/** * Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. * SPDX-License-Identifier: Apache-2.0. */ #include #include int aws_memory_pool_init( struct aws_memory_pool *mempool, struct aws_allocator *alloc, uint16_t ideal_segment_count, size_t segment_size) { mempool->alloc = alloc; mempool->ideal_segment_count = ideal_segment_count; mempool->segment_size = segment_size; mempool->data_ptr = aws_mem_calloc(alloc, ideal_segment_count, sizeof(void *)); if (!mempool->data_ptr) { return AWS_OP_ERR; } aws_array_list_init_static(&mempool->stack, mempool->data_ptr, ideal_segment_count, sizeof(void *)); for (uint16_t i = 0; i < ideal_segment_count; ++i) { void *memory = aws_mem_acquire(alloc, segment_size); if (memory) { aws_array_list_push_back(&mempool->stack, &memory); } else { goto clean_up; } } return AWS_OP_SUCCESS; clean_up: aws_memory_pool_clean_up(mempool); return AWS_OP_ERR; } void aws_memory_pool_clean_up(struct aws_memory_pool *mempool) { void *cur = NULL; while (aws_array_list_length(&mempool->stack) > 0) { /* the only way this fails is not possible since I already checked the length. */ aws_array_list_back(&mempool->stack, &cur); aws_array_list_pop_back(&mempool->stack); aws_mem_release(mempool->alloc, cur); } aws_array_list_clean_up(&mempool->stack); aws_mem_release(mempool->alloc, mempool->data_ptr); } void *aws_memory_pool_acquire(struct aws_memory_pool *mempool) { void *back = NULL; if (aws_array_list_length(&mempool->stack) > 0) { aws_array_list_back(&mempool->stack, &back); aws_array_list_pop_back(&mempool->stack); return back; } void *mem = aws_mem_acquire(mempool->alloc, mempool->segment_size); return mem; } void aws_memory_pool_release(struct aws_memory_pool *mempool, void *to_release) { size_t pool_size = aws_array_list_length(&mempool->stack); if (pool_size >= mempool->ideal_segment_count) { aws_mem_release(mempool->alloc, to_release); return; } aws_array_list_push_back(&mempool->stack, &to_release); } struct message_pool_allocator { struct aws_allocator base_allocator; struct aws_message_pool *msg_pool; }; void *s_message_pool_mem_acquire(struct aws_allocator *allocator, size_t size) { (void)allocator; (void)size; /* no one should ever call this ever. */ AWS_ASSERT(0); return NULL; } void s_message_pool_mem_release(struct aws_allocator *allocator, void *ptr) { struct message_pool_allocator *msg_pool_alloc = allocator->impl; aws_message_pool_release(msg_pool_alloc->msg_pool, (struct aws_io_message *)ptr); } static size_t MSG_OVERHEAD = sizeof(struct aws_io_message) + sizeof(struct message_pool_allocator); int aws_message_pool_init( struct aws_message_pool *msg_pool, struct aws_allocator *alloc, struct aws_message_pool_creation_args *args) { msg_pool->alloc = alloc; size_t msg_data_size = args->application_data_msg_data_size + MSG_OVERHEAD; if (aws_memory_pool_init( &msg_pool->application_data_pool, alloc, args->application_data_msg_count, msg_data_size)) { return AWS_OP_ERR; } size_t small_blk_data_size = args->small_block_msg_data_size + MSG_OVERHEAD; if (aws_memory_pool_init(&msg_pool->small_block_pool, alloc, args->small_block_msg_count, small_blk_data_size)) { aws_memory_pool_clean_up(&msg_pool->application_data_pool); return AWS_OP_ERR; } return AWS_OP_SUCCESS; } void aws_message_pool_clean_up(struct aws_message_pool *msg_pool) { aws_memory_pool_clean_up(&msg_pool->application_data_pool); aws_memory_pool_clean_up(&msg_pool->small_block_pool); AWS_ZERO_STRUCT(*msg_pool); } struct message_wrapper { struct aws_io_message message; struct message_pool_allocator msg_allocator; uint8_t buffer_start[1]; }; struct aws_io_message *aws_message_pool_acquire( struct aws_message_pool *msg_pool, enum aws_io_message_type message_type, size_t size_hint) { struct message_wrapper *message_wrapper = NULL; size_t max_size = 0; switch (message_type) { case AWS_IO_MESSAGE_APPLICATION_DATA: if (size_hint > msg_pool->small_block_pool.segment_size - MSG_OVERHEAD) { message_wrapper = aws_memory_pool_acquire(&msg_pool->application_data_pool); max_size = msg_pool->application_data_pool.segment_size - MSG_OVERHEAD; } else { message_wrapper = aws_memory_pool_acquire(&msg_pool->small_block_pool); max_size = msg_pool->small_block_pool.segment_size - MSG_OVERHEAD; } break; default: AWS_ASSERT(0); aws_raise_error(AWS_IO_CHANNEL_UNKNOWN_MESSAGE_TYPE); return NULL; } if (!message_wrapper) { return NULL; } message_wrapper->message.message_type = message_type; message_wrapper->message.message_tag = 0; message_wrapper->message.user_data = NULL; message_wrapper->message.copy_mark = 0; message_wrapper->message.on_completion = NULL; /* the buffer shares the allocation with the message. It's the bit at the end. */ message_wrapper->message.message_data.buffer = message_wrapper->buffer_start; message_wrapper->message.message_data.len = 0; message_wrapper->message.message_data.capacity = size_hint <= max_size ? size_hint : max_size; /* set the allocator ptr */ message_wrapper->msg_allocator.base_allocator.impl = &message_wrapper->msg_allocator; message_wrapper->msg_allocator.base_allocator.mem_acquire = s_message_pool_mem_acquire; message_wrapper->msg_allocator.base_allocator.mem_realloc = NULL; message_wrapper->msg_allocator.base_allocator.mem_release = s_message_pool_mem_release; message_wrapper->msg_allocator.msg_pool = msg_pool; message_wrapper->message.allocator = &message_wrapper->msg_allocator.base_allocator; return &message_wrapper->message; } void aws_message_pool_release(struct aws_message_pool *msg_pool, struct aws_io_message *message) { memset(message->message_data.buffer, 0, message->message_data.len); message->allocator = NULL; struct message_wrapper *wrapper = AWS_CONTAINER_OF(message, struct message_wrapper, message); switch (message->message_type) { case AWS_IO_MESSAGE_APPLICATION_DATA: if (message->message_data.capacity > msg_pool->small_block_pool.segment_size - MSG_OVERHEAD) { aws_memory_pool_release(&msg_pool->application_data_pool, wrapper); } else { aws_memory_pool_release(&msg_pool->small_block_pool, wrapper); } break; default: AWS_ASSERT(0); aws_raise_error(AWS_IO_CHANNEL_UNKNOWN_MESSAGE_TYPE); } }