FreeCalypso > hg > freecalypso-tools
view target-utils/loadagent/amdflash.c @ 921:74d284add54d
fc-fsio: guard against bogus readdir results from the target
If the FFS being operated on contains SE K2x0 extended filenames,
readdir will return strings that are bad for printing. We need to
guard against this possibility, and also against possible other
bogosity that could be sent by other alien firmwares.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Sat, 31 Dec 2022 22:55:23 +0000 |
| parents | b34384991094 |
| children |
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/* * This module implements the AMFB and AMFW commands for programming * AMD-style flash memories. Syntax: * * AMFB <baseaddr> -- sets the base address for subsequent AMFW commands * AMFW <offset> <hexstring> -- the actual flash write operation * * The flash memory is assumed to be 16 bits wide. The hex string * argument to the AMFW command is just data, with no header, address, * length, checksum or other additions. The number of hex digits in the * string must be a multiple of 4, and the byte order is the same as * that of TI's *.m0 files: we interpret the string as consisting of * 16-bit words rather than bytes. * * The address to which each flash write is directed is the sum of the * base given to AMFB and the offset given to AMFW. The fixed offsets * of 0xAAA and 0x554 (0x555 and 0x2AA in words) prescribed for the flash * programming command sequence are also made from the base set with AMFB. */ #include <sys/types.h> #include "types.h" static u32 base_addr; void cmd_AMFB(argbulk) char *argbulk; { char *argv[2]; u_long addr; if (parse_args(argbulk, 1, 1, argv, 0) < 0) return; if (parse_hexarg(argv[0], 8, &addr) < 0) { printf("ERROR: argument must be a valid 32-bit hex address\n"); return; } if (addr & 1) { printf("ERROR: odd address\n"); return; } base_addr = addr; } void cmd_AMFW(argbulk) char *argbulk; { char *argv[3], *s; u_long offset; volatile u16 *flashptr; u32 datum; /* needs to be u32 for decode_hex_digits() */ int i; if (parse_args(argbulk, 2, 2, argv, 0) < 0) return; if (parse_hexarg(argv[0], 8, &offset) < 0) { printf("ERROR: offset argument must a valid 32-bit hex value\n"); return; } if (offset & 1) { printf("ERROR: odd offset argument\n"); return; } flashptr = (volatile u16 *)(base_addr + offset); for (s = argv[1]; *s; flashptr++, s += 4) { if (decode_hex_digits(s, 4, &datum) < 0) { printf("ERROR: bad AMFW hex string argument\n"); return; } if (*flashptr != 0xFFFF) { printf("ERROR: flash not blank at %08X\n", (u_long) flashptr); return; } *(volatile u16 *)(base_addr + 0xAAA) = 0xAA; *(volatile u16 *)(base_addr + 0x554) = 0x55; *(volatile u16 *)(base_addr + 0xAAA) = 0xA0; *flashptr = datum; for (i = 10000; i; i--) if (*flashptr == datum) break; if (!i) { printf("ERROR: flash write timeout at %08X\n", (u_long) flashptr); return; } } } amdflash_binary_prog(offset, nwords, data) u32 offset; unsigned nwords; u16 *data; { volatile u16 *flashptr; int i; flashptr = (volatile u16 *)(base_addr + offset); while (nwords) { if (*flashptr != 0xFFFF) { serial_out(0x15); /* NAK */ printf("ERROR: flash not blank at %08X\n", (u_long) flashptr); return(-1); } *(volatile u16 *)(base_addr + 0xAAA) = 0xAA; *(volatile u16 *)(base_addr + 0x554) = 0x55; *(volatile u16 *)(base_addr + 0xAAA) = 0xA0; *flashptr = *data; for (i = 10000; i; i--) if (*flashptr == *data) break; if (!i) { serial_out(0x15); /* NAK */ printf("ERROR: flash write timeout at %08X\n", (u_long) flashptr); return(-1); } flashptr++; data++; nwords--; } return(0); } void cmd_AMFWB() { binary_flash_prog_main(amdflash_binary_prog); }