New Audio and EHC PR #13

Merged
Karutoh merged 3 commits from audio into main 2024-10-06 23:00:32 -07:00
19 changed files with 2813 additions and 52 deletions

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@ -121,20 +121,27 @@ set(EHS_SOURCES
include/ehs/io/FileMonitor.h include/ehs/io/FileMonitor.h
include/ehs/io/Window.h include/ehs/io/Window.h
include/ehs/io/socket/Socket.h
src/io/socket/Request.cpp include/ehs/io/socket/Request.h src/io/socket/Request.cpp include/ehs/io/socket/Request.h
src/io/socket/Response.cpp include/ehs/io/socket/Response.h src/io/socket/Response.cpp include/ehs/io/socket/Response.h
src/io/socket/BaseDNS.cpp include/ehs/io/socket/BaseDNS.h src/io/socket/BaseDNS.cpp include/ehs/io/socket/BaseDNS.h
include/ehs/io/socket/DNS.h
src/io/socket/BaseUDP.cpp include/ehs/io/socket/BaseUDP.h src/io/socket/BaseUDP.cpp include/ehs/io/socket/BaseUDP.h
include/ehs/io/socket/UDP.h
src/io/socket/BaseTCP.cpp include/ehs/io/socket/BaseTCP.h src/io/socket/BaseTCP.cpp include/ehs/io/socket/BaseTCP.h
include/ehs/io/socket/TCP.h
src/io/socket/SSL.cpp include/ehs/io/socket/SSL.h src/io/socket/SSL.cpp include/ehs/io/socket/SSL.h
include/ehs/io/socket/ehc/NetUtils.h
src/io/socket/EHC.cpp include/ehs/io/socket/EHC.h
src/io/socket/ehc/NetFrags.cpp include/ehs/io/socket/ehc/NetFrags.h
src/io/socket/ehc/NetEnd.cpp include/ehs/io/socket/ehc/NetEnd.h
src/io/socket/ehc/NetSys.cpp include/ehs/io/socket/ehc/NetSys.h
src/io/socket/ehc/NetOp.cpp include/ehs/io/socket/ehc/NetOp.h
src/io/socket/rest/Twitch.cpp include/ehs/io/socket/rest/Twitch.h src/io/socket/rest/Twitch.cpp include/ehs/io/socket/rest/Twitch.h
src/io/socket/rest/TwitchChat.cpp include/ehs/io/socket/rest/TwitchChat.h src/io/socket/rest/TwitchChat.cpp include/ehs/io/socket/rest/TwitchChat.h
src/io/socket/rest/Spotify.cpp include/ehs/io/socket/rest/Spotify.h src/io/socket/rest/Spotify.cpp include/ehs/io/socket/rest/Spotify.h
include/ehs/io/socket/Socket.h
include/ehs/io/socket/TCP.h
include/ehs/io/socket/UDP.h
include/ehs/io/socket/DNS.h
src/io/audio/Audio.cpp include/ehs/io/audio/Audio.h src/io/audio/Audio.cpp include/ehs/io/audio/Audio.h
src/io/audio/BaseAudioDevice.cpp include/ehs/io/audio/BaseAudioDevice.h src/io/audio/BaseAudioDevice.cpp include/ehs/io/audio/BaseAudioDevice.h
@ -178,6 +185,8 @@ set(EHS_SOURCES
include/ehs/io/BaseDirectory.h include/ehs/io/BaseDirectory.h
src/io/BaseDirectory.cpp src/io/BaseDirectory.cpp
include/ehs/io/Directory.h include/ehs/io/Directory.h
include/ehs/io/socket/ehc/NetEnc.h
src/io/socket/ehc/NetEnc.cpp
) )
if (IS_OS_WINDOWS) if (IS_OS_WINDOWS)

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@ -81,10 +81,14 @@ namespace ehs
UInt_64 GetSampleCount() const; UInt_64 GetSampleCount() const;
UInt_8 GetFrameSize() const;
UInt_64 GetSize() const; UInt_64 GetSize() const;
float GetLength() const; float GetLength() const;
Byte* GetFrame(UInt_64 frameIndex) const;
Array<Byte> FrameAsMono(UInt_64 frameIndex) const; Array<Byte> FrameAsMono(UInt_64 frameIndex) const;
Array<Byte> FrameAsStereo(UInt_64 frameIndex) const; Array<Byte> FrameAsStereo(UInt_64 frameIndex) const;

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@ -52,7 +52,9 @@ namespace ehs
virtual UInt_64 ReceiveStream(void *data, UInt_64 size); virtual UInt_64 ReceiveStream(void *data, UInt_64 size);
void BridgeStreams(UInt_64 bufferSize); void BridgeStreams(BaseAudioDevice *input, UInt_64 frameBufferSize);
void BridgeStreams(UInt_64 frameBufferSize);
AudioDeviceType GetType() const; AudioDeviceType GetType() const;

228
include/ehs/io/socket/EHC.h Normal file
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@ -0,0 +1,228 @@
#pragma once
#include "ehs/io/socket/ehc/NetUtils.h"
#include "ehs/io/socket/ehc/NetEnc.h"
#include "ehs/Serializer.h"
#include "ehs/Vector.h"
#include "ehs/Array.h"
#include "Socket.h"
#include "UDP.h"
namespace ehs
{
class NetSys;
class NetEnd;
class EHC;
typedef bool (*ConnectCb)(EHC *, NetEnd **, Serializer<UInt_64>);
typedef void (*ConnectedCb)(EHC *, NetEnd *);
typedef void (*ActiveCb)(EHC *, NetEnd *);
typedef void (*DisconnectCb)(EHC *, NetEnd *, Serializer<UInt_64>);
typedef void (*DisconnectedCb)(EHC *, NetEnd *);
typedef void (*TimeoutCb)(EHC *, NetEnd *);
class EHC
{
private:
friend class NetEnc;
friend class NetEnd;
static const Version version;
static const UInt_64 internalSys;
static const UInt_64 connectOp;
static const UInt_64 connectedOp;
static const UInt_64 rejectedOp;
static const UInt_64 disconnectOp;
static const UInt_64 disconnectedOp;
static const UInt_64 statusUpdateOp;
static const UInt_64 pingOp;
static const UInt_64 pongOp;
static const UInt_64 latencyOp;
static const UInt_64 receivedOp;
UDP udp;
Version appVer;
EndDisp disposition;
UInt_64 hashName;
Str_8 name;
bool dropPackets;
Byte* buffer;
UInt_32 bufferSize;
Array<NetEnc *> encryptions;
Array<NetSys *> systems;
UInt_32 maxEndpoints;
UInt_64 lastTSC;
float delta;
float maxTimeout;
float resendRate;
ConnectCb connectCb;
ConnectedCb connectedCb;
ActiveCb activeCb;
DisconnectCb disconnectCb;
DisconnectedCb disconnectedCb;
TimeoutCb timeoutCb;
protected:
Vector<NetEnd*> endpoints;
public:
~EHC();
EHC();
EHC(const Version &ver, Str_8 name, UInt_64 maxEndpoints);
EHC(const Version &ver, Str_8 name);
EHC(EHC &&sock) noexcept;
EHC(const EHC &sock);
EHC &operator=(EHC&& sock) noexcept;
EHC &operator=(const EHC &sock);
void Initialize();
void Release();
void Bind(AddrType newType, const Str_8& newAddress, UInt_16 newPort);
void Connect(AddrType rType, const Str_8& rAddress, UInt_16 rPort, Serializer<UInt_64> data);
bool Disconnect(EndDisp endDisp, const Char_8 token[64], const Str_8& msg);
void Broadcast(EndDisp endDisp, Status endStatus, bool deltaLocked, UInt_64 encHashId,
bool ensure, UInt_64 sysHashId, UInt_64 opHashId,
const Serializer<UInt_64> &payload);
void Broadcast(EndDisp endDisp, Status endStatus, bool deltaLocked, const Str_8 &encId,
bool ensure, const Str_8 &sysId, const Str_8 &opId,
const Serializer<UInt_64> &payload);
void Poll();
bool IsInitialized() const;
AddrType GetLocalAddressType() const;
Str_8 GetLocalAddress() const;
UInt_16 GetLocalPort() const;
bool IsBound() const;
static Version GetVersion();
Version GetAppVersion() const;
EndDisp GetDisposition() const;
UInt_64 GetHashName() const;
Str_8 GetName() const;
void EnableDropPackets(bool enable);
bool IsDropPacketsEnabled() const;
bool HasEncryption(UInt_64 encHashId) const;
bool HasEncryption(const Str_8& encId) const;
bool AddEncryption(NetEnc *enc);
NetEnc* GetEncryption(UInt_64 encHashId) const;
NetEnc* GetEncryption(const Str_8& encId) const;
bool HasSystem(UInt_64 sysHashId) const;
bool HasSystem(const Str_8& sysId) const;
bool AddSystem(NetSys *sys);
NetSys* GetSystem(UInt_64 sysHashId) const;
NetSys* GetSystem(const Str_8& sysId) const;
bool HasEndpoint(EndDisp endDisp, Status endStatus, const Char_8 token[64]) const;
bool HasEndpoint(EndDisp endDisp, Status endStatus, UInt_64 hashId) const;
bool HasEndpoint(EndDisp endDisp, Status endStatus, const Str_8 &id) const;
bool HasEndpoint(EndDisp endDisp, const Char_8 token[64]) const;
bool HasEndpoint(EndDisp endDisp, UInt_64 hashId) const;
bool HasEndpoint(EndDisp endDisp, const Str_8 &id) const;
bool HasEndpoint(const Char_8 token[64]) const;
bool HasEndpoint(UInt_64 hashId) const;
bool HasEndpoint(const Str_8 &id) const;
bool HasEndpoint(const Str_8& rAddress, UInt_16 rPort) const;
NetEnd *GetEndpoint(EndDisp endDisp, Status endStatus, const Char_8 token[64]) const;
NetEnd *GetEndpoint(EndDisp endDisp, Status endStatus, UInt_64 hashId) const;
NetEnd *GetEndpoint(EndDisp endDisp, Status endStatus, const Str_8 &id) const;
NetEnd *GetEndpoint(EndDisp endDisp, const Char_8 token[64]) const;
NetEnd *GetEndpoint(EndDisp endDisp, UInt_64 hashId) const;
NetEnd *GetEndpoint(EndDisp endDisp, const Str_8 &id) const;
NetEnd *GetEndpoint(const Str_8& rAddress, UInt_16 rPort) const;
Array<NetEnd *> GetEndpoints(EndDisp endDisp, Status endStatus);
Array<NetEnd *> GetEndpoints(EndDisp endDisp);
UInt_64 GetEndpointsCount(EndDisp endDisp, Status endStatus);
UInt_64 GetEndpointsCount(EndDisp endDisp);
UInt_64 GetMaxEndpoints() const;
void SetMaxTimeout(float seconds);
float GetMaxTimeout() const;
void SetResendRate(float seconds);
float GetResendRate() const;
void SetConnectCb(ConnectCb cb);
void SetConnectedCb(ConnectedCb cb);
void SetActiveCb(ActiveCb cb);
void SetDisconnectCb(DisconnectCb cb);
void SetDisconnectedCb(DisconnectedCb cb);
void SetTimeoutCb(TimeoutCb cb);
private:
void GenerateToken(Char_8 in[64]);
void UpdateQueue(UInt_64 active);
void UpdateQueue();
bool RemoveEndpoint(EndDisp disposition, const Char_8 token[64]);
bool RemoveEndpoint(const Str_8& address, UInt_16 port);
bool RemoveEndpoint(const NetEnd* end);
void PollEndpoints();
};
}

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@ -0,0 +1,43 @@
#pragma once
#include "ehs/Str.h"
namespace ehs
{
class EHC;
class NetEnc
{
private:
friend class EHC;
EHC *owner;
UInt_64 hashId;
Str_8 id;
public:
virtual ~NetEnc() = default;
NetEnc();
NetEnc(Str_8 id);
NetEnc(NetEnc &&enc) noexcept;
NetEnc(const NetEnc &enc);
NetEnc &operator=(NetEnc &&enc) noexcept;
NetEnc &operator=(const NetEnc &enc);
EHC *GetOwner() const;
UInt_64 GetHashId() const;
Str_8 GetId() const;
virtual void Encrypt(Byte *data, UInt_64 size) const;
virtual void Decrypt(Byte *data, UInt_64 size) const;
};
}

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@ -0,0 +1,134 @@
#pragma once
#include "NetUtils.h"
#include "NetFrags.h"
#include "ehs/Str.h"
#include "ehs/Vector.h"
#include "ehs/Serializer.h"
#include "ehs/io/socket/Socket.h"
namespace ehs
{
class EHC;
class NetEnd
{
private:
friend class EHC;
EHC* owner;
EndDisp disposition;
UInt_64 hashName;
Str_8 name;
Status status;
Architecture arch;
Char_8 token[64];
UInt_64 nextSendId;
Vector<Insurance> sent;
UInt_64 nextRecvId;
Vector<NetFrags> received;
AddrType type;
Str_8 address;
UInt_16 port;
float deltaDuration;
float deltaRate;
float timeout;
float lastPing;
float oldLatency;
float latency;
UInt_64 queueSlot;
public:
NetEnd();
NetEnd(EndDisp disposition, Str_8 id, Architecture arch, AddrType type, Str_8 address, UInt_16 port);
NetEnd(AddrType type, Str_8 address, UInt_16 port);
NetEnd(NetEnd &&end) noexcept;
NetEnd(const NetEnd &end);
NetEnd &operator=(NetEnd &&end) noexcept;
NetEnd &operator=(const NetEnd &end);
EndDisp GetDisposition() const;
UInt_64 GetHashName() const;
Str_8 GetName() const;
Status GetStatus() const;
Architecture GetArchitecture() const;
UInt_64 GetNextSendId() const;
/// Sends data to the remote endpoint.
/// @param [in] deltaLocked Whether or not to match the remote endpoint's delta time to prevent overloading the client. This will drop data if delta time does not match.
/// @param [in] encHashId The hash id of the encryption to use. Can be zero for none.
/// @param [in] ensure Whether or not to ensure the data was received by the remote endpoint.
/// @param [in] sys The system hash id to execute an operation from.
/// @param [in] op The operation hash id in the system to execute.
/// @param [in] payload Additional parameters and data to send to the remote endpoint.
void Send(bool deltaLocked, UInt_64 encHashId, bool ensure, UInt_64 sys, UInt_64 op, const Serializer<UInt_64>& payload);
/// Sends data to the remote endpoint.
/// @param [in] deltaLocked Whether or not to match the remote endpoint's delta time to prevent overloading the client. This will drop data if delta time does not match.
/// @param [in] encId The id of the encryption to use. Can be empty for none.
/// @param [in] ensure Whether or not to ensure the data was received by the remote endpoint.
/// @param [in] sys The system string id to execute an operation from.
/// @param [in] op The operation string id in the system to execute.
/// @param [in] payload Additional parameters and data to send to the remote endpoint.
void Send(bool deltaLocked, const Str_8 &encID, bool ensure, const Str_8& sys, const Str_8& op, const Serializer<UInt_64>& payload);
UInt_64 GetNextRecvId() const;
Str_8 GetAddress() const;
UInt_16 GetPort() const;
void SetDeltaRate(float newDeltaRate);
float GetDeltaRate() const;
float GetTimeout() const;
float GetLastPing() const;
void SendLatency();
float GetLatency() const;
UInt_64 GetQueueSlot() const;
private:
void Poll(float delta);
void SetStatus(Status newStatus);
void RemoveInsurance(UInt_64 msgId, UInt_64 fragment);
void AddReceived(const Header& header, const Serializer<>& payload);
Vector<NetFrags>* GetReceived();
void Ping(float delta);
void Pong(float delta);
void SetLatency(float newLatency);
void SetQueueSlot(UInt_64 slot);
NetFrags FragmentData(const Header& header, const Serializer<>& data);
void Send(const Header& header, const Serializer<>& payload);
bool SortingNeeded() const;
void SortReceived();
};
}

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@ -0,0 +1,43 @@
#pragma once
#include "NetUtils.h"
#include <ehs/Serializer.h>
namespace ehs
{
class NetFrags
{
private:
Header header;
Serializer<UInt_64>* data;
UInt_64 size;
public:
~NetFrags();
NetFrags();
NetFrags(const Header &header, const Serializer<UInt_64> &payload);
NetFrags(const Header &header, UInt_64 size);
NetFrags(NetFrags &&frags) noexcept;
NetFrags(const NetFrags &frags);
NetFrags &operator=(NetFrags &&frags) noexcept;
NetFrags &operator=(const NetFrags &frags);
operator Serializer<UInt_64> *() const;
Header GetHeader() const;
UInt_64 Size() const;
bool IsComplete() const;
Packet Combine() const;
};
}

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@ -0,0 +1,42 @@
#pragma once
#include "ehs/Str.h"
#include "ehs/Serializer.h"
namespace ehs
{
class EHC;
class NetSys;
class NetEnd;
class NetOp
{
private:
friend class NetSys;
UInt_64 hashId;
Str_8 id;
public:
virtual ~NetOp() = default;
NetOp();
NetOp(Str_8 id);
NetOp(NetOp &&op) noexcept;
NetOp(const NetOp &op);
NetOp &operator=(NetOp &&op) noexcept;
NetOp &operator=(const NetOp &op);
Str_8 GetId() const;
UInt_64 GetHashId() const;
private:
virtual void Process(EHC *ehc, NetEnd *endpoint, NetSys *sys, Serializer<UInt_64> &payload);
};
}

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@ -0,0 +1,48 @@
#pragma once
#include "ehs/Str.h"
#include "ehs/Array.h"
#include "ehs/Serializer.h"
namespace ehs
{
class EHC;
class NetEnd;
class NetOp;
class NetSys
{
private:
friend class EHC;
UInt_64 hashId;
Str_8 id;
Array<NetOp*> ops;
public:
virtual ~NetSys();
NetSys();
NetSys(Str_8 id);
NetSys(NetSys &&sys) noexcept;
NetSys(const NetSys &sys);
NetSys &operator=(NetSys &&sys) noexcept;
NetSys &operator=(const NetSys &sys);
Str_8 GetId() const;
UInt_64 GetHashId() const;
bool HasOperation(UInt_64 hashId) const;
bool AddOperation(NetOp *op);
private:
void Execute(EHC *ehc, NetEnd *endpoint, UInt_64 hashId, Serializer<UInt_64> &payload);
};
}

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@ -0,0 +1,54 @@
#pragma once
#include "ehs/Serializer.h"
namespace ehs
{
enum class EndDisp : UInt_8
{
ENDPOINT,
SERVICE
};
enum class Status : UInt_8
{
ACTIVE,
PENDING,
IN_LOCAL_QUEUE,
IN_REMOTE_QUEUE,
};
struct Header
{
UInt_64 encHashId = 0;
UInt_64 id = 0;
UInt_64 fragments = 0;
UInt_64 fragment = 0;
bool ensure = false;
EndDisp disposition = EndDisp::ENDPOINT;
Char_8 token[64] = {};
UInt_64 system = 0;
UInt_64 op = 0;
};
struct Packet
{
Header header;
Serializer<UInt_64> payload;
};
struct Insurance
{
Header header;
Serializer<UInt_64> payload;
float lastResend;
};
}
#ifndef EHC_IPV4_PAYLOAD
#define EHC_IPV4_PAYLOAD (EHS_IPV4_UDP_PAYLOAD - (UInt_16)sizeof(Header))
#endif
#ifndef EHC_IPV6_PAYLOAD
#define EHC_IPV6_PAYLOAD (EHS_IPV6_UDP_PAYLOAD - (UInt_16)sizeof(Header))
#endif

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@ -290,6 +290,11 @@ namespace ehs
return channels * frames; return channels * frames;
} }
UInt_8 Audio::GetFrameSize() const
{
return byteDepth * channels;
}
UInt_64 Audio::GetSize() const UInt_64 Audio::GetSize() const
{ {
return byteDepth * channels * frames; return byteDepth * channels * frames;
@ -300,6 +305,11 @@ namespace ehs
return length; return length;
} }
Byte* Audio::GetFrame(UInt_64 frameIndex) const
{
return &data[frameIndex * GetFrameSize()];
}
Array<Byte> Audio::FrameAsMono(const UInt_64 frameIndex) const Array<Byte> Audio::FrameAsMono(const UInt_64 frameIndex) const
{ {
Array<Byte> result(byteDepth); Array<Byte> result(byteDepth);
@ -1743,161 +1753,161 @@ namespace ehs
void Audio::SInt_16_to_SInt_8(Byte* newData, Byte* newPeak) const void Audio::SInt_16_to_SInt_8(Byte* newData, Byte* newPeak) const
{ {
for (UInt_64 a = 0; a < GetSampleCount(); ++a) for (UInt_64 a = 0; a < GetSampleCount(); ++a)
newData[a] = (Byte)((float)((SInt_16*)data)[a] / (float)EHS_SINT_16_MAX * (float)EHS_SINT_8_MAX); newData[a] = (Byte)((double)((SInt_16*)data)[a] / (double)EHS_SINT_16_MAX * (double)EHS_SINT_8_MAX);
*(SInt_8*)newPeak = (SInt_8)((float)*(SInt_16*)peak / (float)EHS_SINT_16_MAX * (float)EHS_SINT_8_MAX); *(SInt_8*)newPeak = (SInt_8)((double)*(SInt_16*)peak / (double)EHS_SINT_16_MAX * (double)EHS_SINT_8_MAX);
} }
void Audio::Float_to_SInt_8(Byte* newData, Byte* newPeak) const void Audio::Float_to_SInt_8(Byte* newData, Byte* newPeak) const
{ {
for (UInt_64 a = 0; a < GetSampleCount(); ++a) for (UInt_64 a = 0; a < GetSampleCount(); ++a)
((SInt_8*)newData)[a] = (SInt_8)(((float*)data)[a] * (float)EHS_SINT_8_MAX); ((SInt_8*)newData)[a] = (SInt_8)((double)((float*)data)[a] * (double)EHS_SINT_8_MAX);
*(SInt_8*)newPeak = (SInt_8)(*(float*)peak * (float)EHS_SINT_8_MAX); *(SInt_8*)newPeak = (SInt_8)((double)(*(float*)peak) * (double)EHS_SINT_8_MAX);
} }
void Audio::SInt_32_to_SInt_8(Byte* newData, Byte* newPeak) const void Audio::SInt_32_to_SInt_8(Byte* newData, Byte* newPeak) const
{ {
for (UInt_64 a = 0; a < GetSampleCount(); ++a) for (UInt_64 a = 0; a < GetSampleCount(); ++a)
newData[a] = (Byte)((float)((SInt_32*)data)[a] / (float)EHS_SINT_32_MAX * (float)EHS_SINT_8_MAX); newData[a] = (Byte)((double)((SInt_32*)data)[a] / (double)EHS_SINT_32_MAX * (double)EHS_SINT_8_MAX);
*(SInt_8*)newPeak = (SInt_8)((float)*(SInt_32*)peak / (float)EHS_SINT_32_MAX * (float)EHS_SINT_8_MAX); *(SInt_8*)newPeak = (SInt_8)((double)*(SInt_32*)peak / (double)EHS_SINT_32_MAX * (double)EHS_SINT_8_MAX);
} }
void Audio::SInt_64_to_SInt_8(Byte* newData, Byte* newPeak) const void Audio::SInt_64_to_SInt_8(Byte* newData, Byte* newPeak) const
{ {
for (UInt_64 a = 0; a < GetSampleCount(); ++a) for (UInt_64 a = 0; a < GetSampleCount(); ++a)
newData[a] = (Byte)((float)((SInt_64*)data)[a] / (float)EHS_SINT_64_MAX * (float)EHS_SINT_8_MAX); newData[a] = (Byte)((double)((SInt_64*)data)[a] / (double)EHS_SINT_64_MAX * (double)EHS_SINT_8_MAX);
*(SInt_8*)newPeak = (SInt_8)((float)*(SInt_64*)peak / (float)EHS_SINT_64_MAX * (float)EHS_SINT_8_MAX); *(SInt_8*)newPeak = (SInt_8)((double)*(SInt_64*)peak / (double)EHS_SINT_64_MAX * (double)EHS_SINT_8_MAX);
} }
void Audio::SInt_8_to_SInt_16(Byte* newData, Byte* newPeak) const void Audio::SInt_8_to_SInt_16(Byte* newData, Byte* newPeak) const
{ {
for (UInt_64 a = 0; a < GetSampleCount(); ++a) for (UInt_64 a = 0; a < GetSampleCount(); ++a)
((SInt_16*)newData)[a] = (SInt_16)((float)(SInt_8)data[a] / (float)EHS_SINT_8_MAX * (float)EHS_SINT_16_MAX); ((SInt_16*)newData)[a] = (SInt_16)((double)(SInt_8)data[a] / (double)EHS_SINT_8_MAX * (double)EHS_SINT_16_MAX);
*(SInt_16*)newPeak = (SInt_16)((float)*(SInt_8*)peak / (float)EHS_SINT_8_MAX * (float)EHS_SINT_16_MAX); *(SInt_16*)newPeak = (SInt_16)((double)*(SInt_8*)peak / (double)EHS_SINT_8_MAX * (double)EHS_SINT_16_MAX);
} }
void Audio::Float_to_SInt_16(Byte* newData, Byte* newPeak) const void Audio::Float_to_SInt_16(Byte* newData, Byte* newPeak) const
{ {
for (UInt_64 a = 0; a < GetSampleCount(); ++a) for (UInt_64 a = 0; a < GetSampleCount(); ++a)
((SInt_16*)newData)[a] = (SInt_16)(((float*)data)[a] * (float)EHS_SINT_16_MAX); ((SInt_16*)newData)[a] = (SInt_16)((double)((float*)data)[a] * (double)EHS_SINT_16_MAX);
*(SInt_16*)newPeak = (SInt_16)(*(float*)peak * (float)EHS_SINT_16_MAX); *(SInt_16*)newPeak = (SInt_16)((double)(*(float*)peak) * (double)EHS_SINT_16_MAX);
} }
void Audio::SInt_32_to_SInt_16(Byte* newData, Byte* newPeak) const void Audio::SInt_32_to_SInt_16(Byte* newData, Byte* newPeak) const
{ {
for (UInt_64 a = 0; a < GetSampleCount(); ++a) for (UInt_64 a = 0; a < GetSampleCount(); ++a)
((SInt_16*)newData)[a] = (SInt_16)((float)((SInt_32*)data)[a] / (float)EHS_SINT_32_MAX * (float)EHS_SINT_16_MAX); ((SInt_16*)newData)[a] = (SInt_16)((double)((SInt_32*)data)[a] / (double)EHS_SINT_32_MAX * (double)EHS_SINT_16_MAX);
*(SInt_16*)newPeak = (SInt_16)((float)*(SInt_32*)peak / (float)EHS_SINT_32_MAX * (float)EHS_SINT_16_MAX); *(SInt_16*)newPeak = (SInt_16)((double)*(SInt_32*)peak / (double)EHS_SINT_32_MAX * (double)EHS_SINT_16_MAX);
} }
void Audio::SInt_64_to_SInt_16(Byte* newData, Byte* newPeak) const void Audio::SInt_64_to_SInt_16(Byte* newData, Byte* newPeak) const
{ {
for (UInt_64 a = 0; a < GetSampleCount(); ++a) for (UInt_64 a = 0; a < GetSampleCount(); ++a)
((SInt_16*)newData)[a] = (SInt_16)((float)((SInt_64*)data)[a] / (float)EHS_SINT_64_MAX * (float)EHS_SINT_16_MAX); ((SInt_16*)newData)[a] = (SInt_16)((double)((SInt_64*)data)[a] / (double)EHS_SINT_64_MAX * (double)EHS_SINT_16_MAX);
*(SInt_16*)newPeak = (SInt_16)((float)*(SInt_64*)peak / (float)EHS_SINT_64_MAX * (float)EHS_SINT_16_MAX); *(SInt_16*)newPeak = (SInt_16)((double)*(SInt_64*)peak / (double)EHS_SINT_64_MAX * (double)EHS_SINT_16_MAX);
} }
void Audio::SInt_8_to_Float(Byte* newData, Byte* newPeak) const void Audio::SInt_8_to_Float(Byte* newData, Byte* newPeak) const
{ {
for (UInt_64 a = 0; a < GetSampleCount(); ++a) for (UInt_64 a = 0; a < GetSampleCount(); ++a)
((float*)newData)[a] = (float)(((SInt_8*)data)[a]) / (float)EHS_SINT_8_MAX; ((float*)newData)[a] = (float)((double)(((SInt_8*)data)[a]) / (double)EHS_SINT_8_MAX);
*(float*)newPeak = (float)*(SInt_8*)peak / (float)EHS_SINT_8_MAX; *(float*)newPeak = (float)((double)*(SInt_8*)peak / (double)EHS_SINT_8_MAX);
} }
void Audio::SInt_16_to_Float(Byte* newData, Byte* newPeak) const void Audio::SInt_16_to_Float(Byte* newData, Byte* newPeak) const
{ {
for (UInt_64 a = 0; a < GetSampleCount(); ++a) for (UInt_64 a = 0; a < GetSampleCount(); ++a)
((float*)newData)[a] = (float)(((SInt_16*)data)[a]) / (float)EHS_SINT_16_MAX; ((float*)newData)[a] = (float)((double)(((SInt_16*)data)[a]) / (double)EHS_SINT_16_MAX);
*(float*)newPeak = (float)*(SInt_16*)peak / (float)EHS_SINT_16_MAX; *(float*)newPeak = (float)((double)*(SInt_16*)peak / (double)EHS_SINT_16_MAX);
} }
void Audio::SInt_32_to_Float(Byte* newData, Byte* newPeak) const void Audio::SInt_32_to_Float(Byte* newData, Byte* newPeak) const
{ {
for (UInt_64 a = 0; a < GetSampleCount(); ++a) for (UInt_64 a = 0; a < GetSampleCount(); ++a)
((float*)newData)[a] = (float)(((SInt_32*)data)[a]) / (float)EHS_SINT_32_MAX; ((float*)newData)[a] = (float)((double)(((SInt_32*)data)[a]) / (double)EHS_SINT_32_MAX);
*(float*)newPeak = (float)*(SInt_32*)peak / (float)EHS_SINT_32_MAX; *(float*)newPeak = (float)((double)*(SInt_32*)peak / (double)EHS_SINT_32_MAX);
} }
void Audio::SInt_64_to_Float(Byte* newData, Byte* newPeak) const void Audio::SInt_64_to_Float(Byte* newData, Byte* newPeak) const
{ {
for (UInt_64 a = 0; a < GetSampleCount(); ++a) for (UInt_64 a = 0; a < GetSampleCount(); ++a)
((float*)newData)[a] = (float)(((SInt_64*)data)[a]) / (float)EHS_SINT_64_MAX; ((float*)newData)[a] = (float)((double)(((SInt_64*)data)[a]) / (double)EHS_SINT_64_MAX);
*(float*)newPeak = (float)*(SInt_64*)peak / (float)EHS_SINT_64_MAX; *(float*)newPeak = (float)((double)*(SInt_64*)peak / (double)EHS_SINT_64_MAX);
} }
void Audio::SInt_8_to_SInt_32(Byte* newData, Byte* newPeak) const void Audio::SInt_8_to_SInt_32(Byte* newData, Byte* newPeak) const
{ {
for (UInt_64 a = 0; a < GetSampleCount(); ++a) for (UInt_64 a = 0; a < GetSampleCount(); ++a)
((SInt_32*)newData)[a] = (SInt_32)((float)(SInt_8)data[a] / (float)EHS_SINT_8_MAX * (float)EHS_SINT_32_MAX); ((SInt_32*)newData)[a] = (SInt_32)((double)(SInt_8)data[a] / (double)EHS_SINT_8_MAX * (double)EHS_SINT_32_MAX);
*(SInt_32*)newPeak = (SInt_32)((float)*(SInt_8*)peak / (float)EHS_SINT_8_MAX * (float)EHS_SINT_32_MAX); *(SInt_32*)newPeak = (SInt_32)((double)*(SInt_8*)peak / (double)EHS_SINT_8_MAX * (double)EHS_SINT_32_MAX);
} }
void Audio::SInt_16_to_SInt_32(Byte* newData, Byte* newPeak) const void Audio::SInt_16_to_SInt_32(Byte* newData, Byte* newPeak) const
{ {
for (UInt_64 a = 0; a < GetSampleCount(); ++a) for (UInt_64 a = 0; a < GetSampleCount(); ++a)
((SInt_32*)newData)[a] = (SInt_32)((float)((SInt_16*)data)[a] / (float)EHS_SINT_16_MAX * (float)EHS_SINT_32_MAX); ((SInt_32*)newData)[a] = (SInt_32)((double)((SInt_16*)data)[a] / (double)EHS_SINT_16_MAX * (double)EHS_SINT_32_MAX);
*(SInt_32*)newPeak = (SInt_32)((float)*(SInt_16*)peak / (float)EHS_SINT_16_MAX * (float)EHS_SINT_32_MAX); *(SInt_32*)newPeak = (SInt_32)((double)*(SInt_16*)peak / (double)EHS_SINT_16_MAX * (double)EHS_SINT_32_MAX);
} }
void Audio::Float_to_SInt_32(Byte* newData, Byte* newPeak) const void Audio::Float_to_SInt_32(Byte* newData, Byte* newPeak) const
{ {
for (UInt_64 a = 0; a < GetSampleCount(); ++a) for (UInt_64 a = 0; a < GetSampleCount(); ++a)
((SInt_32*)newData)[a] = (SInt_32)(((float*)data)[a] * (float)EHS_SINT_32_MAX); ((SInt_32*)newData)[a] = (SInt_32)(((double*)data)[a] * (double)EHS_SINT_32_MAX);
*(SInt_32*)newPeak = (SInt_32)(*(float*)peak * (float)EHS_SINT_32_MAX); *(SInt_32*)newPeak = (SInt_32)(*(double*)peak * (double)EHS_SINT_32_MAX);
} }
void Audio::SInt_64_to_SInt_32(Byte* newData, Byte* newPeak) const void Audio::SInt_64_to_SInt_32(Byte* newData, Byte* newPeak) const
{ {
for (UInt_64 a = 0; a < GetSampleCount(); ++a) for (UInt_64 a = 0; a < GetSampleCount(); ++a)
((SInt_32*)newData)[a] = (SInt_32)((float)((SInt_64*)data)[a] / (float)EHS_SINT_64_MAX * (float)EHS_SINT_32_MAX); ((SInt_32*)newData)[a] = (SInt_32)((double)((SInt_64*)data)[a] / (double)EHS_SINT_64_MAX * (double)EHS_SINT_32_MAX);
*(SInt_32*)newPeak = (SInt_32)((float)*(SInt_64*)peak / (float)EHS_SINT_64_MAX * (float)EHS_SINT_32_MAX); *(SInt_32*)newPeak = (SInt_32)((double)*(SInt_64*)peak / (double)EHS_SINT_64_MAX * (double)EHS_SINT_32_MAX);
} }
void Audio::SInt_8_to_SInt_64(Byte* newData, Byte* newPeak) const void Audio::SInt_8_to_SInt_64(Byte* newData, Byte* newPeak) const
{ {
for (UInt_64 a = 0; a < GetSampleCount(); ++a) for (UInt_64 a = 0; a < GetSampleCount(); ++a)
((SInt_64*)newData)[a] = (SInt_64)((float)(SInt_8)data[a] / (float)EHS_SINT_8_MAX * (float)EHS_SINT_64_MAX); ((SInt_64*)newData)[a] = (SInt_64)((double)(SInt_8)data[a] / (double)EHS_SINT_8_MAX * (double)EHS_SINT_64_MAX);
*(SInt_64*)newPeak = (SInt_64)((float)*(SInt_8*)peak / (float)EHS_SINT_8_MAX * (float)EHS_SINT_64_MAX); *(SInt_64*)newPeak = (SInt_64)((double)*(SInt_8*)peak / (double)EHS_SINT_8_MAX * (double)EHS_SINT_64_MAX);
} }
void Audio::SInt_16_to_SInt_64(Byte* newData, Byte* newPeak) const void Audio::SInt_16_to_SInt_64(Byte* newData, Byte* newPeak) const
{ {
for (UInt_64 a = 0; a < GetSampleCount(); ++a) for (UInt_64 a = 0; a < GetSampleCount(); ++a)
((SInt_64*)newData)[a] = (SInt_64)((float)((SInt_16*)data)[a] / (float)EHS_SINT_16_MAX * (float)EHS_SINT_64_MAX); ((SInt_64*)newData)[a] = (SInt_64)((double)((SInt_16*)data)[a] / (double)EHS_SINT_16_MAX * (double)EHS_SINT_64_MAX);
*(SInt_64*)newPeak = (SInt_64)((float)*(SInt_16*)peak / (float)EHS_SINT_16_MAX * (float)EHS_SINT_64_MAX); *(SInt_64*)newPeak = (SInt_64)((double)*(SInt_16*)peak / (double)EHS_SINT_16_MAX * (double)EHS_SINT_64_MAX);
} }
void Audio::Float_to_SInt_64(Byte* newData, Byte* newPeak) const void Audio::Float_to_SInt_64(Byte* newData, Byte* newPeak) const
{ {
for (UInt_64 a = 0; a < GetSampleCount(); ++a) for (UInt_64 a = 0; a < GetSampleCount(); ++a)
((SInt_64*)newData)[a] = (SInt_64)(((float*)data)[a] * (float)EHS_SINT_64_MAX); ((SInt_64*)newData)[a] = (SInt_64)(((double*)data)[a] * (double)EHS_SINT_64_MAX);
*(SInt_64*)newPeak = (SInt_64)(*(float*)peak * (float)EHS_SINT_64_MAX); *(SInt_64*)newPeak = (SInt_64)(*(double*)peak * (double)EHS_SINT_64_MAX);
} }
void Audio::SInt_32_to_SInt_64(Byte* newData, Byte* newPeak) const void Audio::SInt_32_to_SInt_64(Byte* newData, Byte* newPeak) const
{ {
for (UInt_64 a = 0; a < GetSampleCount(); ++a) for (UInt_64 a = 0; a < GetSampleCount(); ++a)
((SInt_64*)newData)[a] = (SInt_64)((float)((SInt_32*)data)[a] / (float)EHS_SINT_32_MAX * (float)EHS_SINT_64_MAX); ((SInt_64*)newData)[a] = (SInt_64)((double)((SInt_32*)data)[a] / (double)EHS_SINT_32_MAX * (double)EHS_SINT_64_MAX);
*(SInt_64*)newPeak = (SInt_64)((float)*(SInt_32*)peak / (float)EHS_SINT_32_MAX * (float)EHS_SINT_64_MAX); *(SInt_64*)newPeak = (SInt_64)((double)*(SInt_32*)peak / (double)EHS_SINT_32_MAX * (double)EHS_SINT_64_MAX);
} }
bool EncodeEHA(const ehs::AudioCodec* const codec, ehs::Serializer<ehs::UInt_64>& out, const ehs::Audio* const in) bool EncodeEHA(const ehs::AudioCodec* const codec, ehs::Serializer<ehs::UInt_64>& out, const ehs::Audio* const in)

View File

@ -341,6 +341,8 @@ namespace ehs
return 0; return 0;
} }
Util::Copy(buffer, data, frameSize * byteDepth * channels);
r = playbackClient->ReleaseBuffer(frameSize, 0); r = playbackClient->ReleaseBuffer(frameSize, 0);
if (r == AUDCLNT_E_DEVICE_INVALIDATED) if (r == AUDCLNT_E_DEVICE_INVALIDATED)
{ {

View File

@ -1,4 +1,5 @@
#include "ehs/io/audio/BaseAudioDevice.h" #include "ehs/io/audio/BaseAudioDevice.h"
#include "ehs/log.h"
namespace ehs namespace ehs
{ {
@ -49,19 +50,48 @@ namespace ehs
return 0; return 0;
} }
void BaseAudioDevice::BridgeStreams(const UInt_64 bufferSize) void BaseAudioDevice::BridgeStreams(BaseAudioDevice* input, UInt_64 frameBufferSize)
{ {
Byte* buffer = new Byte[bufferSize]; if (type != AudioDeviceType::OUTPUT)
{
EHS_LOG_INT(LogType::WARN, 0, "The current audio device object is not an output device.");
return;
}
UInt_64 result = ReceiveStream(buffer, bufferSize); if (input->type != AudioDeviceType::INPUT)
while (result < bufferSize) {
result += ReceiveStream(&buffer[result], bufferSize - result); EHS_LOG_INT(LogType::WARN, 1, "The provided audio device is not an input device.");
return;
}
Byte* buffer = new Byte[frameBufferSize * GetFrameSize()];
UInt_64 result = 0;
while (result < frameBufferSize)
result += input->ReceiveStream(&buffer[result * GetFrameSize()], frameBufferSize - result);
result -= SendStream(buffer, result);
while (result) while (result)
result -= SendStream(&buffer[bufferSize - result], result); result -= SendStream(&buffer[(frameBufferSize - result) * GetFrameSize()], result);
delete[] buffer; delete[] buffer;
EHS_LOG_SUCCESS();
}
void BaseAudioDevice::BridgeStreams(const UInt_64 frameBufferSize)
{
Byte* buffer = new Byte[frameBufferSize * GetFrameSize()];
UInt_64 result = ReceiveStream(buffer, frameBufferSize);
while (result < frameBufferSize)
result += ReceiveStream(&buffer[result * GetFrameSize()], frameBufferSize - result);
while (result)
result -= SendStream(&buffer[(frameBufferSize - result) * GetFrameSize()], result);
delete[] buffer;
EHS_LOG_SUCCESS();
} }
AudioDeviceType BaseAudioDevice::GetType() const AudioDeviceType BaseAudioDevice::GetType() const

1208
src/io/socket/EHC.cpp Normal file

File diff suppressed because it is too large Load Diff

View File

@ -0,0 +1,76 @@
#include "ehs/io/socket/ehc/NetEnc.h"
namespace ehs
{
NetEnc::NetEnc()
: owner(nullptr), hashId(0)
{
}
NetEnc::NetEnc(Str_8 id)
: owner(nullptr), hashId(id.Hash_64()), id((Str_8 &&)id)
{
}
NetEnc::NetEnc(NetEnc&& enc) noexcept
: owner(enc.owner), hashId(enc.hashId), id((Str_8 &&)enc.id)
{
enc.owner = nullptr;
enc.hashId = 0;
}
NetEnc::NetEnc(const NetEnc& enc)
: owner(nullptr), hashId(enc.hashId), id(enc.id)
{
}
NetEnc& NetEnc::operator=(NetEnc&& enc) noexcept
{
if (this == &enc)
return *this;
owner = enc.owner;
hashId = enc.hashId;
id = (Str_8 &&)enc.id;
enc.owner = nullptr;
enc.hashId = 0;
return *this;
}
NetEnc& NetEnc::operator=(const NetEnc& enc)
{
if (this == &enc)
return *this;
owner = nullptr;
hashId = enc.hashId;
id = enc.id;
return *this;
}
EHC* NetEnc::GetOwner() const
{
return owner;
}
UInt_64 NetEnc::GetHashId() const
{
return hashId;
}
Str_8 NetEnc::GetId() const
{
return id;
}
void NetEnc::Encrypt(Byte *data, UInt_64 size) const
{
}
void NetEnc::Decrypt(Byte *data, UInt_64 size) const
{
}
}

View File

@ -0,0 +1,535 @@
#include "ehs/io/socket/ehc/NetEnd.h"
#include "ehs/io/socket/EHC.h"
#include "ehs/io/socket/ehc/NetEnc.h"
#include "ehs/system/CPU.h"
namespace ehs
{
NetEnd::NetEnd()
: owner(nullptr), disposition(EndDisp::ENDPOINT), hashName(0), status(Status::PENDING),
arch(Architecture::UNKNOWN), token{}, nextSendId(0), nextRecvId(0), type(AddrType::IPV6), port(0),
deltaDuration(0.0f), deltaRate(1.0f / 60.0f), timeout(0.0f), lastPing(0.0f), oldLatency(0.0f), latency(0.0f),
queueSlot(0)
{
}
NetEnd::NetEnd(const EndDisp disposition, Str_8 id, const Architecture arch, const AddrType type,
Str_8 address, const UInt_16 port)
: owner(nullptr), disposition(disposition), hashName(id.Hash_64()), name((Str_8&&)id), status(Status::ACTIVE),
arch(arch), token{}, nextSendId(0), nextRecvId(0), type(type), address((Str_8&&)address), port(port),
deltaDuration(0.0f), deltaRate(1.0f / 60.0f), timeout(0.0f), lastPing(0.0f), oldLatency(0.0f), latency(0.0f),
queueSlot(0)
{
}
NetEnd::NetEnd(const AddrType type, Str_8 address, const UInt_16 port)
: owner(nullptr), disposition(EndDisp::ENDPOINT), hashName(0), status(Status::PENDING),
arch(Architecture::UNKNOWN), token{}, nextSendId(0), nextRecvId(0), type(type), address((Str_8&&)address),
port(port), deltaDuration(0.0f), deltaRate(1.0f / 60.0f), timeout(0.0f), lastPing(0.0f), oldLatency(0.0f),
latency(0.0f), queueSlot(0)
{
}
NetEnd::NetEnd(NetEnd &&end) noexcept
: owner(end.owner), disposition(end.disposition), hashName(end.hashName), name((Str_8&&)end.name), status(end.status), arch(end.arch), token{},
nextSendId(end.nextSendId), sent((Vector<Insurance>&&)end.sent), nextRecvId(end.nextRecvId),
received((Vector<NetFrags>&&)end.received), type(end.type), address((Str_8&&)end.address), port(end.port),
deltaDuration(end.deltaDuration), deltaRate(end.deltaRate), timeout(end.timeout), lastPing(end.lastPing),
oldLatency(end.oldLatency), latency(end.latency), queueSlot(end.queueSlot)
{
end.owner = nullptr;
end.disposition = EndDisp::ENDPOINT;
end.hashName = 0;
end.status = Status::PENDING;
end.arch = Architecture::UNKNOWN;
Util::Copy(token, end.token, 64);
Util::Zero(end.token, 64);
end.nextSendId = 0;
end.nextRecvId = 0;
end.type = AddrType::IPV6;
end.port = 0;
end.deltaDuration = 0.0f;
end.deltaRate = 1.0f / 60.0f;
end.timeout = 0.0f;
end.lastPing = 0.0f;
end.oldLatency = 0.0f;
end.latency = 0.0f;
end.queueSlot = 0;
}
NetEnd::NetEnd(const NetEnd& end)
: owner(nullptr), disposition(EndDisp::ENDPOINT), hashName(end.hashName), name(end.name), status(Status::PENDING), arch(Architecture::UNKNOWN),
token{}, nextSendId(0), nextRecvId(0), type(end.type), port(0), deltaDuration(0.0f), deltaRate(1.0f / 60.0f),
timeout(0.0f), lastPing(0.0f), oldLatency(0.0f), latency(0.0f), queueSlot(0)
{
}
NetEnd& NetEnd::operator=(NetEnd&& end) noexcept
{
if (this == &end)
return *this;
owner = end.owner;
disposition = end.disposition;
hashName = end.hashName;
name = (Str_8&&)end.name;
status = end.status;
arch = end.arch;
Util::Copy(token, end.token, 64);
nextSendId = end.nextSendId;
sent = (Vector<Insurance>&&)end.sent;
nextRecvId = end.nextRecvId;
received = (Vector<NetFrags>&&)end.received;
type = end.type;
address = (Str_8&&)end.address;
port = end.port;
deltaDuration = end.deltaDuration;
deltaRate = end.deltaRate;
timeout = end.timeout;
lastPing = end.lastPing;
oldLatency = end.oldLatency;
latency = end.latency;
queueSlot = end.queueSlot;
end.owner = nullptr;
end.disposition = EndDisp::ENDPOINT;
end.hashName = 0;
end.status = Status::PENDING;
end.arch = Architecture::UNKNOWN;
Util::Zero(end.token, 64);
end.nextSendId = 0;
end.nextRecvId = 0;
end.type = AddrType::IPV6;
end.port = 0;
end.deltaDuration = 0.0f;
end.deltaRate = 1.0f / 60.0f;
end.timeout = 0.0f;
end.lastPing = 0.0f;
end.oldLatency = 0.0f;
end.latency = 0.0f;
end.queueSlot = 0;
return *this;
}
NetEnd &NetEnd::operator=(const NetEnd &end)
{
if (this == &end)
return *this;
owner = nullptr;
disposition = EndDisp::ENDPOINT;
hashName = end.hashName;
name = end.name;
status = Status::PENDING;
arch = Architecture::UNKNOWN;
Util::Zero(token, 64);
nextSendId = 0;
sent = {};
nextRecvId = 0;
received = {};
type = AddrType::IPV6;
address = {};
port = 0;
deltaDuration = 0.0f;
deltaRate = 1.0f / 60.0f;
timeout = 0.0f;
lastPing = 0.0f;
oldLatency = 0.0f;
latency = 0.0f;
queueSlot = 0;
return *this;
}
EndDisp NetEnd::GetDisposition() const
{
return disposition;
}
UInt_64 NetEnd::GetHashName() const
{
return hashName;
}
Str_8 NetEnd::GetName() const
{
return name;
}
Status NetEnd::GetStatus() const
{
return status;
}
Architecture NetEnd::GetArchitecture() const
{
return arch;
}
UInt_64 NetEnd::GetNextSendId() const
{
return nextSendId;
}
void NetEnd::Send(const bool deltaLocked, const UInt_64 encHashId, const bool ensure, const UInt_64 sys,
const UInt_64 op, const Serializer<UInt_64> &payload)
{
if (deltaLocked && deltaDuration < deltaRate)
return;
Header header = {
encHashId,
nextSendId++,
1,
0,
ensure,
owner->GetDisposition(),
"",
sys,
op
};
Util::Copy(header.token, token, 64);
if ((owner->GetLocalAddressType() == AddrType::IPV6 && payload.Size() > EHC_IPV6_PAYLOAD) || (owner->GetLocalAddressType() == AddrType::IPV4 && payload.Size() > EHC_IPV4_PAYLOAD))
{
NetFrags frags = FragmentData(header, payload);
for (UInt_64 i = 0; i < frags.Size(); ++i)
{
Header newHeader = frags.GetHeader();
newHeader.fragment = i;
Send(newHeader, frags[i]);
}
}
else
{
Send(header, payload);
}
}
void NetEnd::Send(const bool deltaLocked, const Str_8 &encId, const bool ensure, const Str_8& sys,
const Str_8& op, const Serializer<>& payload)
{
Send(deltaLocked, encId.Hash_64(), ensure, sys.Hash_64(), op.Hash_64(), payload);
}
UInt_64 NetEnd::GetNextRecvId() const
{
return nextRecvId;
}
Str_8 NetEnd::GetAddress() const
{
return address;
}
UInt_16 NetEnd::GetPort() const
{
return port;
}
float NetEnd::GetDeltaRate() const
{
return deltaRate;
}
float NetEnd::GetTimeout() const
{
return timeout;
}
float NetEnd::GetLastPing() const
{
return lastPing;
}
float NetEnd::GetLatency() const
{
return oldLatency;
}
UInt_64 NetEnd::GetQueueSlot() const
{
return queueSlot;
}
void NetEnd::Poll(const float delta)
{
SortReceived();
if (deltaDuration >= deltaRate)
deltaDuration = Math::Mod(deltaDuration, deltaRate);
deltaDuration += delta;
timeout += delta;
latency += delta;
if (sent.Size())
{
for (UInt_64 i = 0; i < sent.Size(); ++i)
{
sent[i].lastResend += delta;
if (sent[i].lastResend >= owner->GetResendRate())
{
Serializer result(Endianness::LE);
result.Write(sent[i].header);
result.WriteSer(sent[i].payload);
if (sent[i].header.encHashId)
{
NetEnc *enc = owner->GetEncryption(sent[i].header.encHashId);
if (!enc)
{
EHS_LOG_INT(LogType::WARN, 0, "The network encryption with the hash id " +
Str_8::FromNum(sent[i].header.encHashId) + ", does not exist.");
continue;
}
enc->Encrypt(&result[sizeof(bool)], result.Size() - sizeof(bool));
}
owner->udp.Send(type, address, port, result, result.Size());
sent[i].lastResend = Math::Mod(sent[i].lastResend, owner->GetResendRate());
}
}
}
if (owner->GetDisposition() == EndDisp::SERVICE)
{
lastPing += delta;
if (lastPing >= 1.0f)
Ping(delta);
}
EHS_LOG_SUCCESS();
}
void NetEnd::SetStatus(const Status newStatus)
{
status = newStatus;
}
void NetEnd::RemoveInsurance(const UInt_64 msgId, const UInt_64 fragment)
{
for (UInt_64 i = 0; i < sent.Size(); ++i)
{
if (sent[i].header.id == msgId && sent[i].header.fragment == fragment)
{
sent.Remove(i);
break;
}
}
timeout = 0.0f;
}
void NetEnd::AddReceived(const Header& header, const Serializer<>& payload)
{
NetFrags* frags = nullptr;
for (UInt_64 i = 0; i < received.Size(); ++i)
{
if (received[i].GetHeader().id == header.id)
{
if (received[i][header.fragment].Size())
return;
frags = &received[i];
break;
}
}
if (header.id > nextRecvId)
nextRecvId = header.id + 1;
if (frags)
(*frags)[header.fragment] = payload;
else
received.Push({header, payload});
timeout = 0.0f;
}
Vector<NetFrags>* NetEnd::GetReceived()
{
return &received;
}
void NetEnd::SetDeltaRate(const float newDeltaRate)
{
deltaRate = newDeltaRate;
}
void NetEnd::Ping(const float delta)
{
Serializer payload(Endianness::LE);
payload.Write(delta);
Send(false, true, false, "Internal", "Ping", payload);
lastPing = 0.0f;
latency = 0.0f;
}
void NetEnd::Pong(const float delta)
{
Serializer payload(Endianness::LE);
payload.Write(delta);
Send(false, true, false, "Internal", "Pong", payload);
timeout = 0.0f;
}
void NetEnd::SendLatency()
{
oldLatency = latency * 1000;
Serializer sPayload(Endianness::LE);
sPayload.Write(oldLatency);
Send(false, true, false, "Internal", "Latency", sPayload);
latency = 0.0f;
timeout = 0.0f;
}
void NetEnd::SetLatency(const float newLatency)
{
oldLatency = newLatency;
}
void NetEnd::SetQueueSlot(const UInt_64 slot)
{
queueSlot = slot;
}
NetFrags NetEnd::FragmentData(const Header& header, const Serializer<>& data)
{
NetFrags result;
if (owner->GetLocalAddressType() == AddrType::IPV6)
{
UInt_64 frags = data.Size() / EHC_IPV6_PAYLOAD;
if (data.Size() % EHC_IPV6_PAYLOAD)
++frags;
result = NetFrags(header, frags);
UInt_64 size = EHC_IPV6_PAYLOAD;
for (UInt_64 i = 0; i < result.Size(); ++i)
{
size = EHC_IPV6_PAYLOAD;
if (i == result.Size() - 1)
size = data.Size() % EHC_IPV6_PAYLOAD;
result[i] = {data.GetEndianness(), &data[i * EHC_IPV6_PAYLOAD], size};
}
}
else if (owner->GetLocalAddressType() == AddrType::IPV4)
{
UInt_64 frags = data.Size() / EHC_IPV4_PAYLOAD;
if (data.Size() % EHC_IPV4_PAYLOAD)
++frags;
result = NetFrags(header, frags);
UInt_64 size = EHC_IPV4_PAYLOAD;
for (UInt_64 i = 0; i < result.Size(); ++i)
{
size = EHC_IPV4_PAYLOAD;
if (i == result.Size() - 1)
size = data.Size() % EHC_IPV4_PAYLOAD;
result[i] = {data.GetEndianness(), &data[i * EHC_IPV4_PAYLOAD], size};
}
}
return result;
}
void NetEnd::Send(const Header& header, const Serializer<UInt_64>& payload)
{
Serializer result(Endianness::LE);
result.Write(header);
result.WriteSer(payload);
if (header.encHashId)
{
NetEnc *enc = owner->GetEncryption(header.encHashId);
if (!enc)
{
EHS_LOG_INT(LogType::WARN, 0, "The network encryption with the hash id " +
Str_8::FromNum(header.encHashId) + ", does not exist.");
return;
}
enc->Encrypt(&result[sizeof(bool)], result.Size() - sizeof(bool));
}
if (header.ensure)
sent.Push({header, payload});
owner->udp.Send(type, address, port, result, result.Size());
}
bool NetEnd::SortingNeeded() const
{
UInt_64 lastPacket = 0;
for (UInt_64 i = 0; i < received.Size(); ++i)
{
if (received[i].GetHeader().id < lastPacket)
return true;
else
lastPacket = received[i].GetHeader().id;
}
return false;
}
void NetEnd::SortReceived()
{
if (!SortingNeeded())
return;
Vector<NetFrags> sorted(0, received.Stride());
for (UInt_64 a = 0; a < received.Size(); ++a)
{
if (sorted.Size())
{
for (UInt_64 b = sorted.Size(); b; --b)
{
if (received[a].GetHeader().id > sorted[b - 1].GetHeader().id)
{
if (b == sorted.Size())
sorted.Push(received[a]);
else
sorted.Insert(b, received[a]);
break;
}
else
{
sorted.Insert(b - 1, received[a]);
break;
}
}
}
else
{
sorted.Push(received[a]);
}
}
received = sorted;
}
}

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#include "ehs/io/socket/ehc/NetFrags.h"
namespace ehs
{
NetFrags::~NetFrags()
{
delete[] data;
}
NetFrags::NetFrags()
: data(nullptr), size(0)
{
}
NetFrags::NetFrags(const Header &header, const Serializer<UInt_64> &payload)
: header(header), data(new Serializer<UInt_64>[header.fragments]), size(header.fragments)
{
this->header.fragment = 0;
data[header.fragment] = payload;
}
NetFrags::NetFrags(const Header &header, const UInt_64 size)
: header(header), data(new Serializer<UInt_64>[size]), size(size)
{
this->header.fragments = size;
this->header.fragment = 0;
}
NetFrags::NetFrags(NetFrags &&frags) noexcept
: header(frags.header), data(frags.data), size(frags.size)
{
frags.header = {};
frags.data = nullptr;
frags.size = 0;
}
NetFrags::NetFrags(const NetFrags &frags)
: header(frags.header), data(new Serializer<UInt_64>[frags.size]), size(frags.size)
{
for (UInt_64 i = 0; i < size; ++i)
data[i] = frags.data[i];
}
NetFrags &NetFrags::operator=(NetFrags &&frags) noexcept
{
if (this == &frags)
return *this;
header = frags.header;
delete[] data;
data = frags.data;
size = frags.size;
frags.header = {};
frags.data = nullptr;
frags.size = 0;
return *this;
}
NetFrags &NetFrags::operator=(const NetFrags &frags)
{
if (this == &frags)
return *this;
header = frags.header;
delete[] data;
data = new Serializer<UInt_64>[frags.size];
for (UInt_64 i = 0; i < frags.size; ++i)
data[i] = frags.data[i];
size = frags.size;
return *this;
}
NetFrags::operator Serializer<UInt_64> *() const
{
return data;
}
Header NetFrags::GetHeader() const
{
return header;
}
UInt_64 NetFrags::Size() const
{
return size;
}
bool NetFrags::IsComplete() const
{
for (UInt_64 i = 0; i < size; ++i)
if (!data[i].Size())
return false;
return true;
}
Packet NetFrags::Combine() const
{
UInt_64 rSize = 0;
for (UInt_64 i = 0; i < size; ++i)
rSize += data[i].Size();
Packet result =
{
header,
{Endianness::LE, rSize}
};
result.header.fragments = 0;
for (UInt_64 i = 0; i < size; ++i)
result.payload.WriteSer(data[i]);
result.payload.SetOffset(0);
return result;
}
}

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#include "ehs/io/socket/ehc/NetOp.h"
#include "ehs/io/socket/EHC.h"
#include "ehs/io/socket/ehc/NetEnd.h"
#include "ehs/io/socket/ehc/NetSys.h"
namespace ehs
{
NetOp::NetOp()
: hashId(0)
{
}
NetOp::NetOp(Str_8 id)
: hashId(id.Hash_64()), id((Str_8 &&)id)
{
}
NetOp::NetOp(NetOp&& op) noexcept
: hashId(op.hashId), id((Str_8 &&)op.id)
{
op.hashId = 0;
}
NetOp::NetOp(const NetOp &op)
: hashId(op.hashId), id(op.id)
{
}
NetOp& NetOp::operator=(NetOp&& op) noexcept
{
if (this == &op)
return *this;
hashId = op.hashId;
id = (Str_8 &&)op.id;
op.hashId = 0;
return *this;
}
NetOp &NetOp::operator=(const NetOp &op)
{
if (this == &op)
return *this;
hashId = op.hashId;
id = op.id;
return *this;
}
Str_8 NetOp::GetId() const
{
return id;
}
UInt_64 NetOp::GetHashId() const
{
return hashId;
}
void NetOp::Process(EHC *ehc, NetEnd *endpoint, NetSys *sys, Serializer<UInt_64> &payload)
{
}
}

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#include "ehs/io/socket/ehc/NetSys.h"
#include "ehs/io/socket/EHC.h"
#include "ehs/io/socket/ehc/NetEnd.h"
#include "ehs/io/socket/ehc/NetOp.h"
namespace ehs
{
NetSys::~NetSys()
{
for (UInt_64 i = 0; i < ops.Size(); ++i)
delete ops[i];
ops.Clear();
}
NetSys::NetSys()
: hashId(0)
{
}
NetSys::NetSys(Str_8 id)
: hashId(id.Hash_64()), id((Str_8&&)id)
{
}
NetSys::NetSys(NetSys&& sys) noexcept
: hashId(sys.hashId), id((Str_8&&)sys.id), ops((Array<NetOp*>&&)sys.ops)
{
sys.hashId = 0;
}
NetSys::NetSys(const NetSys& sys)
: hashId(sys.hashId), id(sys.id)
{
}
NetSys& NetSys::operator=(NetSys&& sys) noexcept
{
if (this == &sys)
return *this;
hashId = sys.hashId;
id = (Str_8&&)sys.id;
ops = (Array<NetOp*>&&)sys.ops;
sys.hashId = 0;
return *this;
}
NetSys& NetSys::operator=(const NetSys& sys)
{
if (this == &sys)
return *this;
hashId = sys.hashId;
id = sys.id;
ops = Array<NetOp*>();
return *this;
}
Str_8 NetSys::GetId() const
{
return id;
}
UInt_64 NetSys::GetHashId() const
{
return hashId;
}
bool NetSys::HasOperation(const UInt_64 hashId) const
{
for (UInt_64 i = 0; i < ops.Size(); ++i)
if (ops[i]->GetHashId() == hashId)
return true;
return false;
}
bool NetSys::AddOperation(NetOp* op)
{
if (HasOperation(op->GetHashId()))
return false;
ops.Push(op);
return true;
}
void NetSys::Execute(EHC *ehc, NetEnd *endpoint, const UInt_64 hashId, Serializer<UInt_64> &payload)
{
for (UInt_64 i = 0; i < ops.Size(); ++i)
{
if (ops[i]->GetHashId() == hashId)
{
ops[i]->Process(ehc, endpoint, this, payload);
return;
}
}
EHS_LOG_INT(LogType::INFO, 0, "System not found.");
}
}