X-Git-Url: https://notaz.gp2x.de/cgi-bin/gitweb.cgi?a=blobdiff_plain;f=deps%2Flibchdr%2Fdeps%2Fzstd-1.5.5%2Fcontrib%2Fpzstd%2FPzstd.cpp;fp=deps%2Flibchdr%2Fdeps%2Fzstd-1.5.5%2Fcontrib%2Fpzstd%2FPzstd.cpp;h=67b9419914928c7446e1c564931c73a222c8dbcc;hb=648db22b0750712da893c306efcc8e4b2d3a4e3c;hp=0000000000000000000000000000000000000000;hpb=e2fb1389dc12376acb84e4993ed3b08760257252;p=pcsx_rearmed.git diff --git a/deps/libchdr/deps/zstd-1.5.5/contrib/pzstd/Pzstd.cpp b/deps/libchdr/deps/zstd-1.5.5/contrib/pzstd/Pzstd.cpp new file mode 100644 index 00000000..67b94199 --- /dev/null +++ b/deps/libchdr/deps/zstd-1.5.5/contrib/pzstd/Pzstd.cpp @@ -0,0 +1,618 @@ +/* + * Copyright (c) Meta Platforms, Inc. and affiliates. + * All rights reserved. + * + * This source code is licensed under both the BSD-style license (found in the + * LICENSE file in the root directory of this source tree) and the GPLv2 (found + * in the COPYING file in the root directory of this source tree). + */ +#include "platform.h" /* Large Files support, SET_BINARY_MODE */ +#include "Pzstd.h" +#include "SkippableFrame.h" +#include "utils/FileSystem.h" +#include "utils/Portability.h" +#include "utils/Range.h" +#include "utils/ScopeGuard.h" +#include "utils/ThreadPool.h" +#include "utils/WorkQueue.h" + +#include +#include +#include +#include +#include +#include +#include + + +namespace pzstd { + +namespace { +#ifdef _WIN32 +const std::string nullOutput = "nul"; +#else +const std::string nullOutput = "/dev/null"; +#endif +} + +using std::size_t; + +static std::uintmax_t fileSizeOrZero(const std::string &file) { + if (file == "-") { + return 0; + } + std::error_code ec; + auto size = file_size(file, ec); + if (ec) { + size = 0; + } + return size; +} + +static std::uint64_t handleOneInput(const Options &options, + const std::string &inputFile, + FILE* inputFd, + const std::string &outputFile, + FILE* outputFd, + SharedState& state) { + auto inputSize = fileSizeOrZero(inputFile); + // WorkQueue outlives ThreadPool so in the case of error we are certain + // we don't accidentally try to call push() on it after it is destroyed + WorkQueue> outs{options.numThreads + 1}; + std::uint64_t bytesRead; + std::uint64_t bytesWritten; + { + // Initialize the (de)compression thread pool with numThreads + ThreadPool executor(options.numThreads); + // Run the reader thread on an extra thread + ThreadPool readExecutor(1); + if (!options.decompress) { + // Add a job that reads the input and starts all the compression jobs + readExecutor.add( + [&state, &outs, &executor, inputFd, inputSize, &options, &bytesRead] { + bytesRead = asyncCompressChunks( + state, + outs, + executor, + inputFd, + inputSize, + options.numThreads, + options.determineParameters()); + }); + // Start writing + bytesWritten = writeFile(state, outs, outputFd, options.decompress); + } else { + // Add a job that reads the input and starts all the decompression jobs + readExecutor.add([&state, &outs, &executor, inputFd, &bytesRead] { + bytesRead = asyncDecompressFrames(state, outs, executor, inputFd); + }); + // Start writing + bytesWritten = writeFile(state, outs, outputFd, options.decompress); + } + } + if (!state.errorHolder.hasError()) { + std::string inputFileName = inputFile == "-" ? "stdin" : inputFile; + std::string outputFileName = outputFile == "-" ? "stdout" : outputFile; + if (!options.decompress) { + double ratio = static_cast(bytesWritten) / + static_cast(bytesRead + !bytesRead); + state.log(kLogInfo, "%-20s :%6.2f%% (%6" PRIu64 " => %6" PRIu64 + " bytes, %s)\n", + inputFileName.c_str(), ratio * 100, bytesRead, bytesWritten, + outputFileName.c_str()); + } else { + state.log(kLogInfo, "%-20s: %" PRIu64 " bytes \n", + inputFileName.c_str(),bytesWritten); + } + } + return bytesWritten; +} + +static FILE *openInputFile(const std::string &inputFile, + ErrorHolder &errorHolder) { + if (inputFile == "-") { + SET_BINARY_MODE(stdin); + return stdin; + } + // Check if input file is a directory + { + std::error_code ec; + if (is_directory(inputFile, ec)) { + errorHolder.setError("Output file is a directory -- ignored"); + return nullptr; + } + } + auto inputFd = std::fopen(inputFile.c_str(), "rb"); + if (!errorHolder.check(inputFd != nullptr, "Failed to open input file")) { + return nullptr; + } + return inputFd; +} + +static FILE *openOutputFile(const Options &options, + const std::string &outputFile, + SharedState& state) { + if (outputFile == "-") { + SET_BINARY_MODE(stdout); + return stdout; + } + // Check if the output file exists and then open it + if (!options.overwrite && outputFile != nullOutput) { + auto outputFd = std::fopen(outputFile.c_str(), "rb"); + if (outputFd != nullptr) { + std::fclose(outputFd); + if (!state.log.logsAt(kLogInfo)) { + state.errorHolder.setError("Output file exists"); + return nullptr; + } + state.log( + kLogInfo, + "pzstd: %s already exists; do you wish to overwrite (y/n) ? ", + outputFile.c_str()); + int c = getchar(); + if (c != 'y' && c != 'Y') { + state.errorHolder.setError("Not overwritten"); + return nullptr; + } + } + } + auto outputFd = std::fopen(outputFile.c_str(), "wb"); + if (!state.errorHolder.check( + outputFd != nullptr, "Failed to open output file")) { + return nullptr; + } + return outputFd; +} + +int pzstdMain(const Options &options) { + int returnCode = 0; + SharedState state(options); + for (const auto& input : options.inputFiles) { + // Setup the shared state + auto printErrorGuard = makeScopeGuard([&] { + if (state.errorHolder.hasError()) { + returnCode = 1; + state.log(kLogError, "pzstd: %s: %s.\n", input.c_str(), + state.errorHolder.getError().c_str()); + } + }); + // Open the input file + auto inputFd = openInputFile(input, state.errorHolder); + if (inputFd == nullptr) { + continue; + } + auto closeInputGuard = makeScopeGuard([&] { std::fclose(inputFd); }); + // Open the output file + auto outputFile = options.getOutputFile(input); + if (!state.errorHolder.check(outputFile != "", + "Input file does not have extension .zst")) { + continue; + } + auto outputFd = openOutputFile(options, outputFile, state); + if (outputFd == nullptr) { + continue; + } + auto closeOutputGuard = makeScopeGuard([&] { std::fclose(outputFd); }); + // (de)compress the file + handleOneInput(options, input, inputFd, outputFile, outputFd, state); + if (state.errorHolder.hasError()) { + continue; + } + // Delete the input file if necessary + if (!options.keepSource) { + // Be sure that we are done and have written everything before we delete + if (!state.errorHolder.check(std::fclose(inputFd) == 0, + "Failed to close input file")) { + continue; + } + closeInputGuard.dismiss(); + if (!state.errorHolder.check(std::fclose(outputFd) == 0, + "Failed to close output file")) { + continue; + } + closeOutputGuard.dismiss(); + if (std::remove(input.c_str()) != 0) { + state.errorHolder.setError("Failed to remove input file"); + continue; + } + } + } + // Returns 1 if any of the files failed to (de)compress. + return returnCode; +} + +/// Construct a `ZSTD_inBuffer` that points to the data in `buffer`. +static ZSTD_inBuffer makeZstdInBuffer(const Buffer& buffer) { + return ZSTD_inBuffer{buffer.data(), buffer.size(), 0}; +} + +/** + * Advance `buffer` and `inBuffer` by the amount of data read, as indicated by + * `inBuffer.pos`. + */ +void advance(Buffer& buffer, ZSTD_inBuffer& inBuffer) { + auto pos = inBuffer.pos; + inBuffer.src = static_cast(inBuffer.src) + pos; + inBuffer.size -= pos; + inBuffer.pos = 0; + return buffer.advance(pos); +} + +/// Construct a `ZSTD_outBuffer` that points to the data in `buffer`. +static ZSTD_outBuffer makeZstdOutBuffer(Buffer& buffer) { + return ZSTD_outBuffer{buffer.data(), buffer.size(), 0}; +} + +/** + * Split `buffer` and advance `outBuffer` by the amount of data written, as + * indicated by `outBuffer.pos`. + */ +Buffer split(Buffer& buffer, ZSTD_outBuffer& outBuffer) { + auto pos = outBuffer.pos; + outBuffer.dst = static_cast(outBuffer.dst) + pos; + outBuffer.size -= pos; + outBuffer.pos = 0; + return buffer.splitAt(pos); +} + +/** + * Stream chunks of input from `in`, compress it, and stream it out to `out`. + * + * @param state The shared state + * @param in Queue that we `pop()` input buffers from + * @param out Queue that we `push()` compressed output buffers to + * @param maxInputSize An upper bound on the size of the input + */ +static void compress( + SharedState& state, + std::shared_ptr in, + std::shared_ptr out, + size_t maxInputSize) { + auto& errorHolder = state.errorHolder; + auto guard = makeScopeGuard([&] { out->finish(); }); + // Initialize the CCtx + auto ctx = state.cStreamPool->get(); + if (!errorHolder.check(ctx != nullptr, "Failed to allocate ZSTD_CStream")) { + return; + } + { + auto err = ZSTD_CCtx_reset(ctx.get(), ZSTD_reset_session_only); + if (!errorHolder.check(!ZSTD_isError(err), ZSTD_getErrorName(err))) { + return; + } + } + + // Allocate space for the result + auto outBuffer = Buffer(ZSTD_compressBound(maxInputSize)); + auto zstdOutBuffer = makeZstdOutBuffer(outBuffer); + { + Buffer inBuffer; + // Read a buffer in from the input queue + while (in->pop(inBuffer) && !errorHolder.hasError()) { + auto zstdInBuffer = makeZstdInBuffer(inBuffer); + // Compress the whole buffer and send it to the output queue + while (!inBuffer.empty() && !errorHolder.hasError()) { + if (!errorHolder.check( + !outBuffer.empty(), "ZSTD_compressBound() was too small")) { + return; + } + // Compress + auto err = + ZSTD_compressStream(ctx.get(), &zstdOutBuffer, &zstdInBuffer); + if (!errorHolder.check(!ZSTD_isError(err), ZSTD_getErrorName(err))) { + return; + } + // Split the compressed data off outBuffer and pass to the output queue + out->push(split(outBuffer, zstdOutBuffer)); + // Forget about the data we already compressed + advance(inBuffer, zstdInBuffer); + } + } + } + // Write the epilog + size_t bytesLeft; + do { + if (!errorHolder.check( + !outBuffer.empty(), "ZSTD_compressBound() was too small")) { + return; + } + bytesLeft = ZSTD_endStream(ctx.get(), &zstdOutBuffer); + if (!errorHolder.check( + !ZSTD_isError(bytesLeft), ZSTD_getErrorName(bytesLeft))) { + return; + } + out->push(split(outBuffer, zstdOutBuffer)); + } while (bytesLeft != 0 && !errorHolder.hasError()); +} + +/** + * Calculates how large each independently compressed frame should be. + * + * @param size The size of the source if known, 0 otherwise + * @param numThreads The number of threads available to run compression jobs on + * @param params The zstd parameters to be used for compression + */ +static size_t calculateStep( + std::uintmax_t size, + size_t numThreads, + const ZSTD_parameters ¶ms) { + (void)size; + (void)numThreads; + // Not validated to work correctly for window logs > 23. + // It will definitely fail if windowLog + 2 is >= 4GB because + // the skippable frame can only store sizes up to 4GB. + assert(params.cParams.windowLog <= 23); + return size_t{1} << (params.cParams.windowLog + 2); +} + +namespace { +enum class FileStatus { Continue, Done, Error }; +/// Determines the status of the file descriptor `fd`. +FileStatus fileStatus(FILE* fd) { + if (std::feof(fd)) { + return FileStatus::Done; + } else if (std::ferror(fd)) { + return FileStatus::Error; + } + return FileStatus::Continue; +} +} // anonymous namespace + +/** + * Reads `size` data in chunks of `chunkSize` and puts it into `queue`. + * Will read less if an error or EOF occurs. + * Returns the status of the file after all of the reads have occurred. + */ +static FileStatus +readData(BufferWorkQueue& queue, size_t chunkSize, size_t size, FILE* fd, + std::uint64_t *totalBytesRead) { + Buffer buffer(size); + while (!buffer.empty()) { + auto bytesRead = + std::fread(buffer.data(), 1, std::min(chunkSize, buffer.size()), fd); + *totalBytesRead += bytesRead; + queue.push(buffer.splitAt(bytesRead)); + auto status = fileStatus(fd); + if (status != FileStatus::Continue) { + return status; + } + } + return FileStatus::Continue; +} + +std::uint64_t asyncCompressChunks( + SharedState& state, + WorkQueue>& chunks, + ThreadPool& executor, + FILE* fd, + std::uintmax_t size, + size_t numThreads, + ZSTD_parameters params) { + auto chunksGuard = makeScopeGuard([&] { chunks.finish(); }); + std::uint64_t bytesRead = 0; + + // Break the input up into chunks of size `step` and compress each chunk + // independently. + size_t step = calculateStep(size, numThreads, params); + state.log(kLogDebug, "Chosen frame size: %zu\n", step); + auto status = FileStatus::Continue; + while (status == FileStatus::Continue && !state.errorHolder.hasError()) { + // Make a new input queue that we will put the chunk's input data into. + auto in = std::make_shared(); + auto inGuard = makeScopeGuard([&] { in->finish(); }); + // Make a new output queue that compress will put the compressed data into. + auto out = std::make_shared(); + // Start compression in the thread pool + executor.add([&state, in, out, step] { + return compress( + state, std::move(in), std::move(out), step); + }); + // Pass the output queue to the writer thread. + chunks.push(std::move(out)); + state.log(kLogVerbose, "%s\n", "Starting a new frame"); + // Fill the input queue for the compression job we just started + status = readData(*in, ZSTD_CStreamInSize(), step, fd, &bytesRead); + } + state.errorHolder.check(status != FileStatus::Error, "Error reading input"); + return bytesRead; +} + +/** + * Decompress a frame, whose data is streamed into `in`, and stream the output + * to `out`. + * + * @param state The shared state + * @param in Queue that we `pop()` input buffers from. It contains + * exactly one compressed frame. + * @param out Queue that we `push()` decompressed output buffers to + */ +static void decompress( + SharedState& state, + std::shared_ptr in, + std::shared_ptr out) { + auto& errorHolder = state.errorHolder; + auto guard = makeScopeGuard([&] { out->finish(); }); + // Initialize the DCtx + auto ctx = state.dStreamPool->get(); + if (!errorHolder.check(ctx != nullptr, "Failed to allocate ZSTD_DStream")) { + return; + } + { + auto err = ZSTD_DCtx_reset(ctx.get(), ZSTD_reset_session_only); + if (!errorHolder.check(!ZSTD_isError(err), ZSTD_getErrorName(err))) { + return; + } + } + + const size_t outSize = ZSTD_DStreamOutSize(); + Buffer inBuffer; + size_t returnCode = 0; + // Read a buffer in from the input queue + while (in->pop(inBuffer) && !errorHolder.hasError()) { + auto zstdInBuffer = makeZstdInBuffer(inBuffer); + // Decompress the whole buffer and send it to the output queue + while (!inBuffer.empty() && !errorHolder.hasError()) { + // Allocate a buffer with at least outSize bytes. + Buffer outBuffer(outSize); + auto zstdOutBuffer = makeZstdOutBuffer(outBuffer); + // Decompress + returnCode = + ZSTD_decompressStream(ctx.get(), &zstdOutBuffer, &zstdInBuffer); + if (!errorHolder.check( + !ZSTD_isError(returnCode), ZSTD_getErrorName(returnCode))) { + return; + } + // Pass the buffer with the decompressed data to the output queue + out->push(split(outBuffer, zstdOutBuffer)); + // Advance past the input we already read + advance(inBuffer, zstdInBuffer); + if (returnCode == 0) { + // The frame is over, prepare to (maybe) start a new frame + ZSTD_initDStream(ctx.get()); + } + } + } + if (!errorHolder.check(returnCode <= 1, "Incomplete block")) { + return; + } + // We've given ZSTD_decompressStream all of our data, but there may still + // be data to read. + while (returnCode == 1) { + // Allocate a buffer with at least outSize bytes. + Buffer outBuffer(outSize); + auto zstdOutBuffer = makeZstdOutBuffer(outBuffer); + // Pass in no input. + ZSTD_inBuffer zstdInBuffer{nullptr, 0, 0}; + // Decompress + returnCode = + ZSTD_decompressStream(ctx.get(), &zstdOutBuffer, &zstdInBuffer); + if (!errorHolder.check( + !ZSTD_isError(returnCode), ZSTD_getErrorName(returnCode))) { + return; + } + // Pass the buffer with the decompressed data to the output queue + out->push(split(outBuffer, zstdOutBuffer)); + } +} + +std::uint64_t asyncDecompressFrames( + SharedState& state, + WorkQueue>& frames, + ThreadPool& executor, + FILE* fd) { + auto framesGuard = makeScopeGuard([&] { frames.finish(); }); + std::uint64_t totalBytesRead = 0; + + // Split the source up into its component frames. + // If we find our recognized skippable frame we know the next frames size + // which means that we can decompress each standard frame in independently. + // Otherwise, we will decompress using only one decompression task. + const size_t chunkSize = ZSTD_DStreamInSize(); + auto status = FileStatus::Continue; + while (status == FileStatus::Continue && !state.errorHolder.hasError()) { + // Make a new input queue that we will put the frames's bytes into. + auto in = std::make_shared(); + auto inGuard = makeScopeGuard([&] { in->finish(); }); + // Make a output queue that decompress will put the decompressed data into + auto out = std::make_shared(); + + size_t frameSize; + { + // Calculate the size of the next frame. + // frameSize is 0 if the frame info can't be decoded. + Buffer buffer(SkippableFrame::kSize); + auto bytesRead = std::fread(buffer.data(), 1, buffer.size(), fd); + totalBytesRead += bytesRead; + status = fileStatus(fd); + if (bytesRead == 0 && status != FileStatus::Continue) { + break; + } + buffer.subtract(buffer.size() - bytesRead); + frameSize = SkippableFrame::tryRead(buffer.range()); + in->push(std::move(buffer)); + } + if (frameSize == 0) { + // We hit a non SkippableFrame, so this will be the last job. + // Make sure that we don't use too much memory + in->setMaxSize(64); + out->setMaxSize(64); + } + // Start decompression in the thread pool + executor.add([&state, in, out] { + return decompress(state, std::move(in), std::move(out)); + }); + // Pass the output queue to the writer thread + frames.push(std::move(out)); + if (frameSize == 0) { + // We hit a non SkippableFrame ==> not compressed by pzstd or corrupted + // Pass the rest of the source to this decompression task + state.log(kLogVerbose, "%s\n", + "Input not in pzstd format, falling back to serial decompression"); + while (status == FileStatus::Continue && !state.errorHolder.hasError()) { + status = readData(*in, chunkSize, chunkSize, fd, &totalBytesRead); + } + break; + } + state.log(kLogVerbose, "Decompressing a frame of size %zu", frameSize); + // Fill the input queue for the decompression job we just started + status = readData(*in, chunkSize, frameSize, fd, &totalBytesRead); + } + state.errorHolder.check(status != FileStatus::Error, "Error reading input"); + return totalBytesRead; +} + +/// Write `data` to `fd`, returns true iff success. +static bool writeData(ByteRange data, FILE* fd) { + while (!data.empty()) { + data.advance(std::fwrite(data.begin(), 1, data.size(), fd)); + if (std::ferror(fd)) { + return false; + } + } + return true; +} + +std::uint64_t writeFile( + SharedState& state, + WorkQueue>& outs, + FILE* outputFd, + bool decompress) { + auto& errorHolder = state.errorHolder; + auto lineClearGuard = makeScopeGuard([&state] { + state.log.clear(kLogInfo); + }); + std::uint64_t bytesWritten = 0; + std::shared_ptr out; + // Grab the output queue for each decompression job (in order). + while (outs.pop(out)) { + if (errorHolder.hasError()) { + continue; + } + if (!decompress) { + // If we are compressing and want to write skippable frames we can't + // start writing before compression is done because we need to know the + // compressed size. + // Wait for the compressed size to be available and write skippable frame + assert(uint64_t(out->size()) < uint64_t(1) << 32); + SkippableFrame frame(uint32_t(out->size())); + if (!writeData(frame.data(), outputFd)) { + errorHolder.setError("Failed to write output"); + return bytesWritten; + } + bytesWritten += frame.kSize; + } + // For each chunk of the frame: Pop it from the queue and write it + Buffer buffer; + while (out->pop(buffer) && !errorHolder.hasError()) { + if (!writeData(buffer.range(), outputFd)) { + errorHolder.setError("Failed to write output"); + return bytesWritten; + } + bytesWritten += buffer.size(); + state.log.update(kLogInfo, "Written: %u MB ", + static_cast(bytesWritten >> 20)); + } + } + return bytesWritten; +} +}