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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2023-06-14 19:20:36 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2023-06-14 19:20:36 +0000 |
commit | dd24e74edfbafc09eaeb2dde0fda7eb3e1e86d0b (patch) | |
tree | 1e52f4dac2622ab377c7649f218fb49003b4cbb9 /libnetdata/gorilla | |
parent | Releasing debian version 1.39.1-2. (diff) | |
download | netdata-dd24e74edfbafc09eaeb2dde0fda7eb3e1e86d0b.tar.xz netdata-dd24e74edfbafc09eaeb2dde0fda7eb3e1e86d0b.zip |
Merging upstream version 1.40.0.
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'libnetdata/gorilla')
-rwxr-xr-x | libnetdata/gorilla/benchmark.sh | 14 | ||||
-rwxr-xr-x | libnetdata/gorilla/fuzzer.sh | 14 | ||||
-rw-r--r-- | libnetdata/gorilla/gorilla.cc | 620 | ||||
-rw-r--r-- | libnetdata/gorilla/gorilla.h | 60 |
4 files changed, 708 insertions, 0 deletions
diff --git a/libnetdata/gorilla/benchmark.sh b/libnetdata/gorilla/benchmark.sh new file mode 100755 index 000000000..a5d111435 --- /dev/null +++ b/libnetdata/gorilla/benchmark.sh @@ -0,0 +1,14 @@ +#!/usr/bin/env bash +# +# SPDX-License-Identifier: GPL-3.0-or-later +# + +set -exu -o pipefail + +clang++ \ + -std=c++11 -Wall -Wextra \ + -DENABLE_BENCHMARK -O2 -g \ + -lbenchmark -lbenchmark_main \ + -o gorilla_benchmark gorilla.cc + +./gorilla_benchmark diff --git a/libnetdata/gorilla/fuzzer.sh b/libnetdata/gorilla/fuzzer.sh new file mode 100755 index 000000000..9dfdec055 --- /dev/null +++ b/libnetdata/gorilla/fuzzer.sh @@ -0,0 +1,14 @@ +#!/usr/bin/env bash +# +# SPDX-License-Identifier: GPL-3.0-or-later +# + +set -exu -o pipefail + +clang++ \ + -std=c++11 -Wall -Wextra \ + -DENABLE_FUZZER -O2 -g \ + -fsanitize=fuzzer \ + -o gorilla_fuzzer gorilla.cc + +./gorilla_fuzzer -workers=8 -jobs=8 diff --git a/libnetdata/gorilla/gorilla.cc b/libnetdata/gorilla/gorilla.cc new file mode 100644 index 000000000..af2f74007 --- /dev/null +++ b/libnetdata/gorilla/gorilla.cc @@ -0,0 +1,620 @@ +// SPDX-License-Identifier: GPL-3.0-or-later + +#include "gorilla.h" + +#include <cassert> +#include <climits> +#include <cstdio> +#include <cstring> + +using std::size_t; + +template <typename T> +static constexpr size_t bit_size() noexcept +{ + static_assert((sizeof(T) * CHAR_BIT) == 32 || (sizeof(T) * CHAR_BIT) == 64, + "Word size should be 32 or 64 bits."); + return (sizeof(T) * CHAR_BIT); +} + +/* + * Low-level bitstream operations, allowing us to read/write individual bits. +*/ + +template<typename Word> +struct bit_stream_t { + Word *buffer; + size_t capacity; + size_t position; +}; + +template<typename Word> +static bit_stream_t<Word> bit_stream_new(Word *buffer, Word capacity) { + bit_stream_t<Word> bs; + + bs.buffer = buffer; + bs.capacity = capacity * bit_size<Word>(); + bs.position = 0; + + return bs; +} + +template<typename Word> +static bool bit_stream_write(bit_stream_t<Word> *bs, Word value, size_t nbits) { + assert(nbits > 0 && nbits <= bit_size<Word>()); + assert(bs->capacity >= (bs->position + nbits)); + + if (bs->position + nbits > bs->capacity) { + return false; + } + + const size_t index = bs->position / bit_size<Word>(); + const size_t offset = bs->position % bit_size<Word>(); + bs->position += nbits; + + if (offset == 0) { + bs->buffer[index] = value; + } else { + const size_t remaining_bits = bit_size<Word>() - offset; + + // write the lower part of the value + const Word low_bits_mask = ((Word) 1 << remaining_bits) - 1; + const Word lowest_bits_in_value = value & low_bits_mask; + bs->buffer[index] |= (lowest_bits_in_value << offset); + + if (nbits > remaining_bits) { + // write the upper part of the value + const Word high_bits_mask = ~low_bits_mask; + const Word highest_bits_in_value = (value & high_bits_mask) >> (remaining_bits); + bs->buffer[index + 1] = highest_bits_in_value; + } + } + + return true; +} + +template<typename Word> +static bool bit_stream_read(bit_stream_t<Word> *bs, Word *value, size_t nbits) { + assert(nbits > 0 && nbits <= bit_size<Word>()); + assert(bs->capacity >= (bs->position + nbits)); + + if (bs->position + nbits > bs->capacity) { + return false; + } + + const size_t index = bs->position / bit_size<Word>(); + const size_t offset = bs->position % bit_size<Word>(); + bs->position += nbits; + + if (offset == 0) { + *value = (nbits == bit_size<Word>()) ? + bs->buffer[index] : + bs->buffer[index] & (((Word) 1 << nbits) - 1); + } else { + const size_t remaining_bits = bit_size<Word>() - offset; + + // extract the lower part of the value + if (nbits < remaining_bits) { + *value = (bs->buffer[index] >> offset) & (((Word) 1 << nbits) - 1); + } else { + *value = (bs->buffer[index] >> offset) & (((Word) 1 << remaining_bits) - 1); + nbits -= remaining_bits; + *value |= (bs->buffer[index + 1] & (((Word) 1 << nbits) - 1)) << remaining_bits; + } + } + + return true; +} + +/* + * High-level Gorilla codec implementation +*/ + +template<typename Word> +struct bit_code_t { + bit_stream_t<Word> bs; + Word entries; + Word prev_number; + Word prev_xor; + Word prev_xor_lzc; +}; + +template<typename Word> +static void bit_code_init(bit_code_t<Word> *bc, Word *buffer, Word capacity) { + bc->bs = bit_stream_new(buffer, capacity); + + bc->entries = 0; + bc->prev_number = 0; + bc->prev_xor = 0; + bc->prev_xor_lzc = 0; + + // reserved two words: + // Buffer[0] -> number of entries written + // Buffer[1] -> number of bits written + + bc->bs.position += 2 * bit_size<Word>(); +} + +template<typename Word> +static bool bit_code_read(bit_code_t<Word> *bc, Word *number) { + bit_stream_t<Word> *bs = &bc->bs; + + bc->entries++; + + // read the first number + if (bc->entries == 1) { + bool ok = bit_stream_read(bs, number, bit_size<Word>()); + bc->prev_number = *number; + return ok; + } + + // process same-number bit + Word is_same_number; + if (!bit_stream_read(bs, &is_same_number, 1)) { + return false; + } + + if (is_same_number) { + *number = bc->prev_number; + return true; + } + + // proceess same-xor-lzc bit + Word xor_lzc = bc->prev_xor_lzc; + + Word same_xor_lzc; + if (!bit_stream_read(bs, &same_xor_lzc, 1)) { + return false; + } + + if (!same_xor_lzc) { + if (!bit_stream_read(bs, &xor_lzc, (bit_size<Word>() == 32) ? 5 : 6)) { + return false; + } + } + + // process the non-lzc suffix + Word xor_value = 0; + if (!bit_stream_read(bs, &xor_value, bit_size<Word>() - xor_lzc)) { + return false; + } + + *number = (bc->prev_number ^ xor_value); + + bc->prev_number = *number; + bc->prev_xor_lzc = xor_lzc; + bc->prev_xor = xor_value; + + return true; +} + +template<typename Word> +static bool bit_code_write(bit_code_t<Word> *bc, const Word number) { + bit_stream_t<Word> *bs = &bc->bs; + Word position = bs->position; + + bc->entries++; + + // this is the first number we are writing + if (bc->entries == 1) { + bc->prev_number = number; + return bit_stream_write(bs, number, bit_size<Word>()); + } + + // write true/false based on whether we got the same number or not. + if (number == bc->prev_number) { + return bit_stream_write(bs, static_cast<Word>(1), 1); + } else { + if (bit_stream_write(bs, static_cast<Word>(0), 1) == false) { + return false; + } + } + + // otherwise: + // - compute the non-zero xor + // - find its leading-zero count + + Word xor_value = bc->prev_number ^ number; + // FIXME: Use SFINAE + Word xor_lzc = (bit_size<Word>() == 32) ? __builtin_clz(xor_value) : __builtin_clzll(xor_value); + Word is_xor_lzc_same = (xor_lzc == bc->prev_xor_lzc) ? 1 : 0; + + if (is_xor_lzc_same) { + // xor-lzc is same + if (bit_stream_write(bs, static_cast<Word>(1), 1) == false) { + goto RET_FALSE; + } + } else { + // xor-lzc is different + if (bit_stream_write(bs, static_cast<Word>(0), 1) == false) { + goto RET_FALSE; + } + + if (bit_stream_write(bs, xor_lzc, (bit_size<Word>() == 32) ? 5 : 6) == false) { + goto RET_FALSE; + } + } + + // write the bits of the XOR value without the LZC prefix + if (bit_stream_write(bs, xor_value, bit_size<Word>() - xor_lzc) == false) { + goto RET_FALSE; + } + + bc->prev_number = number; + bc->prev_xor_lzc = xor_lzc; + return true; + +RET_FALSE: + bc->bs.position = position; + return false; +} + +// only valid for writers +template<typename Word> +static bool bit_code_flush(bit_code_t<Word> *bc) { + bit_stream_t<Word> *bs = &bc->bs; + + Word num_entries_written = bc->entries; + Word num_bits_written = bs->position; + + // we want to write these at the beginning + bs->position = 0; + + if (!bit_stream_write(bs, num_entries_written, bit_size<Word>())) { + return false; + } + + if (!bit_stream_write(bs, num_bits_written, bit_size<Word>())) { + return false; + } + + bs->position = num_bits_written; + return true; +} + +// only valid for readers +template<typename Word> +static bool bit_code_info(bit_code_t<Word> *bc, Word *num_entries_written, + Word *num_bits_written) { + bit_stream_t<Word> *bs = &bc->bs; + + assert(bs->position == 2 * bit_size<Word>()); + if (bs->capacity < (2 * bit_size<Word>())) { + return false; + } + + if (num_entries_written) { + *num_entries_written = bs->buffer[0]; + } + if (num_bits_written) { + *num_bits_written = bs->buffer[1]; + } + + return true; +} + +template<typename Word> +static size_t gorilla_encode(Word *dst, Word dst_len, const Word *src, Word src_len) { + bit_code_t<Word> bcw; + + bit_code_init(&bcw, dst, dst_len); + + for (size_t i = 0; i != src_len; i++) { + if (!bit_code_write(&bcw, src[i])) + return 0; + } + + if (!bit_code_flush(&bcw)) + return 0; + + return src_len; +} + +template<typename Word> +static size_t gorilla_decode(Word *dst, Word dst_len, const Word *src, Word src_len) { + bit_code_t<Word> bcr; + + bit_code_init(&bcr, (Word *) src, src_len); + + Word num_entries; + if (!bit_code_info(&bcr, &num_entries, (Word *) NULL)) { + return 0; + } + if (num_entries > dst_len) { + return 0; + } + + for (size_t i = 0; i != num_entries; i++) { + if (!bit_code_read(&bcr, &dst[i])) + return 0; + } + + return num_entries; +} + +/* + * Low-level public API +*/ + +// 32-bit API + +void bit_code_writer_u32_init(bit_code_writer_u32_t *bcw, uint32_t *buffer, uint32_t capacity) { + bit_code_t<uint32_t> *bc = (bit_code_t<uint32_t> *) bcw; + bit_code_init(bc, buffer, capacity); +} + +bool bit_code_writer_u32_write(bit_code_writer_u32_t *bcw, const uint32_t number) { + bit_code_t<uint32_t> *bc = (bit_code_t<uint32_t> *) bcw; + return bit_code_write(bc, number); +} + +bool bit_code_writer_u32_flush(bit_code_writer_u32_t *bcw) { + bit_code_t<uint32_t> *bc = (bit_code_t<uint32_t> *) bcw; + return bit_code_flush(bc); +} + +void bit_code_reader_u32_init(bit_code_reader_u32_t *bcr, uint32_t *buffer, uint32_t capacity) { + bit_code_t<uint32_t> *bc = (bit_code_t<uint32_t> *) bcr; + bit_code_init(bc, buffer, capacity); +} + +bool bit_code_reader_u32_read(bit_code_reader_u32_t *bcr, uint32_t *number) { + bit_code_t<uint32_t> *bc = (bit_code_t<uint32_t> *) bcr; + return bit_code_read(bc, number); +} + +bool bit_code_reader_u32_info(bit_code_reader_u32_t *bcr, uint32_t *num_entries_written, + uint32_t *num_bits_written) { + bit_code_t<uint32_t> *bc = (bit_code_t<uint32_t> *) bcr; + return bit_code_info(bc, num_entries_written, num_bits_written); +} + +// 64-bit API + +void bit_code_writer_u64_init(bit_code_writer_u64_t *bcw, uint64_t *buffer, uint64_t capacity) { + bit_code_t<uint64_t> *bc = (bit_code_t<uint64_t> *) bcw; + bit_code_init(bc, buffer, capacity); +} + +bool bit_code_writer_u64_write(bit_code_writer_u64_t *bcw, const uint64_t number) { + bit_code_t<uint64_t> *bc = (bit_code_t<uint64_t> *) bcw; + return bit_code_write(bc, number); +} + +bool bit_code_writer_u64_flush(bit_code_writer_u64_t *bcw) { + bit_code_t<uint64_t> *bc = (bit_code_t<uint64_t> *) bcw; + return bit_code_flush(bc); +} + +void bit_code_reader_u64_init(bit_code_reader_u64_t *bcr, uint64_t *buffer, uint64_t capacity) { + bit_code_t<uint64_t> *bc = (bit_code_t<uint64_t> *) bcr; + bit_code_init(bc, buffer, capacity); +} + +bool bit_code_reader_u64_read(bit_code_reader_u64_t *bcr, uint64_t *number) { + bit_code_t<uint64_t> *bc = (bit_code_t<uint64_t> *) bcr; + return bit_code_read(bc, number); +} + +bool bit_code_reader_u64_info(bit_code_reader_u64_t *bcr, uint64_t *num_entries_written, + uint64_t *num_bits_written) { + bit_code_t<uint64_t> *bc = (bit_code_t<uint64_t> *) bcr; + return bit_code_info(bc, num_entries_written, num_bits_written); +} + +/* + * High-level public API +*/ + +// 32-bit API + +size_t gorilla_encode_u32(uint32_t *dst, size_t dst_len, const uint32_t *src, size_t src_len) { + return gorilla_encode(dst, (uint32_t) dst_len, src, (uint32_t) src_len); +} + +size_t gorilla_decode_u32(uint32_t *dst, size_t dst_len, const uint32_t *src, size_t src_len) { + return gorilla_decode(dst, (uint32_t) dst_len, src, (uint32_t) src_len); +} + +// 64-bit API + +size_t gorilla_encode_u64(uint64_t *dst, size_t dst_len, const uint64_t *src, size_t src_len) { + return gorilla_encode(dst, (uint64_t) dst_len, src, (uint64_t) src_len); +} + +size_t gorilla_decode_u64(uint64_t *dst, size_t dst_len, const uint64_t *src, size_t src_len) { + return gorilla_decode(dst, (uint64_t) dst_len, src, (uint64_t) src_len); +} + +/* + * Internal code used for fuzzing the library +*/ + +#ifdef ENABLE_FUZZER + +#include <vector> + +template<typename Word> +static std::vector<Word> random_vector(const uint8_t *data, size_t size) { + std::vector<Word> V; + + V.reserve(1024); + + while (size >= sizeof(Word)) { + size -= sizeof(Word); + + Word w; + memcpy(&w, &data[size], sizeof(Word)); + V.push_back(w); + } + + return V; +} + +template<typename Word> +static void check_equal_buffers(Word *lhs, Word lhs_size, Word *rhs, Word rhs_size) { + assert((lhs_size == rhs_size) && "Buffers have different size."); + + for (size_t i = 0; i != lhs_size; i++) { + assert((lhs[i] == rhs[i]) && "Buffers differ"); + } +} + +extern "C" int LLVMFuzzerTestOneInput(const uint8_t *Data, size_t Size) { + // 32-bit tests + { + if (Size < 4) + return 0; + + std::vector<uint32_t> RandomData = random_vector<uint32_t>(Data, Size); + std::vector<uint32_t> EncodedData(10 * RandomData.capacity(), 0); + std::vector<uint32_t> DecodedData(10 * RandomData.capacity(), 0); + + size_t num_entries_written = gorilla_encode_u32(EncodedData.data(), EncodedData.size(), + RandomData.data(), RandomData.size()); + size_t num_entries_read = gorilla_decode_u32(DecodedData.data(), DecodedData.size(), + EncodedData.data(), EncodedData.size()); + + assert(num_entries_written == num_entries_read); + check_equal_buffers(RandomData.data(), (uint32_t) RandomData.size(), + DecodedData.data(), (uint32_t) RandomData.size()); + } + + // 64-bit tests + { + if (Size < 8) + return 0; + + std::vector<uint64_t> RandomData = random_vector<uint64_t>(Data, Size); + std::vector<uint64_t> EncodedData(10 * RandomData.capacity(), 0); + std::vector<uint64_t> DecodedData(10 * RandomData.capacity(), 0); + + size_t num_entries_written = gorilla_encode_u64(EncodedData.data(), EncodedData.size(), + RandomData.data(), RandomData.size()); + size_t num_entries_read = gorilla_decode_u64(DecodedData.data(), DecodedData.size(), + EncodedData.data(), EncodedData.size()); + + assert(num_entries_written == num_entries_read); + check_equal_buffers(RandomData.data(), (uint64_t) RandomData.size(), + DecodedData.data(), (uint64_t) RandomData.size()); + } + + return 0; +} + +#endif /* ENABLE_FUZZER */ + +#ifdef ENABLE_BENCHMARK + +#include <benchmark/benchmark.h> +#include <random> + +static size_t NumItems = 1024; + +static void BM_EncodeU32Numbers(benchmark::State& state) { + std::random_device rd; + std::mt19937 mt(rd()); + std::uniform_int_distribution<uint32_t> dist(0x0, 0x0000FFFF); + + std::vector<uint32_t> RandomData; + for (size_t idx = 0; idx != NumItems; idx++) { + RandomData.push_back(dist(mt)); + } + std::vector<uint32_t> EncodedData(10 * RandomData.capacity(), 0); + + for (auto _ : state) { + benchmark::DoNotOptimize( + gorilla_encode_u32(EncodedData.data(), EncodedData.size(), + RandomData.data(), RandomData.size()) + ); + benchmark::ClobberMemory(); + } + + state.SetItemsProcessed(NumItems * state.iterations()); + state.SetBytesProcessed(NumItems * state.iterations() * sizeof(uint32_t)); +} +BENCHMARK(BM_EncodeU32Numbers); + +static void BM_DecodeU32Numbers(benchmark::State& state) { + std::random_device rd; + std::mt19937 mt(rd()); + std::uniform_int_distribution<uint32_t> dist(0x0, 0xFFFFFFFF); + + std::vector<uint32_t> RandomData; + for (size_t idx = 0; idx != NumItems; idx++) { + RandomData.push_back(dist(mt)); + } + std::vector<uint32_t> EncodedData(10 * RandomData.capacity(), 0); + std::vector<uint32_t> DecodedData(10 * RandomData.capacity(), 0); + + gorilla_encode_u32(EncodedData.data(), EncodedData.size(), + RandomData.data(), RandomData.size()); + + for (auto _ : state) { + benchmark::DoNotOptimize( + gorilla_decode_u32(DecodedData.data(), DecodedData.size(), + EncodedData.data(), EncodedData.size()) + ); + benchmark::ClobberMemory(); + } + + state.SetItemsProcessed(NumItems * state.iterations()); + state.SetBytesProcessed(NumItems * state.iterations() * sizeof(uint32_t)); +} +// Register the function as a benchmark +BENCHMARK(BM_DecodeU32Numbers); + +static void BM_EncodeU64Numbers(benchmark::State& state) { + std::random_device rd; + std::mt19937 mt(rd()); + std::uniform_int_distribution<uint64_t> dist(0x0, 0x0000FFFF); + + std::vector<uint64_t> RandomData; + for (size_t idx = 0; idx != 1024; idx++) { + RandomData.push_back(dist(mt)); + } + std::vector<uint64_t> EncodedData(10 * RandomData.capacity(), 0); + + for (auto _ : state) { + benchmark::DoNotOptimize( + gorilla_encode_u64(EncodedData.data(), EncodedData.size(), + RandomData.data(), RandomData.size()) + ); + benchmark::ClobberMemory(); + } + + state.SetItemsProcessed(NumItems * state.iterations()); + state.SetBytesProcessed(NumItems * state.iterations() * sizeof(uint64_t)); +} +BENCHMARK(BM_EncodeU64Numbers); + +static void BM_DecodeU64Numbers(benchmark::State& state) { + std::random_device rd; + std::mt19937 mt(rd()); + std::uniform_int_distribution<uint64_t> dist(0x0, 0xFFFFFFFF); + + std::vector<uint64_t> RandomData; + for (size_t idx = 0; idx != 1024; idx++) { + RandomData.push_back(dist(mt)); + } + std::vector<uint64_t> EncodedData(10 * RandomData.capacity(), 0); + std::vector<uint64_t> DecodedData(10 * RandomData.capacity(), 0); + + gorilla_encode_u64(EncodedData.data(), EncodedData.size(), + RandomData.data(), RandomData.size()); + + for (auto _ : state) { + benchmark::DoNotOptimize( + gorilla_decode_u64(DecodedData.data(), DecodedData.size(), + EncodedData.data(), EncodedData.size()) + ); + benchmark::ClobberMemory(); + } + + state.SetItemsProcessed(NumItems * state.iterations()); + state.SetBytesProcessed(NumItems * state.iterations() * sizeof(uint64_t)); +} +// Register the function as a benchmark +BENCHMARK(BM_DecodeU64Numbers); + +#endif /* ENABLE_BENCHMARK */ diff --git a/libnetdata/gorilla/gorilla.h b/libnetdata/gorilla/gorilla.h new file mode 100644 index 000000000..12bec42c0 --- /dev/null +++ b/libnetdata/gorilla/gorilla.h @@ -0,0 +1,60 @@ +// SPDX-License-Identifier: GPL-3.0-or-later + +#ifndef GORILLA_H +#define GORILLA_H + +#include <stdbool.h> +#include <stdint.h> +#include <stddef.h> + +#ifdef __cplusplus +extern "C" { +#endif + +/* + * Low-level public API +*/ + +// 32-bit API + +typedef struct bit_code_writer_u32 bit_code_writer_u32_t; +typedef struct bit_code_reader_u32 bit_code_reader_u32_t; + +void bit_code_writer_u32_init(bit_code_writer_u32_t *bcw, uint32_t *buffer, uint32_t capacity); +bool bit_code_writer_u32_write(bit_code_writer_u32_t *bcw, const uint32_t number); +bool bit_code_writer_u32_flush(bit_code_writer_u32_t *bcw); + +void bit_code_reader_u32_init(bit_code_reader_u32_t *bcr, uint32_t *buffer, uint32_t capacity); +bool bit_code_reader_u32_read(bit_code_reader_u32_t *bcr, uint32_t *number); +bool bit_code_reader_u32_info(bit_code_reader_u32_t *bcr, uint32_t *num_entries_written, + uint64_t *num_bits_written); + +// 64-bit API + +typedef struct bit_code_writer_u64 bit_code_writer_u64_t; +typedef struct bit_code_reader_u64 bit_code_reader_u64_t; + +void bit_code_writer_u64_init(bit_code_writer_u64_t *bcw, uint64_t *buffer, uint64_t capacity); +bool bit_code_writer_u64_write(bit_code_writer_u64_t *bcw, const uint64_t number); +bool bit_code_writer_u64_flush(bit_code_writer_u64_t *bcw); + +void bit_code_reader_u64_init(bit_code_reader_u64_t *bcr, uint64_t *buffer, uint64_t capacity); +bool bit_code_reader_u64_read(bit_code_reader_u64_t *bcr, uint64_t *number); +bool bit_code_reader_u64_info(bit_code_reader_u64_t *bcr, uint64_t *num_entries_written, + uint64_t *num_bits_written); + +/* + * High-level public API +*/ + +size_t gorilla_encode_u32(uint32_t *dst, size_t dst_len, const uint32_t *src, size_t src_len); +size_t gorilla_decode_u32(uint32_t *dst, size_t dst_len, const uint32_t *src, size_t src_len); + +size_t gorilla_encode_u64(uint64_t *dst, size_t dst_len, const uint64_t *src, size_t src_len); +size_t gorilla_decode_u64(uint64_t *dst, size_t dst_len, const uint64_t *src, size_t src_len); + +#ifdef __cplusplus +} +#endif + +#endif /* GORILLA_H */ |