/* RetroArch - A frontend for libretro. * Copyright (C) 2010-2014 - Hans-Kristian Arntzen * Copyright (C) 2011-2015 - Daniel De Matteis * * RetroArch 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 Found- * ation, either version 3 of the License, or (at your option) any later version. * * RetroArch 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. * * You should have received a copy of the GNU General Public License along with RetroArch. * If not, see . */ /* BPS/UPS/IPS implementation from bSNES (nall::). * Modified for RetroArch. */ #include #include #include #include #include #include "patch.h" #include "hash.h" #include "file_ops.h" #include "general.h" #include "retroarch_logger.h" enum bps_mode { SOURCE_READ = 0, TARGET_READ, SOURCE_COPY, TARGET_COPY }; struct bps_data { const uint8_t *modify_data, *source_data; uint8_t *target_data; size_t modify_length, source_length, target_length; size_t modify_offset, source_offset, target_offset; uint32_t modify_checksum, source_checksum, target_checksum; size_t source_relative_offset, target_relative_offset, output_offset; }; static uint8_t bps_read(struct bps_data *bps) { uint8_t data = bps->modify_data[bps->modify_offset++]; bps->modify_checksum = crc32_adjust(bps->modify_checksum, data); return data; } static uint64_t bps_decode(struct bps_data *bps) { uint64_t data = 0, shift = 1; for (;;) { uint8_t x = bps_read(bps); data += (x & 0x7f) * shift; if (x & 0x80) break; shift <<= 7; data += shift; } return data; } static void bps_write(struct bps_data *bps, uint8_t data) { if (!bps) return; bps->target_data[bps->output_offset++] = data; bps->target_checksum = crc32_adjust(bps->target_checksum, data); } patch_error_t bps_apply_patch( const uint8_t *modify_data, size_t modify_length, const uint8_t *source_data, size_t source_length, uint8_t *target_data, size_t *target_length) { size_t i; size_t modify_source_size, modify_target_size, modify_markup_size; struct bps_data bps = {0}; uint32_t modify_source_checksum = 0, modify_target_checksum = 0, modify_modify_checksum = 0, checksum; if (modify_length < 19) return PATCH_PATCH_TOO_SMALL; bps.modify_data = modify_data; bps.modify_length = modify_length; bps.target_data = target_data; bps.target_length = *target_length; bps.source_data = source_data; bps.source_length = source_length; bps.modify_checksum = ~0; bps.target_checksum = ~0; if ((bps_read(&bps) != 'B') || (bps_read(&bps) != 'P') || (bps_read(&bps) != 'S') || (bps_read(&bps) != '1')) return PATCH_PATCH_INVALID_HEADER; modify_source_size = bps_decode(&bps); modify_target_size = bps_decode(&bps); modify_markup_size = bps_decode(&bps); for (i = 0; i < modify_markup_size; i++) bps_read(&bps); if (modify_source_size > bps.source_length) return PATCH_SOURCE_TOO_SMALL; if (modify_target_size > bps.target_length) return PATCH_TARGET_TOO_SMALL; while (bps.modify_offset < bps.modify_length - 12) { size_t length = bps_decode(&bps); unsigned mode = length & 3; length = (length >> 2) + 1; switch (mode) { case SOURCE_READ: while (length--) bps_write(&bps, bps.source_data[bps.output_offset]); break; case TARGET_READ: while (length--) bps_write(&bps, bps_read(&bps)); break; case SOURCE_COPY: case TARGET_COPY: { int offset = bps_decode(&bps); bool negative = offset & 1; offset >>= 1; if (negative) offset = -offset; if (mode == SOURCE_COPY) { bps.source_offset += offset; while (length--) bps_write(&bps, bps.source_data[bps.source_offset++]); } else { bps.target_offset += offset; while (length--) bps_write(&bps, bps.target_data[bps.target_offset++]); break; } break; } } } for (i = 0; i < 32; i += 8) modify_source_checksum |= bps_read(&bps) << i; for (i = 0; i < 32; i += 8) modify_target_checksum |= bps_read(&bps) << i; checksum = ~bps.modify_checksum; for (i = 0; i < 32; i += 8) modify_modify_checksum |= bps_read(&bps) << i; bps.source_checksum = crc32_calculate(bps.source_data, bps.source_length); bps.target_checksum = ~bps.target_checksum; if (bps.source_checksum != modify_source_checksum) return PATCH_SOURCE_CHECKSUM_INVALID; if (bps.target_checksum != modify_target_checksum) return PATCH_TARGET_CHECKSUM_INVALID; if (checksum != modify_modify_checksum) return PATCH_PATCH_CHECKSUM_INVALID; *target_length = modify_target_size; return PATCH_SUCCESS; } struct ups_data { const uint8_t *patch_data, *source_data; uint8_t *target_data; unsigned patch_length, source_length, target_length; unsigned patch_offset, source_offset, target_offset; unsigned patch_checksum, source_checksum, target_checksum; }; static uint8_t ups_patch_read(struct ups_data *data) { if (data && data->patch_offset < data->patch_length) { uint8_t n = data->patch_data[data->patch_offset++]; data->patch_checksum = crc32_adjust(data->patch_checksum, n); return n; } return 0x00; } static uint8_t ups_source_read(struct ups_data *data) { if (data && data->source_offset < data->source_length) { uint8_t n = data->source_data[data->source_offset++]; data->source_checksum = crc32_adjust(data->source_checksum, n); return n; } return 0x00; } static void ups_target_write(struct ups_data *data, uint8_t n) { if (data && data->target_offset < data->target_length) { data->target_data[data->target_offset] = n; data->target_checksum = crc32_adjust(data->target_checksum, n); } if (data) data->target_offset++; } static uint64_t ups_decode(struct ups_data *data) { uint64_t offset = 0, shift = 1; while (true) { uint8_t x = ups_patch_read(data); offset += (x & 0x7f) * shift; if (x & 0x80) break; shift <<= 7; offset += shift; } return offset; } patch_error_t ups_apply_patch( const uint8_t *patchdata, size_t patchlength, const uint8_t *sourcedata, size_t sourcelength, uint8_t *targetdata, size_t *targetlength) { size_t i; unsigned source_read_length, target_read_length; uint32_t patch_read_checksum = 0, source_read_checksum = 0, target_read_checksum = 0, patch_result_checksum; struct ups_data data = {0}; data.patch_data = patchdata; data.source_data = sourcedata; data.target_data = targetdata; data.patch_length = patchlength; data.source_length = sourcelength; data.target_length = *targetlength; data.patch_checksum = ~0; data.source_checksum = ~0; data.target_checksum = ~0; if (data.patch_length < 18) return PATCH_PATCH_INVALID; if (ups_patch_read(&data) != 'U') return PATCH_PATCH_INVALID; if (ups_patch_read(&data) != 'P') return PATCH_PATCH_INVALID; if (ups_patch_read(&data) != 'S') return PATCH_PATCH_INVALID; if (ups_patch_read(&data) != '1') return PATCH_PATCH_INVALID; source_read_length = ups_decode(&data); target_read_length = ups_decode(&data); if (data.source_length != source_read_length && data.source_length != target_read_length) return PATCH_SOURCE_INVALID; *targetlength = (data.source_length == source_read_length ? target_read_length : source_read_length); if (data.target_length < *targetlength) return PATCH_TARGET_TOO_SMALL; data.target_length = *targetlength; while (data.patch_offset < data.patch_length - 12) { unsigned length = ups_decode(&data); while (length--) ups_target_write(&data, ups_source_read(&data)); while (true) { uint8_t patch_xor = ups_patch_read(&data); ups_target_write(&data, patch_xor ^ ups_source_read(&data)); if (patch_xor == 0) break; } } while (data.source_offset < data.source_length) ups_target_write(&data, ups_source_read(&data)); while (data.target_offset < data.target_length) ups_target_write(&data, ups_source_read(&data)); for (i = 0; i < 4; i++) source_read_checksum |= ups_patch_read(&data) << (i * 8); for (i = 0; i < 4; i++) target_read_checksum |= ups_patch_read(&data) << (i * 8); patch_result_checksum = ~data.patch_checksum; data.source_checksum = ~data.source_checksum; data.target_checksum = ~data.target_checksum; for (i = 0; i < 4; i++) patch_read_checksum |= ups_patch_read(&data) << (i * 8); if (patch_result_checksum != patch_read_checksum) return PATCH_PATCH_INVALID; if (data.source_checksum == source_read_checksum && data.source_length == source_read_length) { if (data.target_checksum == target_read_checksum && data.target_length == target_read_length) return PATCH_SUCCESS; return PATCH_TARGET_INVALID; } else if (data.source_checksum == target_read_checksum && data.source_length == target_read_length) { if (data.target_checksum == source_read_checksum && data.target_length == source_read_length) return PATCH_SUCCESS; return PATCH_TARGET_INVALID; } return PATCH_SOURCE_INVALID; } patch_error_t ips_apply_patch( const uint8_t *patchdata, size_t patchlen, const uint8_t *sourcedata, size_t sourcelength, uint8_t *targetdata, size_t *targetlength) { uint32_t offset = 5; if (patchlen < 8 || patchdata[0] != 'P' || patchdata[1] != 'A' || patchdata[2] != 'T' || patchdata[3] != 'C' || patchdata[4] != 'H') return PATCH_PATCH_INVALID; memcpy(targetdata, sourcedata, sourcelength); *targetlength = sourcelength; for (;;) { uint32_t address; unsigned length; if (offset > patchlen - 3) break; address = patchdata[offset++] << 16; address |= patchdata[offset++] << 8; address |= patchdata[offset++] << 0; if (address == 0x454f46) /* EOF */ { if (offset == patchlen) return PATCH_SUCCESS; else if (offset == patchlen - 3) { uint32_t size = patchdata[offset++] << 16; size |= patchdata[offset++] << 8; size |= patchdata[offset++] << 0; *targetlength = size; return PATCH_SUCCESS; } } if (offset > patchlen - 2) break; length = patchdata[offset++] << 8; length |= patchdata[offset++] << 0; if (length) /* Copy */ { if (offset > patchlen - length) break; while (length--) targetdata[address++] = patchdata[offset++]; } else /* RLE */ { if (offset > patchlen - 3) break; length = patchdata[offset++] << 8; length |= patchdata[offset++] << 0; if (length == 0) /* Illegal */ break; while (length--) targetdata[address++] = patchdata[offset]; offset++; } if (address > *targetlength) *targetlength = address; } return PATCH_PATCH_INVALID; } static bool apply_patch_content(uint8_t **buf, ssize_t *size, const char *patch_desc, const char *patch_path, patch_func_t func) { size_t target_size; ssize_t patch_size; void *patch_data = NULL; patch_error_t err = PATCH_UNKNOWN; bool success = false; uint8_t *patched_content = NULL; ssize_t ret_size = *size; uint8_t *ret_buf = *buf; if (!read_file(patch_desc, &patch_data, &patch_size)) return false; if (patch_size < 0) return false; if (!path_file_exists(patch_path)) return false; RARCH_LOG("Found %s file in \"%s\", attempting to patch ...\n", patch_desc, patch_path); target_size = ret_size * 4; /* Just to be sure. */ patched_content = (uint8_t*)malloc(target_size); if (!patched_content) { RARCH_ERR("Failed to allocate memory for patched content ...\n"); goto error; } err = func((const uint8_t*)patch_data, patch_size, ret_buf, ret_size, patched_content, &target_size); if (err == PATCH_SUCCESS) { RARCH_LOG("Content patched successfully (%s).\n", patch_desc); success = true; } else RARCH_ERR("Failed to patch %s: Error #%u\n", patch_desc, (unsigned)err); if (success) { free(ret_buf); *buf = patched_content; *size = target_size; } free(patch_data); return true; error: *buf = ret_buf; *size = ret_size; free(patch_data); return false; } static bool try_bps_patch(uint8_t **buf, ssize_t *size) { bool allow_bps = !g_extern.ups_pref && !g_extern.ips_pref; if (!allow_bps) return false; if (g_extern.bps_name[0] == '\0') return false; return apply_patch_content(buf, size, "BPS", g_extern.bps_name, bps_apply_patch); } static bool try_ups_patch(uint8_t **buf, ssize_t *size) { bool allow_ups = !g_extern.bps_pref && !g_extern.ips_pref; if (!allow_ups) return false; if (g_extern.ups_name[0] == '\0') return false; return apply_patch_content(buf, size, "UPS", g_extern.ups_name, ups_apply_patch); } static bool try_ips_patch(uint8_t **buf, ssize_t *size) { bool allow_ips = !g_extern.ups_pref && !g_extern.bps_pref; if (!allow_ips) return false; if (g_extern.ips_name[0] == '\0') return false; return apply_patch_content(buf, size, "IPS", g_extern.ips_name, ips_apply_patch); } /** * patch_content: * @buf : buffer of the content file. * @size : size of the content file. * * Apply patch to the content file in-memory. * **/ void patch_content(uint8_t **buf, ssize_t *size) { if (g_extern.ups_pref + g_extern.bps_pref + g_extern.ips_pref > 1) { RARCH_WARN("Several patches are explicitly defined, ignoring all ...\n"); return; } if (!try_ups_patch(buf, size) && !try_bps_patch(buf, size) && !try_ips_patch(buf, size)) { RARCH_WARN("Did not find a valid content patch.\n"); } }