Algunas precauciones extra.

[z.facultad/66.09/etherled.git] / src / dp8390.c

// vim: set et sw=4 sts=4 :     

#include "debug.h"
#include "eth.h"
#include "dp8390.h"

/// Datos persistentes del módulo
static union // Unión porque nunca se usan ambos juntos
{
    byte send_len; ///> Tamaño del frame que será enviado
    byte next_pkt; ///> Próximo frame a obtener
}
persistent;

/// Cambia de página sin modificar los demás bits del CR
#define SELECT_REG_PAGE(page)                         \
    do                                                \
    {                                                 \
        write_reg(CR, read_reg(CR) & ~(PS1 | PS0));   \
        write_reg(CR, read_reg(CR) | (page << 6));    \
    }                                                 \
    while (0)

/// Aborta (o completa) el DMA limpiando el ISR
#define ABORT_DMA(flags)        \
    do                          \
    {                           \
        write_reg(CR, flags);   \
        write_reg(ISR, RDC);    \
    }                           \
    while (0)


static void write_reg(unsigned char reg, unsigned char wr_data)
{
    // Select register address.
    ADDR_PORT &= ~ADDR_PORT_MASK; 
    ADDR_PORT |= reg;

    // Output register data to port.
    DATA_PORT = wr_data;

    // Clock register data into RTL8019AS.
    // IOR & IOW are both active low.
    NICE = 0;
    IOW = 0;
    IOW = 1;
    NICE = 1;

    // Set register data port as input again.
    DATA_PORT = DATA_PORT_MASK;
} 


static unsigned char read_reg(unsigned char reg)
{
    // Select register address.
    ADDR_PORT &= ~ADDR_PORT_MASK;
    ADDR_PORT |= reg;

    // Enable register data output from RTL8019AS.
    NICE = 0;
    IOR = 0;

    // Read register data from port.
    reg = DATA_PORT;

    // Disable register data output from RTL8019AS.
    IOR = 1; 
    NICE = 1;   

    return reg;
} 

/** Resetea placa de red en caso de buffer overflow */
static void reset()
{
    bit retransmit = read_reg(CR) & TXP;

    // If the receive buffer ring has overflowed we dump the whole
    // thing and start over. There is no way of knowing whether the
    // data it contains is uncorrupted, or will cause us grief.

    // Stop RTL8019AS and abort DMA operation.
    write_reg(CR, STOP);

    // Wait for controller to halt after any current tx completes.
    while(!(read_reg(ISR) & RST)) continue;

    // Reset remote byte count registers.
    write_reg(RBCR0, 0x00);
    write_reg(RBCR1, 0x00);

    // Check whether currently transmitting a packet.
    if(retransmit)
    {
        // If neither a successful transmission nor a tx abort error 
        // has occured, then flag current tx packet for resend.
        if(read_reg(ISR) & (PTX | TXE))
        {
            retransmit = 0;
        }
    }

    // Set transmit configuration register to loopback internally.
    write_reg(TCR, MODE1);

    // Restart the RTL8019AS.
    write_reg(CR, START);

    // Re-initialise last receive buffer read pointer.
    write_reg(BNRY, RX_PAGE_START);

    // Select RTL8019AS register page 1.
    SELECT_REG_PAGE(1);

    // Re-initialise current packet receive buffer page pointer.
    write_reg(CURR, RX_PAGE_START + 1);

    // Select RTL8019AS register page 0.
    SELECT_REG_PAGE(0);

    // Clear rx buffer overflow & packet received interrupt flags.
    write_reg(ISR, PRX | OVW);

    // Re-itialise transmit configuration reg for normal operation.
    write_reg(TCR, MODE0);

    if(retransmit)
    {
        // Retransmit packet in RTL8019AS local tx buffer.
        write_reg(CR, START | TXP);
    }
}


/** Inicializa dispositivo de red
 * @return true si se inicializó correctamente, false si no
 */
bool netdev_init()
{
    // Set IOR & IOW as they're active low.
    IOR = 1;
    IOW = 1;
    NICE = 1;

    // Set register data port as input.
    DATA_PORT = DATA_PORT_MASK;

    // Configure RTL8019AS ethernet controller.

    // Keil startup code takes 4ms to execute (18.432MHz, X1 mode).
    // That leaves plenty of time for the RTL8019AS to read it's
    // configuration in from the 9346 EEPROM before we get here.

    // Select RTL8019AS register page 0.
    SELECT_REG_PAGE(0);

    // Check if RTL8019AS fully reset.
    if(!(read_reg(ISR) & RST))
    {
        return 0;
    }

    // Stop RTL8019AS, select page 0 and abort DMA operation.
    write_reg(CR, STOP);

    // Initialise data configuration register. 
    // FIFO threshold 8 bytes, no loopback, don't use auto send packet.
    write_reg(DCR, FT1 | LS);

    // Reset remote byte count registers.
    write_reg(RBCR0, 0u);
    write_reg(RBCR1, 0u);

    // Receive configuration register to monitor mode.
    write_reg(RCR, MON);

    // Initialise transmit configuration register to loopback internally.
    write_reg(TCR, MODE1);

    // Clear interrupt status register bits by writing 1 to each.
    write_reg(ISR, ALL);

    // Mask all interrupts in mask register.
    write_reg(IMR, NONE);

    // Obtengo MAC de la placa
    write_reg(RBCR0, 12u); // Vamos a leer 12 bytes (2 x 6)
    write_reg(RBCR1, 0u); 
    write_reg(RSAR0, 0u); // En la dirección 0x0000
    write_reg(RSAR1, 0u);
    write_reg(CR, READ); // Comienza lectura
    eth_addr_local[0] = read_reg(RDMA);
    read_reg(RDMA); // Ignoramos porque viene como un word
    eth_addr_local[1] = read_reg(RDMA);
    read_reg(RDMA); // Ignoramos porque viene como un word
    eth_addr_local[2] = read_reg(RDMA);
    read_reg(RDMA); // Ignoramos porque viene como un word
    eth_addr_local[3] = read_reg(RDMA);
    read_reg(RDMA); // Ignoramos porque viene como un word
    eth_addr_local[4] = read_reg(RDMA);
    read_reg(RDMA); // Ignoramos porque viene como un word
    eth_addr_local[5] = read_reg(RDMA);
    read_reg(RDMA); // Ignoramos porque viene como un word

    // Abort/ complete DMA operation.
    ABORT_DMA(STOP);

    // Set transmit page start.
    write_reg(TPSR, TX_PAGE_START);

    // Set receive buffer page start.
    write_reg(PSTART, RX_PAGE_START);

    // Initialise last receive buffer read pointer.
    write_reg(BNRY, RX_PAGE_START);

    // Set receive buffer page stop.
    write_reg(PSTOP, RX_PAGE_STOP);

    // Select RTL8019AS register page 1.
    SELECT_REG_PAGE(1);

    // Initialise current packet receive buffer page pointer
    write_reg(CURR, RX_PAGE_START + 1);

    // Set physical address
    write_reg(PAR0, eth_addr_local[0]);
    write_reg(PAR1, eth_addr_local[1]);
    write_reg(PAR2, eth_addr_local[2]);
    write_reg(PAR3, eth_addr_local[3]);
    write_reg(PAR4, eth_addr_local[4]);
    write_reg(PAR5, eth_addr_local[5]);

    // Restart RTL8019AS. 
    write_reg(CR, START);

    // Initialise transmit configuration register for normal operation.
    write_reg(TCR, MODE0);

    // Receive configuration register to accept broadcast packets.
    write_reg(RCR, AB);

    return 1;
}


/** Comienza el envío de un nuevo frame
 * @param len Tamaño del frame a enviar
 */
void netdev_send_start()
{
    persistent.send_len = 0;
    // Wait until pending transmit operation completes.
    while(read_reg(CR) & TXP) continue;

    // Set remote DMA start address registers to indicate where to load packet.
    write_reg(RSAR0, 0u);
    write_reg(RSAR1, TX_PAGE_START);

    // Set remote DMA byte count registers to indicate length of packet load.
    write_reg(RBCR0, MAX_PACKET_LEN); // Tamaño máximo en principio
    write_reg(RBCR1, 0u);

    // Initiate DMA transfer of uip_buf & uip_appdata buffers to RTL8019AS.
    write_reg(CR, WRITE);
}

/** Escribe un byte al buffer de la placa de red para ser enviado
 * @precond netdev_send_start() debe haber sido ejecutada
 * @param b Byte a enviar
 */
void netdev_send_byte(byte b)
{
    persistent.send_len++;
    write_reg(RDMA, b);
}

/** Escribe un word al buffer de la placa de red para ser enviado
 * @precond netdev_send_start() debe haber sido ejecutada
 * @param w Word a enviar
 */
void netdev_send_word(uint16 w)
{
    persistent.send_len += 2;
    write_reg(RDMA, HIGH(w));
    write_reg(RDMA, LOW(w));
}

/** Finaliza el envío del frame
 * @precond netdev_send_start() debe haber sido ejecutada
 */
void netdev_send_end()
{
    // Abort/ complete DMA operation.
    ABORT_DMA(START);

    // Set transmit page start to indicate packet start.
    write_reg(TPSR, TX_PAGE_START);

    // Ethernet packets must be > 60 bytes, otherwise are rejected as runts.
    if (persistent.send_len < MIN_PACKET_LEN)
    {
        persistent.send_len = MIN_PACKET_LEN;
    }

    // Set transmit byte count registers to indicate packet length.
    write_reg(TBCR0, LOW(persistent.send_len));
    write_reg(TBCR1, 0u);

    // Issue command for RTL8019AS to transmit packet from it's local buffer.
    write_reg(CR, START | TXP);
}

/** Comienza la lectura de un nuevo frame
 * @return Cantidad de bytes del frame leído
 */
byte netdev_recv_start()
{
    // Indicamos que no se leyó el paquete
    persistent.next_pkt = 0;

    // Check if the rx buffer has overflowed.
    if (read_reg(ISR) & OVW)
    {
        byte current;

        // Select RTL8019AS register page 1.
        SELECT_REG_PAGE(1);

        // Retrieve current receive buffer page
        current = read_reg(CURR);

        // Select RTL8019AS register page 1.
        SELECT_REG_PAGE(0);

        if (read_reg(BNRY) == current)
        {
            printb(read_reg(ISR), 0x01);
            printb(read_reg(BNRY), 0x02);
            printb(current, 0x04);
            reset();
        }
        return 0u;
    }
    // Check if there is a packet in the rx buffer.
    else if (read_reg(ISR) & PRX)
    {
        struct buf_hdr_t
        {
            byte status;    // Estado del frame recibido
            byte next;      // Offset del próximo frame
            uint16 len;     // Tamaño del frame
        }
        buf_hdr;
        byte current;
        byte bnry;

        // Retrieve packet header. (status, next_ptr, length_l, length_h)

        // Set remote DMA start address registers to packet header.
        bnry = read_reg(BNRY) + 1;
        if (bnry >= RX_PAGE_STOP)
            bnry = RX_PAGE_START;
        write_reg(RSAR0, 0u);
        write_reg(RSAR1, bnry);

        // Select RTL8019AS register page 1.
        SELECT_REG_PAGE(1);

        // Retrieve current receive buffer page
        current = read_reg(CURR);

        // Select RTL8019AS register page 1.
        SELECT_REG_PAGE(0);

        // Check if last packet has been removed from rx buffer.
        if(bnry == current)
        {
            print(0x0000);
            // Clear packet received interrupt flag.
            write_reg(ISR, PRX | RXE);
            return 0u;
        }

        // Set remote DMA byte count registers to packet header length.
        write_reg(RBCR0, sizeof(struct buf_hdr_t));
        write_reg(RBCR1, 0x00);

        // Clear remote DMA complete interrupt status register bit.
        write_reg(ISR, RDC);

        // Initiate DMA transfer of packet header.
        write_reg(CR, READ);

        // Packet status.
        buf_hdr.status = read_reg(RDMA);

        // Save next packet pointer.
        buf_hdr.next = read_reg(RDMA);

        // Indicamos cual es el próximo paquete para cuando termine
        persistent.next_pkt = buf_hdr.next - 1;

        printb(bnry,         0x03);
        printb(current,      0x07);
        printb(buf_hdr.next, 0x0f);

        // Retrieve packet data length and subtract CRC bytes.
        buf_hdr.len = read_reg(RDMA) - sizeof(struct buf_hdr_t);

        // Si es muy grande, muy chico o hubo error, lo descartamos
        if ((buf_hdr.len < MIN_PACKET_LEN) || (buf_hdr.len > MAX_PACKET_LEN)
                || ((buf_hdr.status & 0x0F) != RXSOK)
                || (current = read_reg(RDMA))) // Parte alta del tamaño
        {
            printb(buf_hdr.next,   0x1f);
            printb(buf_hdr.status, 0x3f);
            printb(buf_hdr.len,    0x7f);
            printb(current,        0xff);
            return 0;
        }

        // Abort/ complete DMA operation.
        ABORT_DMA(START);

        // Set remote DMA start address registers to packet data.
        write_reg(RSAR0, sizeof(struct buf_hdr_t));
        write_reg(RSAR1, bnry);

        // Set remote DMA byte count registers to packet data length.
        write_reg(RBCR0, buf_hdr.len);
        write_reg(RBCR1, 0u);

        // Initiate DMA transfer of packet data.
        write_reg(CR, READ);

        return buf_hdr.len;
    }
    return 0;
}

/** Lee un byte del buffer de la placa de red
 * @precond netdev_recv_start() debe haber sido ejecutada
 */
byte netdev_recv_byte()
{
    return read_reg(RDMA);
}

/** Lee un word del buffer de la placa de red
 * @precond netdev_recv_start() debe haber sido ejecutada
 */
uint16 netdev_recv_word()
{
    uint16 w = netdev_recv_byte() << 8;
    return w + netdev_recv_byte();
}

/** Finaliza la lectura del frame
 * @precond netdev_recv_start() debe haber sido ejecutada
 */
void netdev_recv_end()
{
    // Abort/ complete DMA operation.
    ABORT_DMA(STOP);

    // Advance boundary pointer to next packet start.
    if (persistent.next_pkt)
        write_reg(BNRY, persistent.next_pkt);
}