Subversion Repositories or1k

#include <signal.h>

#include <signal.h>

void catch_sigint(int sig_num); // First param must be "int"

void catch_sigint(int sig_num); // First param must be "int"

#endif

#endif

#include "gdb.h"

#include "gdb.h"

#include "usb_functions.h"

#include "usb_functions.h"

#include "vpi_functions.h"

#include "vpi_functions.h"

#include "or_debug_proxy.h"

#include "or_debug_proxy.h"

// Defines of endpoint numbers

// Defines of endpoint numbers

#define ENDPOINT_TARGET_NONE 0

#define ENDPOINT_TARGET_NONE 0

#define ENDPOINT_TARGET_USB 1

#define ENDPOINT_TARGET_USB 1

#define ENDPOINT_TARGET_VPI 2

#define ENDPOINT_TARGET_VPI 2

static int endpoint_target; // Either VPI interface via sockets, or the USB device

static int endpoint_target; // Either VPI interface via sockets, or the USB device

#define GDB_PROTOCOL_JTAG  1

#define GDB_PROTOCOL_JTAG  1

#define GDB_PROTOCOL_RSP   2

#define GDB_PROTOCOL_RSP   2

#define GDB_PROTOCOL_NONE  3

#define GDB_PROTOCOL_NONE  3

  char *s;

  char *s;

  int gdb_protocol = GDB_PROTOCOL_NONE;

  int gdb_protocol = GDB_PROTOCOL_NONE;

  endpoint_target = ENDPOINT_TARGET_NONE;

  endpoint_target = ENDPOINT_TARGET_NONE;

  int inp_arg = 1;

  int inp_arg = 1;

  // init our global error number

  // init our global error number

  err = DBG_ERR_OK;

  err = DBG_ERR_OK;

  // Parse input options

  // Parse input options

  if (argc < 3)

  if (argc < 3)

  signal(SIGINT, catch_sigint);

  signal(SIGINT, catch_sigint);

#endif

#endif

  /* Initialise connection to our OR1k system */

  /* Initialise connection to our OR1k system */

  current_chain = -1;

  current_chain = -1;

  /* USB Endpoint */

  /* USB Endpoint */

  if (endpoint_target == ENDPOINT_TARGET_USB)

  if (endpoint_target == ENDPOINT_TARGET_USB)

    {

    {

      printf("\nConnecting to OR1k via USB debug cable\n\n");

      printf("\nConnecting to OR1k via USB debug cable\n\n");

      if ((err = usb_dbg_reset())) goto JtagIfError;

      if ((err = usb_dbg_reset())) goto JtagIfError;

      dbg_test(); // Perform some tests

      dbg_test(); // Perform some tests

    }

    }

  /* RTL simulation endpoint */

  /* RTL simulation endpoint */

    printf("\nConnecting to OR1k RTL simulation\n\n");

    printf("\nConnecting to OR1k RTL simulation\n\n");

    // Connect to the (hopefully) already running RTL simulation server running via VPI

    // Connect to the (hopefully) already running RTL simulation server running via VPI

    vpi_fd = vpi_connect();

    vpi_fd = vpi_connect();

    if ((err = vpi_dbg_reset())) goto JtagIfError;

    if ((err = vpi_dbg_reset())) goto JtagIfError;

    vpi_dbg_test(); // Perform some tests

    vpi_dbg_test(); // Perform some tests

  }

  }

  /* We have a connection to the target system.  Now establish server connection. */

  /* We have a connection to the target system.  Now establish server connection. */

  if(gdb_protocol == GDB_PROTOCOL_JTAG)

  if(gdb_protocol == GDB_PROTOCOL_JTAG)

  { // Connect to JTAG server

  { // Connect to JTAG server

    if((server_fd = GetServerSocket("or1ksim","tcp", serverPort))) {

    if((server_fd = GetServerSocket("or1ksim","tcp", serverPort))) {

int dbg_reset()

int dbg_reset()

{

{

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_reset();

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_reset();

}

}

void dbg_test() {

void dbg_test() {

  if (endpoint_target == ENDPOINT_TARGET_USB) usb_dbg_test();

  if (endpoint_target == ENDPOINT_TARGET_USB) usb_dbg_test();

}

}

/* Set TAP instruction register */

/* Set TAP instruction register */

int dbg_set_tap_ir(uint32_t ir) {

int dbg_set_tap_ir(uint32_t ir) {

  if (endpoint_target == ENDPOINT_TARGET_USB) usb_set_tap_ir(ir);

  if (endpoint_target == ENDPOINT_TARGET_USB) usb_set_tap_ir(ir);

}

}

/* Sets scan chain.  */

/* Sets scan chain.  */

int dbg_set_chain(uint32_t chain) {

int dbg_set_chain(uint32_t chain) {

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_set_chain(chain);

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_set_chain(chain);

}

}

/* sends out a command with 32bit address and 16bit length, if len >= 0 */

/* sends out a command with 32bit address and 16bit length, if len >= 0 */

int dbg_command(uint32_t type, uint32_t adr, uint32_t len) {

int dbg_command(uint32_t type, uint32_t adr, uint32_t len) {

  // This is never called by any of the VPI functions, so only USB endpoint

  // This is never called by any of the VPI functions, so only USB endpoint

 if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_command(type,adr,len);

 if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_command(type,adr,len);

}

}

/* writes a ctrl reg */

/* writes a ctrl reg */

int dbg_ctrl(uint32_t reset, uint32_t stall) {

int dbg_ctrl(uint32_t reset, uint32_t stall) {

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_ctrl(reset, stall);

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_ctrl(reset, stall);

}

}

/* reads control register */

/* reads control register */

int dbg_ctrl_read(uint32_t *reset, uint32_t *stall) {

int dbg_ctrl_read(uint32_t *reset, uint32_t *stall) {

    if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_ctrl_read(reset, stall);

    if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_ctrl_read(reset, stall);

}

}

/* issues a burst read/write */

/* issues a burst read/write */

int dbg_go(unsigned char *data, uint16_t len, uint32_t read) {

int dbg_go(unsigned char *data, uint16_t len, uint32_t read) {

  // Only USB endpouint32_t option here

  // Only USB endpouint32_t option here

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_go(data, len, read);

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_go(data, len, read);

}

}

/* read a word from wishbone */

/* read a word from wishbone */

int dbg_wb_read32(uint32_t adr, uint32_t *data) {

int dbg_wb_read32(uint32_t adr, uint32_t *data) {

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_wb_read32(adr, data);

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_wb_read32(adr, data);

}

}

/* write a word to wishbone */

/* write a word to wishbone */

int dbg_wb_write32(uint32_t adr, uint32_t data) {

int dbg_wb_write32(uint32_t adr, uint32_t data) {

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_wb_write32( adr, data);

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_wb_write32( adr, data);

}

}

/* read a block from wishbone */

/* read a block from wishbone */

int dbg_wb_read_block32(uint32_t adr, uint32_t *data, uint32_t len) {

int dbg_wb_read_block32(uint32_t adr, uint32_t *data, uint32_t len) {

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_wb_read_block32( adr, data, len);

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_wb_read_block32( adr, data, len);

}

}

/* write a block to wishbone */

/* write a block to wishbone */

int dbg_wb_write_block32(uint32_t adr, uint32_t *data, uint32_t len) {

int dbg_wb_write_block32(uint32_t adr, uint32_t *data, uint32_t len) {

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_wb_write_block32( adr, data, len);

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_wb_write_block32( adr, data, len);

}

}

/* read a register from cpu */

/* read a register from cpu */

int dbg_cpu0_read(uint32_t adr, uint32_t *data) {

int dbg_cpu0_read(uint32_t adr, uint32_t *data) {

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_cpu0_read( adr, data);

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_cpu0_read( adr, data);

}

}

/* write a cpu register */

/* write a cpu register */

int dbg_cpu0_write(uint32_t adr, uint32_t data) {

int dbg_cpu0_write(uint32_t adr, uint32_t data) {

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_cpu0_write( adr, data);

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_cpu0_write( adr, data);

}

}

/* write a cpu module register */

/* write a cpu module register */

int dbg_cpu0_write_ctrl(uint32_t adr, unsigned char data) {

int dbg_cpu0_write_ctrl(uint32_t adr, unsigned char data) {

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_cpu0_write_ctrl( adr, data);

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_cpu0_write_ctrl( adr, data);

}

}

/* read a register from cpu module */

/* read a register from cpu module */

int dbg_cpu0_read_ctrl(uint32_t adr, unsigned char *data) {

int dbg_cpu0_read_ctrl(uint32_t adr, unsigned char *data) {

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_cpu0_read_ctrl( adr, data);

  if (endpoint_target == ENDPOINT_TARGET_USB) return usb_dbg_cpu0_read_ctrl( adr, data);

}

}

void test_sdram(void) {

void test_sdram(void) {

        return;

        return;

// Close down gracefully when we receive any kill signals

// Close down gracefully when we receive any kill signals

void catch_sigint(int sig_num)

void catch_sigint(int sig_num)

{

{

  // Close down any potentially open sockets and USB handles

  // Close down any potentially open sockets and USB handles

  if (vpi_fd) close(vpi_fd);

  if (vpi_fd) close(vpi_fd);

  if (server_fd) close(server_fd);

  if (server_fd) close(server_fd);

  gdb_close();

  gdb_close();

  printf("\nInterrupt signal received. Closing down connections and exiting\n\n");

  printf("\nInterrupt signal received. Closing down connections and exiting\n\n");

  exit(0);

  exit(0);

}

}

void print_usage()

void print_usage()

  printf("Invalid or insufficient arguments\n");

  printf("Invalid or insufficient arguments\n");

  printf("\n");

  printf("\n");

  printf("OpenRISC GDB proxy server usage: or_debug_proxy -server_type port\n");

  printf("OpenRISC GDB proxy server usage: or_debug_proxy -server_type port\n");

  printf("\n");

  printf("\n");

  printf("server_type:\n");

  printf("server_type:\n");

  printf("\t-r Start a server using RSP, connection to hadware target via\n\t   USB\n");

  printf("\t-r Start a server using RSP, connection to hadware target via\n\t   USB\n");

  printf("\t-j Start a server using legacy OR remote JTAG protocol, to\n\t   hardware target via USB\n");

  printf("\t-j Start a server using legacy OR remote JTAG protocol, to\n\t   hardware target via USB\n");

  printf("\t-v Start a server using RSP, connection to RTL sim. VPI server\n\t   target via sockets\n");

  printf("\t-v Start a server using RSP, connection to RTL sim. VPI server\n\t   target via sockets\n");

  printf("\n");

  printf("\n");

  printf("port:\n");

  printf("port:\n");

  printf("\tAny free port within the usable range of 0 - 65535\n");

  printf("\tAny free port within the usable range of 0 - 65535\n");

  printf("\n");

  printf("\n");

  printf("Example:\n");

  printf("Example:\n");

  printf("\tStart a GDB server on port 5555, using RSP, connecting to\n\thardware target via USB\n");

  printf("\tStart a GDB server on port 5555, using RSP, connecting to\n\thardware target via USB\n");

  printf("\tor_debug_proxy -r 5555\n");

  printf("\tor_debug_proxy -r 5555\n");

  printf("\n");

  printf("\n");

  fflush (stdout);

  fflush (stdout);

}

}

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