extern int stdmask;
extern int extmask;
-can_spinlock_t c_can_spwlock=SPIN_LOCK_UNLOCKED; // Spin lock for write operations
-can_spinlock_t c_can_sprlock=SPIN_LOCK_UNLOCKED; // Spin lock for read operations
-can_spinlock_t c_can_if1lock=SPIN_LOCK_UNLOCKED; // spin lock for the if1 register
-can_spinlock_t c_can_if2lock=SPIN_LOCK_UNLOCKED; // spin lcok for the if2 register
+can_spinlock_t c_can_spwlock = SPIN_LOCK_UNLOCKED; // Spin lock for write operations
+can_spinlock_t c_can_sprlock = SPIN_LOCK_UNLOCKED; // Spin lock for read operations
+can_spinlock_t c_can_if1lock = SPIN_LOCK_UNLOCKED; // spin lock for the if1 register
+can_spinlock_t c_can_if2lock = SPIN_LOCK_UNLOCKED; // spin lcok for the if2 register
/**
* c_can_enable_configuration - enable chip configuration mode
*/
int c_can_enable_configuration(struct canchip_t *pchip)
{
- int i=0;
- u16 flags;
- DEBUGMSG("(c%d)calling c_can_enable_configuration(...)\n", pchip->chip_idx);
+ int i = 0;
+ u16 flags;
+ DEBUGMSG("(c%d)calling c_can_enable_configuration(...)\n",
+ pchip->chip_idx);
/*
DEBUGMSG("Trying disable_irq(...) : ");
//disable IRQ
disable_irq(chip->chip_irq);
*/
- //read Control Register
- flags=c_can_read_reg_w(pchip, CCCR);
- //set Init-Bit in the Control Register (10 tries)
- while ((!(flags & CR_INIT)) && (i<=10))
- {
- c_can_write_reg_w(pchip,flags|CR_INIT, CCCR);
- udelay(1000);
- i++;
- flags=c_can_read_reg_w(pchip, CCCR);
- }
- if (i>=10)
- {
- CANMSG("Reset error\n");
- //enable_irq(chip->chip_irq);
- return -ENODEV;
- }
-
- DEBUGMSG("-> ok\n");
- return 0;
+ //read Control Register
+ flags = c_can_read_reg_w(pchip, CCCR);
+ //set Init-Bit in the Control Register (10 tries)
+ while ((!(flags & CR_INIT)) && (i <= 10)) {
+ c_can_write_reg_w(pchip, flags | CR_INIT, CCCR);
+ udelay(1000);
+ i++;
+ flags = c_can_read_reg_w(pchip, CCCR);
+ }
+ if (i >= 10) {
+ CANMSG("Reset error\n");
+ //enable_irq(chip->chip_irq);
+ return -ENODEV;
+ }
+
+ DEBUGMSG("-> ok\n");
+ return 0;
}
///////////////////////////////////////////////////////////////////////
int c_can_disable_configuration(struct canchip_t *pchip)
{
- int i=0;
- u16 flags;
-
- DEBUGMSG("(c%d)calling c_can_disable_configuration(...)\n", pchip->chip_idx);
- //read Control Register
- flags=c_can_read_reg_w(pchip, CCCR);
-
- //reset Init-Bit in the Control Register (10 tries)
- while ( (flags & CR_INIT) && (i<=10) )
- {
- c_can_write_reg_w( pchip,flags & ~CR_INIT, CCCR);
- udelay(1000); //100 microseconds
- i++;
- flags=c_can_read_reg_w(pchip, CCCR);
- }
- if (i>=10)
- {
- CANMSG("Error leaving reset status\n");
- return -ENODEV;
- }
-
- //enable IRQ
- //enable_irq(chip->chip_irq);
- DEBUGMSG("-> ok\n");
- return 0;
+ int i = 0;
+ u16 flags;
+
+ DEBUGMSG("(c%d)calling c_can_disable_configuration(...)\n",
+ pchip->chip_idx);
+ //read Control Register
+ flags = c_can_read_reg_w(pchip, CCCR);
+
+ //reset Init-Bit in the Control Register (10 tries)
+ while ((flags & CR_INIT) && (i <= 10)) {
+ c_can_write_reg_w(pchip, flags & ~CR_INIT, CCCR);
+ udelay(1000); //100 microseconds
+ i++;
+ flags = c_can_read_reg_w(pchip, CCCR);
+ }
+ if (i >= 10) {
+ CANMSG("Error leaving reset status\n");
+ return -ENODEV;
+ }
+ //enable IRQ
+ //enable_irq(chip->chip_irq);
+ DEBUGMSG("-> ok\n");
+ return 0;
}
///////////////////////////////////////////////////////////////////////
int c_can_chip_config(struct canchip_t *pchip)
{
- DEBUGMSG("(c%d)calling c_can_chip_config(...)\n", pchip->chip_idx);
- // Validate pointer
- if ( NULL == pchip ) return -1;
+ DEBUGMSG("(c%d)calling c_can_chip_config(...)\n", pchip->chip_idx);
+ // Validate pointer
+ if (NULL == pchip)
+ return -1;
- if (pchip->baudrate == 0)
- pchip->baudrate=1000;
+ if (pchip->baudrate == 0)
+ pchip->baudrate = 1000;
- if (c_can_baud_rate(pchip,pchip->baudrate*1000,pchip->clock,0,75,0))
- {
- CANMSG("Error configuring baud rate\n");
- return -ENODEV;
- }
+ if (c_can_baud_rate
+ (pchip, pchip->baudrate * 1000, pchip->clock, 0, 75, 0)) {
+ CANMSG("Error configuring baud rate\n");
+ return -ENODEV;
+ }
/*if (extended){
if (c_can_extended_mask(pchip,0x0000000,extmask)) {
- CANMSG("Error configuring extended mask\n");
- return -ENODEV;
- }
- }else{
- if (c_can_standard_mask(pchip,0x0000,stdmask)) {
- CANMSG("Error configuring standard mask\n");
- return -ENODEV;
+ CANMSG("Error configuring extended mask\n");
+ return -ENODEV;
}
- }*/
- if (c_can_clear_objects(pchip))
- {
- CANMSG("Error clearing message objects\n");
- return -ENODEV;
- }
- if (c_can_config_irqs(pchip, CR_MIE | CR_SIE | CR_EIE))
- {
- CANMSG("Error configuring interrupts\n");
- return -ENODEV;
- }
-
- DEBUGMSG("-> Configured successfully\n");
+ }else{
+ if (c_can_standard_mask(pchip,0x0000,stdmask)) {
+ CANMSG("Error configuring standard mask\n");
+ return -ENODEV;
+ }
+ } */
+ if (c_can_clear_objects(pchip)) {
+ CANMSG("Error clearing message objects\n");
+ return -ENODEV;
+ }
+ if (c_can_config_irqs(pchip, CR_MIE | CR_SIE | CR_EIE)) {
+ CANMSG("Error configuring interrupts\n");
+ return -ENODEV;
+ }
+
+ DEBUGMSG("-> Configured successfully\n");
#ifdef REGDUMP
- c_can_registerdump(pchip);
+ c_can_registerdump(pchip);
#endif
- return 0;
+ return 0;
}
///////////////////////////////////////////////////////////////////////
int c_can_if1_busycheck(struct canchip_t *pchip)
{
- int i=0;
- unsigned short comreg = 0;
-
- comreg = c_can_read_reg_w( pchip, CCIF1CR);
- while ( (comreg & IFXCR_BUSY) && (i<=10) )
- {
- udelay(100); //100 microseconds
- i++;
- comreg=c_can_read_reg_w( pchip, CCIF1CR);
- }
- if (i>=10)
- {
- CANMSG("Error Busy-Bit stays set\n");
- return -ENODEV;
- }
+ int i = 0;
+ unsigned short comreg = 0;
+
+ comreg = c_can_read_reg_w(pchip, CCIF1CR);
+ while ((comreg & IFXCR_BUSY) && (i <= 10)) {
+ udelay(100); //100 microseconds
+ i++;
+ comreg = c_can_read_reg_w(pchip, CCIF1CR);
+ }
+ if (i >= 10) {
+ CANMSG("Error Busy-Bit stays set\n");
+ return -ENODEV;
+ }
- return 0;
+ return 0;
}
///////////////////////////////////////////////////////////////////////
int c_can_if2_busycheck(struct canchip_t *pchip)
{
- int i=0;
- unsigned short comreg = 0;
-
- comreg = c_can_read_reg_w( pchip, CCIF2CR);
- while ( (comreg & IFXCR_BUSY) && (i<=10) )
- {
- udelay(100); //100 microseconds
- i++;
- comreg=c_can_read_reg_w( pchip, CCIF2CR);
- }
- if (i>=10)
- {
- CANMSG("Error Busy-Bit stays set\n");
- return -ENODEV;
- }
+ int i = 0;
+ unsigned short comreg = 0;
+
+ comreg = c_can_read_reg_w(pchip, CCIF2CR);
+ while ((comreg & IFXCR_BUSY) && (i <= 10)) {
+ udelay(100); //100 microseconds
+ i++;
+ comreg = c_can_read_reg_w(pchip, CCIF2CR);
+ }
+ if (i >= 10) {
+ CANMSG("Error Busy-Bit stays set\n");
+ return -ENODEV;
+ }
- return 0;
+ return 0;
}
///////////////////////////////////////////////////////////////////////
* param flags fields BTR1_SAM, OCMODE, OCPOL, OCTP, OCTN, CLK_OFF, CBP
*/
int c_can_baud_rate(struct canchip_t *pchip, int rate, int clock,
- int sjw, int sampl_pt, int flags)
+ int sjw, int sampl_pt, int flags)
{
- int best_error = 1000000000, error;
- int best_tseg=0, best_brp=0, best_rate=0, brp=0;
- int tseg=0, tseg1=0, tseg2=0;
+ int best_error = 1000000000, error;
+ int best_tseg = 0, best_brp = 0, best_rate = 0, brp = 0;
+ int tseg = 0, tseg1 = 0, tseg2 = 0;
- unsigned short tempCR = 0;
+ unsigned short tempCR = 0;
- DEBUGMSG("(c%d)calling c_can_baud_rate(...)\n", pchip->chip_idx);
+ DEBUGMSG("(c%d)calling c_can_baud_rate(...)\n", pchip->chip_idx);
- if (c_can_enable_configuration(pchip))
- return -ENODEV;
-
- clock /=2;
+ if (c_can_enable_configuration(pchip))
+ return -ENODEV;
/* tseg even = round down, odd = round up */
- for (tseg=(0+0+2)*2; tseg<=(MAX_TSEG2+MAX_TSEG1+2)*2+1; tseg++)
- {
- brp = clock/((1+tseg/2)*rate)+tseg%2;
- if (brp == 0 || brp > 64)
- continue;
- error = rate - clock/(brp*(1+tseg/2));
- if (error < 0)
- error = -error;
- if (error <= best_error)
- {
- best_error = error;
- best_tseg = tseg/2;
- best_brp = brp-1;
- best_rate = clock/(brp*(1+tseg/2));
- }
- }
- if (best_error && (rate/best_error < 10))
- {
- CANMSG("baud rate %d is not possible with %d Hz clock\n",
- rate, 2*clock);
- CANMSG("%d bps. brp=%d, best_tseg=%d, tseg1=%d, tseg2=%d\n",
- best_rate, best_brp, best_tseg, tseg1, tseg2);
- return -EINVAL;
- }
- tseg2 = best_tseg-(sampl_pt*(best_tseg+1))/100;
- if (tseg2 < 0)
- tseg2 = 0;
- if (tseg2 > MAX_TSEG2)
- tseg2 = MAX_TSEG2;
- tseg1 = best_tseg-tseg2-2;
- if (tseg1 > MAX_TSEG1)
- {
- tseg1 = MAX_TSEG1;
- tseg2 = best_tseg-tseg1-2;
- }
-
- DEBUGMSG("-> Setting %d bps.\n", best_rate);
- DEBUGMSG("->brp=%d, best_tseg=%d, tseg1=%d, tseg2=%d, sampl_pt=%d\n",
- best_brp, best_tseg, tseg1, tseg2,
- (100*(best_tseg-tseg2)/(best_tseg+1)));
-
- //read Control Register
- tempCR = c_can_read_reg_w( pchip, CCCR);
- //Configuration Change Enable
- c_can_write_reg_w(pchip, tempCR | CR_CCE, CCCR);
- c_can_write_reg_w(pchip, ((unsigned short)tseg2)<<12 | ((unsigned short)tseg1)<<8
- | (unsigned short)sjw<<6 | (unsigned short) best_brp,
- CCBT);
-
- if (c_can_disable_configuration(pchip))
- return -ENODEV;
-
- return 0;
+ for (tseg = (0 + 0 + 2) * 2;
+ tseg <= (MAX_TSEG2 + MAX_TSEG1 + 2) * 2 + 1; tseg++) {
+ brp = clock / ((1 + tseg / 2) * rate) + tseg % 2;
+ if (brp == 0 || brp > 64)
+ continue;
+ error = rate - clock / (brp * (1 + tseg / 2));
+ if (error < 0)
+ error = -error;
+ if (error <= best_error) {
+ best_error = error;
+ best_tseg = tseg / 2;
+ best_brp = brp - 1;
+ best_rate = clock / (brp * (1 + tseg / 2));
+ }
+ }
+ if (best_error && (rate / best_error < 10)) {
+ CANMSG("baud rate %d is not possible with %d Hz clock\n",
+ rate, clock);
+ CANMSG("%d bps. brp=%d, best_tseg=%d, tseg1=%d, tseg2=%d\n",
+ best_rate, best_brp, best_tseg, tseg1, tseg2);
+ return -EINVAL;
+ }
+ tseg2 = best_tseg - (sampl_pt * (best_tseg + 1)) / 100;
+ if (tseg2 < 0)
+ tseg2 = 0;
+ if (tseg2 > MAX_TSEG2)
+ tseg2 = MAX_TSEG2;
+ tseg1 = best_tseg - tseg2 - 2;
+ if (tseg1 > MAX_TSEG1) {
+ tseg1 = MAX_TSEG1;
+ tseg2 = best_tseg - tseg1 - 2;
+ }
+
+ DEBUGMSG("-> Setting %d bps.\n", best_rate);
+ DEBUGMSG("->brp=%d, best_tseg=%d, tseg1=%d, tseg2=%d, sampl_pt=%d\n",
+ best_brp, best_tseg, tseg1, tseg2,
+ (100 * (best_tseg - tseg2) / (best_tseg + 1)));
+
+ //read Control Register
+ tempCR = c_can_read_reg_w(pchip, CCCR);
+ //Configuration Change Enable
+ c_can_write_reg_w(pchip, tempCR | CR_CCE, CCCR);
+ c_can_write_reg_w(pchip,
+ ((unsigned short)tseg2) << 12 | ((unsigned short)
+ tseg1) << 8 |
+ (unsigned short)sjw << 6 | (unsigned short)best_brp,
+ CCBT);
+
+ if (c_can_disable_configuration(pchip))
+ return -ENODEV;
+
+ return 0;
}
///////////////////////////////////////////////////////////////////////
-int c_can_mask(struct msgobj_t *pmsgobj,
- u32 mask,
- u16 usedirbit)
+int c_can_mask(struct msgobj_t *pmsgobj, u32 mask, u16 usedirbit)
{
- unsigned short tempreg = 0;
- unsigned short readMaskCM;
- unsigned short writeMaskCM;
-
- DEBUGMSG("(c%dm%d)calling c_can_mask(...)\n", pmsgobj->hostchip->chip_idx, pmsgobj->object);
-
- readMaskCM = IFXCM_CNTRL | IFXCM_ARB | IFXCM_MASK;
- writeMaskCM = IFXCM_CNTRL | IFXCM_ARB | IFXCM_MASK | IFXCM_WRRD;
-
- spin_lock( &c_can_if1lock );
-
- //load Message Object in IF1
- if (c_can_if1_busycheck(pmsgobj->hostchip)) return -ENODEV;
- c_can_write_reg_w(pmsgobj->hostchip, readMaskCM, CCIF1CM);
- c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
-
- //setting Message Valid Bit to zero
- if (c_can_if1_busycheck(pmsgobj->hostchip)) return -ENODEV;
- tempreg = c_can_read_reg_w(pmsgobj->hostchip, CCIF1A2);
- c_can_write_reg_w(pmsgobj->hostchip, tempreg & ~(IFXARB2_MVAL), CCIF1A2);
- c_can_write_reg_w(pmsgobj->hostchip, writeMaskCM, CCIF1CM);
- c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
-
- //setting UMask, MsgVal and Mask Register
- if (c_can_if1_busycheck(pmsgobj->hostchip)) return -ENODEV;
-
- //writing acceptance mask for extended or standart mode
- if (can_msgobj_test_fl(pmsgobj,RX_MODE_EXT))
- {
- if (usedirbit)
- c_can_write_reg_w(pmsgobj->hostchip,
- (mask>>16 & 0x1FFF) | IFXMSK2_MXTD | IFXMSK2_MDIR, CCIF1M2);
- else
- c_can_write_reg_w(pmsgobj->hostchip,
- (mask>>16 & 0x1FFF) | IFXMSK2_MXTD, CCIF1M2);
- c_can_write_reg_w(pmsgobj->hostchip, (mask & 0xFFFF), CCIF1M1);
- }
- else
- {
- if (usedirbit)
- c_can_write_reg_w(pmsgobj->hostchip,
- ((mask<<2) & 0x1FFC) | IFXMSK2_MDIR, CCIF1M2);
- else
- c_can_write_reg_w(pmsgobj->hostchip,
- ((mask<<2) & 0x1FFC), CCIF1M2);
- c_can_write_reg_w(pmsgobj->hostchip, 0, CCIF1M1);
- }
- //seting Message Valid Bit to one
- tempreg = c_can_read_reg_w(pmsgobj->hostchip, CCIF1A2);
- c_can_write_reg_w(pmsgobj->hostchip, tempreg | IFXARB2_MVAL, CCIF1A2);
- //write to chip
- c_can_write_reg_w(pmsgobj->hostchip, writeMaskCM, CCIF1CM);
- c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
-
- spin_unlock( &c_can_if1lock );
-
- DEBUGMSG("-> Setting acceptance mask to 0x%lx\n",(unsigned long)mask);
+ unsigned short tempreg = 0;
+ unsigned short readMaskCM;
+ unsigned short writeMaskCM;
+
+ DEBUGMSG("(c%dm%d)calling c_can_mask(...)\n",
+ pmsgobj->hostchip->chip_idx, pmsgobj->object);
+
+ readMaskCM = IFXCM_CNTRL | IFXCM_ARB | IFXCM_MASK;
+ writeMaskCM = IFXCM_CNTRL | IFXCM_ARB | IFXCM_MASK | IFXCM_WRRD;
+
+ spin_lock(&c_can_if1lock);
+
+ //load Message Object in IF1
+ if (c_can_if1_busycheck(pmsgobj->hostchip))
+ return -ENODEV;
+ c_can_write_reg_w(pmsgobj->hostchip, readMaskCM, CCIF1CM);
+ c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
+
+ //setting Message Valid Bit to zero
+ if (c_can_if1_busycheck(pmsgobj->hostchip))
+ return -ENODEV;
+ tempreg = c_can_read_reg_w(pmsgobj->hostchip, CCIF1A2);
+ c_can_write_reg_w(pmsgobj->hostchip, tempreg & ~(IFXARB2_MVAL),
+ CCIF1A2);
+ c_can_write_reg_w(pmsgobj->hostchip, writeMaskCM, CCIF1CM);
+ c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
+
+ //setting UMask, MsgVal and Mask Register
+ if (c_can_if1_busycheck(pmsgobj->hostchip))
+ return -ENODEV;
+
+ //writing acceptance mask for extended or standart mode
+ if (can_msgobj_test_fl(pmsgobj, RX_MODE_EXT)) {
+ if (usedirbit)
+ c_can_write_reg_w(pmsgobj->hostchip,
+ (mask >> 16 & 0x1FFF) | IFXMSK2_MXTD |
+ IFXMSK2_MDIR, CCIF1M2);
+ else
+ c_can_write_reg_w(pmsgobj->hostchip,
+ (mask >> 16 & 0x1FFF) | IFXMSK2_MXTD,
+ CCIF1M2);
+ c_can_write_reg_w(pmsgobj->hostchip, (mask & 0xFFFF), CCIF1M1);
+ } else {
+ if (usedirbit)
+ c_can_write_reg_w(pmsgobj->hostchip,
+ ((mask << 2) & 0x1FFC) | IFXMSK2_MDIR,
+ CCIF1M2);
+ else
+ c_can_write_reg_w(pmsgobj->hostchip,
+ ((mask << 2) & 0x1FFC), CCIF1M2);
+ c_can_write_reg_w(pmsgobj->hostchip, 0, CCIF1M1);
+ }
+ //seting Message Valid Bit to one
+ tempreg = c_can_read_reg_w(pmsgobj->hostchip, CCIF1A2);
+ c_can_write_reg_w(pmsgobj->hostchip, tempreg | IFXARB2_MVAL, CCIF1A2);
+ //write to chip
+ c_can_write_reg_w(pmsgobj->hostchip, writeMaskCM, CCIF1CM);
+ c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
+
+ spin_unlock(&c_can_if1lock);
+
+ DEBUGMSG("-> Setting acceptance mask to 0x%lx\n", (unsigned long)mask);
#ifdef REGDUMP
- c_can_registerdump(pmsgobj->hostchip);
+ c_can_registerdump(pmsgobj->hostchip);
#endif
- return 0;
+ return 0;
}
///////////////////////////////////////////////////////////////////////
-int c_can_use_mask(struct msgobj_t *pmsgobj,
- u16 useflag)
+int c_can_use_mask(struct msgobj_t *pmsgobj, u16 useflag)
{
- unsigned short tempreg = 0;
- unsigned short readMaskCM;
- unsigned short writeMaskCM;
+ unsigned short tempreg = 0;
+ unsigned short readMaskCM;
+ unsigned short writeMaskCM;
#ifdef DEBUG
- char *boolstring = "false";
- if (useflag) boolstring = "true";
+ char *boolstring = "false";
+ if (useflag)
+ boolstring = "true";
#endif
- DEBUGMSG("(c%dm%d)calling c_can_use_mask(...)\n", pmsgobj->hostchip->chip_idx, pmsgobj->object);
-
- readMaskCM = IFXCM_CNTRL | IFXCM_ARB;
- writeMaskCM = IFXCM_CNTRL | IFXCM_ARB | IFXCM_WRRD;;
-
- spin_lock( &c_can_if1lock );
-
- //load Message Object in IF1
- if (c_can_if1_busycheck(pmsgobj->hostchip)) return -ENODEV;
- c_can_write_reg_w(pmsgobj->hostchip, readMaskCM, CCIF1CM);
- c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
-
- //setting Message Valid Bit to zero
- if (c_can_if1_busycheck(pmsgobj->hostchip)) return -ENODEV;
- tempreg = c_can_read_reg_w(pmsgobj->hostchip, CCIF1A2);
- c_can_write_reg_w(pmsgobj->hostchip, tempreg & ~IFXARB2_MVAL, CCIF1A2);
- c_can_write_reg_w(pmsgobj->hostchip, writeMaskCM, CCIF1CM);
- c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
-
- //setting UMask bit
- if (c_can_if1_busycheck(pmsgobj->hostchip)) return -ENODEV;
- if ( useflag )
- {
- tempreg = c_can_read_reg_w(pmsgobj->hostchip, CCIF1DMC);
- c_can_write_reg_w(pmsgobj->hostchip, tempreg | IFXMC_UMASK, CCIF1DMC);
- }
- else
- {
- tempreg = c_can_read_reg_w(pmsgobj->hostchip, CCIF1DMC);
- c_can_write_reg_w(pmsgobj->hostchip, tempreg & ~IFXMC_UMASK, CCIF1DMC);
- }
- //seting Message Valid Bit to one
- tempreg = c_can_read_reg_w(pmsgobj->hostchip, CCIF1A2);
- c_can_write_reg_w(pmsgobj->hostchip, tempreg | IFXARB2_MVAL, CCIF1A2);
- //write to chip
- c_can_write_reg_w(pmsgobj->hostchip, writeMaskCM, CCIF1CM);
- c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
-
- spin_unlock( &c_can_if1lock );
+ DEBUGMSG("(c%dm%d)calling c_can_use_mask(...)\n",
+ pmsgobj->hostchip->chip_idx, pmsgobj->object);
+
+ readMaskCM = IFXCM_CNTRL | IFXCM_ARB;
+ writeMaskCM = IFXCM_CNTRL | IFXCM_ARB | IFXCM_WRRD;;
+
+ spin_lock(&c_can_if1lock);
+
+ //load Message Object in IF1
+ if (c_can_if1_busycheck(pmsgobj->hostchip))
+ return -ENODEV;
+ c_can_write_reg_w(pmsgobj->hostchip, readMaskCM, CCIF1CM);
+ c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
+
+ //setting Message Valid Bit to zero
+ if (c_can_if1_busycheck(pmsgobj->hostchip))
+ return -ENODEV;
+ tempreg = c_can_read_reg_w(pmsgobj->hostchip, CCIF1A2);
+ c_can_write_reg_w(pmsgobj->hostchip, tempreg & ~IFXARB2_MVAL, CCIF1A2);
+ c_can_write_reg_w(pmsgobj->hostchip, writeMaskCM, CCIF1CM);
+ c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
+
+ //setting UMask bit
+ if (c_can_if1_busycheck(pmsgobj->hostchip))
+ return -ENODEV;
+ if (useflag) {
+ tempreg = c_can_read_reg_w(pmsgobj->hostchip, CCIF1DMC);
+ c_can_write_reg_w(pmsgobj->hostchip, tempreg | IFXMC_UMASK,
+ CCIF1DMC);
+ } else {
+ tempreg = c_can_read_reg_w(pmsgobj->hostchip, CCIF1DMC);
+ c_can_write_reg_w(pmsgobj->hostchip, tempreg & ~IFXMC_UMASK,
+ CCIF1DMC);
+ }
+ //seting Message Valid Bit to one
+ tempreg = c_can_read_reg_w(pmsgobj->hostchip, CCIF1A2);
+ c_can_write_reg_w(pmsgobj->hostchip, tempreg | IFXARB2_MVAL, CCIF1A2);
+ //write to chip
+ c_can_write_reg_w(pmsgobj->hostchip, writeMaskCM, CCIF1CM);
+ c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
+
+ spin_unlock(&c_can_if1lock);
#ifdef DEBUG
- DEBUGMSG("-> Setting umask bit to %s\n",boolstring);
+ DEBUGMSG("-> Setting umask bit to %s\n", boolstring);
#endif
#ifdef REGDUMP
- c_can_registerdump(pmsgobj->hostchip);
+ c_can_registerdump(pmsgobj->hostchip);
#endif
- return 0;
+ return 0;
}
///////////////////////////////////////////////////////////////////////
int c_can_clear_objects(struct canchip_t *pchip)
{
- unsigned short i = 0;
- unsigned short tempreg = 0;
-
- unsigned short maskCM = IFXCM_ARB;
-
- DEBUGMSG("(c%d)calling c_can_clear_objects(...)\n", pchip->chip_idx);
-
- spin_lock( &c_can_if1lock );
- spin_lock( &c_can_if2lock );
+ unsigned short i = 0;
+ unsigned short tempreg = 0;
+
+ unsigned short maskCM = IFXCM_ARB;
+
+ DEBUGMSG("(c%d)calling c_can_clear_objects(...)\n", pchip->chip_idx);
+
+ spin_lock(&c_can_if1lock);
+ spin_lock(&c_can_if2lock);
+
+ for (i = 0; i < 0x10; i++) {
+
+ //loading Message Objects in IF1 and IF2
+ if (c_can_if1_busycheck(pchip))
+ return -ENODEV;
+ c_can_write_reg_w(pchip, maskCM, CCIF1CM);
+ c_can_write_reg_w(pchip, i, CCIF1CR);
+ if (c_can_if2_busycheck(pchip))
+ return -ENODEV;
+ c_can_write_reg_w(pchip, maskCM, CCIF2CM);
+ c_can_write_reg_w(pchip, i + 0x10, CCIF2CR);
+
+ //setting Message Valid Bit to zero
+ if (c_can_if1_busycheck(pchip))
+ return -ENODEV;
+ tempreg = c_can_read_reg_w(pchip, CCIF1A2);
+ c_can_write_reg_w(pchip, tempreg & ~IFXARB2_MVAL, CCIF1A2);
+ c_can_write_reg_w(pchip, i, CCIF1CR);
+ if (c_can_if2_busycheck(pchip))
+ return -ENODEV;
+ tempreg = c_can_read_reg_w(pchip, CCIF2A2);
+ c_can_write_reg_w(pchip, tempreg & ~IFXARB2_MVAL, CCIF2A2);
+ c_can_write_reg_w(pchip, i + 0x10, CCIF2CR);
+ }
+
+ for (i = 0; i < pchip->max_objects; i++) {
+ if (can_msgobj_test_fl(pchip->msgobj[i], OPENED)) {
+ // In- and output buffer re-initialization
+ canqueue_ends_flush_inlist(pchip->msgobj[i]->qends);
+ canqueue_ends_flush_outlist(pchip->msgobj[i]->qends);
+
+ }
+ }
+
+ spin_unlock(&c_can_if1lock);
+ spin_unlock(&c_can_if2lock);
+
+ DEBUGMSG("-> Message Objects reset\n");
- for (i=0; i<0x10; i++)
- {
-
- //loading Message Objects in IF1 and IF2
- if (c_can_if1_busycheck(pchip)) return -ENODEV;
- c_can_write_reg_w(pchip, maskCM, CCIF1CM);
- c_can_write_reg_w(pchip, i, CCIF1CR);
- if (c_can_if2_busycheck(pchip)) return -ENODEV;
- c_can_write_reg_w(pchip, maskCM, CCIF2CM);
- c_can_write_reg_w(pchip, i+0x10, CCIF2CR);
-
- //setting Message Valid Bit to zero
- if (c_can_if1_busycheck(pchip)) return -ENODEV;
- tempreg = c_can_read_reg_w(pchip, CCIF1A2);
- c_can_write_reg_w(pchip, tempreg & ~IFXARB2_MVAL, CCIF1A2);
- c_can_write_reg_w(pchip, i, CCIF1CR);
- if (c_can_if2_busycheck(pchip)) return -ENODEV;
- tempreg = c_can_read_reg_w(pchip, CCIF2A2);
- c_can_write_reg_w(pchip, tempreg & ~IFXARB2_MVAL, CCIF2A2);
- c_can_write_reg_w(pchip, i+0x10, CCIF2CR);
- }
-
- for (i=0; i<pchip->max_objects; i++)
- {
- if (can_msgobj_test_fl(pchip->msgobj[i],OPENED))
- {
- // In- and output buffer re-initialization
- canqueue_ends_flush_inlist(pchip->msgobj[i]->qends);
- canqueue_ends_flush_outlist(pchip->msgobj[i]->qends);
-
- }
- }
-
- spin_unlock( &c_can_if1lock );
- spin_unlock( &c_can_if2lock );
-
- DEBUGMSG("-> Message Objects reset\n");
-
- return 0;
+ return 0;
}
///////////////////////////////////////////////////////////////////////
-int c_can_config_irqs(struct canchip_t *pchip,
- u16 irqs)
+int c_can_config_irqs(struct canchip_t *pchip, u16 irqs)
{
- u16 tempreg;
-
- DEBUGMSG("(c%d)calling c_can_config_irqs(...)\n", pchip->chip_idx);
+ u16 tempreg;
- /*
- CANMSG("c_can_config_irqs not implemented\n");
- return -ENOSYS;
- */
+ DEBUGMSG("(c%d)calling c_can_config_irqs(...)\n", pchip->chip_idx);
- tempreg = c_can_read_reg_w(pchip, CCCR);
- //DEBUGMSG("-> CAN Control Register: 0x%.4lx\n",(long)tempreg);
- c_can_write_reg_w(pchip, tempreg | (irqs & 0xe), CCCR);
- DEBUGMSG("-> Configured hardware interrupt delivery\n");
- return 0;
+ tempreg = c_can_read_reg_w(pchip, CCCR);
+ DEBUGMSG("-> CAN Control Register: 0x%4lx\n", (long)tempreg);
+ c_can_write_reg_w(pchip, tempreg | (irqs & 0xe), CCCR);
+ DEBUGMSG("-> Configured hardware interrupt delivery\n");
+ return 0;
}
///////////////////////////////////////////////////////////////////////
int c_can_pre_read_config(struct canchip_t *pchip, struct msgobj_t *pmsgobj)
{
- unsigned short readMaskCM = IFXCM_CNTRL | IFXCM_ARB;
- unsigned short writeMaskCM = IFXCM_CNTRL | IFXCM_ARB | IFXCM_WRRD;
- unsigned short mcreg = 0;
- u32 id=pmsgobj->rx_preconfig_id;
-
- DEBUGMSG("(c%dm%d)calling c_can_pre_read_config(...)\n", pmsgobj->hostchip->chip_idx, pmsgobj->object);
-
- spin_lock( &c_can_if1lock );
-
-
- //loading Message Object in IF1
- if (c_can_if1_busycheck(pmsgobj->hostchip)) return -ENODEV;
- c_can_write_reg_w(pmsgobj->hostchip, readMaskCM, CCIF1CM);
- c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
- //setting Message Valid Bit to zero
- if (c_can_if1_busycheck(pmsgobj->hostchip)) return -ENODEV;
- c_can_write_reg_w(pmsgobj->hostchip, 0, CCIF1A2);
- c_can_write_reg_w(pmsgobj->hostchip, writeMaskCM, CCIF1CM);
- c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
- //Configuring Message-Object
- if (c_can_if1_busycheck(pmsgobj->hostchip)) return -ENODEV;
- mcreg = c_can_read_reg_w(pmsgobj->hostchip, CCIF1CM);
- c_can_write_reg_w(pmsgobj->hostchip,
- ((mcreg & IFXMC_UMASK) | IFXMC_EOB | IFXMC_RXIE), CCIF1DMC);
- //writing arbitration mask for extended or standart mode
- if (can_msgobj_test_fl(pmsgobj,RX_MODE_EXT))
- {
- c_can_write_reg_w(pmsgobj->hostchip,
- IFXARB2_XTD | IFXARB2_MVAL | (id>>16 & 0x1FFF), CCIF1A2);
- c_can_write_reg_w(pmsgobj->hostchip, id & 0xFFFF, CCIF1A1);
- }
- else
- {
- c_can_write_reg_w(pmsgobj->hostchip,
- IFXARB2_MVAL | (id<<2 & 0x1FFC), CCIF1A2);
- //c_can_write_reg_w(pmsgobj->hostchip, 0, CCIF1A1);
- }
- c_can_write_reg_w(pmsgobj->hostchip, writeMaskCM, CCIF1CM);
- c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
-
- spin_unlock( &c_can_if1lock );
-
- DEBUGMSG("-> Receiving through message object %d with id=%d\n", pmsgobj->object,
- id);
+ unsigned short readMaskCM = IFXCM_CNTRL | IFXCM_ARB;
+ unsigned short writeMaskCM = IFXCM_CNTRL | IFXCM_ARB | IFXCM_WRRD;
+ unsigned short mcreg = 0;
+ u32 id = pmsgobj->rx_preconfig_id;
+
+ DEBUGMSG("(c%dm%d)calling c_can_pre_read_config(...)\n",
+ pmsgobj->hostchip->chip_idx, pmsgobj->object);
+
+ spin_lock(&c_can_if1lock);
+
+ if (c_can_if1_busycheck(pmsgobj->hostchip))
+ goto error_enodev;
+
+ //loading Message Object in IF1
+ c_can_write_reg_w(pmsgobj->hostchip, readMaskCM, CCIF1CM);
+ c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
+
+ if (c_can_if1_busycheck(pmsgobj->hostchip))
+ goto error_enodev;
+
+ //setting Message Valid Bit to zero
+ c_can_write_reg_w(pmsgobj->hostchip, 0, CCIF1A2);
+ c_can_write_reg_w(pmsgobj->hostchip, writeMaskCM, CCIF1CM);
+ c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
+
+ /* Only access when the C_CAN controller is idle */
+ if (c_can_if1_busycheck(pmsgobj->hostchip))
+ goto error_enodev;
+
+ //Configuring Message-Object
+ mcreg = c_can_read_reg_w(pmsgobj->hostchip, CCIF1DMC);
+ c_can_write_reg_w(pmsgobj->hostchip,
+ ((mcreg & IFXMC_UMASK) | IFXMC_EOB | IFXMC_RXIE),
+ CCIF1DMC);
+
+ //writing arbitration mask for extended or standart mode
+ if (can_msgobj_test_fl(pmsgobj, RX_MODE_EXT)) {
+ c_can_write_reg_w(pmsgobj->hostchip,
+ IFXARB2_XTD | IFXARB2_MVAL | (id >> 16 &
+ 0x1FFF),
+ CCIF1A2);
+ c_can_write_reg_w(pmsgobj->hostchip, id & 0xFFFF, CCIF1A1);
+ } else {
+ c_can_write_reg_w(pmsgobj->hostchip,
+ IFXARB2_MVAL | (id << 2 & 0x1FFC), CCIF1A2);
+ //c_can_write_reg_w(pmsgobj->hostchip, 0, CCIF1A1);
+ }
+ c_can_write_reg_w(pmsgobj->hostchip, writeMaskCM, CCIF1CM);
+ c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
+
+ spin_unlock(&c_can_if1lock);
+
+ DEBUGMSG("-> Receiving through message object %d with id=%d\n",
+ pmsgobj->object, id);
#ifdef REGDUMP
- c_can_registerdump(pmsgobj->hostchip);
+ c_can_registerdump(pmsgobj->hostchip);
#endif
- return 0;
+ return 0;
+
+ error_enodev:
+ CANMSG("Timeout in c_can_if1_busycheck\n");
+ spin_unlock(&c_can_if1lock);
+ return -ENODEV;
+
}
///////////////////////////////////////////////////////////////////////
-int c_can_pre_write_config(struct canchip_t *chip, struct msgobj_t *obj,
- struct canmsg_t *msg)
+int c_can_pre_write_config(struct canchip_t *chip, struct msgobj_t *obj,
+ struct canmsg_t *msg)
{
- return 0;
+ return 0;
}
///////////////////////////////////////////////////////////////////////
*/
int c_can_send_msg(struct canchip_t *pchip, struct msgobj_t *pmsgobj,
- struct canmsg_t *pmsg)
-{
- unsigned short readMaskCM = IFXCM_CNTRL | IFXCM_ARB | IFXCM_DA | IFXCM_DB;
- unsigned short writeMaskCM = IFXCM_CNTRL | IFXCM_ARB | IFXCM_DA | IFXCM_DB| IFXCM_WRRD;
- unsigned short writeSendMskCM = IFXCM_CNTRL | IFXCM_ARB | IFXCM_DA | IFXCM_DB| IFXCM_WRRD | IFXCM_TRND;
- unsigned short mcreg = 0;
- //unsigned short arbreg = 0;
- unsigned short dataA1 = 0;
- unsigned short dataA2 = 0;
- unsigned short dataB1 = 0;
- unsigned short dataB2 = 0;
-
- DEBUGMSG("(c%dm%d)calling c_can_send_msg(...)\n", pmsgobj->hostchip->chip_idx, pmsgobj->object);
-
- spin_lock( &c_can_if2lock );
-
- can_msgobj_clear_fl(pmsgobj,RX_MODE);
-
- //loading Message Object in IF1
- if (c_can_if2_busycheck(pmsgobj->hostchip)) return -ENODEV;
- c_can_write_reg_w(pmsgobj->hostchip, readMaskCM, CCIF2CM);
- c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF2CR);
- //setting Message Valid Bit to zero
- if (c_can_if2_busycheck(pmsgobj->hostchip)) return -ENODEV;
- c_can_write_reg_w(pmsgobj->hostchip, 0, CCIF2A2);
- c_can_write_reg_w(pmsgobj->hostchip, writeMaskCM, CCIF2CM);
- c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF2CR);
- //Configuring MO
- if (c_can_if2_busycheck(pmsgobj->hostchip)) return -ENODEV;
- mcreg = c_can_read_reg_w( pmsgobj->hostchip, CCIF2CM);
- //remote enable?
- //define Command Mask
- c_can_write_reg_w(pmsgobj->hostchip, (mcreg & IFXMC_UMASK) | IFXMC_EOB | IFXMC_TXIE
- | IFXMC_RMTEN | IFXMC_NEWDAT | IFXMC_TXRQST | (pmsg->length & 0xF), CCIF2DMC);
- //set Arbitration Bits
- if (can_msgobj_test_fl(pmsgobj,RX_MODE_EXT))
- {
- c_can_write_reg_w(pmsgobj->hostchip, (u16)(pmsg->id), CCIF2A1);
- c_can_write_reg_w(pmsgobj->hostchip, IFXARB2_XTD | IFXARB2_MVAL | IFXARB2_DIR
- | ((u16)(pmsg->id>>16) & 0x1FFF), CCIF2A2);
- }
- else
- {
- c_can_write_reg_w(pmsgobj->hostchip,
- (IFXARB2_MVAL | IFXARB2_DIR | ((u16)(pmsg->id<<2) & 0x1FFC)), CCIF2A2);
- c_can_write_reg_w(pmsgobj->hostchip, 0, CCIF1A1);
- }
- //write Data
- if (pmsg->length>0)
- {
- dataA1 = pmsg->data[0] | (u16)pmsg->data[1]<<8;
- dataA2 = pmsg->data[2] | (u16)pmsg->data[3]<<8;
- dataB1 = pmsg->data[4] | (u16)pmsg->data[5]<<8;
- dataB2 = pmsg->data[6] | (u16)pmsg->data[7]<<8;
-
- c_can_write_reg_w(pmsgobj->hostchip, dataA1, CCIF2DA1);
- c_can_write_reg_w(pmsgobj->hostchip, dataA2, CCIF2DA2);
- c_can_write_reg_w(pmsgobj->hostchip, dataB1, CCIF2DB1);
- c_can_write_reg_w(pmsgobj->hostchip, dataB2, CCIF2DB2);
- }
-
- c_can_write_reg_w(pmsgobj->hostchip, writeSendMskCM, CCIF2CM);
- c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF2CR);
-
- spin_unlock( &c_can_if2lock );
-
- DEBUGMSG("-> ok\n");
+ struct canmsg_t *pmsg)
+{
+ unsigned short readMaskCM =
+ IFXCM_CNTRL | IFXCM_ARB | IFXCM_DA | IFXCM_DB;
+ unsigned short writeMaskCM =
+ IFXCM_CNTRL | IFXCM_ARB | IFXCM_DA | IFXCM_DB | IFXCM_WRRD;
+ unsigned short writeSendMskCM =
+ IFXCM_CNTRL | IFXCM_ARB | IFXCM_DA | IFXCM_DB | IFXCM_WRRD |
+ IFXCM_TRND;
+ unsigned short mcreg = 0;
+ //unsigned short arbreg = 0;
+ unsigned short dataA1 = 0;
+ unsigned short dataA2 = 0;
+ unsigned short dataB1 = 0;
+ unsigned short dataB2 = 0;
+
+ DEBUGMSG("(c%dm%d)calling c_can_send_msg(...)\n",
+ pmsgobj->hostchip->chip_idx, pmsgobj->object);
+
+ spin_lock(&c_can_if2lock);
+
+ can_msgobj_clear_fl(pmsgobj, RX_MODE);
+
+ //loading Message Object in IF1
+ if (c_can_if2_busycheck(pmsgobj->hostchip))
+ return -ENODEV;
+ c_can_write_reg_w(pmsgobj->hostchip, readMaskCM, CCIF2CM);
+ c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF2CR);
+ //setting Message Valid Bit to zero
+ if (c_can_if2_busycheck(pmsgobj->hostchip))
+ return -ENODEV;
+ c_can_write_reg_w(pmsgobj->hostchip, 0, CCIF2A2);
+ c_can_write_reg_w(pmsgobj->hostchip, writeMaskCM, CCIF2CM);
+ c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF2CR);
+ //Configuring MO
+ if (c_can_if2_busycheck(pmsgobj->hostchip))
+ return -ENODEV;
+ mcreg = c_can_read_reg_w(pmsgobj->hostchip, CCIF2CM);
+ //remote enable?
+ //define Command Mask
+ c_can_write_reg_w(pmsgobj->hostchip,
+ (mcreg & IFXMC_UMASK) | IFXMC_EOB | IFXMC_TXIE |
+ IFXMC_RMTEN | IFXMC_NEWDAT | IFXMC_TXRQST | (pmsg->
+ length &
+ 0xF),
+ CCIF2DMC);
+ //set Arbitration Bits
+ if (can_msgobj_test_fl(pmsgobj, RX_MODE_EXT)) {
+ c_can_write_reg_w(pmsgobj->hostchip, (u16) (pmsg->id), CCIF2A1);
+ c_can_write_reg_w(pmsgobj->hostchip,
+ IFXARB2_XTD | IFXARB2_MVAL | IFXARB2_DIR |
+ ((u16) (pmsg->id >> 16) & 0x1FFF), CCIF2A2);
+ } else {
+ c_can_write_reg_w(pmsgobj->hostchip,
+ (IFXARB2_MVAL | IFXARB2_DIR |
+ ((u16) (pmsg->id << 2) & 0x1FFC)), CCIF2A2);
+ c_can_write_reg_w(pmsgobj->hostchip, 0, CCIF1A1);
+ }
+ //write Data
+ if (pmsg->length > 0) {
+ dataA1 = pmsg->data[0] | (u16) pmsg->data[1] << 8;
+ dataA2 = pmsg->data[2] | (u16) pmsg->data[3] << 8;
+ dataB1 = pmsg->data[4] | (u16) pmsg->data[5] << 8;
+ dataB2 = pmsg->data[6] | (u16) pmsg->data[7] << 8;
+
+ c_can_write_reg_w(pmsgobj->hostchip, dataA1, CCIF2DA1);
+ c_can_write_reg_w(pmsgobj->hostchip, dataA2, CCIF2DA2);
+ c_can_write_reg_w(pmsgobj->hostchip, dataB1, CCIF2DB1);
+ c_can_write_reg_w(pmsgobj->hostchip, dataB2, CCIF2DB2);
+ }
+
+ c_can_write_reg_w(pmsgobj->hostchip, writeSendMskCM, CCIF2CM);
+ c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF2CR);
+
+ spin_unlock(&c_can_if2lock);
+
+ DEBUGMSG("-> ok\n");
#ifdef REGDUMP
- c_can_registerdump(pmsgobj->hostchip);
+ c_can_registerdump(pmsgobj->hostchip);
#endif
- return 0;
+ return 0;
}
//////////////////////////////////////////////////////////////////////
-int c_can_remote_request(struct canchip_t *pchip, struct msgobj_t *pmsgobj )
+int c_can_remote_request(struct canchip_t *pchip, struct msgobj_t *pmsgobj)
{
- unsigned short readMaskCM = IFXCM_CNTRL;// | IFXCM_ARB;
- //unsigned short writeMaskCM = IFXCM_CNTRL | IFXCM_ARB | IFXCM_WRRD;
- unsigned short mcreg = 0;
+ unsigned short readMaskCM = IFXCM_CNTRL; // | IFXCM_ARB;
+ //unsigned short writeMaskCM = IFXCM_CNTRL | IFXCM_ARB | IFXCM_WRRD;
+ unsigned short mcreg = 0;
- DEBUGMSG("(c%dm%d)calling c_can_remote_request(...)\n", pmsgobj->hostchip->chip_idx, pmsgobj->object);
+ DEBUGMSG("(c%dm%d)calling c_can_remote_request(...)\n",
+ pmsgobj->hostchip->chip_idx, pmsgobj->object);
- //Remote request is only available when the message object is in receiving mode
- if (!can_msgobj_test_fl(pmsgobj,RX_MODE))
- {
- return 1;
- }
+ //Remote request is only available when the message object is in receiving mode
+ if (!can_msgobj_test_fl(pmsgobj, RX_MODE)) {
+ return 1;
+ }
- spin_lock( &c_can_if1lock );
+ spin_lock(&c_can_if1lock);
- //loading Message Object in IF1
- if (c_can_if1_busycheck(pmsgobj->hostchip)) return -ENODEV;
- c_can_write_reg_w(pmsgobj->hostchip, readMaskCM, CCIF1CM);
- c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
- //setting Transmit-Request-Bit
- if (c_can_if1_busycheck(pmsgobj->hostchip)) return -ENODEV;
- mcreg = c_can_read_reg_w( pmsgobj->hostchip, CCIF1DMC);
- c_can_write_reg_w(pmsgobj->hostchip, mcreg | IFXMC_TXRQST, CCIF1DMC);
+ //loading Message Object in IF1
+ if (c_can_if1_busycheck(pmsgobj->hostchip))
+ return -ENODEV;
+ c_can_write_reg_w(pmsgobj->hostchip, readMaskCM, CCIF1CM);
+ c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
+ //setting Transmit-Request-Bit
+ if (c_can_if1_busycheck(pmsgobj->hostchip))
+ return -ENODEV;
+ mcreg = c_can_read_reg_w(pmsgobj->hostchip, CCIF1DMC);
+ c_can_write_reg_w(pmsgobj->hostchip, mcreg | IFXMC_TXRQST, CCIF1DMC);
- c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
+ c_can_write_reg_w(pmsgobj->hostchip, pmsgobj->object, CCIF1CR);
- spin_unlock( &c_can_if1lock );
+ spin_unlock(&c_can_if1lock);
- DEBUGMSG("-> Sent remote request through message object %d\n", pmsgobj->object);
+ DEBUGMSG("-> Sent remote request through message object %d\n",
+ pmsgobj->object);
#ifdef REGDUMP
- c_can_registerdump(pmsgobj->hostchip);
+ c_can_registerdump(pmsgobj->hostchip);
#endif
- return 0;
+ return 0;
}
///////////////////////////////////////////////////////////////////////
-int c_can_set_btregs(struct canchip_t *pchip,
- u16 btr0,
- u16 btr1)
+int c_can_set_btregs(struct canchip_t *pchip, u16 btr0, u16 btr1)
{
- unsigned short tempCR = 0;
+ unsigned short tempCR = 0;
- DEBUGMSG("(c%d)calling c_can_set_btregs(...)\n", pchip->chip_idx);
+ DEBUGMSG("(c%d)calling c_can_set_btregs(...)\n", pchip->chip_idx);
- // Validate pointer
- if ( NULL == pchip ) return -1;
+ // Validate pointer
+ if (NULL == pchip)
+ return -1;
- if (c_can_enable_configuration(pchip))
- return -ENODEV;
+ if (c_can_enable_configuration(pchip))
+ return -ENODEV;
- //read Control Register
- tempCR = c_can_read_reg_w(pchip, CCCR);
- //Configuration Change Enable
- c_can_write_reg_w(pchip, tempCR | CR_CCE, CCCR);
- c_can_write_reg_w(pchip, btr0 | (btr1<<8), CCBT);
+ //read Control Register
+ tempCR = c_can_read_reg_w(pchip, CCCR);
+ //Configuration Change Enable
+ c_can_write_reg_w(pchip, tempCR | CR_CCE, CCCR);
+ c_can_write_reg_w(pchip, btr0 | (btr1 << 8), CCBT);
- if (c_can_disable_configuration(pchip))
- return -ENODEV;
+ if (c_can_disable_configuration(pchip))
+ return -ENODEV;
- DEBUGMSG("-> ok\n");
- return 0;
+ DEBUGMSG("-> ok\n");
+ return 0;
}
///////////////////////////////////////////////////////////////////////
*/
int c_can_start_chip(struct canchip_t *pchip)
{
- u16 flags = 0;
-
- DEBUGMSG("(c%d)calling c_can_start_chip(...)\n", pchip->chip_idx);
-
- // Validate pointer
- if ( NULL == pchip )
- {
- DEBUGMSG("-> Error Chip not available.\n");
- return -1;
- }
-
- // flags = c_can_read_reg_w(pchip, CCCE) | CE_EN;
- // c_can_write_reg_w(pchip, flags, CCCE);
- //
- flags = c_can_read_reg_w(pchip, CCCE) | CE_EN;
- c_can_write_reg_w(pchip, flags, CCCE);
+ u16 flags = 0;
+
+ DEBUGMSG("(c%d)calling c_can_start_chip(...)\n", pchip->chip_idx);
+
+ // Validate pointer
+ if (NULL == pchip) {
+ DEBUGMSG("-> Error Chip not available.\n");
+ return -1;
+ }
+#ifdef C_CAN_WITH_CCCE
+ flags = c_can_read_reg_w(pchip, CCCE) | CE_EN;
+ c_can_write_reg_w(pchip, flags, CCCE);
+#endif
- DEBUGMSG("-> ok\n");
+ DEBUGMSG("-> ok\n");
#ifdef REGDUMP
- c_can_registerdump(pchip);
+ c_can_registerdump(pchip);
#endif
- return 0;
+ return 0;
}
///////////////////////////////////////////////////////////////////////
*/
int c_can_stop_chip(struct canchip_t *pchip)
{
- u16 flags = 0;
+ u16 flags = 0;
+
+ DEBUGMSG("(c%d)calling c_can_stop_chip(...)\n", pchip->chip_idx);
+
+ // Validate pointer
+ if (NULL == pchip) {
+ DEBUGMSG("-> Error Chip not available.\n");
+ return -1;
+ }
+#ifdef C_CAN_WITH_CCCE
+ flags = c_can_read_reg_w(pchip, CCCE) & ~CE_EN;
+ c_can_write_reg_w(pchip, flags, CCCE);
+#endif
+
+ DEBUGMSG("-> ok\n");
+ return 0;
+}
+
+int c_can_attach_to_chip(struct canchip_t *chip)
+{
+ return 0;
+}
+
+int c_can_release_chip(struct canchip_t *chip)
+{
+ int temp;
- DEBUGMSG("(c%d)calling c_can_stop_chip(...)\n", pchip->chip_idx);
+ temp = c_can_read_reg_w(chip, CCCR);
- // Validate pointer
- if ( NULL == pchip )
- {
- DEBUGMSG("-> Error Chip not available.\n");
- return -1;
- }
+ /* Disable IRQ generation */
+ c_can_config_irqs(chip, 0);
- flags = c_can_read_reg_w(pchip, CCCE) & ~CE_EN;
- c_can_write_reg_w(pchip, flags, CCCE);
+ temp = c_can_read_reg_w(chip, CCCR);
- DEBUGMSG("-> ok\n");
- return 0;
+ /* Power-down C_CAN, except this does nothing in the version 1.2 */
+ c_can_stop_chip(chip);
+
+ return 0;
}
///////////////////////////////////////////////////////////////////////
*/
int c_can_check_tx_stat(struct canchip_t *pchip)
{
- unsigned long tempstat = 0;
+ unsigned long tempstat = 0;
- DEBUGMSG("(c%d)calling c_can_check_tx_stat(...)\n", pchip->chip_idx);
+ DEBUGMSG("(c%d)calling c_can_check_tx_stat(...)\n", pchip->chip_idx);
- // Validate pointer
- if ( NULL == pchip ) return -1;
+ // Validate pointer
+ if (NULL == pchip)
+ return -1;
- tempstat = c_can_read_reg_w(pchip, CCSR);
+ tempstat = c_can_read_reg_w(pchip, CCSR);
- if (tempstat & SR_TXOK)
- {
- c_can_write_reg_w(pchip, tempstat & ~SR_TXOK, CCSR);
- return 0;
- }
- else
- {
- return 1;
- }
+ if (tempstat & SR_TXOK) {
+ c_can_write_reg_w(pchip, tempstat & ~SR_TXOK, CCSR);
+ return 0;
+ } else {
+ return 1;
+ }
}
-
///////////////////////////////////////////////////////////////////////
int c_can_wakeup_tx(struct canchip_t *chip, struct msgobj_t *obj)
{
can_preempt_disable();
-
- can_msgobj_set_fl(obj,TX_REQUEST);
- /* calls i82527_irq_write_handler synchronized with other invocations
- from kernel and IRQ context */
+ can_msgobj_set_fl(obj, TX_REQUEST);
+
+ /* calls c_can_irq_write_handler synchronized with other invocations
+ from kernel and IRQ context */
c_can_irq_sync_activities(chip, obj);
can_preempt_enable();
int c_can_filtch_rq(struct canchip_t *chip, struct msgobj_t *obj)
{
can_preempt_disable();
-
- can_msgobj_set_fl(obj,FILTCH_REQUEST);
+
+ can_msgobj_set_fl(obj, FILTCH_REQUEST);
/* setups filter synchronized with other invocations from kernel and IRQ context */
c_can_irq_sync_activities(chip, obj);
return 0;
}
-
///////////////////////////////////////////////////////////////////////
void c_can_registerdump(struct canchip_t *pchip)
{
- CANMSG("------------------------------------\n");
- CANMSG("---------C-CAN Register Dump--------\n");
- CANMSG("------------at 0x%.8lx-----------\n"
- ,(unsigned long)pchip->chip_base_addr);
- CANMSG("Control Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCCR)));
- CANMSG("Status Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCSR)));
- CANMSG("Error Counting Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCEC)));
- CANMSG("Bit Timing Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCBT)));
- CANMSG("Interrupt Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCINTR)));
- CANMSG("Test Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCTR)));
- CANMSG("Baud Rate Presc. Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCBRPE)));
- CANMSG("CAN Enable Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCCE)));
- CANMSG("Transm. Req. 1 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCTREQ1)));
- CANMSG("Transm. Req. 2 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCTREQ2)));
- CANMSG("New Data 1 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCND1)));
- CANMSG("New Data 2 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCND2)));
- CANMSG("Interrupt Pend. 1 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCINTP1)));
- CANMSG("Interrupt Pend. 2 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCINTP2)));
- CANMSG("------------------------------------\n");
- CANMSG("IF1 Command Req. Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF1CR)));
- CANMSG("IF1 Command Mask Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF1CM)));
- CANMSG("IF1 Mask 1 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF1M1)));
- CANMSG("IF1 Mask 2 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF1M2)));
- CANMSG("IF1 Arbitration 1 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF1A1)));
- CANMSG("IF1 Arbitration 2 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF1A2)));
- CANMSG("IF1 Message Control Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF1DMC)));
- CANMSG("IF1 Data A1 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF1DA1)));
- CANMSG("IF1 Data A2 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF1DA2)));
- CANMSG("IF1 Data B1 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF1DB1)));
- CANMSG("IF1 Data B2 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF1DB2)));
- CANMSG("------------------------------------\n");
- CANMSG("IF2 Command Req. Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF2CR)));
- CANMSG("IF2 Command Mask Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF2CM)));
- CANMSG("IF2 Mask 1 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF2M1)));
- CANMSG("IF2 Mask 2 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF2M2)));
- CANMSG("IF2 Arbitration 1 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF2A1)));
- CANMSG("IF2 Arbitration 2 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF2A2)));
- CANMSG("IF2 Message Control Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF2DMC)));
- CANMSG("IF2 Data A1 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF2DA1)));
- CANMSG("IF2 Data A2 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF2DA2)));
- CANMSG("IF2 Data B1 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF2DB1)));
- CANMSG("IF2 Data B2 Register: 0x%.4lx\n",
- (long)(c_can_read_reg_w( pchip, CCIF2DB2)));
- CANMSG("------------------------------------\n");
- CANMSG("------------------------------------\n");
+ CANMSG("------------------------------------\n");
+ CANMSG("---------C-CAN Register Dump--------\n");
+ CANMSG("------------at 0x%.8lx-----------\n",
+ (unsigned long)pchip->chip_base_addr);
+ CANMSG("Control Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCCR)));
+ CANMSG("Status Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCSR)));
+ CANMSG("Error Counting Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCEC)));
+ CANMSG("Bit Timing Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCBT)));
+ CANMSG("Interrupt Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCINTR)));
+ CANMSG("Test Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCTR)));
+ CANMSG("Baud Rate Presc. Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCBRPE)));
+#ifdef C_CAN_WITH_CCCE
+ CANMSG("CAN Enable Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCCE)));
+#endif
+ CANMSG("Transm. Req. 1 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCTREQ1)));
+ CANMSG("Transm. Req. 2 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCTREQ2)));
+ CANMSG("New Data 1 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCND1)));
+ CANMSG("New Data 2 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCND2)));
+ CANMSG("Interrupt Pend. 1 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCINTP1)));
+ CANMSG("Interrupt Pend. 2 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCINTP2)));
+ CANMSG("------------------------------------\n");
+ CANMSG("IF1 Command Req. Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1CR)));
+ CANMSG("IF1 Command Mask Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1CM)));
+ CANMSG("IF1 Mask 1 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1M1)));
+ CANMSG("IF1 Mask 2 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1M2)));
+ CANMSG("IF1 Arbitration 1 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1A1)));
+ CANMSG("IF1 Arbitration 2 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1A2)));
+ CANMSG("IF1 Message Control Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1DMC)));
+ CANMSG("IF1 Data A1 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1DA1)));
+ CANMSG("IF1 Data A2 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1DA2)));
+ CANMSG("IF1 Data B1 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1DB1)));
+ CANMSG("IF1 Data B2 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1DB2)));
+ CANMSG("------------------------------------\n");
+ CANMSG("IF2 Command Req. Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF2CR)));
+ CANMSG("IF2 Command Mask Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF2CM)));
+ CANMSG("IF2 Mask 1 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF2M1)));
+ CANMSG("IF2 Mask 2 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF2M2)));
+ CANMSG("IF2 Arbitration 1 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF2A1)));
+ CANMSG("IF2 Arbitration 2 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF2A2)));
+ CANMSG("IF2 Message Control Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF2DMC)));
+ CANMSG("IF2 Data A1 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF2DA1)));
+ CANMSG("IF2 Data A2 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF2DA2)));
+ CANMSG("IF2 Data B1 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF2DB1)));
+ CANMSG("IF2 Data B2 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF2DB2)));
+ CANMSG("------------------------------------\n");
+ CANMSG("------------------------------------\n");
+}
+
+void c_can_if1_registerdump(struct canchip_t *pchip)
+{
+ CANMSG("----------------------------------------\n");
+ CANMSG("Error Counting Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCEC)));
+ CANMSG("---------C-CAN IF1 Register Dump--------\n");
+ CANMSG("IF1 Command Req. Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1CR)));
+ CANMSG("IF1 Command Mask Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1CM)));
+ CANMSG("IF1 Mask 1 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1M1)));
+ CANMSG("IF1 Mask 2 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1M2)));
+ CANMSG("IF1 Arbitration 1 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1A1)));
+ CANMSG("IF1 Arbitration 2 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1A2)));
+ CANMSG("IF1 Message Control Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1DMC)));
+ CANMSG("IF1 Data A1 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1DA1)));
+ CANMSG("IF1 Data A2 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1DA2)));
+ CANMSG("IF1 Data B1 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1DB1)));
+ CANMSG("IF1 Data B2 Register: 0x%.4lx\n",
+ (long)(c_can_read_reg_w(pchip, CCIF1DB2)));
}
///////////////////////////////////////////////////////////////////////
int c_can_register(struct chipspecops_t *chipspecops)
{
CANMSG("initializing c_can chip operations\n");
- chipspecops->chip_config=c_can_chip_config;
- chipspecops->baud_rate=c_can_baud_rate;
+ chipspecops->chip_config = c_can_chip_config;
+ chipspecops->baud_rate = c_can_baud_rate;
/*chipspecops->standard_mask=c_can_standard_mask;
- chipspecops->extended_mask=c_can_extended_mask;
- chipspecops->message15_mask=c_can_extended_mask;*/
- chipspecops->clear_objects=c_can_clear_objects;
- /*chipspecops->config_irqs=c_can_config_irqs;*/
- chipspecops->pre_read_config=c_can_pre_read_config;
- chipspecops->pre_write_config=c_can_pre_write_config;
- chipspecops->send_msg=c_can_send_msg;
- chipspecops->check_tx_stat=c_can_check_tx_stat;
- chipspecops->wakeup_tx=c_can_wakeup_tx;
+ chipspecops->extended_mask=c_can_extended_mask;
+ chipspecops->message15_mask=c_can_extended_mask; */
+ chipspecops->clear_objects = c_can_clear_objects;
+ /*chipspecops->config_irqs=c_can_config_irqs; */
+ chipspecops->pre_read_config = c_can_pre_read_config;
+ chipspecops->pre_write_config = c_can_pre_write_config;
+ chipspecops->send_msg = c_can_send_msg;
+ chipspecops->check_tx_stat = c_can_check_tx_stat;
+ chipspecops->wakeup_tx = c_can_wakeup_tx;
chipspecops->filtch_rq = c_can_filtch_rq;
- chipspecops->remote_request=c_can_remote_request;
- chipspecops->enable_configuration=c_can_enable_configuration;
- chipspecops->disable_configuration=c_can_disable_configuration;
- chipspecops->set_btregs=c_can_set_btregs;
- chipspecops->start_chip=c_can_start_chip;
- chipspecops->stop_chip=c_can_stop_chip;
- chipspecops->irq_handler=c_can_irq_handler;
+ chipspecops->remote_request = c_can_remote_request;
+ chipspecops->enable_configuration = c_can_enable_configuration;
+ chipspecops->disable_configuration = c_can_disable_configuration;
+ chipspecops->attach_to_chip = c_can_attach_to_chip;
+ chipspecops->release_chip = c_can_release_chip;
+ chipspecops->set_btregs = c_can_set_btregs;
+ chipspecops->start_chip = c_can_start_chip;
+ chipspecops->stop_chip = c_can_stop_chip;
+ chipspecops->irq_handler = c_can_irq_handler;
chipspecops->irq_accept = NULL;
return 0;
}
int c_can_fill_chipspecops(struct canchip_t *chip)
{
- chip->chip_type="c_can";
- chip->max_objects = 32;
+ chip->chip_type = "c_can";
+ if (MAX_MSGOBJS >= 32) {
+ chip->max_objects = 32;
+ } else {
+ CANMSG("C_CAN requires 32 message objects per chip,"
+ " but only %d is compiled maximum\n", MAX_MSGOBJS);
+ chip->max_objects = MAX_MSGOBJS;
+ }
c_can_register(chip->chipspecops);
return 0;
}