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/* SPDX-License-Identifier: GPL-2.0 OR BSD-3-Clause */
/*
 * Copyright (c) 2014-2017 Oracle.  All rights reserved.
 * Copyright (c) 2003-2007 Network Appliance, Inc. All rights reserved.
 *
 * This software is available to you under a choice of one of two
 * licenses.  You may choose to be licensed under the terms of the GNU
 * General Public License (GPL) Version 2, available from the file
 * COPYING in the main directory of this source tree, or the BSD-type
 * license below:
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 *
 *      Redistributions of source code must retain the above copyright
 *      notice, this list of conditions and the following disclaimer.
 *
 *      Redistributions in binary form must reproduce the above
 *      copyright notice, this list of conditions and the following
 *      disclaimer in the documentation and/or other materials provided
 *      with the distribution.
 *
 *      Neither the name of the Network Appliance, Inc. nor the names of
 *      its contributors may be used to endorse or promote products
 *      derived from this software without specific prior written
 *      permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 */

#ifndef _LINUX_SUNRPC_XPRT_RDMA_H
#define _LINUX_SUNRPC_XPRT_RDMA_H

#include <linux/wait.h> 		/* wait_queue_head_t, etc */
#include <linux/spinlock.h> 		/* spinlock_t, etc */
#include <linux/atomic.h>			/* atomic_t, etc */
#include <linux/workqueue.h>		/* struct work_struct */

#include <rdma/rdma_cm.h>		/* RDMA connection api */
#include <rdma/ib_verbs.h>		/* RDMA verbs api */

#include <linux/sunrpc/clnt.h> 		/* rpc_xprt */
#include <linux/sunrpc/rpc_rdma.h> 	/* RPC/RDMA protocol */
#include <linux/sunrpc/xprtrdma.h> 	/* xprt parameters */

#define RDMA_RESOLVE_TIMEOUT	(5000)	/* 5 seconds */
#define RDMA_CONNECT_RETRY_MAX	(2)	/* retries if no listener backlog */

#define RPCRDMA_BIND_TO		(60U * HZ)
#define RPCRDMA_INIT_REEST_TO	(5U * HZ)
#define RPCRDMA_MAX_REEST_TO	(30U * HZ)
#define RPCRDMA_IDLE_DISC_TO	(5U * 60 * HZ)

/*
 * Interface Adapter -- one per transport instance
 */
struct rpcrdma_ia {
	const struct rpcrdma_memreg_ops	*ri_ops;
	struct ib_device	*ri_device;
	struct rdma_cm_id 	*ri_id;
	struct ib_pd		*ri_pd;
	struct completion	ri_done;
	struct completion	ri_remove_done;
	int			ri_async_rc;
	unsigned int		ri_max_segs;
	unsigned int		ri_max_frwr_depth;
	unsigned int		ri_max_inline_write;
	unsigned int		ri_max_inline_read;
	unsigned int		ri_max_send_sges;
	bool			ri_implicit_roundup;
	enum ib_mr_type		ri_mrtype;
	unsigned long		ri_flags;
	struct ib_qp_attr	ri_qp_attr;
	struct ib_qp_init_attr	ri_qp_init_attr;
};

enum {
	RPCRDMA_IAF_REMOVING = 0,
};

/*
 * RDMA Endpoint -- one per transport instance
 */

struct rpcrdma_ep {
	unsigned int		rep_send_count;
	unsigned int		rep_send_batch;
	int			rep_connected;
	struct ib_qp_init_attr	rep_attr;
	wait_queue_head_t 	rep_connect_wait;
	struct rpcrdma_connect_private	rep_cm_private;
	struct rdma_conn_param	rep_remote_cma;
	struct delayed_work	rep_disconnect_worker;
	int			rep_receive_count;
};

/* Pre-allocate extra Work Requests for handling backward receives
 * and sends. This is a fixed value because the Work Queues are
 * allocated when the forward channel is set up.
 */
#if defined(CONFIG_SUNRPC_BACKCHANNEL)
#define RPCRDMA_BACKWARD_WRS		(8)
#else
#define RPCRDMA_BACKWARD_WRS		(0)
#endif

/* Registered buffer -- registered kmalloc'd memory for RDMA SEND/RECV
 *
 * The below structure appears at the front of a large region of kmalloc'd
 * memory, which always starts on a good alignment boundary.
 */

struct rpcrdma_regbuf {
	struct ib_sge		rg_iov;
	struct ib_device	*rg_device;
	enum dma_data_direction	rg_direction;
	__be32			rg_base[0] __attribute__ ((aligned(256)));
};

static inline u64
rdmab_addr(struct rpcrdma_regbuf *rb)
{
	return rb->rg_iov.addr;
}

static inline u32
rdmab_length(struct rpcrdma_regbuf *rb)
{
	return rb->rg_iov.length;
}

static inline u32
rdmab_lkey(struct rpcrdma_regbuf *rb)
{
	return rb->rg_iov.lkey;
}

static inline struct ib_device *
rdmab_device(struct rpcrdma_regbuf *rb)
{
	return rb->rg_device;
}

#define RPCRDMA_DEF_GFP		(GFP_NOIO | __GFP_NOWARN)

/* To ensure a transport can always make forward progress,
 * the number of RDMA segments allowed in header chunk lists
 * is capped at 8. This prevents less-capable devices and
 * memory registrations from overrunning the Send buffer
 * while building chunk lists.
 *
 * Elements of the Read list take up more room than the
 * Write list or Reply chunk. 8 read segments means the Read
 * list (or Write list or Reply chunk) cannot consume more
 * than
 *
 * ((8 + 2) * read segment size) + 1 XDR words, or 244 bytes.
 *
 * And the fixed part of the header is another 24 bytes.
 *
 * The smallest inline threshold is 1024 bytes, ensuring that
 * at least 750 bytes are available for RPC messages.
 */
enum {
	RPCRDMA_MAX_HDR_SEGS = 8,
	RPCRDMA_HDRBUF_SIZE = 256,
};

/*
 * struct rpcrdma_rep -- this structure encapsulates state required
 * to receive and complete an RPC Reply, asychronously. It needs
 * several pieces of state:
 *
 *   o receive buffer and ib_sge (donated to provider)
 *   o status of receive (success or not, length, inv rkey)
 *   o bookkeeping state to get run by reply handler (XDR stream)
 *
 * These structures are allocated during transport initialization.
 * N of these are associated with a transport instance, managed by
 * struct rpcrdma_buffer. N is the max number of outstanding RPCs.
 */

struct rpcrdma_rep {
	struct ib_cqe		rr_cqe;
	__be32			rr_xid;
	__be32			rr_vers;
	__be32			rr_proc;
	int			rr_wc_flags;
	u32			rr_inv_rkey;
	bool			rr_temp;
	struct rpcrdma_regbuf	*rr_rdmabuf;
	struct rpcrdma_xprt	*rr_rxprt;
	struct work_struct	rr_work;
	struct xdr_buf		rr_hdrbuf;
	struct xdr_stream	rr_stream;
	struct rpc_rqst		*rr_rqst;
	struct list_head	rr_list;
	struct ib_recv_wr	rr_recv_wr;
};

/* struct rpcrdma_sendctx - DMA mapped SGEs to unmap after Send completes
 */
struct rpcrdma_req;
struct rpcrdma_xprt;
struct rpcrdma_sendctx {
	struct ib_send_wr	sc_wr;
	struct ib_cqe		sc_cqe;
	struct rpcrdma_xprt	*sc_xprt;
	struct rpcrdma_req	*sc_req;
	unsigned int		sc_unmap_count;
	struct ib_sge		sc_sges[];
};

/* Limit the number of SGEs that can be unmapped during one
 * Send completion. This caps the amount of work a single
 * completion can do before returning to the provider.
 *
 * Setting this to zero disables Send completion batching.
 */
enum {
	RPCRDMA_MAX_SEND_BATCH = 7,
};

/*
 * struct rpcrdma_mr - external memory region metadata
 *
 * An external memory region is any buffer or page that is registered
 * on the fly (ie, not pre-registered).
 *
 * Each rpcrdma_buffer has a list of free MWs anchored in rb_mrs. During
 * call_allocate, rpcrdma_buffer_get() assigns one to each segment in
 * an rpcrdma_req. Then rpcrdma_register_external() grabs these to keep
 * track of registration metadata while each RPC is pending.
 * rpcrdma_deregister_external() uses this metadata to unmap and
 * release these resources when an RPC is complete.
 */
enum rpcrdma_frwr_state {
	FRWR_IS_INVALID,	/* ready to be used */
	FRWR_IS_VALID,		/* in use */
	FRWR_FLUSHED_FR,	/* flushed FASTREG WR */
	FRWR_FLUSHED_LI,	/* flushed LOCALINV WR */
};

struct rpcrdma_frwr {
	struct ib_mr			*fr_mr;
	struct ib_cqe			fr_cqe;
	enum rpcrdma_frwr_state		fr_state;
	struct completion		fr_linv_done;
	union {
		struct ib_reg_wr	fr_regwr;
		struct ib_send_wr	fr_invwr;
	};
};

struct rpcrdma_fmr {
	struct ib_fmr		*fm_mr;
	u64			*fm_physaddrs;
};

struct rpcrdma_mr {
	struct list_head	mr_list;
	struct scatterlist	*mr_sg;
	int			mr_nents;
	enum dma_data_direction	mr_dir;
	union {
		struct rpcrdma_fmr	fmr;
		struct rpcrdma_frwr	frwr;
	};
	struct rpcrdma_xprt	*mr_xprt;
	u32			mr_handle;
	u32			mr_length;
	u64			mr_offset;
	struct work_struct	mr_recycle;
	struct list_head	mr_all;
};

/*
 * struct rpcrdma_req -- structure central to the request/reply sequence.
 *
 * N of these are associated with a transport instance, and stored in
 * struct rpcrdma_buffer. N is the max number of outstanding requests.
 *
 * It includes pre-registered buffer memory for send AND recv.
 * The recv buffer, however, is not owned by this structure, and
 * is "donated" to the hardware when a recv is posted. When a
 * reply is handled, the recv buffer used is given back to the
 * struct rpcrdma_req associated with the request.
 *
 * In addition to the basic memory, this structure includes an array
 * of iovs for send operations. The reason is that the iovs passed to
 * ib_post_{send,recv} must not be modified until the work request
 * completes.
 */

/* Maximum number of page-sized "segments" per chunk list to be
 * registered or invalidated. Must handle a Reply chunk:
 */
enum {
	RPCRDMA_MAX_IOV_SEGS	= 3,
	RPCRDMA_MAX_DATA_SEGS	= ((1 * 1024 * 1024) / PAGE_SIZE) + 1,
	RPCRDMA_MAX_SEGS	= RPCRDMA_MAX_DATA_SEGS +
				  RPCRDMA_MAX_IOV_SEGS,
};

struct rpcrdma_mr_seg {		/* chunk descriptors */
	u32		mr_len;		/* length of chunk or segment */
	struct page	*mr_page;	/* owning page, if any */
	char		*mr_offset;	/* kva if no page, else offset */
};

/* The Send SGE array is provisioned to send a maximum size
 * inline request:
 * - RPC-over-RDMA header
 * - xdr_buf head iovec
 * - RPCRDMA_MAX_INLINE bytes, in pages
 * - xdr_buf tail iovec
 *
 * The actual number of array elements consumed by each RPC
 * depends on the device's max_sge limit.
 */
enum {
	RPCRDMA_MIN_SEND_SGES = 3,
	RPCRDMA_MAX_PAGE_SGES = RPCRDMA_MAX_INLINE >> PAGE_SHIFT,
	RPCRDMA_MAX_SEND_SGES = 1 + 1 + RPCRDMA_MAX_PAGE_SGES + 1,
};

struct rpcrdma_buffer;
struct rpcrdma_req {
	struct list_head	rl_list;
	struct rpc_rqst		rl_slot;
	struct rpcrdma_buffer	*rl_buffer;
	struct rpcrdma_rep	*rl_reply;
	struct xdr_stream	rl_stream;
	struct xdr_buf		rl_hdrbuf;
	struct rpcrdma_sendctx	*rl_sendctx;
	struct rpcrdma_regbuf	*rl_rdmabuf;	/* xprt header */
	struct rpcrdma_regbuf	*rl_sendbuf;	/* rq_snd_buf */
	struct rpcrdma_regbuf	*rl_recvbuf;	/* rq_rcv_buf */

	struct list_head	rl_all;
	unsigned long		rl_flags;

	struct list_head	rl_registered;	/* registered segments */
	struct rpcrdma_mr_seg	rl_segments[RPCRDMA_MAX_SEGS];
};

/* rl_flags */
enum {
	RPCRDMA_REQ_F_PENDING = 0,
	RPCRDMA_REQ_F_TX_RESOURCES,
};

static inline struct rpcrdma_req *
rpcr_to_rdmar(const struct rpc_rqst *rqst)
{
	return container_of(rqst, struct rpcrdma_req, rl_slot);
}

static inline void
rpcrdma_mr_push(struct rpcrdma_mr *mr, struct list_head *list)
{
	list_add_tail(&mr->mr_list, list);
}

static inline struct rpcrdma_mr *
rpcrdma_mr_pop(struct list_head *list)
{
	struct rpcrdma_mr *mr;

	mr = list_first_entry(list, struct rpcrdma_mr, mr_list);
	list_del_init(&mr->mr_list);
	return mr;
}

/*
 * struct rpcrdma_buffer -- holds list/queue of pre-registered memory for
 * inline requests/replies, and client/server credits.
 *
 * One of these is associated with a transport instance
 */
struct rpcrdma_buffer {
	spinlock_t		rb_mrlock;	/* protect rb_mrs list */
	struct list_head	rb_mrs;
	struct list_head	rb_all;

	unsigned long		rb_sc_head;
	unsigned long		rb_sc_tail;
	unsigned long		rb_sc_last;
	struct rpcrdma_sendctx	**rb_sc_ctxs;

	spinlock_t		rb_lock;	/* protect buf lists */
	struct list_head	rb_send_bufs;
	struct list_head	rb_recv_bufs;
	unsigned long		rb_flags;
	u32			rb_max_requests;
	u32			rb_credits;	/* most recent credit grant */

	u32			rb_bc_srv_max_requests;
	spinlock_t		rb_reqslock;	/* protect rb_allreqs */
	struct list_head	rb_allreqs;

	u32			rb_bc_max_requests;

	struct delayed_work	rb_refresh_worker;
};
#define rdmab_to_ia(b) (&container_of((b), struct rpcrdma_xprt, rx_buf)->rx_ia)

/* rb_flags */
enum {
	RPCRDMA_BUF_F_EMPTY_SCQ = 0,
};

/*
 * Internal structure for transport instance creation. This
 * exists primarily for modularity.
 *
 * This data should be set with mount options
 */
struct rpcrdma_create_data_internal {
	unsigned int	max_requests;	/* max requests (slots) in flight */
	unsigned int	rsize;		/* mount rsize - max read hdr+data */
	unsigned int	wsize;		/* mount wsize - max write hdr+data */
	unsigned int	inline_rsize;	/* max non-rdma read data payload */
	unsigned int	inline_wsize;	/* max non-rdma write data payload */
};

/*
 * Statistics for RPCRDMA
 */
struct rpcrdma_stats {
	/* accessed when sending a call */
	unsigned long		read_chunk_count;
	unsigned long		write_chunk_count;
	unsigned long		reply_chunk_count;
	unsigned long long	total_rdma_request;

	/* rarely accessed error counters */
	unsigned long long	pullup_copy_count;
	unsigned long		hardway_register_count;
	unsigned long		failed_marshal_count;
	unsigned long		bad_reply_count;
	unsigned long		mrs_recycled;
	unsigned long		mrs_orphaned;
	unsigned long		mrs_allocated;
	unsigned long		empty_sendctx_q;

	/* accessed when receiving a reply */
	unsigned long long	total_rdma_reply;
	unsigned long long	fixup_copy_count;
	unsigned long		reply_waits_for_send;
	unsigned long		local_inv_needed;
	unsigned long		nomsg_call_count;
	unsigned long		bcall_count;
};

/*
 * Per-registration mode operations
 */
struct rpcrdma_xprt;
struct rpcrdma_memreg_ops {
	struct rpcrdma_mr_seg *
			(*ro_map)(struct rpcrdma_xprt *,
				  struct rpcrdma_mr_seg *, int, bool,
				  struct rpcrdma_mr **);
	int		(*ro_send)(struct rpcrdma_ia *ia,
				   struct rpcrdma_req *req);
	void		(*ro_reminv)(struct rpcrdma_rep *rep,
				     struct list_head *mrs);
	void		(*ro_unmap_sync)(struct rpcrdma_xprt *,
					 struct list_head *);
	int		(*ro_open)(struct rpcrdma_ia *,
				   struct rpcrdma_ep *,
				   struct rpcrdma_create_data_internal *);
	size_t		(*ro_maxpages)(struct rpcrdma_xprt *);
	int		(*ro_init_mr)(struct rpcrdma_ia *,
				      struct rpcrdma_mr *);
	void		(*ro_release_mr)(struct rpcrdma_mr *mr);
	const char	*ro_displayname;
	const int	ro_send_w_inv_ok;
};

extern const struct rpcrdma_memreg_ops rpcrdma_fmr_memreg_ops;
extern const struct rpcrdma_memreg_ops rpcrdma_frwr_memreg_ops;

/*
 * RPCRDMA transport -- encapsulates the structures above for
 * integration with RPC.
 *
 * The contained structures are embedded, not pointers,
 * for convenience. This structure need not be visible externally.
 *
 * It is allocated and initialized during mount, and released
 * during unmount.
 */
struct rpcrdma_xprt {
	struct rpc_xprt		rx_xprt;
	struct rpcrdma_ia	rx_ia;
	struct rpcrdma_ep	rx_ep;
	struct rpcrdma_buffer	rx_buf;
	struct rpcrdma_create_data_internal rx_data;
	struct delayed_work	rx_connect_worker;
	struct rpcrdma_stats	rx_stats;
};

#define rpcx_to_rdmax(x) container_of(x, struct rpcrdma_xprt, rx_xprt)
#define rpcx_to_rdmad(x) (rpcx_to_rdmax(x)->rx_data)

static inline const char *
rpcrdma_addrstr(const struct rpcrdma_xprt *r_xprt)
{
	return r_xprt->rx_xprt.address_strings[RPC_DISPLAY_ADDR];
}

static inline const char *
rpcrdma_portstr(const struct rpcrdma_xprt *r_xprt)
{
	return r_xprt->rx_xprt.address_strings[RPC_DISPLAY_PORT];
}

/* Setting this to 0 ensures interoperability with early servers.
 * Setting this to 1 enhances certain unaligned read/write performance.
 * Default is 0, see sysctl entry and rpc_rdma.c rpcrdma_convert_iovs() */
extern int xprt_rdma_pad_optimize;

/* This setting controls the hunt for a supported memory
 * registration strategy.
 */
extern unsigned int xprt_rdma_memreg_strategy;

/*
 * Interface Adapter calls - xprtrdma/verbs.c
 */
int rpcrdma_ia_open(struct rpcrdma_xprt *xprt);
void rpcrdma_ia_remove(struct rpcrdma_ia *ia);
void rpcrdma_ia_close(struct rpcrdma_ia *);
bool frwr_is_supported(struct rpcrdma_ia *);
bool fmr_is_supported(struct rpcrdma_ia *);

extern struct workqueue_struct *rpcrdma_receive_wq;

/*
 * Endpoint calls - xprtrdma/verbs.c
 */
int rpcrdma_ep_create(struct rpcrdma_ep *, struct rpcrdma_ia *,
				struct rpcrdma_create_data_internal *);
void rpcrdma_ep_destroy(struct rpcrdma_ep *, struct rpcrdma_ia *);
int rpcrdma_ep_connect(struct rpcrdma_ep *, struct rpcrdma_ia *);
void rpcrdma_ep_disconnect(struct rpcrdma_ep *, struct rpcrdma_ia *);

int rpcrdma_ep_post(struct rpcrdma_ia *, struct rpcrdma_ep *,
				struct rpcrdma_req *);

/*
 * Buffer calls - xprtrdma/verbs.c
 */
struct rpcrdma_req *rpcrdma_create_req(struct rpcrdma_xprt *);
void rpcrdma_destroy_req(struct rpcrdma_req *);
int rpcrdma_buffer_create(struct rpcrdma_xprt *);
void rpcrdma_buffer_destroy(struct rpcrdma_buffer *);
struct rpcrdma_sendctx *rpcrdma_sendctx_get_locked(struct rpcrdma_buffer *buf);

struct rpcrdma_mr *rpcrdma_mr_get(struct rpcrdma_xprt *r_xprt);
void rpcrdma_mr_put(struct rpcrdma_mr *mr);
void rpcrdma_mr_unmap_and_put(struct rpcrdma_mr *mr);

static inline void
rpcrdma_mr_recycle(struct rpcrdma_mr *mr)
{
	schedule_work(&mr->mr_recycle);
}

struct rpcrdma_req *rpcrdma_buffer_get(struct rpcrdma_buffer *);
void rpcrdma_buffer_put(struct rpcrdma_req *);
void rpcrdma_recv_buffer_put(struct rpcrdma_rep *);

struct rpcrdma_regbuf *rpcrdma_alloc_regbuf(size_t, enum dma_data_direction,
					    gfp_t);
bool __rpcrdma_dma_map_regbuf(struct rpcrdma_ia *, struct rpcrdma_regbuf *);
void rpcrdma_free_regbuf(struct rpcrdma_regbuf *);

static inline bool
rpcrdma_regbuf_is_mapped(struct rpcrdma_regbuf *rb)
{
	return rb->rg_device != NULL;
}

static inline bool
rpcrdma_dma_map_regbuf(struct rpcrdma_ia *ia, struct rpcrdma_regbuf *rb)
{
	if (likely(rpcrdma_regbuf_is_mapped(rb)))
		return true;
	return __rpcrdma_dma_map_regbuf(ia, rb);
}

int rpcrdma_alloc_wq(void);
void rpcrdma_destroy_wq(void);

/*
 * Wrappers for chunk registration, shared by read/write chunk code.
 */

static inline enum dma_data_direction
rpcrdma_data_dir(bool writing)
{
	return writing ? DMA_FROM_DEVICE : DMA_TO_DEVICE;
}

/*
 * RPC/RDMA protocol calls - xprtrdma/rpc_rdma.c
 */

enum rpcrdma_chunktype {
	rpcrdma_noch = 0,
	rpcrdma_readch,
	rpcrdma_areadch,
	rpcrdma_writech,
	rpcrdma_replych
};

int rpcrdma_prepare_send_sges(struct rpcrdma_xprt *r_xprt,
			      struct rpcrdma_req *req, u32 hdrlen,
			      struct xdr_buf *xdr,
			      enum rpcrdma_chunktype rtype);
void rpcrdma_unmap_sendctx(struct rpcrdma_sendctx *sc);
int rpcrdma_marshal_req(struct rpcrdma_xprt *r_xprt, struct rpc_rqst *rqst);
void rpcrdma_set_max_header_sizes(struct rpcrdma_xprt *);
void rpcrdma_complete_rqst(struct rpcrdma_rep *rep);
void rpcrdma_reply_handler(struct rpcrdma_rep *rep);
void rpcrdma_release_rqst(struct rpcrdma_xprt *r_xprt,
			  struct rpcrdma_req *req);
void rpcrdma_deferred_completion(struct work_struct *work);

static inline void rpcrdma_set_xdrlen(struct xdr_buf *xdr, size_t len)
{
	xdr->head[0].iov_len = len;
	xdr->len = len;
}

/* RPC/RDMA module init - xprtrdma/transport.c
 */
extern unsigned int xprt_rdma_max_inline_read;
void xprt_rdma_format_addresses(struct rpc_xprt *xprt, struct sockaddr *sap);
void xprt_rdma_free_addresses(struct rpc_xprt *xprt);
void xprt_rdma_print_stats(struct rpc_xprt *xprt, struct seq_file *seq);
int xprt_rdma_init(void);
void xprt_rdma_cleanup(void);

/* Backchannel calls - xprtrdma/backchannel.c
 */
#if defined(CONFIG_SUNRPC_BACKCHANNEL)
int xprt_rdma_bc_setup(struct rpc_xprt *, unsigned int);
int xprt_rdma_bc_up(struct svc_serv *, struct net *);
size_t xprt_rdma_bc_maxpayload(struct rpc_xprt *);
int rpcrdma_bc_post_recv(struct rpcrdma_xprt *, unsigned int);
void rpcrdma_bc_receive_call(struct rpcrdma_xprt *, struct rpcrdma_rep *);
int xprt_rdma_bc_send_reply(struct rpc_rqst *rqst);
void xprt_rdma_bc_free_rqst(struct rpc_rqst *);
void xprt_rdma_bc_destroy(struct rpc_xprt *, unsigned int);
#endif	/* CONFIG_SUNRPC_BACKCHANNEL */

extern struct xprt_class xprt_rdma_bc;

#endif				/* _LINUX_SUNRPC_XPRT_RDMA_H */