// // Copyright 2013-2016 Ettus Research LLC // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program. If not, see . // #ifndef INCLUDED_X300_IMPL_HPP #define INCLUDED_X300_IMPL_HPP #include #include "../device3/device3_impl.hpp" #include #include #include #include "x300_radio_ctrl_impl.hpp" #include "x300_clock_ctrl.hpp" #include "x300_fw_common.h" #include //mtu #include "i2c_core_100_wb32.hpp" #include #include #include #include #include #include "recv_packet_demuxer_3000.hpp" #include "x300_regs.hpp" ///////////// RFNOC ///////////////////// #include ///////////// RFNOC ///////////////////// #include static const std::string X300_FW_FILE_NAME = "usrp_x300_fw.bin"; static const std::string X300_DEFAULT_CLOCK_SOURCE = "internal"; static const double X300_DEFAULT_TICK_RATE = 200e6; //Hz static const double X300_DEFAULT_DBOARD_CLK_RATE = 50e6; //Hz static const double X300_BUS_CLOCK_RATE = 166.666667e6; //Hz static const size_t X300_RX_SW_BUFF_SIZE_ETH = 0x2000000;//32MiB For an ~8k frame size any size >32MiB is just wasted buffer space static const size_t X300_RX_SW_BUFF_SIZE_ETH_MACOS = 0x100000; //1Mib //The FIFO closest to the DMA controller is 1023 elements deep for RX and 1029 elements deep for TX //where an element is 8 bytes. For best throughput ensure that the data frame fits in these buffers. //Also ensure that the kernel has enough frames to hold buffered TX and RX data static const size_t X300_PCIE_RX_DATA_FRAME_SIZE = 8184; //bytes static const size_t X300_PCIE_TX_DATA_FRAME_SIZE = 8192; //bytes static const size_t X300_PCIE_DATA_NUM_FRAMES = 2048; static const size_t X300_PCIE_MSG_FRAME_SIZE = 256; //bytes static const size_t X300_PCIE_MSG_NUM_FRAMES = 64; static const size_t X300_PCIE_MAX_CHANNELS = 6; static const size_t X300_PCIE_MAX_MUXED_XPORTS = 32; static const size_t X300_10GE_DATA_FRAME_MAX_SIZE = 8000; // CHDR packet size in bytes static const size_t X300_1GE_DATA_FRAME_MAX_SIZE = 1472; // CHDR packet size in bytes static const size_t X300_ETH_MSG_FRAME_SIZE = uhd::transport::udp_simple::mtu; //bytes static const double X300_THREAD_BUFFER_TIMEOUT = 0.1; // Time in seconds static const size_t X300_ETH_MSG_NUM_FRAMES = 64; static const size_t X300_ETH_DATA_NUM_FRAMES = 32; static const double X300_DEFAULT_SYSREF_RATE = 10e6; static const size_t X300_MAX_RATE_PCIE = 800000000; // bytes/s static const size_t X300_MAX_RATE_10GIGE = (size_t)( // bytes/s 10e9 / 8 * // wire speed multiplied by percentage of packets that is sample data ( float(X300_10GE_DATA_FRAME_MAX_SIZE - uhd::usrp::DEVICE3_TX_MAX_HDR_LEN) / float(X300_10GE_DATA_FRAME_MAX_SIZE + 8 /* UDP header */ + 20 /* Ethernet header length */ ))); static const size_t X300_MAX_RATE_1GIGE = (size_t)( // bytes/s 10e9 / 8 * // wire speed multiplied by percentage of packets that is sample data ( float(X300_1GE_DATA_FRAME_MAX_SIZE - uhd::usrp::DEVICE3_TX_MAX_HDR_LEN) / float(X300_1GE_DATA_FRAME_MAX_SIZE + 8 /* UDP header */ + 20 /* Ethernet header length */ ))); #define X300_RADIO_DEST_PREFIX_TX 0 #define X300_XB_DST_E0 0 #define X300_XB_DST_E1 1 #define X300_XB_DST_PCI 2 #define X300_XB_DST_R0 3 // Radio 0 -> Slot A #define X300_XB_DST_R1 4 // Radio 1 -> Slot B #define X300_XB_DST_CE0 5 #define X300_SRC_ADDR0 0 #define X300_SRC_ADDR1 1 #define X300_DST_ADDR 2 // Ethernet ports enum x300_eth_iface_t { X300_IFACE_NONE = 0, X300_IFACE_ETH0 = 1, X300_IFACE_ETH1 = 2, }; struct x300_eth_conn_t { std::string addr; x300_eth_iface_t type; }; uhd::uart_iface::sptr x300_make_uart_iface(uhd::wb_iface::sptr iface); uhd::wb_iface::sptr x300_make_ctrl_iface_enet(uhd::transport::udp_simple::sptr udp, bool enable_errors = true); uhd::wb_iface::sptr x300_make_ctrl_iface_pcie(uhd::niusrprio::niriok_proxy::sptr drv_proxy, bool enable_errors = true); uhd::device_addrs_t x300_find(const uhd::device_addr_t &hint_); class x300_impl : public uhd::usrp::device3_impl { public: x300_impl(const uhd::device_addr_t &); void setup_mb(const size_t which, const uhd::device_addr_t &); ~x300_impl(void); // used by x300_find_with_addr to find X300 devices. static boost::mutex claimer_mutex; //All claims and checks in this process are serialized static bool is_claimed(uhd::wb_iface::sptr); enum x300_mboard_t { USRP_X300_MB, USRP_X310_MB, UNKNOWN }; static x300_mboard_t get_mb_type_from_pcie(const std::string& resource, const std::string& rpc_port); static x300_mboard_t get_mb_type_from_eeprom(const uhd::usrp::mboard_eeprom_t& mb_eeprom); protected: void subdev_to_blockid( const uhd::usrp::subdev_spec_pair_t &spec, const size_t mb_i, uhd::rfnoc::block_id_t &block_id, uhd::device_addr_t &block_args ); uhd::usrp::subdev_spec_pair_t blockid_to_subdev( const uhd::rfnoc::block_id_t &blockid, const uhd::device_addr_t &block_args ); private: //vector of member objects per motherboard struct mboard_members_t { bool initialization_done; uhd::task::sptr claimer_task; std::string xport_path; std::vector eth_conns; size_t next_src_addr; // Discover the ethernet connections per motherboard void discover_eth(const uhd::usrp::mboard_eeprom_t mb_eeprom, const std::vector &ip_addrs); // Get the primary ethernet connection inline const x300_eth_conn_t& get_pri_eth() const { return eth_conns[0]; } uhd::device_addr_t send_args; uhd::device_addr_t recv_args; bool if_pkt_is_big_endian; uhd::niusrprio::niusrprio_session::sptr rio_fpga_interface; //perifs in the zpu uhd::wb_iface::sptr zpu_ctrl; spi_core_3000::sptr zpu_spi; i2c_core_100_wb32::sptr zpu_i2c; //other perifs on mboard x300_clock_ctrl::sptr clock; uhd::gps_ctrl::sptr gps; uhd::usrp::x300::fw_regmap_t::sptr fw_regmap; //which FPGA image is loaded std::string loaded_fpga_image; size_t hw_rev; std::string current_refclk_src; std::vector radios; }; std::vector _mb; //task for periodically reclaiming the device from others void claimer_loop(uhd::wb_iface::sptr); size_t _sid_framer; uhd::sid_t allocate_sid( mboard_members_t &mb, const uhd::sid_t &address, const uint32_t src_addr, const uint32_t src_dst); uhd::both_xports_t make_transport( const uhd::sid_t &address, const xport_type_t xport_type, const uhd::device_addr_t& args ); struct frame_size_t { size_t recv_frame_size; size_t send_frame_size; }; frame_size_t _max_frame_sizes; /*! * Automatically determine the maximum frame size available by sending a UDP packet * to the device and see which packet sizes actually work. This way, we can take * switches etc. into account which might live between the device and the host. */ frame_size_t determine_max_frame_size(const std::string &addr, const frame_size_t &user_mtu); std::map _dma_chan_pool; uhd::transport::muxed_zero_copy_if::sptr _ctrl_dma_xport; /*! Allocate or return a previously allocated PCIe channel pair * * Note the SID is always the transmit SID (i.e. from host to device). */ uint32_t allocate_pcie_dma_chan(const uhd::sid_t &tx_sid, const xport_type_t xport_type); //////////////////////////////////////////////////////////////////// // //Caching for transport interface re-use -- like sharing a DMA. //The cache is optionally used by make_transport by use-case. //The cache maps an ID string to a transport-ish object. //The ID string identifies a purpose for the transport. // //For recv, there is a demux cache, which maps a ID string //to a recv demux object. When a demux is used, the underlying transport //must never be used outside of the demux. Use demux->make_proxy(sid). // uhd::dict _demux_cache; // //For send, there is a shared send xport, which maps an ID string //to a transport capable of sending buffers. Send transports //can be shared amongst multiple callers, unlike recv. // uhd::dict _send_cache; // //////////////////////////////////////////////////////////////////// uhd::dict _dboard_managers; bool _ignore_cal_file; void update_clock_control(mboard_members_t&); void initialize_clock_control(mboard_members_t &mb); void set_time_source_out(mboard_members_t&, const bool); void update_clock_source(mboard_members_t&, const std::string &); void update_time_source(mboard_members_t&, const std::string &); void sync_times(mboard_members_t&, const uhd::time_spec_t&); uhd::sensor_value_t get_ref_locked(mboard_members_t& mb); bool wait_for_clk_locked(mboard_members_t& mb, boost::uint32_t which, double timeout); bool is_pps_present(mboard_members_t& mb); void set_mb_eeprom(uhd::i2c_iface::sptr i2c, const uhd::usrp::mboard_eeprom_t &); void check_fw_compat(const uhd::fs_path &mb_path, uhd::wb_iface::sptr iface); void check_fpga_compat(const uhd::fs_path &mb_path, const mboard_members_t &members); /// More IO stuff uhd::device_addr_t get_tx_hints(size_t mb_index); uhd::device_addr_t get_rx_hints(size_t mb_index); uhd::endianness_t get_transport_endianness(size_t mb_index) { return _mb[mb_index].if_pkt_is_big_endian ? uhd::ENDIANNESS_BIG : uhd::ENDIANNESS_LITTLE; }; void post_streamer_hooks(uhd::direction_t dir); }; #endif /* INCLUDED_X300_IMPL_HPP */ // vim: sw=4 expandtab: