#include "rrdpush.h" #ifdef ENABLE_COMPRESSION #include "lz4.h" #define STREAM_COMPRESSION_MSG "STREAM_COMPRESSION" #define LZ4_MAX_MSG_SIZE 0x4000 #define LZ4_STREAM_BUFFER_SIZE (0x10000 + LZ4_MAX_MSG_SIZE) #define SIGNATURE ((uint32_t)('z' | 0x80) | (0x80 << 8) | (0x80 << 16) | ('\n' << 24)) #define SIGNATURE_MASK ((uint32_t)0xff | (0x80 << 8) | (0x80 << 16) | (0xff << 24)) #define SIGNATURE_SIZE 4 /* * LZ4 streaming API compressor specific data */ struct compressor_data { LZ4_stream_t *stream; char *stream_buffer; size_t stream_buffer_pos; }; /* * Reset compressor state for a new stream */ static void lz4_compressor_reset(struct compressor_state *state) { if (state->data) { if (state->data->stream) { LZ4_resetStream_fast(state->data->stream); info("%s: Compressor Reset", STREAM_COMPRESSION_MSG); } state->data->stream_buffer_pos = 0; } } /* * Destroy compressor state and all related data */ static void lz4_compressor_destroy(struct compressor_state **state) { if (state && *state) { struct compressor_state *s = *state; if (s->data) { if (s->data->stream) LZ4_freeStream(s->data->stream); freez(s->data->stream_buffer); freez(s->data); } freez(s->buffer); freez(s); *state = NULL; debug(D_STREAM, "%s: Compressor Destroyed.", STREAM_COMPRESSION_MSG); } } /* * Compress the given block of data * Compressed data will remain in the internal buffer until the next invocation * Return the size of compressed data block as result and the pointer to internal buffer using the last argument * or 0 in case of error */ static size_t lz4_compressor_compress(struct compressor_state *state, const char *data, size_t size, char **out) { if (!state || !size || !out) return 0; if (size > LZ4_MAX_MSG_SIZE) { error("%s: Compression Failed - Message size %lu above compression buffer limit: %d", STREAM_COMPRESSION_MSG, size, LZ4_MAX_MSG_SIZE); return 0; } size_t max_dst_size = LZ4_COMPRESSBOUND(size); size_t data_size = max_dst_size + SIGNATURE_SIZE; if (!state->buffer) { state->buffer = mallocz(data_size); state->buffer_size = data_size; } else if (state->buffer_size < data_size) { state->buffer = reallocz(state->buffer, data_size); state->buffer_size = data_size; } memcpy(state->data->stream_buffer + state->data->stream_buffer_pos, data, size); long int compressed_data_size = LZ4_compress_fast_continue(state->data->stream, state->data->stream_buffer + state->data->stream_buffer_pos, state->buffer + SIGNATURE_SIZE, size, max_dst_size, 1); if (compressed_data_size < 0) { error("Data compression error: %ld", compressed_data_size); return 0; } state->data->stream_buffer_pos += size; if (state->data->stream_buffer_pos >= LZ4_STREAM_BUFFER_SIZE - LZ4_MAX_MSG_SIZE) state->data->stream_buffer_pos = 0; uint32_t len = ((compressed_data_size & 0x7f) | 0x80 | (((compressed_data_size & (0x7f << 7)) << 1) | 0x8000)) << 8; *(uint32_t *)state->buffer = len | SIGNATURE; *out = state->buffer; debug(D_STREAM, "%s: Compressed data header: %ld", STREAM_COMPRESSION_MSG, compressed_data_size); return compressed_data_size + SIGNATURE_SIZE; } /* * Create and initialize compressor state * Return the pointer to compressor_state structure created */ struct compressor_state *create_compressor() { struct compressor_state *state = callocz(1, sizeof(struct compressor_state)); state->reset = lz4_compressor_reset; state->compress = lz4_compressor_compress; state->destroy = lz4_compressor_destroy; state->data = callocz(1, sizeof(struct compressor_data)); state->data->stream = LZ4_createStream(); state->data->stream_buffer = callocz(1, LZ4_DECODER_RING_BUFFER_SIZE(LZ4_MAX_MSG_SIZE)); state->buffer_size = LZ4_STREAM_BUFFER_SIZE; state->reset(state); debug(D_STREAM, "%s: Initialize streaming compression!", STREAM_COMPRESSION_MSG); return state; } /* * LZ4 streaming API decompressor specific data */ struct decompressor_data { LZ4_streamDecode_t *stream; char *stream_buffer; size_t stream_buffer_size; size_t stream_buffer_pos; }; /* * Reset decompressor state for a new stream */ static void lz4_decompressor_reset(struct decompressor_state *state) { if (state->data) { if (state->data->stream) LZ4_setStreamDecode(state->data->stream, NULL, 0); state->data->stream_buffer_pos = 0; state->buffer_len = 0; state->out_buffer_len = 0; } } /* * Destroy decompressor state and all related data */ static void lz4_decompressor_destroy(struct decompressor_state **state) { if (state && *state) { struct decompressor_state *s = *state; if (s->data) { debug(D_STREAM, "%s: Destroying decompressor.", STREAM_COMPRESSION_MSG); if (s->data->stream) LZ4_freeStreamDecode(s->data->stream); freez(s->data->stream_buffer); freez(s->data); } freez(s->buffer); freez(s); *state = NULL; } } static size_t decode_compress_header(const char *data, size_t data_size) { if (!data || !data_size) return 0; if (data_size < SIGNATURE_SIZE) return 0; uint32_t sign = *(uint32_t *)data; if ((sign & SIGNATURE_MASK) != SIGNATURE) return 0; size_t length = ((sign >> 8) & 0x7f) | ((sign >> 9) & (0x7f << 7)); return length; } /* * Check input data for the compression header * Return the size of compressed data or 0 for uncompressed data */ size_t is_compressed_data(const char *data, size_t data_size) { return decode_compress_header(data, data_size); } /* * Start the collection of compressed data in an internal buffer * Return the size of compressed data or 0 for uncompressed data */ static size_t lz4_decompressor_start(struct decompressor_state *state, const char *header, size_t header_size) { size_t length = decode_compress_header(header, header_size); if (!length) return 0; if (!state->buffer) { state->buffer = mallocz(length); state->buffer_size = length; } else if (state->buffer_size < length) { state->buffer = reallocz(state->buffer, length); state->buffer_size = length; } state->buffer_len = length; state->buffer_pos = 0; state->out_buffer_pos = 0; state->out_buffer_len = 0; return length; } /* * Add a chunk of compressed data to the internal buffer * Return the current size of compressed data or 0 for error */ static size_t lz4_decompressor_put(struct decompressor_state *state, const char *data, size_t size) { if (!state || !size || !data) return 0; if (!state->buffer) fatal("STREAM: No decompressor buffer allocated"); if (state->buffer_pos + size > state->buffer_len) { error("STREAM: Decompressor buffer overflow %lu + %lu > %lu", state->buffer_pos, size, state->buffer_len); size = state->buffer_len - state->buffer_pos; } memcpy(state->buffer + state->buffer_pos, data, size); state->buffer_pos += size; return state->buffer_pos; } static size_t saving_percent(size_t comp_len, size_t src_len) { if (comp_len > src_len) comp_len = src_len; if (!src_len) return 0; return 100 - comp_len * 100 / src_len; } /* * Decompress the compressed data in the internal buffer * Return the size of uncompressed data or 0 for error */ static size_t lz4_decompressor_decompress(struct decompressor_state *state) { if (!state) return 0; if (!state->buffer) { error("%s: No decompressor buffer allocated", STREAM_COMPRESSION_MSG); return 0; } long int decompressed_size = LZ4_decompress_safe_continue(state->data->stream, state->buffer, state->data->stream_buffer + state->data->stream_buffer_pos, state->buffer_len, state->data->stream_buffer_size - state->data->stream_buffer_pos); if (decompressed_size < 0) { error("%s: Decompressor error %ld", STREAM_COMPRESSION_MSG, decompressed_size); return 0; } state->out_buffer = state->data->stream_buffer + state->data->stream_buffer_pos; state->data->stream_buffer_pos += decompressed_size; if (state->data->stream_buffer_pos >= state->data->stream_buffer_size - LZ4_MAX_MSG_SIZE) state->data->stream_buffer_pos = 0; state->out_buffer_len = decompressed_size; state->out_buffer_pos = 0; // Some compression statistics size_t old_avg_saving = saving_percent(state->total_compressed, state->total_uncompressed); size_t old_avg_size = state->packet_count ? state->total_uncompressed / state->packet_count : 0; state->total_compressed += state->buffer_len + SIGNATURE_SIZE; state->total_uncompressed += decompressed_size; state->packet_count++; size_t saving = saving_percent(state->buffer_len, decompressed_size); size_t avg_saving = saving_percent(state->total_compressed, state->total_uncompressed); size_t avg_size = state->total_uncompressed / state->packet_count; if (old_avg_saving != avg_saving || old_avg_size != avg_size){ debug(D_STREAM, "%s: Saving: %lu%% (avg. %lu%%), avg.size: %lu", STREAM_COMPRESSION_MSG, saving, avg_saving, avg_size); } return decompressed_size; } /* * Return the size of uncompressed data left in the internal buffer or 0 for error */ static size_t lz4_decompressor_decompressed_bytes_in_buffer(struct decompressor_state *state) { return state->out_buffer_len ? state->out_buffer_len - state->out_buffer_pos : 0; } /* * Fill the buffer provided with uncompressed data from the internal buffer * Return the size of uncompressed data copied or 0 for error */ static size_t lz4_decompressor_get(struct decompressor_state *state, char *data, size_t size) { if (!state || !size || !data) return 0; if (!state->out_buffer) fatal("%s: No decompressor output buffer allocated", STREAM_COMPRESSION_MSG); if (state->out_buffer_pos + size > state->out_buffer_len) size = state->out_buffer_len - state->out_buffer_pos; char *p = state->out_buffer + state->out_buffer_pos, *endp = p + size, *last_lf = NULL; for (; p < endp; ++p) if (*p == '\n' || *p == 0) last_lf = p; if (last_lf) size = last_lf + 1 - (state->out_buffer + state->out_buffer_pos); memcpy(data, state->out_buffer + state->out_buffer_pos, size); state->out_buffer_pos += size; return size; } /* * Create and initialize decompressor state * Return the pointer to decompressor_state structure created */ struct decompressor_state *create_decompressor() { struct decompressor_state *state = callocz(1, sizeof(struct decompressor_state)); state->reset = lz4_decompressor_reset; state->start = lz4_decompressor_start; state->put = lz4_decompressor_put; state->decompress = lz4_decompressor_decompress; state->get = lz4_decompressor_get; state->decompressed_bytes_in_buffer = lz4_decompressor_decompressed_bytes_in_buffer; state->destroy = lz4_decompressor_destroy; state->data = callocz(1, sizeof(struct decompressor_data)); fatal_assert(state->data); state->data->stream = LZ4_createStreamDecode(); state->data->stream_buffer_size = LZ4_decoderRingBufferSize(LZ4_MAX_MSG_SIZE); state->data->stream_buffer = mallocz(state->data->stream_buffer_size); fatal_assert(state->data->stream_buffer); state->reset(state); debug(D_STREAM, "%s: Initialize streaming decompression!", STREAM_COMPRESSION_MSG); return state; } #endif