// +build linux package devmapper // import "github.com/docker/docker/daemon/graphdriver/devmapper" import ( "fmt" "os" "os/exec" "syscall" "testing" "time" "github.com/docker/docker/daemon/graphdriver" "github.com/docker/docker/daemon/graphdriver/graphtest" "github.com/docker/docker/pkg/parsers/kernel" "golang.org/x/sys/unix" ) func init() { // Reduce the size of the base fs and loopback for the tests defaultDataLoopbackSize = 300 * 1024 * 1024 defaultMetaDataLoopbackSize = 200 * 1024 * 1024 defaultBaseFsSize = 300 * 1024 * 1024 defaultUdevSyncOverride = true if err := initLoopbacks(); err != nil { panic(err) } } // initLoopbacks ensures that the loopback devices are properly created within // the system running the device mapper tests. func initLoopbacks() error { statT, err := getBaseLoopStats() if err != nil { return err } // create at least 128 loopback files, since a few first ones // might be already in use by the host OS for i := 0; i < 128; i++ { loopPath := fmt.Sprintf("/dev/loop%d", i) // only create new loopback files if they don't exist if _, err := os.Stat(loopPath); err != nil { if mkerr := syscall.Mknod(loopPath, uint32(statT.Mode|syscall.S_IFBLK), int((7<<8)|(i&0xff)|((i&0xfff00)<<12))); mkerr != nil { // nolint: unconvert return mkerr } os.Chown(loopPath, int(statT.Uid), int(statT.Gid)) } } return nil } // getBaseLoopStats inspects /dev/loop0 to collect uid,gid, and mode for the // loop0 device on the system. If it does not exist we assume 0,0,0660 for the // stat data func getBaseLoopStats() (*syscall.Stat_t, error) { loop0, err := os.Stat("/dev/loop0") if err != nil { if os.IsNotExist(err) { return &syscall.Stat_t{ Uid: 0, Gid: 0, Mode: 0660, }, nil } return nil, err } return loop0.Sys().(*syscall.Stat_t), nil } // This avoids creating a new driver for each test if all tests are run // Make sure to put new tests between TestDevmapperSetup and TestDevmapperTeardown func TestDevmapperSetup(t *testing.T) { graphtest.GetDriver(t, "devicemapper") } func TestDevmapperCreateEmpty(t *testing.T) { graphtest.DriverTestCreateEmpty(t, "devicemapper") } func TestDevmapperCreateBase(t *testing.T) { graphtest.DriverTestCreateBase(t, "devicemapper") } func TestDevmapperCreateSnap(t *testing.T) { graphtest.DriverTestCreateSnap(t, "devicemapper") } func TestDevmapperTeardown(t *testing.T) { graphtest.PutDriver(t) } func TestDevmapperReduceLoopBackSize(t *testing.T) { tenMB := int64(10 * 1024 * 1024) testChangeLoopBackSize(t, -tenMB, defaultDataLoopbackSize, defaultMetaDataLoopbackSize) } func TestDevmapperIncreaseLoopBackSize(t *testing.T) { tenMB := int64(10 * 1024 * 1024) testChangeLoopBackSize(t, tenMB, defaultDataLoopbackSize+tenMB, defaultMetaDataLoopbackSize+tenMB) } func testChangeLoopBackSize(t *testing.T, delta, expectDataSize, expectMetaDataSize int64) { driver := graphtest.GetDriver(t, "devicemapper").(*graphtest.Driver).Driver.(*graphdriver.NaiveDiffDriver).ProtoDriver.(*Driver) defer graphtest.PutDriver(t) // make sure data or metadata loopback size are the default size if s := driver.DeviceSet.Status(); s.Data.Total != uint64(defaultDataLoopbackSize) || s.Metadata.Total != uint64(defaultMetaDataLoopbackSize) { t.Fatal("data or metadata loop back size is incorrect") } if err := driver.Cleanup(); err != nil { t.Fatal(err) } // Reload d, err := Init(driver.home, []string{ fmt.Sprintf("dm.loopdatasize=%d", defaultDataLoopbackSize+delta), fmt.Sprintf("dm.loopmetadatasize=%d", defaultMetaDataLoopbackSize+delta), }, nil, nil) if err != nil { t.Fatalf("error creating devicemapper driver: %v", err) } driver = d.(*graphdriver.NaiveDiffDriver).ProtoDriver.(*Driver) if s := driver.DeviceSet.Status(); s.Data.Total != uint64(expectDataSize) || s.Metadata.Total != uint64(expectMetaDataSize) { t.Fatal("data or metadata loop back size is incorrect") } if err := driver.Cleanup(); err != nil { t.Fatal(err) } } // Make sure devices.Lock() has been release upon return from cleanupDeletedDevices() function func TestDevmapperLockReleasedDeviceDeletion(t *testing.T) { driver := graphtest.GetDriver(t, "devicemapper").(*graphtest.Driver).Driver.(*graphdriver.NaiveDiffDriver).ProtoDriver.(*Driver) defer graphtest.PutDriver(t) // Call cleanupDeletedDevices() and after the call take and release // DeviceSet Lock. If lock has not been released, this will hang. driver.DeviceSet.cleanupDeletedDevices() doneChan := make(chan bool) go func() { driver.DeviceSet.Lock() defer driver.DeviceSet.Unlock() doneChan <- true }() select { case <-time.After(time.Second * 5): // Timer expired. That means lock was not released upon // function return and we are deadlocked. Release lock // here so that cleanup could succeed and fail the test. driver.DeviceSet.Unlock() t.Fatal("Could not acquire devices lock after call to cleanupDeletedDevices()") case <-doneChan: } } // Ensure that mounts aren't leakedriver. It's non-trivial for us to test the full // reproducer of #34573 in a unit test, but we can at least make sure that a // simple command run in a new namespace doesn't break things horribly. func TestDevmapperMountLeaks(t *testing.T) { if !kernel.CheckKernelVersion(3, 18, 0) { t.Skipf("kernel version <3.18.0 and so is missing torvalds/linux@8ed936b5671bfb33d89bc60bdcc7cf0470ba52fe.") } driver := graphtest.GetDriver(t, "devicemapper", "dm.use_deferred_removal=false", "dm.use_deferred_deletion=false").(*graphtest.Driver).Driver.(*graphdriver.NaiveDiffDriver).ProtoDriver.(*Driver) defer graphtest.PutDriver(t) // We need to create a new (dummy) device. if err := driver.Create("some-layer", "", nil); err != nil { t.Fatalf("setting up some-layer: %v", err) } // Mount the device. _, err := driver.Get("some-layer", "") if err != nil { t.Fatalf("mounting some-layer: %v", err) } // Create a new subprocess which will inherit our mountpoint, then // intentionally leak it and stick around. We can't do this entirely within // Go because forking and namespaces in Go are really not handled well at // all. cmd := exec.Cmd{ Path: "/bin/sh", Args: []string{ "/bin/sh", "-c", "mount --make-rprivate / && sleep 1000s", }, SysProcAttr: &syscall.SysProcAttr{ Unshareflags: syscall.CLONE_NEWNS, }, } if err := cmd.Start(); err != nil { t.Fatalf("starting sub-command: %v", err) } defer func() { unix.Kill(cmd.Process.Pid, unix.SIGKILL) cmd.Wait() }() // Now try to "drop" the device. if err := driver.Put("some-layer"); err != nil { t.Fatalf("unmounting some-layer: %v", err) } }