//
// Copyright 2013 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_REGS_HPP
#define INCLUDED_X300_REGS_HPP
#include
#include
#include
static const int BL_ADDRESS = 0;
static const int BL_DATA = 1;
//wishbone settings map - relevant to host code
#define SET0_BASE 0xa000
#define SETXB_BASE 0xb000
#define BOOT_LDR_BASE 0xfa00
#define I2C0_BASE 0xfe00
#define I2C1_BASE 0xff00
#define SR_ADDR(base, offset) ((base) + (offset)*4)
//I2C1 device addresses
#define MBOARD_EEPROM_ADDR 0x50
static const int ZPU_SR_LEDS = 00;
static const int ZPU_SR_SW_RST = 01;
static const int ZPU_SR_CLOCK_CTRL = 02;
static const int ZPU_SR_XB_LOCAL = 03;
static const int ZPU_SR_SPI = 32;
static const int ZPU_SR_ETHINT0 = 40;
static const int ZPU_SR_ETHINT1 = 56;
static const int ZPU_SR_DRAM_FIFO0 = 72;
static const int ZPU_SR_DRAM_FIFO1 = 80;
//reset bits
#define ZPU_SR_SW_RST_ETH_PHY (1<<0)
#define ZPU_SR_SW_RST_RADIO_RST (1<<1)
#define ZPU_SR_SW_RST_RADIO_CLK_PLL (1<<2)
#define ZPU_SR_SW_RST_ADC_IDELAYCTRL (1<<3)
static const int ZPU_RB_SPI = 2;
static const int ZPU_RB_CLK_STATUS = 3;
static const int ZPU_RB_COMPAT_NUM = 6;
static const int ZPU_RB_NUM_CE = 7;
static const int ZPU_RB_GIT_HASH = 10;
static const int ZPU_RB_SFP0_TYPE = 4;
static const int ZPU_RB_SFP1_TYPE = 5;
static const uint32_t RB_SFP_1G_ETH = 0;
static const uint32_t RB_SFP_10G_ETH = 1;
static const uint32_t RB_SFP_AURORA = 2;
//spi slaves on radio
#define DB_DAC_SEN (1 << 7)
#define DB_ADC_SEN (1 << 6)
#define DB_RX_LSADC_SEN (1 << 5)
#define DB_RX_LSDAC_SEN (1 << 4)
#define DB_TX_LSADC_SEN (1 << 3)
#define DB_TX_LSDAC_SEN (1 << 2)
#define DB_RX_SEN (1 << 1)
#define DB_TX_SEN (1 << 0)
//-------------------------------------------------------------------
// PCIe Registers
//-------------------------------------------------------------------
static const uint32_t X300_PCIE_VID = 0x1093;
static const uint32_t X300_PCIE_PID = 0xC4C4;
//Rev 0-6 motherboard/PCIe IDs (ADC driven at 3.3V)
static const uint32_t X300_USRP_PCIE_SSID_ADC_33 = 0x7736;
static const uint32_t X310_USRP_PCIE_SSID_ADC_33 = 0x76CA;
static const uint32_t X310_2940R_40MHz_PCIE_SSID_ADC_33 = 0x772B;
static const uint32_t X310_2940R_120MHz_PCIE_SSID_ADC_33 = 0x77FB;
static const uint32_t X310_2942R_40MHz_PCIE_SSID_ADC_33 = 0x772C;
static const uint32_t X310_2942R_120MHz_PCIE_SSID_ADC_33 = 0x77FC;
static const uint32_t X310_2943R_40MHz_PCIE_SSID_ADC_33 = 0x772D;
static const uint32_t X310_2943R_120MHz_PCIE_SSID_ADC_33 = 0x77FD;
static const uint32_t X310_2944R_40MHz_PCIE_SSID_ADC_33 = 0x772E;
static const uint32_t X310_2950R_40MHz_PCIE_SSID_ADC_33 = 0x772F;
static const uint32_t X310_2950R_120MHz_PCIE_SSID_ADC_33 = 0x77FE;
static const uint32_t X310_2952R_40MHz_PCIE_SSID_ADC_33 = 0x7730;
static const uint32_t X310_2952R_120MHz_PCIE_SSID_ADC_33 = 0x77FF;
static const uint32_t X310_2953R_40MHz_PCIE_SSID_ADC_33 = 0x7731;
static const uint32_t X310_2953R_120MHz_PCIE_SSID_ADC_33 = 0x7800;
static const uint32_t X310_2954R_40MHz_PCIE_SSID_ADC_33 = 0x7732;
//Rev 7+ motherboard/PCIe IDs (ADCs driven at 1.8V)
static const uint32_t X300_USRP_PCIE_SSID_ADC_18 = 0x7861;
static const uint32_t X310_USRP_PCIE_SSID_ADC_18 = 0x7862;
static const uint32_t X310_2940R_40MHz_PCIE_SSID_ADC_18 = 0x7853;
static const uint32_t X310_2940R_120MHz_PCIE_SSID_ADC_18 = 0x785B;
static const uint32_t X310_2942R_40MHz_PCIE_SSID_ADC_18 = 0x7854;
static const uint32_t X310_2942R_120MHz_PCIE_SSID_ADC_18 = 0x785C;
static const uint32_t X310_2943R_40MHz_PCIE_SSID_ADC_18 = 0x7855;
static const uint32_t X310_2943R_120MHz_PCIE_SSID_ADC_18 = 0x785D;
static const uint32_t X310_2944R_40MHz_PCIE_SSID_ADC_18 = 0x7856;
static const uint32_t X310_2945R_PCIE_SSID_ADC_18 = 0x78EF;
static const uint32_t X310_2950R_40MHz_PCIE_SSID_ADC_18 = 0x7857;
static const uint32_t X310_2950R_120MHz_PCIE_SSID_ADC_18 = 0x785E;
static const uint32_t X310_2952R_40MHz_PCIE_SSID_ADC_18 = 0x7858;
static const uint32_t X310_2952R_120MHz_PCIE_SSID_ADC_18 = 0x785F;
static const uint32_t X310_2953R_40MHz_PCIE_SSID_ADC_18 = 0x7859;
static const uint32_t X310_2953R_120MHz_PCIE_SSID_ADC_18 = 0x7860;
static const uint32_t X310_2954R_40MHz_PCIE_SSID_ADC_18 = 0x785A;
static const uint32_t X310_2955R_PCIE_SSID_ADC_18 = 0x78F0;
static const uint32_t FPGA_X3xx_SIG_VALUE = 0x58333030;
static const uint32_t PCIE_FPGA_ADDR_BASE = 0xC0000;
#define PCIE_FPGA_REG(X) (PCIE_FPGA_ADDR_BASE + (X))
static const uint32_t FPGA_PCIE_SIG_REG = PCIE_FPGA_REG(0x0000);
static const uint32_t FPGA_CNTR_LO_REG = PCIE_FPGA_REG(0x0004);
static const uint32_t FPGA_CNTR_HI_REG = PCIE_FPGA_REG(0x0008);
static const uint32_t FPGA_CNTR_FREQ_REG = PCIE_FPGA_REG(0x000C);
static const uint32_t FPGA_STATUS_REG = PCIE_FPGA_REG(0x0020);
static const uint32_t FPGA_USR_SIG_REG_BASE = PCIE_FPGA_REG(0x0030);
static const uint32_t FPGA_USR_SIG_REG_SIZE = 16;
static const uint32_t FPGA_STATUS_DMA_ACTIVE_MASK = 0x3F3F0000;
static const uint32_t PCIE_TX_DMA_REG_BASE = PCIE_FPGA_REG(0x0200);
static const uint32_t PCIE_RX_DMA_REG_BASE = PCIE_FPGA_REG(0x0400);
static const uint32_t DMA_REG_GRP_SIZE = 16;
static const uint32_t DMA_CTRL_STATUS_REG = 0x0;
static const uint32_t DMA_FRAME_SIZE_REG = 0x4;
static const uint32_t DMA_SAMPLE_COUNT_REG = 0x8;
static const uint32_t DMA_PKT_COUNT_REG = 0xC;
#define PCIE_TX_DMA_REG(REG, CHAN) (PCIE_TX_DMA_REG_BASE + ((CHAN)*DMA_REG_GRP_SIZE) + (REG))
#define PCIE_RX_DMA_REG(REG, CHAN) (PCIE_RX_DMA_REG_BASE + ((CHAN)*DMA_REG_GRP_SIZE) + (REG))
static const uint32_t DMA_CTRL_DISABLED = 0x00000000;
static const uint32_t DMA_CTRL_ENABLED = 0x00000002;
static const uint32_t DMA_CTRL_CLEAR_STB = 0x00000001;
static const uint32_t DMA_CTRL_SW_BUF_U64 = (3 << 4);
static const uint32_t DMA_CTRL_SW_BUF_U32 = (2 << 4);
static const uint32_t DMA_CTRL_SW_BUF_U16 = (1 << 4);
static const uint32_t DMA_CTRL_SW_BUF_U8 = (0 << 4);
static const uint32_t DMA_STATUS_ERROR = 0x00000001;
static const uint32_t DMA_STATUS_BUSY = 0x00000002;
static const uint32_t PCIE_ROUTER_REG_BASE = PCIE_FPGA_REG(0x0500);
#define PCIE_ROUTER_REG(X) (PCIE_ROUTER_REG_BASE + (X))
static const uint32_t PCIE_ZPU_DATA_BASE = 0x30000;
static const uint32_t PCIE_ZPU_READ_BASE = 0x20000; //Trig and Status share the same base
static const uint32_t PCIE_ZPU_STATUS_BASE = 0x20000;
#define PCIE_ZPU_DATA_REG(X) (PCIE_FPGA_REG(PCIE_ZPU_DATA_BASE) + (X))
#define PCIE_ZPU_READ_REG(X) (PCIE_FPGA_REG(PCIE_ZPU_READ_BASE) + (X))
#define PCIE_ZPU_STATUS_REG(X) (PCIE_FPGA_REG(PCIE_ZPU_STATUS_BASE) + (X))
static const uint32_t PCIE_ZPU_READ_START = 0x0;
static const uint32_t PCIE_ZPU_READ_CLOBBER = 0x80000000;
static const uint32_t PCIE_ZPU_STATUS_BUSY = 0x1;
static const uint32_t PCIE_ZPU_STATUS_SUSPENDED = 0x80000000;
//-------------------------------------------------------------------
// Register Maps
//-------------------------------------------------------------------
namespace uhd { namespace usrp { namespace x300 {
class fw_regmap_t : public uhd::soft_regmap_t {
public:
typedef boost::shared_ptr sptr;
class clk_ctrl_reg_t : public uhd::soft_reg32_wo_t {
public:
UHD_DEFINE_SOFT_REG_FIELD(CLK_SOURCE, /*width*/ 2, /*shift*/ 0); //[1:0]
UHD_DEFINE_SOFT_REG_FIELD(PPS_SELECT, /*width*/ 2, /*shift*/ 2); //[3:2]
UHD_DEFINE_SOFT_REG_FIELD(PPS_OUT_EN, /*width*/ 1, /*shift*/ 4); //[4]
UHD_DEFINE_SOFT_REG_FIELD(TCXO_EN, /*width*/ 1, /*shift*/ 5); //[5]
UHD_DEFINE_SOFT_REG_FIELD(GPSDO_PWR_EN, /*width*/ 1, /*shift*/ 6); //[6]
UHD_DEFINE_SOFT_REG_FIELD(TIME_SYNC, /*width*/ 1, /*shift*/ 7); //[7]
static const uint32_t SRC_EXTERNAL = 0x0;
static const uint32_t SRC_INTERNAL = 0x2;
static const uint32_t SRC_GPSDO = 0x3;
clk_ctrl_reg_t(): uhd::soft_reg32_wo_t(SR_ADDR(SET0_BASE, ZPU_SR_CLOCK_CTRL)) {
//Initial values
set(CLK_SOURCE, SRC_INTERNAL);
set(PPS_SELECT, SRC_INTERNAL);
set(PPS_OUT_EN, 0);
set(TCXO_EN, 1);
set(GPSDO_PWR_EN, 1); //GPSDO power always ON
set(TIME_SYNC, 0);
}
} clock_ctrl_reg;
class clk_status_reg_t : public uhd::soft_reg32_ro_t {
public:
UHD_DEFINE_SOFT_REG_FIELD(LMK_STATUS, /*width*/ 2, /*shift*/ 0); //[1:0]
UHD_DEFINE_SOFT_REG_FIELD(LMK_LOCK, /*width*/ 1, /*shift*/ 2); //[2]
UHD_DEFINE_SOFT_REG_FIELD(LMK_HOLDOVER, /*width*/ 1, /*shift*/ 3); //[3]
UHD_DEFINE_SOFT_REG_FIELD(PPS_DETECT, /*width*/ 1, /*shift*/ 4); //[4]
UHD_DEFINE_SOFT_REG_FIELD(RADIO_CLK_LOCK, /*width*/ 1, /*shift*/ 5); //[5]
UHD_DEFINE_SOFT_REG_FIELD(IDELAYCTRL_LOCK, /*width*/ 1, /*shift*/ 6); //[6]
clk_status_reg_t(): uhd::soft_reg32_ro_t(SR_ADDR(SET0_BASE, ZPU_RB_CLK_STATUS)) {}
} clock_status_reg;
fw_regmap_t() : soft_regmap_t("fw_regmap") {
add_to_map(clock_ctrl_reg, "clock_ctrl_reg", PUBLIC);
add_to_map(clock_status_reg, "clock_status_reg", PUBLIC);
}
};
}}}
#endif /* INCLUDED_X300_REGS_HPP */