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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-11-25 17:33:56 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-11-25 17:34:10 +0000 |
commit | 83ba6762cc43d9db581b979bb5e3445669e46cc2 (patch) | |
tree | 2e69833b43f791ed253a7a20318b767ebe56cdb8 /src/streaming/stream-compression/compression.c | |
parent | Releasing debian version 1.47.5-1. (diff) | |
download | netdata-83ba6762cc43d9db581b979bb5e3445669e46cc2.tar.xz netdata-83ba6762cc43d9db581b979bb5e3445669e46cc2.zip |
Merging upstream version 2.0.3+dfsg (Closes: #923993, #1042533, #1045145).
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'src/streaming/stream-compression/compression.c')
-rw-r--r-- | src/streaming/stream-compression/compression.c | 703 |
1 files changed, 703 insertions, 0 deletions
diff --git a/src/streaming/stream-compression/compression.c b/src/streaming/stream-compression/compression.c new file mode 100644 index 000000000..3c9930656 --- /dev/null +++ b/src/streaming/stream-compression/compression.c @@ -0,0 +1,703 @@ +// SPDX-License-Identifier: GPL-3.0-or-later + +#include "compression.h" + +#include "gzip.h" + +#ifdef ENABLE_LZ4 +#include "lz4.h" +#endif + +#ifdef ENABLE_ZSTD +#include "zstd.h" +#endif + +#ifdef ENABLE_BROTLI +#include "brotli.h" +#endif + +int rrdpush_compression_levels[COMPRESSION_ALGORITHM_MAX] = { + [COMPRESSION_ALGORITHM_NONE] = 0, + [COMPRESSION_ALGORITHM_ZSTD] = 3, // 1 (faster) - 22 (smaller) + [COMPRESSION_ALGORITHM_LZ4] = 1, // 1 (smaller) - 9 (faster) + [COMPRESSION_ALGORITHM_BROTLI] = 3, // 0 (faster) - 11 (smaller) + [COMPRESSION_ALGORITHM_GZIP] = 1, // 1 (faster) - 9 (smaller) +}; + +void rrdpush_parse_compression_order(struct receiver_state *rpt, const char *order) { + // empty all slots + for(size_t i = 0; i < COMPRESSION_ALGORITHM_MAX ;i++) + rpt->config.compression_priorities[i] = STREAM_CAP_NONE; + + char *s = strdupz(order); + + char *words[COMPRESSION_ALGORITHM_MAX + 100] = { NULL }; + size_t num_words = quoted_strings_splitter_whitespace(s, words, COMPRESSION_ALGORITHM_MAX + 100); + size_t slot = 0; + STREAM_CAPABILITIES added = STREAM_CAP_NONE; + for(size_t i = 0; i < num_words && slot < COMPRESSION_ALGORITHM_MAX ;i++) { + if((STREAM_CAP_ZSTD_AVAILABLE) && strcasecmp(words[i], "zstd") == 0 && !(added & STREAM_CAP_ZSTD)) { + rpt->config.compression_priorities[slot++] = STREAM_CAP_ZSTD; + added |= STREAM_CAP_ZSTD; + } + else if((STREAM_CAP_LZ4_AVAILABLE) && strcasecmp(words[i], "lz4") == 0 && !(added & STREAM_CAP_LZ4)) { + rpt->config.compression_priorities[slot++] = STREAM_CAP_LZ4; + added |= STREAM_CAP_LZ4; + } + else if((STREAM_CAP_BROTLI_AVAILABLE) && strcasecmp(words[i], "brotli") == 0 && !(added & STREAM_CAP_BROTLI)) { + rpt->config.compression_priorities[slot++] = STREAM_CAP_BROTLI; + added |= STREAM_CAP_BROTLI; + } + else if(strcasecmp(words[i], "gzip") == 0 && !(added & STREAM_CAP_GZIP)) { + rpt->config.compression_priorities[slot++] = STREAM_CAP_GZIP; + added |= STREAM_CAP_GZIP; + } + } + + freez(s); + + // make sure all participate + if((STREAM_CAP_ZSTD_AVAILABLE) && slot < COMPRESSION_ALGORITHM_MAX && !(added & STREAM_CAP_ZSTD)) + rpt->config.compression_priorities[slot++] = STREAM_CAP_ZSTD; + if((STREAM_CAP_LZ4_AVAILABLE) && slot < COMPRESSION_ALGORITHM_MAX && !(added & STREAM_CAP_LZ4)) + rpt->config.compression_priorities[slot++] = STREAM_CAP_LZ4; + if((STREAM_CAP_BROTLI_AVAILABLE) && slot < COMPRESSION_ALGORITHM_MAX && !(added & STREAM_CAP_BROTLI)) + rpt->config.compression_priorities[slot++] = STREAM_CAP_BROTLI; + if(slot < COMPRESSION_ALGORITHM_MAX && !(added & STREAM_CAP_GZIP)) + rpt->config.compression_priorities[slot++] = STREAM_CAP_GZIP; +} + +void rrdpush_select_receiver_compression_algorithm(struct receiver_state *rpt) { + if (!rpt->config.rrdpush_compression) + rpt->capabilities &= ~STREAM_CAP_COMPRESSIONS_AVAILABLE; + + // select the right compression before sending our capabilities to the child + if(stream_has_more_than_one_capability_of(rpt->capabilities, STREAM_CAP_COMPRESSIONS_AVAILABLE)) { + STREAM_CAPABILITIES compressions = rpt->capabilities & STREAM_CAP_COMPRESSIONS_AVAILABLE; + for(int i = 0; i < COMPRESSION_ALGORITHM_MAX; i++) { + STREAM_CAPABILITIES c = rpt->config.compression_priorities[i]; + + if(!(c & STREAM_CAP_COMPRESSIONS_AVAILABLE)) + continue; + + if(compressions & c) { + STREAM_CAPABILITIES exclude = compressions; + exclude &= ~c; + + rpt->capabilities &= ~exclude; + break; + } + } + } +} + +bool rrdpush_compression_initialize(struct sender_state *s) { + rrdpush_compressor_destroy(&s->compressor); + + // IMPORTANT + // KEEP THE SAME ORDER IN DECOMPRESSION + + if(stream_has_capability(s, STREAM_CAP_ZSTD)) + s->compressor.algorithm = COMPRESSION_ALGORITHM_ZSTD; + else if(stream_has_capability(s, STREAM_CAP_LZ4)) + s->compressor.algorithm = COMPRESSION_ALGORITHM_LZ4; + else if(stream_has_capability(s, STREAM_CAP_BROTLI)) + s->compressor.algorithm = COMPRESSION_ALGORITHM_BROTLI; + else if(stream_has_capability(s, STREAM_CAP_GZIP)) + s->compressor.algorithm = COMPRESSION_ALGORITHM_GZIP; + else + s->compressor.algorithm = COMPRESSION_ALGORITHM_NONE; + + if(s->compressor.algorithm != COMPRESSION_ALGORITHM_NONE) { + s->compressor.level = rrdpush_compression_levels[s->compressor.algorithm]; + rrdpush_compressor_init(&s->compressor); + return true; + } + + return false; +} + +bool rrdpush_decompression_initialize(struct receiver_state *rpt) { + rrdpush_decompressor_destroy(&rpt->decompressor); + + // IMPORTANT + // KEEP THE SAME ORDER IN COMPRESSION + + if(stream_has_capability(rpt, STREAM_CAP_ZSTD)) + rpt->decompressor.algorithm = COMPRESSION_ALGORITHM_ZSTD; + else if(stream_has_capability(rpt, STREAM_CAP_LZ4)) + rpt->decompressor.algorithm = COMPRESSION_ALGORITHM_LZ4; + else if(stream_has_capability(rpt, STREAM_CAP_BROTLI)) + rpt->decompressor.algorithm = COMPRESSION_ALGORITHM_BROTLI; + else if(stream_has_capability(rpt, STREAM_CAP_GZIP)) + rpt->decompressor.algorithm = COMPRESSION_ALGORITHM_GZIP; + else + rpt->decompressor.algorithm = COMPRESSION_ALGORITHM_NONE; + + if(rpt->decompressor.algorithm != COMPRESSION_ALGORITHM_NONE) { + rrdpush_decompressor_init(&rpt->decompressor); + return true; + } + + return false; +} + +/* +* In case of stream compression buffer overflow +* Inform the user through the error log file and +* deactivate compression by downgrading the stream protocol. +*/ +void rrdpush_compression_deactivate(struct sender_state *s) { + switch(s->compressor.algorithm) { + case COMPRESSION_ALGORITHM_MAX: + case COMPRESSION_ALGORITHM_NONE: + netdata_log_error("STREAM_COMPRESSION: compression error on 'host:%s' without any compression enabled. Ignoring error.", + rrdhost_hostname(s->host)); + break; + + case COMPRESSION_ALGORITHM_GZIP: + netdata_log_error("STREAM_COMPRESSION: GZIP compression error on 'host:%s'. Disabling GZIP for this node.", + rrdhost_hostname(s->host)); + s->disabled_capabilities |= STREAM_CAP_GZIP; + break; + + case COMPRESSION_ALGORITHM_LZ4: + netdata_log_error("STREAM_COMPRESSION: LZ4 compression error on 'host:%s'. Disabling ZSTD for this node.", + rrdhost_hostname(s->host)); + s->disabled_capabilities |= STREAM_CAP_LZ4; + break; + + case COMPRESSION_ALGORITHM_ZSTD: + netdata_log_error("STREAM_COMPRESSION: ZSTD compression error on 'host:%s'. Disabling ZSTD for this node.", + rrdhost_hostname(s->host)); + s->disabled_capabilities |= STREAM_CAP_ZSTD; + break; + + case COMPRESSION_ALGORITHM_BROTLI: + netdata_log_error("STREAM_COMPRESSION: BROTLI compression error on 'host:%s'. Disabling BROTLI for this node.", + rrdhost_hostname(s->host)); + s->disabled_capabilities |= STREAM_CAP_BROTLI; + break; + } +} + +// ---------------------------------------------------------------------------- +// compressor public API + +void rrdpush_compressor_init(struct compressor_state *state) { + switch(state->algorithm) { +#ifdef ENABLE_ZSTD + case COMPRESSION_ALGORITHM_ZSTD: + rrdpush_compressor_init_zstd(state); + break; +#endif + +#ifdef ENABLE_LZ4 + case COMPRESSION_ALGORITHM_LZ4: + rrdpush_compressor_init_lz4(state); + break; +#endif + +#ifdef ENABLE_BROTLI + case COMPRESSION_ALGORITHM_BROTLI: + rrdpush_compressor_init_brotli(state); + break; +#endif + + default: + case COMPRESSION_ALGORITHM_GZIP: + rrdpush_compressor_init_gzip(state); + break; + } + + simple_ring_buffer_reset(&state->input); + simple_ring_buffer_reset(&state->output); +} + +void rrdpush_compressor_destroy(struct compressor_state *state) { + switch(state->algorithm) { +#ifdef ENABLE_ZSTD + case COMPRESSION_ALGORITHM_ZSTD: + rrdpush_compressor_destroy_zstd(state); + break; +#endif + +#ifdef ENABLE_LZ4 + case COMPRESSION_ALGORITHM_LZ4: + rrdpush_compressor_destroy_lz4(state); + break; +#endif + +#ifdef ENABLE_BROTLI + case COMPRESSION_ALGORITHM_BROTLI: + rrdpush_compressor_destroy_brotli(state); + break; +#endif + + default: + case COMPRESSION_ALGORITHM_GZIP: + rrdpush_compressor_destroy_gzip(state); + break; + } + + state->initialized = false; + + simple_ring_buffer_destroy(&state->input); + simple_ring_buffer_destroy(&state->output); +} + +size_t rrdpush_compress(struct compressor_state *state, const char *data, size_t size, const char **out) { + size_t ret = 0; + + switch(state->algorithm) { +#ifdef ENABLE_ZSTD + case COMPRESSION_ALGORITHM_ZSTD: + ret = rrdpush_compress_zstd(state, data, size, out); + break; +#endif + +#ifdef ENABLE_LZ4 + case COMPRESSION_ALGORITHM_LZ4: + ret = rrdpush_compress_lz4(state, data, size, out); + break; +#endif + +#ifdef ENABLE_BROTLI + case COMPRESSION_ALGORITHM_BROTLI: + ret = rrdpush_compress_brotli(state, data, size, out); + break; +#endif + + default: + case COMPRESSION_ALGORITHM_GZIP: + ret = rrdpush_compress_gzip(state, data, size, out); + break; + } + + if(unlikely(ret >= COMPRESSION_MAX_CHUNK)) { + netdata_log_error("RRDPUSH_COMPRESS: compressed data is %zu bytes, which is >= than the max chunk size %d", + ret, COMPRESSION_MAX_CHUNK); + return 0; + } + + return ret; +} + +// ---------------------------------------------------------------------------- +// decompressor public API + +void rrdpush_decompressor_destroy(struct decompressor_state *state) { + if(unlikely(!state->initialized)) + return; + + switch(state->algorithm) { +#ifdef ENABLE_ZSTD + case COMPRESSION_ALGORITHM_ZSTD: + rrdpush_decompressor_destroy_zstd(state); + break; +#endif + +#ifdef ENABLE_LZ4 + case COMPRESSION_ALGORITHM_LZ4: + rrdpush_decompressor_destroy_lz4(state); + break; +#endif + +#ifdef ENABLE_BROTLI + case COMPRESSION_ALGORITHM_BROTLI: + rrdpush_decompressor_destroy_brotli(state); + break; +#endif + + default: + case COMPRESSION_ALGORITHM_GZIP: + rrdpush_decompressor_destroy_gzip(state); + break; + } + + simple_ring_buffer_destroy(&state->output); + + state->initialized = false; +} + +void rrdpush_decompressor_init(struct decompressor_state *state) { + switch(state->algorithm) { +#ifdef ENABLE_ZSTD + case COMPRESSION_ALGORITHM_ZSTD: + rrdpush_decompressor_init_zstd(state); + break; +#endif + +#ifdef ENABLE_LZ4 + case COMPRESSION_ALGORITHM_LZ4: + rrdpush_decompressor_init_lz4(state); + break; +#endif + +#ifdef ENABLE_BROTLI + case COMPRESSION_ALGORITHM_BROTLI: + rrdpush_decompressor_init_brotli(state); + break; +#endif + + default: + case COMPRESSION_ALGORITHM_GZIP: + rrdpush_decompressor_init_gzip(state); + break; + } + + state->signature_size = RRDPUSH_COMPRESSION_SIGNATURE_SIZE; + simple_ring_buffer_reset(&state->output); +} + +size_t rrdpush_decompress(struct decompressor_state *state, const char *compressed_data, size_t compressed_size) { + if (unlikely(state->output.read_pos != state->output.write_pos)) + fatal("RRDPUSH_DECOMPRESS: asked to decompress new data, while there are unread data in the decompression buffer!"); + + size_t ret = 0; + + switch(state->algorithm) { +#ifdef ENABLE_ZSTD + case COMPRESSION_ALGORITHM_ZSTD: + ret = rrdpush_decompress_zstd(state, compressed_data, compressed_size); + break; +#endif + +#ifdef ENABLE_LZ4 + case COMPRESSION_ALGORITHM_LZ4: + ret = rrdpush_decompress_lz4(state, compressed_data, compressed_size); + break; +#endif + +#ifdef ENABLE_BROTLI + case COMPRESSION_ALGORITHM_BROTLI: + ret = rrdpush_decompress_brotli(state, compressed_data, compressed_size); + break; +#endif + + default: + case COMPRESSION_ALGORITHM_GZIP: + ret = rrdpush_decompress_gzip(state, compressed_data, compressed_size); + break; + } + + // for backwards compatibility we cannot check for COMPRESSION_MAX_MSG_SIZE, + // because old children may send this big payloads. + if(unlikely(ret > COMPRESSION_MAX_CHUNK)) { + netdata_log_error("RRDPUSH_DECOMPRESS: decompressed data is %zu bytes, which is bigger than the max msg size %d", + ret, COMPRESSION_MAX_CHUNK); + return 0; + } + + return ret; +} + +// ---------------------------------------------------------------------------- +// unit test + +void unittest_generate_random_name(char *dst, size_t size) { + if(size < 7) + size = 7; + + size_t len = 5 + os_random32() % (size - 6); + + for(size_t i = 0; i < len ; i++) { + if(os_random8() % 2 == 0) + dst[i] = 'A' + os_random8() % 26; + else + dst[i] = 'a' + os_random8() % 26; + } + + dst[len] = '\0'; +} + +void unittest_generate_message(BUFFER *wb, time_t now_s, size_t counter) { + bool with_slots = true; + NUMBER_ENCODING integer_encoding = NUMBER_ENCODING_BASE64; + NUMBER_ENCODING doubles_encoding = NUMBER_ENCODING_BASE64; + time_t update_every = 1; + time_t point_end_time_s = now_s; + time_t wall_clock_time_s = now_s; + size_t chart_slot = counter + 1; + size_t dimensions = 2 + os_random8() % 5; + char chart[RRD_ID_LENGTH_MAX + 1] = "name"; + unittest_generate_random_name(chart, 5 + os_random8() % 30); + + buffer_fast_strcat(wb, PLUGINSD_KEYWORD_BEGIN_V2, sizeof(PLUGINSD_KEYWORD_BEGIN_V2) - 1); + + if(with_slots) { + buffer_fast_strcat(wb, " "PLUGINSD_KEYWORD_SLOT":", sizeof(PLUGINSD_KEYWORD_SLOT) - 1 + 2); + buffer_print_uint64_encoded(wb, integer_encoding, chart_slot); + } + + buffer_fast_strcat(wb, " '", 2); + buffer_strcat(wb, chart); + buffer_fast_strcat(wb, "' ", 2); + buffer_print_uint64_encoded(wb, integer_encoding, update_every); + buffer_fast_strcat(wb, " ", 1); + buffer_print_uint64_encoded(wb, integer_encoding, point_end_time_s); + buffer_fast_strcat(wb, " ", 1); + if(point_end_time_s == wall_clock_time_s) + buffer_fast_strcat(wb, "#", 1); + else + buffer_print_uint64_encoded(wb, integer_encoding, wall_clock_time_s); + buffer_fast_strcat(wb, "\n", 1); + + + for(size_t d = 0; d < dimensions ;d++) { + size_t dim_slot = d + 1; + char dim_id[RRD_ID_LENGTH_MAX + 1] = "dimension"; + unittest_generate_random_name(dim_id, 10 + os_random8() % 20); + int64_t last_collected_value = (os_random8() % 2 == 0) ? (int64_t)(counter + d) : (int64_t)os_random32(); + NETDATA_DOUBLE value = (os_random8() % 2 == 0) ? (NETDATA_DOUBLE)os_random64() / ((NETDATA_DOUBLE)os_random64() + 1) : (NETDATA_DOUBLE)last_collected_value; + SN_FLAGS flags = (os_random16() % 1000 == 0) ? SN_FLAG_NONE : SN_FLAG_NOT_ANOMALOUS; + + buffer_fast_strcat(wb, PLUGINSD_KEYWORD_SET_V2, sizeof(PLUGINSD_KEYWORD_SET_V2) - 1); + + if(with_slots) { + buffer_fast_strcat(wb, " "PLUGINSD_KEYWORD_SLOT":", sizeof(PLUGINSD_KEYWORD_SLOT) - 1 + 2); + buffer_print_uint64_encoded(wb, integer_encoding, dim_slot); + } + + buffer_fast_strcat(wb, " '", 2); + buffer_strcat(wb, dim_id); + buffer_fast_strcat(wb, "' ", 2); + buffer_print_int64_encoded(wb, integer_encoding, last_collected_value); + buffer_fast_strcat(wb, " ", 1); + + if((NETDATA_DOUBLE)last_collected_value == value) + buffer_fast_strcat(wb, "#", 1); + else + buffer_print_netdata_double_encoded(wb, doubles_encoding, value); + + buffer_fast_strcat(wb, " ", 1); + buffer_print_sn_flags(wb, flags, true); + buffer_fast_strcat(wb, "\n", 1); + } + + buffer_fast_strcat(wb, PLUGINSD_KEYWORD_END_V2 "\n", sizeof(PLUGINSD_KEYWORD_END_V2) - 1 + 1); +} + +int unittest_rrdpush_compression_speed(compression_algorithm_t algorithm, const char *name) { + fprintf(stderr, "\nTesting streaming compression speed with %s\n", name); + + struct compressor_state cctx = { + .initialized = false, + .algorithm = algorithm, + }; + struct decompressor_state dctx = { + .initialized = false, + .algorithm = algorithm, + }; + + rrdpush_compressor_init(&cctx); + rrdpush_decompressor_init(&dctx); + + int errors = 0; + + BUFFER *wb = buffer_create(COMPRESSION_MAX_MSG_SIZE, NULL); + time_t now_s = now_realtime_sec(); + usec_t compression_ut = 0; + usec_t decompression_ut = 0; + size_t bytes_compressed = 0; + size_t bytes_uncompressed = 0; + + usec_t compression_started_ut = now_monotonic_usec(); + usec_t decompression_started_ut = compression_started_ut; + + for(int i = 0; i < 10000 ;i++) { + compression_started_ut = now_monotonic_usec(); + decompression_ut += compression_started_ut - decompression_started_ut; + + buffer_flush(wb); + while(buffer_strlen(wb) < COMPRESSION_MAX_MSG_SIZE - 1024) + unittest_generate_message(wb, now_s, i); + + const char *txt = buffer_tostring(wb); + size_t txt_len = buffer_strlen(wb); + bytes_uncompressed += txt_len; + + const char *out; + size_t size = rrdpush_compress(&cctx, txt, txt_len, &out); + + bytes_compressed += size; + decompression_started_ut = now_monotonic_usec(); + compression_ut += decompression_started_ut - compression_started_ut; + + if(size == 0) { + fprintf(stderr, "iteration %d: compressed size %zu is zero\n", + i, size); + errors++; + goto cleanup; + } + else if(size >= COMPRESSION_MAX_CHUNK) { + fprintf(stderr, "iteration %d: compressed size %zu exceeds max allowed size\n", + i, size); + errors++; + goto cleanup; + } + else { + size_t dtxt_len = rrdpush_decompress(&dctx, out, size); + char *dtxt = (char *) &dctx.output.data[dctx.output.read_pos]; + + if(rrdpush_decompressed_bytes_in_buffer(&dctx) != dtxt_len) { + fprintf(stderr, "iteration %d: decompressed size %zu does not rrdpush_decompressed_bytes_in_buffer() %zu\n", + i, dtxt_len, rrdpush_decompressed_bytes_in_buffer(&dctx) + ); + errors++; + goto cleanup; + } + + if(!dtxt_len) { + fprintf(stderr, "iteration %d: decompressed size is zero\n", i); + errors++; + goto cleanup; + } + else if(dtxt_len != txt_len) { + fprintf(stderr, "iteration %d: decompressed size %zu does not match original size %zu\n", + i, dtxt_len, txt_len + ); + errors++; + goto cleanup; + } + else { + if(memcmp(txt, dtxt, txt_len) != 0) { + fprintf(stderr, "iteration %d: decompressed data '%s' do not match original data length %zu\n", + i, dtxt, txt_len); + errors++; + goto cleanup; + } + } + } + + // here we are supposed to copy the data and advance the position + dctx.output.read_pos += rrdpush_decompressed_bytes_in_buffer(&dctx); + } + +cleanup: + rrdpush_compressor_destroy(&cctx); + rrdpush_decompressor_destroy(&dctx); + + if(errors) + fprintf(stderr, "Compression with %s: FAILED (%d errors)\n", name, errors); + else + fprintf(stderr, "Compression with %s: OK " + "(compression %zu usec, decompression %zu usec, bytes raw %zu, compressed %zu, savings ratio %0.2f%%)\n", + name, compression_ut, decompression_ut, + bytes_uncompressed, bytes_compressed, + 100.0 - (double)bytes_compressed * 100.0 / (double)bytes_uncompressed); + + return errors; +} + +int unittest_rrdpush_compression(compression_algorithm_t algorithm, const char *name) { + fprintf(stderr, "\nTesting streaming compression with %s\n", name); + + struct compressor_state cctx = { + .initialized = false, + .algorithm = algorithm, + }; + struct decompressor_state dctx = { + .initialized = false, + .algorithm = algorithm, + }; + + char txt[COMPRESSION_MAX_MSG_SIZE]; + + rrdpush_compressor_init(&cctx); + rrdpush_decompressor_init(&dctx); + + int errors = 0; + + memset(txt, '=', COMPRESSION_MAX_MSG_SIZE); + + for(int i = 0; i < COMPRESSION_MAX_MSG_SIZE ;i++) { + txt[i] = 'A' + (i % 26); + size_t txt_len = i + 1; + + const char *out; + size_t size = rrdpush_compress(&cctx, txt, txt_len, &out); + + if(size == 0) { + fprintf(stderr, "iteration %d: compressed size %zu is zero\n", + i, size); + errors++; + goto cleanup; + } + else if(size >= COMPRESSION_MAX_CHUNK) { + fprintf(stderr, "iteration %d: compressed size %zu exceeds max allowed size\n", + i, size); + errors++; + goto cleanup; + } + else { + size_t dtxt_len = rrdpush_decompress(&dctx, out, size); + char *dtxt = (char *) &dctx.output.data[dctx.output.read_pos]; + + if(rrdpush_decompressed_bytes_in_buffer(&dctx) != dtxt_len) { + fprintf(stderr, "iteration %d: decompressed size %zu does not rrdpush_decompressed_bytes_in_buffer() %zu\n", + i, dtxt_len, rrdpush_decompressed_bytes_in_buffer(&dctx) + ); + errors++; + goto cleanup; + } + + if(!dtxt_len) { + fprintf(stderr, "iteration %d: decompressed size is zero\n", i); + errors++; + goto cleanup; + } + else if(dtxt_len != txt_len) { + fprintf(stderr, "iteration %d: decompressed size %zu does not match original size %zu\n", + i, dtxt_len, txt_len + ); + errors++; + goto cleanup; + } + else { + if(memcmp(txt, dtxt, txt_len) != 0) { + txt[txt_len] = '\0'; + dtxt[txt_len + 5] = '\0'; + + fprintf(stderr, "iteration %d: decompressed data '%s' do not match original data '%s' of length %zu\n", + i, dtxt, txt, txt_len); + errors++; + goto cleanup; + } + } + } + + // fill the compressed buffer with garbage + memset((void *)out, 'x', size); + + // here we are supposed to copy the data and advance the position + dctx.output.read_pos += rrdpush_decompressed_bytes_in_buffer(&dctx); + } + +cleanup: + rrdpush_compressor_destroy(&cctx); + rrdpush_decompressor_destroy(&dctx); + + if(errors) + fprintf(stderr, "Compression with %s: FAILED (%d errors)\n", name, errors); + else + fprintf(stderr, "Compression with %s: OK\n", name); + + return errors; +} + +int unittest_rrdpush_compressions(void) { + int ret = 0; + + ret += unittest_rrdpush_compression(COMPRESSION_ALGORITHM_ZSTD, "ZSTD"); + ret += unittest_rrdpush_compression(COMPRESSION_ALGORITHM_LZ4, "LZ4"); + ret += unittest_rrdpush_compression(COMPRESSION_ALGORITHM_BROTLI, "BROTLI"); + ret += unittest_rrdpush_compression(COMPRESSION_ALGORITHM_GZIP, "GZIP"); + + ret += unittest_rrdpush_compression_speed(COMPRESSION_ALGORITHM_ZSTD, "ZSTD"); + ret += unittest_rrdpush_compression_speed(COMPRESSION_ALGORITHM_LZ4, "LZ4"); + ret += unittest_rrdpush_compression_speed(COMPRESSION_ALGORITHM_BROTLI, "BROTLI"); + ret += unittest_rrdpush_compression_speed(COMPRESSION_ALGORITHM_GZIP, "GZIP"); + + return ret; +} |