DarkflameServer/dCommon/AMFFormat_BitStream.cpp

#include "AMFFormat_BitStream.h"

// Writes an AMFValue pointer to a RakNet::BitStream
template<>
void RakNet::BitStream::Write<AMFValue*>(AMFValue* value) {
    if (value != nullptr) {
        AMFValueType type = value->GetValueType();
        
        switch (type) {
            case AMFUndefined: {
                AMFUndefinedValue* v = (AMFUndefinedValue*)value;
                this->Write(*v);
                break;
            }
                
            case AMFNull: {
                AMFNullValue* v = (AMFNullValue*)value;
                this->Write(*v);
                break;
            }
                
            case AMFFalse: {
                AMFFalseValue* v = (AMFFalseValue*)value;
                this->Write(*v);
                break;
            }
                
            case AMFTrue: {
                AMFTrueValue* v = (AMFTrueValue*)value;
                this->Write(*v);
                break;
            }
                
            case AMFInteger: {
                AMFIntegerValue* v = (AMFIntegerValue*)value;
                this->Write(*v);
                break;
            }
                
            case AMFString: {
                AMFStringValue* v = (AMFStringValue*)value;
                this->Write(*v);
                break;
            }
                
            case AMFXMLDoc: {
                AMFXMLDocValue* v = (AMFXMLDocValue*)value;
                this->Write(*v);
                break;
            }
                
            case AMFDate: {
                AMFDateValue* v = (AMFDateValue*)value;
                this->Write(*v);
                break;
            }
                
            case AMFArray: {
                AMFArrayValue* v = (AMFArrayValue*)value;
                this->Write(*v);
                break;
            }
        }
    }
}

// A private function to write an value to a RakNet::BitStream
void WriteUInt29(RakNet::BitStream* bs, uint32_t v) {
    unsigned char b4 = (unsigned char)v;
    if (v < 0x00200000) {
        b4 = b4 & 0x7F;
        if (v > 0x7F) {
            unsigned char b3;
            v = v >> 7;
            b3 = ((unsigned char)(v)) | 0x80;
            if (v > 0x7F) {
                unsigned char b2;
                v = v >> 7;
                b2 = ((unsigned char)(v)) | 0x80;
                bs->Write(b2);
            }
            
            bs->Write(b3);
        }
    } else {
        unsigned char b1;
        unsigned char b2;
        unsigned char b3;
        
        v = v >> 8;
        b3 = ((unsigned char)(v)) | 0x80;
        v = v >> 7;
        b2 = ((unsigned char)(v)) | 0x80;
        v = v >> 7;
        b1 = ((unsigned char)(v)) | 0x80;
        
        bs->Write(b1);
        bs->Write(b2);
        bs->Write(b3);
    }
    
    bs->Write(b4);
}

// Writes a flag number to a RakNet::BitStream
void WriteFlagNumber(RakNet::BitStream* bs, uint32_t v) {
    v = (v << 1) | 0x01;
    WriteUInt29(bs, v);
}

// Writes an AMFString to a RakNet::BitStream
void WriteAMFString(RakNet::BitStream* bs, const std::string& str) {
    WriteFlagNumber(bs, (uint32_t)str.size());
    bs->Write(str.c_str(), (uint32_t)str.size());
}

// Writes an AMF U16 to a RakNet::BitStream
void WriteAMFU16(RakNet::BitStream* bs, uint16_t value) {
    unsigned char b2;
    b2 = (unsigned char)value;
    value = value >> 8;
    bs->Write((unsigned char)value);
    bs->Write(b2);
}

// Writes an AMF U32 to RakNet::BitStream
void WriteAMFU32(RakNet::BitStream* bs, uint32_t value) {
    unsigned char b2;
    unsigned char b3;
    unsigned char b4;
    
    b4 = (unsigned char)value;
    value = value >> 8;
    b3 = (unsigned char)value;
    value = value >> 8;
    b2 = (unsigned char)value;
    value = value >> 8;
    
    bs->Write((unsigned char)value);
    bs->Write(b2);
    bs->Write(b3);
    bs->Write(b4);
}

// Writes an AMF U64 to RakNet::BitStream
void WriteAMFU64(RakNet::BitStream* bs, uint64_t value) {
    unsigned char b2;
    unsigned char b3;
    unsigned char b4;
    unsigned char b5;
    unsigned char b6;
    unsigned char b7;
    unsigned char b8;
    
    b8 = (unsigned char)value;
    value = value >> 8;
    b7 = (unsigned char)value;
    value = value >> 8;
    b6 = (unsigned char)value;
    value = value >> 8;
    b5 = (unsigned char)value;
    value = value >> 8;
    b4 = (unsigned char)value;
    value = value >> 8;
    b3 = (unsigned char)value;
    value = value >> 8;
    b2 = (unsigned char)value;
    value = value >> 8;
    
    bs->Write((unsigned char)value);
    bs->Write(b2);
    bs->Write(b3);
    bs->Write(b4);
    bs->Write(b5);
    bs->Write(b6);
    bs->Write(b7);
    bs->Write(b8);
}


// Writes an AMFUndefinedValue to BitStream
template<>
void RakNet::BitStream::Write<AMFUndefinedValue>(AMFUndefinedValue value) {
    this->Write(AMFUndefined);
}

// Writes an AMFNullValue to BitStream
template<>
void RakNet::BitStream::Write<AMFNullValue>(AMFNullValue value) {
    this->Write(AMFNull);
}

// Writes an AMFFalseValue to BitStream
template<>
void RakNet::BitStream::Write<AMFFalseValue>(AMFFalseValue value) {
    this->Write(AMFFalse);
}

// Writes an AMFTrueValue to BitStream
template<>
void RakNet::BitStream::Write<AMFTrueValue>(AMFTrueValue value) {
    this->Write(AMFTrue);
}

// Writes an AMFIntegerValue to BitStream
template<>
void RakNet::BitStream::Write<AMFIntegerValue>(AMFIntegerValue value) {
    this->Write(AMFInteger);
    WriteUInt29(this, value.GetIntegerValue());
}

// Writes an AMFDoubleValue to BitStream
template<>
void RakNet::BitStream::Write<AMFDoubleValue>(AMFDoubleValue value) {
    this->Write(AMFDouble);
    double d = value.GetDoubleValue();
    WriteAMFU64(this, *((unsigned long long*)&d));
}

// Writes an AMFStringValue to BitStream
template<>
void RakNet::BitStream::Write<AMFStringValue>(AMFStringValue value) {
    this->Write(AMFString);
    std::string v = value.GetStringValue();
    WriteAMFString(this, v);
}

// Writes an AMFXMLDocValue to BitStream
template<>
void RakNet::BitStream::Write<AMFXMLDocValue>(AMFXMLDocValue value) {
    this->Write(AMFXMLDoc);
    std::string v = value.GetXMLDocValue();
    WriteAMFString(this, v);
}

// Writes an AMFDateValue to BitStream
template<>
void RakNet::BitStream::Write<AMFDateValue>(AMFDateValue value) {
    this->Write(AMFDate);
    uint64_t date = value.GetDateValue();
    WriteAMFU64(this, date);
}

// Writes an AMFArrayValue to BitStream
template<>
void RakNet::BitStream::Write<AMFArrayValue>(AMFArrayValue value) {
    this->Write(AMFArray);
    uint32_t denseSize = value.GetDenseValueSize();
    WriteFlagNumber(this, denseSize);
    
    _AMFArrayMap_::iterator it = value.GetAssociativeIteratorValueBegin();
    _AMFArrayMap_::iterator end = value.GetAssociativeIteratorValueEnd();
    
    while (it != end) {
        WriteAMFString(this, it->first);
        this->Write(it->second);
        it++;
    }
    
    this->Write(AMFNull);
    
    if (denseSize > 0) {
        _AMFArrayList_::iterator it2 = value.GetDenseIteratorBegin();
        _AMFArrayList_::iterator end2 = value.GetDenseIteratorEnd();
        
        while (it2 != end2) {
            this->Write(*it2);
            it2++;
        }
    }
}
Public release of the DLU server code! Have fun! 2021-12-05 17:54:36 +00:00			`#include "AMFFormat_BitStream.h"`

			`// Writes an AMFValue pointer to a RakNet::BitStream`
			`template<>`
			`void RakNet::BitStream::Write<AMFValue>(AMFValue value) {`
			`if (value != nullptr) {`
			`AMFValueType type = value->GetValueType();`

			`switch (type) {`
			`case AMFUndefined: {`
			`AMFUndefinedValue* v = (AMFUndefinedValue*)value;`
			`this->Write(*v);`
			`break;`
			`}`

			`case AMFNull: {`
			`AMFNullValue* v = (AMFNullValue*)value;`
			`this->Write(*v);`
			`break;`
			`}`

			`case AMFFalse: {`
			`AMFFalseValue* v = (AMFFalseValue*)value;`
			`this->Write(*v);`
			`break;`
			`}`

			`case AMFTrue: {`
			`AMFTrueValue* v = (AMFTrueValue*)value;`
			`this->Write(*v);`
			`break;`
			`}`

			`case AMFInteger: {`
			`AMFIntegerValue* v = (AMFIntegerValue*)value;`
			`this->Write(*v);`
			`break;`
			`}`

			`case AMFString: {`
			`AMFStringValue* v = (AMFStringValue*)value;`
			`this->Write(*v);`
			`break;`
			`}`

			`case AMFXMLDoc: {`
			`AMFXMLDocValue* v = (AMFXMLDocValue*)value;`
			`this->Write(*v);`
			`break;`
			`}`

			`case AMFDate: {`
			`AMFDateValue* v = (AMFDateValue*)value;`
			`this->Write(*v);`
			`break;`
			`}`

			`case AMFArray: {`
			`AMFArrayValue* v = (AMFArrayValue*)value;`
			`this->Write(*v);`
			`break;`
			`}`
			`}`
			`}`
			`}`

			`// A private function to write an value to a RakNet::BitStream`
			`void WriteUInt29(RakNet::BitStream* bs, uint32_t v) {`
			`unsigned char b4 = (unsigned char)v;`
			`if (v < 0x00200000) {`
			`b4 = b4 & 0x7F;`
			`if (v > 0x7F) {`
			`unsigned char b3;`
			`v = v >> 7;`
			`b3 = ((unsigned char)(v)) \| 0x80;`
			`if (v > 0x7F) {`
			`unsigned char b2;`
			`v = v >> 7;`
			`b2 = ((unsigned char)(v)) \| 0x80;`
			`bs->Write(b2);`
			`}`

			`bs->Write(b3);`
			`}`
			`} else {`
			`unsigned char b1;`
			`unsigned char b2;`
			`unsigned char b3;`

			`v = v >> 8;`
			`b3 = ((unsigned char)(v)) \| 0x80;`
			`v = v >> 7;`
			`b2 = ((unsigned char)(v)) \| 0x80;`
			`v = v >> 7;`
			`b1 = ((unsigned char)(v)) \| 0x80;`

			`bs->Write(b1);`
			`bs->Write(b2);`
			`bs->Write(b3);`
			`}`

			`bs->Write(b4);`
			`}`

			`// Writes a flag number to a RakNet::BitStream`
			`void WriteFlagNumber(RakNet::BitStream* bs, uint32_t v) {`
			`v = (v << 1) \| 0x01;`
			`WriteUInt29(bs, v);`
			`}`

			`// Writes an AMFString to a RakNet::BitStream`
			`void WriteAMFString(RakNet::BitStream* bs, const std::string& str) {`
			`WriteFlagNumber(bs, (uint32_t)str.size());`
			`bs->Write(str.c_str(), (uint32_t)str.size());`
			`}`

			`// Writes an AMF U16 to a RakNet::BitStream`
			`void WriteAMFU16(RakNet::BitStream* bs, uint16_t value) {`
			`unsigned char b2;`
			`b2 = (unsigned char)value;`
			`value = value >> 8;`
			`bs->Write((unsigned char)value);`
			`bs->Write(b2);`
			`}`

			`// Writes an AMF U32 to RakNet::BitStream`
			`void WriteAMFU32(RakNet::BitStream* bs, uint32_t value) {`
			`unsigned char b2;`
			`unsigned char b3;`
			`unsigned char b4;`

			`b4 = (unsigned char)value;`
			`value = value >> 8;`
			`b3 = (unsigned char)value;`
			`value = value >> 8;`
			`b2 = (unsigned char)value;`
			`value = value >> 8;`

			`bs->Write((unsigned char)value);`
			`bs->Write(b2);`
			`bs->Write(b3);`
			`bs->Write(b4);`
			`}`

			`// Writes an AMF U64 to RakNet::BitStream`
			`void WriteAMFU64(RakNet::BitStream* bs, uint64_t value) {`
			`unsigned char b2;`
			`unsigned char b3;`
			`unsigned char b4;`
			`unsigned char b5;`
			`unsigned char b6;`
			`unsigned char b7;`
			`unsigned char b8;`

			`b8 = (unsigned char)value;`
			`value = value >> 8;`
			`b7 = (unsigned char)value;`
			`value = value >> 8;`
			`b6 = (unsigned char)value;`
			`value = value >> 8;`
			`b5 = (unsigned char)value;`
			`value = value >> 8;`
			`b4 = (unsigned char)value;`
			`value = value >> 8;`
			`b3 = (unsigned char)value;`
			`value = value >> 8;`
			`b2 = (unsigned char)value;`
			`value = value >> 8;`

			`bs->Write((unsigned char)value);`
			`bs->Write(b2);`
			`bs->Write(b3);`
			`bs->Write(b4);`
			`bs->Write(b5);`
			`bs->Write(b6);`
			`bs->Write(b7);`
			`bs->Write(b8);`
			`}`


			`// Writes an AMFUndefinedValue to BitStream`
			`template<>`
			`void RakNet::BitStream::Write<AMFUndefinedValue>(AMFUndefinedValue value) {`
			`this->Write(AMFUndefined);`
			`}`

			`// Writes an AMFNullValue to BitStream`
			`template<>`
			`void RakNet::BitStream::Write<AMFNullValue>(AMFNullValue value) {`
			`this->Write(AMFNull);`
			`}`

			`// Writes an AMFFalseValue to BitStream`
			`template<>`
			`void RakNet::BitStream::Write<AMFFalseValue>(AMFFalseValue value) {`
			`this->Write(AMFFalse);`
			`}`

			`// Writes an AMFTrueValue to BitStream`
			`template<>`
			`void RakNet::BitStream::Write<AMFTrueValue>(AMFTrueValue value) {`
			`this->Write(AMFTrue);`
			`}`

			`// Writes an AMFIntegerValue to BitStream`
			`template<>`
			`void RakNet::BitStream::Write<AMFIntegerValue>(AMFIntegerValue value) {`
			`this->Write(AMFInteger);`
			`WriteUInt29(this, value.GetIntegerValue());`
			`}`

			`// Writes an AMFDoubleValue to BitStream`
			`template<>`
			`void RakNet::BitStream::Write<AMFDoubleValue>(AMFDoubleValue value) {`
			`this->Write(AMFDouble);`
			`double d = value.GetDoubleValue();`
			`WriteAMFU64(this, ((unsigned long long)&d));`
			`}`

			`// Writes an AMFStringValue to BitStream`
			`template<>`
			`void RakNet::BitStream::Write<AMFStringValue>(AMFStringValue value) {`
			`this->Write(AMFString);`
			`std::string v = value.GetStringValue();`
			`WriteAMFString(this, v);`
			`}`

			`// Writes an AMFXMLDocValue to BitStream`
			`template<>`
			`void RakNet::BitStream::Write<AMFXMLDocValue>(AMFXMLDocValue value) {`
			`this->Write(AMFXMLDoc);`
			`std::string v = value.GetXMLDocValue();`
			`WriteAMFString(this, v);`
			`}`

			`// Writes an AMFDateValue to BitStream`
			`template<>`
			`void RakNet::BitStream::Write<AMFDateValue>(AMFDateValue value) {`
			`this->Write(AMFDate);`
			`uint64_t date = value.GetDateValue();`
			`WriteAMFU64(this, date);`
			`}`

			`// Writes an AMFArrayValue to BitStream`
			`template<>`
			`void RakNet::BitStream::Write<AMFArrayValue>(AMFArrayValue value) {`
			`this->Write(AMFArray);`
			`uint32_t denseSize = value.GetDenseValueSize();`
			`WriteFlagNumber(this, denseSize);`

			`_AMFArrayMap_::iterator it = value.GetAssociativeIteratorValueBegin();`
			`_AMFArrayMap_::iterator end = value.GetAssociativeIteratorValueEnd();`

			`while (it != end) {`
			`WriteAMFString(this, it->first);`
			`this->Write(it->second);`
			`it++;`
			`}`

			`this->Write(AMFNull);`

			`if (denseSize > 0) {`
			`_AMFArrayList_::iterator it2 = value.GetDenseIteratorBegin();`
			`_AMFArrayList_::iterator end2 = value.GetDenseIteratorEnd();`

			`while (it2 != end2) {`
			`this->Write(*it2);`
			`it2++;`
			`}`
			`}`
			`}`