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1822 1823 1824 1825 1826 1827 1828 1829 1830 1831 1832 1833 1834 1835 1836 1837 1838 1839 1840 1841 1842 1843 1844 1845 1846 1847 1848 1849 1850 1851 1852 1853 1854 1855 1856 1857 1858 1859 1860 1861 1862 1863 1864 1865 1866 1867 1868 1869 1870 1871 1872 1873 1874 1875 1876 1877 1878 1879 | // 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/uaccess.h> #include <linux/vmalloc.h> #include <linux/xarray.h> #include <rdma/iw_cm.h> #include <rdma/ib_verbs.h> #include <rdma/ib_user_verbs.h> #include <rdma/uverbs_ioctl.h> #include "siw.h" #include "siw_verbs.h" #include "siw_mem.h" static int ib_qp_state_to_siw_qp_state[IB_QPS_ERR + 1] = { [IB_QPS_RESET] = SIW_QP_STATE_IDLE, [IB_QPS_INIT] = SIW_QP_STATE_IDLE, [IB_QPS_RTR] = SIW_QP_STATE_RTR, [IB_QPS_RTS] = SIW_QP_STATE_RTS, [IB_QPS_SQD] = SIW_QP_STATE_CLOSING, [IB_QPS_SQE] = SIW_QP_STATE_TERMINATE, [IB_QPS_ERR] = SIW_QP_STATE_ERROR }; static char ib_qp_state_to_string[IB_QPS_ERR + 1][sizeof("RESET")] = { [IB_QPS_RESET] = "RESET", [IB_QPS_INIT] = "INIT", [IB_QPS_RTR] = "RTR", [IB_QPS_RTS] = "RTS", [IB_QPS_SQD] = "SQD", [IB_QPS_SQE] = "SQE", [IB_QPS_ERR] = "ERR" }; void siw_mmap_free(struct rdma_user_mmap_entry *rdma_entry) { struct siw_user_mmap_entry *entry = to_siw_mmap_entry(rdma_entry); kfree(entry); } int siw_mmap(struct ib_ucontext *ctx, struct vm_area_struct *vma) { struct siw_ucontext *uctx = to_siw_ctx(ctx); size_t size = vma->vm_end - vma->vm_start; struct rdma_user_mmap_entry *rdma_entry; struct siw_user_mmap_entry *entry; int rv = -EINVAL; /* * Must be page aligned */ if (vma->vm_start & (PAGE_SIZE - 1)) { pr_warn("siw: mmap not page aligned\n"); return -EINVAL; } rdma_entry = rdma_user_mmap_entry_get(&uctx->base_ucontext, vma); if (!rdma_entry) { siw_dbg(&uctx->sdev->base_dev, "mmap lookup failed: %lu, %#zx\n", vma->vm_pgoff, size); return -EINVAL; } entry = to_siw_mmap_entry(rdma_entry); rv = remap_vmalloc_range(vma, entry->address, 0); if (rv) { pr_warn("remap_vmalloc_range failed: %lu, %zu\n", vma->vm_pgoff, size); goto out; } out: rdma_user_mmap_entry_put(rdma_entry); return rv; } int siw_alloc_ucontext(struct ib_ucontext *base_ctx, struct ib_udata *udata) { struct siw_device *sdev = to_siw_dev(base_ctx->device); struct siw_ucontext *ctx = to_siw_ctx(base_ctx); struct siw_uresp_alloc_ctx uresp = {}; int rv; if (atomic_inc_return(&sdev->num_ctx) > SIW_MAX_CONTEXT) { rv = -ENOMEM; goto err_out; } ctx->sdev = sdev; uresp.dev_id = sdev->vendor_part_id; if (udata->outlen < sizeof(uresp)) { rv = -EINVAL; goto err_out; } rv = ib_copy_to_udata(udata, &uresp, sizeof(uresp)); if (rv) goto err_out; siw_dbg(base_ctx->device, "success. now %d context(s)\n", atomic_read(&sdev->num_ctx)); return 0; err_out: atomic_dec(&sdev->num_ctx); siw_dbg(base_ctx->device, "failure %d. now %d context(s)\n", rv, atomic_read(&sdev->num_ctx)); return rv; } void siw_dealloc_ucontext(struct ib_ucontext *base_ctx) { struct siw_ucontext *uctx = to_siw_ctx(base_ctx); atomic_dec(&uctx->sdev->num_ctx); } int siw_query_device(struct ib_device *base_dev, struct ib_device_attr *attr, struct ib_udata *udata) { struct siw_device *sdev = to_siw_dev(base_dev); if (udata->inlen || udata->outlen) return -EINVAL; memset(attr, 0, sizeof(*attr)); /* Revisit atomic caps if RFC 7306 gets supported */ attr->atomic_cap = 0; attr->device_cap_flags = IB_DEVICE_MEM_MGT_EXTENSIONS | IB_DEVICE_ALLOW_USER_UNREG; attr->max_cq = sdev->attrs.max_cq; attr->max_cqe = sdev->attrs.max_cqe; attr->max_fast_reg_page_list_len = SIW_MAX_SGE_PBL; attr->max_mr = sdev->attrs.max_mr; attr->max_mw = sdev->attrs.max_mw; attr->max_mr_size = ~0ull; attr->max_pd = sdev->attrs.max_pd; attr->max_qp = sdev->attrs.max_qp; attr->max_qp_init_rd_atom = sdev->attrs.max_ird; attr->max_qp_rd_atom = sdev->attrs.max_ord; attr->max_qp_wr = sdev->attrs.max_qp_wr; attr->max_recv_sge = sdev->attrs.max_sge; attr->max_res_rd_atom = sdev->attrs.max_qp * sdev->attrs.max_ird; attr->max_send_sge = sdev->attrs.max_sge; attr->max_sge_rd = sdev->attrs.max_sge_rd; attr->max_srq = sdev->attrs.max_srq; attr->max_srq_sge = sdev->attrs.max_srq_sge; attr->max_srq_wr = sdev->attrs.max_srq_wr; attr->page_size_cap = PAGE_SIZE; attr->vendor_id = SIW_VENDOR_ID; attr->vendor_part_id = sdev->vendor_part_id; memcpy(&attr->sys_image_guid, sdev->netdev->dev_addr, 6); return 0; } int siw_query_port(struct ib_device *base_dev, u8 port, struct ib_port_attr *attr) { struct siw_device *sdev = to_siw_dev(base_dev); int rv; memset(attr, 0, sizeof(*attr)); rv = ib_get_eth_speed(base_dev, port, &attr->active_speed, &attr->active_width); attr->gid_tbl_len = 1; attr->max_msg_sz = -1; attr->max_mtu = ib_mtu_int_to_enum(sdev->netdev->mtu); attr->active_mtu = ib_mtu_int_to_enum(sdev->netdev->mtu); attr->phys_state = sdev->state == IB_PORT_ACTIVE ? IB_PORT_PHYS_STATE_LINK_UP : IB_PORT_PHYS_STATE_DISABLED; attr->port_cap_flags = IB_PORT_CM_SUP | IB_PORT_DEVICE_MGMT_SUP; attr->state = sdev->state; /* * All zero * * attr->lid = 0; * attr->bad_pkey_cntr = 0; * attr->qkey_viol_cntr = 0; * attr->sm_lid = 0; * attr->lmc = 0; * attr->max_vl_num = 0; * attr->sm_sl = 0; * attr->subnet_timeout = 0; * attr->init_type_repy = 0; */ return rv; } int siw_get_port_immutable(struct ib_device *base_dev, u8 port, struct ib_port_immutable *port_immutable) { struct ib_port_attr attr; int rv = siw_query_port(base_dev, port, &attr); if (rv) return rv; port_immutable->gid_tbl_len = attr.gid_tbl_len; port_immutable->core_cap_flags = RDMA_CORE_PORT_IWARP; return 0; } int siw_query_gid(struct ib_device *base_dev, u8 port, int idx, union ib_gid *gid) { struct siw_device *sdev = to_siw_dev(base_dev); /* subnet_prefix == interface_id == 0; */ memset(gid, 0, sizeof(*gid)); memcpy(&gid->raw[0], sdev->netdev->dev_addr, 6); return 0; } int siw_alloc_pd(struct ib_pd *pd, struct ib_udata *udata) { struct siw_device *sdev = to_siw_dev(pd->device); if (atomic_inc_return(&sdev->num_pd) > SIW_MAX_PD) { atomic_dec(&sdev->num_pd); return -ENOMEM; } siw_dbg_pd(pd, "now %d PD's(s)\n", atomic_read(&sdev->num_pd)); return 0; } int siw_dealloc_pd(struct ib_pd *pd, struct ib_udata *udata) { struct siw_device *sdev = to_siw_dev(pd->device); siw_dbg_pd(pd, "free PD\n"); atomic_dec(&sdev->num_pd); return 0; } void siw_qp_get_ref(struct ib_qp *base_qp) { siw_qp_get(to_siw_qp(base_qp)); } void siw_qp_put_ref(struct ib_qp *base_qp) { siw_qp_put(to_siw_qp(base_qp)); } static struct rdma_user_mmap_entry * siw_mmap_entry_insert(struct siw_ucontext *uctx, void *address, size_t length, u64 *offset) { struct siw_user_mmap_entry *entry = kzalloc(sizeof(*entry), GFP_KERNEL); int rv; *offset = SIW_INVAL_UOBJ_KEY; if (!entry) return NULL; entry->address = address; rv = rdma_user_mmap_entry_insert(&uctx->base_ucontext, &entry->rdma_entry, length); if (rv) { kfree(entry); return NULL; } *offset = rdma_user_mmap_get_offset(&entry->rdma_entry); return &entry->rdma_entry; } /* * siw_create_qp() * * Create QP of requested size on given device. * * @pd: Protection Domain * @attrs: Initial QP attributes. * @udata: used to provide QP ID, SQ and RQ size back to user. */ struct ib_qp *siw_create_qp(struct ib_pd *pd, struct ib_qp_init_attr *attrs, struct ib_udata *udata) { struct siw_qp *qp = NULL; struct ib_device *base_dev = pd->device; struct siw_device *sdev = to_siw_dev(base_dev); struct siw_ucontext *uctx = rdma_udata_to_drv_context(udata, struct siw_ucontext, base_ucontext); unsigned long flags; int num_sqe, num_rqe, rv = 0; size_t length; siw_dbg(base_dev, "create new QP\n"); if (atomic_inc_return(&sdev->num_qp) > SIW_MAX_QP) { siw_dbg(base_dev, "too many QP's\n"); rv = -ENOMEM; goto err_out; } if (attrs->qp_type != IB_QPT_RC) { siw_dbg(base_dev, "only RC QP's supported\n"); rv = -EOPNOTSUPP; goto err_out; } if ((attrs->cap.max_send_wr > SIW_MAX_QP_WR) || (attrs->cap.max_recv_wr > SIW_MAX_QP_WR) || (attrs->cap.max_send_sge > SIW_MAX_SGE) || (attrs->cap.max_recv_sge > SIW_MAX_SGE)) { siw_dbg(base_dev, "QP size error\n"); rv = -EINVAL; goto err_out; } if (attrs->cap.max_inline_data > SIW_MAX_INLINE) { siw_dbg(base_dev, "max inline send: %d > %d\n", attrs->cap.max_inline_data, (int)SIW_MAX_INLINE); rv = -EINVAL; goto err_out; } /* * NOTE: we allow for zero element SQ and RQ WQE's SGL's * but not for a QP unable to hold any WQE (SQ + RQ) */ if (attrs->cap.max_send_wr + attrs->cap.max_recv_wr == 0) { siw_dbg(base_dev, "QP must have send or receive queue\n"); rv = -EINVAL; goto err_out; } if (!attrs->send_cq || (!attrs->recv_cq && !attrs->srq)) { siw_dbg(base_dev, "send CQ or receive CQ invalid\n"); rv = -EINVAL; goto err_out; } qp = kzalloc(sizeof(*qp), GFP_KERNEL); if (!qp) { rv = -ENOMEM; goto err_out; } init_rwsem(&qp->state_lock); spin_lock_init(&qp->sq_lock); spin_lock_init(&qp->rq_lock); spin_lock_init(&qp->orq_lock); rv = siw_qp_add(sdev, qp); if (rv) goto err_out; num_sqe = attrs->cap.max_send_wr; num_rqe = attrs->cap.max_recv_wr; /* All queue indices are derived from modulo operations * on a free running 'get' (consumer) and 'put' (producer) * unsigned counter. Having queue sizes at power of two * avoids handling counter wrap around. */ if (num_sqe) num_sqe = roundup_pow_of_two(num_sqe); else { /* Zero sized SQ is not supported */ rv = -EINVAL; goto err_out_xa; } if (num_rqe) num_rqe = roundup_pow_of_two(num_rqe); if (udata) qp->sendq = vmalloc_user(num_sqe * sizeof(struct siw_sqe)); else qp->sendq = vzalloc(num_sqe * sizeof(struct siw_sqe)); if (qp->sendq == NULL) { rv = -ENOMEM; goto err_out_xa; } if (attrs->sq_sig_type != IB_SIGNAL_REQ_WR) { if (attrs->sq_sig_type == IB_SIGNAL_ALL_WR) qp->attrs.flags |= SIW_SIGNAL_ALL_WR; else { rv = -EINVAL; goto err_out_xa; } } qp->pd = pd; qp->scq = to_siw_cq(attrs->send_cq); qp->rcq = to_siw_cq(attrs->recv_cq); if (attrs->srq) { /* * SRQ support. * Verbs 6.3.7: ignore RQ size, if SRQ present * Verbs 6.3.5: do not check PD of SRQ against PD of QP */ qp->srq = to_siw_srq(attrs->srq); qp->attrs.rq_size = 0; siw_dbg(base_dev, "QP [%u]: SRQ attached\n", qp->base_qp.qp_num); } else if (num_rqe) { if (udata) qp->recvq = vmalloc_user(num_rqe * sizeof(struct siw_rqe)); else qp->recvq = vzalloc(num_rqe * sizeof(struct siw_rqe)); if (qp->recvq == NULL) { rv = -ENOMEM; goto err_out_xa; } qp->attrs.rq_size = num_rqe; } qp->attrs.sq_size = num_sqe; qp->attrs.sq_max_sges = attrs->cap.max_send_sge; qp->attrs.rq_max_sges = attrs->cap.max_recv_sge; /* Make those two tunables fixed for now. */ qp->tx_ctx.gso_seg_limit = 1; qp->tx_ctx.zcopy_tx = zcopy_tx; qp->attrs.state = SIW_QP_STATE_IDLE; if (udata) { struct siw_uresp_create_qp uresp = {}; uresp.num_sqe = num_sqe; uresp.num_rqe = num_rqe; uresp.qp_id = qp_id(qp); if (qp->sendq) { length = num_sqe * sizeof(struct siw_sqe); qp->sq_entry = siw_mmap_entry_insert(uctx, qp->sendq, length, &uresp.sq_key); if (!qp->sq_entry) { rv = -ENOMEM; goto err_out_xa; } } if (qp->recvq) { length = num_rqe * sizeof(struct siw_rqe); qp->rq_entry = siw_mmap_entry_insert(uctx, qp->recvq, length, &uresp.rq_key); if (!qp->rq_entry) { uresp.sq_key = SIW_INVAL_UOBJ_KEY; rv = -ENOMEM; goto err_out_xa; } } if (udata->outlen < sizeof(uresp)) { rv = -EINVAL; goto err_out_xa; } rv = ib_copy_to_udata(udata, &uresp, sizeof(uresp)); if (rv) goto err_out_xa; } qp->tx_cpu = siw_get_tx_cpu(sdev); if (qp->tx_cpu < 0) { rv = -EINVAL; goto err_out_xa; } INIT_LIST_HEAD(&qp->devq); spin_lock_irqsave(&sdev->lock, flags); list_add_tail(&qp->devq, &sdev->qp_list); spin_unlock_irqrestore(&sdev->lock, flags); return &qp->base_qp; err_out_xa: xa_erase(&sdev->qp_xa, qp_id(qp)); err_out: if (qp) { if (uctx) { rdma_user_mmap_entry_remove(qp->sq_entry); rdma_user_mmap_entry_remove(qp->rq_entry); } vfree(qp->sendq); vfree(qp->recvq); kfree(qp); } atomic_dec(&sdev->num_qp); return ERR_PTR(rv); } /* * Minimum siw_query_qp() verb interface. * * @qp_attr_mask is not used but all available information is provided */ int siw_query_qp(struct ib_qp *base_qp, struct ib_qp_attr *qp_attr, int qp_attr_mask, struct ib_qp_init_attr *qp_init_attr) { struct siw_qp *qp; struct siw_device *sdev; if (base_qp && qp_attr && qp_init_attr) { qp = to_siw_qp(base_qp); sdev = to_siw_dev(base_qp->device); } else { return -EINVAL; } qp_attr->cap.max_inline_data = SIW_MAX_INLINE; qp_attr->cap.max_send_wr = qp->attrs.sq_size; qp_attr->cap.max_send_sge = qp->attrs.sq_max_sges; qp_attr->cap.max_recv_wr = qp->attrs.rq_size; qp_attr->cap.max_recv_sge = qp->attrs.rq_max_sges; qp_attr->path_mtu = ib_mtu_int_to_enum(sdev->netdev->mtu); qp_attr->max_rd_atomic = qp->attrs.irq_size; qp_attr->max_dest_rd_atomic = qp->attrs.orq_size; qp_attr->qp_access_flags = IB_ACCESS_LOCAL_WRITE | IB_ACCESS_REMOTE_WRITE | IB_ACCESS_REMOTE_READ; qp_init_attr->qp_type = base_qp->qp_type; qp_init_attr->send_cq = base_qp->send_cq; qp_init_attr->recv_cq = base_qp->recv_cq; qp_init_attr->srq = base_qp->srq; qp_init_attr->cap = qp_attr->cap; return 0; } int siw_verbs_modify_qp(struct ib_qp *base_qp, struct ib_qp_attr *attr, int attr_mask, struct ib_udata *udata) { struct siw_qp_attrs new_attrs; enum siw_qp_attr_mask siw_attr_mask = 0; struct siw_qp *qp = to_siw_qp(base_qp); int rv = 0; if (!attr_mask) return 0; memset(&new_attrs, 0, sizeof(new_attrs)); if (attr_mask & IB_QP_ACCESS_FLAGS) { siw_attr_mask = SIW_QP_ATTR_ACCESS_FLAGS; if (attr->qp_access_flags & IB_ACCESS_REMOTE_READ) new_attrs.flags |= SIW_RDMA_READ_ENABLED; if (attr->qp_access_flags & IB_ACCESS_REMOTE_WRITE) new_attrs.flags |= SIW_RDMA_WRITE_ENABLED; if (attr->qp_access_flags & IB_ACCESS_MW_BIND) new_attrs.flags |= SIW_RDMA_BIND_ENABLED; } if (attr_mask & IB_QP_STATE) { siw_dbg_qp(qp, "desired IB QP state: %s\n", ib_qp_state_to_string[attr->qp_state]); new_attrs.state = ib_qp_state_to_siw_qp_state[attr->qp_state]; if (new_attrs.state > SIW_QP_STATE_RTS) qp->tx_ctx.tx_suspend = 1; siw_attr_mask |= SIW_QP_ATTR_STATE; } if (!siw_attr_mask) goto out; down_write(&qp->state_lock); rv = siw_qp_modify(qp, &new_attrs, siw_attr_mask); up_write(&qp->state_lock); out: return rv; } int siw_destroy_qp(struct ib_qp *base_qp, struct ib_udata *udata) { struct siw_qp *qp = to_siw_qp(base_qp); struct siw_ucontext *uctx = rdma_udata_to_drv_context(udata, struct siw_ucontext, base_ucontext); struct siw_qp_attrs qp_attrs; siw_dbg_qp(qp, "state %d\n", qp->attrs.state); /* * Mark QP as in process of destruction to prevent from * any async callbacks to RDMA core */ qp->attrs.flags |= SIW_QP_IN_DESTROY; qp->rx_stream.rx_suspend = 1; if (uctx) { rdma_user_mmap_entry_remove(qp->sq_entry); rdma_user_mmap_entry_remove(qp->rq_entry); } down_write(&qp->state_lock); qp_attrs.state = SIW_QP_STATE_ERROR; siw_qp_modify(qp, &qp_attrs, SIW_QP_ATTR_STATE); if (qp->cep) { siw_cep_put(qp->cep); qp->cep = NULL; } up_write(&qp->state_lock); kfree(qp->tx_ctx.mpa_crc_hd); kfree(qp->rx_stream.mpa_crc_hd); qp->scq = qp->rcq = NULL; siw_qp_put(qp); return 0; } /* * siw_copy_inline_sgl() * * Prepare sgl of inlined data for sending. For userland callers * function checks if given buffer addresses and len's are within * process context bounds. * Data from all provided sge's are copied together into the wqe, * referenced by a single sge. */ static int siw_copy_inline_sgl(const struct ib_send_wr *core_wr, struct siw_sqe *sqe) { struct ib_sge *core_sge = core_wr->sg_list; void *kbuf = &sqe->sge[1]; int num_sge = core_wr->num_sge, bytes = 0; sqe->sge[0].laddr = (uintptr_t)kbuf; sqe->sge[0].lkey = 0; while (num_sge--) { if (!core_sge->length) { core_sge++; continue; } bytes += core_sge->length; if (bytes > SIW_MAX_INLINE) { bytes = -EINVAL; break; } memcpy(kbuf, (void *)(uintptr_t)core_sge->addr, core_sge->length); kbuf += core_sge->length; core_sge++; } sqe->sge[0].length = bytes > 0 ? bytes : 0; sqe->num_sge = bytes > 0 ? 1 : 0; return bytes; } /* Complete SQ WR's without processing */ static int siw_sq_flush_wr(struct siw_qp *qp, const struct ib_send_wr *wr, const struct ib_send_wr **bad_wr) { int rv = 0; while (wr) { struct siw_sqe sqe = {}; switch (wr->opcode) { case IB_WR_RDMA_WRITE: sqe.opcode = SIW_OP_WRITE; break; case IB_WR_RDMA_READ: sqe.opcode = SIW_OP_READ; break; case IB_WR_RDMA_READ_WITH_INV: sqe.opcode = SIW_OP_READ_LOCAL_INV; break; case IB_WR_SEND: sqe.opcode = SIW_OP_SEND; break; case IB_WR_SEND_WITH_IMM: sqe.opcode = SIW_OP_SEND_WITH_IMM; break; case IB_WR_SEND_WITH_INV: sqe.opcode = SIW_OP_SEND_REMOTE_INV; break; case IB_WR_LOCAL_INV: sqe.opcode = SIW_OP_INVAL_STAG; break; case IB_WR_REG_MR: sqe.opcode = SIW_OP_REG_MR; break; default: rv = -EINVAL; break; } if (!rv) { sqe.id = wr->wr_id; rv = siw_sqe_complete(qp, &sqe, 0, SIW_WC_WR_FLUSH_ERR); } if (rv) { if (bad_wr) *bad_wr = wr; break; } wr = wr->next; } return rv; } /* Complete RQ WR's without processing */ static int siw_rq_flush_wr(struct siw_qp *qp, const struct ib_recv_wr *wr, const struct ib_recv_wr **bad_wr) { struct siw_rqe rqe = {}; int rv = 0; while (wr) { rqe.id = wr->wr_id; rv = siw_rqe_complete(qp, &rqe, 0, 0, SIW_WC_WR_FLUSH_ERR); if (rv) { if (bad_wr) *bad_wr = wr; break; } wr = wr->next; } return rv; } /* * siw_post_send() * * Post a list of S-WR's to a SQ. * * @base_qp: Base QP contained in siw QP * @wr: Null terminated list of user WR's * @bad_wr: Points to failing WR in case of synchronous failure. */ int siw_post_send(struct ib_qp *base_qp, const struct ib_send_wr *wr, const struct ib_send_wr **bad_wr) { struct siw_qp *qp = to_siw_qp(base_qp); struct siw_wqe *wqe = tx_wqe(qp); unsigned long flags; int rv = 0; if (wr && !rdma_is_kernel_res(&qp->base_qp.res)) { siw_dbg_qp(qp, "wr must be empty for user mapped sq\n"); *bad_wr = wr; return -EINVAL; } /* * Try to acquire QP state lock. Must be non-blocking * to accommodate kernel clients needs. */ if (!down_read_trylock(&qp->state_lock)) { if (qp->attrs.state == SIW_QP_STATE_ERROR) { /* * ERROR state is final, so we can be sure * this state will not change as long as the QP * exists. * * This handles an ib_drain_sq() call with * a concurrent request to set the QP state * to ERROR. */ rv = siw_sq_flush_wr(qp, wr, bad_wr); } else { siw_dbg_qp(qp, "QP locked, state %d\n", qp->attrs.state); *bad_wr = wr; rv = -ENOTCONN; } return rv; } if (unlikely(qp->attrs.state != SIW_QP_STATE_RTS)) { if (qp->attrs.state == SIW_QP_STATE_ERROR) { /* * Immediately flush this WR to CQ, if QP * is in ERROR state. SQ is guaranteed to * be empty, so WR complets in-order. * * Typically triggered by ib_drain_sq(). */ rv = siw_sq_flush_wr(qp, wr, bad_wr); } else { siw_dbg_qp(qp, "QP out of state %d\n", qp->attrs.state); *bad_wr = wr; rv = -ENOTCONN; } up_read(&qp->state_lock); return rv; } spin_lock_irqsave(&qp->sq_lock, flags); while (wr) { u32 idx = qp->sq_put % qp->attrs.sq_size; struct siw_sqe *sqe = &qp->sendq[idx]; if (sqe->flags) { siw_dbg_qp(qp, "sq full\n"); rv = -ENOMEM; break; } if (wr->num_sge > qp->attrs.sq_max_sges) { siw_dbg_qp(qp, "too many sge's: %d\n", wr->num_sge); rv = -EINVAL; break; } sqe->id = wr->wr_id; if ((wr->send_flags & IB_SEND_SIGNALED) || (qp->attrs.flags & SIW_SIGNAL_ALL_WR)) sqe->flags |= SIW_WQE_SIGNALLED; if (wr->send_flags & IB_SEND_FENCE) sqe->flags |= SIW_WQE_READ_FENCE; switch (wr->opcode) { case IB_WR_SEND: case IB_WR_SEND_WITH_INV: if (wr->send_flags & IB_SEND_SOLICITED) sqe->flags |= SIW_WQE_SOLICITED; if (!(wr->send_flags & IB_SEND_INLINE)) { siw_copy_sgl(wr->sg_list, sqe->sge, wr->num_sge); sqe->num_sge = wr->num_sge; } else { rv = siw_copy_inline_sgl(wr, sqe); if (rv <= 0) { rv = -EINVAL; break; } sqe->flags |= SIW_WQE_INLINE; sqe->num_sge = 1; } if (wr->opcode == IB_WR_SEND) sqe->opcode = SIW_OP_SEND; else { sqe->opcode = SIW_OP_SEND_REMOTE_INV; sqe->rkey = wr->ex.invalidate_rkey; } break; case IB_WR_RDMA_READ_WITH_INV: case IB_WR_RDMA_READ: /* * iWarp restricts RREAD sink to SGL containing * 1 SGE only. we could relax to SGL with multiple * elements referring the SAME ltag or even sending * a private per-rreq tag referring to a checked * local sgl with MULTIPLE ltag's. */ if (unlikely(wr->num_sge != 1)) { rv = -EINVAL; break; } siw_copy_sgl(wr->sg_list, &sqe->sge[0], 1); /* * NOTE: zero length RREAD is allowed! */ sqe->raddr = rdma_wr(wr)->remote_addr; sqe->rkey = rdma_wr(wr)->rkey; sqe->num_sge = 1; if (wr->opcode == IB_WR_RDMA_READ) sqe->opcode = SIW_OP_READ; else sqe->opcode = SIW_OP_READ_LOCAL_INV; break; case IB_WR_RDMA_WRITE: if (!(wr->send_flags & IB_SEND_INLINE)) { siw_copy_sgl(wr->sg_list, &sqe->sge[0], wr->num_sge); sqe->num_sge = wr->num_sge; } else { rv = siw_copy_inline_sgl(wr, sqe); if (unlikely(rv < 0)) { rv = -EINVAL; break; } sqe->flags |= SIW_WQE_INLINE; sqe->num_sge = 1; } sqe->raddr = rdma_wr(wr)->remote_addr; sqe->rkey = rdma_wr(wr)->rkey; sqe->opcode = SIW_OP_WRITE; break; case IB_WR_REG_MR: sqe->base_mr = (uintptr_t)reg_wr(wr)->mr; sqe->rkey = reg_wr(wr)->key; sqe->access = reg_wr(wr)->access & IWARP_ACCESS_MASK; sqe->opcode = SIW_OP_REG_MR; break; case IB_WR_LOCAL_INV: sqe->rkey = wr->ex.invalidate_rkey; sqe->opcode = SIW_OP_INVAL_STAG; break; default: siw_dbg_qp(qp, "ib wr type %d unsupported\n", wr->opcode); rv = -EINVAL; break; } siw_dbg_qp(qp, "opcode %d, flags 0x%x, wr_id 0x%pK\n", sqe->opcode, sqe->flags, (void *)(uintptr_t)sqe->id); if (unlikely(rv < 0)) break; /* make SQE only valid after completely written */ smp_wmb(); sqe->flags |= SIW_WQE_VALID; qp->sq_put++; wr = wr->next; } /* * Send directly if SQ processing is not in progress. * Eventual immediate errors (rv < 0) do not affect the involved * RI resources (Verbs, 8.3.1) and thus do not prevent from SQ * processing, if new work is already pending. But rv must be passed * to caller. */ if (wqe->wr_status != SIW_WR_IDLE) { spin_unlock_irqrestore(&qp->sq_lock, flags); goto skip_direct_sending; } rv = siw_activate_tx(qp); spin_unlock_irqrestore(&qp->sq_lock, flags); if (rv <= 0) goto skip_direct_sending; if (rdma_is_kernel_res(&qp->base_qp.res)) { rv = siw_sq_start(qp); } else { qp->tx_ctx.in_syscall = 1; if (siw_qp_sq_process(qp) != 0 && !(qp->tx_ctx.tx_suspend)) siw_qp_cm_drop(qp, 0); qp->tx_ctx.in_syscall = 0; } skip_direct_sending: up_read(&qp->state_lock); if (rv >= 0) return 0; /* * Immediate error */ siw_dbg_qp(qp, "error %d\n", rv); *bad_wr = wr; return rv; } /* * siw_post_receive() * * Post a list of R-WR's to a RQ. * * @base_qp: Base QP contained in siw QP * @wr: Null terminated list of user WR's * @bad_wr: Points to failing WR in case of synchronous failure. */ int siw_post_receive(struct ib_qp *base_qp, const struct ib_recv_wr *wr, const struct ib_recv_wr **bad_wr) { struct siw_qp *qp = to_siw_qp(base_qp); unsigned long flags; int rv = 0; if (qp->srq || qp->attrs.rq_size == 0) { *bad_wr = wr; return -EINVAL; } if (!rdma_is_kernel_res(&qp->base_qp.res)) { siw_dbg_qp(qp, "no kernel post_recv for user mapped rq\n"); *bad_wr = wr; return -EINVAL; } /* * Try to acquire QP state lock. Must be non-blocking * to accommodate kernel clients needs. */ if (!down_read_trylock(&qp->state_lock)) { if (qp->attrs.state == SIW_QP_STATE_ERROR) { /* * ERROR state is final, so we can be sure * this state will not change as long as the QP * exists. * * This handles an ib_drain_rq() call with * a concurrent request to set the QP state * to ERROR. */ rv = siw_rq_flush_wr(qp, wr, bad_wr); } else { siw_dbg_qp(qp, "QP locked, state %d\n", qp->attrs.state); *bad_wr = wr; rv = -ENOTCONN; } return rv; } if (qp->attrs.state > SIW_QP_STATE_RTS) { if (qp->attrs.state == SIW_QP_STATE_ERROR) { /* * Immediately flush this WR to CQ, if QP * is in ERROR state. RQ is guaranteed to * be empty, so WR complets in-order. * * Typically triggered by ib_drain_rq(). */ rv = siw_rq_flush_wr(qp, wr, bad_wr); } else { siw_dbg_qp(qp, "QP out of state %d\n", qp->attrs.state); *bad_wr = wr; rv = -ENOTCONN; } up_read(&qp->state_lock); return rv; } /* * Serialize potentially multiple producers. * Not needed for single threaded consumer side. */ spin_lock_irqsave(&qp->rq_lock, flags); while (wr) { u32 idx = qp->rq_put % qp->attrs.rq_size; struct siw_rqe *rqe = &qp->recvq[idx]; if (rqe->flags) { siw_dbg_qp(qp, "RQ full\n"); rv = -ENOMEM; break; } if (wr->num_sge > qp->attrs.rq_max_sges) { siw_dbg_qp(qp, "too many sge's: %d\n", wr->num_sge); rv = -EINVAL; break; } rqe->id = wr->wr_id; rqe->num_sge = wr->num_sge; siw_copy_sgl(wr->sg_list, rqe->sge, wr->num_sge); /* make sure RQE is completely written before valid */ smp_wmb(); rqe->flags = SIW_WQE_VALID; qp->rq_put++; wr = wr->next; } spin_unlock_irqrestore(&qp->rq_lock, flags); up_read(&qp->state_lock); if (rv < 0) { siw_dbg_qp(qp, "error %d\n", rv); *bad_wr = wr; } return rv > 0 ? 0 : rv; } int siw_destroy_cq(struct ib_cq *base_cq, struct ib_udata *udata) { struct siw_cq *cq = to_siw_cq(base_cq); struct siw_device *sdev = to_siw_dev(base_cq->device); struct siw_ucontext *ctx = rdma_udata_to_drv_context(udata, struct siw_ucontext, base_ucontext); siw_dbg_cq(cq, "free CQ resources\n"); siw_cq_flush(cq); if (ctx) rdma_user_mmap_entry_remove(cq->cq_entry); atomic_dec(&sdev->num_cq); vfree(cq->queue); return 0; } /* * siw_create_cq() * * Populate CQ of requested size * * @base_cq: CQ as allocated by RDMA midlayer * @attr: Initial CQ attributes * @udata: relates to user context */ int siw_create_cq(struct ib_cq *base_cq, const struct ib_cq_init_attr *attr, struct ib_udata *udata) { struct siw_device *sdev = to_siw_dev(base_cq->device); struct siw_cq *cq = to_siw_cq(base_cq); int rv, size = attr->cqe; if (atomic_inc_return(&sdev->num_cq) > SIW_MAX_CQ) { siw_dbg(base_cq->device, "too many CQ's\n"); rv = -ENOMEM; goto err_out; } if (size < 1 || size > sdev->attrs.max_cqe) { siw_dbg(base_cq->device, "CQ size error: %d\n", size); rv = -EINVAL; goto err_out; } size = roundup_pow_of_two(size); cq->base_cq.cqe = size; cq->num_cqe = size; if (udata) cq->queue = vmalloc_user(size * sizeof(struct siw_cqe) + sizeof(struct siw_cq_ctrl)); else cq->queue = vzalloc(size * sizeof(struct siw_cqe) + sizeof(struct siw_cq_ctrl)); if (cq->queue == NULL) { rv = -ENOMEM; goto err_out; } get_random_bytes(&cq->id, 4); siw_dbg(base_cq->device, "new CQ [%u]\n", cq->id); spin_lock_init(&cq->lock); cq->notify = (struct siw_cq_ctrl *)&cq->queue[size]; if (udata) { struct siw_uresp_create_cq uresp = {}; struct siw_ucontext *ctx = rdma_udata_to_drv_context(udata, struct siw_ucontext, base_ucontext); size_t length = size * sizeof(struct siw_cqe) + sizeof(struct siw_cq_ctrl); cq->cq_entry = siw_mmap_entry_insert(ctx, cq->queue, length, &uresp.cq_key); if (!cq->cq_entry) { rv = -ENOMEM; goto err_out; } uresp.cq_id = cq->id; uresp.num_cqe = size; if (udata->outlen < sizeof(uresp)) { rv = -EINVAL; goto err_out; } rv = ib_copy_to_udata(udata, &uresp, sizeof(uresp)); if (rv) goto err_out; } return 0; err_out: siw_dbg(base_cq->device, "CQ creation failed: %d", rv); if (cq && cq->queue) { struct siw_ucontext *ctx = rdma_udata_to_drv_context(udata, struct siw_ucontext, base_ucontext); if (ctx) rdma_user_mmap_entry_remove(cq->cq_entry); vfree(cq->queue); } atomic_dec(&sdev->num_cq); return rv; } /* * siw_poll_cq() * * Reap CQ entries if available and copy work completion status into * array of WC's provided by caller. Returns number of reaped CQE's. * * @base_cq: Base CQ contained in siw CQ. * @num_cqe: Maximum number of CQE's to reap. * @wc: Array of work completions to be filled by siw. */ int siw_poll_cq(struct ib_cq *base_cq, int num_cqe, struct ib_wc *wc) { struct siw_cq *cq = to_siw_cq(base_cq); int i; for (i = 0; i < num_cqe; i++) { if (!siw_reap_cqe(cq, wc)) break; wc++; } return i; } /* * siw_req_notify_cq() * * Request notification for new CQE's added to that CQ. * Defined flags: * o SIW_CQ_NOTIFY_SOLICITED lets siw trigger a notification * event if a WQE with notification flag set enters the CQ * o SIW_CQ_NOTIFY_NEXT_COMP lets siw trigger a notification * event if a WQE enters the CQ. * o IB_CQ_REPORT_MISSED_EVENTS: return value will provide the * number of not reaped CQE's regardless of its notification * type and current or new CQ notification settings. * * @base_cq: Base CQ contained in siw CQ. * @flags: Requested notification flags. */ int siw_req_notify_cq(struct ib_cq *base_cq, enum ib_cq_notify_flags flags) { struct siw_cq *cq = to_siw_cq(base_cq); siw_dbg_cq(cq, "flags: 0x%02x\n", flags); if ((flags & IB_CQ_SOLICITED_MASK) == IB_CQ_SOLICITED) /* * Enable CQ event for next solicited completion. * and make it visible to all associated producers. */ smp_store_mb(cq->notify->flags, SIW_NOTIFY_SOLICITED); else /* * Enable CQ event for any signalled completion. * and make it visible to all associated producers. */ smp_store_mb(cq->notify->flags, SIW_NOTIFY_ALL); if (flags & IB_CQ_REPORT_MISSED_EVENTS) return cq->cq_put - cq->cq_get; return 0; } /* * siw_dereg_mr() * * Release Memory Region. * * @base_mr: Base MR contained in siw MR. * @udata: points to user context, unused. */ int siw_dereg_mr(struct ib_mr *base_mr, struct ib_udata *udata) { struct siw_mr *mr = to_siw_mr(base_mr); struct siw_device *sdev = to_siw_dev(base_mr->device); siw_dbg_mem(mr->mem, "deregister MR\n"); atomic_dec(&sdev->num_mr); siw_mr_drop_mem(mr); kfree_rcu(mr, rcu); return 0; } /* * siw_reg_user_mr() * * Register Memory Region. * * @pd: Protection Domain * @start: starting address of MR (virtual address) * @len: len of MR * @rnic_va: not used by siw * @rights: MR access rights * @udata: user buffer to communicate STag and Key. */ struct ib_mr *siw_reg_user_mr(struct ib_pd *pd, u64 start, u64 len, u64 rnic_va, int rights, struct ib_udata *udata) { struct siw_mr *mr = NULL; struct siw_umem *umem = NULL; struct siw_ureq_reg_mr ureq; struct siw_device *sdev = to_siw_dev(pd->device); unsigned long mem_limit = rlimit(RLIMIT_MEMLOCK); int rv; siw_dbg_pd(pd, "start: 0x%pK, va: 0x%pK, len: %llu\n", (void *)(uintptr_t)start, (void *)(uintptr_t)rnic_va, (unsigned long long)len); if (atomic_inc_return(&sdev->num_mr) > SIW_MAX_MR) { siw_dbg_pd(pd, "too many mr's\n"); rv = -ENOMEM; goto err_out; } if (!len) { rv = -EINVAL; goto err_out; } if (mem_limit != RLIM_INFINITY) { unsigned long num_pages = (PAGE_ALIGN(len + (start & ~PAGE_MASK))) >> PAGE_SHIFT; mem_limit >>= PAGE_SHIFT; if (num_pages > mem_limit - current->mm->locked_vm) { siw_dbg_pd(pd, "pages req %lu, max %lu, lock %lu\n", num_pages, mem_limit, current->mm->locked_vm); rv = -ENOMEM; goto err_out; } } umem = siw_umem_get(start, len, ib_access_writable(rights)); if (IS_ERR(umem)) { rv = PTR_ERR(umem); siw_dbg_pd(pd, "getting user memory failed: %d\n", rv); umem = NULL; goto err_out; } mr = kzalloc(sizeof(*mr), GFP_KERNEL); if (!mr) { rv = -ENOMEM; goto err_out; } rv = siw_mr_add_mem(mr, pd, umem, start, len, rights); if (rv) goto err_out; if (udata) { struct siw_uresp_reg_mr uresp = {}; struct siw_mem *mem = mr->mem; if (udata->inlen < sizeof(ureq)) { rv = -EINVAL; goto err_out; } rv = ib_copy_from_udata(&ureq, udata, sizeof(ureq)); if (rv) goto err_out; mr->base_mr.lkey |= ureq.stag_key; mr->base_mr.rkey |= ureq.stag_key; mem->stag |= ureq.stag_key; uresp.stag = mem->stag; if (udata->outlen < sizeof(uresp)) { rv = -EINVAL; goto err_out; } rv = ib_copy_to_udata(udata, &uresp, sizeof(uresp)); if (rv) goto err_out; } mr->mem->stag_valid = 1; return &mr->base_mr; err_out: atomic_dec(&sdev->num_mr); if (mr) { if (mr->mem) siw_mr_drop_mem(mr); kfree_rcu(mr, rcu); } else { if (umem) siw_umem_release(umem, false); } return ERR_PTR(rv); } struct ib_mr *siw_alloc_mr(struct ib_pd *pd, enum ib_mr_type mr_type, u32 max_sge) { struct siw_device *sdev = to_siw_dev(pd->device); struct siw_mr *mr = NULL; struct siw_pbl *pbl = NULL; int rv; if (atomic_inc_return(&sdev->num_mr) > SIW_MAX_MR) { siw_dbg_pd(pd, "too many mr's\n"); rv = -ENOMEM; goto err_out; } if (mr_type != IB_MR_TYPE_MEM_REG) { siw_dbg_pd(pd, "mr type %d unsupported\n", mr_type); rv = -EOPNOTSUPP; goto err_out; } if (max_sge > SIW_MAX_SGE_PBL) { siw_dbg_pd(pd, "too many sge's: %d\n", max_sge); rv = -ENOMEM; goto err_out; } pbl = siw_pbl_alloc(max_sge); if (IS_ERR(pbl)) { rv = PTR_ERR(pbl); siw_dbg_pd(pd, "pbl allocation failed: %d\n", rv); pbl = NULL; goto err_out; } mr = kzalloc(sizeof(*mr), GFP_KERNEL); if (!mr) { rv = -ENOMEM; goto err_out; } rv = siw_mr_add_mem(mr, pd, pbl, 0, max_sge * PAGE_SIZE, 0); if (rv) goto err_out; mr->mem->is_pbl = 1; siw_dbg_pd(pd, "[MEM %u]: success\n", mr->mem->stag); return &mr->base_mr; err_out: atomic_dec(&sdev->num_mr); if (!mr) { kfree(pbl); } else { if (mr->mem) siw_mr_drop_mem(mr); kfree_rcu(mr, rcu); } siw_dbg_pd(pd, "failed: %d\n", rv); return ERR_PTR(rv); } /* Just used to count number of pages being mapped */ static int siw_set_pbl_page(struct ib_mr *base_mr, u64 buf_addr) { return 0; } int siw_map_mr_sg(struct ib_mr *base_mr, struct scatterlist *sl, int num_sle, unsigned int *sg_off) { struct scatterlist *slp; struct siw_mr *mr = to_siw_mr(base_mr); struct siw_mem *mem = mr->mem; struct siw_pbl *pbl = mem->pbl; struct siw_pble *pble; unsigned long pbl_size; int i, rv; if (!pbl) { siw_dbg_mem(mem, "no PBL allocated\n"); return -EINVAL; } pble = pbl->pbe; if (pbl->max_buf < num_sle) { siw_dbg_mem(mem, "too many SGE's: %d > %d\n", num_sle, pbl->max_buf); return -ENOMEM; } for_each_sg(sl, slp, num_sle, i) { if (sg_dma_len(slp) == 0) { siw_dbg_mem(mem, "empty SGE\n"); return -EINVAL; } if (i == 0) { pble->addr = sg_dma_address(slp); pble->size = sg_dma_len(slp); pble->pbl_off = 0; pbl_size = pble->size; pbl->num_buf = 1; } else { /* Merge PBL entries if adjacent */ if (pble->addr + pble->size == sg_dma_address(slp)) { pble->size += sg_dma_len(slp); } else { pble++; pbl->num_buf++; pble->addr = sg_dma_address(slp); pble->size = sg_dma_len(slp); pble->pbl_off = pbl_size; } pbl_size += sg_dma_len(slp); } siw_dbg_mem(mem, "sge[%d], size %u, addr 0x%p, total %lu\n", i, pble->size, (void *)(uintptr_t)pble->addr, pbl_size); } rv = ib_sg_to_pages(base_mr, sl, num_sle, sg_off, siw_set_pbl_page); if (rv > 0) { mem->len = base_mr->length; mem->va = base_mr->iova; siw_dbg_mem(mem, "%llu bytes, start 0x%pK, %u SLE to %u entries\n", mem->len, (void *)(uintptr_t)mem->va, num_sle, pbl->num_buf); } return rv; } /* * siw_get_dma_mr() * * Create a (empty) DMA memory region, where no umem is attached. */ struct ib_mr *siw_get_dma_mr(struct ib_pd *pd, int rights) { struct siw_device *sdev = to_siw_dev(pd->device); struct siw_mr *mr = NULL; int rv; if (atomic_inc_return(&sdev->num_mr) > SIW_MAX_MR) { siw_dbg_pd(pd, "too many mr's\n"); rv = -ENOMEM; goto err_out; } mr = kzalloc(sizeof(*mr), GFP_KERNEL); if (!mr) { rv = -ENOMEM; goto err_out; } rv = siw_mr_add_mem(mr, pd, NULL, 0, ULONG_MAX, rights); if (rv) goto err_out; mr->mem->stag_valid = 1; siw_dbg_pd(pd, "[MEM %u]: success\n", mr->mem->stag); return &mr->base_mr; err_out: if (rv) kfree(mr); atomic_dec(&sdev->num_mr); return ERR_PTR(rv); } /* * siw_create_srq() * * Create Shared Receive Queue of attributes @init_attrs * within protection domain given by @pd. * * @base_srq: Base SRQ contained in siw SRQ. * @init_attrs: SRQ init attributes. * @udata: points to user context */ int siw_create_srq(struct ib_srq *base_srq, struct ib_srq_init_attr *init_attrs, struct ib_udata *udata) { struct siw_srq *srq = to_siw_srq(base_srq); struct ib_srq_attr *attrs = &init_attrs->attr; struct siw_device *sdev = to_siw_dev(base_srq->device); struct siw_ucontext *ctx = rdma_udata_to_drv_context(udata, struct siw_ucontext, base_ucontext); int rv; if (atomic_inc_return(&sdev->num_srq) > SIW_MAX_SRQ) { siw_dbg_pd(base_srq->pd, "too many SRQ's\n"); rv = -ENOMEM; goto err_out; } if (attrs->max_wr == 0 || attrs->max_wr > SIW_MAX_SRQ_WR || attrs->max_sge > SIW_MAX_SGE || attrs->srq_limit > attrs->max_wr) { rv = -EINVAL; goto err_out; } srq->max_sge = attrs->max_sge; srq->num_rqe = roundup_pow_of_two(attrs->max_wr); srq->limit = attrs->srq_limit; if (srq->limit) srq->armed = true; srq->is_kernel_res = !udata; if (udata) srq->recvq = vmalloc_user(srq->num_rqe * sizeof(struct siw_rqe)); else srq->recvq = vzalloc(srq->num_rqe * sizeof(struct siw_rqe)); if (srq->recvq == NULL) { rv = -ENOMEM; goto err_out; } if (udata) { struct siw_uresp_create_srq uresp = {}; size_t length = srq->num_rqe * sizeof(struct siw_rqe); srq->srq_entry = siw_mmap_entry_insert(ctx, srq->recvq, length, &uresp.srq_key); if (!srq->srq_entry) { rv = -ENOMEM; goto err_out; } uresp.num_rqe = srq->num_rqe; if (udata->outlen < sizeof(uresp)) { rv = -EINVAL; goto err_out; } rv = ib_copy_to_udata(udata, &uresp, sizeof(uresp)); if (rv) goto err_out; } spin_lock_init(&srq->lock); siw_dbg_pd(base_srq->pd, "[SRQ]: success\n"); return 0; err_out: if (srq->recvq) { if (ctx) rdma_user_mmap_entry_remove(srq->srq_entry); vfree(srq->recvq); } atomic_dec(&sdev->num_srq); return rv; } /* * siw_modify_srq() * * Modify SRQ. The caller may resize SRQ and/or set/reset notification * limit and (re)arm IB_EVENT_SRQ_LIMIT_REACHED notification. * * NOTE: it is unclear if RDMA core allows for changing the MAX_SGE * parameter. siw_modify_srq() does not check the attrs->max_sge param. */ int siw_modify_srq(struct ib_srq *base_srq, struct ib_srq_attr *attrs, enum ib_srq_attr_mask attr_mask, struct ib_udata *udata) { struct siw_srq *srq = to_siw_srq(base_srq); unsigned long flags; int rv = 0; spin_lock_irqsave(&srq->lock, flags); if (attr_mask & IB_SRQ_MAX_WR) { /* resize request not yet supported */ rv = -EOPNOTSUPP; goto out; } if (attr_mask & IB_SRQ_LIMIT) { if (attrs->srq_limit) { if (unlikely(attrs->srq_limit > srq->num_rqe)) { rv = -EINVAL; goto out; } srq->armed = true; } else { srq->armed = false; } srq->limit = attrs->srq_limit; } out: spin_unlock_irqrestore(&srq->lock, flags); return rv; } /* * siw_query_srq() * * Query SRQ attributes. */ int siw_query_srq(struct ib_srq *base_srq, struct ib_srq_attr *attrs) { struct siw_srq *srq = to_siw_srq(base_srq); unsigned long flags; spin_lock_irqsave(&srq->lock, flags); attrs->max_wr = srq->num_rqe; attrs->max_sge = srq->max_sge; attrs->srq_limit = srq->limit; spin_unlock_irqrestore(&srq->lock, flags); return 0; } /* * siw_destroy_srq() * * Destroy SRQ. * It is assumed that the SRQ is not referenced by any * QP anymore - the code trusts the RDMA core environment to keep track * of QP references. */ int siw_destroy_srq(struct ib_srq *base_srq, struct ib_udata *udata) { struct siw_srq *srq = to_siw_srq(base_srq); struct siw_device *sdev = to_siw_dev(base_srq->device); struct siw_ucontext *ctx = rdma_udata_to_drv_context(udata, struct siw_ucontext, base_ucontext); if (ctx) rdma_user_mmap_entry_remove(srq->srq_entry); vfree(srq->recvq); atomic_dec(&sdev->num_srq); return 0; } /* * siw_post_srq_recv() * * Post a list of receive queue elements to SRQ. * NOTE: The function does not check or lock a certain SRQ state * during the post operation. The code simply trusts the * RDMA core environment. * * @base_srq: Base SRQ contained in siw SRQ * @wr: List of R-WR's * @bad_wr: Updated to failing WR if posting fails. */ int siw_post_srq_recv(struct ib_srq *base_srq, const struct ib_recv_wr *wr, const struct ib_recv_wr **bad_wr) { struct siw_srq *srq = to_siw_srq(base_srq); unsigned long flags; int rv = 0; if (unlikely(!srq->is_kernel_res)) { siw_dbg_pd(base_srq->pd, "[SRQ]: no kernel post_recv for mapped srq\n"); rv = -EINVAL; goto out; } /* * Serialize potentially multiple producers. * Also needed to serialize potentially multiple * consumers. */ spin_lock_irqsave(&srq->lock, flags); while (wr) { u32 idx = srq->rq_put % srq->num_rqe; struct siw_rqe *rqe = &srq->recvq[idx]; if (rqe->flags) { siw_dbg_pd(base_srq->pd, "SRQ full\n"); rv = -ENOMEM; break; } if (unlikely(wr->num_sge > srq->max_sge)) { siw_dbg_pd(base_srq->pd, "[SRQ]: too many sge's: %d\n", wr->num_sge); rv = -EINVAL; break; } rqe->id = wr->wr_id; rqe->num_sge = wr->num_sge; siw_copy_sgl(wr->sg_list, rqe->sge, wr->num_sge); /* Make sure S-RQE is completely written before valid */ smp_wmb(); rqe->flags = SIW_WQE_VALID; srq->rq_put++; wr = wr->next; } spin_unlock_irqrestore(&srq->lock, flags); out: if (unlikely(rv < 0)) { siw_dbg_pd(base_srq->pd, "[SRQ]: error %d\n", rv); *bad_wr = wr; } return rv; } void siw_qp_event(struct siw_qp *qp, enum ib_event_type etype) { struct ib_event event; struct ib_qp *base_qp = &qp->base_qp; /* * Do not report asynchronous errors on QP which gets * destroyed via verbs interface (siw_destroy_qp()) */ if (qp->attrs.flags & SIW_QP_IN_DESTROY) return; event.event = etype; event.device = base_qp->device; event.element.qp = base_qp; if (base_qp->event_handler) { siw_dbg_qp(qp, "reporting event %d\n", etype); base_qp->event_handler(&event, base_qp->qp_context); } } void siw_cq_event(struct siw_cq *cq, enum ib_event_type etype) { struct ib_event event; struct ib_cq *base_cq = &cq->base_cq; event.event = etype; event.device = base_cq->device; event.element.cq = base_cq; if (base_cq->event_handler) { siw_dbg_cq(cq, "reporting CQ event %d\n", etype); base_cq->event_handler(&event, base_cq->cq_context); } } void siw_srq_event(struct siw_srq *srq, enum ib_event_type etype) { struct ib_event event; struct ib_srq *base_srq = &srq->base_srq; event.event = etype; event.device = base_srq->device; event.element.srq = base_srq; if (base_srq->event_handler) { siw_dbg_pd(srq->base_srq.pd, "reporting SRQ event %d\n", etype); base_srq->event_handler(&event, base_srq->srq_context); } } void siw_port_event(struct siw_device *sdev, u8 port, enum ib_event_type etype) { struct ib_event event; event.event = etype; event.device = &sdev->base_dev; event.element.port_num = port; siw_dbg(&sdev->base_dev, "reporting port event %d\n", etype); ib_dispatch_event(&event); } |