/* -*- Mode: C; c-basic-offset:4 ; indent-tabs-mode:nil -*- */ /* * Copyright (c) 2011-2018 Los Alamos National Security, LLC. All rights * reserved. * Copyright (c) 2011 UT-Battelle, LLC. All rights reserved. * Copyright (c) 2014-2016 Research Organization for Information Science * and Technology (RIST). All rights reserved. * Copyright (c) 2017 Intel, Inc. All rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #include "opal_config.h" #include "btl_ugni.h" #include "btl_ugni_frag.h" #include "btl_ugni_endpoint.h" #include "btl_ugni_prepare.h" #include "btl_ugni_smsg.h" static int mca_btl_ugni_free (struct mca_btl_base_module_t *btl, mca_btl_base_descriptor_t *des); static int mca_btl_ugni_module_finalize (struct mca_btl_base_module_t* btl); static struct mca_btl_base_descriptor_t * mca_btl_ugni_prepare_src (struct mca_btl_base_module_t *btl, struct mca_btl_base_endpoint_t *endpoint, struct opal_convertor_t *convertor, uint8_t order, size_t reserve, size_t *size, uint32_t flags); static mca_btl_base_registration_handle_t * mca_btl_ugni_register_mem (mca_btl_base_module_t *btl, mca_btl_base_endpoint_t *endpoint, void *base, size_t size, uint32_t flags); static int mca_btl_ugni_deregister_mem (mca_btl_base_module_t *btl, mca_btl_base_registration_handle_t *handle); mca_btl_ugni_module_t mca_btl_ugni_module = { .super = { .btl_component = &mca_btl_ugni_component.super, .btl_add_procs = mca_btl_ugni_add_procs, .btl_del_procs = mca_btl_ugni_del_procs, .btl_finalize = mca_btl_ugni_module_finalize, .btl_alloc = mca_btl_ugni_alloc, .btl_free = mca_btl_ugni_free, .btl_prepare_src = mca_btl_ugni_prepare_src, .btl_send = mca_btl_ugni_send, .btl_sendi = mca_btl_ugni_sendi, .btl_put = mca_btl_ugni_put, .btl_get = mca_btl_ugni_get, .btl_register_mem = mca_btl_ugni_register_mem, .btl_deregister_mem = mca_btl_ugni_deregister_mem, .btl_atomic_op = mca_btl_ugni_aop, .btl_atomic_fop = mca_btl_ugni_afop, .btl_atomic_cswap = mca_btl_ugni_acswap, .btl_flush = mca_btl_ugni_flush, } }; static void mca_btl_ugni_datagram_event (int foo, short bar, void *arg) { mca_btl_ugni_module_t *ugni_module = (mca_btl_ugni_module_t *) arg; mca_btl_ugni_device_t *device = ugni_module->devices; struct timeval tv = {.tv_sec = 0, .tv_usec = MCA_BTL_UGNI_CONNECT_USEC}; mca_btl_ugni_progress_datagram (device); opal_event_evtimer_add (&ugni_module->connection_event, &tv); } int mca_btl_ugni_module_init (mca_btl_ugni_module_t *ugni_module) { int rc; BTL_VERBOSE(("binding module %p to device 0", (void *) ugni_module)); /* copy module defaults (and function pointers) */ memmove (ugni_module, &mca_btl_ugni_module, sizeof (mca_btl_ugni_module)); ugni_module->initialized = false; ugni_module->nlocal_procs = 0; ugni_module->active_datagrams = 0; ugni_module->active_rdma_count = 0; opal_event_evtimer_set (opal_sync_event_base, &ugni_module->connection_event, mca_btl_ugni_datagram_event, ugni_module); OBJ_CONSTRUCT(&ugni_module->failed_frags, opal_list_t); OBJ_CONSTRUCT(&ugni_module->failed_frags_lock, opal_mutex_t); OBJ_CONSTRUCT(&ugni_module->eager_get_pending, opal_list_t); OBJ_CONSTRUCT(&ugni_module->eager_get_pending_lock,opal_mutex_t); for (int i = 0 ; i < MCA_BTL_UGNI_LIST_MAX ; ++i) { OBJ_CONSTRUCT(ugni_module->frags_lists + i, opal_free_list_t); } OBJ_CONSTRUCT(&ugni_module->pending_smsg_frags_bb, opal_pointer_array_t); OBJ_CONSTRUCT(&ugni_module->ep_wait_list_lock,opal_mutex_t); OBJ_CONSTRUCT(&ugni_module->ep_wait_list, opal_list_t); OBJ_CONSTRUCT(&ugni_module->endpoint_lock, opal_mutex_t); OBJ_CONSTRUCT(&ugni_module->endpoints, opal_pointer_array_t); OBJ_CONSTRUCT(&ugni_module->id_to_endpoint, opal_hash_table_t); OBJ_CONSTRUCT(&ugni_module->smsg_mboxes, opal_free_list_t); OBJ_CONSTRUCT(&ugni_module->eager_get_pending, opal_list_t); /* set up virtual device handles */ for (int i = 0 ; i < mca_btl_ugni_component.virtual_device_count ; ++i) { rc = mca_btl_ugni_device_init (ugni_module->devices + i, i); if (OPAL_UNLIKELY(OPAL_SUCCESS != rc)) { BTL_VERBOSE(("error initializing uGNI device handle")); return rc; } } /* create wildcard endpoint on first device to listen for connections. * there is no need to bind this endpoint. We are single threaded * here so there is no need for a device lock. */ rc = GNI_EpCreate (ugni_module->devices[0].dev_handle, NULL, &ugni_module->wildcard_ep); if (OPAL_UNLIKELY(OPAL_SUCCESS != rc)) { BTL_ERROR(("error creating wildcard ugni endpoint")); return mca_btl_rc_ugni_to_opal (rc); } /* post wildcard datagram */ rc = mca_btl_ugni_wildcard_ep_post (ugni_module); if (OPAL_UNLIKELY(OPAL_SUCCESS != rc)) { BTL_ERROR(("error posting wildcard datagram")); return rc; } return OPAL_SUCCESS; } static int mca_btl_ugni_module_finalize (struct mca_btl_base_module_t *btl) { mca_btl_ugni_module_t *ugni_module = (mca_btl_ugni_module_t *)btl; mca_btl_base_endpoint_t *ep; uint64_t key; int rc; if (ugni_module->initialized) { /* close all open connections and release endpoints */ OPAL_HASH_TABLE_FOREACH(key, uint64, ep, &ugni_module->id_to_endpoint) { if (NULL != ep) { mca_btl_ugni_release_ep (ep); } } if (mca_btl_ugni_component.progress_thread_enabled) { mca_btl_ugni_kill_progress_thread(); } /* destroy all cqs */ rc = GNI_CqDestroy (ugni_module->smsg_remote_cq); if (GNI_RC_SUCCESS != rc) { BTL_ERROR(("error tearing down RX SMSG CQ - %s",gni_err_str[rc])); } if (mca_btl_ugni_component.progress_thread_enabled) { rc = GNI_CqDestroy (ugni_module->smsg_remote_irq_cq); if (GNI_RC_SUCCESS != rc) { BTL_ERROR(("error tearing down remote SMSG CQ - %s",gni_err_str[rc])); } } /* cancel wildcard post */ rc = GNI_EpPostDataCancelById (ugni_module->wildcard_ep, MCA_BTL_UGNI_CONNECT_WILDCARD_ID | OPAL_PROC_MY_NAME.vpid); if (GNI_RC_SUCCESS != rc) { BTL_VERBOSE(("btl/ugni error cancelling wildcard post")); } /* tear down wildcard endpoint */ rc = GNI_EpDestroy (ugni_module->wildcard_ep); if (GNI_RC_SUCCESS != rc) { BTL_VERBOSE(("btl/ugni error destroying endpoint - %s",gni_err_str[rc])); } opal_event_del (&ugni_module->connection_event); } for (int i = 0 ; i < MCA_BTL_UGNI_LIST_MAX ; ++i) { OBJ_DESTRUCT(ugni_module->frags_lists + i); } OBJ_DESTRUCT(&ugni_module->ep_wait_list); OBJ_DESTRUCT(&ugni_module->smsg_mboxes); OBJ_DESTRUCT(&ugni_module->pending_smsg_frags_bb); OBJ_DESTRUCT(&ugni_module->id_to_endpoint); OBJ_DESTRUCT(&ugni_module->endpoint_lock); OBJ_DESTRUCT(&ugni_module->endpoints); OBJ_DESTRUCT(&ugni_module->eager_get_pending); OBJ_DESTRUCT(&ugni_module->eager_get_pending_lock); if (ugni_module->rcache) { mca_rcache_base_module_destroy (ugni_module->rcache); } for (int i = 0 ; i < mca_btl_ugni_component.virtual_device_count ; ++i) { mca_btl_ugni_device_fini (ugni_module->devices + i); } ugni_module->initialized = false; return OPAL_SUCCESS; } mca_btl_base_descriptor_t * mca_btl_ugni_alloc(struct mca_btl_base_module_t *btl, struct mca_btl_base_endpoint_t *endpoint, uint8_t order, size_t size, uint32_t flags) { mca_btl_ugni_base_frag_t *frag = NULL; /* do not allocate a fragment unless the wait list is relatively small. this * reduces the potential for resource exhaustion. note the wait list only exists * because we have no way to notify the sender that credits are available. */ if (OPAL_UNLIKELY(opal_list_get_size (&endpoint->frag_wait_list) > 32)) { return NULL; } if (size <= mca_btl_ugni_component.smsg_max_data) { frag = mca_btl_ugni_frag_alloc_smsg (endpoint); } else if (size <= btl->btl_eager_limit) { frag = mca_btl_ugni_frag_alloc_eager_send (endpoint); } if (OPAL_UNLIKELY(NULL == frag)) { return NULL; } BTL_VERBOSE(("btl/ugni_module allocated frag of size: %u, flags: %x. frag = %p", (unsigned int)size, flags, (void *) frag)); frag->base.des_flags = flags; frag->base.order = order; frag->base.des_segments = &frag->segments[1]; frag->base.des_segment_count = 1; frag->segments[0].seg_addr.pval = NULL; frag->segments[0].seg_len = 0; frag->segments[1].seg_addr.pval = frag->base.super.ptr; frag->segments[1].seg_len = size; frag->flags = MCA_BTL_UGNI_FRAG_BUFFERED; if (size > mca_btl_ugni_component.smsg_max_data) { mca_btl_ugni_reg_t *registration; frag->hdr_size = sizeof (frag->hdr.eager); frag->flags |= MCA_BTL_UGNI_FRAG_EAGER | MCA_BTL_UGNI_FRAG_IGNORE; registration = (mca_btl_ugni_reg_t *) frag->base.super.registration; frag->hdr.eager.memory_handle = registration->handle; } else { frag->hdr_size = sizeof (frag->hdr.send); } return &frag->base; } static int mca_btl_ugni_free (struct mca_btl_base_module_t *btl, mca_btl_base_descriptor_t *des) { return mca_btl_ugni_frag_return ((mca_btl_ugni_base_frag_t *) des); } static struct mca_btl_base_descriptor_t * mca_btl_ugni_prepare_src (struct mca_btl_base_module_t *btl, mca_btl_base_endpoint_t *endpoint, struct opal_convertor_t *convertor, uint8_t order, size_t reserve, size_t *size, uint32_t flags) { /* do not allocate a fragment unless the wait list is relatively small. this * reduces the potential for resource exhaustion. note the wait list only exists * because we have no way to notify the sender that credits are available. */ if (OPAL_UNLIKELY(opal_list_get_size (&endpoint->frag_wait_list) > 32)) { return NULL; } return mca_btl_ugni_prepare_src_send (btl, endpoint, convertor, order, reserve, size, flags); } static mca_btl_base_registration_handle_t * mca_btl_ugni_register_mem (mca_btl_base_module_t *btl, mca_btl_base_endpoint_t *endpoint, void *base, size_t size, uint32_t flags) { mca_btl_ugni_module_t *ugni_module = (mca_btl_ugni_module_t *) btl; mca_btl_ugni_reg_t *reg; int access_flags = flags & MCA_BTL_REG_FLAG_ACCESS_ANY; int rc; rc = ugni_module->rcache->rcache_register (ugni_module->rcache, base, size, 0, access_flags, (mca_rcache_base_registration_t **) ®); if (OPAL_UNLIKELY(OPAL_SUCCESS != rc)) { return NULL; } return ®->handle; } static int mca_btl_ugni_deregister_mem (mca_btl_base_module_t *btl, mca_btl_base_registration_handle_t *handle) { mca_btl_ugni_module_t *ugni_module = (mca_btl_ugni_module_t *) btl; mca_btl_ugni_reg_t *reg = (mca_btl_ugni_reg_t *)((intptr_t) handle - offsetof (mca_btl_ugni_reg_t, handle)); (void) ugni_module->rcache->rcache_deregister (ugni_module->rcache, ®->base); return OPAL_SUCCESS; } int mca_btl_ugni_event_fatal_error (gni_return_t grc, gni_cq_entry_t event_data) { /* combined error check for get event and get completed. we might miss exactly * what happened but it is unrecoverable anyway. fwiw, this error path has * never been seen in production. */ if (GNI_CQ_OVERRUN(event_data)) { /* TODO -- need to handle overrun -- how do we do this without an event? will the event eventually come back? Ask Cray */ BTL_ERROR(("CQ overrun detected in RDMA event data. can not recover")); } else { BTL_ERROR(("Error in GNI_GetComplete %s", gni_err_str[grc])); } return mca_btl_rc_ugni_to_opal (grc); } int mca_btl_ugni_device_handle_event_error (mca_btl_ugni_rdma_desc_t *rdma_desc, gni_cq_entry_t event_data) { mca_btl_ugni_device_t *device = rdma_desc->device; uint32_t recoverable = 1; (void) GNI_CqErrorRecoverable (event_data, &recoverable); if (OPAL_UNLIKELY(++rdma_desc->tries >= mca_btl_ugni_component.rdma_max_retries || !recoverable)) { char char_buffer[1024]; GNI_CqErrorStr (event_data, char_buffer, sizeof (char_buffer)); BTL_ERROR(("giving up on desciptor %p, recoverable %d: %s", (void *) rdma_desc, recoverable, char_buffer)); return OPAL_ERROR; } return _mca_btl_ugni_repost_rdma_desc_device (device, rdma_desc); }