/* * RDMA I/O engine * * RDMA I/O engine based on the IB verbs and RDMA/CM user space libraries. * Supports both RDMA memory semantics and channel semantics * for the InfiniBand, RoCE and iWARP protocols. * * You will need the Linux RDMA software installed, either * from your Linux distributor or directly from openfabrics.org: * * http://www.openfabrics.org/downloads/OFED/ * * Exchanging steps of RDMA ioengine control messages: * 1. client side sends test mode (RDMA_WRITE/RDMA_READ/SEND) * to server side. * 2. server side parses test mode, and sends back confirmation * to client side. In RDMA WRITE/READ test, this confirmation * includes memory information, such as rkey, address. * 3. client side initiates test loop. * 4. In RDMA WRITE/READ test, client side sends a completion * notification to server side. Server side updates its * td->done as true. * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "../fio.h" #include "../hash.h" #include "../optgroup.h" #include #define FIO_RDMA_MAX_IO_DEPTH 512 enum rdma_io_mode { FIO_RDMA_UNKNOWN = 0, FIO_RDMA_MEM_WRITE, FIO_RDMA_MEM_READ, FIO_RDMA_CHA_SEND, FIO_RDMA_CHA_RECV }; struct rdmaio_options { struct thread_data *td; unsigned int port; enum rdma_io_mode verb; char *bindname; }; static int str_hostname_cb(void *data, const char *input) { struct rdmaio_options *o = data; if (o->td->o.filename) free(o->td->o.filename); o->td->o.filename = strdup(input); return 0; } static struct fio_option options[] = { { .name = "hostname", .lname = "rdma engine hostname", .type = FIO_OPT_STR_STORE, .cb = str_hostname_cb, .help = "Hostname for RDMA IO engine", .category = FIO_OPT_C_ENGINE, .group = FIO_OPT_G_RDMA, }, { .name = "bindname", .lname = "rdma engine bindname", .type = FIO_OPT_STR_STORE, .off1 = offsetof(struct rdmaio_options, bindname), .help = "Bind for RDMA IO engine", .def = "", .category = FIO_OPT_C_ENGINE, .group = FIO_OPT_G_RDMA, }, { .name = "port", .lname = "rdma engine port", .type = FIO_OPT_INT, .off1 = offsetof(struct rdmaio_options, port), .minval = 1, .maxval = 65535, .help = "Port to use for RDMA connections", .category = FIO_OPT_C_ENGINE, .group = FIO_OPT_G_RDMA, }, { .name = "verb", .lname = "RDMA engine verb", .alias = "proto", .type = FIO_OPT_STR, .off1 = offsetof(struct rdmaio_options, verb), .help = "RDMA engine verb", .def = "write", .posval = { { .ival = "write", .oval = FIO_RDMA_MEM_WRITE, .help = "Memory Write", }, { .ival = "read", .oval = FIO_RDMA_MEM_READ, .help = "Memory Read", }, { .ival = "send", .oval = FIO_RDMA_CHA_SEND, .help = "Posted Send", }, { .ival = "recv", .oval = FIO_RDMA_CHA_RECV, .help = "Posted Receive", }, }, .category = FIO_OPT_C_ENGINE, .group = FIO_OPT_G_RDMA, }, { .name = NULL, }, }; struct remote_u { uint64_t buf; uint32_t rkey; uint32_t size; }; struct rdma_info_blk { uint32_t mode; /* channel semantic or memory semantic */ uint32_t nr; /* client: io depth server: number of records for memory semantic */ uint32_t max_bs; /* maximum block size */ struct remote_u rmt_us[FIO_RDMA_MAX_IO_DEPTH]; }; struct rdma_io_u_data { uint64_t wr_id; struct ibv_send_wr sq_wr; struct ibv_recv_wr rq_wr; struct ibv_sge rdma_sgl; }; struct rdmaio_data { int is_client; enum rdma_io_mode rdma_protocol; char host[64]; struct sockaddr_in addr; struct ibv_recv_wr rq_wr; struct ibv_sge recv_sgl; struct rdma_info_blk recv_buf; struct ibv_mr *recv_mr; struct ibv_send_wr sq_wr; struct ibv_sge send_sgl; struct rdma_info_blk send_buf; struct ibv_mr *send_mr; struct ibv_comp_channel *channel; struct ibv_cq *cq; struct ibv_pd *pd; struct ibv_qp *qp; pthread_t cmthread; struct rdma_event_channel *cm_channel; struct rdma_cm_id *cm_id; struct rdma_cm_id *child_cm_id; int cq_event_num; struct remote_u *rmt_us; int rmt_nr; struct io_u **io_us_queued; int io_u_queued_nr; struct io_u **io_us_flight; int io_u_flight_nr; struct io_u **io_us_completed; int io_u_completed_nr; struct frand_state rand_state; }; static int client_recv(struct thread_data *td, struct ibv_wc *wc) { struct rdmaio_data *rd = td->io_ops_data; unsigned int max_bs; if (wc->byte_len != sizeof(rd->recv_buf)) { log_err("Received bogus data, size %d\n", wc->byte_len); return 1; } max_bs = max(td->o.max_bs[DDIR_READ], td->o.max_bs[DDIR_WRITE]); if (max_bs > ntohl(rd->recv_buf.max_bs)) { log_err("fio: Server's block size (%d) must be greater than or " "equal to the client's block size (%d)!\n", ntohl(rd->recv_buf.max_bs), max_bs); return 1; } /* store mr info for MEMORY semantic */ if ((rd->rdma_protocol == FIO_RDMA_MEM_WRITE) || (rd->rdma_protocol == FIO_RDMA_MEM_READ)) { /* struct flist_head *entry; */ int i = 0; rd->rmt_nr = ntohl(rd->recv_buf.nr); for (i = 0; i < rd->rmt_nr; i++) { rd->rmt_us[i].buf = be64_to_cpu(rd->recv_buf.rmt_us[i].buf); rd->rmt_us[i].rkey = ntohl(rd->recv_buf.rmt_us[i].rkey); rd->rmt_us[i].size = ntohl(rd->recv_buf.rmt_us[i].size); dprint(FD_IO, "fio: Received rkey %x addr %" PRIx64 " len %d from peer\n", rd->rmt_us[i].rkey, rd->rmt_us[i].buf, rd->rmt_us[i].size); } } return 0; } static int server_recv(struct thread_data *td, struct ibv_wc *wc) { struct rdmaio_data *rd = td->io_ops_data; unsigned int max_bs; if (wc->wr_id == FIO_RDMA_MAX_IO_DEPTH) { rd->rdma_protocol = ntohl(rd->recv_buf.mode); /* CHANNEL semantic, do nothing */ if (rd->rdma_protocol == FIO_RDMA_CHA_SEND) rd->rdma_protocol = FIO_RDMA_CHA_RECV; max_bs = max(td->o.max_bs[DDIR_READ], td->o.max_bs[DDIR_WRITE]); if (max_bs < ntohl(rd->recv_buf.max_bs)) { log_err("fio: Server's block size (%d) must be greater than or " "equal to the client's block size (%d)!\n", ntohl(rd->recv_buf.max_bs), max_bs); return 1; } } return 0; } static int cq_event_handler(struct thread_data *td, enum ibv_wc_opcode opcode) { struct rdmaio_data *rd = td->io_ops_data; struct ibv_wc wc; struct rdma_io_u_data *r_io_u_d; int ret; int compevnum = 0; int i; while ((ret = ibv_poll_cq(rd->cq, 1, &wc)) == 1) { ret = 0; compevnum++; if (wc.status) { log_err("fio: cq completion status %d(%s)\n", wc.status, ibv_wc_status_str(wc.status)); return -1; } switch (wc.opcode) { case IBV_WC_RECV: if (rd->is_client == 1) ret = client_recv(td, &wc); else ret = server_recv(td, &wc); if (ret) return -1; if (wc.wr_id == FIO_RDMA_MAX_IO_DEPTH) break; for (i = 0; i < rd->io_u_flight_nr; i++) { r_io_u_d = rd->io_us_flight[i]->engine_data; if (wc.wr_id == r_io_u_d->rq_wr.wr_id) { rd->io_us_flight[i]->resid = rd->io_us_flight[i]->buflen - wc.byte_len; rd->io_us_flight[i]->error = 0; rd->io_us_completed[rd-> io_u_completed_nr] = rd->io_us_flight[i]; rd->io_u_completed_nr++; break; } } if (i == rd->io_u_flight_nr) log_err("fio: recv wr %" PRId64 " not found\n", wc.wr_id); else { /* put the last one into middle of the list */ rd->io_us_flight[i] = rd->io_us_flight[rd->io_u_flight_nr - 1]; rd->io_u_flight_nr--; } break; case IBV_WC_SEND: case IBV_WC_RDMA_WRITE: case IBV_WC_RDMA_READ: if (wc.wr_id == FIO_RDMA_MAX_IO_DEPTH) break; for (i = 0; i < rd->io_u_flight_nr; i++) { r_io_u_d = rd->io_us_flight[i]->engine_data; if (wc.wr_id == r_io_u_d->sq_wr.wr_id) { rd->io_us_completed[rd-> io_u_completed_nr] = rd->io_us_flight[i]; rd->io_u_completed_nr++; break; } } if (i == rd->io_u_flight_nr) log_err("fio: send wr %" PRId64 " not found\n", wc.wr_id); else { /* put the last one into middle of the list */ rd->io_us_flight[i] = rd->io_us_flight[rd->io_u_flight_nr - 1]; rd->io_u_flight_nr--; } break; default: log_info("fio: unknown completion event %d\n", wc.opcode); return -1; } rd->cq_event_num++; } if (ret) { log_err("fio: poll error %d\n", ret); return 1; } return compevnum; } /* * Return -1 for error and 'nr events' for a positive number * of events */ static int rdma_poll_wait(struct thread_data *td, enum ibv_wc_opcode opcode) { struct rdmaio_data *rd = td->io_ops_data; struct ibv_cq *ev_cq; void *ev_ctx; int ret; if (rd->cq_event_num > 0) { /* previous left */ rd->cq_event_num--; return 0; } again: if (ibv_get_cq_event(rd->channel, &ev_cq, &ev_ctx) != 0) { log_err("fio: Failed to get cq event!\n"); return -1; } if (ev_cq != rd->cq) { log_err("fio: Unknown CQ!\n"); return -1; } if (ibv_req_notify_cq(rd->cq, 0) != 0) { log_err("fio: Failed to set notify!\n"); return -1; } ret = cq_event_handler(td, opcode); if (ret == 0) goto again; ibv_ack_cq_events(rd->cq, ret); rd->cq_event_num--; return ret; } static int fio_rdmaio_setup_qp(struct thread_data *td) { struct rdmaio_data *rd = td->io_ops_data; struct ibv_qp_init_attr init_attr; int qp_depth = td->o.iodepth * 2; /* 2 times of io depth */ if (rd->is_client == 0) rd->pd = ibv_alloc_pd(rd->child_cm_id->verbs); else rd->pd = ibv_alloc_pd(rd->cm_id->verbs); if (rd->pd == NULL) { log_err("fio: ibv_alloc_pd fail: %m\n"); return 1; } if (rd->is_client == 0) rd->channel = ibv_create_comp_channel(rd->child_cm_id->verbs); else rd->channel = ibv_create_comp_channel(rd->cm_id->verbs); if (rd->channel == NULL) { log_err("fio: ibv_create_comp_channel fail: %m\n"); goto err1; } if (qp_depth < 16) qp_depth = 16; if (rd->is_client == 0) rd->cq = ibv_create_cq(rd->child_cm_id->verbs, qp_depth, rd, rd->channel, 0); else rd->cq = ibv_create_cq(rd->cm_id->verbs, qp_depth, rd, rd->channel, 0); if (rd->cq == NULL) { log_err("fio: ibv_create_cq failed: %m\n"); goto err2; } if (ibv_req_notify_cq(rd->cq, 0) != 0) { log_err("fio: ibv_req_notify_cq failed: %m\n"); goto err3; } /* create queue pair */ memset(&init_attr, 0, sizeof(init_attr)); init_attr.cap.max_send_wr = qp_depth; init_attr.cap.max_recv_wr = qp_depth; init_attr.cap.max_recv_sge = 1; init_attr.cap.max_send_sge = 1; init_attr.qp_type = IBV_QPT_RC; init_attr.send_cq = rd->cq; init_attr.recv_cq = rd->cq; if (rd->is_client == 0) { if (rdma_create_qp(rd->child_cm_id, rd->pd, &init_attr) != 0) { log_err("fio: rdma_create_qp failed: %m\n"); goto err3; } rd->qp = rd->child_cm_id->qp; } else { if (rdma_create_qp(rd->cm_id, rd->pd, &init_attr) != 0) { log_err("fio: rdma_create_qp failed: %m\n"); goto err3; } rd->qp = rd->cm_id->qp; } return 0; err3: ibv_destroy_cq(rd->cq); err2: ibv_destroy_comp_channel(rd->channel); err1: ibv_dealloc_pd(rd->pd); return 1; } static int fio_rdmaio_setup_control_msg_buffers(struct thread_data *td) { struct rdmaio_data *rd = td->io_ops_data; rd->recv_mr = ibv_reg_mr(rd->pd, &rd->recv_buf, sizeof(rd->recv_buf), IBV_ACCESS_LOCAL_WRITE); if (rd->recv_mr == NULL) { log_err("fio: recv_buf reg_mr failed: %m\n"); return 1; } rd->send_mr = ibv_reg_mr(rd->pd, &rd->send_buf, sizeof(rd->send_buf), 0); if (rd->send_mr == NULL) { log_err("fio: send_buf reg_mr failed: %m\n"); ibv_dereg_mr(rd->recv_mr); return 1; } /* setup work request */ /* recv wq */ rd->recv_sgl.addr = (uint64_t) (unsigned long)&rd->recv_buf; rd->recv_sgl.length = sizeof(rd->recv_buf); rd->recv_sgl.lkey = rd->recv_mr->lkey; rd->rq_wr.sg_list = &rd->recv_sgl; rd->rq_wr.num_sge = 1; rd->rq_wr.wr_id = FIO_RDMA_MAX_IO_DEPTH; /* send wq */ rd->send_sgl.addr = (uint64_t) (unsigned long)&rd->send_buf; rd->send_sgl.length = sizeof(rd->send_buf); rd->send_sgl.lkey = rd->send_mr->lkey; rd->sq_wr.opcode = IBV_WR_SEND; rd->sq_wr.send_flags = IBV_SEND_SIGNALED; rd->sq_wr.sg_list = &rd->send_sgl; rd->sq_wr.num_sge = 1; rd->sq_wr.wr_id = FIO_RDMA_MAX_IO_DEPTH; return 0; } static int get_next_channel_event(struct thread_data *td, struct rdma_event_channel *channel, enum rdma_cm_event_type wait_event) { struct rdmaio_data *rd = td->io_ops_data; struct rdma_cm_event *event; int ret; ret = rdma_get_cm_event(channel, &event); if (ret) { log_err("fio: rdma_get_cm_event: %d\n", ret); return 1; } if (event->event != wait_event) { log_err("fio: event is %s instead of %s\n", rdma_event_str(event->event), rdma_event_str(wait_event)); return 1; } switch (event->event) { case RDMA_CM_EVENT_CONNECT_REQUEST: rd->child_cm_id = event->id; break; default: break; } rdma_ack_cm_event(event); return 0; } static int fio_rdmaio_prep(struct thread_data *td, struct io_u *io_u) { struct rdmaio_data *rd = td->io_ops_data; struct rdma_io_u_data *r_io_u_d; r_io_u_d = io_u->engine_data; switch (rd->rdma_protocol) { case FIO_RDMA_MEM_WRITE: case FIO_RDMA_MEM_READ: r_io_u_d->rdma_sgl.addr = (uint64_t) (unsigned long)io_u->buf; r_io_u_d->rdma_sgl.lkey = io_u->mr->lkey; r_io_u_d->sq_wr.wr_id = r_io_u_d->wr_id; r_io_u_d->sq_wr.send_flags = IBV_SEND_SIGNALED; r_io_u_d->sq_wr.sg_list = &r_io_u_d->rdma_sgl; r_io_u_d->sq_wr.num_sge = 1; break; case FIO_RDMA_CHA_SEND: r_io_u_d->rdma_sgl.addr = (uint64_t) (unsigned long)io_u->buf; r_io_u_d->rdma_sgl.lkey = io_u->mr->lkey; r_io_u_d->rdma_sgl.length = io_u->buflen; r_io_u_d->sq_wr.wr_id = r_io_u_d->wr_id; r_io_u_d->sq_wr.opcode = IBV_WR_SEND; r_io_u_d->sq_wr.send_flags = IBV_SEND_SIGNALED; r_io_u_d->sq_wr.sg_list = &r_io_u_d->rdma_sgl; r_io_u_d->sq_wr.num_sge = 1; break; case FIO_RDMA_CHA_RECV: r_io_u_d->rdma_sgl.addr = (uint64_t) (unsigned long)io_u->buf; r_io_u_d->rdma_sgl.lkey = io_u->mr->lkey; r_io_u_d->rdma_sgl.length = io_u->buflen; r_io_u_d->rq_wr.wr_id = r_io_u_d->wr_id; r_io_u_d->rq_wr.sg_list = &r_io_u_d->rdma_sgl; r_io_u_d->rq_wr.num_sge = 1; break; default: log_err("fio: unknown rdma protocol - %d\n", rd->rdma_protocol); break; } return 0; } static struct io_u *fio_rdmaio_event(struct thread_data *td, int event) { struct rdmaio_data *rd = td->io_ops_data; struct io_u *io_u; int i; io_u = rd->io_us_completed[0]; for (i = 0; i < rd->io_u_completed_nr - 1; i++) rd->io_us_completed[i] = rd->io_us_completed[i + 1]; rd->io_u_completed_nr--; dprint_io_u(io_u, "fio_rdmaio_event"); return io_u; } static int fio_rdmaio_getevents(struct thread_data *td, unsigned int min, unsigned int max, const struct timespec *t) { struct rdmaio_data *rd = td->io_ops_data; enum ibv_wc_opcode comp_opcode; struct ibv_cq *ev_cq; void *ev_ctx; int ret, r = 0; comp_opcode = IBV_WC_RDMA_WRITE; switch (rd->rdma_protocol) { case FIO_RDMA_MEM_WRITE: comp_opcode = IBV_WC_RDMA_WRITE; break; case FIO_RDMA_MEM_READ: comp_opcode = IBV_WC_RDMA_READ; break; case FIO_RDMA_CHA_SEND: comp_opcode = IBV_WC_SEND; break; case FIO_RDMA_CHA_RECV: comp_opcode = IBV_WC_RECV; break; default: log_err("fio: unknown rdma protocol - %d\n", rd->rdma_protocol); break; } if (rd->cq_event_num > 0) { /* previous left */ rd->cq_event_num--; return 0; } again: if (ibv_get_cq_event(rd->channel, &ev_cq, &ev_ctx) != 0) { log_err("fio: Failed to get cq event!\n"); return -1; } if (ev_cq != rd->cq) { log_err("fio: Unknown CQ!\n"); return -1; } if (ibv_req_notify_cq(rd->cq, 0) != 0) { log_err("fio: Failed to set notify!\n"); return -1; } ret = cq_event_handler(td, comp_opcode); if (ret < 1) goto again; ibv_ack_cq_events(rd->cq, ret); r += ret; if (r < min) goto again; rd->cq_event_num -= r; return r; } static int fio_rdmaio_send(struct thread_data *td, struct io_u **io_us, unsigned int nr) { struct rdmaio_data *rd = td->io_ops_data; struct ibv_send_wr *bad_wr; #if 0 enum ibv_wc_opcode comp_opcode; comp_opcode = IBV_WC_RDMA_WRITE; #endif int i; long index; struct rdma_io_u_data *r_io_u_d; r_io_u_d = NULL; for (i = 0; i < nr; i++) { /* RDMA_WRITE or RDMA_READ */ switch (rd->rdma_protocol) { case FIO_RDMA_MEM_WRITE: /* compose work request */ r_io_u_d = io_us[i]->engine_data; index = __rand(&rd->rand_state) % rd->rmt_nr; r_io_u_d->sq_wr.opcode = IBV_WR_RDMA_WRITE; r_io_u_d->sq_wr.wr.rdma.rkey = rd->rmt_us[index].rkey; r_io_u_d->sq_wr.wr.rdma.remote_addr = \ rd->rmt_us[index].buf; r_io_u_d->sq_wr.sg_list->length = io_us[i]->buflen; break; case FIO_RDMA_MEM_READ: /* compose work request */ r_io_u_d = io_us[i]->engine_data; index = __rand(&rd->rand_state) % rd->rmt_nr; r_io_u_d->sq_wr.opcode = IBV_WR_RDMA_READ; r_io_u_d->sq_wr.wr.rdma.rkey = rd->rmt_us[index].rkey; r_io_u_d->sq_wr.wr.rdma.remote_addr = \ rd->rmt_us[index].buf; r_io_u_d->sq_wr.sg_list->length = io_us[i]->buflen; break; case FIO_RDMA_CHA_SEND: r_io_u_d = io_us[i]->engine_data; r_io_u_d->sq_wr.opcode = IBV_WR_SEND; r_io_u_d->sq_wr.send_flags = IBV_SEND_SIGNALED; break; default: log_err("fio: unknown rdma protocol - %d\n", rd->rdma_protocol); break; } if (ibv_post_send(rd->qp, &r_io_u_d->sq_wr, &bad_wr) != 0) { log_err("fio: ibv_post_send fail: %m\n"); return -1; } dprint_io_u(io_us[i], "fio_rdmaio_send"); } /* wait for completion rdma_poll_wait(td, comp_opcode); */ return i; } static int fio_rdmaio_recv(struct thread_data *td, struct io_u **io_us, unsigned int nr) { struct rdmaio_data *rd = td->io_ops_data; struct ibv_recv_wr *bad_wr; struct rdma_io_u_data *r_io_u_d; int i; i = 0; if (rd->rdma_protocol == FIO_RDMA_CHA_RECV) { /* post io_u into recv queue */ for (i = 0; i < nr; i++) { r_io_u_d = io_us[i]->engine_data; if (ibv_post_recv(rd->qp, &r_io_u_d->rq_wr, &bad_wr) != 0) { log_err("fio: ibv_post_recv fail: %m\n"); return 1; } } } else if ((rd->rdma_protocol == FIO_RDMA_MEM_READ) || (rd->rdma_protocol == FIO_RDMA_MEM_WRITE)) { /* re-post the rq_wr */ if (ibv_post_recv(rd->qp, &rd->rq_wr, &bad_wr) != 0) { log_err("fio: ibv_post_recv fail: %m\n"); return 1; } rdma_poll_wait(td, IBV_WC_RECV); dprint(FD_IO, "fio: recv FINISH message\n"); td->done = 1; return 0; } return i; } static enum fio_q_status fio_rdmaio_queue(struct thread_data *td, struct io_u *io_u) { struct rdmaio_data *rd = td->io_ops_data; fio_ro_check(td, io_u); if (rd->io_u_queued_nr == (int)td->o.iodepth) return FIO_Q_BUSY; rd->io_us_queued[rd->io_u_queued_nr] = io_u; rd->io_u_queued_nr++; dprint_io_u(io_u, "fio_rdmaio_queue"); return FIO_Q_QUEUED; } static void fio_rdmaio_queued(struct thread_data *td, struct io_u **io_us, unsigned int nr) { struct rdmaio_data *rd = td->io_ops_data; struct timespec now; unsigned int i; if (!fio_fill_issue_time(td)) return; fio_gettime(&now, NULL); for (i = 0; i < nr; i++) { struct io_u *io_u = io_us[i]; /* queued -> flight */ rd->io_us_flight[rd->io_u_flight_nr] = io_u; rd->io_u_flight_nr++; memcpy(&io_u->issue_time, &now, sizeof(now)); io_u_queued(td, io_u); } } static int fio_rdmaio_commit(struct thread_data *td) { struct rdmaio_data *rd = td->io_ops_data; struct io_u **io_us; int ret; if (!rd->io_us_queued) return 0; io_us = rd->io_us_queued; do { /* RDMA_WRITE or RDMA_READ */ if (rd->is_client) ret = fio_rdmaio_send(td, io_us, rd->io_u_queued_nr); else if (!rd->is_client) ret = fio_rdmaio_recv(td, io_us, rd->io_u_queued_nr); else ret = 0; /* must be a SYNC */ if (ret > 0) { fio_rdmaio_queued(td, io_us, ret); io_u_mark_submit(td, ret); rd->io_u_queued_nr -= ret; io_us += ret; ret = 0; } else break; } while (rd->io_u_queued_nr); return ret; } static int fio_rdmaio_connect(struct thread_data *td, struct fio_file *f) { struct rdmaio_data *rd = td->io_ops_data; struct rdma_conn_param conn_param; struct ibv_send_wr *bad_wr; memset(&conn_param, 0, sizeof(conn_param)); conn_param.responder_resources = 1; conn_param.initiator_depth = 1; conn_param.retry_count = 10; if (rdma_connect(rd->cm_id, &conn_param) != 0) { log_err("fio: rdma_connect fail: %m\n"); return 1; } if (get_next_channel_event (td, rd->cm_channel, RDMA_CM_EVENT_ESTABLISHED) != 0) { log_err("fio: wait for RDMA_CM_EVENT_ESTABLISHED\n"); return 1; } /* send task request */ rd->send_buf.mode = htonl(rd->rdma_protocol); rd->send_buf.nr = htonl(td->o.iodepth); if (ibv_post_send(rd->qp, &rd->sq_wr, &bad_wr) != 0) { log_err("fio: ibv_post_send fail: %m\n"); return 1; } if (rdma_poll_wait(td, IBV_WC_SEND) < 0) return 1; /* wait for remote MR info from server side */ if (rdma_poll_wait(td, IBV_WC_RECV) < 0) return 1; /* In SEND/RECV test, it's a good practice to setup the iodepth of * of the RECV side deeper than that of the SEND side to * avoid RNR (receiver not ready) error. The * SEND side may send so many unsolicited message before * RECV side commits sufficient recv buffers into recv queue. * This may lead to RNR error. Here, SEND side pauses for a while * during which RECV side commits sufficient recv buffers. */ usleep(500000); return 0; } static int fio_rdmaio_accept(struct thread_data *td, struct fio_file *f) { struct rdmaio_data *rd = td->io_ops_data; struct rdma_conn_param conn_param; struct ibv_send_wr *bad_wr; int ret = 0; /* rdma_accept() - then wait for accept success */ memset(&conn_param, 0, sizeof(conn_param)); conn_param.responder_resources = 1; conn_param.initiator_depth = 1; if (rdma_accept(rd->child_cm_id, &conn_param) != 0) { log_err("fio: rdma_accept: %m\n"); return 1; } if (get_next_channel_event (td, rd->cm_channel, RDMA_CM_EVENT_ESTABLISHED) != 0) { log_err("fio: wait for RDMA_CM_EVENT_ESTABLISHED\n"); return 1; } /* wait for request */ ret = rdma_poll_wait(td, IBV_WC_RECV) < 0; if (ibv_post_send(rd->qp, &rd->sq_wr, &bad_wr) != 0) { log_err("fio: ibv_post_send fail: %m\n"); return 1; } if (rdma_poll_wait(td, IBV_WC_SEND) < 0) return 1; return ret; } static int fio_rdmaio_open_file(struct thread_data *td, struct fio_file *f) { if (td_read(td)) return fio_rdmaio_accept(td, f); else return fio_rdmaio_connect(td, f); } static int fio_rdmaio_close_file(struct thread_data *td, struct fio_file *f) { struct rdmaio_data *rd = td->io_ops_data; struct ibv_send_wr *bad_wr; /* unregister rdma buffer */ /* * Client sends notification to the server side */ /* refer to: http://linux.die.net/man/7/rdma_cm */ if ((rd->is_client == 1) && ((rd->rdma_protocol == FIO_RDMA_MEM_WRITE) || (rd->rdma_protocol == FIO_RDMA_MEM_READ))) { if (ibv_post_send(rd->qp, &rd->sq_wr, &bad_wr) != 0) { log_err("fio: ibv_post_send fail: %m\n"); return 1; } dprint(FD_IO, "fio: close information sent success\n"); rdma_poll_wait(td, IBV_WC_SEND); } if (rd->is_client == 1) rdma_disconnect(rd->cm_id); else { rdma_disconnect(rd->child_cm_id); #if 0 rdma_disconnect(rd->cm_id); #endif } #if 0 if (get_next_channel_event(td, rd->cm_channel, RDMA_CM_EVENT_DISCONNECTED) != 0) { log_err("fio: wait for RDMA_CM_EVENT_DISCONNECTED\n"); return 1; } #endif ibv_destroy_cq(rd->cq); ibv_destroy_qp(rd->qp); if (rd->is_client == 1) rdma_destroy_id(rd->cm_id); else { rdma_destroy_id(rd->child_cm_id); rdma_destroy_id(rd->cm_id); } ibv_destroy_comp_channel(rd->channel); ibv_dealloc_pd(rd->pd); return 0; } static int aton(struct thread_data *td, const char *host, struct sockaddr_in *addr) { if (inet_aton(host, &addr->sin_addr) != 1) { struct hostent *hent; hent = gethostbyname(host); if (!hent) { td_verror(td, errno, "gethostbyname"); return 1; } memcpy(&addr->sin_addr, hent->h_addr, 4); } return 0; } static int fio_rdmaio_setup_connect(struct thread_data *td, const char *host, unsigned short port) { struct rdmaio_data *rd = td->io_ops_data; struct rdmaio_options *o = td->eo; struct sockaddr_storage addrb; struct ibv_recv_wr *bad_wr; int err; rd->addr.sin_family = AF_INET; rd->addr.sin_port = htons(port); err = aton(td, host, &rd->addr); if (err) return err; /* resolve route */ if (strcmp(o->bindname, "") != 0) { addrb.ss_family = AF_INET; err = aton(td, o->bindname, (struct sockaddr_in *)&addrb); if (err) return err; err = rdma_resolve_addr(rd->cm_id, (struct sockaddr *)&addrb, (struct sockaddr *)&rd->addr, 2000); } else { err = rdma_resolve_addr(rd->cm_id, NULL, (struct sockaddr *)&rd->addr, 2000); } if (err != 0) { log_err("fio: rdma_resolve_addr: %d\n", err); return 1; } err = get_next_channel_event(td, rd->cm_channel, RDMA_CM_EVENT_ADDR_RESOLVED); if (err != 0) { log_err("fio: get_next_channel_event: %d\n", err); return 1; } /* resolve route */ err = rdma_resolve_route(rd->cm_id, 2000); if (err != 0) { log_err("fio: rdma_resolve_route: %d\n", err); return 1; } err = get_next_channel_event(td, rd->cm_channel, RDMA_CM_EVENT_ROUTE_RESOLVED); if (err != 0) { log_err("fio: get_next_channel_event: %d\n", err); return 1; } /* create qp and buffer */ if (fio_rdmaio_setup_qp(td) != 0) return 1; if (fio_rdmaio_setup_control_msg_buffers(td) != 0) return 1; /* post recv buf */ err = ibv_post_recv(rd->qp, &rd->rq_wr, &bad_wr); if (err != 0) { log_err("fio: ibv_post_recv fail: %d\n", err); return 1; } return 0; } static int fio_rdmaio_setup_listen(struct thread_data *td, short port) { struct rdmaio_data *rd = td->io_ops_data; struct rdmaio_options *o = td->eo; struct ibv_recv_wr *bad_wr; int state = td->runstate; td_set_runstate(td, TD_SETTING_UP); rd->addr.sin_family = AF_INET; rd->addr.sin_port = htons(port); if (strcmp(o->bindname, "") == 0) rd->addr.sin_addr.s_addr = htonl(INADDR_ANY); else rd->addr.sin_addr.s_addr = htonl(*o->bindname); /* rdma_listen */ if (rdma_bind_addr(rd->cm_id, (struct sockaddr *)&rd->addr) != 0) { log_err("fio: rdma_bind_addr fail: %m\n"); return 1; } if (rdma_listen(rd->cm_id, 3) != 0) { log_err("fio: rdma_listen fail: %m\n"); return 1; } log_info("fio: waiting for connection\n"); /* wait for CONNECT_REQUEST */ if (get_next_channel_event (td, rd->cm_channel, RDMA_CM_EVENT_CONNECT_REQUEST) != 0) { log_err("fio: wait for RDMA_CM_EVENT_CONNECT_REQUEST\n"); return 1; } if (fio_rdmaio_setup_qp(td) != 0) return 1; if (fio_rdmaio_setup_control_msg_buffers(td) != 0) return 1; /* post recv buf */ if (ibv_post_recv(rd->qp, &rd->rq_wr, &bad_wr) != 0) { log_err("fio: ibv_post_recv fail: %m\n"); return 1; } td_set_runstate(td, state); return 0; } static int check_set_rlimits(struct thread_data *td) { #ifdef CONFIG_RLIMIT_MEMLOCK struct rlimit rl; /* check RLIMIT_MEMLOCK */ if (getrlimit(RLIMIT_MEMLOCK, &rl) != 0) { log_err("fio: getrlimit fail: %d(%s)\n", errno, strerror(errno)); return 1; } /* soft limit */ if ((rl.rlim_cur != RLIM_INFINITY) && (rl.rlim_cur < td->orig_buffer_size)) { log_err("fio: soft RLIMIT_MEMLOCK is: %" PRId64 "\n", rl.rlim_cur); log_err("fio: total block size is: %zd\n", td->orig_buffer_size); /* try to set larger RLIMIT_MEMLOCK */ rl.rlim_cur = rl.rlim_max; if (setrlimit(RLIMIT_MEMLOCK, &rl) != 0) { log_err("fio: setrlimit fail: %d(%s)\n", errno, strerror(errno)); log_err("fio: you may try enlarge MEMLOCK by root\n"); log_err("# ulimit -l unlimited\n"); return 1; } } #endif return 0; } static int compat_options(struct thread_data *td) { // The original RDMA engine had an ugly / seperator // on the filename for it's options. This function // retains backwards compatibility with it. Note we do not // support setting the bindname option is this legacy mode. struct rdmaio_options *o = td->eo; char *modep, *portp; char *filename = td->o.filename; if (!filename) return 0; portp = strchr(filename, '/'); if (portp == NULL) return 0; *portp = '\0'; portp++; o->port = strtol(portp, NULL, 10); if (!o->port || o->port > 65535) goto bad_host; modep = strchr(portp, '/'); if (modep != NULL) { *modep = '\0'; modep++; } if (modep) { if (!strncmp("rdma_write", modep, strlen(modep)) || !strncmp("RDMA_WRITE", modep, strlen(modep))) o->verb = FIO_RDMA_MEM_WRITE; else if (!strncmp("rdma_read", modep, strlen(modep)) || !strncmp("RDMA_READ", modep, strlen(modep))) o->verb = FIO_RDMA_MEM_READ; else if (!strncmp("send", modep, strlen(modep)) || !strncmp("SEND", modep, strlen(modep))) o->verb = FIO_RDMA_CHA_SEND; else goto bad_host; } else o->verb = FIO_RDMA_MEM_WRITE; return 0; bad_host: log_err("fio: bad rdma host/port/protocol: %s\n", td->o.filename); return 1; } static int fio_rdmaio_init(struct thread_data *td) { struct rdmaio_data *rd = td->io_ops_data; struct rdmaio_options *o = td->eo; unsigned int max_bs; int ret, i; if (td_rw(td)) { log_err("fio: rdma connections must be read OR write\n"); return 1; } if (td_random(td)) { log_err("fio: RDMA network IO can't be random\n"); return 1; } if (compat_options(td)) return 1; if (!o->port) { log_err("fio: no port has been specified which is required " "for the rdma engine\n"); return 1; } if (check_set_rlimits(td)) return 1; rd->rdma_protocol = o->verb; rd->cq_event_num = 0; rd->cm_channel = rdma_create_event_channel(); if (!rd->cm_channel) { log_err("fio: rdma_create_event_channel fail: %m\n"); return 1; } ret = rdma_create_id(rd->cm_channel, &rd->cm_id, rd, RDMA_PS_TCP); if (ret) { log_err("fio: rdma_create_id fail: %m\n"); return 1; } if ((rd->rdma_protocol == FIO_RDMA_MEM_WRITE) || (rd->rdma_protocol == FIO_RDMA_MEM_READ)) { rd->rmt_us = malloc(FIO_RDMA_MAX_IO_DEPTH * sizeof(struct remote_u)); memset(rd->rmt_us, 0, FIO_RDMA_MAX_IO_DEPTH * sizeof(struct remote_u)); rd->rmt_nr = 0; } rd->io_us_queued = malloc(td->o.iodepth * sizeof(struct io_u *)); memset(rd->io_us_queued, 0, td->o.iodepth * sizeof(struct io_u *)); rd->io_u_queued_nr = 0; rd->io_us_flight = malloc(td->o.iodepth * sizeof(struct io_u *)); memset(rd->io_us_flight, 0, td->o.iodepth * sizeof(struct io_u *)); rd->io_u_flight_nr = 0; rd->io_us_completed = malloc(td->o.iodepth * sizeof(struct io_u *)); memset(rd->io_us_completed, 0, td->o.iodepth * sizeof(struct io_u *)); rd->io_u_completed_nr = 0; if (td_read(td)) { /* READ as the server */ rd->is_client = 0; td->flags |= TD_F_NO_PROGRESS; /* server rd->rdma_buf_len will be setup after got request */ ret = fio_rdmaio_setup_listen(td, o->port); } else { /* WRITE as the client */ rd->is_client = 1; ret = fio_rdmaio_setup_connect(td, td->o.filename, o->port); } max_bs = max(td->o.max_bs[DDIR_READ], td->o.max_bs[DDIR_WRITE]); rd->send_buf.max_bs = htonl(max_bs); /* register each io_u in the free list */ for (i = 0; i < td->io_u_freelist.nr; i++) { struct io_u *io_u = td->io_u_freelist.io_us[i]; io_u->engine_data = malloc(sizeof(struct rdma_io_u_data)); memset(io_u->engine_data, 0, sizeof(struct rdma_io_u_data)); ((struct rdma_io_u_data *)io_u->engine_data)->wr_id = i; io_u->mr = ibv_reg_mr(rd->pd, io_u->buf, max_bs, IBV_ACCESS_LOCAL_WRITE | IBV_ACCESS_REMOTE_READ | IBV_ACCESS_REMOTE_WRITE); if (io_u->mr == NULL) { log_err("fio: ibv_reg_mr io_u failed: %m\n"); return 1; } rd->send_buf.rmt_us[i].buf = cpu_to_be64((uint64_t) (unsigned long)io_u->buf); rd->send_buf.rmt_us[i].rkey = htonl(io_u->mr->rkey); rd->send_buf.rmt_us[i].size = htonl(max_bs); #if 0 log_info("fio: Send rkey %x addr %" PRIx64 " len %d to client\n", io_u->mr->rkey, io_u->buf, max_bs); */ #endif } rd->send_buf.nr = htonl(i); return ret; } static void fio_rdmaio_cleanup(struct thread_data *td) { struct rdmaio_data *rd = td->io_ops_data; if (rd) free(rd); } static int fio_rdmaio_setup(struct thread_data *td) { struct rdmaio_data *rd; if (!td->files_index) { add_file(td, td->o.filename ?: "rdma", 0, 0); td->o.nr_files = td->o.nr_files ?: 1; td->o.open_files++; } if (!td->io_ops_data) { rd = malloc(sizeof(*rd)); memset(rd, 0, sizeof(*rd)); init_rand_seed(&rd->rand_state, (unsigned int) GOLDEN_RATIO_PRIME, 0); td->io_ops_data = rd; } return 0; } static struct ioengine_ops ioengine_rw = { .name = "rdma", .version = FIO_IOOPS_VERSION, .setup = fio_rdmaio_setup, .init = fio_rdmaio_init, .prep = fio_rdmaio_prep, .queue = fio_rdmaio_queue, .commit = fio_rdmaio_commit, .getevents = fio_rdmaio_getevents, .event = fio_rdmaio_event, .cleanup = fio_rdmaio_cleanup, .open_file = fio_rdmaio_open_file, .close_file = fio_rdmaio_close_file, .flags = FIO_DISKLESSIO | FIO_UNIDIR | FIO_PIPEIO, .options = options, .option_struct_size = sizeof(struct rdmaio_options), }; static void fio_init fio_rdmaio_register(void) { register_ioengine(&ioengine_rw); } static void fio_exit fio_rdmaio_unregister(void) { unregister_ioengine(&ioengine_rw); }