// // Copyright 2012 Ettus Research LLC // Copyright 2018 Ettus Research, a National Instruments Company // // SPDX-License-Identifier: GPL-3.0-or-later // #include "usrp2_regs.hpp" #include #include #include #include #include "usrp2_fifo_ctrl.hpp" #include #include #include //htonl #include using namespace uhd; using namespace uhd::transport; static const size_t POKE32_CMD = (1 << 8); static const size_t PEEK32_CMD = 0; static const double ACK_TIMEOUT = 0.5; static const double MASSIVE_TIMEOUT = 10.0; //for when we wait on a timed command static const uint32_t MAX_SEQS_OUT = 63; #define SPI_DIV SR_SPI_CORE + 0 #define SPI_CTRL SR_SPI_CORE + 1 #define SPI_DATA SR_SPI_CORE + 2 #define SPI_READBACK 0 // spi clock rate = master_clock/(div+1)/2 (10MHz in this case) #define SPI_DIVIDER 4 class usrp2_fifo_ctrl_impl : public usrp2_fifo_ctrl{ public: usrp2_fifo_ctrl_impl(zero_copy_if::sptr xport): _xport(xport), _seq_out(0), _seq_ack(0), _timeout(ACK_TIMEOUT) { while (_xport->get_recv_buff(0.0)){} //flush this->set_time(uhd::time_spec_t(0.0)); this->set_tick_rate(1.0); //something possible but bogus this->init_spi(); } ~usrp2_fifo_ctrl_impl(void){ _timeout = ACK_TIMEOUT; //reset timeout to something small UHD_SAFE_CALL( this->peek32(0); //dummy peek with the purpose of ack'ing all packets ) } /******************************************************************* * Peek and poke 32 bit implementation ******************************************************************/ void poke32(const wb_addr_type addr, const uint32_t data){ boost::mutex::scoped_lock lock(_mutex); this->send_pkt((addr - SETTING_REGS_BASE)/4, data, POKE32_CMD); this->wait_for_ack(_seq_out-MAX_SEQS_OUT); } uint32_t peek32(const wb_addr_type addr){ boost::mutex::scoped_lock lock(_mutex); this->send_pkt((addr - READBACK_BASE)/4, 0, PEEK32_CMD); return this->wait_for_ack(_seq_out); } /******************************************************************* * Peek and poke 16 bit not implemented ******************************************************************/ void poke16(const wb_addr_type, const uint16_t){ throw uhd::not_implemented_error("poke16 not implemented in fifo ctrl module"); } uint16_t peek16(const wb_addr_type){ throw uhd::not_implemented_error("peek16 not implemented in fifo ctrl module"); } /******************************************************************* * FIFO controlled SPI implementation ******************************************************************/ void init_spi(void){ boost::mutex::scoped_lock lock(_mutex); this->send_pkt(SPI_DIV, SPI_DIVIDER, POKE32_CMD); this->wait_for_ack(_seq_out-MAX_SEQS_OUT); _ctrl_word_cache = 0; // force update first time around } uint32_t transact_spi( int which_slave, const spi_config_t &config, uint32_t data, size_t num_bits, bool readback ){ boost::mutex::scoped_lock lock(_mutex); //load control word uint32_t ctrl_word = 0; ctrl_word |= ((which_slave & 0xffffff) << 0); ctrl_word |= ((num_bits & 0x3ff) << 24); if (config.mosi_edge == spi_config_t::EDGE_FALL) ctrl_word |= (1 << 31); if (config.miso_edge == spi_config_t::EDGE_RISE) ctrl_word |= (1 << 30); //load data word (must be in upper bits) const uint32_t data_out = data << (32 - num_bits); //conditionally send control word if (_ctrl_word_cache != ctrl_word){ this->send_pkt(SPI_CTRL, ctrl_word, POKE32_CMD); this->wait_for_ack(_seq_out-MAX_SEQS_OUT); _ctrl_word_cache = ctrl_word; } //send data word this->send_pkt(SPI_DATA, data_out, POKE32_CMD); this->wait_for_ack(_seq_out-MAX_SEQS_OUT); //conditional readback if (readback){ this->send_pkt(SPI_READBACK, 0, PEEK32_CMD); return this->wait_for_ack(_seq_out); } return 0; } /******************************************************************* * Update methods for time ******************************************************************/ void set_time(const uhd::time_spec_t &time){ boost::mutex::scoped_lock lock(_mutex); _time = time; _use_time = _time != uhd::time_spec_t(0.0); if (_use_time) _timeout = MASSIVE_TIMEOUT; //permanently sets larger timeout } uhd::time_spec_t get_time() { boost::mutex::scoped_lock lock(_mutex); return _time; } void set_tick_rate(const double rate){ boost::mutex::scoped_lock lock(_mutex); _tick_rate = rate; } private: /******************************************************************* * Primary control and interaction private methods ******************************************************************/ UHD_INLINE void send_pkt(wb_addr_type addr, uint32_t data, int cmd){ managed_send_buffer::sptr buff = _xport->get_send_buff(0.0); if (not buff){ throw uhd::runtime_error("fifo ctrl timed out getting a send buffer"); } uint32_t *trans = buff->cast(); trans[0] = htonl(++_seq_out); uint32_t *pkt = trans + 1; //load packet info vrt::if_packet_info_t packet_info; packet_info.packet_type = vrt::if_packet_info_t::PACKET_TYPE_CONTEXT; packet_info.num_payload_words32 = 2; packet_info.num_payload_bytes = packet_info.num_payload_words32*sizeof(uint32_t); packet_info.packet_count = _seq_out; packet_info.tsf = _time.to_ticks(_tick_rate); packet_info.sob = false; packet_info.eob = false; packet_info.has_sid = false; packet_info.has_cid = false; packet_info.has_tsi = false; packet_info.has_tsf = _use_time; packet_info.has_tlr = false; //load header vrt::if_hdr_pack_be(pkt, packet_info); //load payload const uint32_t ctrl_word = (addr & 0xff) | cmd | (_seq_out << 16); pkt[packet_info.num_header_words32+0] = htonl(ctrl_word); pkt[packet_info.num_header_words32+1] = htonl(data); //send the buffer over the interface buff->commit(sizeof(uint32_t)*(packet_info.num_packet_words32+1)); } UHD_INLINE bool wraparound_lt16(const int16_t i0, const int16_t i1){ if (((i0 ^ i1) & 0x8000) == 0) //same sign bits return uint16_t(i0) < uint16_t(i1); return int16_t(i1 - i0) > 0; } UHD_INLINE uint32_t wait_for_ack(const uint16_t seq_to_ack){ while (wraparound_lt16(_seq_ack, seq_to_ack)){ managed_recv_buffer::sptr buff = _xport->get_recv_buff(_timeout); if (not buff){ throw uhd::runtime_error("fifo ctrl timed out looking for acks"); } const uint32_t *pkt = buff->cast(); vrt::if_packet_info_t packet_info; packet_info.num_packet_words32 = buff->size()/sizeof(uint32_t); vrt::if_hdr_unpack_be(pkt, packet_info); _seq_ack = ntohl(pkt[packet_info.num_header_words32+0]) >> 16; if (_seq_ack == seq_to_ack){ return ntohl(pkt[packet_info.num_header_words32+1]); } } return 0; } zero_copy_if::sptr _xport; boost::mutex _mutex; uint16_t _seq_out; uint16_t _seq_ack; uhd::time_spec_t _time; bool _use_time; double _tick_rate; double _timeout; uint32_t _ctrl_word_cache; }; usrp2_fifo_ctrl::sptr usrp2_fifo_ctrl::make(zero_copy_if::sptr xport){ return sptr(new usrp2_fifo_ctrl_impl(xport)); }