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cbb83a1d64
The #if predicate evaluates to false if the macro is undefined, or defined to 0. #ifdef (and its synonym #if defined) evaluates to false only if the macro is undefined. The new setup allows differentiating between setting a macro to 0 (to express that the capability definitely does not exist / should not be used) and leaving a macro undefined (to express not knowing whether a capability exists / not caring if a capability is used). PiperOrigin-RevId: 391094241
504 lines
16 KiB
C++
504 lines
16 KiB
C++
// Copyright 2011 Google Inc. All Rights Reserved.
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//
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are
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// met:
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//
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above
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// copyright notice, this list of conditions and the following disclaimer
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// in the documentation and/or other materials provided with the
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// distribution.
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// * Neither the name of Google Inc. nor the names of its
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// contributors may be used to endorse or promote products derived from
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// this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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//
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// Various stubs for the unit tests for the open-source version of Snappy.
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#include "snappy-test.h"
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#include <algorithm>
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#include <cstdarg>
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#include <cstdio>
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#include <cstdlib>
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#include <iostream>
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#include <string>
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namespace file {
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OptionsStub::OptionsStub() = default;
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OptionsStub::~OptionsStub() = default;
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const OptionsStub &Defaults() {
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static OptionsStub defaults;
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return defaults;
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}
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StatusStub::StatusStub() = default;
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StatusStub::StatusStub(const StatusStub &) = default;
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StatusStub &StatusStub::operator=(const StatusStub &) = default;
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StatusStub::~StatusStub() = default;
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bool StatusStub::ok() { return true; }
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StatusStub GetContents(const std::string &filename, std::string *output,
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const OptionsStub & /* options */) {
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std::FILE *fp = std::fopen(filename.c_str(), "rb");
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if (fp == nullptr) {
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std::perror(filename.c_str());
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std::exit(1);
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}
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output->clear();
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while (!std::feof(fp)) {
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char buffer[4096];
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size_t bytes_read = std::fread(buffer, 1, sizeof(buffer), fp);
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if (bytes_read == 0 && std::ferror(fp)) {
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std::perror("fread");
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std::exit(1);
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}
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output->append(buffer, bytes_read);
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}
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std::fclose(fp);
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return StatusStub();
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}
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StatusStub SetContents(const std::string &file_name, const std::string &content,
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const OptionsStub & /* options */) {
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std::FILE *fp = std::fopen(file_name.c_str(), "wb");
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if (fp == nullptr) {
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std::perror(file_name.c_str());
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std::exit(1);
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}
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size_t bytes_written = std::fwrite(content.data(), 1, content.size(), fp);
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if (bytes_written != content.size()) {
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std::perror("fwrite");
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std::exit(1);
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}
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std::fclose(fp);
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return StatusStub();
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}
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} // namespace file
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namespace snappy {
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std::string ReadTestDataFile(const std::string& base, size_t size_limit) {
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std::string contents;
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const char* srcdir = getenv("srcdir"); // This is set by Automake.
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std::string prefix;
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if (srcdir) {
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prefix = std::string(srcdir) + "/";
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}
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file::GetContents(prefix + "testdata/" + base, &contents, file::Defaults()
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).ok();
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if (size_limit > 0) {
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contents = contents.substr(0, size_limit);
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}
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return contents;
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}
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std::string StrFormat(const char* format, ...) {
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char buffer[4096];
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std::va_list ap;
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va_start(ap, format);
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std::vsnprintf(buffer, sizeof(buffer), format, ap);
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va_end(ap);
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return buffer;
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}
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LogMessage::~LogMessage() { std::cerr << std::endl; }
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LogMessage &LogMessage::operator<<(const std::string &message) {
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std::cerr << message;
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return *this;
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}
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LogMessage &LogMessage::operator<<(int number) {
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std::cerr << number;
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return *this;
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}
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#ifdef _MSC_VER
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// ~LogMessageCrash calls std::abort() and therefore never exits. This is by
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// design, so temporarily disable warning C4722.
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#pragma warning(push)
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#pragma warning(disable : 4722)
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#endif
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LogMessageCrash::~LogMessageCrash() {
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std::cerr << std::endl;
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std::abort();
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}
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#ifdef _MSC_VER
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#pragma warning(pop)
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#endif
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#if HAVE_LIBZ
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ZLib::ZLib()
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: comp_init_(false),
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uncomp_init_(false) {
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Reinit();
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}
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ZLib::~ZLib() {
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if (comp_init_) { deflateEnd(&comp_stream_); }
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if (uncomp_init_) { inflateEnd(&uncomp_stream_); }
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}
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void ZLib::Reinit() {
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compression_level_ = Z_DEFAULT_COMPRESSION;
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window_bits_ = MAX_WBITS;
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mem_level_ = 8; // DEF_MEM_LEVEL
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if (comp_init_) {
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deflateEnd(&comp_stream_);
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comp_init_ = false;
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}
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if (uncomp_init_) {
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inflateEnd(&uncomp_stream_);
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uncomp_init_ = false;
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}
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first_chunk_ = true;
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}
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void ZLib::Reset() {
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first_chunk_ = true;
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}
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// --------- COMPRESS MODE
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// Initialization method to be called if we hit an error while
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// compressing. On hitting an error, call this method before returning
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// the error.
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void ZLib::CompressErrorInit() {
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deflateEnd(&comp_stream_);
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comp_init_ = false;
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Reset();
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}
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int ZLib::DeflateInit() {
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return deflateInit2(&comp_stream_,
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compression_level_,
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Z_DEFLATED,
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window_bits_,
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mem_level_,
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Z_DEFAULT_STRATEGY);
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}
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int ZLib::CompressInit(Bytef *dest, uLongf *destLen,
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const Bytef *source, uLong *sourceLen) {
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int err;
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comp_stream_.next_in = (Bytef*)source;
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comp_stream_.avail_in = (uInt)*sourceLen;
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if ((uLong)comp_stream_.avail_in != *sourceLen) return Z_BUF_ERROR;
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comp_stream_.next_out = dest;
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comp_stream_.avail_out = (uInt)*destLen;
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if ((uLong)comp_stream_.avail_out != *destLen) return Z_BUF_ERROR;
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if ( !first_chunk_ ) // only need to set up stream the first time through
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return Z_OK;
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if (comp_init_) { // we've already initted it
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err = deflateReset(&comp_stream_);
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if (err != Z_OK) {
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LOG(WARNING) << "ERROR: Can't reset compress object; creating a new one";
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deflateEnd(&comp_stream_);
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comp_init_ = false;
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}
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}
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if (!comp_init_) { // first use
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comp_stream_.zalloc = (alloc_func)0;
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comp_stream_.zfree = (free_func)0;
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comp_stream_.opaque = (voidpf)0;
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err = DeflateInit();
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if (err != Z_OK) return err;
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comp_init_ = true;
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}
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return Z_OK;
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}
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// In a perfect world we'd always have the full buffer to compress
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// when the time came, and we could just call Compress(). Alas, we
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// want to do chunked compression on our webserver. In this
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// application, we compress the header, send it off, then compress the
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// results, send them off, then compress the footer. Thus we need to
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// use the chunked compression features of zlib.
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int ZLib::CompressAtMostOrAll(Bytef *dest, uLongf *destLen,
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const Bytef *source, uLong *sourceLen,
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int flush_mode) { // Z_FULL_FLUSH or Z_FINISH
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int err;
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if ( (err=CompressInit(dest, destLen, source, sourceLen)) != Z_OK )
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return err;
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// This is used to figure out how many bytes we wrote *this chunk*
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int compressed_size = comp_stream_.total_out;
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// Some setup happens only for the first chunk we compress in a run
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if ( first_chunk_ ) {
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first_chunk_ = false;
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}
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// flush_mode is Z_FINISH for all mode, Z_SYNC_FLUSH for incremental
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// compression.
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err = deflate(&comp_stream_, flush_mode);
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*sourceLen = comp_stream_.avail_in;
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if ((err == Z_STREAM_END || err == Z_OK)
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&& comp_stream_.avail_in == 0
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&& comp_stream_.avail_out != 0 ) {
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// we processed everything ok and the output buffer was large enough.
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;
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} else if (err == Z_STREAM_END && comp_stream_.avail_in > 0) {
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return Z_BUF_ERROR; // should never happen
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} else if (err != Z_OK && err != Z_STREAM_END && err != Z_BUF_ERROR) {
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// an error happened
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CompressErrorInit();
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return err;
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} else if (comp_stream_.avail_out == 0) { // not enough space
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err = Z_BUF_ERROR;
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}
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assert(err == Z_OK || err == Z_STREAM_END || err == Z_BUF_ERROR);
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if (err == Z_STREAM_END)
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err = Z_OK;
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// update the crc and other metadata
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compressed_size = comp_stream_.total_out - compressed_size; // delta
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*destLen = compressed_size;
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return err;
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}
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int ZLib::CompressChunkOrAll(Bytef *dest, uLongf *destLen,
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const Bytef *source, uLong sourceLen,
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int flush_mode) { // Z_FULL_FLUSH or Z_FINISH
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const int ret =
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CompressAtMostOrAll(dest, destLen, source, &sourceLen, flush_mode);
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if (ret == Z_BUF_ERROR)
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CompressErrorInit();
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return ret;
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}
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// This routine only initializes the compression stream once. Thereafter, it
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// just does a deflateReset on the stream, which should be faster.
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int ZLib::Compress(Bytef *dest, uLongf *destLen,
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const Bytef *source, uLong sourceLen) {
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int err;
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if ( (err=CompressChunkOrAll(dest, destLen, source, sourceLen,
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Z_FINISH)) != Z_OK )
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return err;
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Reset(); // reset for next call to Compress
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return Z_OK;
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}
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// --------- UNCOMPRESS MODE
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int ZLib::InflateInit() {
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return inflateInit2(&uncomp_stream_, MAX_WBITS);
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}
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// Initialization method to be called if we hit an error while
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// uncompressing. On hitting an error, call this method before
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// returning the error.
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void ZLib::UncompressErrorInit() {
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inflateEnd(&uncomp_stream_);
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uncomp_init_ = false;
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Reset();
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}
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int ZLib::UncompressInit(Bytef *dest, uLongf *destLen,
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const Bytef *source, uLong *sourceLen) {
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int err;
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uncomp_stream_.next_in = (Bytef*)source;
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uncomp_stream_.avail_in = (uInt)*sourceLen;
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// Check for source > 64K on 16-bit machine:
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if ((uLong)uncomp_stream_.avail_in != *sourceLen) return Z_BUF_ERROR;
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uncomp_stream_.next_out = dest;
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uncomp_stream_.avail_out = (uInt)*destLen;
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if ((uLong)uncomp_stream_.avail_out != *destLen) return Z_BUF_ERROR;
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if ( !first_chunk_ ) // only need to set up stream the first time through
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return Z_OK;
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if (uncomp_init_) { // we've already initted it
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err = inflateReset(&uncomp_stream_);
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if (err != Z_OK) {
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LOG(WARNING)
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<< "ERROR: Can't reset uncompress object; creating a new one";
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UncompressErrorInit();
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}
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}
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if (!uncomp_init_) {
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uncomp_stream_.zalloc = (alloc_func)0;
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uncomp_stream_.zfree = (free_func)0;
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uncomp_stream_.opaque = (voidpf)0;
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err = InflateInit();
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if (err != Z_OK) return err;
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uncomp_init_ = true;
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}
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return Z_OK;
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}
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// If you compressed your data a chunk at a time, with CompressChunk,
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// you can uncompress it a chunk at a time with UncompressChunk.
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// Only difference bewteen chunked and unchunked uncompression
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// is the flush mode we use: Z_SYNC_FLUSH (chunked) or Z_FINISH (unchunked).
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int ZLib::UncompressAtMostOrAll(Bytef *dest, uLongf *destLen,
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const Bytef *source, uLong *sourceLen,
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int flush_mode) { // Z_SYNC_FLUSH or Z_FINISH
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int err = Z_OK;
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if ( (err=UncompressInit(dest, destLen, source, sourceLen)) != Z_OK ) {
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LOG(WARNING) << "UncompressInit: Error: " << err << " SourceLen: "
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<< *sourceLen;
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return err;
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}
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// This is used to figure out how many output bytes we wrote *this chunk*:
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const uLong old_total_out = uncomp_stream_.total_out;
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// This is used to figure out how many input bytes we read *this chunk*:
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const uLong old_total_in = uncomp_stream_.total_in;
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// Some setup happens only for the first chunk we compress in a run
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if ( first_chunk_ ) {
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first_chunk_ = false; // so we don't do this again
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// For the first chunk *only* (to avoid infinite troubles), we let
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// there be no actual data to uncompress. This sometimes triggers
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// when the input is only the gzip header, say.
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if ( *sourceLen == 0 ) {
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*destLen = 0;
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return Z_OK;
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}
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}
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// We'll uncompress as much as we can. If we end OK great, otherwise
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// if we get an error that seems to be the gzip footer, we store the
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// gzip footer and return OK, otherwise we return the error.
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// flush_mode is Z_SYNC_FLUSH for chunked mode, Z_FINISH for all mode.
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err = inflate(&uncomp_stream_, flush_mode);
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// Figure out how many bytes of the input zlib slurped up:
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const uLong bytes_read = uncomp_stream_.total_in - old_total_in;
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CHECK_LE(source + bytes_read, source + *sourceLen);
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*sourceLen = uncomp_stream_.avail_in;
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if ((err == Z_STREAM_END || err == Z_OK) // everything went ok
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&& uncomp_stream_.avail_in == 0) { // and we read it all
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;
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} else if (err == Z_STREAM_END && uncomp_stream_.avail_in > 0) {
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LOG(WARNING)
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<< "UncompressChunkOrAll: Received some extra data, bytes total: "
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<< uncomp_stream_.avail_in << " bytes: "
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<< std::string(reinterpret_cast<const char *>(uncomp_stream_.next_in),
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std::min(int(uncomp_stream_.avail_in), 20));
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UncompressErrorInit();
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return Z_DATA_ERROR; // what's the extra data for?
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} else if (err != Z_OK && err != Z_STREAM_END && err != Z_BUF_ERROR) {
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// an error happened
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LOG(WARNING) << "UncompressChunkOrAll: Error: " << err
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<< " avail_out: " << uncomp_stream_.avail_out;
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UncompressErrorInit();
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return err;
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} else if (uncomp_stream_.avail_out == 0) {
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err = Z_BUF_ERROR;
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}
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assert(err == Z_OK || err == Z_BUF_ERROR || err == Z_STREAM_END);
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if (err == Z_STREAM_END)
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err = Z_OK;
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*destLen = uncomp_stream_.total_out - old_total_out; // size for this call
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return err;
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}
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int ZLib::UncompressChunkOrAll(Bytef *dest, uLongf *destLen,
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const Bytef *source, uLong sourceLen,
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int flush_mode) { // Z_SYNC_FLUSH or Z_FINISH
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const int ret =
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UncompressAtMostOrAll(dest, destLen, source, &sourceLen, flush_mode);
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if (ret == Z_BUF_ERROR)
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UncompressErrorInit();
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return ret;
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}
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int ZLib::UncompressAtMost(Bytef *dest, uLongf *destLen,
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const Bytef *source, uLong *sourceLen) {
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return UncompressAtMostOrAll(dest, destLen, source, sourceLen, Z_SYNC_FLUSH);
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}
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// We make sure we've uncompressed everything, that is, the current
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// uncompress stream is at a compressed-buffer-EOF boundary. In gzip
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// mode, we also check the gzip footer to make sure we pass the gzip
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// consistency checks. We RETURN true iff both types of checks pass.
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bool ZLib::UncompressChunkDone() {
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assert(!first_chunk_ && uncomp_init_);
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// Make sure we're at the end-of-compressed-data point. This means
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// if we call inflate with Z_FINISH we won't consume any input or
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// write any output
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Bytef dummyin, dummyout;
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uLongf dummylen = 0;
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if ( UncompressChunkOrAll(&dummyout, &dummylen, &dummyin, 0, Z_FINISH)
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!= Z_OK ) {
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return false;
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}
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// Make sure that when we exit, we can start a new round of chunks later
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Reset();
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return true;
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}
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// Uncompresses the source buffer into the destination buffer.
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// The destination buffer must be long enough to hold the entire
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// decompressed contents.
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//
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// We only initialize the uncomp_stream once. Thereafter, we use
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// inflateReset, which should be faster.
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//
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// Returns Z_OK on success, otherwise, it returns a zlib error code.
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int ZLib::Uncompress(Bytef *dest, uLongf *destLen,
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const Bytef *source, uLong sourceLen) {
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int err;
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if ( (err=UncompressChunkOrAll(dest, destLen, source, sourceLen,
|
|
Z_FINISH)) != Z_OK ) {
|
|
Reset(); // let us try to compress again
|
|
return err;
|
|
}
|
|
if ( !UncompressChunkDone() ) // calls Reset()
|
|
return Z_DATA_ERROR;
|
|
return Z_OK; // stream_end is ok
|
|
}
|
|
|
|
#endif // HAVE_LIBZ
|
|
|
|
} // namespace snappy
|