[rtems commit] leon,grcan: added support for GRCANFD
Daniel Hellstrom
danielh at rtems.org
Sun Mar 7 15:56:14 UTC 2021
Module: rtems
Branch: 5
Commit: c41e7bae9cf8a04be6fdebe4c7ebd327f39faf02
Changeset: http://git.rtems.org/rtems/commit/?id=c41e7bae9cf8a04be6fdebe4c7ebd327f39faf02
Author: Daniel Hellstrom <daniel at gaisler.com>
Date: Fri Apr 12 09:35:12 2019 +0200
leon,grcan: added support for GRCANFD
The new GRCAN_FD IP supports CAN FD standard and is mostly backwards
compatible with GRCAN SW interface. The GRCAN driver have been extended
to support the GRCANFD IP using the same driver.
Additional functions have been added that uses a new CAN FD frame
format and read/write/baud-rate functions that supports both GRCANFD
and GRCAN. To keep the SW API fully backwards compatible with GRCAN,
the old functions remain.
Update #4307.
---
bsps/include/grlib/grcan.h | 127 ++++++++-
bsps/shared/grlib/can/grcan.c | 584 ++++++++++++++++++++++++++++++++++++++++--
2 files changed, 692 insertions(+), 19 deletions(-)
diff --git a/bsps/include/grlib/grcan.h b/bsps/include/grlib/grcan.h
index 3dc83be..a956bef 100644
--- a/bsps/include/grlib/grcan.h
+++ b/bsps/include/grlib/grcan.h
@@ -40,7 +40,13 @@ struct grcan_regs {
volatile unsigned int smask; /* 0x18 */
volatile unsigned int scode; /* 0x1C */
- volatile unsigned int dummy1[56]; /* 0x20-0xFC */
+ volatile unsigned int dummy1[8]; /* 0x20-0x3C */
+
+ volatile unsigned int nbtr; /* 0x40 */
+ volatile unsigned int fdbtr; /* 0x44 */
+ volatile unsigned int tdelay; /* 0x48 */
+
+ volatile unsigned int dummy1b[45]; /* 0x4C-0xFC */
volatile unsigned int pimsr; /* 0x100 */
volatile unsigned int pimr; /* 0x104 */
@@ -85,10 +91,18 @@ struct grcan_timing {
unsigned char scaler;
unsigned char ps1;
unsigned char ps2;
- unsigned int rsj;
+ unsigned char rsj;
unsigned char bpr;
};
+struct grcanfd_timing {
+ unsigned char scaler;
+ unsigned char ps1;
+ unsigned char ps2;
+ unsigned char sjw;
+ unsigned char resv_zero;
+};
+
struct grcan_selection {
int selection;
int enable0;
@@ -100,16 +114,34 @@ struct grcan_filter {
unsigned long long code;
};
+#define GRCAN_FDOPT_NOM 0
+#define GRCAN_FDOPT_FDBTR 0x01
+#define GRCAN_FDOPT_FDFRM 0x02
+#define GRCAN_FDMASK (GRCAN_FDOPT_FDBTR | GRCAN_FDOPT_FDFRM)
+
/* CAN MESSAGE */
typedef struct {
char extended; /* 1= Extended Frame (29-bit id), 0= STD Frame (11-bit id) */
char rtr; /* RTR - Remote Transmission Request */
- char unused; /* unused */
+ char unused; /* Must be 0 to select classic CAN frame */
unsigned char len;
unsigned char data[8];
unsigned int id;
} CANMsg;
+/* CAN-FD MESSAGE */
+typedef struct {
+ uint8_t extended; /* 1= Extended Frame (29-bit id), 0= STD Frame (11-bit id) */
+ uint8_t rtr; /* RTR - Remote Transmission Request */
+ uint8_t fdopts; /* Bit1: 1=Switch bit rate. bit2: 1=FD frame. */
+ uint8_t len; /* 0-8, 12, 16, 20, 24, 32, 48 or 64 bytes */
+ uint32_t id;
+ union {
+ uint64_t dwords[8]; /* up to 64 bytes if FD=1 and len>8 */
+ uint8_t bytes[64]; /* up to 64 bytes if FD=1 and len>8 */
+ } data;
+} CANFDMsg;
+
enum {
GRCAN_RET_OK = 0,
GRCAN_RET_INVARG = -1,
@@ -169,6 +201,26 @@ enum grcan_state {
#define GRCAN_RXCTRL_ENABLE 1
#define GRCAN_RXCTRL_ONGOING 1
+#define GRCANFD_NBTR_SCALER 0x00ff0000
+#define GRCANFD_NBTR_PS1 0x0000fc00
+#define GRCANFD_NBTR_PS2 0x000003e0
+#define GRCANFD_NBTR_SJW 0x0000001f
+
+#define GRCANFD_NBTR_SCALER_BIT 16
+#define GRCANFD_NBTR_PS1_BIT 10
+#define GRCANFD_NBTR_PS2_BIT 5
+#define GRCANFD_NBTR_SJW_BIT 0
+
+#define GRCANFD_FDBTR_SCALER 0x00ff0000
+#define GRCANFD_FDBTR_PS1 0x00003c00
+#define GRCANFD_FDBTR_PS2 0x000001e0
+#define GRCANFD_FDBTR_SJW 0x0000000f
+
+#define GRCANFD_FDBTR_SCALER_BIT 16
+#define GRCANFD_FDBTR_PS1_BIT 10
+#define GRCANFD_FDBTR_PS2_BIT 5
+#define GRCANFD_FDBTR_SJW_BIT 0
+
/* Relative offset of IRQ sources to AMBA Plug&Play */
#define GRCAN_IRQ_IRQ 0
#define GRCAN_IRQ_TXSYNC 1
@@ -233,6 +285,15 @@ extern void *grcan_open_by_name(char *name, int *dev_no);
extern int grcan_close(void *d);
/*
+ * Returns if CAN hardware device is CANFD capable.
+ *
+ * dev_no: Device handle
+ * return: 0=Not FD capable, 1=FD capable.
+ * function returns NULL if device can not be opened.
+ */
+extern int grcan_canfd_capable(void *d);
+
+/*
* Receive CAN messages
*
* Multiple CAN messages can be received in one call.
@@ -258,6 +319,31 @@ extern int grcan_read(
);
/*
+ * Receive CAN messages (only GRCANFD)
+ *
+ * Multiple CAN messages can be received in one call.
+ *
+ * d: Device handle
+ * msg: Pointer to receive messages
+ * count: Number of CAN messages to receive
+ *
+ * return:
+ * >=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 grcanfd_read(
+ void *d,
+ CANFDMsg *msg,
+ size_t count
+);
+
+/*
* Transmit CAN messages
*
* Multiple CAN messages can be transmit in one call.
@@ -283,6 +369,31 @@ extern int grcan_write(
);
/*
+ * Transmit CAN-FD complient messages (only GRCANFD)
+ *
+ * Multiple CAN messages can be transmit in one call.
+ *
+ * d: Device handle
+ * msg: Pointer to messages to transmit
+ * count: Number of CAN messages to transmit
+ *
+ * return:
+ * >=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 grcanfd_write(
+ void *d,
+ CANFDMsg *msg,
+ size_t ucount
+);
+
+/*
* Returns current GRCAN software state
*
* If STATE_BUSOFF or STATE_AHBERR is returned then the function grcan_stop()
@@ -323,6 +434,16 @@ extern int grcan_set_speed(void *d, unsigned int hz);
/* Set baudrate by specifying the timing registers manually */
extern int grcan_set_btrs(void *d, const struct grcan_timing *timing);
+/* Set the Nominal and FD baudrate by using driver's baud rate timing
+ * calculation routines
+ */
+extern int grcanfd_set_speed(void *d, unsigned int nomhz, unsigned int fdhz);
+/* Set Nominal and FD baudrate by specifying the timing registers manually*/
+extern int grcanfd_set_btrs(
+ void *d,
+ const struct grcanfd_timing *nominal,
+ const struct grcanfd_timing *fd);
+
/* Functions can be called whenever */
/* Enable/disable Blocking on reception (until at least one message has been received) */
int grcan_set_rxblock(void* d, int block);
diff --git a/bsps/shared/grlib/can/grcan.c b/bsps/shared/grlib/can/grcan.c
index 381109a..959c84d 100644
--- a/bsps/shared/grlib/can/grcan.c
+++ b/bsps/shared/grlib/can/grcan.c
@@ -1,7 +1,7 @@
/*
* GRCAN driver
*
- * COPYRIGHT (c) 2007.
+ * COPYRIGHT (c) 2007-2019.
* Cobham Gaisler AB.
*
* The license and distribution terms for this file may be
@@ -94,8 +94,18 @@ struct grcan_msg {
unsigned char data[8];
};
+struct grcanfd_bd0 {
+ uint32_t head[2];
+ uint64_t data0; /* variable size, from 1 to 8 dwords */
+};
+
+struct grcanfd_bd1 {
+ unsigned long long data[2];
+};
+
struct grcan_config {
struct grcan_timing timing;
+ struct grcanfd_timing timing_fd;
struct grcan_selection selection;
int abort;
int silent;
@@ -113,6 +123,7 @@ struct grcan_priv {
unsigned int channel;
int flushing;
unsigned int corefreq_hz;
+ int fd_capable;
/* Circular DMA buffers */
void *_rx, *_rx_hw;
@@ -151,8 +162,14 @@ static int grcan_hw_write_try(
CANMsg *buffer,
int count);
-static void grcan_hw_config(
+static int grcan_hw_write_try_fd(
+ struct grcan_priv *pDev,
struct grcan_regs *regs,
+ CANFDMsg *buffer,
+ int count);
+
+static void grcan_hw_config(
+ struct grcan_priv *pDev,
struct grcan_config *conf);
static void grcan_hw_accept(
@@ -172,9 +189,11 @@ static void grcan_interrupt(void *arg);
#endif
#ifdef GRCAN_DMA_BYPASS_CACHE
+#define READ_DMA_DOUBLE(address) grlib_read_uncached64((uint64_t *)(address))
#define READ_DMA_WORD(address) grlib_read_uncached32((unsigned int)(address))
#define READ_DMA_BYTE(address) grlib_read_uncached8((unsigned int)(address))
#else
+#define READ_DMA_DOUBLE(address) (*(volatile uint64_t *)(address))
#define READ_DMA_WORD(address) (*(volatile unsigned int *)(address))
#define READ_DMA_BYTE(address) (*(volatile unsigned char *)(address))
#endif
@@ -192,6 +211,28 @@ static struct grlib_canbtrs_ranges grcan_btrs_ranges = {
.max_tseg2 = 8,
};
+/* GRCANFD nominal boundaries */
+struct grlib_canbtrs_ranges grcanfd_nom_btrs_ranges = {
+ .max_scaler = 256,
+ .has_bpr = 0,
+ .divfactor = 1,
+ .min_tseg1 = 2,
+ .max_tseg1 = 63,
+ .min_tseg2 = 2,
+ .max_tseg2 = 16,
+};
+
+/* GRCANFD flexible baud-rate boundaries */
+struct grlib_canbtrs_ranges grcanfd_fd_btrs_ranges = {
+ .max_scaler = 256,
+ .has_bpr = 0,
+ .divfactor = 1,
+ .min_tseg1 = 1,
+ .max_tseg1 = 15,
+ .min_tseg2 = 2,
+ .max_tseg2 = 8,
+};
+
static int grcan_count = 0;
static struct grcan_priv *priv_tab[GRCAN_COUNT_MAX];
@@ -214,6 +255,7 @@ struct amba_dev_id grcan_ids[] =
{
{VENDOR_GAISLER, GAISLER_GRCAN},
{VENDOR_GAISLER, GAISLER_GRHCAN},
+ {VENDOR_GAISLER, GAISLER_GRCANFD},
{0, 0} /* Mark end of table */
};
@@ -306,6 +348,8 @@ int grcan_device_init(struct grcan_priv *pDev)
pDev->irq = pnpinfo->irq;
pDev->regs = (struct grcan_regs *)pnpinfo->apb_slv->start;
pDev->minor = pDev->dev->minor_drv;
+ if (ambadev->id.device == GAISLER_GRCANFD)
+ pDev->fd_capable = 1;
/* Get frequency in Hz */
if ( drvmgr_freq_get(pDev->dev, DEV_APB_SLV, &pDev->corefreq_hz) ) {
@@ -385,7 +429,7 @@ static rtems_device_driver grcan_hw_start(struct grcan_priv *pDev)
* and Setup timing
*/
if (pDev->config_changed) {
- grcan_hw_config(pDev->regs, &pDev->config);
+ grcan_hw_config(pDev, &pDev->config);
pDev->config_changed = 0;
}
@@ -468,9 +512,10 @@ static void grcan_sw_stop(struct grcan_priv *pDev)
rtems_semaphore_release(pDev->txempty_sem);
}
-static void grcan_hw_config(struct grcan_regs *regs, struct grcan_config *conf)
+static void grcan_hw_config(struct grcan_priv *pDev, struct grcan_config *conf)
{
unsigned int config = 0;
+ struct grcan_regs *regs = pDev->regs;
/* Reset HurriCANe Core */
regs->ctrl = 0;
@@ -491,13 +536,29 @@ static void grcan_hw_config(struct grcan_regs *regs, struct grcan_config *conf)
config |= GRCAN_CFG_ENABLE1;
/* Timing */
- config |= (conf->timing.bpr << GRCAN_CFG_BPR_BIT) & GRCAN_CFG_BPR;
- config |= (conf->timing.rsj << GRCAN_CFG_RSJ_BIT) & GRCAN_CFG_RSJ;
- config |= (conf->timing.ps1 << GRCAN_CFG_PS1_BIT) & GRCAN_CFG_PS1;
- config |= (conf->timing.ps2 << GRCAN_CFG_PS2_BIT) & GRCAN_CFG_PS2;
- config |=
- (conf->timing.scaler << GRCAN_CFG_SCALER_BIT) & GRCAN_CFG_SCALER;
-
+ if (!pDev->fd_capable) {
+ config |= (conf->timing.bpr << GRCAN_CFG_BPR_BIT) &
+ GRCAN_CFG_BPR;
+ config |= (conf->timing.rsj << GRCAN_CFG_RSJ_BIT) &
+ GRCAN_CFG_RSJ;
+ config |= (conf->timing.ps1 << GRCAN_CFG_PS1_BIT) &
+ GRCAN_CFG_PS1;
+ config |= (conf->timing.ps2 << GRCAN_CFG_PS2_BIT) &
+ GRCAN_CFG_PS2;
+ config |= (conf->timing.scaler << GRCAN_CFG_SCALER_BIT) &
+ GRCAN_CFG_SCALER;
+ } else {
+ regs->nbtr =
+ (conf->timing.scaler << GRCANFD_NBTR_SCALER_BIT) |
+ (conf->timing.ps1 << GRCANFD_NBTR_PS1_BIT) |
+ (conf->timing.ps2 << GRCANFD_NBTR_PS2_BIT) |
+ (conf->timing.rsj << GRCANFD_NBTR_SJW_BIT);
+ regs->fdbtr =
+ (conf->timing_fd.scaler << GRCANFD_FDBTR_SCALER_BIT) |
+ (conf->timing_fd.ps1 << GRCANFD_FDBTR_PS1_BIT) |
+ (conf->timing_fd.ps2 << GRCANFD_FDBTR_PS2_BIT) |
+ (conf->timing_fd.sjw << GRCANFD_FDBTR_SJW_BIT);
+ }
/* Write configuration */
regs->conf = config;
@@ -752,6 +813,240 @@ static int grcan_hw_write_try(
return ret;
}
+static uint8_t dlc2len[16] = {
+ 0, 1, 2, 3,
+ 4, 5, 6, 7,
+ 8, 12, 16, 20,
+ 24, 32, 48, 64
+};
+
+static uint8_t len2fddlc[14] = {
+ /* 12,13 */ 0x9,
+ /* 16,17 */ 0xA,
+ /* 20,21 */ 0xB,
+ /* 24,25 */ 0xC,
+ /* 28,29 */ -1,
+ /* 32,33 */ 0xD,
+ /* 36,37 */ -1,
+ /* 40,41 */ -1,
+ /* 44,45 */ -1,
+ /* 48,49 */ 0xE,
+ /* 52,53 */ -1,
+ /* 56,57 */ -1,
+ /* 60,61 */ -1,
+ /* 64,65 */ 0xF,
+};
+
+/* Convert length in bytes to descriptor length field */
+static inline uint8_t grcan_len2dlc(int len)
+{
+ if (len <= 8)
+ return len;
+ if (len > 64)
+ return -1;
+ if (len & 0x3)
+ return -1;
+ return len2fddlc[(len - 12) >> 2];
+}
+
+static inline int grcan_numbds(int len)
+{
+ return 1 + ((len + 7) >> 4);
+}
+
+static int grcan_hw_read_try_fd(
+ struct grcan_priv *pDev,
+ struct grcan_regs *regs,
+ CANFDMsg * buffer,
+ int max)
+{
+ int j;
+ CANFDMsg *dest;
+ struct grcanfd_bd0 *source, tmp, *rxmax;
+ unsigned int wp, rp, size, addr;
+ int bds_hw_avail, bds_tot, bds, ret, dlc;
+ uint64_t *dp;
+ SPIN_IRQFLAGS(oldLevel);
+
+ FUNCDBG();
+
+ wp = READ_REG(®s->rx0wr);
+ rp = READ_REG(®s->rx0rd);
+
+ /*
+ * Due to hardware wrap around simplification write pointer will
+ * never reach the read pointer, at least a gap of 8 bytes.
+ * The only time they are equal is when the read pointer has
+ * reached the write pointer (empty buffer)
+ *
+ */
+ if (wp != rp) {
+ /* Not empty, we have received chars...
+ * Read as much as possible from DMA buffer
+ */
+ size = READ_REG(®s->rx0size);
+
+ /* Get number of bytes available in RX buffer */
+ bds_hw_avail = grcan_hw_rxavail(rp, wp, size);
+
+ addr = (unsigned int)pDev->rx;
+ source = (struct grcanfd_bd0 *)(addr + rp);
+ dest = buffer;
+ rxmax = (struct grcanfd_bd0 *)(addr + size);
+ ret = bds_tot = 0;
+
+ /* Read as many can messages as possible */
+ while ((ret < max) && (bds_tot < bds_hw_avail)) {
+ /* Read CAN message from DMA buffer */
+ *(uint64_t *)&tmp = READ_DMA_DOUBLE(source);
+ 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;
+ if (dest->extended) {
+ dest->id = tmp.head[0] & 0x3fffffff;
+ } else {
+ dest->id = (tmp.head[0] >> 18) & 0xfff;
+ }
+ dest->fdopts = (tmp.head[1] >> 25) & GRCAN_FDMASK;
+ dlc = tmp.head[1] >> 28;
+ if (dest->fdopts & GRCAN_FDOPT_FDFRM) {
+ dest->len = dlc2len[dlc];
+ } else {
+ dest->len = dlc;
+ if (dlc > 8)
+ dest->len = 8;
+ }
+
+ dp = (uint64_t *)&source->data0;
+ for (j = 0; j < ((dest->len + 7) / 8); j++) {
+ dest->data.dwords[j] = READ_DMA_DOUBLE(dp);
+ if (++dp >= (uint64_t *)rxmax)
+ dp = (uint64_t *)addr; /* wrap around */
+ }
+
+ /* wrap around if neccessary */
+ bds = grcan_numbds(dest->len);
+ source += bds;
+ if (source >= rxmax) {
+ source = (struct grcanfd_bd0 *)
+ ((void *)source - size);
+ }
+ dest++; /* straight user buffer */
+ ret++;
+ bds_tot += bds;
+ }
+
+ /* A bus off interrupt may have occured after checking pDev->started */
+ 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");
+ ret = state2err[pDev->started];
+ }
+ SPIN_UNLOCK_IRQ(&pDev->devlock, oldLevel);
+
+ return ret;
+ }
+ return 0;
+}
+
+static int grcan_hw_write_try_fd(
+ struct grcan_priv *pDev,
+ struct grcan_regs *regs,
+ CANFDMsg *buffer,
+ int count)
+{
+ unsigned int rp, wp, size, addr;
+ int ret;
+ struct grcanfd_bd0 *dest, *txmax;
+ CANFDMsg *source = (CANFDMsg *) buffer;
+ int space_left;
+ unsigned int tmp;
+ int i, bds;
+ uint64_t *dp;
+ uint8_t dlc;
+ SPIN_IRQFLAGS(oldLevel);
+
+ DBGC(DBG_TX, "\n");
+
+ rp = READ_REG(®s->tx0rd);
+ wp = READ_REG(®s->tx0wr);
+ size = READ_REG(®s->tx0size);
+ space_left = grcan_hw_txspace(rp, wp, size);
+
+ addr = (unsigned int)pDev->tx;
+ dest = (struct grcanfd_bd0 *)(addr + wp);
+ txmax = (struct grcanfd_bd0 *)(addr + size);
+ ret = 0;
+
+ while (source < &buffer[count]) {
+ /* Get the number of descriptors to wait for */
+ if (source->fdopts & GRCAN_FDOPT_FDFRM)
+ bds = grcan_numbds(source->len); /* next msg's buffers */
+ else
+ bds = 1;
+ if (space_left < bds)
+ break;
+
+ /* Convert and write CAN message to DMA buffer */
+ dlc = grcan_len2dlc(source->len);
+ if (dlc < 0) {
+ /* Bad user input. Report the number of written messages
+ * or an error when non sent.
+ */
+ if (ret <= 0)
+ return GRCAN_RET_INVARG;
+ break;
+ }
+ dest->head[1] = (dlc << 28) |
+ ((source->fdopts & GRCAN_FDMASK) << 25);
+ dp = &dest->data0;
+ for (i = 0; i < ((source->len + 7) / 8); i++) {
+ *dp++ = source->data.dwords[i];
+ if (dp >= (uint64_t *)txmax)
+ dp = (uint64_t *)addr; /* wrap around */
+ }
+ if (source->extended) {
+ tmp = (1 << 31) | (source->id & 0x3fffffff);
+ } else {
+ tmp = (source->id & 0xfff) << 18;
+ }
+ if (source->rtr)
+ tmp |= (1 << 30);
+ dest->head[0] = tmp;
+ source++; /* straight user buffer */
+ dest += bds;
+ if (dest >= txmax)
+ dest = (struct grcanfd_bd0 *)((void *)dest - size);
+ space_left -= bds;
+ ret++;
+ }
+
+ /* A bus off interrupt may have occured after checking pDev->started */
+ 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);
+
+ return ret;
+}
+
static int grcan_wait_rxdata(struct grcan_priv *pDev, int min)
{
unsigned int wp, rp, size, irq;
@@ -908,7 +1203,7 @@ static int grcan_wait_txspace(struct grcan_priv *pDev, int min)
return state2err[pDev->started];
}
- /* At this point the TxIRQ has been masked, we ned not to mask it */
+ /* At this point the TxIRQ has been masked, we need not to mask it */
return 0;
}
@@ -1220,6 +1515,13 @@ int grcan_close(void *d)
return 0;
}
+int grcan_canfd_capable(void *d)
+{
+ struct grcan_priv *pDev = d;
+
+ return pDev->fd_capable;
+}
+
int grcan_read(void *d, CANMsg *msg, size_t ucount)
{
struct grcan_priv *pDev = d;
@@ -1266,7 +1568,7 @@ int grcan_read(void *d, CANMsg *msg, size_t ucount)
} else {
left = req_cnt - count; /* return as soon as all data are available */
- /* never wait for more than the half the maximum size of the receive buffer
+ /* never wait for more than the half the maximum size of the receive buffer
* Why? We need some time to copy buffer before to catch up with hw,
* otherwise we would have to copy everything when the data has been
* received.
@@ -1278,7 +1580,7 @@ int grcan_read(void *d, CANMsg *msg, size_t ucount)
nread = grcan_wait_rxdata(pDev, left);
if (nread) {
- /* The wait has been aborted, probably due to
+ /* The wait has been aborted, probably due to
* the device driver has been closed by another
* thread or a bus-off. Return error code.
*/
@@ -1302,6 +1604,88 @@ int grcan_read(void *d, CANMsg *msg, size_t ucount)
return count;
}
+int grcanfd_read(void *d, CANFDMsg *msg, size_t ucount)
+{
+ struct grcan_priv *pDev = d;
+ CANFDMsg *dest;
+ unsigned int count, left;
+ int nread;
+ int req_cnt;
+
+ FUNCDBG();
+
+ dest = msg;
+ req_cnt = ucount;
+
+ if ( (!dest) || (req_cnt<1) )
+ return GRCAN_RET_INVARG;
+
+ if (pDev->started != STATE_STARTED) {
+ return GRCAN_RET_NOTSTARTED;
+ }
+
+ DBGC(DBG_RX, "grcan_read [%p]: buf: %p len: %u\n", d, msg, (unsigned int) ucount);
+
+ nread = grcan_hw_read_try_fd(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) */
+ return count;
+ }
+
+ /* nothing read, shall we block? */
+ if ( !pDev->rxblock ) {
+ /* non-blocking mode */
+ return GRCAN_RET_TIMEOUT;
+ }
+ }
+
+ while (count == 0 || (pDev->rxcomplete && (count!=req_cnt))) {
+ if (!pDev->rxcomplete) {
+ left = 1; /* return as soon as there is one message available */
+ } else {
+ left = req_cnt - count; /* return as soon as all data are available */
+
+ /* never wait for more than the half the maximum size of the receive buffer
+ * Why? We need some time to copy buffer before to catch up with hw,
+ * otherwise we would have to copy everything when the data has been
+ * received.
+ */
+ if (left > ((pDev->rxbuf_size/GRCAN_MSG_SIZE) / 2)){
+ left = (pDev->rxbuf_size/GRCAN_MSG_SIZE) / 2;
+ }
+ }
+
+ 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 or a bus-off. Return error code.
+ */
+ return nread;
+ }
+
+ /* Try read bytes from circular buffer */
+ nread = grcan_hw_read_try_fd(
+ 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;
+}
+
int grcan_write(void *d, CANMsg *msg, size_t ucount)
{
struct grcan_priv *pDev = d;
@@ -1390,6 +1774,103 @@ int grcan_write(void *d, CANMsg *msg, size_t ucount)
return count;
}
+int grcanfd_write(
+ void *d,
+ CANFDMsg *msg,
+ size_t ucount)
+{
+ struct grcan_priv *pDev = d;
+ CANFDMsg *source, *curr;
+ unsigned int count, left;
+ int nwritten;
+ int req_cnt;
+
+ DBGC(DBG_TX,"\n");
+
+ if ((pDev->started != STATE_STARTED) || pDev->config.silent || pDev->flushing)
+ return GRCAN_RET_NOTSTARTED;
+
+ req_cnt = ucount;
+ curr = source = (CANFDMsg *) msg;
+
+ /* check proper length and buffer pointer */
+ if (( req_cnt < 1) || (source == NULL) ){
+ return GRCAN_RET_INVARG;
+ }
+
+ nwritten = grcan_hw_write_try_fd(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) */
+ return count;
+ }
+
+ /* nothing written, shall we block? */
+ if ( !pDev->txblock ) {
+ /* non-blocking mode */
+ return GRCAN_RET_TIMEOUT;
+ }
+ }
+
+ /* if in txcomplete mode we need to transmit all chars */
+ while((count == 0) || (pDev->txcomplete && (count!=req_cnt)) ){
+ /*** block until room to fit all or as much of transmit buffer
+ * as possible before IRQ comes. Set up a valid IRQ point so
+ * that an IRQ is triggered when we can put a chunk of data
+ * into transmit fifo.
+ */
+
+ /* Get the number of descriptors to wait for */
+ curr = &source[count];
+ if (curr->fdopts & GRCAN_FDOPT_FDFRM)
+ left = grcan_numbds(curr->len); /* next msg's buffers */
+ else
+ left = 1;
+
+ if (pDev->txcomplete) {
+ /* Wait for all messages to fit into descriptor table.
+ * Assume all following msgs are single descriptors.
+ */
+ left += req_cnt - count - 1;
+ if (left > ((pDev->txbuf_size/GRCAN_MSG_SIZE)/2)) {
+ left = (pDev->txbuf_size/GRCAN_MSG_SIZE)/2;
+ }
+
+ }
+
+ nwritten = grcan_wait_txspace(pDev,left);
+ /* Wait until more room in transmit buffer */
+ 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 nwritten;
+ }
+
+ /* Try read bytes from circular buffer */
+ nwritten = grcan_hw_write_try_fd(
+ 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. */
+
+ return count;
+}
+
int grcan_start(void *d)
{
struct grcan_priv *pDev = d;
@@ -1625,7 +2106,7 @@ int grcan_set_speed(void *d, unsigned int speed)
FUNCDBG();
/* cannot change speed during run mode */
- if (pDev->started == STATE_STARTED)
+ if ((pDev->started == STATE_STARTED) || pDev->fd_capable)
return -1;
/* get speed rate from argument */
@@ -1651,7 +2132,7 @@ int grcan_set_btrs(void *d, const struct grcan_timing *timing)
/* Set BTR registers manually
* Read GRCAN/HurriCANe Manual.
*/
- if (pDev->started == STATE_STARTED)
+ if ((pDev->started == STATE_STARTED) || pDev->fd_capable)
return -1;
if ( !timing )
@@ -1663,6 +2144,77 @@ int grcan_set_btrs(void *d, const struct grcan_timing *timing)
return 0;
}
+int grcanfd_set_speed(void *d, unsigned int nom_hz, unsigned int fd_hz)
+{
+ struct grcan_priv *pDev = d;
+ struct grlib_canbtrs_timing nom, fd;
+ int ret;
+
+ FUNCDBG();
+
+ /* cannot change speed during run mode */
+ if ((pDev->started == STATE_STARTED) || !pDev->fd_capable)
+ return -1;
+
+ /* get speed rate from argument */
+ ret = grlib_canbtrs_calc_timing(
+ nom_hz, pDev->corefreq_hz, GRCAN_SAMPLING_POINT,
+ &grcanfd_nom_btrs_ranges, &nom);
+ if ( ret )
+ return -2;
+ ret = grlib_canbtrs_calc_timing(
+ fd_hz, pDev->corefreq_hz, GRCAN_SAMPLING_POINT,
+ &grcanfd_fd_btrs_ranges, &fd);
+ if ( ret )
+ return -2;
+
+ /* save timing/speed */
+ pDev->config.timing = *(struct grcan_timing *)&nom;
+ pDev->config.timing_fd.scaler = fd.scaler;
+ pDev->config.timing_fd.ps1 = fd.ps1;
+ pDev->config.timing_fd.ps2 = fd.ps2;
+ pDev->config.timing_fd.sjw = fd.rsj;
+ pDev->config.timing_fd.resv_zero = 0;
+ pDev->config_changed = 1;
+
+ return 0;
+
+}
+
+int grcanfd_set_btrs(
+ void *d,
+ const struct grcanfd_timing *nominal,
+ const struct grcanfd_timing *fd)
+{
+ struct grcan_priv *pDev = d;
+
+ FUNCDBG();
+
+ /* Set BTR registers manually
+ * Read GRCAN/HurriCANe Manual.
+ */
+ if ((pDev->started == STATE_STARTED) || !pDev->fd_capable)
+ return -1;
+
+ if (!nominal)
+ return -2;
+
+ pDev->config.timing.scaler = nominal->scaler;
+ pDev->config.timing.ps1 = nominal->ps1;
+ pDev->config.timing.ps2 = nominal->ps2;
+ pDev->config.timing.rsj = nominal->sjw;
+ pDev->config.timing.bpr = 0;
+ if (fd) {
+ pDev->config.timing_fd = *fd;
+ } else {
+ memset(&pDev->config.timing_fd, 0,
+ sizeof(struct grcanfd_timing));
+ }
+ pDev->config_changed = 1;
+
+ return 0;
+}
+
int grcan_set_afilter(void *d, const struct grcan_filter *filter)
{
struct grcan_priv *pDev = d;
More information about the vc
mailing list