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enc28j60.c
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enc28j60.c
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/*! \file enc28j60.c \brief Microchip ENC28J60 Ethernet Interface Driver. */
//*****************************************************************************
//
// File Name : 'enc28j60.c'
// Title : Microchip ENC28J60 Ethernet Interface Driver
// Version : 1.0
// Target MCU : Atmel AVR series
//
// Description : This driver provides initialization and transmit/receive
// functions for the Microchip ENC28J60 10Mb Ethernet Controller and PHY.
// This chip is novel in that it is a full MAC+PHY interface all in a 28-pin
// chip, using an SPI interface to the host processor.
//
//*****************************************************************************
#include <stdio.h>
#include <stdlib.h>
#include "global.h"
#include "enc28j60.h"
// include configuration
//#include "ax88796conf.h"
/* SPI Control Register */
#define SPIE 7
#define SPE 6
#define DORD 5
#define MSTR 4
#define CPOL 3
#define CPHA 2
#define SPR1 1
#define SPR0 0
/* SPI Status Register */
#define SPIF 7
#define WCOL 6
#define SPI2X 0
#ifndef outb
#define outb(addr, data) addr = (data)
#endif
#ifndef inb
#define inb(addr) (addr)
#endif
#ifndef BV
#define BV(bit) (1<<(bit))
#endif
#ifndef cbi
#define cbi(reg,bit) reg &= ~(BV(bit))
#endif
#ifndef sbi
#define sbi(reg,bit) reg |= (BV(bit))
#endif
#define MIN(a,b) ((a<b)?(a):(b))
u08 Enc28j60Bank;
u16 NextPacketPtr;
void nicInit(char Eth)
{
enc28j60Init(Eth);
}
void nicSend(unsigned int len, unsigned char* packet)
{
enc28j60PacketSend(len, packet);
}
unsigned int nicPoll(unsigned int maxlen, unsigned char* packet)
{
return enc28j60PacketReceive(maxlen, packet);
}
void nicGetMacAddress(u08* macaddr)
{
// read MAC address registers
// NOTE: MAC address in ENC28J60 is byte-backward
*macaddr++ = enc28j60Read(MAADR5);
*macaddr++ = enc28j60Read(MAADR4);
*macaddr++ = enc28j60Read(MAADR3);
*macaddr++ = enc28j60Read(MAADR2);
*macaddr++ = enc28j60Read(MAADR1);
*macaddr++ = enc28j60Read(MAADR0);
}
void nicSetMacAddress(u08* macaddr)
{
// write MAC address
// NOTE: MAC address in ENC28J60 is byte-backward
enc28j60Write(MAADR5, *macaddr++);
enc28j60Write(MAADR4, *macaddr++);
enc28j60Write(MAADR3, *macaddr++);
enc28j60Write(MAADR2, *macaddr++);
enc28j60Write(MAADR1, *macaddr++);
enc28j60Write(MAADR0, *macaddr++);
}
/*
void nicRegDump(void)
{
enc28j60RegDump();
}
void ax88796SetupPorts(void)
{
#if NIC_CONNECTION == MEMORY_MAPPED
// enable external SRAM interface - no wait states
sbi(MCUCR, SRE);
// sbi(MCUCR, SRW10);
// sbi(XMCRA, SRW00);
// sbi(XMCRA, SRW01);
// sbi(XMCRA, SRW11);
#else
// set address port to output
AX88796_ADDRESS_DDR = AX88796_ADDRESS_MASK;
// set data port to input with pull-ups
AX88796_DATA_DDR = 0x00;
AX88796_DATA_PORT = 0xFF;
// initialize the control port read and write pins to de-asserted
sbi( AX88796_CONTROL_PORT, AX88796_CONTROL_READPIN );
sbi( AX88796_CONTROL_PORT, AX88796_CONTROL_WRITEPIN );
// set the read and write pins to output
sbi( AX88796_CONTROL_DDR, AX88796_CONTROL_READPIN );
sbi( AX88796_CONTROL_DDR, AX88796_CONTROL_WRITEPIN );
#endif
// set reset pin to output
sbi( AX88796_RESET_DDR, AX88796_RESET_PIN );
}
*/
u08 enc28j60ReadOp(u08 op, u08 address)
{
u08 data;
// assert CS
ENC28J60_CONTROL_PORT &= ~(1<<ENC28J60_CONTROL_CS);
// issue read command
SPDR = op | (address & ADDR_MASK);
while(!(SPSR & (1<<SPIF)));
// read data
SPDR = 0x00;
while(!(SPSR & (1<<SPIF)));
// do dummy read if needed
if(address & 0x80)
{
SPDR = 0x00;
while(!(inb(SPSR) & (1<<SPIF)));
}
data = SPDR;
// release CS
ENC28J60_CONTROL_PORT |= (1<<ENC28J60_CONTROL_CS);
return data;
}
void enc28j60WriteOp(u08 op, u08 address, u08 data)
{
// assert CS
ENC28J60_CONTROL_PORT &= ~(1<<ENC28J60_CONTROL_CS);
// issue write command
SPDR = op | (address & ADDR_MASK);
while(!(SPSR & (1<<SPIF)));
// write data
SPDR = data;
while(!(SPSR & (1<<SPIF)));
// release CS
ENC28J60_CONTROL_PORT |= (1<<ENC28J60_CONTROL_CS);
}
void enc28j60ReadBuffer(u16 len, u08* data)
{
// assert CS
ENC28J60_CONTROL_PORT &= ~(1<<ENC28J60_CONTROL_CS);
// issue read command
SPDR = ENC28J60_READ_BUF_MEM;
while(!(SPSR & (1<<SPIF)));
while(len--)
{
// read data
SPDR = 0x00;
while(!(SPSR & (1<<SPIF)));
*data++ = SPDR;
}
// release CS
ENC28J60_CONTROL_PORT |= (1<<ENC28J60_CONTROL_CS);
}
void enc28j60WriteBuffer(u16 len, u08* data)
{
unsigned char i=0;
// assert CS
ENC28J60_CONTROL_PORT &= ~(1<<ENC28J60_CONTROL_CS);
// issue write command
SPDR = ENC28J60_WRITE_BUF_MEM;
while(!(SPSR & (1<<SPIF)));
// printf("Sent Packet:\r\n");
while(len--)
{
// write data
SPDR = *data++;
// if (i!=0)
// {
// if ((i%16)==0)
// printf("\r\n");
// }
// if ( (*(data-1))<16 )
// printf("%d",0);
// printf("%x ",*(data-1));
// i++;
// if (len==0)
// printf("\r\n");
while(!(SPSR & (1<<SPIF)));
}
// release CS
ENC28J60_CONTROL_PORT |= (1<<ENC28J60_CONTROL_CS);
}
void enc28j60SetBank(u08 address)
{
// set the bank (if needed)
if((address & BANK_MASK) != Enc28j60Bank)
{
// set the bank
enc28j60WriteOp(ENC28J60_BIT_FIELD_CLR, ECON1, (ECON1_BSEL1|ECON1_BSEL0));
enc28j60WriteOp(ENC28J60_BIT_FIELD_SET, ECON1, (address & BANK_MASK)>>5);
Enc28j60Bank = (address & BANK_MASK);
}
}
u08 enc28j60Read(u08 address)
{
// set the bank
enc28j60SetBank(address);
// do the read
return enc28j60ReadOp(ENC28J60_READ_CTRL_REG, address);
}
void enc28j60Write(u08 address, u08 data)
{
// set the bank
enc28j60SetBank(address);
// do the write
enc28j60WriteOp(ENC28J60_WRITE_CTRL_REG, address, data);
}
u16 enc28j60PhyRead(u08 address)
{
u16 data;
// Set the right address and start the register read operation
enc28j60Write(MIREGADR, address);
enc28j60Write(MICMD, MICMD_MIIRD);
// wait until the PHY read completes
while(enc28j60Read(MISTAT) & MISTAT_BUSY);
// quit reading
enc28j60Write(MICMD, 0x00);
// get data value
data = enc28j60Read(MIRDL);
data |= enc28j60Read(MIRDH);
// return the data
return data;
}
void enc28j60PhyWrite(u08 address, u16 data)
{
// set the PHY register address
enc28j60Write(MIREGADR, address);
// write the PHY data
enc28j60Write(MIWRL, data);
enc28j60Write(MIWRH, data>>8);
// wait until the PHY write completes
while(enc28j60Read(MISTAT) & MISTAT_BUSY);
}
void enc28j60Init(char Eth)
{
unsigned int cntr;
// initialize I/O
sbi(ENC28J60_CONTROL_DDR, ENC28J60_CONTROL_CS);
sbi(ENC28J60_CONTROL_PORT, ENC28J60_CONTROL_CS);
// setup SPI I/O pins
sbi(PORTB, 1); // set SCK hi
sbi(DDRB, 1); // set SCK as output
cbi(DDRB, 3); // set MISO as input
sbi(DDRB, 2); // set MOSI as output
sbi(DDRB, 0); // SS must be output for Master mode to work
// initialize SPI interface
// master mode
sbi(SPCR, MSTR);
// select clock phase positive-going in middle of data
cbi(SPCR, CPOL);
// Data order MSB first
cbi(SPCR,DORD);
// switch to f/4 2X = f/2 bitrate
cbi(SPCR, SPR0);
cbi(SPCR, SPR1);
sbi(SPSR, SPI2X);
// enable SPI
sbi(SPCR, SPE);
// perform system reset
enc28j60WriteOp(ENC28J60_SOFT_RESET, 0, ENC28J60_SOFT_RESET);
// check CLKRDY bit to see if reset is complete
delay_ms(50);
//for (cntr=0;cntr<1000;cntr++);
//while(!(enc28j60Read(ESTAT) & ESTAT_CLKRDY)); //********
// do bank 0 stuff
// initialize receive buffer
// 16-bit transfers, must write low byte first
// set receive buffer start address
NextPacketPtr = RXSTART_INIT;
enc28j60Write(ERXSTL, RXSTART_INIT&0xFF);
enc28j60Write(ERXSTH, RXSTART_INIT>>8);
// set receive pointer address
enc28j60Write(ERXRDPTL, RXSTART_INIT&0xFF);
enc28j60Write(ERXRDPTH, RXSTART_INIT>>8);
// set receive buffer end
// ERXND defaults to 0x1FFF (end of ram)
enc28j60Write(ERXNDL, RXSTOP_INIT&0xFF);
enc28j60Write(ERXNDH, RXSTOP_INIT>>8);
// set transmit buffer start
// ETXST defaults to 0x0000 (beginnging of ram)
enc28j60Write(ETXSTL, TXSTART_INIT&0xFF);
enc28j60Write(ETXSTH, TXSTART_INIT>>8);
// do bank 2 stuff
// enable MAC receive
enc28j60Write(MACON1, MACON1_MARXEN|MACON1_TXPAUS|MACON1_RXPAUS);
// bring MAC out of reset
enc28j60Write(MACON2, 0x00);
// enable automatic padding and CRC operations
enc28j60WriteOp(ENC28J60_BIT_FIELD_SET, MACON3, MACON3_PADCFG0|MACON3_TXCRCEN|MACON3_FRMLNEN/*|MACON3_FULDPX*/);
// enc28j60Write(MACON3, MACON3_PADCFG0|MACON3_TXCRCEN|MACON3_FRMLNEN);
// set inter-frame gap (non-back-to-back)
enc28j60Write(MAIPGL, 0x12);
enc28j60Write(MAIPGH, 0x0C);
// set inter-frame gap (back-to-back)
enc28j60Write(MABBIPG, 0x12);
// Set the maximum packet size which the controller will accept
enc28j60Write(MAMXFLL, MAX_FRAMELEN&0xFF);
enc28j60Write(MAMXFLH, MAX_FRAMELEN>>8);
// do bank 3 stuff
// write MAC address
// NOTE: MAC address in ENC28J60 is byte-backward
enc28j60Write(MAADR5, ENC28J60_MAC0);
enc28j60Write(MAADR4, ENC28J60_MAC1);
enc28j60Write(MAADR3, ENC28J60_MAC2);
enc28j60Write(MAADR2, ENC28J60_MAC3);
enc28j60Write(MAADR1, ENC28J60_MAC4);
enc28j60Write(MAADR0, ENC28J60_MAC5+Eth);
// no loopback of transmitted frames
enc28j60PhyWrite(PHCON2, PHCON2_HDLDIS);
// switch to bank 0
enc28j60SetBank(ECON1);
// enable interrutps
enc28j60WriteOp(ENC28J60_BIT_FIELD_SET, EIE, EIE_INTIE|EIE_PKTIE);
// enable packet reception
enc28j60WriteOp(ENC28J60_BIT_FIELD_SET, ECON1, ECON1_RXEN);
enc28j60PhyWrite(PHLCON, 0x05ca);
// setup duplex ----------------------
// Disable receive logic and abort any packets currently being transmitted
enc28j60WriteOp(ENC28J60_BIT_FIELD_CLR, ECON1, ECON1_TXRTS|ECON1_RXEN);
{
u16 temp,temp1;
// Set the PHY to the proper duplex mode
temp = enc28j60PhyRead(PHCON1);
temp |= PHCON1_PDPXMD;
enc28j60PhyWrite(PHCON1, temp);
// Set the MAC to the proper duplex mode
temp = enc28j60Read(MACON3);
temp1 = ~MACON3_FULDPX;
temp &= temp1;
// temp = temp & 0xFE;
enc28j60Write(MACON3, temp);
}
// Set the back-to-back inter-packet gap time to IEEE specified
// requirements. The meaning of the MABBIPG value changes with the duplex
// state, so it must be updated in this function.
// In full duplex, 0x15 represents 9.6us; 0x12 is 9.6us in half duplex
//enc28j60Write(MABBIPG, DuplexState ? 0x15 : 0x12);
// Reenable receive logic
enc28j60WriteOp(ENC28J60_BIT_FIELD_SET, ECON1, ECON1_RXEN);
// setup duplex ----------------------
}
void enc28j60PacketSend(unsigned int len, unsigned char* packet)
{
// Set the write pointer to start of transmit buffer area
enc28j60Write(EWRPTL, TXSTART_INIT);
enc28j60Write(EWRPTH, TXSTART_INIT>>8);
// Set the TXND pointer to correspond to the packet size given
enc28j60Write(ETXNDL, (TXSTART_INIT+len));
enc28j60Write(ETXNDH, (TXSTART_INIT+len)>>8);
// write per-packet control byte
enc28j60WriteOp(ENC28J60_WRITE_BUF_MEM, 0, 0x00);
// copy the packet into the transmit buffer
enc28j60WriteBuffer(len, packet);
// send the contents of the transmit buffer onto the network
enc28j60WriteOp(ENC28J60_BIT_FIELD_SET, ECON1, ECON1_TXRTS);
}
unsigned int enc28j60PacketReceive(unsigned int maxlen, unsigned char* packet)
{
u16 rxstat;
u16 len;
u08 kk;
kk=enc28j60Read(EIR);
kk=kk & 0x40; //EIR_PKTIF;
// check if a packet has been received and buffered
// if( !(enc28j60Read(EIR) & EIR_PKTIF) )
if(kk==0)
return 0;
// Make absolutely certain that any previous packet was discarded
//if( WasDiscarded == FALSE)
// MACDiscardRx();
// Set the read pointer to the start of the received packet
enc28j60Write(ERDPTL, (NextPacketPtr));
enc28j60Write(ERDPTH, (NextPacketPtr)>>8);
// read the next packet pointer
NextPacketPtr = enc28j60ReadOp(ENC28J60_READ_BUF_MEM, 0);
NextPacketPtr |= (u16)enc28j60ReadOp(ENC28J60_READ_BUF_MEM, 0)<<8;
// read the packet length
len = enc28j60ReadOp(ENC28J60_READ_BUF_MEM, 0);
len |= (u16)enc28j60ReadOp(ENC28J60_READ_BUF_MEM, 0)<<8;
// read the receive status
rxstat = enc28j60ReadOp(ENC28J60_READ_BUF_MEM, 0);
rxstat |=(u16)enc28j60ReadOp(ENC28J60_READ_BUF_MEM, 0)<<8;
// limit retrieve length
// (we reduce the MAC-reported length by 4 to remove the CRC)
// printf("Packet Length: %d\r\n",len);
len = MIN(len, maxlen);
// copy the packet from the receive buffer
enc28j60ReadBuffer(len, packet);
// Move the RX read pointer to the start of the next received packet
// This frees the memory we just read out
enc28j60Write(ERXRDPTL, (NextPacketPtr));
enc28j60Write(ERXRDPTH, (NextPacketPtr)>>8);
// decrement the packet counter indicate we are done with this packet
enc28j60WriteOp(ENC28J60_BIT_FIELD_SET, ECON2, ECON2_PKTDEC);
return len;
}
//void enc28j60ReceiveOverflowRecover(void)
//{
// receive buffer overflow handling procedure
// recovery completed
//}
/*void enc28j60RegDump(void)
{
// unsigned char macaddr[6];
// result = ax88796Read(TR);
// printf("Media State: ");
// if(!(result & AUTOD))
// printf("Autonegotiation\r\n");
// else if(result & RST_B)
// printf("PHY in Reset \r\n");
// else if(!(result & RST_10B))
// printf("10BASE-T \r\n");
// else if(!(result & RST_TXB))
// printf("100BASE-T \r\n");
printf("RevID: 0x%x\r\n", enc28j60Read(EREVID));
printfProgStrM("Cntrl: ECON1 ECON2 ESTAT EIR EIE\r\n");
printfProgStrM(" ");
printfu08(enc28j60Read(ECON1));
printfProgStrM(" ");
printfu08(enc28j60Read(ECON2));
printfProgStrM(" ");
printfu08(enc28j60Read(ESTAT));
printfProgStrM(" ");
printfu08(enc28j60Read(EIR));
printfProgStrM(" ");
printfu08(enc28j60Read(EIE));
printfCRLF();
printfProgStrM("MAC : MACON1 MACON2 MACON3 MACON4 MAC-Address\r\n");
printfProgStrM(" 0x");
printfu08(enc28j60Read(MACON1));
printfProgStrM(" 0x");
printfu08(enc28j60Read(MACON2));
printfProgStrM(" 0x");
printfu08(enc28j60Read(MACON3));
printfProgStrM(" 0x");
printfu08(enc28j60Read(MACON4));
printfProgStrM(" ");
printfu08(enc28j60Read(MAADR5));
printfu08(enc28j60Read(MAADR4));
printfu08(enc28j60Read(MAADR3));
printfu08(enc28j60Read(MAADR2));
printfu08(enc28j60Read(MAADR1));
printfu08(enc28j60Read(MAADR0));
printfCRLF();
printfProgStrM("Rx : ERXST ERXND ERXWRPT ERXRDPT ERXFCON EPKTCNT MAMXFL\r\n");
printfProgStrM(" 0x");
printfu08(enc28j60Read(ERXSTH));
printfu08(enc28j60Read(ERXSTL));
printfProgStrM(" 0x");
printfu08(enc28j60Read(ERXNDH));
printfu08(enc28j60Read(ERXNDL));
printfProgStrM(" 0x");
printfu08(enc28j60Read(ERXWRPTH));
printfu08(enc28j60Read(ERXWRPTL));
printfProgStrM(" 0x");
printfu08(enc28j60Read(ERXRDPTH));
printfu08(enc28j60Read(ERXRDPTL));
printfProgStrM(" 0x");
printfu08(enc28j60Read(ERXFCON));
printfProgStrM(" 0x");
printfu08(enc28j60Read(EPKTCNT));
printfProgStrM(" 0x");
printfu08(enc28j60Read(MAMXFLH));
printfu08(enc28j60Read(MAMXFLL));
printfCRLF();
printfProgStrM("Tx : ETXST ETXND MACLCON1 MACLCON2 MAPHSUP\r\n");
printfProgStrM(" 0x");
printfu08(enc28j60Read(ETXSTH));
printfu08(enc28j60Read(ETXSTL));
printfProgStrM(" 0x");
printfu08(enc28j60Read(ETXNDH));
printfu08(enc28j60Read(ETXNDL));
printfProgStrM(" 0x");
printfu08(enc28j60Read(MACLCON1));
printfProgStrM(" 0x");
printfu08(enc28j60Read(MACLCON2));
printfProgStrM(" 0x");
printfu08(enc28j60Read(MAPHSUP));
printfCRLF();
delay_ms(25);
} */