// 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" "math/rand" "os" "reflect" "syscall" "testing" "time" specs "github.com/opencontainers/runtime-spec/specs-go" "golang.org/x/sys/unix" "gvisor.dev/gvisor/pkg/control/server" "gvisor.dev/gvisor/pkg/log" "gvisor.dev/gvisor/pkg/p9" "gvisor.dev/gvisor/pkg/sentry/contexttest" "gvisor.dev/gvisor/pkg/sentry/fs" "gvisor.dev/gvisor/pkg/sentry/kernel" "gvisor.dev/gvisor/pkg/sync" "gvisor.dev/gvisor/pkg/unet" "gvisor.dev/gvisor/runsc/fsgofer" ) func init() { log.SetLevel(log.Debug) rand.Seed(time.Now().UnixNano()) if err := fsgofer.OpenProcSelfFD(); err != nil { panic(err) } } func testConfig() *Config { return &Config{ RootDir: "unused_root_dir", Network: NetworkNone, DisableSeccomp: true, Platform: "ptrace", } } // testSpec returns a simple spec that can be used in tests. func testSpec() *specs.Spec { return &specs.Spec{ // The host filesystem root is the sandbox root. Root: &specs.Root{ Path: "/", Readonly: true, }, Process: &specs.Process{ Args: []string{"/bin/true"}, }, } } func resetSyscallTable() { kernel.VFS2Enabled = false kernel.FlushSyscallTablesTestOnly() } // startGofer starts a new gofer routine serving 'root' path. It returns the // sandbox side of the connection, and a function that when called will stop the // gofer. func startGofer(root string) (int, func(), error) { fds, err := syscall.Socketpair(syscall.AF_UNIX, syscall.SOCK_STREAM|syscall.SOCK_CLOEXEC, 0) if err != nil { return 0, nil, err } sandboxEnd, goferEnd := fds[0], fds[1] socket, err := unet.NewSocket(goferEnd) if err != nil { syscall.Close(sandboxEnd) syscall.Close(goferEnd) return 0, nil, fmt.Errorf("error creating server on FD %d: %v", goferEnd, err) } at, err := fsgofer.NewAttachPoint(root, fsgofer.Config{ROMount: true}) if err != nil { return 0, nil, err } go func() { s := p9.NewServer(at) if err := s.Handle(socket); err != nil { log.Infof("Gofer is stopping. FD: %d, err: %v\n", goferEnd, err) } }() // Closing the gofer socket will stop the gofer and exit goroutine above. cleanup := func() { if err := socket.Close(); err != nil { log.Warningf("Error closing gofer socket: %v", err) } } return sandboxEnd, cleanup, nil } func createLoader(vfsEnabled bool) (*Loader, func(), error) { fd, err := server.CreateSocket(ControlSocketAddr(fmt.Sprintf("%010d", rand.Int())[:10])) if err != nil { return nil, nil, err } conf := testConfig() spec := testSpec() conf.VFS2 = vfsEnabled sandEnd, cleanup, err := startGofer(spec.Root.Path) if err != nil { return nil, nil, err } // Loader takes ownership of stdio. var stdio []int for _, f := range []*os.File{os.Stdin, os.Stdout, os.Stderr} { newFd, err := unix.Dup(int(f.Fd())) if err != nil { return nil, nil, err } stdio = append(stdio, newFd) } args := Args{ ID: "foo", Spec: spec, Conf: conf, ControllerFD: fd, GoferFDs: []int{sandEnd}, StdioFDs: stdio, } l, err := New(args) if err != nil { cleanup() return nil, nil, err } return l, cleanup, nil } // TestRun runs a simple application in a sandbox and checks that it succeeds. func TestRun(t *testing.T) { defer resetSyscallTable() doRun(t, false) } // TestRunVFS2 runs TestRun in VFSv2. func TestRunVFS2(t *testing.T) { defer resetSyscallTable() doRun(t, true) } func doRun(t *testing.T, vfsEnabled bool) { l, cleanup, err := createLoader(vfsEnabled) if err != nil { t.Fatalf("error creating loader: %v", err) } defer l.Destroy() defer cleanup() // Start a goroutine to read the start chan result, otherwise Run will // block forever. var resultChanErr error var wg sync.WaitGroup wg.Add(1) go func() { resultChanErr = <-l.ctrl.manager.startResultChan wg.Done() }() // Run the container. if err := l.Run(); err != nil { t.Errorf("error running container: %v", err) } // We should have not gotten an error on the startResultChan. wg.Wait() if resultChanErr != nil { t.Errorf("error on startResultChan: %v", resultChanErr) } // Wait for the application to exit. It should succeed. if status := l.WaitExit(); status.Code != 0 || status.Signo != 0 { t.Errorf("application exited with status %+v, want 0", status) } } // TestStartSignal tests that the controller Start message will cause // WaitForStartSignal to return. func TestStartSignal(t *testing.T) { defer resetSyscallTable() doStartSignal(t, false) } // TestStartSignalVFS2 does TestStartSignal with VFS2. func TestStartSignalVFS2(t *testing.T) { defer resetSyscallTable() doStartSignal(t, true) } func doStartSignal(t *testing.T, vfsEnabled bool) { l, cleanup, err := createLoader(vfsEnabled) if err != nil { t.Fatalf("error creating loader: %v", err) } defer l.Destroy() defer cleanup() // We aren't going to wait on this application, so the control server // needs to be shut down manually. defer l.ctrl.srv.Stop() // Start a goroutine that calls WaitForStartSignal and writes to a // channel when it returns. waitFinished := make(chan struct{}) go func() { l.WaitForStartSignal() // Pretend that Run() executed and returned no error. l.ctrl.manager.startResultChan <- nil waitFinished <- struct{}{} }() // Nothing has been written to the channel, so waitFinished should not // return. Give it a little bit of time to make sure the goroutine has // started. select { case <-waitFinished: t.Errorf("WaitForStartSignal completed but it should not have") case <-time.After(50 * time.Millisecond): // OK. } // Trigger the control server StartRoot method. cid := "foo" if err := l.ctrl.manager.StartRoot(&cid, nil); err != nil { t.Errorf("error calling StartRoot: %v", err) } // Now WaitForStartSignal should return (within a short amount of // time). select { case <-waitFinished: // OK. case <-time.After(50 * time.Millisecond): t.Errorf("WaitForStartSignal did not complete but it should have") } } // Test that MountNamespace can be created with various specs. func TestCreateMountNamespace(t *testing.T) { testCases := []struct { name string // Spec that will be used to create the mount manager. Note // that we can't mount procfs without a kernel, so each spec // MUST contain something other than procfs mounted at /proc. spec specs.Spec // Paths that are expected to exist in the resulting fs. expectedPaths []string }{ { // Only proc. name: "only proc mount", spec: specs.Spec{ Root: &specs.Root{ Path: os.TempDir(), Readonly: true, }, Mounts: []specs.Mount{ { Destination: "/proc", Type: "tmpfs", }, }, }, // /proc, /dev, and /sys should always be mounted. expectedPaths: []string{"/proc", "/dev", "/sys"}, }, { // Mount at a deep path, with many components that do // not exist in the root. name: "deep mount path", spec: specs.Spec{ Root: &specs.Root{ Path: os.TempDir(), Readonly: true, }, Mounts: []specs.Mount{ { Destination: "/some/very/very/deep/path", Type: "tmpfs", }, { Destination: "/proc", Type: "tmpfs", }, }, }, // /some/deep/path should be mounted, along with /proc, // /dev, and /sys. expectedPaths: []string{"/some/very/very/deep/path", "/proc", "/dev", "/sys"}, }, { // Mounts are nested inside each other. name: "nested mounts", spec: specs.Spec{ Root: &specs.Root{ Path: os.TempDir(), Readonly: true, }, Mounts: []specs.Mount{ { Destination: "/proc", Type: "tmpfs", }, { Destination: "/foo", Type: "tmpfs", }, { Destination: "/foo/qux", Type: "tmpfs", }, { // File mounts with the same prefix. Destination: "/foo/qux-quz", Type: "tmpfs", }, { Destination: "/foo/bar", Type: "tmpfs", }, { Destination: "/foo/bar/baz", Type: "tmpfs", }, { // A deep path that is in foo but not the other mounts. Destination: "/foo/some/very/very/deep/path", Type: "tmpfs", }, }, }, expectedPaths: []string{"/foo", "/foo/bar", "/foo/bar/baz", "/foo/qux", "/foo/qux-quz", "/foo/some/very/very/deep/path", "/proc", "/dev", "/sys"}, }, { name: "mount inside /dev", spec: specs.Spec{ Root: &specs.Root{ Path: os.TempDir(), Readonly: true, }, Mounts: []specs.Mount{ { Destination: "/proc", Type: "tmpfs", }, { Destination: "/dev", Type: "tmpfs", }, { // Mounted by runsc by default. Destination: "/dev/fd", Type: "tmpfs", }, { // Mount with the same prefix. Destination: "/dev/fd-foo", Type: "tmpfs", }, { // Unsupported fs type. Destination: "/dev/mqueue", Type: "mqueue", }, { Destination: "/dev/foo", Type: "tmpfs", }, { Destination: "/dev/bar", Type: "tmpfs", }, }, }, expectedPaths: []string{"/proc", "/dev", "/dev/fd-foo", "/dev/foo", "/dev/bar", "/sys"}, }, { name: "mounts inside mandatory mounts", spec: specs.Spec{ Root: &specs.Root{ Path: os.TempDir(), Readonly: true, }, Mounts: []specs.Mount{ { Destination: "/proc", Type: "tmpfs", }, // We don't include /sys, and /tmp in // the spec, since they will be added // automatically. // // Instead, add submounts inside these // directories and make sure they are // visible under the mandatory mounts. { Destination: "/sys/bar", Type: "tmpfs", }, { Destination: "/tmp/baz", Type: "tmpfs", }, }, }, expectedPaths: []string{"/proc", "/sys", "/sys/bar", "/tmp", "/tmp/baz"}, }, } for _, tc := range testCases { t.Run(tc.name, func(t *testing.T) { conf := testConfig() ctx := contexttest.Context(t) sandEnd, cleanup, err := startGofer(tc.spec.Root.Path) if err != nil { t.Fatalf("failed to create gofer: %v", err) } defer cleanup() mntr := newContainerMounter(&tc.spec, []int{sandEnd}, nil, &podMountHints{}) mns, err := mntr.createMountNamespace(ctx, conf) if err != nil { t.Fatalf("failed to create mount namespace: %v", err) } ctx = fs.WithRoot(ctx, mns.Root()) if err := mntr.mountSubmounts(ctx, conf, mns); err != nil { t.Fatalf("failed to create mount namespace: %v", err) } root := mns.Root() defer root.DecRef() for _, p := range tc.expectedPaths { maxTraversals := uint(0) if d, err := mns.FindInode(ctx, root, root, p, &maxTraversals); err != nil { t.Errorf("expected path %v to exist with spec %v, but got error %v", p, tc.spec, err) } else { d.DecRef() } } }) } } // TestRestoreEnvironment tests that the correct mounts are collected from the spec and config // in order to build the environment for restoring. func TestRestoreEnvironment(t *testing.T) { testCases := []struct { name string spec *specs.Spec ioFDs []int errorExpected bool expectedRenv fs.RestoreEnvironment }{ { name: "basic spec test", spec: &specs.Spec{ Root: &specs.Root{ Path: os.TempDir(), Readonly: true, }, Mounts: []specs.Mount{ { Destination: "/some/very/very/deep/path", Type: "tmpfs", }, { Destination: "/proc", Type: "tmpfs", }, }, }, ioFDs: []int{0}, errorExpected: false, expectedRenv: fs.RestoreEnvironment{ MountSources: map[string][]fs.MountArgs{ "9p": { { Dev: "9pfs-/", Flags: fs.MountSourceFlags{ReadOnly: true}, DataString: "trans=fd,rfdno=0,wfdno=0,privateunixsocket=true,cache=remote_revalidating", }, }, "tmpfs": { { Dev: "none", }, { Dev: "none", }, { Dev: "none", }, }, "devtmpfs": { { Dev: "none", }, }, "devpts": { { Dev: "none", }, }, "sysfs": { { Dev: "none", }, }, }, }, }, { name: "bind type test", spec: &specs.Spec{ Root: &specs.Root{ Path: os.TempDir(), Readonly: true, }, Mounts: []specs.Mount{ { Destination: "/dev/fd-foo", Type: "bind", }, }, }, ioFDs: []int{0, 1}, errorExpected: false, expectedRenv: fs.RestoreEnvironment{ MountSources: map[string][]fs.MountArgs{ "9p": { { Dev: "9pfs-/", Flags: fs.MountSourceFlags{ReadOnly: true}, DataString: "trans=fd,rfdno=0,wfdno=0,privateunixsocket=true,cache=remote_revalidating", }, { Dev: "9pfs-/dev/fd-foo", DataString: "trans=fd,rfdno=1,wfdno=1,privateunixsocket=true,cache=remote_revalidating", }, }, "tmpfs": { { Dev: "none", }, }, "devtmpfs": { { Dev: "none", }, }, "devpts": { { Dev: "none", }, }, "proc": { { Dev: "none", }, }, "sysfs": { { Dev: "none", }, }, }, }, }, { name: "options test", spec: &specs.Spec{ Root: &specs.Root{ Path: os.TempDir(), Readonly: true, }, Mounts: []specs.Mount{ { Destination: "/dev/fd-foo", Type: "tmpfs", Options: []string{"uid=1022", "noatime"}, }, }, }, ioFDs: []int{0}, errorExpected: false, expectedRenv: fs.RestoreEnvironment{ MountSources: map[string][]fs.MountArgs{ "9p": { { Dev: "9pfs-/", Flags: fs.MountSourceFlags{ReadOnly: true}, DataString: "trans=fd,rfdno=0,wfdno=0,privateunixsocket=true,cache=remote_revalidating", }, }, "tmpfs": { { Dev: "none", Flags: fs.MountSourceFlags{NoAtime: true}, DataString: "uid=1022", }, { Dev: "none", }, }, "devtmpfs": { { Dev: "none", }, }, "devpts": { { Dev: "none", }, }, "proc": { { Dev: "none", }, }, "sysfs": { { Dev: "none", }, }, }, }, }, } for _, tc := range testCases { t.Run(tc.name, func(t *testing.T) { conf := testConfig() mntr := newContainerMounter(tc.spec, tc.ioFDs, nil, &podMountHints{}) actualRenv, err := mntr.createRestoreEnvironment(conf) if !tc.errorExpected && err != nil { t.Fatalf("could not create restore environment for test:%s", tc.name) } else if tc.errorExpected { if err == nil { t.Errorf("expected an error, but no error occurred.") } } else { if !reflect.DeepEqual(*actualRenv, tc.expectedRenv) { t.Errorf("restore environments did not match for test:%s\ngot:%+v\nwant:%+v\n", tc.name, *actualRenv, tc.expectedRenv) } } }) } }