Edward O'Callaghan has uploaded this change for review. ( https://review.coreboot.org/c/flashrom/+/45572 )
Change subject: writeprotect.h,c: Add Winbond support (WIP) ......................................................................
writeprotect.h,c: Add Winbond support (WIP)
Adds Winbond support. WIP
Change-Id: I54eedaa8e24c69d6d088e9ebcfb9a284e0fbe893 Signed-off-by: Edward O'Callaghan quasisec@google.com --- M writeprotect.c M writeprotect.h 2 files changed, 1,068 insertions(+), 0 deletions(-)
git pull ssh://review.coreboot.org:29418/flashrom refs/changes/72/45572/1
diff --git a/writeprotect.c b/writeprotect.c index 0cef19b..1cd3950 100644 --- a/writeprotect.c +++ b/writeprotect.c @@ -87,6 +87,43 @@ struct modifier_bits *m); };
+struct w25q_status { + /* this maps to register layout -- do not change ordering */ + unsigned char busy : 1; + unsigned char wel : 1; + unsigned char bp0 : 1; + unsigned char bp1 : 1; + unsigned char bp2 : 1; + unsigned char tb : 1; + unsigned char sec : 1; + unsigned char srp0 : 1; +} __attribute__ ((packed)); + +/* Status register for large flash layouts with 4 BP bits */ +struct w25q_status_large { + unsigned char busy : 1; + unsigned char wel : 1; + unsigned char bp0 : 1; + unsigned char bp1 : 1; + unsigned char bp2 : 1; + unsigned char bp3 : 1; + unsigned char tb : 1; + unsigned char srp0 : 1; +} __attribute__ ((packed)); + +struct w25q_status_2 { + unsigned char srp1 : 1; + unsigned char qe : 1; + unsigned char rsvd : 6; +} __attribute__ ((packed)); + +int w25_range_to_status(const struct flashctx *flash, + unsigned int start, unsigned int len, + struct w25q_status *status); +int w25_status_to_range(const struct flashctx *flash, + const struct w25q_status *status, + unsigned int *start, unsigned int *len); + /* * Mask to extract write-protect enable and range bits * Status register 1: @@ -100,6 +137,295 @@ #define MASK_WP_AREA_LARGE (0x9C) #define MASK_WP2_AREA (0x01)
+static struct wp_range_descriptor w25q16_ranges[] = { + { .m = { .sec = X, .tb = X }, 0, {0, 0} }, /* none */ + { .m = { .sec = 0, .tb = 0 }, 0x1, {0x1f0000, 64 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x2, {0x1e0000, 128 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x3, {0x1c0000, 256 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x4, {0x180000, 512 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x5, {0x100000, 1024 * 1024} }, + + { .m = { .sec = 0, .tb = 1 }, 0x1, {0x000000, 64 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x2, {0x000000, 128 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x3, {0x000000, 256 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x4, {0x000000, 512 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x5, {0x000000, 1024 * 1024} }, + { .m = { .sec = X, .tb = X }, 0x6, {0x000000, 2048 * 1024} }, + { .m = { .sec = X, .tb = X }, 0x7, {0x000000, 2048 * 1024} }, + + { .m = { .sec = 1, .tb = 0 }, 0x1, {0x1ff000, 4 * 1024} }, + { .m = { .sec = 1, .tb = 0 }, 0x2, {0x1fe000, 8 * 1024} }, + { .m = { .sec = 1, .tb = 0 }, 0x3, {0x1fc000, 16 * 1024} }, + { .m = { .sec = 1, .tb = 0 }, 0x4, {0x1f8000, 32 * 1024} }, + { .m = { .sec = 1, .tb = 0 }, 0x5, {0x1f8000, 32 * 1024} }, + + { .m = { .sec = 1, .tb = 1 }, 0x1, {0x000000, 4 * 1024} }, + { .m = { .sec = 1, .tb = 1 }, 0x2, {0x000000, 8 * 1024} }, + { .m = { .sec = 1, .tb = 1 }, 0x3, {0x000000, 16 * 1024} }, + { .m = { .sec = 1, .tb = 1 }, 0x4, {0x000000, 32 * 1024} }, + { .m = { .sec = 1, .tb = 1 }, 0x5, {0x000000, 32 * 1024} }, +}; + +static struct wp_range_descriptor w25q32_ranges[] = { + { .m = { .sec = X, .tb = X }, 0, {0, 0} }, /* none */ + { .m = { .sec = 0, .tb = 0 }, 0x1, {0x3f0000, 64 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x2, {0x3e0000, 128 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x3, {0x3c0000, 256 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x4, {0x380000, 512 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x5, {0x300000, 1024 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x6, {0x200000, 2048 * 1024} }, + + { .m = { .sec = 0, .tb = 1 }, 0x1, {0x000000, 64 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x2, {0x000000, 128 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x3, {0x000000, 256 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x4, {0x000000, 512 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x5, {0x000000, 1024 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x6, {0x000000, 2048 * 1024} }, + { .m = { .sec = X, .tb = X }, 0x7, {0x000000, 4096 * 1024} }, + + { .m = { .sec = 1, .tb = 0 }, 0x1, {0x3ff000, 4 * 1024} }, + { .m = { .sec = 1, .tb = 0 }, 0x2, {0x3fe000, 8 * 1024} }, + { .m = { .sec = 1, .tb = 0 }, 0x3, {0x3fc000, 16 * 1024} }, + { .m = { .sec = 1, .tb = 0 }, 0x4, {0x3f8000, 32 * 1024} }, + { .m = { .sec = 1, .tb = 0 }, 0x5, {0x3f8000, 32 * 1024} }, + + { .m = { .sec = 1, .tb = 1 }, 0x1, {0x000000, 4 * 1024} }, + { .m = { .sec = 1, .tb = 1 }, 0x2, {0x000000, 8 * 1024} }, + { .m = { .sec = 1, .tb = 1 }, 0x3, {0x000000, 16 * 1024} }, + { .m = { .sec = 1, .tb = 1 }, 0x4, {0x000000, 32 * 1024} }, + { .m = { .sec = 1, .tb = 1 }, 0x5, {0x000000, 32 * 1024} }, +}; + +static struct wp_range_descriptor w25q80_ranges[] = { + { .m = { .sec = X, .tb = X }, 0, {0, 0} }, /* none */ + { .m = { .sec = 0, .tb = 0 }, 0x1, {0x0f0000, 64 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x2, {0x0e0000, 128 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x3, {0x0c0000, 256 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x4, {0x080000, 512 * 1024} }, + + { .m = { .sec = 0, .tb = 1 }, 0x1, {0x000000, 64 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x2, {0x000000, 128 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x3, {0x000000, 256 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x4, {0x000000, 512 * 1024} }, + { .m = { .sec = X, .tb = X }, 0x6, {0x000000, 1024 * 1024} }, + { .m = { .sec = X, .tb = X }, 0x7, {0x000000, 1024 * 1024} }, + + { .m = { .sec = 1, .tb = 0 }, 0x1, {0x1ff000, 4 * 1024} }, + { .m = { .sec = 1, .tb = 0 }, 0x2, {0x1fe000, 8 * 1024} }, + { .m = { .sec = 1, .tb = 0 }, 0x3, {0x1fc000, 16 * 1024} }, + { .m = { .sec = 1, .tb = 0 }, 0x4, {0x1f8000, 32 * 1024} }, + { .m = { .sec = 1, .tb = 0 }, 0x5, {0x1f8000, 32 * 1024} }, + + { .m = { .sec = 1, .tb = 1 }, 0x1, {0x000000, 4 * 1024} }, + { .m = { .sec = 1, .tb = 1 }, 0x2, {0x000000, 8 * 1024} }, + { .m = { .sec = 1, .tb = 1 }, 0x3, {0x000000, 16 * 1024} }, + { .m = { .sec = 1, .tb = 1 }, 0x4, {0x000000, 32 * 1024} }, + { .m = { .sec = 1, .tb = 1 }, 0x5, {0x000000, 32 * 1024} }, +}; + +static struct wp_range_descriptor w25q64_ranges[] = { + { .m = { .sec = X, .tb = X }, 0, {0, 0} }, /* none */ + + { .m = { .sec = 0, .tb = 0 }, 0x1, {0x7e0000, 128 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x2, {0x7c0000, 256 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x3, {0x780000, 512 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x4, {0x700000, 1024 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x5, {0x600000, 2048 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x6, {0x400000, 4096 * 1024} }, + + { .m = { .sec = 0, .tb = 1 }, 0x1, {0x000000, 128 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x2, {0x000000, 256 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x3, {0x000000, 512 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x4, {0x000000, 1024 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x5, {0x000000, 2048 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x6, {0x000000, 4096 * 1024} }, + { .m = { .sec = X, .tb = X }, 0x7, {0x000000, 8192 * 1024} }, + + { .m = { .sec = 1, .tb = 0 }, 0x1, {0x7ff000, 4 * 1024} }, + { .m = { .sec = 1, .tb = 0 }, 0x2, {0x7fe000, 8 * 1024} }, + { .m = { .sec = 1, .tb = 0 }, 0x3, {0x7fc000, 16 * 1024} }, + { .m = { .sec = 1, .tb = 0 }, 0x4, {0x7f8000, 32 * 1024} }, + { .m = { .sec = 1, .tb = 0 }, 0x5, {0x7f8000, 32 * 1024} }, + + { .m = { .sec = 1, .tb = 1 }, 0x1, {0x000000, 4 * 1024} }, + { .m = { .sec = 1, .tb = 1 }, 0x2, {0x000000, 8 * 1024} }, + { .m = { .sec = 1, .tb = 1 }, 0x3, {0x000000, 16 * 1024} }, + { .m = { .sec = 1, .tb = 1 }, 0x4, {0x000000, 32 * 1024} }, + { .m = { .sec = 1, .tb = 1 }, 0x5, {0x000000, 32 * 1024} }, +}; + +static struct wp_range_descriptor w25rq128_cmp0_ranges[] = { + { .m = { .sec = X, .tb = X }, 0, {0, 0} }, /* NONE */ + + { .m = { .sec = 0, .tb = 0 }, 0x1, {0xfc0000, 256 * 1024} }, /* Upper 1/64 */ + { .m = { .sec = 0, .tb = 0 }, 0x2, {0xf80000, 512 * 1024} }, /* Upper 1/32 */ + { .m = { .sec = 0, .tb = 0 }, 0x3, {0xf00000, 1024 * 1024} }, /* Upper 1/16 */ + { .m = { .sec = 0, .tb = 0 }, 0x4, {0xe00000, 2048 * 1024} }, /* Upper 1/8 */ + { .m = { .sec = 0, .tb = 0 }, 0x5, {0xc00000, 4096 * 1024} }, /* Upper 1/4 */ + { .m = { .sec = 0, .tb = 0 }, 0x6, {0x800000, 8192 * 1024} }, /* Upper 1/2 */ + + { .m = { .sec = 0, .tb = 1 }, 0x1, {0x000000, 256 * 1024} }, /* Lower 1/64 */ + { .m = { .sec = 0, .tb = 1 }, 0x2, {0x000000, 512 * 1024} }, /* Lower 1/32 */ + { .m = { .sec = 0, .tb = 1 }, 0x3, {0x000000, 1024 * 1024} }, /* Lower 1/16 */ + { .m = { .sec = 0, .tb = 1 }, 0x4, {0x000000, 2048 * 1024} }, /* Lower 1/8 */ + { .m = { .sec = 0, .tb = 1 }, 0x5, {0x000000, 4096 * 1024} }, /* Lower 1/4 */ + { .m = { .sec = 0, .tb = 1 }, 0x6, {0x000000, 8192 * 1024} }, /* Lower 1/2 */ + + { .m = { .sec = X, .tb = X }, 0x7, {0x000000, 16384 * 1024} }, /* ALL */ + + { .m = { .sec = 1, .tb = 0 }, 0x1, {0xfff000, 4 * 1024} }, /* Upper 1/4096 */ + { .m = { .sec = 1, .tb = 0 }, 0x2, {0xffe000, 8 * 1024} }, /* Upper 1/2048 */ + { .m = { .sec = 1, .tb = 0 }, 0x3, {0xffc000, 16 * 1024} }, /* Upper 1/1024 */ + { .m = { .sec = 1, .tb = 0 }, 0x4, {0xff8000, 32 * 1024} }, /* Upper 1/512 */ + { .m = { .sec = 1, .tb = 0 }, 0x5, {0xff8000, 32 * 1024} }, /* Upper 1/512 */ + + { .m = { .sec = 1, .tb = 1 }, 0x1, {0x000000, 4 * 1024} }, /* Lower 1/4096 */ + { .m = { .sec = 1, .tb = 1 }, 0x2, {0x000000, 8 * 1024} }, /* Lower 1/2048 */ + { .m = { .sec = 1, .tb = 1 }, 0x3, {0x000000, 16 * 1024} }, /* Lower 1/1024 */ + { .m = { .sec = 1, .tb = 1 }, 0x4, {0x000000, 32 * 1024} }, /* Lower 1/512 */ + { .m = { .sec = 1, .tb = 1 }, 0x5, {0x000000, 32 * 1024} }, /* Lower 1/512 */ +}; + +static struct wp_range_descriptor w25rq128_cmp1_ranges[] = { + { .m = { .sec = X, .tb = X }, 0x0, {0x000000, 16 * 1024 * 1024} }, /* ALL */ + + { .m = { .sec = 0, .tb = 0 }, 0x1, {0x000000, 16128 * 1024} }, /* Lower 63/64 */ + { .m = { .sec = 0, .tb = 0 }, 0x2, {0x000000, 15872 * 1024} }, /* Lower 31/32 */ + { .m = { .sec = 0, .tb = 0 }, 0x3, {0x000000, 15 * 1024 * 1024} }, /* Lower 15/16 */ + { .m = { .sec = 0, .tb = 0 }, 0x4, {0x000000, 14 * 1024 * 1024} }, /* Lower 7/8 */ + { .m = { .sec = 0, .tb = 0 }, 0x5, {0x000000, 12 * 1024 * 1024} }, /* Lower 3/4 */ + { .m = { .sec = 0, .tb = 0 }, 0x6, {0x000000, 8 * 1024 * 1024} }, /* Lower 1/2 */ + + { .m = { .sec = 0, .tb = 1 }, 0x1, {0x040000, 16128 * 1024} }, /* Upper 63/64 */ + { .m = { .sec = 0, .tb = 1 }, 0x2, {0x080000, 15872 * 1024} }, /* Upper 31/32 */ + { .m = { .sec = 0, .tb = 1 }, 0x3, {0x100000, 15 * 1024 * 1024} }, /* Upper 15/16 */ + { .m = { .sec = 0, .tb = 1 }, 0x4, {0x200000, 14 * 1024 * 1024} }, /* Upper 7/8 */ + { .m = { .sec = 0, .tb = 1 }, 0x5, {0x400000, 12 * 1024 * 1024} }, /* Upper 3/4 */ + { .m = { .sec = 0, .tb = 1 }, 0x6, {0x800000, 8 * 1024 * 1024} }, /* Upper 1/2 */ + + { .m = { .sec = X, .tb = X }, 0x7, {0x000000, 0} }, /* NONE */ + + { .m = { .sec = 1, .tb = 0 }, 0x1, {0x000000, 16380 * 1024} }, /* Lower 4095/4096 */ + { .m = { .sec = 1, .tb = 0 }, 0x2, {0x000000, 16376 * 1024} }, /* Lower 2048/2048 */ + { .m = { .sec = 1, .tb = 0 }, 0x3, {0x000000, 16368 * 1024} }, /* Lower 1023/1024 */ + { .m = { .sec = 1, .tb = 0 }, 0x4, {0x000000, 16352 * 1024} }, /* Lower 511/512 */ + { .m = { .sec = 1, .tb = 0 }, 0x5, {0x000000, 16352 * 1024} }, /* Lower 511/512 */ + + { .m = { .sec = 1, .tb = 1 }, 0x1, {0x001000, 16380 * 1024} }, /* Upper 4095/4096 */ + { .m = { .sec = 1, .tb = 1 }, 0x2, {0x002000, 16376 * 1024} }, /* Upper 2047/2048 */ + { .m = { .sec = 1, .tb = 1 }, 0x3, {0x004000, 16368 * 1024} }, /* Upper 1023/1024 */ + { .m = { .sec = 1, .tb = 1 }, 0x4, {0x008000, 16352 * 1024} }, /* Upper 511/512 */ + { .m = { .sec = 1, .tb = 1 }, 0x5, {0x008000, 16352 * 1024} }, /* Upper 511/512 */ +}; + +static struct wp_range_descriptor w25rq256_cmp0_ranges[] = { + { .m = { .sec = X, .tb = X }, 0x0, {0x0000000, 0x0000000} }, /* NONE */ + + { .m = { .sec = X, .tb = 0 }, 0x1, {0x1ff0000, 64 * 1 * 1024} }, /* Upper 1/512 */ + { .m = { .sec = X, .tb = 0 }, 0x2, {0x1fe0000, 64 * 2 * 1024} }, /* Upper 1/256 */ + { .m = { .sec = X, .tb = 0 }, 0x3, {0x1fc0000, 64 * 4 * 1024} }, /* Upper 1/128 */ + { .m = { .sec = X, .tb = 0 }, 0x4, {0x1f80000, 64 * 8 * 1024} }, /* Upper 1/64 */ + { .m = { .sec = X, .tb = 0 }, 0x5, {0x1f00000, 64 * 16 * 1024} }, /* Upper 1/32 */ + { .m = { .sec = X, .tb = 0 }, 0x6, {0x1e00000, 64 * 32 * 1024} }, /* Upper 1/16 */ + { .m = { .sec = X, .tb = 0 }, 0x7, {0x1c00000, 64 * 64 * 1024} }, /* Upper 1/8 */ + { .m = { .sec = X, .tb = 0 }, 0x8, {0x1800000, 64 * 128 * 1024} }, /* Upper 1/4 */ + { .m = { .sec = X, .tb = 0 }, 0x9, {0x1000000, 64 * 256 * 1024} }, /* Upper 1/2 */ + + { .m = { .sec = X, .tb = 1 }, 0x1, {0x0000000, 64 * 1 * 1024} }, /* Lower 1/512 */ + { .m = { .sec = X, .tb = 1 }, 0x2, {0x0000000, 64 * 2 * 1024} }, /* Lower 1/256 */ + { .m = { .sec = X, .tb = 1 }, 0x3, {0x0000000, 64 * 4 * 1024} }, /* Lower 1/128 */ + { .m = { .sec = X, .tb = 1 }, 0x4, {0x0000000, 64 * 8 * 1024} }, /* Lower 1/64 */ + { .m = { .sec = X, .tb = 1 }, 0x5, {0x0000000, 64 * 16 * 1024} }, /* Lower 1/32 */ + { .m = { .sec = X, .tb = 1 }, 0x6, {0x0000000, 64 * 32 * 1024} }, /* Lower 1/16 */ + { .m = { .sec = X, .tb = 1 }, 0x7, {0x0000000, 64 * 64 * 1024} }, /* Lower 1/8 */ + { .m = { .sec = X, .tb = 1 }, 0x8, {0x0000000, 64 * 128 * 1024} }, /* Lower 1/4 */ + { .m = { .sec = X, .tb = 1 }, 0x9, {0x0000000, 64 * 256 * 1024} }, /* Lower 1/2 */ + + { .m = { .sec = X, .tb = X }, 0xa, {0x0000000, 64 * 512 * 1024} }, /* ALL */ + { .m = { .sec = X, .tb = X }, 0xb, {0x0000000, 64 * 512 * 1024} }, /* ALL */ + { .m = { .sec = X, .tb = X }, 0xc, {0x0000000, 64 * 512 * 1024} }, /* ALL */ + { .m = { .sec = X, .tb = X }, 0xd, {0x0000000, 64 * 512 * 1024} }, /* ALL */ + { .m = { .sec = X, .tb = X }, 0xe, {0x0000000, 64 * 512 * 1024} }, /* ALL */ + { .m = { .sec = X, .tb = X }, 0xf, {0x0000000, 64 * 512 * 1024} }, /* ALL */ +}; + +static struct wp_range_descriptor w25rq256_cmp1_ranges[] = { + { .m = { .sec = X, .tb = X }, 0x0, {0x0000000, 64 * 512 * 1024} }, /* ALL */ + + { .m = { .sec = X, .tb = 0 }, 0x1, {0x0000000, 64 * 511 * 1024} }, /* Lower 511/512 */ + { .m = { .sec = X, .tb = 0 }, 0x2, {0x0000000, 64 * 510 * 1024} }, /* Lower 255/256 */ + { .m = { .sec = X, .tb = 0 }, 0x3, {0x0000000, 64 * 508 * 1024} }, /* Lower 127/128 */ + { .m = { .sec = X, .tb = 0 }, 0x4, {0x0000000, 64 * 504 * 1024} }, /* Lower 63/64 */ + { .m = { .sec = X, .tb = 0 }, 0x5, {0x0000000, 64 * 496 * 1024} }, /* Lower 31/32 */ + { .m = { .sec = X, .tb = 0 }, 0x6, {0x0000000, 64 * 480 * 1024} }, /* Lower 15/16 */ + { .m = { .sec = X, .tb = 0 }, 0x7, {0x0000000, 64 * 448 * 1024} }, /* Lower 7/8 */ + { .m = { .sec = X, .tb = 0 }, 0x8, {0x0000000, 64 * 384 * 1024} }, /* Lower 3/4 */ + { .m = { .sec = X, .tb = 0 }, 0x9, {0x0000000, 64 * 256 * 1024} }, /* Lower 1/2 */ + + { .m = { .sec = X, .tb = 1 }, 0x1, {0x0010000, 64 * 511 * 1024} }, /* Upper 511/512 */ + { .m = { .sec = X, .tb = 1 }, 0x2, {0x0020000, 64 * 510 * 1024} }, /* Upper 255/256 */ + { .m = { .sec = X, .tb = 1 }, 0x3, {0x0040000, 64 * 508 * 1024} }, /* Upper 127/128 */ + { .m = { .sec = X, .tb = 1 }, 0x4, {0x0080000, 64 * 504 * 1024} }, /* Upper 63/64 */ + { .m = { .sec = X, .tb = 1 }, 0x5, {0x0100000, 64 * 496 * 1024} }, /* Upper 31/32 */ + { .m = { .sec = X, .tb = 1 }, 0x6, {0x0200000, 64 * 480 * 1024} }, /* Upper 15/16 */ + { .m = { .sec = X, .tb = 1 }, 0x7, {0x0400000, 64 * 448 * 1024} }, /* Upper 7/8 */ + { .m = { .sec = X, .tb = 1 }, 0x8, {0x0800000, 64 * 384 * 1024} }, /* Upper 3/4 */ + { .m = { .sec = X, .tb = 1 }, 0x9, {0x1000000, 64 * 256 * 1024} }, /* Upper 1/2 */ + + { .m = { .sec = X, .tb = X }, 0xa, {0x0000000, 0x0000000} }, /* NONE */ + { .m = { .sec = X, .tb = X }, 0xb, {0x0000000, 0x0000000} }, /* NONE */ + { .m = { .sec = X, .tb = X }, 0xc, {0x0000000, 0x0000000} }, /* NONE */ + { .m = { .sec = X, .tb = X }, 0xd, {0x0000000, 0x0000000} }, /* NONE */ + { .m = { .sec = X, .tb = X }, 0xe, {0x0000000, 0x0000000} }, /* NONE */ + { .m = { .sec = X, .tb = X }, 0xf, {0x0000000, 0x0000000} }, /* NONE */ +}; + +struct wp_range_descriptor w25x10_ranges[] = { + { .m = { .sec = X, .tb = X }, 0, {0, 0} }, /* none */ + { .m = { .sec = 0, .tb = 0 }, 0x1, {0x010000, 64 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x1, {0x000000, 64 * 1024} }, + { .m = { .sec = X, .tb = X }, 0x2, {0x000000, 128 * 1024} }, + { .m = { .sec = X, .tb = X }, 0x3, {0x000000, 128 * 1024} }, +}; + +struct wp_range_descriptor w25x20_ranges[] = { + { .m = { .sec = X, .tb = X }, 0, {0, 0} }, /* none */ + { .m = { .sec = 0, .tb = 0 }, 0x1, {0x030000, 64 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x2, {0x020000, 128 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x1, {0x000000, 64 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x2, {0x000000, 128 * 1024} }, + { .m = { .sec = 0, .tb = X }, 0x3, {0x000000, 256 * 1024} }, +}; + +struct wp_range_descriptor w25x40_ranges[] = { + { .m = { .sec = X, .tb = X }, 0, {0, 0} }, /* none */ + { .m = { .sec = 0, .tb = 0 }, 0x1, {0x070000, 64 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x2, {0x060000, 128 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x3, {0x040000, 256 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x1, {0x000000, 64 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x2, {0x000000, 128 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x3, {0x000000, 256 * 1024} }, + { .m = { .sec = 0, .tb = X }, 0x4, {0x000000, 512 * 1024} }, + { .m = { .sec = 0, .tb = X }, 0x5, {0x000000, 512 * 1024} }, + { .m = { .sec = 0, .tb = X }, 0x6, {0x000000, 512 * 1024} }, + { .m = { .sec = 0, .tb = X }, 0x7, {0x000000, 512 * 1024} }, +}; + +struct wp_range_descriptor w25x80_ranges[] = { + { .m = { .sec = X, .tb = X }, 0, {0, 0} }, /* none */ + { .m = { .sec = 0, .tb = 0 }, 0x1, {0x0F0000, 64 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x2, {0x0E0000, 128 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x3, {0x0C0000, 256 * 1024} }, + { .m = { .sec = 0, .tb = 0 }, 0x4, {0x080000, 512 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x1, {0x000000, 64 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x2, {0x000000, 128 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x3, {0x000000, 256 * 1024} }, + { .m = { .sec = 0, .tb = 1 }, 0x4, {0x000000, 512 * 1024} }, + { .m = { .sec = 0, .tb = X }, 0x5, {0x000000, 1024 * 1024} }, + { .m = { .sec = 0, .tb = X }, 0x6, {0x000000, 1024 * 1024} }, + { .m = { .sec = 0, .tb = X }, 0x7, {0x000000, 1024 * 1024} }, +}; + static uint8_t do_read_status(const struct flashctx *flash) { if (flash->chip->read_status) @@ -116,6 +442,591 @@ return spi_write_status_register(flash, status); }
+/* FIXME: Move to spi25.c if it's a JEDEC standard opcode */ +static uint8_t w25q_read_status_register_2(const struct flashctx *flash) +{ + static const unsigned char cmd[JEDEC_RDSR_OUTSIZE] = { 0x35 }; + unsigned char readarr[2]; + int ret; + + /* Read Status Register */ + ret = spi_send_command(flash, sizeof(cmd), sizeof(readarr), cmd, readarr); + if (ret) { + /* + * FIXME: make this a benign failure for now in case we are + * unable to execute the opcode + */ + msg_cdbg("RDSR2 failed!\n"); + readarr[0] = 0x00; + } + + return readarr[0]; +} + +/* Given a flash chip, this function returns its range table. */ +static int w25_range_table(const struct flashctx *flash, + struct wp_range_descriptor **descrs, + int *num_entries) +{ + *descrs = 0; + *num_entries = 0; + + switch (flash->chip->manufacture_id) { + case WINBOND_NEX_ID: + switch(flash->chip->model_id) { + case WINBOND_NEX_W25X10: + *descrs = w25x10_ranges; + *num_entries = ARRAY_SIZE(w25x10_ranges); + break; + case WINBOND_NEX_W25X20: + *descrs = w25x20_ranges; + *num_entries = ARRAY_SIZE(w25x20_ranges); + break; + case WINBOND_NEX_W25X40: + *descrs = w25x40_ranges; + *num_entries = ARRAY_SIZE(w25x40_ranges); + break; + case WINBOND_NEX_W25X80: + *descrs = w25x80_ranges; + *num_entries = ARRAY_SIZE(w25x80_ranges); + break; + case WINBOND_NEX_W25Q80_V: + *descrs = w25q80_ranges; + *num_entries = ARRAY_SIZE(w25q80_ranges); + break; + case WINBOND_NEX_W25Q16_V: + *descrs = w25q16_ranges; + *num_entries = ARRAY_SIZE(w25q16_ranges); + break; + case WINBOND_NEX_W25Q32_V: + case WINBOND_NEX_W25Q32_W: + //case WINBOND_NEX_W25Q32JW: + *descrs = w25q32_ranges; + *num_entries = ARRAY_SIZE(w25q32_ranges); + break; + case WINBOND_NEX_W25Q64_V: + case WINBOND_NEX_W25Q64_W: + *descrs = w25q64_ranges; + *num_entries = ARRAY_SIZE(w25q64_ranges); + break; + case WINBOND_NEX_W25Q128_DTR: + case WINBOND_NEX_W25Q128_V_M: + case WINBOND_NEX_W25Q128_V: + case WINBOND_NEX_W25Q128_W: + if (w25q_read_status_register_2(flash) & (1 << 6)) { + /* CMP == 1 */ + *descrs = w25rq128_cmp1_ranges; + *num_entries = ARRAY_SIZE(w25rq128_cmp1_ranges); + } else { + /* CMP == 0 */ + *descrs = w25rq128_cmp0_ranges; + *num_entries = ARRAY_SIZE(w25rq128_cmp0_ranges); + } + break; + case WINBOND_NEX_W25Q256JV_M: + if (w25q_read_status_register_2(flash) & (1 << 6)) { + /* CMP == 1 */ + *descrs = w25rq256_cmp1_ranges; + *num_entries = ARRAY_SIZE(w25rq256_cmp1_ranges); + } else { + /* CMP == 0 */ + *descrs = w25rq256_cmp0_ranges; + *num_entries = ARRAY_SIZE(w25rq256_cmp0_ranges); + } + break; + default: + msg_cerr("%s() %d: WINBOND flash chip mismatch (0x%04x)" + ", aborting\n", __func__, __LINE__, + flash->chip->model_id); + return -1; + } + break; + default: + msg_cerr("%s: flash vendor (0x%x) not found, aborting\n", + __func__, flash->chip->manufacture_id); + return -1; + } + + return 0; +} + +int w25_range_to_status(const struct flashctx *flash, + unsigned int start, unsigned int len, + struct w25q_status *status) +{ + struct wp_range_descriptor *descrs; + int i, range_found = 0; + int num_entries; + + if (w25_range_table(flash, &descrs, &num_entries)) + return -1; + + for (i = 0; i < num_entries; i++) { + struct wp_range *r = &descrs[i].range; + + msg_cspew("comparing range 0x%x 0x%x / 0x%x 0x%x\n", + start, len, r->start, r->len); + if ((start == r->start) && (len == r->len)) { + status->bp0 = descrs[i].bp & 1; + status->bp1 = descrs[i].bp >> 1; + status->bp2 = descrs[i].bp >> 2; + status->tb = descrs[i].m.tb; + status->sec = descrs[i].m.sec; + + range_found = 1; + break; + } + } + + if (!range_found) { + msg_cerr("%s: matching range not found\n", __func__); + return -1; + } + + return 0; +} + +int w25_status_to_range(const struct flashctx *flash, + const struct w25q_status *status, + unsigned int *start, unsigned int *len) +{ + struct wp_range_descriptor *descrs; + int i, status_found = 0; + int num_entries; + + if (w25_range_table(flash, &descrs, &num_entries)) + return -1; + + for (i = 0; i < num_entries; i++) { + int bp; + int table_bp, table_tb, table_sec; + + bp = status->bp0 | (status->bp1 << 1) | (status->bp2 << 2); + msg_cspew("comparing 0x%x 0x%x / 0x%x 0x%x / 0x%x 0x%x\n", + bp, descrs[i].bp, + status->tb, descrs[i].m.tb, + status->sec, descrs[i].m.sec); + table_bp = descrs[i].bp; + table_tb = descrs[i].m.tb; + table_sec = descrs[i].m.sec; + if ((bp == table_bp || table_bp == X) && + (status->tb == table_tb || table_tb == X) && + (status->sec == table_sec || table_sec == X)) { + *start = descrs[i].range.start; + *len = descrs[i].range.len; + + status_found = 1; + break; + } + } + + if (!status_found) { + msg_cerr("matching status not found\n"); + return -1; + } + + return 0; +} + +/* Given a [start, len], this function calls w25_range_to_status() to convert + * it to flash-chip-specific range bits, then sets into status register. + */ +static int w25_set_range(const struct flashctx *flash, + unsigned int start, unsigned int len) +{ + struct w25q_status status; + int tmp = 0; + int expected = 0; + + memset(&status, 0, sizeof(status)); + tmp = do_read_status(flash); + memcpy(&status, &tmp, 1); + msg_cdbg("%s: old status: 0x%02x\n", __func__, tmp); + + if (w25_range_to_status(flash, start, len, &status)) + return -1; + + msg_cdbg("status.busy: %x\n", status.busy); + msg_cdbg("status.wel: %x\n", status.wel); + msg_cdbg("status.bp0: %x\n", status.bp0); + msg_cdbg("status.bp1: %x\n", status.bp1); + msg_cdbg("status.bp2: %x\n", status.bp2); + msg_cdbg("status.tb: %x\n", status.tb); + msg_cdbg("status.sec: %x\n", status.sec); + msg_cdbg("status.srp0: %x\n", status.srp0); + + memcpy(&expected, &status, sizeof(status)); + do_write_status(flash, expected); + + tmp = do_read_status(flash); + msg_cdbg("%s: new status: 0x%02x\n", __func__, tmp); + if ((tmp & MASK_WP_AREA) != (expected & MASK_WP_AREA)) { + msg_cerr("expected=0x%02x, but actual=0x%02x.\n", + expected, tmp); + return 1; + } + + return 0; +} + +/* Print out the current status register value with human-readable text. */ +static int w25_wp_status(const struct flashctx *flash) +{ + struct w25q_status status; + int tmp; + unsigned int start, len; + int ret = 0; + + memset(&status, 0, sizeof(status)); + tmp = do_read_status(flash); + memcpy(&status, &tmp, 1); + msg_cinfo("WP: status: 0x%02x\n", tmp); + msg_cinfo("WP: status.srp0: %x\n", status.srp0); + msg_cinfo("WP: write protect is %s.\n", + status.srp0 ? "enabled" : "disabled"); + + msg_cinfo("WP: write protect range: "); + if (w25_status_to_range(flash, &status, &start, &len)) { + msg_cinfo("(cannot resolve the range)\n"); + ret = -1; + } else { + msg_cinfo("start=0x%08x, len=0x%08x\n", start, len); + } + + return ret; +} + +static int w25q_large_range_to_status(const struct flashctx *flash, + unsigned int start, unsigned int len, + struct w25q_status_large *status) +{ + struct wp_range_descriptor *descrs; + int i, range_found = 0; + int num_entries; + + if (w25_range_table(flash, &descrs, &num_entries)) + return -1; + + for (i = 0; i < num_entries; i++) { + struct wp_range *r = &descrs[i].range; + + msg_cspew("comparing range 0x%x 0x%x / 0x%x 0x%x\n", + start, len, r->start, r->len); + if ((start == r->start) && (len == r->len)) { + status->bp0 = descrs[i].bp & 1; + status->bp1 = descrs[i].bp >> 1; + status->bp2 = descrs[i].bp >> 2; + status->bp3 = descrs[i].bp >> 3; + /* + * For MX25U12835E chip, Top/Bottom (T/B) bit is not + * part of status register and in that bit position is + * Quad Enable (QE) + */ + if (flash->chip->manufacture_id != MACRONIX_ID || + flash->chip->model_id != MACRONIX_MX25U12835E) + status->tb = descrs[i].m.tb; + + range_found = 1; + break; + } + } + + if (!range_found) { + msg_cerr("%s: matching range not found\n", __func__); + return -1; + } + + return 0; +} + +static int w25_large_status_to_range(const struct flashctx *flash, + const struct w25q_status_large *status, + unsigned int *start, unsigned int *len) +{ + struct wp_range_descriptor *descrs; + int i, status_found = 0; + int num_entries; + + if (w25_range_table(flash, &descrs, &num_entries)) + return -1; + + for (i = 0; i < num_entries; i++) { + int bp; + int table_bp, table_tb; + + bp = status->bp0 | (status->bp1 << 1) | (status->bp2 << 2) | + (status->bp3 << 3); + msg_cspew("comparing 0x%x 0x%x / 0x%x 0x%x\n", + bp, descrs[i].bp, + status->tb, descrs[i].m.tb); + table_bp = descrs[i].bp; + table_tb = descrs[i].m.tb; + if ((bp == table_bp || table_bp == X) && + (status->tb == table_tb || table_tb == X)) { + *start = descrs[i].range.start; + *len = descrs[i].range.len; + + status_found = 1; + break; + } + } + + if (!status_found) { + msg_cerr("matching status not found\n"); + return -1; + } + + return 0; +} + +/* Given a [start, len], this function calls w25_range_to_status() to convert + * it to flash-chip-specific range bits, then sets into status register. + * Returns 0 if successful, -1 on error, and 1 if reading back was different. + */ +static int w25q_large_set_range(const struct flashctx *flash, + unsigned int start, unsigned int len) +{ + struct w25q_status_large status; + int tmp; + int expected = 0; + + memset(&status, 0, sizeof(status)); + tmp = do_read_status(flash); + memcpy(&status, &tmp, 1); + msg_cdbg("%s: old status: 0x%02x\n", __func__, tmp); + + if (w25q_large_range_to_status(flash, start, len, &status)) + return -1; + + msg_cdbg("status.busy: %x\n", status.busy); + msg_cdbg("status.wel: %x\n", status.wel); + msg_cdbg("status.bp0: %x\n", status.bp0); + msg_cdbg("status.bp1: %x\n", status.bp1); + msg_cdbg("status.bp2: %x\n", status.bp2); + msg_cdbg("status.bp3: %x\n", status.bp3); + msg_cdbg("status.tb: %x\n", status.tb); + msg_cdbg("status.srp0: %x\n", status.srp0); + + memcpy(&expected, &status, sizeof(status)); + do_write_status(flash, expected); + + tmp = do_read_status(flash); + msg_cdbg("%s: new status: 0x%02x\n", __func__, tmp); + if ((tmp & MASK_WP_AREA_LARGE) != (expected & MASK_WP_AREA_LARGE)) { + msg_cerr("expected=0x%02x, but actual=0x%02x.\n", + expected, tmp); + return 1; + } + + return 0; +} + +static int w25q_large_wp_status(const struct flashctx *flash) +{ + struct w25q_status_large sr1; + struct w25q_status_2 sr2; + uint8_t tmp[2]; + unsigned int start, len; + int ret = 0; + + memset(&sr1, 0, sizeof(sr1)); + tmp[0] = do_read_status(flash); + memcpy(&sr1, &tmp[0], 1); + + memset(&sr2, 0, sizeof(sr2)); + tmp[1] = w25q_read_status_register_2(flash); + memcpy(&sr2, &tmp[1], 1); + + msg_cinfo("WP: status: 0x%02x%02x\n", tmp[1], tmp[0]); + msg_cinfo("WP: status.srp0: %x\n", sr1.srp0); + msg_cinfo("WP: status.srp1: %x\n", sr2.srp1); + msg_cinfo("WP: write protect is %s.\n", + (sr1.srp0 || sr2.srp1) ? "enabled" : "disabled"); + + msg_cinfo("WP: write protect range: "); + if (w25_large_status_to_range(flash, &sr1, &start, &len)) { + msg_cinfo("(cannot resolve the range)\n"); + ret = -1; + } else { + msg_cinfo("start=0x%08x, len=0x%08x\n", start, len); + } + + return ret; +} + +/* Set/clear the SRP0 bit in the status register. */ +static int w25_set_srp0(const struct flashctx *flash, int enable) +{ + struct w25q_status status; + int tmp = 0; + int expected = 0; + + memset(&status, 0, sizeof(status)); + tmp = do_read_status(flash); + /* FIXME: this is NOT endian-free copy. */ + memcpy(&status, &tmp, 1); + msg_cdbg("%s: old status: 0x%02x\n", __func__, tmp); + + status.srp0 = enable ? 1 : 0; + memcpy(&expected, &status, sizeof(status)); + do_write_status(flash, expected); + + tmp = do_read_status(flash); + msg_cdbg("%s: new status: 0x%02x\n", __func__, tmp); + if ((tmp & MASK_WP_AREA) != (expected & MASK_WP_AREA)) + return 1; + + return 0; +} + +static int w25_enable_writeprotect(const struct flashctx *flash, + enum wp_mode wp_mode) +{ + int ret; + + if (wp_mode != WP_MODE_HARDWARE) { + msg_cerr("%s(): unsupported write-protect mode\n", __func__); + return 1; + } + + ret = w25_set_srp0(flash, 1); + if (ret) + msg_cerr("%s(): error=%d.\n", __func__, ret); + return ret; +} + +static int w25_disable_writeprotect(const struct flashctx *flash) +{ + int ret; + + ret = w25_set_srp0(flash, 0); + if (ret) + msg_cerr("%s(): error=%d.\n", __func__, ret); + + return ret; +} + +static int w25_list_ranges(const struct flashctx *flash) +{ + struct wp_range_descriptor *descrs; + int i, num_entries; + + if (w25_range_table(flash, &descrs, &num_entries)) + return -1; + + for (i = 0; i < num_entries; i++) { + msg_cinfo("start: 0x%06x, length: 0x%06x\n", + descrs[i].range.start, + descrs[i].range.len); + } + + return 0; +} + +static int w25q_wp_status(const struct flashctx *flash) +{ + struct w25q_status sr1; + struct w25q_status_2 sr2; + uint8_t tmp[2]; + unsigned int start, len; + int ret = 0; + + memset(&sr1, 0, sizeof(sr1)); + tmp[0] = do_read_status(flash); + memcpy(&sr1, &tmp[0], 1); + + memset(&sr2, 0, sizeof(sr2)); + tmp[1] = w25q_read_status_register_2(flash); + memcpy(&sr2, &tmp[1], 1); + + msg_cinfo("WP: status: 0x%02x%02x\n", tmp[1], tmp[0]); + msg_cinfo("WP: status.srp0: %x\n", sr1.srp0); + msg_cinfo("WP: status.srp1: %x\n", sr2.srp1); + msg_cinfo("WP: write protect is %s.\n", + (sr1.srp0 || sr2.srp1) ? "enabled" : "disabled"); + + msg_cinfo("WP: write protect range: "); + if (w25_status_to_range(flash, &sr1, &start, &len)) { + msg_cinfo("(cannot resolve the range)\n"); + ret = -1; + } else { + msg_cinfo("start=0x%08x, len=0x%08x\n", start, len); + } + + return ret; +} + +/* + * W25Q adds an optional byte to the standard WRSR opcode. If /CS is + * de-asserted after the first byte, then it acts like a JEDEC-standard + * WRSR command. if /CS is asserted, then the next data byte is written + * into status register 2. + */ +#define W25Q_WRSR_OUTSIZE 0x03 +static int w25q_write_status_register_WREN(const struct flashctx *flash, uint8_t s1, uint8_t s2) +{ + int result; + struct spi_command cmds[] = { + { + /* FIXME: WRSR requires either EWSR or WREN depending on chip type. */ + .writecnt = JEDEC_WREN_OUTSIZE, + .writearr = (const unsigned char[]){ JEDEC_WREN }, + .readcnt = 0, + .readarr = NULL, + }, { + .writecnt = W25Q_WRSR_OUTSIZE, + .writearr = (const unsigned char[]){ JEDEC_WRSR, s1, s2 }, + .readcnt = 0, + .readarr = NULL, + }, { + .writecnt = 0, + .writearr = NULL, + .readcnt = 0, + .readarr = NULL, + }}; + + result = spi_send_multicommand(flash, cmds); + if (result) { + msg_cerr("%s failed during command execution\n", + __func__); + } + + /* WRSR performs a self-timed erase before the changes take effect. */ + programmer_delay(100 * 1000); + + return result; +} + +/* + * Set/clear the SRP1 bit in status register 2. + * FIXME: make this more generic if other chips use the same SR2 layout + */ +static int w25q_set_srp1(const struct flashctx *flash, int enable) +{ + struct w25q_status sr1; + struct w25q_status_2 sr2; + uint8_t tmp, expected; + + tmp = do_read_status(flash); + memcpy(&sr1, &tmp, 1); + tmp = w25q_read_status_register_2(flash); + memcpy(&sr2, &tmp, 1); + + msg_cdbg("%s: old status 2: 0x%02x\n", __func__, tmp); + + sr2.srp1 = enable ? 1 : 0; + + memcpy(&expected, &sr2, 1); + w25q_write_status_register_WREN(flash, *((uint8_t *)&sr1), *((uint8_t *)&sr2)); + + tmp = w25q_read_status_register_2(flash); + msg_cdbg("%s: new status 2: 0x%02x\n", __func__, tmp); + if ((tmp & MASK_WP2_AREA) != (expected & MASK_WP2_AREA)) + return 1; + + return 0; +} + enum wp_mode get_wp_mode(const char *mode_str) { enum wp_mode wp_mode = WP_MODE_UNKNOWN; @@ -130,6 +1041,158 @@ return wp_mode; }
+static int w25q_disable_writeprotect(const struct flashctx *flash, + enum wp_mode wp_mode) +{ + int ret = 1; + struct w25q_status_2 sr2; + uint8_t tmp; + + switch (wp_mode) { + case WP_MODE_HARDWARE: + ret = w25_set_srp0(flash, 0); + break; + case WP_MODE_POWER_CYCLE: + tmp = w25q_read_status_register_2(flash); + memcpy(&sr2, &tmp, 1); + if (sr2.srp1) { + msg_cerr("%s(): must disconnect power to disable " + "write-protection\n", __func__); + } else { + ret = 0; + } + break; + case WP_MODE_PERMANENT: + msg_cerr("%s(): cannot disable permanent write-protection\n", + __func__); + break; + default: + msg_cerr("%s(): invalid mode specified\n", __func__); + break; + } + + if (ret) + msg_cerr("%s(): error=%d.\n", __func__, ret); + + return ret; +} + +static int w25q_disable_writeprotect_default(const struct flashctx *flash) +{ + return w25q_disable_writeprotect(flash, WP_MODE_HARDWARE); +} + +static int w25q_enable_writeprotect(const struct flashctx *flash, + enum wp_mode wp_mode) +{ + int ret = 1; + struct w25q_status sr1; + struct w25q_status_2 sr2; + uint8_t tmp; + + switch (wp_mode) { + case WP_MODE_HARDWARE: + if (w25q_disable_writeprotect(flash, WP_MODE_POWER_CYCLE)) { + msg_cerr("%s(): cannot disable power cycle WP mode\n", + __func__); + break; + } + + tmp = do_read_status(flash); + memcpy(&sr1, &tmp, 1); + if (sr1.srp0) + ret = 0; + else + ret = w25_set_srp0(flash, 1); + + break; + case WP_MODE_POWER_CYCLE: + if (w25q_disable_writeprotect(flash, WP_MODE_HARDWARE)) { + msg_cerr("%s(): cannot disable hardware WP mode\n", + __func__); + break; + } + + tmp = w25q_read_status_register_2(flash); + memcpy(&sr2, &tmp, 1); + if (sr2.srp1) + ret = 0; + else + ret = w25q_set_srp1(flash, 1); + + break; + case WP_MODE_PERMANENT: + tmp = do_read_status(flash); + memcpy(&sr1, &tmp, 1); + if (sr1.srp0 == 0) { + ret = w25_set_srp0(flash, 1); + if (ret) { + msg_perr("%s(): cannot enable SRP0 for " + "permanent WP\n", __func__); + break; + } + } + + tmp = w25q_read_status_register_2(flash); + memcpy(&sr2, &tmp, 1); + if (sr2.srp1 == 0) { + ret = w25q_set_srp1(flash, 1); + if (ret) { + msg_perr("%s(): cannot enable SRP1 for " + "permanent WP\n", __func__); + break; + } + } + + break; + default: + msg_perr("%s(): invalid mode %d\n", __func__, wp_mode); + break; + } + + if (ret) + msg_cerr("%s(): error=%d.\n", __func__, ret); + return ret; +} + +/* W25P, W25X, and many flash chips from various vendors */ +struct wp wp_w25 = { + .list_ranges = w25_list_ranges, + .set_range = w25_set_range, + .enable = w25_enable_writeprotect, + .disable = w25_disable_writeprotect, + .wp_status = w25_wp_status, + +}; + +/* W25Q series has features such as a second status register and SFDP */ +struct wp wp_w25q = { + .list_ranges = w25_list_ranges, + .set_range = w25_set_range, + .enable = w25q_enable_writeprotect, + /* + * By default, disable hardware write-protection. We may change + * this later if we want to add fine-grained write-protect disable + * as a command-line option. + */ + .disable = w25q_disable_writeprotect_default, + .wp_status = w25q_wp_status, +}; + +/* W25Q large series has 4 block-protect bits */ +struct wp wp_w25q_large = { + .list_ranges = w25_list_ranges, + .set_range = w25q_large_set_range, + .enable = w25q_enable_writeprotect, + /* + * By default, disable hardware write-protection. We may change + * this later if we want to add fine-grained write-protect disable + * as a command-line option. + */ + .disable = w25q_disable_writeprotect_default, + .wp_status = w25q_large_wp_status, +}; + /* Given a flash chip, this function returns its writeprotect info. */ static int generic_range_table(const struct flashctx *flash, struct wp_context **wp, diff --git a/writeprotect.h b/writeprotect.h index bded4c8..632f169 100644 --- a/writeprotect.h +++ b/writeprotect.h @@ -35,6 +35,11 @@ int (*wp_status)(const struct flashctx *flash); };
+/* winbond w25-series */ +extern struct wp wp_w25; /* older winbond chips (w25p, w25x, etc) */ +extern struct wp wp_w25q; +extern struct wp wp_w25q_large; /* large winbond chips (>= 32MB) */ + extern struct wp wp_generic;
enum wp_mode get_wp_mode(const char *mode_str);