Removed old unused RTL8019 code that had license issues

This commit is contained in:
Adam Dunkels 2012-10-29 16:08:09 +01:00
parent 53f4d27af4
commit 1af22fa4fe
7 changed files with 0 additions and 1877 deletions

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/*-----------------------------------------------------------------------------------*/
/*
* Copyright (c) 2001-2004, Adam Dunkels.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote
* products derived from this software without specific prior
* written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS
* OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE
* GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* This file is part of the uIP TCP/IP stack.
*
*
*/
#include "contiki-net.h"
#include "dev/rtl8019dev.h"
#include "net/uip-neighbor.h"
#define BUF ((struct uip_eth_hdr *)&uip_buf[0])
PROCESS(rtl8019_process, "RTL8019 driver");
/*---------------------------------------------------------------------------*/
uint8_t
rtl8019_output(void)
{
uip_arp_out();
RTL8019dev_send();
return 0;
}
/*---------------------------------------------------------------------------*/
static void
pollhandler(void)
{
process_poll(&rtl8019_process);
uip_len = RTL8019dev_poll();
if(uip_len > 0) {
#if UIP_CONF_IPV6
if(BUF->type == uip_htons(UIP_ETHTYPE_IPV6)) {
uip_neighbor_add(&IPBUF->srcipaddr, &BUF->src);
tcpip_input();
} else
#endif /* UIP_CONF_IPV6 */
if(BUF->type == uip_htons(UIP_ETHTYPE_IP)) {
uip_len -= sizeof(struct uip_eth_hdr);
tcpip_input();
} else if(BUF->type == uip_htons(UIP_ETHTYPE_ARP)) {
uip_arp_arpin();
/* If the above function invocation resulted in data that
should be sent out on the network, the global variable
uip_len is set to a value > 0. */
if(uip_len > 0) {
RTL8019dev_send();
}
}
}
}
/*---------------------------------------------------------------------------*/
PROCESS_THREAD(rtl8019_process, ev, data)
{
PROCESS_POLLHANDLER(pollhandler());
PROCESS_BEGIN();
RTL8019dev_init();
tcpip_set_outputfunc(rtl8019_output);
process_poll(&rtl8019_process);
PROCESS_WAIT_UNTIL(ev == PROCESS_EVENT_EXIT);
RTL8019dev_exit();
PROCESS_END();
}
/*---------------------------------------------------------------------------*/

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/*
* Copyright (c) 2001, Adam Dunkels.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by Adam Dunkels.
* 4. The name of the author may not be used to endorse or promote
* products derived from this software without specific prior
* written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS
* OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE
* GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* This file is part of the uIP TCP/IP stack.
*
*
*/
#ifndef __RTL8019_DRV_H__
#define __RTL8019_DRV_H__
#include "contiki.h"
PROCESS_NAME(rtl8019_process);
uint8_t rtl8019_output(void);
#endif /* __RTL8019_DRV_H__ */

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#include "rtl8019.h"
#include "debug.h"
#include "avr/pgmspace.h"
#include "rtlregs.h"
#ifndef cbi
#define cbi(sfr, bit) (_SFR_BYTE(sfr) &= ~_BV(bit))
#endif
#ifndef sbi
#define sbi(sfr, bit) (_SFR_BYTE(sfr) |= _BV(bit))
#endif
#define outp(val, port) do { (port) = (val); } while(0)
#define inp(port) (port)
/*****************************************************************************
* Module Name: Realtek 8019AS Driver
*
* Created By: Louis Beaudoin (www.embedded-creations.com)
*
* Original Release: September 21, 2002
*
* Module Description:
* Provides functions to initialize the Realtek 8019AS, and send and retreive
* packets
*
* November 15, 2002 - Louis Beaudoin
* processRTL8019Interrupt() - bit mask mistake fixed
*
* September 30, 2002 - Louis Beaudoin
* Receive functions modified to handle errors encountered when receiving a
* fast data stream. Functions now manually retreive data instead of
* using the send packet command. Interface improved by checking for
* overruns and data in the buffer internally.
* Corrected the overrun function - overrun flag was not reset after overrun
* Added support for the Imagecraft Compiler
* Added support to communicate with the NIC using general I/O ports
* March 10, 2012 - David Kopf
* Use contiki clock_delay_usec call.
*
*****************************************************************************/
/*****************************************************************************
* writeRTL( RTL_ADDRESS, RTL_DATA )
* Args: 1. unsigned char RTL_ADDRESS - register offset of RTL register
* 2. unsigned char RTL_DATA - data to write to register
* Created By: Louis Beaudoin
* Date: September 21, 2002
* Description: Writes byte to RTL8019 register.
*
* Notes - If using the External SRAM Interface, performs a write to
* address MEMORY_MAPPED_RTL8019_OFFSET + (RTL_ADDRESS<<8)
* The address is sent in the non-multiplxed upper address port so
* no latch is required.
*
* If using general I/O ports, the data port is left in the input
* state with pullups enabled
*
*****************************************************************************/
#if MEMORY_MAPPED_NIC == 1
/*#define writeRTL(RTL_ADDRESS,RTL_DATA) do{ *(volatile unsigned char *) \
(MEMORY_MAPPED_RTL8019_OFFSET \
+ (((unsigned char)(RTL_ADDRESS)) << 8)) = \
(unsigned char)(RTL_DATA); } while(0)*/
#define writeRTL nic_write
#else
void writeRTL(unsigned char address, unsigned char data)
{
// put the address and data in the port registers - data port is output
outp( address, RTL8019_ADDRESS_PORT );
outp( 0xFF, RTL8019_DATA_DDR );
outp( data, RTL8019_DATA_PORT );
// toggle write pin
RTL8019_CLEAR_WRITE;
RTL8019_SET_WRITE;
// set data port back to input with pullups enabled
outp( 0x00, RTL8019_DATA_DDR );
outp( 0xFF, RTL8019_DATA_PORT );
}
#endif
void
delay_msec(uint16_t howlong)
{
#if F_CPU>=16000000
while(howlong--) clock_delay_usec(1000);
#elif F_CPU>=8000000
uint16_t i=996;
while(howlong--) {clock_delay_usec(i);i=999;}
#elif F_CPU>=4000000
uint16_t i=992;
while(howlong--) {clock_delay_usec(i);i=999;}
#elif F_CPU>=2000000
uint16_t i=989;
while(howlong--) {clock_delay_usec(i);i=999;}
#else
uint16_t i=983;
while(howlong--) {clock_delay_usec(i);i=999;}
#endif
}
/*****************************************************************************
* readRTL(RTL_ADDRESS)
* Args: unsigned char RTL_ADDRESS - register offset of RTL register
* Created By: Louis Beaudoin
* Date: September 21, 2002
* Description: Reads byte from RTL8019 register
*
* Notes - If using the External SRAM Interface, performs a read from
* address MEMORY_MAPPED_RTL8019_OFFSET + (RTL_ADDRESS<<8)
* The address is sent in the non-multiplxed upper address port so
* no latch is required.
*
* If using general I/O ports, the data port is assumed to already be
* an input, and is left as an input port when done
*
*****************************************************************************/
#if MEMORY_MAPPED_NIC == 1
/*#define readRTL(RTL_ADDRESS) (*(volatile unsigned char *) \
(MEMORY_MAPPED_RTL8019_OFFSET \
+ (((unsigned char)(RTL_ADDRESS)) << 8)) )*/
#define readRTL nic_read
#else
unsigned char readRTL(unsigned char address)
{
unsigned char byte;
// drive the read address
outp( address, RTL8019_ADDRESS_PORT );
//nop();
// assert read
RTL8019_CLEAR_READ;
nop();
// read in the data
byte = inp( RTL8019_DATA_PIN );
// negate read
RTL8019_SET_READ;
return byte;
}
#endif
/*****************************************************************************
* RTL8019setupPorts(void);
*
* Created By: Louis Beaudoin
* Date: September 21, 2002
* Description: Sets up the ports used for communication with the RTL8019 NIC
* (data bus, address bus, read, write, and reset)
*****************************************************************************/
void RTL8019setupPorts(void)
{
volatile unsigned char *base = (unsigned char *)0x8300;
#if MEMORY_MAPPED_NIC == 1
// enable external SRAM interface - no wait states
outp(inp(MCUCR) | (1<<SRE), MCUCR);
#else
// make the address port output
outp( 0xFF, RTL8019_ADDRESS_DDR );
// make the data port input with pull-ups
outp( 0xFF, RTL8019_DATA_PORT );
// make the control port read and write pins outputs and asserted
//outp( inp(RTL8019_CONTROL_DDR) | (1<<RTL8019_CONTROL_READPIN) |
// (1<<RTL8019_CONTROL_WRITEPIN), RTL8019_CONTROL_DDR );
sbi( RTL8019_CONTROL_DDR, RTL8019_CONTROL_READPIN );
sbi( RTL8019_CONTROL_DDR, RTL8019_CONTROL_WRITEPIN );
//outp( inp(RTL8019_CONTROL_PORT) | (1<<RTL8019_CONTROL_READPIN) |
// (1<<RTL8019_CONTROL_WRITEPIN), RTL8019_CONTROL_PORT );
sbi( RTL8019_CONTROL_PORT, RTL8019_CONTROL_READPIN );
sbi( RTL8019_CONTROL_PORT, RTL8019_CONTROL_WRITEPIN );
#endif
// enable output pin for Resetting the RTL8019
sbi( RTL8019_RESET_DDR, RTL8019_RESET_PIN );
}
/*****************************************************************************
* HARD_RESET_RTL8019()
*
* Created By: Louis Beaudoin
* Date: September 21, 2002
* Description: Simply toggles the pin that resets the NIC
*****************************************************************************/
/*#define HARD_RESET_RTL8019() do{ sbi(RTL8019_RESET_PORT, RTL8019_RESET_PIN); \
delay_msec(10); \
cbi(RTL8019_RESET_PORT, RTL8019_RESET_PIN);} \
while(0)*/
/*****************************************************************************
* overrun(void);
*
* Created By: Louis Beaudoin
* Date: September 21, 2002
* Description: "Canned" receive buffer overrun function originally from
* a National Semiconductor appnote
* Notes: This function must be called before retreiving packets from
* the NIC if there is a buffer overrun
*****************************************************************************/
void overrun(void);
//******************************************************************
//* REALTEK CONTROL REGISTER OFFSETS
//* All offsets in Page 0 unless otherwise specified
//* All functions accessing CR must leave CR in page 0 upon exit
//******************************************************************
#define CR 0x00
#define PSTART 0x01
#define PAR0 0x01 // Page 1
#define CR9346 0x01 // Page 3
#define PSTOP 0x02
#define BNRY 0x03
#define TSR 0x04
#define TPSR 0x04
#define TBCR0 0x05
#define NCR 0x05
#define TBCR1 0x06
#define ISR 0x07
#define CURR 0x07 // Page 1
#define RSAR0 0x08
#define CRDA0 0x08
#define RSAR1 0x09
#define CRDA1 0x09
#define RBCR0 0x0A
#define RBCR1 0x0B
#define RSR 0x0C
#define RCR 0x0C
#define TCR 0x0D
#define CNTR0 0x0D
#define DCR 0x0E
#define CNTR1 0x0E
#define IMR 0x0F
#define CNTR2 0x0F
#define RDMAPORT 0x10
#define RSTPORT 0x18
/*****************************************************************************
*
* RTL ISR Register Bits
*
*****************************************************************************/
#define ISR_RST 7
#define ISR_OVW 4
#define ISR_PRX 0
#define ISR_RDC 6
#define ISR_PTX 1
/*****************************************************************************
*
* RTL Register Initialization Values
*
*****************************************************************************/
// RCR : accept broadcast packets and packets destined to this MAC
// drop short frames and receive errors
#define RCR_INIT 0x04
// TCR : default transmit operation - CRC is generated
#define TCR_INIT 0x00
// DCR : allows send packet to be used for packet retreival
// FIFO threshold: 8-bits (works)
// 8-bit transfer mode
#define DCR_INIT 0x58
// IMR : interrupt enabled for receive and overrun events
#define IMR_INIT 0x11
// buffer boundaries - transmit has 6 256-byte pages
// receive has 26 256-byte pages
// entire available packet buffer space is allocated
#define TXSTART_INIT 0x40
#define RXSTART_INIT 0x46
#define RXSTOP_INIT 0x60
void RTL8019beginPacketSend(unsigned int packetLength)
{
volatile unsigned char *base = (unsigned char *)0x8300;
unsigned int sendPacketLength;
sendPacketLength = (packetLength>=ETHERNET_MIN_PACKET_LENGTH) ?
packetLength : ETHERNET_MIN_PACKET_LENGTH ;
//start the NIC
writeRTL(CR,0x22);
// still transmitting a packet - wait for it to finish
while( readRTL(CR) & 0x04 );
//load beginning page for transmit buffer
writeRTL(TPSR,TXSTART_INIT);
//set start address for remote DMA operation
writeRTL(RSAR0,0x00);
writeRTL(RSAR1,0x40);
//clear the packet stored interrupt
writeRTL(ISR,(1<<ISR_PTX));
//load data byte count for remote DMA
writeRTL(RBCR0, (unsigned char)(packetLength));
writeRTL(RBCR1, (unsigned char)(packetLength>>8));
writeRTL(TBCR0, (unsigned char)(sendPacketLength));
writeRTL(TBCR1, (unsigned char)((sendPacketLength)>>8));
//do remote write operation
writeRTL(CR,0x12);
}
void RTL8019sendPacketData(unsigned char * localBuffer, unsigned int length)
{
unsigned int i;
volatile unsigned char *base = (unsigned char *)0x8300;
for(i=0;i<length;i++)
writeRTL(RDMAPORT, localBuffer[i]);
}
void RTL8019endPacketSend(void)
{
volatile unsigned char *base = (unsigned char *)0x8300;
//send the contents of the transmit buffer onto the network
writeRTL(CR,0x24);
// clear the remote DMA interrupt
writeRTL(ISR, (1<<ISR_RDC));
}
// pointers to locations in the RTL8019 receive buffer
static unsigned char nextPage;
static unsigned int currentRetreiveAddress;
// location of items in the RTL8019's page header
#define enetpacketstatus 0x00
#define nextblock_ptr 0x01
#define enetpacketLenL 0x02
#define enetpacketLenH 0x03
unsigned int RTL8019beginPacketRetreive(void)
{
volatile unsigned char *base = (unsigned char *)0x8300;
unsigned char i;
unsigned char bnry;
unsigned char pageheader[4];
unsigned int rxlen;
// check for and handle an overflow
processRTL8019Interrupt();
// read CURR from page 1
writeRTL(CR,0x62);
i = readRTL(CURR);
// return to page 0
writeRTL(CR,0x22);
// read the boundary register - pointing to the beginning of the packet
bnry = readRTL(BNRY) ;
/* debug_print(PSTR("bnry: "));
debug_print8(bnry);*/
/* debug_print(PSTR("RXSTOP_INIT: "));
debug_print8(RXSTOP_INIT);
debug_print(PSTR("RXSTART_INIT: "));
debug_print8(RXSTART_INIT);*/
// return if there is no packet in the buffer
if( bnry == i ) {
return 0;
}
// clear the packet received interrupt flag
writeRTL(ISR, (1<<ISR_PRX));
// the boundary pointer is invalid, reset the contents of the buffer and exit
if( (bnry >= RXSTOP_INIT) || (bnry < RXSTART_INIT) )
{
writeRTL(BNRY, RXSTART_INIT);
writeRTL(CR, 0x62);
writeRTL(CURR, RXSTART_INIT);
writeRTL(CR, 0x22);
return 0;
}
// initiate DMA to transfer the RTL8019 packet header
writeRTL(RBCR0, 4);
writeRTL(RBCR1, 0);
writeRTL(RSAR0, 0);
writeRTL(RSAR1, bnry);
writeRTL(CR, 0x0A);
/* debug_print(PSTR("Page header: "));*/
for(i=0;i<4;i++) {
pageheader[i] = readRTL(RDMAPORT);
/* debug_print8(pageheader[i]);*/
}
// end the DMA operation
writeRTL(CR, 0x22);
for(i = 0; i <= 20; i++) {
if(readRTL(ISR) & 1<<6) {
break;
}
}
writeRTL(ISR, 1<<6);
rxlen = (pageheader[enetpacketLenH]<<8) + pageheader[enetpacketLenL];
nextPage = pageheader[nextblock_ptr] ;
currentRetreiveAddress = (bnry<<8) + 4;
/* debug_print(PSTR("nextPage: "));
debug_print8(nextPage);*/
// if the nextPage pointer is invalid, the packet is not ready yet - exit
if( (nextPage >= RXSTOP_INIT) || (nextPage < RXSTART_INIT) ) {
/* UDR0 = '0';*/
return 0;
}
return rxlen-4;
}
void RTL8019retreivePacketData(unsigned char * localBuffer, unsigned int length)
{
unsigned int i;
volatile unsigned char *base = (unsigned char *)0x8300;
// initiate DMA to transfer the data
writeRTL(RBCR0, (unsigned char)length);
writeRTL(RBCR1, (unsigned char)(length>>8));
writeRTL(RSAR0, (unsigned char)currentRetreiveAddress);
writeRTL(RSAR1, (unsigned char)(currentRetreiveAddress>>8));
writeRTL(CR, 0x0A);
for(i=0;i<length;i++)
localBuffer[i] = readRTL(RDMAPORT);
// end the DMA operation
writeRTL(CR, 0x22);
for(i = 0; i <= 20; i++)
if(readRTL(ISR) & 1<<6)
break;
writeRTL(ISR, 1<<6);
currentRetreiveAddress += length;
if( currentRetreiveAddress >= 0x6000 )
currentRetreiveAddress = currentRetreiveAddress - (0x6000-0x4600) ;
}
void RTL8019endPacketRetreive(void)
{
volatile unsigned char *base = (unsigned char *)0x8300;
unsigned char i;
// end the DMA operation
writeRTL(CR, 0x22);
for(i = 0; i <= 20; i++)
if(readRTL(ISR) & 1<<6)
break;
writeRTL(ISR, 1<<6);
// set the boundary register to point to the start of the next packet
writeRTL(BNRY, nextPage);
}
void overrun(void)
{
volatile unsigned char *base = (unsigned char *)0x8300;
unsigned char data_L, resend;
data_L = readRTL(CR);
writeRTL(CR, 0x21);
delay_msec(2);
writeRTL(RBCR0, 0x00);
writeRTL(RBCR1, 0x00);
if(!(data_L & 0x04))
resend = 0;
else if(data_L & 0x04)
{
data_L = readRTL(ISR);
if((data_L & 0x02) || (data_L & 0x08))
resend = 0;
else
resend = 1;
}
writeRTL(TCR, 0x02);
writeRTL(CR, 0x22);
writeRTL(BNRY, RXSTART_INIT);
writeRTL(CR, 0x62);
writeRTL(CURR, RXSTART_INIT);
writeRTL(CR, 0x22);
writeRTL(ISR, 0x10);
writeRTL(TCR, TCR_INIT);
writeRTL(ISR, 0xFF);
}
/*!
* \brief Size of a single ring buffer page.
*/
#define NIC_PAGE_SIZE 0x100
/*!
* \brief First ring buffer page address.
*/
#define NIC_START_PAGE 0x40
/*!
* \brief Last ring buffer page address plus 1.
*/
#define NIC_STOP_PAGE 0x60
/*!
* \brief Number of pages in a single transmit buffer.
*
* This should be at least the MTU size.
*/
#define NIC_TX_PAGES 6
/*!
* \brief Number of transmit buffers.
*/
#define NIC_TX_BUFFERS 2
/*!
* \brief Controller memory layout:
*
* 0x4000 - 0x4bff 3k bytes transmit buffer
* 0x4c00 - 0x5fff 5k bytes receive buffer
*/
#define NIC_FIRST_TX_PAGE NIC_START_PAGE
#define NIC_FIRST_RX_PAGE (NIC_FIRST_TX_PAGE + NIC_TX_PAGES * NIC_TX_BUFFERS)
/*!
* \brief Standard sizing information
*/
#define TX_PAGES 12 /* Allow for 2 back-to-back frames */
static unsigned char mac[6] = {0x00,0x06,0x98,0x01,0x02,0x29};
void Delay(long nops)
{
volatile long i;
for(i = 0; i < nops; i++)
#ifdef __IMAGECRAFT__
asm("nop\n");
#else
asm volatile("nop\n\t"::);
#endif
}
static int NicReset(void)
{
volatile unsigned char *base = (unsigned char *)0x8300;
unsigned char i;
unsigned char j;
for(j = 0; j < 20; j++) {
debug_print(PSTR("SW-Reset..."));
i = nic_read(NIC_RESET);
Delay(500);
nic_write(NIC_RESET, i);
for(i = 0; i < 20; i++) {
Delay(5000);
/*
* ID detection added for version 1.1 boards.
*/
if((nic_read(NIC_PG0_ISR) & NIC_ISR_RST) != 0 &&
nic_read(NIC_PG0_RBCR0) == 0x50 &&
nic_read(NIC_PG0_RBCR1) == 0x70) {
debug_print(PSTR("OK\r\n"));
return 0;
}
}
debug_print(PSTR("failed\r\n\x07"));
/*
* Toggle the hardware reset line. Since Ethernut version 1.3 the
* hardware reset pin of the nic is no longer connected to bit 4
* on port E, but wired to the board reset line.
*/
if(j == 10) {
debug_print(PSTR("Ethernut 1.1 HW-Reset\r\n"));
sbi(DDRE, 4);
sbi(PORTE, 4);
Delay(100000);
cbi(PORTE, 4);
Delay(250000);
}
}
return -1;
}
void initRTL8019(void)
{
unsigned char i, rb;
volatile unsigned char *base = (unsigned char *)0x8300;
RTL8019setupPorts();
/*#define nic_write writeRTL
#define nic_read readRTL*/
/*
* Disable NIC interrupts.
*/
cbi(EIMSK, INT5);
/* if(NicReset(base))
return -1;*/
#if 0
/*
* Mask all interrupts and clear any interrupt status flag to set the
* INT pin back to low.
*/
nic_write(NIC_PG0_IMR, 0);
nic_write(NIC_PG0_ISR, 0xff);
/*
* During reset the nic loaded its initial configuration from an
* external eeprom. On the ethernut board we do not have any
* configuration eeprom, but simply tied the eeprom data line to
* high level. So we have to clear some bits in the configuration
* register. Switch to register page 3.
*/
nic_write(NIC_CR, NIC_CR_STP | NIC_CR_RD2 | NIC_CR_PS0 | NIC_CR_PS1);
/*
* The nic configuration registers are write protected unless both
* EEM bits are set to 1.
*/
nic_write(NIC_PG3_EECR, NIC_EECR_EEM0 | NIC_EECR_EEM1);
/*
* Disable sleep and power down.
*/
nic_write(NIC_PG3_CONFIG3, 0);
/*
* Network media had been set to 10Base2 by the virtual EEPROM and
* will be set now to auto detect. This will initiate a link test.
* We don't force 10BaseT, because this would disable the link test.
*/
nic_write(NIC_PG3_CONFIG2, NIC_CONFIG2_BSELB);
/*
* Reenable write protection of the nic configuration registers
* and wait for link test to complete.
*/
nic_write(NIC_PG3_EECR, 0);
/* NutSleep(WAIT500);*/
delay_msec(500);
/*
* Switch to register page 0 and set data configuration register
* to byte-wide DMA transfers, normal operation (no loopback),
* send command not executed and 8 byte fifo threshold.
*/
nic_write(NIC_CR, NIC_CR_STP | NIC_CR_RD2);
nic_write(NIC_PG0_DCR, NIC_DCR_LS | NIC_DCR_FT1);
/*
* Clear remote dma byte count register.
*/
nic_write(NIC_PG0_RBCR0, 0);
nic_write(NIC_PG0_RBCR1, 0);
/*
* Temporarily set receiver to monitor mode and transmitter to
* internal loopback mode. Incoming packets will not be stored
* in the nic ring buffer and no data will be send to the network.
*/
nic_write(NIC_PG0_RCR, NIC_RCR_MON);
nic_write(NIC_PG0_TCR, NIC_TCR_LB0);
/*
* Configure the nic's ring buffer page layout.
* NIC_PG0_BNRY: Last page read.
* NIC_PG0_PSTART: First page of receiver buffer.
* NIC_PG0_PSTOP: Last page of receiver buffer.
*/
nic_write(NIC_PG0_TPSR, NIC_FIRST_TX_PAGE);
nic_write(NIC_PG0_BNRY, NIC_STOP_PAGE - 1);
nic_write(NIC_PG0_PSTART, NIC_FIRST_RX_PAGE);
nic_write(NIC_PG0_PSTOP, NIC_STOP_PAGE);
/*
* Once again clear interrupt status register.
*/
nic_write(NIC_PG0_ISR, 0xff);
/*
* Switch to register page 1 and copy our MAC address into the nic.
* We are still in stop mode.
*/
nic_write(NIC_CR, NIC_CR_STP | NIC_CR_RD2 | NIC_CR_PS0);
for(i = 0; i < 6; i++)
nic_write(NIC_PG1_PAR0 + i, mac[i]);
/*
* Clear multicast filter bits to disable all packets.
*/
for(i = 0; i < 8; i++)
nic_write(NIC_PG1_MAR0 + i, 0);
/*
* Set current page pointer to one page after the boundary pointer.
*/
nic_write(NIC_PG1_CURR, NIC_START_PAGE + TX_PAGES);
/*
* Switch back to register page 0, remaining in stop mode.
*/
nic_write(NIC_CR, NIC_CR_STP | NIC_CR_RD2);
/*
* Take receiver out of monitor mode and enable it for accepting
* broadcasts.
*/
nic_write(NIC_PG0_RCR, NIC_RCR_AB);
/*
* Clear all interrupt status flags and enable interrupts.
*/
nic_write(NIC_PG0_ISR, 0xff);
nic_write(NIC_PG0_IMR, NIC_IMR_PRXE | NIC_IMR_PTXE | NIC_IMR_RXEE |
NIC_IMR_TXEE | NIC_IMR_OVWE);
/*
* Fire up the nic by clearing the stop bit and setting the start bit.
* To activate the local receive dma we must also take the nic out of
* the local loopback mode.
*/
nic_write(NIC_CR, NIC_CR_STA | NIC_CR_RD2);
nic_write(NIC_PG0_TCR, 0);
/* NutSleep(WAIT500);*/
delay_msec(500);
#endif /* 0 */
NicReset();
debug_print(PSTR("Init controller..."));
nic_write(NIC_PG0_IMR, 0);
nic_write(NIC_PG0_ISR, 0xff);
nic_write(NIC_CR, NIC_CR_STP | NIC_CR_RD2 | NIC_CR_PS0 | NIC_CR_PS1);
nic_write(NIC_PG3_EECR, NIC_EECR_EEM0 | NIC_EECR_EEM1);
nic_write(NIC_PG3_CONFIG3, 0);
nic_write(NIC_PG3_CONFIG2, NIC_CONFIG2_BSELB);
nic_write(NIC_PG3_EECR, 0);
/* Delay(50000);*/
delay_msec(2000);
nic_write(NIC_CR, NIC_CR_STP | NIC_CR_RD2);
nic_write(NIC_PG0_DCR, NIC_DCR_LS | NIC_DCR_FT1);
nic_write(NIC_PG0_RBCR0, 0);
nic_write(NIC_PG0_RBCR1, 0);
nic_write(NIC_PG0_RCR, NIC_RCR_MON);
nic_write(NIC_PG0_TCR, NIC_TCR_LB0);
nic_write(NIC_PG0_TPSR, NIC_FIRST_TX_PAGE);
nic_write(NIC_PG0_BNRY, NIC_STOP_PAGE - 1);
nic_write(NIC_PG0_PSTART, NIC_FIRST_RX_PAGE);
nic_write(NIC_PG0_PSTOP, NIC_STOP_PAGE);
nic_write(NIC_PG0_ISR, 0xff);
nic_write(NIC_CR, NIC_CR_STP | NIC_CR_RD2 | NIC_CR_PS0);
for(i = 0; i < 6; i++)
nic_write(NIC_PG1_PAR0 + i, mac[i]);
for(i = 0; i < 8; i++)
nic_write(NIC_PG1_MAR0 + i, 0);
nic_write(NIC_PG1_CURR, NIC_START_PAGE + TX_PAGES);
nic_write(NIC_CR, NIC_CR_STP | NIC_CR_RD2);
nic_write(NIC_PG0_RCR, NIC_RCR_AB);
nic_write(NIC_PG0_ISR, 0xff);
nic_write(NIC_PG0_IMR, 0);
nic_write(NIC_CR, NIC_CR_STA | NIC_CR_RD2);
nic_write(NIC_PG0_TCR, 0);
/* Delay(1000000)*/
delay_msec(2000);
nic_write(NIC_CR, NIC_CR_STA | NIC_CR_RD2 | NIC_CR_PS0 | NIC_CR_PS1);
rb = nic_read(NIC_PG3_CONFIG0);
debug_print8(rb);
switch(rb & 0xC0) {
case 0x00:
debug_print(PSTR("RTL8019AS "));
if(rb & 0x08)
debug_print(PSTR("jumper mode: "));
if(rb & 0x20)
debug_print(PSTR("AUI "));
if(rb & 0x10)
debug_print(PSTR("PNP "));
break;
case 0xC0:
debug_print(PSTR("RTL8019 "));
if(rb & 0x08)
debug_print(PSTR("jumper mode: "));
break;
default:
debug_print(PSTR("Unknown chip "));
debug_print8(rb);
break;
}
if(rb & 0x04)
debug_print(PSTR("BNC\x07 "));
if(rb & 0x03)
debug_print(PSTR("Failed\x07 "));
/* rb = nic_read(NIC_PG3_CONFIG1);
debug_print8(rb);*/
/* NutPrintFormat(0, "IRQ%u ", (rb >> 4) & 7);*/
/* debug_print("IRQ ");
debug_print8((rb >> 4) & 7);*/
rb = nic_read(NIC_PG3_CONFIG2);
debug_print8(rb);
switch(rb & 0xC0) {
case 0x00:
debug_print(PSTR("Auto "));
break;
case 0x40:
debug_print(PSTR("10BaseT "));
break;
case 0x80:
debug_print(PSTR("10Base5 "));
break;
case 0xC0:
debug_print(PSTR("10Base2 "));
break;
}
return;
/* HARD_RESET_RTL8019();*/
// do soft reset
writeRTL( ISR, readRTL(ISR) ) ;
delay_msec(50);
writeRTL(CR,0x21); // stop the NIC, abort DMA, page 0
delay_msec(2); // make sure nothing is coming in or going out
writeRTL(DCR, DCR_INIT); // 0x58
writeRTL(RBCR0,0x00);
writeRTL(RBCR1,0x00);
writeRTL(RCR,0x04);
writeRTL(TPSR, TXSTART_INIT);
writeRTL(TCR,0x02);
writeRTL(PSTART, RXSTART_INIT);
writeRTL(BNRY, RXSTART_INIT);
writeRTL(PSTOP, RXSTOP_INIT);
writeRTL(CR, 0x61);
delay_msec(2);
writeRTL(CURR, RXSTART_INIT);
writeRTL(PAR0+0, MYMAC_0);
writeRTL(PAR0+1, MYMAC_1);
writeRTL(PAR0+2, MYMAC_2);
writeRTL(PAR0+3, MYMAC_3);
writeRTL(PAR0+4, MYMAC_4);
writeRTL(PAR0+5, MYMAC_5);
writeRTL(CR,0x21);
writeRTL(DCR, DCR_INIT);
writeRTL(CR,0x22);
writeRTL(ISR,0xFF);
writeRTL(IMR, IMR_INIT);
writeRTL(TCR, TCR_INIT);
writeRTL(CR, 0x22); // start the NIC
}
void processRTL8019Interrupt(void)
{
volatile unsigned char *base = (unsigned char *)0x8300;
unsigned char byte = readRTL(ISR);
if( byte & (1<<ISR_OVW) )
overrun();
}
/*
unsigned char RTL8019ReceiveEmpty(void)
{
unsigned char temp;
// read CURR from page 1
writeRTL(CR,0x62);
temp = readRTL(CURR);
// return to page 0
writeRTL(CR,0x22);
return ( readRTL(BNRY) == temp );
}*/

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@ -1,265 +0,0 @@
#ifndef __RTL8019_H__
#define __RTL8019_H__
/*****************************************************************************
* Module Name: Realtek 8019AS Driver
*
* Created By: Louis Beaudoin (www.embedded-creations.com)
*
* Original Release: September 21, 2002
*
* Module Description:
* Provides functions to initialize the Realtek 8019AS, and send and retreive
* packets
*
* September 30, 2002 - Louis Beaudoin
* Receive functions modified to handle errors encountered when receiving a
* fast data stream. Functions now manually retreive data instead of
* using the send packet command. Interface improved by checking for
* overruns and data in the buffer internally.
* Corrected the overrun function - overrun flag was not reset after overrun
* Added support for the Imagecraft Compiler
* Added support to communicate with the NIC using general I/O ports
*
*****************************************************************************/
/*#include "delay.h"*/
#include "compiler.h"
/*****************************************************************************
* RTL8019beginPacketSend(unsigned int packetLength)
* Args: unsigned int - length of the Ethernet frame (see note)
* Created By: Louis Beaudoin
* Date: September 21, 2002
* Description: Sets up the NIC to send a packet
* Notes: The NIC will not send packets less than 60 bytes long (the min
* Ethernet frame length. The transmit length is automatically
* increased to 60 bytes if packetLength is < 60
*****************************************************************************/
void RTL8019beginPacketSend(unsigned int packetLength);
/*****************************************************************************
* RTL8019sendPacketData(unsigned char * localBuffer, unsigned int length)
* Args: 1. unsigned char * localBuffer - Pointer to the beginning of
* the buffer to load into the NIC
* 2. unsigned char length - number of bytes to copy to
* the NIC
* Created By: Louis Beaudoin
* Date: September 21, 2002
* Description: Loads length # of bytes from a local buffer to the transmit
* packet buffer
* Notes: RTL8019beginPacketSend() must be called before sending
* any data.
* Several calls to RTL8019retreivePacketData() may be made to
* copy packet data from different buffers
*****************************************************************************/
void RTL8019sendPacketData(unsigned char * localBuffer, unsigned int length);
/*****************************************************************************
* RTL8019endPacketSend()
* Created By: Louis Beaudoin
* Date: September 21, 2002
* Description: Ends a packet send operation and instructs the NIC to transmit
* the frame over the network
*****************************************************************************/
void RTL8019endPacketSend(void);
/*****************************************************************************
* initRTL8019(void);
*
* Created By: Louis Beaudoin
* Date: September 21, 2002
* Description: Sets up the RTL8019 NIC hardware interface, and initializes
* the buffers and configuration of the NIC
*****************************************************************************/
void initRTL8019(void);
/*****************************************************************************
* processRTL8019Interrupt(void);
*
* Created By: Louis Beaudoin
* Date: September 21, 2002
* Description: Reads the NIC's ISR register looking for a receive buffer
* overrun - which is then handled.
* Notes: The function does not need to be called in response to an
* interrupt. The function can be polled and the NIC's INT
* line not used. This function should be called before
* attempting to retreive a packet from the NIC
*****************************************************************************/
void processRTL8019Interrupt(void);
/*****************************************************************************
* unsigned char RTL8019ReceiveEmpty(void);
*
* Returns: non-zero (true) if buffer is empty, zero if data in buffer
* Created By: Louis Beaudoin
* Date: September 21, 2002
* Description: Compares the BNRY and CURR receive buffer pointers to see if
* there is a packet in the receive buffer
* ** Removed as of version 0.60.1 **
*****************************************************************************/
//unsigned char RTL8019ReceiveEmpty(void);
/*****************************************************************************
* unsigned int RTL8019beginPacketRetreive()
* Returns: unsigned int - length of the Ethernet frame (see note)
* Created By: Louis Beaudoin
* Date: September 21, 2002
* Description: Sets up the NIC to retreive a packet
* Notes: The size returned is the size of all the data in the Ethernet
* frame minus the Ethernet checksum. This may include unused
* trailer bytes appended if data is less than the minimum
* Ethernet frame length (60 bytes). A size of zero indicates
* there are no packets available.
* A call to RTL8019beginPacketRetreive() must be followed by a
* call to RTL8019endPacketRetreive() regardless if data is
* retreived, unless 0 is returned.
*****************************************************************************/
unsigned int RTL8019beginPacketRetreive(void);
/*****************************************************************************
* RTL8019retreivePacketData(unsigned char * localBuffer, unsigned int length)
* Args: 1. unsigned char * localBuffer - Pointer to the beginning of
* the buffer to store the ethernet frame.
* 2. unsigned char length - number of bytes to copy to
* localBuffer
* Created By: Louis Beaudoin
* Date: September 21, 2002
* Description: Loads length # of bytes from the receive packet buffer to
* a local buffer
* Notes: RTL8019beginPacketRetreive() must be called before retreiving
* any data.
* Several calls to RTL8019retreivePacketData() may be made to
* copy packet data to different buffers
*****************************************************************************/
void RTL8019retreivePacketData(unsigned char * localBuffer,
unsigned int length);
/*****************************************************************************
* RTL8019endPacketRetreive()
* Created By: Louis Beaudoin
* Date: September 21, 2002
* Description: Ends a packet retreive operation begun by calling
* RTL8019beginPacketRetreive(). The NIC buffer space used by
* the retreived packet is freed
* Notes: A packet may be removed from the buffer without being read
* by calling RTL8019endPacketRetreive() after
* RTL8019beginPacketRetreive().
*****************************************************************************/
void RTL8019endPacketRetreive(void);
/*****************************************************************************
*
* AVR hardware setup
*
* External SRAM Interface:
* The five NIC address lines are taken from A8-A12 (uses the
* non-multiplexed address port so no latch is required)
*
* General I/O Interface:
* Two full ports are required for the address and data buses. Two pins
* from another port are used to control the read and write lines
*
* One output pin is required for hard resetting the NIC
*
*****************************************************************************/
// set to 1 to use the External SRAM Interface - 0 for General I/O
#define MEMORY_MAPPED_NIC 1
#if MEMORY_MAPPED_NIC /*** NIC Interface through External SRAM Interface ****/
// NIC is mapped from address 0x8000 - 0x9F00
#define MEMORY_MAPPED_RTL8019_OFFSET 0x8300
#else /************ NIC Interface through General I/O *******************/
// RTL8019 address port
#define RTL8019_ADDRESS_PORT PORTC
#define RTL8019_ADDRESS_DDR DDRC
// RTL8019 data port
#define RTL8019_DATA_PORT PORTA
#define RTL8019_DATA_DDR DDRA
#define RTL8019_DATA_PIN PINA
// RTL8019 control port
#define RTL8019_CONTROL_PORT PORTD
#define RTL8019_CONTROL_DDR DDRD
#define RTL8019_CONTROL_READPIN PD7
#define RTL8019_CONTROL_WRITEPIN PD6
// macros to control the read and write pins
#define RTL8019_CLEAR_READ cbi(RTL8019_CONTROL_PORT,\
RTL8019_CONTROL_READPIN)
#define RTL8019_SET_READ sbi(RTL8019_CONTROL_PORT,\
RTL8019_CONTROL_READPIN)
#define RTL8019_CLEAR_WRITE cbi(RTL8019_CONTROL_PORT,\
RTL8019_CONTROL_WRITEPIN)
#define RTL8019_SET_WRITE sbi(RTL8019_CONTROL_PORT,\
RTL8019_CONTROL_WRITEPIN)
#endif /** NIC Interface **/
// RTL RESET - Port B pin 0
#define RTL8019_RESET_PORT PORTE
#define RTL8019_RESET_DDR DDRE
#define RTL8019_RESET_PIN PORTE0
/*****************************************************************************
*
* Ethernet constants
*
*****************************************************************************/
#define ETHERNET_MIN_PACKET_LENGTH 0x3C
#define ETHERNET_HEADER_LENGTH 0x0E
/*****************************************************************************
*
* MAC address assigned to the RTL8019
*
*****************************************************************************/
/*#define MYMAC_0 '0'
#define MYMAC_1 'F'
#define MYMAC_2 'F'
#define MYMAC_3 'I'
#define MYMAC_4 'C'
#define MYMAC_5 'E'*/
#define MYMAC_0 0x00
#define MYMAC_1 0x06
#define MYMAC_2 0x98
#define MYMAC_3 0x01
#define MYMAC_4 0x02
#define MYMAC_5 0x26
#endif /* __RTL8019_H__ */

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@ -1,82 +0,0 @@
#include "net/uip.h"
#include "dev/rtl8019dev.h"
/*****************************************************************************
* Module Name: Realtek 8019AS Driver Interface for uIP-AVR Port
*
* Created By: Louis Beaudoin (www.embedded-creations.com)
*
* Original Release: September 21, 2002
*
* Module Description:
* Provides three functions to interface with the Realtek 8019AS driver
* These functions can be called directly from the main uIP control loop
* to send packets from uip_buf and uip_appbuf, and store incoming packets to
* uip_buf
*
* September 30, 2002 - Louis Beaudoin
* Modifications required to handle the packet receive function changes in
* rtl8019.c. There is no longer a need to poll for an empty buffer or
* an overflow.
* Added support for the Imagecraft Compiler
*
*****************************************************************************/
#define IP_TCP_HEADER_LENGTH 40
#define TOTAL_HEADER_LENGTH (IP_TCP_HEADER_LENGTH+ETHERNET_HEADER_LENGTH)
void RTL8019dev_init(void)
{
initRTL8019();
}
void RTL8019dev_send(void)
{
RTL8019beginPacketSend(uip_len);
// send packet, using data in uip_appdata if over the IP+TCP header size
if( uip_len <= TOTAL_HEADER_LENGTH ) {
RTL8019sendPacketData(uip_buf, uip_len);
} else {
uip_len -= TOTAL_HEADER_LENGTH;
RTL8019sendPacketData(uip_buf, TOTAL_HEADER_LENGTH);
RTL8019sendPacketData((unsigned char *)uip_appdata, uip_len);
}
RTL8019endPacketSend();
}
unsigned int RTL8019dev_poll(void)
{
unsigned int packetLength;
packetLength = RTL8019beginPacketRetreive();
// if there's no packet or an error - exit without ending the operation
if( !packetLength )
return 0;
// drop anything too big for the buffer
if( packetLength > UIP_BUFSIZE )
{
RTL8019endPacketRetreive();
return 0;
}
// copy the packet data into the uIP packet buffer
RTL8019retreivePacketData( uip_buf, packetLength );
RTL8019endPacketRetreive();
return packetLength;
}
void RTL8019dev_exit(void)
{
}

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@ -1,69 +0,0 @@
#ifndef __RTL8019DEV_H__
#define __RTL8019DEV_H__
/*****************************************************************************
* Module Name: Realtek 8019AS Driver Interface for uIP-AVR Port
*
* Created By: Louis Beaudoin (www.embedded-creations.com)
*
* Original Release: September 21, 2002
*
* Module Description:
* Provides three functions to interface with the Realtek 8019AS driver
* These functions can be called directly from the main uIP control loop
* to send packets from uip_buf and uip_appbuf, and store incoming packets to
* uip_buf
*
* September 30, 2002 - Louis Beaudoin
* Modifications required to handle the packet receive function changes in
* rtl8019.c. There is no longer a need to poll for an empty buffer or
* an overflow.
* Added support for the Imagecraft Compiler
*
*****************************************************************************/
#include "net/uip.h"
#include "dev/rtl8019.h"
/*****************************************************************************
* RTL8019dev_init()
* Created By: Louis Beaudoin
* Date: September 21, 2002
* Description: Power-up initialization of the RTL8019
*****************************************************************************/
void RTL8019dev_init(void);
/*****************************************************************************
* RTL8019dev_send()
* Created By: Louis Beaudoin
* Date: September 21, 2002
* Description: Sends the packet contained in uip_buf and uip_appdata over
* the network
*****************************************************************************/
void RTL8019dev_send(void);
/*****************************************************************************
* unsigned char/int RTL8019dev_poll()
* Returns: Length of the packet retreived, or zero if no packet retreived
* Created By: Louis Beaudoin
* Date: September 21, 2002
* Description: Polls the RTL8019 looking for an overflow condition or a new
* packet in the receive buffer. If a new packet exists and
* will fit in uip_buf, it is retreived, and the length is
* returned. A packet bigger than the buffer is discarded
*****************************************************************************/
unsigned int RTL8019dev_poll(void);
/*****************************************************************************
* RTL8019dev_exit()
* Created By: -
* Date: -
* Description: Final shutdown of the RTL8019
*****************************************************************************/
void RTL8019dev_exit(void);
#endif /* __RTL8019DEV_H__ */

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@ -1,354 +0,0 @@
#ifndef _DEV_RTLREGS_H_
#define _DEV_RTLREGS_H_
/*
* Copyright (C) 2001-2002 by egnite Software GmbH. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this
* software must display the following acknowledgement:
*
* This product includes software developed by egnite Software GmbH
* and its contributors.
*
* THIS SOFTWARE IS PROVIDED BY EGNITE SOFTWARE GMBH AND CONTRIBUTORS
* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL EGNITE
* SOFTWARE GMBH OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS
* OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
* AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
* THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* For additional information see http://www.ethernut.de/
*
* -
* Portions Copyright (C) 2000 David J. Hudson <dave@humbug.demon.co.uk>
*
* This file 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.
*
* You can redistribute this file and/or modify it under the terms of the GNU
* General Public License (GPL) as published by the Free Software Foundation;
* either version 2 of the License, or (at your discretion) any later version.
* See the accompanying file "copying-gpl.txt" for more details.
*
* As a special exception to the GPL, permission is granted for additional
* uses of the text contained in this file. See the accompanying file
* "copying-liquorice.txt" for details.
* -
* Portions Copyright (c) 1983, 1993 by
* The Regents of the University of California. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the University of
* California, Berkeley and its contributors.
* 4. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
/*
* $Log: rtlregs.h,v $
* Revision 1.1 2006/06/17 22:41:21 adamdunkels
* Import of the contiki-2.x development code from the SICS internal CVS server
*
* Revision 1.1 2005/09/19 23:05:35 adam
* AVR device drivers
*
* Revision 1.1 2005/05/18 19:03:23 adam
* Initial import of Contiki AVR port
*
* Revision 1.1 2003/07/04 10:54:52 adamdunkels
* First version of the AVR port
*
* Revision 1.1 2003/02/05 20:49:07 adam
* *** empty log message ***
*
* Revision 1.6 2002/10/29 15:27:36 harald
* *** empty log message ***
*
* Revision 1.5 2002/06/26 17:29:08 harald
* First pre-release with 2.4 stack
*
*/
/*!
* \brief Realtek 8019AS register definitions.
*/
/*@{*/
/*
* Register offset applicable to all register pages.
*/
#define NIC_CR 0x00 /*!< \brief Command register */
#define NIC_IOPORT 0x10 /*!< \brief I/O data port */
#define NIC_RESET 0x1f /*!< \brief Reset port */
/*
* Page 0 register offsets.
*/
#define NIC_PG0_CLDA0 0x01 /*!< \brief Current local DMA address 0 */
#define NIC_PG0_PSTART 0x01 /*!< \brief Page start register */
#define NIC_PG0_CLDA1 0x02 /*!< \brief Current local DMA address 1 */
#define NIC_PG0_PSTOP 0x02 /*!< \brief Page stop register */
#define NIC_PG0_BNRY 0x03 /*!< \brief Boundary pointer */
#define NIC_PG0_TSR 0x04 /*!< \brief Transmit status register */
#define NIC_PG0_TPSR 0x04 /*!< \brief Transmit page start address */
#define NIC_PG0_NCR 0x05 /*!< \brief Number of collisions register */
#define NIC_PG0_TBCR0 0x05 /*!< \brief Transmit byte count register 0 */
#define NIC_PG0_FIFO 0x06 /*!< \brief FIFO */
#define NIC_PG0_TBCR1 0x06 /*!< \brief Transmit byte count register 1 */
#define NIC_PG0_ISR 0x07 /*!< \brief Interrupt status register */
#define NIC_PG0_CRDA0 0x08 /*!< \brief Current remote DMA address 0 */
#define NIC_PG0_RSAR0 0x08 /*!< \brief Remote start address register 0
Low byte address to read from the buffer. */
#define NIC_PG0_CRDA1 0x09 /*!< \brief Current remote DMA address 1 */
#define NIC_PG0_RSAR1 0x09 /*!< \brief Remote start address register 1
High byte address to read from the buffer. */
#define NIC_PG0_RBCR0 0x0a /*!< \brief Remote byte count register 0
Low byte of the number of bytes to read
from the buffer. */
#define NIC_PG0_RBCR1 0x0b /*!< \brief Remote byte count register 1
High byte of the number of bytes to read
from the buffer. */
#define NIC_PG0_RSR 0x0c /*!< \brief Receive status register */
#define NIC_PG0_RCR 0x0c /*!< \brief Receive configuration register */
#define NIC_PG0_CNTR0 0x0d /*!< \brief Tally counter 0 (frame alignment errors) */
#define NIC_PG0_TCR 0x0d /*!< \brief Transmit configuration register */
#define NIC_PG0_CNTR1 0x0e /*!< \brief Tally counter 1 (CRC errors) */
#define NIC_PG0_DCR 0x0e /*!< \brief Data configuration register */
#define NIC_PG0_CNTR2 0x0f /*!< \brief Tally counter 2 (Missed packet errors) */
#define NIC_PG0_IMR 0x0f /*!< \brief Interrupt mask register */
/*
* Page 1 register offsets.
*/
#define NIC_PG1_PAR0 0x01 /*!< \brief Physical address register 0 */
#define NIC_PG1_PAR1 0x02 /*!< \brief Physical address register 1 */
#define NIC_PG1_PAR2 0x03 /*!< \brief Physical address register 2 */
#define NIC_PG1_PAR3 0x04 /*!< \brief Physical address register 3 */
#define NIC_PG1_PAR4 0x05 /*!< \brief Physical address register 4 */
#define NIC_PG1_PAR5 0x06 /*!< \brief Physical address register 5 */
#define NIC_PG1_CURR 0x07 /*!< \brief Current page register
The next incoming packet will be stored
at this page address. */
#define NIC_PG1_MAR0 0x08 /*!< \brief Multicast address register 0 */
#define NIC_PG1_MAR1 0x09 /*!< \brief Multicast address register 1 */
#define NIC_PG1_MAR2 0x0a /*!< \brief Multicast address register 2 */
#define NIC_PG1_MAR3 0x0b /*!< \brief Multicast address register 3 */
#define NIC_PG1_MAR4 0x0c /*!< \brief Multicast address register 4 */
#define NIC_PG1_MAR5 0x0d /*!< \brief Multicast address register 5 */
#define NIC_PG1_MAR6 0x0e /*!< \brief Multicast address register 6 */
#define NIC_PG1_MAR7 0x0f /*!< \brief Multicast address register 7 */
/*
* Page 2 register offsets.
*/
#define NIC_PG2_PSTART 0x01 /*!< \brief Page start register */
#define NIC_PG2_CLDA0 0x01 /*!< \brief Current local DMA address 0 */
#define NIC_PG2_PSTOP 0x02 /*!< \brief Page stop register */
#define NIC_PG2_CLDA1 0x02 /*!< \brief Current local DMA address 1 */
#define NIC_PG2_RNP 0x03 /*!< \brief Remote next packet pointer */
#define NIC_PG2_TSPR 0x04 /*!< \brief Transmit page start register */
#define NIC_PG2_LNP 0x05 /*!< \brief Local next packet pointer */
#define NIC_PG2_ACU 0x06 /*!< \brief Address counter (upper) */
#define NIC_PG2_ACL 0x07 /*!< \brief Address counter (lower) */
#define NIC_PG2_RCR 0x0c /*!< \brief Receive configuration register */
#define NIC_PG2_TCR 0x0d /*!< \brief Transmit configuration register */
#define NIC_PG2_DCR 0x0e /*!< \brief Data configuration register */
#define NIC_PG2_IMR 0x0f /*!< \brief Interrupt mask register */
/*
* Page 3 register offsets.
*/
#define NIC_PG3_EECR 0x01 /*!< \brief EEPROM command register */
#define NIC_PG3_BPAGE 0x02 /*!< \brief Boot-ROM page register */
#define NIC_PG3_CONFIG0 0x03 /*!< \brief Configuration register 0 (r/o) */
#define NIC_PG3_CONFIG1 0x04 /*!< \brief Configuration register 1 */
#define NIC_PG3_CONFIG2 0x05 /*!< \brief Configuration register 2 */
#define NIC_PG3_CONFIG3 0x06 /*!< \brief Configuration register 3 */
#define NIC_PG3_CSNSAV 0x08 /*!< \brief CSN save register (r/o) */
#define NIC_PG3_HLTCLK 0x09 /*!< \brief Halt clock */
#define NIC_PG3_INTR 0x0b /*!< \brief Interrupt pins (r/o) */
/*
* Command register bits.
*/
#define NIC_CR_STP 0x01 /*!< \brief Stop */
#define NIC_CR_STA 0x02 /*!< \brief Start */
#define NIC_CR_TXP 0x04 /*!< \brief Transmit packet */
#define NIC_CR_RD0 0x08 /*!< \brief Remote DMA command bit 0 */
#define NIC_CR_RD1 0x10 /*!< \brief Remote DMA command bit 1 */
#define NIC_CR_RD2 0x20 /*!< \brief Remote DMA command bit 2 */
#define NIC_CR_PS0 0x40 /*!< \brief Page select bit 0 */
#define NIC_CR_PS1 0x80 /*!< \brief Page select bit 1 */
/*
* Interrupt status register bits.
*/
#define NIC_ISR_PRX 0x01 /*!< \brief Packet received */
#define NIC_ISR_PTX 0x02 /*!< \brief Packet transmitted */
#define NIC_ISR_RXE 0x04 /*!< \brief Receive error */
#define NIC_ISR_TXE 0x08 /*!< \brief Transmit error */
#define NIC_ISR_OVW 0x10 /*!< \brief Overwrite warning */
#define NIC_ISR_CNT 0x20 /*!< \brief Counter overflow */
#define NIC_ISR_RDC 0x40 /*!< \brief Remote DMA complete */
#define NIC_ISR_RST 0x80 /*!< \brief Reset status */
/*
* Interrupt mask register bits.
*/
#define NIC_IMR_PRXE 0x01 /*!< \brief Packet received interrupt enable */
#define NIC_IMR_PTXE 0x02 /*!< \brief Packet transmitted interrupt enable */
#define NIC_IMR_RXEE 0x04 /*!< \brief Receive error interrupt enable */
#define NIC_IMR_TXEE 0x08 /*!< \brief Transmit error interrupt enable */
#define NIC_IMR_OVWE 0x10 /*!< \brief Overwrite warning interrupt enable */
#define NIC_IMR_CNTE 0x20 /*!< \brief Counter overflow interrupt enable */
#define NIC_IMR_RCDE 0x40 /*!< \brief Remote DMA complete interrupt enable */
/*
* Data configuration register bits.
*/
#define NIC_DCR_WTS 0x01 /*!< \brief Word transfer select */
#define NIC_DCR_BOS 0x02 /*!< \brief Byte order select */
#define NIC_DCR_LAS 0x04 /*!< \brief Long address select */
#define NIC_DCR_LS 0x08 /*!< \brief Loopback select */
#define NIC_DCR_AR 0x10 /*!< \brief Auto-initialize remote */
#define NIC_DCR_FT0 0x20 /*!< \brief FIFO threshold select bit 0 */
#define NIC_DCR_FT1 0x40 /*!< \brief FIFO threshold select bit 1 */
/*
* Transmit configuration register bits.
*/
#define NIC_TCR_CRC 0x01 /*!< \brief Inhibit CRC */
#define NIC_TCR_LB0 0x02 /*!< \brief Encoded loopback control bit 0 */
#define NIC_TCR_LB1 0x04 /*!< \brief Encoded loopback control bit 1 */
#define NIC_TCR_ATD 0x08 /*!< \brief Auto transmit disable */
#define NIC_TCR_OFST 0x10 /*!< \brief Collision offset enable */
/*
* Transmit status register bits.
*/
#define NIC_TSR_PTX 0x01 /*!< \brief Packet transmitted */
#define NIC_TSR_COL 0x04 /*!< \brief Transmit collided */
#define NIC_TSR_ABT 0x08 /*!< \brief Transmit aborted */
#define NIC_TSR_CRS 0x10 /*!< \brief Carrier sense lost */
#define NIC_TSR_FU 0x20 /*!< \brief FIFO underrun */
#define NIC_TSR_CDH 0x40 /*!< \brief CD heartbeat */
#define NIC_TSR_OWC 0x80 /*!< \brief Out of window collision */
/*
* Receive configuration register bits.
*/
#define NIC_RCR_SEP 0x01 /*!< \brief Save errored packets */
#define NIC_RCR_AR 0x02 /*!< \brief Accept runt packets */
#define NIC_RCR_AB 0x04 /*!< \brief Accept broadcast */
#define NIC_RCR_AM 0x08 /*!< \brief Accept multicast */
#define NIC_RCR_PRO 0x10 /*!< \brief Promiscuous physical */
#define NIC_RCR_MON 0x20 /*!< \brief Monitor mode */
/*
* Receive status register bits.
*/
#define NIC_RSR_PRX 0x01 /*!< \brief Packet received intact */
#define NIC_RSR_CRC 0x02 /*!< \brief CRC error */
#define NIC_RSR_FAE 0x04 /*!< \brief Frame alignment error */
#define NIC_RSR_FO 0x08 /*!< \brief FIFO overrun */
#define NIC_RSR_MPA 0x10 /*!< \brief Missed packet */
#define NIC_RSR_PHY 0x20 /*!< \brief Physical/multicast address */
#define NIC_RSR_DIS 0x40 /*!< \brief Receiver disabled */
#define NIC_RSR_DFR 0x80 /*!< \brief Deferring */
/*
* EEPROM command register bits.
*/
#define NIC_EECR_EEM1 0x80 /*!< \brief EEPROM Operating Mode */
#define NIC_EECR_EEM0 0x40 /*!< \brief EEPROM Operating Mode
- 0 0 Normal operation
- 0 1 Auto-load
- 1 0 9346 programming
- 1 1 Config register write enab */
#define NIC_EECR_EECS 0x08 /*!< \brief EEPROM Chip Select */
#define NIC_EECR_EESK 0x04 /*!< \brief EEPROM Clock */
#define NIC_EECR_EEDI 0x02 /*!< \brief EEPROM Data In */
#define NIC_EECR_EEDO 0x01 /*!< \brief EEPROM Data Out */
/*
* Configuration register 2 bits.
*/
#define NIC_CONFIG2_PL1 0x80 /*!< \brief Network media type */
#define NIC_CONFIG2_PL0 0x40 /*!< \brief Network media type
- 0 0 TP/CX auto-detect
- 0 1 10baseT
- 1 0 10base5
- 1 1 10base2 */
#define NIC_CONFIG2_BSELB 0x20 /*!< \brief BROM disable */
#define NIC_CONFIG2_BS4 0x10 /*!< \brief BROM size/base */
#define NIC_CONFIG2_BS3 0x08
#define NIC_CONFIG2_BS2 0x04
#define NIC_CONFIG2_BS1 0x02
#define NIC_CONFIG2_BS0 0x01
/*
* Configuration register 3 bits
*/
#define NIC_CONFIG3_PNP 0x80 /*!< \brief PnP Mode */
#define NIC_CONFIG3_FUDUP 0x40 /*!< \brief Full duplex */
#define NIC_CONFIG3_LEDS1 0x20 /*!< \brief LED1/2 pin configuration
- 0 LED1 == LED_RX, LED2 == LED_TX
- 1 LED1 == LED_CRS, LED2 == MCSB */
#define NIC_CONFIG3_LEDS0 0x10 /*!< \brief LED0 pin configration
- 0 LED0 pin == LED_COL
- 1 LED0 pin == LED_LINK */
#define NIC_CONFIG3_SLEEP 0x04 /*!< \brief Sleep mode */
#define NIC_CONFIG3_PWRDN 0x02 /*!< \brief Power Down */
#define NIC_CONFIG3_ACTIVEB 0x01 /*!< \brief inverse of bit 0 in PnP Act Reg */
/*@}*/
/*!
* \brief Read byte from controller register.
*/
#define nic_read(reg) *(base + (reg))
/*!
* \brief Write byte to controller register.
*/
#define nic_write(reg, data) *(base + (reg)) = data
#endif