// // Copyright 2010-2011 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 . // #include "usrp2_regs.hpp" #include "usrp2_iface.hpp" int sr_addr(int misc_output_base, int sr) { return misc_output_base + 4 * sr; } usrp2_regs_t usrp2_get_regs(bool use_n2xx_map) { //how about you just make this dependent on hw_rev instead of doing the init before main, and give up the const globals, since the application won't ever need both. const int misc_output_base = (use_n2xx_map) ? USRP2P_MISC_OUTPUT_BASE : USRP2_MISC_OUTPUT_BASE, gpio_base = (use_n2xx_map) ? USRP2P_GPIO_BASE : USRP2_GPIO_BASE, atr_base = (use_n2xx_map) ? USRP2P_ATR_BASE : USRP2_ATR_BASE, bp_base = (use_n2xx_map) ? USRP2P_BP_STATUS_BASE : USRP2_BP_STATUS_BASE; usrp2_regs_t x; x.sr_misc = 0; x.sr_tx_prot_eng = 32; x.sr_rx_prot_eng = 48; x.sr_buffer_pool_ctrl = 64; x.sr_udp_sm = 96; x.sr_tx_dsp = 208; x.sr_tx_ctrl = 224; x.sr_rx_dsp0 = 160; x.sr_rx_ctrl0 = 176; x.sr_rx_dsp1 = 240; x.sr_rx_ctrl1 = 32; x.sr_time64 = 192; x.sr_simtimer = 198; x.sr_last = 255; x.misc_ctrl_clock = sr_addr(misc_output_base, 0); x.misc_ctrl_serdes = sr_addr(misc_output_base, 1); x.misc_ctrl_adc = sr_addr(misc_output_base, 2); x.misc_ctrl_leds = sr_addr(misc_output_base, 3); x.misc_ctrl_phy = sr_addr(misc_output_base, 4); x.misc_ctrl_dbg_mux = sr_addr(misc_output_base, 5); x.misc_ctrl_ram_page = sr_addr(misc_output_base, 6); x.misc_ctrl_flush_icache = sr_addr(misc_output_base, 7); x.misc_ctrl_led_src = sr_addr(misc_output_base, 8); x.time64_secs = sr_addr(misc_output_base, x.sr_time64 + 0); x.time64_ticks = sr_addr(misc_output_base, x.sr_time64 + 1); x.time64_flags = sr_addr(misc_output_base, x.sr_time64 + 2); x.time64_imm = sr_addr(misc_output_base, x.sr_time64 + 3); x.time64_tps = sr_addr(misc_output_base, x.sr_time64 + 4); x.time64_mimo_sync = sr_addr(misc_output_base, x.sr_time64 + 5); x.status = bp_base + 4*8; x.time64_secs_rb_imm = bp_base + 4*10; x.time64_ticks_rb_imm = bp_base + 4*11; x.compat_num_rb = bp_base + 4*12; x.irq_rb = bp_base + 4*13; x.time64_secs_rb_pps = bp_base + 4*14; x.time64_ticks_rb_pps = bp_base + 4*15; x.dsp_tx_freq = sr_addr(misc_output_base, x.sr_tx_dsp + 0); x.dsp_tx_scale_iq = sr_addr(misc_output_base, x.sr_tx_dsp + 1); x.dsp_tx_interp_rate = sr_addr(misc_output_base, x.sr_tx_dsp + 2); x.dsp_tx_mux = sr_addr(misc_output_base, x.sr_tx_dsp + 4); x.dsp_rx[0].freq = sr_addr(misc_output_base, x.sr_rx_dsp0 + 0); x.dsp_rx[0].scale_iq = sr_addr(misc_output_base, x.sr_rx_dsp0 + 1); x.dsp_rx[0].decim_rate = sr_addr(misc_output_base, x.sr_rx_dsp0 + 2); x.dsp_rx[0].dcoffset_i = sr_addr(misc_output_base, x.sr_rx_dsp0 + 3); x.dsp_rx[0].dcoffset_q = sr_addr(misc_output_base, x.sr_rx_dsp0 + 4); x.dsp_rx[0].mux = sr_addr(misc_output_base, x.sr_rx_dsp0 + 5); x.dsp_rx[1].freq = sr_addr(misc_output_base, x.sr_rx_dsp1 + 0); x.dsp_rx[1].scale_iq = sr_addr(misc_output_base, x.sr_rx_dsp1 + 1); x.dsp_rx[1].decim_rate = sr_addr(misc_output_base, x.sr_rx_dsp1 + 2); x.dsp_rx[1].dcoffset_i = sr_addr(misc_output_base, x.sr_rx_dsp1 + 3); x.dsp_rx[1].dcoffset_q = sr_addr(misc_output_base, x.sr_rx_dsp1 + 4); x.dsp_rx[1].mux = sr_addr(misc_output_base, x.sr_rx_dsp1 + 5); x.gpio_io = gpio_base + 0; x.gpio_ddr = gpio_base + 4; x.gpio_tx_sel = gpio_base + 8; x.gpio_rx_sel = gpio_base + 12; x.atr_idle_txside = atr_base + 0; x.atr_idle_rxside = atr_base + 2; x.atr_intx_txside = atr_base + 4; x.atr_intx_rxside = atr_base + 6; x.atr_inrx_txside = atr_base + 8; x.atr_inrx_rxside = atr_base + 10; x.atr_full_txside = atr_base + 12; x.atr_full_rxside = atr_base + 14; x.rx_ctrl[0].stream_cmd = sr_addr(misc_output_base, x.sr_rx_ctrl0 + 0); x.rx_ctrl[0].time_secs = sr_addr(misc_output_base, x.sr_rx_ctrl0 + 1); x.rx_ctrl[0].time_ticks = sr_addr(misc_output_base, x.sr_rx_ctrl0 + 2); x.rx_ctrl[0].clear_overrun = sr_addr(misc_output_base, x.sr_rx_ctrl0 + 3); x.rx_ctrl[0].vrt_header = sr_addr(misc_output_base, x.sr_rx_ctrl0 + 4); x.rx_ctrl[0].vrt_stream_id = sr_addr(misc_output_base, x.sr_rx_ctrl0 + 5); x.rx_ctrl[0].vrt_trailer = sr_addr(misc_output_base, x.sr_rx_ctrl0 + 6); x.rx_ctrl[0].nsamps_per_pkt = sr_addr(misc_output_base, x.sr_rx_ctrl0 + 7); x.rx_ctrl[0].nchannels = sr_addr(misc_output_base, x.sr_rx_ctrl0 + 8); x.rx_ctrl[1].stream_cmd = sr_addr(misc_output_base, x.sr_rx_ctrl1 + 0); x.rx_ctrl[1].time_secs = sr_addr(misc_output_base, x.sr_rx_ctrl1 + 1); x.rx_ctrl[1].time_ticks = sr_addr(misc_output_base, x.sr_rx_ctrl1 + 2); x.rx_ctrl[1].clear_overrun = sr_addr(misc_output_base, x.sr_rx_ctrl1 + 3); x.rx_ctrl[1].vrt_header = sr_addr(misc_output_base, x.sr_rx_ctrl1 + 4); x.rx_ctrl[1].vrt_stream_id = sr_addr(misc_output_base, x.sr_rx_ctrl1 + 5); x.rx_ctrl[1].vrt_trailer = sr_addr(misc_output_base, x.sr_rx_ctrl1 + 6); x.rx_ctrl[1].nsamps_per_pkt = sr_addr(misc_output_base, x.sr_rx_ctrl1 + 7); x.rx_ctrl[1].nchannels = sr_addr(misc_output_base, x.sr_rx_ctrl1 + 8); x.tx_ctrl_num_chan = sr_addr(misc_output_base, x.sr_tx_ctrl + 0); x.tx_ctrl_clear_state = sr_addr(misc_output_base, x.sr_tx_ctrl + 1); x.tx_ctrl_report_sid = sr_addr(misc_output_base, x.sr_tx_ctrl + 2); x.tx_ctrl_policy = sr_addr(misc_output_base, x.sr_tx_ctrl + 3); x.tx_ctrl_cycles_per_up = sr_addr(misc_output_base, x.sr_tx_ctrl + 4); x.tx_ctrl_packets_per_up = sr_addr(misc_output_base, x.sr_tx_ctrl + 5); return x; }