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leon, grcan: redesigned bus-off and AHB error handling

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When bus-off condition is detected by the ISR, it sets the started flag to
STATE_BUSOFF. This is monitored by the user functions grcan_read() and
grcan_write() each time they want to enable DMA or update interrupt mask. If
they detect that ISR has detected bus-off then they will return either with an
error or with the number of CAN messages processed. Future calls to functions
which require STARTED mode will be rejected and grcan_isstarted() will return
0. The next call to grcan_stop() will do the transition from BUSOFF->STOPPED
and the device can then be started again with grcan_start().

Similar to a bus-off condition, the AHB error condition detected by the ISR
will trigger the same shut-down logic of the driver. The difference is that
the state entered is STATE_AHBERR and the routines will return a different
value to indicate AHB error state.

This commit also fixes an issue where ISR was not always unregistered on close.

User functions can cause these transitions:
  STATE_STOPPED -> STATE_STARTED (grcan_start)
  STATE_STARTED -> STATE_STOPPED (grcan_stop)
  STATE_BUSOFF  -> STATE_STOPPED (grcan_stop, grcan_close)
  STATE_AHBERR  -> STATE_STOPPED (grcan_stop, grcan_close)

ISR can cause these transition
  STATE_STARTED -> STATE_BUSOFF (grcan_interrupt)
  STATE_STARTED -> STATE_AHBERR (grcan_interrupt)

STATE_BUSOFF/AHBERR is entered from ISR on bus-off condition. At transition
the ISR disables DMA, masks all interrupts and flushes semaphores.

Other related updates:

 * Statistics are updated from the ISR. Update is now spin-locked to ensure a
   consistent user view.
 * The debug output has been updated to include state changes.
 * For read/write/flush, return error (-4) if driver aborted the operation
   due to bus-off. Likewise if abourted due to AHB error -5 is returned.
 * Collect bus-off statistics

Related to the new BUSOFF and AHBERR states the API has been updated to
reflect the current SW driver state. The isstarted() function has been
replaced with get_state().
This commit is contained in:
Martin Aberg
2017-04-03 13:27:49 +02:00
committed by Daniel Hellstrom
parent ca4c4164b5
commit 2d3d8f96b2
2 changed files with 338 additions and 158 deletions
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414
c/src/lib/libbsp/sparc/shared/can/grcan.c
View File

@@ -92,11 +92,11 @@
/* Uncomment for debug output */
/****************** DEBUG Definitions ********************/
#define DBG_IOCTRL 1
#define DBG_TX 2
#define DBG_RX 4
#define DBG_STATE 8
#define DEBUG_FLAGS (DBG_IOCTRL | DBG_RX | DBG_TX )
#define DEBUG_FLAGS (DBG_STATE | DBG_RX | DBG_TX )
/*
#define DEBUG
#define DEBUGFUNCS
@@ -105,6 +105,13 @@
/*********************************************************/
int state2err[4] = {
/* STATE_STOPPED */ GRCAN_RET_NOTSTARTED,
/* STATE_STARTED */ GRCAN_RET_OK,
/* STATE_BUSOFF */ GRCAN_RET_BUSOFF,
/* STATE_AHBERR */ GRCAN_RET_AHBERR
};
struct grcan_msg {
unsigned int head[2];
unsigned char data[8];
@@ -156,13 +163,13 @@ struct grcan_priv {
static void __inline__ grcan_hw_reset(struct grcan_regs *regs);
static unsigned int grcan_hw_read_try(
static int grcan_hw_read_try(
struct grcan_priv *pDev,
struct grcan_regs *regs,
CANMsg *buffer,
int max);
static unsigned int grcan_hw_write_try(
static int grcan_hw_write_try(
struct grcan_priv *pDev,
struct grcan_regs *regs,
CANMsg *buffer,
@@ -601,17 +608,6 @@ static unsigned int grcan_hw_txspace(
return left / GRCAN_MSG_SIZE - WRAP_AROUND_TX_MSGS;
}
static int grcan_hw_rx_ongoing(struct grcan_regs *regs)
{
return READ_REG(&regs->rx0ctrl) & GRCAN_RXCTRL_ONGOING;
}
static int grcan_hw_tx_ongoing(struct grcan_regs *regs)
{
return READ_REG(&regs->tx0ctrl) & GRCAN_TXCTRL_ONGOING;
}
#define MIN_TSEG1 1
#define MIN_TSEG2 2
#define MAX_TSEG1 14
@@ -723,7 +719,7 @@ static int grcan_calc_timing(
return 0;
}
static unsigned int grcan_hw_read_try(
static int grcan_hw_read_try(
struct grcan_priv *pDev,
struct grcan_regs *regs,
CANMsg * buffer,
@@ -733,7 +729,8 @@ static unsigned int grcan_hw_read_try(
int i, j;
CANMsg *dest;
struct grcan_msg *source, tmp;
unsigned int wp, rp, size, rxmax, addr, trunk_msg_cnt;
unsigned int wp, rp, size, rxmax, addr;
int trunk_msg_cnt;
FUNCDBG();
@@ -775,6 +772,15 @@ static unsigned int grcan_hw_read_try(
/* Read CAN message from DMA buffer */
tmp.head[0] = READ_DMA_WORD(&source->head[0]);
tmp.head[1] = READ_DMA_WORD(&source->head[1]);
if (tmp.head[1] & 0x4) {
DBGC(DBG_RX, "overrun\n");
}
if (tmp.head[1] & 0x2) {
DBGC(DBG_RX, "bus-off mode\n");
}
if (tmp.head[1] & 0x1) {
DBGC(DBG_RX, "error-passive mode\n");
}
/* Convert one grcan CAN message to one "software" CAN message */
dest->extended = tmp.head[0] >> 31;
dest->rtr = (tmp.head[0] >> 30) & 0x1;
@@ -794,29 +800,34 @@ static unsigned int grcan_hw_read_try(
dest++; /* straight user buffer */
i--;
}
/* Increment Hardware READ pointer (mark read byte as read)
* ! wait for registers to be safely re-configurable
*/
regs->rx0ctrl = 0; /* DISABLE RX CHANNEL */
i = 0;
while (grcan_hw_rx_ongoing(regs) && (i < 1000)) {
i++;
{
/* A bus off interrupt may have occured after checking pDev->started */
SPIN_IRQFLAGS(oldLevel);
SPIN_LOCK_IRQ(&pDev->devlock, oldLevel);
if (pDev->started == STATE_STARTED) {
regs->rx0rd = (unsigned int) source - addr;
regs->rx0ctrl = GRCAN_RXCTRL_ENABLE;
} else {
DBGC(DBG_STATE, "cancelled due to a BUS OFF error\n");
trunk_msg_cnt = state2err[pDev->started];
}
SPIN_UNLOCK_IRQ(&pDev->devlock, oldLevel);
}
regs->rx0rd = (unsigned int)source - addr;
regs->rx0ctrl = GRCAN_RXCTRL_ENABLE; /* ENABLE_RX_CHANNEL */
return trunk_msg_cnt;
}
return 0;
}
static unsigned int grcan_hw_write_try(
static int grcan_hw_write_try(
struct grcan_priv *pDev,
struct grcan_regs *regs,
CANMsg * buffer,
int count
)
{
unsigned int rp, wp, size, txmax, addr, ret;
unsigned int rp, wp, size, txmax, addr;
int ret;
struct grcan_msg *dest;
CANMsg *source;
int space_left;
@@ -867,16 +878,20 @@ static unsigned int grcan_hw_write_try(
space_left--;
}
/* Update write pointer
* ! wait for registers to be safely re-configurable
*/
regs->tx0ctrl = 0; /* DISABLE TX CHANNEL */
i = 0;
while ((grcan_hw_tx_ongoing(regs)) && i < 1000) {
i++;
{
/* A bus off interrupt may have occured after checking pDev->started */
SPIN_IRQFLAGS(oldLevel);
SPIN_LOCK_IRQ(&pDev->devlock, oldLevel);
if (pDev->started == STATE_STARTED) {
regs->tx0wr = (unsigned int) dest - addr;
regs->tx0ctrl = GRCAN_TXCTRL_ENABLE;
} else {
DBGC(DBG_STATE, "cancelled due to a BUS OFF error\n");
ret = state2err[pDev->started];
}
SPIN_UNLOCK_IRQ(&pDev->devlock, oldLevel);
}
regs->tx0wr = (unsigned int)dest - addr; /* Update write pointer */
regs->tx0ctrl = GRCAN_TXCTRL_ENABLE; /* ENABLE_TX_CHANNEL */
return ret;
}
@@ -884,7 +899,7 @@ static int grcan_wait_rxdata(struct grcan_priv *pDev, int min)
{
unsigned int wp, rp, size, irq;
unsigned int irq_trunk, dataavail;
int wait;
int wait, state;
SPIN_IRQFLAGS(oldLevel);
FUNCDBG();
@@ -894,6 +909,20 @@ static int grcan_wait_rxdata(struct grcan_priv *pDev, int min)
* when one or more messages are received
*/
SPIN_LOCK_IRQ(&pDev->devlock, oldLevel);
state = pDev->started;
/* A bus off interrupt may have occured after checking pDev->started */
if (state != STATE_STARTED) {
SPIN_UNLOCK_IRQ(&pDev->devlock, oldLevel);
if (state == STATE_BUSOFF) {
DBGC(DBG_STATE, "cancelled due to a BUS OFF error\n");
} else if (state == STATE_AHBERR) {
DBGC(DBG_STATE, "cancelled due to a AHB error\n");
} else {
DBGC(DBG_STATE, "cancelled due to STOP (unexpected) \n");
}
return state2err[state];
}
size = READ_REG(&pDev->regs->rx0size);
rp = READ_REG(&pDev->regs->rx0rd);
@@ -936,15 +965,18 @@ static int grcan_wait_rxdata(struct grcan_priv *pDev, int min)
RTEMS_WAIT,
RTEMS_NO_TIMEOUT
) == RTEMS_UNSATISFIED
)
return -1; /* Device driver has been closed or stopped, return with error status */
) {
DBGC(DBG_STATE, "UNSATISFIED\n");
/* Device driver has been closed or stopped, return with error status */
return state2err[pDev->started];
}
}
return 0;
}
/* Wait until min bytes available in TX circular buffer.
* The IRQ RxIrq is used to pin point the location of
/* Wait until min bytes available in TX circular buffer. TXIRQ is used to pin
* point the location of the CAN message corresponding to min.
*
* min must be at least WRAP_AROUND_TX_BYTES bytes less
* than max buffer for this algo to work.
@@ -952,7 +984,7 @@ static int grcan_wait_rxdata(struct grcan_priv *pDev, int min)
*/
static int grcan_wait_txspace(struct grcan_priv *pDev, int min)
{
int wait;
int wait, state;
unsigned int irq, rp, wp, size, space_left;
unsigned int irq_trunk;
SPIN_IRQFLAGS(oldLevel);
@@ -961,6 +993,19 @@ static int grcan_wait_txspace(struct grcan_priv *pDev, int min)
/*FUNCDBG(); */
SPIN_LOCK_IRQ(&pDev->devlock, oldLevel);
state = pDev->started;
/* A bus off interrupt may have occured after checking pDev->started */
if (state != STATE_STARTED) {
SPIN_UNLOCK_IRQ(&pDev->devlock, oldLevel);
if (state == STATE_BUSOFF) {
DBGC(DBG_STATE, "cancelled due to a BUS OFF error\n");
} else if (state == STATE_AHBERR) {
DBGC(DBG_STATE, "cancelled due to a AHB error\n");
} else {
DBGC(DBG_STATE, "cancelled due to STOP (unexpected)\n");
}
return state2err[state];
}
pDev->regs->tx0ctrl = GRCAN_TXCTRL_ENABLE;
@@ -1010,7 +1055,8 @@ static int grcan_wait_txspace(struct grcan_priv *pDev, int min)
RTEMS_UNSATISFIED) {
/* Device driver has flushed us, this may be due to another thread has
* closed the device, this is to avoid deadlock */
return -1;
DBGC(DBG_STATE, "UNSATISFIED\n");
return state2err[pDev->started];
}
}
@@ -1020,7 +1066,7 @@ static int grcan_wait_txspace(struct grcan_priv *pDev, int min)
static int grcan_tx_flush(struct grcan_priv *pDev)
{
int wait;
int wait, state;
unsigned int rp, wp;
SPIN_IRQFLAGS(oldLevel);
FUNCDBG();
@@ -1036,6 +1082,21 @@ static int grcan_tx_flush(struct grcan_priv *pDev)
) {
/* Wait for TX empty IRQ */
SPIN_LOCK_IRQ(&pDev->devlock, oldLevel);
state = pDev->started;
/* A bus off interrupt may have occured after checking pDev->started */
if (state != STATE_STARTED) {
SPIN_UNLOCK_IRQ(&pDev->devlock, oldLevel);
if (state == STATE_BUSOFF) {
DBGC(DBG_STATE, "cancelled due to a BUS OFF error\n");
} else if (state == STATE_AHBERR) {
DBGC(DBG_STATE, "cancelled due to a AHB error\n");
} else {
DBGC(DBG_STATE, "cancelled due to STOP (unexpected)\n");
}
return state2err[state];
}
/* Clear pending TXEmpty IRQ */
pDev->regs->picr = GRCAN_TXEMPTY_IRQ;
@@ -1056,7 +1117,8 @@ static int grcan_tx_flush(struct grcan_priv *pDev)
if (rtems_semaphore_obtain
(pDev->txempty_sem, RTEMS_WAIT,
RTEMS_NO_TIMEOUT) == RTEMS_UNSATISFIED) {
return -1;
DBGC(DBG_STATE, "UNSATISFIED\n");
return state2err[pDev->started];
}
}
return 0;
@@ -1231,7 +1293,7 @@ void *grcan_open(int dev_no)
pDev->txblock = pDev->rxblock = 1;
pDev->txcomplete = pDev->rxcomplete = 0;
pDev->started = 0;
pDev->started = STATE_STOPPED;
pDev->config_changed = 1;
pDev->config.silent = 0;
pDev->config.abort = 0;
@@ -1296,12 +1358,7 @@ int grcan_close(void *d)
FUNCDBG();
if ( pDev->started ) {
/* Disable interrupts */
drvmgr_interrupt_unregister(pDev->dev, 0, grcan_interrupt, pDev);
grcan_hw_stop(pDev);
pDev->started = 0;
}
grcan_stop(d);
grcan_hw_reset(pDev->regs);
@@ -1318,6 +1375,7 @@ int grcan_read(void *d, CANMsg *msg, size_t ucount)
struct grcan_priv *pDev = d;
CANMsg *dest;
unsigned int count, left;
int nread;
int req_cnt;
FUNCDBG();
@@ -1326,14 +1384,19 @@ int grcan_read(void *d, CANMsg *msg, size_t ucount)
req_cnt = ucount;
if ( (!dest) || (req_cnt<1) )
return -1;
return GRCAN_RET_INVARG;
if ( !pDev->started )
return -2;
if (pDev->started != STATE_STARTED) {
return GRCAN_RET_NOTSTARTED;
}
/*FUNCDBG("grcan_read [%i,%i]: buf: 0x%x len: %i\n",major, minor, (unsigned int)rw_args->buffer,rw_args->count);*/
DBGC(DBG_RX, "grcan_read [%p]: buf: %p len: %u\n", d, msg, (unsigned int) ucount);
count = grcan_hw_read_try(pDev,pDev->regs,dest,req_cnt);
nread = grcan_hw_read_try(pDev,pDev->regs,dest,req_cnt);
if (nread < 0) {
return nread;
}
count = nread;
if ( !( pDev->rxblock && pDev->rxcomplete && (count!=req_cnt) ) ){
if ( count > 0 ) {
/* Successfully received messages (at least one) */
@@ -1343,7 +1406,7 @@ int grcan_read(void *d, CANMsg *msg, size_t ucount)
/* nothing read, shall we block? */
if ( !pDev->rxblock ) {
/* non-blocking mode */
return -3;
return GRCAN_RET_TIMEOUT;
}
}
@@ -1363,20 +1426,27 @@ int grcan_read(void *d, CANMsg *msg, size_t ucount)
}
}
if (grcan_wait_rxdata(pDev, left)) {
nread = grcan_wait_rxdata(pDev, left);
if (nread) {
/* The wait has been aborted, probably due to
* the device driver has been closed by another
* thread.
* thread or a bus-off. Return error code.
*/
return count;
return nread;
}
/* Try read bytes from circular buffer */
count += grcan_hw_read_try(
nread = grcan_hw_read_try(
pDev,
pDev->regs,
dest+count,
req_cnt-count);
if (nread < 0) {
/* The read was aborted by bus-off. */
return nread;
}
count += nread;
}
/* no need to unmask IRQ as IRQ Handler do that for us. */
return count;
@@ -1387,22 +1457,27 @@ int grcan_write(void *d, CANMsg *msg, size_t ucount)
struct grcan_priv *pDev = d;
CANMsg *source;
unsigned int count, left;
int nwritten;
int req_cnt;
DBGC(DBG_TX,"\n");
if ( !pDev->started || pDev->config.silent || pDev->flushing )
return -2;
if ((pDev->started != STATE_STARTED) || pDev->config.silent || pDev->flushing)
return GRCAN_RET_NOTSTARTED;
req_cnt = ucount;
source = (CANMsg *) msg;
/* check proper length and buffer pointer */
if (( req_cnt < 1) || (source == NULL) ){
return -1;
return GRCAN_RET_INVARG;
}
count = grcan_hw_write_try(pDev,pDev->regs,source,req_cnt);
nwritten = grcan_hw_write_try(pDev,pDev->regs,source,req_cnt);
if (nwritten < 0) {
return nwritten;
}
count = nwritten;
if ( !(pDev->txblock && pDev->txcomplete && (count!=req_cnt)) ) {
if ( count > 0 ) {
/* Successfully transmitted chars (at least one char) */
@@ -1412,7 +1487,7 @@ int grcan_write(void *d, CANMsg *msg, size_t ucount)
/* nothing written, shall we block? */
if ( !pDev->txblock ) {
/* non-blocking mode */
return -3;
return GRCAN_RET_TIMEOUT;
}
}
@@ -1436,14 +1511,15 @@ int grcan_write(void *d, CANMsg *msg, size_t ucount)
}
}
nwritten = grcan_wait_txspace(pDev,left);
/* Wait until more room in transmit buffer */
if ( grcan_wait_txspace(pDev,left) ){
if ( nwritten ) {
/* The wait has been aborted, probably due to
* the device driver has been closed by another
* thread. To avoid deadlock we return directly
* with error status.
*/
return count;
return nwritten;
}
if ( pDev->txerror ){
@@ -1455,11 +1531,17 @@ int grcan_write(void *d, CANMsg *msg, size_t ucount)
}
/* Try read bytes from circular buffer */
count += grcan_hw_write_try(
nwritten = grcan_hw_write_try(
pDev,
pDev->regs,
source+count,
req_cnt-count);
if (nwritten < 0) {
/* Write was aborted by bus-off. */
return nwritten;
}
count += nwritten;
}
/* no need to unmask IRQ as IRQ Handler do that for us. */
@@ -1469,19 +1551,20 @@ int grcan_write(void *d, CANMsg *msg, size_t ucount)
int grcan_start(void *d)
{
struct grcan_priv *pDev = d;
rtems_device_driver status;
FUNCDBG();
if ( pDev->started )
if (grcan_get_state(d) == STATE_STARTED) {
return -1;
}
if ( (status=grcan_hw_start(pDev)) != RTEMS_SUCCESSFUL ){
if ( (grcan_hw_start(pDev)) != RTEMS_SUCCESSFUL ){
return -2;
}
/* Read and write are now open... */
pDev->started = 1;
pDev->started = STATE_STARTED;
DBGC(DBG_STATE, "STOPPED|BUSOFF|AHBERR->STARTED\n");
/* Register interrupt routine and enable IRQ at IRQ ctrl */
drvmgr_interrupt_register(pDev->dev, 0, pDev->devName,
@@ -1493,22 +1576,34 @@ int grcan_start(void *d)
int grcan_stop(void *d)
{
struct grcan_priv *pDev = d;
SPIN_IRQFLAGS(oldLevel);
FUNCDBG();
if ( !pDev->started )
if (pDev->started == STATE_STOPPED)
return -1;
SPIN_LOCK_IRQ(&pDev->devlock, oldLevel);
if (pDev->started == STATE_STARTED) {
grcan_hw_stop(pDev);
DBGC(DBG_STATE, "STARTED->STOPPED\n");
} else {
/*
* started == STATE_[STOPPED|BUSOFF|AHBERR] so grcan_hw_stop()
* might already been called from ISR.
*/
DBGC(DBG_STATE, "[STOPPED|BUSOFF|AHBERR]->STOPPED\n");
}
pDev->started = STATE_STOPPED;
SPIN_UNLOCK_IRQ(&pDev->devlock, oldLevel);
/* Disable interrupts */
drvmgr_interrupt_unregister(pDev->dev, 0, grcan_interrupt, pDev);
grcan_hw_stop(pDev);
pDev->started = 0;
return 0;
}
int grcan_isstarted(void *d)
int grcan_get_state(void *d)
{
struct grcan_priv *pDev = d;
@@ -1524,7 +1619,7 @@ int grcan_flush(void *d)
FUNCDBG();
if ( !pDev->started || pDev->flushing || pDev->config.silent )
if ((pDev->started != STATE_STARTED) || pDev->flushing || pDev->config.silent)
return -1;
pDev->flushing = 1;
@@ -1547,7 +1642,7 @@ int grcan_set_silent(void* d, int silent)
FUNCDBG();
if ( pDev->started )
if (pDev->started == STATE_STARTED)
return -1;
pDev->config.silent = silent;
@@ -1562,7 +1657,7 @@ int grcan_set_abort(void* d, int abort)
FUNCDBG();
if ( pDev->started )
if (pDev->started == STATE_STARTED)
return -1;
pDev->config.abort = abort;
@@ -1579,7 +1674,7 @@ int grcan_set_selection(void *d, const struct grcan_selection *selection)
FUNCDBG();
if ( pDev->started )
if (pDev->started == STATE_STARTED)
return -1;
if ( !selection )
@@ -1675,7 +1770,7 @@ int grcan_set_speed(void *d, unsigned int speed)
FUNCDBG();
/* cannot change speed during run mode */
if ( pDev->started )
if (pDev->started == STATE_STARTED)
return -1;
/* get speed rate from argument */
@@ -1699,7 +1794,7 @@ int grcan_set_btrs(void *d, const struct grcan_timing *timing)
/* Set BTR registers manually
* Read GRCAN/HurriCANe Manual.
*/
if ( pDev->started )
if (pDev->started == STATE_STARTED)
return -1;
if ( !timing )
@@ -1777,94 +1872,129 @@ int grcan_get_status(void* d, unsigned int *data)
return 0;
}
/* Error indicators */
#define GRCAN_IRQ_ERRORS \
(GRCAN_RXAHBERR_IRQ | GRCAN_TXAHBERR_IRQ | GRCAN_OFF_IRQ)
#define GRCAN_STAT_ERRORS (GRCAN_STAT_AHBERR | GRCAN_STAT_OFF)
/* Warning & RX/TX sync indicators */
#define GRCAN_IRQ_WARNS \
(GRCAN_ERR_IRQ | GRCAN_OR_IRQ | GRCAN_TXLOSS_IRQ | \
GRCAN_RXSYNC_IRQ | GRCAN_TXSYNC_IRQ)
#define GRCAN_STAT_WARNS (GRCAN_STAT_OR | GRCAN_STAT_PASS)
/* Handle the IRQ */
static void grcan_interrupt(void *arg)
{
struct grcan_priv *pDev = arg;
unsigned int status = READ_REG(&pDev->regs->pimsr);
unsigned int canstat = READ_REG(&pDev->regs->stat);
unsigned int imr_clear;
SPIN_ISR_IRQFLAGS(irqflags);
/* Spurious IRQ call? */
if ( !status && !canstat )
return;
FUNCDBG();
/* Increment number of interrupts counter */
pDev->stats.ints++;
if ( (status & GRCAN_ERR_IRQ) || (canstat & GRCAN_STAT_PASS) ){
/* Error-Passive interrupt */
pDev->stats.passive_cnt++;
if (pDev->started != STATE_STARTED) {
DBGC(DBG_STATE, "not STARTED (unexpected interrupt)\n");
pDev->regs->picr = status;
return;
}
if ( (status & GRCAN_OFF_IRQ) || (canstat & GRCAN_STAT_OFF) ){
FUNCDBG();
if ( (status & GRCAN_IRQ_ERRORS) || (canstat & GRCAN_STAT_ERRORS) ) {
/* Bus-off condition interrupt
* The link is brought down by hardware, we wake all threads
* that is blocked in read/write calls and stop futher calls
* to read/write until user has called ioctl(fd,START,0).
*/
SPIN_LOCK(&pDev->devlock, irqflags);
pDev->started = 0;
DBGC(DBG_STATE, "STARTED->BUSOFF|AHBERR\n");
pDev->stats.ints++;
if ((status & GRCAN_OFF_IRQ) || (canstat & GRCAN_STAT_OFF)) {
/* CAN Bus-off interrupt */
DBGC(DBG_STATE, "BUSOFF: status: 0x%x, canstat: 0x%x\n",
status, canstat);
pDev->started = STATE_BUSOFF;
pDev->stats.busoff_cnt++;
} else {
/* RX or Tx AHB Error interrupt */
printk("AHBERROR: status: 0x%x, canstat: 0x%x\n",
status, canstat);
pDev->started = STATE_AHBERR;
pDev->stats.ahberr_cnt++;
}
grcan_hw_stop(pDev); /* this mask all IRQ sources */
pDev->regs->picr = 0x1ffff; /* clear all interrupts */
/*
* Prevent driver from affecting bus. Driver can be started
* again with grcan_start().
*/
SPIN_UNLOCK(&pDev->devlock, irqflags);
status=0x1ffff; /* clear all interrupts */
goto out;
/*
* NOTE: Another interrupt may be pending now so ISR could be
* executed one more time aftert this (first) return.
*/
return;
}
if ( (status & GRCAN_OR_IRQ) || (canstat & GRCAN_STAT_OR) ){
/* Over-run during reception interrupt */
pDev->stats.overrun_cnt++;
/* Mask interrupts in one place under spin-lock. */
imr_clear = status & (GRCAN_RXIRQ_IRQ | GRCAN_TXIRQ_IRQ | GRCAN_TXEMPTY_IRQ);
SPIN_LOCK(&pDev->devlock, irqflags);
/* Increment number of interrupts counter */
pDev->stats.ints++;
if ((status & GRCAN_IRQ_WARNS) || (canstat & GRCAN_STAT_WARNS)) {
if ( (status & GRCAN_ERR_IRQ) || (canstat & GRCAN_STAT_PASS) ) {
/* Error-Passive interrupt */
pDev->stats.passive_cnt++;
}
if ( (status & GRCAN_OR_IRQ) || (canstat & GRCAN_STAT_OR) ) {
/* Over-run during reception interrupt */
pDev->stats.overrun_cnt++;
}
if ( status & GRCAN_TXLOSS_IRQ ) {
pDev->stats.txloss_cnt++;
}
if ( status & GRCAN_TXSYNC_IRQ ) {
/* TxSync message transmitted interrupt */
pDev->stats.txsync_cnt++;
}
if ( status & GRCAN_RXSYNC_IRQ ) {
/* RxSync message received interrupt */
pDev->stats.rxsync_cnt++;
}
}
if ( (status & GRCAN_RXAHBERR_IRQ) ||
(status & GRCAN_TXAHBERR_IRQ) ||
(canstat & GRCAN_STAT_AHBERR) ){
/* RX or Tx AHB Error interrupt */
printk("AHBERROR: status: 0x%x, canstat: 0x%x\n",status,canstat);
pDev->stats.ahberr_cnt++;
}
if (imr_clear) {
pDev->regs->imr = READ_REG(&pDev->regs->imr) & ~imr_clear;
if ( status & GRCAN_TXLOSS_IRQ ) {
pDev->stats.txloss_cnt++;
}
if ( status & GRCAN_RXIRQ_IRQ ){
/* RX IRQ pointer interrupt */
/*printk("RxIrq 0x%x\n",status);*/
SPIN_LOCK(&pDev->devlock, irqflags);
pDev->regs->imr = READ_REG(&pDev->regs->imr) & ~GRCAN_RXIRQ_IRQ;
SPIN_UNLOCK(&pDev->devlock, irqflags);
rtems_semaphore_release(pDev->rx_sem);
}
if ( status & GRCAN_TXIRQ_IRQ ){
/* TX IRQ pointer interrupt */
SPIN_LOCK(&pDev->devlock, irqflags);
pDev->regs->imr = READ_REG(&pDev->regs->imr) & ~GRCAN_TXIRQ_IRQ;
if ( status & GRCAN_RXIRQ_IRQ ) {
/* RX IRQ pointer interrupt */
rtems_semaphore_release(pDev->rx_sem);
}
if ( status & GRCAN_TXIRQ_IRQ ) {
/* TX IRQ pointer interrupt */
rtems_semaphore_release(pDev->tx_sem);
}
if (status & GRCAN_TXEMPTY_IRQ ) {
rtems_semaphore_release(pDev->txempty_sem);
}
} else {
SPIN_UNLOCK(&pDev->devlock, irqflags);
rtems_semaphore_release(pDev->tx_sem);
}
if ( status & GRCAN_TXSYNC_IRQ ){
/* TxSync message transmitted interrupt */
pDev->stats.txsync_cnt++;
}
if ( status & GRCAN_RXSYNC_IRQ ){
/* RxSync message received interrupt */
pDev->stats.rxsync_cnt++;
}
if ( status & GRCAN_TXEMPTY_IRQ ){
SPIN_LOCK(&pDev->devlock, irqflags);
pDev->regs->imr = READ_REG(&pDev->regs->imr) & ~GRCAN_TXEMPTY_IRQ;
SPIN_UNLOCK(&pDev->devlock, irqflags);
rtems_semaphore_release(pDev->txempty_sem);
}
out:
/* Clear IRQs */
pDev->regs->picr = status;
}

80
c/src/lib/libbsp/sparc/shared/include/grcan.h
View File

@@ -68,6 +68,7 @@ struct grcan_stats {
unsigned int txloss_cnt;
unsigned int ahberr_cnt;
unsigned int ints;
unsigned int busoff_cnt;
};
struct grcan_timing {
@@ -99,6 +100,39 @@ typedef struct {
unsigned int id;
} CANMsg;
enum {
GRCAN_RET_OK = 0,
GRCAN_RET_INVARG = -1,
GRCAN_RET_NOTSTARTED = -2,
GRCAN_RET_TIMEOUT = -3,
/* Bus-off condition detected (request aborted by driver) */
GRCAN_RET_BUSOFF = -4,
/* AHB error condition detected (request aborted by driver) */
GRCAN_RET_AHBERR = -5,
};
/*
* User functions can cause these transitions:
* STATE_STOPPED -> STATE_STARTED
* STATE_STARTED -> STATE_STOPPED
* STATE_BUSOFF -> STATE_STOPPED
* STATE_AHBERR -> STATE_STOPPED
*
* ISR can cause these transition
* STATE_STARTED -> STATE_BUSOFF
* STATE_STARTED -> STATE_AHBERR
*
* STATE_BUSOFF is entered from ISR on bus-off condition. STATE_AHBERR is
* entered from ISR on AHB DMA errors on RX/TX operations. At transition the ISR
* disables DMA, masks all interrupts and releases semaphores.
*/
enum grcan_state {
STATE_STOPPED = 0,
STATE_STARTED = 1,
STATE_BUSOFF = 2,
STATE_AHBERR = 3,
};
#define GRCAN_CFG_ABORT 0x00000001
#define GRCAN_CFG_ENABLE0 0x00000002
#define GRCAN_CFG_ENABLE1 0x00000004
@@ -198,13 +232,14 @@ extern int grcan_close(void *d);
* count: Number of CAN messages to receive
*
* return:
* >=0: Number of CAN messages received. This can be less than the
* count parameter.
* -1: count parameter less than size of struct grcan_msg or NULL msg.
* -2: Device not in started mode
* -3: Timeout in non-blocking mode
* -4: A blocking read was interrupted by a Bus-off error. Device has
* left started mode.
* >=0: Number of CAN messages received. This can be
* less than the count parameter.
* GRCAN_RET_INVARG: count parameter less than one or NULL msg.
* GRCAN_RET_NOTSTARTED: Device not in started mode
* GRCAN_RET_TIMEOUT: Timeout in non-blocking mode
* GRCAN_RET_BUSOFF: A read was interrupted by a bus-off error.
* Device has left started mode.
* GRCAN_RET_AHBERR: Similar to BUSOFF, but was caused by AHB Error.
*/
extern int grcan_read(
void *d,
@@ -222,12 +257,14 @@ extern int grcan_read(
* count: Number of CAN messages to transmit
*
* return:
* >=0: Number of CAN messages transmitted. This can be less than the
* count parameter.
* -1: count parameter less than size of struct grcan_msg
* -2: Device not in started mode
* -3: Timeout in non-blocking mode
* -4: Bus-off error. Device has left started mode
* >=0: Number of CAN messages transmitted. This can be
* less than the count parameter.
* GRCAN_RET_INVARG: count parameter less than one.
* GRCAN_RET_NOTSTARTED: Device not in started mode
* GRCAN_RET_TIMEOUT: Timeout in non-blocking mode
* GRCAN_RET_BUSOFF: A write was interrupted by a Bus-off error.
* Device has left started mode
* GRCAN_RET_AHBERR: Similar to BUSOFF, but was caused by AHB Error.
*/
extern int grcan_write(
void *d,
@@ -235,6 +272,21 @@ extern int grcan_write(
size_t count
);
/*
* Returns current GRCAN software state
*
* If STATE_BUSOFF or STATE_AHBERR is returned then the function grcan_stop()
* shall be called before continue using the driver.
*
* d: Device handle
* return:
* STATE_STOPPED Stopped
* STATE_STARTED Started
* STATE_BUSOFF Bus-off has been detected
* STATE_AHBERR AHB error has been detected
*/
extern int grcan_get_state(void *d);
/* The remaining functions return 0 on success and non-zero on failure. */
/* Functions controlling operational
@@ -244,8 +296,6 @@ extern int grcan_write(
extern int grcan_start(void *d);
/* stop to change baud rate/config or closing down */
extern int grcan_stop(void *d);
/* return 1 when started, othervise 0 */
extern int grcan_isstarted(void *d);
/* Wait until all TX messages have been sent */
extern int grcan_flush(void *d);