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/* ethernet.c -- Simulation of Ethernet MAC

   Copyright (C) 2001 by Erez Volk, erez@opencores.org

                         Ivan Guzvinec, ivang@opencores.org

   Copyright (C) 2008 Embecosm Limited

   Contributor Jeremy Bennett <jeremy.bennett@embecosm.com>

   This file is part of Or1ksim, the OpenRISC 1000 Architectural Simulator.

   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/>.  */

/* This program is commented throughout in a fashion suitable for processing

   with Doxygen. */

/* Autoconf and/or portability configuration */

#include "config.h"

#include "port.h"

/* System includes */

#include <stdlib.h>

#include <stdio.h>

#include <sys/types.h>

#include <sys/stat.h>

#include <fcntl.h>

#include <sys/poll.h>

#include <sys/time.h>

#include <unistd.h>

#include <errno.h>

#include <netinet/in.h>

#include <sys/ioctl.h>

#include <sys/socket.h>

#include <net/if.h>

#if HAVE_ETH_PHY

#include <netpacket/packet.h>

#endif /* HAVE_ETH_PHY */

#if HAVE_NET_ETHERNET_H

# include <net/ethernet.h>

#elif defined(HAVE_SYS_ETHERNET_H)

# include <sys/ethernet.h>

#else /* !HAVE_NET_ETHERNET_H && !HAVE_SYS_ETHERNET_H - */

#include <sys/types.h>

#endif

/* Package includes */

#include "arch.h"

#include "config.h"

#include "abstract.h"

#include "eth.h"

#include "dma.h"

#include "sim-config.h"

#include "fields.h"

#include "crc32.h"

#include "vapi.h"

#include "pic.h"

#include "sched.h"

#include "toplevel-support.h"

#include "sim-cmd.h"

/* Address space required by one Ethernet MAC */

#define ETH_ADDR_SPACE 0x1000

/* Relative Register Addresses */

#define ETH_MODER       (4 * 0x00)

#define ETH_INT_SOURCE  (4 * 0x01)

#define ETH_INT_MASK    (4 * 0x02)

#define ETH_IPGT        (4 * 0x03)

#define ETH_IPGR1       (4 * 0x04)

#define ETH_IPGR2       (4 * 0x05)

#define ETH_PACKETLEN   (4 * 0x06)

#define ETH_COLLCONF    (4 * 0x07)

#define ETH_TX_BD_NUM   (4 * 0x08)

#define ETH_CTRLMODER   (4 * 0x09)

#define ETH_MIIMODER    (4 * 0x0A)

#define ETH_MIICOMMAND  (4 * 0x0B)

#define ETH_MIIADDRESS  (4 * 0x0C)

#define ETH_MIITX_DATA  (4 * 0x0D)

#define ETH_MIIRX_DATA  (4 * 0x0E)

#define ETH_MIISTATUS   (4 * 0x0F)

#define ETH_MAC_ADDR0   (4 * 0x10)

#define ETH_MAC_ADDR1   (4 * 0x11)

#define ETH_HASH0       (4 * 0x12)

#define ETH_HASH1       (4 * 0x13)

/* Where BD's are stored */

#define ETH_BD_BASE        0x400

#define ETH_BD_COUNT       0x100

#define ETH_BD_SPACE       (4 * ETH_BD_COUNT)

/* Where to point DMA to transmit/receive */

#define ETH_DMA_RX_TX      0x800

/* Field definitions for MODER */

#define ETH_MODER_DMAEN_OFFSET     17

#define ETH_MODER_RECSMALL_OFFSET  16

#define ETH_MODER_PAD_OFFSET       15

#define ETH_MODER_HUGEN_OFFSET     14

#define ETH_MODER_CRCEN_OFFSET     13

#define ETH_MODER_DLYCRCEN_OFFSET  12

#define ETH_MODER_RST_OFFSET       11

#define ETH_MODER_FULLD_OFFSET     10

#define ETH_MODER_EXDFREN_OFFSET   9

#define ETH_MODER_NOBCKOF_OFFSET   8

#define ETH_MODER_LOOPBCK_OFFSET   7

#define ETH_MODER_IFG_OFFSET       6

#define ETH_MODER_PRO_OFFSET       5

#define ETH_MODER_IAM_OFFSET       4

#define ETH_MODER_BRO_OFFSET       3

#define ETH_MODER_NOPRE_OFFSET     2

#define ETH_MODER_TXEN_OFFSET      1

#define ETH_MODER_RXEN_OFFSET      0

/* Field definitions for INT_SOURCE */

#define ETH_INT_SOURCE_RXC_OFFSET  6

#define ETH_INT_SOURCE_TXC_OFFSET  5

#define ETH_INT_SOURCE_BUSY_OFFSET 4

#define ETH_INT_SOURCE_RXE_OFFSET  3

#define ETH_INT_SOURCE_RXB_OFFSET  2

#define ETH_INT_SOURCE_TXE_OFFSET  1

#define ETH_INT_SOURCE_TXB_OFFSET  0

/* Field definitions for INT_MASK */

#define ETH_INT_MASK_RXC_M_OFFSET  6

#define ETH_INT_MASK_TXC_M_OFFSET  5

#define ETH_INT_MASK_BUSY_M_OFFSET 4

#define ETH_INT_MASK_RXE_M_OFFSET  3

#define ETH_INT_MASK_RXB_M_OFFSET  2

#define ETH_INT_MASK_TXE_M_OFFSET  1

#define ETH_INT_MASK_TXB_M_OFFSET  0

/* Field definitions for PACKETLEN */

#define ETH_PACKETLEN_MINFL_OFFSET 16

#define ETH_PACKETLEN_MINFL_WIDTH  16

#define ETH_PACKETLEN_MAXFL_OFFSET 0

#define ETH_PACKETLEN_MAXFL_WIDTH  16

/* Field definitions for COLLCONF */

#define ETH_COLLCONF_MAXRET_OFFSET 16

#define ETH_COLLCONF_MAXRET_WIDTH  4

#define ETH_COLLCONF_COLLVALID_OFFSET 0

#define ETH_COLLCONF_COLLVALID_WIDTH  6

/* Field definitions for CTRLMODER */

#define ETH_CMODER_TXFLOW_OFFSET   2

#define ETH_CMODER_RXFLOW_OFFSET   1

#define ETH_CMODER_PASSALL_OFFSET  0

/* Field definitions for MIIMODER */

#define ETH_MIIMODER_MRST_OFFSET   9

#define ETH_MIIMODER_NOPRE_OFFSET  8

#define ETH_MIIMODER_CLKDIV_OFFSET 0

#define ETH_MIIMODER_CLKDIV_WIDTH  8

/* Field definitions for MIICOMMAND */

#define ETH_MIICOMM_WCDATA_OFFSET  2

#define ETH_MIICOMM_RSTAT_OFFSET   1

#define ETH_MIICOMM_SCANS_OFFSET   0

/* Field definitions for MIIADDRESS */

#define ETH_MIIADDR_RGAD_OFFSET    8

#define ETH_MIIADDR_RGAD_WIDTH     5

#define ETH_MIIADDR_FIAD_OFFSET    0

#define ETH_MIIADDR_FIAD_WIDTH     5

/* Field definitions for MIISTATUS */

#define ETH_MIISTAT_NVALID_OFFSET  1

#define ETH_MIISTAT_BUSY_OFFSET    1

#define ETH_MIISTAT_FAIL_OFFSET    0

/* Field definitions for TX buffer descriptors */

#define ETH_TX_BD_LENGTH_OFFSET        16

#define ETH_TX_BD_LENGTH_WIDTH         16

#define ETH_TX_BD_READY_OFFSET         15

#define ETH_TX_BD_IRQ_OFFSET           14

#define ETH_TX_BD_WRAP_OFFSET          13

#define ETH_TX_BD_PAD_OFFSET           12

#define ETH_TX_BD_CRC_OFFSET           11

#define ETH_TX_BD_LAST_OFFSET          10

#define ETH_TX_BD_PAUSE_OFFSET         9

#define ETH_TX_BD_UNDERRUN_OFFSET      8

#define ETH_TX_BD_RETRY_OFFSET         4

#define ETH_TX_BD_RETRY_WIDTH          4

#define ETH_TX_BD_RETRANSMIT_OFFSET    3

#define ETH_TX_BD_COLLISION_OFFSET     2

#define ETH_TX_BD_DEFER_OFFSET         1

#define ETH_TX_BD_NO_CARRIER_OFFSET    0

/* Field definitions for RX buffer descriptors */

#define ETH_RX_BD_LENGTH_OFFSET        16

#define ETH_RX_BD_LENGTH_WIDTH         16

#define ETH_RX_BD_READY_OFFSET         15

#define ETH_RX_BD_IRQ_OFFSET           14

#define ETH_RX_BD_WRAP_OFFSET          13

#define ETH_RX_BD_MISS_OFFSET          7

#define ETH_RX_BD_UVERRUN_OFFSET       6

#define ETH_RX_BD_INVALID_OFFSET       5

#define ETH_RX_BD_DRIBBLE_OFFSET       4

#define ETH_RX_BD_TOOBIG_OFFSET        3

#define ETH_RX_BD_TOOSHORT_OFFSET      2

#define ETH_RX_BD_CRC_OFFSET           1

#define ETH_RX_BD_COLLISION_OFFSET     0

/*

 * Ethernet protocol definitions

 */

#ifdef HAVE_NET_ETHERNET_H

#elif defined(HAVE_SYS_ETHERNET_H)

#ifndef ETHER_ADDR_LEN

#define ETHER_ADDR_LEN ETHERADDRL

#endif

#ifndef ETHER_HDR_LEN

#define ETHER_HDR_LEN sizeof(struct ether_header)

#endif

#else /* !HAVE_NET_ETHERNET_H && !HAVE_SYS_ETHERNET_H - */

#ifdef __CYGWIN__

/* define some missing cygwin defines.

 *

 * NOTE! there is no nonblocking socket option implemented in cygwin.dll

 *       so defining MSG_DONTWAIT is just (temporary) workaround !!!

 */

#define MSG_DONTWAIT  0x40

#define ETH_HLEN      14

#endif /* __CYGWIN__ */

#define ETH_ALEN    6

struct ether_addr

{

  u_int8_t ether_addr_octet[ETH_ALEN];

};

struct ether_header

{

  u_int8_t ether_dhost[ETH_ALEN];       /* destination eth addr */

  u_int8_t ether_shost[ETH_ALEN];       /* source ether addr    */

  u_int16_t ether_type;         /* packet type ID field */

};

/* Ethernet protocol ID's */

#define ETHERTYPE_PUP           0x0200  /* Xerox PUP */

#define ETHERTYPE_IP            0x0800  /* IP */

#define ETHERTYPE_ARP           0x0806  /* Address resolution */

#define ETHERTYPE_REVARP        0x8035  /* Reverse ARP */

#define ETHER_ADDR_LEN  ETH_ALEN        /* size of ethernet addr */

#define ETHER_TYPE_LEN  2       /* bytes in type field */

#define ETHER_CRC_LEN   4       /* bytes in CRC field */

#define ETHER_HDR_LEN   ETH_HLEN        /* total octets in header */

#define ETHER_MIN_LEN   (ETH_ZLEN + ETHER_CRC_LEN)      /* min packet length */

#define ETHER_MAX_LEN   (ETH_FRAME_LEN + ETHER_CRC_LEN) /* max packet length */

/* make sure ethenet length is valid */

#define ETHER_IS_VALID_LEN(foo) \

        ((foo) >= ETHER_MIN_LEN && (foo) <= ETHER_MAX_LEN)

/*

 * The ETHERTYPE_NTRAILER packet types starting at ETHERTYPE_TRAIL have

 * (type-ETHERTYPE_TRAIL)*512 bytes of data followed

 * by an ETHER type (as given above) and then the (variable-length) header.

 */

#define ETHERTYPE_TRAIL         0x1000  /* Trailer packet */

#define ETHERTYPE_NTRAILER      16

#define ETHERMTU        ETH_DATA_LEN

#define ETHERMIN        (ETHER_MIN_LEN-ETHER_HDR_LEN-ETHER_CRC_LEN)

#endif /* HAVE_NET_ETHERNET_H */

/*

 * Implementatino of Ethernet MAC Registers and State

 */

#define ETH_TXSTATE_IDLE        0

#define ETH_TXSTATE_WAIT4BD     10

#define ETH_TXSTATE_READFIFO    20

#define ETH_TXSTATE_TRANSMIT    30

#define ETH_RXSTATE_IDLE        0

#define ETH_RXSTATE_WAIT4BD     10

#define ETH_RXSTATE_RECV        20

#define ETH_RXSTATE_WRITEFIFO   30

#define ETH_RTX_FILE    0

#define ETH_RTX_SOCK    1

#define ETH_RTX_VAPI    2

#define ETH_MAXPL   0x10000

enum

{ ETH_VAPI_DATA = 0,

  ETH_VAPI_CTRL,

  ETH_NUM_VAPI_IDS

};

struct eth_device

{

  /* Is peripheral enabled */

  int enabled;

  /* Base address in memory */

  oraddr_t baseaddr;

  /* Which DMA controller is this MAC connected to */

  unsigned dma;

  unsigned tx_channel;

  unsigned rx_channel;

  /* Our address */

  unsigned char mac_address[ETHER_ADDR_LEN];

  /* interrupt line */

  unsigned long mac_int;

  /* VAPI ID */

  unsigned long base_vapi_id;

  /* RX and TX file names and handles */

  char *rxfile, *txfile;

  int txfd;

  int rxfd;

  off_t loopback_offset;

  /* Socket interface name */

  char *sockif;

  int rtx_sock;

  int rtx_type;

  struct ifreq ifr;

  fd_set rfds, wfds;

  /* Current TX state */

  struct

  {

    unsigned long state;

    unsigned long bd_index;

    unsigned long bd;

    unsigned long bd_addr;

    unsigned working, waiting_for_dma, error;

    long packet_length;

    unsigned minimum_length, maximum_length;

    unsigned add_crc;

    unsigned crc_dly;

    unsigned long crc_value;

    long bytes_left, bytes_sent;

  } tx;

  /* Current RX state */

  struct

  {

    unsigned long state;

    unsigned long bd_index;

    unsigned long bd;

    unsigned long bd_addr;

    int fd;

    off_t *offset;

    unsigned working, error, waiting_for_dma;

    long packet_length, bytes_read, bytes_left;

  } rx;

  /* Visible registers */

  struct

  {

    unsigned long moder;

    unsigned long int_source;

    unsigned long int_mask;

    unsigned long ipgt;

    unsigned long ipgr1;

    unsigned long ipgr2;

    unsigned long packetlen;

    unsigned long collconf;

    unsigned long tx_bd_num;

    unsigned long controlmoder;

    unsigned long miimoder;

    unsigned long miicommand;

    unsigned long miiaddress;

    unsigned long miitx_data;

    unsigned long miirx_data;

    unsigned long miistatus;

    unsigned long hash0;

    unsigned long hash1;

    /* Buffer descriptors */

    unsigned long bd_ram[ETH_BD_SPACE / 4];

  } regs;

  unsigned char rx_buff[ETH_MAXPL];

  unsigned char tx_buff[ETH_MAXPL];

  unsigned char lo_buff[ETH_MAXPL];

};

/* simulator interface */

static void eth_vapi_read (unsigned long id, unsigned long data, void *dat);

/* register interface */

static void eth_write32 (oraddr_t addr, uint32_t value, void *dat);

static uint32_t eth_read32 (oraddr_t addr, void *dat);

/* clock */

static void eth_controller_tx_clock (void *);

static void eth_controller_rx_clock (void *);

/* utility functions */

static ssize_t eth_read_rx_file (struct eth_device *, void *, size_t);

static void eth_skip_rx_file (struct eth_device *, off_t);

static void eth_rx_next_packet (struct eth_device *);

static void eth_write_tx_bd_num (struct eth_device *, unsigned long value);

/* ========================================================================= */

/*  TX LOGIC                                                                 */

/*---------------------------------------------------------------------------*/

/*

 * TX clock

 * Responsible for starting and finishing TX

 */

static void

eth_controller_tx_clock (void *dat)

{

  struct eth_device *eth = dat;

  int bAdvance = 1;

#if HAVE_ETH_PHY

  struct sockaddr_ll sll;

#endif /* HAVE_ETH_PHY */

  long nwritten = 0;

  unsigned long read_word;

  switch (eth->tx.state)

    {

    case ETH_TXSTATE_IDLE:

      eth->tx.state = ETH_TXSTATE_WAIT4BD;

      break;

    case ETH_TXSTATE_WAIT4BD:

      /* Read buffer descriptor */

      eth->tx.bd = eth->regs.bd_ram[eth->tx.bd_index];

      eth->tx.bd_addr = eth->regs.bd_ram[eth->tx.bd_index + 1];

      if (TEST_FLAG (eth->tx.bd, ETH_TX_BD, READY))

        {

            /*****************/

          /* initialize TX */

          eth->tx.bytes_left = eth->tx.packet_length =

            GET_FIELD (eth->tx.bd, ETH_TX_BD, LENGTH);

          eth->tx.bytes_sent = 0;

          /*   Initialize error status bits */

          CLEAR_FLAG (eth->tx.bd, ETH_TX_BD, DEFER);

          CLEAR_FLAG (eth->tx.bd, ETH_TX_BD, COLLISION);

          CLEAR_FLAG (eth->tx.bd, ETH_TX_BD, RETRANSMIT);

          CLEAR_FLAG (eth->tx.bd, ETH_TX_BD, UNDERRUN);

          CLEAR_FLAG (eth->tx.bd, ETH_TX_BD, NO_CARRIER);

          SET_FIELD (eth->tx.bd, ETH_TX_BD, RETRY, 0);

          /* Find out minimum length */

          if (TEST_FLAG (eth->tx.bd, ETH_TX_BD, PAD) ||

              TEST_FLAG (eth->regs.moder, ETH_MODER, PAD))

            eth->tx.minimum_length =

              GET_FIELD (eth->regs.packetlen, ETH_PACKETLEN, MINFL);

          else

            eth->tx.minimum_length = eth->tx.packet_length;

          /* Find out maximum length */

          if (TEST_FLAG (eth->regs.moder, ETH_MODER, HUGEN))

            eth->tx.maximum_length = eth->tx.packet_length;

          else

            eth->tx.maximum_length =

              GET_FIELD (eth->regs.packetlen, ETH_PACKETLEN, MAXFL);

          /* Do we need CRC on this packet? */

          if (TEST_FLAG (eth->regs.moder, ETH_MODER, CRCEN) ||

              (TEST_FLAG (eth->tx.bd, ETH_TX_BD, CRC) &&

               TEST_FLAG (eth->tx.bd, ETH_TX_BD, LAST)))

            eth->tx.add_crc = 1;

          else

            eth->tx.add_crc = 0;

          if (TEST_FLAG (eth->regs.moder, ETH_MODER, DLYCRCEN))

            eth->tx.crc_dly = 1;

          else

            eth->tx.crc_dly = 0;

          /* XXX - For now we skip CRC calculation */

          if (eth->rtx_type == ETH_RTX_FILE)

            {

              /* write packet length to file */

              nwritten =

                write (eth->txfd, &(eth->tx.packet_length),

                       sizeof (eth->tx.packet_length));

            }

            /************************************************/

          /* start transmit with reading packet into FIFO */

          eth->tx.state = ETH_TXSTATE_READFIFO;

        }

      /* stay in this state if (TXEN && !READY) */

      break;

    case ETH_TXSTATE_READFIFO:

#if 1

      if (eth->tx.bytes_sent < eth->tx.packet_length)

        {

          read_word =

            eval_direct32 (eth->tx.bytes_sent + eth->tx.bd_addr, 0, 0);

          eth->tx_buff[eth->tx.bytes_sent] =

            (unsigned char) (read_word >> 24);

          eth->tx_buff[eth->tx.bytes_sent + 1] =

            (unsigned char) (read_word >> 16);

          eth->tx_buff[eth->tx.bytes_sent + 2] =

            (unsigned char) (read_word >> 8);

          eth->tx_buff[eth->tx.bytes_sent + 3] = (unsigned char) (read_word);

          eth->tx.bytes_sent += 4;

        }

#else

      if (eth->tx.bytes_sent < eth->tx.packet_length)

        {

          eth->tx_buff[eth->tx.bytes_sent] =

            eval_direct8 (eth->tx.bytes_sent + eth->tx.bd_addr, 0, 0);

          eth->tx.bytes_sent += 1;

        }

#endif

      else

        {

          eth->tx.state = ETH_TXSTATE_TRANSMIT;

        }

      break;

    case ETH_TXSTATE_TRANSMIT:

      /* send packet */

      switch (eth->rtx_type)

        {

        case ETH_RTX_FILE:

          nwritten = write (eth->txfd, eth->tx_buff, eth->tx.packet_length);

          break;

#if HAVE_ETH_PHY

        case ETH_RTX_SOCK:

          memset (&sll, 0, sizeof (sll));

          sll.sll_ifindex = eth->ifr.ifr_ifindex;

          nwritten =

            sendto (eth->rtx_sock, eth->tx_buff, eth->tx.packet_length, 0,

                    (struct sockaddr *) &sll, sizeof (sll));

#endif /* HAVE_ETH_PHY */

        }

      /* set BD status */

      if (nwritten == eth->tx.packet_length)

        {

          CLEAR_FLAG (eth->tx.bd, ETH_TX_BD, READY);

          SET_FLAG (eth->regs.int_source, ETH_INT_SOURCE, TXB);

          eth->tx.state = ETH_TXSTATE_WAIT4BD;

        }

      else

        {

          /* XXX - implement retry mechanism here! */

          CLEAR_FLAG (eth->tx.bd, ETH_TX_BD, READY);

          CLEAR_FLAG (eth->tx.bd, ETH_TX_BD, COLLISION);

          SET_FLAG (eth->regs.int_source, ETH_INT_SOURCE, TXE);

          eth->tx.state = ETH_TXSTATE_WAIT4BD;

        }

      eth->regs.bd_ram[eth->tx.bd_index] = eth->tx.bd;

      /* generate OK interrupt */

      if (TEST_FLAG (eth->regs.int_mask, ETH_INT_MASK, TXE_M) ||

          TEST_FLAG (eth->regs.int_mask, ETH_INT_MASK, TXB_M))

        {

          if (TEST_FLAG (eth->tx.bd, ETH_TX_BD, IRQ))

            report_interrupt (eth->mac_int);

        }

      /* advance to next BD */

      if (bAdvance)

        {

          if (TEST_FLAG (eth->tx.bd, ETH_TX_BD, WRAP) ||

              eth->tx.bd_index >= ETH_BD_COUNT)

            eth->tx.bd_index = 0;

          else

            eth->tx.bd_index += 2;

        }

      break;

    }

  /* Reschedule */

  SCHED_ADD (eth_controller_tx_clock, dat, 1);

}

/* ========================================================================= */

/* ========================================================================= */

/*  RX LOGIC                                                                 */

/*---------------------------------------------------------------------------*/

/*

 * RX clock

 * Responsible for starting and finishing RX

 */

static void

eth_controller_rx_clock (void *dat)

{

  struct eth_device *eth = dat;

  long nread;

  unsigned long send_word;

  switch (eth->rx.state)

    {

    case ETH_RXSTATE_IDLE:

      eth->rx.state = ETH_RXSTATE_WAIT4BD;

      break;

    case ETH_RXSTATE_WAIT4BD:

      eth->rx.bd = eth->regs.bd_ram[eth->rx.bd_index];

      eth->rx.bd_addr = eth->regs.bd_ram[eth->rx.bd_index + 1];

      if (TEST_FLAG (eth->rx.bd, ETH_RX_BD, READY))

        {

            /*****************/

          /* Initialize RX */

          CLEAR_FLAG (eth->rx.bd, ETH_RX_BD, MISS);

          CLEAR_FLAG (eth->rx.bd, ETH_RX_BD, INVALID);

          CLEAR_FLAG (eth->rx.bd, ETH_RX_BD, DRIBBLE);

          CLEAR_FLAG (eth->rx.bd, ETH_RX_BD, UVERRUN);

          CLEAR_FLAG (eth->rx.bd, ETH_RX_BD, COLLISION);

          CLEAR_FLAG (eth->rx.bd, ETH_RX_BD, TOOBIG);

          CLEAR_FLAG (eth->rx.bd, ETH_RX_BD, TOOSHORT);

          /* Setup file to read from */

          if (TEST_FLAG (eth->regs.moder, ETH_MODER, LOOPBCK))

            {

              eth->rx.fd = eth->txfd;

              eth->rx.offset = &(eth->loopback_offset);

            }

          else

            {

              eth->rx.fd = eth->rxfd;

              eth->rx.offset = 0;

            }

          eth->rx.state = ETH_RXSTATE_RECV;

        }

      else if (!TEST_FLAG (eth->regs.moder, ETH_MODER, RXEN))

        {

          eth->rx.state = ETH_RXSTATE_IDLE;

        }

      else

        {

          nread =

            recv (eth->rtx_sock, eth->rx_buff, ETH_MAXPL, /*MSG_PEEK | */

                  MSG_DONTWAIT);

          if (nread > 0)

            {

              SET_FLAG (eth->regs.int_source, ETH_INT_SOURCE, BUSY);

              if (TEST_FLAG (eth->regs.int_mask, ETH_INT_MASK, BUSY_M))

                report_interrupt (eth->mac_int);

            }

        }

      break;

    case ETH_RXSTATE_RECV:

      switch (eth->rtx_type)

        {

        case ETH_RTX_FILE:

          /* Read packet length */

          if (eth_read_rx_file

              (eth, &(eth->rx.packet_length),

               sizeof (eth->rx.packet_length)) <

              sizeof (eth->rx.packet_length))

            {

              /* TODO: just do what real ethernet would do (some kind of error state) */

              sim_done ();

              break;

            }

          /* Packet must be big enough to hold a header */

          if (eth->rx.packet_length < ETHER_HDR_LEN)

            {

              eth_rx_next_packet (eth);

              eth->rx.state = ETH_RXSTATE_WAIT4BD;

              break;

            }

          eth->rx.bytes_read = 0;

          eth->rx.bytes_left = eth->rx.packet_length;

          /* for now Read entire packet into memory */

          nread = eth_read_rx_file (eth, eth->rx_buff, eth->rx.bytes_left);

          if (nread < eth->rx.bytes_left)

            {

              eth->rx.error = 1;

              break;

            }

          eth->rx.packet_length = nread;

          eth->rx.bytes_left = nread;

          eth->rx.bytes_read = 0;

          eth->rx.state = ETH_RXSTATE_WRITEFIFO;

          break;

        case ETH_RTX_SOCK:

          nread = recv (eth->rtx_sock, eth->rx_buff, ETH_MAXPL, MSG_DONTWAIT);

          if (nread == 0)

            {

              break;

            }

          else if (nread < 0)