CreateProcessArgs, error) { +// createProcessArgs creates args that can be used with kernel.CreateProcess. +func createProcessArgs(id string, spec *specs.Spec, creds *auth.Credentials, k *kernel.Kernel, pidns *kernel.PIDNamespace) (kernel.CreateProcessArgs, error) { // Create initial limits. ls, err := createLimitSet(spec) if err != nil { @@ -483,13 +484,13 @@ func createMemoryFile() (*pgalloc.MemoryFile, error) { } func (l *Loader) installSeccompFilters() error { - if l.conf.DisableSeccomp { + if l.root.conf.DisableSeccomp { filter.Report("syscall filter is DISABLED. Running in less secure mode.") } else { opts := filter.Options{ Platform: l.k.Platform, - HostNetwork: l.conf.Network == NetworkHost, - ProfileEnable: l.conf.ProfileEnable, + HostNetwork: l.root.conf.Network == NetworkHost, + ProfileEnable: l.root.conf.ProfileEnable, ControllerFD: l.ctrl.srv.FD(), } if err := filter.Install(opts); err != nil { @@ -515,7 +516,7 @@ func (l *Loader) Run() error { } func (l *Loader) run() error { - if l.conf.Network == NetworkHost { + if l.root.conf.Network == NetworkHost { // Delay host network configuration to this point because network namespace // is configured after the loader is created and before Run() is called. log.Debugf("Configuring host network") @@ -536,10 +537,8 @@ func (l *Loader) run() error { // If we are restoring, we do not want to create a process. // l.restore is set by the container manager when a restore call is made. - var ttyFile *host.TTYFileOperations - var ttyFileVFS2 *hostvfs2.TTYFileDescription if !l.restore { - if l.conf.ProfileEnable { + if l.root.conf.ProfileEnable { pprof.Initialize() } @@ -549,82 +548,29 @@ func (l *Loader) run() error { return err } - // Create the FD map, which will set stdin, stdout, and stderr. If console - // is true, then ioctl calls will be passed through to the host fd. - ctx := l.rootProcArgs.NewContext(l.k) - var err error - - // CreateProcess takes a reference on FDMap if successful. We won't need - // ours either way. - l.rootProcArgs.FDTable, ttyFile, ttyFileVFS2, err = createFDTable(ctx, l.console, l.stdioFDs) - if err != nil { - return fmt.Errorf("importing fds: %v", err) - } - - // Setup the root container file system. - l.startGoferMonitor(l.sandboxID, l.goferFDs) - - mntr := newContainerMounter(l.spec, l.goferFDs, l.k, l.mountHints) - if err := mntr.processHints(l.conf, l.rootProcArgs.Credentials); err != nil { - return err - } - if err := setupContainerFS(ctx, l.conf, mntr, &l.rootProcArgs); err != nil { - return err - } - - // Add the HOME enviroment variable if it is not already set. - var envv []string - if kernel.VFS2Enabled { - envv, err = user.MaybeAddExecUserHomeVFS2(ctx, l.rootProcArgs.MountNamespaceVFS2, - l.rootProcArgs.Credentials.RealKUID, l.rootProcArgs.Envv) - - } else { - envv, err = user.MaybeAddExecUserHome(ctx, l.rootProcArgs.MountNamespace, - l.rootProcArgs.Credentials.RealKUID, l.rootProcArgs.Envv) - } - if err != nil { - return err - } - l.rootProcArgs.Envv = envv - // Create the root container init task. It will begin running // when the kernel is started. - if _, _, err := l.k.CreateProcess(l.rootProcArgs); err != nil { - return fmt.Errorf("creating init process: %v", err) + if _, err := l.createContainerProcess(true, l.sandboxID, &l.root, ep); err != nil { + return err } - - // CreateProcess takes a reference on FDTable if successful. - l.rootProcArgs.FDTable.DecRef() } ep.tg = l.k.GlobalInit() - if ns, ok := specutils.GetNS(specs.PIDNamespace, l.spec); ok { + if ns, ok := specutils.GetNS(specs.PIDNamespace, l.root.spec); ok { ep.pidnsPath = ns.Path } - if l.console { - // Set the foreground process group on the TTY to the global init process - // group, since that is what we are about to start running. - switch { - case ttyFileVFS2 != nil: - ep.ttyVFS2 = ttyFileVFS2 - ttyFileVFS2.InitForegroundProcessGroup(ep.tg.ProcessGroup()) - case ttyFile != nil: - ep.tty = ttyFile - ttyFile.InitForegroundProcessGroup(ep.tg.ProcessGroup()) - } - } // Handle signals by forwarding them to the root container process // (except for panic signal, which should cause a panic). l.stopSignalForwarding = sighandling.StartSignalForwarding(func(sig linux.Signal) { // Panic signal should cause a panic. - if l.conf.PanicSignal != -1 && sig == linux.Signal(l.conf.PanicSignal) { + if l.root.conf.PanicSignal != -1 && sig == linux.Signal(l.root.conf.PanicSignal) { panic("Signal-induced panic") } // Otherwise forward to root container. deliveryMode := DeliverToProcess - if l.console { + if l.root.spec.Process.Terminal { // Since we are running with a console, we should forward the signal to // the foreground process group so that job control signals like ^C can // be handled properly. @@ -641,7 +587,7 @@ func (l *Loader) run() error { // during restore, we can release l.stdioFDs now. VFS2 takes ownership of the // passed FDs, so only close for VFS1. if !kernel.VFS2Enabled { - for _, fd := range l.stdioFDs { + for _, fd := range l.root.stdioFDs { err := syscall.Close(fd) if err != nil { return fmt.Errorf("close dup()ed stdioFDs: %v", err) @@ -680,8 +626,8 @@ func (l *Loader) startContainer(spec *specs.Spec, conf *Config, cid string, file l.mu.Lock() defer l.mu.Unlock() - eid := execID{cid: cid} - if _, ok := l.processes[eid]; !ok { + ep := l.processes[execID{cid: cid}] + if ep == nil { return fmt.Errorf("trying to start a deleted container %q", cid) } @@ -715,76 +661,112 @@ func (l *Loader) startContainer(spec *specs.Spec, conf *Config, cid string, file if pidns == nil { pidns = l.k.RootPIDNamespace().NewChild(l.k.RootUserNamespace()) } - l.processes[eid].pidnsPath = ns.Path + ep.pidnsPath = ns.Path } else { pidns = l.k.RootPIDNamespace() } - procArgs, err := newProcess(cid, spec, creds, l.k, pidns) + + info := &containerInfo{ + conf: conf, + spec: spec, + } + info.procArgs, err = createProcessArgs(cid, spec, creds, l.k, pidns) if err != nil { return fmt.Errorf("creating new process: %v", err) } // setupContainerFS() dups stdioFDs, so we don't need to dup them here. - var stdioFDs []int for _, f := range files[:3] { - stdioFDs = append(stdioFDs, int(f.Fd())) + info.stdioFDs = append(info.stdioFDs, int(f.Fd())) } - // Create the FD map, which will set stdin, stdout, and stderr. - ctx := procArgs.NewContext(l.k) - fdTable, _, _, err := createFDTable(ctx, false, stdioFDs) - if err != nil { - return fmt.Errorf("importing fds: %v", err) - } - // CreateProcess takes a reference on fdTable if successful. We won't - // need ours either way. - procArgs.FDTable = fdTable - // Can't take ownership away from os.File. dup them to get a new FDs. - var goferFDs []int for _, f := range files[3:] { fd, err := syscall.Dup(int(f.Fd())) if err != nil { return fmt.Errorf("failed to dup file: %v", err) } - goferFDs = append(goferFDs, fd) + info.goferFDs = append(info.goferFDs, fd) + } + + tg, err := l.createContainerProcess(false, cid, info, ep) + if err != nil { + return err + } + + // Success! + l.k.StartProcess(tg) + ep.tg = tg + return nil +} + +func (l *Loader) createContainerProcess(root bool, cid string, info *containerInfo, ep *execProcess) (*kernel.ThreadGroup, error) { + console := false + if root { + // Only root container supports terminal for now. + console = info.spec.Process.Terminal } + // Create the FD map, which will set stdin, stdout, and stderr. + ctx := info.procArgs.NewContext(l.k) + fdTable, ttyFile, ttyFileVFS2, err := createFDTable(ctx, console, info.stdioFDs) + if err != nil { + return nil, fmt.Errorf("importing fds: %v", err) + } + // CreateProcess takes a reference on fdTable if successful. We won't need + // ours either way. + info.procArgs.FDTable = fdTable + // Setup the child container file system. - l.startGoferMonitor(cid, goferFDs) + l.startGoferMonitor(cid, info.goferFDs) - mntr := newContainerMounter(spec, goferFDs, l.k, l.mountHints) - if err := setupContainerFS(ctx, conf, mntr, &procArgs); err != nil { - return err + mntr := newContainerMounter(info.spec, info.goferFDs, l.k, l.mountHints) + if root { + if err := mntr.processHints(info.conf, info.procArgs.Credentials); err != nil { + return nil, err + } + } + if err := setupContainerFS(ctx, info.conf, mntr, &info.procArgs); err != nil { + return nil, err } // Add the HOME enviroment variable if it is not already set. var envv []string if kernel.VFS2Enabled { - envv, err = user.MaybeAddExecUserHomeVFS2(ctx, procArgs.MountNamespaceVFS2, - procArgs.Credentials.RealKUID, procArgs.Envv) + envv, err = user.MaybeAddExecUserHomeVFS2(ctx, info.procArgs.MountNamespaceVFS2, + info.procArgs.Credentials.RealKUID, info.procArgs.Envv) } else { - envv, err = user.MaybeAddExecUserHome(ctx, procArgs.MountNamespace, - procArgs.Credentials.RealKUID, procArgs.Envv) + envv, err = user.MaybeAddExecUserHome(ctx, info.procArgs.MountNamespace, + info.procArgs.Credentials.RealKUID, info.procArgs.Envv) } if err != nil { - return err + return nil, err } - procArgs.Envv = envv + info.procArgs.Envv = envv // Create and start the new process. - tg, _, err := l.k.CreateProcess(procArgs) + tg, _, err := l.k.CreateProcess(info.procArgs) if err != nil { - return fmt.Errorf("creating process: %v", err) + return nil, fmt.Errorf("creating process: %v", err) } - l.k.StartProcess(tg) - // CreateProcess takes a reference on FDTable if successful. - procArgs.FDTable.DecRef() + info.procArgs.FDTable.DecRef() - l.processes[eid].tg = tg - return nil + // Set the foreground process group on the TTY to the global init process + // group, since that is what we are about to start running. + if root { + switch { + case ttyFileVFS2 != nil: + ep.ttyVFS2 = ttyFileVFS2 + ttyFileVFS2.InitForegroundProcessGroup(tg.ProcessGroup()) + case ttyFile != nil: + ep.tty = ttyFile + ttyFile.InitForegroundProcessGroup(tg.ProcessGroup()) + } + } + + return tg, nil } // startGoferMonitor runs a goroutine to monitor gofer's health. It polls on |