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moby--moby/pkg/devicemapper/devmapper.go

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// +build linux,cgo
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package devicemapper // import "github.com/docker/docker/pkg/devicemapper"
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import (
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"errors"
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"fmt"
"os"
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"runtime"
"unsafe"
"github.com/sirupsen/logrus"
"golang.org/x/sys/unix"
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)
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// Same as DM_DEVICE_* enum values from libdevmapper.h
// nolint: deadcode
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const (
deviceCreate TaskType = iota
deviceReload
deviceRemove
deviceRemoveAll
deviceSuspend
deviceResume
deviceInfo
deviceDeps
deviceRename
deviceVersion
deviceStatus
deviceTable
deviceWaitevent
deviceList
deviceClear
deviceMknodes
deviceListVersions
deviceTargetMsg
deviceSetGeometry
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)
const (
addNodeOnResume AddNodeType = iota
addNodeOnCreate
)
// List of errors returned when using devicemapper.
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var (
ErrTaskRun = errors.New("dm_task_run failed")
ErrTaskSetName = errors.New("dm_task_set_name failed")
ErrTaskSetMessage = errors.New("dm_task_set_message failed")
ErrTaskSetAddNode = errors.New("dm_task_set_add_node failed")
ErrTaskAddTarget = errors.New("dm_task_add_target failed")
ErrTaskSetSector = errors.New("dm_task_set_sector failed")
ErrTaskGetDeps = errors.New("dm_task_get_deps failed")
ErrTaskGetInfo = errors.New("dm_task_get_info failed")
ErrTaskGetDriverVersion = errors.New("dm_task_get_driver_version failed")
ErrTaskDeferredRemove = errors.New("dm_task_deferred_remove failed")
ErrTaskSetCookie = errors.New("dm_task_set_cookie failed")
ErrNilCookie = errors.New("cookie ptr can't be nil")
ErrGetBlockSize = errors.New("Can't get block size")
ErrUdevWait = errors.New("wait on udev cookie failed")
ErrSetDevDir = errors.New("dm_set_dev_dir failed")
ErrGetLibraryVersion = errors.New("dm_get_library_version failed")
ErrInvalidAddNode = errors.New("Invalid AddNode type")
ErrBusy = errors.New("Device is Busy")
ErrDeviceIDExists = errors.New("Device Id Exists")
ErrEnxio = errors.New("No such device or address")
)
var (
dmSawBusy bool
dmSawExist bool
dmSawEnxio bool // No Such Device or Address
dmSawEnoData bool // No data available
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)
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type (
// Task represents a devicemapper task (like lvcreate, etc.) ; a task is needed for each ioctl
// command to execute.
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Task struct {
unmanaged *cdmTask
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}
// Deps represents dependents (layer) of a device.
Deps struct {
Count uint32
Filler uint32
Device []uint64
}
// Info represents information about a device.
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Info struct {
Exists int
Suspended int
LiveTable int
InactiveTable int
OpenCount int32
EventNr uint32
Major uint32
Minor uint32
ReadOnly int
TargetCount int32
DeferredRemove int
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}
// TaskType represents a type of task
TaskType int
// AddNodeType represents a type of node to be added
AddNodeType int
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)
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// DeviceIDExists returns whether error conveys the information about device Id already
// exist or not. This will be true if device creation or snap creation
// operation fails if device or snap device already exists in pool.
// Current implementation is little crude as it scans the error string
// for exact pattern match. Replacing it with more robust implementation
// is desirable.
func DeviceIDExists(err error) bool {
return fmt.Sprint(err) == fmt.Sprint(ErrDeviceIDExists)
}
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func (t *Task) destroy() {
if t != nil {
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DmTaskDestroy(t.unmanaged)
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runtime.SetFinalizer(t, nil)
}
}
// TaskCreateNamed is a convenience function for TaskCreate when a name
// will be set on the task as well
func TaskCreateNamed(t TaskType, name string) (*Task, error) {
task := TaskCreate(t)
if task == nil {
return nil, fmt.Errorf("devicemapper: Can't create task of type %d", int(t))
}
if err := task.setName(name); err != nil {
return nil, fmt.Errorf("devicemapper: Can't set task name %s", name)
}
return task, nil
}
// TaskCreate initializes a devicemapper task of tasktype
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func TaskCreate(tasktype TaskType) *Task {
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Ctask := DmTaskCreate(int(tasktype))
if Ctask == nil {
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return nil
}
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task := &Task{unmanaged: Ctask}
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runtime.SetFinalizer(task, (*Task).destroy)
return task
}
func (t *Task) run() error {
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if res := DmTaskRun(t.unmanaged); res != 1 {
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return ErrTaskRun
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}
Ensure that a device mapper task is referenced until task is complete DeviceMapper tasks in go use SetFinalizer to clean up C construct counterparts in the C LVM library. While thats well and good, it relies heavily on the exact interpretation of when the golang garbage collector determines that an object is unreachable is subject to reclaimation. While common sense would assert that for stack variables (which these DM tasks always are), are unreachable when the stack frame in which they are declared returns, thats not the case. According to this: https://golang.org/pkg/runtime/#SetFinalizer The garbage collector decides that, if a function calls into a systemcall (which task.run() always will in LVM), and there are no subsequent references to the task variable within that stack frame, then it can be reclaimed. Those conditions are met in several devmapper.go routines, and if the garbage collector runs in the middle of a deviceMapper operation, then the task can be destroyed while the operation is in progress, leading to crashes, failed operations and other unpredictable behavior. The fix is to use the KeepAlive interface: https://golang.org/pkg/runtime/#KeepAlive The KeepAlive method is effectively an empy reference that fools the garbage collector into thinking that a variable is still reachable. By adding a call to KeepAlive in the task.run() method, we can ensure that the garbage collector won't reclaim a task object until its execution within the deviceMapper C library is complete. Signed-off-by: Neil Horman <nhorman@tuxdriver.com>
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runtime.KeepAlive(t)
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return nil
}
func (t *Task) setName(name string) error {
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if res := DmTaskSetName(t.unmanaged, name); res != 1 {
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return ErrTaskSetName
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}
return nil
}
func (t *Task) setMessage(message string) error {
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if res := DmTaskSetMessage(t.unmanaged, message); res != 1 {
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return ErrTaskSetMessage
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}
return nil
}
func (t *Task) setSector(sector uint64) error {
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if res := DmTaskSetSector(t.unmanaged, sector); res != 1 {
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return ErrTaskSetSector
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}
return nil
}
func (t *Task) setCookie(cookie *uint, flags uint16) error {
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if cookie == nil {
return ErrNilCookie
}
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if res := DmTaskSetCookie(t.unmanaged, cookie, flags); res != 1 {
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return ErrTaskSetCookie
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}
return nil
}
func (t *Task) setAddNode(addNode AddNodeType) error {
if addNode != addNodeOnResume && addNode != addNodeOnCreate {
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return ErrInvalidAddNode
}
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if res := DmTaskSetAddNode(t.unmanaged, addNode); res != 1 {
return ErrTaskSetAddNode
}
return nil
}
func (t *Task) addTarget(start, size uint64, ttype, params string) error {
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if res := DmTaskAddTarget(t.unmanaged, start, size,
ttype, params); res != 1 {
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return ErrTaskAddTarget
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}
return nil
}
func (t *Task) getDeps() (*Deps, error) {
var deps *Deps
if deps = DmTaskGetDeps(t.unmanaged); deps == nil {
return nil, ErrTaskGetDeps
}
return deps, nil
}
func (t *Task) getInfo() (*Info, error) {
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info := &Info{}
if res := DmTaskGetInfo(t.unmanaged, info); res != 1 {
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return nil, ErrTaskGetInfo
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}
return info, nil
}
func (t *Task) getInfoWithDeferred() (*Info, error) {
info := &Info{}
if res := DmTaskGetInfoWithDeferred(t.unmanaged, info); res != 1 {
return nil, ErrTaskGetInfo
}
return info, nil
}
func (t *Task) getDriverVersion() (string, error) {
res := DmTaskGetDriverVersion(t.unmanaged)
if res == "" {
return "", ErrTaskGetDriverVersion
}
return res, nil
}
func (t *Task) getNextTarget(next unsafe.Pointer) (nextPtr unsafe.Pointer, start uint64,
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length uint64, targetType string, params string) {
return DmGetNextTarget(t.unmanaged, next, &start, &length,
&targetType, &params),
start, length, targetType, params
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}
// UdevWait waits for any processes that are waiting for udev to complete the specified cookie.
func UdevWait(cookie *uint) error {
if res := DmUdevWait(*cookie); res != 1 {
logrus.Debugf("devicemapper: Failed to wait on udev cookie %d, %d", *cookie, res)
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return ErrUdevWait
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}
return nil
}
// SetDevDir sets the dev folder for the device mapper library (usually /dev).
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func SetDevDir(dir string) error {
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if res := DmSetDevDir(dir); res != 1 {
logrus.Debug("devicemapper: Error dm_set_dev_dir")
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return ErrSetDevDir
}
return nil
}
// GetLibraryVersion returns the device mapper library version.
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func GetLibraryVersion() (string, error) {
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var version string
if res := DmGetLibraryVersion(&version); res != 1 {
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return "", ErrGetLibraryVersion
}
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return version, nil
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}
// UdevSyncSupported returns whether device-mapper is able to sync with udev
//
// This is essential otherwise race conditions can arise where both udev and
// device-mapper attempt to create and destroy devices.
func UdevSyncSupported() bool {
return DmUdevGetSyncSupport() != 0
}
// UdevSetSyncSupport allows setting whether the udev sync should be enabled.
// The return bool indicates the state of whether the sync is enabled.
func UdevSetSyncSupport(enable bool) bool {
if enable {
DmUdevSetSyncSupport(1)
} else {
DmUdevSetSyncSupport(0)
}
return UdevSyncSupported()
}
// CookieSupported returns whether the version of device-mapper supports the
// use of cookie's in the tasks.
// This is largely a lower level call that other functions use.
func CookieSupported() bool {
return DmCookieSupported() != 0
}
// RemoveDevice is a useful helper for cleaning up a device.
func RemoveDevice(name string) error {
task, err := TaskCreateNamed(deviceRemove, name)
if task == nil {
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return err
}
cookie := new(uint)
if err := task.setCookie(cookie, 0); err != nil {
return fmt.Errorf("devicemapper: Can not set cookie: %s", err)
}
defer UdevWait(cookie)
dmSawBusy = false // reset before the task is run
dmSawEnxio = false
if err = task.run(); err != nil {
if dmSawBusy {
return ErrBusy
}
if dmSawEnxio {
return ErrEnxio
}
return fmt.Errorf("devicemapper: Error running RemoveDevice %s", err)
}
return nil
}
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// RemoveDeviceDeferred is a useful helper for cleaning up a device, but deferred.
func RemoveDeviceDeferred(name string) error {
logrus.Debugf("devicemapper: RemoveDeviceDeferred START(%s)", name)
defer logrus.Debugf("devicemapper: RemoveDeviceDeferred END(%s)", name)
task, err := TaskCreateNamed(deviceRemove, name)
if task == nil {
return err
}
if err := DmTaskDeferredRemove(task.unmanaged); err != 1 {
return ErrTaskDeferredRemove
}
// set a task cookie and disable library fallback, or else libdevmapper will
// disable udev dm rules and delete the symlink under /dev/mapper by itself,
// even if the removal is deferred by the kernel.
cookie := new(uint)
flags := uint16(DmUdevDisableLibraryFallback)
if err := task.setCookie(cookie, flags); err != nil {
return fmt.Errorf("devicemapper: Can not set cookie: %s", err)
}
// libdevmapper and udev relies on System V semaphore for synchronization,
// semaphores created in `task.setCookie` will be cleaned up in `UdevWait`.
// So these two function call must come in pairs, otherwise semaphores will
// be leaked, and the limit of number of semaphores defined in `/proc/sys/kernel/sem`
// will be reached, which will eventually make all following calls to 'task.SetCookie'
// fail.
// this call will not wait for the deferred removal's final executing, since no
// udev event will be generated, and the semaphore's value will not be incremented
// by udev, what UdevWait is just cleaning up the semaphore.
defer UdevWait(cookie)
dmSawEnxio = false
if err = task.run(); err != nil {
if dmSawEnxio {
return ErrEnxio
}
return fmt.Errorf("devicemapper: Error running RemoveDeviceDeferred %s", err)
}
return nil
}
// CancelDeferredRemove cancels a deferred remove for a device.
func CancelDeferredRemove(deviceName string) error {
task, err := TaskCreateNamed(deviceTargetMsg, deviceName)
if task == nil {
return err
}
if err := task.setSector(0); err != nil {
return fmt.Errorf("devicemapper: Can't set sector %s", err)
}
if err := task.setMessage(fmt.Sprintf("@cancel_deferred_remove")); err != nil {
return fmt.Errorf("devicemapper: Can't set message %s", err)
}
dmSawBusy = false
dmSawEnxio = false
if err := task.run(); err != nil {
// A device might be being deleted already
if dmSawBusy {
return ErrBusy
} else if dmSawEnxio {
return ErrEnxio
}
return fmt.Errorf("devicemapper: Error running CancelDeferredRemove %s", err)
}
return nil
}
// GetBlockDeviceSize returns the size of a block device identified by the specified file.
func GetBlockDeviceSize(file *os.File) (uint64, error) {
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size, err := ioctlBlkGetSize64(file.Fd())
if err != nil {
logrus.Errorf("devicemapper: Error getblockdevicesize: %s", err)
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return 0, ErrGetBlockSize
}
return uint64(size), nil
}
// BlockDeviceDiscard runs discard for the given path.
// This is used as a workaround for the kernel not discarding block so
// on the thin pool when we remove a thinp device, so we do it
// manually
func BlockDeviceDiscard(path string) error {
file, err := os.OpenFile(path, os.O_RDWR, 0)
if err != nil {
return err
}
defer file.Close()
size, err := GetBlockDeviceSize(file)
if err != nil {
return err
}
if err := ioctlBlkDiscard(file.Fd(), 0, size); err != nil {
return err
}
// Without this sometimes the remove of the device that happens after
// discard fails with EBUSY.
unix.Sync()
return nil
}
// CreatePool is the programmatic example of "dmsetup create".
// It creates a device with the specified poolName, data and metadata file and block size.
func CreatePool(poolName string, dataFile, metadataFile *os.File, poolBlockSize uint32) error {
task, err := TaskCreateNamed(deviceCreate, poolName)
if task == nil {
return err
}
size, err := GetBlockDeviceSize(dataFile)
if err != nil {
return fmt.Errorf("devicemapper: Can't get data size %s", err)
}
params := fmt.Sprintf("%s %s %d 32768 1 skip_block_zeroing", metadataFile.Name(), dataFile.Name(), poolBlockSize)
if err := task.addTarget(0, size/512, "thin-pool", params); err != nil {
return fmt.Errorf("devicemapper: Can't add target %s", err)
}
cookie := new(uint)
flags := uint16(DmUdevDisableSubsystemRulesFlag | DmUdevDisableDiskRulesFlag | DmUdevDisableOtherRulesFlag)
if err := task.setCookie(cookie, flags); err != nil {
return fmt.Errorf("devicemapper: Can't set cookie %s", err)
}
defer UdevWait(cookie)
if err := task.run(); err != nil {
return fmt.Errorf("devicemapper: Error running deviceCreate (CreatePool) %s", err)
}
return nil
}
// ReloadPool is the programmatic example of "dmsetup reload".
// It reloads the table with the specified poolName, data and metadata file and block size.
func ReloadPool(poolName string, dataFile, metadataFile *os.File, poolBlockSize uint32) error {
task, err := TaskCreateNamed(deviceReload, poolName)
if task == nil {
return err
}
size, err := GetBlockDeviceSize(dataFile)
if err != nil {
return fmt.Errorf("devicemapper: Can't get data size %s", err)
}
params := fmt.Sprintf("%s %s %d 32768 1 skip_block_zeroing", metadataFile.Name(), dataFile.Name(), poolBlockSize)
if err := task.addTarget(0, size/512, "thin-pool", params); err != nil {
return fmt.Errorf("devicemapper: Can't add target %s", err)
}
if err := task.run(); err != nil {
return fmt.Errorf("devicemapper: Error running ReloadPool %s", err)
}
return nil
}
// GetDeps is the programmatic example of "dmsetup deps".
// It outputs a list of devices referenced by the live table for the specified device.
func GetDeps(name string) (*Deps, error) {
task, err := TaskCreateNamed(deviceDeps, name)
if task == nil {
return nil, err
}
if err := task.run(); err != nil {
return nil, err
}
return task.getDeps()
}
// GetInfo is the programmatic example of "dmsetup info".
// It outputs some brief information about the device.
func GetInfo(name string) (*Info, error) {
task, err := TaskCreateNamed(deviceInfo, name)
if task == nil {
return nil, err
}
if err := task.run(); err != nil {
return nil, err
}
return task.getInfo()
}
// GetInfoWithDeferred is the programmatic example of "dmsetup info", but deferred.
// It outputs some brief information about the device.
func GetInfoWithDeferred(name string) (*Info, error) {
task, err := TaskCreateNamed(deviceInfo, name)
if task == nil {
return nil, err
}
if err := task.run(); err != nil {
return nil, err
}
return task.getInfoWithDeferred()
}
// GetDriverVersion is the programmatic example of "dmsetup version".
// It outputs version information of the driver.
func GetDriverVersion() (string, error) {
task := TaskCreate(deviceVersion)
if task == nil {
return "", fmt.Errorf("devicemapper: Can't create deviceVersion task")
}
if err := task.run(); err != nil {
return "", err
}
return task.getDriverVersion()
}
// GetStatus is the programmatic example of "dmsetup status".
// It outputs status information for the specified device name.
func GetStatus(name string) (uint64, uint64, string, string, error) {
task, err := TaskCreateNamed(deviceStatus, name)
if task == nil {
logrus.Debugf("devicemapper: GetStatus() Error TaskCreateNamed: %s", err)
return 0, 0, "", "", err
}
if err := task.run(); err != nil {
logrus.Debugf("devicemapper: GetStatus() Error Run: %s", err)
return 0, 0, "", "", err
}
devinfo, err := task.getInfo()
if err != nil {
logrus.Debugf("devicemapper: GetStatus() Error GetInfo: %s", err)
return 0, 0, "", "", err
}
if devinfo.Exists == 0 {
logrus.Debugf("devicemapper: GetStatus() Non existing device %s", name)
return 0, 0, "", "", fmt.Errorf("devicemapper: Non existing device %s", name)
}
_, start, length, targetType, params := task.getNextTarget(unsafe.Pointer(nil))
return start, length, targetType, params, nil
}
// GetTable is the programmatic example for "dmsetup table".
// It outputs the current table for the specified device name.
func GetTable(name string) (uint64, uint64, string, string, error) {
task, err := TaskCreateNamed(deviceTable, name)
if task == nil {
logrus.Debugf("devicemapper: GetTable() Error TaskCreateNamed: %s", err)
return 0, 0, "", "", err
}
if err := task.run(); err != nil {
logrus.Debugf("devicemapper: GetTable() Error Run: %s", err)
return 0, 0, "", "", err
}
devinfo, err := task.getInfo()
if err != nil {
logrus.Debugf("devicemapper: GetTable() Error GetInfo: %s", err)
return 0, 0, "", "", err
}
if devinfo.Exists == 0 {
logrus.Debugf("devicemapper: GetTable() Non existing device %s", name)
return 0, 0, "", "", fmt.Errorf("devicemapper: Non existing device %s", name)
}
_, start, length, targetType, params := task.getNextTarget(unsafe.Pointer(nil))
return start, length, targetType, params, nil
}
// SetTransactionID sets a transaction id for the specified device name.
func SetTransactionID(poolName string, oldID uint64, newID uint64) error {
task, err := TaskCreateNamed(deviceTargetMsg, poolName)
if task == nil {
return err
}
if err := task.setSector(0); err != nil {
return fmt.Errorf("devicemapper: Can't set sector %s", err)
}
if err := task.setMessage(fmt.Sprintf("set_transaction_id %d %d", oldID, newID)); err != nil {
return fmt.Errorf("devicemapper: Can't set message %s", err)
}
if err := task.run(); err != nil {
return fmt.Errorf("devicemapper: Error running SetTransactionID %s", err)
}
return nil
}
// SuspendDevice is the programmatic example of "dmsetup suspend".
// It suspends the specified device.
func SuspendDevice(name string) error {
task, err := TaskCreateNamed(deviceSuspend, name)
if task == nil {
return err
}
if err := task.run(); err != nil {
return fmt.Errorf("devicemapper: Error running deviceSuspend %s", err)
}
return nil
}
// ResumeDevice is the programmatic example of "dmsetup resume".
// It un-suspends the specified device.
func ResumeDevice(name string) error {
task, err := TaskCreateNamed(deviceResume, name)
if task == nil {
return err
}
cookie := new(uint)
if err := task.setCookie(cookie, 0); err != nil {
return fmt.Errorf("devicemapper: Can't set cookie %s", err)
}
defer UdevWait(cookie)
if err := task.run(); err != nil {
return fmt.Errorf("devicemapper: Error running deviceResume %s", err)
}
return nil
}
// CreateDevice creates a device with the specified poolName with the specified device id.
func CreateDevice(poolName string, deviceID int) error {
logrus.Debugf("devicemapper: CreateDevice(poolName=%v, deviceID=%v)", poolName, deviceID)
task, err := TaskCreateNamed(deviceTargetMsg, poolName)
if task == nil {
return err
}
if err := task.setSector(0); err != nil {
return fmt.Errorf("devicemapper: Can't set sector %s", err)
}
if err := task.setMessage(fmt.Sprintf("create_thin %d", deviceID)); err != nil {
return fmt.Errorf("devicemapper: Can't set message %s", err)
}
dmSawExist = false // reset before the task is run
if err := task.run(); err != nil {
// Caller wants to know about ErrDeviceIDExists so that it can try with a different device id.
if dmSawExist {
return ErrDeviceIDExists
}
return fmt.Errorf("devicemapper: Error running CreateDevice %s", err)
}
return nil
}
// DeleteDevice deletes a device with the specified poolName with the specified device id.
func DeleteDevice(poolName string, deviceID int) error {
task, err := TaskCreateNamed(deviceTargetMsg, poolName)
if task == nil {
return err
}
if err := task.setSector(0); err != nil {
return fmt.Errorf("devicemapper: Can't set sector %s", err)
}
if err := task.setMessage(fmt.Sprintf("delete %d", deviceID)); err != nil {
return fmt.Errorf("devicemapper: Can't set message %s", err)
}
dmSawBusy = false
dmSawEnoData = false
if err := task.run(); err != nil {
if dmSawBusy {
return ErrBusy
}
if dmSawEnoData {
logrus.Debugf("devicemapper: Device(id: %d) from pool(%s) does not exist", deviceID, poolName)
return nil
}
return fmt.Errorf("devicemapper: Error running DeleteDevice %s", err)
}
return nil
}
// ActivateDevice activates the device identified by the specified
// poolName, name and deviceID with the specified size.
func ActivateDevice(poolName string, name string, deviceID int, size uint64) error {
return activateDevice(poolName, name, deviceID, size, "")
}
// ActivateDeviceWithExternal activates the device identified by the specified
// poolName, name and deviceID with the specified size.
func ActivateDeviceWithExternal(poolName string, name string, deviceID int, size uint64, external string) error {
return activateDevice(poolName, name, deviceID, size, external)
}
func activateDevice(poolName string, name string, deviceID int, size uint64, external string) error {
task, err := TaskCreateNamed(deviceCreate, name)
if task == nil {
return err
}
var params string
if len(external) > 0 {
params = fmt.Sprintf("%s %d %s", poolName, deviceID, external)
} else {
params = fmt.Sprintf("%s %d", poolName, deviceID)
}
if err := task.addTarget(0, size/512, "thin", params); err != nil {
return fmt.Errorf("devicemapper: Can't add target %s", err)
}
if err := task.setAddNode(addNodeOnCreate); err != nil {
return fmt.Errorf("devicemapper: Can't add node %s", err)
}
cookie := new(uint)
if err := task.setCookie(cookie, 0); err != nil {
return fmt.Errorf("devicemapper: Can't set cookie %s", err)
}
defer UdevWait(cookie)
if err := task.run(); err != nil {
return fmt.Errorf("devicemapper: Error running deviceCreate (ActivateDevice) %s", err)
}
return nil
}
// CreateSnapDeviceRaw creates a snapshot device. Caller needs to suspend and resume the origin device if it is active.
func CreateSnapDeviceRaw(poolName string, deviceID int, baseDeviceID int) error {
task, err := TaskCreateNamed(deviceTargetMsg, poolName)
if task == nil {
return err
}
if err := task.setSector(0); err != nil {
return fmt.Errorf("devicemapper: Can't set sector %s", err)
}
if err := task.setMessage(fmt.Sprintf("create_snap %d %d", deviceID, baseDeviceID)); err != nil {
return fmt.Errorf("devicemapper: Can't set message %s", err)
}
dmSawExist = false // reset before the task is run
if err := task.run(); err != nil {
// Caller wants to know about ErrDeviceIDExists so that it can try with a different device id.
if dmSawExist {
return ErrDeviceIDExists
}
return fmt.Errorf("devicemapper: Error running deviceCreate (CreateSnapDeviceRaw) %s", err)
}
return nil
}
// CreateSnapDevice creates a snapshot based on the device identified by the baseName and baseDeviceId,
func CreateSnapDevice(poolName string, deviceID int, baseName string, baseDeviceID int) error {
devinfo, _ := GetInfo(baseName)
doSuspend := devinfo != nil && devinfo.Exists != 0
if doSuspend {
if err := SuspendDevice(baseName); err != nil {
return err
}
}
if err := CreateSnapDeviceRaw(poolName, deviceID, baseDeviceID); err != nil {
if doSuspend {
if err2 := ResumeDevice(baseName); err2 != nil {
return fmt.Errorf("CreateSnapDeviceRaw Error: (%v): ResumeDevice Error: (%v)", err, err2)
}
}
return err
}
if doSuspend {
if err := ResumeDevice(baseName); err != nil {
return err
}
}
return nil
}