/* * Copyright (C) 2006 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. */ // // Access to Zip archives. // #define LOG_TAG "zip" #include #include #include "ZipFile.h" #include #include "zopfli/deflate.h" #include #include #include #include #include using namespace android; /* * Some environments require the "b", some choke on it. */ #define FILE_OPEN_RO "rb" #define FILE_OPEN_RW "r+b" #define FILE_OPEN_RW_CREATE "w+b" /* should live somewhere else? */ static status_t errnoToStatus(int err) { if (err == ENOENT) return NAME_NOT_FOUND; else if (err == EACCES) return PERMISSION_DENIED; else return UNKNOWN_ERROR; } /* * Open a file and parse its guts. */ status_t ZipFile::open(const char* zipFileName, int flags) { bool newArchive = false; assert(mZipFp == NULL); // no reopen if ((flags & kOpenTruncate)) flags |= kOpenCreate; // trunc implies create if ((flags & kOpenReadOnly) && (flags & kOpenReadWrite)) return INVALID_OPERATION; // not both if (!((flags & kOpenReadOnly) || (flags & kOpenReadWrite))) return INVALID_OPERATION; // not neither if ((flags & kOpenCreate) && !(flags & kOpenReadWrite)) return INVALID_OPERATION; // create requires write if (flags & kOpenTruncate) { newArchive = true; } else { newArchive = (access(zipFileName, F_OK) != 0); if (!(flags & kOpenCreate) && newArchive) { /* not creating, must already exist */ ALOGD("File %s does not exist", zipFileName); return NAME_NOT_FOUND; } } /* open the file */ const char* openflags; if (flags & kOpenReadWrite) { if (newArchive) openflags = FILE_OPEN_RW_CREATE; else openflags = FILE_OPEN_RW; } else { openflags = FILE_OPEN_RO; } mZipFp = fopen(zipFileName, openflags); if (mZipFp == NULL) { int err = errno; ALOGD("fopen failed: %d\n", err); return errnoToStatus(err); } status_t result; if (!newArchive) { /* * Load the central directory. If that fails, then this probably * isn't a Zip archive. */ result = readCentralDir(); } else { /* * Newly-created. The EndOfCentralDir constructor actually * sets everything to be the way we want it (all zeroes). We * set mNeedCDRewrite so that we create *something* if the * caller doesn't add any files. (We could also just unlink * the file if it's brand new and nothing was added, but that's * probably doing more than we really should -- the user might * have a need for empty zip files.) */ mNeedCDRewrite = true; result = NO_ERROR; } if (flags & kOpenReadOnly) mReadOnly = true; else assert(!mReadOnly); return result; } /* * Return the Nth entry in the archive. */ android::ZipEntry* ZipFile::getEntryByIndex(int idx) const { if (idx < 0 || idx >= (int) mEntries.size()) return NULL; return mEntries[idx]; } /* * Find an entry by name. */ android::ZipEntry* ZipFile::getEntryByName(const char* fileName) const { /* * Do a stupid linear string-compare search. * * There are various ways to speed this up, especially since it's rare * to intermingle changes to the archive with "get by name" calls. We * don't want to sort the mEntries vector itself, however, because * it's used to recreate the Central Directory. * * (Hash table works, parallel list of pointers in sorted order is good.) */ int idx; for (idx = mEntries.size()-1; idx >= 0; idx--) { ZipEntry* pEntry = mEntries[idx]; if (!pEntry->getDeleted() && strcmp(fileName, pEntry->getFileName()) == 0) { return pEntry; } } return NULL; } /* * Empty the mEntries vector. */ void ZipFile::discardEntries(void) { int count = mEntries.size(); while (--count >= 0) delete mEntries[count]; mEntries.clear(); } /* * Find the central directory and read the contents. * * The fun thing about ZIP archives is that they may or may not be * readable from start to end. In some cases, notably for archives * that were written to stdout, the only length information is in the * central directory at the end of the file. * * Of course, the central directory can be followed by a variable-length * comment field, so we have to scan through it backwards. The comment * is at most 64K, plus we have 18 bytes for the end-of-central-dir stuff * itself, plus apparently sometimes people throw random junk on the end * just for the fun of it. * * This is all a little wobbly. If the wrong value ends up in the EOCD * area, we're hosed. This appears to be the way that everbody handles * it though, so we're in pretty good company if this fails. */ status_t ZipFile::readCentralDir(void) { status_t result = NO_ERROR; uint8_t* buf = NULL; off_t fileLength, seekStart; long readAmount; int i; fseek(mZipFp, 0, SEEK_END); fileLength = ftell(mZipFp); rewind(mZipFp); /* too small to be a ZIP archive? */ if (fileLength < EndOfCentralDir::kEOCDLen) { ALOGD("Length is %ld -- too small\n", (long)fileLength); result = INVALID_OPERATION; goto bail; } buf = new uint8_t[EndOfCentralDir::kMaxEOCDSearch]; if (buf == NULL) { ALOGD("Failure allocating %d bytes for EOCD search", EndOfCentralDir::kMaxEOCDSearch); result = NO_MEMORY; goto bail; } if (fileLength > EndOfCentralDir::kMaxEOCDSearch) { seekStart = fileLength - EndOfCentralDir::kMaxEOCDSearch; readAmount = EndOfCentralDir::kMaxEOCDSearch; } else { seekStart = 0; readAmount = (long) fileLength; } if (fseek(mZipFp, seekStart, SEEK_SET) != 0) { ALOGD("Failure seeking to end of zip at %ld", (long) seekStart); result = UNKNOWN_ERROR; goto bail; } /* read the last part of the file into the buffer */ if (fread(buf, 1, readAmount, mZipFp) != (size_t) readAmount) { ALOGD("short file? wanted %ld\n", readAmount); result = UNKNOWN_ERROR; goto bail; } /* find the end-of-central-dir magic */ for (i = readAmount - 4; i >= 0; i--) { if (buf[i] == 0x50 && ZipEntry::getLongLE(&buf[i]) == EndOfCentralDir::kSignature) { ALOGV("+++ Found EOCD at buf+%d\n", i); break; } } if (i < 0) { ALOGD("EOCD not found, not Zip\n"); result = INVALID_OPERATION; goto bail; } /* extract eocd values */ result = mEOCD.readBuf(buf + i, readAmount - i); if (result != NO_ERROR) { ALOGD("Failure reading %ld bytes of EOCD values", readAmount - i); goto bail; } //mEOCD.dump(); if (mEOCD.mDiskNumber != 0 || mEOCD.mDiskWithCentralDir != 0 || mEOCD.mNumEntries != mEOCD.mTotalNumEntries) { ALOGD("Archive spanning not supported\n"); result = INVALID_OPERATION; goto bail; } /* * So far so good. "mCentralDirSize" is the size in bytes of the * central directory, so we can just seek back that far to find it. * We can also seek forward mCentralDirOffset bytes from the * start of the file. * * We're not guaranteed to have the rest of the central dir in the * buffer, nor are we guaranteed that the central dir will have any * sort of convenient size. We need to skip to the start of it and * read the header, then the other goodies. * * The only thing we really need right now is the file comment, which * we're hoping to preserve. */ if (fseek(mZipFp, mEOCD.mCentralDirOffset, SEEK_SET) != 0) { ALOGD("Failure seeking to central dir offset %" PRIu32 "\n", mEOCD.mCentralDirOffset); result = UNKNOWN_ERROR; goto bail; } /* * Loop through and read the central dir entries. */ ALOGV("Scanning %" PRIu16 " entries...\n", mEOCD.mTotalNumEntries); int entry; for (entry = 0; entry < mEOCD.mTotalNumEntries; entry++) { ZipEntry* pEntry = new ZipEntry; result = pEntry->initFromCDE(mZipFp); if (result != NO_ERROR) { ALOGD("initFromCDE failed\n"); delete pEntry; goto bail; } mEntries.add(pEntry); } /* * If all went well, we should now be back at the EOCD. */ { uint8_t checkBuf[4]; if (fread(checkBuf, 1, 4, mZipFp) != 4) { ALOGD("EOCD check read failed\n"); result = INVALID_OPERATION; goto bail; } if (ZipEntry::getLongLE(checkBuf) != EndOfCentralDir::kSignature) { ALOGD("EOCD read check failed\n"); result = UNKNOWN_ERROR; goto bail; } ALOGV("+++ EOCD read check passed\n"); } bail: delete[] buf; return result; } /* * Add a new file to the archive. * * This requires creating and populating a ZipEntry structure, and copying * the data into the file at the appropriate position. The "appropriate * position" is the current location of the central directory, which we * casually overwrite (we can put it back later). * * If we were concerned about safety, we would want to make all changes * in a temp file and then overwrite the original after everything was * safely written. Not really a concern for us. */ status_t ZipFile::addCommon(const char* fileName, const void* data, size_t size, const char* storageName, int compressionMethod, ZipEntry** ppEntry) { ZipEntry* pEntry = NULL; status_t result = NO_ERROR; long lfhPosn, startPosn, endPosn, uncompressedLen; FILE* inputFp = NULL; uint32_t crc; time_t modWhen; if (mReadOnly) return INVALID_OPERATION; assert(compressionMethod == ZipEntry::kCompressDeflated || compressionMethod == ZipEntry::kCompressStored); /* make sure we're in a reasonable state */ assert(mZipFp != NULL); assert(mEntries.size() == mEOCD.mTotalNumEntries); /* make sure it doesn't already exist */ if (getEntryByName(storageName) != NULL) return ALREADY_EXISTS; if (!data) { inputFp = fopen(fileName, FILE_OPEN_RO); if (inputFp == NULL) return errnoToStatus(errno); } if (fseek(mZipFp, mEOCD.mCentralDirOffset, SEEK_SET) != 0) { result = UNKNOWN_ERROR; goto bail; } pEntry = new ZipEntry; pEntry->initNew(storageName, NULL); /* * From here on out, failures are more interesting. */ mNeedCDRewrite = true; /* * Write the LFH, even though it's still mostly blank. We need it * as a place-holder. In theory the LFH isn't necessary, but in * practice some utilities demand it. */ lfhPosn = ftell(mZipFp); pEntry->mLFH.write(mZipFp); startPosn = ftell(mZipFp); /* * Copy the data in, possibly compressing it as we go. */ if (compressionMethod == ZipEntry::kCompressDeflated) { bool failed = false; result = compressFpToFp(mZipFp, inputFp, data, size, &crc); if (result != NO_ERROR) { ALOGD("compression failed, storing\n"); failed = true; } else { /* * Make sure it has compressed "enough". This probably ought * to be set through an API call, but I don't expect our * criteria to change over time. */ long src = inputFp ? ftell(inputFp) : size; long dst = ftell(mZipFp) - startPosn; if (dst + (dst / 10) > src) { ALOGD("insufficient compression (src=%ld dst=%ld), storing\n", src, dst); failed = true; } } if (failed) { compressionMethod = ZipEntry::kCompressStored; if (inputFp) rewind(inputFp); fseek(mZipFp, startPosn, SEEK_SET); /* fall through to kCompressStored case */ } } /* handle "no compression" request, or failed compression from above */ if (compressionMethod == ZipEntry::kCompressStored) { if (inputFp) { result = copyFpToFp(mZipFp, inputFp, &crc); } else { result = copyDataToFp(mZipFp, data, size, &crc); } if (result != NO_ERROR) { // don't need to truncate; happens in CDE rewrite ALOGD("failed copying data in\n"); goto bail; } } // currently seeked to end of file uncompressedLen = inputFp ? ftell(inputFp) : size; /* * We could write the "Data Descriptor", but there doesn't seem to * be any point since we're going to go back and write the LFH. * * Update file offsets. */ endPosn = ftell(mZipFp); // seeked to end of compressed data /* * Success! Fill out new values. */ pEntry->setDataInfo(uncompressedLen, endPosn - startPosn, crc, compressionMethod); modWhen = getModTime(inputFp ? fileno(inputFp) : fileno(mZipFp)); pEntry->setModWhen(modWhen); pEntry->setLFHOffset(lfhPosn); mEOCD.mNumEntries++; mEOCD.mTotalNumEntries++; mEOCD.mCentralDirSize = 0; // mark invalid; set by flush() mEOCD.mCentralDirOffset = endPosn; /* * Go back and write the LFH. */ if (fseek(mZipFp, lfhPosn, SEEK_SET) != 0) { result = UNKNOWN_ERROR; goto bail; } pEntry->mLFH.write(mZipFp); /* * Add pEntry to the list. */ mEntries.add(pEntry); if (ppEntry != NULL) *ppEntry = pEntry; pEntry = NULL; bail: if (inputFp != NULL) fclose(inputFp); delete pEntry; return result; } /* * Add an entry by copying it from another zip file. If "padding" is * nonzero, the specified number of bytes will be added to the "extra" * field in the header. * * If "ppEntry" is non-NULL, a pointer to the new entry will be returned. */ status_t ZipFile::add(const ZipFile* pSourceZip, const ZipEntry* pSourceEntry, int padding, ZipEntry** ppEntry) { ZipEntry* pEntry = NULL; status_t result; long lfhPosn, endPosn; if (mReadOnly) return INVALID_OPERATION; /* make sure we're in a reasonable state */ assert(mZipFp != NULL); assert(mEntries.size() == mEOCD.mTotalNumEntries); if (fseek(mZipFp, mEOCD.mCentralDirOffset, SEEK_SET) != 0) { result = UNKNOWN_ERROR; goto bail; } pEntry = new ZipEntry; if (pEntry == NULL) { result = NO_MEMORY; goto bail; } result = pEntry->initFromExternal(pSourceEntry); if (result != NO_ERROR) goto bail; if (padding != 0) { result = pEntry->addPadding(padding); if (result != NO_ERROR) goto bail; } /* * From here on out, failures are more interesting. */ mNeedCDRewrite = true; /* * Write the LFH. Since we're not recompressing the data, we already * have all of the fields filled out. */ lfhPosn = ftell(mZipFp); pEntry->mLFH.write(mZipFp); /* * Copy the data over. * * If the "has data descriptor" flag is set, we want to copy the DD * fields as well. This is a fixed-size area immediately following * the data. */ if (fseek(pSourceZip->mZipFp, pSourceEntry->getFileOffset(), SEEK_SET) != 0) { result = UNKNOWN_ERROR; goto bail; } off_t copyLen; copyLen = pSourceEntry->getCompressedLen(); if ((pSourceEntry->mLFH.mGPBitFlag & ZipEntry::kUsesDataDescr) != 0) copyLen += ZipEntry::kDataDescriptorLen; if (copyPartialFpToFp(mZipFp, pSourceZip->mZipFp, copyLen, NULL) != NO_ERROR) { ALOGW("copy of '%s' failed\n", pEntry->mCDE.mFileName); result = UNKNOWN_ERROR; goto bail; } /* * Update file offsets. */ endPosn = ftell(mZipFp); /* * Success! Fill out new values. */ pEntry->setLFHOffset(lfhPosn); // sets mCDE.mLocalHeaderRelOffset mEOCD.mNumEntries++; mEOCD.mTotalNumEntries++; mEOCD.mCentralDirSize = 0; // mark invalid; set by flush() mEOCD.mCentralDirOffset = endPosn; /* * Add pEntry to the list. */ mEntries.add(pEntry); if (ppEntry != NULL) *ppEntry = pEntry; pEntry = NULL; result = NO_ERROR; bail: delete pEntry; return result; } /* * Add an entry by copying it from another zip file, recompressing with * Zopfli if already compressed. * * If "ppEntry" is non-NULL, a pointer to the new entry will be returned. */ status_t ZipFile::addRecompress(const ZipFile* pSourceZip, const ZipEntry* pSourceEntry, ZipEntry** ppEntry) { ZipEntry* pEntry = NULL; status_t result; long lfhPosn, startPosn, endPosn, uncompressedLen; if (mReadOnly) return INVALID_OPERATION; /* make sure we're in a reasonable state */ assert(mZipFp != NULL); assert(mEntries.size() == mEOCD.mTotalNumEntries); if (fseek(mZipFp, mEOCD.mCentralDirOffset, SEEK_SET) != 0) { result = UNKNOWN_ERROR; goto bail; } pEntry = new ZipEntry; if (pEntry == NULL) { result = NO_MEMORY; goto bail; } result = pEntry->initFromExternal(pSourceEntry); if (result != NO_ERROR) goto bail; /* * From here on out, failures are more interesting. */ mNeedCDRewrite = true; /* * Write the LFH, even though it's still mostly blank. We need it * as a place-holder. In theory the LFH isn't necessary, but in * practice some utilities demand it. */ lfhPosn = ftell(mZipFp); pEntry->mLFH.write(mZipFp); startPosn = ftell(mZipFp); /* * Copy the data over. * * If the "has data descriptor" flag is set, we want to copy the DD * fields as well. This is a fixed-size area immediately following * the data. */ if (fseek(pSourceZip->mZipFp, pSourceEntry->getFileOffset(), SEEK_SET) != 0) { result = UNKNOWN_ERROR; goto bail; } uncompressedLen = pSourceEntry->getUncompressedLen(); if (pSourceEntry->isCompressed()) { void *buf = pSourceZip->uncompress(pSourceEntry); if (buf == NULL) { result = NO_MEMORY; goto bail; } long startPosn = ftell(mZipFp); uint32_t crc; if (compressFpToFp(mZipFp, NULL, buf, uncompressedLen, &crc) != NO_ERROR) { ALOGW("recompress of '%s' failed\n", pEntry->mCDE.mFileName); result = UNKNOWN_ERROR; free(buf); goto bail; } long endPosn = ftell(mZipFp); pEntry->setDataInfo(uncompressedLen, endPosn - startPosn, pSourceEntry->getCRC32(), ZipEntry::kCompressDeflated); free(buf); } else { off_t copyLen; copyLen = pSourceEntry->getCompressedLen(); if ((pSourceEntry->mLFH.mGPBitFlag & ZipEntry::kUsesDataDescr) != 0) copyLen += ZipEntry::kDataDescriptorLen; if (copyPartialFpToFp(mZipFp, pSourceZip->mZipFp, copyLen, NULL) != NO_ERROR) { ALOGW("copy of '%s' failed\n", pEntry->mCDE.mFileName); result = UNKNOWN_ERROR; goto bail; } } /* * Update file offsets. */ endPosn = ftell(mZipFp); /* * Success! Fill out new values. */ pEntry->setLFHOffset(lfhPosn); mEOCD.mNumEntries++; mEOCD.mTotalNumEntries++; mEOCD.mCentralDirSize = 0; // mark invalid; set by flush() mEOCD.mCentralDirOffset = endPosn; /* * Go back and write the LFH. */ if (fseek(mZipFp, lfhPosn, SEEK_SET) != 0) { result = UNKNOWN_ERROR; goto bail; } pEntry->mLFH.write(mZipFp); /* * Add pEntry to the list. */ mEntries.add(pEntry); if (ppEntry != NULL) *ppEntry = pEntry; pEntry = NULL; result = NO_ERROR; bail: delete pEntry; return result; } /* * Copy all of the bytes in "src" to "dst". * * On exit, "srcFp" will be seeked to the end of the file, and "dstFp" * will be seeked immediately past the data. */ status_t ZipFile::copyFpToFp(FILE* dstFp, FILE* srcFp, uint32_t* pCRC32) { uint8_t tmpBuf[32768]; size_t count; *pCRC32 = crc32(0L, Z_NULL, 0); while (1) { count = fread(tmpBuf, 1, sizeof(tmpBuf), srcFp); if (ferror(srcFp) || ferror(dstFp)) return errnoToStatus(errno); if (count == 0) break; *pCRC32 = crc32(*pCRC32, tmpBuf, count); if (fwrite(tmpBuf, 1, count, dstFp) != count) { ALOGD("fwrite %d bytes failed\n", (int) count); return UNKNOWN_ERROR; } } return NO_ERROR; } /* * Copy all of the bytes in "src" to "dst". * * On exit, "dstFp" will be seeked immediately past the data. */ status_t ZipFile::copyDataToFp(FILE* dstFp, const void* data, size_t size, uint32_t* pCRC32) { *pCRC32 = crc32(0L, Z_NULL, 0); if (size > 0) { *pCRC32 = crc32(*pCRC32, (const unsigned char*)data, size); if (fwrite(data, 1, size, dstFp) != size) { ALOGD("fwrite %d bytes failed\n", (int) size); return UNKNOWN_ERROR; } } return NO_ERROR; } /* * Copy some of the bytes in "src" to "dst". * * If "pCRC32" is NULL, the CRC will not be computed. * * On exit, "srcFp" will be seeked to the end of the file, and "dstFp" * will be seeked immediately past the data just written. */ status_t ZipFile::copyPartialFpToFp(FILE* dstFp, FILE* srcFp, size_t length, uint32_t* pCRC32) { uint8_t tmpBuf[32768]; size_t count; if (pCRC32 != NULL) *pCRC32 = crc32(0L, Z_NULL, 0); while (length) { size_t readSize; readSize = sizeof(tmpBuf); if (readSize > length) readSize = length; count = fread(tmpBuf, 1, readSize, srcFp); if (count != readSize) { // error or unexpected EOF ALOGD("fread %d bytes failed\n", (int) readSize); return UNKNOWN_ERROR; } if (pCRC32 != NULL) *pCRC32 = crc32(*pCRC32, tmpBuf, count); if (fwrite(tmpBuf, 1, count, dstFp) != count) { ALOGD("fwrite %d bytes failed\n", (int) count); return UNKNOWN_ERROR; } length -= readSize; } return NO_ERROR; } /* * Compress all of the data in "srcFp" and write it to "dstFp". * * On exit, "srcFp" will be seeked to the end of the file, and "dstFp" * will be seeked immediately past the compressed data. */ status_t ZipFile::compressFpToFp(FILE* dstFp, FILE* srcFp, const void* data, size_t size, uint32_t* pCRC32) { status_t result = NO_ERROR; const size_t kBufSize = 1024 * 1024; uint8_t* inBuf = NULL; uint8_t* outBuf = NULL; size_t outSize = 0; bool atEof = false; // no feof() aviailable yet uint32_t crc; ZopfliOptions options; unsigned char bp = 0; ZopfliInitOptions(&options); crc = crc32(0L, Z_NULL, 0); if (data) { crc = crc32(crc, (const unsigned char*)data, size); ZopfliDeflate(&options, 2, true, (const unsigned char*)data, size, &bp, &outBuf, &outSize); } else { /* * Create an input buffer and an output buffer. */ inBuf = new uint8_t[kBufSize]; if (inBuf == NULL) { result = NO_MEMORY; goto bail; } /* * Loop while we have data. */ do { size_t getSize; getSize = fread(inBuf, 1, kBufSize, srcFp); if (ferror(srcFp)) { ALOGD("deflate read failed (errno=%d)\n", errno); result = UNKNOWN_ERROR; delete[] inBuf; goto bail; } if (getSize < kBufSize) { ALOGV("+++ got %d bytes, EOF reached\n", (int)getSize); atEof = true; } crc = crc32(crc, inBuf, getSize); ZopfliDeflate(&options, 2, atEof, inBuf, getSize, &bp, &outBuf, &outSize); } while (!atEof); delete[] inBuf; } ALOGV("+++ writing %d bytes\n", (int)outSize); if (fwrite(outBuf, 1, outSize, dstFp) != outSize) { ALOGD("write %d failed in deflate\n", (int)outSize); result = UNKNOWN_ERROR; goto bail; } *pCRC32 = crc; bail: free(outBuf); return result; } /* * Mark an entry as deleted. * * We will eventually need to crunch the file down, but if several files * are being removed (perhaps as part of an "update" process) we can make * things considerably faster by deferring the removal to "flush" time. */ status_t ZipFile::remove(ZipEntry* pEntry) { /* * Should verify that pEntry is actually part of this archive, and * not some stray ZipEntry from a different file. */ /* mark entry as deleted, and mark archive as dirty */ pEntry->setDeleted(); mNeedCDRewrite = true; return NO_ERROR; } /* * Flush any pending writes. * * In particular, this will crunch out deleted entries, and write the * Central Directory and EOCD if we have stomped on them. */ status_t ZipFile::flush(void) { status_t result = NO_ERROR; long eocdPosn; int i, count; if (mReadOnly) return INVALID_OPERATION; if (!mNeedCDRewrite) return NO_ERROR; assert(mZipFp != NULL); result = crunchArchive(); if (result != NO_ERROR) return result; if (fseek(mZipFp, mEOCD.mCentralDirOffset, SEEK_SET) != 0) return UNKNOWN_ERROR; count = mEntries.size(); for (i = 0; i < count; i++) { ZipEntry* pEntry = mEntries[i]; pEntry->mCDE.write(mZipFp); } eocdPosn = ftell(mZipFp); mEOCD.mCentralDirSize = eocdPosn - mEOCD.mCentralDirOffset; mEOCD.write(mZipFp); /* * If we had some stuff bloat up during compression and get replaced * with plain files, or if we deleted some entries, there's a lot * of wasted space at the end of the file. Remove it now. */ if (ftruncate(fileno(mZipFp), ftell(mZipFp)) != 0) { ALOGW("ftruncate failed %ld: %s\n", ftell(mZipFp), strerror(errno)); // not fatal } /* should we clear the "newly added" flag in all entries now? */ mNeedCDRewrite = false; return NO_ERROR; } /* * Crunch deleted files out of an archive by shifting the later files down. * * Because we're not using a temp file, we do the operation inside the * current file. */ status_t ZipFile::crunchArchive(void) { status_t result = NO_ERROR; int i, count; long delCount, adjust; #if 0 printf("CONTENTS:\n"); for (i = 0; i < (int) mEntries.size(); i++) { printf(" %d: lfhOff=%ld del=%d\n", i, mEntries[i]->getLFHOffset(), mEntries[i]->getDeleted()); } printf(" END is %ld\n", (long) mEOCD.mCentralDirOffset); #endif /* * Roll through the set of files, shifting them as appropriate. We * could probably get a slight performance improvement by sliding * multiple files down at once (because we could use larger reads * when operating on batches of small files), but it's not that useful. */ count = mEntries.size(); delCount = adjust = 0; for (i = 0; i < count; i++) { ZipEntry* pEntry = mEntries[i]; long span; if (pEntry->getLFHOffset() != 0) { long nextOffset; /* Get the length of this entry by finding the offset * of the next entry. Directory entries don't have * file offsets, so we need to find the next non-directory * entry. */ nextOffset = 0; for (int ii = i+1; nextOffset == 0 && ii < count; ii++) nextOffset = mEntries[ii]->getLFHOffset(); if (nextOffset == 0) nextOffset = mEOCD.mCentralDirOffset; span = nextOffset - pEntry->getLFHOffset(); assert(span >= ZipEntry::LocalFileHeader::kLFHLen); } else { /* This is a directory entry. It doesn't have * any actual file contents, so there's no need to * move anything. */ span = 0; } //printf("+++ %d: off=%ld span=%ld del=%d [count=%d]\n", // i, pEntry->getLFHOffset(), span, pEntry->getDeleted(), count); if (pEntry->getDeleted()) { adjust += span; delCount++; delete pEntry; mEntries.removeAt(i); /* adjust loop control */ count--; i--; } else if (span != 0 && adjust > 0) { /* shuffle this entry back */ //printf("+++ Shuffling '%s' back %ld\n", // pEntry->getFileName(), adjust); result = filemove(mZipFp, pEntry->getLFHOffset() - adjust, pEntry->getLFHOffset(), span); if (result != NO_ERROR) { /* this is why you use a temp file */ ALOGE("error during crunch - archive is toast\n"); return result; } pEntry->setLFHOffset(pEntry->getLFHOffset() - adjust); } } /* * Fix EOCD info. We have to wait until the end to do some of this * because we use mCentralDirOffset to determine "span" for the * last entry. */ mEOCD.mCentralDirOffset -= adjust; mEOCD.mNumEntries -= delCount; mEOCD.mTotalNumEntries -= delCount; mEOCD.mCentralDirSize = 0; // mark invalid; set by flush() assert(mEOCD.mNumEntries == mEOCD.mTotalNumEntries); assert(mEOCD.mNumEntries == count); return result; } /* * Works like memmove(), but on pieces of a file. */ status_t ZipFile::filemove(FILE* fp, off_t dst, off_t src, size_t n) { if (dst == src || n <= 0) return NO_ERROR; uint8_t readBuf[32768]; if (dst < src) { /* shift stuff toward start of file; must read from start */ while (n != 0) { size_t getSize = sizeof(readBuf); if (getSize > n) getSize = n; if (fseek(fp, (long) src, SEEK_SET) != 0) { ALOGD("filemove src seek %ld failed\n", (long) src); return UNKNOWN_ERROR; } if (fread(readBuf, 1, getSize, fp) != getSize) { ALOGD("filemove read %ld off=%ld failed\n", (long) getSize, (long) src); return UNKNOWN_ERROR; } if (fseek(fp, (long) dst, SEEK_SET) != 0) { ALOGD("filemove dst seek %ld failed\n", (long) dst); return UNKNOWN_ERROR; } if (fwrite(readBuf, 1, getSize, fp) != getSize) { ALOGD("filemove write %ld off=%ld failed\n", (long) getSize, (long) dst); return UNKNOWN_ERROR; } src += getSize; dst += getSize; n -= getSize; } } else { /* shift stuff toward end of file; must read from end */ assert(false); // write this someday, maybe return UNKNOWN_ERROR; } return NO_ERROR; } /* * Get the modification time from a file descriptor. */ time_t ZipFile::getModTime(int fd) { struct stat sb; if (fstat(fd, &sb) < 0) { ALOGD("HEY: fstat on fd %d failed\n", fd); return (time_t) -1; } return sb.st_mtime; } #if 0 /* this is a bad idea */ /* * Get a copy of the Zip file descriptor. * * We don't allow this if the file was opened read-write because we tend * to leave the file contents in an uncertain state between calls to * flush(). The duplicated file descriptor should only be valid for reads. */ int ZipFile::getZipFd(void) const { if (!mReadOnly) return INVALID_OPERATION; assert(mZipFp != NULL); int fd; fd = dup(fileno(mZipFp)); if (fd < 0) { ALOGD("didn't work, errno=%d\n", errno); } return fd; } #endif #if 0 /* * Expand data. */ bool ZipFile::uncompress(const ZipEntry* pEntry, void* buf) const { return false; } #endif class BufferWriter : public zip_archive::Writer { public: BufferWriter(void* buf, size_t size) : Writer(), buf_(reinterpret_cast(buf)), size_(size), bytes_written_(0) {} bool Append(uint8_t* buf, size_t buf_size) override { if (bytes_written_ + buf_size > size_) { return false; } memcpy(buf_ + bytes_written_, buf, buf_size); bytes_written_ += buf_size; return true; } private: uint8_t* const buf_; const size_t size_; size_t bytes_written_; }; class FileReader : public zip_archive::Reader { public: FileReader(FILE* fp) : Reader(), fp_(fp), current_offset_(0) { } bool ReadAtOffset(uint8_t* buf, size_t len, uint32_t offset) const { // Data is usually requested sequentially, so this helps avoid pointless // fseeks every time we perform a read. There's an impedence mismatch // here because the original API was designed around pread and pwrite. if (offset != current_offset_) { if (fseek(fp_, offset, SEEK_SET) != 0) { return false; } current_offset_ = offset; } size_t read = fread(buf, 1, len, fp_); if (read != len) { return false; } current_offset_ += read; return true; } private: FILE* fp_; mutable uint32_t current_offset_; }; // free the memory when you're done void* ZipFile::uncompress(const ZipEntry* entry) const { size_t unlen = entry->getUncompressedLen(); size_t clen = entry->getCompressedLen(); void* buf = malloc(unlen); if (buf == NULL) { return NULL; } fseek(mZipFp, 0, SEEK_SET); off_t offset = entry->getFileOffset(); if (fseek(mZipFp, offset, SEEK_SET) != 0) { goto bail; } switch (entry->getCompressionMethod()) { case ZipEntry::kCompressStored: { ssize_t amt = fread(buf, 1, unlen, mZipFp); if (amt != (ssize_t)unlen) { goto bail; } #if 0 printf("data...\n"); const unsigned char* p = (unsigned char*)buf; const unsigned char* end = p+unlen; for (int i=0; i<32 && p < end; i++) { printf("0x%08x ", (int)(offset+(i*0x10))); for (int j=0; j<0x10 && p < end; j++) { printf(" %02x", *p); p++; } printf("\n"); } #endif } break; case ZipEntry::kCompressDeflated: { const FileReader reader(mZipFp); BufferWriter writer(buf, unlen); if (zip_archive::Inflate(reader, clen, unlen, &writer, nullptr) != 0) { goto bail; } break; } default: goto bail; } return buf; bail: free(buf); return NULL; } /* * =========================================================================== * ZipFile::EndOfCentralDir * =========================================================================== */ /* * Read the end-of-central-dir fields. * * "buf" should be positioned at the EOCD signature, and should contain * the entire EOCD area including the comment. */ status_t ZipFile::EndOfCentralDir::readBuf(const uint8_t* buf, int len) { /* don't allow re-use */ assert(mComment == NULL); if (len < kEOCDLen) { /* looks like ZIP file got truncated */ ALOGD(" Zip EOCD: expected >= %d bytes, found %d\n", kEOCDLen, len); return INVALID_OPERATION; } /* this should probably be an assert() */ if (ZipEntry::getLongLE(&buf[0x00]) != kSignature) return UNKNOWN_ERROR; mDiskNumber = ZipEntry::getShortLE(&buf[0x04]); mDiskWithCentralDir = ZipEntry::getShortLE(&buf[0x06]); mNumEntries = ZipEntry::getShortLE(&buf[0x08]); mTotalNumEntries = ZipEntry::getShortLE(&buf[0x0a]); mCentralDirSize = ZipEntry::getLongLE(&buf[0x0c]); mCentralDirOffset = ZipEntry::getLongLE(&buf[0x10]); mCommentLen = ZipEntry::getShortLE(&buf[0x14]); // TODO: validate mCentralDirOffset if (mCommentLen > 0) { if (kEOCDLen + mCommentLen > len) { ALOGD("EOCD(%d) + comment(%" PRIu16 ") exceeds len (%d)\n", kEOCDLen, mCommentLen, len); return UNKNOWN_ERROR; } mComment = new uint8_t[mCommentLen]; memcpy(mComment, buf + kEOCDLen, mCommentLen); } return NO_ERROR; } /* * Write an end-of-central-directory section. */ status_t ZipFile::EndOfCentralDir::write(FILE* fp) { uint8_t buf[kEOCDLen]; ZipEntry::putLongLE(&buf[0x00], kSignature); ZipEntry::putShortLE(&buf[0x04], mDiskNumber); ZipEntry::putShortLE(&buf[0x06], mDiskWithCentralDir); ZipEntry::putShortLE(&buf[0x08], mNumEntries); ZipEntry::putShortLE(&buf[0x0a], mTotalNumEntries); ZipEntry::putLongLE(&buf[0x0c], mCentralDirSize); ZipEntry::putLongLE(&buf[0x10], mCentralDirOffset); ZipEntry::putShortLE(&buf[0x14], mCommentLen); if (fwrite(buf, 1, kEOCDLen, fp) != kEOCDLen) return UNKNOWN_ERROR; if (mCommentLen > 0) { assert(mComment != NULL); if (fwrite(mComment, mCommentLen, 1, fp) != mCommentLen) return UNKNOWN_ERROR; } return NO_ERROR; } /* * Dump the contents of an EndOfCentralDir object. */ void ZipFile::EndOfCentralDir::dump(void) const { ALOGD(" EndOfCentralDir contents:\n"); ALOGD(" diskNum=%" PRIu16 " diskWCD=%" PRIu16 " numEnt=%" PRIu16 " totalNumEnt=%" PRIu16 "\n", mDiskNumber, mDiskWithCentralDir, mNumEntries, mTotalNumEntries); ALOGD(" centDirSize=%" PRIu32 " centDirOff=%" PRIu32 " commentLen=%" PRIu32 "\n", mCentralDirSize, mCentralDirOffset, mCommentLen); }