// Copyright 2019 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 proc import ( "bytes" "fmt" "gvisor.dev/gvisor/pkg/abi/linux" "gvisor.dev/gvisor/pkg/context" "gvisor.dev/gvisor/pkg/sentry/fsimpl/kernfs" "gvisor.dev/gvisor/pkg/sentry/kernel" "gvisor.dev/gvisor/pkg/sentry/kernel/auth" "gvisor.dev/gvisor/pkg/sentry/mm" "gvisor.dev/gvisor/pkg/sentry/vfs" "gvisor.dev/gvisor/pkg/syserror" ) // taskInode represents the inode for /proc/PID/ directory. // // +stateify savable type taskInode struct { taskInodeRefs kernfs.InodeNotSymlink kernfs.InodeDirectoryNoNewChildren kernfs.InodeNoDynamicLookup kernfs.InodeAttrs kernfs.OrderedChildren locks vfs.FileLocks task *kernel.Task } var _ kernfs.Inode = (*taskInode)(nil) func (fs *filesystem) newTaskInode(task *kernel.Task, pidns *kernel.PIDNamespace, isThreadGroup bool, cgroupControllers map[string]string) *kernfs.Dentry { // TODO(gvisor.dev/issue/164): Fail with ESRCH if task exited. contents := map[string]*kernfs.Dentry{ "auxv": fs.newTaskOwnedFile(task, fs.NextIno(), 0444, &auxvData{task: task}), "cmdline": fs.newTaskOwnedFile(task, fs.NextIno(), 0444, &cmdlineData{task: task, arg: cmdlineDataArg}), "comm": fs.newComm(task, fs.NextIno(), 0444), "environ": fs.newTaskOwnedFile(task, fs.NextIno(), 0444, &cmdlineData{task: task, arg: environDataArg}), "exe": fs.newExeSymlink(task, fs.NextIno()), "fd": fs.newFDDirInode(task), "fdinfo": fs.newFDInfoDirInode(task), "gid_map": fs.newTaskOwnedFile(task, fs.NextIno(), 0644, &idMapData{task: task, gids: true}), "io": fs.newTaskOwnedFile(task, fs.NextIno(), 0400, newIO(task, isThreadGroup)), "maps": fs.newTaskOwnedFile(task, fs.NextIno(), 0444, &mapsData{task: task}), "mountinfo": fs.newTaskOwnedFile(task, fs.NextIno(), 0444, &mountInfoData{task: task}), "mounts": fs.newTaskOwnedFile(task, fs.NextIno(), 0444, &mountsData{task: task}), "net": fs.newTaskNetDir(task), "ns": fs.newTaskOwnedDir(task, fs.NextIno(), 0511, map[string]*kernfs.Dentry{ "net": fs.newNamespaceSymlink(task, fs.NextIno(), "net"), "pid": fs.newNamespaceSymlink(task, fs.NextIno(), "pid"), "user": fs.newNamespaceSymlink(task, fs.NextIno(), "user"), }), "oom_score": fs.newTaskOwnedFile(task, fs.NextIno(), 0444, newStaticFile("0\n")), "oom_score_adj": fs.newTaskOwnedFile(task, fs.NextIno(), 0644, &oomScoreAdj{task: task}), "smaps": fs.newTaskOwnedFile(task, fs.NextIno(), 0444, &smapsData{task: task}), "stat": fs.newTaskOwnedFile(task, fs.NextIno(), 0444, &taskStatData{task: task, pidns: pidns, tgstats: isThreadGroup}), "statm": fs.newTaskOwnedFile(task, fs.NextIno(), 0444, &statmData{task: task}), "status": fs.newTaskOwnedFile(task, fs.NextIno(), 0444, &statusData{task: task, pidns: pidns}), "uid_map": fs.newTaskOwnedFile(task, fs.NextIno(), 0644, &idMapData{task: task, gids: false}), } if isThreadGroup { contents["task"] = fs.newSubtasks(task, pidns, cgroupControllers) } if len(cgroupControllers) > 0 { contents["cgroup"] = fs.newTaskOwnedFile(task, fs.NextIno(), 0444, newCgroupData(cgroupControllers)) } taskInode := &taskInode{task: task} // Note: credentials are overridden by taskOwnedInode. taskInode.InodeAttrs.Init(task.Credentials(), linux.UNNAMED_MAJOR, fs.devMinor, fs.NextIno(), linux.ModeDirectory|0555) taskInode.EnableLeakCheck() inode := &taskOwnedInode{Inode: taskInode, owner: task} dentry := &kernfs.Dentry{} dentry.Init(inode) taskInode.OrderedChildren.Init(kernfs.OrderedChildrenOptions{}) links := taskInode.OrderedChildren.Populate(dentry, contents) taskInode.IncLinks(links) return dentry } // Valid implements kernfs.inodeDynamicLookup. This inode remains valid as long // as the task is still running. When it's dead, another tasks with the same // PID could replace it. func (i *taskInode) Valid(ctx context.Context) bool { return i.task.ExitState() != kernel.TaskExitDead } // Open implements kernfs.Inode. func (i *taskInode) Open(ctx context.Context, rp *vfs.ResolvingPath, vfsd *vfs.Dentry, opts vfs.OpenOptions) (*vfs.FileDescription, error) { fd, err := kernfs.NewGenericDirectoryFD(rp.Mount(), vfsd, &i.OrderedChildren, &i.locks, &opts, kernfs.GenericDirectoryFDOptions{ SeekEnd: kernfs.SeekEndZero, }) if err != nil { return nil, err } return fd.VFSFileDescription(), nil } // SetStat implements Inode.SetStat not allowing inode attributes to be changed. func (*taskInode) SetStat(context.Context, *vfs.Filesystem, *auth.Credentials, vfs.SetStatOptions) error { return syserror.EPERM } // DecRef implements kernfs.Inode. func (i *taskInode) DecRef(context.Context) { i.taskInodeRefs.DecRef(i.Destroy) } // taskOwnedInode implements kernfs.Inode and overrides inode owner with task // effective user and group. type taskOwnedInode struct { kernfs.Inode // owner is the task that owns this inode. owner *kernel.Task } var _ kernfs.Inode = (*taskOwnedInode)(nil) func (fs *filesystem) newTaskOwnedFile(task *kernel.Task, ino uint64, perm linux.FileMode, inode dynamicInode) *kernfs.Dentry { // Note: credentials are overridden by taskOwnedInode. inode.Init(task.Credentials(), linux.UNNAMED_MAJOR, fs.devMinor, ino, inode, perm) taskInode := &taskOwnedInode{Inode: inode, owner: task} d := &kernfs.Dentry{} d.Init(taskInode) return d } func (fs *filesystem) newTaskOwnedDir(task *kernel.Task, ino uint64, perm linux.FileMode, children map[string]*kernfs.Dentry) *kernfs.Dentry { dir := &kernfs.StaticDirectory{} // Note: credentials are overridden by taskOwnedInode. dir.Init(task.Credentials(), linux.UNNAMED_MAJOR, fs.devMinor, ino, perm, kernfs.GenericDirectoryFDOptions{ SeekEnd: kernfs.SeekEndZero, }) dir.EnableLeakCheck() inode := &taskOwnedInode{Inode: dir, owner: task} d := &kernfs.Dentry{} d.Init(inode) dir.OrderedChildren.Init(kernfs.OrderedChildrenOptions{}) links := dir.OrderedChildren.Populate(d, children) dir.IncLinks(links) return d } // Stat implements kernfs.Inode. func (i *taskOwnedInode) Stat(ctx context.Context, fs *vfs.Filesystem, opts vfs.StatOptions) (linux.Statx, error) { stat, err := i.Inode.Stat(ctx, fs, opts) if err != nil { return linux.Statx{}, err } if opts.Mask&(linux.STATX_UID|linux.STATX_GID) != 0 { uid, gid := i.getOwner(linux.FileMode(stat.Mode)) if opts.Mask&linux.STATX_UID != 0 { stat.UID = uint32(uid) } if opts.Mask&linux.STATX_GID != 0 { stat.GID = uint32(gid) } } return stat, nil } // CheckPermissions implements kernfs.Inode. func (i *taskOwnedInode) CheckPermissions(_ context.Context, creds *auth.Credentials, ats vfs.AccessTypes) error { mode := i.Mode() uid, gid := i.getOwner(mode) return vfs.GenericCheckPermissions(creds, ats, mode, uid, gid) } func (i *taskOwnedInode) getOwner(mode linux.FileMode) (auth.KUID, auth.KGID) { // By default, set the task owner as the file owner. creds := i.owner.Credentials() uid := creds.EffectiveKUID gid := creds.EffectiveKGID // Linux doesn't apply dumpability adjustments to world readable/executable // directories so that applications can stat /proc/PID to determine the // effective UID of a process. See fs/proc/base.c:task_dump_owner. if mode.FileType() == linux.ModeDirectory && mode.Permissions() == 0555 { return uid, gid } // If the task is not dumpable, then root (in the namespace preferred) // owns the file. m := getMM(i.owner) if m == nil { return auth.RootKUID, auth.RootKGID } if m.Dumpability() != mm.UserDumpable { uid = auth.RootKUID if kuid := creds.UserNamespace.MapToKUID(auth.RootUID); kuid.Ok() { uid = kuid } gid = auth.RootKGID if kgid := creds.UserNamespace.MapToKGID(auth.RootGID); kgid.Ok() { gid = kgid } } return uid, gid } func newIO(t *kernel.Task, isThreadGroup bool) *ioData { if isThreadGroup { return &ioData{ioUsage: t.ThreadGroup()} } return &ioData{ioUsage: t} } // newCgroupData creates inode that shows cgroup information. // From man 7 cgroups: "For each cgroup hierarchy of which the process is a // member, there is one entry containing three colon-separated fields: // hierarchy-ID:controller-list:cgroup-path" func newCgroupData(controllers map[string]string) dynamicInode { var buf bytes.Buffer // The hierarchy ids must be positive integers (for cgroup v1), but the // exact number does not matter, so long as they are unique. We can // just use a counter, but since linux sorts this file in descending // order, we must count down to preserve this behavior. i := len(controllers) for name, dir := range controllers { fmt.Fprintf(&buf, "%d:%s:%s\n", i, name, dir) i-- } return newStaticFile(buf.String()) }