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1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445 1446 1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 | // SPDX-License-Identifier: GPL-2.0 or BSD-3-Clause /* Authors: Bernard Metzler <bmt@zurich.ibm.com> */ /* Copyright (c) 2008-2019, IBM Corporation */ #include <linux/errno.h> #include <linux/types.h> #include <linux/net.h> #include <linux/scatterlist.h> #include <linux/highmem.h> #include <rdma/iw_cm.h> #include <rdma/ib_verbs.h> #include "siw.h" #include "siw_verbs.h" #include "siw_mem.h" /* * siw_rx_umem() * * Receive data of @len into target referenced by @dest_addr. * * @srx: Receive Context * @umem: siw representation of target memory * @dest_addr: user virtual address * @len: number of bytes to place */ static int siw_rx_umem(struct siw_rx_stream *srx, struct siw_umem *umem, u64 dest_addr, int len) { int copied = 0; while (len) { struct page *p; int pg_off, bytes, rv; void *dest; p = siw_get_upage(umem, dest_addr); if (unlikely(!p)) { pr_warn("siw: %s: [QP %u]: bogus addr: %pK, %pK\n", __func__, qp_id(rx_qp(srx)), (void *)(uintptr_t)dest_addr, (void *)(uintptr_t)umem->fp_addr); /* siw internal error */ srx->skb_copied += copied; srx->skb_new -= copied; return -EFAULT; } pg_off = dest_addr & ~PAGE_MASK; bytes = min(len, (int)PAGE_SIZE - pg_off); siw_dbg_qp(rx_qp(srx), "page %pK, bytes=%u\n", p, bytes); dest = kmap_atomic(p); rv = skb_copy_bits(srx->skb, srx->skb_offset, dest + pg_off, bytes); if (unlikely(rv)) { kunmap_atomic(dest); srx->skb_copied += copied; srx->skb_new -= copied; pr_warn("siw: [QP %u]: %s, len %d, page %p, rv %d\n", qp_id(rx_qp(srx)), __func__, len, p, rv); return -EFAULT; } if (srx->mpa_crc_hd) { if (rdma_is_kernel_res(&rx_qp(srx)->base_qp.res)) { crypto_shash_update(srx->mpa_crc_hd, (u8 *)(dest + pg_off), bytes); kunmap_atomic(dest); } else { kunmap_atomic(dest); /* * Do CRC on original, not target buffer. * Some user land applications may * concurrently write the target buffer, * which would yield a broken CRC. * Walking the skb twice is very ineffcient. * Folding the CRC into skb_copy_bits() * would be much better, but is currently * not supported. */ siw_crc_skb(srx, bytes); } } else { kunmap_atomic(dest); } srx->skb_offset += bytes; copied += bytes; len -= bytes; dest_addr += bytes; pg_off = 0; } srx->skb_copied += copied; srx->skb_new -= copied; return copied; } static int siw_rx_kva(struct siw_rx_stream *srx, void *kva, int len) { int rv; siw_dbg_qp(rx_qp(srx), "kva: 0x%pK, len: %u\n", kva, len); rv = skb_copy_bits(srx->skb, srx->skb_offset, kva, len); if (unlikely(rv)) { pr_warn("siw: [QP %u]: %s, len %d, kva 0x%pK, rv %d\n", qp_id(rx_qp(srx)), __func__, len, kva, rv); return rv; } if (srx->mpa_crc_hd) crypto_shash_update(srx->mpa_crc_hd, (u8 *)kva, len); srx->skb_offset += len; srx->skb_copied += len; srx->skb_new -= len; return len; } static int siw_rx_pbl(struct siw_rx_stream *srx, int *pbl_idx, struct siw_mem *mem, u64 addr, int len) { struct siw_pbl *pbl = mem->pbl; u64 offset = addr - mem->va; int copied = 0; while (len) { int bytes; dma_addr_t buf_addr = siw_pbl_get_buffer(pbl, offset, &bytes, pbl_idx); if (!buf_addr) break; bytes = min(bytes, len); if (siw_rx_kva(srx, (void *)(uintptr_t)buf_addr, bytes) == bytes) { copied += bytes; offset += bytes; len -= bytes; } else { break; } } return copied; } /* * siw_rresp_check_ntoh() * * Check incoming RRESP fragment header against expected * header values and update expected values for potential next * fragment. * * NOTE: This function must be called only if a RRESP DDP segment * starts but not for fragmented consecutive pieces of an * already started DDP segment. */ static int siw_rresp_check_ntoh(struct siw_rx_stream *srx, struct siw_rx_fpdu *frx) { struct iwarp_rdma_rresp *rresp = &srx->hdr.rresp; struct siw_wqe *wqe = &frx->wqe_active; enum ddp_ecode ecode; u32 sink_stag = be32_to_cpu(rresp->sink_stag); u64 sink_to = be64_to_cpu(rresp->sink_to); if (frx->first_ddp_seg) { srx->ddp_stag = wqe->sqe.sge[0].lkey; srx->ddp_to = wqe->sqe.sge[0].laddr; frx->pbl_idx = 0; } /* Below checks extend beyond the semantics of DDP, and * into RDMAP: * We check if the read response matches exactly the * read request which was send to the remote peer to * trigger this read response. RFC5040/5041 do not * always have a proper error code for the detected * error cases. We choose 'base or bounds error' for * cases where the inbound STag is valid, but offset * or length do not match our response receive state. */ if (unlikely(srx->ddp_stag != sink_stag)) { pr_warn("siw: [QP %u]: rresp stag: %08x != %08x\n", qp_id(rx_qp(srx)), sink_stag, srx->ddp_stag); ecode = DDP_ECODE_T_INVALID_STAG; goto error; } if (unlikely(srx->ddp_to != sink_to)) { pr_warn("siw: [QP %u]: rresp off: %016llx != %016llx\n", qp_id(rx_qp(srx)), (unsigned long long)sink_to, (unsigned long long)srx->ddp_to); ecode = DDP_ECODE_T_BASE_BOUNDS; goto error; } if (unlikely(!frx->more_ddp_segs && (wqe->processed + srx->fpdu_part_rem != wqe->bytes))) { pr_warn("siw: [QP %u]: rresp len: %d != %d\n", qp_id(rx_qp(srx)), wqe->processed + srx->fpdu_part_rem, wqe->bytes); ecode = DDP_ECODE_T_BASE_BOUNDS; goto error; } return 0; error: siw_init_terminate(rx_qp(srx), TERM_ERROR_LAYER_DDP, DDP_ETYPE_TAGGED_BUF, ecode, 0); return -EINVAL; } /* * siw_write_check_ntoh() * * Check incoming WRITE fragment header against expected * header values and update expected values for potential next * fragment * * NOTE: This function must be called only if a WRITE DDP segment * starts but not for fragmented consecutive pieces of an * already started DDP segment. */ static int siw_write_check_ntoh(struct siw_rx_stream *srx, struct siw_rx_fpdu *frx) { struct iwarp_rdma_write *write = &srx->hdr.rwrite; enum ddp_ecode ecode; u32 sink_stag = be32_to_cpu(write->sink_stag); u64 sink_to = be64_to_cpu(write->sink_to); if (frx->first_ddp_seg) { srx->ddp_stag = sink_stag; srx->ddp_to = sink_to; frx->pbl_idx = 0; } else { if (unlikely(srx->ddp_stag != sink_stag)) { pr_warn("siw: [QP %u]: write stag: %08x != %08x\n", qp_id(rx_qp(srx)), sink_stag, srx->ddp_stag); ecode = DDP_ECODE_T_INVALID_STAG; goto error; } if (unlikely(srx->ddp_to != sink_to)) { pr_warn("siw: [QP %u]: write off: %016llx != %016llx\n", qp_id(rx_qp(srx)), (unsigned long long)sink_to, (unsigned long long)srx->ddp_to); ecode = DDP_ECODE_T_BASE_BOUNDS; goto error; } } return 0; error: siw_init_terminate(rx_qp(srx), TERM_ERROR_LAYER_DDP, DDP_ETYPE_TAGGED_BUF, ecode, 0); return -EINVAL; } /* * siw_send_check_ntoh() * * Check incoming SEND fragment header against expected * header values and update expected MSN if no next * fragment expected * * NOTE: This function must be called only if a SEND DDP segment * starts but not for fragmented consecutive pieces of an * already started DDP segment. */ static int siw_send_check_ntoh(struct siw_rx_stream *srx, struct siw_rx_fpdu *frx) { struct iwarp_send_inv *send = &srx->hdr.send_inv; struct siw_wqe *wqe = &frx->wqe_active; enum ddp_ecode ecode; u32 ddp_msn = be32_to_cpu(send->ddp_msn); u32 ddp_mo = be32_to_cpu(send->ddp_mo); u32 ddp_qn = be32_to_cpu(send->ddp_qn); if (unlikely(ddp_qn != RDMAP_UNTAGGED_QN_SEND)) { pr_warn("siw: [QP %u]: invalid ddp qn %d for send\n", qp_id(rx_qp(srx)), ddp_qn); ecode = DDP_ECODE_UT_INVALID_QN; goto error; } if (unlikely(ddp_msn != srx->ddp_msn[RDMAP_UNTAGGED_QN_SEND])) { pr_warn("siw: [QP %u]: send msn: %u != %u\n", qp_id(rx_qp(srx)), ddp_msn, srx->ddp_msn[RDMAP_UNTAGGED_QN_SEND]); ecode = DDP_ECODE_UT_INVALID_MSN_RANGE; goto error; } if (unlikely(ddp_mo != wqe->processed)) { pr_warn("siw: [QP %u], send mo: %u != %u\n", qp_id(rx_qp(srx)), ddp_mo, wqe->processed); ecode = DDP_ECODE_UT_INVALID_MO; goto error; } if (frx->first_ddp_seg) { /* initialize user memory write position */ frx->sge_idx = 0; frx->sge_off = 0; frx->pbl_idx = 0; /* only valid for SEND_INV and SEND_SE_INV operations */ srx->inval_stag = be32_to_cpu(send->inval_stag); } if (unlikely(wqe->bytes < wqe->processed + srx->fpdu_part_rem)) { siw_dbg_qp(rx_qp(srx), "receive space short: %d - %d < %d\n", wqe->bytes, wqe->processed, srx->fpdu_part_rem); wqe->wc_status = SIW_WC_LOC_LEN_ERR; ecode = DDP_ECODE_UT_INVALID_MSN_NOBUF; goto error; } return 0; error: siw_init_terminate(rx_qp(srx), TERM_ERROR_LAYER_DDP, DDP_ETYPE_UNTAGGED_BUF, ecode, 0); return -EINVAL; } static struct siw_wqe *siw_rqe_get(struct siw_qp *qp) { struct siw_rqe *rqe; struct siw_srq *srq; struct siw_wqe *wqe = NULL; bool srq_event = false; unsigned long flags; srq = qp->srq; if (srq) { spin_lock_irqsave(&srq->lock, flags); if (unlikely(!srq->num_rqe)) goto out; rqe = &srq->recvq[srq->rq_get % srq->num_rqe]; } else { if (unlikely(!qp->recvq)) goto out; rqe = &qp->recvq[qp->rq_get % qp->attrs.rq_size]; } if (likely(rqe->flags == SIW_WQE_VALID)) { int num_sge = rqe->num_sge; if (likely(num_sge <= SIW_MAX_SGE)) { int i = 0; wqe = rx_wqe(&qp->rx_untagged); rx_type(wqe) = SIW_OP_RECEIVE; wqe->wr_status = SIW_WR_INPROGRESS; wqe->bytes = 0; wqe->processed = 0; wqe->rqe.id = rqe->id; wqe->rqe.num_sge = num_sge; while (i < num_sge) { wqe->rqe.sge[i].laddr = rqe->sge[i].laddr; wqe->rqe.sge[i].lkey = rqe->sge[i].lkey; wqe->rqe.sge[i].length = rqe->sge[i].length; wqe->bytes += wqe->rqe.sge[i].length; wqe->mem[i] = NULL; i++; } /* can be re-used by appl */ smp_store_mb(rqe->flags, 0); } else { siw_dbg_qp(qp, "too many sge's: %d\n", rqe->num_sge); if (srq) spin_unlock_irqrestore(&srq->lock, flags); return NULL; } if (!srq) { qp->rq_get++; } else { if (srq->armed) { /* Test SRQ limit */ u32 off = (srq->rq_get + srq->limit) % srq->num_rqe; struct siw_rqe *rqe2 = &srq->recvq[off]; if (!(rqe2->flags & SIW_WQE_VALID)) { srq->armed = false; srq_event = true; } } srq->rq_get++; } } out: if (srq) { spin_unlock_irqrestore(&srq->lock, flags); if (srq_event) siw_srq_event(srq, IB_EVENT_SRQ_LIMIT_REACHED); } return wqe; } /* * siw_proc_send: * * Process one incoming SEND and place data into memory referenced by * receive wqe. * * Function supports partially received sends (suspending/resuming * current receive wqe processing) * * return value: * 0: reached the end of a DDP segment * -EAGAIN: to be called again to finish the DDP segment */ int siw_proc_send(struct siw_qp *qp) { struct siw_rx_stream *srx = &qp->rx_stream; struct siw_rx_fpdu *frx = &qp->rx_untagged; struct siw_wqe *wqe; u32 data_bytes; /* all data bytes available */ u32 rcvd_bytes; /* sum of data bytes rcvd */ int rv = 0; if (frx->first_ddp_seg) { wqe = siw_rqe_get(qp); if (unlikely(!wqe)) { siw_init_terminate(qp, TERM_ERROR_LAYER_DDP, DDP_ETYPE_UNTAGGED_BUF, DDP_ECODE_UT_INVALID_MSN_NOBUF, 0); return -ENOENT; } } else { wqe = rx_wqe(frx); } if (srx->state == SIW_GET_DATA_START) { rv = siw_send_check_ntoh(srx, frx); if (unlikely(rv)) { siw_qp_event(qp, IB_EVENT_QP_FATAL); return rv; } if (!srx->fpdu_part_rem) /* zero length SEND */ return 0; } data_bytes = min(srx->fpdu_part_rem, srx->skb_new); rcvd_bytes = 0; /* A zero length SEND will skip below loop */ while (data_bytes) { struct ib_pd *pd; struct siw_mem **mem, *mem_p; struct siw_sge *sge; u32 sge_bytes; /* data bytes avail for SGE */ sge = &wqe->rqe.sge[frx->sge_idx]; if (!sge->length) { /* just skip empty sge's */ frx->sge_idx++; frx->sge_off = 0; frx->pbl_idx = 0; continue; } sge_bytes = min(data_bytes, sge->length - frx->sge_off); mem = &wqe->mem[frx->sge_idx]; /* * check with QP's PD if no SRQ present, SRQ's PD otherwise */ pd = qp->srq == NULL ? qp->pd : qp->srq->base_srq.pd; rv = siw_check_sge(pd, sge, mem, IB_ACCESS_LOCAL_WRITE, frx->sge_off, sge_bytes); if (unlikely(rv)) { siw_init_terminate(qp, TERM_ERROR_LAYER_DDP, DDP_ETYPE_CATASTROPHIC, DDP_ECODE_CATASTROPHIC, 0); siw_qp_event(qp, IB_EVENT_QP_ACCESS_ERR); break; } mem_p = *mem; if (mem_p->mem_obj == NULL) rv = siw_rx_kva(srx, (void *)(uintptr_t)(sge->laddr + frx->sge_off), sge_bytes); else if (!mem_p->is_pbl) rv = siw_rx_umem(srx, mem_p->umem, sge->laddr + frx->sge_off, sge_bytes); else rv = siw_rx_pbl(srx, &frx->pbl_idx, mem_p, sge->laddr + frx->sge_off, sge_bytes); if (unlikely(rv != sge_bytes)) { wqe->processed += rcvd_bytes; siw_init_terminate(qp, TERM_ERROR_LAYER_DDP, DDP_ETYPE_CATASTROPHIC, DDP_ECODE_CATASTROPHIC, 0); return -EINVAL; } frx->sge_off += rv; if (frx->sge_off == sge->length) { frx->sge_idx++; frx->sge_off = 0; frx->pbl_idx = 0; } data_bytes -= rv; rcvd_bytes += rv; srx->fpdu_part_rem -= rv; srx->fpdu_part_rcvd += rv; } wqe->processed += rcvd_bytes; if (!srx->fpdu_part_rem) return 0; return (rv < 0) ? rv : -EAGAIN; } /* * siw_proc_write: * * Place incoming WRITE after referencing and checking target buffer * Function supports partially received WRITEs (suspending/resuming * current receive processing) * * return value: * 0: reached the end of a DDP segment * -EAGAIN: to be called again to finish the DDP segment */ int siw_proc_write(struct siw_qp *qp) { struct siw_rx_stream *srx = &qp->rx_stream; struct siw_rx_fpdu *frx = &qp->rx_tagged; struct siw_mem *mem; int bytes, rv; if (srx->state == SIW_GET_DATA_START) { if (!srx->fpdu_part_rem) /* zero length WRITE */ return 0; rv = siw_write_check_ntoh(srx, frx); if (unlikely(rv)) { siw_qp_event(qp, IB_EVENT_QP_FATAL); return rv; } } bytes = min(srx->fpdu_part_rem, srx->skb_new); if (frx->first_ddp_seg) { struct siw_wqe *wqe = rx_wqe(frx); rx_mem(frx) = siw_mem_id2obj(qp->sdev, srx->ddp_stag >> 8); if (unlikely(!rx_mem(frx))) { siw_dbg_qp(qp, "sink stag not found/invalid, stag 0x%08x\n", srx->ddp_stag); siw_init_terminate(qp, TERM_ERROR_LAYER_DDP, DDP_ETYPE_TAGGED_BUF, DDP_ECODE_T_INVALID_STAG, 0); return -EINVAL; } wqe->rqe.num_sge = 1; rx_type(wqe) = SIW_OP_WRITE; wqe->wr_status = SIW_WR_INPROGRESS; } mem = rx_mem(frx); /* * Check if application re-registered memory with different * key field of STag. */ if (unlikely(mem->stag != srx->ddp_stag)) { siw_init_terminate(qp, TERM_ERROR_LAYER_DDP, DDP_ETYPE_TAGGED_BUF, DDP_ECODE_T_INVALID_STAG, 0); return -EINVAL; } rv = siw_check_mem(qp->pd, mem, srx->ddp_to + srx->fpdu_part_rcvd, IB_ACCESS_REMOTE_WRITE, bytes); if (unlikely(rv)) { siw_init_terminate(qp, TERM_ERROR_LAYER_DDP, DDP_ETYPE_TAGGED_BUF, siw_tagged_error(-rv), 0); siw_qp_event(qp, IB_EVENT_QP_ACCESS_ERR); return -EINVAL; } if (mem->mem_obj == NULL) rv = siw_rx_kva(srx, (void *)(uintptr_t)(srx->ddp_to + srx->fpdu_part_rcvd), bytes); else if (!mem->is_pbl) rv = siw_rx_umem(srx, mem->umem, srx->ddp_to + srx->fpdu_part_rcvd, bytes); else rv = siw_rx_pbl(srx, &frx->pbl_idx, mem, srx->ddp_to + srx->fpdu_part_rcvd, bytes); if (unlikely(rv != bytes)) { siw_init_terminate(qp, TERM_ERROR_LAYER_DDP, DDP_ETYPE_CATASTROPHIC, DDP_ECODE_CATASTROPHIC, 0); return -EINVAL; } srx->fpdu_part_rem -= rv; srx->fpdu_part_rcvd += rv; if (!srx->fpdu_part_rem) { srx->ddp_to += srx->fpdu_part_rcvd; return 0; } return -EAGAIN; } /* * Inbound RREQ's cannot carry user data. */ int siw_proc_rreq(struct siw_qp *qp) { struct siw_rx_stream *srx = &qp->rx_stream; if (!srx->fpdu_part_rem) return 0; pr_warn("siw: [QP %u]: rreq with mpa len %d\n", qp_id(qp), be16_to_cpu(srx->hdr.ctrl.mpa_len)); return -EPROTO; } /* * siw_init_rresp: * * Process inbound RDMA READ REQ. Produce a pseudo READ RESPONSE WQE. * Put it at the tail of the IRQ, if there is another WQE currently in * transmit processing. If not, make it the current WQE to be processed * and schedule transmit processing. * * Can be called from softirq context and from process * context (RREAD socket loopback case!) * * return value: * 0: success, * failure code otherwise */ static int siw_init_rresp(struct siw_qp *qp, struct siw_rx_stream *srx) { struct siw_wqe *tx_work = tx_wqe(qp); struct siw_sqe *resp; uint64_t raddr = be64_to_cpu(srx->hdr.rreq.sink_to), laddr = be64_to_cpu(srx->hdr.rreq.source_to); uint32_t length = be32_to_cpu(srx->hdr.rreq.read_size), lkey = be32_to_cpu(srx->hdr.rreq.source_stag), rkey = be32_to_cpu(srx->hdr.rreq.sink_stag), msn = be32_to_cpu(srx->hdr.rreq.ddp_msn); int run_sq = 1, rv = 0; unsigned long flags; if (unlikely(msn != srx->ddp_msn[RDMAP_UNTAGGED_QN_RDMA_READ])) { siw_init_terminate(qp, TERM_ERROR_LAYER_DDP, DDP_ETYPE_UNTAGGED_BUF, DDP_ECODE_UT_INVALID_MSN_RANGE, 0); return -EPROTO; } spin_lock_irqsave(&qp->sq_lock, flags); if (unlikely(!qp->attrs.irq_size)) { run_sq = 0; goto error_irq; } if (tx_work->wr_status == SIW_WR_IDLE) { /* * immediately schedule READ response w/o * consuming IRQ entry: IRQ must be empty. */ tx_work->processed = 0; tx_work->mem[0] = NULL; tx_work->wr_status = SIW_WR_QUEUED; resp = &tx_work->sqe; } else { resp = irq_alloc_free(qp); run_sq = 0; } if (likely(resp)) { resp->opcode = SIW_OP_READ_RESPONSE; resp->sge[0].length = length; resp->sge[0].laddr = laddr; resp->sge[0].lkey = lkey; /* Keep aside message sequence number for potential * error reporting during Read Response generation. */ resp->sge[1].length = msn; resp->raddr = raddr; resp->rkey = rkey; resp->num_sge = length ? 1 : 0; /* RRESP now valid as current TX wqe or placed into IRQ */ smp_store_mb(resp->flags, SIW_WQE_VALID); } else { error_irq: pr_warn("siw: [QP %u]: IRQ exceeded or null, size %d\n", qp_id(qp), qp->attrs.irq_size); siw_init_terminate(qp, TERM_ERROR_LAYER_RDMAP, RDMAP_ETYPE_REMOTE_OPERATION, RDMAP_ECODE_CATASTROPHIC_STREAM, 0); rv = -EPROTO; } spin_unlock_irqrestore(&qp->sq_lock, flags); if (run_sq) rv = siw_sq_start(qp); return rv; } /* * Only called at start of Read.Resonse processing. * Transfer pending Read from tip of ORQ into currrent rx wqe, * but keep ORQ entry valid until Read.Response processing done. * No Queue locking needed. */ static int siw_orqe_start_rx(struct siw_qp *qp) { struct siw_sqe *orqe; struct siw_wqe *wqe = NULL; if (unlikely(!qp->attrs.orq_size)) return -EPROTO; /* make sure ORQ indices are current */ smp_mb(); orqe = orq_get_current(qp); if (READ_ONCE(orqe->flags) & SIW_WQE_VALID) { /* RRESP is a TAGGED RDMAP operation */ wqe = rx_wqe(&qp->rx_tagged); wqe->sqe.id = orqe->id; wqe->sqe.opcode = orqe->opcode; wqe->sqe.sge[0].laddr = orqe->sge[0].laddr; wqe->sqe.sge[0].lkey = orqe->sge[0].lkey; wqe->sqe.sge[0].length = orqe->sge[0].length; wqe->sqe.flags = orqe->flags; wqe->sqe.num_sge = 1; wqe->bytes = orqe->sge[0].length; wqe->processed = 0; wqe->mem[0] = NULL; /* make sure WQE is completely written before valid */ smp_wmb(); wqe->wr_status = SIW_WR_INPROGRESS; return 0; } return -EPROTO; } /* * siw_proc_rresp: * * Place incoming RRESP data into memory referenced by RREQ WQE * which is at the tip of the ORQ * * Function supports partially received RRESP's (suspending/resuming * current receive processing) */ int siw_proc_rresp(struct siw_qp *qp) { struct siw_rx_stream *srx = &qp->rx_stream; struct siw_rx_fpdu *frx = &qp->rx_tagged; struct siw_wqe *wqe = rx_wqe(frx); struct siw_mem **mem, *mem_p; struct siw_sge *sge; int bytes, rv; if (frx->first_ddp_seg) { if (unlikely(wqe->wr_status != SIW_WR_IDLE)) { pr_warn("siw: [QP %u]: proc RRESP: status %d, op %d\n", qp_id(qp), wqe->wr_status, wqe->sqe.opcode); rv = -EPROTO; goto error_term; } /* * fetch pending RREQ from orq */ rv = siw_orqe_start_rx(qp); if (rv) { pr_warn("siw: [QP %u]: ORQ empty, size %d\n", qp_id(qp), qp->attrs.orq_size); goto error_term; } rv = siw_rresp_check_ntoh(srx, frx); if (unlikely(rv)) { siw_qp_event(qp, IB_EVENT_QP_FATAL); return rv; } } else { if (unlikely(wqe->wr_status != SIW_WR_INPROGRESS)) { pr_warn("siw: [QP %u]: resume RRESP: status %d\n", qp_id(qp), wqe->wr_status); rv = -EPROTO; goto error_term; } } if (!srx->fpdu_part_rem) /* zero length RRESPONSE */ return 0; sge = wqe->sqe.sge; /* there is only one */ mem = &wqe->mem[0]; if (!(*mem)) { /* * check target memory which resolves memory on first fragment */ rv = siw_check_sge(qp->pd, sge, mem, IB_ACCESS_LOCAL_WRITE, 0, wqe->bytes); if (unlikely(rv)) { siw_dbg_qp(qp, "target mem check: %d\n", rv); wqe->wc_status = SIW_WC_LOC_PROT_ERR; siw_init_terminate(qp, TERM_ERROR_LAYER_DDP, DDP_ETYPE_TAGGED_BUF, siw_tagged_error(-rv), 0); siw_qp_event(qp, IB_EVENT_QP_ACCESS_ERR); return -EINVAL; } } mem_p = *mem; bytes = min(srx->fpdu_part_rem, srx->skb_new); if (mem_p->mem_obj == NULL) rv = siw_rx_kva(srx, (void *)(uintptr_t)(sge->laddr + wqe->processed), bytes); else if (!mem_p->is_pbl) rv = siw_rx_umem(srx, mem_p->umem, sge->laddr + wqe->processed, bytes); else rv = siw_rx_pbl(srx, &frx->pbl_idx, mem_p, sge->laddr + wqe->processed, bytes); if (rv != bytes) { wqe->wc_status = SIW_WC_GENERAL_ERR; rv = -EINVAL; goto error_term; } srx->fpdu_part_rem -= rv; srx->fpdu_part_rcvd += rv; wqe->processed += rv; if (!srx->fpdu_part_rem) { srx->ddp_to += srx->fpdu_part_rcvd; return 0; } return -EAGAIN; error_term: siw_init_terminate(qp, TERM_ERROR_LAYER_DDP, DDP_ETYPE_CATASTROPHIC, DDP_ECODE_CATASTROPHIC, 0); return rv; } int siw_proc_terminate(struct siw_qp *qp) { struct siw_rx_stream *srx = &qp->rx_stream; struct sk_buff *skb = srx->skb; struct iwarp_terminate *term = &srx->hdr.terminate; union iwarp_hdr term_info; u8 *infop = (u8 *)&term_info; enum rdma_opcode op; u16 to_copy = sizeof(struct iwarp_ctrl); pr_warn("siw: got TERMINATE. layer %d, type %d, code %d\n", __rdmap_term_layer(term), __rdmap_term_etype(term), __rdmap_term_ecode(term)); if (be32_to_cpu(term->ddp_qn) != RDMAP_UNTAGGED_QN_TERMINATE || be32_to_cpu(term->ddp_msn) != qp->rx_stream.ddp_msn[RDMAP_UNTAGGED_QN_TERMINATE] || be32_to_cpu(term->ddp_mo) != 0) { pr_warn("siw: rx bogus TERM [QN x%08x, MSN x%08x, MO x%08x]\n", be32_to_cpu(term->ddp_qn), be32_to_cpu(term->ddp_msn), be32_to_cpu(term->ddp_mo)); return -ECONNRESET; } /* * Receive remaining pieces of TERM if indicated */ if (!term->flag_m) return -ECONNRESET; /* Do not take the effort to reassemble a network fragmented * TERM message */ if (srx->skb_new < sizeof(struct iwarp_ctrl_tagged)) return -ECONNRESET; memset(infop, 0, sizeof(term_info)); skb_copy_bits(skb, srx->skb_offset, infop, to_copy); op = __rdmap_get_opcode(&term_info.ctrl); if (op >= RDMAP_TERMINATE) goto out; infop += to_copy; srx->skb_offset += to_copy; srx->skb_new -= to_copy; srx->skb_copied += to_copy; srx->fpdu_part_rcvd += to_copy; srx->fpdu_part_rem -= to_copy; to_copy = iwarp_pktinfo[op].hdr_len - to_copy; /* Again, no network fragmented TERM's */ if (to_copy + MPA_CRC_SIZE > srx->skb_new) return -ECONNRESET; skb_copy_bits(skb, srx->skb_offset, infop, to_copy); if (term->flag_r) { siw_dbg_qp(qp, "TERM reports RDMAP hdr type %u, len %u (%s)\n", op, be16_to_cpu(term_info.ctrl.mpa_len), term->flag_m ? "valid" : "invalid"); } else if (term->flag_d) { siw_dbg_qp(qp, "TERM reports DDP hdr type %u, len %u (%s)\n", op, be16_to_cpu(term_info.ctrl.mpa_len), term->flag_m ? "valid" : "invalid"); } out: srx->skb_new -= to_copy; srx->skb_offset += to_copy; srx->skb_copied += to_copy; srx->fpdu_part_rcvd += to_copy; srx->fpdu_part_rem -= to_copy; return -ECONNRESET; } static int siw_get_trailer(struct siw_qp *qp, struct siw_rx_stream *srx) { struct sk_buff *skb = srx->skb; u8 *tbuf = (u8 *)&srx->trailer.crc - srx->pad; __wsum crc_in, crc_own = 0; siw_dbg_qp(qp, "expected %d, available %d, pad %u\n", srx->fpdu_part_rem, srx->skb_new, srx->pad); if (srx->skb_new < srx->fpdu_part_rem) return -EAGAIN; skb_copy_bits(skb, srx->skb_offset, tbuf, srx->fpdu_part_rem); if (srx->mpa_crc_hd && srx->pad) crypto_shash_update(srx->mpa_crc_hd, tbuf, srx->pad); srx->skb_new -= srx->fpdu_part_rem; srx->skb_offset += srx->fpdu_part_rem; srx->skb_copied += srx->fpdu_part_rem; if (!srx->mpa_crc_hd) return 0; /* * CRC32 is computed, transmitted and received directly in NBO, * so there's never a reason to convert byte order. */ crypto_shash_final(srx->mpa_crc_hd, (u8 *)&crc_own); crc_in = (__force __wsum)srx->trailer.crc; if (unlikely(crc_in != crc_own)) { pr_warn("siw: crc error. in: %08x, own %08x, op %u\n", crc_in, crc_own, qp->rx_stream.rdmap_op); siw_init_terminate(qp, TERM_ERROR_LAYER_LLP, LLP_ETYPE_MPA, LLP_ECODE_RECEIVED_CRC, 0); return -EINVAL; } return 0; } #define MIN_DDP_HDR sizeof(struct iwarp_ctrl_tagged) static int siw_get_hdr(struct siw_rx_stream *srx) { struct sk_buff *skb = srx->skb; struct siw_qp *qp = rx_qp(srx); struct iwarp_ctrl *c_hdr = &srx->hdr.ctrl; struct siw_rx_fpdu *frx; u8 opcode; int bytes; if (srx->fpdu_part_rcvd < MIN_DDP_HDR) { /* * copy a mimimum sized (tagged) DDP frame control part */ bytes = min_t(int, srx->skb_new, MIN_DDP_HDR - srx->fpdu_part_rcvd); skb_copy_bits(skb, srx->skb_offset, (char *)c_hdr + srx->fpdu_part_rcvd, bytes); srx->fpdu_part_rcvd += bytes; srx->skb_new -= bytes; srx->skb_offset += bytes; srx->skb_copied += bytes; if (srx->fpdu_part_rcvd < MIN_DDP_HDR) return -EAGAIN; if (unlikely(__ddp_get_version(c_hdr) != DDP_VERSION)) { enum ddp_etype etype; enum ddp_ecode ecode; pr_warn("siw: received ddp version unsupported %d\n", __ddp_get_version(c_hdr)); if (c_hdr->ddp_rdmap_ctrl & DDP_FLAG_TAGGED) { etype = DDP_ETYPE_TAGGED_BUF; ecode = DDP_ECODE_T_VERSION; } else { etype = DDP_ETYPE_UNTAGGED_BUF; ecode = DDP_ECODE_UT_VERSION; } siw_init_terminate(rx_qp(srx), TERM_ERROR_LAYER_DDP, etype, ecode, 0); return -EINVAL; } if (unlikely(__rdmap_get_version(c_hdr) != RDMAP_VERSION)) { pr_warn("siw: received rdmap version unsupported %d\n", __rdmap_get_version(c_hdr)); siw_init_terminate(rx_qp(srx), TERM_ERROR_LAYER_RDMAP, RDMAP_ETYPE_REMOTE_OPERATION, RDMAP_ECODE_VERSION, 0); return -EINVAL; } opcode = __rdmap_get_opcode(c_hdr); if (opcode > RDMAP_TERMINATE) { pr_warn("siw: received unknown packet type %u\n", opcode); siw_init_terminate(rx_qp(srx), TERM_ERROR_LAYER_RDMAP, RDMAP_ETYPE_REMOTE_OPERATION, RDMAP_ECODE_OPCODE, 0); return -EINVAL; } siw_dbg_qp(rx_qp(srx), "new header, opcode %u\n", opcode); } else { opcode = __rdmap_get_opcode(c_hdr); } set_rx_fpdu_context(qp, opcode); frx = qp->rx_fpdu; /* * Figure out len of current hdr: variable length of * iwarp hdr may force us to copy hdr information in * two steps. Only tagged DDP messages are already * completely received. */ if (iwarp_pktinfo[opcode].hdr_len > sizeof(struct iwarp_ctrl_tagged)) { bytes = iwarp_pktinfo[opcode].hdr_len - MIN_DDP_HDR; if (srx->skb_new < bytes) return -EAGAIN; skb_copy_bits(skb, srx->skb_offset, (char *)c_hdr + srx->fpdu_part_rcvd, bytes); srx->fpdu_part_rcvd += bytes; srx->skb_new -= bytes; srx->skb_offset += bytes; srx->skb_copied += bytes; } /* * DDP/RDMAP header receive completed. Check if the current * DDP segment starts a new RDMAP message or continues a previously * started RDMAP message. * * Alternating reception of DDP segments (or FPDUs) from incomplete * tagged and untagged RDMAP messages is supported, as long as * the current tagged or untagged message gets eventually completed * w/o intersection from another message of the same type * (tagged/untagged). E.g., a WRITE can get intersected by a SEND, * but not by a READ RESPONSE etc. */ if (srx->mpa_crc_hd) { /* * Restart CRC computation */ crypto_shash_init(srx->mpa_crc_hd); crypto_shash_update(srx->mpa_crc_hd, (u8 *)c_hdr, srx->fpdu_part_rcvd); } if (frx->more_ddp_segs) { frx->first_ddp_seg = 0; if (frx->prev_rdmap_op != opcode) { pr_warn("siw: packet intersection: %u : %u\n", frx->prev_rdmap_op, opcode); /* * The last inbound RDMA operation of same type * (tagged or untagged) is left unfinished. * To complete it in error, make it the current * operation again, even with the header already * overwritten. For error handling, only the opcode * and current rx context are relevant. */ set_rx_fpdu_context(qp, frx->prev_rdmap_op); __rdmap_set_opcode(c_hdr, frx->prev_rdmap_op); return -EPROTO; } } else { frx->prev_rdmap_op = opcode; frx->first_ddp_seg = 1; } frx->more_ddp_segs = c_hdr->ddp_rdmap_ctrl & DDP_FLAG_LAST ? 0 : 1; return 0; } static int siw_check_tx_fence(struct siw_qp *qp) { struct siw_wqe *tx_waiting = tx_wqe(qp); struct siw_sqe *rreq; int resume_tx = 0, rv = 0; unsigned long flags; spin_lock_irqsave(&qp->orq_lock, flags); rreq = orq_get_current(qp); /* free current orq entry */ WRITE_ONCE(rreq->flags, 0); if (qp->tx_ctx.orq_fence) { if (unlikely(tx_waiting->wr_status != SIW_WR_QUEUED)) { pr_warn("siw: [QP %u]: fence resume: bad status %d\n", qp_id(qp), tx_waiting->wr_status); rv = -EPROTO; goto out; } /* resume SQ processing */ if (tx_waiting->sqe.opcode == SIW_OP_READ || tx_waiting->sqe.opcode == SIW_OP_READ_LOCAL_INV) { rreq = orq_get_tail(qp); if (unlikely(!rreq)) { pr_warn("siw: [QP %u]: no ORQE\n", qp_id(qp)); rv = -EPROTO; goto out; } siw_read_to_orq(rreq, &tx_waiting->sqe); qp->orq_put++; qp->tx_ctx.orq_fence = 0; resume_tx = 1; } else if (siw_orq_empty(qp)) { qp->tx_ctx.orq_fence = 0; resume_tx = 1; } else { pr_warn("siw: [QP %u]: fence resume: orq idx: %d:%d\n", qp_id(qp), qp->orq_get, qp->orq_put); rv = -EPROTO; } } qp->orq_get++; out: spin_unlock_irqrestore(&qp->orq_lock, flags); if (resume_tx) rv = siw_sq_start(qp); return rv; } /* * siw_rdmap_complete() * * Complete processing of an RDMA message after receiving all * DDP segmens or ABort processing after encountering error case. * * o SENDs + RRESPs will need for completion, * o RREQs need for READ RESPONSE initialization * o WRITEs need memory dereferencing * * TODO: Failed WRITEs need local error to be surfaced. */ static int siw_rdmap_complete(struct siw_qp *qp, int error) { struct siw_rx_stream *srx = &qp->rx_stream; struct siw_wqe *wqe = rx_wqe(qp->rx_fpdu); enum siw_wc_status wc_status = wqe->wc_status; u8 opcode = __rdmap_get_opcode(&srx->hdr.ctrl); int rv = 0; switch (opcode) { case RDMAP_SEND_SE: case RDMAP_SEND_SE_INVAL: wqe->rqe.flags |= SIW_WQE_SOLICITED; fallthrough; case RDMAP_SEND: case RDMAP_SEND_INVAL: if (wqe->wr_status == SIW_WR_IDLE) break; srx->ddp_msn[RDMAP_UNTAGGED_QN_SEND]++; if (error != 0 && wc_status == SIW_WC_SUCCESS) wc_status = SIW_WC_GENERAL_ERR; /* * Handle STag invalidation request */ if (wc_status == SIW_WC_SUCCESS && (opcode == RDMAP_SEND_INVAL || opcode == RDMAP_SEND_SE_INVAL)) { rv = siw_invalidate_stag(qp->pd, srx->inval_stag); if (rv) { siw_init_terminate( qp, TERM_ERROR_LAYER_RDMAP, rv == -EACCES ? RDMAP_ETYPE_REMOTE_PROTECTION : RDMAP_ETYPE_REMOTE_OPERATION, RDMAP_ECODE_CANNOT_INVALIDATE, 0); wc_status = SIW_WC_REM_INV_REQ_ERR; } rv = siw_rqe_complete(qp, &wqe->rqe, wqe->processed, rv ? 0 : srx->inval_stag, wc_status); } else { rv = siw_rqe_complete(qp, &wqe->rqe, wqe->processed, 0, wc_status); } siw_wqe_put_mem(wqe, SIW_OP_RECEIVE); break; case RDMAP_RDMA_READ_RESP: if (wqe->wr_status == SIW_WR_IDLE) break; if (error != 0) { if ((srx->state == SIW_GET_HDR && qp->rx_fpdu->first_ddp_seg) || error == -ENODATA) /* possible RREQ in ORQ left untouched */ break; if (wc_status == SIW_WC_SUCCESS) wc_status = SIW_WC_GENERAL_ERR; } else if (rdma_is_kernel_res(&qp->base_qp.res) && rx_type(wqe) == SIW_OP_READ_LOCAL_INV) { /* * Handle any STag invalidation request */ rv = siw_invalidate_stag(qp->pd, wqe->sqe.sge[0].lkey); if (rv) { siw_init_terminate(qp, TERM_ERROR_LAYER_RDMAP, RDMAP_ETYPE_CATASTROPHIC, RDMAP_ECODE_UNSPECIFIED, 0); if (wc_status == SIW_WC_SUCCESS) { wc_status = SIW_WC_GENERAL_ERR; error = rv; } } } /* * All errors turn the wqe into signalled. */ if ((wqe->sqe.flags & SIW_WQE_SIGNALLED) || error != 0) rv = siw_sqe_complete(qp, &wqe->sqe, wqe->processed, wc_status); siw_wqe_put_mem(wqe, SIW_OP_READ); if (!error) { rv = siw_check_tx_fence(qp); } else { /* Disable current ORQ element */ if (qp->attrs.orq_size) WRITE_ONCE(orq_get_current(qp)->flags, 0); } break; case RDMAP_RDMA_READ_REQ: if (!error) { rv = siw_init_rresp(qp, srx); srx->ddp_msn[RDMAP_UNTAGGED_QN_RDMA_READ]++; } break; case RDMAP_RDMA_WRITE: if (wqe->wr_status == SIW_WR_IDLE) break; /* * Free References from memory object if * attached to receive context (inbound WRITE). * While a zero-length WRITE is allowed, * no memory reference got created. */ if (rx_mem(&qp->rx_tagged)) { siw_mem_put(rx_mem(&qp->rx_tagged)); rx_mem(&qp->rx_tagged) = NULL; } break; default: break; } wqe->wr_status = SIW_WR_IDLE; return rv; } /* * siw_tcp_rx_data() * * Main routine to consume inbound TCP payload * * @rd_desc: read descriptor * @skb: socket buffer * @off: offset in skb * @len: skb->len - offset : payload in skb */ int siw_tcp_rx_data(read_descriptor_t *rd_desc, struct sk_buff *skb, unsigned int off, size_t len) { struct siw_qp *qp = rd_desc->arg.data; struct siw_rx_stream *srx = &qp->rx_stream; int rv; srx->skb = skb; srx->skb_new = skb->len - off; srx->skb_offset = off; srx->skb_copied = 0; siw_dbg_qp(qp, "new data, len %d\n", srx->skb_new); while (srx->skb_new) { int run_completion = 1; if (unlikely(srx->rx_suspend)) { /* Do not process any more data */ srx->skb_copied += srx->skb_new; break; } switch (srx->state) { case SIW_GET_HDR: rv = siw_get_hdr(srx); if (!rv) { srx->fpdu_part_rem = be16_to_cpu(srx->hdr.ctrl.mpa_len) - srx->fpdu_part_rcvd + MPA_HDR_SIZE; if (srx->fpdu_part_rem) srx->pad = -srx->fpdu_part_rem & 0x3; else srx->pad = 0; srx->state = SIW_GET_DATA_START; srx->fpdu_part_rcvd = 0; } break; case SIW_GET_DATA_MORE: /* * Another data fragment of the same DDP segment. * Setting first_ddp_seg = 0 avoids repeating * initializations that shall occur only once per * DDP segment. */ qp->rx_fpdu->first_ddp_seg = 0; fallthrough; case SIW_GET_DATA_START: /* * Headers will be checked by the opcode-specific * data receive function below. */ rv = iwarp_pktinfo[qp->rx_stream.rdmap_op].rx_data(qp); if (!rv) { int mpa_len = be16_to_cpu(srx->hdr.ctrl.mpa_len) + MPA_HDR_SIZE; srx->fpdu_part_rem = (-mpa_len & 0x3) + MPA_CRC_SIZE; srx->fpdu_part_rcvd = 0; srx->state = SIW_GET_TRAILER; } else { if (unlikely(rv == -ECONNRESET)) run_completion = 0; else srx->state = SIW_GET_DATA_MORE; } break; case SIW_GET_TRAILER: /* * read CRC + any padding */ rv = siw_get_trailer(qp, srx); if (likely(!rv)) { /* * FPDU completed. * complete RDMAP message if last fragment */ srx->state = SIW_GET_HDR; srx->fpdu_part_rcvd = 0; if (!(srx->hdr.ctrl.ddp_rdmap_ctrl & DDP_FLAG_LAST)) /* more frags */ break; rv = siw_rdmap_complete(qp, 0); run_completion = 0; } break; default: pr_warn("QP[%u]: RX out of state\n", qp_id(qp)); rv = -EPROTO; run_completion = 0; } if (unlikely(rv != 0 && rv != -EAGAIN)) { if ((srx->state > SIW_GET_HDR || qp->rx_fpdu->more_ddp_segs) && run_completion) siw_rdmap_complete(qp, rv); siw_dbg_qp(qp, "rx error %d, rx state %d\n", rv, srx->state); siw_qp_cm_drop(qp, 1); break; } if (rv) { siw_dbg_qp(qp, "fpdu fragment, state %d, missing %d\n", srx->state, srx->fpdu_part_rem); break; } } return srx->skb_copied; } |