// // Copyright 2011,2014 Ettus Research LLC // Copyright 2018 Ettus Research, a National Instruments Company // // SPDX-License-Identifier: GPL-3.0-or-later // #include #include #include #include using namespace uhd::transport; #ifdef UHD_TXRX_DEBUG_PRINTS /* * This is the implementation for the static variable 's_buffer_count' * located in uhd/transport/zero_copy.hpp. * It is used in the managed_buffer class. */ boost::detail::atomic_count managed_buffer::s_buffer_count(0); #endif // UHD_TXRX_DEBUG_PRINTS //! pad the byte count to a multiple of alignment static size_t pad_to_boundary(const size_t bytes, const size_t alignment){ return bytes + (alignment - bytes)%alignment; } buffer_pool::~buffer_pool(void){ /* NOP */ } /*********************************************************************** * Buffer pool implementation **********************************************************************/ class buffer_pool_impl : public buffer_pool{ public: buffer_pool_impl( const std::vector &ptrs, boost::shared_array mem ): _ptrs(ptrs), _mem(mem){ /* NOP */ } ptr_type at(const size_t index) const{ return _ptrs.at(index); } size_t size(void) const{ return _ptrs.size(); } private: std::vector _ptrs; boost::shared_array _mem; }; /*********************************************************************** * Buffer pool factor function **********************************************************************/ buffer_pool::sptr buffer_pool::make( const size_t num_buffs, const size_t buff_size, const size_t alignment ){ //1) pad the buffer size to be a multiple of alignment //2) pad the overall memory size for room after alignment //3) allocate the memory in one block of sufficient size const size_t padded_buff_size = pad_to_boundary(buff_size, alignment); boost::shared_array mem(new char[padded_buff_size*num_buffs + alignment-1]); //Fill a vector with boundary-aligned points in the memory const size_t mem_start = pad_to_boundary(size_t(mem.get()), alignment); std::vector ptrs(num_buffs); for (size_t i = 0; i < num_buffs; i++){ ptrs[i] = ptr_type(mem_start + padded_buff_size*i); } //Create a new buffer pool implementation with: // - the pre-computed pointers, and // - the reference to allocated memory. return sptr(new buffer_pool_impl(ptrs, mem)); }