mirror of
https://github.com/ceph/ceph-csi.git
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a66012a5d4
Bumps [github.com/ceph/go-ceph](https://github.com/ceph/go-ceph) from 0.11.0 to 0.12.0. - [Release notes](https://github.com/ceph/go-ceph/releases) - [Changelog](https://github.com/ceph/go-ceph/blob/master/docs/release-process.md) - [Commits](https://github.com/ceph/go-ceph/compare/v0.11.0...v0.12.0) --- updated-dependencies: - dependency-name: github.com/ceph/go-ceph dependency-type: direct:production update-type: version-update:semver-minor ... Signed-off-by: dependabot[bot] <support@github.com>
141 lines
4.5 KiB
Go
141 lines
4.5 KiB
Go
//go:build !octopus && !nautilus
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// +build !octopus,!nautilus
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package rbd
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// #cgo LDFLAGS: -lrbd
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// /* force XSI-complaint strerror_r() */
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// #define _POSIX_C_SOURCE 200112L
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// #undef _GNU_SOURCE
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// #include <errno.h>
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// #include <stdlib.h>
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// #include <rados/librados.h>
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// #include <rbd/librbd.h>
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import "C"
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import (
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"unsafe"
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)
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// cEncryptionData contains the data needed by the encryption functions
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type cEncryptionData struct {
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format C.rbd_encryption_format_t
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opts C.rbd_encryption_options_t
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optsSize C.size_t
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free func()
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}
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// EncryptionAlgorithm is the encryption algorithm
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type EncryptionAlgorithm C.rbd_encryption_algorithm_t
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// Possible values for EncryptionAlgorithm:
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// EncryptionAlgorithmAES128: AES 128bits
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// EncryptionAlgorithmAES256: AES 256bits
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const (
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EncryptionAlgorithmAES128 = EncryptionAlgorithm(C.RBD_ENCRYPTION_ALGORITHM_AES128)
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EncryptionAlgorithmAES256 = EncryptionAlgorithm(C.RBD_ENCRYPTION_ALGORITHM_AES256)
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)
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// EncryptionOptionsLUKS1 and EncryptionOptionsLUKS2 are identical
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// structures at the moment, just as they are in the librbd api.
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// The purpose behind creating different identical structures, is to facilitate
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// future modifications of one of the formats, while maintaining backwards
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// compatibility with the other.
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// EncryptionOptionsLUKS1 options required for LUKS v1
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type EncryptionOptionsLUKS1 struct {
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Alg EncryptionAlgorithm
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Passphrase []byte
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}
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// EncryptionOptionsLUKS2 options required for LUKS v2
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type EncryptionOptionsLUKS2 struct {
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Alg EncryptionAlgorithm
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Passphrase []byte
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}
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// EncryptionOptions interface is used to encapsulate the different encryption
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// formats options and enable converting them from go to C structures.
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type EncryptionOptions interface {
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allocateEncryptionOptions() cEncryptionData
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}
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func (opts EncryptionOptionsLUKS1) allocateEncryptionOptions() cEncryptionData {
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var cOpts C.rbd_encryption_luks1_format_options_t
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var retData cEncryptionData
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cOpts.alg = C.rbd_encryption_algorithm_t(opts.Alg)
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//CBytes allocates memory which we'll free by calling cOptsFree()
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cOpts.passphrase = (*C.char)(C.CBytes(opts.Passphrase))
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cOpts.passphrase_size = C.size_t(len(opts.Passphrase))
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retData.opts = C.rbd_encryption_options_t(&cOpts)
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retData.optsSize = C.size_t(C.sizeof_rbd_encryption_luks1_format_options_t)
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retData.free = func() { C.free(unsafe.Pointer(cOpts.passphrase)) }
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retData.format = C.RBD_ENCRYPTION_FORMAT_LUKS1
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return retData
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}
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func (opts EncryptionOptionsLUKS2) allocateEncryptionOptions() cEncryptionData {
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var cOpts C.rbd_encryption_luks2_format_options_t
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var retData cEncryptionData
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cOpts.alg = C.rbd_encryption_algorithm_t(opts.Alg)
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//CBytes allocates memory which we'll free by calling cOptsFree()
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cOpts.passphrase = (*C.char)(C.CBytes(opts.Passphrase))
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cOpts.passphrase_size = C.size_t(len(opts.Passphrase))
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retData.opts = C.rbd_encryption_options_t(&cOpts)
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retData.optsSize = C.size_t(C.sizeof_rbd_encryption_luks2_format_options_t)
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retData.free = func() { C.free(unsafe.Pointer(cOpts.passphrase)) }
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retData.format = C.RBD_ENCRYPTION_FORMAT_LUKS2
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return retData
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}
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// EncryptionFormat creates an encryption format header
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//
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// Implements:
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// int rbd_encryption_format(rbd_image_t image,
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// rbd_encryption_format_t format,
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// rbd_encryption_options_t opts,
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// size_t opts_size);
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//
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// To issue an IO against the image, you need to mount the image
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// with libvirt/qemu using the LUKS format, or make a call to
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// rbd_encryption_load().
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func (image *Image) EncryptionFormat(opts EncryptionOptions) error {
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if image.image == nil {
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return ErrImageNotOpen
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}
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encryptionOpts := opts.allocateEncryptionOptions()
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defer encryptionOpts.free()
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ret := C.rbd_encryption_format(
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image.image,
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encryptionOpts.format,
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encryptionOpts.opts,
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encryptionOpts.optsSize)
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return getError(ret)
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}
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// EncryptionLoad enables IO on an open encrypted image
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//
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// Implements:
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// int rbd_encryption_load(rbd_image_t image,
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// rbd_encryption_format_t format,
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// rbd_encryption_options_t opts,
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// size_t opts_size);
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func (image *Image) EncryptionLoad(opts EncryptionOptions) error {
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if image.image == nil {
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return ErrImageNotOpen
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}
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encryptionOpts := opts.allocateEncryptionOptions()
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defer encryptionOpts.free()
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ret := C.rbd_encryption_load(
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image.image,
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encryptionOpts.format,
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encryptionOpts.opts,
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encryptionOpts.optsSize)
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return getError(ret)
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}
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