/* * Copyright (c) 2021, the SerenityOS developers. * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include #include bool verify_block(int fd, int seed, off_t block, AK::ByteBuffer& buffer); bool write_block(int fd, int seed, off_t block, AK::ByteBuffer& buffer); bool verify_block(int fd, int seed, off_t block, AK::ByteBuffer& buffer) { auto offset = block * buffer.size(); auto rs = lseek(fd, offset, SEEK_SET); if (rs < 0) { fprintf(stderr, "Couldn't seek to block %" PRIi64 " (offset %" PRIi64 ") while verifying: %s\n", block, offset, strerror(errno)); return false; } auto rw = read(fd, buffer.data(), buffer.size()); if (rw != static_cast(buffer.size())) { fprintf(stderr, "Failure to read block %" PRIi64 ": %s\n", block, strerror(errno)); return false; } srand((seed + 1) * (block + 1)); for (size_t i = 0; i < buffer.size(); i++) { if (buffer[i] != rand() % 256) { fprintf(stderr, "Discrepancy detected at block %" PRIi64 " offset %zd\n", block, i); return false; } } return true; } bool write_block(int fd, int seed, off_t block, AK::ByteBuffer& buffer) { auto offset = block * buffer.size(); auto rs = lseek(fd, offset, SEEK_SET); if (rs < 0) { fprintf(stderr, "Couldn't seek to block %" PRIi64 " (offset %" PRIi64 ") while verifying: %s\n", block, offset, strerror(errno)); return false; } srand((seed + 1) * (block + 1)); for (size_t i = 0; i < buffer.size(); i++) buffer[i] = rand(); auto rw = write(fd, buffer.data(), buffer.size()); if (rw != static_cast(buffer.size())) { fprintf(stderr, "Failure to write block %" PRIi64 ": %s\n", block, strerror(errno)); return false; } return true; } int main(int argc, char** argv) { Vector arguments; arguments.ensure_capacity(argc); for (auto i = 0; i < argc; ++i) arguments.append({ argv[i], strlen(argv[i]) }); ByteString target; int min_block_offset = 0; int block_length = 2048; int block_size = 512; int count = 1024; int rng_seed = 0; bool paranoid_mode = false; bool random_mode = false; bool stop_mode = false; bool uninitialized_mode = false; Core::ArgsParser args_parser; args_parser.add_option(min_block_offset, "Minimum block offset to consider", "min-offset", 'o', "size"); args_parser.add_option(block_length, "Number of blocks to consider", "length", 's', "size"); args_parser.add_option(block_size, "Block size", "block-size", 'b', "size"); args_parser.add_option(count, "Number of write/read cycles to run", "number", 'n', "number"); args_parser.add_option(rng_seed, "Random number generator seed", "seed", 'S', "number"); args_parser.add_option(paranoid_mode, "Check entire range for consistency after each write", "paranoid", 'p'); args_parser.add_option(random_mode, "Write one block inside range at random", "random", 'r'); args_parser.add_option(stop_mode, "Stop after first error", "abort-on-error", 'a'); args_parser.add_option(uninitialized_mode, "Don't pre-initialize block range", "uninitialized", 'u'); args_parser.add_positional_argument(target, "Target device/file path", "target"); args_parser.parse(arguments); auto buffer_result = AK::ByteBuffer::create_zeroed(block_size); if (buffer_result.is_error()) { warnln("Failed to allocate a buffer of {} bytes", block_size); return EXIT_FAILURE; } auto buffer = buffer_result.release_value(); int fd = open(target.characters(), O_CREAT | O_RDWR, 0666); if (fd < 0) { perror("Couldn't create target file"); return EXIT_FAILURE; } if (!uninitialized_mode) { int old_percent = -100; for (int i = min_block_offset; i < min_block_offset + block_length; i++) { int percent; if (block_length <= 1) percent = 100; else percent = 100 * (i - min_block_offset) / (block_length - 1); if (old_percent != percent) { printf("Pre-initializing entire block range (%3d%%)...\n", percent); old_percent = percent; } if (!write_block(fd, rng_seed, i, buffer)) return EXIT_FAILURE; } } int r = EXIT_SUCCESS; for (int i = 0; i < count; i++) { printf("(%d/%d)\tPass %d...\n", i + 1, count, i + 1); for (int j = min_block_offset; j < min_block_offset + block_length; j++) { off_t block; if (random_mode) while ((block = AK::get_random()) < 0) ; else block = j; block = min_block_offset + block % block_length; if (paranoid_mode) { for (int k = min_block_offset; j < min_block_offset + block_length; j++) { if (!verify_block(fd, rng_seed, k, buffer)) { if (stop_mode) return EXIT_FAILURE; else r = EXIT_FAILURE; } } } else { if (!verify_block(fd, rng_seed, block, buffer)) { if (stop_mode) return EXIT_FAILURE; else r = EXIT_FAILURE; } } if (!write_block(fd, rng_seed, block, buffer)) { if (stop_mode) return EXIT_FAILURE; else r = EXIT_FAILURE; } } } close(fd); return r; }