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https://github.com/ceph/ceph-csi.git
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23c324898a
go-ceph v0.16.0 contains subvolume metadata APIs and subvolume snapshot metadata APIs. Please note, as the APIs can not be tested in the go-ceph CI, it requires build-tag `ceph_ci_untested`. Signed-off-by: Prasanna Kumar Kalever <prasanna.kalever@redhat.com>
368 lines
9.7 KiB
Go
368 lines
9.7 KiB
Go
package rados
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/*
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#cgo LDFLAGS: -lrados
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#include <stdlib.h>
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#include <rados/librados.h>
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extern void watchNotifyCb(void*, uint64_t, uint64_t, uint64_t, void*, size_t);
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extern void watchErrorCb(void*, uint64_t, int);
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*/
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import "C"
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import (
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"encoding/binary"
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"fmt"
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"math"
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"sync"
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"time"
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"unsafe"
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"github.com/ceph/go-ceph/internal/log"
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)
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type (
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// WatcherID is the unique id of a Watcher.
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WatcherID uint64
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// NotifyID is the unique id of a NotifyEvent.
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NotifyID uint64
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// NotifierID is the unique id of a notifying client.
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NotifierID uint64
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)
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// NotifyEvent is received by a watcher for each notification.
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type NotifyEvent struct {
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ID NotifyID
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WatcherID WatcherID
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NotifierID NotifierID
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Data []byte
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}
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// NotifyAck represents an acknowleged notification.
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type NotifyAck struct {
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WatcherID WatcherID
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NotifierID NotifierID
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Response []byte
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}
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// NotifyTimeout represents an unacknowleged notification.
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type NotifyTimeout struct {
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WatcherID WatcherID
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NotifierID NotifierID
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}
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// Watcher receives all notifications for certain object.
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type Watcher struct {
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id WatcherID
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oid string
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ioctx *IOContext
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events chan NotifyEvent
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errors chan error
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done chan struct{}
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}
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var (
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watchers = map[WatcherID]*Watcher{}
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watchersMtx sync.RWMutex
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)
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// Watch creates a Watcher for the specified object.
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//
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// A Watcher receives all notifications that are sent to the object on which it
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// has been created. It exposes two read-only channels: Events() receives all
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// the NotifyEvents and Errors() receives all occuring errors. A typical code
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// creating a Watcher could look like this:
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//
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// watcher, err := ioctx.Watch(oid)
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// go func() { // event handler
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// for ne := range watcher.Events() {
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// ...
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// ne.Ack([]byte("response data..."))
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// ...
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// }
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// }()
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// go func() { // error handler
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// for err := range watcher.Errors() {
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// ... handle err ...
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// }
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// }()
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//
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// CAUTION: the Watcher references the IOContext in which it has been created.
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// Therefore all watchers must be deleted with the Delete() method before the
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// IOContext is being destroyed.
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//
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// Implements:
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// int rados_watch2(rados_ioctx_t io, const char* o, uint64_t* cookie,
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// rados_watchcb2_t watchcb, rados_watcherrcb_t watcherrcb, void* arg)
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func (ioctx *IOContext) Watch(obj string) (*Watcher, error) {
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return ioctx.WatchWithTimeout(obj, 0)
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}
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// WatchWithTimeout creates a watcher on an object. Same as Watcher(), but
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// different timeout than the default can be specified.
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//
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// Implements:
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// int rados_watch3(rados_ioctx_t io, const char *o, uint64_t *cookie,
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// rados_watchcb2_t watchcb, rados_watcherrcb_t watcherrcb, uint32_t timeout,
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// void *arg);
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func (ioctx *IOContext) WatchWithTimeout(oid string, timeout time.Duration) (*Watcher, error) {
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cObj := C.CString(oid)
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defer C.free(unsafe.Pointer(cObj))
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var id C.uint64_t
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watchersMtx.Lock()
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defer watchersMtx.Unlock()
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ret := C.rados_watch3(
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ioctx.ioctx,
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cObj,
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&id,
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(C.rados_watchcb2_t)(C.watchNotifyCb),
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(C.rados_watcherrcb_t)(C.watchErrorCb),
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C.uint32_t(timeout.Milliseconds()/1000),
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nil,
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)
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if err := getError(ret); err != nil {
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return nil, err
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}
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evCh := make(chan NotifyEvent)
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errCh := make(chan error)
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w := &Watcher{
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id: WatcherID(id),
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ioctx: ioctx,
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oid: oid,
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events: evCh,
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errors: errCh,
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done: make(chan struct{}),
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}
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watchers[WatcherID(id)] = w
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return w, nil
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}
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// ID returns the WatcherId of the Watcher
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func (w *Watcher) ID() WatcherID {
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return w.id
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}
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// Events returns a read-only channel, that receives all notifications that are
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// sent to the object of the Watcher.
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func (w *Watcher) Events() <-chan NotifyEvent {
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return w.events
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}
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// Errors returns a read-only channel, that receives all errors for the Watcher.
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func (w *Watcher) Errors() <-chan error {
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return w.errors
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}
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// Check on the status of a Watcher.
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//
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// Returns the time since it was last confirmed. If there is an error, the
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// Watcher is no longer valid, and should be destroyed with the Delete() method.
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//
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// Implements:
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// int rados_watch_check(rados_ioctx_t io, uint64_t cookie)
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func (w *Watcher) Check() (time.Duration, error) {
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ret := C.rados_watch_check(w.ioctx.ioctx, C.uint64_t(w.id))
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if ret < 0 {
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return 0, getError(ret)
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}
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return time.Millisecond * time.Duration(ret), nil
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}
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// Delete the watcher. This closes both the event and error channel.
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//
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// Implements:
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// int rados_unwatch2(rados_ioctx_t io, uint64_t cookie)
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func (w *Watcher) Delete() error {
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watchersMtx.Lock()
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_, ok := watchers[w.id]
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if ok {
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delete(watchers, w.id)
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}
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watchersMtx.Unlock()
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if !ok {
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return nil
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}
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ret := C.rados_unwatch2(w.ioctx.ioctx, C.uint64_t(w.id))
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if ret != 0 {
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return getError(ret)
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}
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close(w.done) // unblock blocked callbacks
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close(w.events)
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close(w.errors)
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return nil
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}
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// Notify sends a notification with the provided data to all Watchers of the
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// specified object.
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//
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// CAUTION: even if the error is not nil. the returned slices
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// might still contain data.
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func (ioctx *IOContext) Notify(obj string, data []byte) ([]NotifyAck, []NotifyTimeout, error) {
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return ioctx.NotifyWithTimeout(obj, data, 0)
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}
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// NotifyWithTimeout is like Notify() but with a different timeout than the
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// default.
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//
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// Implements:
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// int rados_notify2(rados_ioctx_t io, const char* o, const char* buf, int buf_len,
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// uint64_t timeout_ms, char** reply_buffer, size_t* reply_buffer_len)
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func (ioctx *IOContext) NotifyWithTimeout(obj string, data []byte, timeout time.Duration) ([]NotifyAck,
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[]NotifyTimeout, error) {
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cObj := C.CString(obj)
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defer C.free(unsafe.Pointer(cObj))
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var cResponse *C.char
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defer C.rados_buffer_free(cResponse)
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var responseLen C.size_t
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var dataPtr *C.char
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if len(data) > 0 {
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dataPtr = (*C.char)(unsafe.Pointer(&data[0]))
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}
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ret := C.rados_notify2(
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ioctx.ioctx,
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cObj,
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dataPtr,
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C.int(len(data)),
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C.uint64_t(timeout.Milliseconds()),
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&cResponse,
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&responseLen,
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)
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// cResponse has been set even if an error is returned, so we decode it anyway
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acks, timeouts := decodeNotifyResponse(cResponse, responseLen)
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return acks, timeouts, getError(ret)
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}
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// Ack sends an acknowledgement with the specified response data to the notfier
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// of the NotifyEvent. If a notify is not ack'ed, the originating Notify() call
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// blocks and eventiually times out.
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//
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// Implements:
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// int rados_notify_ack(rados_ioctx_t io, const char *o, uint64_t notify_id,
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// uint64_t cookie, const char *buf, int buf_len)
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func (ne *NotifyEvent) Ack(response []byte) error {
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watchersMtx.RLock()
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w, ok := watchers[ne.WatcherID]
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watchersMtx.RUnlock()
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if !ok {
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return fmt.Errorf("can't ack on deleted watcher %v", ne.WatcherID)
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}
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cOID := C.CString(w.oid)
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defer C.free(unsafe.Pointer(cOID))
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var respPtr *C.char
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if len(response) > 0 {
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respPtr = (*C.char)(unsafe.Pointer(&response[0]))
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}
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ret := C.rados_notify_ack(
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w.ioctx.ioctx,
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cOID,
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C.uint64_t(ne.ID),
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C.uint64_t(ne.WatcherID),
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respPtr,
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C.int(len(response)),
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)
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return getError(ret)
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}
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// WatcherFlush flushes all pending notifications of the cluster.
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//
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// Implements:
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// int rados_watch_flush(rados_t cluster)
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func (c *Conn) WatcherFlush() error {
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if !c.connected {
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return ErrNotConnected
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}
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ret := C.rados_watch_flush(c.cluster)
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return getError(ret)
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}
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// decoder for this notify response format:
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// le32 num_acks
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// {
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// le64 gid global id for the client (for client.1234 that's 1234)
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// le64 cookie cookie for the client
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// le32 buflen length of reply message buffer
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// u8 buflen payload
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// } num_acks
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// le32 num_timeouts
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// {
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// le64 gid global id for the client
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// le64 cookie cookie for the client
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// } num_timeouts
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//
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// NOTE: starting with pacific this is implemented as a C function and this can
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// be replaced later
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func decodeNotifyResponse(response *C.char, len C.size_t) ([]NotifyAck, []NotifyTimeout) {
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if len == 0 || response == nil {
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return nil, nil
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}
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b := (*[math.MaxInt32]byte)(unsafe.Pointer(response))[:len:len]
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pos := 0
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num := binary.LittleEndian.Uint32(b[pos:])
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pos += 4
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acks := make([]NotifyAck, num)
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for i := range acks {
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acks[i].NotifierID = NotifierID(binary.LittleEndian.Uint64(b[pos:]))
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pos += 8
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acks[i].WatcherID = WatcherID(binary.LittleEndian.Uint64(b[pos:]))
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pos += 8
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dataLen := binary.LittleEndian.Uint32(b[pos:])
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pos += 4
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if dataLen > 0 {
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acks[i].Response = C.GoBytes(unsafe.Pointer(&b[pos]), C.int(dataLen))
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pos += int(dataLen)
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}
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}
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num = binary.LittleEndian.Uint32(b[pos:])
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pos += 4
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timeouts := make([]NotifyTimeout, num)
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for i := range timeouts {
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timeouts[i].NotifierID = NotifierID(binary.LittleEndian.Uint64(b[pos:]))
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pos += 8
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timeouts[i].WatcherID = WatcherID(binary.LittleEndian.Uint64(b[pos:]))
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pos += 8
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}
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return acks, timeouts
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}
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//export watchNotifyCb
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func watchNotifyCb(_ unsafe.Pointer, notifyID C.uint64_t, id C.uint64_t,
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notifierID C.uint64_t, cData unsafe.Pointer, dataLen C.size_t) {
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ev := NotifyEvent{
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ID: NotifyID(notifyID),
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WatcherID: WatcherID(id),
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NotifierID: NotifierID(notifierID),
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}
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if dataLen > 0 {
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ev.Data = C.GoBytes(cData, C.int(dataLen))
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}
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watchersMtx.RLock()
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w, ok := watchers[WatcherID(id)]
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watchersMtx.RUnlock()
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if !ok {
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// usually this should not happen, but who knows
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log.Warnf("received notification for unknown watcher ID: %#v", ev)
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return
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}
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select {
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case <-w.done: // unblock when deleted
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case w.events <- ev:
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}
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}
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//export watchErrorCb
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func watchErrorCb(_ unsafe.Pointer, id C.uint64_t, err C.int) {
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watchersMtx.RLock()
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w, ok := watchers[WatcherID(id)]
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watchersMtx.RUnlock()
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if !ok {
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// usually this should not happen, but who knows
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log.Warnf("received error for unknown watcher ID: id=%d err=%#v", id, err)
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return
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}
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select {
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case <-w.done: // unblock when deleted
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case w.errors <- getError(err):
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}
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}
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