b02d690336
Add ftruncate64 to utils/Compat.h definitions for mac. Change-Id: I82cb46927be911e867b606f4f4429a5e1b1987f7 Test: builds on mac
486 lines
14 KiB
C++
486 lines
14 KiB
C++
/*
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* Copyright (C) 2015 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include "ziparchive/zip_writer.h"
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#include <cstdio>
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#include <sys/param.h>
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#include <zlib.h>
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#define DEF_MEM_LEVEL 8 // normally in zutil.h?
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#include <memory>
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#include <vector>
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#include "android-base/logging.h"
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#include "utils/Compat.h"
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#include "utils/Log.h"
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#include "entry_name_utils-inl.h"
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#include "zip_archive_common.h"
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#if !defined(powerof2)
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#define powerof2(x) ((((x)-1)&(x))==0)
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#endif
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/* Zip compression methods we support */
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enum {
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kCompressStored = 0, // no compression
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kCompressDeflated = 8, // standard deflate
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};
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// Size of the output buffer used for compression.
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static const size_t kBufSize = 32768u;
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// No error, operation completed successfully.
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static const int32_t kNoError = 0;
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// The ZipWriter is in a bad state.
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static const int32_t kInvalidState = -1;
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// There was an IO error while writing to disk.
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static const int32_t kIoError = -2;
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// The zip entry name was invalid.
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static const int32_t kInvalidEntryName = -3;
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// An error occurred in zlib.
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static const int32_t kZlibError = -4;
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// The start aligned function was called with the aligned flag.
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static const int32_t kInvalidAlign32Flag = -5;
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// The alignment parameter is not a power of 2.
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static const int32_t kInvalidAlignment = -6;
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static const char* sErrorCodes[] = {
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"Invalid state",
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"IO error",
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"Invalid entry name",
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"Zlib error",
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};
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const char* ZipWriter::ErrorCodeString(int32_t error_code) {
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if (error_code < 0 && (-error_code) < static_cast<int32_t>(arraysize(sErrorCodes))) {
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return sErrorCodes[-error_code];
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}
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return nullptr;
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}
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static void DeleteZStream(z_stream* stream) {
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deflateEnd(stream);
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delete stream;
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}
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ZipWriter::ZipWriter(FILE* f) : file_(f), current_offset_(0), state_(State::kWritingZip),
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z_stream_(nullptr, DeleteZStream), buffer_(kBufSize) {
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}
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ZipWriter::ZipWriter(ZipWriter&& writer) : file_(writer.file_),
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current_offset_(writer.current_offset_),
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state_(writer.state_),
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files_(std::move(writer.files_)),
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z_stream_(std::move(writer.z_stream_)),
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buffer_(std::move(writer.buffer_)){
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writer.file_ = nullptr;
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writer.state_ = State::kError;
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}
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ZipWriter& ZipWriter::operator=(ZipWriter&& writer) {
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file_ = writer.file_;
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current_offset_ = writer.current_offset_;
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state_ = writer.state_;
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files_ = std::move(writer.files_);
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z_stream_ = std::move(writer.z_stream_);
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buffer_ = std::move(writer.buffer_);
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writer.file_ = nullptr;
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writer.state_ = State::kError;
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return *this;
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}
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int32_t ZipWriter::HandleError(int32_t error_code) {
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state_ = State::kError;
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z_stream_.reset();
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return error_code;
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}
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int32_t ZipWriter::StartEntry(const char* path, size_t flags) {
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uint32_t alignment = 0;
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if (flags & kAlign32) {
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flags &= ~kAlign32;
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alignment = 4;
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}
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return StartAlignedEntryWithTime(path, flags, time_t(), alignment);
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}
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int32_t ZipWriter::StartAlignedEntry(const char* path, size_t flags, uint32_t alignment) {
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return StartAlignedEntryWithTime(path, flags, time_t(), alignment);
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}
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int32_t ZipWriter::StartEntryWithTime(const char* path, size_t flags, time_t time) {
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uint32_t alignment = 0;
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if (flags & kAlign32) {
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flags &= ~kAlign32;
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alignment = 4;
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}
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return StartAlignedEntryWithTime(path, flags, time, alignment);
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}
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static void ExtractTimeAndDate(time_t when, uint16_t* out_time, uint16_t* out_date) {
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/* round up to an even number of seconds */
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when = static_cast<time_t>((static_cast<unsigned long>(when) + 1) & (~1));
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struct tm* ptm;
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#if !defined(_WIN32)
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struct tm tm_result;
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ptm = localtime_r(&when, &tm_result);
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#else
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ptm = localtime(&when);
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#endif
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int year = ptm->tm_year;
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if (year < 80) {
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year = 80;
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}
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*out_date = (year - 80) << 9 | (ptm->tm_mon + 1) << 5 | ptm->tm_mday;
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*out_time = ptm->tm_hour << 11 | ptm->tm_min << 5 | ptm->tm_sec >> 1;
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}
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int32_t ZipWriter::StartAlignedEntryWithTime(const char* path, size_t flags,
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time_t time, uint32_t alignment) {
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if (state_ != State::kWritingZip) {
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return kInvalidState;
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}
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if (flags & kAlign32) {
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return kInvalidAlign32Flag;
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}
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if (powerof2(alignment) == 0) {
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return kInvalidAlignment;
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}
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current_file_entry_ = {};
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current_file_entry_.path = path;
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current_file_entry_.local_file_header_offset = current_offset_;
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if (!IsValidEntryName(reinterpret_cast<const uint8_t*>(current_file_entry_.path.data()),
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current_file_entry_.path.size())) {
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return kInvalidEntryName;
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}
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LocalFileHeader header = {};
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header.lfh_signature = LocalFileHeader::kSignature;
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// Set this flag to denote that a DataDescriptor struct will appear after the data,
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// containing the crc and size fields.
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header.gpb_flags |= kGPBDDFlagMask;
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if (flags & ZipWriter::kCompress) {
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current_file_entry_.compression_method = kCompressDeflated;
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int32_t result = PrepareDeflate();
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if (result != kNoError) {
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return result;
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}
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} else {
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current_file_entry_.compression_method = kCompressStored;
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}
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header.compression_method = current_file_entry_.compression_method;
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ExtractTimeAndDate(time, ¤t_file_entry_.last_mod_time, ¤t_file_entry_.last_mod_date);
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header.last_mod_time = current_file_entry_.last_mod_time;
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header.last_mod_date = current_file_entry_.last_mod_date;
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header.file_name_length = current_file_entry_.path.size();
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off64_t offset = current_offset_ + sizeof(header) + current_file_entry_.path.size();
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std::vector<char> zero_padding;
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if (alignment != 0 && (offset & (alignment - 1))) {
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// Pad the extra field so the data will be aligned.
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uint16_t padding = alignment - (offset % alignment);
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header.extra_field_length = padding;
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offset += padding;
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zero_padding.resize(padding);
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memset(zero_padding.data(), 0, zero_padding.size());
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}
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if (fwrite(&header, sizeof(header), 1, file_) != 1) {
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return HandleError(kIoError);
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}
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if (fwrite(path, sizeof(*path), current_file_entry_.path.size(), file_)
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!= current_file_entry_.path.size()) {
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return HandleError(kIoError);
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}
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if (header.extra_field_length != 0 &&
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fwrite(zero_padding.data(), 1, header.extra_field_length, file_)
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!= header.extra_field_length) {
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return HandleError(kIoError);
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}
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current_offset_ = offset;
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state_ = State::kWritingEntry;
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return kNoError;
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}
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int32_t ZipWriter::DiscardLastEntry() {
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if (state_ != State::kWritingZip || files_.empty()) {
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return kInvalidState;
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}
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FileEntry& last_entry = files_.back();
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current_offset_ = last_entry.local_file_header_offset;
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if (fseeko(file_, current_offset_, SEEK_SET) != 0) {
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return HandleError(kIoError);
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}
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files_.pop_back();
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return kNoError;
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}
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int32_t ZipWriter::GetLastEntry(FileEntry* out_entry) {
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CHECK(out_entry != nullptr);
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if (files_.empty()) {
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return kInvalidState;
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}
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*out_entry = files_.back();
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return kNoError;
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}
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int32_t ZipWriter::PrepareDeflate() {
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CHECK(state_ == State::kWritingZip);
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// Initialize the z_stream for compression.
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z_stream_ = std::unique_ptr<z_stream, void(*)(z_stream*)>(new z_stream(), DeleteZStream);
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#pragma GCC diagnostic push
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#pragma GCC diagnostic ignored "-Wold-style-cast"
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int zerr = deflateInit2(z_stream_.get(), Z_BEST_COMPRESSION, Z_DEFLATED, -MAX_WBITS,
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DEF_MEM_LEVEL, Z_DEFAULT_STRATEGY);
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#pragma GCC diagnostic pop
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if (zerr != Z_OK) {
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if (zerr == Z_VERSION_ERROR) {
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ALOGE("Installed zlib is not compatible with linked version (%s)", ZLIB_VERSION);
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return HandleError(kZlibError);
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} else {
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ALOGE("deflateInit2 failed (zerr=%d)", zerr);
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return HandleError(kZlibError);
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}
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}
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z_stream_->next_out = buffer_.data();
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z_stream_->avail_out = buffer_.size();
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return kNoError;
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}
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int32_t ZipWriter::WriteBytes(const void* data, size_t len) {
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if (state_ != State::kWritingEntry) {
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return HandleError(kInvalidState);
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}
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int32_t result = kNoError;
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if (current_file_entry_.compression_method & kCompressDeflated) {
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result = CompressBytes(¤t_file_entry_, data, len);
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} else {
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result = StoreBytes(¤t_file_entry_, data, len);
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}
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if (result != kNoError) {
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return result;
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}
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current_file_entry_.crc32 = crc32(current_file_entry_.crc32,
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reinterpret_cast<const Bytef*>(data), len);
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current_file_entry_.uncompressed_size += len;
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return kNoError;
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}
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int32_t ZipWriter::StoreBytes(FileEntry* file, const void* data, size_t len) {
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CHECK(state_ == State::kWritingEntry);
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if (fwrite(data, 1, len, file_) != len) {
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return HandleError(kIoError);
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}
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file->compressed_size += len;
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current_offset_ += len;
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return kNoError;
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}
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int32_t ZipWriter::CompressBytes(FileEntry* file, const void* data, size_t len) {
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CHECK(state_ == State::kWritingEntry);
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CHECK(z_stream_);
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CHECK(z_stream_->next_out != nullptr);
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CHECK(z_stream_->avail_out != 0);
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// Prepare the input.
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z_stream_->next_in = reinterpret_cast<const uint8_t*>(data);
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z_stream_->avail_in = len;
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while (z_stream_->avail_in > 0) {
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// We have more data to compress.
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int zerr = deflate(z_stream_.get(), Z_NO_FLUSH);
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if (zerr != Z_OK) {
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return HandleError(kZlibError);
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}
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if (z_stream_->avail_out == 0) {
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// The output is full, let's write it to disk.
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size_t write_bytes = z_stream_->next_out - buffer_.data();
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if (fwrite(buffer_.data(), 1, write_bytes, file_) != write_bytes) {
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return HandleError(kIoError);
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}
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file->compressed_size += write_bytes;
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current_offset_ += write_bytes;
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// Reset the output buffer for the next input.
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z_stream_->next_out = buffer_.data();
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z_stream_->avail_out = buffer_.size();
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}
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}
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return kNoError;
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}
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int32_t ZipWriter::FlushCompressedBytes(FileEntry* file) {
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CHECK(state_ == State::kWritingEntry);
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CHECK(z_stream_);
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CHECK(z_stream_->next_out != nullptr);
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CHECK(z_stream_->avail_out != 0);
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// Keep deflating while there isn't enough space in the buffer to
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// to complete the compress.
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int zerr;
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while ((zerr = deflate(z_stream_.get(), Z_FINISH)) == Z_OK) {
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CHECK(z_stream_->avail_out == 0);
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size_t write_bytes = z_stream_->next_out - buffer_.data();
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if (fwrite(buffer_.data(), 1, write_bytes, file_) != write_bytes) {
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return HandleError(kIoError);
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}
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file->compressed_size += write_bytes;
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current_offset_ += write_bytes;
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z_stream_->next_out = buffer_.data();
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z_stream_->avail_out = buffer_.size();
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}
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if (zerr != Z_STREAM_END) {
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return HandleError(kZlibError);
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}
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size_t write_bytes = z_stream_->next_out - buffer_.data();
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if (write_bytes != 0) {
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if (fwrite(buffer_.data(), 1, write_bytes, file_) != write_bytes) {
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return HandleError(kIoError);
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}
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file->compressed_size += write_bytes;
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current_offset_ += write_bytes;
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}
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z_stream_.reset();
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return kNoError;
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}
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int32_t ZipWriter::FinishEntry() {
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if (state_ != State::kWritingEntry) {
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return kInvalidState;
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}
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if (current_file_entry_.compression_method & kCompressDeflated) {
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int32_t result = FlushCompressedBytes(¤t_file_entry_);
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if (result != kNoError) {
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return result;
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}
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}
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const uint32_t sig = DataDescriptor::kOptSignature;
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if (fwrite(&sig, sizeof(sig), 1, file_) != 1) {
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state_ = State::kError;
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return kIoError;
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}
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DataDescriptor dd = {};
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dd.crc32 = current_file_entry_.crc32;
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dd.compressed_size = current_file_entry_.compressed_size;
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dd.uncompressed_size = current_file_entry_.uncompressed_size;
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if (fwrite(&dd, sizeof(dd), 1, file_) != 1) {
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return HandleError(kIoError);
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}
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files_.emplace_back(std::move(current_file_entry_));
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current_offset_ += sizeof(DataDescriptor::kOptSignature) + sizeof(dd);
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state_ = State::kWritingZip;
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return kNoError;
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}
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int32_t ZipWriter::Finish() {
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if (state_ != State::kWritingZip) {
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return kInvalidState;
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}
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off64_t startOfCdr = current_offset_;
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for (FileEntry& file : files_) {
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CentralDirectoryRecord cdr = {};
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cdr.record_signature = CentralDirectoryRecord::kSignature;
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cdr.gpb_flags |= kGPBDDFlagMask;
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cdr.compression_method = file.compression_method;
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cdr.last_mod_time = file.last_mod_time;
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cdr.last_mod_date = file.last_mod_date;
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cdr.crc32 = file.crc32;
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cdr.compressed_size = file.compressed_size;
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cdr.uncompressed_size = file.uncompressed_size;
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cdr.file_name_length = file.path.size();
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cdr.local_file_header_offset = file.local_file_header_offset;
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if (fwrite(&cdr, sizeof(cdr), 1, file_) != 1) {
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return HandleError(kIoError);
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}
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if (fwrite(file.path.data(), 1, file.path.size(), file_) != file.path.size()) {
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return HandleError(kIoError);
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}
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current_offset_ += sizeof(cdr) + file.path.size();
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}
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EocdRecord er = {};
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er.eocd_signature = EocdRecord::kSignature;
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er.disk_num = 0;
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er.cd_start_disk = 0;
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er.num_records_on_disk = files_.size();
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er.num_records = files_.size();
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er.cd_size = current_offset_ - startOfCdr;
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er.cd_start_offset = startOfCdr;
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if (fwrite(&er, sizeof(er), 1, file_) != 1) {
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return HandleError(kIoError);
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}
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current_offset_ += sizeof(er);
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// Since we can BackUp() and potentially finish writing at an offset less than one we had
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// already written at, we must truncate the file.
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if (ftruncate64(fileno(file_), current_offset_) != 0) {
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return HandleError(kIoError);
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}
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if (fflush(file_) != 0) {
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return HandleError(kIoError);
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}
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state_ = State::kDone;
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return kNoError;
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}
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