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https://github.com/DarkflameUniverse/DarkflameServer.git
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5942182486
* Logger: Rename logger to Logger from dLogger * Logger: Add compile time filename Fix include issues Add writers Add macros Add macro to force compilation * Logger: Replace calls with macros Allows for filename and line number to be logged * Logger: Add comments and remove extra define Logger: Replace with unique_ptr also flush console at exit. regular file writer should be flushed on file close. Logger: Remove constexpr on variable * Logger: Simplify code * Update Logger.cpp
185 lines
4.0 KiB
C++
185 lines
4.0 KiB
C++
#include "AmfSerialize.h"
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#include "Game.h"
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#include "Logger.h"
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// Writes an AMFValue pointer to a RakNet::BitStream
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template<>
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void RakNet::BitStream::Write<AMFBaseValue&>(AMFBaseValue& value) {
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eAmf type = value.GetValueType();
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this->Write(type);
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switch (type) {
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case eAmf::Integer: {
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this->Write<AMFIntValue&>(*static_cast<AMFIntValue*>(&value));
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break;
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}
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case eAmf::Double: {
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this->Write<AMFDoubleValue&>(*static_cast<AMFDoubleValue*>(&value));
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break;
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}
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case eAmf::String: {
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this->Write<AMFStringValue&>(*static_cast<AMFStringValue*>(&value));
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break;
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}
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case eAmf::Array: {
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this->Write<AMFArrayValue&>(*static_cast<AMFArrayValue*>(&value));
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break;
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}
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default: {
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LOG("Encountered unwritable AMFType %i!", type);
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}
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case eAmf::Undefined:
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case eAmf::Null:
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case eAmf::False:
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case eAmf::True:
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case eAmf::Date:
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case eAmf::Object:
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case eAmf::XML:
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case eAmf::XMLDoc:
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case eAmf::ByteArray:
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case eAmf::VectorInt:
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case eAmf::VectorUInt:
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case eAmf::VectorDouble:
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case eAmf::VectorObject:
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case eAmf::Dictionary:
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break;
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}
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}
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/**
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* A private function to write an value to a RakNet::BitStream
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* RakNet writes in the correct byte order - do not reverse this.
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*/
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void WriteUInt29(RakNet::BitStream* bs, uint32_t v) {
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unsigned char b4 = (unsigned char)v;
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if (v < 0x00200000) {
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b4 = b4 & 0x7F;
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if (v > 0x7F) {
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unsigned char b3;
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v = v >> 7;
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b3 = ((unsigned char)(v)) | 0x80;
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if (v > 0x7F) {
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unsigned char b2;
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v = v >> 7;
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b2 = ((unsigned char)(v)) | 0x80;
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bs->Write(b2);
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}
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bs->Write(b3);
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}
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} else {
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unsigned char b1;
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unsigned char b2;
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unsigned char b3;
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v = v >> 8;
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b3 = ((unsigned char)(v)) | 0x80;
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v = v >> 7;
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b2 = ((unsigned char)(v)) | 0x80;
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v = v >> 7;
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b1 = ((unsigned char)(v)) | 0x80;
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bs->Write(b1);
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bs->Write(b2);
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bs->Write(b3);
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}
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bs->Write(b4);
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}
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/**
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* Writes a flag number to a RakNet::BitStream
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* RakNet writes in the correct byte order - do not reverse this.
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*/
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void WriteFlagNumber(RakNet::BitStream* bs, uint32_t v) {
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v = (v << 1) | 0x01;
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WriteUInt29(bs, v);
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}
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/**
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* Writes an AMFString to a RakNet::BitStream
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*
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* RakNet writes in the correct byte order - do not reverse this.
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*/
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void WriteAMFString(RakNet::BitStream* bs, const std::string& str) {
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WriteFlagNumber(bs, (uint32_t)str.size());
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bs->Write(str.c_str(), (uint32_t)str.size());
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}
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/**
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* Writes an U16 to a bitstream
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*
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* RakNet writes in the correct byte order - do not reverse this.
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*/
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void WriteAMFU16(RakNet::BitStream* bs, uint16_t value) {
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bs->Write(value);
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}
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/**
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* Writes an U32 to a bitstream
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*
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* RakNet writes in the correct byte order - do not reverse this.
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*/
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void WriteAMFU32(RakNet::BitStream* bs, uint32_t value) {
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bs->Write(value);
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}
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/**
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* Writes an U64 to a bitstream
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*
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* RakNet writes in the correct byte order - do not reverse this.
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*/
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void WriteAMFU64(RakNet::BitStream* bs, uint64_t value) {
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bs->Write(value);
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}
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// Writes an AMFIntegerValue to BitStream
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template<>
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void RakNet::BitStream::Write<AMFIntValue&>(AMFIntValue& value) {
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WriteUInt29(this, value.GetValue());
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}
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// Writes an AMFDoubleValue to BitStream
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template<>
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void RakNet::BitStream::Write<AMFDoubleValue&>(AMFDoubleValue& value) {
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double d = value.GetValue();
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WriteAMFU64(this, *reinterpret_cast<uint64_t*>(&d));
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}
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// Writes an AMFStringValue to BitStream
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template<>
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void RakNet::BitStream::Write<AMFStringValue&>(AMFStringValue& value) {
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WriteAMFString(this, value.GetValue());
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}
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// Writes an AMFArrayValue to BitStream
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template<>
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void RakNet::BitStream::Write<AMFArrayValue&>(AMFArrayValue& value) {
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uint32_t denseSize = value.GetDense().size();
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WriteFlagNumber(this, denseSize);
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auto it = value.GetAssociative().begin();
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auto end = value.GetAssociative().end();
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while (it != end) {
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WriteAMFString(this, it->first);
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this->Write<AMFBaseValue&>(*it->second);
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it++;
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}
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this->Write(eAmf::Null);
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if (denseSize > 0) {
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auto it2 = value.GetDense().begin();
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auto end2 = value.GetDense().end();
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while (it2 != end2) {
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this->Write<AMFBaseValue&>(**it2);
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it2++;
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}
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}
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}
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