cfi.h revision 1.6
1/* $NetBSD: cfi.h,v 1.6 2011/12/17 19:42:41 phx Exp $ */ 2 3#ifndef _CFI_H_ 4#define _CFI_H_ 5 6#include <dev/nor/cfi_0002.h> 7#include <sys/bus.h> 8 9/* 10 * minimum size to bus_space_map for probe/identify QRY: 11 * larget offset needed is CFI_QUERY_MODE_ALT_ADDRESS 12 * scaled by maximum attempted port width, so 13 * min >= (0x555 * sizeof(uint32_t)) 14 */ 15#define CFI_QRY_MIN_MAP_SIZE 0x2000 16 17 18typedef enum { 19 CFI_STATE_DATA_ARRAY = 0, 20 CFI_STATE_QUERY, 21 /* TBD */ 22} cfi_state_t; 23 24 25struct cfi_erase_blk_info { 26 uint16_t z; /* Erase Blocks are z * 256 bytes */ 27 uint16_t y; /* y+1 = #Erase Blocks in region */ 28}; 29 30/* 31 * CFI Query structure 32 */ 33struct cfi_query_data { 34 /* Query info */ 35 uint8_t qry[3]; /* { 'Q', 'R', 'Y' } */ 36 uint16_t id_pri; /* primary comand set ID */ 37 uint16_t addr_pri; /* primary table addr */ 38 uint16_t id_alt; /* alternate command set ID */ 39 uint16_t addr_alt; /* alternate table addr */ 40 /* System Interface info */ 41 uint8_t vcc_min; /* min Vcc */ 42 uint8_t vcc_max; /* max Vcc */ 43 uint8_t vpp_min; /* min Vpp */ 44 uint8_t vpp_max; /* max Vpp */ 45 uint8_t write_word_time_typ; /* typ 1-word timeout, 1<<N usec */ 46 uint8_t write_nbyte_time_typ; /* typ multi-byte timeout, 1<<N usec */ 47 uint8_t erase_blk_time_typ; /* typ 1-blk erase timeout, 1<<N msec */ 48 uint8_t erase_chip_time_typ; /* typ chip erase timeout, 1<<N msec */ 49 uint8_t write_word_time_max; /* max 1-word timeout, typ<<N */ 50 uint8_t write_nbyte_time_max; /* max multi-byte timeout, typ<<N */ 51 uint8_t erase_blk_time_max; /* max 1-blk erase timeout, typ<<N */ 52 uint8_t erase_chip_time_max; /* max chip erase timeout, typ<<N */ 53 /* Device Geometry Definition */ 54 uint8_t device_size; /* 1<<N bytes */ 55 uint16_t interface_code_desc; /* JEP137 interface code description */ 56 uint16_t write_nbyte_size_max; /* max size of multi-byte write, 1<<N */ 57 uint8_t erase_blk_regions; /* number of erase block regions */ 58 struct cfi_erase_blk_info 59 erase_blk_info[4]; /* describe erase block regions */ 60 /* Vendor-specific Primary command set info */ 61 union { 62 struct cmdset_0002_query_data cmd_0002; 63 } pri; 64#ifdef NOTYET 65 /* Vendor-specific Alternate command set info */ 66 union { 67 /* some command set structure here */ 68 } pri; 69#endif 70}; 71 72/* 73 * decode interface_code_desc 74 */ 75#define CFI_IFCODE_X8 0 76#define CFI_IFCODE_X16 1 77#define CFI_IFCODE_X8X16 2 78static inline const char * 79cfi_interface_desc_str(uint16_t icd) 80{ 81 switch(icd) { 82 case CFI_IFCODE_X8: 83 return "x8"; 84 case CFI_IFCODE_X16: 85 return "x16"; 86 case CFI_IFCODE_X8X16: 87 return "x8/x16"; 88 default: 89 return ""; 90 } 91} 92 93/* 94 * id_pri: CFI Command set and control assignments 95 */ 96#define CFI_ID_PRI_NONE 0x0000 97#define CFI_ID_PRI_INTEL_EXT 0x0001 98#define CFI_ID_PRI_AMD_STD 0x0002 99#define CFI_ID_PRI_INTEL_STD 0x0003 100#define CFI_ID_PRI_AMD_EXT 0x0004 101#define CFI_ID_PRI_WINBOND 0x0005 102#define CFI_ID_PRI_ST_ADV 0x0020 103#define CFI_ID_PRI_MITSU_ADV 0x0100 104#define CFI_ID_PRI_MITSU_EXT 0x0101 105#define CFI_ID_PRI_SST_PAGE 0x0102 106#define CFI_ID_PRI_SST_OLD 0x0701 107#define CFI_ID_PRI_INTEL_PERF 0x0200 108#define CFI_ID_PRI_INTEL_DATA 0x0210 109#define CFI_ID_PRI_RESV 0xffff /* not allowed, reserved */ 110 111/* 112 * JEDEC ID (autoselect) data 113 */ 114struct cfi_jedec_id_data { 115 uint16_t id_mid; /* manufacturer ID */ 116 uint16_t id_did[3]; /* device ID */ 117 uint16_t id_prot_state; 118 uint16_t id_indicators; 119 uint8_t id_swb_lo; /* lower software bits */ 120 uint8_t id_swb_hi; /* upper software bits */ 121}; 122 123struct cfi; /* fwd ref */ 124 125struct cfi_ops { 126 void (*cfi_reset)(struct cfi *); 127 int (*cfi_busy)(struct cfi *, flash_off_t); 128 int (*cfi_program_word)(struct cfi *, flash_off_t); 129 int (*cfi_erase_sector)(struct cfi *, flash_off_t); 130}; 131 132/* NOTE: 133 * CFI_0002_STATS are just meant temporarily for debugging 134 * not for long-term use. Some event counters at the flash and nor 135 * layers might be helpful eventually 136 */ 137#ifdef CFI_0002_STATS 138struct cfi_0002_stats { 139 u_long read_page; 140 u_long program_page; 141 u_long erase_all; 142 u_long erase_block; 143 u_long busy; 144 u_long busy_usec_min; 145 u_long busy_usec_max; 146 struct timeval busy_poll_tv; 147 struct timeval busy_yield_tv; 148 u_long busy_poll; 149 u_long busy_yield; 150 u_long busy_yield_hit; 151 u_long busy_yield_miss; 152 u_long busy_yield_timo; 153}; 154 155extern void cfi_0002_stats_reset(struct cfi *); 156extern void cfi_0002_stats_print(struct cfi *); 157#define CFI_0002_STATS_INIT(dev, cfi) \ 158 do { \ 159 aprint_normal_dev(dev, "cfi=%p\n", cfi); \ 160 cfi_0002_stats_reset(cfi); \ 161 } while (0) 162#define CFI_0002_STATS_INC(cfi, field) (cfi)->cfi_0002_stats.field++ 163 164#else 165 166#define CFI_0002_STATS_INIT(dev, cfi) 167#define CFI_0002_STATS_INC(cfi, field) 168 169#endif /* CFI_0002_STATS */ 170 171struct cfi { 172 bus_space_tag_t cfi_bst; 173 bus_space_handle_t cfi_bsh; 174 cfi_state_t cfi_state; 175 uint8_t cfi_portwidth; /* port width, 1<<N bytes */ 176 uint8_t cfi_chipwidth; /* chip width, 1<<N bytes */ 177 bool cfi_emulated; /* ary data are faked */ 178 bus_size_t cfi_unlock_addr1; 179 bus_size_t cfi_unlock_addr2; 180 struct cfi_query_data cfi_qry_data; /* CFI Query data */ 181 struct cfi_jedec_id_data 182 cfi_id_data; /* JEDEC ID data */ 183 const char *cfi_name; /* optional chip name */ 184 struct cfi_ops cfi_ops; /* chip dependent functions */ 185 u_long cfi_yield_time; /* thresh. for yield in wait */ 186#ifdef CFI_0002_STATS 187 struct cfi_0002_stats cfi_0002_stats; 188#endif 189}; 190 191/* 192 * struct cfi_jedec_tab is an amalgamation of 193 * - info to identify a chip based on JEDEC ID data, and 194 * - values needed to fill in struct cfi (i.e. fields we depend on) 195 */ 196struct cfi_jedec_tab { 197 /* ID */ 198 const char *jt_name; 199 uint32_t jt_mid; 200 uint32_t jt_did; 201 /* cmdset */ 202 uint16_t jt_id_pri; 203 uint16_t jt_id_alt; 204 /* geometry */ 205 uint8_t jt_device_size; /* 1<<N bytes */ 206 uint16_t jt_interface_code_desc; 207 uint8_t jt_write_nbyte_size_max; /* 1<<N bytes */ 208 uint8_t jt_erase_blk_regions; 209 struct cfi_erase_blk_info 210 jt_erase_blk_info[4]; 211 /* timing */ 212 uint8_t jt_write_word_time_typ; /* 1<<N usec */ 213 uint8_t jt_write_nbyte_time_typ; /* 1<<N msec */ 214 uint8_t jt_erase_blk_time_typ; /* 1<<N msec */ 215 uint8_t jt_erase_chip_time_typ; /* 1<<N msec */ 216 uint8_t jt_write_word_time_max; /* typ<<N usec */ 217 uint8_t jt_write_nbyte_time_max; /* typ<<N msec */ 218 uint8_t jt_erase_blk_time_max; /* typ<<N msec */ 219 uint8_t jt_erase_chip_time_max; /* typ<<N msec */ 220}; 221 222 223enum { 224 CFI_ADDR_ANY = 0x00*8, /* XXX "don't care" */ 225 CFI_RESET_DATA = 0xf0, 226 CFI_ALT_RESET_DATA = 0xff, 227 228 CFI_QUERY_MODE_ADDR = 0x55*8, /* some devices accept anything */ 229 CFI_QUERY_MODE_ALT_ADDR = 0x555*8, 230 CFI_QUERY_DATA = 0x98, 231 232 CFI_AMD_UNLOCK_ADDR1 = 0x555*8, 233 CFI_AMD_UNLOCK_ADDR2 = 0x555*4, 234}; 235 236static inline void 237cfi_reset(struct cfi * const cfi) 238{ 239 KASSERT(cfi->cfi_ops.cfi_reset != NULL); 240 cfi->cfi_ops.cfi_reset(cfi); 241} 242 243static inline int 244cfi_erase_sector(struct cfi * const cfi, flash_off_t offset) 245{ 246 KASSERT(cfi->cfi_ops.cfi_erase_sector != NULL); 247 return cfi->cfi_ops.cfi_erase_sector(cfi, offset); 248} 249 250static inline int 251cfi_program_word(struct cfi * const cfi, flash_off_t offset) 252{ 253 KASSERT(cfi->cfi_ops.cfi_program_word != NULL); 254 return cfi->cfi_ops.cfi_program_word(cfi, offset); 255} 256 257extern const struct nor_interface nor_interface_cfi; 258 259extern bool cfi_probe(struct cfi * const); 260extern bool cfi_identify(struct cfi * const); 261extern void cfi_print(device_t, struct cfi * const); 262extern void cfi_reset_default(struct cfi * const); 263extern void cfi_reset_std(struct cfi * const); 264extern void cfi_reset_alt(struct cfi * const); 265extern void cfi_cmd(struct cfi * const, bus_size_t, uint32_t); 266 267#endif /* _CFI_H_ */ 268