ClickHouse/src/Formats/ProtobufWriter.cpp

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#include "ProtobufWriter.h"
#if USE_PROTOBUF
# include <IO/WriteHelpers.h>
namespace DB
{
namespace
{
constexpr size_t MAX_VARINT_SIZE = 10;
constexpr size_t REPEATED_PACK_PADDING = 2 * MAX_VARINT_SIZE;
constexpr size_t NESTED_MESSAGE_PADDING = 2 * MAX_VARINT_SIZE;
// Note: There is a difference between this function and writeVarUInt() from IO/VarInt.h:
// Google protobuf's representation of 64-bit integer contains from 1 to 10 bytes,
// whileas writeVarUInt() writes from 1 to 9 bytes because it omits the tenth byte (which is not necessary to decode actually).
void writeVarint(UInt64 value, WriteBuffer & out)
{
while (value >= 0x80)
{
out.write(static_cast<char>(value | 0x80));
value >>= 7;
}
out.write(static_cast<char>(value));
}
UInt8 * writeVarint(UInt64 value, UInt8 * ptr)
{
while (value >= 0x80)
{
*ptr++ = static_cast<UInt8>(value | 0x80);
value >>= 7;
}
*ptr++ = static_cast<UInt8>(value);
return ptr;
}
void writeVarint(UInt64 value, PODArray<UInt8> & buf)
{
size_t old_size = buf.size();
buf.reserve(old_size + MAX_VARINT_SIZE);
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UInt8 * ptr = buf.data() + old_size;
ptr = writeVarint(value, ptr);
buf.resize_assume_reserved(ptr - buf.data());
}
UInt64 encodeZigZag(Int64 value) { return (static_cast<UInt64>(value) << 1) ^ static_cast<UInt64>(value >> 63); }
enum WireType
{
VARINT = 0,
BITS64 = 1,
LENGTH_DELIMITED = 2,
GROUP_START = 3,
GROUP_END = 4,
BITS32 = 5
};
UInt8 * writeFieldNumber(UInt32 field_number, WireType wire_type, UInt8 * ptr)
{
return writeVarint((field_number << 3) | wire_type, ptr);
}
void writeFieldNumber(UInt32 field_number, WireType wire_type, PODArray<UInt8> & buf) { writeVarint((field_number << 3) | wire_type, buf); }
}
ProtobufWriter::ProtobufWriter(WriteBuffer & out_)
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: out(out_)
{
}
ProtobufWriter::~ProtobufWriter() = default;
void ProtobufWriter::startMessage()
{
}
void ProtobufWriter::endMessage(bool with_length_delimiter)
{
pieces.emplace_back(current_piece_start, buffer.size());
if (with_length_delimiter)
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{
size_t size_of_message = buffer.size() - num_bytes_skipped;
writeVarint(size_of_message, out);
}
for (const auto & piece : pieces)
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if (piece.end > piece.start)
out.write(reinterpret_cast<char *>(&buffer[piece.start]), piece.end - piece.start);
buffer.clear();
pieces.clear();
num_bytes_skipped = 0;
current_piece_start = 0;
}
void ProtobufWriter::startNestedMessage()
{
nested_infos.emplace_back(pieces.size(), num_bytes_skipped);
pieces.emplace_back(current_piece_start, buffer.size());
// We skip enough bytes to have place for inserting the field number and the size of the nested message afterwards
// when we finish writing the nested message itself. We don't know the size of the nested message at the point of
// calling startNestedMessage(), that's why we have to do this skipping.
current_piece_start = buffer.size() + NESTED_MESSAGE_PADDING;
buffer.resize(current_piece_start);
num_bytes_skipped = NESTED_MESSAGE_PADDING;
}
void ProtobufWriter::endNestedMessage(int field_number, bool is_group, bool skip_if_empty)
{
const auto & nested_info = nested_infos.back();
size_t num_pieces_at_start = nested_info.num_pieces_at_start;
size_t num_bytes_skipped_at_start = nested_info.num_bytes_skipped_at_start;
nested_infos.pop_back();
auto & piece_before_message = pieces[num_pieces_at_start];
size_t message_start = piece_before_message.end;
size_t message_size = buffer.size() - message_start - num_bytes_skipped;
if (!message_size && skip_if_empty)
{
current_piece_start = piece_before_message.start;
buffer.resize(piece_before_message.end);
pieces.resize(num_pieces_at_start);
num_bytes_skipped = num_bytes_skipped_at_start;
return;
}
size_t num_bytes_inserted;
if (is_group)
{
writeFieldNumber(field_number, GROUP_END, buffer);
UInt8 * ptr = &buffer[piece_before_message.end];
UInt8 * endptr = writeFieldNumber(field_number, GROUP_START, ptr);
num_bytes_inserted = endptr - ptr;
}
else
{
UInt8 * ptr = &buffer[piece_before_message.end];
UInt8 * endptr = writeFieldNumber(field_number, LENGTH_DELIMITED, ptr);
endptr = writeVarint(message_size, endptr);
num_bytes_inserted = endptr - ptr;
}
piece_before_message.end += num_bytes_inserted;
num_bytes_skipped += num_bytes_skipped_at_start - num_bytes_inserted;
}
void ProtobufWriter::writeUInt(int field_number, UInt64 value)
{
if (in_repeated_pack)
{
writeVarint(value, buffer);
return;
}
size_t old_size = buffer.size();
buffer.reserve(old_size + 2 * MAX_VARINT_SIZE);
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UInt8 * ptr = buffer.data() + old_size;
ptr = writeFieldNumber(field_number, VARINT, ptr);
ptr = writeVarint(value, ptr);
buffer.resize_assume_reserved(ptr - buffer.data());
}
void ProtobufWriter::writeInt(int field_number, Int64 value)
{
writeUInt(field_number, static_cast<UInt64>(value));
}
void ProtobufWriter::writeSInt(int field_number, Int64 value)
{
writeUInt(field_number, encodeZigZag(value));
}
template <typename T>
void ProtobufWriter::writeFixed(int field_number, T value)
{
static_assert((sizeof(T) == 4) || (sizeof(T) == 8));
if (in_repeated_pack)
{
size_t old_size = buffer.size();
buffer.resize(old_size + sizeof(T));
memcpy(buffer.data() + old_size, &value, sizeof(T));
return;
}
constexpr WireType wire_type = (sizeof(T) == 4) ? BITS32 : BITS64;
size_t old_size = buffer.size();
buffer.reserve(old_size + MAX_VARINT_SIZE + sizeof(T));
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UInt8 * ptr = buffer.data() + old_size;
ptr = writeFieldNumber(field_number, wire_type, ptr);
memcpy(ptr, &value, sizeof(T));
ptr += sizeof(T);
buffer.resize_assume_reserved(ptr - buffer.data());
}
template void ProtobufWriter::writeFixed<Int32>(int field_number, Int32 value);
template void ProtobufWriter::writeFixed<UInt32>(int field_number, UInt32 value);
template void ProtobufWriter::writeFixed<Int64>(int field_number, Int64 value);
template void ProtobufWriter::writeFixed<UInt64>(int field_number, UInt64 value);
template void ProtobufWriter::writeFixed<Float32>(int field_number, Float32 value);
template void ProtobufWriter::writeFixed<Float64>(int field_number, Float64 value);
void ProtobufWriter::writeString(int field_number, std::string_view str)
{
size_t length = str.length();
size_t old_size = buffer.size();
buffer.reserve(old_size + 2 * MAX_VARINT_SIZE + length);
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UInt8 * ptr = buffer.data() + old_size;
ptr = writeFieldNumber(field_number, LENGTH_DELIMITED, ptr);
ptr = writeVarint(length, ptr);
memcpy(ptr, str.data(), length);
ptr += length;
buffer.resize_assume_reserved(ptr - buffer.data());
}
void ProtobufWriter::startRepeatedPack()
{
pieces.emplace_back(current_piece_start, buffer.size());
// We skip enough bytes to have place for inserting the field number and the size of the repeated pack afterwards
// when we finish writing the repeated pack itself. We don't know the size of the repeated pack at the point of
// calling startRepeatedPack(), that's why we have to do this skipping.
current_piece_start = buffer.size() + REPEATED_PACK_PADDING;
buffer.resize(current_piece_start);
num_bytes_skipped += REPEATED_PACK_PADDING;
in_repeated_pack = true;
}
void ProtobufWriter::endRepeatedPack(int field_number, bool skip_if_empty)
{
size_t size = buffer.size() - current_piece_start;
if (!size && skip_if_empty)
{
current_piece_start = pieces.back().start;
buffer.resize(pieces.back().end);
pieces.pop_back();
num_bytes_skipped -= REPEATED_PACK_PADDING;
in_repeated_pack = false;
return;
}
UInt8 * ptr = &buffer[pieces.back().end];
UInt8 * endptr = writeFieldNumber(field_number, LENGTH_DELIMITED, ptr);
endptr = writeVarint(size, endptr);
size_t num_bytes_inserted = endptr - ptr;
pieces.back().end += num_bytes_inserted;
num_bytes_skipped -= num_bytes_inserted;
in_repeated_pack = false;
}
}
#endif