/* StarPU --- Runtime system for heterogeneous multicore architectures. * * Copyright (C) 2010-2014 Université de Bordeaux 1 * Copyright (C) 2010, 2011, 2013 Centre National de la Recherche Scientifique * * StarPU is free software; you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2.1 of the License, or (at * your option) any later version. * * StarPU 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 Lesser General Public License in COPYING.LGPL for more details. */ #include #include #include #include #include #include #include #include "copy_driver.h" #include "memalloc.h" #include #include #include #include #ifdef STARPU_SIMGRID #include #include #endif void _starpu_wake_all_blocked_workers_on_node(unsigned nodeid) { /* wake up all workers on that memory node */ unsigned cond_id; struct _starpu_memory_node_descr * const descr = _starpu_memory_node_get_description(); STARPU_PTHREAD_RWLOCK_RDLOCK(&descr->conditions_rwlock); unsigned nconds = descr->condition_count[nodeid]; for (cond_id = 0; cond_id < nconds; cond_id++) { struct _starpu_cond_and_mutex *condition; condition = &descr->conditions_attached_to_node[nodeid][cond_id]; /* wake anybody waiting on that condition */ STARPU_PTHREAD_MUTEX_LOCK(condition->mutex); STARPU_PTHREAD_COND_BROADCAST(condition->cond); STARPU_PTHREAD_MUTEX_UNLOCK(condition->mutex); } STARPU_PTHREAD_RWLOCK_UNLOCK(&descr->conditions_rwlock); } void starpu_wake_all_blocked_workers(void) { /* workers may be blocked on the various queues' conditions */ unsigned cond_id; struct _starpu_memory_node_descr * const descr = _starpu_memory_node_get_description(); STARPU_PTHREAD_RWLOCK_RDLOCK(&descr->conditions_rwlock); unsigned nconds = descr->total_condition_count; for (cond_id = 0; cond_id < nconds; cond_id++) { struct _starpu_cond_and_mutex *condition; condition = &descr->conditions_all[cond_id]; /* wake anybody waiting on that condition */ STARPU_PTHREAD_MUTEX_LOCK(condition->mutex); STARPU_PTHREAD_COND_BROADCAST(condition->cond); STARPU_PTHREAD_MUTEX_UNLOCK(condition->mutex); } STARPU_PTHREAD_RWLOCK_UNLOCK(&descr->conditions_rwlock); } #ifdef STARPU_USE_FXT /* we need to identify each communication so that we can match the beginning * and the end of a communication in the trace, so we use a unique identifier * per communication */ static unsigned communication_cnt = 0; #endif static int copy_data_1_to_1_generic(starpu_data_handle_t handle, struct _starpu_data_replicate *src_replicate, struct _starpu_data_replicate *dst_replicate, struct _starpu_data_request *req) { unsigned src_node = src_replicate->memory_node; unsigned dst_node = dst_replicate->memory_node; STARPU_ASSERT(src_replicate->refcnt); STARPU_ASSERT(dst_replicate->refcnt); STARPU_ASSERT(src_replicate->allocated); STARPU_ASSERT(dst_replicate->allocated); _starpu_comm_amounts_inc(src_node, dst_node, handle->ops->get_size(handle)); #ifdef STARPU_SIMGRID return _starpu_simgrid_transfer(handle->ops->get_size(handle), src_node, dst_node, req); #else /* !SIMGRID */ int ret = 0; const struct starpu_data_copy_methods *copy_methods = handle->ops->copy_methods; enum starpu_node_kind src_kind = starpu_node_get_kind(src_node); enum starpu_node_kind dst_kind = starpu_node_get_kind(dst_node); #ifdef STARPU_USE_CUDA cudaError_t cures; cudaStream_t stream; #endif void *src_interface = src_replicate->data_interface; void *dst_interface = dst_replicate->data_interface; #if defined(STARPU_USE_CUDA) && defined(HAVE_CUDA_MEMCPY_PEER) if ((src_kind == STARPU_CUDA_RAM) || (dst_kind == STARPU_CUDA_RAM)) { int node = (dst_kind == STARPU_CUDA_RAM)?dst_node:src_node; starpu_cuda_set_device(_starpu_memory_node_get_devid(node)); } #endif switch (_STARPU_MEMORY_NODE_TUPLE(src_kind,dst_kind)) { case _STARPU_MEMORY_NODE_TUPLE(STARPU_CPU_RAM,STARPU_CPU_RAM): /* STARPU_CPU_RAM -> STARPU_CPU_RAM */ if (copy_methods->ram_to_ram) copy_methods->ram_to_ram(src_interface, src_node, dst_interface, dst_node); else copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, req ? &req->async_channel : NULL); break; #ifdef STARPU_USE_CUDA case _STARPU_MEMORY_NODE_TUPLE(STARPU_CUDA_RAM,STARPU_CPU_RAM): /* only the proper CUBLAS thread can initiate this directly ! */ #if !defined(HAVE_CUDA_MEMCPY_PEER) STARPU_ASSERT(_starpu_memory_node_get_local_key() == src_node); #endif if (!req || starpu_asynchronous_copy_disabled() || starpu_asynchronous_cuda_copy_disabled() || !(copy_methods->cuda_to_ram_async || copy_methods->any_to_any)) { /* this is not associated to a request so it's synchronous */ STARPU_ASSERT(copy_methods->cuda_to_ram || copy_methods->any_to_any); if (copy_methods->cuda_to_ram) copy_methods->cuda_to_ram(src_interface, src_node, dst_interface, dst_node); else copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, NULL); } else { req->async_channel.type = STARPU_CUDA_RAM; cures = cudaEventCreate(&req->async_channel.event.cuda_event); if (STARPU_UNLIKELY(cures != cudaSuccess)) STARPU_CUDA_REPORT_ERROR(cures); stream = starpu_cuda_get_out_transfer_stream(src_node); if (copy_methods->cuda_to_ram_async) ret = copy_methods->cuda_to_ram_async(src_interface, src_node, dst_interface, dst_node, stream); else { STARPU_ASSERT(copy_methods->any_to_any); ret = copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, &req->async_channel); } cures = cudaEventRecord(req->async_channel.event.cuda_event, stream); if (STARPU_UNLIKELY(cures != cudaSuccess)) STARPU_CUDA_REPORT_ERROR(cures); } break; case _STARPU_MEMORY_NODE_TUPLE(STARPU_CPU_RAM,STARPU_CUDA_RAM): /* STARPU_CPU_RAM -> CUBLAS_RAM */ /* only the proper CUBLAS thread can initiate this ! */ #if !defined(HAVE_CUDA_MEMCPY_PEER) STARPU_ASSERT(_starpu_memory_node_get_local_key() == dst_node); #endif if (!req || starpu_asynchronous_copy_disabled() || starpu_asynchronous_cuda_copy_disabled() || !(copy_methods->ram_to_cuda_async || copy_methods->any_to_any)) { /* this is not associated to a request so it's synchronous */ STARPU_ASSERT(copy_methods->ram_to_cuda || copy_methods->any_to_any); if (copy_methods->ram_to_cuda) copy_methods->ram_to_cuda(src_interface, src_node, dst_interface, dst_node); else copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, NULL); } else { req->async_channel.type = STARPU_CUDA_RAM; cures = cudaEventCreate(&req->async_channel.event.cuda_event); if (STARPU_UNLIKELY(cures != cudaSuccess)) STARPU_CUDA_REPORT_ERROR(cures); stream = starpu_cuda_get_in_transfer_stream(dst_node); if (copy_methods->ram_to_cuda_async) ret = copy_methods->ram_to_cuda_async(src_interface, src_node, dst_interface, dst_node, stream); else { STARPU_ASSERT(copy_methods->any_to_any); ret = copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, &req->async_channel); } cures = cudaEventRecord(req->async_channel.event.cuda_event, stream); if (STARPU_UNLIKELY(cures != cudaSuccess)) STARPU_CUDA_REPORT_ERROR(cures); } break; case _STARPU_MEMORY_NODE_TUPLE(STARPU_CUDA_RAM,STARPU_CUDA_RAM): /* CUDA - CUDA transfer */ if (!req || starpu_asynchronous_copy_disabled() || starpu_asynchronous_cuda_copy_disabled() || !(copy_methods->cuda_to_cuda_async || copy_methods->any_to_any)) { STARPU_ASSERT(copy_methods->cuda_to_cuda || copy_methods->any_to_any); /* this is not associated to a request so it's synchronous */ if (copy_methods->cuda_to_cuda) copy_methods->cuda_to_cuda(src_interface, src_node, dst_interface, dst_node); else copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, NULL); } else { req->async_channel.type = STARPU_CUDA_RAM; cures = cudaEventCreate(&req->async_channel.event.cuda_event); if (STARPU_UNLIKELY(cures != cudaSuccess)) STARPU_CUDA_REPORT_ERROR(cures); stream = starpu_cuda_get_peer_transfer_stream(src_node, dst_node); if (copy_methods->cuda_to_cuda_async) ret = copy_methods->cuda_to_cuda_async(src_interface, src_node, dst_interface, dst_node, stream); else { STARPU_ASSERT(copy_methods->any_to_any); ret = copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, &req->async_channel); } cures = cudaEventRecord(req->async_channel.event.cuda_event, stream); if (STARPU_UNLIKELY(cures != cudaSuccess)) STARPU_CUDA_REPORT_ERROR(cures); } break; #endif #ifdef STARPU_USE_OPENCL case _STARPU_MEMORY_NODE_TUPLE(STARPU_OPENCL_RAM,STARPU_CPU_RAM): /* OpenCL -> RAM */ STARPU_ASSERT(_starpu_memory_node_get_local_key() == src_node); if (!req || starpu_asynchronous_copy_disabled() || starpu_asynchronous_opencl_copy_disabled() || !(copy_methods->opencl_to_ram_async || copy_methods->any_to_any)) { STARPU_ASSERT(copy_methods->opencl_to_ram || copy_methods->any_to_any); /* this is not associated to a request so it's synchronous */ if (copy_methods->opencl_to_ram) copy_methods->opencl_to_ram(src_interface, src_node, dst_interface, dst_node); else copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, NULL); } else { req->async_channel.type = STARPU_OPENCL_RAM; if (copy_methods->opencl_to_ram_async) ret = copy_methods->opencl_to_ram_async(src_interface, src_node, dst_interface, dst_node, &(req->async_channel.event.opencl_event)); else { STARPU_ASSERT(copy_methods->any_to_any); ret = copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, &req->async_channel); } } break; case _STARPU_MEMORY_NODE_TUPLE(STARPU_CPU_RAM,STARPU_OPENCL_RAM): /* STARPU_CPU_RAM -> STARPU_OPENCL_RAM */ STARPU_ASSERT(_starpu_memory_node_get_local_key() == dst_node); if (!req || starpu_asynchronous_copy_disabled() || starpu_asynchronous_opencl_copy_disabled() || !(copy_methods->ram_to_opencl_async || copy_methods->any_to_any)) { STARPU_ASSERT(copy_methods->ram_to_opencl || copy_methods->any_to_any); /* this is not associated to a request so it's synchronous */ if (copy_methods->ram_to_opencl) copy_methods->ram_to_opencl(src_interface, src_node, dst_interface, dst_node); else copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, NULL); } else { req->async_channel.type = STARPU_OPENCL_RAM; if (copy_methods->ram_to_opencl_async) ret = copy_methods->ram_to_opencl_async(src_interface, src_node, dst_interface, dst_node, &(req->async_channel.event.opencl_event)); else { STARPU_ASSERT(copy_methods->any_to_any); ret = copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, &req->async_channel); } } break; case _STARPU_MEMORY_NODE_TUPLE(STARPU_OPENCL_RAM,STARPU_OPENCL_RAM): /* STARPU_OPENCL_RAM -> STARPU_OPENCL_RAM */ STARPU_ASSERT(_starpu_memory_node_get_local_key() == dst_node || _starpu_memory_node_get_local_key() == src_node); if (!req || starpu_asynchronous_copy_disabled() || starpu_asynchronous_opencl_copy_disabled() || !(copy_methods->opencl_to_opencl_async || copy_methods->any_to_any)) { STARPU_ASSERT(copy_methods->opencl_to_opencl || copy_methods->any_to_any); /* this is not associated to a request so it's synchronous */ if (copy_methods->opencl_to_opencl) copy_methods->opencl_to_opencl(src_interface, src_node, dst_interface, dst_node); else copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, NULL); } else { req->async_channel.type = STARPU_OPENCL_RAM; if (copy_methods->opencl_to_opencl_async) ret = copy_methods->opencl_to_opencl_async(src_interface, src_node, dst_interface, dst_node, &(req->async_channel.event.opencl_event)); else { STARPU_ASSERT(copy_methods->any_to_any); ret = copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, &req->async_channel); } } break; #endif #ifdef STARPU_USE_MIC case _STARPU_MEMORY_NODE_TUPLE(STARPU_CPU_RAM,STARPU_MIC_RAM): /* RAM -> MIC */ if (!req || starpu_asynchronous_copy_disabled() || starpu_asynchronous_mic_copy_disabled() || !(copy_methods->ram_to_mic_async || copy_methods->any_to_any)) { /* this is not associated to a request so it's synchronous */ STARPU_ASSERT(copy_methods->ram_to_mic || copy_methods->any_to_any); if (copy_methods->ram_to_mic) copy_methods->ram_to_mic(src_interface, src_node, dst_interface, dst_node); else copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, NULL); } else { req->async_channel.type = STARPU_MIC_RAM; if (copy_methods->ram_to_mic_async) ret = copy_methods->ram_to_mic_async(src_interface, src_node, dst_interface, dst_node); else { STARPU_ASSERT(copy_methods->any_to_any); ret = copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, &req->async_channel); } _starpu_mic_init_event(&(req->async_channel.event.mic_event), dst_node); } break; case _STARPU_MEMORY_NODE_TUPLE(STARPU_MIC_RAM,STARPU_CPU_RAM): /* MIC -> RAM */ if (!req || starpu_asynchronous_copy_disabled() || starpu_asynchronous_mic_copy_disabled() || !(copy_methods->mic_to_ram_async || copy_methods->any_to_any)) { /* this is not associated to a request so it's synchronous */ STARPU_ASSERT(copy_methods->mic_to_ram || copy_methods->any_to_any); if (copy_methods->mic_to_ram) copy_methods->mic_to_ram(src_interface, src_node, dst_interface, dst_node); else copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, NULL); } else { req->async_channel.type = STARPU_MIC_RAM; if (copy_methods->mic_to_ram_async) ret = copy_methods->mic_to_ram_async(src_interface, src_node, dst_interface, dst_node); else { STARPU_ASSERT(copy_methods->any_to_any); ret = copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, &req->async_channel); } _starpu_mic_init_event(&(req->async_channel.event.mic_event), src_node); } break; #endif #ifdef STARPU_USE_SCC /* SCC RAM associated to the master process is considered as * the main memory node. */ case _STARPU_MEMORY_NODE_TUPLE(STARPU_CPU_RAM,STARPU_SCC_RAM): /* master private SCC RAM -> slave private SCC RAM */ if (copy_methods->scc_src_to_sink) copy_methods->scc_src_to_sink(src_interface, src_node, dst_interface, dst_node); else copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, NULL); break; case _STARPU_MEMORY_NODE_TUPLE(STARPU_SCC_RAM,STARPU_CPU_RAM): /* slave private SCC RAM -> master private SCC RAM */ if (copy_methods->scc_sink_to_src) copy_methods->scc_sink_to_src(src_interface, src_node, dst_interface, dst_node); else copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, NULL); break; case _STARPU_MEMORY_NODE_TUPLE(STARPU_SCC_RAM,STARPU_SCC_RAM): /* slave private SCC RAM -> slave private SCC RAM */ if (copy_methods->scc_sink_to_sink) copy_methods->scc_sink_to_sink(src_interface, src_node, dst_interface, dst_node); else copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, NULL); break; #endif case _STARPU_MEMORY_NODE_TUPLE(STARPU_CPU_RAM,STARPU_DISK_RAM): if(copy_methods->any_to_any) ret = copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, req && !starpu_asynchronous_copy_disabled() ? &req->async_channel : NULL); else { struct starpu_disk_interface * disk_interface = (struct starpu_disk_interface *) dst_interface; void * obj = (void *) disk_interface->dev_handle; void * ptr = NULL; starpu_ssize_t size = 0; handle->ops->pack_data(handle, src_node, &ptr, &size); ret = _starpu_disk_full_write(src_node, dst_node, obj, ptr, size); /* ptr is allocated in pack_data */ free(ptr); } break; case _STARPU_MEMORY_NODE_TUPLE(STARPU_DISK_RAM,STARPU_CPU_RAM): if(copy_methods->any_to_any) ret = copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, req && !starpu_asynchronous_copy_disabled() ? &req->async_channel : NULL); else { struct starpu_disk_interface * disk_interface = (struct starpu_disk_interface *) src_interface; void * obj = (void *) disk_interface->dev_handle; void * ptr = NULL; size_t size = 0; ret = _starpu_disk_full_read(src_node, dst_node, obj, &ptr, &size); handle->ops->unpack_data(handle, dst_node, ptr, size); /* ptr is allocated in full_read */ free(ptr); } break; case _STARPU_MEMORY_NODE_TUPLE(STARPU_DISK_RAM,STARPU_DISK_RAM): ret = copy_methods->any_to_any(src_interface, src_node, dst_interface, dst_node, req ? &req->async_channel : NULL); break; default: STARPU_ABORT(); break; } return ret; #endif /* !SIMGRID */ } int STARPU_ATTRIBUTE_WARN_UNUSED_RESULT _starpu_driver_copy_data_1_to_1(starpu_data_handle_t handle, struct _starpu_data_replicate *src_replicate, struct _starpu_data_replicate *dst_replicate, unsigned donotread, struct _starpu_data_request *req, unsigned may_alloc) { if (!donotread) { STARPU_ASSERT(src_replicate->allocated); STARPU_ASSERT(src_replicate->refcnt); } int ret_alloc, ret_copy; unsigned STARPU_ATTRIBUTE_UNUSED com_id = 0; unsigned src_node = src_replicate->memory_node; unsigned dst_node = dst_replicate->memory_node; /* first make sure the destination has an allocated buffer */ if (!dst_replicate->allocated) { if (!may_alloc) return -ENOMEM; ret_alloc = _starpu_allocate_memory_on_node(handle, dst_replicate, req ? req->prefetch : 0); if (ret_alloc) return -ENOMEM; } STARPU_ASSERT(dst_replicate->allocated); STARPU_ASSERT(dst_replicate->refcnt); /* if there is no need to actually read the data, * we do not perform any transfer */ if (!donotread) { size_t size = _starpu_data_get_size(handle); _starpu_bus_update_profiling_info((int)src_node, (int)dst_node, size); #ifdef STARPU_USE_FXT com_id = STARPU_ATOMIC_ADD(&communication_cnt, 1); if (req) req->com_id = com_id; #endif _STARPU_TRACE_START_DRIVER_COPY(src_node, dst_node, size, com_id); ret_copy = copy_data_1_to_1_generic(handle, src_replicate, dst_replicate, req); if (!req) /* Synchronous, this is already finished */ _STARPU_TRACE_END_DRIVER_COPY(src_node, dst_node, size, com_id); return ret_copy; } return 0; } /* This can be used by interfaces to easily transfer a piece of data without * caring about the particular CUDA/OpenCL methods. */ /* This should either return 0 if the transfer is complete, or -EAGAIN if the * transfer is still pending, and will have to be waited for by * _starpu_driver_test_request_completion/_starpu_driver_wait_request_completion */ int starpu_interface_copy(uintptr_t src, size_t src_offset, unsigned src_node, uintptr_t dst, size_t dst_offset, unsigned dst_node, size_t size, void *async_data) { struct _starpu_async_channel *async_channel = async_data; enum starpu_node_kind src_kind = starpu_node_get_kind(src_node); enum starpu_node_kind dst_kind = starpu_node_get_kind(dst_node); switch (_STARPU_MEMORY_NODE_TUPLE(src_kind,dst_kind)) { case _STARPU_MEMORY_NODE_TUPLE(STARPU_CPU_RAM,STARPU_CPU_RAM): memcpy((void *) dst + dst_offset, (void *) src + src_offset, size); return 0; #ifdef STARPU_USE_CUDA case _STARPU_MEMORY_NODE_TUPLE(STARPU_CUDA_RAM,STARPU_CPU_RAM): return starpu_cuda_copy_async_sync( (void*) src + src_offset, src_node, (void*) dst + dst_offset, dst_node, size, async_channel?starpu_cuda_get_out_transfer_stream(src_node):NULL, cudaMemcpyDeviceToHost); case _STARPU_MEMORY_NODE_TUPLE(STARPU_CPU_RAM,STARPU_CUDA_RAM): return starpu_cuda_copy_async_sync( (void*) src + src_offset, src_node, (void*) dst + dst_offset, dst_node, size, async_channel?starpu_cuda_get_in_transfer_stream(dst_node):NULL, cudaMemcpyHostToDevice); case _STARPU_MEMORY_NODE_TUPLE(STARPU_CUDA_RAM,STARPU_CUDA_RAM): return starpu_cuda_copy_async_sync( (void*) src + src_offset, src_node, (void*) dst + dst_offset, dst_node, size, async_channel?starpu_cuda_get_peer_transfer_stream(src_node, dst_node):NULL, cudaMemcpyDeviceToDevice); #endif #ifdef STARPU_USE_OPENCL case _STARPU_MEMORY_NODE_TUPLE(STARPU_OPENCL_RAM,STARPU_CPU_RAM): case _STARPU_MEMORY_NODE_TUPLE(STARPU_CPU_RAM,STARPU_OPENCL_RAM): case _STARPU_MEMORY_NODE_TUPLE(STARPU_OPENCL_RAM,STARPU_OPENCL_RAM): return starpu_opencl_copy_async_sync( src, src_offset, src_node, dst, dst_offset, dst_node, size, &async_channel->event.opencl_event); #endif #ifdef STARPU_USE_MIC case _STARPU_MEMORY_NODE_TUPLE(STARPU_MIC_RAM,STARPU_CPU_RAM): if (async_data) return _starpu_mic_copy_mic_to_ram_async( (void*) src + src_offset, src_node, (void*) dst + dst_offset, dst_node, size); else return _starpu_mic_copy_mic_to_ram( (void*) src + src_offset, src_node, (void*) dst + dst_offset, dst_node, size); case _STARPU_MEMORY_NODE_TUPLE(STARPU_CPU_RAM,STARPU_MIC_RAM): if (async_data) return _starpu_mic_copy_ram_to_mic_async( (void*) src + src_offset, src_node, (void*) dst + dst_offset, dst_node, size); else return _starpu_mic_copy_ram_to_mic( (void*) src + src_offset, src_node, (void*) dst + dst_offset, dst_node, size); #endif #ifdef STARPU_USE_SCC case _STARPU_MEMORY_NODE_TUPLE(STARPU_SCC_RAM,STARPU_CPU_RAM): return _starpu_scc_copy_sink_to_src( (void*) src + src_offset, src_node, (void*) dst + dst_offset, dst_node, size); case _STARPU_MEMORY_NODE_TUPLE(STARPU_CPU_RAM,STARPU_SCC_RAM): return _starpu_scc_copy_src_to_sink( (void*) src + src_offset, src_node, (void*) dst + dst_offset, dst_node, size); case _STARPU_MEMORY_NODE_TUPLE(STARPU_SCC_RAM,STARPU_SCC_RAM): return _starpu_scc_copy_sink_to_sink( (void*) src + src_offset, src_node, (void*) dst + dst_offset, dst_node, size); #endif case _STARPU_MEMORY_NODE_TUPLE(STARPU_CPU_RAM, STARPU_DISK_RAM): { return _starpu_disk_copy_src_to_disk( (void*) src + src_offset, src_node, (void*) dst, dst_offset, dst_node, size, async_channel); } case _STARPU_MEMORY_NODE_TUPLE(STARPU_DISK_RAM, STARPU_CPU_RAM): return _starpu_disk_copy_disk_to_src( (void*) src, src_offset, src_node, (void*) dst + dst_offset, dst_node, size, async_channel); case _STARPU_MEMORY_NODE_TUPLE(STARPU_DISK_RAM, STARPU_DISK_RAM): return _starpu_disk_copy_disk_to_disk( (void*) src, src_offset, src_node, (void*) dst, dst_offset, dst_node, size, async_channel); default: STARPU_ABORT(); return -1; } return 0; } void _starpu_driver_wait_request_completion(struct _starpu_async_channel *async_channel) { #ifdef STARPU_SIMGRID STARPU_PTHREAD_MUTEX_LOCK(&async_channel->event.mutex); while (!async_channel->event.finished) STARPU_PTHREAD_COND_WAIT(&async_channel->event.cond, &async_channel->event.mutex); STARPU_PTHREAD_MUTEX_UNLOCK(&async_channel->event.mutex); #else /* !SIMGRID */ enum starpu_node_kind kind = async_channel->type; #ifdef STARPU_USE_CUDA cudaEvent_t event; cudaError_t cures; #endif switch (kind) { #ifdef STARPU_USE_CUDA case STARPU_CUDA_RAM: event = (*async_channel).event.cuda_event; cures = cudaEventSynchronize(event); if (STARPU_UNLIKELY(cures)) STARPU_CUDA_REPORT_ERROR(cures); cures = cudaEventDestroy(event); if (STARPU_UNLIKELY(cures)) STARPU_CUDA_REPORT_ERROR(cures); break; #endif #ifdef STARPU_USE_OPENCL case STARPU_OPENCL_RAM: { cl_int err; if ((*async_channel).event.opencl_event == NULL) STARPU_ABORT(); err = clWaitForEvents(1, &((*async_channel).event.opencl_event)); if (STARPU_UNLIKELY(err != CL_SUCCESS)) STARPU_OPENCL_REPORT_ERROR(err); err = clReleaseEvent((*async_channel).event.opencl_event); if (STARPU_UNLIKELY(err != CL_SUCCESS)) STARPU_OPENCL_REPORT_ERROR(err); break; } #endif #ifdef STARPU_USE_MIC case STARPU_MIC_RAM: _starpu_mic_wait_request_completion(&(async_channel->event.mic_event)); break; #endif case STARPU_MAIN_RAM: starpu_disk_wait_request(async_channel); case STARPU_CPU_RAM: default: STARPU_ABORT(); } #endif /* !SIMGRID */ } unsigned _starpu_driver_test_request_completion(struct _starpu_async_channel *async_channel) { #ifdef STARPU_SIMGRID unsigned ret; STARPU_PTHREAD_MUTEX_LOCK(&async_channel->event.mutex); ret = async_channel->event.finished; STARPU_PTHREAD_MUTEX_UNLOCK(&async_channel->event.mutex); return ret; #else /* !SIMGRID */ enum starpu_node_kind kind = async_channel->type; unsigned success = 0; #ifdef STARPU_USE_CUDA cudaEvent_t event; #endif switch (kind) { #ifdef STARPU_USE_CUDA case STARPU_CUDA_RAM: event = (*async_channel).event.cuda_event; cudaError_t cures = cudaEventQuery(event); success = (cures == cudaSuccess); if (success) cudaEventDestroy(event); else if (cures != cudaErrorNotReady) STARPU_CUDA_REPORT_ERROR(cures); break; #endif #ifdef STARPU_USE_OPENCL case STARPU_OPENCL_RAM: { cl_int event_status; cl_event opencl_event = (*async_channel).event.opencl_event; if (opencl_event == NULL) STARPU_ABORT(); cl_int err = clGetEventInfo(opencl_event, CL_EVENT_COMMAND_EXECUTION_STATUS, sizeof(event_status), &event_status, NULL); if (STARPU_UNLIKELY(err != CL_SUCCESS)) STARPU_OPENCL_REPORT_ERROR(err); if (event_status < 0) STARPU_OPENCL_REPORT_ERROR(event_status); success = (event_status == CL_COMPLETE); break; } #endif #ifdef STARPU_USE_MIC case STARPU_MIC_RAM: success = _starpu_mic_request_is_complete(&(async_channel->event.mic_event)); break; #endif case STARPU_DISK_RAM: success = starpu_disk_test_request(async_channel); break; case STARPU_CPU_RAM: default: STARPU_ABORT(); } return success; #endif /* !SIMGRID */ }