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compression_utils.h
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compression_utils.h
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/*
* Copyright (C) 2020 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.
*/
#pragma once
#include <algorithm>
#include <memory>
#include <span>
#include <android-base/logging.h>
#include <brotli/decode.h>
#include <brotli/encode.h>
#include <lz4frame.h>
#include <zstd.h>
#include "types.h"
enum class DecodeResult {
Error,
Done,
NeedInput,
MoreOutput,
};
enum class EncodeResult {
Error,
Done,
NeedInput,
MoreOutput,
};
struct Decoder {
void Append(Block&& block) { input_buffer_.append(std::move(block)); }
bool Finish() {
bool old = std::exchange(finished_, true);
if (old) {
LOG(FATAL) << "Decoder::Finish called while already finished?";
return false;
}
return true;
}
virtual DecodeResult Decode(std::span<char>* output) = 0;
protected:
Decoder(std::span<char> output_buffer) : output_buffer_(output_buffer) {}
~Decoder() = default;
bool finished_ = false;
IOVector input_buffer_;
std::span<char> output_buffer_;
};
struct Encoder {
void Append(Block input) { input_buffer_.append(std::move(input)); }
bool Finish() {
bool old = std::exchange(finished_, true);
if (old) {
LOG(FATAL) << "Decoder::Finish called while already finished?";
return false;
}
return true;
}
virtual EncodeResult Encode(Block* output) = 0;
protected:
explicit Encoder(size_t output_block_size) : output_block_size_(output_block_size) {}
~Encoder() = default;
const size_t output_block_size_;
bool finished_ = false;
IOVector input_buffer_;
};
struct NullDecoder final : public Decoder {
explicit NullDecoder(std::span<char> output_buffer) : Decoder(output_buffer) {}
DecodeResult Decode(std::span<char>* output) final {
size_t available_out = output_buffer_.size();
void* p = output_buffer_.data();
while (available_out > 0 && !input_buffer_.empty()) {
size_t len = std::min(available_out, input_buffer_.front_size());
p = mempcpy(p, input_buffer_.front_data(), len);
available_out -= len;
input_buffer_.drop_front(len);
}
*output = std::span(output_buffer_.data(), static_cast<char*>(p));
if (input_buffer_.empty()) {
return finished_ ? DecodeResult::Done : DecodeResult::NeedInput;
}
return DecodeResult::MoreOutput;
}
};
struct NullEncoder final : public Encoder {
explicit NullEncoder(size_t output_block_size) : Encoder(output_block_size) {}
EncodeResult Encode(Block* output) final {
output->clear();
output->resize(output_block_size_);
size_t available_out = output->size();
void* p = output->data();
while (available_out > 0 && !input_buffer_.empty()) {
size_t len = std::min(available_out, input_buffer_.front_size());
p = mempcpy(p, input_buffer_.front_data(), len);
available_out -= len;
input_buffer_.drop_front(len);
}
output->resize(output->size() - available_out);
if (input_buffer_.empty()) {
return finished_ ? EncodeResult::Done : EncodeResult::NeedInput;
}
return EncodeResult::MoreOutput;
}
};
struct BrotliDecoder final : public Decoder {
explicit BrotliDecoder(std::span<char> output_buffer)
: Decoder(output_buffer),
decoder_(BrotliDecoderCreateInstance(nullptr, nullptr, nullptr),
BrotliDecoderDestroyInstance) {}
DecodeResult Decode(std::span<char>* output) final {
size_t available_in = input_buffer_.front_size();
const uint8_t* next_in = reinterpret_cast<const uint8_t*>(input_buffer_.front_data());
size_t available_out = output_buffer_.size();
uint8_t* next_out = reinterpret_cast<uint8_t*>(output_buffer_.data());
BrotliDecoderResult r = BrotliDecoderDecompressStream(
decoder_.get(), &available_in, &next_in, &available_out, &next_out, nullptr);
size_t bytes_consumed = input_buffer_.front_size() - available_in;
input_buffer_.drop_front(bytes_consumed);
size_t bytes_emitted = output_buffer_.size() - available_out;
*output = std::span<char>(output_buffer_.data(), bytes_emitted);
switch (r) {
case BROTLI_DECODER_RESULT_SUCCESS:
// We need to wait for ID_DONE from the other end.
return finished_ ? DecodeResult::Done : DecodeResult::NeedInput;
case BROTLI_DECODER_RESULT_ERROR:
return DecodeResult::Error;
case BROTLI_DECODER_RESULT_NEEDS_MORE_INPUT:
// Brotli guarantees as one of its invariants that if it returns NEEDS_MORE_INPUT,
// it will consume the entire input buffer passed in, so we don't have to worry
// about bytes left over in the front block with more input remaining.
return DecodeResult::NeedInput;
case BROTLI_DECODER_RESULT_NEEDS_MORE_OUTPUT:
return DecodeResult::MoreOutput;
}
}
private:
std::unique_ptr<BrotliDecoderState, void (*)(BrotliDecoderState*)> decoder_;
};
struct BrotliEncoder final : public Encoder {
explicit BrotliEncoder(size_t output_block_size)
: Encoder(output_block_size),
output_block_(output_block_size_),
output_bytes_left_(output_block_size_),
encoder_(BrotliEncoderCreateInstance(nullptr, nullptr, nullptr),
BrotliEncoderDestroyInstance) {
BrotliEncoderSetParameter(encoder_.get(), BROTLI_PARAM_QUALITY, 1);
}
EncodeResult Encode(Block* output) final {
output->clear();
while (true) {
size_t available_in = input_buffer_.front_size();
const uint8_t* next_in = reinterpret_cast<const uint8_t*>(input_buffer_.front_data());
size_t available_out = output_bytes_left_;
uint8_t* next_out = reinterpret_cast<uint8_t*>(
output_block_.data() + (output_block_size_ - output_bytes_left_));
BrotliEncoderOperation op = BROTLI_OPERATION_PROCESS;
if (finished_) {
op = BROTLI_OPERATION_FINISH;
}
if (!BrotliEncoderCompressStream(encoder_.get(), op, &available_in, &next_in,
&available_out, &next_out, nullptr)) {
return EncodeResult::Error;
}
size_t bytes_consumed = input_buffer_.front_size() - available_in;
input_buffer_.drop_front(bytes_consumed);
output_bytes_left_ = available_out;
if (BrotliEncoderIsFinished(encoder_.get())) {
output_block_.resize(output_block_size_ - output_bytes_left_);
*output = std::move(output_block_);
return EncodeResult::Done;
} else if (output_bytes_left_ == 0) {
*output = std::move(output_block_);
output_block_.resize(output_block_size_);
output_bytes_left_ = output_block_size_;
return EncodeResult::MoreOutput;
} else if (input_buffer_.empty()) {
return EncodeResult::NeedInput;
}
}
}
private:
Block output_block_;
size_t output_bytes_left_;
std::unique_ptr<BrotliEncoderState, void (*)(BrotliEncoderState*)> encoder_;
};
struct LZ4Decoder final : public Decoder {
explicit LZ4Decoder(std::span<char> output_buffer)
: Decoder(output_buffer), decoder_(nullptr, nullptr) {
LZ4F_dctx* dctx;
if (LZ4F_createDecompressionContext(&dctx, LZ4F_VERSION) != 0) {
LOG(FATAL) << "failed to initialize LZ4 decompression context";
}
decoder_ = std::unique_ptr<LZ4F_dctx, decltype(&LZ4F_freeDecompressionContext)>(
dctx, LZ4F_freeDecompressionContext);
}
DecodeResult Decode(std::span<char>* output) final {
size_t available_in = input_buffer_.front_size();
const char* next_in = input_buffer_.front_data();
size_t available_out = output_buffer_.size();
char* next_out = output_buffer_.data();
size_t rc = LZ4F_decompress(decoder_.get(), next_out, &available_out, next_in,
&available_in, nullptr);
if (LZ4F_isError(rc)) {
LOG(ERROR) << "LZ4F_decompress failed: " << LZ4F_getErrorName(rc);
return DecodeResult::Error;
}
input_buffer_.drop_front(available_in);
if (rc == 0) {
if (!input_buffer_.empty()) {
LOG(ERROR) << "LZ4 stream hit end before reading all data";
return DecodeResult::Error;
}
lz4_done_ = true;
}
*output = std::span<char>(output_buffer_.data(), available_out);
if (finished_) {
return input_buffer_.empty() && lz4_done_ ? DecodeResult::Done
: DecodeResult::MoreOutput;
}
return DecodeResult::NeedInput;
}
private:
bool lz4_done_ = false;
std::unique_ptr<LZ4F_dctx, LZ4F_errorCode_t (*)(LZ4F_dctx*)> decoder_;
};
struct LZ4Encoder final : public Encoder {
explicit LZ4Encoder(size_t output_block_size)
: Encoder(output_block_size), encoder_(nullptr, nullptr) {
LZ4F_cctx* cctx;
if (LZ4F_createCompressionContext(&cctx, LZ4F_VERSION) != 0) {
LOG(FATAL) << "failed to initialize LZ4 compression context";
}
encoder_ = std::unique_ptr<LZ4F_cctx, decltype(&LZ4F_freeCompressionContext)>(
cctx, LZ4F_freeCompressionContext);
Block header(LZ4F_HEADER_SIZE_MAX);
size_t rc = LZ4F_compressBegin(encoder_.get(), header.data(), header.size(), nullptr);
if (LZ4F_isError(rc)) {
LOG(FATAL) << "LZ4F_compressBegin failed: %s", LZ4F_getErrorName(rc);
}
header.resize(rc);
output_buffer_.append(std::move(header));
}
// As an optimization, only emit a block if we have an entire output block ready, or we're done.
bool OutputReady() const {
return output_buffer_.size() >= output_block_size_ || lz4_finalized_;
}
// TODO: Switch the output type to IOVector to remove a copy?
EncodeResult Encode(Block* output) final {
size_t available_in = input_buffer_.front_size();
const char* next_in = input_buffer_.front_data();
// LZ4 makes no guarantees about being able to recover from trying to compress with an
// insufficiently large output buffer. LZ4F_compressBound tells us how much buffer we
// need to compress a given number of bytes, but the smallest value seems to be bigger
// than SYNC_DATA_MAX, so we need to buffer ourselves.
// Input size chosen to be a local maximum for LZ4F_compressBound (i.e. the block size).
constexpr size_t max_input_size = 65536;
const size_t encode_block_size = LZ4F_compressBound(max_input_size, nullptr);
if (available_in != 0) {
if (lz4_finalized_) {
LOG(ERROR) << "LZ4Encoder received data after Finish?";
return EncodeResult::Error;
}
available_in = std::min(available_in, max_input_size);
Block encode_block(encode_block_size);
size_t available_out = encode_block.capacity();
char* next_out = encode_block.data();
size_t rc = LZ4F_compressUpdate(encoder_.get(), next_out, available_out, next_in,
available_in, nullptr);
if (LZ4F_isError(rc)) {
LOG(ERROR) << "LZ4F_compressUpdate failed: " << LZ4F_getErrorName(rc);
return EncodeResult::Error;
}
input_buffer_.drop_front(available_in);
available_out -= rc;
next_out += rc;
encode_block.resize(encode_block_size - available_out);
output_buffer_.append(std::move(encode_block));
}
if (finished_ && !lz4_finalized_) {
lz4_finalized_ = true;
Block final_block(encode_block_size + 4);
size_t rc = LZ4F_compressEnd(encoder_.get(), final_block.data(), final_block.size(),
nullptr);
if (LZ4F_isError(rc)) {
LOG(ERROR) << "LZ4F_compressEnd failed: " << LZ4F_getErrorName(rc);
return EncodeResult::Error;
}
final_block.resize(rc);
output_buffer_.append(std::move(final_block));
}
if (OutputReady()) {
size_t len = std::min(output_block_size_, output_buffer_.size());
*output = output_buffer_.take_front(len).coalesce();
} else {
output->clear();
}
if (lz4_finalized_ && output_buffer_.empty()) {
return EncodeResult::Done;
} else if (OutputReady()) {
return EncodeResult::MoreOutput;
}
return EncodeResult::NeedInput;
}
private:
bool lz4_finalized_ = false;
std::unique_ptr<LZ4F_cctx, LZ4F_errorCode_t (*)(LZ4F_cctx*)> encoder_;
IOVector output_buffer_;
};
struct ZstdDecoder final : public Decoder {
explicit ZstdDecoder(std::span<char> output_buffer)
: Decoder(output_buffer), decoder_(ZSTD_createDStream(), ZSTD_freeDStream) {
if (!decoder_) {
LOG(FATAL) << "failed to initialize Zstd decompression context";
}
}
DecodeResult Decode(std::span<char>* output) final {
ZSTD_inBuffer in;
in.src = input_buffer_.front_data();
in.size = input_buffer_.front_size();
in.pos = 0;
ZSTD_outBuffer out;
out.dst = output_buffer_.data();
// The standard specifies size() as returning size_t, but our current version of
// libc++ returns a signed value instead.
out.size = static_cast<size_t>(output_buffer_.size());
out.pos = 0;
size_t rc = ZSTD_decompressStream(decoder_.get(), &out, &in);
if (ZSTD_isError(rc)) {
LOG(ERROR) << "ZSTD_decompressStream failed: " << ZSTD_getErrorName(rc);
return DecodeResult::Error;
}
input_buffer_.drop_front(in.pos);
if (rc == 0) {
if (!input_buffer_.empty()) {
LOG(ERROR) << "Zstd stream hit end before reading all data";
return DecodeResult::Error;
}
zstd_done_ = true;
}
*output = std::span<char>(output_buffer_.data(), out.pos);
if (finished_) {
return input_buffer_.empty() && zstd_done_ ? DecodeResult::Done
: DecodeResult::MoreOutput;
}
return DecodeResult::NeedInput;
}
private:
bool zstd_done_ = false;
std::unique_ptr<ZSTD_DStream, size_t (*)(ZSTD_DStream*)> decoder_;
};
struct ZstdEncoder final : public Encoder {
explicit ZstdEncoder(size_t output_block_size)
: Encoder(output_block_size), encoder_(ZSTD_createCStream(), ZSTD_freeCStream) {
if (!encoder_) {
LOG(FATAL) << "failed to initialize Zstd compression context";
}
ZSTD_CCtx_setParameter(encoder_.get(), ZSTD_c_compressionLevel, 1);
}
EncodeResult Encode(Block* output) final {
ZSTD_inBuffer in;
in.src = input_buffer_.front_data();
in.size = input_buffer_.front_size();
in.pos = 0;
output->resize(output_block_size_);
ZSTD_outBuffer out;
out.dst = output->data();
out.size = static_cast<size_t>(output->size());
out.pos = 0;
ZSTD_EndDirective end_directive = finished_ ? ZSTD_e_end : ZSTD_e_continue;
size_t rc = ZSTD_compressStream2(encoder_.get(), &out, &in, end_directive);
if (ZSTD_isError(rc)) {
LOG(ERROR) << "ZSTD_compressStream2 failed: " << ZSTD_getErrorName(rc);
return EncodeResult::Error;
}
input_buffer_.drop_front(in.pos);
output->resize(out.pos);
if (rc == 0) {
// Zstd finished flushing its data.
if (finished_) {
if (!input_buffer_.empty()) {
LOG(ERROR) << "ZSTD_compressStream2 finished early";
return EncodeResult::Error;
}
return EncodeResult::Done;
} else {
return input_buffer_.empty() ? EncodeResult::NeedInput : EncodeResult::MoreOutput;
}
} else {
return EncodeResult::MoreOutput;
}
}
private:
std::unique_ptr<ZSTD_CStream, size_t (*)(ZSTD_CStream*)> encoder_;
};