// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "third_party/zlib/google/zip_reader.h" #include "base/bind.h" #include "base/files/file.h" #include "base/logging.h" #include "base/message_loop/message_loop.h" #include "base/strings/string_util.h" #include "base/strings/utf_string_conversions.h" #include "third_party/zlib/google/zip_internal.h" #if defined(USE_SYSTEM_MINIZIP) #include <minizip/unzip.h> #else #include "third_party/zlib/contrib/minizip/unzip.h" #if defined(OS_WIN) #include "third_party/zlib/contrib/minizip/iowin32.h" #endif // defined(OS_WIN) #endif // defined(USE_SYSTEM_MINIZIP) namespace zip { // TODO(satorux): The implementation assumes that file names in zip files // are encoded in UTF-8. This is true for zip files created by Zip() // function in zip.h, but not true for user-supplied random zip files. ZipReader::EntryInfo::EntryInfo(const std::string& file_name_in_zip, const unz_file_info& raw_file_info) : file_path_(base::FilePath::FromUTF8Unsafe(file_name_in_zip)), is_directory_(false) { original_size_ = raw_file_info.uncompressed_size; // Directory entries in zip files end with "/". is_directory_ = EndsWith(file_name_in_zip, "/", false); // Check the file name here for directory traversal issues. is_unsafe_ = file_path_.ReferencesParent(); // We also consider that the file name is unsafe, if it's invalid UTF-8. base::string16 file_name_utf16; if (!base::UTF8ToUTF16(file_name_in_zip.data(), file_name_in_zip.size(), &file_name_utf16)) { is_unsafe_ = true; } // We also consider that the file name is unsafe, if it's absolute. // On Windows, IsAbsolute() returns false for paths starting with "/". if (file_path_.IsAbsolute() || StartsWithASCII(file_name_in_zip, "/", false)) is_unsafe_ = true; // Construct the last modified time. The timezone info is not present in // zip files, so we construct the time as local time. base::Time::Exploded exploded_time = {}; // Zero-clear. exploded_time.year = raw_file_info.tmu_date.tm_year; // The month in zip file is 0-based, whereas ours is 1-based. exploded_time.month = raw_file_info.tmu_date.tm_mon + 1; exploded_time.day_of_month = raw_file_info.tmu_date.tm_mday; exploded_time.hour = raw_file_info.tmu_date.tm_hour; exploded_time.minute = raw_file_info.tmu_date.tm_min; exploded_time.second = raw_file_info.tmu_date.tm_sec; exploded_time.millisecond = 0; if (exploded_time.HasValidValues()) { last_modified_ = base::Time::FromLocalExploded(exploded_time); } else { // Use Unix time epoch if the time stamp data is invalid. last_modified_ = base::Time::UnixEpoch(); } } ZipReader::ZipReader() : weak_ptr_factory_(this) { Reset(); } ZipReader::~ZipReader() { Close(); } bool ZipReader::Open(const base::FilePath& zip_file_path) { DCHECK(!zip_file_); // Use of "Unsafe" function does not look good, but there is no way to do // this safely on Linux. See file_util.h for details. zip_file_ = internal::OpenForUnzipping(zip_file_path.AsUTF8Unsafe()); if (!zip_file_) { return false; } return OpenInternal(); } bool ZipReader::OpenFromPlatformFile(base::PlatformFile zip_fd) { DCHECK(!zip_file_); #if defined(OS_POSIX) zip_file_ = internal::OpenFdForUnzipping(zip_fd); #elif defined(OS_WIN) zip_file_ = internal::OpenHandleForUnzipping(zip_fd); #endif if (!zip_file_) { return false; } return OpenInternal(); } bool ZipReader::OpenFromString(const std::string& data) { zip_file_ = internal::PrepareMemoryForUnzipping(data); if (!zip_file_) return false; return OpenInternal(); } void ZipReader::Close() { if (zip_file_) { unzClose(zip_file_); } Reset(); } bool ZipReader::HasMore() { return !reached_end_; } bool ZipReader::AdvanceToNextEntry() { DCHECK(zip_file_); // Should not go further if we already reached the end. if (reached_end_) return false; unz_file_pos position = {}; if (unzGetFilePos(zip_file_, &position) != UNZ_OK) return false; const int current_entry_index = position.num_of_file; // If we are currently at the last entry, then the next position is the // end of the zip file, so mark that we reached the end. if (current_entry_index + 1 == num_entries_) { reached_end_ = true; } else { DCHECK_LT(current_entry_index + 1, num_entries_); if (unzGoToNextFile(zip_file_) != UNZ_OK) { return false; } } current_entry_info_.reset(); return true; } bool ZipReader::OpenCurrentEntryInZip() { DCHECK(zip_file_); unz_file_info raw_file_info = {}; char raw_file_name_in_zip[internal::kZipMaxPath] = {}; const int result = unzGetCurrentFileInfo(zip_file_, &raw_file_info, raw_file_name_in_zip, sizeof(raw_file_name_in_zip) - 1, NULL, // extraField. 0, // extraFieldBufferSize. NULL, // szComment. 0); // commentBufferSize. if (result != UNZ_OK) return false; if (raw_file_name_in_zip[0] == '\0') return false; current_entry_info_.reset( new EntryInfo(raw_file_name_in_zip, raw_file_info)); return true; } bool ZipReader::LocateAndOpenEntry(const base::FilePath& path_in_zip) { DCHECK(zip_file_); current_entry_info_.reset(); reached_end_ = false; const int kDefaultCaseSensivityOfOS = 0; const int result = unzLocateFile(zip_file_, path_in_zip.AsUTF8Unsafe().c_str(), kDefaultCaseSensivityOfOS); if (result != UNZ_OK) return false; // Then Open the entry. return OpenCurrentEntryInZip(); } bool ZipReader::ExtractCurrentEntryToFilePath( const base::FilePath& output_file_path) { DCHECK(zip_file_); // If this is a directory, just create it and return. if (current_entry_info()->is_directory()) return base::CreateDirectory(output_file_path); const int open_result = unzOpenCurrentFile(zip_file_); if (open_result != UNZ_OK) return false; // We can't rely on parent directory entries being specified in the // zip, so we make sure they are created. base::FilePath output_dir_path = output_file_path.DirName(); if (!base::CreateDirectory(output_dir_path)) return false; base::File file(output_file_path, base::File::FLAG_CREATE_ALWAYS | base::File::FLAG_WRITE); if (!file.IsValid()) return false; bool success = true; // This becomes false when something bad happens. while (true) { char buf[internal::kZipBufSize]; const int num_bytes_read = unzReadCurrentFile(zip_file_, buf, internal::kZipBufSize); if (num_bytes_read == 0) { // Reached the end of the file. break; } else if (num_bytes_read < 0) { // If num_bytes_read < 0, then it's a specific UNZ_* error code. success = false; break; } else if (num_bytes_read > 0) { // Some data is read. Write it to the output file. if (num_bytes_read != file.WriteAtCurrentPos(buf, num_bytes_read)) { success = false; break; } } } file.Close(); unzCloseCurrentFile(zip_file_); if (current_entry_info()->last_modified() != base::Time::UnixEpoch()) base::TouchFile(output_file_path, base::Time::Now(), current_entry_info()->last_modified()); return success; } void ZipReader::ExtractCurrentEntryToFilePathAsync( const base::FilePath& output_file_path, const SuccessCallback& success_callback, const FailureCallback& failure_callback, const ProgressCallback& progress_callback) { DCHECK(zip_file_); DCHECK(current_entry_info_.get()); // If this is a directory, just create it and return. if (current_entry_info()->is_directory()) { if (base::CreateDirectory(output_file_path)) { base::MessageLoopProxy::current()->PostTask(FROM_HERE, success_callback); } else { DVLOG(1) << "Unzip failed: unable to create directory."; base::MessageLoopProxy::current()->PostTask(FROM_HERE, failure_callback); } return; } if (unzOpenCurrentFile(zip_file_) != UNZ_OK) { DVLOG(1) << "Unzip failed: unable to open current zip entry."; base::MessageLoopProxy::current()->PostTask(FROM_HERE, failure_callback); return; } base::FilePath output_dir_path = output_file_path.DirName(); if (!base::CreateDirectory(output_dir_path)) { DVLOG(1) << "Unzip failed: unable to create containing directory."; base::MessageLoopProxy::current()->PostTask(FROM_HERE, failure_callback); return; } const int flags = base::File::FLAG_CREATE_ALWAYS | base::File::FLAG_WRITE; base::File output_file(output_file_path, flags); if (!output_file.IsValid()) { DVLOG(1) << "Unzip failed: unable to create platform file at " << output_file_path.value(); base::MessageLoopProxy::current()->PostTask(FROM_HERE, failure_callback); return; } base::MessageLoop::current()->PostTask( FROM_HERE, base::Bind(&ZipReader::ExtractChunk, weak_ptr_factory_.GetWeakPtr(), Passed(output_file.Pass()), success_callback, failure_callback, progress_callback, 0 /* initial offset */)); } bool ZipReader::ExtractCurrentEntryIntoDirectory( const base::FilePath& output_directory_path) { DCHECK(current_entry_info_.get()); base::FilePath output_file_path = output_directory_path.Append( current_entry_info()->file_path()); return ExtractCurrentEntryToFilePath(output_file_path); } #if defined(OS_POSIX) bool ZipReader::ExtractCurrentEntryToFd(const int fd) { DCHECK(zip_file_); // If this is a directory, there's nothing to extract to the file descriptor, // so return false. if (current_entry_info()->is_directory()) return false; const int open_result = unzOpenCurrentFile(zip_file_); if (open_result != UNZ_OK) return false; bool success = true; // This becomes false when something bad happens. while (true) { char buf[internal::kZipBufSize]; const int num_bytes_read = unzReadCurrentFile(zip_file_, buf, internal::kZipBufSize); if (num_bytes_read == 0) { // Reached the end of the file. break; } else if (num_bytes_read < 0) { // If num_bytes_read < 0, then it's a specific UNZ_* error code. success = false; break; } else if (num_bytes_read > 0) { // Some data is read. Write it to the output file descriptor. if (num_bytes_read != base::WriteFileDescriptor(fd, buf, num_bytes_read)) { success = false; break; } } } unzCloseCurrentFile(zip_file_); return success; } #endif // defined(OS_POSIX) bool ZipReader::ExtractCurrentEntryToString( size_t max_read_bytes, std::string* output) const { DCHECK(output); DCHECK(zip_file_); DCHECK(max_read_bytes != 0); if (current_entry_info()->is_directory()) { output->clear(); return true; } const int open_result = unzOpenCurrentFile(zip_file_); if (open_result != UNZ_OK) return false; // The original_size() is the best hint for the real size, so it saves // doing reallocations for the common case when the uncompressed size is // correct. However, we need to assume that the uncompressed size could be // incorrect therefore this function needs to read as much data as possible. std::string contents; contents.reserve(std::min<size_t>( max_read_bytes, current_entry_info()->original_size())); bool success = true; // This becomes false when something bad happens. char buf[internal::kZipBufSize]; while (true) { const int num_bytes_read = unzReadCurrentFile(zip_file_, buf, internal::kZipBufSize); if (num_bytes_read == 0) { // Reached the end of the file. break; } else if (num_bytes_read < 0) { // If num_bytes_read < 0, then it's a specific UNZ_* error code. success = false; break; } else if (num_bytes_read > 0) { if (contents.size() + num_bytes_read > max_read_bytes) { success = false; break; } contents.append(buf, num_bytes_read); } } unzCloseCurrentFile(zip_file_); if (success) output->swap(contents); return success; } bool ZipReader::OpenInternal() { DCHECK(zip_file_); unz_global_info zip_info = {}; // Zero-clear. if (unzGetGlobalInfo(zip_file_, &zip_info) != UNZ_OK) { return false; } num_entries_ = zip_info.number_entry; if (num_entries_ < 0) return false; // We are already at the end if the zip file is empty. reached_end_ = (num_entries_ == 0); return true; } void ZipReader::Reset() { zip_file_ = NULL; num_entries_ = 0; reached_end_ = false; current_entry_info_.reset(); } void ZipReader::ExtractChunk(base::File output_file, const SuccessCallback& success_callback, const FailureCallback& failure_callback, const ProgressCallback& progress_callback, const int64 offset) { char buffer[internal::kZipBufSize]; const int num_bytes_read = unzReadCurrentFile(zip_file_, buffer, internal::kZipBufSize); if (num_bytes_read == 0) { unzCloseCurrentFile(zip_file_); success_callback.Run(); } else if (num_bytes_read < 0) { DVLOG(1) << "Unzip failed: error while reading zipfile " << "(" << num_bytes_read << ")"; failure_callback.Run(); } else { if (num_bytes_read != output_file.Write(offset, buffer, num_bytes_read)) { DVLOG(1) << "Unzip failed: unable to write all bytes to target."; failure_callback.Run(); return; } int64 current_progress = offset + num_bytes_read; progress_callback.Run(current_progress); base::MessageLoop::current()->PostTask( FROM_HERE, base::Bind(&ZipReader::ExtractChunk, weak_ptr_factory_.GetWeakPtr(), Passed(output_file.Pass()), success_callback, failure_callback, progress_callback, current_progress)); } } } // namespace zip