svn commit: r222671 - head/sys/mips/cavium

Warner Losh imp at FreeBSD.org
Sat Jun 4 07:06:06 UTC 2011


Author: imp
Date: Sat Jun  4 07:06:05 2011
New Revision: 222671
URL: http://svn.freebsd.org/changeset/base/222671

Log:
  Add support for True IDE mode to the Octeon CF driver.  This mode is
  signalled when the attribute address for the CF is 0 in the octeon
  sysinfo structure.  In this mode, the DATA port is 16-bits, but the
  other ports are 8-bits, but on a 16-bit bus (so you have to access it
  a short at a time, but only believe the lower byte).  See the code for
  more details on this slightly odd arrangement.  I'm still not 100%
  happy with the abstractions here on many levels (starting with the
  globals for these settings, on down to no bus_space use, etc), but the
  driver had these problems before the change.
  
  Also, clean up the code a bit to make this support easier, and the
  code a bit easier to read.  I tried to follow existing style, but may
  have missed a few spots.  Add some comments.
  
  Fix probe/attach routine to return a proper error for the simulator.
  
  With this change, my EBH5200 eval board now recognizes the CF well
  enough to boot to the login prompt.  Before it would say it never
  became ready.  My CN3010-EVB-HS5 still boots properly.  My older
  CN3860-based board won't load the 64-bit kernel, either before or
  after the change, and I didn't chase that down.

Modified:
  head/sys/mips/cavium/octeon_ebt3000_cf.c

Modified: head/sys/mips/cavium/octeon_ebt3000_cf.c
==============================================================================
--- head/sys/mips/cavium/octeon_ebt3000_cf.c	Sat Jun  4 07:02:06 2011	(r222670)
+++ head/sys/mips/cavium/octeon_ebt3000_cf.c	Sat Jun  4 07:06:05 2011	(r222671)
@@ -104,12 +104,40 @@ __FBSDID("$FreeBSD$");
 extern cvmx_bootinfo_t *octeon_bootinfo;
 
 /* Globals */
-int	bus_width;
+/*
+ * There's three bus types supported by this driver.
+ *
+ * CF_8 -- Traditional PC Card IDE interface on an 8-bit wide bus.  We assume
+ * the bool loader has configure attribute memory properly.  We then access
+ * the device like old-school 8-bit IDE card (which is all a traditional PC Card
+ * interface really is).
+ * CF_16 -- Traditional PC Card IDE interface on a 16-bit wide bus.  Registers on
+ * this bus are 16-bits wide too.  When accessing registers in the task file, you
+ * have to do it in 16-bit chunks, and worry about masking out what you don't want
+ * or ORing together the traditional 8-bit values.  We assume the bootloader does
+ * the right attribute memory initialization dance.
+ * CF_TRUE_IDE_8 - CF Card wired to True IDE mode.  There's no Attribute memory
+ * space at all.  Instead all the traditional 8-bit registers are there, but
+ * on a 16-bit bus where addr0 isn't wired.  This means we need to read/write them
+ * 16-bit chunks, but only the lower 8 bits are valid.  We do not (and can not)
+ * access this like CF_16 with the comingled registers.  Yet we can't access
+ * this like CF_8 because of the register offset.  Except the TF_DATA register
+ * appears to be full width?
+ */
 void	*base_addr;
+int	bus_type;
+#define CF_8		1	/* 8-bit bus, no offsets - PC Card */
+#define CF_16		2	/* 16-bit bus, registers shared - PC Card */
+#define CF_TRUE_IDE_8	3	/* 16-bit bus, only lower 8-bits, TrueIDE */
+const char *const cf_type[] = {
+	"impossible type",
+	"CF 8-bit",
+	"CF 16-bit",
+	"True IDE"
+};
 
 /* Device softc */
 struct cf_priv {
-
 	device_t dev;
 	struct drive_param *drive_param;
 
@@ -230,9 +258,65 @@ static void cf_start (struct bio *bp)
 
 static int cf_ioctl (struct g_provider *pp, u_long cmd, void *data, int fflag, struct thread *td)
 {
-    return (0);
+	return (0);
+}
+
+
+static uint8_t cf_inb_8(int port)
+{
+	/*
+	 * Traditional 8-bit PC Card/CF bus access.
+	 */
+	if (bus_type == CF_8) {
+		volatile uint8_t *task_file = (volatile uint8_t *)base_addr;
+		return task_file[port];
+	}
+
+	/*
+	 * True IDE access.  lower 8 bits on a 16-bit bus (see above).
+	 */
+	volatile uint16_t *task_file = (volatile uint16_t *)base_addr;
+	return task_file[port] & 0xff;
+}
+
+static void cf_outb_8(int port, uint8_t val)
+{
+	/*
+	 * Traditional 8-bit PC Card/CF bus access.
+	 */
+	if (bus_type == CF_8) {
+		volatile uint8_t *task_file = (volatile uint8_t *)base_addr;
+		task_file[port] = val;
+	}
+
+	/*
+	 * True IDE access.  lower 8 bits on a 16-bit bus (see above).
+	 */
+	volatile uint16_t *task_file = (volatile uint16_t *)base_addr;
+	task_file[port] = val & 0xff;
+}
+
+static uint8_t cf_inb_16(int port)
+{
+	volatile uint16_t *task_file = (volatile uint16_t *)base_addr;
+	uint16_t val = task_file[port / 2];
+	if (port & 1)
+		return (val >> 8) & 0xff;
+	return val & 0xff;
+}
+
+static uint16_t cf_inw_16(int port)
+{
+	volatile uint16_t *task_file = (volatile uint16_t *)base_addr;
+	uint16_t val = task_file[port / 2];
+	return val;
 }
 
+static void cf_outw_16(int port, uint16_t val)
+{
+	volatile uint16_t *task_file = (volatile uint16_t *)base_addr;
+	task_file[port / 2] = val;
+}
 
 /* ------------------------------------------------------------------- *
  *                      cf_cmd_read()                                  *
@@ -264,25 +348,29 @@ static int cf_cmd_read (uint32_t nr_sect
 			return (error);
 		}
 
-		if (bus_width == 8) {
-			volatile uint8_t *task_file = (volatile uint8_t*)base_addr;
-        		volatile uint8_t dummy;
+		switch (bus_type)
+		{
+		case CF_8:
 			for (count = 0; count < SECTOR_SIZE; count++) {
-				*ptr_8++ = task_file[TF_DATA];
-				if ((count & 0xf) == 0) dummy = task_file[TF_STATUS];
+				*ptr_8++ = cf_inb_8(TF_DATA);
+				if ((count & 0xf) == 0)
+					(void)cf_inb_8(TF_STATUS);
 			}
-		} else {
-			volatile uint16_t *task_file = (volatile uint16_t*)base_addr;
-        		volatile uint16_t dummy;
+			break;
+		case CF_TRUE_IDE_8:
+		case CF_16:
+		default:
 			for (count = 0; count < SECTOR_SIZE; count+=2) {
 				uint16_t temp;
-				temp = task_file[TF_DATA];
+				temp = cf_inw_16(TF_DATA);
 				*ptr_16++ = SWAP_SHORT(temp);
-				if ((count & 0xf) == 0) dummy = task_file[TF_STATUS/2];
+				if ((count & 0xf) == 0)
+					(void)cf_inb_16(TF_STATUS);
 			}
+			break;
 		}  
 
-		lba ++;
+		lba++;
 	}
 #ifdef OCTEON_VISUAL_CF_0
         octeon_led_write_char(0, ' ');
@@ -320,28 +408,28 @@ static int cf_cmd_write (uint32_t nr_sec
 			return (error);
 		}
 
-		if (bus_width == 8) {
-			volatile uint8_t *task_file;
-        		volatile uint8_t dummy;
-
-			task_file = (volatile uint8_t *) base_addr;
+		switch (bus_type)
+		{
+		case CF_8:
 			for (count = 0; count < SECTOR_SIZE; count++) {
-				task_file[TF_DATA] =  *ptr_8++;
-				if ((count & 0xf) == 0) dummy = task_file[TF_STATUS];
+				cf_outb_8(TF_DATA, *ptr_8++);
+				if ((count & 0xf) == 0)
+					(void)cf_inb_8(TF_STATUS);
 			}
-		} else {
-			volatile uint16_t *task_file;
-        		volatile uint16_t dummy;
-
-			task_file = (volatile uint16_t *) base_addr;
+			break;
+		case CF_TRUE_IDE_8:
+		case CF_16:
+		default:
 			for (count = 0; count < SECTOR_SIZE; count+=2) {
 				uint16_t temp = *ptr_16++;
-				task_file[TF_DATA] =  SWAP_SHORT(temp);
-				if ((count & 0xf) == 0) dummy = task_file[TF_STATUS/2];
+				cf_outw_16(TF_DATA, SWAP_SHORT(temp));
+				if ((count & 0xf) == 0)
+					(void)cf_inb_16(TF_STATUS);
 			}
+			break;
 		} 
 
-		lba ++;
+		lba++;
 	}
 #ifdef OCTEON_VISUAL_CF_1
         octeon_led_write_char(1, ' ');
@@ -361,59 +449,32 @@ static int cf_cmd_write (uint32_t nr_sec
 static int cf_cmd_identify (void)
 {
 	int count;
-	uint8_t status;
 	int error;
 
-	if (bus_width == 8) {
-        	volatile uint8_t *task_file;
-
-        	task_file = (volatile uint8_t *) base_addr;
-
-		while ((status = task_file[TF_STATUS]) & STATUS_BSY) {
-			DELAY(WAIT_DELAY);
-        	}
-
-        	task_file[TF_SECTOR_COUNT]  = 0;
-        	task_file[TF_SECTOR_NUMBER] = 0;
-        	task_file[TF_CYL_LSB]  = 0;
-        	task_file[TF_CYL_MSB]  = 0;
-        	task_file[TF_DRV_HEAD] = 0;
-        	task_file[TF_COMMAND]  = CMD_IDENTIFY;
-
-		error = cf_wait_busy();
-		if (error == 0) {
-			for (count = 0; count < SECTOR_SIZE; count++) 
-				drive_param.u.buf[count] = task_file[TF_DATA];
-		}
-	} else {
-		volatile uint16_t *task_file;
-
-		task_file = (volatile uint16_t *) base_addr;
-
-		while ((status = (task_file[TF_STATUS/2]>>8)) & STATUS_BSY) {
-			DELAY(WAIT_DELAY);
-		}
-
-		task_file[TF_SECTOR_COUNT/2]  = 0; /* this includes TF_SECTOR_NUMBER */
-		task_file[TF_CYL_LSB/2]  = 0; /* this includes TF_CYL_MSB */
-		task_file[TF_DRV_HEAD/2] = 0 | (CMD_IDENTIFY<<8); /* this includes TF_COMMAND */
-
-		error = cf_wait_busy();
-		if (error == 0) {
-			for (count = 0; count < SECTOR_SIZE; count+=2) {
-				uint16_t temp;
-				temp = task_file[TF_DATA];
-				
-				/* endianess will be swapped below */
-				drive_param.u.buf[count]   = (temp & 0xff);
-				drive_param.u.buf[count+1] = (temp & 0xff00)>>8;
-			}
-		}
-	}
+	error = cf_send_cmd(0, CMD_IDENTIFY);
 	if (error != 0) {
 		printf("%s: identify failed: %d\n", __func__, error);
 		return (error);
 	}
+	switch (bus_type)
+	{
+	case CF_8:
+		for (count = 0; count < SECTOR_SIZE; count++) 
+			drive_param.u.buf[count] = cf_inb_8(TF_DATA);
+		break;
+	case CF_TRUE_IDE_8:
+	case CF_16:
+	default:
+		for (count = 0; count < SECTOR_SIZE; count += 2) {
+			uint16_t temp;
+			temp = cf_inw_16(TF_DATA);
+				
+			/* endianess will be swapped below */
+			drive_param.u.buf[count]   = (temp & 0xff);
+			drive_param.u.buf[count + 1] = (temp & 0xff00) >> 8;
+		}
+		break;
+	}
 
 	cf_swap_ascii(drive_param.u.driveid.model, drive_param.model);
 
@@ -423,6 +484,7 @@ static int cf_cmd_identify (void)
 	drive_param.sec_track   =  SWAP_SHORT (drive_param.u.driveid.current_sectors);
 	drive_param.nr_sectors  = (uint32_t)SWAP_SHORT (drive_param.u.driveid.lba_size_1) |
 	    ((uint32_t)SWAP_SHORT (drive_param.u.driveid.lba_size_2));
+	printf("cf0: <%s> %lld sectors\n", drive_param.model, (long long)drive_param.nr_sectors);
 
 	return (0);
 }
@@ -437,37 +499,27 @@ static int cf_cmd_identify (void)
  */
 static int cf_send_cmd (uint32_t lba, uint8_t cmd)
 {
-	uint8_t status;
-
-	if (bus_width == 8) {
-		volatile uint8_t *task_file;
-
-		task_file = (volatile uint8_t *) base_addr;
-
-		while ( (status = task_file[TF_STATUS]) & STATUS_BSY) {
+	switch (bus_type)
+	{
+	case CF_8:
+	case CF_TRUE_IDE_8:
+		while (cf_inb_8(TF_STATUS) & STATUS_BSY)
 			DELAY(WAIT_DELAY);
-		}
-
-		task_file[TF_SECTOR_COUNT]  = 1;
-		task_file[TF_SECTOR_NUMBER] = (lba & 0xff);
-		task_file[TF_CYL_LSB]  =  ((lba >> 8) & 0xff);
-		task_file[TF_CYL_MSB]  =  ((lba >> 16) & 0xff);
-		task_file[TF_DRV_HEAD] =  ((lba >> 24) & 0xff) | 0xe0; 
-		task_file[TF_COMMAND]  =  cmd;
-
-	} else {
-		volatile uint16_t *task_file;
-
-		task_file = (volatile uint16_t *) base_addr;
-
-		while ( (status = (task_file[TF_STATUS/2]>>8)) & STATUS_BSY) {
+		cf_outb_8(TF_SECTOR_COUNT, 1);
+		cf_outb_8(TF_SECTOR_NUMBER, lba & 0xff);
+		cf_outb_8(TF_CYL_LSB, (lba >> 8) & 0xff);
+		cf_outb_8(TF_CYL_MSB, (lba >> 16) & 0xff);
+		cf_outb_8(TF_DRV_HEAD, ((lba >> 24) & 0xff) | 0xe0);
+		cf_outb_8(TF_COMMAND, cmd);
+		break;
+	case CF_16:
+	default:
+		while (cf_inb_16(TF_STATUS) & STATUS_BSY)
 			DELAY(WAIT_DELAY);
-		}
-
-		task_file[TF_SECTOR_COUNT/2]  = 1 | ((lba & 0xff) << 8);
-		task_file[TF_CYL_LSB/2]  =  ((lba >> 8) & 0xff) | (((lba >> 16) & 0xff) << 8);
-		task_file[TF_DRV_HEAD/2] =  (((lba >> 24) & 0xff) | 0xe0) | (cmd << 8); 
-
+		cf_outw_16(TF_SECTOR_COUNT, 1 | ((lba & 0xff) << 8));
+		cf_outw_16(TF_CYL_LSB, ((lba >> 8) & 0xff) | (((lba >> 16) & 0xff) << 8));
+		cf_outw_16(TF_DRV_HEAD, (((lba >> 24) & 0xff) | 0xe0) | (cmd << 8));
+		break;
 	}
 
 	return (cf_wait_busy());
@@ -499,32 +551,32 @@ static int cf_wait_busy (void)
         octeon_led_run_wheel(&where0, 2);
 #endif
 
-	if (bus_width == 8) {
-		volatile uint8_t *task_file;
-		task_file = (volatile uint8_t *)base_addr;
-
-		status = task_file[TF_STATUS];	
+	switch (bus_type)
+	{
+	case CF_8:
+	case CF_TRUE_IDE_8:
+		status = cf_inb_8(TF_STATUS);
 		while ((status & STATUS_BSY) == STATUS_BSY) {
 			if ((status & STATUS_DF) != 0) {
 				printf("%s: device fault (status=%x)\n", __func__, status);
 				return (EIO);
 			}
 			DELAY(WAIT_DELAY);
-			status = task_file[TF_STATUS];
+			status = cf_inb_8(TF_STATUS);
 		}
-	} else {
-		volatile uint16_t *task_file;
-		task_file = (volatile uint16_t *)base_addr;
-
-		status = task_file[TF_STATUS/2]>>8;	
+		break;
+	case CF_16:
+	default:
+		status = cf_inb_16(TF_STATUS);
 		while ((status & STATUS_BSY) == STATUS_BSY) {
 			if ((status & STATUS_DF) != 0) {
 				printf("%s: device fault (status=%x)\n", __func__, status);
 				return (EIO);
 			}
 			DELAY(WAIT_DELAY);
-			status = (uint8_t)(task_file[TF_STATUS/2]>>8);
+			status = cf_inb_16(TF_STATUS);
 		}
+		break;
 	}
 	if ((status & STATUS_DRQ) == 0) {
 		printf("%s: device not ready (status=%x)\n", __func__, status);
@@ -550,9 +602,8 @@ static void cf_swap_ascii (unsigned char
 {
 	int i;
 
-	for(i = 0; i < MODEL_STR_SIZE; i++) {
-            str2[i] = str1[i^1];
-        }
+	for(i = 0; i < MODEL_STR_SIZE; i++)
+		str2[i] = str1[i ^ 1];
 }
 
 
@@ -562,7 +613,8 @@ static void cf_swap_ascii (unsigned char
 
 static int cf_probe (device_t dev)
 {
-    	if (octeon_is_simulation()) return 1;
+    	if (octeon_is_simulation())
+		return (ENXIO);
 
 	if (device_get_unit(dev) != 0) {
                 panic("can't attach more devices\n");
@@ -582,9 +634,9 @@ static int cf_probe (device_t dev)
  * inserted.
  *
  */
+typedef unsigned long long llu;
 static void cf_identify (driver_t *drv, device_t parent)
 {
-	uint8_t status;
         int bus_region;
 	int count = 0;
         cvmx_mio_boot_reg_cfgx_t cfg;
@@ -599,34 +651,39 @@ static void cf_identify (driver_t *drv, 
                 cfg.u64 = cvmx_read_csr(CVMX_MIO_BOOT_REG_CFGX(bus_region));
                 if (cfg.s.base == octeon_bootinfo->compact_flash_common_base_addr >> 16)
                 {
-                        bus_width = (cfg.s.width) ? 16: 8;
-                        printf("Compact flash found in bootbus region %d (%d bit).\n", bus_region, bus_width);
+			if (octeon_bootinfo->compact_flash_attribute_base_addr == 0)
+				bus_type = CF_TRUE_IDE_8;
+			else
+				bus_type = (cfg.s.width) ? CF_16 : CF_8;
+                        printf("Compact flash found in bootbus region %d (%s).\n", bus_region, cf_type[bus_type]);
                         break;
                 }
         }
 
-	if (bus_width == 8) {
-		volatile uint8_t *task_file;
-		task_file = (volatile uint8_t *) base_addr;
+	switch (bus_type)
+	{
+	case CF_8:
+	case CF_TRUE_IDE_8:
 		/* Check if CF is inserted */
-		while ( (status = task_file[TF_STATUS]) & STATUS_BSY){
-			if ((count++) == NR_TRIES )     {
+		while (cf_inb_8(TF_STATUS) & STATUS_BSY) {
+			if ((count++) == NR_TRIES ) {
 				printf("Compact Flash not present\n");
 				return;
                 	}
 			DELAY(WAIT_DELAY);
         	}
-	} else {
-		volatile uint16_t *task_file;
-		task_file = (volatile uint16_t *) base_addr;
+		break;
+	case CF_16:
+	default:
 		/* Check if CF is inserted */
-		while ( (status = (task_file[TF_STATUS/2]>>8)) & STATUS_BSY){
-			if ((count++) == NR_TRIES )     {
+		while (cf_inb_16(TF_STATUS) & STATUS_BSY) {
+			if ((count++) == NR_TRIES ) {
 				printf("Compact Flash not present\n");
 				return;
                 	}
 			DELAY(WAIT_DELAY);
         	}
+		break;
 	}
 
 	BUS_ADD_CHILD(parent, 0, "cf", 0);
@@ -655,7 +712,7 @@ static int cf_attach_geom (void *arg, in
  * ------------------------------------------------------------------- */
 static void cf_attach_geom_proxy (void *arg, int flag)
 {
-    cf_attach_geom(arg, flag);
+	cf_attach_geom(arg, flag);
 }
 
 
@@ -668,7 +725,8 @@ static int cf_attach (device_t dev)
 {
 	struct cf_priv *cf_priv;
 
-    	if (octeon_is_simulation()) return 1;
+    	if (octeon_is_simulation())
+		return (ENXIO);
 
 	cf_priv = device_get_softc(dev);
 	cf_priv->dev = dev;
@@ -701,4 +759,3 @@ static driver_t cf_driver = {
 static devclass_t cf_devclass;
 
 DRIVER_MODULE(cf, nexus, cf_driver, cf_devclass, 0, 0);
-


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