u-boot-imx/board/cogent/flash.h - nest-learning-thermostat/5.0.2/u-boot - Git at Google

 /**************** DEFINES for Intel 28F008S5 FLASH chip **********************/

 /* register addresses, valid only following a I8S5_CMD_RD_ID command */
 #define I8S5_ADDR_MAN	0x00000	/* manufacturer's id */
 #define I8S5_ADDR_DEV	0x00001	/* device id */
 #define I8S5_ADDR_CFGM	0x00003	/* master lock configuration */
 #define I8S5_ADDR_CFG(b) (((b)<<16)|2) /* block lock configuration */

 /* Commands */
 #define I8S5_CMD_RST	0xFF	/* reset flash */
 #define I8S5_CMD_RD_ID	0x90	/* read the id and lock bits */
 #define I8S5_CMD_RD_STAT 0x70	/* read the status register */
 #define I8S5_CMD_CLR_STAT 0x50	/* clear the staus register */
 #define I8S5_CMD_ERASE1	0x20	/* first word for block erase */
 #define I8S5_CMD_ERASE2	0xD0	/* second word for block erase */
 #define I8S5_CMD_PROG	0x40	/* program word command */
 #define I8S5_CMD_LOCK	0x60	/* first word for all lock commands */
 #define I8S5_CMD_SET_LOCK_BLK 0x01 /* 2nd word for set block lock bit */
 #define I8S5_CMD_SET_LOCK_MSTR 0xF1 /* 2nd word for set master lock bit */
 #define I8S5_CMD_CLR_LOCK_BLK 0xD0 /* 2nd word for clear block lock bit */

 /* status register bits */
 #define I8S5_STAT_DPS	0x02	/* Device Protect Status */
 #define I8S5_STAT_PSS	0x04	/* Program Suspend Status */
 #define I8S5_STAT_VPPS	0x08	/* VPP Status */
 #define I8S5_STAT_PSLBS	0x10	/* Program and Set Lock Bit Status */
 #define I8S5_STAT_ECLBS	0x20	/* Erase and Clear Lock Bit Status */
 #define I8S5_STAT_ESS	0x40	/* Erase Suspend Status */
 #define I8S5_STAT_RDY	0x80	/* Write State Machine Status, 1=rdy */

 #define I8S5_STAT_ERR	(I8S5_STAT_VPPS | I8S5_STAT_DPS | \
 			    I8S5_STAT_ECLBS | I8S5_STAT_PSLBS)

 /* ID and Lock Configuration */
 #define I8S5_RD_ID_LOCK	0x01	/* Bit 0 of each byte */
 #define I8S5_RD_ID_MAN	0x89	/* Manufacturer code = 0x89 */
 #define I8S5_RD_ID_DEV	0xA6	/* Device code = 0xA6, 28F008S5 */

 /* dimensions */
 #define I8S5_NBLOCKS	16		/* a 28F008S5 consists of 16 blocks */
 #define I8S5_BLKSZ	(64*1024)	/* of 64Kbyte each */
 #define I8S5_SIZE	(I8S5_BLKSZ * I8S5_NBLOCKS)

 /**************** DEFINES for Intel 28F800B5 FLASH chip **********************/

 /* register addresses, valid only following a I8S5_CMD_RD_ID command */
 #define I8B5_ADDR_MAN	0x00000	/* manufacturer's id */
 #define I8B5_ADDR_DEV	0x00001	/* device id */

 /* Commands */
 #define I8B5_CMD_RST	0xFF	/* reset flash */
 #define I8B5_CMD_RD_ID	0x90	/* read the id and lock bits */
 #define I8B5_CMD_RD_STAT 0x70	/* read the status register */
 #define I8B5_CMD_CLR_STAT 0x50	/* clear the staus register */
 #define I8B5_CMD_ERASE1	0x20	/* first word for block erase */
 #define I8B5_CMD_ERASE2	0xD0	/* second word for block erase */
 #define I8B5_CMD_PROG	0x40	/* program word command */

 /* status register bits */
 #define I8B5_STAT_VPPS	0x08	/* VPP Status */
 #define I8B5_STAT_DWS	0x10	/* Program and Set Lock Bit Status */
 #define I8B5_STAT_ES	0x20	/* Erase and Clear Lock Bit Status */
 #define I8B5_STAT_ESS	0x40	/* Erase Suspend Status */
 #define I8B5_STAT_RDY	0x80	/* Write State Machine Status, 1=rdy */

 #define I8B5_STAT_ERR	(I8B5_STAT_VPPS | I8B5_STAT_DWS | I8B5_STAT_ES)

 /* ID Configuration */
 #define I8B5_RD_ID_MAN	0x89	/* Manufacturer code = 0x89 */
 #define I8B5_RD_ID_DEV1	0x889D	/* Device code = 0x889D, 28F800B5 */

 /* dimensions */
 #define I8B5_NBLOCKS	8		/* a 28F008S5 consists of 16 blocks */
 #define I8B5_BLKSZ	(128*1024)	/* of 64Kbyte each */
 #define I8B5_SIZE	(I8B5_BLKSZ * I8B5_NBLOCKS)

 /****************** DEFINES for Cogent CMA302 Flash **************************/

 /*
  * Quoted from the CMA302 manual:
  *
  * Although the CMA302 supports 64-bit reads, all writes must be done with
  * word size only. When programming the CMA302, the FLASH devices appear as 2
  * banks of interleaved, 32-bit wide FLASH. Each 32-bit word consists of four
  * 28F008S5 devices. The first bank is accessed when the word address is even,
  * while the second bank is accessed when the word address is odd. This must
  * be taken into account when programming the desired word. Also, when locking
  * blocks, software must lock both banks. The CMA302 does not directly support
  * byte writing.  Programming and/or erasing individual bytes is done with
  * selective use of the Write Command.  By not placing the Write Command value
  * on a particular byte lane, that byte will not be written with the following
  * Write Data. Also, remember that within a byte lane (i.e. D0-7), there are
  * two 28F008S5 devices, one for each bank or every other word.
  *
  * End quote.
  *
  * Each 28F008S5 is 8Mbit, with 8 bit wide data. i.e. each is 1Mbyte. The
  * chips are arranged on the CMA302 in multiples of two banks, each bank having
  * 4 chips. Each bank must be accessed as a single 32 bit wide device (i.e.
  * aligned on a 32 bit boundary), with each byte lane within the 32 bits (0-3)
  * going to each of the 4 chips and the word address selecting the bank, even
  * being the low bank and odd the high bank. For 64bit reads, both banks are
  * read simultaneously with the second bank on byte lanes 4-7. Each 28F008S5
  * consists of 16 64Kbyte "block"s. Before programming a byte, the block that
  * the byte resides within must be erased. So if you want to program contiguous
  * memory locations, you must erase all 8 chips at the same time. i.e. the
  * flash on the CMA302 can be viewed as a number of 512Kbyte blocks.
  *
  * Note: I am going to treat banks as 8 Mbytes (1Meg of 64bit words), whereas
  * the example code treats them as a pair of interleaved 1 Mbyte x 32bit banks.
  */

 typedef unsigned long c302f_word_t;	/* 32 or 64 bit unsigned integer */
 typedef volatile c302f_word_t *c302f_addr_t;
 typedef unsigned long c302f_size_t;	/* want this big - at least 32 bit */

 /* layout of banks on cma302 board */
 #define C302F_BNK_WIDTH		8	/* each bank is 8 chips wide */
 #define C302F_BNK_WSHIFT	3	/* log base 2 of C302F_BNK_WIDTH */
 #define C302F_BNK_NBLOCKS	I8S5_NBLOCKS
 #define C302F_BNK_BLKSZ		(I8S5_BLKSZ * C302F_BNK_WIDTH)
 #define C302F_BNK_SIZE		(I8S5_SIZE * C302F_BNK_WIDTH)

 #define C302F_MAX_BANKS		2	/* up to 2 banks (8M each) on CMA302 */

 /* align addresses and sizes to bank boundaries */
 #define C302F_BNK_ADDR_ALIGN(a)	((c302f_addr_t)((c302f_size_t)(a) \
 				    & ~(C302F_BNK_WIDTH - 1)))
 #define C302F_BNK_SIZE_ALIGN(s)	((c302f_size_t)C302F_BNK_ADDR_ALIGN( \
 				    (c302f_size_t)(s) + (C302F_BNK_WIDTH - 1)))

 /* align addresses and sizes to block boundaries */
 #define C302F_BLK_ADDR_ALIGN(a)	((c302f_addr_t)((c302f_size_t)(a) \
 				    & ~(C302F_BNK_BLKSZ - 1)))
 #define C302F_BLK_SIZE_ALIGN(s)	((c302f_size_t)C302F_BLK_ADDR_ALIGN( \
 				    (c302f_size_t)(s) + (C302F_BNK_BLKSZ - 1)))

 /* add a byte offset to a flash address */
 #define C302F_ADDR_ADD_BYTEOFF(a,o) \
 				(c302f_addr_t)((c302f_size_t)(a) + (o))

 /* get base address of bank b, given flash base address a */
 #define C302F_BNK_ADDR_BASE(a,b) \
 				C302F_ADDR_ADD_BYTEOFF((a), \
 				    (c302f_size_t)(b) * C302F_BNK_SIZE)

 /* adjust an address a (within a bank) to next word, block or bank */
 #define C302F_BNK_ADDR_NEXT_WORD(a) \
 				C302F_ADDR_ADD_BYTEOFF((a), C302F_BNK_WIDTH)
 #define C302F_BNK_ADDR_NEXT_BLK(a) \
 				C302F_ADDR_ADD_BYTEOFF((a), C302F_BNK_BLKSZ)
 #define C302F_BNK_ADDR_NEXT_BNK(a) \
 				C302F_ADDR_ADD_BYTEOFF((a), C302F_BNK_SIZE)

 /* get bank address of chip register r given a bank base address a */
 #define C302F_BNK_ADDR_I8S5REG(a,r) \
 				C302F_ADDR_ADD_BYTEOFF((a), \
 				    (r) << C302F_BNK_WSHIFT)

 /* make a bank representation for each chip address */

 #define C302F_BNK_ADDR_MAN(a)	C302F_BNK_ADDR_I8S5REG((a), I8S5_ADDR_MAN)
 #define C302F_BNK_ADDR_DEV(a)	C302F_BNK_ADDR_I8S5REG((a), I8S5_ADDR_DEV)
 #define C302F_BNK_ADDR_CFGM(a)	C302F_BNK_ADDR_I8S5REG((a), I8S5_ADDR_CFGM)
 #define C302F_BNK_ADDR_CFG(b,a)	C302F_BNK_ADDR_I8S5REG((a), I8S5_ADDR_CFG(b))

 /*
  * replicate a chip cmd/stat/rd value into each byte position within a word
  * so that multiple chips are accessed in a single word i/o operation
  *
  * this must be as wide as the c302f_word_t type
  */
 #define C302F_FILL_WORD(o)	(((unsigned long)(o) << 24) | \
 				    ((unsigned long)(o) << 16) | \
 				    ((unsigned long)(o) << 8) | \
 				    (unsigned long)(o))

 /* make a bank representation for each chip cmd/stat/rd value */

 /* Commands */
 #define C302F_BNK_CMD_RST	C302F_FILL_WORD(I8S5_CMD_RST)
 #define C302F_BNK_CMD_RD_ID	C302F_FILL_WORD(I8S5_CMD_RD_ID)
 #define C302F_BNK_CMD_RD_STAT	C302F_FILL_WORD(I8S5_CMD_RD_STAT)
 #define C302F_BNK_CMD_CLR_STAT	C302F_FILL_WORD(I8S5_CMD_CLR_STAT)
 #define C302F_BNK_CMD_ERASE1	C302F_FILL_WORD(I8S5_CMD_ERASE1)
 #define C302F_BNK_CMD_ERASE2	C302F_FILL_WORD(I8S5_CMD_ERASE2)
 #define C302F_BNK_CMD_PROG	C302F_FILL_WORD(I8S5_CMD_PROG)
 #define C302F_BNK_CMD_LOCK	C302F_FILL_WORD(I8S5_CMD_LOCK)
 #define C302F_BNK_CMD_SET_LOCK_BLK C302F_FILL_WORD(I8S5_CMD_SET_LOCK_BLK)
 #define C302F_BNK_CMD_SET_LOCK_MSTR C302F_FILL_WORD(I8S5_CMD_SET_LOCK_MSTR)
 #define C302F_BNK_CMD_CLR_LOCK_BLK C302F_FILL_WORD(I8S5_CMD_CLR_LOCK_BLK)

 /* status register bits */
 #define C302F_BNK_STAT_DPS	C302F_FILL_WORD(I8S5_STAT_DPS)
 #define C302F_BNK_STAT_PSS	C302F_FILL_WORD(I8S5_STAT_PSS)
 #define C302F_BNK_STAT_VPPS	C302F_FILL_WORD(I8S5_STAT_VPPS)
 #define C302F_BNK_STAT_PSLBS	C302F_FILL_WORD(I8S5_STAT_PSLBS)
 #define C302F_BNK_STAT_ECLBS	C302F_FILL_WORD(I8S5_STAT_ECLBS)
 #define C302F_BNK_STAT_ESS	C302F_FILL_WORD(I8S5_STAT_ESS)
 #define C302F_BNK_STAT_RDY	C302F_FILL_WORD(I8S5_STAT_RDY)

 #define C302F_BNK_STAT_ERR	C302F_FILL_WORD(I8S5_STAT_ERR)

 /* ID and Lock Configuration */
 #define C302F_BNK_RD_ID_LOCK	C302F_FILL_WORD(I8S5_RD_ID_LOCK)
 #define C302F_BNK_RD_ID_MAN	C302F_FILL_WORD(I8S5_RD_ID_MAN)
 #define C302F_BNK_RD_ID_DEV	C302F_FILL_WORD(I8S5_RD_ID_DEV)

 /*************** DEFINES for Cogent Motherboard Flash ************************/

 typedef unsigned short cmbf_word_t;	/* 16 bit unsigned integer */
 typedef volatile cmbf_word_t *cmbf_addr_t;
 typedef unsigned long cmbf_size_t;	/* want this big - at least 32 bit */

 /* layout of banks on cogent motherboard - only 1 bank, 16 bit wide */
 #define CMBF_BNK_WIDTH		1	/* each bank is one chip wide */
 #define CMBF_BNK_WSHIFT	0	/* log base 2 of CMBF_BNK_WIDTH */
 #define CMBF_BNK_NBLOCKS	I8B5_NBLOCKS
 #define CMBF_BNK_BLKSZ		(I8B5_BLKSZ * CMBF_BNK_WIDTH)
 #define CMBF_BNK_SIZE		(I8B5_SIZE * CMBF_BNK_WIDTH)

 #define CMBF_MAX_BANKS		1	/* only 1 x 1Mbyte bank on cogent m/b */

 /* align addresses and sizes to bank boundaries */
 #define CMBF_BNK_ADDR_ALIGN(a)	((c302f_addr_t)((c302f_size_t)(a) \
 				    & ~(CMBF_BNK_WIDTH - 1)))
 #define CMBF_BNK_SIZE_ALIGN(s)	((c302f_size_t)CMBF_BNK_ADDR_ALIGN( \
 				    (c302f_size_t)(s) + (CMBF_BNK_WIDTH - 1)))

 /* align addresses and sizes to block boundaries */
 #define CMBF_BLK_ADDR_ALIGN(a)	((c302f_addr_t)((c302f_size_t)(a) \
 				    & ~(CMBF_BNK_BLKSZ - 1)))
 #define CMBF_BLK_SIZE_ALIGN(s)	((c302f_size_t)CMBF_BLK_ADDR_ALIGN( \
 				    (c302f_size_t)(s) + (CMBF_BNK_BLKSZ - 1)))

 /* add a byte offset to a flash address */
 #define CMBF_ADDR_ADD_BYTEOFF(a,o) \
 				(c302f_addr_t)((c302f_size_t)(a) + (o))

 /* get base address of bank b, given flash base address a */
 #define CMBF_BNK_ADDR_BASE(a,b) \
 				CMBF_ADDR_ADD_BYTEOFF((a), \
 				    (c302f_size_t)(b) * CMBF_BNK_SIZE)

 /* adjust an address a (within a bank) to next word, block or bank */
 #define CMBF_BNK_ADDR_NEXT_WORD(a) \
 				CMBF_ADDR_ADD_BYTEOFF((a), CMBF_BNK_WIDTH)
 #define CMBF_BNK_ADDR_NEXT_BLK(a) \
 				CMBF_ADDR_ADD_BYTEOFF((a), CMBF_BNK_BLKSZ)
 #define CMBF_BNK_ADDR_NEXT_BNK(a) \
 				CMBF_ADDR_ADD_BYTEOFF((a), CMBF_BNK_SIZE)

 /* get bank address of chip register r given a bank base address a */
 #define CMBF_BNK_ADDR_I8B5REG(a,r) \
 				CMBF_ADDR_ADD_BYTEOFF((a), \
 				    (r) << CMBF_BNK_WSHIFT)

 /* make a bank representation for each chip address */

 #define CMBF_BNK_ADDR_MAN(a)	CMBF_BNK_ADDR_I8B5REG((a), I8B5_ADDR_MAN)
 #define CMBF_BNK_ADDR_DEV(a)	CMBF_BNK_ADDR_I8B5REG((a), I8B5_ADDR_DEV)
 #define CMBF_BNK_ADDR_CFGM(a)	CMBF_BNK_ADDR_I8B5REG((a), I8B5_ADDR_CFGM)
 #define CMBF_BNK_ADDR_CFG(b,a)	CMBF_BNK_ADDR_I8B5REG((a), I8B5_ADDR_CFG(b))

 /*
  * replicate a chip cmd/stat/rd value into each byte position within a word
  * so that multiple chips are accessed in a single word i/o operation
  *
  * this must be as wide as the c302f_word_t type
  */
 #define CMBF_FILL_WORD(o)	(((unsigned long)(o) << 24) | \
 				    ((unsigned long)(o) << 16) | \
 				    ((unsigned long)(o) << 8) | \
 				    (unsigned long)(o))

 /* make a bank representation for each chip cmd/stat/rd value */

 /* Commands */
 #define CMBF_BNK_CMD_RST	CMBF_FILL_WORD(I8B5_CMD_RST)
 #define CMBF_BNK_CMD_RD_ID	CMBF_FILL_WORD(I8B5_CMD_RD_ID)
 #define CMBF_BNK_CMD_RD_STAT	CMBF_FILL_WORD(I8B5_CMD_RD_STAT)
 #define CMBF_BNK_CMD_CLR_STAT	CMBF_FILL_WORD(I8B5_CMD_CLR_STAT)
 #define CMBF_BNK_CMD_ERASE1	CMBF_FILL_WORD(I8B5_CMD_ERASE1)
 #define CMBF_BNK_CMD_ERASE2	CMBF_FILL_WORD(I8B5_CMD_ERASE2)
 #define CMBF_BNK_CMD_PROG	CMBF_FILL_WORD(I8B5_CMD_PROG)
 #define CMBF_BNK_CMD_LOCK	CMBF_FILL_WORD(I8B5_CMD_LOCK)
 #define CMBF_BNK_CMD_SET_LOCK_BLK CMBF_FILL_WORD(I8B5_CMD_SET_LOCK_BLK)
 #define CMBF_BNK_CMD_SET_LOCK_MSTR CMBF_FILL_WORD(I8B5_CMD_SET_LOCK_MSTR)
 #define CMBF_BNK_CMD_CLR_LOCK_BLK CMBF_FILL_WORD(I8B5_CMD_CLR_LOCK_BLK)

 /* status register bits */
 #define CMBF_BNK_STAT_DPS	CMBF_FILL_WORD(I8B5_STAT_DPS)
 #define CMBF_BNK_STAT_PSS	CMBF_FILL_WORD(I8B5_STAT_PSS)
 #define CMBF_BNK_STAT_VPPS	CMBF_FILL_WORD(I8B5_STAT_VPPS)
 #define CMBF_BNK_STAT_PSLBS	CMBF_FILL_WORD(I8B5_STAT_PSLBS)
 #define CMBF_BNK_STAT_ECLBS	CMBF_FILL_WORD(I8B5_STAT_ECLBS)
 #define CMBF_BNK_STAT_ESS	CMBF_FILL_WORD(I8B5_STAT_ESS)
 #define CMBF_BNK_STAT_RDY	CMBF_FILL_WORD(I8B5_STAT_RDY)

 #define CMBF_BNK_STAT_ERR	CMBF_FILL_WORD(I8B5_STAT_ERR)

 /* ID and Lock Configuration */
 #define CMBF_BNK_RD_ID_LOCK	CMBF_FILL_WORD(I8B5_RD_ID_LOCK)
 #define CMBF_BNK_RD_ID_MAN	CMBF_FILL_WORD(I8B5_RD_ID_MAN)
 #define CMBF_BNK_RD_ID_DEV	CMBF_FILL_WORD(I8B5_RD_ID_DEV)
	/************** DEFINES for Intel 28F008S5 FLASH chip ********************/

	/* register addresses, valid only following a I8S5_CMD_RD_ID command */
	#define I8S5_ADDR_MAN 0x00000 /* manufacturer's id */
	#define I8S5_ADDR_DEV 0x00001 /* device id */
	#define I8S5_ADDR_CFGM 0x00003 /* master lock configuration */
	#define I8S5_ADDR_CFG(b) (((b)<<16)\|2) /* block lock configuration */

	/* Commands */
	#define I8S5_CMD_RST 0xFF /* reset flash */
	#define I8S5_CMD_RD_ID 0x90 /* read the id and lock bits */
	#define I8S5_CMD_RD_STAT 0x70 /* read the status register */
	#define I8S5_CMD_CLR_STAT 0x50 /* clear the staus register */
	#define I8S5_CMD_ERASE1 0x20 /* first word for block erase */
	#define I8S5_CMD_ERASE2 0xD0 /* second word for block erase */
	#define I8S5_CMD_PROG 0x40 /* program word command */
	#define I8S5_CMD_LOCK 0x60 /* first word for all lock commands */
	#define I8S5_CMD_SET_LOCK_BLK 0x01 /* 2nd word for set block lock bit */
	#define I8S5_CMD_SET_LOCK_MSTR 0xF1 /* 2nd word for set master lock bit */
	#define I8S5_CMD_CLR_LOCK_BLK 0xD0 /* 2nd word for clear block lock bit */

	/* status register bits */
	#define I8S5_STAT_DPS 0x02 /* Device Protect Status */
	#define I8S5_STAT_PSS 0x04 /* Program Suspend Status */
	#define I8S5_STAT_VPPS 0x08 /* VPP Status */
	#define I8S5_STAT_PSLBS 0x10 /* Program and Set Lock Bit Status */
	#define I8S5_STAT_ECLBS 0x20 /* Erase and Clear Lock Bit Status */
	#define I8S5_STAT_ESS 0x40 /* Erase Suspend Status */
	#define I8S5_STAT_RDY 0x80 /* Write State Machine Status, 1=rdy */

	#define I8S5_STAT_ERR (I8S5_STAT_VPPS \| I8S5_STAT_DPS \| \
	I8S5_STAT_ECLBS \| I8S5_STAT_PSLBS)

	/* ID and Lock Configuration */
	#define I8S5_RD_ID_LOCK 0x01 /* Bit 0 of each byte */
	#define I8S5_RD_ID_MAN 0x89 /* Manufacturer code = 0x89 */
	#define I8S5_RD_ID_DEV 0xA6 /* Device code = 0xA6, 28F008S5 */

	/* dimensions */
	#define I8S5_NBLOCKS 16 /* a 28F008S5 consists of 16 blocks */
	#define I8S5_BLKSZ (641024) / of 64Kbyte each */
	#define I8S5_SIZE (I8S5_BLKSZ * I8S5_NBLOCKS)

	/************** DEFINES for Intel 28F800B5 FLASH chip ********************/

	/* register addresses, valid only following a I8S5_CMD_RD_ID command */
	#define I8B5_ADDR_MAN 0x00000 /* manufacturer's id */
	#define I8B5_ADDR_DEV 0x00001 /* device id */

	/* Commands */
	#define I8B5_CMD_RST 0xFF /* reset flash */
	#define I8B5_CMD_RD_ID 0x90 /* read the id and lock bits */
	#define I8B5_CMD_RD_STAT 0x70 /* read the status register */
	#define I8B5_CMD_CLR_STAT 0x50 /* clear the staus register */
	#define I8B5_CMD_ERASE1 0x20 /* first word for block erase */
	#define I8B5_CMD_ERASE2 0xD0 /* second word for block erase */
	#define I8B5_CMD_PROG 0x40 /* program word command */

	/* status register bits */
	#define I8B5_STAT_VPPS 0x08 /* VPP Status */
	#define I8B5_STAT_DWS 0x10 /* Program and Set Lock Bit Status */
	#define I8B5_STAT_ES 0x20 /* Erase and Clear Lock Bit Status */
	#define I8B5_STAT_ESS 0x40 /* Erase Suspend Status */
	#define I8B5_STAT_RDY 0x80 /* Write State Machine Status, 1=rdy */

	#define I8B5_STAT_ERR (I8B5_STAT_VPPS \| I8B5_STAT_DWS \| I8B5_STAT_ES)

	/* ID Configuration */
	#define I8B5_RD_ID_MAN 0x89 /* Manufacturer code = 0x89 */
	#define I8B5_RD_ID_DEV1 0x889D /* Device code = 0x889D, 28F800B5 */

	/* dimensions */
	#define I8B5_NBLOCKS 8 /* a 28F008S5 consists of 16 blocks */
	#define I8B5_BLKSZ (1281024) / of 64Kbyte each */
	#define I8B5_SIZE (I8B5_BLKSZ * I8B5_NBLOCKS)

	/**************** DEFINES for Cogent CMA302 Flash ************************/

	/*
	* Quoted from the CMA302 manual:
	*
	* Although the CMA302 supports 64-bit reads, all writes must be done with
	* word size only. When programming the CMA302, the FLASH devices appear as 2
	* banks of interleaved, 32-bit wide FLASH. Each 32-bit word consists of four
	* 28F008S5 devices. The first bank is accessed when the word address is even,
	* while the second bank is accessed when the word address is odd. This must
	* be taken into account when programming the desired word. Also, when locking
	* blocks, software must lock both banks. The CMA302 does not directly support
	* byte writing. Programming and/or erasing individual bytes is done with
	* selective use of the Write Command. By not placing the Write Command value
	* on a particular byte lane, that byte will not be written with the following
	* Write Data. Also, remember that within a byte lane (i.e. D0-7), there are
	* two 28F008S5 devices, one for each bank or every other word.
	*
	* End quote.
	*
	* Each 28F008S5 is 8Mbit, with 8 bit wide data. i.e. each is 1Mbyte. The
	* chips are arranged on the CMA302 in multiples of two banks, each bank having
	* 4 chips. Each bank must be accessed as a single 32 bit wide device (i.e.
	* aligned on a 32 bit boundary), with each byte lane within the 32 bits (0-3)
	* going to each of the 4 chips and the word address selecting the bank, even
	* being the low bank and odd the high bank. For 64bit reads, both banks are
	* read simultaneously with the second bank on byte lanes 4-7. Each 28F008S5
	* consists of 16 64Kbyte "block"s. Before programming a byte, the block that
	* the byte resides within must be erased. So if you want to program contiguous
	* memory locations, you must erase all 8 chips at the same time. i.e. the
	* flash on the CMA302 can be viewed as a number of 512Kbyte blocks.
	*
	* Note: I am going to treat banks as 8 Mbytes (1Meg of 64bit words), whereas
	* the example code treats them as a pair of interleaved 1 Mbyte x 32bit banks.
	*/

	typedef unsigned long c302f_word_t; /* 32 or 64 bit unsigned integer */
	typedef volatile c302f_word_t *c302f_addr_t;
	typedef unsigned long c302f_size_t; /* want this big - at least 32 bit */

	/* layout of banks on cma302 board */
	#define C302F_BNK_WIDTH 8 /* each bank is 8 chips wide */
	#define C302F_BNK_WSHIFT 3 /* log base 2 of C302F_BNK_WIDTH */
	#define C302F_BNK_NBLOCKS I8S5_NBLOCKS
	#define C302F_BNK_BLKSZ (I8S5_BLKSZ * C302F_BNK_WIDTH)
	#define C302F_BNK_SIZE (I8S5_SIZE * C302F_BNK_WIDTH)

	#define C302F_MAX_BANKS 2 /* up to 2 banks (8M each) on CMA302 */

	/* align addresses and sizes to bank boundaries */
	#define C302F_BNK_ADDR_ALIGN(a) ((c302f_addr_t)((c302f_size_t)(a) \
	& ~(C302F_BNK_WIDTH - 1)))
	#define C302F_BNK_SIZE_ALIGN(s) ((c302f_size_t)C302F_BNK_ADDR_ALIGN( \
	(c302f_size_t)(s) + (C302F_BNK_WIDTH - 1)))

	/* align addresses and sizes to block boundaries */
	#define C302F_BLK_ADDR_ALIGN(a) ((c302f_addr_t)((c302f_size_t)(a) \
	& ~(C302F_BNK_BLKSZ - 1)))
	#define C302F_BLK_SIZE_ALIGN(s) ((c302f_size_t)C302F_BLK_ADDR_ALIGN( \
	(c302f_size_t)(s) + (C302F_BNK_BLKSZ - 1)))

	/* add a byte offset to a flash address */
	#define C302F_ADDR_ADD_BYTEOFF(a,o) \
	(c302f_addr_t)((c302f_size_t)(a) + (o))

	/* get base address of bank b, given flash base address a */
	#define C302F_BNK_ADDR_BASE(a,b) \
	C302F_ADDR_ADD_BYTEOFF((a), \
	(c302f_size_t)(b) * C302F_BNK_SIZE)

	/* adjust an address a (within a bank) to next word, block or bank */
	#define C302F_BNK_ADDR_NEXT_WORD(a) \
	C302F_ADDR_ADD_BYTEOFF((a), C302F_BNK_WIDTH)
	#define C302F_BNK_ADDR_NEXT_BLK(a) \
	C302F_ADDR_ADD_BYTEOFF((a), C302F_BNK_BLKSZ)
	#define C302F_BNK_ADDR_NEXT_BNK(a) \
	C302F_ADDR_ADD_BYTEOFF((a), C302F_BNK_SIZE)

	/* get bank address of chip register r given a bank base address a */
	#define C302F_BNK_ADDR_I8S5REG(a,r) \
	C302F_ADDR_ADD_BYTEOFF((a), \
	(r) << C302F_BNK_WSHIFT)

	/* make a bank representation for each chip address */

	#define C302F_BNK_ADDR_MAN(a) C302F_BNK_ADDR_I8S5REG((a), I8S5_ADDR_MAN)
	#define C302F_BNK_ADDR_DEV(a) C302F_BNK_ADDR_I8S5REG((a), I8S5_ADDR_DEV)
	#define C302F_BNK_ADDR_CFGM(a) C302F_BNK_ADDR_I8S5REG((a), I8S5_ADDR_CFGM)
	#define C302F_BNK_ADDR_CFG(b,a) C302F_BNK_ADDR_I8S5REG((a), I8S5_ADDR_CFG(b))

	/*
	* replicate a chip cmd/stat/rd value into each byte position within a word
	* so that multiple chips are accessed in a single word i/o operation
	*
	* this must be as wide as the c302f_word_t type
	*/
	#define C302F_FILL_WORD(o) (((unsigned long)(o) << 24) \| \
	((unsigned long)(o) << 16) \| \
	((unsigned long)(o) << 8) \| \
	(unsigned long)(o))

	/* make a bank representation for each chip cmd/stat/rd value */

	/* Commands */
	#define C302F_BNK_CMD_RST C302F_FILL_WORD(I8S5_CMD_RST)
	#define C302F_BNK_CMD_RD_ID C302F_FILL_WORD(I8S5_CMD_RD_ID)
	#define C302F_BNK_CMD_RD_STAT C302F_FILL_WORD(I8S5_CMD_RD_STAT)
	#define C302F_BNK_CMD_CLR_STAT C302F_FILL_WORD(I8S5_CMD_CLR_STAT)
	#define C302F_BNK_CMD_ERASE1 C302F_FILL_WORD(I8S5_CMD_ERASE1)
	#define C302F_BNK_CMD_ERASE2 C302F_FILL_WORD(I8S5_CMD_ERASE2)
	#define C302F_BNK_CMD_PROG C302F_FILL_WORD(I8S5_CMD_PROG)
	#define C302F_BNK_CMD_LOCK C302F_FILL_WORD(I8S5_CMD_LOCK)
	#define C302F_BNK_CMD_SET_LOCK_BLK C302F_FILL_WORD(I8S5_CMD_SET_LOCK_BLK)
	#define C302F_BNK_CMD_SET_LOCK_MSTR C302F_FILL_WORD(I8S5_CMD_SET_LOCK_MSTR)
	#define C302F_BNK_CMD_CLR_LOCK_BLK C302F_FILL_WORD(I8S5_CMD_CLR_LOCK_BLK)

	/* status register bits */
	#define C302F_BNK_STAT_DPS C302F_FILL_WORD(I8S5_STAT_DPS)
	#define C302F_BNK_STAT_PSS C302F_FILL_WORD(I8S5_STAT_PSS)
	#define C302F_BNK_STAT_VPPS C302F_FILL_WORD(I8S5_STAT_VPPS)
	#define C302F_BNK_STAT_PSLBS C302F_FILL_WORD(I8S5_STAT_PSLBS)
	#define C302F_BNK_STAT_ECLBS C302F_FILL_WORD(I8S5_STAT_ECLBS)
	#define C302F_BNK_STAT_ESS C302F_FILL_WORD(I8S5_STAT_ESS)
	#define C302F_BNK_STAT_RDY C302F_FILL_WORD(I8S5_STAT_RDY)

	#define C302F_BNK_STAT_ERR C302F_FILL_WORD(I8S5_STAT_ERR)

	/* ID and Lock Configuration */
	#define C302F_BNK_RD_ID_LOCK C302F_FILL_WORD(I8S5_RD_ID_LOCK)
	#define C302F_BNK_RD_ID_MAN C302F_FILL_WORD(I8S5_RD_ID_MAN)
	#define C302F_BNK_RD_ID_DEV C302F_FILL_WORD(I8S5_RD_ID_DEV)

	/************* DEFINES for Cogent Motherboard Flash **********************/

	typedef unsigned short cmbf_word_t; /* 16 bit unsigned integer */
	typedef volatile cmbf_word_t *cmbf_addr_t;
	typedef unsigned long cmbf_size_t; /* want this big - at least 32 bit */

	/* layout of banks on cogent motherboard - only 1 bank, 16 bit wide */
	#define CMBF_BNK_WIDTH 1 /* each bank is one chip wide */
	#define CMBF_BNK_WSHIFT 0 /* log base 2 of CMBF_BNK_WIDTH */
	#define CMBF_BNK_NBLOCKS I8B5_NBLOCKS
	#define CMBF_BNK_BLKSZ (I8B5_BLKSZ * CMBF_BNK_WIDTH)
	#define CMBF_BNK_SIZE (I8B5_SIZE * CMBF_BNK_WIDTH)

	#define CMBF_MAX_BANKS 1 /* only 1 x 1Mbyte bank on cogent m/b */

	/* align addresses and sizes to bank boundaries */
	#define CMBF_BNK_ADDR_ALIGN(a) ((c302f_addr_t)((c302f_size_t)(a) \
	& ~(CMBF_BNK_WIDTH - 1)))
	#define CMBF_BNK_SIZE_ALIGN(s) ((c302f_size_t)CMBF_BNK_ADDR_ALIGN( \
	(c302f_size_t)(s) + (CMBF_BNK_WIDTH - 1)))

	/* align addresses and sizes to block boundaries */
	#define CMBF_BLK_ADDR_ALIGN(a) ((c302f_addr_t)((c302f_size_t)(a) \
	& ~(CMBF_BNK_BLKSZ - 1)))
	#define CMBF_BLK_SIZE_ALIGN(s) ((c302f_size_t)CMBF_BLK_ADDR_ALIGN( \
	(c302f_size_t)(s) + (CMBF_BNK_BLKSZ - 1)))

	/* add a byte offset to a flash address */
	#define CMBF_ADDR_ADD_BYTEOFF(a,o) \
	(c302f_addr_t)((c302f_size_t)(a) + (o))

	/* get base address of bank b, given flash base address a */
	#define CMBF_BNK_ADDR_BASE(a,b) \
	CMBF_ADDR_ADD_BYTEOFF((a), \
	(c302f_size_t)(b) * CMBF_BNK_SIZE)

	/* adjust an address a (within a bank) to next word, block or bank */
	#define CMBF_BNK_ADDR_NEXT_WORD(a) \
	CMBF_ADDR_ADD_BYTEOFF((a), CMBF_BNK_WIDTH)
	#define CMBF_BNK_ADDR_NEXT_BLK(a) \
	CMBF_ADDR_ADD_BYTEOFF((a), CMBF_BNK_BLKSZ)
	#define CMBF_BNK_ADDR_NEXT_BNK(a) \
	CMBF_ADDR_ADD_BYTEOFF((a), CMBF_BNK_SIZE)

	/* get bank address of chip register r given a bank base address a */
	#define CMBF_BNK_ADDR_I8B5REG(a,r) \
	CMBF_ADDR_ADD_BYTEOFF((a), \
	(r) << CMBF_BNK_WSHIFT)

	/* make a bank representation for each chip address */

	#define CMBF_BNK_ADDR_MAN(a) CMBF_BNK_ADDR_I8B5REG((a), I8B5_ADDR_MAN)
	#define CMBF_BNK_ADDR_DEV(a) CMBF_BNK_ADDR_I8B5REG((a), I8B5_ADDR_DEV)
	#define CMBF_BNK_ADDR_CFGM(a) CMBF_BNK_ADDR_I8B5REG((a), I8B5_ADDR_CFGM)
	#define CMBF_BNK_ADDR_CFG(b,a) CMBF_BNK_ADDR_I8B5REG((a), I8B5_ADDR_CFG(b))

	/*
	* replicate a chip cmd/stat/rd value into each byte position within a word
	* so that multiple chips are accessed in a single word i/o operation
	*
	* this must be as wide as the c302f_word_t type
	*/
	#define CMBF_FILL_WORD(o) (((unsigned long)(o) << 24) \| \
	((unsigned long)(o) << 16) \| \
	((unsigned long)(o) << 8) \| \
	(unsigned long)(o))

	/* make a bank representation for each chip cmd/stat/rd value */

	/* Commands */
	#define CMBF_BNK_CMD_RST CMBF_FILL_WORD(I8B5_CMD_RST)
	#define CMBF_BNK_CMD_RD_ID CMBF_FILL_WORD(I8B5_CMD_RD_ID)
	#define CMBF_BNK_CMD_RD_STAT CMBF_FILL_WORD(I8B5_CMD_RD_STAT)
	#define CMBF_BNK_CMD_CLR_STAT CMBF_FILL_WORD(I8B5_CMD_CLR_STAT)
	#define CMBF_BNK_CMD_ERASE1 CMBF_FILL_WORD(I8B5_CMD_ERASE1)
	#define CMBF_BNK_CMD_ERASE2 CMBF_FILL_WORD(I8B5_CMD_ERASE2)
	#define CMBF_BNK_CMD_PROG CMBF_FILL_WORD(I8B5_CMD_PROG)
	#define CMBF_BNK_CMD_LOCK CMBF_FILL_WORD(I8B5_CMD_LOCK)
	#define CMBF_BNK_CMD_SET_LOCK_BLK CMBF_FILL_WORD(I8B5_CMD_SET_LOCK_BLK)
	#define CMBF_BNK_CMD_SET_LOCK_MSTR CMBF_FILL_WORD(I8B5_CMD_SET_LOCK_MSTR)
	#define CMBF_BNK_CMD_CLR_LOCK_BLK CMBF_FILL_WORD(I8B5_CMD_CLR_LOCK_BLK)

	/* status register bits */
	#define CMBF_BNK_STAT_DPS CMBF_FILL_WORD(I8B5_STAT_DPS)
	#define CMBF_BNK_STAT_PSS CMBF_FILL_WORD(I8B5_STAT_PSS)
	#define CMBF_BNK_STAT_VPPS CMBF_FILL_WORD(I8B5_STAT_VPPS)
	#define CMBF_BNK_STAT_PSLBS CMBF_FILL_WORD(I8B5_STAT_PSLBS)
	#define CMBF_BNK_STAT_ECLBS CMBF_FILL_WORD(I8B5_STAT_ECLBS)
	#define CMBF_BNK_STAT_ESS CMBF_FILL_WORD(I8B5_STAT_ESS)
	#define CMBF_BNK_STAT_RDY CMBF_FILL_WORD(I8B5_STAT_RDY)

	#define CMBF_BNK_STAT_ERR CMBF_FILL_WORD(I8B5_STAT_ERR)

	/* ID and Lock Configuration */
	#define CMBF_BNK_RD_ID_LOCK CMBF_FILL_WORD(I8B5_RD_ID_LOCK)
	#define CMBF_BNK_RD_ID_MAN CMBF_FILL_WORD(I8B5_RD_ID_MAN)
	#define CMBF_BNK_RD_ID_DEV CMBF_FILL_WORD(I8B5_RD_ID_DEV)