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NetServer.cpp
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NetServer.cpp
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////////////////////////////////////////////////////////////////////////////////
//
// Copyright 2016 RWS Inc, All Rights Reserved
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of version 2 of the GNU General Public License as published by
// the Free Software Foundation
//
// 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, write to the Free Software Foundation, Inc.,
// 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
//
// NetServer.cpp
// Project: RSPiX
//
// History:
// 09/01/97 MJR Nearing the end of a major overhaul.
//
// 09/06/97 MJR No longer responds to browse attempts once game starts.
//
// 09/07/97 MJR Added support for PROCEED and PROGRESS_REALM messages.
//
// 11/20/97 JMI Added support for new sCoopLevels & sCoopMode flag in
// StartGame and SetupGame messages.
//
// 11/25/97 JMI Added determination between version conflicts and platform
// conflicts. Also, added error propagation.
//
// 11/26/97 JMI Masking error in evaluation of version mismatch problem
// such that platform mismatch was never detected.
//
////////////////////////////////////////////////////////////////////////////////
#include "RSPiX.h"
#include "netserver.h"
////////////////////////////////////////////////////////////////////////////////
// Startup
////////////////////////////////////////////////////////////////////////////////
short CNetServer::Startup( // Returns 0 if successfull, non-zero otherwise
unsigned short usPort, // In: Server base port number
char* pszHostName, // In: Host name (max size is MaxHostName!!!)
RSocket::BLOCK_CALLBACK callback) // In: Blocking callback
{
short sResult = 0;
// Do a reset to be sure we're starting at a good point
Reset();
// Save base socket (all sockets are done as offsets from this one)
m_usBasePort = usPort;
// Save callback
m_callback = callback;
// Create a unique number that this host can use to identify itself when
// it browses for hosts. We simply use total elapsed microseconds, which
// is EXTREMELY LIKELY to be different for every host. We also look for
// the correct host name, but of course, many hosts can have the same name.
m_lHostMagic = rspGetMicroseconds();
// Save name (truncating if necessary)
strncpy(m_acHostName, pszHostName, Net::MaxHostNameSize);
m_acHostName[Net::MaxHostNameSize-1] = 0;
// Setup listen socket
sResult = m_socketListen.Open(
m_usBasePort + Net::ListenPortOffset,
RSocket::typStream,
RSocket::optDontWaitOnClose | RSocket::optDontCoalesce | RSocket::optDontBlock,
callback);
if (sResult == 0)
{
sResult = m_socketListen.Listen();
if (sResult == 0)
{
// Setup antenna socket, on which we receive broadcasts from potential
// clients browsing for a host.
sResult = m_socketAntenna.Open(
m_usBasePort + Net::AntennaPortOffset,
RSocket::typDatagram,
RSocket::optDontBlock,
callback);
if (sResult == 0)
{
// Must set broadcast mode even for sockets that are RECEIVING them. Doesn't
// seem to make sense, but empericial results say we need to do this.
sResult = m_socketAntenna.Broadcast();
if (sResult == 0)
{
}
else
TRACE("CNetServer::Setup(): Error putting antenna socket into broadcast mode!\n");
}
else
TRACE("CNetServer::Setup(): Error opening antenna socket!\n");
}
else
TRACE("CNetServer::Setup(): Error putting listen socket into listen mode!\n");
}
else
TRACE("CNetServer::Setup(): Error opening listen socket!\n");
return sResult;
}
////////////////////////////////////////////////////////////////////////////////
// Shutdown
////////////////////////////////////////////////////////////////////////////////
void CNetServer::Shutdown(void)
{
Reset();
}
////////////////////////////////////////////////////////////////////////////////
// Update server. This should be called regularly.
////////////////////////////////////////////////////////////////////////////////
void CNetServer::Update(void)
{
short sResult = 0;
//------------------------------------------------------------------------------
// Accept new clients
//------------------------------------------------------------------------------
// If there's no error on the listen socket, we can try to accept clients
if (!m_socketListen.IsError())
{
// Look for an unconnected, unused slot in the array. I'm torn between searching
// for an empty client each time versus checking if the socket can accept without
// blocking each time -- I'm not sure which one is quicker! Obviously, the quicker
// of the two should be checked first.
for (Net::ID id = 0; id < Net::MaxNumIDs; id++)
{
if ((m_aClients[id].m_msgr.GetState() == CNetMsgr::Disconnected) && (m_aClients[id].m_state == CClient::Unused))
{
// Check if a new client is trying to connect
if (m_socketListen.CanAcceptWithoutBlocking())
{
// Try to accept client's connection
short serr = m_aClients[id].m_msgr.Accept(&m_socketListen, m_callback);
if (serr == 0)
{
// Upgrade state
m_aClients[id].m_state = CClient::Used;
}
else
{
// If the return error indicates that it would have blocked, then something
// is not kosher since CanAcceptWithoutBlocking() just said it woulnd NOT block.
if (serr == RSocket::errWouldBlock)
TRACE("CNetServer()::Update(): It waid it wouldn't block, but then said it would!\n");
// Don't return an actual error code from this function because we can't
// get all bent-out-of-shape over not being able to connect to a client
// TRACE("CNetServer()::Update(): Tried to accept connection, but failed.\n");
}
}
// Break out of loop that was looking for unused clients
break;
}
}
}
//------------------------------------------------------------------------------
// Check for any reception on our antenna socket. Potential clients that are
// looking for a host will periodically broadcast a message, and as a server
// we are supposed to respond.
//------------------------------------------------------------------------------
// Don't respond once the game has started because we currently don't support
// drop-in play, so we don't want to confuse potential players
if (!m_bGameStarted)
{
// Try to read a message. This will almost always fail due to a lack of data,
// since it's relatively rare for a client to be browsing, and even then it only
// sends out a message every so often. If we get an incorrectly-sized message,
// we simply ignore it -- this is a datagram socket, so if the message was larger
// than we expected, the rest of it will be discarded, and if it was smaller, then
// we can ignore it as well. Bad messages could come from a foreign app that is
// using the same port as us. If we do get a message, the address of the sender
// will be recorded -- this gives us the host's address!
U8 buf1[4];
long lReceived;
RSocket::Address address;
short serr = m_socketAntenna.ReceiveFrom(buf1, sizeof(buf1), &lReceived, &address);
if (serr == 0)
{
// Validate the message to make sure it was sent by another app of this
// type, as opposed to some unknown app that happens to use the same port.
if ((lReceived == sizeof(buf1)) &&
(buf1[0] == Net::BroadcastMagic0) &&
(buf1[1] == Net::BroadcastMagic1) &&
(buf1[2] == Net::BroadcastMagic2) &&
(buf1[3] == Net::BroadcastMagic3))
{
// Send back a message including the host name and magic number
// The endian nature of the magic number will always be correct because
// the only entitity that is meant to recognize this value is the one
// that sent it, so as long as the encoding and decoding of the bytes
// is the same, that entity will get the same value that it sent. All
// other entities will see this as a meaningless value, which is fine.
U8 buf2[4 + 4 + sizeof(m_acHostName)];
buf2[0] = Net::BroadcastMagic0;
buf2[1] = Net::BroadcastMagic1;
buf2[2] = Net::BroadcastMagic2;
buf2[3] = Net::BroadcastMagic3;
buf2[4] = (U8)(m_lHostMagic & 0xff);
buf2[5] = (U8)((m_lHostMagic >> 8) & 0xff);
buf2[6] = (U8)((m_lHostMagic >> 16) & 0xff);
buf2[7] = (U8)((m_lHostMagic >> 24) & 0xff);
strncpy((char*)&buf2[8], m_acHostName, sizeof(m_acHostName));
// Send the message directly to the sender of the previous message
long lBytesSent;
short serr = m_socketAntenna.SendTo(buf2, sizeof(buf2), &lBytesSent, &address);
if (serr == 0)
{
if (lBytesSent != sizeof(buf2))
TRACE("CNetServer::Update(): Error sending broadcast (wrong size)!\n");
}
else
{
if (serr != RSocket::errWouldBlock)
TRACE("CNetServer::Update(): Error sending broadcast!\n");
}
}
else
TRACE("CNetServer::Update(): Validation failed -- another app may be sending crap to our port!\n");
}
else
{
if (serr != RSocket::errWouldBlock)
TRACE("CNetServer::Update(): Warning: Error receiving broadcast -- ignored!\n");
}
}
//------------------------------------------------------------------------------
// Update clients
//------------------------------------------------------------------------------
for (Net::ID id = 0; id < Net::MaxNumIDs; id++)
m_aClients[id].m_msgr.Update();
}
////////////////////////////////////////////////////////////////////////////////
// Get message
////////////////////////////////////////////////////////////////////////////////
void CNetServer::GetMsg(
NetMsg* pmsg) // Out: Message is returned here
{
// This indicates whether we got a message to be returned to the caller
bool bGotMsgForCaller = false;
// We need to service all of the currently connected clients, but we can
// only handle one message each time this function is called. Actually,
// we can only handle one message if it's a message that needs to be
// returned to the caller. If it wasn't, then we could theoretically
// handle many such messages, with the only limitation being how much time
// we're willing to spend here. For now, I'm going with handling just one
// message each time.
//
// In order to give each client a chance, we use m_idPrevGet to keep track
// of which client we got a message from the previous time. Starting with
// the next client after that, we search for the first client that is
// connected and has a message, and we process it. We save that client's
// id so that next time we will start with the client after it.
//
// If we go through the entire list once and don't find any clients with
// messages to get, then we have no client messages to process this time.
bool bGotOne = false;
Net::ID id = m_idPrevGet;
do {
if (++id >= Net::MaxNumIDs)
id = 0;
if (m_aClients[id].m_msgr.GetState() == CNetMsgr::Connected)
bGotOne = m_aClients[id].m_msgr.GetMsg(pmsg);
} while (!bGotOne && (id != m_idPrevGet));
m_idPrevGet = id;
// If we got a message, handle it
if (bGotOne)
{
// The message's ucSenderID is not transmitted as part of the message in
// order to save bandwidth (every byte counts :) since we know the sender
// (we're connected to the sender) and its ID is implied by it's index.
pmsg->ucSenderID = id;
// Used for sending messages
NetMsg msg;
// The login message is the only mechanism we're using to detect foreign
// apps that might accidentally connect to us. None of our other messages
// has any protection, so random data that happens to resemble a message
// could really screw us up. Therefore, it is very important that if the
// first thing we recieve from a client is NOT a LOGIN message, we
// immediately disconnect it. And if we do get what looks like a LOGIN
// message, we must make sure the magic numbers are right.
if (!m_aClients[id].m_bLoggedIn)
{
if (pmsg->msg.nothing.ucType == NetMsg::LOGIN)
{
if (pmsg->msg.login.ulMagic == CNetMsgr::MagicNum)
{
////////////////////////////////////////////////////////////////
// Version negotiation and useful error results ////////////////
////////////////////////////////////////////////////////////////
//
// In net implementation for Postal net version 1, both the
// server and the client would check the version numbers -- the
// server would check msg.login.ulVersion against its
// MinVersionNum & CurVersionNum and, if the server accepted the
// login, the client would check msg.loginAccept.ulVersion
// against its MinVersionNum & CurVersionNum. Although the
// version 1 client would display an error message when it
// decided it could not support the server's version, the server
// would refuse a login before that, never giving the client a
// chance to notice and report this to the user.
// To remedy this, the Postal Net version 2's server NEVER
// rejects a client and, instaed, relies on the client to reject
// it. This gives the client a chance to report the error.
// Since under our new scheme we never send a LOGIN_DENY, we
// know, if we receive a LOGIN_DENY, that we are dealing with a
// version 1 server.
//
// Additionally, bit fifteen of the version number is set if on
// a Mac platform so we can use the same mechanism to determine
// if we are attempting to connect a Mac and a PC.
//
// Here's the actual scenarios and results for version conflicts:
//
// Server 1 vs Client 2 -- Server sends Client a LOGIN_DENY so
// the client knows it's dealing with a version 1 server and
// reports the problem.
//
// Server 2 vs Client 1 -- Server accepts connection. Client
// drops, though, when it sees the server's version is 2 and
// reports the problem.
//
// For future versions:
//
// Server 3 vs Client 1 -- Server accepts connection. Client
// drops, though, when it sees the server's version is 3 and
// reports the problem.
//
// Server 3 vs Client 2 -- Server accepts connection. Client
// drops, though, when it sees the server's version is 3 and
// reports the problem.
//
////////////////////////////////////////////////////////////////
// Check version number to see if we can support it (this also is a platform check).
if ( (pmsg->msg.login.ulVersion >= CNetMsgr::MinVersionNum) && (pmsg->msg.login.ulVersion <= CNetMsgr::CurVersionNum))
{
// Compatible.
}
else
{
// Must set the type.
pmsg->msg.err.ucType = NetMsg::ERR;
pmsg->ucSenderID = Net::InvalidID;
// Determine error type (possibilities are incompatible
// versions and/or incompatible platforms).
if ( (pmsg->msg.login.ulVersion & CNetMsgr::MacVersionBit) ^ (CNetMsgr::MinVersionNum & CNetMsgr::MacVersionBit) )
{
// One of us is a Mac and one is a PC.
pmsg->msg.err.error = NetMsg::ServerPlatformMismatchError;
}
else
{
// Store version number from original message before we clobber it
// by creating an error message in the same area (not sure if this
// is really an issue but just in case).
ULONG ulVersion = pmsg->msg.login.ulVersion;
// Incompatible version number.
pmsg->msg.err.error = NetMsg::ServerVersionMismatchError;
pmsg->msg.err.ulParam = ulVersion & ~CNetMsgr::MacVersionBit;
}
// Return this error msg to caller
bGotMsgForCaller = true;
// We rely on the client to reject us but we report the error with this
// opportunity.
}
// Note that we always allow the login, even if the version number and/or
// platform are wrong -- see comment above.
// Allow login, responding with our version number and the client's assigned ID
msg.msg.loginAccept.ucType = NetMsg::LOGIN_ACCEPT;
msg.msg.loginAccept.idAssigned = id;
msg.msg.loginAccept.ulMagic = CNetMsgr::MagicNum;
msg.msg.loginAccept.ulVersion = CNetMsgr::CurVersionNum;
SendMsg(id, &msg);
// Mark client as "logged in"
m_aClients[id].m_bLoggedIn = true;
}
else
{
// Drop client
DropClient(id);
}
}
else
{
// Drop client
DropClient(id);
}
}
else
{
// Process message
switch(pmsg->msg.nothing.ucType)
{
case NetMsg::NOTHING:
break;
case NetMsg::STAT:
break;
case NetMsg::ERR:
// If a local client has been registered, and if this error came from that client,
// then we abort the game, because we can't continue without the local client
// (it seems unlikely that the user would want to sit around watching a blank screen).
// If no local client was registered, it will be invalid, and this compare will fail.
// If it isn't a local client, then we just drop the client that reported the error.
if (id == m_idLocalClient)
AbortGame(NetMsg::ErrorAbortedGame);
else
DropClient(id);
// Return this msg to caller
bGotMsgForCaller = true;
break;
case NetMsg::LOGOUT:
// The client will send a LOGOUT if, after having it's LOGIN request accepted, it
// determines that the server's version number is not acceptable. It may also
// send this if it needs to abort at any time after it has sent a JOIN_REQ but
// before it has received a response. In all cases, we simply call DropClient(),
// which knows how to handle any situation.
DropClient(id);
break;
case NetMsg::JOIN_REQ:
if (!m_bGameStarted)
{
// Upgrade client's state
m_aClients[id].m_state = CClient::Joined;
// Add client info to database. Note that client's "peer address" is the same
// as the one we're connected to, but with a different port number.
m_aClients[id].m_address = m_aClients[id].m_msgr.GetAddress();
RSocket::SetAddressPort(m_usBasePort + Net::FirstPeerPortOffset + id, &m_aClients[id].m_address);
memcpy(m_aClients[id].m_acName, pmsg->msg.joinReq.acName, sizeof(m_aClients[id].m_acName));
m_aClients[id].m_ucColor = pmsg->msg.joinReq.ucColor;
m_aClients[id].m_ucTeam = pmsg->msg.joinReq.ucTeam;
m_aClients[id].m_sBandwidth = pmsg->msg.joinReq.sBandwidth;
// Tell client he was accepted
msg.msg.joinAccept.ucType = NetMsg::JOIN_ACCEPT;
SendMsg(id, &msg);
// Send all clients (including new one) info about the new client
msg.msg.joined.ucType = NetMsg::JOINED;
msg.msg.joined.id = id;
msg.msg.joined.address = m_aClients[id].m_address;
memcpy(msg.msg.joined.acName, m_aClients[id].m_acName, sizeof(msg.msg.joined.acName));
msg.msg.joined.ucColor = m_aClients[id].m_ucColor;
msg.msg.joined.ucTeam = m_aClients[id].m_ucTeam;
msg.msg.joined.sBandwidth = m_aClients[id].m_sBandwidth;
SendMsg(&msg);
// Send new client info about other joined clients
for (Net::ID id2 = 0; id2 < Net::MaxNumIDs; id2++)
{
if ((id2 != id) && (m_aClients[id2].m_state == CClient::Joined))
{
msg.msg.joined.ucType = NetMsg::JOINED;
msg.msg.joined.id = id2;
msg.msg.joined.address = m_aClients[id2].m_address;
memcpy(msg.msg.joined.acName, m_aClients[id2].m_acName, sizeof(msg.msg.joined.acName));
msg.msg.joined.ucColor = m_aClients[id2].m_ucColor;
msg.msg.joined.ucTeam = m_aClients[id2].m_ucTeam;
msg.msg.joined.sBandwidth = m_aClients[id2].m_sBandwidth;
SendMsg(id, &msg);
}
}
// Send new client info about current game setup (if we know it yet!)
if (m_bSetupGameValid)
SendMsg(id, &m_msgSetupGame);
// Return this msg to caller
bGotMsgForCaller = true;
}
else
{
// Deny join request because we don't allow joins after game has started
msg.msg.joinDeny.ucType = NetMsg::JOIN_DENY;
msg.msg.joinDeny.ucReason = NetMsg::GameAlreadyStarted;
SendMsg(id, &msg);
// Drop client
DropClient(id);
}
break;
case NetMsg::CHANGE_REQ:
// Change client's info in database
memcpy(m_aClients[id].m_acName, pmsg->msg.changed.acName, sizeof(m_aClients[id].m_acName));
m_aClients[id].m_ucColor = pmsg->msg.changed.ucColor;
m_aClients[id].m_ucTeam = pmsg->msg.changed.ucTeam;
// Send CHANGED message to all clients, including the one that requested the change
msg.msg.changed.ucType = NetMsg::CHANGED;
msg.msg.changed.id = id;
memcpy(msg.msg.changed.acName, m_aClients[id].m_acName, sizeof(msg.msg.changed.acName));
msg.msg.changed.ucColor = m_aClients[id].m_ucColor;
msg.msg.changed.ucTeam = m_aClients[id].m_ucTeam;
SendMsg(&msg);
// Return this msg to caller
bGotMsgForCaller = true;
break;
case NetMsg::DROP_REQ:
// Drop the client -- DropClient() knows how to handle every situation
DropClient(id);
break;
case NetMsg::DROP_ACK:
// If we're doing a drop, handle this, otherwise ignore it
if (!m_qDropIDs.IsEmpty())
{
// Make sure we only get one per client
ASSERT(!m_aClients[id].m_bSentDropAck);
// Set flag indicating that this client sent the message
m_aClients[id].m_bSentDropAck = true;
// Save info from message
m_aClients[id].m_seqHighestDropeeInput = pmsg->msg.dropAck.seqLastDropeeInput;
m_aClients[id].m_seqLastDoneFrame = pmsg->msg.dropAck.seqLastDoneFrame;
// Check if all joined clients sent a DROP_ACK
Net::ID id2;
for (id2 = 0; id2 < Net::MaxNumIDs; id2++)
{
if ((m_aClients[id2].m_state == CClient::Joined) && (!m_aClients[id2].m_bSentDropAck))
break;
}
if (id2 == Net::MaxNumIDs)
{
// Do the messy work required to figure out if any clients needs inputs from
// other clients. The end result of this function is that if it needed input
// data from a client, it asked for it and returns true. If not, it returns
// false, which means we can immediately go on to the final step.
if (GotAllDropAcks() == false)
{
// Finish the process of dropping client. If there's more clients in the drop
// queue, this could also start the dropping of the next victim
FinishDroppingClientDuringGame();
}
}
}
break;
case NetMsg::INPUT_DATA:
ASSERT(m_bWaitingForInputData);
if (m_bWaitingForInputData)
{
// Make sure it's for the correct ID
ASSERT(m_qDropIDs.PeekAtFront() == pmsg->msg.inputData.id);
// No longer waiting for input data
m_bWaitingForInputData = false;
// Go through all the clients and feed inputs to those that need it. Note that
// we simply forward the message we received. It may contain more data than
// each client needs, but what the hell. This could be tuned some day to
// be a bit more efficient by only sending as much as each client needs.
for (Net::ID id = 0; id < Net::MaxNumIDs; id++)
{
if (m_aClients[id].m_state == CClient::Joined)
{
// If this client's highest dropee input is <= the highest frame, then he needs inputs
if (SEQ_LT(m_aClients[id].m_seqHighestDropeeInput, m_seqHighestDoneFrame))
SendMsg(id, pmsg);
}
}
// Finish the process of dropping client. If there's more clients in the drop
// queue, this could also start the dropping of the next victim
FinishDroppingClientDuringGame();
}
break;
case NetMsg::CHAT_REQ:
// Send chat text to the clients specified by the mask
msg.msg.chat.ucType = NetMsg::CHAT;
strncpy(msg.msg.chat.acText, pmsg->msg.chatReq.acText, sizeof(msg.msg.chat.acText) );
SendMsg(pmsg->msg.chatReq.u16Mask, &msg);
// Return this msg to caller
bGotMsgForCaller = true;
break;
case NetMsg::ABORT_GAME:
break;
case NetMsg::READY_REALM:
// If not waiting for realm status messages, then ignore this
if (m_bWaitingForRealmStatus)
{
// Make sure we only get one per client
ASSERT(!m_aClients[id].m_bSentReadyRealm);
// Set flag indicating that this client sent the message
m_aClients[id].m_bSentReadyRealm = true;
// Check if all joined clients sent a READY_REALM. Along the way, we need to
// count the number of clients that have sent the message so far and we need
// to create a mask that includes only those clients that sent the message.
// These values are used to generate the PROGRESS_REALM message afterwards.
Net::ID id2;
short sNumExpected = 0;
short sNumReady = 0;
U16 mask = 0;
for (id2 = 0; id2 < Net::MaxNumIDs; id2++)
{
mask = (mask >> 1) & 0x7fff;
if (m_aClients[id2].m_state == CClient::Joined)
{
sNumExpected++;
if (m_aClients[id2].m_bSentReadyRealm)
{
sNumReady++;
mask |= 0x8000;
}
}
}
// This had to be disabled. The idea was great, with one major flaw -- what if the server is
// the slow machine, so while it's off loading a level or something, all the clients have already
// sent their READY_REALM messages and haven't gotten heard anything back from the server!?!?!
// Fixing this would require that the server be called at all times, and that's very hard since
// much of what the server does occurs on the GetMsg() call, which is difficult for the app to
// deal with at every level of the code. It would be slightly easier for the app if all this work
// were done silently by the Update() function, which is possible, but certainly not a trival
// change at this level. By the way, another problem is that once the server DOES start getting
// called again, it will have to deal with ALL of these messages at once! Very sucky.
#if 0
// Send PROGRESS_REALM message to all joined clients that have already responded
// with their own READY_REALM messages. We tell each of them how many other
// clients we're still waiting on. The idea behind using the mask is that it
// cuts down on the number of messages we sent. We don't really want to send
// them to clients that haven't responded yet since they are obviously busy doing
// something else, and besides, with 16 clients, we would send 16 * 16 = 256
// messages, which is a lot, but by cutting it down using the mask, we end up
// with only 16+15+14+...+3+2+1 = 136, which is much better.
msg.msg.progressRealm.ucType = NetMsg::PROGRESS_REALM;
msg.msg.progressRealm.sNumReady = sNumReady;
msg.msg.progressRealm.sNumNotReady = sNumExpected - sNumReady;
SendMsg(mask, &msg);
#endif
// If we got through the whole list, then we got all the READY_REALM messages we need
if (sNumReady == sNumExpected)
{
// Send START_REALM message to all joined clients
msg.msg.startRealm.ucType = NetMsg::START_REALM;
SendMsg(&msg);
// Reset all related flags
m_bWaitingForRealmStatus = false;
for (Net::ID id2 = 0; id2 < Net::MaxNumIDs; id2++)
m_aClients[id2].m_bSentReadyRealm = false;
}
}
break;
case NetMsg::BAD_REALM:
// If not waiting for realm status messages, then ignore this
if (m_bWaitingForRealmStatus)
{
// Reset all related flags
m_bWaitingForRealmStatus = false;
for (Net::ID id2 = 0; id2 < Net::MaxNumIDs; id2++)
m_aClients[id2].m_bSentReadyRealm = false;
// Abort game due to error
AbortGame(NetMsg::ErrorAbortedGame);
}
break;
// case FINISH_REALM:
// break;
case NetMsg::PING:
// Simply echo the ping right back, and record the latest result
SendMsg(id, pmsg);
// m_lLatestPingTime = pmsg->msg.ping.lLatestPingTime;
break;
default:
break;
}
}
}
// If we don't already have a message for the caller, check for listen error
// (this has lower priority than a client message because accepting new clients
// isn't as important as servicing existing ones)
if (!bGotMsgForCaller)
{
if (m_socketListen.IsError())
{
// Generate a listen error message
pmsg->msg.err.ucType = NetMsg::ERR;
pmsg->msg.err.error = NetMsg::ListenError;
pmsg->ucSenderID = Net::InvalidID;
bGotMsgForCaller = true;
}
}
// If we don't already have a message for the caller, generate a "nothing"
// (this has the lowest priority of all)
if (!bGotMsgForCaller)
{
pmsg->msg.nothing.ucType = NetMsg::NOTHING;
pmsg->ucSenderID = Net::InvalidID;
}
}
////////////////////////////////////////////////////////////////////////////////
// Send message to specified client
////////////////////////////////////////////////////////////////////////////////
void CNetServer::SendMsg(
Net::ID id, // In: ID to send message to
NetMsg* pmsg) // In: Message to send
{
ASSERT(id != Net::InvalidID);
ASSERT(id < Net::MaxNumIDs);
m_aClients[id].m_msgr.SendMsg(pmsg);
}
////////////////////////////////////////////////////////////////////////////////
// Send message to specified group of clients - only Joined clients are allowed!
////////////////////////////////////////////////////////////////////////////////
void CNetServer::SendMsg(
U16 mask, // In: Bit-mask indicating who to send to
NetMsg* pmsg) // In: Message to send
{
// Bit-mask determines who to send the message to
for (Net::ID id = 0; id < Net::MaxNumIDs; id++)
{
if ((mask & 1) && (m_aClients[id].m_state == CClient::Joined))
SendMsg(id, pmsg);
mask = mask >> 1;
}
}
////////////////////////////////////////////////////////////////////////////////
// Send message to all joined clients
////////////////////////////////////////////////////////////////////////////////
void CNetServer::SendMsg(
NetMsg* pmsg) // In: Message to send
{
for (Net::ID id = 0; id < Net::MaxNumIDs; id++)
{
if (m_aClients[id].m_state == CClient::Joined)
SendMsg(id, pmsg);
}
}
////////////////////////////////////////////////////////////////////////////////
// Determine if there is more data waiting to be sent. If there is data to
// to be sent AND there is a send error, then that data can't be sent, so we
// return false to indicate "no more data".
////////////////////////////////////////////////////////////////////////////////
bool CNetServer::IsMoreToSend(void) // Returns true if more to send, false otherwise
{
bool bResult = false;
for (Net::ID id = 0; id < Net::MaxNumIDs; id++)
{
if (m_aClients[id].m_msgr.IsMoreToSend())
{
bResult = true;
break;
}
}
return bResult;
}
////////////////////////////////////////////////////////////////////////////////
// Drop specified client
////////////////////////////////////////////////////////////////////////////////
void CNetServer::DropClient(
Net::ID id) // In: Client to drop
{
ASSERT(id != Net::InvalidID);
ASSERT(id < Net::MaxNumIDs);
switch(m_aClients[id].m_state)
{
case CClient::Unused:
// This doesn't really make sense because once we're connected we should
// also be in a state other than "unused".
ASSERT(0);
m_aClients[id].m_msgr.Disconnect(false);
break;
case CClient::Used:
m_aClients[id].m_state = CClient::Unused;
m_aClients[id].m_msgr.Disconnect(true);
break;
case CClient::Joined:
// Whether or not the game has started makes a huge difference in how this is handled
if (m_bGameStarted)
{
// If the queue is empty, we can start the drop process. Otherwise, we need
// to add the new drop client to the drop queue.
if (m_qDropIDs.IsEmpty())
{
// Add to queue (we use this as an indicator that we're dropping someone)
m_qDropIDs.PutAtBack(id);
// Start the process of dropping a client during a game
StartDroppingClientDuringGame(id);
}
else
{
// Add client's ID to drop queue
m_qDropIDs.PutAtBack(id);
}
}
else
{
// Tell all clients to drop this client (including the one being dropped)
NetMsg msg;
msg.msg.dropped.ucType = NetMsg::DROPPED;
msg.msg.dropped.id = id;
msg.msg.dropped.sContext = -1;
SendMsg(&msg);
// Change dropped client's state to "unused" (only AFTER message was sent)
m_aClients[id].m_state = CClient::Unused;
}
m_aClients[id].m_msgr.Disconnect(true);
break;
case CClient::Dropped:
// Nothing to do (game must have already started for it to be in this state)
break;
}
// Clear client's "logged in" flag
m_aClients[id].m_bLoggedIn = false;
}
////////////////////////////////////////////////////////////////////////////////
// Send the specified game settings to all joined clients
////////////////////////////////////////////////////////////////////////////////
void CNetServer::SetupGame(
short sRealmNum, // In: Realm number
const char* pszRealmFile, // In: Realm file name
short sDifficulty, // In: Difficulty
short sRejuvenate, // In: Rejuvenate flag
short sTimeLimit, // In: Time limit in minutes, or negative if none
short sKillLimit, // In: Kill limit, or negative if none
short sCoopLevels, // In: Zero for deathmatch levels, non-zero for cooperative levels.
short sCoopMode) // In: Zero for deathmatch mode, non-zero for cooperative mode.
{
// Setup a special START_GAME message that we keep around so we can send
// it to clients as soon as they join. That way, they get better feedback.
// Otherwise, they would have to wait until the next time this function
// is called, which may not be all that often.
m_msgSetupGame.msg.setupGame.ucType = NetMsg::SETUP_GAME;
m_msgSetupGame.msg.setupGame.sRealmNum = sRealmNum;
memcpy(m_msgSetupGame.msg.setupGame.acRealmFile, pszRealmFile, sizeof(m_msgSetupGame.msg.setupGame.acRealmFile));
m_msgSetupGame.msg.setupGame.acRealmFile[sizeof(m_msgSetupGame.msg.setupGame.acRealmFile)-1] = 0;
m_msgSetupGame.msg.setupGame.sDifficulty = sDifficulty;
m_msgSetupGame.msg.setupGame.sRejuvenate = sRejuvenate;
m_msgSetupGame.msg.setupGame.sTimeLimit = sTimeLimit;
m_msgSetupGame.msg.setupGame.sKillLimit = sKillLimit;
m_msgSetupGame.msg.setupGame.sCoopLevels = sCoopLevels;
m_msgSetupGame.msg.setupGame.sCoopMode = sCoopMode;
// Mark message as valid
m_bSetupGameValid = true;
SendMsg(&m_msgSetupGame);
}
////////////////////////////////////////////////////////////////////////////////
// Start game using specified settings
////////////////////////////////////////////////////////////////////////////////
void CNetServer::StartGame(
Net::ID idServer, // In: Server's client's ID
short sRealmNum, // In: Realm number
char* pszRealmFile, // In: Realm file name
short sDifficulty, // In: Difficulty
short sRejuvenate, // In: Rejuvenate flag
short sTimeLimit, // In: Time limit in minutes, or negative if none
short sKillLimit, // In: Kill limit, or negative if none
short sCoopLevels, // In: Zero for deathmatch levels, non-zero for cooperative levels.
short sCoopMode, // In: Zero for deathmatch mode, non-zero for cooperative mode.
short sFrameTime, // In: Time per frame (in milliseconds)
Net::SEQ seqMaxAhead) // In: Initial max ahead for input versus frame seq
{
ASSERT(!m_bGameStarted);
// Set flag
m_bGameStarted = true;
// Tell all joined clients to start game
NetMsg msg;
msg.msg.startGame.ucType = NetMsg::START_GAME;
msg.msg.startGame.idServer = idServer;
msg.msg.startGame.sRealmNum = sRealmNum;
memcpy(msg.msg.startGame.acRealmFile, pszRealmFile, sizeof(msg.msg.startGame.acRealmFile));
msg.msg.startGame.acRealmFile[sizeof(msg.msg.startGame.acRealmFile)-1] = 0;
msg.msg.startGame.sDifficulty = sDifficulty;
msg.msg.startGame.sRejuvenate = sRejuvenate;
msg.msg.startGame.sTimeLimit = sTimeLimit;
msg.msg.startGame.sKillLimit = sKillLimit;
msg.msg.startGame.sCoopLevels = sCoopLevels;
msg.msg.startGame.sCoopMode = sCoopMode;
msg.msg.startGame.sFrameTime = sFrameTime;
msg.msg.startGame.seqMaxAhead = seqMaxAhead;
SendMsg(&msg);
// We need to wait for clients to respond with realm status messages
m_bWaitingForRealmStatus = true;
}
////////////////////////////////////////////////////////////////////////////////
// Abort game
////////////////////////////////////////////////////////////////////////////////
void CNetServer::AbortGame(
unsigned char ucReason) // In: Why game was aborted
{
// Tell players to abort game
NetMsg msg;
msg.msg.abortGame.ucType = NetMsg::ABORT_GAME;
msg.msg.abortGame.ucReason = ucReason;
SendMsg(&msg);
}
////////////////////////////////////////////////////////////////////////////////
// Tell clients to go to the next realm when they reach the specified frame seq.
// It is okay to call this multiple times -- "extra" calls are ignored.
//
// The return value is true if a new "next realm" sequence was initiated, and
// false if there was already one in progress.
////////////////////////////////////////////////////////////////////////////////
bool CNetServer::NextRealm(
Net::SEQ seq) // In: The seq on which to go to next realm
{
// If we're already waiting, then we don't send this message. There are
// two situations this can come up. First, the caller could have already
// called us once, and is merely calling us over and over, which, as the
// the function header comment says, is allowed. The second possibility
// is that not all clients have responded to a much older attempt to
// start the game or go to the next realm, and now the caller wants to go
// on to yet another realm. In that situation, we can't accomodate the
// caller -- we have to wait for all the clients to catch up to the previous
// realm before we can go to the next one. All in all, this is rather
// involved explanation for what works out to a simple check of a flag...
bool bResult = true;
if (!m_bWaitingForRealmStatus)
{
// Tell clients to go to the next realm when they reach this frame seq
NetMsg msg;
msg.msg.nextRealm.ucType = NetMsg::NEXT_REALM;