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path: root/net/rds/ib_recv.c
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/*
 * Copyright (c) 2006 Oracle.  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
 * OpenIB.org BSD 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.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
 * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
 * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
 * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
 * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
 * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
 * SOFTWARE.
 *
 */
#include <linux/kernel.h>
#include <linux/slab.h>
#include <linux/pci.h>
#include <linux/dma-mapping.h>
#include <rdma/rdma_cm.h>

#include "rds.h"
#include "ib.h"

static struct kmem_cache *rds_ib_incoming_slab;
static struct kmem_cache *rds_ib_frag_slab;
static atomic_t	rds_ib_allocation = ATOMIC_INIT(0);

void rds_ib_recv_init_ring(struct rds_ib_connection *ic)
{
	struct rds_ib_recv_work *recv;
	u32 i;

	for (i = 0, recv = ic->i_recvs; i < ic->i_recv_ring.w_nr; i++, recv++) {
		struct ib_sge *sge;

		recv->r_ibinc = NULL;
		recv->r_frag = NULL;

		recv->r_wr.next = NULL;
		recv->r_wr.wr_id = i;
		recv->r_wr.sg_list = recv->r_sge;
		recv->r_wr.num_sge = RDS_IB_RECV_SGE;

		sge = &recv->r_sge[0];
		sge->addr = ic->i_recv_hdrs_dma + (i * sizeof(struct rds_header));
		sge->length = sizeof(struct rds_header);
		sge->lkey = ic->i_mr->lkey;

		sge = &recv->r_sge[1];
		sge->addr = 0;
		sge->length = RDS_FRAG_SIZE;
		sge->lkey = ic->i_mr->lkey;
	}
}

/*
 * The entire 'from' list, including the from element itself, is put on
 * to the tail of the 'to' list.
 */
static void list_splice_entire_tail(struct list_head *from,
				    struct list_head *to)
{
	struct list_head *from_last = from->prev;

	list_splice_tail(from_last, to);
	list_add_tail(from_last, to);
}

static void rds_ib_cache_xfer_to_ready(struct rds_ib_refill_cache *cache)
{
	struct list_head *tmp;

	tmp = xchg(&cache->xfer, NULL);
	if (tmp) {
		if (cache->ready)
			list_splice_entire_tail(tmp, cache->ready);
		else
			cache->ready = tmp;
	}
}

static int rds_ib_recv_alloc_cache(struct rds_ib_refill_cache *cache)
{
	struct rds_ib_cache_head *head;
	int cpu;

	cache->percpu = alloc_percpu(struct rds_ib_cache_head);
	if (!cache->percpu)
	       return -ENOMEM;

	for_each_possible_cpu(cpu) {
		head = per_cpu_ptr(cache->percpu, cpu);
		head->first = NULL;
		head->count = 0;
	}
	cache->xfer = NULL;
	cache->ready = NULL;

	return 0;
}

int rds_ib_recv_alloc_caches(struct rds_ib_connection *ic)
{
	int ret;

	ret = rds_ib_recv_alloc_cache(&ic->i_cache_incs);
	if (!ret) {
		ret = rds_ib_recv_alloc_cache(&ic->i_cache_frags);
		if (ret)
			free_percpu(ic->i_cache_incs.percpu);
	}

	return ret;
}

static void rds_ib_cache_splice_all_lists(struct rds_ib_refill_cache *cache,
					  struct list_head *caller_list)
{
	struct rds_ib_cache_head *head;
	int cpu;

	for_each_possible_cpu(cpu) {
		head = per_cpu_ptr(cache->percpu, cpu);
		if (head->first) {
			list_splice_entire_tail(head->first, caller_list);
			head->first = NULL;
		}
	}

	if (cache->ready) {
		list_splice_entire_tail(cache->ready, caller_list);
		cache->ready = NULL;
	}
}

void rds_ib_recv_free_caches(struct rds_ib_connection *ic)
{
	struct rds_ib_incoming *inc;
	struct rds_ib_incoming *inc_tmp;
	struct rds_page_frag *frag;
	struct rds_page_frag *frag_tmp;
	LIST_HEAD(list);

	rds_ib_cache_xfer_to_ready(&ic->i_cache_incs);
	rds_ib_cache_splice_all_lists(&ic->i_cache_incs, &list);
	free_percpu(ic->i_cache_incs.percpu);

	list_for_each_entry_safe(inc, inc_tmp, &list, ii_cache_entry) {
		list_del(&inc->ii_cache_entry);
		WARN_ON(!list_empty(&inc->ii_frags));
		kmem_cache_free(rds_ib_incoming_slab, inc);
	}

	rds_ib_cache_xfer_to_ready(&ic->i_cache_frags);
	rds_ib_cache_splice_all_lists(&ic->i_cache_frags, &list);
	free_percpu(ic->i_cache_frags.percpu);

	list_for_each_entry_safe(frag, frag_tmp, &list, f_cache_entry) {
		list_del(&frag->f_cache_entry);
		WARN_ON(!list_empty(&frag->f_item));
		kmem_cache_free(rds_ib_frag_slab, frag);
	}
}

/* fwd decl */
static void rds_ib_recv_cache_put(struct list_head *new_item,
				  struct rds_ib_refill_cache *cache);
static struct list_head *rds_ib_recv_cache_get(struct rds_ib_refill_cache *cache);


/* Recycle frag and attached recv buffer f_sg */
static void rds_ib_frag_free(struct rds_ib_connection *ic,
			     struct rds_page_frag *frag)
{
	rdsdebug("frag %p page %p\n", frag, sg_page(&frag->f_sg));

	rds_ib_recv_cache_put(&frag->f_cache_entry, &ic->i_cache_frags);
}

/* Recycle inc after freeing attached frags */
void rds_ib_inc_free(struct rds_incoming *inc)
{
	struct rds_ib_incoming *ibinc;
	struct rds_page_frag *frag;
	struct rds_page_frag *pos;
	struct rds_ib_connection *ic = inc->i_conn->c_transport_data;

	ibinc = container_of(inc, struct rds_ib_incoming, ii_inc);

	/* Free attached frags */
	list_for_each_entry_safe(frag, pos, &ibinc->ii_frags, f_item) {
		list_del_init(&frag->f_item);
		rds_ib_frag_free(ic, frag);
	}
	BUG_ON(!list_empty(&ibinc->ii_frags));

	rdsdebug("freeing ibinc %p inc %p\n", ibinc, inc);
	rds_ib_recv_cache_put(&ibinc->ii_cache_entry, &ic->i_cache_incs);
}

static void rds_ib_recv_clear_one(struct rds_ib_connection *ic,
				  struct rds_ib_recv_work *recv)
{
	if (recv->r_ibinc) {
		rds_inc_put(&recv->r_ibinc->ii_inc);
		recv->r_ibinc = NULL;
	}
	if (recv->r_frag) {
		ib_dma_unmap_sg(ic->i_cm_id->device, &recv->r_frag->f_sg, 1, DMA_FROM_DEVICE);
		rds_ib_frag_free(ic, recv->r_frag);
		recv->r_frag = NULL;
	}
}

void rds_ib_recv_clear_ring(struct rds_ib_connection *ic)
{
	u32 i;

	for (i = 0; i < ic->i_recv_ring.w_nr; i++)
		rds_ib_recv_clear_one(ic, &ic->i_recvs[i]);
}

static struct rds_ib_incoming *rds_ib_refill_one_inc(struct rds_ib_connection *ic,
						     gfp_t slab_mask)
{
	struct rds_ib_incoming *ibinc;
	struct list_head *cache_item;
	int avail_allocs;

	cache_item = rds_ib_recv_cache_get(&ic->i_cache_incs);
	if (cache_item) {
		ibinc = container_of(cache_item, struct rds_ib_incoming, ii_cache_entry);
	} else {
		avail_allocs = atomic_add_unless(&rds_ib_allocation,
						 1, rds_ib_sysctl_max_recv_allocation);
		if (!avail_allocs) {
			rds_ib_stats_inc(s_ib_rx_alloc_limit);
			return NULL;
		}
		ibinc = kmem_cache_alloc(rds_ib_incoming_slab, slab_mask);
		if (!ibinc) {
			atomic_dec(&rds_ib_allocation);
			return NULL;
		}
	}
	INIT_LIST_HEAD(&ibinc->ii_frags);
	rds_inc_init(&ibinc->ii_inc, ic->conn, ic->conn->c_faddr);

	return ibinc;
}

static struct rds_page_frag *rds_ib_refill_one_frag(struct rds_ib_connection *ic,
						    gfp_t slab_mask, gfp_t page_mask)
{
	struct rds_page_frag *frag;
	struct list_head *cache_item;
	int ret;

	cache_item = rds_ib_recv_cache_get(&ic->i_cache_frags);
	if (cache_item) {
		frag = container_of(cache_item, struct rds_page_frag, f_cache_entry);
	} else {
		frag = kmem_cache_alloc(rds_ib_frag_slab, slab_mask);
		if (!frag)
			return NULL;

		sg_init_table(&frag->f_sg, 1);
		ret = rds_page_remainder_alloc(&frag->f_sg,
					       RDS_FRAG_SIZE, page_mask);
		if (ret) {
			kmem_cache_free(rds_ib_frag_slab, frag);
			return NULL;
		}
	}

	INIT_LIST_HEAD(&frag->f_item);

	return frag;
}

static int rds_ib_recv_refill_one(struct rds_connection *conn,
				  struct rds_ib_recv_work *recv, int prefill)
{
	struct rds_ib_connection *ic = conn->c_transport_data;
	struct ib_sge *sge;
	int ret = -ENOMEM;
	gfp_t slab_mask = GFP_NOWAIT;
	gfp_t page_mask = GFP_NOWAIT;

	if (prefill) {
		slab_mask = GFP_KERNEL;
		page_mask = GFP_HIGHUSER;
	}

	if (!ic->i_cache_incs.ready)
		rds_ib_cache_xfer_to_ready(&ic->i_cache_incs);
	if (!ic->i_cache_frags.ready)
		rds_ib_cache_xfer_to_ready(&ic->i_cache_frags);

	/*
	 * ibinc was taken from recv if recv contained the start of a message.
	 * recvs that were continuations will still have this allocated.
	 */
	if (!recv->r_ibinc) {
		recv->r_ibinc = rds_ib_refill_one_inc(ic, slab_mask);
		if (!recv->r_ibinc)
			goto out;
	}

	WARN_ON(recv->r_frag); /* leak! */
	recv->r_frag = rds_ib_refill_one_frag(ic, slab_mask, page_mask);
	if (!recv->r_frag)
		goto out;

	ret = ib_dma_map_sg(ic->i_cm_id->device, &recv->r_frag->f_sg,
			    1, DMA_FROM_DEVICE);
	WARN_ON(ret != 1);

	sge = &recv->r_sge[0];
	sge->addr = ic->i_recv_hdrs_dma + (recv - ic->i_recvs) * sizeof(struct rds_header);
	sge->length = sizeof(struct rds_header);

	sge = &recv->r_sge[1];
	sge->addr = ib_sg_dma_address(ic->i_cm_id->device, &recv->r_frag->f_sg);
	sge->length = ib_sg_dma_len(ic->i_cm_id->device, &recv->r_frag->f_sg);

	ret = 0;
out:
	return ret;
}

/*
 * This tries to allocate and post unused work requests after making sure that
 * they have all the allocations they need to queue received fragments into
 * sockets.
 *
 * -1 is returned if posting fails due to temporary resource exhaustion.
 */
void rds_ib_recv_refill(struct rds_connection *conn, int prefill)
{
	struct rds_ib_connection *ic = conn->c_transport_data;
	struct rds_ib_recv_work *recv;
	struct ib_recv_wr *failed_wr;
	unsigned int posted = 0;
	int ret = 0;
	u32 pos;

	while ((prefill || rds_conn_up(conn)) &&
	       rds_ib_ring_alloc(&ic->i_recv_ring, 1, &pos)) {
		if (pos >= ic->i_recv_ring.w_nr) {
			printk(KERN_NOTICE "Argh - ring alloc returned pos=%u\n",
					pos);
			break;
		}

		recv = &ic->i_recvs[pos];
		ret = rds_ib_recv_refill_one(conn, recv, prefill);
		if (ret) {
			break;
		}

		/* XXX when can this fail? */
		ret = ib_post_recv(ic->i_cm_id->qp, &recv->r_wr, &failed_wr);
		rdsdebug("recv %p ibinc %p page %p addr %lu ret %d\n", recv,
			 recv->r_ibinc, sg_page(&recv->r_frag->f_sg),
			 (long) ib_sg_dma_address(
				ic->i_cm_id->device,
				&recv->r_frag->f_sg),
			ret);
		if (ret) {
			rds_ib_conn_error(conn, "recv post on "
			       "%pI4 returned %d, disconnecting and "
			       "reconnecting\n", &conn->c_faddr,
			       ret);
			break;
		}

		posted++;
	}

	/* We're doing flow control - update the window. */
	if (ic->i_flowctl && posted)
		rds_ib_advertise_credits(conn, posted);

	if (ret)
		rds_ib_ring_unalloc(&ic->i_recv_ring, 1);
}

/*
 * We want to recycle several types of recv allocations, like incs and frags.
 * To use this, the *_free() function passes in the ptr to a list_head within
 * the recyclee, as well as the cache to put it on.
 *
 * First, we put the memory on a percpu list. When this reaches a certain size,
 * We move it to an intermediate non-percpu list in a lockless manner, with some
 * xchg/compxchg wizardry.
 *
 * N.B. Instead of a list_head as the anchor, we use a single pointer, which can
 * be NULL and xchg'd. The list is actually empty when the pointer is NULL, and
 * list_empty() will return true with one element is actually present.
 */
static void rds_ib_recv_cache_put(struct list_head *new_item,
				 struct rds_ib_refill_cache *cache)
{
	unsigned long flags;
	struct list_head *old, *chpfirst;

	local_irq_save(flags);

	chpfirst = __this_cpu_read(cache->percpu->first);
	if (!chpfirst)
		INIT_LIST_HEAD(new_item);
	else /* put on front */
		list_add_tail(new_item, chpfirst);

	__this_cpu_write(cache->percpu->first, new_item);
	__this_cpu_inc(cache->percpu->count);

	if (__this_cpu_read(cache->percpu->count) < RDS_IB_RECYCLE_BATCH_COUNT)
		goto end;

	/*
	 * Return our per-cpu first list to the cache's xfer by atomically
	 * grabbing the current xfer list, appending it to our per-cpu list,
	 * and then atomically returning that entire list back to the
	 * cache's xfer list as long as it's still empty.
	 */
	do {
		old = xchg(&cache->xfer, NULL);
		if (old)
			list_splice_entire_tail(old, chpfirst);
		old = cmpxchg(&cache->xfer, NULL, chpfirst);
	} while (old);


	__this_cpu_write(cache->percpu->first, NULL);
	__this_cpu_write(cache->percpu->count, 0);
end:
	local_irq_restore(flags);
}

static struct list_head *rds_ib_recv_cache_get(struct rds_ib_refill_cache *cache)
{
	struct list_head *head = cache->ready;

	if (head) {
		if (!list_empty(head)) {
			cache->ready = head->next;
			list_del_init(head);
		} else
			cache->ready = NULL;
	}

	return head;
}

int rds_ib_inc_copy_to_user(struct rds_incoming *inc, struct iovec *first_iov,
			    size_t size)
{
	struct rds_ib_incoming *ibinc;
	struct rds_page_frag *frag;
	struct iovec *iov = first_iov;
	unsigned long to_copy;
	unsigned long frag_off = 0;
	unsigned long iov_off = 0;
	int copied = 0;
	int ret;
	u32 len;

	ibinc = container_of(inc, struct rds_ib_incoming, ii_inc);
	frag = list_entry(ibinc->ii_frags.next, struct rds_page_frag, f_item);
	len = be32_to_cpu(inc->i_hdr.h_len);

	while (copied < size && copied < len) {
		if (frag_off == RDS_FRAG_SIZE) {
			frag = list_entry(frag->f_item.next,
					  struct rds_page_frag, f_item);
			frag_off = 0;
		}
		while (iov_off == iov->iov_len) {
			iov_off = 0;
			iov++;
		}

		to_copy = min(iov->iov_len - iov_off, RDS_FRAG_SIZE - frag_off);
		to_copy = min_t(size_t, to_copy, size - copied);
		to_copy = min_t(unsigned long, to_copy, len - copied);

		rdsdebug("%lu bytes to user [%p, %zu] + %lu from frag "
			 "[%p, %u] + %lu\n",
			 to_copy, iov->iov_base, iov->iov_len, iov_off,
			 sg_page(&frag->f_sg), frag->f_sg.offset, frag_off);

		/* XXX needs + offset for multiple recvs per page */
		ret = rds_page_copy_to_user(sg_page(&frag->f_sg),
					    frag->f_sg.offset + frag_off,
					    iov->iov_base + iov_off,
					    to_copy);
		if (ret) {
			copied = ret;
			break;
		}

		iov_off += to_copy;
		frag_off += to_copy;
		copied += to_copy;
	}

	return copied;
}

/* ic starts out kzalloc()ed */
void rds_ib_recv_init_ack(struct rds_ib_connection *ic)
{
	struct ib_send_wr *wr = &ic->i_ack_wr;
	struct ib_sge *sge = &ic->i_ack_sge;

	sge->addr = ic->i_ack_dma;
	sge->length = sizeof(struct rds_header);
	sge->lkey = ic->i_mr->lkey;

	wr->sg_list = sge;
	wr->num_sge = 1;
	wr->opcode = IB_WR_SEND;
	wr->wr_id = RDS_IB_ACK_WR_ID;
	wr->send_flags = IB_SEND_SIGNALED | IB_SEND_SOLICITED;
}

/*
 * You'd think that with reliable IB connections you wouldn't need to ack
 * messages that have been received.  The problem is that IB hardware generates
 * an ack message before it has DMAed the message into memory.  This creates a
 * potential message loss if the HCA is disabled for any reason between when it
 * sends the ack and before the message is DMAed and processed.  This is only a
 * potential issue if another HCA is available for fail-over.
 *
 * When the remote host receives our ack they'll free the sent message from
 * their send queue.  To decrease the latency of this we always send an ack
 * immediately after we've received messages.
 *
 * For simplicity, we only have one ack in flight at a time.  This puts
 * pressure on senders to have deep enough send queues to absorb the latency of
 * a single ack frame being in flight.  This might not be good enough.
 *
 * This is implemented by have a long-lived send_wr and sge which point to a
 * statically allocated ack frame.  This ack wr does not fall under the ring
 * accounting that the tx and rx wrs do.  The QP attribute specifically makes
 * room for it beyond the ring size.  Send completion notices its special
 * wr_id and avoids working with the ring in that case.
 */
#ifndef KERNEL_HAS_ATOMIC64
static void rds_ib_set_ack(struct rds_ib_connection *ic, u64 seq,
				int ack_required)
{
	unsigned long flags;

	spin_lock_irqsave(&ic->i_ack_lock, flags);
	ic->i_ack_next = seq;
	if (ack_required)
		set_bit(IB_ACK_REQUESTED, &ic->i_ack_flags);
	spin_unlock_irqrestore(&ic->i_ack_lock, flags);
}

static u64 rds_ib_get_ack(struct rds_ib_connection *ic)
{
	unsigned long flags;
	u64 seq;

	clear_bit(IB_ACK_REQUESTED, &ic->i_ack_flags);

	spin_lock_irqsave(&ic->i_ack_lock, flags);
	seq = ic->i_ack_next;
	spin_unlock_irqrestore(&ic->i_ack_lock, flags);

	return seq;
}
#else
static void rds_ib_set_ack(struct rds_ib_connection *ic, u64 seq,
				int ack_required)
{
	atomic64_set(&ic->i_ack_next, seq);
	if (ack_required) {
		smp_mb__before_clear_bit();
		set_bit(IB_ACK_REQUESTED, &ic->i_ack_flags);
	}
}

static u64 rds_ib_get_ack(struct rds_ib_connection *ic)
{
	clear_bit(IB_ACK_REQUESTED, &ic->i_ack_flags);
	smp_mb__after_clear_bit();

	return atomic64_read(&ic->i_ack_next);
}
#endif


static void rds_ib_send_ack(struct rds_ib_connection *ic, unsigned int adv_credits)
{
	struct rds_header *hdr = ic->i_ack;
	struct ib_send_wr *failed_wr;
	u64 seq;
	int ret;

	seq = rds_ib_get_ack(ic);

	rdsdebug("send_ack: ic %p ack %llu\n", ic, (unsigned long long) seq);
	rds_message_populate_header(hdr, 0, 0, 0);
	hdr->h_ack = cpu_to_be64(seq);
	hdr->h_credit = adv_credits;
	rds_message_make_checksum(hdr);
	ic->i_ack_queued = jiffies;

	ret = ib_post_send(ic->i_cm_id->qp, &ic->i_ack_wr, &failed_wr);
	if (unlikely(ret)) {
		/* Failed to send. Release the WR, and
		 * force another ACK.
		 */
		clear_bit(IB_ACK_IN_FLIGHT, &ic->i_ack_flags);
		set_bit(IB_ACK_REQUESTED, &ic->i_ack_flags);

		rds_ib_stats_inc(s_ib_ack_send_failure);

		rds_ib_conn_error(ic->conn, "sending ack failed\n");
	} else
		rds_ib_stats_inc(s_ib_ack_sent);
}

/*
 * There are 3 ways of getting acknowledgements to the peer:
 *  1.	We call rds_ib_attempt_ack from the recv completion handler
 *	to send an ACK-only frame.
 *	However, there can be only one such frame in the send queue
 *	at any time, so we may have to postpone it.
 *  2.	When another (data) packet is transmitted while there's
 *	an ACK in the queue, we piggyback the ACK sequence number
 *	on the data packet.
 *  3.	If the ACK WR is done sending, we get called from the
 *	send queue completion handler, and check whether there's
 *	another ACK pending (postponed because the WR was on the
 *	queue). If so, we transmit it.
 *
 * We maintain 2 variables:
 *  -	i_ack_flags, which keeps track of whether the ACK WR
 *	is currently in the send queue or not (IB_ACK_IN_FLIGHT)
 *  -	i_ack_next, which is the last sequence number we received
 *
 * Potentially, send queue and receive queue handlers can run concurrently.
 * It would be nice to not have to use a spinlock to synchronize things,
 * but the one problem that rules this out is that 64bit updates are
 * not atomic on all platforms. Things would be a lot simpler if
 * we had atomic64 or maybe cmpxchg64 everywhere.
 *
 * Reconnecting complicates this picture just slightly. When we
 * reconnect, we may be seeing duplicate packets. The peer
 * is retransmitting them, because it hasn't seen an ACK for
 * them. It is important that we ACK these.
 *
 * ACK mitigation adds a header flag "ACK_REQUIRED"; any packet with
 * this flag set *MUST* be acknowledged immediately.
 */

/*
 * When we get here, we're called from the recv queue handler.
 * Check whether we ought to transmit an ACK.
 */
void rds_ib_attempt_ack(struct rds_ib_connection *ic)
{
	unsigned int adv_credits;

	if (!test_bit(IB_ACK_REQUESTED, &ic->i_ack_flags))
		return;

	if (test_and_set_bit(IB_ACK_IN_FLIGHT, &ic->i_ack_flags)) {
		rds_ib_stats_inc(s_ib_ack_send_delayed);
		return;
	}

	/* Can we get a send credit? */
	if (!rds_ib_send_grab_credits(ic, 1, &adv_credits, 0, RDS_MAX_ADV_CREDIT)) {
		rds_ib_stats_inc(s_ib_tx_throttle);
		clear_bit(IB_ACK_IN_FLIGHT, &ic->i_ack_flags);
		return;
	}

	clear_bit(IB_ACK_REQUESTED, &ic->i_ack_flags);
	rds_ib_send_ack(ic, adv_credits);
}

/*
 * We get here from the send completion handler, when the
 * adapter tells us the ACK frame was sent.
 */
void rds_ib_ack_send_complete(struct rds_ib_connection *ic)
{
	clear_bit(IB_ACK_IN_FLIGHT, &ic->i_ack_flags);
	rds_ib_attempt_ack(ic);
}

/*
 * This is called by the regular xmit code when it wants to piggyback
 * an ACK on an outgoing frame.
 */
u64 rds_ib_piggyb_ack(struct rds_ib_connection *ic)
{
	if (test_and_clear_bit(IB_ACK_REQUESTED, &ic->i_ack_flags))
		rds_ib_stats_inc(s_ib_ack_send_piggybacked);
	return rds_ib_get_ack(ic);
}

/*
 * It's kind of lame that we're copying from the posted receive pages into
 * long-lived bitmaps.  We could have posted the bitmaps and rdma written into
 * them.  But receiving new congestion bitmaps should be a *rare* event, so
 * hopefully we won't need to invest that complexity in making it more
 * efficient.  By copying we can share a simpler core with TCP which has to
 * copy.
 */
static void rds_ib_cong_recv(struct rds_connection *conn,
			      struct rds_ib_incoming *ibinc)
{
	struct rds_cong_map *map;
	unsigned int map_off;
	unsigned int map_page;
	struct rds_page_frag *frag;
	unsigned long frag_off;
	unsigned long to_copy;
	unsigned long copied;
	uint64_t uncongested = 0;
	void *addr;

	/* catch completely corrupt packets */
	if (be32_to_cpu(ibinc->ii_inc.i_hdr.h_len) != RDS_CONG_MAP_BYTES)
		return;

	map = conn->c_fcong;
	map_page = 0;
	map_off = 0;

	frag = list_entry(ibinc->ii_frags.next, struct rds_page_frag, f_item);
	frag_off = 0;

	copied = 0;

	while (copied < RDS_CONG_MAP_BYTES) {
		uint64_t *src, *dst;
		unsigned int k;

		to_copy = min(RDS_FRAG_SIZE - frag_off, PAGE_SIZE - map_off);
		BUG_ON(to_copy & 7); /* Must be 64bit aligned. */

		addr = kmap_atomic(sg_page(&frag->f_sg));

		src = addr + frag_off;
		dst = (void *)map->m_page_addrs[map_page] + map_off;
		for (k = 0; k < to_copy; k += 8) {
			/* Record ports that became uncongested, ie
			 * bits that changed from 0 to 1. */
			uncongested |= ~(*src) & *dst;
			*dst++ = *src++;
		}
		kunmap_atomic(addr);

		copied += to_copy;

		map_off += to_copy;
		if (map_off == PAGE_SIZE) {
			map_off = 0;
			map_page++;
		}

		frag_off += to_copy;
		if (frag_off == RDS_FRAG_SIZE) {
			frag = list_entry(frag->f_item.next,
					  struct rds_page_frag, f_item);
			frag_off = 0;
		}
	}

	/* the congestion map is in little endian order */
	uncongested = le64_to_cpu(uncongested);

	rds_cong_map_updated(map, uncongested);
}

/*
 * Rings are posted with all the allocations they'll need to queue the
 * incoming message to the receiving socket so this can't fail.
 * All fragments start with a header, so we can make sure we're not receiving
 * garbage, and we can tell a small 8 byte fragment from an ACK frame.
 */
struct rds_ib_ack_state {
	u64		ack_next;
	u64		ack_recv;
	unsigned int	ack_required:1;
	unsigned int	ack_next_valid:1;
	unsigned int	ack_recv_valid:1;
};

static void rds_ib_process_recv(struct rds_connection *conn,
				struct rds_ib_recv_work *recv, u32 data_len,
				struct rds_ib_ack_state *state)
{
	struct rds_ib_connection *ic = conn->c_transport_data;
	struct rds_ib_incoming *ibinc = ic->i_ibinc;
	struct rds_header *ihdr, *hdr;

	/* XXX shut down the connection if port 0,0 are seen? */

	rdsdebug("ic %p ibinc %p recv %p byte len %u\n", ic, ibinc, recv,
		 data_len);

	if (data_len < sizeof(struct rds_header)) {
		rds_ib_conn_error(conn, "incoming message "
		       "from %pI4 didn't include a "
		       "header, disconnecting and "
		       "reconnecting\n",
		       &conn->c_faddr);
		return;
	}
	data_len -= sizeof(struct rds_header);

	ihdr = &ic->i_recv_hdrs[recv - ic->i_recvs];

	/* Validate the checksum. */
	if (!rds_message_verify_checksum(ihdr)) {
		rds_ib_conn_error(conn, "incoming message "
		       "from %pI4 has corrupted header - "
		       "forcing a reconnect\n",
		       &conn->c_faddr);
		rds_stats_inc(s_recv_drop_bad_checksum);
		return;
	}

	/* Process the ACK sequence which comes with every packet */
	state->ack_recv = be64_to_cpu(ihdr->h_ack);
	state->ack_recv_valid = 1;

	/* Process the credits update if there was one */
	if (ihdr->h_credit)
		rds_ib_send_add_credits(conn, ihdr->h_credit);

	if (ihdr->h_sport == 0 && ihdr->h_dport == 0 && data_len == 0) {
		/* This is an ACK-only packet. The fact that it gets
		 * special treatment here is that historically, ACKs
		 * were rather special beasts.
		 */
		rds_ib_stats_inc(s_ib_ack_received);

		/*
		 * Usually the frags make their way on to incs and are then freed as
		 * the inc is freed.  We don't go that route, so we have to drop the
		 * page ref ourselves.  We can't just leave the page on the recv
		 * because that confuses the dma mapping of pages and each recv's use
		 * of a partial page.
		 *
		 * FIXME: Fold this into the code path below.
		 */
		rds_ib_frag_free(ic, recv->r_frag);
		recv->r_frag = NULL;
		return;
	}

	/*
	 * If we don't already have an inc on the connection then this
	 * fragment has a header and starts a message.. copy its header
	 * into the inc and save the inc so we can hang upcoming fragments
	 * off its list.
	 */
	if (!ibinc) {
		ibinc = recv->r_ibinc;
		recv->r_ibinc = NULL;
		ic->i_ibinc = ibinc;

		hdr = &ibinc->ii_inc.i_hdr;
		memcpy(hdr, ihdr, sizeof(*hdr));
		ic->i_recv_data_rem = be32_to_cpu(hdr->h_len);

		rdsdebug("ic %p ibinc %p rem %u flag 0x%x\n", ic, ibinc,
			 ic->i_recv_data_rem, hdr->h_flags);
	} else {
		hdr = &ibinc->ii_inc.i_hdr;
		/* We can't just use memcmp here; fragments of a
		 * single message may carry different ACKs */
		if (hdr->h_sequence != ihdr->h_sequence ||
		    hdr->h_len != ihdr->h_len ||
		    hdr->h_sport != ihdr->h_sport ||
		    hdr->h_dport != ihdr->h_dport) {
			rds_ib_conn_error(conn,
				"fragment header mismatch; forcing reconnect\n");
			return;
		}
	}

	list_add_tail(&recv->r_frag->f_item, &ibinc->ii_frags);
	recv->r_frag = NULL;

	if (ic->i_recv_data_rem > RDS_FRAG_SIZE)
		ic->i_recv_data_rem -= RDS_FRAG_SIZE;
	else {
		ic->i_recv_data_rem = 0;
		ic->i_ibinc = NULL;

		if (ibinc->ii_inc.i_hdr.h_flags == RDS_FLAG_CONG_BITMAP)
			rds_ib_cong_recv(conn, ibinc);
		else {
			rds_recv_incoming(conn, conn->c_faddr, conn->c_laddr,
					  &ibinc->ii_inc, GFP_ATOMIC);
			state->ack_next = be64_to_cpu(hdr->h_sequence);
			state->ack_next_valid = 1;
		}

		/* Evaluate the ACK_REQUIRED flag *after* we received
		 * the complete frame, and after bumping the next_rx
		 * sequence. */
		if (hdr->h_flags & RDS_FLAG_ACK_REQUIRED) {
			rds_stats_inc(s_recv_ack_required);
			state->ack_required = 1;
		}

		rds_inc_put(&ibinc->ii_inc);
	}
}

/*
 * Plucking the oldest entry from the ring can be done concurrently with
 * the thread refilling the ring.  Each ring operation is protected by
 * spinlocks and the transient state of refilling doesn't change the
 * recording of which entry is oldest.
 *
 * This relies on IB only calling one cq comp_handler for each cq so that
 * there will only be one caller of rds_recv_incoming() per RDS connection.
 */
void rds_ib_recv_cq_comp_handler(struct ib_cq *cq, void *context)
{
	struct rds_connection *conn = context;
	struct rds_ib_connection *ic = conn->c_transport_data;

	rdsdebug("conn %p cq %p\n", conn, cq);

	rds_ib_stats_inc(s_ib_rx_cq_call);

	tasklet_schedule(&ic->i_recv_tasklet);
}

static inline void rds_poll_cq(struct rds_ib_connection *ic,
			       struct rds_ib_ack_state *state)
{
	struct rds_connection *conn = ic->conn;
	struct ib_wc wc;
	struct rds_ib_recv_work *recv;

	while (ib_poll_cq(ic->i_recv_cq, 1, &wc) > 0) {
		rdsdebug("wc wr_id 0x%llx status %u (%s) byte_len %u imm_data %u\n",
			 (unsigned long long)wc.wr_id, wc.status,
			 rds_ib_wc_status_str(wc.status), wc.byte_len,
			 be32_to_cpu(wc.ex.imm_data));
		rds_ib_stats_inc(s_ib_rx_cq_event);

		recv = &ic->i_recvs[rds_ib_ring_oldest(&ic->i_recv_ring)];

		ib_dma_unmap_sg(ic->i_cm_id->device, &recv->r_frag->f_sg, 1, DMA_FROM_DEVICE);

		/*
		 * Also process recvs in connecting state because it is possible
		 * to get a recv completion _before_ the rdmacm ESTABLISHED
		 * event is processed.
		 */
		if (wc.status == IB_WC_SUCCESS) {
			rds_ib_process_recv(conn, recv, wc.byte_len, state);
		} else {
			/* We expect errors as the qp is drained during shutdown */
			if (rds_conn_up(conn) || rds_conn_connecting(conn))
				rds_ib_conn_error(conn, "recv completion on %pI4 had "
						  "status %u (%s), disconnecting and "
						  "reconnecting\n", &conn->c_faddr,
						  wc.status,
						  rds_ib_wc_status_str(wc.status));
		}

		/*
		 * It's very important that we only free this ring entry if we've truly
		 * freed the resources allocated to the entry.  The refilling path can
		 * leak if we don't.
		 */
		rds_ib_ring_free(&ic->i_recv_ring, 1);
	}
}

void rds_ib_recv_tasklet_fn(unsigned long data)
{
	struct rds_ib_connection *ic = (struct rds_ib_connection *) data;
	struct rds_connection *conn = ic->conn;
	struct rds_ib_ack_state state = { 0, };

	rds_poll_cq(ic, &state);
	ib_req_notify_cq(ic->i_recv_cq, IB_CQ_SOLICITED);
	rds_poll_cq(ic, &state);

	if (state.ack_next_valid)
		rds_ib_set_ack(ic, state.ack_next, state.ack_required);
	if (state.ack_recv_valid && state.ack_recv > ic->i_ack_recv) {
		rds_send_drop_acked(conn, state.ack_recv, NULL);
		ic->i_ack_recv = state.ack_recv;
	}
	if (rds_conn_up(conn))
		rds_ib_attempt_ack(ic);

	/* If we ever end up with a really empty receive ring, we're
	 * in deep trouble, as the sender will definitely see RNR
	 * timeouts. */
	if (rds_ib_ring_empty(&ic->i_recv_ring))
		rds_ib_stats_inc(s_ib_rx_ring_empty);

	if (rds_ib_ring_low(&ic->i_recv_ring))
		rds_ib_recv_refill(conn, 0);
}

int rds_ib_recv(struct rds_connection *conn)
{
	struct rds_ib_connection *ic = conn->c_transport_data;
	int ret = 0;

	rdsdebug("conn %p\n", conn);
	if (rds_conn_up(conn))
		rds_ib_attempt_ack(ic);

	return ret;
}

int rds_ib_recv_init(void)
{
	struct sysinfo si;
	int ret = -ENOMEM;

	/* Default to 30% of all available RAM for recv memory */
	si_meminfo(&si);
	rds_ib_sysctl_max_recv_allocation = si.totalram / 3 * PAGE_SIZE / RDS_FRAG_SIZE;

	rds_ib_incoming_slab = kmem_cache_create("rds_ib_incoming",
					sizeof(struct rds_ib_incoming),
					0, SLAB_HWCACHE_ALIGN, NULL);
	if (!rds_ib_incoming_slab)
		goto out;

	rds_ib_frag_slab = kmem_cache_create("rds_ib_frag",
					sizeof(struct rds_page_frag),
					0, SLAB_HWCACHE_ALIGN, NULL);
	if (!rds_ib_frag_slab)
		kmem_cache_destroy(rds_ib_incoming_slab);
	else
		ret = 0;
out:
	return ret;
}

void rds_ib_recv_exit(void)
{
	kmem_cache_destroy(rds_ib_incoming_slab);
	kmem_cache_destroy(rds_ib_frag_slab);
}