/* * pfs.c * * Copyright (c) 2020, DarkMatterCore . * * This file is part of nxdumptool (https://github.com/DarkMatterCore/nxdumptool). * * nxdumptool is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * nxdumptool is distributed in the hope 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 this program. If not, see . */ #include "utils.h" #include "pfs.h" #include "npdm.h" #define PFS_FULL_HEADER_ALIGNMENT 0x20 bool pfsInitializeContext(PartitionFileSystemContext *out, NcaFsSectionContext *nca_fs_ctx) { NcaContext *nca_ctx = NULL; u32 magic = 0; PartitionFileSystemHeader pfs_header = {0}; PartitionFileSystemEntry *main_npdm_entry = NULL; u32 hash_region_count = 0; NcaRegion *hash_region = NULL; if (!out || !nca_fs_ctx || !nca_fs_ctx->enabled || nca_fs_ctx->section_type != NcaFsSectionType_PartitionFs || nca_fs_ctx->header.fs_type != NcaFsType_PartitionFs || \ nca_fs_ctx->header.hash_type != NcaHashType_HierarchicalSha256 || !(nca_ctx = (NcaContext*)nca_fs_ctx->nca_ctx) || (nca_ctx->rights_id_available && !nca_ctx->titlekey_retrieved)) { LOGFILE("Invalid parameters!"); return false; } /* Free output context beforehand. */ pfsFreeContext(out); /* Fill context. */ out->nca_fs_ctx = nca_fs_ctx; if (!ncaValidateHierarchicalSha256Offsets(&(nca_fs_ctx->header.hash_data.hierarchical_sha256_data), nca_fs_ctx->section_size)) { LOGFILE("Invalid HierarchicalSha256 block!"); return false; } hash_region_count = nca_fs_ctx->header.hash_data.hierarchical_sha256_data.hash_region_count; hash_region = &(nca_fs_ctx->header.hash_data.hierarchical_sha256_data.hash_region[hash_region_count - 1]); out->offset = hash_region->offset; out->size = hash_region->size; /* Read partial Partition FS header. */ if (!ncaReadFsSection(nca_fs_ctx, &pfs_header, sizeof(PartitionFileSystemHeader), out->offset)) { LOGFILE("Failed to read partial Partition FS header!"); return false; } magic = __builtin_bswap32(pfs_header.magic); if (magic != PFS0_MAGIC) { LOGFILE("Invalid Partition FS magic word! (0x%08X).", magic); return false; } if (!pfs_header.entry_count || !pfs_header.name_table_size) { LOGFILE("Invalid Partition FS entry count / name table size!"); return false; } /* Calculate full Partition FS header size. */ out->header_size = (sizeof(PartitionFileSystemHeader) + (pfs_header.entry_count * sizeof(PartitionFileSystemEntry)) + pfs_header.name_table_size); /* Allocate memory for the full Partition FS header. */ out->header = calloc(out->header_size, sizeof(u8)); if (!out->header) { LOGFILE("Unable to allocate 0x%lX bytes buffer for the full Partition FS header!", out->header_size); return false; } /* Read full Partition FS header. */ if (!ncaReadFsSection(nca_fs_ctx, out->header, out->header_size, out->offset)) { LOGFILE("Failed to read full Partition FS header!"); pfsFreeContext(out); return false; } /* Check if we're dealing with an ExeFS section. */ if ((main_npdm_entry = pfsGetEntryByName(out, "main.npdm")) != NULL && pfsReadEntryData(out, main_npdm_entry, &magic, sizeof(u32), 0) && \ __builtin_bswap32(magic) == NPDM_META_MAGIC) out->is_exefs = true; return true; } bool pfsReadPartitionData(PartitionFileSystemContext *ctx, void *out, u64 read_size, u64 offset) { if (!ctx || !ctx->nca_fs_ctx || !ctx->size || !out || !read_size || (offset + read_size) > ctx->size) { LOGFILE("Invalid parameters!"); return false; } /* Read partition data. */ if (!ncaReadFsSection(ctx->nca_fs_ctx, out, read_size, ctx->offset + offset)) { LOGFILE("Failed to read Partition FS data!"); return false; } return true; } bool pfsReadEntryData(PartitionFileSystemContext *ctx, PartitionFileSystemEntry *fs_entry, void *out, u64 read_size, u64 offset) { if (!ctx || !fs_entry || !fs_entry->size || (fs_entry->offset + fs_entry->size) > ctx->size || !out || !read_size || (offset + read_size) > fs_entry->size) { LOGFILE("Invalid parameters!"); return false; } /* Read entry data. */ if (!pfsReadPartitionData(ctx, out, read_size, ctx->header_size + fs_entry->offset + offset)) { LOGFILE("Failed to read Partition FS entry data!"); return false; } return true; } bool pfsGetEntryIndexByName(PartitionFileSystemContext *ctx, const char *name, u32 *out_idx) { size_t name_len = 0; PartitionFileSystemEntry *fs_entry = NULL; u32 entry_count = pfsGetEntryCount(ctx); char *name_table = pfsGetNameTable(ctx); if (!entry_count || !name_table || !name || !(name_len = strlen(name)) || !out_idx) { LOGFILE("Invalid parameters!"); return false; } for(u32 i = 0; i < entry_count; i++) { if (!(fs_entry = pfsGetEntryByIndex(ctx, i))) { LOGFILE("Failed to retrieve Partition FS entry #%u!", i); return false; } if (strlen(name_table + fs_entry->name_offset) == name_len && !strcmp(name_table + fs_entry->name_offset, name)) { *out_idx = i; return true; } } /* Only log error if we're not dealing with a NPDM. */ if (name_len != 9 || strcmp(name, "main.npdm") != 0) LOGFILE("Unable to find Partition FS entry \"%s\"!", name); return false; } bool pfsGetTotalDataSize(PartitionFileSystemContext *ctx, u64 *out_size) { u64 total_size = 0; u32 entry_count = pfsGetEntryCount(ctx); PartitionFileSystemEntry *fs_entry = NULL; if (!entry_count || !out_size) { LOGFILE("Invalid parameters!"); return false; } for(u32 i = 0; i < entry_count; i++) { if (!(fs_entry = pfsGetEntryByIndex(ctx, i))) { LOGFILE("Failed to retrieve Partition FS entry #%u!", i); return false; } total_size += fs_entry->size; } *out_size = total_size; return true; } bool pfsGenerateEntryPatch(PartitionFileSystemContext *ctx, PartitionFileSystemEntry *fs_entry, const void *data, u64 data_size, u64 data_offset, NcaHierarchicalSha256Patch *out) { if (!ctx || !ctx->nca_fs_ctx || !ctx->header_size || !ctx->header || !fs_entry || !fs_entry->size || (fs_entry->offset + fs_entry->size) > ctx->size || !data || !data_size || \ (data_offset + data_size) > fs_entry->size || !out) { LOGFILE("Invalid parameters!"); return false; } u64 partition_offset = (ctx->header_size + fs_entry->offset + data_offset); if (!ncaGenerateHierarchicalSha256Patch(ctx->nca_fs_ctx, data, data_size, partition_offset, out)) { LOGFILE("Failed to generate 0x%lX bytes HierarchicalSha256 patch at offset 0x%lX for Partition FS entry!", data_size, partition_offset); return false; } return true; } bool pfsAddEntryInformationToFileContext(PartitionFileSystemFileContext *ctx, const char *entry_name, u64 entry_size, u32 *out_entry_idx) { if (!ctx || !entry_name || !*entry_name) { LOGFILE("Invalid parameters!"); return false; } PartitionFileSystemHeader *header = &(ctx->header); PartitionFileSystemEntry *tmp_pfs_entries = NULL, *cur_pfs_entry = NULL, *prev_pfs_entry = NULL; u64 tmp_pfs_entries_size = ((header->entry_count + 1) * sizeof(PartitionFileSystemEntry)); char *tmp_name_table = NULL; u32 tmp_name_table_size = (header->name_table_size + strlen(entry_name) + 1); /* Reallocate Partition FS entries. */ if (!(tmp_pfs_entries = realloc(ctx->entries, tmp_pfs_entries_size))) { LOGFILE("Failed to reallocate Partition FS entries!"); return false; } ctx->entries = tmp_pfs_entries; tmp_pfs_entries = NULL; /* Update Partition FS entry information. */ cur_pfs_entry = &(ctx->entries[header->entry_count]); prev_pfs_entry = (header->entry_count ? &(ctx->entries[header->entry_count - 1]) : NULL); memset(cur_pfs_entry, 0, sizeof(PartitionFileSystemEntry)); cur_pfs_entry->offset = (prev_pfs_entry ? (prev_pfs_entry->offset + prev_pfs_entry->size) : 0); cur_pfs_entry->size = entry_size; cur_pfs_entry->name_offset = header->name_table_size; /* Reallocate Partition FS name table. */ if (!(tmp_name_table = realloc(ctx->name_table, tmp_name_table_size))) { LOGFILE("Failed to reallocate Partition FS name table!"); return false; } ctx->name_table = tmp_name_table; tmp_name_table = NULL; /* Update Partition FS name table. */ sprintf(ctx->name_table + header->name_table_size, "%s", entry_name); header->name_table_size = tmp_name_table_size; /* Update output entry index. */ if (out_entry_idx) *out_entry_idx = header->entry_count; /* Update Partition FS entry count, name table size and data size. */ header->entry_count++; ctx->fs_size += entry_size; return true; } bool pfsUpdateEntryNameFromFileContext(PartitionFileSystemFileContext *ctx, u32 entry_idx, const char *new_entry_name) { if (!ctx || !ctx->header.entry_count || !ctx->header.name_table_size || !ctx->entries || !ctx->name_table || entry_idx >= ctx->header.entry_count || !new_entry_name || !*new_entry_name) { LOGFILE("Invalid parameters!"); return false; } PartitionFileSystemEntry *pfs_entry = &(ctx->entries[entry_idx]); char *name_table_entry = (ctx->name_table + pfs_entry->name_offset); size_t new_entry_name_len = strlen(new_entry_name); size_t cur_entry_name_len = strlen(name_table_entry); if (new_entry_name_len > cur_entry_name_len) { LOGFILE("New entry name length exceeds previous entry name length! (0x%lX > 0x%lX).", new_entry_name_len, cur_entry_name_len); return false; } memcpy(name_table_entry, new_entry_name, new_entry_name_len); return true; } bool pfsWriteFileContextHeaderToMemoryBuffer(PartitionFileSystemFileContext *ctx, void *buf, u64 buf_size, u64 *out_header_size) { if (!ctx || !ctx->header.entry_count || !ctx->header.name_table_size || !ctx->entries || !ctx->name_table || !buf || !out_header_size) { LOGFILE("Invalid parameters!"); return false; } PartitionFileSystemHeader *header = &(ctx->header); u8 *buf_u8 = (u8*)buf; u64 header_size = 0, full_header_size = 0, block_offset = 0, block_size = 0; u32 padding_size = 0; /* Calculate header size. */ header_size = (sizeof(PartitionFileSystemHeader) + (header->entry_count * sizeof(PartitionFileSystemEntry)) + header->name_table_size); /* Calculate full header size and padding size. */ full_header_size = (IS_ALIGNED(header_size, PFS_FULL_HEADER_ALIGNMENT) ? ALIGN_UP(header_size + 1, PFS_FULL_HEADER_ALIGNMENT) : ALIGN_UP(header_size, PFS_FULL_HEADER_ALIGNMENT)); padding_size = (u32)(full_header_size - header_size); /* Check buffer size. */ if (buf_size < full_header_size) { LOGFILE("Not enough space available in input buffer to write full Partition FS header! (got 0x%lX, need 0x%lX).", buf_size, full_header_size); return false; } /* Update name table size in Partition FS header to make it reflect the padding. */ header->name_table_size += padding_size; /* Write full header. */ block_size = sizeof(PartitionFileSystemHeader); memcpy(buf_u8 + block_offset, header, block_size); block_offset += block_size; block_size = (header->entry_count * sizeof(PartitionFileSystemEntry)); memcpy(buf_u8 + block_offset, ctx->entries, block_size); block_offset += block_size; block_size = header->name_table_size; memcpy(buf_u8 + block_offset, ctx->name_table, block_size); block_offset += block_size; memset(buf_u8 + block_offset, 0, padding_size); /* Update output header size. */ *out_header_size = full_header_size; /* Restore name table size in Partition FS header. */ header->name_table_size -= padding_size; return true; }