/* * This file is part of the flashrom project. * * Copyright 2021 Google LLC * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. */ #include "writeprotect.h" #include "chipdrivers.h" static void decode_range_generic(size_t *start, size_t *len, const struct wp_bits *bits, size_t chip_len, bool fixed_block_len, bool apply_cmp_to_bp, int coeff_offset) { const bool cmp = bits->cmp_bit_present && bits->cmp == 1; /* Interpret BP bits as an integer */ size_t bp = 0; size_t bp_max = 0; for (size_t i = 0; i < bits->bp_bit_count; i++) { bp |= bits->bp[i] << i; bp_max |= 1 << i; } /* * Most chips: the CMP bit only negates the range. * * Some MX chips: the CMP bit negates the BP bits and the range. * (CMP bit is often the MSB BP bit in such chips.) */ if (cmp && apply_cmp_to_bp) bp ^= bp_max; if (bp == 0) { /* Special case: all BP bits are 0 => no write protection */ *len = 0; } else if (bp == bp_max) { /* Special case: all BP bits are 1 => full write protection */ *len = chip_len; } else { /* * Usual case: the BP bits encode a coefficient in the form * `coeff = 2 ** (bp - offset)` where `offset == 1`. * * The range's length is given by multiplying the coefficient * by a base unit, usually a 4K sector or a 64K block. */ size_t coeff = 1 << (bp - coeff_offset); size_t max_coeff = 1 << (bp_max - coeff_offset - 1); size_t sector_len = 4 * KiB; size_t default_block_len = 64 * KiB; if (bits->sec_bit_present && bits->sec == 1) { /* * SEC=1, protect 4K sectors. Flash chips clamp the * protection length at 32K, probably to avoid overlap * with the SEC=0 case. */ *len = min(sector_len * coeff, default_block_len / 2); } else { /* * SEC=0 or is not present, protect blocks. */ size_t block_len = default_block_len; /* * With very large chips, the 'block' size can be * larger than 64K. This occurs when a larger block * size is needed so that half the chip can be * protected by the maximum possible coefficient. */ if (!fixed_block_len) { size_t min_block_len = chip_len / 2 / max_coeff; block_len = max(min_block_len, default_block_len); } *len = min(block_len * coeff, chip_len); } } /* Apply TB bit */ bool protect_top = bits->tb_bit_present ? (bits->tb == 0) : 1; /* Apply CMP bit */ if (cmp) { *len = chip_len - *len; protect_top = !protect_top; } /* Calculate start address, ensuring that empty ranges start at 0 */ if (protect_top && *len > 0) *start = chip_len - *len; else *start = 0; } /* * Protection range calculation that works with many common SPI flash chips. */ void decode_range_spi25(size_t *start, size_t *len, const struct wp_bits *bits, size_t chip_len) { decode_range_generic(start, len, bits, chip_len, /*fixed_block_len=*/false, /*apply_cmp_to_bp=*/false, /*coeff_offset=*/1); } /* * Do not adjust block size to be able to fill half of the chip. */ void decode_range_spi25_64k_block(size_t *start, size_t *len, const struct wp_bits *bits, size_t chip_len) { decode_range_generic(start, len, bits, chip_len, /*fixed_block_len=*/true, /*apply_cmp_to_bp=*/false, /*coeff_offset=*/1); } /* * Inverts BP bits when CMP is set and treats all ones in BP bits as a request to protect whole chip regardless * of the CMP bit. */ void decode_range_spi25_bit_cmp(size_t *start, size_t *len, const struct wp_bits *bits, size_t chip_len) { decode_range_generic(start, len, bits, chip_len, /*fixed_block_len=*/false, /*apply_cmp_to_bp=*/true, /*coeff_offset=*/1); } /* * This multiplies coefficient by 2. To be used with chips which have more BP bits than needed, such that the * most significant BP bit effectively acts as "protect whole chip" flag. */ void decode_range_spi25_2x_block(size_t *start, size_t *len, const struct wp_bits *bits, size_t chip_len) { decode_range_generic(start, len, bits, chip_len, /*fixed_block_len=*/false, /*apply_cmp_to_bp=*/false, /*coeff_offset=*/0); }