// 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 boot import ( "fmt" "path" "sort" "strings" specs "github.com/opencontainers/runtime-spec/specs-go" "gvisor.dev/gvisor/pkg/abi/linux" "gvisor.dev/gvisor/pkg/cleanup" "gvisor.dev/gvisor/pkg/context" "gvisor.dev/gvisor/pkg/errors/linuxerr" "gvisor.dev/gvisor/pkg/fspath" "gvisor.dev/gvisor/pkg/log" "gvisor.dev/gvisor/pkg/sentry/devices/memdev" "gvisor.dev/gvisor/pkg/sentry/devices/ttydev" "gvisor.dev/gvisor/pkg/sentry/devices/tundev" "gvisor.dev/gvisor/pkg/sentry/fs/user" "gvisor.dev/gvisor/pkg/sentry/fsimpl/cgroupfs" "gvisor.dev/gvisor/pkg/sentry/fsimpl/devpts" "gvisor.dev/gvisor/pkg/sentry/fsimpl/devtmpfs" "gvisor.dev/gvisor/pkg/sentry/fsimpl/fuse" "gvisor.dev/gvisor/pkg/sentry/fsimpl/gofer" "gvisor.dev/gvisor/pkg/sentry/fsimpl/mqfs" "gvisor.dev/gvisor/pkg/sentry/fsimpl/overlay" "gvisor.dev/gvisor/pkg/sentry/fsimpl/proc" "gvisor.dev/gvisor/pkg/sentry/fsimpl/sys" "gvisor.dev/gvisor/pkg/sentry/fsimpl/tmpfs" "gvisor.dev/gvisor/pkg/sentry/fsimpl/verity" "gvisor.dev/gvisor/pkg/sentry/inet" "gvisor.dev/gvisor/pkg/sentry/kernel" "gvisor.dev/gvisor/pkg/sentry/kernel/auth" "gvisor.dev/gvisor/pkg/sentry/vfs" "gvisor.dev/gvisor/runsc/config" "gvisor.dev/gvisor/runsc/specutils" ) func registerFilesystems(k *kernel.Kernel) error { ctx := k.SupervisorContext() creds := auth.NewRootCredentials(k.RootUserNamespace()) vfsObj := k.VFS() vfsObj.MustRegisterFilesystemType(cgroupfs.Name, &cgroupfs.FilesystemType{}, &vfs.RegisterFilesystemTypeOptions{ AllowUserMount: true, AllowUserList: true, }) vfsObj.MustRegisterFilesystemType(devpts.Name, &devpts.FilesystemType{}, &vfs.RegisterFilesystemTypeOptions{ AllowUserList: true, // TODO(b/29356795): Users may mount this once the terminals are in a // usable state. AllowUserMount: false, }) vfsObj.MustRegisterFilesystemType(devtmpfs.Name, &devtmpfs.FilesystemType{}, &vfs.RegisterFilesystemTypeOptions{ AllowUserMount: true, AllowUserList: true, }) vfsObj.MustRegisterFilesystemType(fuse.Name, &fuse.FilesystemType{}, &vfs.RegisterFilesystemTypeOptions{ AllowUserMount: true, AllowUserList: true, }) vfsObj.MustRegisterFilesystemType(gofer.Name, &gofer.FilesystemType{}, &vfs.RegisterFilesystemTypeOptions{ AllowUserList: true, }) vfsObj.MustRegisterFilesystemType(overlay.Name, &overlay.FilesystemType{}, &vfs.RegisterFilesystemTypeOptions{ AllowUserMount: true, AllowUserList: true, }) vfsObj.MustRegisterFilesystemType(proc.Name, &proc.FilesystemType{}, &vfs.RegisterFilesystemTypeOptions{ AllowUserMount: true, AllowUserList: true, }) vfsObj.MustRegisterFilesystemType(sys.Name, &sys.FilesystemType{}, &vfs.RegisterFilesystemTypeOptions{ AllowUserMount: true, AllowUserList: true, }) vfsObj.MustRegisterFilesystemType(tmpfs.Name, &tmpfs.FilesystemType{}, &vfs.RegisterFilesystemTypeOptions{ AllowUserMount: true, AllowUserList: true, }) vfsObj.MustRegisterFilesystemType(verity.Name, &verity.FilesystemType{}, &vfs.RegisterFilesystemTypeOptions{ AllowUserList: true, AllowUserMount: true, }) vfsObj.MustRegisterFilesystemType(mqfs.Name, &mqfs.FilesystemType{}, &vfs.RegisterFilesystemTypeOptions{ AllowUserMount: true, AllowUserList: true, }) // Setup files in devtmpfs. if err := memdev.Register(vfsObj); err != nil { return fmt.Errorf("registering memdev: %w", err) } if err := ttydev.Register(vfsObj); err != nil { return fmt.Errorf("registering ttydev: %w", err) } tunSupported := tundev.IsNetTunSupported(inet.StackFromContext(ctx)) if tunSupported { if err := tundev.Register(vfsObj); err != nil { return fmt.Errorf("registering tundev: %v", err) } } if kernel.FUSEEnabled { if err := fuse.Register(vfsObj); err != nil { return fmt.Errorf("registering fusedev: %w", err) } } a, err := devtmpfs.NewAccessor(ctx, vfsObj, creds, devtmpfs.Name) if err != nil { return fmt.Errorf("creating devtmpfs accessor: %w", err) } defer a.Release(ctx) if err := a.UserspaceInit(ctx); err != nil { return fmt.Errorf("initializing userspace: %w", err) } if err := memdev.CreateDevtmpfsFiles(ctx, a); err != nil { return fmt.Errorf("creating memdev devtmpfs files: %w", err) } if err := ttydev.CreateDevtmpfsFiles(ctx, a); err != nil { return fmt.Errorf("creating ttydev devtmpfs files: %w", err) } if tunSupported { if err := tundev.CreateDevtmpfsFiles(ctx, a); err != nil { return fmt.Errorf("creating tundev devtmpfs files: %v", err) } } if kernel.FUSEEnabled { if err := fuse.CreateDevtmpfsFile(ctx, a); err != nil { return fmt.Errorf("creating fusedev devtmpfs files: %w", err) } } return nil } func setupContainerVFS2(ctx context.Context, conf *config.Config, mntr *containerMounter, procArgs *kernel.CreateProcessArgs) error { mns, err := mntr.mountAll(conf, procArgs) if err != nil { return fmt.Errorf("failed to setupFS: %w", err) } procArgs.MountNamespaceVFS2 = mns // Resolve the executable path from working dir and environment. resolved, err := user.ResolveExecutablePath(ctx, procArgs) if err != nil { return err } procArgs.Filename = resolved return nil } func (c *containerMounter) mountAll(conf *config.Config, procArgs *kernel.CreateProcessArgs) (*vfs.MountNamespace, error) { log.Infof("Configuring container's file system with VFS2") // Create context with root credentials to mount the filesystem (the current // user may not be privileged enough). rootCreds := auth.NewRootCredentials(procArgs.Credentials.UserNamespace) rootProcArgs := *procArgs rootProcArgs.WorkingDirectory = "/" rootProcArgs.Credentials = rootCreds rootProcArgs.Umask = 0022 rootProcArgs.MaxSymlinkTraversals = linux.MaxSymlinkTraversals rootCtx := rootProcArgs.NewContext(c.k) mns, err := c.createMountNamespaceVFS2(rootCtx, conf, rootCreds) if err != nil { return nil, fmt.Errorf("creating mount namespace: %w", err) } rootProcArgs.MountNamespaceVFS2 = mns root := mns.Root() root.IncRef() defer root.DecRef(rootCtx) if root.Mount().ReadOnly() { // Switch to ReadWrite while we setup submounts. if err := c.k.VFS().SetMountReadOnly(root.Mount(), false); err != nil { return nil, fmt.Errorf(`failed to set mount at "/" readwrite: %w`, err) } // Restore back to ReadOnly at the end. defer func() { if err := c.k.VFS().SetMountReadOnly(root.Mount(), true); err != nil { panic(fmt.Sprintf(`failed to restore mount at "/" back to readonly: %v`, err)) } }() } // Mount submounts. if err := c.mountSubmountsVFS2(rootCtx, conf, mns, rootCreds); err != nil { return nil, fmt.Errorf("mounting submounts vfs2: %w", err) } return mns, nil } // createMountNamespaceVFS2 creates the container's root mount and namespace. func (c *containerMounter) createMountNamespaceVFS2(ctx context.Context, conf *config.Config, creds *auth.Credentials) (*vfs.MountNamespace, error) { fd := c.fds.remove() data := goferMountData(fd, conf.FileAccess, "/", true /* vfs2 */, conf.Lisafs) // We can't check for overlayfs here because sandbox is chroot'ed and gofer // can only send mount options for specs.Mounts (specs.Root is missing // Options field). So assume root is always on top of overlayfs. data = append(data, "overlayfs_stale_read") log.Infof("Mounting root over 9P, ioFD: %d", fd) opts := &vfs.MountOptions{ ReadOnly: c.root.Readonly, GetFilesystemOptions: vfs.GetFilesystemOptions{ Data: strings.Join(data, ","), InternalData: gofer.InternalFilesystemOptions{ UniqueID: "/", }, }, InternalMount: true, } fsName := gofer.Name if conf.Overlay && !c.root.Readonly { log.Infof("Adding overlay on top of root") var err error var cleanup func() opts, cleanup, err = c.configureOverlay(ctx, creds, opts, fsName) if err != nil { return nil, fmt.Errorf("mounting root with overlay: %w", err) } defer cleanup() fsName = overlay.Name } mns, err := c.k.VFS().NewMountNamespace(ctx, creds, "", fsName, opts) if err != nil { return nil, fmt.Errorf("setting up mount namespace: %w", err) } return mns, nil } // configureOverlay mounts the lower layer using "lowerOpts", mounts the upper // layer using tmpfs, and return overlay mount options. "cleanup" must be called // after the options have been used to mount the overlay, to release refs on // lower and upper mounts. func (c *containerMounter) configureOverlay(ctx context.Context, creds *auth.Credentials, lowerOpts *vfs.MountOptions, lowerFSName string) (*vfs.MountOptions, func(), error) { // First copy options from lower layer to upper layer and overlay. Clear // filesystem specific options. upperOpts := *lowerOpts upperOpts.GetFilesystemOptions = vfs.GetFilesystemOptions{} overlayOpts := *lowerOpts overlayOpts.GetFilesystemOptions = vfs.GetFilesystemOptions{} // All writes go to the upper layer, be paranoid and make lower readonly. lowerOpts.ReadOnly = true lower, err := c.k.VFS().MountDisconnected(ctx, creds, "" /* source */, lowerFSName, lowerOpts) if err != nil { return nil, nil, err } cu := cleanup.Make(func() { lower.DecRef(ctx) }) defer cu.Clean() // Determine the lower layer's root's type. lowerRootVD := vfs.MakeVirtualDentry(lower, lower.Root()) stat, err := c.k.VFS().StatAt(ctx, creds, &vfs.PathOperation{ Root: lowerRootVD, Start: lowerRootVD, }, &vfs.StatOptions{ Mask: linux.STATX_UID | linux.STATX_GID | linux.STATX_MODE | linux.STATX_TYPE, }) if err != nil { return nil, nil, fmt.Errorf("failed to stat lower layer's root: %v", err) } if stat.Mask&linux.STATX_TYPE == 0 { return nil, nil, fmt.Errorf("failed to get file type of lower layer's root") } rootType := stat.Mode & linux.S_IFMT if rootType != linux.S_IFDIR && rootType != linux.S_IFREG { return nil, nil, fmt.Errorf("lower layer's root has unsupported file type %v", rootType) } // Upper is a tmpfs mount to keep all modifications inside the sandbox. upperOpts.GetFilesystemOptions.InternalData = tmpfs.FilesystemOpts{ RootFileType: uint16(rootType), } upper, err := c.k.VFS().MountDisconnected(ctx, creds, "" /* source */, tmpfs.Name, &upperOpts) if err != nil { return nil, nil, fmt.Errorf("failed to create upper layer for overlay, opts: %+v: %v", upperOpts, err) } cu.Add(func() { upper.DecRef(ctx) }) // If the overlay mount consists of a regular file, copy up its contents // from the lower layer, since in the overlay the otherwise-empty upper // layer file will take precedence. upperRootVD := vfs.MakeVirtualDentry(upper, upper.Root()) if rootType == linux.S_IFREG { lowerFD, err := c.k.VFS().OpenAt(ctx, creds, &vfs.PathOperation{ Root: lowerRootVD, Start: lowerRootVD, }, &vfs.OpenOptions{ Flags: linux.O_RDONLY, }) if err != nil { return nil, nil, fmt.Errorf("failed to open lower layer root for copying: %v", err) } defer lowerFD.DecRef(ctx) upperFD, err := c.k.VFS().OpenAt(ctx, creds, &vfs.PathOperation{ Root: upperRootVD, Start: upperRootVD, }, &vfs.OpenOptions{ Flags: linux.O_WRONLY, }) if err != nil { return nil, nil, fmt.Errorf("failed to open upper layer root for copying: %v", err) } defer upperFD.DecRef(ctx) if _, err := vfs.CopyRegularFileData(ctx, upperFD, lowerFD); err != nil { return nil, nil, fmt.Errorf("failed to copy up overlay file: %v", err) } } // Propagate the lower layer's root's owner, group, and mode to the upper // layer's root for consistency with VFS1. err = c.k.VFS().SetStatAt(ctx, creds, &vfs.PathOperation{ Root: upperRootVD, Start: upperRootVD, }, &vfs.SetStatOptions{ Stat: linux.Statx{ Mask: (linux.STATX_UID | linux.STATX_GID | linux.STATX_MODE) & stat.Mask, UID: stat.UID, GID: stat.GID, Mode: stat.Mode, }, }) if err != nil { return nil, nil, err } // Configure overlay with both layers. overlayOpts.GetFilesystemOptions.InternalData = overlay.FilesystemOptions{ UpperRoot: upperRootVD, LowerRoots: []vfs.VirtualDentry{lowerRootVD}, } return &overlayOpts, cu.Release(), nil } func (c *containerMounter) mountSubmountsVFS2(ctx context.Context, conf *config.Config, mns *vfs.MountNamespace, creds *auth.Credentials) error { mounts, err := c.prepareMountsVFS2() if err != nil { return err } for i := range mounts { submount := &mounts[i] log.Debugf("Mounting %q to %q, type: %s, options: %s", submount.mount.Source, submount.mount.Destination, submount.mount.Type, submount.mount.Options) var ( mnt *vfs.Mount err error ) if hint := c.hints.findMount(submount.mount); hint != nil && hint.isSupported() { mnt, err = c.mountSharedSubmountVFS2(ctx, conf, mns, creds, submount.mount, hint) if err != nil { return fmt.Errorf("mount shared mount %q to %q: %v", hint.name, submount.mount.Destination, err) } } else { mnt, err = c.mountSubmountVFS2(ctx, conf, mns, creds, submount) if err != nil { return fmt.Errorf("mount submount %q: %w", submount.mount.Destination, err) } } if mnt != nil && mnt.ReadOnly() { // Switch to ReadWrite while we setup submounts. if err := c.k.VFS().SetMountReadOnly(mnt, false); err != nil { return fmt.Errorf("failed to set mount at %q readwrite: %w", submount.mount.Destination, err) } // Restore back to ReadOnly at the end. defer func() { if err := c.k.VFS().SetMountReadOnly(mnt, true); err != nil { panic(fmt.Sprintf("failed to restore mount at %q back to readonly: %v", submount.mount.Destination, err)) } }() } } if err := c.mountTmpVFS2(ctx, conf, creds, mns); err != nil { return fmt.Errorf(`mount submount "\tmp": %w`, err) } return nil } type mountAndFD struct { mount *specs.Mount fd int } func (c *containerMounter) prepareMountsVFS2() ([]mountAndFD, error) { // Associate bind mounts with their FDs before sorting since there is an // undocumented assumption that FDs are dispensed in the order in which // they are required by mounts. var mounts []mountAndFD for i := range c.mounts { m := &c.mounts[i] specutils.MaybeConvertToBindMount(m) // Only bind mounts use host FDs; see // containerMounter.getMountNameAndOptionsVFS2. fd := -1 if m.Type == bind { fd = c.fds.remove() } mounts = append(mounts, mountAndFD{ mount: m, fd: fd, }) } if err := c.checkDispenser(); err != nil { return nil, err } // Sort the mounts so that we don't place children before parents. sort.Slice(mounts, func(i, j int) bool { return len(mounts[i].mount.Destination) < len(mounts[j].mount.Destination) }) return mounts, nil } func (c *containerMounter) mountSubmountVFS2(ctx context.Context, conf *config.Config, mns *vfs.MountNamespace, creds *auth.Credentials, submount *mountAndFD) (*vfs.Mount, error) { fsName, opts, useOverlay, err := c.getMountNameAndOptionsVFS2(conf, submount) if err != nil { return nil, fmt.Errorf("mountOptions failed: %w", err) } if len(fsName) == 0 { // Filesystem is not supported (e.g. cgroup), just skip it. return nil, nil } if err := c.makeMountPoint(ctx, creds, mns, submount.mount.Destination); err != nil { return nil, fmt.Errorf("creating mount point %q: %w", submount.mount.Destination, err) } if useOverlay { log.Infof("Adding overlay on top of mount %q", submount.mount.Destination) var cleanup func() opts, cleanup, err = c.configureOverlay(ctx, creds, opts, fsName) if err != nil { return nil, fmt.Errorf("mounting volume with overlay at %q: %w", submount.mount.Destination, err) } defer cleanup() fsName = overlay.Name } root := mns.Root() root.IncRef() defer root.DecRef(ctx) target := &vfs.PathOperation{ Root: root, Start: root, Path: fspath.Parse(submount.mount.Destination), } mnt, err := c.k.VFS().MountAt(ctx, creds, "", target, fsName, opts) if err != nil { return nil, fmt.Errorf("failed to mount %q (type: %s): %w, opts: %v", submount.mount.Destination, submount.mount.Type, err, opts) } log.Infof("Mounted %q to %q type: %s, internal-options: %q", submount.mount.Source, submount.mount.Destination, submount.mount.Type, opts.GetFilesystemOptions.Data) return mnt, nil } // getMountNameAndOptionsVFS2 retrieves the fsName, opts, and useOverlay values // used for mounts. func (c *containerMounter) getMountNameAndOptionsVFS2(conf *config.Config, m *mountAndFD) (string, *vfs.MountOptions, bool, error) { fsName := m.mount.Type useOverlay := false var ( data []string internalData interface{} ) verityData, verityOpts, verityRequested, remainingMOpts, err := parseVerityMountOptions(m.mount.Options) if err != nil { return "", nil, false, err } m.mount.Options = remainingMOpts // Find filesystem name and FS specific data field. switch m.mount.Type { case devpts.Name, devtmpfs.Name, proc.Name, sys.Name: // Nothing to do. case nonefs: fsName = sys.Name case tmpfs.Name: var err error data, err = parseAndFilterOptions(m.mount.Options, tmpfsAllowedData...) if err != nil { return "", nil, false, err } case bind: fsName = gofer.Name if m.fd == 0 { // Check that an FD was provided to fails fast. Technically FD=0 is valid, // but unlikely to be correct in this context. return "", nil, false, fmt.Errorf("9P mount requires a connection FD") } data = goferMountData(m.fd, c.getMountAccessType(conf, m.mount), m.mount.Destination, true /* vfs2 */, conf.Lisafs) internalData = gofer.InternalFilesystemOptions{ UniqueID: m.mount.Destination, } // If configured, add overlay to all writable mounts. useOverlay = conf.Overlay && !mountFlags(m.mount.Options).ReadOnly case cgroupfs.Name: var err error data, err = parseAndFilterOptions(m.mount.Options, cgroupfs.SupportedMountOptions...) if err != nil { return "", nil, false, err } default: log.Warningf("ignoring unknown filesystem type %q", m.mount.Type) return "", nil, false, nil } opts := &vfs.MountOptions{ GetFilesystemOptions: vfs.GetFilesystemOptions{ Data: strings.Join(data, ","), InternalData: internalData, }, InternalMount: true, } for _, o := range m.mount.Options { switch o { case "rw": opts.ReadOnly = false case "ro": opts.ReadOnly = true case "noatime": opts.Flags.NoATime = true case "noexec": opts.Flags.NoExec = true case "bind", "rbind": // These are the same as a mount with type="bind". default: log.Warningf("ignoring unknown mount option %q", o) } } if verityRequested { verityData = verityData + "root_name=" + path.Base(m.mount.Destination) verityOpts.LowerName = fsName verityOpts.LowerGetFSOptions = opts.GetFilesystemOptions fsName = verity.Name opts = &vfs.MountOptions{ GetFilesystemOptions: vfs.GetFilesystemOptions{ Data: verityData, InternalData: verityOpts, }, InternalMount: true, } } return fsName, opts, useOverlay, nil } func parseKeyValue(s string) (string, string, bool) { tokens := strings.SplitN(s, "=", 2) if len(tokens) < 2 { return "", "", false } return strings.TrimSpace(tokens[0]), strings.TrimSpace(tokens[1]), true } // parseAndFilterOptions scans the provided mount options for verity-related // mount options. It returns the parsed set of verity mount options, as well as // the filtered set of mount options unrelated to verity. func parseVerityMountOptions(mopts []string) (string, verity.InternalFilesystemOptions, bool, []string, error) { nonVerity := []string{} found := false var rootHash string verityOpts := verity.InternalFilesystemOptions{ Action: verity.PanicOnViolation, } for _, o := range mopts { if !strings.HasPrefix(o, "verity.") { nonVerity = append(nonVerity, o) continue } k, v, ok := parseKeyValue(o) if !ok { return "", verityOpts, found, nonVerity, fmt.Errorf("invalid verity mount option with no value: %q", o) } found = true switch k { case "verity.roothash": rootHash = v case "verity.action": switch v { case "error": verityOpts.Action = verity.ErrorOnViolation case "panic": verityOpts.Action = verity.PanicOnViolation default: log.Warningf("Invalid verity action %q", v) verityOpts.Action = verity.PanicOnViolation } default: return "", verityOpts, found, nonVerity, fmt.Errorf("unknown verity mount option: %q", k) } } verityOpts.AllowRuntimeEnable = len(rootHash) == 0 verityData := "root_hash=" + rootHash + "," return verityData, verityOpts, found, nonVerity, nil } // mountTmpVFS2 mounts an internal tmpfs at '/tmp' if it's safe to do so. // Technically we don't have to mount tmpfs at /tmp, as we could just rely on // the host /tmp, but this is a nice optimization, and fixes some apps that call // mknod in /tmp. It's unsafe to mount tmpfs if: // 1. /tmp is mounted explicitly: we should not override user's wish // 2. /tmp is not empty: mounting tmpfs would hide existing files in /tmp // // Note that when there are submounts inside of '/tmp', directories for the // mount points must be present, making '/tmp' not empty anymore. func (c *containerMounter) mountTmpVFS2(ctx context.Context, conf *config.Config, creds *auth.Credentials, mns *vfs.MountNamespace) error { for _, m := range c.mounts { // m.Destination has been cleaned, so it's to use equality here. if m.Destination == "/tmp" { log.Debugf(`Explict "/tmp" mount found, skipping internal tmpfs, mount: %+v`, m) return nil } } root := mns.Root() root.IncRef() defer root.DecRef(ctx) pop := vfs.PathOperation{ Root: root, Start: root, Path: fspath.Parse("/tmp"), } fd, err := c.k.VFS().OpenAt(ctx, creds, &pop, &vfs.OpenOptions{Flags: linux.O_RDONLY | linux.O_DIRECTORY}) switch { case err == nil: defer fd.DecRef(ctx) err := fd.IterDirents(ctx, vfs.IterDirentsCallbackFunc(func(dirent vfs.Dirent) error { if dirent.Name != "." && dirent.Name != ".." { return linuxerr.ENOTEMPTY } return nil })) switch { case err == nil: log.Infof(`Mounting internal tmpfs on top of empty "/tmp"`) case linuxerr.Equals(linuxerr.ENOTEMPTY, err): // If more than "." and ".." is found, skip internal tmpfs to prevent // hiding existing files. log.Infof(`Skipping internal tmpfs mount for "/tmp" because it's not empty`) return nil default: return err } fallthrough case linuxerr.Equals(linuxerr.ENOENT, err): // No '/tmp' found (or fallthrough from above). It's safe to mount internal // tmpfs. tmpMount := specs.Mount{ Type: tmpfs.Name, Destination: "/tmp", // Sticky bit is added to prevent accidental deletion of files from // another user. This is normally done for /tmp. Options: []string{"mode=01777"}, } _, err := c.mountSubmountVFS2(ctx, conf, mns, creds, &mountAndFD{mount: &tmpMount}) return err case linuxerr.Equals(linuxerr.ENOTDIR, err): // Not a dir?! Let it be. return nil default: return fmt.Errorf(`opening "/tmp" inside container: %w`, err) } } // processHintsVFS2 processes annotations that container hints about how volumes // should be mounted (e.g. a volume shared between containers). It must be // called for the root container only. func (c *containerMounter) processHintsVFS2(conf *config.Config, creds *auth.Credentials) error { ctx := c.k.SupervisorContext() for _, hint := range c.hints.mounts { // TODO(b/142076984): Only support tmpfs for now. Bind mounts require a // common gofer to mount all shared volumes. if hint.mount.Type != tmpfs.Name { continue } log.Infof("Mounting master of shared mount %q from %q type %q", hint.name, hint.mount.Source, hint.mount.Type) mnt, err := c.mountSharedMasterVFS2(ctx, conf, hint, creds) if err != nil { return fmt.Errorf("mounting shared master %q: %v", hint.name, err) } hint.vfsMount = mnt } return nil } // mountSharedMasterVFS2 mounts the master of a volume that is shared among // containers in a pod. func (c *containerMounter) mountSharedMasterVFS2(ctx context.Context, conf *config.Config, hint *mountHint, creds *auth.Credentials) (*vfs.Mount, error) { // Map mount type to filesystem name, and parse out the options that we are // capable of dealing with. mntFD := &mountAndFD{mount: &hint.mount} fsName, opts, useOverlay, err := c.getMountNameAndOptionsVFS2(conf, mntFD) if err != nil { return nil, err } if len(fsName) == 0 { return nil, fmt.Errorf("mount type not supported %q", hint.mount.Type) } if useOverlay { log.Infof("Adding overlay on top of shared mount %q", mntFD.mount.Destination) var cleanup func() opts, cleanup, err = c.configureOverlay(ctx, creds, opts, fsName) if err != nil { return nil, fmt.Errorf("mounting shared volume with overlay at %q: %w", mntFD.mount.Destination, err) } defer cleanup() fsName = overlay.Name } return c.k.VFS().MountDisconnected(ctx, creds, "", fsName, opts) } // mountSharedSubmount binds mount to a previously mounted volume that is shared // among containers in the same pod. func (c *containerMounter) mountSharedSubmountVFS2(ctx context.Context, conf *config.Config, mns *vfs.MountNamespace, creds *auth.Credentials, mount *specs.Mount, source *mountHint) (*vfs.Mount, error) { if err := source.checkCompatible(mount); err != nil { return nil, err } // Ignore data and useOverlay because these were already applied to // the master mount. _, opts, _, err := c.getMountNameAndOptionsVFS2(conf, &mountAndFD{mount: mount}) if err != nil { return nil, err } newMnt := c.k.VFS().NewDisconnectedMount(source.vfsMount.Filesystem(), source.vfsMount.Root(), opts) defer newMnt.DecRef(ctx) root := mns.Root() root.IncRef() defer root.DecRef(ctx) target := &vfs.PathOperation{ Root: root, Start: root, Path: fspath.Parse(mount.Destination), } if err := c.makeMountPoint(ctx, creds, mns, mount.Destination); err != nil { return nil, fmt.Errorf("creating mount point %q: %w", mount.Destination, err) } if err := c.k.VFS().ConnectMountAt(ctx, creds, newMnt, target); err != nil { return nil, err } log.Infof("Mounted %q type shared bind to %q", mount.Destination, source.name) return newMnt, nil } func (c *containerMounter) makeMountPoint(ctx context.Context, creds *auth.Credentials, mns *vfs.MountNamespace, dest string) error { root := mns.Root() root.IncRef() defer root.DecRef(ctx) target := &vfs.PathOperation{ Root: root, Start: root, Path: fspath.Parse(dest), } // First check if mount point exists. When overlay is enabled, gofer doesn't // allow changes to the FS, making MakeSytheticMountpoint() ineffective // because MkdirAt fails with EROFS even if file exists. vd, err := c.k.VFS().GetDentryAt(ctx, creds, target, &vfs.GetDentryOptions{}) if err == nil { // File exists, we're done. vd.DecRef(ctx) return nil } return c.k.VFS().MakeSyntheticMountpoint(ctx, dest, root, creds) } // configureRestore returns an updated context.Context including filesystem // state used by restore defined by conf. func (c *containerMounter) configureRestore(ctx context.Context) (context.Context, error) { fdmap := make(map[string]int) fdmap["/"] = c.fds.remove() mounts, err := c.prepareMountsVFS2() if err != nil { return ctx, err } for i := range c.mounts { submount := &mounts[i] if submount.fd >= 0 { fdmap[submount.mount.Destination] = submount.fd } } return context.WithValue(ctx, gofer.CtxRestoreServerFDMap, fdmap), nil }