/* * Copyright (C) 2018 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "idmap2/Idmap.h" #include #include #include #include #include #include #include #include "android-base/macros.h" #include "androidfw/AssetManager2.h" #include "idmap2/ResourceMapping.h" #include "idmap2/ResourceUtils.h" #include "idmap2/Result.h" #include "idmap2/SysTrace.h" namespace android::idmap2 { namespace { bool WARN_UNUSED Read8(std::istream& stream, uint8_t* out) { uint8_t value; if (stream.read(reinterpret_cast(&value), sizeof(uint8_t))) { *out = value; return true; } return false; } bool WARN_UNUSED Read16(std::istream& stream, uint16_t* out) { uint16_t value; if (stream.read(reinterpret_cast(&value), sizeof(uint16_t))) { *out = dtohs(value); return true; } return false; } bool WARN_UNUSED Read32(std::istream& stream, uint32_t* out) { uint32_t value; if (stream.read(reinterpret_cast(&value), sizeof(uint32_t))) { *out = dtohl(value); return true; } return false; } bool WARN_UNUSED ReadString(std::istream& stream, std::string* out) { uint32_t size; if (!Read32(stream, &size)) { return false; } if (size == 0) { *out = ""; return true; } std::string buf(size, '\0'); if (!stream.read(buf.data(), size)) { return false; } uint32_t padding_size = CalculatePadding(size); std::string padding(padding_size, '\0'); if (!stream.read(padding.data(), padding_size)) { return false; } *out = buf; return true; } } // namespace std::unique_ptr IdmapHeader::FromBinaryStream(std::istream& stream) { std::unique_ptr idmap_header(new IdmapHeader()); if (!Read32(stream, &idmap_header->magic_) || !Read32(stream, &idmap_header->version_)) { return nullptr; } if (idmap_header->magic_ != kIdmapMagic || idmap_header->version_ != kIdmapCurrentVersion) { // Do not continue parsing if the file is not a current version idmap. return nullptr; } uint32_t enforce_overlayable; if (!Read32(stream, &idmap_header->target_crc_) || !Read32(stream, &idmap_header->overlay_crc_) || !Read32(stream, &idmap_header->fulfilled_policies_) || !Read32(stream, &enforce_overlayable) || !ReadString(stream, &idmap_header->target_path_) || !ReadString(stream, &idmap_header->overlay_path_) || !ReadString(stream, &idmap_header->overlay_name_) || !ReadString(stream, &idmap_header->debug_info_)) { return nullptr; } idmap_header->enforce_overlayable_ = enforce_overlayable != 0U; return std::move(idmap_header); } Result IdmapHeader::IsUpToDate(const TargetResourceContainer& target, const OverlayResourceContainer& overlay, const std::string& overlay_name, PolicyBitmask fulfilled_policies, bool enforce_overlayable) const { const Result target_crc = target.GetCrc(); if (!target_crc) { return Error("failed to get target crc"); } const Result overlay_crc = overlay.GetCrc(); if (!overlay_crc) { return Error("failed to get overlay crc"); } return IsUpToDate(target.GetPath(), overlay.GetPath(), overlay_name, *target_crc, *overlay_crc, fulfilled_policies, enforce_overlayable); } Result IdmapHeader::IsUpToDate(const std::string& target_path, const std::string& overlay_path, const std::string& overlay_name, uint32_t target_crc, uint32_t overlay_crc, PolicyBitmask fulfilled_policies, bool enforce_overlayable) const { if (magic_ != kIdmapMagic) { return Error("bad magic: actual 0x%08x, expected 0x%08x", magic_, kIdmapMagic); } if (version_ != kIdmapCurrentVersion) { return Error("bad version: actual 0x%08x, expected 0x%08x", version_, kIdmapCurrentVersion); } if (target_crc_ != target_crc) { return Error("bad target crc: idmap version 0x%08x, file system version 0x%08x", target_crc_, target_crc); } if (overlay_crc_ != overlay_crc) { return Error("bad overlay crc: idmap version 0x%08x, file system version 0x%08x", overlay_crc_, overlay_crc); } if (fulfilled_policies_ != fulfilled_policies) { return Error("bad fulfilled policies: idmap version 0x%08x, file system version 0x%08x", fulfilled_policies, fulfilled_policies_); } if (enforce_overlayable != enforce_overlayable_) { return Error("bad enforce overlayable: idmap version %s, file system version %s", enforce_overlayable ? "true" : "false", enforce_overlayable_ ? "true" : "false"); } if (target_path != target_path_) { return Error("bad target path: idmap version %s, file system version %s", target_path.c_str(), target_path_.c_str()); } if (overlay_path != overlay_path_) { return Error("bad overlay path: idmap version %s, file system version %s", overlay_path.c_str(), overlay_path_.c_str()); } if (overlay_name != overlay_name_) { return Error("bad overlay name: idmap version %s, file system version %s", overlay_name.c_str(), overlay_name_.c_str()); } return Unit{}; } std::unique_ptr IdmapData::Header::FromBinaryStream(std::istream& stream) { std::unique_ptr idmap_data_header(new IdmapData::Header()); if (!Read32(stream, &idmap_data_header->target_entry_count) || !Read32(stream, &idmap_data_header->target_entry_inline_count) || !Read32(stream, &idmap_data_header->overlay_entry_count) || !Read32(stream, &idmap_data_header->string_pool_index_offset)) { return nullptr; } return std::move(idmap_data_header); } std::unique_ptr IdmapData::FromBinaryStream(std::istream& stream) { std::unique_ptr data(new IdmapData()); data->header_ = IdmapData::Header::FromBinaryStream(stream); if (!data->header_) { return nullptr; } // Read the mapping of target resource id to overlay resource value. for (size_t i = 0; i < data->header_->GetTargetEntryCount(); i++) { TargetEntry target_entry{}; if (!Read32(stream, &target_entry.target_id) || !Read32(stream, &target_entry.overlay_id)) { return nullptr; } data->target_entries_.push_back(target_entry); } // Read the mapping of target resource id to inline overlay values. uint8_t unused1; uint16_t unused2; for (size_t i = 0; i < data->header_->GetTargetInlineEntryCount(); i++) { TargetInlineEntry target_entry{}; if (!Read32(stream, &target_entry.target_id) || !Read16(stream, &unused2) || !Read8(stream, &unused1) || !Read8(stream, &target_entry.value.data_type) || !Read32(stream, &target_entry.value.data_value)) { return nullptr; } data->target_inline_entries_.push_back(target_entry); } // Read the mapping of overlay resource id to target resource id. for (size_t i = 0; i < data->header_->GetOverlayEntryCount(); i++) { OverlayEntry overlay_entry{}; if (!Read32(stream, &overlay_entry.overlay_id) || !Read32(stream, &overlay_entry.target_id)) { return nullptr; } data->overlay_entries_.emplace_back(overlay_entry); } // Read raw string pool bytes. if (!ReadString(stream, &data->string_pool_data_)) { return nullptr; } return std::move(data); } std::string Idmap::CanonicalIdmapPathFor(const std::string& absolute_dir, const std::string& absolute_apk_path) { assert(absolute_dir.size() > 0 && absolute_dir[0] == "/"); assert(absolute_apk_path.size() > 0 && absolute_apk_path[0] == "/"); std::string copy(++absolute_apk_path.cbegin(), absolute_apk_path.cend()); replace(copy.begin(), copy.end(), '/', '@'); return absolute_dir + "/" + copy + "@idmap"; } Result> Idmap::FromBinaryStream(std::istream& stream) { SYSTRACE << "Idmap::FromBinaryStream"; std::unique_ptr idmap(new Idmap()); idmap->header_ = IdmapHeader::FromBinaryStream(stream); if (!idmap->header_) { return Error("failed to parse idmap header"); } // idmap version 0x01 does not specify the number of data blocks that follow // the idmap header; assume exactly one data block for (int i = 0; i < 1; i++) { std::unique_ptr data = IdmapData::FromBinaryStream(stream); if (!data) { return Error("failed to parse data block %d", i); } idmap->data_.push_back(std::move(data)); } return {std::move(idmap)}; } Result> IdmapData::FromResourceMapping( const ResourceMapping& resource_mapping) { if (resource_mapping.GetTargetToOverlayMap().empty()) { return Error("no resources were overlaid"); } std::unique_ptr data(new IdmapData()); data->string_pool_data_ = resource_mapping.GetStringPoolData().to_string(); for (const auto& mapping : resource_mapping.GetTargetToOverlayMap()) { if (auto overlay_resource = std::get_if(&mapping.second)) { data->target_entries_.push_back({mapping.first, *overlay_resource}); } else { data->target_inline_entries_.push_back( {mapping.first, std::get(mapping.second)}); } } for (const auto& mapping : resource_mapping.GetOverlayToTargetMap()) { data->overlay_entries_.emplace_back(IdmapData::OverlayEntry{mapping.first, mapping.second}); } std::unique_ptr data_header(new IdmapData::Header()); data_header->target_entry_count = static_cast(data->target_entries_.size()); data_header->target_entry_inline_count = static_cast(data->target_inline_entries_.size()); data_header->overlay_entry_count = static_cast(data->overlay_entries_.size()); data_header->string_pool_index_offset = resource_mapping.GetStringPoolOffset(); data->header_ = std::move(data_header); return {std::move(data)}; } Result> Idmap::FromContainers(const TargetResourceContainer& target, const OverlayResourceContainer& overlay, const std::string& overlay_name, const PolicyBitmask& fulfilled_policies, bool enforce_overlayable) { SYSTRACE << "Idmap::FromApkAssets"; std::unique_ptr header(new IdmapHeader()); header->magic_ = kIdmapMagic; header->version_ = kIdmapCurrentVersion; const auto target_crc = target.GetCrc(); if (!target_crc) { return Error(target_crc.GetError(), "failed to get zip CRC for '%s'", target.GetPath().data()); } header->target_crc_ = *target_crc; const auto overlay_crc = overlay.GetCrc(); if (!overlay_crc) { return Error(overlay_crc.GetError(), "failed to get zip CRC for '%s'", overlay.GetPath().data()); } header->overlay_crc_ = *overlay_crc; header->fulfilled_policies_ = fulfilled_policies; header->enforce_overlayable_ = enforce_overlayable; header->target_path_ = target.GetPath(); header->overlay_path_ = overlay.GetPath(); header->overlay_name_ = overlay_name; auto info = overlay.FindOverlayInfo(overlay_name); if (!info) { return Error(info.GetError(), "failed to get overlay info for '%s'", overlay.GetPath().data()); } LogInfo log_info; auto resource_mapping = ResourceMapping::FromContainers( target, overlay, *info, fulfilled_policies, enforce_overlayable, log_info); if (!resource_mapping) { return Error(resource_mapping.GetError(), "failed to generate resource map for '%s'", overlay.GetPath().data()); } auto idmap_data = IdmapData::FromResourceMapping(*resource_mapping); if (!idmap_data) { return idmap_data.GetError(); } std::unique_ptr idmap(new Idmap()); header->debug_info_ = log_info.GetString(); idmap->header_ = std::move(header); idmap->data_.push_back(std::move(*idmap_data)); return {std::move(idmap)}; } void IdmapHeader::accept(Visitor* v) const { assert(v != nullptr); v->visit(*this); } void IdmapData::Header::accept(Visitor* v) const { assert(v != nullptr); v->visit(*this); } void IdmapData::accept(Visitor* v) const { assert(v != nullptr); header_->accept(v); v->visit(*this); } void Idmap::accept(Visitor* v) const { assert(v != nullptr); header_->accept(v); v->visit(*this); auto end = data_.cend(); for (auto iter = data_.cbegin(); iter != end; ++iter) { (*iter)->accept(v); } } } // namespace android::idmap2