/* * Unix SMB/CIFS implementation. * Wrap Infiniband calls. * * Copyright (C) Sven Oehme 2006 * * Major code contributions by Peter Somogyi * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include #include #include #include #include #include #include #include #include #include #include #include "includes.h" #include "lib/events/events.h" #include "ibwrapper.h" #include #include "ibwrapper_internal.h" #include "lib/util/dlinklist.h" #define IBW_LASTERR_BUFSIZE 512 static char ibw_lasterr[IBW_LASTERR_BUFSIZE]; static void ibw_event_handler_verbs(struct event_context *ev, struct fd_event *fde, uint16_t flags, void *private_data); static int ibw_fill_cq(struct ibw_conn *conn); static inline int ibw_wc_recv(struct ibw_conn *conn, struct ibv_wc *wc); static inline int ibw_wc_send(struct ibw_conn *conn, struct ibv_wc *wc); static void *ibw_alloc_mr(struct ibw_ctx_priv *pctx, struct ibw_conn_priv *pconn, int n, struct ibv_mr **ppmr) { void *buf; buf = memalign(pctx->pagesize, n); if (!buf) { sprintf(ibw_lasterr, "couldn't allocate memory\n"); return NULL; } *ppmr = ibv_reg_mr(pctx->pd, buf, n, IBV_ACCESS_LOCAL_WRITE); if (!*ppmr) { sprintf(ibw_lasterr, "couldn't allocate mr\n"); free(buf); return NULL; } return buf; } static void ibw_free_mr(char **ppbuf, struct ibv_mr **ppmr) { if (*ppmr!=NULL) { ibv_dereg_mr(*ppmr); *ppmr = NULL; } if (*ppbuf) { free(*ppbuf); *ppbuf = NULL; } } static int ibw_init_memory(struct ibw_conn *conn) { struct ibw_ctx_priv *pctx = talloc_get_type(conn->ctx->internal, struct ibw_ctx_priv); struct ibw_conn_priv *pconn = talloc_get_type(conn->internal, struct ibw_conn_priv); struct ibw_opts *opts = &pctx->opts; int i; struct ibw_wr *p; pconn->buf_send = ibw_alloc_mr(pctx, pconn, opts->max_send_wr * opts->avg_send_size, &pconn->mr_send); if (!pconn->buf_send) { sprintf(ibw_lasterr, "couldn't allocate work send buf\n"); return -1; } pconn->buf_recv = ibw_alloc_mr(pctx, pconn, opts->max_recv_wr * opts->recv_bufsize, &pconn->mr_recv); if (!pconn->buf_recv) { sprintf(ibw_lasterr, "couldn't allocate work recv buf\n"); return -1; } pconn->wr_index = talloc_size(pconn, opts->max_send_wr * sizeof(struct ibw_wr *)); assert(pconn->wr_index!=NULL); for(i=0; imax_send_wr; i++) { p = pconn->wr_index[i] = talloc_zero(pconn, struct ibw_wr); p->msg = pconn->buf_send + (i * opts->avg_send_size); p->wr_id = i + opts->max_recv_wr; DLIST_ADD(pconn->wr_list_avail, p); } return 0; } static int ibw_ctx_priv_destruct(struct ibw_ctx_priv *pctx) { if (pctx->pd) { ibv_dealloc_pd(pctx->pd); pctx->pd = NULL; } /* destroy cm */ if (pctx->cm_channel) { rdma_destroy_event_channel(pctx->cm_channel); pctx->cm_channel = NULL; } if (pctx->cm_channel_event) { /* TODO: do we have to do this here? */ talloc_free(pctx->cm_channel_event); pctx->cm_channel_event = NULL; } if (pctx->cm_id) { rdma_destroy_id(pctx->cm_id); pctx->cm_id = NULL; } return 0; } static int ibw_ctx_destruct(struct ibw_ctx *ctx) { return 0; } static int ibw_conn_priv_destruct(struct ibw_conn_priv *pconn) { /* free memory regions */ ibw_free_mr(&pconn->buf_send, &pconn->mr_send); ibw_free_mr(&pconn->buf_recv, &pconn->mr_recv); /* pconn->wr_index is freed by talloc */ /* pconn->wr_index[i] are freed by talloc */ /* destroy verbs */ if (pconn->cm_id->qp) { ibv_destroy_qp(pconn->cm_id->qp); pconn->cm_id->qp = NULL; } if (pconn->cq) { ibv_destroy_cq(pconn->cq); pconn->cq = NULL; } if (pconn->verbs_channel) { ibv_destroy_comp_channel(pconn->verbs_channel); pconn->verbs_channel = NULL; } if (pconn->verbs_channel_event) { /* TODO: do we have to do this here? */ talloc_free(pconn->verbs_channel_event); pconn->verbs_channel_event = NULL; } if (pconn->cm_id) { rdma_destroy_id(pconn->cm_id); pconn->cm_id = NULL; } return 0; } static int ibw_conn_destruct(struct ibw_conn *conn) { /* important here: ctx is a talloc _parent_ */ DLIST_REMOVE(conn->ctx->conn_list, conn); return 0; } static struct ibw_conn *ibw_conn_new(struct ibw_ctx *ctx) { struct ibw_conn *conn; struct ibw_conn_priv *pconn; conn = talloc_zero(ctx, struct ibw_conn); assert(conn!=NULL); talloc_set_destructor(conn, ibw_conn_destruct); pconn = talloc_zero(ctx, struct ibw_conn_priv); assert(pconn!=NULL); talloc_set_destructor(pconn, ibw_conn_priv_destruct); conn->ctx = ctx; DLIST_ADD(ctx->conn_list, conn); return conn; } static int ibw_setup_cq_qp(struct ibw_conn *conn) { struct ibw_ctx_priv *pctx = talloc_get_type(conn->ctx->internal, struct ibw_ctx_priv); struct ibw_conn_priv *pconn = talloc_get_type(conn->internal, struct ibw_conn_priv); struct ibv_qp_init_attr init_attr; int rc; /* init mr */ if (ibw_init_memory(conn)) return -1; /* init verbs */ pconn->verbs_channel = ibv_create_comp_channel(pconn->cm_id->verbs); if (!pconn->verbs_channel) { sprintf(ibw_lasterr, "ibv_create_comp_channel failed %d\n", errno); return -1; } DEBUG(10, ("created channel %p\n", pconn->verbs_channel)); pconn->verbs_channel_event = event_add_fd(pctx->ectx, conn, pconn->verbs_channel->fd, EVENT_FD_READ, ibw_event_handler_verbs, conn); /* init cq */ pconn->cq = ibv_create_cq(pconn->cm_id->verbs, pctx->opts.max_recv_wr + pctx->opts.max_send_wr, conn, pconn->verbs_channel, 0); if (pconn->cq==NULL) { sprintf(ibw_lasterr, "ibv_create_cq failed\n"); return -1; } rc = ibv_req_notify_cq(pconn->cq, 0); if (rc) { sprintf(ibw_lasterr, "ibv_req_notify_cq failed with %d\n", rc); return rc; } /* init qp */ memset(&init_attr, 0, sizeof(init_attr)); init_attr.cap.max_send_wr = pctx->opts.max_send_wr; init_attr.cap.max_recv_wr = pctx->opts.max_recv_wr; 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 = pconn->cq; init_attr.recv_cq = pconn->cq; rc = rdma_create_qp(pconn->cm_id, pctx->pd, &init_attr); if (rc) { sprintf(ibw_lasterr, "rdma_create_qp failed with %d\n", rc); return rc; } /* elase result is in pconn->cm_id->qp */ return ibw_fill_cq(conn); } static int ibw_refill_cq_recv(struct ibw_conn *conn) { struct ibw_ctx_priv *pctx = talloc_get_type(conn->ctx->internal, struct ibw_ctx_priv); struct ibw_conn_priv *pconn = talloc_get_type(conn->internal, struct ibw_conn_priv); int rc; struct ibv_sge list = { .addr = (uintptr_t) NULL, .length = pctx->opts.recv_bufsize, .lkey = pconn->mr_recv->lkey }; struct ibv_recv_wr wr = { .wr_id = 0, .sg_list = &list, .num_sge = 1, }; struct ibv_recv_wr *bad_wr; list.addr = (uintptr_t) pconn->buf_recv + pctx->opts.recv_bufsize * pconn->recv_index; wr.wr_id = pconn->recv_index; pconn->recv_index = (pconn->recv_index + 1) % pctx->opts.max_recv_wr; rc = ibv_post_recv(pconn->cm_id->qp, &wr, &bad_wr); if (rc) { sprintf(ibw_lasterr, "ibv_post_recv failed with %d\n", rc); DEBUG(0, (ibw_lasterr)); return -2; } return 0; } static int ibw_fill_cq(struct ibw_conn *conn) { struct ibw_ctx_priv *pctx = talloc_get_type(conn->ctx->internal, struct ibw_ctx_priv); struct ibw_conn_priv *pconn = talloc_get_type(conn->internal, struct ibw_conn_priv); int i, rc; struct ibv_sge list = { .addr = (uintptr_t) NULL, .length = pctx->opts.recv_bufsize, .lkey = pconn->mr_recv->lkey }; struct ibv_recv_wr wr = { .wr_id = 0, .sg_list = &list, .num_sge = 1, }; struct ibv_recv_wr *bad_wr; for(i = pctx->opts.max_recv_wr; i!=0; i--) { list.addr = (uintptr_t) pconn->buf_recv + pctx->opts.recv_bufsize * pconn->recv_index; wr.wr_id = pconn->recv_index; pconn->recv_index = (pconn->recv_index + 1) % pctx->opts.max_recv_wr; rc = ibv_post_recv(pconn->cm_id->qp, &wr, &bad_wr); if (rc) { sprintf(ibw_lasterr, "ibv_post_recv failed with %d\n", rc); DEBUG(0, (ibw_lasterr)); return -2; } } return 0; } static int ibw_manage_connect(struct ibw_conn *conn, struct rdma_cm_id *cma_id) { struct rdma_conn_param conn_param; int rc; rc = ibw_setup_cq_qp(conn); if (rc) return -1; /* cm connect */ memset(&conn_param, 0, sizeof conn_param); conn_param.responder_resources = 1; conn_param.initiator_depth = 1; conn_param.retry_count = 10; rc = rdma_connect(cma_id, &conn_param); if (rc) sprintf(ibw_lasterr, "rdma_connect error %d\n", rc); return rc; } static void ibw_event_handler_cm(struct event_context *ev, struct fd_event *fde, uint16_t flags, void *private_data) { int rc; struct ibw_ctx *ctx = talloc_get_type(private_data, struct ibw_ctx); struct ibw_ctx_priv *pctx = talloc_get_type(ctx->internal, struct ibw_ctx_priv); struct ibw_conn *conn = NULL; struct ibw_conn_priv *pconn = NULL; struct rdma_cm_id *cma_id = NULL; struct rdma_cm_event *event = NULL; assert(ctx!=NULL); rc = rdma_get_cm_event(pctx->cm_channel, &event); if (rc) { ctx->state = IBWS_ERROR; sprintf(ibw_lasterr, "rdma_get_cm_event error %d\n", rc); goto error; } cma_id = event->id; DEBUG(10, ("cma_event type %d cma_id %p (%s)\n", event->event, cma_id, (cma_id == pctx->cm_id) ? "parent" : "child")); switch (event->event) { case RDMA_CM_EVENT_ADDR_RESOLVED: /* continuing from ibw_connect ... */ rc = rdma_resolve_route(cma_id, 2000); if (rc) { sprintf(ibw_lasterr, "rdma_resolve_route error %d\n", rc); goto error; } /* continued at RDMA_CM_EVENT_ROUTE_RESOLVED */ break; case RDMA_CM_EVENT_ROUTE_RESOLVED: /* after RDMA_CM_EVENT_ADDR_RESOLVED: */ assert(cma_id->context!=NULL); conn = talloc_get_type(cma_id->context, struct ibw_conn); rc = ibw_manage_connect(conn, cma_id); if (rc) goto error; break; case RDMA_CM_EVENT_CONNECT_REQUEST: ctx->state = IBWS_CONNECT_REQUEST; conn = ibw_conn_new(ctx); pconn = talloc_get_type(conn->internal, struct ibw_conn_priv); pconn->cm_id = cma_id; /* !!! event will be freed but id not */ cma_id->context = (void *)conn; DEBUG(10, ("pconn->cm_id %p\n", pconn->cm_id)); conn->state = IBWC_INIT; pctx->connstate_func(ctx, conn); /* continued at ibw_accept when invoked by the func above */ if (!pconn->is_accepted) { talloc_free(conn); DEBUG(10, ("pconn->cm_id %p wasn't accepted\n", pconn->cm_id)); } else { if (ibw_setup_cq_qp(conn)) goto error; } /* TODO: clarify whether if it's needed by upper layer: */ ctx->state = IBWS_READY; pctx->connstate_func(ctx, NULL); /* NOTE: more requests can arrive until RDMA_CM_EVENT_ESTABLISHED ! */ break; case RDMA_CM_EVENT_ESTABLISHED: /* expected after ibw_accept and ibw_connect[not directly] */ DEBUG(0, ("ESTABLISHED (conn: %u)\n", (unsigned int)cma_id->context)); conn = talloc_get_type(cma_id->context, struct ibw_conn); assert(conn!=NULL); /* important assumption */ /* client conn is up */ conn->state = IBWC_CONNECTED; /* both ctx and conn have changed */ pctx->connstate_func(ctx, conn); break; case RDMA_CM_EVENT_ADDR_ERROR: case RDMA_CM_EVENT_ROUTE_ERROR: case RDMA_CM_EVENT_CONNECT_ERROR: case RDMA_CM_EVENT_UNREACHABLE: case RDMA_CM_EVENT_REJECTED: sprintf(ibw_lasterr, "cma event %d, error %d\n", event->event, event->status); goto error; case RDMA_CM_EVENT_DISCONNECTED: if (cma_id!=pctx->cm_id) { DEBUG(0, ("client DISCONNECT event\n")); conn = talloc_get_type(cma_id->context, struct ibw_conn); conn->state = IBWC_DISCONNECTED; pctx->connstate_func(NULL, conn); talloc_free(conn); /* if we are the last... */ if (ctx->conn_list==NULL) rdma_disconnect(pctx->cm_id); } else { DEBUG(0, ("server DISCONNECT event\n")); ctx->state = IBWS_STOPPED; /* ??? TODO: try it... */ /* talloc_free(ctx) should be called within or after this func */ pctx->connstate_func(ctx, NULL); } break; case RDMA_CM_EVENT_DEVICE_REMOVAL: sprintf(ibw_lasterr, "cma detected device removal!\n"); goto error; default: sprintf(ibw_lasterr, "unknown event %d\n", event->event); goto error; } if ((rc=rdma_ack_cm_event(event))) { sprintf(ibw_lasterr, "rdma_ack_cm_event failed with %d\n", rc); goto error; } return; error: DEBUG(0, ("cm event handler: %s", ibw_lasterr)); if (cma_id!=pctx->cm_id) { conn = talloc_get_type(cma_id->context, struct ibw_conn); if (conn) conn->state = IBWC_ERROR; pctx->connstate_func(NULL, conn); } else { ctx->state = IBWS_ERROR; pctx->connstate_func(ctx, NULL); } } static void ibw_event_handler_verbs(struct event_context *ev, struct fd_event *fde, uint16_t flags, void *private_data) { struct ibw_conn *conn = talloc_get_type(private_data, struct ibw_conn); struct ibw_conn_priv *pconn = talloc_get_type(conn->internal, struct ibw_conn_priv); struct ibw_ctx_priv *pctx = talloc_get_type(conn->ctx->internal, struct ibw_ctx_priv); struct ibv_wc wc; int rc; struct ibv_cq *ev_cq; void *ev_ctx; /* TODO: check whether if it's good to have more channels here... */ rc = ibv_get_cq_event(pconn->verbs_channel, &ev_cq, &ev_ctx); if (rc) { sprintf(ibw_lasterr, "Failed to get cq_event with %d\n", rc); goto error; } if (ev_cq != pconn->cq) { sprintf(ibw_lasterr, "ev_cq(%u) != pconn->cq(%u)\n", (unsigned int)ev_cq, (unsigned int)pconn->cq); goto error; } rc = ibv_req_notify_cq(pconn->cq, 0); if (rc) { sprintf(ibw_lasterr, "Couldn't request CQ notification (%d)\n", rc); goto error; } while((rc=ibv_poll_cq(pconn->cq, 1, &wc))==1) { if (wc.status) { sprintf(ibw_lasterr, "cq completion failed status %d\n", wc.status); goto error; } switch(wc.opcode) { case IBV_WC_SEND: DEBUG(10, ("send completion\n")); if (ibw_wc_send(conn, &wc)) goto error; break; case IBV_WC_RDMA_WRITE: DEBUG(10, ("rdma write completion\n")); break; case IBV_WC_RDMA_READ: DEBUG(10, ("rdma read completion\n")); break; case IBV_WC_RECV: DEBUG(10, ("recv completion\n")); if (ibw_wc_recv(conn, &wc)) goto error; break; default: sprintf(ibw_lasterr, "unknown completion %d\n", wc.opcode); goto error; } } if (rc!=0) { sprintf(ibw_lasterr, "ibv_poll_cq error %d\n", rc); goto error; } return; error: DEBUG(0, (ibw_lasterr)); conn->state = IBWC_ERROR; pctx->connstate_func(NULL, conn); } static inline int ibw_wc_send(struct ibw_conn *conn, struct ibv_wc *wc) { struct ibw_ctx_priv *pctx = talloc_get_type(conn->ctx->internal, struct ibw_ctx_priv); struct ibw_conn_priv *pconn = talloc_get_type(conn->internal, struct ibw_conn_priv); struct ibw_wr *p; int send_index; assert(pconn->cm_id->qp->qp_num==wc->qp_num); assert(wc->wr_id > pctx->opts.max_recv_wr); send_index = wc->wr_id - pctx->opts.max_recv_wr; if (send_index < pctx->opts.max_send_wr) { DEBUG(10, ("ibw_wc_send#1 %u", (int)wc->wr_id)); p = pconn->wr_index[send_index]; if (p->msg_large) ibw_free_mr(&p->msg_large, &p->mr_large); DLIST_REMOVE(pconn->wr_list_used, p); DLIST_ADD(pconn->wr_list_avail, p); } else { DEBUG(10, ("ibw_wc_send#2 %u", (int)wc->wr_id)); for(p=pconn->queue_sent; p!=NULL; p=p->next) if (p->wr_id==(int)wc->wr_id) break; if (p==NULL) { sprintf(ibw_lasterr, "failed to find wr_id %d\n", (int)wc->wr_id); return -1; } ibw_free_mr(&p->msg_large, &p->mr_large); DLIST_REMOVE(pconn->queue_sent, p); DLIST_ADD(pconn->queue_avail, p); } if (pconn->queue) { struct ibv_sge list = { .addr = (uintptr_t) NULL, .length = *(uint32_t *)(p->msg_large), .lkey = 0 }; struct ibv_send_wr wr = { .wr_id = p->wr_id + pctx->opts.max_recv_wr, .sg_list = &list, .num_sge = 1, .opcode = IBV_WR_SEND, .send_flags = IBV_SEND_SIGNALED, }; struct ibv_send_wr *bad_wr; int rc; p = pconn->queue; DLIST_REMOVE(pconn->queue, p); DLIST_ADD(pconn->queue_sent, p); rc = ibv_post_send(pconn->cm_id->qp, &wr, &bad_wr); if (rc) { sprintf(ibw_lasterr, "ibv_post_send failed with %d\n", rc); return -1; } } return 0; } static inline int ibw_append_to_part(void *memctx, struct ibw_part *part, char **pp, uint32_t add_len, int info) { /* allocate more if necessary - it's an "evergrowing" buffer... */ if (part->len + add_len > part->bufsize) { if (part->buf==NULL) { assert(part->len==0); part->buf = talloc_size(memctx, add_len); if (part->buf==NULL) { sprintf(ibw_lasterr, "recv talloc_size error (%u) #%d\n", add_len, info); return -1; } part->bufsize = add_len; } else { part->buf = talloc_realloc_size(memctx, part->buf, part->len + add_len); if (part->buf==NULL) { sprintf(ibw_lasterr, "recv realloc error (%u + %u) #%d\n", part->len, add_len, info); return -1; } } part->bufsize = part->len + add_len; } /* consume pp */ memcpy(part->buf + part->len, *pp, add_len); *pp += add_len; part->len += add_len; part->to_read -= add_len; return 0; } static inline int ibw_wc_mem_threshold(void *memctx, struct ibw_part *part, uint32_t threshold) { if (part->bufsize > threshold) { talloc_free(part->buf); part->buf = talloc_size(memctx, threshold); if (part->buf==NULL) { sprintf(ibw_lasterr, "talloc_size failed\n"); return -1; } part->bufsize = threshold; } return 0; } static inline int ibw_wc_recv(struct ibw_conn *conn, struct ibv_wc *wc) { struct ibw_ctx_priv *pctx = talloc_get_type(conn->ctx->internal, struct ibw_ctx_priv); struct ibw_conn_priv *pconn = talloc_get_type(conn->internal, struct ibw_conn_priv); struct ibw_part *part = &pconn->part; char *p; uint32_t remain; assert(pconn->cm_id->qp->qp_num==wc->qp_num); assert((int)wc->wr_id < pctx->opts.max_recv_wr); assert(wc->byte_len <= pctx->opts.recv_bufsize); p = pconn->buf_recv + ((int)wc->wr_id * pctx->opts.recv_bufsize); remain = wc->byte_len; while(remain) { /* here always true: (part->len!=0 && part->to_read!=0) || (part->len==0 && part->to_read==0) */ if (part->len) { /* is there a partial msg to be continued? */ int read_len = (part->to_read<=remain) ? part->to_read : remain; if (ibw_append_to_part(pconn, part, &p, read_len, 421)) goto error; remain -= read_len; if (part->len<=sizeof(uint32_t) && part->to_read==0) { assert(part->len==sizeof(uint32_t)); /* set it again now... */ part->to_read = *((uint32_t *)(part->buf)); if (part->to_readto_read); goto error; } part->to_read -= sizeof(uint32_t); /* it's already read */ } if (part->to_read==0) { pctx->receive_func(conn, part->buf, part->len); part->len = 0; /* tells not having partial data (any more) */ if (ibw_wc_mem_threshold(pconn, part, pctx->opts.recv_threshold)) goto error; } } else { if (remain>=sizeof(uint32_t)) { uint32_t msglen = *(uint32_t *)p; if (msglenreceive_func(conn, p, msglen); p += msglen; remain -= msglen; } else { part->to_read = msglen; /* part->len is already 0 */ if (ibw_append_to_part(pconn, part, &p, remain, 422)) goto error; remain = 0; /* to be continued ... */ /* part->to_read > 0 here */ } } else { /* edge case: */ part->to_read = sizeof(uint32_t); /* part->len is already 0 */ if (ibw_append_to_part(pconn, part, &p, remain, 423)) goto error; remain = 0; /* part->to_read > 0 here */ } } } /* is always decreased at least by 1 */ if (ibw_refill_cq_recv(conn)) goto error; return 0; error: DEBUG(0, ("ibw_wc_recv error: %s", ibw_lasterr)); return -1; } static int ibw_process_init_attrs(struct ibw_initattr *attr, int nattr, struct ibw_opts *opts) { int i; const char *name, *value; opts->max_send_wr = 256; opts->max_recv_wr = 1024; opts->avg_send_size = 1024; opts->recv_bufsize = 256; opts->recv_threshold = 1 * 1024 * 1024; for(i=0; imax_send_wr = atoi(value); else if (strcmp(name, "max_recv_wr")==0) opts->max_recv_wr = atoi(value); else if (strcmp(name, "avg_send_size")==0) opts->avg_send_size = atoi(value); else if (strcmp(name, "recv_bufsize")==0) opts->recv_bufsize = atoi(value); else if (strcmp(name, "recv_threshold")==0) opts->recv_threshold = atoi(value); else { sprintf(ibw_lasterr, "ibw_init: unknown name %s\n", name); return -1; } } return 0; } struct ibw_ctx *ibw_init(struct ibw_initattr *attr, int nattr, void *ctx_userdata, ibw_connstate_fn_t ibw_connstate, ibw_receive_fn_t ibw_receive, struct event_context *ectx) { struct ibw_ctx *ctx = talloc_zero(NULL, struct ibw_ctx); struct ibw_ctx_priv *pctx; int rc; /* initialize basic data structures */ memset(ibw_lasterr, 0, IBW_LASTERR_BUFSIZE); assert(ctx!=NULL); ibw_lasterr[0] = '\0'; talloc_set_destructor(ctx, ibw_ctx_destruct); ctx->ctx_userdata = ctx_userdata; pctx = talloc_zero(ctx, struct ibw_ctx_priv); talloc_set_destructor(pctx, ibw_ctx_priv_destruct); ctx->internal = (void *)pctx; assert(pctx!=NULL); pctx->connstate_func = ibw_connstate; pctx->receive_func = ibw_receive; pctx->ectx = ectx; /* process attributes */ if (ibw_process_init_attrs(attr, nattr, &pctx->opts)) goto cleanup; /* init cm */ pctx->cm_channel = rdma_create_event_channel(); if (!pctx->cm_channel) { sprintf(ibw_lasterr, "rdma_create_event_channel error %d\n", errno); goto cleanup; } pctx->cm_channel_event = event_add_fd(pctx->ectx, pctx, pctx->cm_channel->fd, EVENT_FD_READ, ibw_event_handler_cm, ctx); rc = rdma_create_id(pctx->cm_channel, &pctx->cm_id, ctx, RDMA_PS_TCP); if (rc) { rc = errno; sprintf(ibw_lasterr, "rdma_create_id error %d\n", rc); goto cleanup; } DEBUG(10, ("created cm_id %p\n", pctx->cm_id)); /* init verbs */ pctx->pd = ibv_alloc_pd(pctx->cm_id->verbs); if (!pctx->pd) { sprintf(ibw_lasterr, "ibv_alloc_pd failed %d\n", errno); goto cleanup; } DEBUG(10, ("created pd %p\n", pctx->pd)); pctx->pagesize = sysconf(_SC_PAGESIZE); return ctx; /* don't put code here */ cleanup: DEBUG(0, (ibw_lasterr)); if (ctx) talloc_free(ctx); return NULL; } int ibw_stop(struct ibw_ctx *ctx) { struct ibw_conn *p; for(p=ctx->conn_list; p!=NULL; p=p->next) { if (ctx->state==IBWC_ERROR || ctx->state==IBWC_CONNECTED) { if (ibw_disconnect(p)) return -1; } } return 0; } int ibw_bind(struct ibw_ctx *ctx, struct sockaddr_in *my_addr) { struct ibw_ctx_priv *pctx = (struct ibw_ctx_priv *)ctx->internal; int rc; rc = rdma_bind_addr(pctx->cm_id, (struct sockaddr *) my_addr); if (rc) { sprintf(ibw_lasterr, "rdma_bind_addr error %d\n", rc); DEBUG(0, (ibw_lasterr)); return rc; } DEBUG(10, ("rdma_bind_addr successful\n")); return 0; } int ibw_listen(struct ibw_ctx *ctx, int backlog) { struct ibw_ctx_priv *pctx = talloc_get_type(ctx->internal, struct ibw_ctx_priv); int rc; DEBUG(10, ("rdma_listen...\n")); rc = rdma_listen(pctx->cm_id, backlog); if (rc) { sprintf(ibw_lasterr, "rdma_listen failed: %d\n", rc); DEBUG(0, (ibw_lasterr)); return rc; } return 0; } int ibw_accept(struct ibw_ctx *ctx, struct ibw_conn *conn, void *conn_userdata) { struct ibw_conn_priv *pconn = talloc_get_type(conn->internal, struct ibw_conn_priv); struct rdma_conn_param conn_param; int rc; conn->conn_userdata = conn_userdata; memset(&conn_param, 0, sizeof(struct rdma_conn_param)); conn_param.responder_resources = 1; conn_param.initiator_depth = 1; rc = rdma_accept(pconn->cm_id, &conn_param); if (rc) { sprintf(ibw_lasterr, "rdma_accept failed %d\n", rc); DEBUG(0, (ibw_lasterr)); return -1;; } pconn->is_accepted = 1; /* continued at RDMA_CM_EVENT_ESTABLISHED */ return 0; } int ibw_connect(struct ibw_ctx *ctx, struct sockaddr_in *serv_addr, void *conn_userdata) { struct ibw_ctx_priv *pctx = talloc_get_type(ctx->internal, struct ibw_ctx_priv); struct ibw_conn *conn = NULL; struct ibw_conn_priv *pconn = NULL; int rc; conn = ibw_conn_new(ctx); conn->conn_userdata = conn_userdata; pconn = talloc_get_type(conn->internal, struct ibw_conn_priv); rc = rdma_create_id(pctx->cm_channel, &pconn->cm_id, conn, RDMA_PS_TCP); if (rc) { rc = errno; sprintf(ibw_lasterr, "rdma_create_id error %d\n", rc); return rc; } rc = rdma_resolve_addr(pconn->cm_id, NULL, (struct sockaddr *) &serv_addr, 2000); if (rc) { sprintf(ibw_lasterr, "rdma_resolve_addr error %d\n", rc); DEBUG(0, (ibw_lasterr)); return -1; } /* continued at RDMA_CM_EVENT_ADDR_RESOLVED */ return 0; } int ibw_disconnect(struct ibw_conn *conn) { int rc; struct ibw_ctx_priv *pctx = talloc_get_type(conn->ctx->internal, struct ibw_ctx_priv); rc = rdma_disconnect(pctx->cm_id); if (rc) { sprintf(ibw_lasterr, "ibw_disconnect failed with %d", rc); DEBUG(0, (ibw_lasterr)); return rc; } /* continued at RDMA_CM_EVENT_DISCONNECTED */ return 0; } int ibw_alloc_send_buf(struct ibw_conn *conn, void **buf, void **key, int n) { struct ibw_ctx_priv *pctx = talloc_get_type(conn->ctx->internal, struct ibw_ctx_priv); struct ibw_conn_priv *pconn = talloc_get_type(conn->internal, struct ibw_conn_priv); struct ibw_wr *p = pconn->wr_list_avail; if (p) { DLIST_REMOVE(pconn->wr_list_avail, p); DLIST_ADD(pconn->wr_list_used, p); if (n + sizeof(long) <= pctx->opts.avg_send_size) { *buf = (void *)(p->msg + sizeof(long)); } else { p->msg_large = ibw_alloc_mr(pctx, pconn, n + sizeof(long), &p->mr_large); if (!p->msg_large) { sprintf(ibw_lasterr, "ibw_alloc_mr#1 failed\n"); goto error; } *buf = (void *)(p->msg_large + sizeof(long)); } } else { /* not optimized */ p = pconn->queue_avail; if (!p) { p = pconn->queue_avail = talloc_zero(pconn, struct ibw_wr); if (p==NULL) { sprintf(ibw_lasterr, "talloc_zero failed (qmax: %u)", pconn->queue_max); goto error; } p->wr_id = pconn->queue_max + pctx->opts.max_send_wr; pconn->queue_max++; switch(pconn->queue_max) { case 1: DEBUG(2, ("warning: queue performed\n")); break; case 10: DEBUG(0, ("warning: queue reached 10\n")); break; case 100: DEBUG(0, ("warning: queue reached 100\n")); break; case 1000: DEBUG(0, ("warning: queue reached 1000\n")); break; default: break; } } DLIST_REMOVE(pconn->queue_avail, p); p->msg_large = ibw_alloc_mr(pctx, pconn, n + sizeof(long), &p->mr_large); if (!p->msg_large) { sprintf(ibw_lasterr, "ibw_alloc_mr#2 failed"); goto error; } *buf = (void *)(p->msg_large + sizeof(long)); } *key = (void *)p; return 0; error: DEBUG(0, ("ibw_alloc_send_buf error: %s\n", ibw_lasterr)); return -1; } int ibw_send(struct ibw_conn *conn, void *buf, void *key, int n) { struct ibw_ctx_priv *pctx = talloc_get_type(conn->ctx->internal, struct ibw_ctx_priv); struct ibw_conn_priv *pconn = talloc_get_type(conn->internal, struct ibw_conn_priv); struct ibw_wr *p = talloc_get_type(key, struct ibw_wr); if (p->msg!=NULL) { struct ibv_sge list = { .addr = (uintptr_t) NULL, .length = n, .lkey = 0 }; struct ibv_send_wr wr = { .wr_id = p->wr_id + pctx->opts.max_recv_wr, .sg_list = &list, .num_sge = 1, .opcode = IBV_WR_SEND, .send_flags = IBV_SEND_SIGNALED, }; struct ibv_send_wr *bad_wr; if (n + sizeof(uint32_t)<=pctx->opts.avg_send_size) { assert((p->msg + sizeof(long))==(char *)buf); list.lkey = pconn->mr_send->lkey; list.addr = (uintptr_t) p->msg; *((uint32_t *)p->msg) = htonl(n); } else { assert((p->msg_large + sizeof(long))==(char *)buf); assert(p->mr_large!=NULL); list.lkey = p->mr_large->lkey; list.addr = (uintptr_t) p->msg_large; *((uint32_t *)p->msg_large) = htonl(n); } return ibv_post_send(pconn->cm_id->qp, &wr, &bad_wr); } /* else: */ *((uint32_t *)p->msg_large) = htonl(n); /* to be sent by ibw_wc_send */ DLIST_ADD_END(pconn->queue, p, struct ibw_wr *); /* TODO: optimize */ return 0; } const char *ibw_getLastError(void) { return ibw_lasterr; }