ceph-csi/vendor/github.com/ceph/go-ceph/rbd/rbd.go
Niels de Vos 772d1dfa77 rebase: use go-ceph v0.3.0
v0.3.0 adds support for rbd.FeatureSet that can be used to parse the
features of an RBD image. This will be used in the followup commit that
adds rbdVolume.getImageInfo().

Signed-off-by: Niels de Vos <ndevos@redhat.com>
2020-06-17 09:28:57 +00:00

1229 lines
32 KiB
Go

package rbd
// #cgo LDFLAGS: -lrbd
// /* force XSI-complaint strerror_r() */
// #define _POSIX_C_SOURCE 200112L
// #undef _GNU_SOURCE
// #include <errno.h>
// #include <stdlib.h>
// #include <rados/librados.h>
// #include <rbd/librbd.h>
import "C"
import (
"bytes"
"errors"
"io"
"time"
"unsafe"
"github.com/ceph/go-ceph/rados"
)
const (
// Image.Seek() constants:
// SeekSet is used with Seek to absolutely position the file.
SeekSet = int(C.SEEK_SET)
// SeekCur is used with Seek to position the file relatively to the current
// position.
SeekCur = int(C.SEEK_CUR)
// SeekEnd is used with Seek to position the file relatively to the end.
SeekEnd = int(C.SEEK_END)
)
// bits for Image.validate() and Snapshot.validate()
const (
imageNeedsName uint32 = 1 << iota
imageNeedsIOContext
imageIsOpen
snapshotNeedsName
// NoSnapshot indicates that no snapshot name is in use (see OpenImage)
NoSnapshot = ""
)
// ImageInfo represents the status information for an image.
type ImageInfo struct {
Size uint64
Obj_size uint64
Num_objs uint64
Order int
Block_name_prefix string
Parent_pool int64
Parent_name string
}
// SnapInfo represents the status information for a snapshot.
type SnapInfo struct {
Id uint64
Size uint64
Name string
}
// Locker provides info about a client that is locking an image.
type Locker struct {
Client string
Cookie string
Addr string
}
// Image is a handle for an RBD image.
type Image struct {
io.Reader
io.Writer
io.Seeker
io.ReaderAt
io.WriterAt
name string
offset int64
ioctx *rados.IOContext
image C.rbd_image_t
}
// TrashInfo contains information about trashed RBDs.
type TrashInfo struct {
Id string // Id string, required to remove / restore trashed RBDs.
Name string // Original name of trashed RBD.
DeletionTime time.Time // Date / time at which the RBD was moved to the trash.
DefermentEndTime time.Time // Date / time after which the trashed RBD may be permanently deleted.
}
//
func split(buf []byte) (values []string) {
tmp := bytes.Split(buf[:len(buf)-1], []byte{0})
for _, s := range tmp {
if len(s) > 0 {
go_s := C.GoString((*C.char)(unsafe.Pointer(&s[0])))
values = append(values, go_s)
}
}
return values
}
// cephIoctx returns a ceph rados_ioctx_t given a go-ceph rados IOContext.
func cephIoctx(radosIoctx *rados.IOContext) C.rados_ioctx_t {
return C.rados_ioctx_t(radosIoctx.Pointer())
}
// test if a bit is set in the given value
func hasBit(value, bit uint32) bool {
return (value & bit) == bit
}
// validate the attributes listed in the req bitmask, and return an error in
// case the attribute is not set
func (image *Image) validate(req uint32) error {
if hasBit(req, imageNeedsName) && image.name == "" {
return ErrNoName
} else if hasBit(req, imageNeedsIOContext) && image.ioctx == nil {
return ErrNoIOContext
} else if hasBit(req, imageIsOpen) && image.image == nil {
return ErrImageNotOpen
}
return nil
}
// Version returns the major, minor, and patch level of the librbd library.
func Version() (int, int, int) {
var c_major, c_minor, c_patch C.int
C.rbd_version(&c_major, &c_minor, &c_patch)
return int(c_major), int(c_minor), int(c_patch)
}
// GetImage gets a reference to a previously created rbd image.
func GetImage(ioctx *rados.IOContext, name string) *Image {
return &Image{
ioctx: ioctx,
name: name,
}
}
// Create a new rbd image.
//
// Implements:
// int rbd_create(rados_ioctx_t io, const char *name, uint64_t size, int *order);
//
// Also implements (for backward compatibility):
// int rbd_create2(rados_ioctx_t io, const char *name, uint64_t size,
// uint64_t features, int *order);
// int rbd_create3(rados_ioctx_t io, const char *name, uint64_t size,
// uint64_t features, int *order,
// uint64_t stripe_unit, uint64_t stripe_count);
func Create(ioctx *rados.IOContext, name string, size uint64, order int,
args ...uint64) (image *Image, err error) {
var ret C.int
switch len(args) {
case 3:
return Create3(ioctx, name, size, args[0], order, args[1],
args[2])
case 1:
return Create2(ioctx, name, size, args[0], order)
case 0:
c_order := C.int(order)
c_name := C.CString(name)
defer C.free(unsafe.Pointer(c_name))
ret = C.rbd_create(cephIoctx(ioctx),
c_name, C.uint64_t(size), &c_order)
default:
return nil, errors.New("Wrong number of argument")
}
if ret < 0 {
return nil, RBDError(ret)
}
return &Image{
ioctx: ioctx,
name: name,
}, nil
}
// Create2 creates a new rbd image using provided features.
//
// Implements:
// int rbd_create2(rados_ioctx_t io, const char *name, uint64_t size,
// uint64_t features, int *order);
func Create2(ioctx *rados.IOContext, name string, size uint64, features uint64,
order int) (image *Image, err error) {
var ret C.int
c_order := C.int(order)
c_name := C.CString(name)
defer C.free(unsafe.Pointer(c_name))
ret = C.rbd_create2(cephIoctx(ioctx), c_name,
C.uint64_t(size), C.uint64_t(features), &c_order)
if ret < 0 {
return nil, RBDError(ret)
}
return &Image{
ioctx: ioctx,
name: name,
}, nil
}
// Create3 creates a new rbd image using provided features and stripe
// parameters.
//
// Implements:
// int rbd_create3(rados_ioctx_t io, const char *name, uint64_t size,
// uint64_t features, int *order,
// uint64_t stripe_unit, uint64_t stripe_count);
func Create3(ioctx *rados.IOContext, name string, size uint64, features uint64,
order int, stripe_unit uint64, stripe_count uint64) (image *Image, err error) {
var ret C.int
c_order := C.int(order)
c_name := C.CString(name)
defer C.free(unsafe.Pointer(c_name))
ret = C.rbd_create3(cephIoctx(ioctx), c_name,
C.uint64_t(size), C.uint64_t(features), &c_order,
C.uint64_t(stripe_unit), C.uint64_t(stripe_count))
if ret < 0 {
return nil, RBDError(ret)
}
return &Image{
ioctx: ioctx,
name: name,
}, nil
}
// Clone a new rbd image from a snapshot.
//
// Implements:
// int rbd_clone(rados_ioctx_t p_ioctx, const char *p_name,
// const char *p_snapname, rados_ioctx_t c_ioctx,
// const char *c_name, uint64_t features, int *c_order);
func (image *Image) Clone(snapname string, c_ioctx *rados.IOContext, c_name string, features uint64, order int) (*Image, error) {
if err := image.validate(imageNeedsIOContext); err != nil {
return nil, err
}
c_order := C.int(order)
c_p_name := C.CString(image.name)
c_p_snapname := C.CString(snapname)
c_c_name := C.CString(c_name)
defer C.free(unsafe.Pointer(c_p_name))
defer C.free(unsafe.Pointer(c_p_snapname))
defer C.free(unsafe.Pointer(c_c_name))
ret := C.rbd_clone(cephIoctx(image.ioctx),
c_p_name, c_p_snapname,
cephIoctx(c_ioctx),
c_c_name, C.uint64_t(features), &c_order)
if ret < 0 {
return nil, RBDError(ret)
}
return &Image{
ioctx: c_ioctx,
name: c_name,
}, nil
}
// Remove the specified rbd image.
//
// Implements:
// int rbd_remove(rados_ioctx_t io, const char *name);
func (image *Image) Remove() error {
if err := image.validate(imageNeedsIOContext | imageNeedsName); err != nil {
return err
}
return RemoveImage(image.ioctx, image.name)
}
// Trash will move an image into the RBD trash, where it will be protected (i.e., salvageable) for
// at least the specified delay.
func (image *Image) Trash(delay time.Duration) error {
if err := image.validate(imageNeedsIOContext | imageNeedsName); err != nil {
return err
}
c_name := C.CString(image.name)
defer C.free(unsafe.Pointer(c_name))
return getError(C.rbd_trash_move(cephIoctx(image.ioctx), c_name,
C.uint64_t(delay.Seconds())))
}
// Rename an rbd image.
//
// Implements:
// int rbd_rename(rados_ioctx_t src_io_ctx, const char *srcname, const char *destname);
func (image *Image) Rename(destname string) error {
if err := image.validate(imageNeedsIOContext | imageNeedsName); err != nil {
return err
}
c_srcname := C.CString(image.name)
c_destname := C.CString(destname)
defer C.free(unsafe.Pointer(c_srcname))
defer C.free(unsafe.Pointer(c_destname))
err := RBDError(C.rbd_rename(cephIoctx(image.ioctx),
c_srcname, c_destname))
if err == 0 {
image.name = destname
return nil
}
return err
}
// Open the rbd image.
//
// Deprecated: The Open function was provided in earlier versions of the API
// and now exists to support older code. The use of OpenImage and
// OpenImageReadOnly is preferred.
func (image *Image) Open(args ...interface{}) error {
if err := image.validate(imageNeedsIOContext | imageNeedsName); err != nil {
return err
}
var (
snapName string
readOnly bool
)
for _, arg := range args {
switch t := arg.(type) {
case string:
snapName = t
case bool:
readOnly = t
default:
return errors.New("Unexpected argument")
}
}
var (
tmp *Image
err error
)
if readOnly {
tmp, err = OpenImageReadOnly(image.ioctx, image.name, snapName)
} else {
tmp, err = OpenImage(image.ioctx, image.name, snapName)
}
if err != nil {
return err
}
image.image = tmp.image
return nil
}
// Close an open rbd image.
//
// Implements:
// int rbd_close(rbd_image_t image);
func (image *Image) Close() error {
if err := image.validate(imageIsOpen); err != nil {
return err
}
if ret := C.rbd_close(image.image); ret != 0 {
return RBDError(ret)
}
image.image = nil
return nil
}
// Resize an rbd image.
//
// Implements:
// int rbd_resize(rbd_image_t image, uint64_t size);
func (image *Image) Resize(size uint64) error {
if err := image.validate(imageIsOpen); err != nil {
return err
}
return getError(C.rbd_resize(image.image, C.uint64_t(size)))
}
// Stat an rbd image.
//
// Implements:
// int rbd_stat(rbd_image_t image, rbd_image_info_t *info, size_t infosize);
func (image *Image) Stat() (info *ImageInfo, err error) {
if err := image.validate(imageIsOpen); err != nil {
return nil, err
}
var c_stat C.rbd_image_info_t
if ret := C.rbd_stat(image.image, &c_stat, C.size_t(unsafe.Sizeof(info))); ret < 0 {
return info, RBDError(ret)
}
return &ImageInfo{
Size: uint64(c_stat.size),
Obj_size: uint64(c_stat.obj_size),
Num_objs: uint64(c_stat.num_objs),
Order: int(c_stat.order),
Block_name_prefix: C.GoString((*C.char)(&c_stat.block_name_prefix[0])),
Parent_pool: int64(c_stat.parent_pool),
Parent_name: C.GoString((*C.char)(&c_stat.parent_name[0]))}, nil
}
// IsOldFormat returns true if the rbd image uses the old format.
//
// Implements:
// int rbd_get_old_format(rbd_image_t image, uint8_t *old);
func (image *Image) IsOldFormat() (old_format bool, err error) {
if err := image.validate(imageIsOpen); err != nil {
return false, err
}
var c_old_format C.uint8_t
ret := C.rbd_get_old_format(image.image,
&c_old_format)
if ret < 0 {
return false, RBDError(ret)
}
return c_old_format != 0, nil
}
// GetSize returns the size of the rbd image.
//
// Implements:
// int rbd_size(rbd_image_t image, uint64_t *size);
func (image *Image) GetSize() (size uint64, err error) {
if err := image.validate(imageIsOpen); err != nil {
return 0, err
}
if ret := C.rbd_get_size(image.image, (*C.uint64_t)(&size)); ret < 0 {
return 0, RBDError(ret)
}
return size, nil
}
// GetStripeUnit returns the stripe-unit value for the rbd image.
//
// Implements:
// int rbd_get_stripe_unit(rbd_image_t image, uint64_t *stripe_unit);
func (image *Image) GetStripeUnit() (stripe_unit uint64, err error) {
if err := image.validate(imageIsOpen); err != nil {
return 0, err
}
if ret := C.rbd_get_stripe_unit(image.image, (*C.uint64_t)(&stripe_unit)); ret < 0 {
return 0, RBDError(ret)
}
return stripe_unit, nil
}
// GetStripeCount returns the stripe-count value for the rbd image.
//
// Implements:
// int rbd_get_stripe_count(rbd_image_t image, uint64_t *stripe_count);
func (image *Image) GetStripeCount() (stripe_count uint64, err error) {
if err := image.validate(imageIsOpen); err != nil {
return 0, err
}
if ret := C.rbd_get_stripe_count(image.image, (*C.uint64_t)(&stripe_count)); ret < 0 {
return 0, RBDError(ret)
}
return stripe_count, nil
}
// GetOverlap returns the overlapping bytes between the rbd image and its
// parent.
//
// Implements:
// int rbd_get_overlap(rbd_image_t image, uint64_t *overlap);
func (image *Image) GetOverlap() (overlap uint64, err error) {
if err := image.validate(imageIsOpen); err != nil {
return 0, err
}
if ret := C.rbd_get_overlap(image.image, (*C.uint64_t)(&overlap)); ret < 0 {
return overlap, RBDError(ret)
}
return overlap, nil
}
// Copy one rbd image to another.
//
// Implements:
// int rbd_copy(rbd_image_t image, rados_ioctx_t dest_io_ctx, const char *destname);
func (image *Image) Copy(ioctx *rados.IOContext, destname string) error {
if err := image.validate(imageIsOpen); err != nil {
return err
} else if ioctx == nil {
return ErrNoIOContext
} else if len(destname) == 0 {
return ErrNoName
}
c_destname := C.CString(destname)
defer C.free(unsafe.Pointer(c_destname))
return getError(C.rbd_copy(image.image,
cephIoctx(ioctx), c_destname))
}
// Copy2 copies one rbd image to another, using an image handle.
//
// Implements:
// int rbd_copy2(rbd_image_t src, rbd_image_t dest);
func (image *Image) Copy2(dest *Image) error {
if err := image.validate(imageIsOpen); err != nil {
return err
} else if err := dest.validate(imageIsOpen); err != nil {
return err
}
return getError(C.rbd_copy2(image.image, dest.image))
}
// Flatten removes snapshot references from the image.
//
// Implements:
// int rbd_flatten(rbd_image_t image);
func (image *Image) Flatten() error {
if err := image.validate(imageIsOpen); err != nil {
return err
}
return getError(C.rbd_flatten(image.image))
}
// ListLockers returns a list of clients that have locks on the image.
//
// Impelemnts:
// ssize_t rbd_list_lockers(rbd_image_t image, int *exclusive,
// char *tag, size_t *tag_len,
// char *clients, size_t *clients_len,
// char *cookies, size_t *cookies_len,
// char *addrs, size_t *addrs_len);
func (image *Image) ListLockers() (tag string, lockers []Locker, err error) {
if err := image.validate(imageIsOpen); err != nil {
return "", nil, err
}
var c_exclusive C.int
var c_tag_len, c_clients_len, c_cookies_len, c_addrs_len C.size_t
var c_locker_cnt C.ssize_t
C.rbd_list_lockers(image.image, &c_exclusive,
nil, (*C.size_t)(&c_tag_len),
nil, (*C.size_t)(&c_clients_len),
nil, (*C.size_t)(&c_cookies_len),
nil, (*C.size_t)(&c_addrs_len))
// no locker held on rbd image when either c_clients_len,
// c_cookies_len or c_addrs_len is *0*, so just quickly returned
if int(c_clients_len) == 0 || int(c_cookies_len) == 0 ||
int(c_addrs_len) == 0 {
lockers = make([]Locker, 0)
return "", lockers, nil
}
tag_buf := make([]byte, c_tag_len)
clients_buf := make([]byte, c_clients_len)
cookies_buf := make([]byte, c_cookies_len)
addrs_buf := make([]byte, c_addrs_len)
c_locker_cnt = C.rbd_list_lockers(image.image, &c_exclusive,
(*C.char)(unsafe.Pointer(&tag_buf[0])), (*C.size_t)(&c_tag_len),
(*C.char)(unsafe.Pointer(&clients_buf[0])), (*C.size_t)(&c_clients_len),
(*C.char)(unsafe.Pointer(&cookies_buf[0])), (*C.size_t)(&c_cookies_len),
(*C.char)(unsafe.Pointer(&addrs_buf[0])), (*C.size_t)(&c_addrs_len))
// rbd_list_lockers returns negative value for errors
// and *0* means no locker held on rbd image.
// but *0* is unexpected here because first rbd_list_lockers already
// dealt with no locker case
if int(c_locker_cnt) <= 0 {
return "", nil, RBDError(c_locker_cnt)
}
clients := split(clients_buf)
cookies := split(cookies_buf)
addrs := split(addrs_buf)
lockers = make([]Locker, c_locker_cnt)
for i := 0; i < int(c_locker_cnt); i++ {
lockers[i] = Locker{Client: clients[i],
Cookie: cookies[i],
Addr: addrs[i]}
}
return string(tag_buf), lockers, nil
}
// LockExclusive acquires an exclusive lock on the rbd image.
//
// Implements:
// int rbd_lock_exclusive(rbd_image_t image, const char *cookie);
func (image *Image) LockExclusive(cookie string) error {
if err := image.validate(imageIsOpen); err != nil {
return err
}
c_cookie := C.CString(cookie)
defer C.free(unsafe.Pointer(c_cookie))
return getError(C.rbd_lock_exclusive(image.image, c_cookie))
}
// LockShared acquires a shared lock on the rbd image.
//
// Implements:
// int rbd_lock_shared(rbd_image_t image, const char *cookie, const char *tag);
func (image *Image) LockShared(cookie string, tag string) error {
if err := image.validate(imageIsOpen); err != nil {
return err
}
c_cookie := C.CString(cookie)
c_tag := C.CString(tag)
defer C.free(unsafe.Pointer(c_cookie))
defer C.free(unsafe.Pointer(c_tag))
return getError(C.rbd_lock_shared(image.image, c_cookie, c_tag))
}
// Unlock releases a lock on the image.
//
// Implements:
// int rbd_lock_shared(rbd_image_t image, const char *cookie, const char *tag);
func (image *Image) Unlock(cookie string) error {
if err := image.validate(imageIsOpen); err != nil {
return err
}
c_cookie := C.CString(cookie)
defer C.free(unsafe.Pointer(c_cookie))
return getError(C.rbd_unlock(image.image, c_cookie))
}
// BreakLock forces the release of a lock held by another client.
//
// Implements:
// int rbd_break_lock(rbd_image_t image, const char *client, const char *cookie);
func (image *Image) BreakLock(client string, cookie string) error {
if err := image.validate(imageIsOpen); err != nil {
return err
}
c_client := C.CString(client)
c_cookie := C.CString(cookie)
defer C.free(unsafe.Pointer(c_client))
defer C.free(unsafe.Pointer(c_cookie))
return getError(C.rbd_break_lock(image.image, c_client, c_cookie))
}
// ssize_t rbd_read(rbd_image_t image, uint64_t ofs, size_t len, char *buf);
// TODO: int64_t rbd_read_iterate(rbd_image_t image, uint64_t ofs, size_t len,
// int (*cb)(uint64_t, size_t, const char *, void *), void *arg);
// TODO: int rbd_read_iterate2(rbd_image_t image, uint64_t ofs, uint64_t len,
// int (*cb)(uint64_t, size_t, const char *, void *), void *arg);
// TODO: int rbd_diff_iterate(rbd_image_t image,
// const char *fromsnapname,
// uint64_t ofs, uint64_t len,
// int (*cb)(uint64_t, size_t, int, void *), void *arg);
func (image *Image) Read(data []byte) (int, error) {
if err := image.validate(imageIsOpen); err != nil {
return 0, err
}
if len(data) == 0 {
return 0, nil
}
ret := int(C.rbd_read(
image.image,
(C.uint64_t)(image.offset),
(C.size_t)(len(data)),
(*C.char)(unsafe.Pointer(&data[0]))))
if ret < 0 {
return 0, RBDError(ret)
}
image.offset += int64(ret)
if ret < len(data) {
return ret, io.EOF
}
return ret, nil
}
// ssize_t rbd_write(rbd_image_t image, uint64_t ofs, size_t len, const char *buf);
func (image *Image) Write(data []byte) (n int, err error) {
if err := image.validate(imageIsOpen); err != nil {
return 0, err
}
ret := int(C.rbd_write(image.image, C.uint64_t(image.offset),
C.size_t(len(data)), (*C.char)(unsafe.Pointer(&data[0]))))
if ret >= 0 {
image.offset += int64(ret)
}
if ret != len(data) {
err = RBDError(-C.EPERM)
}
return ret, err
}
// Seek updates the internal file position for the current image.
func (image *Image) Seek(offset int64, whence int) (int64, error) {
switch whence {
case SeekSet:
image.offset = offset
case SeekCur:
image.offset += offset
case SeekEnd:
stats, err := image.Stat()
if err != nil {
return 0, err
}
image.offset = int64(stats.Size) - offset
default:
return 0, errors.New("Wrong value for whence")
}
return image.offset, nil
}
// Discard the supplied range from the image. The supplied range will be read
// as zeros once Discard returns. The discarded range will no longer take up
// space.
//
// Implements:
// int rbd_discard(rbd_image_t image, uint64_t ofs, uint64_t len);
func (image *Image) Discard(ofs uint64, length uint64) (int, error) {
if err := image.validate(imageIsOpen); err != nil {
return 0, err
}
ret := C.rbd_discard(image.image, C.uint64_t(ofs), C.uint64_t(length))
if ret < 0 {
return 0, RBDError(ret)
}
return int(ret), nil
}
// ReadAt copies data from the image into the supplied buffer.
func (image *Image) ReadAt(data []byte, off int64) (int, error) {
if err := image.validate(imageIsOpen); err != nil {
return 0, err
}
if len(data) == 0 {
return 0, nil
}
ret := int(C.rbd_read(
image.image,
(C.uint64_t)(off),
(C.size_t)(len(data)),
(*C.char)(unsafe.Pointer(&data[0]))))
if ret < 0 {
return 0, RBDError(ret)
}
if ret < len(data) {
return ret, io.EOF
}
return ret, nil
}
// WriteAt copies data from the supplied buffer to the image.
func (image *Image) WriteAt(data []byte, off int64) (n int, err error) {
if err := image.validate(imageIsOpen); err != nil {
return 0, err
}
if len(data) == 0 {
return 0, nil
}
ret := int(C.rbd_write(image.image, C.uint64_t(off),
C.size_t(len(data)), (*C.char)(unsafe.Pointer(&data[0]))))
if ret != len(data) {
err = RBDError(-C.EPERM)
}
return ret, err
}
// Flush all cached writes to storage.
//
// Implements:
// int rbd_flush(rbd_image_t image);
func (image *Image) Flush() error {
if err := image.validate(imageIsOpen); err != nil {
return err
}
return getError(C.rbd_flush(image.image))
}
// GetSnapshotNames returns more than just the names of snapshots
// associated with the rbd image.
//
// Implements:
// int rbd_snap_list(rbd_image_t image, rbd_snap_info_t *snaps, int *max_snaps);
func (image *Image) GetSnapshotNames() (snaps []SnapInfo, err error) {
if err := image.validate(imageIsOpen); err != nil {
return nil, err
}
var c_max_snaps C.int
ret := C.rbd_snap_list(image.image, nil, &c_max_snaps)
c_snaps := make([]C.rbd_snap_info_t, c_max_snaps)
snaps = make([]SnapInfo, c_max_snaps)
ret = C.rbd_snap_list(image.image,
&c_snaps[0], &c_max_snaps)
if ret < 0 {
return nil, RBDError(ret)
}
for i, s := range c_snaps {
snaps[i] = SnapInfo{Id: uint64(s.id),
Size: uint64(s.size),
Name: C.GoString(s.name)}
}
C.rbd_snap_list_end(&c_snaps[0])
return snaps[:len(snaps)-1], nil
}
// GetMetadata returns the metadata string associated with the given key.
//
// Implements:
// int rbd_metadata_get(rbd_image_t image, const char *key, char *value, size_t *vallen)
func (image *Image) GetMetadata(key string) (string, error) {
if err := image.validate(imageIsOpen); err != nil {
return "", err
}
c_key := C.CString(key)
defer C.free(unsafe.Pointer(c_key))
var c_vallen C.size_t
ret := C.rbd_metadata_get(image.image, c_key, nil, (*C.size_t)(&c_vallen))
// get size of value
// ret -34 because we pass nil as value pointer
if ret != 0 && ret != -C.ERANGE {
return "", RBDError(ret)
}
// make a bytes array with a good size
value := make([]byte, c_vallen-1)
ret = C.rbd_metadata_get(image.image, c_key, (*C.char)(unsafe.Pointer(&value[0])), (*C.size_t)(&c_vallen))
if ret < 0 {
return "", RBDError(ret)
}
return string(value), nil
}
// SetMetadata updates the metadata string associated with the given key.
//
// Implements:
// int rbd_metadata_set(rbd_image_t image, const char *key, const char *value)
func (image *Image) SetMetadata(key string, value string) error {
if err := image.validate(imageIsOpen); err != nil {
return err
}
c_key := C.CString(key)
c_value := C.CString(value)
defer C.free(unsafe.Pointer(c_key))
defer C.free(unsafe.Pointer(c_value))
ret := C.rbd_metadata_set(image.image, c_key, c_value)
if ret < 0 {
return RBDError(ret)
}
return nil
}
// RemoveMetadata clears the metadata associated with the given key.
//
// Implements:
// int rbd_metadata_remove(rbd_image_t image, const char *key)
func (image *Image) RemoveMetadata(key string) error {
if err := image.validate(imageIsOpen); err != nil {
return err
}
c_key := C.CString(key)
defer C.free(unsafe.Pointer(c_key))
ret := C.rbd_metadata_remove(image.image, c_key)
if ret < 0 {
return RBDError(ret)
}
return nil
}
// GetId returns the internal image ID string.
//
// Implements:
// int rbd_get_id(rbd_image_t image, char *id, size_t id_len);
func (image *Image) GetId() (string, error) {
if err := image.validate(imageIsOpen); err != nil {
return "", err
}
size := C.size_t(1024)
buf := make([]byte, size)
for {
ret := C.rbd_get_id(
image.image,
(*C.char)(unsafe.Pointer(&buf[0])),
size)
if ret == -C.ERANGE && size <= 8192 {
size *= 2
buf = make([]byte, size)
} else if ret < 0 {
return "", getError(ret)
}
id := C.GoString((*C.char)(unsafe.Pointer(&buf[0])))
return id, nil
}
}
// GetTrashList returns a slice of TrashInfo structs, containing information about all RBD images
// currently residing in the trash.
func GetTrashList(ioctx *rados.IOContext) ([]TrashInfo, error) {
var num_entries C.size_t
// Call rbd_trash_list with nil pointer to get number of trash entries.
if C.rbd_trash_list(cephIoctx(ioctx), nil, &num_entries); num_entries == 0 {
return nil, nil
}
c_entries := make([]C.rbd_trash_image_info_t, num_entries)
trashList := make([]TrashInfo, num_entries)
if ret := C.rbd_trash_list(cephIoctx(ioctx), &c_entries[0], &num_entries); ret < 0 {
return nil, RBDError(ret)
}
for i, ti := range c_entries {
trashList[i] = TrashInfo{
Id: C.GoString(ti.id),
Name: C.GoString(ti.name),
DeletionTime: time.Unix(int64(ti.deletion_time), 0),
DefermentEndTime: time.Unix(int64(ti.deferment_end_time), 0),
}
}
// Free rbd_trash_image_info_t pointers
C.rbd_trash_list_cleanup(&c_entries[0], num_entries)
return trashList, nil
}
// TrashRemove permanently deletes the trashed RBD with the specified id.
func TrashRemove(ioctx *rados.IOContext, id string, force bool) error {
c_id := C.CString(id)
defer C.free(unsafe.Pointer(c_id))
return getError(C.rbd_trash_remove(cephIoctx(ioctx), c_id, C.bool(force)))
}
// TrashRestore restores the trashed RBD with the specified id back to the pool from whence it
// came, with the specified new name.
func TrashRestore(ioctx *rados.IOContext, id, name string) error {
c_id := C.CString(id)
c_name := C.CString(name)
defer C.free(unsafe.Pointer(c_id))
defer C.free(unsafe.Pointer(c_name))
return getError(C.rbd_trash_restore(cephIoctx(ioctx), c_id, c_name))
}
// OpenImage will open an existing rbd image by name and snapshot name,
// returning a new opened image. Pass the NoSnapshot sentinel value as the
// snapName to explicitly indicate that no snapshot name is being provided.
//
// Implements:
// int rbd_open(rados_ioctx_t io, const char *name,
// rbd_image_t *image, const char *snap_name);
func OpenImage(ioctx *rados.IOContext, name, snapName string) (*Image, error) {
cName := C.CString(name)
defer C.free(unsafe.Pointer(cName))
var cSnapName *C.char
if snapName != NoSnapshot {
cSnapName = C.CString(snapName)
defer C.free(unsafe.Pointer(cSnapName))
}
var cImage C.rbd_image_t
ret := C.rbd_open(
cephIoctx(ioctx),
cName,
&cImage,
cSnapName)
if ret != 0 {
return nil, getError(ret)
}
return &Image{
ioctx: ioctx,
name: name,
image: cImage,
}, nil
}
// OpenImageReadOnly will open an existing rbd image by name and snapshot name,
// returning a new opened-for-read image. Pass the NoSnapshot sentinel value
// as the snapName to explicitly indicate that no snapshot name is being
// provided.
//
// Implements:
// int rbd_open_read_only(rados_ioctx_t io, const char *name,
// rbd_image_t *image, const char *snap_name);
func OpenImageReadOnly(ioctx *rados.IOContext, name, snapName string) (*Image, error) {
cName := C.CString(name)
defer C.free(unsafe.Pointer(cName))
var cSnapName *C.char
if snapName != NoSnapshot {
cSnapName = C.CString(snapName)
defer C.free(unsafe.Pointer(cSnapName))
}
var cImage C.rbd_image_t
ret := C.rbd_open_read_only(
cephIoctx(ioctx),
cName,
&cImage,
cSnapName)
if ret != 0 {
return nil, getError(ret)
}
return &Image{
ioctx: ioctx,
name: name,
image: cImage,
}, nil
}
// OpenImageById will open an existing rbd image by ID and snapshot name,
// returning a new opened image. Pass the NoSnapshot sentinel value as the
// snapName to explicitly indicate that no snapshot name is being provided.
// Error handling will fail & segfault unless compiled with a version of ceph
// that fixes https://tracker.ceph.com/issues/43178
//
// Implements:
// int rbd_open_by_id(rados_ioctx_t io, const char *id,
// rbd_image_t *image, const char *snap_name);
func OpenImageById(ioctx *rados.IOContext, id, snapName string) (*Image, error) {
cid := C.CString(id)
defer C.free(unsafe.Pointer(cid))
var cSnapName *C.char
if snapName != NoSnapshot {
cSnapName = C.CString(snapName)
defer C.free(unsafe.Pointer(cSnapName))
}
var cImage C.rbd_image_t
ret := C.rbd_open_by_id(
cephIoctx(ioctx),
cid,
&cImage,
cSnapName)
if ret != 0 {
return nil, getError(ret)
}
return &Image{
ioctx: ioctx,
image: cImage,
}, nil
}
// OpenImageByIdReadOnly will open an existing rbd image by ID and snapshot
// name, returning a new opened-for-read image. Pass the NoSnapshot sentinel
// value as the snapName to explicitly indicate that no snapshot name is being
// provided.
// Error handling will fail & segfault unless compiled with a version of ceph
// that fixes https://tracker.ceph.com/issues/43178
//
// Implements:
// int rbd_open_by_id_read_only(rados_ioctx_t io, const char *id,
// rbd_image_t *image, const char *snap_name);
func OpenImageByIdReadOnly(ioctx *rados.IOContext, id, snapName string) (*Image, error) {
cid := C.CString(id)
defer C.free(unsafe.Pointer(cid))
var cSnapName *C.char
if snapName != NoSnapshot {
cSnapName = C.CString(snapName)
defer C.free(unsafe.Pointer(cSnapName))
}
var cImage C.rbd_image_t
ret := C.rbd_open_by_id_read_only(
cephIoctx(ioctx),
cid,
&cImage,
cSnapName)
if ret != 0 {
return nil, getError(ret)
}
return &Image{
ioctx: ioctx,
image: cImage,
}, nil
}
// CreateImage creates a new rbd image using provided image options.
//
// Implements:
// int rbd_create4(rados_ioctx_t io, const char *name, uint64_t size,
// rbd_image_options_t opts);
func CreateImage(ioctx *rados.IOContext, name string, size uint64, rio *ImageOptions) error {
if rio == nil {
return RBDError(C.EINVAL)
}
c_name := C.CString(name)
defer C.free(unsafe.Pointer(c_name))
ret := C.rbd_create4(cephIoctx(ioctx), c_name,
C.uint64_t(size), C.rbd_image_options_t(rio.options))
return getError(ret)
}
// RemoveImage removes the specified rbd image.
//
// Implements:
// int rbd_remove(rados_ioctx_t io, const char *name);
func RemoveImage(ioctx *rados.IOContext, name string) error {
c_name := C.CString(name)
defer C.free(unsafe.Pointer(c_name))
return getError(C.rbd_remove(cephIoctx(ioctx), c_name))
}
// CloneImage creates a clone of the image from the named snapshot in the
// provided io-context with the given name and image options.
//
// Implements:
// int rbd_clone3(rados_ioctx_t p_ioctx, const char *p_name,
// const char *p_snapname, rados_ioctx_t c_ioctx,
// const char *c_name, rbd_image_options_t c_opts);
func CloneImage(ioctx *rados.IOContext, parentName, snapName string,
destctx *rados.IOContext, name string, rio *ImageOptions) error {
if rio == nil {
return RBDError(C.EINVAL)
}
cParentName := C.CString(parentName)
defer C.free(unsafe.Pointer(cParentName))
cParentSnapName := C.CString(snapName)
defer C.free(unsafe.Pointer(cParentSnapName))
cCloneName := C.CString(name)
defer C.free(unsafe.Pointer(cCloneName))
ret := C.rbd_clone3(
cephIoctx(ioctx),
cParentName,
cParentSnapName,
cephIoctx(destctx),
cCloneName,
C.rbd_image_options_t(rio.options))
return getError(ret)
}
// CloneFromImage creates a clone of the image from the named snapshot in the
// provided io-context with the given name and image options.
// This function is a convenience wrapper around CloneImage to support cloning
// from an existing Image.
func CloneFromImage(parent *Image, snapName string,
destctx *rados.IOContext, name string, rio *ImageOptions) error {
if err := parent.validate(imageNeedsIOContext); err != nil {
return err
}
return CloneImage(parent.ioctx, parent.name, snapName, destctx, name, rio)
}