DarkflameServer/dCommon/AMFDeserialize.cpp

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#include "AMFDeserialize.h"
#include <stdexcept>
#include "Amf3.h"
/**
* AMF3 Reference document https://rtmp.veriskope.com/pdf/amf3-file-format-spec.pdf
* AMF3 Deserializer written by EmosewaMC
*/
AMFBaseValue* AMFDeserialize::Read(RakNet::BitStream* inStream) {
if (!inStream) return nullptr;
AMFBaseValue* returnValue = nullptr;
// Read in the value type from the bitStream
eAmf marker;
inStream->Read(marker);
// Based on the typing, create the value associated with that and return the base value class
switch (marker) {
case eAmf::Undefined: {
returnValue = new AMFBaseValue();
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break;
}
case eAmf::Null: {
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returnValue = new AMFNullValue();
break;
}
case eAmf::False: {
returnValue = new AMFBoolValue(false);
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break;
}
case eAmf::True: {
returnValue = new AMFBoolValue(true);
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break;
}
case eAmf::Integer: {
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returnValue = ReadAmfInteger(inStream);
break;
}
case eAmf::Double: {
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returnValue = ReadAmfDouble(inStream);
break;
}
case eAmf::String: {
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returnValue = ReadAmfString(inStream);
break;
}
case eAmf::Array: {
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returnValue = ReadAmfArray(inStream);
break;
}
// These values are unimplemented in the live client and will remain unimplemented
// unless someone modifies the client to allow serializing of these values.
case eAmf::XMLDoc:
case eAmf::Date:
case eAmf::Object:
case eAmf::XML:
case eAmf::ByteArray:
case eAmf::VectorInt:
case eAmf::VectorUInt:
case eAmf::VectorDouble:
case eAmf::VectorObject:
case eAmf::Dictionary: {
throw marker;
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break;
}
default:
throw std::invalid_argument("Invalid AMF3 marker" + std::to_string(static_cast<int32_t>(marker)));
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break;
}
return returnValue;
}
uint32_t AMFDeserialize::ReadU29(RakNet::BitStream* inStream) {
bool byteFlag = true;
uint32_t actualNumber{};
uint8_t numberOfBytesRead{};
while (byteFlag && numberOfBytesRead < 4) {
uint8_t byte{};
inStream->Read(byte);
// Parse the byte
if (numberOfBytesRead < 3) {
byteFlag = byte & static_cast<uint8_t>(1 << 7);
byte = byte << 1UL;
}
// Combine the read byte with our current read in number
actualNumber <<= 8UL;
actualNumber |= static_cast<uint32_t>(byte);
// If we are not done reading in bytes, shift right 1 bit
if (numberOfBytesRead < 3) actualNumber = actualNumber >> 1UL;
numberOfBytesRead++;
}
return actualNumber;
}
const std::string AMFDeserialize::ReadString(RakNet::BitStream* inStream) {
auto length = ReadU29(inStream);
// Check if this is a reference
bool isReference = length % 2 == 1;
// Right shift by 1 bit to get index if reference or size of next string if value
length = length >> 1;
if (isReference) {
std::string value(length, 0);
inStream->Read(&value[0], length);
// Empty strings are never sent by reference
if (!value.empty()) accessedElements.push_back(value);
return value;
} else {
// Length is a reference to a previous index - use that as the read in value
return accessedElements.at(length);
}
}
AMFBaseValue* AMFDeserialize::ReadAmfDouble(RakNet::BitStream* inStream) {
double value;
inStream->Read<double>(value);
return new AMFDoubleValue(value);
}
AMFBaseValue* AMFDeserialize::ReadAmfArray(RakNet::BitStream* inStream) {
auto arrayValue = new AMFArrayValue();
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// Read size of dense array
auto sizeOfDenseArray = (ReadU29(inStream) >> 1);
// Then read associative portion
while (true) {
auto key = ReadString(inStream);
// No more associative values when we encounter an empty string key
if (key.size() == 0) break;
arrayValue->Insert(key, Read(inStream));
}
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// Finally read dense portion
for (uint32_t i = 0; i < sizeOfDenseArray; i++) {
arrayValue->Insert(i, Read(inStream));
}
return arrayValue;
}
AMFBaseValue* AMFDeserialize::ReadAmfString(RakNet::BitStream* inStream) {
return new AMFStringValue(ReadString(inStream));
}
AMFBaseValue* AMFDeserialize::ReadAmfInteger(RakNet::BitStream* inStream) {
return new AMFIntValue(ReadU29(inStream));
}