Example #1
0
static int SetBaudSender( void )
{
    int     data;           /* storing sync string data to other machine */
    int     i;              /* loop index */
    int     wait_time;

    if( !SenderHandshake() ) return( FAIL );
    /* sync byte received ... send string */
    StartBlockTrans();
    for( i = data = 0; i < SYNC_LEN; i++, data = (data + SYNC_INC) & 0xff ) {
        SendByte( data );            /* send sync string bytes */
    }
    StopBlockTrans();
    wait_time = WaitCount() + SYNC_TIME_OUT;    /* limit for time out */
    /* If MaxBaud == MIN_BAUD, we're talking over a modem and it might
       have buffered characters that haven't been transmitted yet. */
    if( MaxBaud == MIN_BAUD ) wait_time += SEC(2);
    for( ;; ) {
        if( WaitByte( 1 ) == SDATA_TAK ) {
            SendByte( SDATA_ACK );
            if( WaitByte( SEC(1)/2 ) == SDATA_TAK ) {
                return( SUCCESS );
            } else {
                return( FAIL );
            }
        } else if( WaitCount() >= wait_time ) {
              /* break not found; other end have not acknowledged string */
            return( FAIL );
        }
    }
}
Example #2
0
static void SlowSend( int ch )
{
    SendByte( ch );
    if( WaitByte( 1 ) != SDATA_NO_DATA ) {
        Wait( 1 ); /* pickup echoed character */
    }
}
Example #3
0
static int SetBaud( int baud_index, int *sync_point_p )
{
    int reply;         /* storing data received from other machine */
    int sync_point;

    sync_point = *sync_point_p;
    *sync_point_p += MAX_BAUD_SET_TICKS + 3*SYNC_SLOP;
    if( !Baud( baud_index ) ) return( FAIL );       /* sets up baud rate */
    SyncPoint( sync_point );
    ClearCom();
    Wait( SYNC_SLOP );
    SendByte( SDATA_HI );
    reply = WaitByte( SYNC_SLOP * 2 );
    if( reply != SDATA_HI ) {
        return( FAIL );
    }
    /* now go the other way */
    *sync_point_p += BaudTable[ baud_index ].full_test_ticks;
#ifdef SERVER
    if( !SetBaudReceiver() ) return( FAIL );
    if( !SetBaudSender() ) return( FAIL );
#else
    if( !SetBaudSender() ) return( FAIL );
    if( !SetBaudReceiver() ) return( FAIL );
#endif
    return( SUCCESS );
}
Example #4
0
bool MarchToTheSameDrummer( void )
{
    int got;

#ifdef SERVER
    SendByte( SDATA_LOK );
#else
    if( ( got = WaitByte( SEC( 2 ) ) ) != SDATA_LOK ) {
        return( FAIL );
    }
#endif
#ifndef SERVER
    SendByte( SDATA_ACK );
#else
    if( ( got = WaitByte( SEC(1)/2 ) ) != SDATA_ACK ) {
        return( FAIL );
    }
#endif
    Wait( 1 );  /* don't go till the timer hits exactly on the tick */
    ZeroWaitCount();
    return( SUCCESS );
}
Example #5
0
bool SetSyncTime( void )
{
    if( MaxBaud != MIN_BAUD ) {
        if( !Baud( LOW_BAUD ) ) return( FAIL );
    }
#ifdef SERVER
    if( WaitByte( SEC(1)/10 ) != SDATA_HI ) {
        return( FAIL );
    }
#else
    SendByte( SDATA_HI );
#endif
    return( MarchToTheSameDrummer() );
}
Example #6
0
static int CheckSyncString( void )
{
    int syn_c;         /* correct sync string bytes value */
    int i;             /* loop index */
    unsigned    wait;

    if( CheckPendingError() ) return( FAIL );
    wait = (MaxBaud == MIN_BAUD) ? SEC(2) : (SEC(1)/4);
    for( syn_c = i = 0; i < SYNC_LEN; ++i, syn_c = (syn_c + SYNC_INC) & 0xff ) {
        if( WaitByte( wait ) != syn_c ) {  /* error -- timeout or incorrect data */
            return( FAIL );
        }
        wait = SEC(1)/4;
    }
    return( SUCCESS );
}
Example #7
0
static int SenderHandshake( void )
{
    unsigned wait_time;     /* used to test for time-out */
    int      reply;         /* storing data received from other machine */

    wait_time = WaitCount() + SYNC_TIME_OUT;   /* limit for time out */
    if( MaxBaud == MIN_BAUD ) wait_time += SEC(1);
    SendByte( SYNC_BYTE );      /* send SYNC_BYTE */
    for( ;; ) {                 /* loop until ACK received or time out */
        reply = WaitByte( 1 );  /* get reply */
        if( reply == SDATA_ACK ) break;       /* ACK received; go to next operation */
        if( reply == SDATA_HI ) {             /* return HI received */
            SendByte( SDATA_HI );
        } else if( WaitCount() > wait_time ) {    /* time out */
            return( FAIL );
        }                            /* not yet time out; loop */
    }
    SendByte( SYNC_END );
    return( SUCCESS );
}
Example #8
0
static int WaitReceive( byte *err, trap_elen max_len, byte *p, unsigned timeout )
{
    unsigned wait_time;               /* timer */
    int      data;                    /* data from other machine */
    int      result;                  /* result of BlockReceive() */

    ZeroWaitCount();
    wait_time = WaitCount() + timeout;
    for( ;; ) {
        data = WaitByte( 1 );
        if( data == SDATA_STX ) {           /* STX received, get block */
            result = BlockReceive( err, max_len, p );
            if( result ) return( result );
        } else if( data == SDATA_RLR ) {    /* RLR received */
            SendByte( SDATA_NAK );          /* tell the other end to resend block */
        } else if( (timeout != FOREVER) && (WaitCount() >= wait_time) ) {
            return( FAIL );           /* time-out */
        }
    }
}
Example #9
0
static int SetBaudReceiver( void )
{
    unsigned    wait;

    if( !ReceiverHandshake() ) return( FAIL );
    /* sync string should have been received; and in receive buffer now
       CheckSyncString() checks if sync string is received successfully */
    if( CheckSyncString() ) {
        SendByte( SDATA_TAK );
        wait = (MaxBaud == MIN_BAUD) ? SEC(2) : SEC(1)/2;
        if( WaitByte( wait ) == SDATA_ACK ) {
            SendByte( SDATA_TAK );
            return( SUCCESS );
        } else {
            return( FAIL );
        }
    } else {
        return( FAIL );
    }
}
Example #10
0
static int ReceiverHandshake( void )
{
    int reply;         /* storing data received from other machine */
    int wait_time;

    wait_time = WaitCount() + SYNC_TIME_OUT;
    if( MaxBaud == MIN_BAUD ) wait_time += SEC(1);
    for( ;; ) {             /* loop until SYNC_END received or time out */
        reply = WaitByte( 1 );             /* get character */
        if( reply == SYNC_END ) break;     /* SYNC_END received; continue */
        if( reply == SYNC_BYTE ) {         /* SYNC_BYTE received; send ACK */
            SendByte( SDATA_ACK );
        } else if( reply == SDATA_HI ) {        /* return HI received */
            SendByte( SDATA_HI );
        } else if( WaitCount() >= wait_time ) { /* 2 sec time out */
            return( FAIL );
        }                               /* not yet time out; loop */
    }
    return( SUCCESS );
}
Example #11
0
int GetByte()
{
    return( WaitByte( 0 ) );
}
Example #12
0
int GetByte( void )
{
    return( WaitByte( 0 ) );
}
Example #13
0
static char *SetupModem( char *parm )
{
    char        *start;
    unsigned    wait;
    unsigned    ch;
    int         data;

    Baud( MaxBaud );
    wait = SEC(3);
    while( *parm == ' ' && *parm == '\t' ) ++parm;
    if( *parm == '\0' ) return( NULL );
    for( ;; ) {
        if( *parm == '(' ) {
            start = ++parm;
            for( ;; ) {
                ch = *parm;
                if( ch == '\0' ) goto done;
                ++parm;
                if( ch == ')' ) break;
                if( ch == '\\' ) {
                    ch = *parm++;
                    switch( ch ) {
                    case '\0':
                        return( TRP_ERR_invalid_modem_string );
                    case 'r':
                        ch = '\r';
                        break;
                    case 'n':
                        ch = '\n';
                        break;
                    }
                }
                data = WaitByte( wait );
                if( data == SDATA_NO_DATA ) {
                    if( wait != SEC(60) ) {
                        wait = SEC(60);
                    } else {
                        return( TRP_ERR_timeout_on_modem_string );
                    }
                    --parm;
                } else {
                    wait = SEC(3);
                    if( data != ch ) parm = start;
                }
            }
        } else {
            Wait( SEC(1)/5 );
            for( ;; ) {
                ch = *parm;
                if( ch == '\0' ) goto done;
                if( ch == '(' ) break;
                ++parm;
                if( ch == '\\' ) {
                    ch = *parm++;
                    switch( ch ) {
                    case '\0':
                        return( TRP_ERR_invalid_modem_string );
                    case '`':
                        Wait( 1 );
                        break;
                    case '~':
                        Wait( SEC(1) );
                        break;
                    case 'r':
                        SlowSend( '\r' );
                        Wait( SEC(1)/2 );
                        break;
                    case 'n':
                        SlowSend( '\n' );
                        break;
                    default:
                        SlowSend( ch );
                        break;
                    }
                } else {
                    SlowSend( ch );
                }
            }
        }
    }
done:
#ifdef SERVER
  #define SEND_CHAR     '='
  #define EXPECT_CHAR   '-'
#else
  #define SEND_CHAR     '-'
  #define EXPECT_CHAR   '='
#endif
    wait = 1;
    for( ;; ) {
        data = WaitByte( wait );
        if( data == EXPECT_CHAR ) break;
        if( data == SDATA_NO_DATA ) {
            if( wait != SEC(10) ) {
                wait = SEC(10);
                SendByte( SEND_CHAR );
            } else {
                return( TRP_ERR_modem_failed_connection );
            }
        }
    }
    if( wait != SEC(10) )
        SendByte( SEND_CHAR );
    return( NULL );
}
Example #14
0
static int BlockReceive( byte *err, trap_elen max_len, byte *p )
{
    byte            buffer[8];     /* storing bytes other than actual data from blocks */
    trap_elen       i;             /* loop index */
    trap_elen       len;
    word            crc_val;
    unsigned        blkno;
    int             c;
    int             wait;

    ZeroWaitCount();
    BytesReceived = 0;
    wait = (MaxBaud == MIN_BAUD) ? SEC(1)/2 : SEC(1)/4;
    /* Receiving bytes before actual data (up to err byte) */
    for( i = 1; i <= 7; ++i ) {
        c = WaitByte( wait );
        if( c == SDATA_NO_DATA ) {    /* time-out error */
            LastResponse = SDATA_NAK;
            SendByte( SDATA_NAK );  /* send NAK to request resending of block */
            return( FAIL );
        }
        buffer[i] = c;
    }

    len = (buffer[MLEN+1] << 8) | buffer[MLEN];   /* number of data bytes */
    if( len > max_len ) {        /* not enough buffer space to store data */
        ClearCom();
        return( FAIL );
    }

    /* Receiving actual data bytes */
    for( i = 0; i < len; ++i ) {
        c = WaitByte( wait );
        if( c == SDATA_NO_DATA ) {    /* time-out error */
            LastResponse = SDATA_NAK;
            SendByte( SDATA_NAK );  /* send NAK to request resending of block */
            return( FAIL );
        }
        p[i] = c;
    }

    /* Receiving the last byte: ETX */
    buffer[0] = WaitByte( wait );
    if( buffer[0] != SDATA_ETX ) {    /* time-out error */
        LastResponse = SDATA_NAK;
        SendByte( SDATA_NAK );  /* send NAK to request resending of block */
        return( FAIL );
    }

    *err = buffer[MERR];            /* storing command byte */
    blkno = (buffer[MBLKNO+1] << 8) | buffer[MBLKNO];  /* blk# received */
    crc_val = (buffer[MCRC+1] << 8) | buffer[MCRC];  /* crc received */

    if( CRC( &buffer[MBLKNO], len, p ) != crc_val ) {   /* CRC error */
        LastResponse = SDATA_NAK;
        SendByte( SDATA_NAK );  /* send NAK to request resending of block */
        return( FAIL );
    }

    if( ReceiveBlkNo != blkno ) {      /* incorrect block */
        ClearCom();
        LastResponse = SDATA_ACK;
        SendByte( SDATA_ACK );
        return( FAIL );
    }

    /* Block received successfully */
    LastResponse = SDATA_ACK;
    SendByte( SDATA_ACK );
    ++ReceiveBlkNo;
    BytesReceived = len;
    return( SUCCESS );
}
Example #15
0
static int BlockSend( trap_elen num, byte *p, unsigned timeout )
{
    word            crc_value;          /* crc value of block */
    unsigned        wait_time;          /* timer for testing time-out */
    trap_elen       i;                  /* loop index */
    int             reply;              /* reply message from other machine */
    unsigned char   crc_low, crc_hi;
    unsigned char   len_low, len_hi;
    byte            extra[3];           /* ..[0]=blkno_low, ..[1]=blkno_hi, ..[2]=err */
    unsigned        wait;

    ZeroWaitCount();
    extra[2] = PrevErrors = Errors;
    if( Errors > 255 ) {
        extra[2] = 255;       /* because it is a char, not an int */
    }
    Errors = 0;

    ClearCom();
    /* compose send buffer contents */
    len_low = num & 0xff;              /* low 8 bits of data block length */
    len_hi  = num >> 8;                /* high 8 bits of data block length */
    extra[0] = SendBlkNo & 0xff;      /* low 8 bits of send block no */
    extra[1] = SendBlkNo >> 8;        /* high 8 bits of send block no */
    crc_value = CRC( extra, num, p );  /* calculate crc for (blk#+err+data) */
    crc_low = crc_value & 0xff;        /* low 8 bits of crc_value */
    crc_hi  = crc_value >> 8;          /* high 8 bits of crc_value */

    wait = (MaxBaud == MIN_BAUD) ? SEC(2) : SEC(1);
    for( ;; ) {                 /* send block loop */
        /* send the block */
        StartBlockTrans();
        SendByte( SDATA_STX );
        SendByte( crc_low );
        SendByte( crc_hi );
        SendByte( len_low );
        SendByte( len_hi );
        SendByte( extra[0] );      /* blkno_low */
        SendByte( extra[1] );      /* blkno_hi */
        SendByte( extra[2] );      /* err */
        for( i = 0; i < num; ++i ) {
            SendByte( p[i] );
        }
        SendByte( SDATA_ETX );
        StopBlockTrans();

        wait_time = WaitCount() + timeout;
        for( ;; ) {                 /* wait proper acknowledgement loop */
            reply = WaitByte( wait );          /* receive reply */
            if( reply == SDATA_NO_DATA ) {
                if( (timeout != FOREVER) && (WaitCount() >= wait_time) ) {
                    return( FAIL );    /* time-out */
                } else {
                    SendByte( SDATA_RLR );     /* request last response */
                    ++Errors;            /* increment error counter */
                }
            } else {
                if( reply == SDATA_ACK ) {
                    ++SendBlkNo;
                    return( SUCCESS );    /* done, exit from BlockSend() */
                } else if( reply == SDATA_NAK ) {  /* unsuccessful, re-send block */
                    ++Errors;
                    break;     /* break out of acknowledgement loop;
                                  i.e. back to send block loop */
                } else if( reply == SDATA_RLR ) {  /* request last response */
                    SendByte( LastResponse );
                    break;     /* break out ackno loop; re-send block */
                } else {       /* things are totally messed up */
                    while( WaitByte( SEC(3)/4 ) != SDATA_NO_DATA )
                        ;             /* discard all characters sent */
                    SendByte( SDATA_RLR );     /* request last response */
                    ++Errors;
                }
            }
        }
    }
}