CWE-ou-minkata/MOULOpenSourceClientPlugin/Plasma20/Sources/Plasma/PubUtilLib/plNetGameLib/Private/plNglCsr.cpp

/*==LICENSE==*

CyanWorlds.com Engine - MMOG client, server and tools
Copyright (C) 2011  Cyan Worlds, Inc.

This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with this program.  If not, see <http://www.gnu.org/licenses/>.

You can contact Cyan Worlds, Inc. by email legal@cyan.com
 or by snail mail at:
      Cyan Worlds, Inc.
      14617 N Newport Hwy
      Mead, WA   99021

*==LICENSE==*/
/*****************************************************************************
*
*   $/Plasma20/Sources/Plasma/PubUtilLib/plNetGameLib/Private/plNglCsr.cpp
*   
***/

#include "../Pch.h"
#pragma hdrstop

// This file excluded from pre-compiled header because it is auto-generated by the build server.
#include "pnNetBase/pnNbCsrKey.hpp"


namespace Ngl { namespace Csr {
/*****************************************************************************
*
*   Internal types
*
***/

struct ConnectParam {
	FNetCliCsrConnectedCallback	callback;
	void *						param;
};

//============================================================================
// Connection record
//============================================================================
struct CliCsConn : AtomicRef {
    LINK(CliCsConn) link;

	CCritSect		critsect;
    AsyncSocket     sock;
    AsyncCancelId   cancelId;
    NetCli *        cli;
    NetAddress      addr;
    unsigned        seq;
    bool			abandoned;
    unsigned        serverChallenge;
    unsigned		latestBuildId;
    ConnectParam *	connectParam;

	// ping
	AsyncTimer *	pingTimer;
	unsigned		pingSendTimeMs;
	unsigned		lastHeardTimeMs;

    CliCsConn ();
    ~CliCsConn ();

	void AutoPing ();
	void StopAutoPing ();
	void TimerPing ();

	void Send (const unsigned_ptr fields[], unsigned count);
};


//============================================================================
// Transaction objects
//============================================================================
struct ConnectedNotifyTrans : NetNotifyTrans {

	ConnectParam *	m_connectParam;
	unsigned		m_latestBuildId;

	ConnectedNotifyTrans (ConnectParam * cp, unsigned lbi)
	: NetNotifyTrans(kCsrConnectedNotifyTrans)
	, m_connectParam(cp)
	, m_latestBuildId(lbi)
	{ }
	~ConnectedNotifyTrans () {
		DEL(m_connectParam);
	}
    void Post ();
};

struct LoginRequestTrans : NetCsrTrans {

	wchar					m_csrName[kMaxAccountNameLength];
	ShaDigest				m_namePassHash;
	FNetCliCsrLoginCallback	m_callback;
	void *					m_param;
	
	Uuid					m_csrId;
	unsigned				m_csrFlags;
	
	LoginRequestTrans (
		const wchar				csrName[],
		const ShaDigest &		namePassHash,
		FNetCliCsrLoginCallback	callback,
		void *					param
	);

    bool Send ();
    void Post ();
    bool Recv (
        const byte  msg[],
        unsigned    bytes
    );
};


/*****************************************************************************
*
*   Internal data
*
***/

enum {
    kPerfConnCount,
    kPingDisabled,
    kNumPerf
};

static bool							s_running;
static CCritSect					s_critsect;
static LISTDECL(CliCsConn, link)	s_conns;
static CliCsConn *					s_active;
static long							s_perf[kNumPerf];


/*****************************************************************************
*
*   Internal functions
*
***/

//===========================================================================
static unsigned GetNonZeroTimeMs () {
	if (unsigned ms = TimeGetMs())
		return ms;
	return 1;
}

//============================================================================
static CliCsConn * GetConnIncRef_CS (const char tag[]) {

    if (CliCsConn * conn = s_active)
		if (conn->cli) {
			conn->IncRef(tag);
			return conn;
		}
    return nil;
}

//============================================================================
static CliCsConn * GetConnIncRef (const char tag[]) {
	ref(GetConnIncRef);
	
    CliCsConn * conn;
    s_critsect.Enter();
    {
        conn = GetConnIncRef_CS(tag);
    }
    s_critsect.Leave();
    return conn;
}

//============================================================================
static void UnlinkAndAbandonConn_CS (CliCsConn * conn) {

	s_conns.Unlink(conn);
	conn->abandoned = true;
	if (conn->cancelId) {
		AsyncSocketConnectCancel(nil, conn->cancelId);
		conn->cancelId  = 0;
	}
	else if (conn->sock) {
		AsyncSocketDisconnect(conn->sock, true);
	}
	else {
		conn->DecRef("Lifetime");
	}
}

//============================================================================
static void SendRegisterRequest (CliCsConn * conn) {
    
	const unsigned_ptr msg[] = {
		kCli2Csr_RegisterRequest,
		0
	};

	conn->Send(msg, arrsize(msg));
}

//============================================================================
static bool ConnEncrypt (ENetError error, void * param) {

    CliCsConn * conn = (CliCsConn *) param;

    if (IS_NET_SUCCESS(error)) {
        s_critsect.Enter();
        {
            s_active = conn;
            conn->AutoPing();
            conn->IncRef();
        }
        s_critsect.Leave();
        
        SendRegisterRequest(conn);
        
		conn->DecRef();
    }

    return IS_NET_SUCCESS(error);
}

//============================================================================
static void NotifyConnSocketConnect (CliCsConn * conn) {

	conn->cli = NetCliConnectAccept(
		conn->sock,
		kNetProtocolCli2Csr,
		false,
		ConnEncrypt,
		0,
		nil,
		conn
	);
}

//============================================================================
static void NotifyConnSocketConnectFailed (CliCsConn * conn) {

	bool notify;
	s_critsect.Enter();
	{
		conn->cancelId = 0;
		s_conns.Unlink(conn);
	    
		notify
			=  s_running
			&& !conn->abandoned
			&& (!s_active || conn == s_active);
			
		if (conn == s_active)
			s_active = nil;
	}
	s_critsect.Leave();

	NetTransCancelByConnId(conn->seq, kNetErrTimeout);
	conn->DecRef("Connecting");
	conn->DecRef("Lifetime");

	if (notify)
		ReportNetError(kNetProtocolCli2Csr, kNetErrConnectFailed);
}

//============================================================================
static void NotifyConnSocketDisconnect (CliCsConn * conn) {

	conn->StopAutoPing();

	bool notify;
	s_critsect.Enter();
	{
		s_conns.Unlink(conn);

		notify
			=  s_running
			&& !conn->abandoned
			&& (!s_active || conn == s_active);

		if (conn == s_active)
			s_active = nil;
	}
	s_critsect.Leave();

	// Cancel all transactions in process on this connection.
	NetTransCancelByConnId(conn->seq, kNetErrTimeout);
	conn->DecRef("Connected");
	conn->DecRef("Lifetime");

	if (notify)
		ReportNetError(kNetProtocolCli2Csr, kNetErrDisconnected);
}

//============================================================================
static bool NotifyConnSocketRead (CliCsConn * conn, AsyncNotifySocketRead * read) {

	conn->lastHeardTimeMs = GetNonZeroTimeMs();
	bool result = NetCliDispatch(conn->cli, read->buffer, read->bytes, conn);
	read->bytesProcessed += read->bytes;
	return result;
}

//============================================================================
static bool SocketNotifyCallback (
	AsyncSocket			sock,
	EAsyncNotifySocket	code,
	AsyncNotifySocket *	notify,
	void **				userState
) {
	bool result = true;
	CliCsConn * conn;

	switch (code) {
		case kNotifySocketConnectSuccess: {
			conn = (CliCsConn *) notify->param;
			*userState = conn;
			conn->TransferRef("Connecting", "Connected");
			bool abandoned = true;
			
			if (abandoned)
				AsyncSocketDisconnect(sock, true);
			else
				NotifyConnSocketConnect(conn);
		}
		break;

		case kNotifySocketConnectFailed:
			conn = (CliCsConn *) notify->param;
			NotifyConnSocketConnectFailed(conn);
		break;

		case kNotifySocketDisconnect:
			conn = (CliCsConn *) *userState;
			NotifyConnSocketDisconnect(conn);
		break;

		case kNotifySocketRead:
			conn = (CliCsConn *) *userState;
			result = NotifyConnSocketRead(conn, (AsyncNotifySocketRead *) notify);
		break;
	}

	return result;
}

//============================================================================
static void Connect (
	const NetAddress &	addr,
	ConnectParam *		cp
) {
	CliCsConn * conn = NEWZERO(CliCsConn);
	conn->addr				= addr;
	conn->seq				= ConnNextSequence();
	conn->lastHeardTimeMs	= GetNonZeroTimeMs();
	conn->connectParam		= cp;

	conn->IncRef("Lifetime");
	conn->IncRef("Connecting");

	s_critsect.Enter();
	{
		while (CliCsConn * conn = s_conns.Head())
			UnlinkAndAbandonConn_CS(conn);
		s_conns.Link(conn);
	}
	s_critsect.Leave();

	Cli2Csr_Connect connect;
	connect.hdr.connType    = kConnTypeCliToCsr;
	connect.hdr.hdrBytes    = sizeof(connect.hdr);
	connect.hdr.buildId     = BuildId();
	connect.hdr.buildType   = BuildType();
	connect.hdr.branchId	= BranchId();
	connect.hdr.productId   = ProductId();
	connect.data.dataBytes  = sizeof(connect.data);

	AsyncSocketConnect(
		&conn->cancelId,
		addr,
		SocketNotifyCallback,
		conn,
		&connect,
		sizeof(connect),
		0,
		0
	);
}

//============================================================================
static void AsyncLookupCallback (
	void *				param,
	const wchar			name[],
	unsigned			addrCount,
	const NetAddress	addrs[]
) {
	ref(name);

	if (!addrCount) {
		ReportNetError(kNetProtocolCli2Auth, kNetErrNameLookupFailed);
		return;
	}

	// Only connect to one server	
	addrCount = MIN(addrCount, 1);

	for (unsigned i = 0; i < addrCount; ++i) {
		Connect(addrs[i], (ConnectParam *)param);
	}
}


/*****************************************************************************
*
*   Message handlers
*
***/

//============================================================================
static bool Recv_PingReply (
	const byte	msg[],
	unsigned	bytes,
	void *
) {
	const Csr2Cli_PingReply & reply = *(const Csr2Cli_PingReply *)msg;

	NetTransRecv(reply.transId, msg, bytes);

	return true;
}

//============================================================================
static bool Recv_RegisterReply (
	const byte	msg[],
	unsigned	,
	void *		param
) {
	CliCsConn * conn = (CliCsConn *)param;

	const Csr2Cli_RegisterReply & reply = *(const Csr2Cli_RegisterReply *)msg;

	conn->serverChallenge	= reply.serverChallenge;
	conn->latestBuildId		= reply.csrBuildId;

	ConnectedNotifyTrans * trans = NEW(ConnectedNotifyTrans)(
		conn->connectParam,
		conn->latestBuildId
	);
	NetTransSend(trans);
	
	conn->connectParam = nil;

	return true;
}

//============================================================================
static bool Recv_LoginReply (
	const byte	msg[],
	unsigned	bytes,
	void *
) {
	const Csr2Cli_LoginReply & reply = *(const Csr2Cli_LoginReply *)msg;

	NetTransRecv(reply.transId, msg, bytes);

	return true;
}


/*****************************************************************************
*
*   Protocol
*
***/

#define MSG(s)  kNetMsg_Cli2Csr_##s
static NetMsgInitSend s_send[] = {
	{ MSG(PingRequest)			},
	{ MSG(RegisterRequest)		},
	{ MSG(LoginRequest)			},
};
#undef MSG

#define MSG(s)  kNetMsg_Csr2Cli_##s, Recv_##s
static NetMsgInitRecv s_recv[] = {
	{ MSG(PingReply)			},
	{ MSG(RegisterReply)		},
	{ MSG(LoginReply)			},
};
#undef MSG


/*****************************************************************************
*
*   CliCsConn
*
***/

//===========================================================================
static unsigned CliCsConnTimerDestroyed (void * param) {
	
	CliCsConn * conn = (CliCsConn *) param;
	conn->DecRef("PingTimer");
	return kAsyncTimeInfinite;
}

//===========================================================================
static unsigned CliCsConnPingTimerProc (void * param) {
	
	((CliCsConn *) param)->TimerPing();
	return kPingIntervalMs;
}

//============================================================================
CliCsConn::CliCsConn () {
    
    AtomicAdd(&s_perf[kPerfConnCount], 1);
}

//============================================================================
CliCsConn::~CliCsConn () {

	// Delete 'cli' after all refs have been removed	
	if (cli)
		NetCliDelete(cli, true);
		
	DEL(connectParam);

    AtomicAdd(&s_perf[kPerfConnCount], -1);
}

//============================================================================
void CliCsConn::AutoPing () {
	ASSERT(!pingTimer);
	
	IncRef("PingTimer");
	critsect.Enter();
	{
		AsyncTimerCreate(
			&pingTimer,
			CliCsConnPingTimerProc,
			sock ? 0 : kAsyncTimeInfinite,
			this
		);
	}
	critsect.Leave();
}

//============================================================================
void CliCsConn::StopAutoPing () {
	critsect.Enter();
	{
		if (AsyncTimer * timer = pingTimer) {
			pingTimer = nil;
			AsyncTimerDeleteCallback(timer, CliCsConnTimerDestroyed);
		}
	}
	critsect.Leave();
}

//============================================================================
void CliCsConn::TimerPing () {

	// Send a ping request
	pingSendTimeMs = GetNonZeroTimeMs();
	
	const unsigned_ptr msg[] = {
		kCli2Auth_PingRequest,
					0,		// not a transaction
					pingSendTimeMs,
					0,		// no payload
					nil
	};
	
	Send(msg, arrsize(msg));
}

//============================================================================
void CliCsConn::Send (const unsigned_ptr fields[], unsigned count) {

	critsect.Enter();
	{
		NetCliSend(cli, fields, count);
		NetCliFlush(cli);
	}
	critsect.Leave();
}


/*****************************************************************************
*
*   ConnectedNotifyTrans
*
***/

//============================================================================
void ConnectedNotifyTrans::Post () {

	if (m_connectParam && m_connectParam->callback)
		m_connectParam->callback(m_connectParam->param, m_latestBuildId);
}


/*****************************************************************************
*
*   LoginRequestTrans
*
***/

//============================================================================
LoginRequestTrans::LoginRequestTrans (
	const wchar				csrName[],
	const ShaDigest &		namePassHash,
	FNetCliCsrLoginCallback	callback,
	void *					param
) :	NetCsrTrans(kCsrLoginTrans)
,	m_namePassHash(namePassHash)
,	m_callback(callback)
,	m_param(param)
{
	ASSERT(callback);
	StrCopy(m_csrName, csrName, arrsize(m_csrName));
}

//============================================================================
bool LoginRequestTrans::Send () {

	if (!AcquireConn())
		return false;
		
	ShaDigest challengeHash;
	dword clientChallenge = 0;
	
	CryptCreateRandomSeed(
		sizeof(clientChallenge),
		(byte *) &clientChallenge
	);

	CryptHashPasswordChallenge(
		clientChallenge,
		s_active->serverChallenge,
		m_namePassHash,
		&challengeHash
	);

	const unsigned_ptr msg[] = {
		kCli2Csr_LoginRequest,
						m_transId,
						clientChallenge,
		(unsigned_ptr)	m_csrName,
		(unsigned_ptr)	&challengeHash
	};

	m_conn->Send(msg, arrsize(msg));

	return true;
}

//============================================================================
void LoginRequestTrans::Post () {
	m_callback(
		m_result,
		m_param,
		m_csrId,
		m_csrFlags
	);
}

//============================================================================
bool LoginRequestTrans::Recv (
    const byte  msg[],
    unsigned    bytes
) {
	ref(bytes);
	
	const Csr2Cli_LoginReply & reply = *(const Csr2Cli_LoginReply *) msg;
	
	m_result	= reply.result;
	m_csrId		= reply.csrId;
	m_csrFlags	= reply.csrFlags;
	
	m_state		= kTransStateComplete;
	
	return true;
}


} using namespace Csr;


/*****************************************************************************
*
*   NetCsrTrans
*
***/

//============================================================================
NetCsrTrans::NetCsrTrans (ETransType transType)
:	NetTrans(kNetProtocolCli2Csr, transType)
,	m_conn(nil)
{
}

//============================================================================
NetCsrTrans::~NetCsrTrans () {
	ReleaseConn();
}

//============================================================================
bool NetCsrTrans::AcquireConn () {
	if (!m_conn)
		m_conn = GetConnIncRef("AcquireConn");
	return m_conn != nil;
}

//============================================================================
void NetCsrTrans::ReleaseConn () {
	if (m_conn) {
		m_conn->DecRef("AcquireConn");
		m_conn = nil;
	}
}


/*****************************************************************************
*
*   Module functions
*
***/

//============================================================================
void CsrInitialize () {

	s_running = true;

    NetMsgProtocolRegister(
        kNetProtocolCli2Csr,
        false,
        s_send, arrsize(s_send),
        s_recv, arrsize(s_recv),
        kDhGValue,
        BigNum(sizeof(kDhXData), kDhXData),
        BigNum(sizeof(kDhNData), kDhNData)
    );
}

//============================================================================
void CsrDestroy (bool wait) {

	s_running = false;
	
	NetTransCancelByProtocol(
		kNetProtocolCli2Csr,
		kNetErrRemoteShutdown
	);    
    NetMsgProtocolDestroy(
        kNetProtocolCli2Csr,
        false
    );

    s_critsect.Enter();
    {
		while (CliCsConn * conn = s_conns.Head())
			UnlinkAndAbandonConn_CS(conn);
		s_active = nil;
	}
    s_critsect.Leave();

	if (!wait)
		return;
		
	while (s_perf[kPerfConnCount]) {
		NetTransUpdate();
        AsyncSleep(10);
	}
}

//============================================================================
bool CsrQueryConnected () {

	bool result;
	s_critsect.Enter();
	{
		if (nil != (result = s_active))
			result &= (nil != s_active->cli);
	}
	s_critsect.Leave();
	return result;
}

//============================================================================
unsigned CsrGetConnId () {

	unsigned connId;
	s_critsect.Enter();
	{
		connId = (s_active) ? s_active->seq : 0;
	}
	s_critsect.Leave();
	return connId;
}

} using namespace Ngl;


/*****************************************************************************
*
*   Exports
*
***/

//============================================================================
void NetCliCsrStartConnect (
	const wchar *				addrList[],
	unsigned					addrCount,
	FNetCliCsrConnectedCallback	callback,
	void *						param
) {
	// Only connect to one server
	addrCount = min(addrCount, 1);

	for (unsigned i = 0; i < addrCount; ++i) {
		// Do we need to lookup the address?
		const wchar * name = addrList[i];
		while (unsigned ch = *name) {
			++name;
			if (!(isdigit(ch) || ch == L'.' || ch == L':')) {
				ConnectParam * cp = NEW(ConnectParam);
				cp->callback	= callback;
				cp->param		= param;

				AsyncCancelId cancelId;
				AsyncAddressLookupName(
					&cancelId,
					AsyncLookupCallback,
					addrList[i],
					kNetDefaultClientPort,
					cp
				);
				break;
			}
		}
		if (!name[0]) {
			NetAddress addr;
			NetAddressFromString(&addr, addrList[i], kNetDefaultClientPort);
			
			ConnectParam * cp = NEW(ConnectParam);
			cp->callback	= callback;
			cp->param		= param;

			Connect(addr, cp);
		}
	}
}

//============================================================================
void NetCliCsrDisconnect () {
    
	s_critsect.Enter();
	{
		while (CliCsConn * conn = s_conns.Head())
			UnlinkAndAbandonConn_CS(conn);
		s_active = nil;
	}
	s_critsect.Leave();
}

//============================================================================
void NetCliCsrLoginRequest (
	const wchar				csrName[],
	const ShaDigest &		namePassHash,
	FNetCliCsrLoginCallback	callback,
	void *					param
) {
	LoginRequestTrans * trans = NEW(LoginRequestTrans)(
		csrName,
		namePassHash,
		callback,
		param
	);
	NetTransSend(trans);
}