Current Path : /sys/amd64/compile/hs32/modules/usr/src/sys/modules/ppc/@/ofed/drivers/infiniband/ulp/sdp/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/ppc/@/ofed/drivers/infiniband/ulp/sdp/sdp_tx.c |
/* * Copyright (c) 2009 Mellanox Technologies Ltd. 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 "sdp.h" #define sdp_cnt(var) do { (var)++; } while (0) SDP_MODPARAM_SINT(sdp_keepalive_probes_sent, 0, "Total number of keepalive probes sent."); static int sdp_process_tx_cq(struct sdp_sock *ssk); static void sdp_poll_tx_timeout(void *data); int sdp_xmit_poll(struct sdp_sock *ssk, int force) { int wc_processed = 0; SDP_WLOCK_ASSERT(ssk); sdp_prf(ssk->socket, NULL, "%s", __func__); /* If we don't have a pending timer, set one up to catch our recent post in case the interface becomes idle */ if (!callout_pending(&ssk->tx_ring.timer)) callout_reset(&ssk->tx_ring.timer, SDP_TX_POLL_TIMEOUT, sdp_poll_tx_timeout, ssk); /* Poll the CQ every SDP_TX_POLL_MODER packets */ if (force || (++ssk->tx_ring.poll_cnt & (SDP_TX_POLL_MODER - 1)) == 0) wc_processed = sdp_process_tx_cq(ssk); return wc_processed; } void sdp_post_send(struct sdp_sock *ssk, struct mbuf *mb) { struct sdp_buf *tx_req; struct sdp_bsdh *h; unsigned long mseq; struct ib_device *dev; struct ib_send_wr *bad_wr; struct ib_sge ibsge[SDP_MAX_SEND_SGES]; struct ib_sge *sge; struct ib_send_wr tx_wr = { NULL }; int i, rc; u64 addr; SDPSTATS_COUNTER_MID_INC(post_send, h->mid); SDPSTATS_HIST(send_size, mb->len); if (!ssk->qp_active) { m_freem(mb); return; } mseq = ring_head(ssk->tx_ring); h = mtod(mb, struct sdp_bsdh *); ssk->tx_packets++; ssk->tx_bytes += mb->m_pkthdr.len; #ifdef SDP_ZCOPY if (unlikely(h->mid == SDP_MID_SRCAVAIL)) { struct tx_srcavail_state *tx_sa = TX_SRCAVAIL_STATE(mb); if (ssk->tx_sa != tx_sa) { sdp_dbg_data(ssk->socket, "SrcAvail cancelled " "before being sent!\n"); WARN_ON(1); m_freem(mb); return; } TX_SRCAVAIL_STATE(mb)->mseq = mseq; } #endif if (unlikely(mb->m_flags & M_URG)) h->flags = SDP_OOB_PRES | SDP_OOB_PEND; else h->flags = 0; mb->m_flags |= M_RDONLY; /* Don't allow compression once sent. */ h->bufs = htons(rx_ring_posted(ssk)); h->len = htonl(mb->m_pkthdr.len); h->mseq = htonl(mseq); h->mseq_ack = htonl(mseq_ack(ssk)); sdp_prf1(ssk->socket, mb, "TX: %s bufs: %d mseq:%ld ack:%d", mid2str(h->mid), rx_ring_posted(ssk), mseq, ntohl(h->mseq_ack)); SDP_DUMP_PACKET(ssk->socket, "TX", mb, h); tx_req = &ssk->tx_ring.buffer[mseq & (SDP_TX_SIZE - 1)]; tx_req->mb = mb; dev = ssk->ib_device; sge = &ibsge[0]; for (i = 0; mb != NULL; i++, mb = mb->m_next, sge++) { addr = ib_dma_map_single(dev, mb->m_data, mb->m_len, DMA_TO_DEVICE); /* TODO: proper error handling */ BUG_ON(ib_dma_mapping_error(dev, addr)); BUG_ON(i >= SDP_MAX_SEND_SGES); tx_req->mapping[i] = addr; sge->addr = addr; sge->length = mb->m_len; sge->lkey = ssk->sdp_dev->mr->lkey; } tx_wr.next = NULL; tx_wr.wr_id = mseq | SDP_OP_SEND; tx_wr.sg_list = ibsge; tx_wr.num_sge = i; tx_wr.opcode = IB_WR_SEND; tx_wr.send_flags = IB_SEND_SIGNALED; if (unlikely(tx_req->mb->m_flags & M_URG)) tx_wr.send_flags |= IB_SEND_SOLICITED; rc = ib_post_send(ssk->qp, &tx_wr, &bad_wr); if (unlikely(rc)) { sdp_dbg(ssk->socket, "ib_post_send failed with status %d.\n", rc); sdp_cleanup_sdp_buf(ssk, tx_req, DMA_TO_DEVICE); sdp_notify(ssk, ECONNRESET); m_freem(tx_req->mb); return; } atomic_inc(&ssk->tx_ring.head); atomic_dec(&ssk->tx_ring.credits); atomic_set(&ssk->remote_credits, rx_ring_posted(ssk)); return; } static struct mbuf * sdp_send_completion(struct sdp_sock *ssk, int mseq) { struct ib_device *dev; struct sdp_buf *tx_req; struct mbuf *mb = NULL; struct sdp_tx_ring *tx_ring = &ssk->tx_ring; if (unlikely(mseq != ring_tail(*tx_ring))) { printk(KERN_WARNING "Bogus send completion id %d tail %d\n", mseq, ring_tail(*tx_ring)); goto out; } dev = ssk->ib_device; tx_req = &tx_ring->buffer[mseq & (SDP_TX_SIZE - 1)]; mb = tx_req->mb; sdp_cleanup_sdp_buf(ssk, tx_req, DMA_TO_DEVICE); #ifdef SDP_ZCOPY /* TODO: AIO and real zcopy code; add their context support here */ if (BZCOPY_STATE(mb)) BZCOPY_STATE(mb)->busy--; #endif atomic_inc(&tx_ring->tail); out: return mb; } static int sdp_handle_send_comp(struct sdp_sock *ssk, struct ib_wc *wc) { struct mbuf *mb = NULL; struct sdp_bsdh *h; if (unlikely(wc->status)) { if (wc->status != IB_WC_WR_FLUSH_ERR) { sdp_prf(ssk->socket, mb, "Send completion with error. " "Status %d", wc->status); sdp_dbg_data(ssk->socket, "Send completion with error. " "Status %d\n", wc->status); sdp_notify(ssk, ECONNRESET); } } mb = sdp_send_completion(ssk, wc->wr_id); if (unlikely(!mb)) return -1; h = mtod(mb, struct sdp_bsdh *); sdp_prf1(ssk->socket, mb, "tx completion. mseq:%d", ntohl(h->mseq)); sdp_dbg(ssk->socket, "tx completion. %p %d mseq:%d", mb, mb->m_pkthdr.len, ntohl(h->mseq)); m_freem(mb); return 0; } static inline void sdp_process_tx_wc(struct sdp_sock *ssk, struct ib_wc *wc) { if (likely(wc->wr_id & SDP_OP_SEND)) { sdp_handle_send_comp(ssk, wc); return; } #ifdef SDP_ZCOPY if (wc->wr_id & SDP_OP_RDMA) { /* TODO: handle failed RDMA read cqe */ sdp_dbg_data(ssk->socket, "TX comp: RDMA read. status: %d\n", wc->status); sdp_prf1(sk, NULL, "TX comp: RDMA read"); if (!ssk->tx_ring.rdma_inflight) { sdp_warn(ssk->socket, "ERROR: unexpected RDMA read\n"); return; } if (!ssk->tx_ring.rdma_inflight->busy) { sdp_warn(ssk->socket, "ERROR: too many RDMA read completions\n"); return; } /* Only last RDMA read WR is signalled. Order is guaranteed - * therefore if Last RDMA read WR is completed - all other * have, too */ ssk->tx_ring.rdma_inflight->busy = 0; sowwakeup(ssk->socket); sdp_dbg_data(ssk->socket, "woke up sleepers\n"); return; } #endif /* Keepalive probe sent cleanup */ sdp_cnt(sdp_keepalive_probes_sent); if (likely(!wc->status)) return; sdp_dbg(ssk->socket, " %s consumes KEEPALIVE status %d\n", __func__, wc->status); if (wc->status == IB_WC_WR_FLUSH_ERR) return; sdp_notify(ssk, ECONNRESET); } static int sdp_process_tx_cq(struct sdp_sock *ssk) { struct ib_wc ibwc[SDP_NUM_WC]; int n, i; int wc_processed = 0; SDP_WLOCK_ASSERT(ssk); if (!ssk->tx_ring.cq) { sdp_dbg(ssk->socket, "tx irq on destroyed tx_cq\n"); return 0; } do { n = ib_poll_cq(ssk->tx_ring.cq, SDP_NUM_WC, ibwc); for (i = 0; i < n; ++i) { sdp_process_tx_wc(ssk, ibwc + i); wc_processed++; } } while (n == SDP_NUM_WC); if (wc_processed) { sdp_post_sends(ssk, M_DONTWAIT); sdp_prf1(sk, NULL, "Waking sendmsg. inflight=%d", (u32) tx_ring_posted(ssk)); sowwakeup(ssk->socket); } return wc_processed; } static void sdp_poll_tx(struct sdp_sock *ssk) { struct socket *sk = ssk->socket; u32 inflight, wc_processed; sdp_prf1(ssk->socket, NULL, "TX timeout: inflight=%d, head=%d tail=%d", (u32) tx_ring_posted(ssk), ring_head(ssk->tx_ring), ring_tail(ssk->tx_ring)); if (unlikely(ssk->state == TCPS_CLOSED)) { sdp_warn(sk, "Socket is closed\n"); goto out; } wc_processed = sdp_process_tx_cq(ssk); if (!wc_processed) SDPSTATS_COUNTER_INC(tx_poll_miss); else SDPSTATS_COUNTER_INC(tx_poll_hit); inflight = (u32) tx_ring_posted(ssk); sdp_prf1(ssk->socket, NULL, "finished tx proccessing. inflight = %d", inflight); /* If there are still packets in flight and the timer has not already * been scheduled by the Tx routine then schedule it here to guarantee * completion processing of these packets */ if (inflight) callout_reset(&ssk->tx_ring.timer, SDP_TX_POLL_TIMEOUT, sdp_poll_tx_timeout, ssk); out: #ifdef SDP_ZCOPY if (ssk->tx_ring.rdma_inflight && ssk->tx_ring.rdma_inflight->busy) { sdp_prf1(sk, NULL, "RDMA is inflight - arming irq"); sdp_arm_tx_cq(ssk); } #endif return; } static void sdp_poll_tx_timeout(void *data) { struct sdp_sock *ssk = (struct sdp_sock *)data; if (!callout_active(&ssk->tx_ring.timer)) return; callout_deactivate(&ssk->tx_ring.timer); sdp_poll_tx(ssk); } static void sdp_tx_irq(struct ib_cq *cq, void *cq_context) { struct sdp_sock *ssk; ssk = cq_context; sdp_prf1(ssk->socket, NULL, "tx irq"); sdp_dbg_data(ssk->socket, "Got tx comp interrupt\n"); SDPSTATS_COUNTER_INC(tx_int_count); SDP_WLOCK(ssk); sdp_poll_tx(ssk); SDP_WUNLOCK(ssk); } static void sdp_tx_ring_purge(struct sdp_sock *ssk) { while (tx_ring_posted(ssk)) { struct mbuf *mb; mb = sdp_send_completion(ssk, ring_tail(ssk->tx_ring)); if (!mb) break; m_freem(mb); } } void sdp_post_keepalive(struct sdp_sock *ssk) { int rc; struct ib_send_wr wr, *bad_wr; sdp_dbg(ssk->socket, "%s\n", __func__); memset(&wr, 0, sizeof(wr)); wr.next = NULL; wr.wr_id = 0; wr.sg_list = NULL; wr.num_sge = 0; wr.opcode = IB_WR_RDMA_WRITE; rc = ib_post_send(ssk->qp, &wr, &bad_wr); if (rc) { sdp_dbg(ssk->socket, "ib_post_keepalive failed with status %d.\n", rc); sdp_notify(ssk, ECONNRESET); } sdp_cnt(sdp_keepalive_probes_sent); } static void sdp_tx_cq_event_handler(struct ib_event *event, void *data) { } int sdp_tx_ring_create(struct sdp_sock *ssk, struct ib_device *device) { struct ib_cq *tx_cq; int rc = 0; sdp_dbg(ssk->socket, "tx ring create\n"); callout_init_rw(&ssk->tx_ring.timer, &ssk->lock, 0); callout_init_rw(&ssk->nagle_timer, &ssk->lock, 0); atomic_set(&ssk->tx_ring.head, 1); atomic_set(&ssk->tx_ring.tail, 1); ssk->tx_ring.buffer = kzalloc( sizeof *ssk->tx_ring.buffer * SDP_TX_SIZE, GFP_KERNEL); if (!ssk->tx_ring.buffer) { rc = -ENOMEM; sdp_warn(ssk->socket, "Can't allocate TX Ring size %zd.\n", sizeof(*ssk->tx_ring.buffer) * SDP_TX_SIZE); goto out; } tx_cq = ib_create_cq(device, sdp_tx_irq, sdp_tx_cq_event_handler, ssk, SDP_TX_SIZE, IB_CQ_VECTOR_LEAST_ATTACHED); if (IS_ERR(tx_cq)) { rc = PTR_ERR(tx_cq); sdp_warn(ssk->socket, "Unable to allocate TX CQ: %d.\n", rc); goto err_cq; } ssk->tx_ring.cq = tx_cq; ssk->tx_ring.poll_cnt = 0; sdp_arm_tx_cq(ssk); return 0; err_cq: kfree(ssk->tx_ring.buffer); ssk->tx_ring.buffer = NULL; out: return rc; } void sdp_tx_ring_destroy(struct sdp_sock *ssk) { sdp_dbg(ssk->socket, "tx ring destroy\n"); SDP_WLOCK(ssk); callout_stop(&ssk->tx_ring.timer); callout_stop(&ssk->nagle_timer); SDP_WUNLOCK(ssk); callout_drain(&ssk->tx_ring.timer); callout_drain(&ssk->nagle_timer); if (ssk->tx_ring.buffer) { sdp_tx_ring_purge(ssk); kfree(ssk->tx_ring.buffer); ssk->tx_ring.buffer = NULL; } if (ssk->tx_ring.cq) { if (ib_destroy_cq(ssk->tx_ring.cq)) { sdp_warn(ssk->socket, "destroy cq(%p) failed\n", ssk->tx_ring.cq); } else { ssk->tx_ring.cq = NULL; } } WARN_ON(ring_head(ssk->tx_ring) != ring_tail(ssk->tx_ring)); }