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source: orxonox.OLD/trunk/src/lib/network/message_manager.cc @ 9501

Last change on this file since 9501 was 9494, checked in by bensch, 18 years ago

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1/*
2   orxonox - the future of 3D-vertical-scrollers
3
4   Copyright (C) 2004 orx
5
6   This program is free software; you can redistribute it and/or modify
7   it under the terms of the GNU General Public License as published by
8   the Free Software Foundation; either version 2, or (at your option)
9   any later version.
10
11   ### File Specific:
12   main-programmer: Christoph Renner
13   co-programmer: ...
14*/
15
16//#define DEBUG_SPECIAL_MODULE DEBUG_MODULE_
17
18#include "message_manager.h"
19
20#include "network_stream.h"
21#include "shared_network_data.h"
22#include "converter.h"
23#include <cassert>
24
25
26
27MessageManager* MessageManager::singletonRef = NULL;
28
29
30/**
31 * standard constructor
32*/
33MessageManager::MessageManager ()
34{
35  this->setClassID( CL_MESSAGE_MANAGER, "MessageManager" );
36  newNumber = 1;
37  setSynchronized( true );
38}
39
40
41/**
42 * standard deconstructor
43*/
44MessageManager::~MessageManager ()
45{
46  for ( MessageQueue::iterator it = messageQueue.begin(); it != messageQueue.end(); it++ )
47  {
48    for ( std::list<NetworkMessage>::iterator it2 = it->second.messages.begin(); it2 != it->second.messages.end(); it2++ )
49    {
50      if ( it2->data )
51      {
52        delete [] it2->data;
53        it2->data = NULL;
54      }
55    }
56
57    it->second.messages.clear();
58    it->second.toAck.clear();
59  }
60
61  messageQueue.clear();
62
63  this->messageHandlerMap.clear();
64
65  MessageManager::singletonRef = NULL;
66}
67
68/**
69 * get the diff to last acked state of userId
70 *
71 * this class does not use the normal SynchronizeableVars for zynchronisation. instead
72 * it defines its own protocol
73 *
74 * @param userId user to create diff for
75 * @param data buffer to copy diff in
76 * @param maxLength max bytes to copy into data
77 * @param stateId id of current state
78 * @param fromStateId the reference state for the delta state
79 * @param priorityTH tells getStateDiff to not send element with priority \< priorityTH
80 * @return n bytes copied into data
81 */
82int MessageManager::getStateDiff( int userId, byte * data, int maxLength, int stateId, int fromStateId, int priorityTH )
83{
84  int i = 0;
85  int n;
86
87  n = Converter::intToByteArray( messageQueue[userId].toAck.size(), data + i, maxLength );
88  i += n;
89  assert( n == INTSIZE );
90
91  for ( std::list<int>::iterator it = messageQueue[userId].toAck.begin(); it != messageQueue[userId].toAck.end(); it++)
92  {
93    n = Converter::intToByteArray( *it, data + i, maxLength );
94    i += n;
95    assert( n == INTSIZE );
96  }
97
98  messageQueue[userId].toAck.clear();
99
100  n = Converter::intToByteArray( messageQueue[userId].messages.size(), data + i, maxLength );
101  i += n;
102  assert( n == INTSIZE );
103
104  for ( std::list<NetworkMessage>::iterator it = messageQueue[userId].messages.begin(); it != messageQueue[userId].messages.end(); it++ )
105  {
106    n = Converter::intToByteArray( it->length, data + i, maxLength );
107    i += n;
108    assert( n == INTSIZE );
109
110    n = Converter::intToByteArray( it->number, data + i, maxLength );
111    i += n;
112    assert( n == INTSIZE );
113
114    n = Converter::intToByteArray( it->messageId, data + i, maxLength );
115    i += n;
116    assert( n == INTSIZE );
117
118    assert( i + it->length <= maxLength );
119    memcpy( data + i, it->data, it->length );
120    i += it->length;
121  }
122
123  return i;
124}
125
126/**
127 * sets a new state out of a diff created on another host
128 * @param userId hostId of user who send me that diff
129 * @param data pointer to diff
130 * @param length length of diff
131 * @param stateId id of current state
132 * @param fromStateId id of the base state id
133 * @return number bytes read
134 * @todo check for permissions
135 */
136int MessageManager::setStateDiff( int userId, byte * data, int length, int stateId, int fromStateId )
137{
138  int i = 0;
139  int n;
140
141  int nAcks;
142
143  assert( i + INTSIZE <= length );
144  n = Converter::byteArrayToInt( data + i, &nAcks );
145  assert( n == INTSIZE );
146  i += n;
147
148  std::list<int> acks;
149
150  int number;
151
152  for ( int j = 0; j < nAcks; j++ )
153  {
154    assert( i + INTSIZE <= length );
155    n = Converter::byteArrayToInt( data + i, &number );
156    assert( n == INTSIZE );
157    i += n;
158
159    acks.push_back( number );
160  }
161
162  int nMessages;
163
164  assert( i + INTSIZE <= length );
165  n = Converter::byteArrayToInt( data + i, &nMessages );
166  assert( n == INTSIZE );
167  i += n;
168
169  int messageLength, messageId;
170
171  for ( int j = 0; j < nMessages; j++ )
172  {
173    assert( i + INTSIZE <= length );
174    n = Converter::byteArrayToInt( data + i, &messageLength );
175    assert( n == INTSIZE );
176    i += n;
177
178    assert( i + INTSIZE <= length );
179    n = Converter::byteArrayToInt( data + i, &number );
180    assert( n == INTSIZE );
181    i += n;
182
183    assert( i + INTSIZE <= length );
184    n = Converter::byteArrayToInt( data + i, &messageId );
185    assert( n == INTSIZE );
186    i += n;
187
188    if ( number > 0 )
189      messageQueue[userId].toAck.push_back( number );
190
191    assert( i + messageLength <= length );
192    assert( messageHandlerMap.find( (MessageId)messageId ) != messageHandlerMap.end() );
193    if ( std::find( messageQueue[userId].recievedMessages.begin(), messageQueue[userId].recievedMessages.end(), number )== messageQueue[userId].recievedMessages.end() )
194    {
195      if ( !(*(messageHandlerMap[(MessageId)messageId].cb))( (MessageId)messageId, data + i, messageLength, messageHandlerMap[(MessageId)messageId].someData, userId ) )
196      {
197        NetworkMessage msg;
198
199        msg.data = new byte[messageLength];
200        memcpy( msg.data, data + i, messageLength );
201        msg.length = messageLength;
202        msg.messageId = (MessageId)messageId;
203        msg.number = userId;
204
205        incomingMessageBuffer.push_back( msg );
206      }
207      messageQueue[userId].recievedMessages.push_back( number );
208    }
209    i += messageLength;
210  }
211
212
213  //TODO maybe handle incomingMessage in tick function. else local messages will not be handled if no clients are connected
214  for ( std::list<NetworkMessage>::iterator it = incomingMessageBuffer.begin(); it != incomingMessageBuffer.end();  )
215  {
216    if ( (*(messageHandlerMap[it->messageId].cb))( it->messageId, it->data, it->length, messageHandlerMap[it->messageId].someData, it->number ) )
217    {
218      std::list<NetworkMessage>::iterator delIt = it;
219      if ( it->data )
220        delete it->data;
221      it++;
222      incomingMessageBuffer.erase( delIt );
223      continue;
224    }
225    it++;
226  }
227
228  //walk throu message queue and remove acked messages
229  for ( std::list<NetworkMessage>::iterator it = messageQueue[userId].messages.begin(); it != messageQueue[userId].messages.end();  )
230  {
231    if ( std::find( acks.begin(), acks.end(), it->number) != acks.end() )
232    {
233      std::list<NetworkMessage>::iterator delIt = it;
234      it++;
235      messageQueue[userId].messages.erase( delIt );
236      continue;
237    }
238    it++;
239  }
240
241  //TODO find bether way. maybe with timestamp
242  if ( messageQueue[userId].recievedMessages.size() > 1000 )
243  {
244    for ( int j = 0; j < messageQueue[userId].recievedMessages.size() - 1000; j++ )
245      messageQueue[userId].recievedMessages.erase( messageQueue[userId].recievedMessages.begin() );
246  }
247
248  return i;
249}
250
251/**
252 * clean up memory reserved for user
253 * @param userId userid
254 */
255void MessageManager::cleanUpUser( int userId )
256{
257  if ( messageQueue.find( userId ) == messageQueue.end() )
258    return;
259
260  for ( std::list<NetworkMessage>::iterator it = messageQueue[userId].messages.begin(); it != messageQueue[userId].messages.end(); it++ )
261  {
262    if ( it->data )
263      delete it->data;
264    it->data = NULL;
265  }
266
267  messageQueue[userId].toAck.clear();
268
269  messageQueue.erase( userId );
270}
271
272/**
273 * registers function to handle messages with id messageId. someData is passed to callbackfuntion
274 * @param messageId message id to handle
275 * @param cb function pointer to callback function
276 * @param someData this pointer is passed to callback function without modification
277 * @return true on success
278 */
279bool MessageManager::registerMessageHandler( MessageId messageId, MessageCallback cb, void * someData )
280{
281  MessageHandler messageHandler;
282
283  messageHandler.cb = cb;
284  messageHandler.messageId = messageId;
285  messageHandler.someData = someData;
286
287  messageHandlerMap[messageId] = messageHandler;
288
289  return true;
290}
291
292/**
293 * initializes buffers for user
294 * @param userId userId
295 */
296void MessageManager::initUser( int userId )
297{
298  // just do something so map creates a new entry
299  messageQueue[userId].toAck.clear();
300  //assert( messageQueue[userId].messages.size() == 0 );
301}
302
303/**
304 * send a message to one or more clients
305 * recieverType:
306 *               RT_ALL send to all users. reciever is ignored
307 *               RT_USER send only to reciever
308 *               RT_NOT_USER send to all but reciever
309 *
310 * @param messageId message id
311 * @param data pointer to data
312 * @param dataLength length of data
313 * @param recieverType
314 * @param reciever
315 */
316void MessageManager::sendMessage( MessageId messageId, byte * data, int dataLength, RecieverType recieverType, int reciever, MessagePriority messagePriority )
317{
318  for ( MessageQueue::iterator it = messageQueue.begin(); it != messageQueue.end(); it++ )
319  {
320    if (
321         recieverType == RT_ALL_ME ||
322         recieverType == RT_ALL_BUT_ME ||
323         recieverType == RT_USER && it->first == reciever ||
324         recieverType == RT_NOT_USER && it->first != reciever ||
325         recieverType == RT_SERVER && getNetworkStream()->isUserMasterServer( it->first ) ||
326         recieverType == RT_SERVER && getNetworkStream()->isUserProxyServerActive( it->first )
327       )
328    {
329      NetworkMessage msg;
330
331      msg.data = new byte[dataLength];
332      memcpy( msg.data, data, dataLength );
333      msg.length = dataLength;
334      msg.messageId = messageId;
335      msg.number = newNumber++;
336      msg.priority = messagePriority;
337
338      it->second.messages.push_back( msg );
339    }
340  }
341
342  if ( recieverType == RT_ALL_ME )
343  {
344    NetworkMessage msg;
345
346    msg.data = new byte[dataLength];
347    memcpy( msg.data, data, dataLength );
348    msg.length = dataLength;
349    msg.messageId = messageId;
350    msg.number = SharedNetworkData::getInstance()->getHostID();
351    msg.priority = messagePriority;
352
353    incomingMessageBuffer.push_back( msg );
354  }
355}
356
357
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