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// Copyright 2010-2012 Ettus Research LLC
/*
* Copyright 2007,2008,2009 Free Software Foundation, Inc.
*
* 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 <http://www.gnu.org/licenses/>.
*/
#ifndef INCLUDED_MEMORY_MAP_H
#define INCLUDED_MEMORY_MAP_H
#include <stdint.h>
#define MASTER_CLK_RATE 100000000 // 100 MHz
////////////////////////////////////////////////////////////////////////
// Define slave bases
////////////////////////////////////////////////////////////////////////
#define ROUTER_RAM_BASE 0x4000
#define SPI_BASE 0x5000
#define I2C_BASE 0x5400
#define GPIO_BASE 0x5800
#define READBACK_BASE 0x5C00
#define ETH_BASE 0x6000
#define SETTING_REGS_BASE 0x7000
#define PIC_BASE 0x8000
#define UART_BASE 0x8800
#define ATR_BASE 0x8C00
#ifdef USRP2
#define SDSPI_BASE 0xB000
#endif
#ifdef USRP2P
#define ICAP_BASE 0xA000
#define SPIF_BASE 0xB000
#define RAM_BASE 0xC000
#endif
/////////////////////////////////////////////////////
// SPI Core, Slave 2. See core docs for more info
/////////////////////////////////////////////////////
// Masks for controlling different peripherals
#define SPI_SS_AD9510 1
#define SPI_SS_AD9777 2
#define SPI_SS_RX_DAC 4
#define SPI_SS_RX_ADC 8
#define SPI_SS_RX_DB 16
#define SPI_SS_TX_DAC 32
#define SPI_SS_TX_ADC 64
#define SPI_SS_TX_DB 128
#define SPI_SS_ADS62P44 256
// Masks for different parts of CTRL reg
#define SPI_CTRL_ASS (1<<13)
#define SPI_CTRL_IE (1<<12)
#define SPI_CTRL_LSB (1<<11)
#define SPI_CTRL_TXNEG (1<<10)
#define SPI_CTRL_RXNEG (1<< 9)
#define SPI_CTRL_GO_BSY (1<< 8)
#define SPI_CTRL_CHAR_LEN_MASK 0x7F
////////////////////////////////////////////////
// I2C, Slave 3
////////////////////////////////////////////////
typedef struct {
volatile uint32_t prescaler_lo; // r/w
volatile uint32_t prescaler_hi; // r/w
volatile uint32_t ctrl; // r/w
volatile uint32_t data; // wr = transmit reg; rd = receive reg
volatile uint32_t cmd_status; // wr = command reg; rd = status reg
} i2c_regs_t;
#define i2c_regs ((i2c_regs_t *) I2C_BASE)
#define I2C_CTRL_EN (1 << 7) // core enable
#define I2C_CTRL_IE (1 << 6) // interrupt enable
//
// STA, STO, RD, WR, and IACK bits are cleared automatically
//
#define I2C_CMD_START (1 << 7) // generate (repeated) start condition
#define I2C_CMD_STOP (1 << 6) // generate stop condition
#define I2C_CMD_RD (1 << 5) // read from slave
#define I2C_CMD_WR (1 << 4) // write to slave
#define I2C_CMD_NACK (1 << 3) // when a rcvr, send ACK (ACK=0) or NACK (ACK=1)
#define I2C_CMD_RSVD_2 (1 << 2) // reserved
#define I2C_CMD_RSVD_1 (1 << 1) // reserved
#define I2C_CMD_IACK (1 << 0) // set to clear pending interrupt
#define I2C_ST_RXACK (1 << 7) // Received acknowledgement from slave (1 = NAK, 0 = ACK)
#define I2C_ST_BUSY (1 << 6) // 1 after START signal detected; 0 after STOP signal detected
#define I2C_ST_AL (1 << 5) // Arbitration lost. 1 when core lost arbitration
#define I2C_ST_RSVD_4 (1 << 4) // reserved
#define I2C_ST_RSVD_3 (1 << 3) // reserved
#define I2C_ST_RSVD_2 (1 << 2) // reserved
#define I2C_ST_TIP (1 << 1) // Transfer-in-progress
#define I2C_ST_IP (1 << 0) // Interrupt pending
///////////////////////////////////////////////////
// Packet Router Status, Slave 5
///////////////////////////////////////////////////
typedef struct {
volatile uint32_t spi;
volatile uint32_t _padding[7];
volatile uint32_t status;
volatile uint32_t _unused;
volatile uint32_t time64_secs_rb;
volatile uint32_t time64_ticks_rb;
volatile uint32_t compat_num;
volatile uint32_t irqs;
} router_status_t;
#define router_status ((router_status_t *) READBACK_BASE)
#define readback_mux ((router_status_t *) READBACK_BASE) //alias with a better name
/*!
* \brief return non-zero if we're running under the simulator
*/
inline static int
hwconfig_simulation_p(void)
{
return 0;
}
/*!
* \brief Return Wishbone Clock divisor.
* The processor runs at the Wishbone Clock rate which is MASTER_CLK_RATE / divisor.
*/
inline static int
hwconfig_wishbone_divisor(void)
{
return 2;
}
///////////////////////////////////////////////////
// Ethernet Core, Slave 6
///////////////////////////////////////////////////
typedef struct {
volatile int settings;
volatile int ucast_hi;
volatile int ucast_lo;
volatile int mcast_hi;
volatile int mcast_lo;
volatile int miimoder;
volatile int miiaddress;
volatile int miitx_data;
volatile int miicommand;
volatile int miistatus;
volatile int miirx_data;
volatile int pause_time;
volatile int pause_thresh;
} eth_mac_regs_t;
// settings register
#define MAC_SET_PAUSE_EN (1 << 0) // Makes us respect received pause frames (normally on)
#define MAC_SET_PASS_ALL (1 << 1) // Enables promiscuous mode, currently broken
#define MAC_SET_PASS_PAUSE (1 << 2) // Sends pause frames through (normally off)
#define MAC_SET_PASS_BCAST (1 << 3) // Sends broadcast frames through (normally on)
#define MAC_SET_PASS_MCAST (1 << 4) // Sends multicast frames that match mcast addr (normally off)
#define MAC_SET_PASS_UCAST (1 << 5) // Sends unicast (normal) frames through if they hit in address filter (normally on)
#define MAC_SET_PAUSE_SEND_EN (1 << 6) // Enables sending pause frames
// miicommand register
#define MIIC_SCANSSTAT (1 << 0) // Scan status
#define MIIC_RSTAT (1 << 1) // Read status
#define MIIC_WCTRLDATA (1 << 2) // Write control data
// miistatus register
#define MIIS_LINKFAIL (1 << 0) // The link failed
#define MIIS_BUSY (1 << 1) // The MII is busy (operation in progress)
#define MIIS_NVALID (1 << 2) // The data in the status register is invalid
// This it is only valid when the scan status is active.
#define eth_mac ((eth_mac_regs_t *) ETH_BASE)
////////////////////////////////////////////////////
// Settings Bus, Slave #7, Not Byte Addressable!
//
// Output-only from processor point-of-view.
// 1KB of address space (== 256 32-bit write-only regs)
////////////////////////////////////////////////////
#define SR_MISC 0 // 7 regs
#define SR_SIMTIMER 8 // 2
#define SR_TIME64 10 // 6
#define SR_BUF_POOL 16 // 4
#define SR_SPI_CORE 20 // 3
#define SR_RX_FRONT 24 // 5
#define SR_RX_CTRL0 32 // 9
#define SR_RX_DSP0 48 // 7
#define SR_RX_CTRL1 80 // 9
#define SR_RX_DSP1 96 // 7
#define SR_TX_FRONT 128 // ?
#define SR_TX_CTRL 144 // 6
#define SR_TX_DSP 160 // 5
#define SR_UDP_SM 192 // 64
#define _SR_ADDR(sr) (SETTING_REGS_BASE + (sr) * sizeof(uint32_t))
#define SR_ADDR_BLDRDONE _SR_ADDR(5)
// --- spi core control regs ---
typedef struct {
volatile uint32_t divider;
volatile uint32_t control;
volatile uint32_t data;
} spi_core_t;
#define SPI_CORE_SLAVE_SELECT_SHIFT 0
#define SPI_CORE_NUM_BITS_SHIFT 24
#define SPI_CORE_DATA_IN_EDGE_SHIFT 30
#define SPI_CORE_DATA_OUT_EDGE_SHIFT 31
#define spi_core ((spi_core_t *) _SR_ADDR(SR_SPI_CORE))
// --- packet router control regs ---
typedef struct {
volatile uint32_t mode_ctrl;
volatile uint32_t ip_addr;
volatile uint32_t data_ports; //dsp0 (low 16) dsp1 (high 16)
volatile uint32_t iface_ctrl;
} router_ctrl_t;
#define router_ctrl ((router_ctrl_t *) _SR_ADDR(SR_BUF_POOL))
// --- misc outputs ---
typedef struct {
volatile uint32_t clk_ctrl;
volatile uint32_t serdes_ctrl;
volatile uint32_t adc_ctrl;
volatile uint32_t leds;
volatile uint32_t phy_ctrl; // LSB is reset line to eth phy
volatile uint32_t debug_mux_ctrl;
volatile uint32_t led_src; // HW or SW control for LEDs
volatile uint32_t flush_icache; // Flush the icache
} output_regs_t;
#define CLK_RESET (1<<4)
#define CLK_ENABLE (1<<3) | (1<<2)
#define CLK_SEL (1<<1) | (1<<0)
#define SERDES_ENABLE 8
#define SERDES_PRBSEN 4
#define SERDES_LOOPEN 2
#define SERDES_RXEN 1
#define ADC_CTRL_ON 0x0F
#define ADC_CTRL_OFF 0x00
// crazy order that matches the labels on the case
#define LED_A (1 << 4)
#define LED_B (1 << 1)
#define LED_E (1 << 2)
#define LED_D (1 << 0)
#define LED_C (1 << 3)
// LED_F // controlled by CPLD
#define LED_RJ45 (1 << 5)
#define output_regs ((output_regs_t *) SETTING_REGS_BASE)
// --- protocol framer regs ---
typedef struct{
struct{
volatile uint32_t entry[16];
} table[4];
} sr_proto_framer_t;
#define sr_proto_framer_regs ((sr_proto_framer_t *) _SR_ADDR(SR_UDP_SM))
// --- VITA TX CTRL regs ---
typedef struct {
volatile uint32_t _pad[4];
volatile uint32_t cyc_per_up;
} sr_tx_ctrl_t;
#define sr_tx_ctrl ((sr_tx_ctrl_t *) _SR_ADDR(SR_TX_CTRL))
// --- VITA RX CTRL regs ---
typedef struct {
volatile uint32_t _pad[3];
volatile uint32_t clear;
} sr_rx_ctrl_t;
#define sr_rx_ctrl0 ((sr_rx_ctrl_t *) _SR_ADDR(SR_RX_CTRL0))
#define sr_rx_ctrl1 ((sr_rx_ctrl_t *) _SR_ADDR(SR_RX_CTRL1))
// ----------------------------------------------------------------
// VITA49 64 bit time (write only)
/*!
* \brief Time 64 flags
*
* <pre>
*
* 3 2 1
* 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
* +-----------------------------------------------------------+-+-+
* | |S|P|
* +-----------------------------------------------------------+-+-+
*
* P - PPS edge selection (0=negedge, 1=posedge, default=0)
* S - Source (0=sma, 1=mimo, 0=default)
*
* </pre>
*/
typedef struct {
volatile uint32_t secs; // value to set absolute secs to on next PPS
volatile uint32_t ticks; // value to set absolute ticks to on next PPS
volatile uint32_t flags; // flags - see chart above
volatile uint32_t imm; // set immediate (0=latch on next pps, 1=latch immediate, default=0)
} sr_time64_t;
#define sr_time64 ((sr_time64_t *) _SR_ADDR(SR_TIME64))
///////////////////////////////////////////////////////
// Simple Programmable Interrupt Controller, Slave 8
///////////////////////////////////////////////////////
// Interrupt request lines
// Bit numbers (LSB == 0) that correpond to interrupts into PIC
#define IRQ_BUFFER 0 // buffer manager
#define IRQ_ONETIME 1
#define IRQ_SPI 2
#define IRQ_I2C 3
#define IRQ_PHY 4 // ethernet PHY
#define IRQ_UNDERRUN 5
#define IRQ_OVERRUN 6
#define IRQ_PPS 7 // pulse per second
#define IRQ_UART_RX 8
#define IRQ_UART_TX 9
#define IRQ_SERDES 10
#define IRQ_CLKSTATUS 11
#define IRQ_PERIODIC 12
#define IRQ_BUTTON 13
#define IRQ_TO_MASK(x) (1 << (x))
#define PIC_BUFFER_INT IRQ_TO_MASK(IRQ_BUFFER)
#define PIC_ONETIME_INT IRQ_TO_MASK(IRQ_ONETIME)
#define PIC_SPI_INT IRQ_TO_MASK(IRQ_SPI)
#define PIC_I2C_INT IRQ_TO_MASK(IRQ_I2C)
#define PIC_PHY_INT IRQ_TO_MASK(IRQ_PHY)
#define PIC_UNDERRUN_INT IRQ_TO_MASK(IRQ_UNDERRUN)
#define PIC_OVERRUN_INT IRQ_TO_MASK(IRQ_OVERRUN)
#define PIC_PPS_INT IRQ_TO_MASK(IRQ_PPS)
#define PIC_UART_RX_INT IRQ_TO_MASK(IRQ_UART_RX)
#define PIC_UART_TX_INT IRQ_TO_MASK(IRQ_UART_TX)
#define PIC_SERDES IRQ_TO_MASK(IRQ_SERDES)
#define PIC_CLKSTATUS IRQ_TO_MASK(IRQ_CLKSTATUS)
#define PIC_BUTTON IRQ_TO_MASK(IRQ_BUTTON)
typedef struct {
volatile uint32_t edge_enable; // mask: 1 -> edge triggered, 0 -> level
volatile uint32_t polarity; // mask: 1 -> rising edge
volatile uint32_t mask; // mask: 1 -> disabled
volatile uint32_t pending; // mask: 1 -> pending; write 1's to clear pending ints
} pic_regs_t;
#define pic_regs ((pic_regs_t *) PIC_BASE)
// ----------------------------------------------------------------
// WB_CLK_RATE is the time base for this
typedef struct {
volatile uint32_t onetime; // Number of wb clk cycles till the onetime interrupt
volatile uint32_t periodic; // Repeat rate of periodic interrupt
} sr_simple_timer_t;
#define sr_simple_timer ((sr_simple_timer_t *) _SR_ADDR(SR_SIMTIMER))
///////////////////////////////////////////////////
// UART, Slave 10
///////////////////////////////////////////////////
typedef struct {
// All elements are 8 bits except for clkdiv (16), but we use uint32 to make
// the hardware for decoding easier
volatile uint32_t clkdiv; // Set to 50e6 divided by baud rate (no x16 factor)
volatile uint32_t txlevel; // Number of spaces in the FIFO for writes
volatile uint32_t rxlevel; // Number of available elements in the FIFO for reads
volatile uint32_t txchar; // Write characters to be sent here
volatile uint32_t rxchar; // Read received characters here
volatile uint32_t padding[3]; //what is this i don't even
} uart_regs_t;
#define uart_regs ((uart_regs_t *) UART_BASE)
///////////////////////////////////////////////////
// SD Card SPI interface, Slave 13
// All regs are 8 bits wide, but are accessed as if they are 32 bits
///////////////////////////////////////////////////
#ifdef USRP2
typedef struct {
volatile uint32_t status; // Write a 1 or 0 for controlling CS
volatile uint32_t clkdiv;
volatile uint32_t send_dat;
volatile uint32_t receive_dat;
} sdspi_regs_t;
#define sdspi_regs ((sdspi_regs_t *) SDSPI_BASE)
#endif //USRP2
///////////////////////////////////////////////////
// ICAP, Slave 13
///////////////////////////////////////////////////
#ifdef USRP2P
typedef struct {
uint32_t icap; //only the lower 8 bits matter
} icap_regs_t;
#define icap_regs ((icap_regs_t *) ICAP_BASE)
///////////////////////////////////////////////////
// SPI Flash interface, Slave 14
// Control register definitions are the same as SPI, so use SPI_CTRL_ASS, etc.
// Peripheral mask not needed since bus is dedicated (CE held low)
///////////////////////////////////////////////////
typedef struct {
volatile uint32_t txrx0;
volatile uint32_t txrx1;
volatile uint32_t txrx2;
volatile uint32_t txrx3;
volatile uint32_t ctrl;
volatile uint32_t div;
volatile uint32_t ss;
} spif_regs_t;
#define spif_regs ((spif_regs_t *) SPIF_BASE)
#endif //USRP2P
#endif /* INCLUDED_MEMORY_MAP_H */
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