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path: root/usrp2/firmware/apps/burnrev30.c
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/*
 * Copyright 2007,2008 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/>.
 */

#ifdef HAVE_CONFIG_H
#include "config.h"
#endif

#include "u2_init.h"
#include "memory_map.h"
#include "spi.h"
#include "hal_io.h"
#include "buffer_pool.h"
#include "pic.h"
#include "bool.h"
#include "ethernet.h"
#include "nonstdio.h"
#include "usrp2_eth_packet.h"
#include "dbsm.h"
#include "app_common_v2.h"
#include "memcpy_wa.h"
#include <stddef.h>
#include <stdlib.h>
#include <string.h>
#include <i2c.h>
#include <usrp2_i2c_addr.h>
#include <clocks.h>
#include "sd.h"

#define HW_REV_MAJOR 3
#define HW_REV_MINOR 0

#define FW_SETS_SEQNO	1	// define to 0 or 1 (FIXME must be 1 for now)

#if (FW_SETS_SEQNO)
static int fw_seqno;	// used when f/w is filling in sequence numbers
#endif


/*
 * Full duplex Tx and Rx between ethernet and DSP pipelines
 *
 * Buffer 1 is used by the cpu to send frames to the host.
 * Buffers 2 and 3 are used to double-buffer the DSP Rx to eth flow
 * Buffers 4 and 5 are used to double-buffer the eth to DSP Tx  eth flow
 */
//#define CPU_RX_BUF	0	// eth -> cpu

#define	DSP_RX_BUF_0	2	// dsp rx -> eth (double buffer)
#define	DSP_RX_BUF_1	3	// dsp rx -> eth
#define	DSP_TX_BUF_0	4	// eth -> dsp tx (double buffer)
#define	DSP_TX_BUF_1	5	// eth -> dsp tx

/*
 * ================================================================
 *   configure DSP TX double buffering state machine (eth -> dsp)
 * ================================================================
 */

// 4 lines of ethernet hdr + 1 line transport hdr + 2 lines (word0 + timestamp)
// DSP Tx reads word0 (flags) + timestamp followed by samples

#define DSP_TX_FIRST_LINE ((sizeof(u2_eth_hdr_t) + sizeof(u2_transport_hdr_t))/4)

// Receive from ethernet
buf_cmd_args_t dsp_tx_recv_args = {
  PORT_ETH,
  0,
  BP_LAST_LINE
};

// send to DSP Tx
buf_cmd_args_t dsp_tx_send_args = {
  PORT_DSP,
  DSP_TX_FIRST_LINE,	// starts just past transport header
  0			// filled in from last_line register
};

dbsm_t dsp_tx_sm;	// the state machine

/*
 * ================================================================
 *   configure DSP RX double buffering state machine (dsp -> eth)
 * ================================================================
 */

// 4 lines of ethernet hdr + 1 line transport hdr + 1 line (word0)
// DSP Rx writes timestamp followed by nlines_per_frame of samples
#define DSP_RX_FIRST_LINE ((sizeof(u2_eth_hdr_t) + sizeof(u2_transport_hdr_t))/4 + 1)

// receive from DSP
buf_cmd_args_t dsp_rx_recv_args = {
  PORT_DSP,
  DSP_RX_FIRST_LINE,
  BP_LAST_LINE
};

// send to ETH
buf_cmd_args_t dsp_rx_send_args = {
  PORT_ETH,
  0,		// starts with ethernet header in line 0
  0,		// filled in from list_line register
};

dbsm_t dsp_rx_sm;	// the state machine


// The mac address of the host we're sending to.
u2_mac_addr_t host_mac_addr;


// variables for streaming mode

static bool         streaming_p = false;
static unsigned int streaming_items_per_frame = 0;
static int          streaming_frame_count = 0;
#define FRAMES_PER_CMD	1000

bool is_streaming(void){ return streaming_p; }

// ----------------------------------------------------------------


void
restart_streaming(void)
{
  // setup RX DSP regs
  dsp_rx_regs->clear_state = 1;			// reset

  streaming_p = true;
  streaming_frame_count = FRAMES_PER_CMD;

  dsp_rx_regs->rx_command =
    MK_RX_CMD(FRAMES_PER_CMD * streaming_items_per_frame,
	      streaming_items_per_frame,
	      1, 1);			// set "chain" bit

  // kick off the state machine
  dbsm_start(&dsp_rx_sm);

  dsp_rx_regs->rx_time = 0;		// enqueue first of two commands

  // make sure this one and the rest have the "now" and "chain" bits set.
  dsp_rx_regs->rx_command =
    MK_RX_CMD(FRAMES_PER_CMD * streaming_items_per_frame,
	      streaming_items_per_frame,
	      1, 1);				

  dsp_rx_regs->rx_time = 0;		// enqueue second command
}

void
start_rx_streaming_cmd(const u2_mac_addr_t *host, op_start_rx_streaming_t *p)
{
  host_mac_addr = *host;	// remember who we're sending to

  /*
   * Construct  ethernet header and word0 and preload into two buffers
   */
  u2_eth_packet_t	pkt;
  memset(&pkt, 0, sizeof(pkt));
  pkt.ehdr.dst = *host;
  pkt.ehdr.ethertype = U2_ETHERTYPE;
  u2p_set_word0(&pkt.fixed, 0, 0);
  // DSP RX will fill in timestamp

  memcpy_wa(buffer_ram(DSP_RX_BUF_0), &pkt, sizeof(pkt));
  memcpy_wa(buffer_ram(DSP_RX_BUF_1), &pkt, sizeof(pkt));


  if (FW_SETS_SEQNO)
    fw_seqno = 0;

  streaming_items_per_frame = p->items_per_frame;
  restart_streaming();
}


void
stop_rx_cmd(void)
{
  streaming_p = false;
  dsp_rx_regs->clear_state = 1;	// flush cmd queue
  bp_clear_buf(DSP_RX_BUF_0);
  bp_clear_buf(DSP_RX_BUF_1);
}


static void
setup_tx()
{
  dsp_tx_regs->clear_state = 1;
  bp_clear_buf(DSP_TX_BUF_0);
  bp_clear_buf(DSP_TX_BUF_1);

  int tx_scale = 256;
  int interp = 32;

  // setup some defaults

  dsp_tx_regs->freq = 0;
  dsp_tx_regs->scale_iq = (tx_scale << 16) | tx_scale;
  dsp_tx_regs->interp_rate = interp;
}


#if (FW_SETS_SEQNO)
/*
 * Debugging ONLY.  This will be handled by the tx_protocol_engine.
 *
 * This is called when the DSP Rx chain has filled in a packet.
 * We set and increment the seqno, then return false, indicating
 * that we didn't handle the packet.  A bit of a kludge
 * but it should work.
 */
bool 
fw_sets_seqno_inspector(dbsm_t *sm, int buf_this)	// returns false
{
  uint32_t *p = buffer_ram(buf_this);
  uint32_t seqno = fw_seqno++;

  // KLUDGE all kinds of nasty magic numbers and embedded knowledge
  uint32_t t = p[4];
  t = (t & 0xffff00ff) | ((seqno & 0xff) << 8);
  p[4] = t;

  // queue up another rx command when required
  if (streaming_p && --streaming_frame_count == 0){
    streaming_frame_count = FRAMES_PER_CMD;
    dsp_rx_regs->rx_time = 0;
  }

  return false;		// we didn't handle the packet
}
#endif


inline static void
buffer_irq_handler(unsigned irq)
{
  uint32_t  status = buffer_pool_status->status;

  dbsm_process_status(&dsp_tx_sm, status);
  dbsm_process_status(&dsp_rx_sm, status);
}

int test_ram()
{
  int i,j,k;
  output_regs->ram_page = 1<<10;
  
  extram[0] = 0xDEADBEEF;
  extram[1] = 0xF00D1234;
  extram[7] = 0x76543210;
  
  output_regs->ram_page = 2<<10;
  extram[7] = 0x55555555;
  extram[1] = 0xaaaaaaaa;
  extram[0] = 0xeeeeeeee;
  
  output_regs->ram_page = 1<<10;
  
  i = extram[0];
  k = extram[1];
  j = extram[7];
  
  if((i != 0xDEADBEEF)||(j!=0x76543210)||(k!=0xF00D1234)) {
    puts("RAM FAIL1!\n");
    puthex32_nl(i);
    puthex32_nl(j);
    puthex32_nl(k);
    return 0;
  }
  
  output_regs->ram_page = 2<<10;

  j = extram[7];
  k = extram[1];
  i = extram[0];

  if((i != 0xeeeeeeee)||(j!=0x55555555)||(k!=0xaaaaaaaa)) {
    puts("RAM FAIL2!\n");
    puthex32_nl(i);
    puthex32_nl(j);
    puthex32_nl(k);
    return 0;
  }
  return 1;
}

int test_sd()
{
  int i = sd_init();
  if(i==0) {
    puts("FAILED INIT of Card\n");
    return 0;
  }
  
  unsigned char buf[512];
  i = sd_read_block(2048,buf);
  if(i == 0) {
    puts("READ Command Rejected\n");
    return 0;
  }
  if((buf[0]==0xb8)&&(buf[1]==0x08)&&(buf[2]==0x00)&&(buf[3]==0x50))
    ;
  else {
    puts("Read bad data from SD Card\n");
    return 0;
  }
  return 1;
}

int
main(void)
{
  u2_init();

  putstr("\nFactory Test TXRX\n");

  bool ok = true;
  unsigned char maj = HW_REV_MAJOR;
  unsigned char min = HW_REV_MINOR;
  ok = eeprom_write(I2C_ADDR_MBOARD, MBOARD_REV_MSB, &maj, 1);
  ok &= eeprom_write(I2C_ADDR_MBOARD, MBOARD_REV_LSB, &min, 1);

  putstr("\nset_hw_rev\n");
  if (ok)
    printf("OK: set h/w rev to %d.%d\n", HW_REV_MAJOR, HW_REV_MINOR);
  else {
    printf("FAILED to set h/w rev to %d.%d\n", HW_REV_MAJOR, HW_REV_MINOR);
    hal_finish();
    return 0;
  }

  if(test_sd())
    puts("SD OK\n");
  else {
    puts("SD FAIL\n");
    hal_finish();
    return 0;
  }
  if(test_ram())
    puts("RAM OK\n");
  else {
    puts("RAM FAIL\n");
    hal_finish();
    return 0;
  }

  print_mac_addr(ethernet_mac_addr()->addr);
  newline();

}