#include "compression.hh" #include "signals.hh" #include "tarfile.hh" #include "finally.hh" #include "logging.hh" #include #include #include #include #include #include #include namespace nix { static const int COMPRESSION_LEVEL_DEFAULT = -1; // Don't feed brotli too much at once. struct ChunkedCompressionSink : CompressionSink { uint8_t outbuf[32 * 1024]; void writeUnbuffered(std::string_view data) override { const size_t CHUNK_SIZE = sizeof(outbuf) << 2; while (!data.empty()) { size_t n = std::min(CHUNK_SIZE, data.size()); writeInternal(data.substr(0, n)); data.remove_prefix(n); } } virtual void writeInternal(std::string_view data) = 0; }; struct ArchiveDecompressionSource : Source { std::unique_ptr archive = 0; Source & src; ArchiveDecompressionSource(Source & src) : src(src) {} ~ArchiveDecompressionSource() override {} size_t read(char * data, size_t len) override { struct archive_entry * ae; if (!archive) { archive = std::make_unique(src, true); this->archive->check(archive_read_next_header(this->archive->archive, &ae), "failed to read header (%s)"); if (archive_filter_count(this->archive->archive) < 2) { throw CompressionError("input compression not recognized"); } } ssize_t result = archive_read_data(this->archive->archive, data, len); if (result > 0) return result; if (result == 0) { throw EndOfFile("reached end of compressed file"); } this->archive->check(result, "failed to read compressed data (%s)"); return result; } }; struct ArchiveCompressionSink : CompressionSink { Sink & nextSink; struct archive * archive; ArchiveCompressionSink(Sink & nextSink, std::string format, bool parallel, int level = COMPRESSION_LEVEL_DEFAULT) : nextSink(nextSink) { archive = archive_write_new(); if (!archive) throw Error("failed to initialize libarchive"); check(archive_write_add_filter_by_name(archive, format.c_str()), "couldn't initialize compression (%s)"); check(archive_write_set_format_raw(archive)); if (parallel) check(archive_write_set_filter_option(archive, format.c_str(), "threads", "0")); if (level != COMPRESSION_LEVEL_DEFAULT) check(archive_write_set_filter_option(archive, format.c_str(), "compression-level", std::to_string(level).c_str())); // disable internal buffering check(archive_write_set_bytes_per_block(archive, 0)); // disable output padding check(archive_write_set_bytes_in_last_block(archive, 1)); open(); } ~ArchiveCompressionSink() override { if (archive) archive_write_free(archive); } void finish() override { flush(); check(archive_write_close(archive)); } void check(int err, const std::string & reason = "failed to compress (%s)") { if (err == ARCHIVE_EOF) throw EndOfFile("reached end of archive"); else if (err != ARCHIVE_OK) throw Error(reason, archive_error_string(this->archive)); } void writeUnbuffered(std::string_view data) override { ssize_t result = archive_write_data(archive, data.data(), data.length()); if (result <= 0) check(result); } private: void open() { check(archive_write_open(archive, this, nullptr, ArchiveCompressionSink::callback_write, nullptr)); auto ae = archive_entry_new(); archive_entry_set_filetype(ae, AE_IFREG); check(archive_write_header(archive, ae)); archive_entry_free(ae); } static ssize_t callback_write(struct archive * archive, void * _self, const void * buffer, size_t length) { auto self = (ArchiveCompressionSink *) _self; self->nextSink({(const char *) buffer, length}); return length; } }; struct NoneSink : CompressionSink { Sink & nextSink; NoneSink(Sink & nextSink, int level = COMPRESSION_LEVEL_DEFAULT) : nextSink(nextSink) { if (level != COMPRESSION_LEVEL_DEFAULT) warn("requested compression level '%d' not supported by compression method 'none'", level); } void finish() override { flush(); } void writeUnbuffered(std::string_view data) override { nextSink(data); } }; struct BrotliDecompressionSink : ChunkedCompressionSink { Sink & nextSink; BrotliDecoderState * state; bool finished = false; BrotliDecompressionSink(Sink & nextSink) : nextSink(nextSink) { state = BrotliDecoderCreateInstance(nullptr, nullptr, nullptr); if (!state) throw CompressionError("unable to initialize brotli decoder"); } ~BrotliDecompressionSink() { BrotliDecoderDestroyInstance(state); } void finish() override { flush(); writeInternal({}); } void writeInternal(std::string_view data) override { auto next_in = (const uint8_t *) data.data(); size_t avail_in = data.size(); uint8_t * next_out = outbuf; size_t avail_out = sizeof(outbuf); while (!finished && (!data.data() || avail_in)) { checkInterrupt(); if (!BrotliDecoderDecompressStream(state, &avail_in, &next_in, &avail_out, &next_out, nullptr)) throw CompressionError("error while decompressing brotli file"); if (avail_out < sizeof(outbuf) || avail_in == 0) { nextSink({(char *) outbuf, sizeof(outbuf) - avail_out}); next_out = outbuf; avail_out = sizeof(outbuf); } finished = BrotliDecoderIsFinished(state); } } }; std::string decompress(const std::string & method, std::string_view in) { StringSink ssink; auto sink = makeDecompressionSink(method, ssink); (*sink)(in); sink->finish(); return std::move(ssink.s); } std::unique_ptr makeDecompressionSink(const std::string & method, Sink & nextSink) { if (method == "none" || method == "") return std::make_unique(nextSink); else if (method == "br") return std::make_unique(nextSink); else return sourceToSink([&](Source & source) { auto decompressionSource = std::make_unique(source); decompressionSource->drainInto(nextSink); }); } struct BrotliCompressionSink : ChunkedCompressionSink { Sink & nextSink; uint8_t outbuf[BUFSIZ]; BrotliEncoderState * state; bool finished = false; BrotliCompressionSink(Sink & nextSink) : nextSink(nextSink) { state = BrotliEncoderCreateInstance(nullptr, nullptr, nullptr); if (!state) throw CompressionError("unable to initialise brotli encoder"); } ~BrotliCompressionSink() { BrotliEncoderDestroyInstance(state); } void finish() override { flush(); writeInternal({}); } void writeInternal(std::string_view data) override { auto next_in = (const uint8_t *) data.data(); size_t avail_in = data.size(); uint8_t * next_out = outbuf; size_t avail_out = sizeof(outbuf); while (!finished && (!data.data() || avail_in)) { checkInterrupt(); if (!BrotliEncoderCompressStream(state, data.data() ? BROTLI_OPERATION_PROCESS : BROTLI_OPERATION_FINISH, &avail_in, &next_in, &avail_out, &next_out, nullptr)) throw CompressionError("error while compressing brotli compression"); if (avail_out < sizeof(outbuf) || avail_in == 0) { nextSink({(const char *) outbuf, sizeof(outbuf) - avail_out}); next_out = outbuf; avail_out = sizeof(outbuf); } finished = BrotliEncoderIsFinished(state); } } }; ref makeCompressionSink(const std::string & method, Sink & nextSink, const bool parallel, int level) { std::vector la_supports = { "bzip2", "compress", "grzip", "gzip", "lrzip", "lz4", "lzip", "lzma", "lzop", "xz", "zstd" }; if (std::find(la_supports.begin(), la_supports.end(), method) != la_supports.end()) { return make_ref(nextSink, method, parallel, level); } if (method == "none") return make_ref(nextSink); else if (method == "br") return make_ref(nextSink); else throw UnknownCompressionMethod("unknown compression method '%s'", method); } std::string compress(const std::string & method, std::string_view in, const bool parallel, int level) { StringSink ssink; auto sink = makeCompressionSink(method, ssink, parallel, level); (*sink)(in); sink->finish(); return std::move(ssink.s); } }