engines/rbd.c - fp2-dev/platform/external/fio - Gitiles

 /*
  * rbd engine
  *
  * IO engine using Ceph's librbd to test RADOS Block Devices.
  *
  */

 #include <rbd/librbd.h>

 #include "../fio.h"

 struct fio_rbd_iou {
 	struct io_u *io_u;
 	int io_complete;
 };

 struct rbd_data {
 	rados_t cluster;
 	rados_ioctx_t io_ctx;
 	rbd_image_t image;
 	struct io_u **aio_events;
 };

 struct rbd_options {
 	struct thread_data *td;
 	char *rbd_name;
 	char *pool_name;
 	char *client_name;
 };

 static struct fio_option options[] = {
 	{
 	 .name     = "rbdname",
 	 .lname    = "rbd engine rbdname",
 	 .type     = FIO_OPT_STR_STORE,
 	 .help     = "RBD name for RBD engine",
 	 .off1     = offsetof(struct rbd_options, rbd_name),
 	 .category = FIO_OPT_C_ENGINE,
 	 .group    = FIO_OPT_G_RBD,
 	 },
 	{
 	 .name     = "pool",
 	 .lname    = "rbd engine pool",
 	 .type     = FIO_OPT_STR_STORE,
 	 .help     = "Name of the pool hosting the RBD for the RBD engine",
 	 .off1     = offsetof(struct rbd_options, pool_name),
 	 .category = FIO_OPT_C_ENGINE,
 	 .group    = FIO_OPT_G_RBD,
 	 },
 	{
 	 .name     = "clientname",
 	 .lname    = "rbd engine clientname",
 	 .type     = FIO_OPT_STR_STORE,
 	 .help     = "Name of the ceph client to access the RBD for the RBD engine",
 	 .off1     = offsetof(struct rbd_options, client_name),
 	 .category = FIO_OPT_C_ENGINE,
 	 .group    = FIO_OPT_G_RBD,
 	 },
 	{
 	 .name = NULL,
 	 },
 };

 static int _fio_setup_rbd_data(struct thread_data *td,
 			       struct rbd_data **rbd_data_ptr)
 {
 	struct rbd_data *rbd_data;

 	if (td->io_ops->data)
 		return 0;

 	rbd_data = malloc(sizeof(struct rbd_data));
 	if (!rbd_data)
 		goto failed;

 	memset(rbd_data, 0, sizeof(struct rbd_data));

 	rbd_data->aio_events = malloc(td->o.iodepth * sizeof(struct io_u *));
 	if (!rbd_data->aio_events)
 		goto failed;

 	memset(rbd_data->aio_events, 0, td->o.iodepth * sizeof(struct io_u *));

 	*rbd_data_ptr = rbd_data;

 	return 0;

 failed:
 	return 1;

 }

 static int _fio_rbd_connect(struct thread_data *td)
 {
 	struct rbd_data *rbd_data = td->io_ops->data;
 	struct rbd_options *o = td->eo;
 	int r;

 	r = rados_create(&(rbd_data->cluster), o->client_name);
 	if (r < 0) {
 		log_err("rados_create failed.\n");
 		goto failed_early;
 	}

 	r = rados_conf_read_file(rbd_data->cluster, NULL);
 	if (r < 0) {
 		log_err("rados_conf_read_file failed.\n");
 		goto failed_early;
 	}

 	r = rados_connect(rbd_data->cluster);
 	if (r < 0) {
 		log_err("rados_connect failed.\n");
 		goto failed_shutdown;
 	}

 	r = rados_ioctx_create(rbd_data->cluster, o->pool_name,
 			       &(rbd_data->io_ctx));
 	if (r < 0) {
 		log_err("rados_ioctx_create failed.\n");
 		goto failed_shutdown;
 	}

 	r = rbd_open(rbd_data->io_ctx, o->rbd_name, &(rbd_data->image),
 		     NULL /*snap */ );
 	if (r < 0) {
 		log_err("rbd_open failed.\n");
 		goto failed_open;
 	}
 	return 0;

 failed_open:
 	rados_ioctx_destroy(rbd_data->io_ctx);
 failed_shutdown:
 	rados_shutdown(rbd_data->cluster);
 failed_early:
 	return 1;
 }

 static void _fio_rbd_disconnect(struct rbd_data *rbd_data)
 {
 	if (!rbd_data)
 		return;

 	/* shutdown everything */
 	if (rbd_data->image) {
 		rbd_close(rbd_data->image);
 		rbd_data->image = NULL;
 	}

 	if (rbd_data->io_ctx) {
 		rados_ioctx_destroy(rbd_data->io_ctx);
 		rbd_data->io_ctx = NULL;
 	}

 	if (rbd_data->cluster) {
 		rados_shutdown(rbd_data->cluster);
 		rbd_data->cluster = NULL;
 	}
 }

 static void _fio_rbd_finish_write_aiocb(rbd_completion_t comp, void *data)
 {
 	struct io_u *io_u = (struct io_u *)data;
 	struct fio_rbd_iou *fio_rbd_iou =
 	    (struct fio_rbd_iou *)io_u->engine_data;

 	fio_rbd_iou->io_complete = 1;

 	/* if write needs to be verified - we should not release comp here
 	   without fetching the result */

 	rbd_aio_release(comp);
 	/* TODO handle error */

 	return;
 }

 static void _fio_rbd_finish_read_aiocb(rbd_completion_t comp, void *data)
 {
 	struct io_u *io_u = (struct io_u *)data;
 	struct fio_rbd_iou *fio_rbd_iou =
 	    (struct fio_rbd_iou *)io_u->engine_data;

 	fio_rbd_iou->io_complete = 1;

 	/* if read needs to be verified - we should not release comp here
 	   without fetching the result */
 	rbd_aio_release(comp);

 	/* TODO handle error */

 	return;
 }

 static struct io_u *fio_rbd_event(struct thread_data *td, int event)
 {
 	struct rbd_data *rbd_data = td->io_ops->data;

 	return rbd_data->aio_events[event];
 }

 static int fio_rbd_getevents(struct thread_data *td, unsigned int min,
 			     unsigned int max, struct timespec *t)
 {
 	struct rbd_data *rbd_data = td->io_ops->data;
 	unsigned int events = 0;
 	struct io_u *io_u;
 	int i;
 	struct fio_rbd_iou *fov;

 	do {
 		io_u_qiter(&td->io_u_all, io_u, i) {
 			if (!(io_u->flags & IO_U_F_FLIGHT))
 				continue;

 			fov = (struct fio_rbd_iou *)io_u->engine_data;

 			if (fov->io_complete) {
 				fov->io_complete = 0;
 				rbd_data->aio_events[events] = io_u;
 				events++;
 			}

 		}
 		if (events < min)
 			usleep(100);
 		else
 			break;

 	} while (1);

 	return events;
 }

 static int fio_rbd_queue(struct thread_data *td, struct io_u *io_u)
 {
 	int r = -1;
 	struct rbd_data *rbd_data = td->io_ops->data;
 	rbd_completion_t comp;

 	fio_ro_check(td, io_u);

 	if (io_u->ddir == DDIR_WRITE) {
 		r = rbd_aio_create_completion(io_u,
 					      (rbd_callback_t)
 					      _fio_rbd_finish_write_aiocb,
 					      &comp);
 		if (r < 0) {
 			log_err
 			    ("rbd_aio_create_completion for DDIR_WRITE failed.\n");
 			goto failed;
 		}

 		r = rbd_aio_write(rbd_data->image, io_u->offset,
 				  io_u->xfer_buflen, io_u->xfer_buf, comp);
 		if (r < 0) {
 			log_err("rbd_aio_write failed.\n");
 			goto failed;
 		}

 	} else if (io_u->ddir == DDIR_READ) {
 		r = rbd_aio_create_completion(io_u,
 					      (rbd_callback_t)
 					      _fio_rbd_finish_read_aiocb,
 					      &comp);
 		if (r < 0) {
 			log_err
 			    ("rbd_aio_create_completion for DDIR_READ failed.\n");
 			goto failed;
 		}

 		r = rbd_aio_read(rbd_data->image, io_u->offset,
 				 io_u->xfer_buflen, io_u->xfer_buf, comp);

 		if (r < 0) {
 			log_err("rbd_aio_read failed.\n");
 			goto failed;
 		}

 	} else if (io_u->ddir == DDIR_SYNC) {
 		r = rbd_flush(rbd_data->image);
 		if (r < 0) {
 			log_err("rbd_flush failed.\n");
 			goto failed;
 		}

 		return FIO_Q_COMPLETED;
 	} else {
 		dprint(FD_IO, "%s: Warning: unhandled ddir: %d\n", __func__,
 		       io_u->ddir);
 		return FIO_Q_COMPLETED;
 	}

 	return FIO_Q_QUEUED;

 failed:
 	io_u->error = r;
 	td_verror(td, io_u->error, "xfer");
 	return FIO_Q_COMPLETED;
 }

 static int fio_rbd_init(struct thread_data *td)
 {
 	int r;

 	r = _fio_rbd_connect(td);
 	if (r) {
 		log_err("fio_rbd_connect failed, return code: %d .\n", r);
 		goto failed;
 	}

 	return 0;

 failed:
 	return 1;

 }

 static void fio_rbd_cleanup(struct thread_data *td)
 {
 	struct rbd_data *rbd_data = td->io_ops->data;

 	if (rbd_data) {
 		_fio_rbd_disconnect(rbd_data);
 		free(rbd_data->aio_events);
 		free(rbd_data);
 	}

 }

 static int fio_rbd_setup(struct thread_data *td)
 {
 	int r = 0;
 	rbd_image_info_t info;
 	struct fio_file *f;
 	struct rbd_data *rbd_data = NULL;
 	int major, minor, extra;

 	/* log version of librbd. No cluster connection required. */
 	rbd_version(&major, &minor, &extra);
 	log_info("rbd engine: RBD version: %d.%d.%d\n", major, minor, extra);

 	/* allocate engine specific structure to deal with librbd. */
 	r = _fio_setup_rbd_data(td, &rbd_data);
 	if (r) {
 		log_err("fio_setup_rbd_data failed.\n");
 		goto cleanup;
 	}
 	td->io_ops->data = rbd_data;

 	/* librbd does not allow us to run first in the main thread and later in a
 	 * fork child. It needs to be the same process context all the time.
 	 */
 	td->o.use_thread = 1;

 	/* connect in the main thread to determine to determine
 	 * the size of the given RADOS block device. And disconnect
 	 * later on.
 	 */
 	r = _fio_rbd_connect(td);
 	if (r) {
 		log_err("fio_rbd_connect failed.\n");
 		goto cleanup;
 	}

 	/* get size of the RADOS block device */
 	r = rbd_stat(rbd_data->image, &info, sizeof(info));
 	if (r < 0) {
 		log_err("rbd_status failed.\n");
 		goto disconnect;
 	}
 	dprint(FD_IO, "rbd-engine: image size: %lu\n", info.size);

 	/* taken from "net" engine. Pretend we deal with files,
 	 * even if we do not have any ideas about files.
 	 * The size of the RBD is set instead of a artificial file.
 	 */
 	if (!td->files_index) {
 		add_file(td, td->o.filename ? : "rbd", 0, 0);
 		td->o.nr_files = td->o.nr_files ? : 1;
 	}
 	f = td->files[0];
 	f->real_file_size = info.size;

 	/* disconnect, then we were only connected to determine
 	 * the size of the RBD.
 	 */
 	_fio_rbd_disconnect(rbd_data);
 	return 0;

 disconnect:
 	_fio_rbd_disconnect(rbd_data);
 cleanup:
 	fio_rbd_cleanup(td);
 	return r;
 }

 static int fio_rbd_open(struct thread_data *td, struct fio_file *f)
 {
 	return 0;
 }

 static void fio_rbd_io_u_free(struct thread_data *td, struct io_u *io_u)
 {
 	struct fio_rbd_iou *o = io_u->engine_data;

 	if (o) {
 		io_u->engine_data = NULL;
 		free(o);
 	}
 }

 static int fio_rbd_io_u_init(struct thread_data *td, struct io_u *io_u)
 {
 	struct fio_rbd_iou *o;

 	o = malloc(sizeof(*o));
 	o->io_complete = 0;
 	o->io_u = io_u;
 	io_u->engine_data = o;
 	return 0;
 }

 struct ioengine_ops ioengine = {
 	.name               = "rbd",
 	.version            = FIO_IOOPS_VERSION,
 	.setup              = fio_rbd_setup,
 	.init               = fio_rbd_init,
 	.queue              = fio_rbd_queue,
 	.getevents          = fio_rbd_getevents,
 	.event              = fio_rbd_event,
 	.cleanup            = fio_rbd_cleanup,
 	.open_file          = fio_rbd_open,
 	.options            = options,
 	.io_u_init          = fio_rbd_io_u_init,
 	.io_u_free          = fio_rbd_io_u_free,
 	.option_struct_size = sizeof(struct rbd_options),
 };

 static void fio_init fio_rbd_register(void)
 {
 	register_ioengine(&ioengine);
 }

 static void fio_exit fio_rbd_unregister(void)
 {
 	unregister_ioengine(&ioengine);
 }
	/*
	* rbd engine
	*
	* IO engine using Ceph's librbd to test RADOS Block Devices.
	*
	*/

	#include <rbd/librbd.h>

	#include "../fio.h"

	struct fio_rbd_iou {
	struct io_u *io_u;
	int io_complete;
	};

	struct rbd_data {
	rados_t cluster;
	rados_ioctx_t io_ctx;
	rbd_image_t image;
	struct io_u **aio_events;
	};

	struct rbd_options {
	struct thread_data *td;
	char *rbd_name;
	char *pool_name;
	char *client_name;
	};

	static struct fio_option options[] = {
	{
	.name = "rbdname",
	.lname = "rbd engine rbdname",
	.type = FIO_OPT_STR_STORE,
	.help = "RBD name for RBD engine",
	.off1 = offsetof(struct rbd_options, rbd_name),
	.category = FIO_OPT_C_ENGINE,
	.group = FIO_OPT_G_RBD,
	},
	{
	.name = "pool",
	.lname = "rbd engine pool",
	.type = FIO_OPT_STR_STORE,
	.help = "Name of the pool hosting the RBD for the RBD engine",
	.off1 = offsetof(struct rbd_options, pool_name),
	.category = FIO_OPT_C_ENGINE,
	.group = FIO_OPT_G_RBD,
	},
	{
	.name = "clientname",
	.lname = "rbd engine clientname",
	.type = FIO_OPT_STR_STORE,
	.help = "Name of the ceph client to access the RBD for the RBD engine",
	.off1 = offsetof(struct rbd_options, client_name),
	.category = FIO_OPT_C_ENGINE,
	.group = FIO_OPT_G_RBD,
	},
	{
	.name = NULL,
	},
	};

	static int _fio_setup_rbd_data(struct thread_data *td,
	struct rbd_data **rbd_data_ptr)
	{
	struct rbd_data *rbd_data;

	if (td->io_ops->data)
	return 0;

	rbd_data = malloc(sizeof(struct rbd_data));
	if (!rbd_data)
	goto failed;

	memset(rbd_data, 0, sizeof(struct rbd_data));

	rbd_data->aio_events = malloc(td->o.iodepth * sizeof(struct io_u *));
	if (!rbd_data->aio_events)
	goto failed;

	memset(rbd_data->aio_events, 0, td->o.iodepth * sizeof(struct io_u *));

	*rbd_data_ptr = rbd_data;

	return 0;

	failed:
	return 1;

	}

	static int _fio_rbd_connect(struct thread_data *td)
	{
	struct rbd_data *rbd_data = td->io_ops->data;
	struct rbd_options *o = td->eo;
	int r;

	r = rados_create(&(rbd_data->cluster), o->client_name);
	if (r < 0) {
	log_err("rados_create failed.\n");
	goto failed_early;
	}

	r = rados_conf_read_file(rbd_data->cluster, NULL);
	if (r < 0) {
	log_err("rados_conf_read_file failed.\n");
	goto failed_early;
	}

	r = rados_connect(rbd_data->cluster);
	if (r < 0) {
	log_err("rados_connect failed.\n");
	goto failed_shutdown;
	}

	r = rados_ioctx_create(rbd_data->cluster, o->pool_name,
	&(rbd_data->io_ctx));
	if (r < 0) {
	log_err("rados_ioctx_create failed.\n");
	goto failed_shutdown;
	}

	r = rbd_open(rbd_data->io_ctx, o->rbd_name, &(rbd_data->image),
	NULL /snap / );
	if (r < 0) {
	log_err("rbd_open failed.\n");
	goto failed_open;
	}
	return 0;

	failed_open:
	rados_ioctx_destroy(rbd_data->io_ctx);
	failed_shutdown:
	rados_shutdown(rbd_data->cluster);
	failed_early:
	return 1;
	}

	static void _fio_rbd_disconnect(struct rbd_data *rbd_data)
	{
	if (!rbd_data)
	return;

	/* shutdown everything */
	if (rbd_data->image) {
	rbd_close(rbd_data->image);
	rbd_data->image = NULL;
	}

	if (rbd_data->io_ctx) {
	rados_ioctx_destroy(rbd_data->io_ctx);
	rbd_data->io_ctx = NULL;
	}

	if (rbd_data->cluster) {
	rados_shutdown(rbd_data->cluster);
	rbd_data->cluster = NULL;
	}
	}

	static void _fio_rbd_finish_write_aiocb(rbd_completion_t comp, void *data)
	{
	struct io_u io_u = (struct io_u )data;
	struct fio_rbd_iou *fio_rbd_iou =
	(struct fio_rbd_iou *)io_u->engine_data;

	fio_rbd_iou->io_complete = 1;

	/* if write needs to be verified - we should not release comp here
	without fetching the result */

	rbd_aio_release(comp);
	/* TODO handle error */

	return;
	}

	static void _fio_rbd_finish_read_aiocb(rbd_completion_t comp, void *data)
	{
	struct io_u io_u = (struct io_u )data;
	struct fio_rbd_iou *fio_rbd_iou =
	(struct fio_rbd_iou *)io_u->engine_data;

	fio_rbd_iou->io_complete = 1;

	/* if read needs to be verified - we should not release comp here
	without fetching the result */
	rbd_aio_release(comp);

	/* TODO handle error */

	return;
	}

	static struct io_u fio_rbd_event(struct thread_data td, int event)
	{
	struct rbd_data *rbd_data = td->io_ops->data;

	return rbd_data->aio_events[event];
	}

	static int fio_rbd_getevents(struct thread_data *td, unsigned int min,
	unsigned int max, struct timespec *t)
	{
	struct rbd_data *rbd_data = td->io_ops->data;
	unsigned int events = 0;
	struct io_u *io_u;
	int i;
	struct fio_rbd_iou *fov;

	do {
	io_u_qiter(&td->io_u_all, io_u, i) {
	if (!(io_u->flags & IO_U_F_FLIGHT))
	continue;

	fov = (struct fio_rbd_iou *)io_u->engine_data;

	if (fov->io_complete) {
	fov->io_complete = 0;
	rbd_data->aio_events[events] = io_u;
	events++;
	}

	}
	if (events < min)
	usleep(100);
	else
	break;

	} while (1);

	return events;
	}

	static int fio_rbd_queue(struct thread_data td, struct io_u io_u)
	{
	int r = -1;
	struct rbd_data *rbd_data = td->io_ops->data;
	rbd_completion_t comp;

	fio_ro_check(td, io_u);

	if (io_u->ddir == DDIR_WRITE) {
	r = rbd_aio_create_completion(io_u,
	(rbd_callback_t)
	_fio_rbd_finish_write_aiocb,
	&comp);
	if (r < 0) {
	log_err
	("rbd_aio_create_completion for DDIR_WRITE failed.\n");
	goto failed;
	}

	r = rbd_aio_write(rbd_data->image, io_u->offset,
	io_u->xfer_buflen, io_u->xfer_buf, comp);
	if (r < 0) {
	log_err("rbd_aio_write failed.\n");
	goto failed;
	}

	} else if (io_u->ddir == DDIR_READ) {
	r = rbd_aio_create_completion(io_u,
	(rbd_callback_t)
	_fio_rbd_finish_read_aiocb,
	&comp);
	if (r < 0) {
	log_err
	("rbd_aio_create_completion for DDIR_READ failed.\n");
	goto failed;
	}

	r = rbd_aio_read(rbd_data->image, io_u->offset,
	io_u->xfer_buflen, io_u->xfer_buf, comp);

	if (r < 0) {
	log_err("rbd_aio_read failed.\n");
	goto failed;
	}

	} else if (io_u->ddir == DDIR_SYNC) {
	r = rbd_flush(rbd_data->image);
	if (r < 0) {
	log_err("rbd_flush failed.\n");
	goto failed;
	}

	return FIO_Q_COMPLETED;
	} else {
	dprint(FD_IO, "%s: Warning: unhandled ddir: %d\n", __func__,
	io_u->ddir);
	return FIO_Q_COMPLETED;
	}

	return FIO_Q_QUEUED;

	failed:
	io_u->error = r;
	td_verror(td, io_u->error, "xfer");
	return FIO_Q_COMPLETED;
	}

	static int fio_rbd_init(struct thread_data *td)
	{
	int r;

	r = _fio_rbd_connect(td);
	if (r) {
	log_err("fio_rbd_connect failed, return code: %d .\n", r);
	goto failed;
	}

	return 0;

	failed:
	return 1;

	}

	static void fio_rbd_cleanup(struct thread_data *td)
	{
	struct rbd_data *rbd_data = td->io_ops->data;

	if (rbd_data) {
	_fio_rbd_disconnect(rbd_data);
	free(rbd_data->aio_events);
	free(rbd_data);
	}

	}

	static int fio_rbd_setup(struct thread_data *td)
	{
	int r = 0;
	rbd_image_info_t info;
	struct fio_file *f;
	struct rbd_data *rbd_data = NULL;
	int major, minor, extra;

	/* log version of librbd. No cluster connection required. */
	rbd_version(&major, &minor, &extra);
	log_info("rbd engine: RBD version: %d.%d.%d\n", major, minor, extra);

	/* allocate engine specific structure to deal with librbd. */
	r = _fio_setup_rbd_data(td, &rbd_data);
	if (r) {
	log_err("fio_setup_rbd_data failed.\n");
	goto cleanup;
	}
	td->io_ops->data = rbd_data;

	/* librbd does not allow us to run first in the main thread and later in a
	* fork child. It needs to be the same process context all the time.
	*/
	td->o.use_thread = 1;

	/* connect in the main thread to determine to determine
	* the size of the given RADOS block device. And disconnect
	* later on.
	*/
	r = _fio_rbd_connect(td);
	if (r) {
	log_err("fio_rbd_connect failed.\n");
	goto cleanup;
	}

	/* get size of the RADOS block device */
	r = rbd_stat(rbd_data->image, &info, sizeof(info));
	if (r < 0) {
	log_err("rbd_status failed.\n");
	goto disconnect;
	}
	dprint(FD_IO, "rbd-engine: image size: %lu\n", info.size);

	/* taken from "net" engine. Pretend we deal with files,
	* even if we do not have any ideas about files.
	* The size of the RBD is set instead of a artificial file.
	*/
	if (!td->files_index) {
	add_file(td, td->o.filename ? : "rbd", 0, 0);
	td->o.nr_files = td->o.nr_files ? : 1;
	}
	f = td->files[0];
	f->real_file_size = info.size;

	/* disconnect, then we were only connected to determine
	* the size of the RBD.
	*/
	_fio_rbd_disconnect(rbd_data);
	return 0;

	disconnect:
	_fio_rbd_disconnect(rbd_data);
	cleanup:
	fio_rbd_cleanup(td);
	return r;
	}

	static int fio_rbd_open(struct thread_data td, struct fio_file f)
	{
	return 0;
	}

	static void fio_rbd_io_u_free(struct thread_data td, struct io_u io_u)
	{
	struct fio_rbd_iou *o = io_u->engine_data;

	if (o) {
	io_u->engine_data = NULL;
	free(o);
	}
	}

	static int fio_rbd_io_u_init(struct thread_data td, struct io_u io_u)
	{
	struct fio_rbd_iou *o;

	o = malloc(sizeof(*o));
	o->io_complete = 0;
	o->io_u = io_u;
	io_u->engine_data = o;
	return 0;
	}

	struct ioengine_ops ioengine = {
	.name = "rbd",
	.version = FIO_IOOPS_VERSION,
	.setup = fio_rbd_setup,
	.init = fio_rbd_init,
	.queue = fio_rbd_queue,
	.getevents = fio_rbd_getevents,
	.event = fio_rbd_event,
	.cleanup = fio_rbd_cleanup,
	.open_file = fio_rbd_open,
	.options = options,
	.io_u_init = fio_rbd_io_u_init,
	.io_u_free = fio_rbd_io_u_free,
	.option_struct_size = sizeof(struct rbd_options),
	};

	static void fio_init fio_rbd_register(void)
	{
	register_ioengine(&ioengine);
	}

	static void fio_exit fio_rbd_unregister(void)
	{
	unregister_ioengine(&ioengine);
	}