// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under the BSD-style license found in the // LICENSE file in the root directory of this source tree. An additional grant // of patent rights can be found in the PATENTS file in the same directory. #include "utilities/col_buf_decoder.h" #include #include #include "port/port.h" namespace rocksdb { ColBufDecoder::~ColBufDecoder() {} namespace { inline uint64_t EncodeFixed64WithEndian(uint64_t val, bool big_endian, size_t size) { if (big_endian && port::kLittleEndian) { val = EndianTransform(val, size); } else if (!big_endian && !port::kLittleEndian) { val = EndianTransform(val, size); } return val; } } // namespace ColBufDecoder* ColBufDecoder::NewColBufDecoder( const ColDeclaration& col_declaration) { if (col_declaration.col_type == "FixedLength") { return new FixedLengthColBufDecoder( col_declaration.size, col_declaration.col_compression_type, col_declaration.nullable, col_declaration.big_endian); } else if (col_declaration.col_type == "VariableLength") { return new VariableLengthColBufDecoder(); } else if (col_declaration.col_type == "VariableChunk") { return new VariableChunkColBufDecoder(col_declaration.col_compression_type); } else if (col_declaration.col_type == "LongFixedLength") { return new LongFixedLengthColBufDecoder(col_declaration.size, col_declaration.nullable); } // Unrecognized column type return nullptr; } namespace { void ReadVarint64(const char** src_ptr, uint64_t* val_ptr) { const char* q = GetVarint64Ptr(*src_ptr, *src_ptr + 10, val_ptr); assert(q != nullptr); *src_ptr = q; } } // namespace size_t FixedLengthColBufDecoder::Init(const char* src) { remain_runs_ = 0; last_val_ = 0; // Dictionary initialization dict_vec_.clear(); const char* orig_src = src; if (col_compression_type_ == kColDict || col_compression_type_ == kColRleDict) { const char* q; size_t dict_size; // Bypass limit q = GetVarint64Ptr(src, src + 10, &dict_size); assert(q != nullptr); src = q; uint64_t dict_key; for (size_t i = 0; i < dict_size; ++i) { // Bypass limit ReadVarint64(&src, &dict_key); dict_key = EncodeFixed64WithEndian(dict_key, big_endian_, size_); dict_vec_.push_back(dict_key); } } return src - orig_src; } size_t FixedLengthColBufDecoder::Decode(const char* src, char** dest) { uint64_t read_val = 0; const char* orig_src = src; const char* src_limit = src + 20; if (nullable_) { bool not_null; not_null = *src; src += 1; if (!not_null) { return 1; } } if (IsRunLength(col_compression_type_)) { if (remain_runs_ == 0) { const char* q; run_val_ = 0; if (col_compression_type_ == kColRle) { memcpy(&run_val_, src, size_); src += size_; } else { q = GetVarint64Ptr(src, src_limit, &run_val_); assert(q != nullptr); src = q; } q = GetVarint64Ptr(src, src_limit, &remain_runs_); assert(q != nullptr); src = q; if (col_compression_type_ != kColRleDeltaVarint && col_compression_type_ != kColRleDict) { run_val_ = EncodeFixed64WithEndian(run_val_, big_endian_, size_); } } read_val = run_val_; } else { if (col_compression_type_ == kColNoCompression) { memcpy(&read_val, src, size_); src += size_; } else { // Assume a column does not exceed 8 bytes here const char* q = GetVarint64Ptr(src, src_limit, &read_val); assert(q != nullptr); src = q; } if (col_compression_type_ != kColDeltaVarint && col_compression_type_ != kColDict) { read_val = EncodeFixed64WithEndian(read_val, big_endian_, size_); } } uint64_t write_val = read_val; if (col_compression_type_ == kColDeltaVarint || col_compression_type_ == kColRleDeltaVarint) { // does not support 64 bit uint64_t mask = (write_val & 1) ? (~0UL) : 0; int64_t delta = (write_val >> 1) ^ mask; write_val = last_val_ + delta; uint64_t tmp = write_val; write_val = EncodeFixed64WithEndian(write_val, big_endian_, size_); last_val_ = tmp; } else if (col_compression_type_ == kColRleDict || col_compression_type_ == kColDict) { size_t dict_val = read_val; assert(dict_val < dict_vec_.size()); write_val = dict_vec_[dict_val]; } // dest->append(reinterpret_cast(&write_val), size_); memcpy(*dest, reinterpret_cast(&write_val), size_); *dest += size_; if (IsRunLength(col_compression_type_)) { --remain_runs_; } return src - orig_src; } size_t LongFixedLengthColBufDecoder::Decode(const char* src, char** dest) { if (nullable_) { bool not_null; not_null = *src; src += 1; if (!not_null) { return 1; } } memcpy(*dest, src, size_); *dest += size_; return size_ + 1; } size_t VariableLengthColBufDecoder::Decode(const char* src, char** dest) { uint8_t len; len = *src; memcpy(dest, reinterpret_cast(&len), 1); *dest += 1; src += 1; memcpy(*dest, src, len); *dest += len; return len + 1; } size_t VariableChunkColBufDecoder::Init(const char* src) { // Dictionary initialization dict_vec_.clear(); const char* orig_src = src; if (col_compression_type_ == kColDict) { const char* q; size_t dict_size; // Bypass limit q = GetVarint64Ptr(src, src + 10, &dict_size); assert(q != nullptr); src = q; uint64_t dict_key; for (size_t i = 0; i < dict_size; ++i) { // Bypass limit ReadVarint64(&src, &dict_key); dict_vec_.push_back(dict_key); } } return src - orig_src; } size_t VariableChunkColBufDecoder::Decode(const char* src, char** dest) { const char* orig_src = src; uint64_t size = 0; ReadVarint64(&src, &size); int64_t full_chunks = size / 8; uint64_t chunk_buf; size_t chunk_size = 8; for (int64_t i = 0; i < full_chunks + 1; ++i) { chunk_buf = 0; if (i == full_chunks) { chunk_size = size % 8; } if (col_compression_type_ == kColDict) { size_t dict_val; ReadVarint64(&src, &dict_val); assert(dict_val < dict_vec_.size()); chunk_buf = dict_vec_[dict_val]; } else { memcpy(&chunk_buf, src, chunk_size); src += chunk_size; } memcpy(*dest, reinterpret_cast(&chunk_buf), 8); *dest += 8; uint8_t mask = ((0xFF - 8) + chunk_size) & 0xFF; memcpy(*dest, reinterpret_cast(&mask), 1); *dest += 1; } return src - orig_src; } } // namespace rocksdb