mirror of
https://github.com/ceph/ceph-csi.git
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6e0e6df2db
The NFS-Admin API has been added to go-ceph v0.15.0. As the API can not
be tested in the go-ceph CI, it requires build-tag `ceph_ci_untested`.
This additional build-tag has been added to the `Makefile` and should be
removed when the API does not require the build-tag anymore.
See-also: ceph/go-ceph#655
Signed-off-by: Niels de Vos <ndevos@redhat.com>
(cherry picked from commit 282c33cb58
)
196 lines
4.9 KiB
Go
196 lines
4.9 KiB
Go
package rados
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// #cgo LDFLAGS: -lrados
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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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//
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import "C"
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import (
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"unsafe"
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"github.com/ceph/go-ceph/internal/cutil"
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ts "github.com/ceph/go-ceph/internal/timespec"
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)
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// Timespec is a public type for the internal C 'struct timespec'
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type Timespec ts.Timespec
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// WriteOp manages a set of discrete actions that will be performed together
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// atomically.
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type WriteOp struct {
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operation
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op C.rados_write_op_t
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}
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// CreateWriteOp returns a newly constructed write operation.
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func CreateWriteOp() *WriteOp {
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return &WriteOp{
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op: C.rados_create_write_op(),
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}
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}
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// Release the resources associated with this write operation.
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func (w *WriteOp) Release() {
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C.rados_release_write_op(w.op)
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w.op = nil
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w.free()
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}
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func (w WriteOp) operate2(
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ioctx *IOContext, oid string, mtime *Timespec, flags OperationFlags) error {
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if err := ioctx.validate(); err != nil {
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return err
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}
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cOid := C.CString(oid)
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defer C.free(unsafe.Pointer(cOid))
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var cMtime *C.struct_timespec
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if mtime != nil {
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cMtime = &C.struct_timespec{}
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ts.CopyToCStruct(
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ts.Timespec(*mtime),
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ts.CTimespecPtr(cMtime))
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}
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ret := C.rados_write_op_operate2(
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w.op, ioctx.ioctx, cOid, cMtime, C.int(flags))
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return w.update(writeOp, ret)
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}
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// Operate will perform the operation(s).
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func (w *WriteOp) Operate(ioctx *IOContext, oid string, flags OperationFlags) error {
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return w.operate2(ioctx, oid, nil, flags)
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}
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// OperateWithMtime will perform the operation while setting the modification
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// time stamp to the supplied value.
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func (w *WriteOp) OperateWithMtime(
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ioctx *IOContext, oid string, mtime Timespec, flags OperationFlags) error {
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return w.operate2(ioctx, oid, &mtime, flags)
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}
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func (w *WriteOp) operateCompat(ioctx *IOContext, oid string) error {
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switch err := w.Operate(ioctx, oid, OperationNoFlag).(type) {
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case nil:
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return nil
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case OperationError:
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return err.OpError
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default:
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return err
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}
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}
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// Create a rados object.
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func (w *WriteOp) Create(exclusive CreateOption) {
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// category, the 3rd param, is deprecated and has no effect so we do not
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// implement it in go-ceph
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C.rados_write_op_create(w.op, C.int(exclusive), nil)
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}
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// SetOmap appends the map `pairs` to the omap `oid`.
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func (w *WriteOp) SetOmap(pairs map[string][]byte) {
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keys := make([]string, len(pairs))
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values := make([][]byte, len(pairs))
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idx := 0
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for k, v := range pairs {
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keys[idx] = k
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values[idx] = v
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idx++
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}
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cKeys := cutil.NewBufferGroupStrings(keys)
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cValues := cutil.NewBufferGroupBytes(values)
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defer cKeys.Free()
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defer cValues.Free()
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C.rados_write_op_omap_set2(
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w.op,
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(**C.char)(cKeys.BuffersPtr()),
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(**C.char)(cValues.BuffersPtr()),
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(*C.size_t)(cKeys.LengthsPtr()),
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(*C.size_t)(cValues.LengthsPtr()),
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(C.size_t)(len(pairs)))
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}
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// RmOmapKeys removes the specified `keys` from the omap `oid`.
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func (w *WriteOp) RmOmapKeys(keys []string) {
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cKeys := cutil.NewBufferGroupStrings(keys)
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defer cKeys.Free()
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C.rados_write_op_omap_rm_keys2(
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w.op,
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(**C.char)(cKeys.BuffersPtr()),
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(*C.size_t)(cKeys.LengthsPtr()),
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(C.size_t)(len(keys)))
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}
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// CleanOmap clears the omap `oid`.
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func (w *WriteOp) CleanOmap() {
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C.rados_write_op_omap_clear(w.op)
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}
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// AssertExists assures the object targeted by the write op exists.
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//
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// Implements:
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// void rados_write_op_assert_exists(rados_write_op_t write_op);
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func (w *WriteOp) AssertExists() {
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C.rados_write_op_assert_exists(w.op)
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}
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// Write a given byte slice at the supplied offset.
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//
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// Implements:
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// void rados_write_op_write(rados_write_op_t write_op,
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// const char *buffer,
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// size_t len,
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// uint64_t offset);
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func (w *WriteOp) Write(b []byte, offset uint64) {
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oe := newWriteStep(b, 0, offset)
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w.steps = append(w.steps, oe)
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C.rados_write_op_write(
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w.op,
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oe.cBuffer,
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oe.cDataLen,
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oe.cOffset)
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}
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// WriteFull writes a given byte slice as the whole object,
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// atomically replacing it.
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//
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// Implements:
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// void rados_write_op_write_full(rados_write_op_t write_op,
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// const char *buffer,
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// size_t len);
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func (w *WriteOp) WriteFull(b []byte) {
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oe := newWriteStep(b, 0, 0)
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w.steps = append(w.steps, oe)
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C.rados_write_op_write_full(
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w.op,
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oe.cBuffer,
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oe.cDataLen)
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}
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// WriteSame write a given byte slice to the object multiple times, until
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// writeLen is satisfied.
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//
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// Implements:
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// void rados_write_op_writesame(rados_write_op_t write_op,
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// const char *buffer,
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// size_t data_len,
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// size_t write_len,
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// uint64_t offset);
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func (w *WriteOp) WriteSame(b []byte, writeLen, offset uint64) {
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oe := newWriteStep(b, writeLen, offset)
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w.steps = append(w.steps, oe)
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C.rados_write_op_writesame(
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w.op,
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oe.cBuffer,
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oe.cDataLen,
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oe.cWriteLen,
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oe.cOffset)
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}
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