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// Copyright (c) 2011, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
part of protobuf;
class CodedBufferReader {
// ignore: constant_identifier_names
static const int DEFAULT_RECURSION_LIMIT = 64;
// ignore: constant_identifier_names
static const int DEFAULT_SIZE_LIMIT = 64 << 20;
final Uint8List _buffer;
int _bufferPos = 0;
int _currentLimit = -1;
int _lastTag = 0;
int _recursionDepth = 0;
final int _recursionLimit;
final int _sizeLimit;
CodedBufferReader(List<int> buffer,
{int recursionLimit = DEFAULT_RECURSION_LIMIT,
int sizeLimit = DEFAULT_SIZE_LIMIT})
: _buffer = buffer is Uint8List ? buffer : Uint8List.fromList(buffer),
_recursionLimit = recursionLimit,
_sizeLimit = math.min(sizeLimit, buffer.length) {
_currentLimit = _sizeLimit;
}
void checkLastTagWas(int value) {
if (_lastTag != value) {
throw InvalidProtocolBufferException.invalidEndTag();
}
}
bool isAtEnd() => _bufferPos >= _currentLimit;
void _withLimit(int byteLimit, callback) {
if (byteLimit < 0) {
throw ArgumentError(
'CodedBufferReader encountered an embedded string or message'
' which claimed to have negative size.');
}
byteLimit += _bufferPos;
var oldLimit = _currentLimit;
if ((oldLimit != -1 && byteLimit > oldLimit) || byteLimit > _sizeLimit) {
throw InvalidProtocolBufferException.truncatedMessage();
}
_currentLimit = byteLimit;
callback();
_currentLimit = oldLimit;
}
void _checkLimit(int increment) {
assert(_currentLimit != -1);
_bufferPos += increment;
if (_bufferPos > _currentLimit) {
throw InvalidProtocolBufferException.truncatedMessage();
}
}
void readGroup(int fieldNumber, GeneratedMessage message,
ExtensionRegistry extensionRegistry) {
if (_recursionDepth >= _recursionLimit) {
throw InvalidProtocolBufferException.recursionLimitExceeded();
}
++_recursionDepth;
message.mergeFromCodedBufferReader(this, extensionRegistry);
checkLastTagWas(makeTag(fieldNumber, WIRETYPE_END_GROUP));
--_recursionDepth;
}
UnknownFieldSet readUnknownFieldSetGroup(int fieldNumber) {
if (_recursionDepth >= _recursionLimit) {
throw InvalidProtocolBufferException.recursionLimitExceeded();
}
++_recursionDepth;
var unknownFieldSet = UnknownFieldSet();
unknownFieldSet.mergeFromCodedBufferReader(this);
checkLastTagWas(makeTag(fieldNumber, WIRETYPE_END_GROUP));
--_recursionDepth;
return unknownFieldSet;
}
void readMessage(
GeneratedMessage message, ExtensionRegistry extensionRegistry) {
var length = readInt32();
if (_recursionDepth >= _recursionLimit) {
throw InvalidProtocolBufferException.recursionLimitExceeded();
}
if (length < 0) {
throw ArgumentError(
'CodedBufferReader encountered an embedded string or message'
' which claimed to have negative size.');
}
var oldLimit = _currentLimit;
_currentLimit = _bufferPos + length;
if (_currentLimit > oldLimit) {
throw InvalidProtocolBufferException.truncatedMessage();
}
++_recursionDepth;
message.mergeFromCodedBufferReader(this, extensionRegistry);
checkLastTagWas(0);
--_recursionDepth;
_currentLimit = oldLimit;
}
int readEnum() => readInt32();
int readInt32() => _readRawVarint32(true);
Int64 readInt64() => _readRawVarint64();
int readUint32() => _readRawVarint32(false);
Int64 readUint64() => _readRawVarint64();
int readSint32() => _decodeZigZag32(readUint32());
Int64 readSint64() => _decodeZigZag64(readUint64());
int readFixed32() => _readByteData(4).getUint32(0, Endian.little);
Int64 readFixed64() => readSfixed64();
int readSfixed32() => _readByteData(4).getInt32(0, Endian.little);
Int64 readSfixed64() {
var data = _readByteData(8);
var view = Uint8List.view(data.buffer, data.offsetInBytes, 8);
return Int64.fromBytes(view);
}
bool readBool() => _readRawVarint32(true) != 0;
List<int> readBytes() {
var length = readInt32();
_checkLimit(length);
return Uint8List.view(
_buffer.buffer, _buffer.offsetInBytes + _bufferPos - length, length);
}
String readString() => _utf8.decode(readBytes());
double readFloat() => _readByteData(4).getFloat32(0, Endian.little);
double readDouble() => _readByteData(8).getFloat64(0, Endian.little);
int readTag() {
if (isAtEnd()) {
_lastTag = 0;
return 0;
}
_lastTag = readUint32();
if (getTagFieldNumber(_lastTag) == 0) {
throw InvalidProtocolBufferException.invalidTag();
}
return _lastTag;
}
static int _decodeZigZag32(int value) {
if ((value & 0x1) == 1) {
return -(value >> 1) - 1;
} else {
return value >> 1;
}
}
static Int64 _decodeZigZag64(Int64 value) {
if ((value & 0x1) == 1) value = -value;
return value >> 1;
}
int _readRawVarintByte() {
_checkLimit(1);
return _buffer[_bufferPos - 1];
}
int _readRawVarint32(bool signed) {
// Read up to 10 bytes.
// We use a local [bufferPos] variable to avoid repeatedly loading/store the
// this._bufferpos field.
var bufferPos = _bufferPos;
var bytes = _currentLimit - bufferPos;
if (bytes > 10) bytes = 10;
var result = 0;
for (var i = 0; i < bytes; i++) {
var byte = _buffer[bufferPos++];
result |= (byte & 0x7f) << (i * 7);
if ((byte & 0x80) == 0) {
result &= 0xffffffff;
_bufferPos = bufferPos;
return signed ? result - 2 * (0x80000000 & result) : result;
}
}
_bufferPos = bufferPos;
throw InvalidProtocolBufferException.malformedVarint();
}
Int64 _readRawVarint64() {
var lo = 0;
var hi = 0;
// Read low 28 bits.
for (var i = 0; i < 4; i++) {
var byte = _readRawVarintByte();
lo |= (byte & 0x7f) << (i * 7);
if ((byte & 0x80) == 0) return Int64.fromInts(hi, lo);
}
// Read middle 7 bits: 4 low belong to low part above,
// 3 remaining belong to hi.
var byte = _readRawVarintByte();
lo |= (byte & 0xf) << 28;
hi = (byte >> 4) & 0x7;
if ((byte & 0x80) == 0) {
return Int64.fromInts(hi, lo);
}
// Read remaining bits of hi.
for (var i = 0; i < 5; i++) {
var byte = _readRawVarintByte();
hi |= (byte & 0x7f) << ((i * 7) + 3);
if ((byte & 0x80) == 0) return Int64.fromInts(hi, lo);
}
throw InvalidProtocolBufferException.malformedVarint();
}
ByteData _readByteData(int sizeInBytes) {
_checkLimit(sizeInBytes);
return ByteData.view(_buffer.buffer,
_buffer.offsetInBytes + _bufferPos - sizeInBytes, sizeInBytes);
}
}