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/*
This file is part of CanFestival, a library implementing CanOpen Stack.
Author: Christian Fortin (canfestival@canopencanada.ca)
See COPYING file for copyrights details.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include <cyg/kernel/kapi.h>
#include <cyg/hal/hal_arch.h>
#include "lpc2138_pinout.h"
#include "lpc2138_defs.h"
#include "lpc2138.h"
#include "sja1000.h"
#define CYGNUM_HAL_INTERRUPT_1 CYGNUM_HAL_INTERRUPT_EINT1
#define CYGNUM_HAL_PRI_HIGH 0
cyg_uint32 interrupt_1_isr(cyg_vector_t vector, cyg_addrword_t data);
void interrupt_1_dsr(cyg_vector_t vector,
cyg_ucount32 count,
cyg_addrword_t data);
/* Interrupt for CAN device. */
static cyg_interrupt interrupt_1;
static cyg_handle_t interrupt_1_handle;
void init_sja1000(void)
{
do
{
sja1000_write(MOD, 1<<RM); /* demande reset */
}
while ((sja1000_read(MOD) & (1<<RM)) == 0); /* loop until reset good */
/*
sja1000_write(bustiming0, ((0<<SJW1)|(0<<SJW0)|(0<<BRP5)|(0<<BRP4)|(0<<BRP3)|(0<<BRP2)|(0<<BRP1)|(0<<BRP0)));
sja1000_write(bustiming1, ((1<<SAM)|(0<<TSEG22)|(1<<TSEG21)|(0<<TSEG20)|(0<<TSEG13)|(1<<TSEG12)|(0<<TSEG11)|(0<<TSEG10)));
*/
/* OUTPUT CONTROL REGISTER */
sja1000_write(outputcontrol, ((1<<OCTP1)|(1<<OCTN1)|(0<<OCPOL1)|(1<<OCTP0)|(1<<OCTN0)|(0<<OCPOL0)|(1<<OCMODE1)|(0<<OCMODE0)));
sja1000_write(clockdivider, ((1<<CANmode)|(1<<CBP)|(1<<RXINTEN)|(0<<clockoff)|(1<<CD2)|(1<<CD1)|(1<<CD0)));
sja1000_write(16, 0x01); /* 0 code all accept block high bit */
sja1000_write(17, 0x00); /* 0 all accept block high bit */
sja1000_write(18, 0x00); /* 0 all accept block high bit */
sja1000_write(19, 0x00); /* 0 all accept block high bit */
sja1000_write(20, 0xFE); /* 1 mask */
sja1000_write(21, 0xFF);
sja1000_write(22, 0xFF);
sja1000_write(23, 0xFF);
sja1000_write(IER, 0x01);
sja1000_write(clockdivider, ((1<<CANmode)|(1<<CBP)|(1<<RXINTEN)|(0<<clockoff)|(1<<CD2)|(1<<CD1)|(0<<CD0)));
do
{
sja1000_write(MOD, (1<<AFM)|(0<<STM)|(0<<RM));
}
while ((sja1000_read(MOD) & (1<<RM)) == 1); /* loop until reset gone */
}
/***************************************************************************/
void init_interrupts(void)
{
cyg_vector_t interrupt_1_vector = CYGNUM_HAL_INTERRUPT_1;
cyg_priority_t interrupt_1_priority = CYGNUM_HAL_PRI_HIGH;
cyg_interrupt_create(
interrupt_1_vector,
interrupt_1_priority,
(cyg_addrword_t) 0,
(cyg_ISR_t *) &interrupt_1_isr,
(cyg_DSR_t *) &interrupt_1_dsr,
&interrupt_1_handle,
&interrupt_1);
cyg_interrupt_attach(interrupt_1_handle);
cyg_interrupt_acknowledge(interrupt_1_vector);
cyg_interrupt_unmask(interrupt_1_vector);
}
/* External Interrupt 1 Service */
void eint1_srv(void) /*__irq*/
{
//++intrp_count; // increment interrupt count
EXTINT = 2; // Clear EINT1 interrupt flag
VICVectAddr = 0; // Acknowledge Interrupt
}
/* Initialize EINT1 Interrupt Pin */
void init_eint1(void)
{
EXTMODE = 0x2; // Edge sensitive mode on EINT1
EXTPOLAR = 0; // falling edge sensitive
P0_PINSEL0 |= 2 << 28; // Enable EINT1 on GPIO_0.14
VICVectAddr0 = (unsigned long) eint1_srv; // set interrupt vector in VIC 0
VICVectCntl0 = 0x20 | 15; // use VIC 0 for EINT1 Interrupt
EXTINT = 2;
VICIntEnable = 1 << 15; // Enable EINT1 Interrupt
}
/*
{
unsigned char byte=sja1000_read(0x02);
if (byte & 0x01)
{
// RXFIFO full
}
if (byte & 0x02)
{
// overrun
}
if (byte & 0x04)
{
// the cpu may write a msg
}
if (byte & 0x08)
{
// tx complete
}
if (byte & 0x10)
{
// receiving
}
if (byte & 0x20)
{
// transmitting
}
if (byte & 0x40)
{
// at least one of the error counter has reached or exceeeded
// the CPU warning limit
}
if (byte & 0x80)
{
// bus off
}
}
*/