/* * Copyright (C) 2007 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. */ // // Read-only access to Zip archives, with minimal heap allocation. // #define LOG_TAG "zipro" //#define LOG_NDEBUG 0 #include #include #include #include #include #include #include #include #include #include #include #include using namespace android; class _ZipEntryRO { public: ZipEntry entry; std::string_view name; void *cookie = nullptr; _ZipEntryRO() = default; ~_ZipEntryRO() { EndIteration(cookie); } android::ZipEntryRO convertToPtr() { _ZipEntryRO* result = new _ZipEntryRO; result->entry = std::move(this->entry); result->name = std::move(this->name); result->cookie = std::exchange(this->cookie, nullptr); return result; } private: DISALLOW_COPY_AND_ASSIGN(_ZipEntryRO); }; ZipFileRO::~ZipFileRO() { CloseArchive(mHandle); if (mFileName != NULL) { free(mFileName); } } /* * Open the specified file read-only. We memory-map the entire thing and * close the file before returning. */ /* static */ ZipFileRO* ZipFileRO::open(const char* zipFileName) { ZipArchiveHandle handle; const int32_t error = OpenArchive(zipFileName, &handle); if (error) { ALOGW("Error opening archive %s: %s", zipFileName, ErrorCodeString(error)); CloseArchive(handle); return NULL; } return new ZipFileRO(handle, strdup(zipFileName)); } /* static */ ZipFileRO* ZipFileRO::openFd(int fd, const char* debugFileName, bool assume_ownership) { ZipArchiveHandle handle; const int32_t error = OpenArchiveFd(fd, debugFileName, &handle, assume_ownership); if (error) { ALOGW("Error opening archive fd %d %s: %s", fd, debugFileName, ErrorCodeString(error)); CloseArchive(handle); return NULL; } return new ZipFileRO(handle, strdup(debugFileName)); } ZipEntryRO ZipFileRO::findEntryByName(const char* entryName) const { _ZipEntryRO data; data.name = entryName; const int32_t error = FindEntry(mHandle, entryName, &(data.entry)); if (error) { return nullptr; } return data.convertToPtr(); } /* * Get the useful fields from the zip entry. * * Returns "false" if the offsets to the fields or the contents of the fields * appear to be bogus. */ bool ZipFileRO::getEntryInfo(ZipEntryRO entry, uint16_t* pMethod, uint32_t* pUncompLen, uint32_t* pCompLen, off64_t* pOffset, uint32_t* pModWhen, uint32_t* pCrc32, uint16_t* pExtraFieldSize) const { const _ZipEntryRO* zipEntry = reinterpret_cast<_ZipEntryRO*>(entry); const ZipEntry& ze = zipEntry->entry; if (pMethod != nullptr) { *pMethod = ze.method; } if (pUncompLen != nullptr) { *pUncompLen = ze.uncompressed_length; } if (pCompLen != nullptr) { *pCompLen = ze.compressed_length; } if (pOffset != nullptr) { *pOffset = ze.offset; } if (pModWhen != nullptr) { *pModWhen = ze.mod_time; } if (pCrc32 != nullptr) { *pCrc32 = ze.crc32; } if (pExtraFieldSize != nullptr) { *pExtraFieldSize = ze.extra_field_size; } return true; } bool ZipFileRO::startIteration(void** cookie) { return startIteration(cookie, nullptr, nullptr); } bool ZipFileRO::startIteration(void** cookie, const char* prefix, const char* suffix) { auto result = startIterationOrError(prefix, suffix); if (!result.ok()) { return false; } *cookie = result.value(); return true; } base::expected ZipFileRO::startIterationOrError(const char* prefix, const char* suffix) { _ZipEntryRO ze; int32_t error = StartIteration(mHandle, &(ze.cookie), prefix ? prefix : "", suffix ? suffix : ""); if (error) { ALOGW("Could not start iteration over %s: %s", mFileName != NULL ? mFileName : "", ErrorCodeString(error)); return base::unexpected(error); } return ze.convertToPtr(); } ZipEntryRO ZipFileRO::nextEntry(void* cookie) { auto result = nextEntryOrError(cookie); if (!result.ok()) { return nullptr; } return result.value(); } base::expected ZipFileRO::nextEntryOrError(void* cookie) { _ZipEntryRO* ze = reinterpret_cast<_ZipEntryRO*>(cookie); int32_t error = Next(ze->cookie, &(ze->entry), &(ze->name)); if (error) { if (error != -1) { ALOGW("Error iteration over %s: %s", mFileName != NULL ? mFileName : "", ErrorCodeString(error)); return base::unexpected(error); } return nullptr; } return &(ze->entry); } void ZipFileRO::endIteration(void* cookie) { delete reinterpret_cast<_ZipEntryRO*>(cookie); } void ZipFileRO::releaseEntry(ZipEntryRO entry) const { delete reinterpret_cast<_ZipEntryRO*>(entry); } /* * Copy the entry's filename to the buffer. */ int ZipFileRO::getEntryFileName(ZipEntryRO entry, char* buffer, size_t bufLen) const { const _ZipEntryRO* zipEntry = reinterpret_cast<_ZipEntryRO*>(entry); const uint16_t requiredSize = zipEntry->name.length() + 1; if (bufLen < requiredSize) { ALOGW("Buffer too short, requires %d bytes for entry name", requiredSize); return requiredSize; } memcpy(buffer, zipEntry->name.data(), requiredSize - 1); buffer[requiredSize - 1] = '\0'; return 0; } /* * Create a new FileMap object that spans the data in "entry". */ FileMap* ZipFileRO::createEntryFileMap(ZipEntryRO entry) const { const _ZipEntryRO *zipEntry = reinterpret_cast<_ZipEntryRO*>(entry); const ZipEntry& ze = zipEntry->entry; int fd = GetFileDescriptor(mHandle); size_t actualLen = 0; if (ze.method == kCompressStored) { actualLen = ze.uncompressed_length; } else { actualLen = ze.compressed_length; } FileMap* newMap = new FileMap(); if (!newMap->create(mFileName, fd, ze.offset, actualLen, true)) { delete newMap; return NULL; } return newMap; } /* * Create a new incfs::IncFsFileMap object that spans the data in "entry". */ std::optional ZipFileRO::createEntryIncFsFileMap(ZipEntryRO entry) const { const _ZipEntryRO *zipEntry = reinterpret_cast<_ZipEntryRO*>(entry); const ZipEntry& ze = zipEntry->entry; int fd = GetFileDescriptor(mHandle); size_t actualLen = 0; if (ze.method == kCompressStored) { actualLen = ze.uncompressed_length; } else { actualLen = ze.compressed_length; } incfs::IncFsFileMap newMap; if (!newMap.Create(fd, ze.offset, actualLen, mFileName)) { return std::nullopt; } return std::move(newMap); } /* * Uncompress an entry, in its entirety, into the provided output buffer. * * This doesn't verify the data's CRC, which might be useful for * uncompressed data. The caller should be able to manage it. */ bool ZipFileRO::uncompressEntry(ZipEntryRO entry, void* buffer, size_t size) const { _ZipEntryRO *zipEntry = reinterpret_cast<_ZipEntryRO*>(entry); const int32_t error = ExtractToMemory(mHandle, &(zipEntry->entry), (uint8_t*) buffer, size); if (error) { ALOGW("ExtractToMemory failed with %s", ErrorCodeString(error)); return false; } return true; } /* * Uncompress an entry, in its entirety, to an open file descriptor. * * This doesn't verify the data's CRC, but probably should. */ bool ZipFileRO::uncompressEntry(ZipEntryRO entry, int fd) const { _ZipEntryRO *zipEntry = reinterpret_cast<_ZipEntryRO*>(entry); const int32_t error = ExtractEntryToFile(mHandle, &(zipEntry->entry), fd); if (error) { ALOGW("ExtractToFile failed with %s", ErrorCodeString(error)); return false; } return true; } const char* ZipFileRO::getZipFileName() { return mFileName; }