/** * * \section COPYRIGHT * * Copyright 2013-2021 Software Radio Systems Limited * * By using this file, you agree to the terms and conditions set * forth in the LICENSE file which can be found at the top level of * the distribution. * */ #ifndef SRSRAN_CIRCULAR_MAP_STACK_POOL_H #define SRSRAN_CIRCULAR_MAP_STACK_POOL_H #include "batch_mem_pool.h" #include "linear_allocator.h" #include "srsran/adt/circular_array.h" #include namespace srsran { template class circular_stack_pool { struct mem_block_elem_t { std::mutex mutex; size_t key = std::numeric_limits::max(); size_t count = 0; linear_allocator alloc; void clear() { key = std::numeric_limits::max(); count = 0; alloc.clear(); } }; public: circular_stack_pool(size_t nof_objs_per_batch, size_t stack_size, size_t batch_thres, int initial_size = -1) : central_cache(std::min(NofStacks, nof_objs_per_batch), stack_size, batch_thres, initial_size), logger(srslog::fetch_basic_logger("POOL")) {} circular_stack_pool(circular_stack_pool&&) = delete; circular_stack_pool(const circular_stack_pool&) = delete; circular_stack_pool& operator=(circular_stack_pool&&) = delete; circular_stack_pool& operator=(const circular_stack_pool&) = delete; ~circular_stack_pool() { for (mem_block_elem_t& elem : pools) { std::unique_lock lock(elem.mutex); srsran_assert(elem.count == 0, "There are missing deallocations for stack id=%zd", elem.key); if (elem.alloc.is_init()) { void* ptr = elem.alloc.memblock_ptr(); elem.alloc.clear(); central_cache.deallocate_node(ptr); } } } void* allocate(size_t key, size_t size, size_t alignment) noexcept { size_t idx = key % NofStacks; mem_block_elem_t& elem = pools[idx]; std::unique_lock lock(elem.mutex); if (not elem.alloc.is_init()) { void* block = central_cache.allocate_node(central_cache.get_node_max_size()); if (block == nullptr) { logger.warning("Failed to allocate memory block from central cache"); return nullptr; } elem.key = key; elem.alloc = linear_allocator(block, central_cache.get_node_max_size()); } void* ptr = elem.alloc.allocate(size, alignment); if (ptr == nullptr) { logger.warning("No space left in memory block with key=%zd of circular stack pool", key); } else { elem.count++; } return ptr; } void deallocate(size_t key, void* p) { size_t idx = key % NofStacks; mem_block_elem_t& elem = pools[idx]; std::lock_guard lock(elem.mutex); elem.alloc.deallocate(p); elem.count--; if (elem.count == 0) { // return back to central cache void* ptr = elem.alloc.memblock_ptr(); elem.clear(); central_cache.deallocate_node(ptr); } } void allocate_batch() { central_cache.allocate_batch(); } size_t cache_size() const { return central_cache.cache_size(); } private: srsran::circular_array pools; srsran::background_mem_pool central_cache; srslog::basic_logger& logger; }; } // namespace srsran #endif // SRSRAN_CIRCULAR_MAP_STACK_POOL_H