// 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 specutils import ( "fmt" "os" "os/exec" "path/filepath" "runtime" "syscall" specs "github.com/opencontainers/runtime-spec/specs-go" "github.com/syndtr/gocapability/capability" "golang.org/x/sys/unix" "gvisor.dev/gvisor/pkg/log" ) // nsCloneFlag returns the clone flag that can be used to set a namespace of // the given type. func nsCloneFlag(nst specs.LinuxNamespaceType) uintptr { switch nst { case specs.IPCNamespace: return syscall.CLONE_NEWIPC case specs.MountNamespace: return syscall.CLONE_NEWNS case specs.NetworkNamespace: return syscall.CLONE_NEWNET case specs.PIDNamespace: return syscall.CLONE_NEWPID case specs.UTSNamespace: return syscall.CLONE_NEWUTS case specs.UserNamespace: return syscall.CLONE_NEWUSER case specs.CgroupNamespace: panic("cgroup namespace has no associated clone flag") default: panic(fmt.Sprintf("unknown namespace %v", nst)) } } // nsPath returns the path of the namespace for the current process and the // given namespace. func nsPath(nst specs.LinuxNamespaceType) string { base := "/proc/self/ns" switch nst { case specs.CgroupNamespace: return filepath.Join(base, "cgroup") case specs.IPCNamespace: return filepath.Join(base, "ipc") case specs.MountNamespace: return filepath.Join(base, "mnt") case specs.NetworkNamespace: return filepath.Join(base, "net") case specs.PIDNamespace: return filepath.Join(base, "pid") case specs.UserNamespace: return filepath.Join(base, "user") case specs.UTSNamespace: return filepath.Join(base, "uts") default: panic(fmt.Sprintf("unknown namespace %v", nst)) } } // GetNS returns true and the namespace with the given type from the slice of // namespaces in the spec. It returns false if the slice does not contain a // namespace with the type. func GetNS(nst specs.LinuxNamespaceType, s *specs.Spec) (specs.LinuxNamespace, bool) { if s.Linux == nil { return specs.LinuxNamespace{}, false } for _, ns := range s.Linux.Namespaces { if ns.Type == nst { return ns, true } } return specs.LinuxNamespace{}, false } // FilterNS returns a slice of namespaces from the spec with types that match // those in the `filter` slice. func FilterNS(filter []specs.LinuxNamespaceType, s *specs.Spec) []specs.LinuxNamespace { if s.Linux == nil { return nil } var out []specs.LinuxNamespace for _, nst := range filter { if ns, ok := GetNS(nst, s); ok { out = append(out, ns) } } return out } // setNS sets the namespace of the given type. It must be called with // OSThreadLocked. func setNS(fd, nsType uintptr) error { if _, _, err := syscall.RawSyscall(unix.SYS_SETNS, fd, nsType, 0); err != 0 { return err } return nil } // ApplyNS applies the namespace on the current thread and returns a function // that will restore the namespace to the original value. // // Preconditions: Must be called with os thread locked. func ApplyNS(ns specs.LinuxNamespace) (func(), error) { log.Infof("Applying namespace %v at path %q", ns.Type, ns.Path) newNS, err := os.Open(ns.Path) if err != nil { return nil, fmt.Errorf("error opening %q: %v", ns.Path, err) } defer newNS.Close() // Store current namespace to restore back. curPath := nsPath(ns.Type) oldNS, err := os.Open(curPath) if err != nil { return nil, fmt.Errorf("error opening %q: %v", curPath, err) } // Set namespace to the one requested and setup function to restore it back. flag := nsCloneFlag(ns.Type) if err := setNS(newNS.Fd(), flag); err != nil { oldNS.Close() return nil, fmt.Errorf("error setting namespace of type %v and path %q: %v", ns.Type, ns.Path, err) } return func() { log.Infof("Restoring namespace %v", ns.Type) defer oldNS.Close() if err := setNS(oldNS.Fd(), flag); err != nil { panic(fmt.Sprintf("error restoring namespace: of type %v: %v", ns.Type, err)) } }, nil } // StartInNS joins or creates the given namespaces and calls cmd.Start before // restoring the namespaces to the original values. func StartInNS(cmd *exec.Cmd, nss []specs.LinuxNamespace) error { // We are about to setup namespaces, which requires the os thread being // locked so that Go doesn't change the thread out from under us. runtime.LockOSThread() defer runtime.UnlockOSThread() if cmd.SysProcAttr == nil { cmd.SysProcAttr = &syscall.SysProcAttr{} } for _, ns := range nss { if ns.Path == "" { // No path. Just set a flag to create a new namespace. cmd.SysProcAttr.Cloneflags |= nsCloneFlag(ns.Type) continue } // Join the given namespace, and restore the current namespace // before exiting. restoreNS, err := ApplyNS(ns) if err != nil { return err } defer restoreNS() } return cmd.Start() } // SetUIDGIDMappings sets the given uid/gid mappings from the spec on the cmd. func SetUIDGIDMappings(cmd *exec.Cmd, s *specs.Spec) { if s.Linux == nil { return } if cmd.SysProcAttr == nil { cmd.SysProcAttr = &syscall.SysProcAttr{} } for _, idMap := range s.Linux.UIDMappings { log.Infof("Mapping host uid %d to container uid %d (size=%d)", idMap.HostID, idMap.ContainerID, idMap.Size) cmd.SysProcAttr.UidMappings = append(cmd.SysProcAttr.UidMappings, syscall.SysProcIDMap{ ContainerID: int(idMap.ContainerID), HostID: int(idMap.HostID), Size: int(idMap.Size), }) } for _, idMap := range s.Linux.GIDMappings { log.Infof("Mapping host gid %d to container gid %d (size=%d)", idMap.HostID, idMap.ContainerID, idMap.Size) cmd.SysProcAttr.GidMappings = append(cmd.SysProcAttr.GidMappings, syscall.SysProcIDMap{ ContainerID: int(idMap.ContainerID), HostID: int(idMap.HostID), Size: int(idMap.Size), }) } } // HasCapabilities returns true if the user has all capabilities in 'cs'. func HasCapabilities(cs ...capability.Cap) bool { caps, err := capability.NewPid2(os.Getpid()) if err != nil { return false } if err := caps.Load(); err != nil { return false } for _, c := range cs { if !caps.Get(capability.EFFECTIVE, c) { return false } } return true } // MaybeRunAsRoot ensures the process runs with capabilities needed to create a // sandbox, e.g. CAP_SYS_ADMIN, CAP_SYS_CHROOT, etc. If capabilities are needed, // it will create a new user namespace and re-execute the process as root // inside the namespace with the same arguments and environment. // // This function returns immediately when no new capability is needed. If // another process is executed, it returns straight from here with the same exit // code as the child. func MaybeRunAsRoot() error { if HasCapabilities(capability.CAP_SYS_ADMIN, capability.CAP_SYS_CHROOT, capability.CAP_SETUID, capability.CAP_SETGID) { return nil } // Current process doesn't have required capabilities, create user namespace // and run as root inside the namespace to acquire capabilities. log.Infof("*** Re-running as root in new user namespace ***") cmd := exec.Command("/proc/self/exe", os.Args[1:]...) cmd.SysProcAttr = &syscall.SysProcAttr{ Cloneflags: syscall.CLONE_NEWUSER | syscall.CLONE_NEWNS, // Set current user/group as root inside the namespace. Since we may not // have CAP_SETUID/CAP_SETGID, just map root to the current user/group. UidMappings: []syscall.SysProcIDMap{ {ContainerID: 0, HostID: os.Getuid(), Size: 1}, }, GidMappings: []syscall.SysProcIDMap{ {ContainerID: 0, HostID: os.Getgid(), Size: 1}, }, Credential: &syscall.Credential{Uid: 0, Gid: 0}, GidMappingsEnableSetgroups: false, } cmd.Env = os.Environ() cmd.Stdin = os.Stdin cmd.Stdout = os.Stdout cmd.Stderr = os.Stderr if err := cmd.Run(); err != nil { if exit, ok := err.(*exec.ExitError); ok { if ws, ok := exit.Sys().(syscall.WaitStatus); ok { os.Exit(ws.ExitStatus()) } log.Warningf("No wait status provided, exiting with -1: %v", err) os.Exit(-1) } return fmt.Errorf("re-executing self: %v", err) } // Child completed with success. os.Exit(0) panic("unreachable") }