Subversion Repositories openrisc

static void reset_or1k (void);

static void reset_or1k (void);

static void gdb_ensure_or1k_stalled();

static void gdb_ensure_or1k_stalled();

static int gdb_set_chain(int chain);

static int gdb_set_chain(int chain);

static int gdb_write_byte(uint32_t adr, uint8_t data);

static int gdb_write_byte(uint32_t adr, uint8_t data);

static int gdb_write_reg(uint32_t adr, uint32_t data);

static int gdb_write_reg(uint32_t adr, uint32_t data);

static int gdb_read_reg(uint32_t adr, uint32_t *data);

static int gdb_read_reg(uint32_t adr, uint32_t *data);

static int gdb_write_block(uint32_t adr, uint32_t *data, int len);

static int gdb_write_block(uint32_t adr, uint32_t *data, int len);

static int gdb_read_block(uint32_t adr, uint32_t *data, int len);

static int gdb_read_block(uint32_t adr, uint32_t *data, int len);

char *printTime(void)

char *printTime(void)

  int bytes_per_word = 4; /* Current OR implementation is 4-byte words */

  int bytes_per_word = 4; /* Current OR implementation is 4-byte words */

  int i;

  int i;

  int len_cpy;

  int len_cpy;

  /* Couple of temps we might need when doing aligning/leftover accesses */

  /* Couple of temps we might need when doing aligning/leftover accesses */

  uint32_t tmp_word;

  uint32_t tmp_word;

  char *tmp_word_ptr = (char*) &tmp_word;

  char *tmp_word_ptr = (char*) &tmp_word;

  if (2 != sscanf (p_buf->data, "m%x,%x:", &addr, &len))

  if (2 != sscanf (p_buf->data, "m%x,%x:", &addr, &len))

  }

  }

  len_cpy = len;

  len_cpy = len;

  rec_buf_ptr = rec_buf; // Need to save a copy of pointer

  rec_buf_ptr = rec_buf; // Need to save a copy of pointer

    {

    {

      if(err){

      if(err){

        put_str_packet ("E01");

        put_str_packet ("E01");

        return;

        return;

      }

      }

        }

        }

      // Adjust our status

      // Adjust our status

      rec_buf_ptr += num_bytes_to_align;

      rec_buf_ptr += num_bytes_to_align;

    }

    }

  if (len_cpy/bytes_per_word) // Now perform all full word accesses

  if (len_cpy/bytes_per_word) // Now perform all full word accesses

    {

    {

      int words_to_read = len_cpy/bytes_per_word; // Full words to read

      int words_to_read = len_cpy/bytes_per_word; // Full words to read

      if (DEBUG_GDB) printf("rsp_read_mem: reading %d words from 0x%.8x\n",

      if (DEBUG_GDB) printf("rsp_read_mem: reading %d words from 0x%.8x\n",

                            words_to_read, addr);

                            words_to_read, addr);

      addr += (words_to_read*bytes_per_word);

      addr += (words_to_read*bytes_per_word);

      rec_buf_ptr += (words_to_read*bytes_per_word);

      rec_buf_ptr += (words_to_read*bytes_per_word);

    }

    }

  if (len_cpy) // Leftover bytes

  if (len_cpy) // Leftover bytes

    {

    {

      for(i=0;i<len_cpy;i++)

      for(i=0;i<len_cpy;i++)

  if(err){

  if(err){

    put_str_packet ("E01");

    put_str_packet ("E01");

    return;

    return;

  }

  }

  /* Refill the buffer with the reply */

  /* Refill the buffer with the reply */

  for( off = 0 ; off < len ; off ++ ) {

  for( off = 0 ; off < len ; off ++ ) {

    ;

    ;

    p_buf->data[(2*off)] = hexchars[((rec_buf[off]&0xf0)>>4)];

    p_buf->data[(2*off)] = hexchars[((rec_buf[off]&0xf0)>>4)];

  case SC_WISHBONE:   return dbg_wb_write8(adr, data) ?

  case SC_WISHBONE:   return dbg_wb_write8(adr, data) ?

      ERR_CRC : ERR_NONE;

      ERR_CRC : ERR_NONE;

  default:            return JTAG_PROXY_INVALID_CHAIN;

  default:            return JTAG_PROXY_INVALID_CHAIN;

  }

  }

}

}

int gdb_write_reg(uint32_t adr, uint32_t data) {

int gdb_write_reg(uint32_t adr, uint32_t data) {

#ifdef OR32_KERNEL_DBG_COMPAT

#ifdef OR32_KERNEL_DBG_COMPAT

  if (IS_VM_ADDR(adr))

  if (IS_VM_ADDR(adr))