/* -*- Mode: C; c-basic-offset:4 ; indent-tabs-mode:nil -*- */ /* * Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana * University Research and Technology * Corporation. All rights reserved. * Copyright (c) 2004-2014 The University of Tennessee and The University * of Tennessee Research Foundation. All rights * reserved. * Copyright (c) 2004-2005 High Performance Computing Center Stuttgart, * University of Stuttgart. All rights reserved. * Copyright (c) 2004-2005 The Regents of the University of California. * All rights reserved. * Copyright (c) 2006-2013 Cisco Systems, Inc. All rights reserved. * Copyright (c) 2006-2017 Los Alamos National Security, LLC. All rights * reserved. * Copyright (c) 2006-2007 Voltaire All rights reserved. * Copyright (c) 2006-2009 Mellanox Technologies, Inc. All rights reserved. * Copyright (c) 2010-2011 IBM Corporation. All rights reserved. * Copyright (c) 2010-2011 Oracle and/or its affiliates. All rights reserved * Copyright (c) 2013-2014 Intel, Inc. All rights reserved * Copyright (c) 2013-2015 NVIDIA Corporation. All rights reserved. * Copyright (c) 2014 Bull SAS. All rights reserved. * Copyright (c) 2015 Research Organization for Information Science * and Technology (RIST). All rights reserved. * * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #include "opal_config.h" #ifdef HAVE_SYS_TIME_H #include #endif #include #include #include #include "opal_stdint.h" #include "opal/util/output.h" #include "opal/util/proc.h" #include "opal/util/show_help.h" #include "opal/class/opal_free_list.h" #include "btl_openib_endpoint.h" #include "btl_openib_proc.h" #include "btl_openib_xrc.h" #include "btl_openib_async.h" #include "connect/connect.h" static void mca_btl_openib_endpoint_construct(mca_btl_base_endpoint_t* endpoint); static void mca_btl_openib_endpoint_destruct(mca_btl_base_endpoint_t* endpoint); static inline int acquire_wqe(mca_btl_openib_endpoint_t *ep, mca_btl_openib_send_frag_t *frag) { int qp = to_base_frag(frag)->base.order; int prio = !(to_base_frag(frag)->base.des_flags & MCA_BTL_DES_FLAGS_PRIORITY); if(qp_get_wqe(ep, qp) < 0) { qp_put_wqe(ep, qp); opal_list_append(&ep->qps[qp].no_wqe_pending_frags[prio], (opal_list_item_t *)frag); return OPAL_ERR_OUT_OF_RESOURCE; } return OPAL_SUCCESS; } /* this function is called with endpoint->endpoint_lock held */ int mca_btl_openib_endpoint_post_send(mca_btl_openib_endpoint_t *endpoint, mca_btl_openib_send_frag_t *frag) { int prio = to_base_frag(frag)->base.des_flags & MCA_BTL_DES_FLAGS_PRIORITY; mca_btl_openib_header_t *hdr = frag->hdr; mca_btl_base_descriptor_t *des = &to_base_frag(frag)->base; int qp, ib_rc, rc; bool do_rdma = false; size_t size; if(OPAL_LIKELY(des->order == MCA_BTL_NO_ORDER)) des->order = frag->qp_idx; qp = des->order; if(acquire_wqe(endpoint, frag) != OPAL_SUCCESS) return OPAL_ERR_RESOURCE_BUSY; size = des->des_segments->seg_len + frag->coalesced_length; rc = mca_btl_openib_endpoint_credit_acquire (endpoint, qp, prio, size, &do_rdma, frag, true); if (OPAL_UNLIKELY(OPAL_SUCCESS != rc)) { qp_put_wqe(endpoint, qp); return OPAL_ERR_RESOURCE_BUSY; } qp_reset_signal_count(endpoint, qp); ib_rc = post_send(endpoint, frag, do_rdma, 1); if(!ib_rc) return OPAL_SUCCESS; if(endpoint->nbo) BTL_OPENIB_HEADER_NTOH(*hdr); mca_btl_openib_endpoint_credit_release (endpoint, qp, do_rdma, frag); qp_put_wqe(endpoint, qp); BTL_ERROR(("error posting send request error %d: %s. size = %lu\n", ib_rc, strerror(ib_rc), size)); return OPAL_ERROR; } OBJ_CLASS_INSTANCE(mca_btl_openib_endpoint_t, opal_list_item_t, mca_btl_openib_endpoint_construct, mca_btl_openib_endpoint_destruct); /* * Initialize state of the endpoint instance. * */ static mca_btl_openib_qp_t *endpoint_alloc_qp(void) { mca_btl_openib_qp_t *qp = (mca_btl_openib_qp_t *) calloc(1, sizeof(mca_btl_openib_qp_t)); if(!qp) { BTL_ERROR(("Failed to allocate memory for qp")); return NULL; } OBJ_CONSTRUCT(&qp->lock, opal_mutex_t); return qp; } static void endpoint_init_qp_pp(mca_btl_openib_endpoint_qp_t *ep_qp, const int qp) { mca_btl_openib_qp_info_t *qp_info = &mca_btl_openib_component.qp_infos[qp]; ep_qp->qp = endpoint_alloc_qp(); ep_qp->qp->users++; /* local credits are set here such that on initial posting * of the receive buffers we end up with zero credits to return * to our peer. The peer initializes his sd_credits to reflect this * below. Note that this may be a problem for iWARP as the sender * now has credits even if the receive buffers are not yet posted */ ep_qp->u.pp_qp.rd_credits = -qp_info->rd_num; ep_qp->u.pp_qp.rd_posted = 0; ep_qp->u.pp_qp.cm_sent = 0; ep_qp->u.pp_qp.cm_return = -qp_info->u.pp_qp.rd_rsv; ep_qp->u.pp_qp.cm_received = qp_info->u.pp_qp.rd_rsv; /* initialize the local view of credits */ ep_qp->u.pp_qp.sd_credits = qp_info->rd_num; /* number of available send WQEs */ ep_qp->qp->sd_wqe = qp_info->rd_num; } static void endpoint_init_qp_srq(mca_btl_openib_endpoint_qp_t *ep_qp, const int qp) { ep_qp->qp = endpoint_alloc_qp(); ep_qp->qp->users++; /* number of available send WQEs */ ep_qp->qp->sd_wqe = mca_btl_openib_component.qp_infos[qp].u.srq_qp.sd_max; } static void endpoint_init_qp_xrc(mca_btl_base_endpoint_t *ep, const int qp) { int max = ep->endpoint_btl->device->ib_dev_attr.max_qp_wr - (mca_btl_openib_component.use_eager_rdma ? mca_btl_openib_component.max_eager_rdma : 0); mca_btl_openib_endpoint_qp_t *ep_qp = &ep->qps[qp]; int32_t wqe, incr = mca_btl_openib_component.qp_infos[qp].u.srq_qp.sd_max; int rc; opal_mutex_lock (&ep->ib_addr->addr_lock); ep_qp->qp = ep->ib_addr->qp; if (ep->ib_addr->max_wqe + incr > max) { /* make sure that we don't overrun maximum supported by device */ incr = max - ep->ib_addr->max_wqe; } wqe = ep->ib_addr->max_wqe + incr + (mca_btl_openib_component.use_eager_rdma ? mca_btl_openib_component.max_eager_rdma : 0); ep->ib_addr->max_wqe += incr; if (NULL != ep_qp->qp->lcl_qp) { struct ibv_qp_attr qp_attr; /* if this is modified the code in udcm_xrc_send_qp_create may * need to be updated as well */ qp_attr.cap.max_recv_wr = 0; qp_attr.cap.max_send_wr = wqe; qp_attr.cap.max_inline_data = ep->endpoint_btl->device->max_inline_data; qp_attr.cap.max_send_sge = 1; qp_attr.cap.max_recv_sge = 1; /* we do not use SG list */ rc = ibv_modify_qp (ep_qp->qp->lcl_qp, &qp_attr, IBV_QP_CAP); if (0 == rc) { opal_atomic_add_fetch_32 (&ep_qp->qp->sd_wqe, incr); } } else { ep_qp->qp->sd_wqe = ep->ib_addr->max_wqe; } ep_qp->qp->users++; opal_mutex_unlock (&ep->ib_addr->addr_lock); } static void endpoint_init_qp(mca_btl_base_endpoint_t *ep, const int qp) { mca_btl_openib_endpoint_qp_t *ep_qp = &ep->qps[qp]; ep_qp->rd_credit_send_lock = 0; ep_qp->credit_frag = NULL; OBJ_CONSTRUCT(&ep_qp->no_wqe_pending_frags[0], opal_list_t); OBJ_CONSTRUCT(&ep_qp->no_wqe_pending_frags[1], opal_list_t); OBJ_CONSTRUCT(&ep_qp->no_credits_pending_frags[0], opal_list_t); OBJ_CONSTRUCT(&ep_qp->no_credits_pending_frags[1], opal_list_t); switch(BTL_OPENIB_QP_TYPE(qp)) { case MCA_BTL_OPENIB_PP_QP: endpoint_init_qp_pp(ep_qp, qp); break; case MCA_BTL_OPENIB_SRQ_QP: endpoint_init_qp_srq(ep_qp, qp); break; case MCA_BTL_OPENIB_XRC_QP: if (NULL == ep->ib_addr->qp) { ep->ib_addr->qp = endpoint_alloc_qp(); } endpoint_init_qp_xrc(ep, qp); break; default: BTL_ERROR(("Wrong QP type")); return; } ep_qp->qp->sd_wqe_inflight = 0; ep_qp->qp->wqe_count = QP_TX_BATCH_COUNT; } void mca_btl_openib_endpoint_init(mca_btl_openib_module_t *btl, mca_btl_base_endpoint_t *ep, opal_btl_openib_connect_base_module_t *local_cpc, mca_btl_openib_proc_modex_t *remote_proc_info, opal_btl_openib_connect_base_module_data_t *remote_cpc_data) { int qp; ep->endpoint_btl = btl; ep->use_eager_rdma = btl->device->use_eager_rdma & mca_btl_openib_component.use_eager_rdma; ep->subnet_id = btl->port_info.subnet_id; ep->endpoint_local_cpc = local_cpc; ep->endpoint_remote_cpc_data = remote_cpc_data; ep->rem_info.rem_lid = remote_proc_info->pm_port_info.lid; ep->rem_info.rem_subnet_id = remote_proc_info->pm_port_info.subnet_id; ep->rem_info.rem_mtu = remote_proc_info->pm_port_info.mtu; opal_output(-1, "Got remote LID, subnet, MTU: %d, 0x%" PRIx64 ", %d", ep->rem_info.rem_lid, ep->rem_info.rem_subnet_id, ep->rem_info.rem_mtu); ep->rem_info.rem_vendor_id = (remote_proc_info->pm_port_info).vendor_id; ep->rem_info.rem_vendor_part_id = (remote_proc_info->pm_port_info).vendor_part_id; ep->rem_info.rem_transport_type = (mca_btl_openib_transport_type_t) (remote_proc_info->pm_port_info).transport_type; for (qp = 0; qp < mca_btl_openib_component.num_qps; qp++) { endpoint_init_qp(ep, qp); } } static void mca_btl_openib_endpoint_construct(mca_btl_base_endpoint_t* endpoint) { /* setup qp structures */ endpoint->qps = (mca_btl_openib_endpoint_qp_t*) calloc(mca_btl_openib_component.num_qps, sizeof(mca_btl_openib_endpoint_qp_t)); if (MCA_BTL_XRC_ENABLED) { endpoint->rem_info.rem_qps = (mca_btl_openib_rem_qp_info_t*) calloc(1, sizeof(mca_btl_openib_rem_qp_info_t)); endpoint->rem_info.rem_srqs = (mca_btl_openib_rem_srq_info_t*) calloc(mca_btl_openib_component.num_xrc_qps, sizeof(mca_btl_openib_rem_srq_info_t)); } else { endpoint->rem_info.rem_qps = (mca_btl_openib_rem_qp_info_t*) calloc(mca_btl_openib_component.num_qps, sizeof(mca_btl_openib_rem_qp_info_t)); endpoint->rem_info.rem_srqs = NULL; } endpoint->ib_addr = NULL; #if OPAL_HAVE_CONNECTX_XRC_DOMAINS endpoint->xrc_recv_qp = NULL; #else endpoint->xrc_recv_qp_num = 0; #endif endpoint->endpoint_btl = 0; endpoint->endpoint_proc = 0; endpoint->endpoint_local_cpc = NULL; endpoint->endpoint_remote_cpc_data = NULL; endpoint->endpoint_initiator = false; endpoint->endpoint_tstamp = 0.0; endpoint->endpoint_state = MCA_BTL_IB_CLOSED; endpoint->endpoint_retries = 0; OBJ_CONSTRUCT(&endpoint->endpoint_lock, opal_mutex_t); OBJ_CONSTRUCT(&endpoint->pending_lazy_frags, opal_list_t); OBJ_CONSTRUCT(&endpoint->pending_get_frags, opal_list_t); OBJ_CONSTRUCT(&endpoint->pending_put_frags, opal_list_t); endpoint->get_tokens = mca_btl_openib_component.ib_qp_ous_rd_atom; /* initialize RDMA eager related parts */ endpoint->eager_recv_count = 0; memset(&endpoint->eager_rdma_remote, 0, sizeof(mca_btl_openib_eager_rdma_remote_t)); memset(&endpoint->eager_rdma_local, 0, sizeof(mca_btl_openib_eager_rdma_local_t)); OBJ_CONSTRUCT(&endpoint->eager_rdma_local.lock, opal_mutex_t); endpoint->rem_info.rem_lid = 0; endpoint->rem_info.rem_subnet_id = 0; endpoint->rem_info.rem_mtu = 0; endpoint->nbo = false; endpoint->use_eager_rdma = false; endpoint->eager_rdma_remote.tokens = 0; endpoint->eager_rdma_local.credits = 0; endpoint->endpoint_cts_mr = NULL; endpoint->endpoint_cts_frag.super.super.base.super.registration = NULL; endpoint->endpoint_cts_frag.super.super.base.super.ptr = NULL; endpoint->endpoint_posted_recvs = false; endpoint->endpoint_cts_received = false; endpoint->endpoint_cts_sent = false; } /* * Destroy a endpoint * */ static void mca_btl_openib_endpoint_destruct(mca_btl_base_endpoint_t* endpoint) { bool pval_clean = false; int qp; /* If the CPC has an endpoint_finalize function, call it */ if (NULL != endpoint->endpoint_local_cpc->cbm_endpoint_finalize) { endpoint->endpoint_local_cpc->cbm_endpoint_finalize(endpoint); } /* Release CTS buffer */ opal_btl_openib_connect_base_free_cts(endpoint); /* Release memory resources */ do { void *_tmp_ptr = NULL; /* Make sure that mca_btl_openib_endpoint_connect_eager_rdma () * was not in "connect" or "bad" flow (failed to allocate memory) * and changed the pointer back to NULL */ if(!opal_atomic_compare_exchange_strong_ptr(&endpoint->eager_rdma_local.base.pval, (void *) &_tmp_ptr, (void *) 1)) { if (NULL != endpoint->eager_rdma_local.reg) { endpoint->endpoint_btl->device->rcache->rcache_deregister (endpoint->endpoint_btl->device->rcache, &endpoint->eager_rdma_local.reg->base); endpoint->eager_rdma_local.reg = NULL; } void *alloc_base = opal_atomic_swap_ptr (&endpoint->eager_rdma_local.alloc_base, NULL); if (alloc_base) { endpoint->endpoint_btl->super.btl_mpool->mpool_free (endpoint->endpoint_btl->super.btl_mpool, alloc_base); pval_clean = true; } } else { pval_clean=true; } } while (!pval_clean); /* Close opened QPs if we have them*/ for(qp = 0; qp < mca_btl_openib_component.num_qps; qp++) { MCA_BTL_OPENIB_CLEAN_PENDING_FRAGS(&endpoint->qps[qp].no_credits_pending_frags[0]); MCA_BTL_OPENIB_CLEAN_PENDING_FRAGS(&endpoint->qps[qp].no_credits_pending_frags[1]); OBJ_DESTRUCT(&endpoint->qps[qp].no_credits_pending_frags[0]); OBJ_DESTRUCT(&endpoint->qps[qp].no_credits_pending_frags[1]); MCA_BTL_OPENIB_CLEAN_PENDING_FRAGS( &endpoint->qps[qp].no_wqe_pending_frags[0]); MCA_BTL_OPENIB_CLEAN_PENDING_FRAGS( &endpoint->qps[qp].no_wqe_pending_frags[1]); OBJ_DESTRUCT(&endpoint->qps[qp].no_wqe_pending_frags[0]); OBJ_DESTRUCT(&endpoint->qps[qp].no_wqe_pending_frags[1]); if(--endpoint->qps[qp].qp->users != 0) continue; if(endpoint->qps[qp].qp->lcl_qp != NULL) if(ibv_destroy_qp(endpoint->qps[qp].qp->lcl_qp)) BTL_ERROR(("Failed to destroy QP:%d\n", qp)); free(endpoint->qps[qp].qp); } /* free the qps */ free(endpoint->qps); endpoint->qps = NULL; free(endpoint->rem_info.rem_qps); free(endpoint->rem_info.rem_srqs); /* unregister xrc recv qp */ #if HAVE_XRC #if OPAL_HAVE_CONNECTX_XRC_DOMAINS if (NULL != endpoint->xrc_recv_qp) { if(ibv_destroy_qp(endpoint->xrc_recv_qp)) { BTL_ERROR(("Failed to unregister XRC recv QP:%d\n", endpoint->xrc_recv_qp->qp_num)); } else { BTL_VERBOSE(("Unregistered XRC Recv QP:%d\n", endpoint->xrc_recv_qp->qp_num)); } } #else if (0 != endpoint->xrc_recv_qp_num) { if(ibv_unreg_xrc_rcv_qp(endpoint->endpoint_btl->device->xrc_domain, endpoint->xrc_recv_qp_num)) { BTL_ERROR(("Failed to unregister XRC recv QP:%d\n", endpoint->xrc_recv_qp_num)); } else { BTL_VERBOSE(("Unregistered XRC Recv QP:%d\n", endpoint->xrc_recv_qp_num)); } } #endif #endif OBJ_DESTRUCT(&endpoint->endpoint_lock); /* Clean pending lists */ MCA_BTL_OPENIB_CLEAN_PENDING_FRAGS(&endpoint->pending_lazy_frags); OBJ_DESTRUCT(&endpoint->pending_lazy_frags); MCA_BTL_OPENIB_CLEAN_PENDING_FRAGS(&endpoint->pending_get_frags); OBJ_DESTRUCT(&endpoint->pending_get_frags); MCA_BTL_OPENIB_CLEAN_PENDING_FRAGS(&endpoint->pending_put_frags); OBJ_DESTRUCT(&endpoint->pending_put_frags); } /* * Called when the connect module has created all the qp's on an * endpoint and needs to have some receive buffers posted. */ int mca_btl_openib_endpoint_post_recvs(mca_btl_openib_endpoint_t *endpoint) { int qp; for (qp = 0; qp < mca_btl_openib_component.num_qps; ++qp) { if (BTL_OPENIB_QP_TYPE_PP(qp)) { mca_btl_openib_endpoint_post_rr_nolock(endpoint, qp); } else { mca_btl_openib_post_srr(endpoint->endpoint_btl, qp); } } return OPAL_SUCCESS; } static void cts_sent(mca_btl_base_module_t* btl, struct mca_btl_base_endpoint_t* ep, struct mca_btl_base_descriptor_t* des, int status) { /* Nothing to do/empty function (we can't pass in a NULL pointer for the des_cbfunc) */ OPAL_OUTPUT((-1, "CTS send to %s completed", opal_get_proc_hostname(ep->endpoint_proc->proc_opal))); } /* * Send CTS control fragment */ void mca_btl_openib_endpoint_send_cts(mca_btl_openib_endpoint_t *endpoint) { mca_btl_openib_send_control_frag_t *sc_frag; mca_btl_base_descriptor_t *base_des; mca_btl_openib_frag_t *openib_frag; mca_btl_openib_com_frag_t *com_frag; mca_btl_openib_control_header_t *ctl_hdr; OPAL_OUTPUT((-1, "SENDING CTS to %s on qp index %d (QP num %d)", opal_get_proc_hostname(endpoint->endpoint_proc->proc_opal), mca_btl_openib_component.credits_qp, endpoint->qps[mca_btl_openib_component.credits_qp].qp->lcl_qp->qp_num)); sc_frag = alloc_control_frag(endpoint->endpoint_btl); if (OPAL_UNLIKELY(NULL == sc_frag)) { BTL_ERROR(("Failed to allocate control buffer")); mca_btl_openib_endpoint_invoke_error(endpoint); return; } /* I dislike using the "to_()" macros; I prefer using the explicit member fields to ensure I get the types right. Since this is not a performance-criticial part of the code, it's ok. */ com_frag = &(sc_frag->super.super); openib_frag = &(com_frag->super); base_des = &(openib_frag->base); base_des->des_cbfunc = cts_sent; base_des->des_cbdata = NULL; base_des->des_flags |= MCA_BTL_DES_FLAGS_PRIORITY|MCA_BTL_DES_SEND_ALWAYS_CALLBACK; base_des->order = mca_btl_openib_component.credits_qp; openib_frag->segment.seg_len = sizeof(mca_btl_openib_control_header_t); com_frag->endpoint = endpoint; sc_frag->hdr->tag = MCA_BTL_TAG_IB; sc_frag->hdr->cm_seen = 0; sc_frag->hdr->credits = 0; ctl_hdr = (mca_btl_openib_control_header_t*) openib_frag->segment.seg_addr.pval; ctl_hdr->type = MCA_BTL_OPENIB_CONTROL_CTS; /* Send the fragment */ if (OPAL_SUCCESS != mca_btl_openib_endpoint_post_send(endpoint, sc_frag)) { BTL_ERROR(("Failed to post CTS send")); mca_btl_openib_endpoint_invoke_error(endpoint); } endpoint->endpoint_cts_sent = true; } /* * Called when the CPC has established a connection on an endpoint */ void mca_btl_openib_endpoint_cpc_complete(mca_btl_openib_endpoint_t *endpoint) { /* If the CPC uses the CTS protocol, then start it up */ if (endpoint->endpoint_local_cpc->cbm_uses_cts) { int transport_type_ib_p = 0; /* Post our receives, which will make credit management happy (i.e., rd_credits will be 0) */ if (OPAL_SUCCESS != mca_btl_openib_endpoint_post_recvs(endpoint)) { BTL_ERROR(("Failed to post receive buffers")); mca_btl_openib_endpoint_invoke_error(endpoint); return; } endpoint->endpoint_posted_recvs = true; /* If this is IB, send the CTS immediately. If this is iWARP, then only send the CTS if this endpoint was the initiator of the connection (the receiver will send its CTS when it receives this side's CTS). Also send the CTS if we already received the peer's CTS (e.g., if this process was slow to call cpc_complete(). */ #if defined(HAVE_STRUCT_IBV_DEVICE_TRANSPORT_TYPE) transport_type_ib_p = (IBV_TRANSPORT_IB == endpoint->endpoint_btl->device->ib_dev->transport_type); #endif OPAL_OUTPUT((-1, "cpc_complete to peer %s: is IB %d, initiatior %d, cts received: %d", opal_get_proc_hostname(endpoint->endpoint_proc->proc_opal), transport_type_ib_p, endpoint->endpoint_initiator, endpoint->endpoint_cts_received)); if (transport_type_ib_p || endpoint->endpoint_initiator || endpoint->endpoint_cts_received) { mca_btl_openib_endpoint_send_cts(endpoint); /* If we've already got the CTS from the other side, then mark us as connected */ if (endpoint->endpoint_cts_received) { OPAL_OUTPUT((-1, "cpc_complete to %s -- already got CTS, so marking endpoint as complete", opal_get_proc_hostname(endpoint->endpoint_proc->proc_opal))); mca_btl_openib_endpoint_connected(endpoint); } else { /* the caller hold the lock and expects us to drop it */ OPAL_THREAD_UNLOCK(&endpoint->endpoint_lock); } } OPAL_OUTPUT((-1, "cpc_complete to %s -- done", opal_get_proc_hostname(endpoint->endpoint_proc->proc_opal))); return; } /* Otherwise, just set the endpoint to "connected" */ mca_btl_openib_endpoint_connected(endpoint); } /* * called when the connect module has completed setup of an endpoint */ void mca_btl_openib_endpoint_connected(mca_btl_openib_endpoint_t *endpoint) { opal_list_item_t *frag_item, *ep_item; mca_btl_openib_send_frag_t *frag; mca_btl_openib_endpoint_t *ep; bool master = false; opal_output(-1, "Now we are CONNECTED"); if (MCA_BTL_XRC_ENABLED) { opal_mutex_lock (&endpoint->ib_addr->addr_lock); if (MCA_BTL_IB_ADDR_CONNECTED == endpoint->ib_addr->status) { /* We are not xrc master */ /* set our qp pointer to master qp */ master = false; } else { /* I'm master of XRC */ endpoint->ib_addr->status = MCA_BTL_IB_ADDR_CONNECTED; master = true; } } /* Run over all qps and load alternative path */ if (APM_ENABLED) { int i; if (MCA_BTL_XRC_ENABLED) { if (master) { mca_btl_openib_load_apm(endpoint->ib_addr->qp->lcl_qp, endpoint); } } else { for(i = 0; i < mca_btl_openib_component.num_qps; i++) { mca_btl_openib_load_apm(endpoint->qps[i].qp->lcl_qp, endpoint); } } } endpoint->endpoint_state = MCA_BTL_IB_CONNECTED; endpoint->endpoint_btl->device->non_eager_rdma_endpoints++; if(MCA_BTL_XRC_ENABLED) { if (master) { while (NULL != (ep_item = opal_list_remove_first(&endpoint->ib_addr->pending_ep))) { ep = (mca_btl_openib_endpoint_t *)ep_item; if (OPAL_SUCCESS != opal_btl_openib_connect_base_start(endpoint->endpoint_local_cpc, ep)) { BTL_ERROR(("Failed to connect pending endpoint\n")); } } } opal_mutex_unlock (&endpoint->ib_addr->addr_lock); } /* Process pending packet on the endpoint */ /* While there are frags in the list, process them */ while (NULL != (frag_item = opal_list_remove_first(&(endpoint->pending_lazy_frags)))) { frag = to_send_frag(frag_item); /* We need to post this one */ if (OPAL_ERROR == mca_btl_openib_endpoint_post_send(endpoint, frag)) { BTL_ERROR(("Error posting send")); } } OPAL_THREAD_UNLOCK(&endpoint->endpoint_lock); /* if upper layer called put or get before connection moved to connected * state then we restart them here */ mca_btl_openib_frag_progress_pending_put_get(endpoint, mca_btl_openib_component.rdma_qp); } /* * Attempt to send a fragment using a given endpoint. If the endpoint is not * connected, queue the fragment and start the connection as required. */ int mca_btl_openib_endpoint_send(mca_btl_base_endpoint_t* ep, mca_btl_openib_send_frag_t* frag) { int rc; OPAL_THREAD_LOCK(&ep->endpoint_lock); rc = check_endpoint_state(ep, &to_base_frag(frag)->base, &ep->pending_lazy_frags); if(OPAL_LIKELY(OPAL_SUCCESS == rc)) { rc = mca_btl_openib_endpoint_post_send(ep, frag); } OPAL_THREAD_UNLOCK(&ep->endpoint_lock); if (OPAL_UNLIKELY(OPAL_ERR_RESOURCE_BUSY == rc)) { rc = OPAL_SUCCESS; } return rc; } /** * Return control fragment. */ static void mca_btl_openib_endpoint_credits( mca_btl_base_module_t* btl, struct mca_btl_base_endpoint_t* ep, struct mca_btl_base_descriptor_t* des, int status) { int qp; mca_btl_openib_send_control_frag_t *frag = to_send_control_frag(des); qp = frag->qp_idx; /* we don't acquire a WQE for credit message - so decrement. * Note: doing it for QP used for credit management */ (void) qp_get_wqe(ep, des->order); if(check_send_credits(ep, qp) || check_eager_rdma_credits(ep)) mca_btl_openib_endpoint_send_credits(ep, qp); else { BTL_OPENIB_CREDITS_SEND_UNLOCK(ep, qp); /* check one more time if credits are available after unlock */ send_credits(ep, qp); } } /** * Return credits to peer */ void mca_btl_openib_endpoint_send_credits(mca_btl_openib_endpoint_t* endpoint, const int qp) { mca_btl_openib_module_t* openib_btl = endpoint->endpoint_btl; mca_btl_openib_send_control_frag_t* frag; mca_btl_openib_rdma_credits_header_t *credits_hdr; int rc; bool do_rdma = false; int32_t cm_return; frag = endpoint->qps[qp].credit_frag; if(OPAL_UNLIKELY(NULL == frag)) { frag = alloc_control_frag(openib_btl); frag->qp_idx = qp; endpoint->qps[qp].credit_frag = frag; /* set those once and forever */ to_base_frag(frag)->base.order = mca_btl_openib_component.credits_qp; to_base_frag(frag)->base.des_cbfunc = mca_btl_openib_endpoint_credits; to_base_frag(frag)->base.des_cbdata = NULL; to_base_frag(frag)->base.des_flags |= MCA_BTL_DES_SEND_ALWAYS_CALLBACK;; to_com_frag(frag)->endpoint = endpoint; frag->hdr->tag = MCA_BTL_TAG_IB; to_base_frag(frag)->segment.seg_len = sizeof(mca_btl_openib_rdma_credits_header_t); } assert(frag->qp_idx == qp); credits_hdr = (mca_btl_openib_rdma_credits_header_t*) to_base_frag(frag)->segment.seg_addr.pval; if(OPAL_SUCCESS == acquire_eager_rdma_send_credit(endpoint)) { do_rdma = true; } else { if(OPAL_THREAD_ADD_FETCH32(&endpoint->qps[qp].u.pp_qp.cm_sent, 1) > (mca_btl_openib_component.qp_infos[qp].u.pp_qp.rd_rsv - 1)) { OPAL_THREAD_ADD_FETCH32(&endpoint->qps[qp].u.pp_qp.cm_sent, -1); BTL_OPENIB_CREDITS_SEND_UNLOCK(endpoint, qp); return; } } BTL_OPENIB_GET_CREDITS(endpoint->qps[qp].u.pp_qp.rd_credits, frag->hdr->credits); frag->hdr->cm_seen = 0; BTL_OPENIB_GET_CREDITS(endpoint->qps[qp].u.pp_qp.cm_return, cm_return); if(cm_return > 255) { frag->hdr->cm_seen = 255; cm_return -= 255; OPAL_THREAD_ADD_FETCH32(&endpoint->qps[qp].u.pp_qp.cm_return, cm_return); } else { frag->hdr->cm_seen = cm_return; } BTL_OPENIB_GET_CREDITS(endpoint->eager_rdma_local.credits, credits_hdr->rdma_credits); credits_hdr->qpn = qp; credits_hdr->control.type = MCA_BTL_OPENIB_CONTROL_CREDITS; if(endpoint->nbo) BTL_OPENIB_RDMA_CREDITS_HEADER_HTON(*credits_hdr); qp_reset_signal_count(endpoint, qp); if((rc = post_send(endpoint, frag, do_rdma, 1)) == 0) return; if(endpoint->nbo) { BTL_OPENIB_HEADER_NTOH(*frag->hdr); BTL_OPENIB_RDMA_CREDITS_HEADER_NTOH(*credits_hdr); } BTL_OPENIB_CREDITS_SEND_UNLOCK(endpoint, qp); OPAL_THREAD_ADD_FETCH32(&endpoint->qps[qp].u.pp_qp.rd_credits, frag->hdr->credits); OPAL_THREAD_ADD_FETCH32(&endpoint->eager_rdma_local.credits, credits_hdr->rdma_credits); if(do_rdma) OPAL_THREAD_ADD_FETCH32(&endpoint->eager_rdma_remote.tokens, 1); else OPAL_THREAD_ADD_FETCH32(&endpoint->qps[qp].u.pp_qp.cm_sent, -1); BTL_ERROR(("error posting send request errno %d says %s", rc, strerror(errno))); } /* local callback function for completion of eager rdma connect */ static void mca_btl_openib_endpoint_eager_rdma_connect_cb( mca_btl_base_module_t* btl, struct mca_btl_base_endpoint_t* endpoint, struct mca_btl_base_descriptor_t* descriptor, int status) { mca_btl_openib_device_t *device = endpoint->endpoint_btl->device; OPAL_THREAD_ADD_FETCH32(&device->non_eager_rdma_endpoints, -1); assert(device->non_eager_rdma_endpoints >= 0); MCA_BTL_IB_FRAG_RETURN(descriptor); } /* send the eager rdma connect message to the remote endpoint */ static int mca_btl_openib_endpoint_send_eager_rdma( mca_btl_base_endpoint_t* endpoint) { mca_btl_openib_module_t* openib_btl = endpoint->endpoint_btl; mca_btl_openib_eager_rdma_header_t *rdma_hdr; mca_btl_openib_send_control_frag_t* frag; int rc; frag = alloc_control_frag(openib_btl); if(NULL == frag) { return -1; } to_base_frag(frag)->base.des_cbfunc = mca_btl_openib_endpoint_eager_rdma_connect_cb; to_base_frag(frag)->base.des_cbdata = NULL; to_base_frag(frag)->base.des_flags |= MCA_BTL_DES_FLAGS_PRIORITY|MCA_BTL_DES_SEND_ALWAYS_CALLBACK; to_base_frag(frag)->base.order = mca_btl_openib_component.credits_qp; to_base_frag(frag)->segment.seg_len = sizeof(mca_btl_openib_eager_rdma_header_t); to_com_frag(frag)->endpoint = endpoint; frag->hdr->tag = MCA_BTL_TAG_IB; rdma_hdr = (mca_btl_openib_eager_rdma_header_t*)to_base_frag(frag)->segment.seg_addr.pval; rdma_hdr->control.type = MCA_BTL_OPENIB_CONTROL_RDMA; rdma_hdr->rkey = endpoint->eager_rdma_local.reg->mr->rkey; rdma_hdr->rdma_start.lval = opal_ptr_ptol(endpoint->eager_rdma_local.base.pval); BTL_VERBOSE(("sending rkey %" PRIu32 ", rdma_start.lval %" PRIx64 ", pval %p, ival %" PRIu32 " type %d and sizeof(rdma_hdr) %d\n", rdma_hdr->rkey, rdma_hdr->rdma_start.lval, rdma_hdr->rdma_start.pval, rdma_hdr->rdma_start.ival, rdma_hdr->control.type, (int) sizeof(mca_btl_openib_eager_rdma_header_t) )); if(endpoint->nbo) { BTL_OPENIB_EAGER_RDMA_CONTROL_HEADER_HTON((*rdma_hdr)); BTL_VERBOSE(("after HTON: sending rkey %" PRIu32 ", rdma_start.lval %" PRIx64 ", pval %p, ival %" PRIu32 "\n", rdma_hdr->rkey, rdma_hdr->rdma_start.lval, rdma_hdr->rdma_start.pval, rdma_hdr->rdma_start.ival )); } rc = mca_btl_openib_endpoint_send(endpoint, frag); if (OPAL_SUCCESS == rc || OPAL_ERR_RESOURCE_BUSY == rc) return OPAL_SUCCESS; MCA_BTL_IB_FRAG_RETURN(frag); BTL_ERROR(("Error sending RDMA buffer: %s", strerror(errno))); return rc; } /* Setup eager RDMA buffers and notify the remote endpoint*/ void mca_btl_openib_endpoint_connect_eager_rdma( mca_btl_openib_endpoint_t* endpoint) { mca_btl_openib_module_t* openib_btl = endpoint->endpoint_btl; char *buf, *alloc_base; mca_btl_openib_recv_frag_t *headers_buf; int i, rc; uint32_t flag = MCA_RCACHE_FLAGS_CACHE_BYPASS; void *_tmp_ptr = NULL; /* Set local rdma pointer to 1 temporarily so other threads will not try * to enter the function */ if(!opal_atomic_compare_exchange_strong_ptr (&endpoint->eager_rdma_local.base.pval, (void *) &_tmp_ptr, (void *) 1)) { return; } headers_buf = (mca_btl_openib_recv_frag_t*) malloc(sizeof(mca_btl_openib_recv_frag_t) * mca_btl_openib_component.eager_rdma_num); if(NULL == headers_buf) goto unlock_rdma_local; #if HAVE_DECL_IBV_ACCESS_SO /* Solaris implements the Relaxed Ordering feature defined in the PCI Specification. With this in mind any memory region which relies on a buffer being written in a specific order, for example the eager rdma connections created in this routinue, must set a strong order flag when registering the memory for rdma operations. The following flag will be interpreted and the appropriate steps will be taken when the memory is registered in openib_reg_mr(). */ flag |= MCA_RCACHE_FLAGS_SO_MEM; #endif alloc_base = buf = (char *) openib_btl->super.btl_mpool->mpool_alloc(openib_btl->super.btl_mpool, openib_btl->eager_rdma_frag_size * mca_btl_openib_component.eager_rdma_num, mca_btl_openib_component.buffer_alignment, 0); if(!buf) goto free_headers_buf; rc = openib_btl->device->rcache->rcache_register (openib_btl->device->rcache, buf, openib_btl->eager_rdma_frag_size * mca_btl_openib_component.eager_rdma_num, flag, MCA_RCACHE_ACCESS_ANY, (mca_rcache_base_registration_t**)&endpoint->eager_rdma_local.reg); if (OPAL_SUCCESS != rc) { openib_btl->super.btl_mpool->mpool_free (openib_btl->super.btl_mpool, alloc_base); goto free_headers_buf; } buf = buf + openib_btl->eager_rdma_frag_size - sizeof(mca_btl_openib_footer_t) - openib_btl->super.btl_eager_limit - sizeof(mca_btl_openib_header_t); for(i = 0; i < mca_btl_openib_component.eager_rdma_num; i++) { opal_free_list_item_t *item; mca_btl_openib_recv_frag_t * frag; mca_btl_openib_frag_init_data_t init_data; item = (opal_free_list_item_t*)&headers_buf[i]; item->registration = (mca_rcache_base_registration_t *)endpoint->eager_rdma_local.reg; item->ptr = buf + i * openib_btl->eager_rdma_frag_size; OBJ_CONSTRUCT(item, mca_btl_openib_recv_frag_t); init_data.order = mca_btl_openib_component.credits_qp; init_data.list = NULL; mca_btl_openib_frag_init(item, &init_data); frag = to_recv_frag(item); to_base_frag(frag)->type = MCA_BTL_OPENIB_FRAG_EAGER_RDMA; to_com_frag(frag)->endpoint = endpoint; frag->ftr = (mca_btl_openib_footer_t*) ((char*)to_base_frag(frag)->segment.seg_addr.pval + mca_btl_openib_component.eager_limit); MCA_BTL_OPENIB_RDMA_MAKE_REMOTE(frag->ftr); } endpoint->eager_rdma_local.frags = headers_buf; endpoint->eager_rdma_local.rd_win = mca_btl_openib_component.eager_rdma_num >> 2; endpoint->eager_rdma_local.rd_win = endpoint->eager_rdma_local.rd_win?endpoint->eager_rdma_local.rd_win:1; /* set local rdma pointer to real value */ endpoint->eager_rdma_local.base.pval = buf; endpoint->eager_rdma_local.alloc_base = alloc_base; if(mca_btl_openib_endpoint_send_eager_rdma(endpoint) == OPAL_SUCCESS) { mca_btl_openib_device_t *device = endpoint->endpoint_btl->device; mca_btl_openib_endpoint_t **p; void *_tmp_ptr; OBJ_RETAIN(endpoint); assert(((opal_object_t*)endpoint)->obj_reference_count == 2); do { _tmp_ptr = NULL; p = &device->eager_rdma_buffers[device->eager_rdma_buffers_count]; } while(!opal_atomic_compare_exchange_strong_ptr (p, (void *) &_tmp_ptr, endpoint)); OPAL_THREAD_ADD_FETCH32(&openib_btl->eager_rdma_channels, 1); /* from this point progress function starts to poll new buffer */ OPAL_THREAD_ADD_FETCH32(&device->eager_rdma_buffers_count, 1); return; } openib_btl->device->rcache->rcache_deregister (openib_btl->device->rcache, (mca_rcache_base_registration_t*)endpoint->eager_rdma_local.reg); openib_btl->super.btl_mpool->mpool_free(openib_btl->super.btl_mpool, buf); free_headers_buf: free(headers_buf); unlock_rdma_local: /* set local rdma pointer back to zero. Will retry later */ endpoint->eager_rdma_local.base.pval = NULL; endpoint->eager_rdma_local.frags = NULL; } /* * Invoke an error on the btl associated with an endpoint. If we * don't have an endpoint, then just use the first one on the * component list of BTLs. */ void *mca_btl_openib_endpoint_invoke_error(void *context) { mca_btl_openib_endpoint_t *endpoint = (mca_btl_openib_endpoint_t*) context; mca_btl_openib_module_t *btl = NULL; if (NULL == endpoint) { int i; for (i = 0; i < mca_btl_openib_component.ib_num_btls; ++i) { if (NULL != mca_btl_openib_component.openib_btls[i] && NULL != mca_btl_openib_component.openib_btls[i]->error_cb) { btl = mca_btl_openib_component.openib_btls[i]; break; } } } else { btl = endpoint->endpoint_btl; } /* If we didn't find a BTL, then just bail :-( */ if (NULL == btl || NULL == btl->error_cb) { opal_show_help("help-mpi-btl-openib.txt", "cannot raise btl error", true, opal_process_info.nodename, __FILE__, __LINE__); exit(1); } /* Invoke the callback to the upper layer */ btl->error_cb(&(btl->super), MCA_BTL_ERROR_FLAGS_FATAL, NULL, NULL); /* Will likely never get here */ return NULL; }