/* -*- Mode: C; c-basic-offset:4 ; -*- */ /* * Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana * University Research and Technology * Corporation. All rights reserved. * Copyright (c) 2004-2009 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) 2006-2007 Mellanox Technologies. All rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #include "ompi_config.h" #include "ompi/class/ompi_free_list.h" #include "opal/include/opal/align.h" #include "opal/sys/cache.h" #include "orte/util/show_help.h" #include "ompi/mca/mpool/mpool.h" static void ompi_free_list_construct(ompi_free_list_t* fl); static void ompi_free_list_destruct(ompi_free_list_t* fl); OBJ_CLASS_INSTANCE(ompi_free_list_t, opal_atomic_lifo_t, ompi_free_list_construct, ompi_free_list_destruct); typedef struct ompi_free_list_item_t ompi_free_list_memory_t; OBJ_CLASS_INSTANCE(ompi_free_list_item_t, opal_list_item_t, NULL, NULL); static void ompi_free_list_construct(ompi_free_list_t* fl) { OBJ_CONSTRUCT(&fl->fl_lock, opal_mutex_t); OBJ_CONSTRUCT(&fl->fl_condition, opal_condition_t); fl->fl_max_to_alloc = 0; fl->fl_num_allocated = 0; fl->fl_num_per_alloc = 0; fl->fl_num_waiting = 0; fl->fl_frag_size = sizeof(ompi_free_list_item_t); fl->fl_frag_alignment = 0; fl->fl_payload_buffer_size=0; fl->fl_payload_buffer_alignment=0; fl->fl_frag_class = OBJ_CLASS(ompi_free_list_item_t); fl->fl_mpool = 0; fl->ctx = NULL; OBJ_CONSTRUCT(&(fl->fl_allocations), opal_list_t); } static void ompi_free_list_destruct(ompi_free_list_t* fl) { opal_list_item_t *item; ompi_free_list_memory_t *fl_mem; #if 0 && OMPI_ENABLE_DEBUG if(opal_list_get_size(&fl->super) != fl->fl_num_allocated) { opal_output(0, "ompi_free_list: %d allocated %d returned: %s:%d\n", fl->fl_num_allocated, opal_list_get_size(&fl->super), fl->super.super.cls_init_file_name, fl->super.super.cls_init_lineno); } #endif if( NULL != fl->fl_mpool ) { while(NULL != (item = opal_list_remove_first(&(fl->fl_allocations)))) { fl_mem = (ompi_free_list_memory_t*)item; fl->fl_mpool->mpool_free(fl->fl_mpool, fl_mem->ptr, fl_mem->registration); /* destruct the item (we constructed it), then free the memory chunk */ OBJ_DESTRUCT(item); free(item); } } OBJ_DESTRUCT(&fl->fl_allocations); OBJ_DESTRUCT(&fl->fl_condition); OBJ_DESTRUCT(&fl->fl_lock); } int ompi_free_list_init_ex( ompi_free_list_t *flist, size_t elem_size, size_t alignment, opal_class_t* elem_class, int num_elements_to_alloc, int max_elements_to_alloc, int num_elements_per_alloc, mca_mpool_base_module_t* mpool, ompi_free_list_item_init_fn_t item_init, void* ctx) { /* alignment must be more than zero and power of two */ if(alignment <= 1 || (alignment & (alignment - 1))) return OMPI_ERROR; if(elem_size > flist->fl_frag_size) flist->fl_frag_size = elem_size; flist->fl_frag_alignment = alignment; if(elem_class) flist->fl_frag_class = elem_class; flist->fl_payload_buffer_size=flist->fl_frag_size- flist->fl_frag_class->cls_sizeof; flist->fl_payload_buffer_alignment=alignment; flist->fl_max_to_alloc = max_elements_to_alloc; flist->fl_num_allocated = 0; flist->fl_num_per_alloc = num_elements_per_alloc; flist->fl_mpool = mpool; flist->item_init = item_init; flist->ctx = ctx; if(num_elements_to_alloc) return ompi_free_list_grow(flist, num_elements_to_alloc); return OMPI_SUCCESS; } /* this will replace ompi_free_list_init_ex */ int ompi_free_list_init_ex_new( ompi_free_list_t *flist, size_t frag_size, size_t frag_alignment, opal_class_t* frag_class, size_t payload_buffer_size, size_t payload_buffer_alignment, int num_elements_to_alloc, int max_elements_to_alloc, int num_elements_per_alloc, mca_mpool_base_module_t* mpool, ompi_free_list_item_init_fn_t item_init, void* ctx) { /* alignment must be more than zero and power of two */ if (frag_alignment <= 1 || (frag_alignment & (frag_alignment - 1))) return OMPI_ERROR; if (0 < payload_buffer_size) { if (payload_buffer_alignment <= 1 || (payload_buffer_alignment & (payload_buffer_alignment - 1))) return OMPI_ERROR; } if (frag_size > flist->fl_frag_size) flist->fl_frag_size = frag_size; if (frag_class) flist->fl_frag_class = frag_class; flist->fl_payload_buffer_size=payload_buffer_size; flist->fl_max_to_alloc = max_elements_to_alloc; flist->fl_num_allocated = 0; flist->fl_num_per_alloc = num_elements_per_alloc; flist->fl_mpool = mpool; flist->fl_frag_alignment = frag_alignment; flist->fl_payload_buffer_alignment = payload_buffer_alignment; flist->item_init = item_init; flist->ctx = ctx; if (num_elements_to_alloc) return ompi_free_list_grow(flist, num_elements_to_alloc); return OMPI_SUCCESS; } int ompi_free_list_grow(ompi_free_list_t* flist, size_t num_elements) { unsigned char *ptr, *mpool_alloc_ptr = NULL; ompi_free_list_memory_t *alloc_ptr; size_t i, alloc_size, head_size, elem_size = 0; mca_mpool_base_registration_t *reg = NULL; if(flist->fl_max_to_alloc > 0) if(flist->fl_num_allocated + num_elements > flist->fl_max_to_alloc) num_elements = flist->fl_max_to_alloc - flist->fl_num_allocated; if(num_elements == 0) return OMPI_ERR_TEMP_OUT_OF_RESOURCE; head_size = (NULL == flist->fl_mpool) ? flist->fl_frag_size: flist->fl_frag_class->cls_sizeof; head_size = OPAL_ALIGN(head_size, flist->fl_frag_alignment, size_t); /* calculate head allocation size */ alloc_size = num_elements * head_size + sizeof(ompi_free_list_memory_t) + flist->fl_frag_alignment; alloc_ptr = (ompi_free_list_memory_t*)malloc(alloc_size); if(NULL == alloc_ptr) return OMPI_ERR_TEMP_OUT_OF_RESOURCE; /* allocate the rest from the mpool */ if(flist->fl_mpool != NULL) { elem_size = OPAL_ALIGN(flist->fl_payload_buffer_size, flist->fl_payload_buffer_alignment, size_t); if(elem_size != 0) { mpool_alloc_ptr = (unsigned char *) flist->fl_mpool->mpool_alloc(flist->fl_mpool, num_elements * elem_size, flist->fl_payload_buffer_alignment, MCA_MPOOL_FLAGS_CACHE_BYPASS, ®); if(NULL == mpool_alloc_ptr) { free(alloc_ptr); return OMPI_ERR_TEMP_OUT_OF_RESOURCE; } } } /* make the alloc_ptr a list item, save the chunk in the allocations list, * and have ptr point to memory right after the list item structure */ OBJ_CONSTRUCT(alloc_ptr, ompi_free_list_item_t); opal_list_append(&(flist->fl_allocations), (opal_list_item_t*)alloc_ptr); alloc_ptr->registration = reg; alloc_ptr->ptr = mpool_alloc_ptr; ptr = (unsigned char*)alloc_ptr + sizeof(ompi_free_list_memory_t); ptr = OPAL_ALIGN_PTR(ptr, flist->fl_frag_alignment, unsigned char*); for(i=0; iregistration = reg; item->ptr = mpool_alloc_ptr; OBJ_CONSTRUCT_INTERNAL(item, flist->fl_frag_class); /* run the initialize function if present */ if(flist->item_init) { flist->item_init(item, flist->ctx); } opal_atomic_lifo_push(&(flist->super), &(item->super)); ptr += head_size; mpool_alloc_ptr += elem_size; } flist->fl_num_allocated += num_elements; return OMPI_SUCCESS; } /** * This function resize the free_list to contain at least the specified * number of elements. We do not create all of them in the same memory * segment. Instead we will several time the fl_num_per_alloc elements * until we reach the required number of the maximum allowed by the * initialization. */ int ompi_free_list_resize(ompi_free_list_t* flist, size_t size) { ssize_t inc_num; int ret = OMPI_SUCCESS; if (flist->fl_num_allocated > size) { return OMPI_SUCCESS; } OPAL_THREAD_LOCK(&((flist)->fl_lock)); inc_num = (ssize_t)size - (ssize_t)flist->fl_num_allocated; while( inc_num > 0 ) { ret = ompi_free_list_grow(flist, flist->fl_num_per_alloc); if( OMPI_SUCCESS != ret ) break; inc_num = (ssize_t)size - (ssize_t)flist->fl_num_allocated; } OPAL_THREAD_UNLOCK(&((flist)->fl_lock)); return ret; }