dev/nor/cfi.h

1.2  cliff /*	$NetBSD: cfi.h,v 1.2 2011/07/15 19:19:57 cliff Exp $	*/
1.2  cliff
1.1  ahoka #ifndef _CFI_H_
1.1  ahoka #define _CFI_H_
1.1  ahoka
1.2  cliff #include <dev/nor/cfi_0002.h>
1.2  cliff #include <machine/bus.h>
1.2  cliff
1.2  cliff /*
1.2  cliff  * minimum size to bus_space_map for probe/identify QRY:
1.2  cliff  * larget offset needed is CFI_QUERY_MODE_ALT_ADDRESS
1.2  cliff  * scaled by maximum attempted port width, so
1.2  cliff  *	min >= (0x555 * sizeof(uint32_t))
1.2  cliff  */
1.2  cliff #define CFI_QRY_MIN_MAP_SIZE	0x2000
1.2  cliff
1.2  cliff
1.2  cliff typedef enum {
1.2  cliff 	CFI_STATE_DATA_ARRAY = 0,
1.2  cliff 	CFI_STATE_QUERY,
1.2  cliff 	/* TBD */
1.2  cliff } cfi_state_t;
1.2  cliff
1.2  cliff
1.2  cliff /*
1.2  cliff  * CFI Query structure
1.2  cliff  */
1.2  cliff struct cfi_query_data {
1.2  cliff     /* Query info */
1.2  cliff     uint8_t	qry[3];			/* { 'Q', 'R', 'Y' } */
1.2  cliff     uint16_t	id_pri;			/* primary comand set ID */
1.2  cliff     uint16_t	addr_pri;		/* primary table addr */
1.2  cliff     uint16_t	id_alt;			/* alternate command set ID */
1.2  cliff     uint16_t	addr_alt;		/* alternate table addr */
1.2  cliff     /* System Interface info */
1.2  cliff     uint8_t	vcc_min;		/* min Vcc */
1.2  cliff     uint8_t	vcc_max;		/* max Vcc */
1.2  cliff     uint8_t	vpp_min;		/* min Vpp */
1.2  cliff     uint8_t	vpp_max;		/* max Vpp */
1.2  cliff     uint8_t	write_word_time_typ;	/* typ 1-word timeout, 1<<N usec */
1.2  cliff     uint8_t	write_nbyte_time_typ;	/* typ multi-byte timeout, 1<<N usec */
1.2  cliff     uint8_t	erase_blk_time_typ;	/* typ 1-blk erase timeout, 1<<N msec */
1.2  cliff     uint8_t	erase_chiptime_typ;	/* typ chip erase timeout, 1<<N msec */
1.2  cliff     uint8_t	write_word_time_max;	/* max 1-word timeout, typ<<N */
1.2  cliff     uint8_t	write_nbyte_time_max;	/* max multi-byte timeout, typ<<N */
1.2  cliff     uint8_t	erase_blk_time_max;	/* max 1-blk erase timeout, typ<<N */
1.2  cliff     uint8_t	erase_chiptime_max;	/* max chip erase timeout, typ<<N */
1.2  cliff     /* Device Geometry Definition */
1.2  cliff     uint8_t	device_size;		/* 1<<N bytes */
1.2  cliff     uint16_t	interface_code_desc;	/* JEP137 interface code description */
1.2  cliff     uint16_t	write_nbyte_size_max;	/* max size of multi-byte write, 1<<N */
1.2  cliff     uint8_t	erase_blk_regions;	/* number of erase block regions */
1.2  cliff     struct {
1.2  cliff 	uint16_t z;			/* Erase Blocks are z * 256 bytes */
1.2  cliff 	uint16_t y;			/* y+1 = #Erase Blocks in region */
1.2  cliff     } erase_blk_info[4];
1.2  cliff     /* Vendor-specific Primary command set info */
1.2  cliff     union {
1.2  cliff 	struct cmdset_0002_query_data cmd_0002;
1.2  cliff     } pri;
1.2  cliff #ifdef NOTYET
1.2  cliff     /* Vendor-specific Alternate command set info */
1.2  cliff     union {
1.2  cliff 	/* some command set structure here */
1.2  cliff     } pri;
1.2  cliff #endif
1.2  cliff };
1.2  cliff
1.2  cliff /*
1.2  cliff  * decode interface_code_desc
1.2  cliff  */
1.2  cliff static inline const char *
1.2  cliff cfi_interface_desc_str(uint16_t icd)
1.2  cliff {
1.2  cliff 	switch(icd) {
1.2  cliff 	case 0:
1.2  cliff 		return "x8";
1.2  cliff 	case 1:
1.2  cliff 		return "x16";
1.2  cliff 	case 2:
1.2  cliff 		return "x8/x16";
1.2  cliff 	default:
1.2  cliff 		return "";
1.2  cliff 	}
1.2  cliff }
1.2  cliff
1.2  cliff /*
1.2  cliff  * id_pri: CFI Command set and control assignments
1.2  cliff  */
1.2  cliff #define CFI_ID_PRI_NONE		0x0000
1.2  cliff #define CFI_ID_PRI_INTEL_EXT	0x0001
1.2  cliff #define CFI_ID_PRI_AMD_STD	0x0002
1.2  cliff #define CFI_ID_PRI_INTEL_STD	0x0003
1.2  cliff #define CFI_ID_PRI_AMD_EXT	0x0004
1.2  cliff #define CFI_ID_PRI_WINBOND	0x0005
1.2  cliff #define CFI_ID_PRI_ST_ADV	0x0020
1.2  cliff #define CFI_ID_PRI_MITSU_ADV	0x0100
1.2  cliff #define CFI_ID_PRI_MITSU_EXT	0x0101
1.2  cliff #define CFI_ID_PRI_SST_PAGE	0x0102
1.2  cliff #define CFI_ID_PRI_SST_OLD	0x0701
1.2  cliff #define CFI_ID_PRI_INTEL_PERF	0x0200
1.2  cliff #define CFI_ID_PRI_INTEL_DATA	0x0210
1.2  cliff #define CFI_ID_PRI_RESV		0xffff	/* not allowed, reserved */
1.2  cliff
1.2  cliff /*
1.2  cliff  * JEDEC ID (autoselect) data
1.2  cliff  */
1.2  cliff struct cfi_jedec_id_data {
1.2  cliff 	uint16_t	id_mid;		/* manufacturer ID */
1.2  cliff 	uint16_t	id_did[3];	/* device ID */
1.2  cliff 	uint16_t	id_prot_state;
1.2  cliff 	uint16_t	id_indicators;
1.2  cliff 	uint8_t		id_swb_lo;	/* lower software bits */
1.2  cliff 	uint8_t		id_swb_hi;	/* upper software bits */
1.2  cliff };
1.2  cliff
1.2  cliff /*
1.2  cliff  * table entry used to determine operating mode by QRY signature
1.2  cliff  */
1.2  cliff struct cfi_opmodes {
1.2  cliff 	uint8_t		portwidth;	/* (1<<N) bytes */
1.2  cliff 	uint8_t		chipwidth;	/* (1<<N) bytes */
1.2  cliff 	uint8_t		interleave;	/* (1<<N) bytes */
1.2  cliff 	uint8_t		qsa;		/* Query Start Address (in bytes) */
1.2  cliff 	uint8_t		len;		/* signature length */
1.2  cliff 	const uint8_t  *sig;		/* signature */
1.2  cliff 	const char     *str;		/* descriptive string */
1.2  cliff };
1.2  cliff
1.2  cliff struct cfi;	/* fwd ref */
1.2  cliff
1.2  cliff struct cfi_ops {
1.2  cliff 	void	(*cfi_reset)(struct cfi *);
1.2  cliff 	int 	(*cfi_busy)(struct cfi *, flash_off_t);
1.2  cliff 	int	(*cfi_program_word)(struct cfi *, flash_off_t);
1.2  cliff 	int	(*cfi_erase_sector)(struct cfi *, flash_off_t);
1.2  cliff };
1.2  cliff
1.2  cliff /* NOTE:
1.2  cliff  * CFI_0002_STATS are just meant temporarily for debugging
1.2  cliff  * not for long-term use. Some event counters at the flash and nor
1.2  cliff  * layers might be helpful eventually
1.2  cliff  */
1.2  cliff #define CFI_0002_STATS	/* XXX TMP */
1.2  cliff #ifdef CFI_0002_STATS
1.2  cliff struct cfi_0002_stats {
1.2  cliff 	u_long read_page;
1.2  cliff 	u_long program_page;
1.2  cliff 	u_long erase_all;
1.2  cliff 	u_long erase_block;
1.2  cliff 	u_long busy;
1.2  cliff 	u_long busy_usec_min;
1.2  cliff 	u_long busy_usec_max;
1.2  cliff 	struct timeval busy_poll_tv;
1.2  cliff 	struct timeval busy_yield_tv;
1.2  cliff 	u_long busy_poll;
1.2  cliff 	u_long busy_yield;
1.2  cliff 	u_long busy_yield_hit;
1.2  cliff 	u_long busy_yield_miss;
1.2  cliff 	u_long busy_yield_timo;
1.2  cliff };
1.2  cliff
1.2  cliff extern void cfi_0002_stats_reset(struct cfi *);
1.2  cliff extern void cfi_0002_stats_print(struct cfi *);
1.2  cliff #define CFI_0002_STATS_INIT(dev, cfi)			\
1.2  cliff     do {						\
1.2  cliff 	aprint_normal_dev(dev, "cfi=%p\n", cfi);	\
1.2  cliff 	cfi_0002_stats_reset(cfi);			\
1.2  cliff     } while (0)
1.2  cliff #define CFI_0002_STATS_INC(cfi, field)	(cfi)->cfi_0002_stats.field++
1.2  cliff
1.2  cliff #else
1.2  cliff
1.2  cliff #define CFI_0002_STATS_INIT(cfi)
1.2  cliff #define CFI_0002_STATS_INC(cfi, field)
1.2  cliff
1.2  cliff #endif	/* CFI_0002_STATS */
1.2  cliff
1.2  cliff struct cfi {
1.2  cliff 	bus_space_tag_t		cfi_bst;
1.2  cliff 	bus_space_handle_t	cfi_bsh;
1.2  cliff 	cfi_state_t		cfi_state;
1.2  cliff 	uint8_t			cfi_portwidth;	/* port width, 1<<N bytes */
1.2  cliff 	uint8_t			cfi_chipwidth;	/* chip width, 1<<N bytes */
1.2  cliff 	struct cfi_query_data	cfi_qry_data;	/* CFI Query data */
1.2  cliff 	struct cfi_jedec_id_data
1.2  cliff 				cfi_id_data;	/* JEDEC ID data */
1.2  cliff 	const struct cfi_opmodes
1.2  cliff 			       *cfi_opmode;
1.2  cliff 	struct cfi_ops		cfi_ops;	/* chip dependent functions */
1.2  cliff 	u_long			cfi_yield_time;	/* thresh. for yield in wait */
1.2  cliff #ifdef CFI_0002_STATS
1.2  cliff 	struct cfi_0002_stats	cfi_0002_stats;
1.2  cliff #endif
1.2  cliff };
1.2  cliff
1.2  cliff
1.1  ahoka enum {
1.2  cliff 	CFI_ADDRESS_ANY = 0x00,		    /* XXX "don't care" */
1.2  cliff
1.2  cliff 	CFI_RESET_DATA = 0xf0,
1.2  cliff 	CFI_ALT_RESET_DATA = 0xff,
1.2  cliff
1.2  cliff 	CFI_QUERY_MODE_ADDRESS = 0x55,	    /* some devices accept anything */
1.2  cliff 	CFI_QUERY_MODE_ALT_ADDRESS = 0x555,
1.1  ahoka 	CFI_QUERY_DATA = 0x98,
1.2  cliff };
1.2  cliff
1.2  cliff static inline void
1.2  cliff cfi_reset(struct cfi * const cfi)
1.2  cliff {
1.2  cliff 	KASSERT(cfi->cfi_ops.cfi_reset != NULL);
1.2  cliff 	cfi->cfi_ops.cfi_reset(cfi);
1.2  cliff }
1.1  ahoka
1.2  cliff static inline int
1.2  cliff cfi_erase_sector(struct cfi * const cfi, flash_off_t offset)
1.2  cliff {
1.2  cliff 	KASSERT(cfi->cfi_ops.cfi_erase_sector != NULL);
1.2  cliff 	return cfi->cfi_ops.cfi_erase_sector(cfi, offset);
1.2  cliff }
1.1  ahoka
1.2  cliff static inline int
1.2  cliff cfi_program_word(struct cfi * const cfi, flash_off_t offset)
1.2  cliff {
1.2  cliff 	KASSERT(cfi->cfi_ops.cfi_program_word != NULL);
1.2  cliff 	return cfi->cfi_ops.cfi_program_word(cfi, offset);
1.2  cliff }
1.2  cliff
1.2  cliff extern const struct nor_interface nor_interface_cfi;
1.2  cliff
1.2  cliff extern bool cfi_probe(struct cfi * const);
1.2  cliff extern bool cfi_identify(struct cfi * const);
1.2  cliff extern void cfi_print(device_t, struct cfi * const);
1.2  cliff extern void cfi_reset_default(struct cfi * const);
1.2  cliff extern void cfi_reset_std(struct cfi * const);
1.2  cliff extern void cfi_reset_alt(struct cfi * const);
1.2  cliff extern void cfi_cmd(struct cfi * const, bus_size_t, uint32_t);
1.1  ahoka
1.2  cliff #endif	/* _CFI_H_ */