2018-05-06 09:16:37 +02:00
using System ;
using System.Collections.Generic ;
using System.Linq ;
using System.Net ;
using System.Net.NetworkInformation ;
using System.Net.Sockets ;
using System.ComponentModel ;
2018-11-02 19:03:08 +01:00
using System.Threading ;
2018-05-06 09:16:37 +02:00
namespace DS4Windows
{
public enum DsState : byte
{
[Description("Disconnected")]
Disconnected = 0x00 ,
[Description("Reserved")]
Reserved = 0x01 ,
[Description("Connected")]
Connected = 0x02
} ;
public enum DsConnection : byte
{
[Description("None")]
None = 0x00 ,
[Description("Usb")]
Usb = 0x01 ,
[Description("Bluetooth")]
Bluetooth = 0x02
} ;
public enum DsModel : byte
{
[Description("None")]
None = 0 ,
[Description("DualShock 3")]
DS3 = 1 ,
[Description("DualShock 4")]
DS4 = 2 ,
[Description("Generic Gamepad")]
Generic = 3
}
public enum DsBattery : byte
{
None = 0x00 ,
Dying = 0x01 ,
Low = 0x02 ,
Medium = 0x03 ,
High = 0x04 ,
Full = 0x05 ,
Charging = 0xEE ,
Charged = 0xEF
} ;
public struct DualShockPadMeta
{
public byte PadId ;
public DsState PadState ;
public DsConnection ConnectionType ;
public DsModel Model ;
public PhysicalAddress PadMacAddress ;
public DsBattery BatteryStatus ;
public bool IsActive ;
}
class UdpServer
{
private Socket udpSock ;
private uint serverId ;
private bool running ;
private byte [ ] recvBuffer = new byte [ 1024 ] ;
2018-10-13 09:13:42 +02:00
private SocketAsyncEventArgs [ ] argsList ;
2018-11-03 00:20:27 +01:00
private int listInd = 0 ;
private ReaderWriterLockSlim poolLock = new ReaderWriterLockSlim ( ) ;
2018-05-06 09:16:37 +02:00
public delegate void GetPadDetail ( int padIdx , ref DualShockPadMeta meta ) ;
private GetPadDetail portInfoGet ;
public UdpServer ( GetPadDetail getPadDetailDel )
{
portInfoGet = getPadDetailDel ;
2019-03-11 18:48:16 +01:00
argsList = new SocketAsyncEventArgs [ 40 ] ;
for ( int num = 0 ; num < 40 ; num + + )
2018-09-14 10:35:54 +02:00
{
SocketAsyncEventArgs args = new SocketAsyncEventArgs ( ) ;
2018-11-27 11:30:42 +01:00
args . SetBuffer ( new byte [ 100 ] , 0 , 100 ) ;
2018-10-13 09:13:42 +02:00
argsList [ num ] = args ;
2018-09-14 10:35:54 +02:00
}
2018-05-06 09:16:37 +02:00
}
enum MessageType
{
DSUC_VersionReq = 0x100000 ,
DSUS_VersionRsp = 0x100000 ,
DSUC_ListPorts = 0x100001 ,
DSUS_PortInfo = 0x100001 ,
DSUC_PadDataReq = 0x100002 ,
DSUS_PadDataRsp = 0x100002 ,
} ;
private const ushort MaxProtocolVersion = 1001 ;
class ClientRequestTimes
{
DateTime allPads ;
DateTime [ ] padIds ;
Dictionary < PhysicalAddress , DateTime > padMacs ;
public DateTime AllPadsTime { get { return allPads ; } }
public DateTime [ ] PadIdsTime { get { return padIds ; } }
public Dictionary < PhysicalAddress , DateTime > PadMacsTime { get { return padMacs ; } }
public ClientRequestTimes ( )
{
allPads = DateTime . MinValue ;
padIds = new DateTime [ 4 ] ;
for ( int i = 0 ; i < padIds . Length ; i + + )
padIds [ i ] = DateTime . MinValue ;
padMacs = new Dictionary < PhysicalAddress , DateTime > ( ) ;
}
public void RequestPadInfo ( byte regFlags , byte idToReg , PhysicalAddress macToReg )
{
if ( regFlags = = 0 )
allPads = DateTime . UtcNow ;
else
{
if ( ( regFlags & 0x01 ) ! = 0 ) //id valid
{
if ( idToReg < padIds . Length )
padIds [ idToReg ] = DateTime . UtcNow ;
}
if ( ( regFlags & 0x02 ) ! = 0 ) //mac valid
{
padMacs [ macToReg ] = DateTime . UtcNow ;
}
}
}
}
private Dictionary < IPEndPoint , ClientRequestTimes > clients = new Dictionary < IPEndPoint , ClientRequestTimes > ( ) ;
private int BeginPacket ( byte [ ] packetBuf , ushort reqProtocolVersion = MaxProtocolVersion )
{
int currIdx = 0 ;
packetBuf [ currIdx + + ] = ( byte ) 'D' ;
packetBuf [ currIdx + + ] = ( byte ) 'S' ;
packetBuf [ currIdx + + ] = ( byte ) 'U' ;
packetBuf [ currIdx + + ] = ( byte ) 'S' ;
Array . Copy ( BitConverter . GetBytes ( ( ushort ) reqProtocolVersion ) , 0 , packetBuf , currIdx , 2 ) ;
currIdx + = 2 ;
Array . Copy ( BitConverter . GetBytes ( ( ushort ) packetBuf . Length - 16 ) , 0 , packetBuf , currIdx , 2 ) ;
currIdx + = 2 ;
Array . Clear ( packetBuf , currIdx , 4 ) ; //place for crc
currIdx + = 4 ;
Array . Copy ( BitConverter . GetBytes ( ( uint ) serverId ) , 0 , packetBuf , currIdx , 4 ) ;
currIdx + = 4 ;
return currIdx ;
}
private void FinishPacket ( byte [ ] packetBuf )
{
Array . Clear ( packetBuf , 8 , 4 ) ;
//uint crcCalc = Crc32Algorithm.Compute(packetBuf);
uint seed = Crc32Algorithm . DefaultSeed ;
uint crcCalc = ~ Crc32Algorithm . CalculateBasicHash ( ref seed , ref packetBuf , 0 , packetBuf . Length ) ;
Array . Copy ( BitConverter . GetBytes ( ( uint ) crcCalc ) , 0 , packetBuf , 8 , 4 ) ;
}
private void SendPacket ( IPEndPoint clientEP , byte [ ] usefulData , ushort reqProtocolVersion = MaxProtocolVersion )
{
byte [ ] packetData = new byte [ usefulData . Length + 16 ] ;
int currIdx = BeginPacket ( packetData , reqProtocolVersion ) ;
Array . Copy ( usefulData , 0 , packetData , currIdx , usefulData . Length ) ;
FinishPacket ( packetData ) ;
2018-08-04 07:48:28 +02:00
//try { udpSock.SendTo(packetData, clientEP); }
2018-11-02 19:03:08 +01:00
int temp = 0 ;
2018-11-03 00:20:27 +01:00
poolLock . EnterWriteLock ( ) ;
temp = listInd ;
2019-03-11 18:48:16 +01:00
listInd = + + listInd % 40 ;
2018-11-27 11:30:42 +01:00
SocketAsyncEventArgs args = argsList [ temp ] ;
2018-11-03 00:20:27 +01:00
poolLock . ExitWriteLock ( ) ;
2018-11-02 19:03:08 +01:00
2018-08-04 07:48:28 +02:00
args . RemoteEndPoint = clientEP ;
2018-11-27 11:30:42 +01:00
Array . Copy ( packetData , args . Buffer , packetData . Length ) ;
//args.SetBuffer(packetData, 0, packetData.Length);
2018-10-13 09:13:42 +02:00
try {
udpSock . SendToAsync ( args ) ;
}
2018-05-06 09:16:37 +02:00
catch ( Exception e ) { }
}
private void ProcessIncoming ( byte [ ] localMsg , IPEndPoint clientEP )
{
try
{
int currIdx = 0 ;
if ( localMsg [ 0 ] ! = 'D' | | localMsg [ 1 ] ! = 'S' | | localMsg [ 2 ] ! = 'U' | | localMsg [ 3 ] ! = 'C' )
return ;
else
currIdx + = 4 ;
uint protocolVer = BitConverter . ToUInt16 ( localMsg , currIdx ) ;
currIdx + = 2 ;
if ( protocolVer > MaxProtocolVersion )
return ;
uint packetSize = BitConverter . ToUInt16 ( localMsg , currIdx ) ;
currIdx + = 2 ;
if ( packetSize < 0 )
return ;
packetSize + = 16 ; //size of header
if ( packetSize > localMsg . Length )
return ;
else if ( packetSize < localMsg . Length )
{
byte [ ] newMsg = new byte [ packetSize ] ;
Array . Copy ( localMsg , newMsg , packetSize ) ;
localMsg = newMsg ;
}
uint crcValue = BitConverter . ToUInt32 ( localMsg , currIdx ) ;
//zero out the crc32 in the packet once we got it since that's whats needed for calculation
localMsg [ currIdx + + ] = 0 ;
localMsg [ currIdx + + ] = 0 ;
localMsg [ currIdx + + ] = 0 ;
localMsg [ currIdx + + ] = 0 ;
uint crcCalc = Crc32Algorithm . Compute ( localMsg ) ;
if ( crcValue ! = crcCalc )
return ;
uint clientId = BitConverter . ToUInt32 ( localMsg , currIdx ) ;
currIdx + = 4 ;
uint messageType = BitConverter . ToUInt32 ( localMsg , currIdx ) ;
currIdx + = 4 ;
if ( messageType = = ( uint ) MessageType . DSUC_VersionReq )
{
byte [ ] outputData = new byte [ 8 ] ;
int outIdx = 0 ;
Array . Copy ( BitConverter . GetBytes ( ( uint ) MessageType . DSUS_VersionRsp ) , 0 , outputData , outIdx , 4 ) ;
outIdx + = 4 ;
Array . Copy ( BitConverter . GetBytes ( ( ushort ) MaxProtocolVersion ) , 0 , outputData , outIdx , 2 ) ;
outIdx + = 2 ;
outputData [ outIdx + + ] = 0 ;
outputData [ outIdx + + ] = 0 ;
SendPacket ( clientEP , outputData , 1001 ) ;
}
else if ( messageType = = ( uint ) MessageType . DSUC_ListPorts )
{
int numPadRequests = BitConverter . ToInt32 ( localMsg , currIdx ) ;
currIdx + = 4 ;
if ( numPadRequests < 0 | | numPadRequests > 4 )
return ;
int requestsIdx = currIdx ;
for ( int i = 0 ; i < numPadRequests ; i + + )
{
byte currRequest = localMsg [ requestsIdx + i ] ;
if ( currRequest > = 4 )
return ;
}
byte [ ] outputData = new byte [ 16 ] ;
for ( byte i = 0 ; i < numPadRequests ; i + + )
{
byte currRequest = localMsg [ requestsIdx + i ] ;
DualShockPadMeta padData = new DualShockPadMeta ( ) ;
portInfoGet ( currRequest , ref padData ) ;
int outIdx = 0 ;
Array . Copy ( BitConverter . GetBytes ( ( uint ) MessageType . DSUS_PortInfo ) , 0 , outputData , outIdx , 4 ) ;
outIdx + = 4 ;
outputData [ outIdx + + ] = ( byte ) padData . PadId ;
outputData [ outIdx + + ] = ( byte ) padData . PadState ;
outputData [ outIdx + + ] = ( byte ) padData . Model ;
outputData [ outIdx + + ] = ( byte ) padData . ConnectionType ;
byte [ ] addressBytes = null ;
if ( padData . PadMacAddress ! = null )
addressBytes = padData . PadMacAddress . GetAddressBytes ( ) ;
if ( addressBytes ! = null & & addressBytes . Length = = 6 )
{
outputData [ outIdx + + ] = addressBytes [ 0 ] ;
outputData [ outIdx + + ] = addressBytes [ 1 ] ;
outputData [ outIdx + + ] = addressBytes [ 2 ] ;
outputData [ outIdx + + ] = addressBytes [ 3 ] ;
outputData [ outIdx + + ] = addressBytes [ 4 ] ;
outputData [ outIdx + + ] = addressBytes [ 5 ] ;
}
else
{
outputData [ outIdx + + ] = 0 ;
outputData [ outIdx + + ] = 0 ;
outputData [ outIdx + + ] = 0 ;
outputData [ outIdx + + ] = 0 ;
outputData [ outIdx + + ] = 0 ;
outputData [ outIdx + + ] = 0 ;
}
outputData [ outIdx + + ] = ( byte ) padData . BatteryStatus ;
outputData [ outIdx + + ] = 0 ;
SendPacket ( clientEP , outputData , 1001 ) ;
}
}
else if ( messageType = = ( uint ) MessageType . DSUC_PadDataReq )
{
byte regFlags = localMsg [ currIdx + + ] ;
byte idToReg = localMsg [ currIdx + + ] ;
PhysicalAddress macToReg = null ;
{
byte [ ] macBytes = new byte [ 6 ] ;
Array . Copy ( localMsg , currIdx , macBytes , 0 , macBytes . Length ) ;
currIdx + = macBytes . Length ;
macToReg = new PhysicalAddress ( macBytes ) ;
}
lock ( clients )
{
if ( clients . ContainsKey ( clientEP ) )
clients [ clientEP ] . RequestPadInfo ( regFlags , idToReg , macToReg ) ;
else
{
var clientTimes = new ClientRequestTimes ( ) ;
clientTimes . RequestPadInfo ( regFlags , idToReg , macToReg ) ;
clients [ clientEP ] = clientTimes ;
}
}
}
}
catch ( Exception e ) { }
}
private void ReceiveCallback ( IAsyncResult iar )
{
byte [ ] localMsg = null ;
EndPoint clientEP = new IPEndPoint ( IPAddress . Any , 0 ) ;
try
{
//Get the received message.
Socket recvSock = ( Socket ) iar . AsyncState ;
int msgLen = recvSock . EndReceiveFrom ( iar , ref clientEP ) ;
localMsg = new byte [ msgLen ] ;
Array . Copy ( recvBuffer , localMsg , msgLen ) ;
}
catch ( Exception e ) { }
//Start another receive as soon as we copied the data
StartReceive ( ) ;
//Process the data if its valid
if ( localMsg ! = null )
ProcessIncoming ( localMsg , ( IPEndPoint ) clientEP ) ;
}
private void StartReceive ( )
{
try
{
if ( running )
{
//Start listening for a new message.
EndPoint newClientEP = new IPEndPoint ( IPAddress . Any , 0 ) ;
udpSock . BeginReceiveFrom ( recvBuffer , 0 , recvBuffer . Length , SocketFlags . None , ref newClientEP , ReceiveCallback , udpSock ) ;
}
}
catch ( SocketException ex )
{
uint IOC_IN = 0x80000000 ;
uint IOC_VENDOR = 0x18000000 ;
uint SIO_UDP_CONNRESET = IOC_IN | IOC_VENDOR | 12 ;
udpSock . IOControl ( ( int ) SIO_UDP_CONNRESET , new byte [ ] { Convert . ToByte ( false ) } , null ) ;
StartReceive ( ) ;
}
}
2019-05-27 00:07:17 +02:00
public void Start ( int port , string listenAddress = "" )
2018-05-06 09:16:37 +02:00
{
if ( running )
{
if ( udpSock ! = null )
{
udpSock . Close ( ) ;
udpSock = null ;
}
running = false ;
}
udpSock = new Socket ( AddressFamily . InterNetwork , SocketType . Dgram , ProtocolType . Udp ) ;
2019-05-27 00:07:17 +02:00
try
{
IPAddress udpListenIPAddress ;
if ( listenAddress = = "127.0.0.1" | | listenAddress = = "" )
{
// Listen on local looback interface (default option). Does not allow remote client connections
udpListenIPAddress = IPAddress . Loopback ;
}
else if ( listenAddress = = "0.0.0.0" )
{
// Listen on all IPV4 interfaces.
// Remote client connections allowed. If the local network is not "safe" then may not be a good idea, because at the moment incoming connections are not authenticated in any way
udpListenIPAddress = IPAddress . Any ;
}
else
{
// Listen on a specific hostname or IPV4 interface address. If the hostname has multiple interfaces then use the first IPV4 address because it is usually the primary IP addr.
// Remote client connections allowed.
IPAddress [ ] ipAddresses = Dns . GetHostAddresses ( listenAddress ) ;
udpListenIPAddress = null ;
foreach ( IPAddress ip4 in ipAddresses . Where ( ip = > ip . AddressFamily = = System . Net . Sockets . AddressFamily . InterNetwork ) )
{
udpListenIPAddress = ip4 ;
break ;
}
if ( udpListenIPAddress = = null ) throw new SocketException ( 10049 /*WSAEADDRNOTAVAIL*/ ) ;
}
udpSock . Bind ( new IPEndPoint ( udpListenIPAddress , port ) ) ;
}
2018-05-06 09:16:37 +02:00
catch ( SocketException ex )
{
udpSock . Close ( ) ;
udpSock = null ;
throw ex ;
}
byte [ ] randomBuf = new byte [ 4 ] ;
new Random ( ) . NextBytes ( randomBuf ) ;
serverId = BitConverter . ToUInt32 ( randomBuf , 0 ) ;
running = true ;
StartReceive ( ) ;
}
public void Stop ( )
{
running = false ;
if ( udpSock ! = null )
{
udpSock . Close ( ) ;
udpSock = null ;
}
}
private bool ReportToBuffer ( DS4State hidReport , byte [ ] outputData , ref int outIdx )
{
2018-08-04 03:01:00 +02:00
unchecked
{
outputData [ outIdx ] = 0 ;
2018-05-06 09:16:37 +02:00
2018-08-04 03:01:00 +02:00
if ( hidReport . DpadLeft ) outputData [ outIdx ] | = 0x80 ;
if ( hidReport . DpadDown ) outputData [ outIdx ] | = 0x40 ;
if ( hidReport . DpadRight ) outputData [ outIdx ] | = 0x20 ;
if ( hidReport . DpadUp ) outputData [ outIdx ] | = 0x10 ;
2018-05-06 09:16:37 +02:00
2018-08-04 03:01:00 +02:00
if ( hidReport . Options ) outputData [ outIdx ] | = 0x08 ;
if ( hidReport . R3 ) outputData [ outIdx ] | = 0x04 ;
if ( hidReport . L3 ) outputData [ outIdx ] | = 0x02 ;
if ( hidReport . Share ) outputData [ outIdx ] | = 0x01 ;
2018-05-06 09:16:37 +02:00
2018-08-04 03:01:00 +02:00
outputData [ + + outIdx ] = 0 ;
2018-05-06 09:16:37 +02:00
2018-08-04 03:01:00 +02:00
if ( hidReport . Square ) outputData [ outIdx ] | = 0x80 ;
if ( hidReport . Cross ) outputData [ outIdx ] | = 0x40 ;
if ( hidReport . Circle ) outputData [ outIdx ] | = 0x20 ;
if ( hidReport . Triangle ) outputData [ outIdx ] | = 0x10 ;
2018-05-06 09:16:37 +02:00
2018-08-04 03:01:00 +02:00
if ( hidReport . R1 ) outputData [ outIdx ] | = 0x08 ;
if ( hidReport . L1 ) outputData [ outIdx ] | = 0x04 ;
if ( hidReport . R2Btn ) outputData [ outIdx ] | = 0x02 ;
if ( hidReport . L2Btn ) outputData [ outIdx ] | = 0x01 ;
2018-05-06 09:16:37 +02:00
2018-08-04 03:01:00 +02:00
outputData [ + + outIdx ] = ( hidReport . PS ) ? ( byte ) 1 : ( byte ) 0 ;
outputData [ + + outIdx ] = ( hidReport . TouchButton ) ? ( byte ) 1 : ( byte ) 0 ;
2018-05-06 09:16:37 +02:00
2018-08-04 03:01:00 +02:00
//Left stick
outputData [ + + outIdx ] = hidReport . LX ;
outputData [ + + outIdx ] = hidReport . LY ;
outputData [ outIdx ] = ( byte ) ( 255 - outputData [ outIdx ] ) ; //invert Y by convention
2018-05-06 09:16:37 +02:00
2018-08-04 03:01:00 +02:00
//Right stick
outputData [ + + outIdx ] = hidReport . RX ;
outputData [ + + outIdx ] = hidReport . RY ;
outputData [ outIdx ] = ( byte ) ( 255 - outputData [ outIdx ] ) ; //invert Y by convention
2018-05-06 09:16:37 +02:00
2018-08-04 03:01:00 +02:00
//we don't have analog buttons on DS4 :(
outputData [ + + outIdx ] = hidReport . DpadLeft ? ( byte ) 0xFF : ( byte ) 0x00 ;
outputData [ + + outIdx ] = hidReport . DpadDown ? ( byte ) 0xFF : ( byte ) 0x00 ;
outputData [ + + outIdx ] = hidReport . DpadRight ? ( byte ) 0xFF : ( byte ) 0x00 ;
outputData [ + + outIdx ] = hidReport . DpadUp ? ( byte ) 0xFF : ( byte ) 0x00 ;
2018-05-06 09:16:37 +02:00
2018-08-04 03:01:00 +02:00
outputData [ + + outIdx ] = hidReport . Square ? ( byte ) 0xFF : ( byte ) 0x00 ;
outputData [ + + outIdx ] = hidReport . Cross ? ( byte ) 0xFF : ( byte ) 0x00 ;
outputData [ + + outIdx ] = hidReport . Circle ? ( byte ) 0xFF : ( byte ) 0x00 ;
outputData [ + + outIdx ] = hidReport . Triangle ? ( byte ) 0xFF : ( byte ) 0x00 ;
2018-05-06 09:16:37 +02:00
2018-08-04 03:01:00 +02:00
outputData [ + + outIdx ] = hidReport . R1 ? ( byte ) 0xFF : ( byte ) 0x00 ;
outputData [ + + outIdx ] = hidReport . L1 ? ( byte ) 0xFF : ( byte ) 0x00 ;
2018-05-06 09:16:37 +02:00
2018-08-04 03:01:00 +02:00
outputData [ + + outIdx ] = hidReport . R2 ;
outputData [ + + outIdx ] = hidReport . L2 ;
2018-05-06 09:16:37 +02:00
2018-08-04 03:01:00 +02:00
outIdx + + ;
2018-05-06 09:16:37 +02:00
2018-08-04 03:01:00 +02:00
//DS4 only: touchpad points
for ( int i = 0 ; i < 2 ; i + + )
{
var tpad = ( i = = 0 ) ? hidReport . TrackPadTouch0 : hidReport . TrackPadTouch1 ;
2018-05-06 09:16:37 +02:00
2018-08-04 03:01:00 +02:00
outputData [ outIdx + + ] = tpad . IsActive ? ( byte ) 1 : ( byte ) 0 ;
outputData [ outIdx + + ] = ( byte ) tpad . Id ;
Array . Copy ( BitConverter . GetBytes ( ( ushort ) tpad . X ) , 0 , outputData , outIdx , 2 ) ;
outIdx + = 2 ;
Array . Copy ( BitConverter . GetBytes ( ( ushort ) tpad . Y ) , 0 , outputData , outIdx , 2 ) ;
outIdx + = 2 ;
}
2018-05-06 09:16:37 +02:00
2018-08-04 03:01:00 +02:00
//motion timestamp
if ( hidReport . Motion ! = null )
Array . Copy ( BitConverter . GetBytes ( ( ulong ) hidReport . totalMicroSec ) , 0 , outputData , outIdx , 8 ) ;
else
Array . Clear ( outputData , outIdx , 8 ) ;
2018-05-06 09:16:37 +02:00
2018-08-04 03:01:00 +02:00
outIdx + = 8 ;
2018-05-06 09:16:37 +02:00
2018-08-04 03:01:00 +02:00
//accelerometer
if ( hidReport . Motion ! = null )
{
Array . Copy ( BitConverter . GetBytes ( ( float ) hidReport . Motion . accelXG ) , 0 , outputData , outIdx , 4 ) ;
outIdx + = 4 ;
Array . Copy ( BitConverter . GetBytes ( ( float ) hidReport . Motion . accelYG ) , 0 , outputData , outIdx , 4 ) ;
outIdx + = 4 ;
Array . Copy ( BitConverter . GetBytes ( ( float ) - hidReport . Motion . accelZG ) , 0 , outputData , outIdx , 4 ) ;
outIdx + = 4 ;
}
else
{
Array . Clear ( outputData , outIdx , 12 ) ;
outIdx + = 12 ;
}
//gyroscope
if ( hidReport . Motion ! = null )
{
Array . Copy ( BitConverter . GetBytes ( ( float ) hidReport . Motion . angVelPitch ) , 0 , outputData , outIdx , 4 ) ;
outIdx + = 4 ;
Array . Copy ( BitConverter . GetBytes ( ( float ) hidReport . Motion . angVelYaw ) , 0 , outputData , outIdx , 4 ) ;
outIdx + = 4 ;
Array . Copy ( BitConverter . GetBytes ( ( float ) hidReport . Motion . angVelRoll ) , 0 , outputData , outIdx , 4 ) ;
outIdx + = 4 ;
}
else
{
Array . Clear ( outputData , outIdx , 12 ) ;
outIdx + = 12 ;
}
2018-05-06 09:16:37 +02:00
}
return true ;
}
public void NewReportIncoming ( ref DualShockPadMeta padMeta , DS4State hidReport )
{
if ( ! running )
return ;
var clientsList = new List < IPEndPoint > ( ) ;
var now = DateTime . UtcNow ;
lock ( clients )
{
var clientsToDelete = new List < IPEndPoint > ( ) ;
foreach ( var cl in clients )
{
const double TimeoutLimit = 5 ;
if ( ( now - cl . Value . AllPadsTime ) . TotalSeconds < TimeoutLimit )
clientsList . Add ( cl . Key ) ;
else if ( ( padMeta . PadId < cl . Value . PadIdsTime . Length ) & &
( now - cl . Value . PadIdsTime [ ( byte ) padMeta . PadId ] ) . TotalSeconds < TimeoutLimit )
clientsList . Add ( cl . Key ) ;
else if ( cl . Value . PadMacsTime . ContainsKey ( padMeta . PadMacAddress ) & &
( now - cl . Value . PadMacsTime [ padMeta . PadMacAddress ] ) . TotalSeconds < TimeoutLimit )
clientsList . Add ( cl . Key ) ;
else //check if this client is totally dead, and remove it if so
{
bool clientOk = false ;
for ( int i = 0 ; i < cl . Value . PadIdsTime . Length ; i + + )
{
var dur = ( now - cl . Value . PadIdsTime [ i ] ) . TotalSeconds ;
if ( dur < TimeoutLimit )
{
clientOk = true ;
break ;
}
}
if ( ! clientOk )
{
foreach ( var dict in cl . Value . PadMacsTime )
{
var dur = ( now - dict . Value ) . TotalSeconds ;
if ( dur < TimeoutLimit )
{
clientOk = true ;
break ;
}
}
if ( ! clientOk )
clientsToDelete . Add ( cl . Key ) ;
}
}
}
foreach ( var delCl in clientsToDelete )
{
clients . Remove ( delCl ) ;
}
clientsToDelete . Clear ( ) ;
clientsToDelete = null ;
}
if ( clientsList . Count < = 0 )
return ;
2018-08-04 08:39:46 +02:00
unchecked
2018-05-06 09:16:37 +02:00
{
2018-08-04 08:39:46 +02:00
byte [ ] outputData = new byte [ 100 ] ;
int outIdx = BeginPacket ( outputData , 1001 ) ;
Array . Copy ( BitConverter . GetBytes ( ( uint ) MessageType . DSUS_PadDataRsp ) , 0 , outputData , outIdx , 4 ) ;
outIdx + = 4 ;
outputData [ outIdx + + ] = ( byte ) padMeta . PadId ;
outputData [ outIdx + + ] = ( byte ) padMeta . PadState ;
outputData [ outIdx + + ] = ( byte ) padMeta . Model ;
outputData [ outIdx + + ] = ( byte ) padMeta . ConnectionType ;
{
byte [ ] padMac = padMeta . PadMacAddress . GetAddressBytes ( ) ;
outputData [ outIdx + + ] = padMac [ 0 ] ;
outputData [ outIdx + + ] = padMac [ 1 ] ;
outputData [ outIdx + + ] = padMac [ 2 ] ;
outputData [ outIdx + + ] = padMac [ 3 ] ;
outputData [ outIdx + + ] = padMac [ 4 ] ;
outputData [ outIdx + + ] = padMac [ 5 ] ;
}
outputData [ outIdx + + ] = ( byte ) padMeta . BatteryStatus ;
outputData [ outIdx + + ] = padMeta . IsActive ? ( byte ) 1 : ( byte ) 0 ;
2018-05-06 09:16:37 +02:00
2018-08-04 08:39:46 +02:00
Array . Copy ( BitConverter . GetBytes ( ( uint ) hidReport . PacketCounter ) , 0 , outputData , outIdx , 4 ) ;
outIdx + = 4 ;
2018-05-06 09:16:37 +02:00
2018-08-04 08:39:46 +02:00
if ( ! ReportToBuffer ( hidReport , outputData , ref outIdx ) )
return ;
else
FinishPacket ( outputData ) ;
2018-05-06 09:16:37 +02:00
2018-08-04 08:39:46 +02:00
foreach ( var cl in clientsList )
{
//try { udpSock.SendTo(outputData, cl); }
2018-11-02 19:03:08 +01:00
int temp = 0 ;
2018-11-03 00:20:27 +01:00
poolLock . EnterWriteLock ( ) ;
temp = listInd ;
2019-03-11 18:48:16 +01:00
listInd = + + listInd % 40 ;
2018-11-27 11:30:42 +01:00
SocketAsyncEventArgs args = argsList [ temp ] ;
2018-11-03 00:20:27 +01:00
poolLock . ExitWriteLock ( ) ;
2018-11-02 19:03:08 +01:00
2018-08-04 08:39:46 +02:00
args . RemoteEndPoint = cl ;
2018-11-27 11:30:42 +01:00
Array . Copy ( outputData , args . Buffer , outputData . Length ) ;
2018-10-13 09:13:42 +02:00
try {
udpSock . SendToAsync ( args ) ;
}
2018-08-04 08:39:46 +02:00
catch ( SocketException ex ) { }
}
2018-05-06 09:16:37 +02:00
}
2018-08-04 08:39:46 +02:00
2018-05-06 09:16:37 +02:00
clientsList . Clear ( ) ;
clientsList = null ;
}
}
}