/* * nca_storage.c * * Copyright (c) 2020-2022, 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 of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * nxdumptool 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 this program. If not, see . */ #include "nxdt_utils.h" #include "nca_storage.h" /* Function prototypes. */ static bool ncaStorageInitializeBucketTreeContext(BucketTreeContext **out, NcaFsSectionContext *nca_fs_ctx, u8 storage_type); static bool ncaStorageInitializeCompressedStorageBucketTreeContext(NcaStorageContext *out, NcaFsSectionContext *nca_fs_ctx); bool ncaStorageInitializeContext(NcaStorageContext *out, NcaFsSectionContext *nca_fs_ctx) { if (!out || !nca_fs_ctx || !nca_fs_ctx->enabled || (nca_fs_ctx->section_type == NcaFsSectionType_PatchRomFs && \ (!nca_fs_ctx->has_patch_indirect_layer || !nca_fs_ctx->has_patch_aes_ctr_ex_layer || nca_fs_ctx->has_sparse_layer))) { LOG_MSG_ERROR("Invalid parameters!"); return false; } bool success = false; /* Free output context beforehand. */ ncaStorageFreeContext(out); /* Set initial base storage type. */ out->base_storage_type = NcaStorageBaseStorageType_Regular; /* Check if a sparse layer is available. */ if (nca_fs_ctx->has_sparse_layer) { /* Initialize sparse layer. */ if (!ncaStorageInitializeBucketTreeContext(&(out->sparse_storage), nca_fs_ctx, BucketTreeStorageType_Sparse)) goto end; /* Set sparse layer's substorage. */ if (!bktrSetRegularSubStorage(out->sparse_storage, nca_fs_ctx)) goto end; /* Update base storage type. */ out->base_storage_type = NcaStorageBaseStorageType_Sparse; } /* Check if both Indirect and AesCtrEx layers are available. */ if (nca_fs_ctx->section_type == NcaFsSectionType_PatchRomFs) { /* Initialize AesCtrEx and Indirect layers. */ if (!ncaStorageInitializeBucketTreeContext(&(out->aes_ctr_ex_storage), nca_fs_ctx, BucketTreeStorageType_AesCtrEx) || \ !ncaStorageInitializeBucketTreeContext(&(out->indirect_storage), nca_fs_ctx, BucketTreeStorageType_Indirect)) goto end; /* Set AesCtrEx layer's substorage. */ if (!bktrSetRegularSubStorage(out->aes_ctr_ex_storage, nca_fs_ctx)) goto end; /* Set Indirect layer's AesCtrEx substorage. */ /* Original substorage (index 0) must be manually set at a later time using ncaStorageSetPatchOriginalSubStorage(). */ if (!bktrSetBucketTreeSubStorage(out->indirect_storage, out->aes_ctr_ex_storage, 1)) goto end; /* Update base storage type. */ out->base_storage_type = NcaStorageBaseStorageType_Indirect; } /* Initialize compression layer if it's available, but only if we're also not dealing with a sparse layer. */ if (nca_fs_ctx->has_compression_layer && !nca_fs_ctx->has_sparse_layer && !ncaStorageInitializeCompressedStorageBucketTreeContext(out, nca_fs_ctx)) goto end; /* Update output context. */ out->nca_fs_ctx = nca_fs_ctx; /* Update return value. */ success = true; end: if (!success) ncaStorageFreeContext(out); return success; } bool ncaStorageSetPatchOriginalSubStorage(NcaStorageContext *patch_ctx, NcaStorageContext *base_ctx) { NcaContext *patch_nca_ctx = NULL, *base_nca_ctx = NULL; if (!ncaStorageIsValidContext(patch_ctx) || !ncaStorageIsValidContext(base_ctx) || patch_ctx->nca_fs_ctx == base_ctx->nca_fs_ctx || \ !(patch_nca_ctx = patch_ctx->nca_fs_ctx->nca_ctx) || !(base_nca_ctx = base_ctx->nca_fs_ctx->nca_ctx) || \ patch_ctx->nca_fs_ctx->section_type != NcaFsSectionType_PatchRomFs || base_ctx->nca_fs_ctx->section_type != NcaFsSectionType_RomFs || \ patch_nca_ctx->header.program_id != base_nca_ctx->header.program_id || patch_nca_ctx->header.content_type != base_nca_ctx->header.content_type || \ patch_nca_ctx->id_offset != base_nca_ctx->id_offset || patch_nca_ctx->title_version < base_nca_ctx->title_version || \ (patch_ctx->base_storage_type != NcaStorageBaseStorageType_Indirect && patch_ctx->base_storage_type != NcaStorageBaseStorageType_Compressed) || \ !patch_ctx->indirect_storage || !patch_ctx->aes_ctr_ex_storage || (base_ctx->base_storage_type == NcaStorageBaseStorageType_Compressed && \ patch_ctx->base_storage_type != NcaStorageBaseStorageType_Compressed)) { LOG_MSG_ERROR("Invalid parameters!"); return false; } bool success = false; /* Set original substorage. */ switch(base_ctx->base_storage_type) { case NcaStorageBaseStorageType_Regular: case NcaStorageBaseStorageType_Compressed: /* Regular: we just make the Patch's Indirect Storage's SubStorage #0 point to the Base NCA FS section as-is and call it a day. */ /* Compressed: if a Compressed Storage is available in the Base NCA FS section, the corresponding Patch NCA FS section *must* also have one. */ /* This is because the Patch's Compressed Storage also takes care of LZ4-compressed chunks within Base NCA FS section areas. */ /* Furthermore, the Patch's Indirect Storage already provides section-relative physical offsets for the Base NCA FS section. */ /* In other words, we don't need to parse the Base NCA's Compressed Storage on every read. */ success = bktrSetRegularSubStorage(patch_ctx->indirect_storage, base_ctx->nca_fs_ctx); break; case NcaStorageBaseStorageType_Sparse: /* Sparse: we should *always* arrive here if a Sparse Storage is available in the Base NCA FS section, regardless if a Compressed Storage is available or not. */ /* This is because compression bucket trees are non-existent in Base NCA FS sections that have both Sparse and Compressed Storages. */ /* Furthermore, in these cases, the compression BucketInfo from the NCA FS section header references the full, patched FS section, so we can't really use it. */ /* We just completely ignore the Base's Compressed Storage and let the Patch's Compressed Storage take care of LZ4-compressed chunks. */ /* Anyway, we just make the Patch's Indirect Storage's SubStorage #0 point to the Base's Sparse Storage and call it a day. */ success = bktrSetBucketTreeSubStorage(patch_ctx->indirect_storage, base_ctx->sparse_storage, 0); break; default: break; } if (!success) LOG_MSG_ERROR("Failed to set base storage to patch storage! (0x%02X, 0x%02X).", base_ctx->base_storage_type, patch_ctx->base_storage_type); return success; } bool ncaStorageGetHashTargetExtents(NcaStorageContext *ctx, u64 *out_offset, u64 *out_size) { if (!ncaStorageIsValidContext(ctx) || (!out_offset && !out_size)) { LOG_MSG_ERROR("Invalid parameters!"); return false; } bool success = false; /* Set proper hash target extents. */ switch(ctx->base_storage_type) { case NcaStorageBaseStorageType_Regular: case NcaStorageBaseStorageType_Sparse: case NcaStorageBaseStorageType_Indirect: { u64 hash_target_offset = 0, hash_target_size = 0; /* Get hash target extents from the NCA FS section. */ if (!ncaGetFsSectionHashTargetExtents(ctx->nca_fs_ctx, &hash_target_offset, &hash_target_size)) { LOG_MSG_ERROR("Failed to retrieve NCA FS section's hash target extents!"); goto end; } /* Regular: just provide the NCA FS section hash target extents -- they already represent physical information. */ /* Sparse/Indirect: the base storage's virtual section encompasses the hash layers, too. The NCA FS section hash target extents represent valid virtual information. */ if (out_offset) *out_offset = hash_target_offset; if (out_size) *out_size = hash_target_size; break; } case NcaStorageBaseStorageType_Compressed: { /* Compressed sections already point to the hash target layer. */ if (out_offset) *out_offset = ctx->compressed_storage->start_offset; if (out_size) *out_size = ctx->compressed_storage->end_offset; break; } default: break; } /* Update return value. */ success = true; end: return success; } bool ncaStorageRead(NcaStorageContext *ctx, void *out, u64 read_size, u64 offset) { if (!ncaStorageIsValidContext(ctx) || !out || !read_size) { LOG_MSG_ERROR("Invalid parameters!"); return false; } bool success = false; switch(ctx->base_storage_type) { case NcaStorageBaseStorageType_Regular: success = ncaReadFsSection(ctx->nca_fs_ctx, out, read_size, offset); break; case NcaStorageBaseStorageType_Sparse: success = bktrReadStorage(ctx->sparse_storage, out, read_size, offset); break; case NcaStorageBaseStorageType_Indirect: success = bktrReadStorage(ctx->indirect_storage, out, read_size, offset); break; case NcaStorageBaseStorageType_Compressed: success = bktrReadStorage(ctx->compressed_storage, out, read_size, offset); break; default: break; } if (!success) LOG_MSG_ERROR("Failed to read 0x%lX-byte long block from offset 0x%lX in base storage! (type: %u).", read_size, offset, ctx->base_storage_type); return success; } bool ncaStorageIsBlockWithinPatchStorageRange(NcaStorageContext *ctx, u64 offset, u64 size, bool *out) { if (!ncaStorageIsValidContext(ctx) || ctx->nca_fs_ctx->section_type != NcaFsSectionType_PatchRomFs || (ctx->base_storage_type != NcaStorageBaseStorageType_Indirect && \ ctx->base_storage_type != NcaStorageBaseStorageType_Compressed) || (ctx->base_storage_type == NcaStorageBaseStorageType_Indirect && !ctx->indirect_storage) || \ (ctx->base_storage_type == NcaStorageBaseStorageType_Compressed && !ctx->compressed_storage)) { LOG_MSG_ERROR("Invalid parameters!"); return false; } /* Get base storage. */ BucketTreeContext *bktr_ctx = (ctx->base_storage_type == NcaStorageBaseStorageType_Indirect ? ctx->indirect_storage : ctx->compressed_storage); /* Check if the provided block extents are within the Indirect Storage's range. */ bool success = bktrIsBlockWithinIndirectStorageRange(bktr_ctx, offset, size, out); if (!success) LOG_MSG_ERROR("Failed to determine if block extents are within the Indirect Storage's range!"); return success; } void ncaStorageFreeContext(NcaStorageContext *ctx) { if (!ctx) return; if (ctx->sparse_storage) { bktrFreeContext(ctx->sparse_storage); free(ctx->sparse_storage); } if (ctx->aes_ctr_ex_storage) { bktrFreeContext(ctx->aes_ctr_ex_storage); free(ctx->aes_ctr_ex_storage); } if (ctx->indirect_storage) { bktrFreeContext(ctx->indirect_storage); free(ctx->indirect_storage); } if (ctx->compressed_storage) { bktrFreeContext(ctx->compressed_storage); free(ctx->compressed_storage); } memset(ctx, 0, sizeof(NcaStorageContext)); } static bool ncaStorageInitializeBucketTreeContext(BucketTreeContext **out, NcaFsSectionContext *nca_fs_ctx, u8 storage_type) { if (!out || !nca_fs_ctx || storage_type >= BucketTreeStorageType_Count) { LOG_MSG_ERROR("Invalid parameters!"); return false; } BucketTreeContext *bktr_ctx = NULL; bool success = false; /* Allocate memory for the Bucket Tree context. */ bktr_ctx = calloc(1, sizeof(BucketTreeContext)); if (!bktr_ctx) { LOG_MSG_ERROR("Unable to allocate memory for Bucket Tree context! (%u).", storage_type); goto end; } /* Initialize Bucket Tree context. */ success = bktrInitializeContext(bktr_ctx, nca_fs_ctx, storage_type); if (!success) { LOG_MSG_ERROR("Failed to initialize Bucket Tree context! (%u).", storage_type); goto end; } /* Update output context pointer. */ *out = bktr_ctx; end: if (!success && bktr_ctx) free(bktr_ctx); return success; } static bool ncaStorageInitializeCompressedStorageBucketTreeContext(NcaStorageContext *out, NcaFsSectionContext *nca_fs_ctx) { if (!out || out->base_storage_type < NcaStorageBaseStorageType_Regular || out->base_storage_type > NcaStorageBaseStorageType_Indirect || !nca_fs_ctx || \ !nca_fs_ctx->has_compression_layer || (out->base_storage_type == NcaStorageBaseStorageType_Sparse && !out->sparse_storage) || \ (out->base_storage_type == NcaStorageBaseStorageType_Indirect && !out->indirect_storage)) { LOG_MSG_ERROR("Invalid parameters!"); return false; } BucketTreeContext *bktr_ctx = NULL; BucketTreeSubStorage bktr_substorage = {0}; bool success = false; /* Allocate memory for the Bucket Tree context. */ bktr_ctx = calloc(1, sizeof(BucketTreeContext)); if (!bktr_ctx) { LOG_MSG_ERROR("Unable to allocate memory for Bucket Tree context!"); goto end; } /* Prepare compression layer's substorage. */ bktr_substorage.index = 0; bktr_substorage.nca_fs_ctx = nca_fs_ctx; switch(out->base_storage_type) { case NcaStorageBaseStorageType_Regular: bktr_substorage.type = BucketTreeSubStorageType_Regular; bktr_substorage.bktr_ctx = NULL; break; case NcaStorageBaseStorageType_Sparse: bktr_substorage.type = BucketTreeSubStorageType_Sparse; bktr_substorage.bktr_ctx = out->sparse_storage; break; case NcaStorageBaseStorageType_Indirect: bktr_substorage.type = BucketTreeSubStorageType_Indirect; bktr_substorage.bktr_ctx = out->indirect_storage; break; default: break; } /* Initialize Bucket Tree context. */ success = bktrInitializeCompressedStorageContext(bktr_ctx, &bktr_substorage); if (!success) { LOG_MSG_ERROR("Failed to initialize Bucket Tree context!"); goto end; } /* Update output context. */ out->compressed_storage = bktr_ctx; out->base_storage_type = NcaStorageBaseStorageType_Compressed; end: if (!success && bktr_ctx) free(bktr_ctx); return success; }