EQStream.cpp 46 KB

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  1. /*
  2. EQ2Emulator: Everquest II Server Emulator
  3. Copyright (C) 2007 EQ2EMulator Development Team (http://www.eq2emulator.net)
  4. This file is part of EQ2Emulator.
  5. EQ2Emulator is free software: you can redistribute it and/or modify
  6. it under the terms of the GNU General Public License as published by
  7. the Free Software Foundation, either version 3 of the License, or
  8. (at your option) any later version.
  9. EQ2Emulator is distributed in the hope that it will be useful,
  10. but WITHOUT ANY WARRANTY; without even the implied warranty of
  11. MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
  12. GNU General Public License for more details.
  13. You should have received a copy of the GNU General Public License
  14. along with EQ2Emulator. If not, see <http://www.gnu.org/licenses/>.
  15. */
  16. #ifdef WIN32
  17. #include <WinSock2.h>
  18. #include <windows.h>
  19. #endif
  20. #include "debug.h"
  21. #include <string>
  22. #include <iomanip>
  23. #include <iostream>
  24. #include <vector>
  25. #include <time.h>
  26. #include <sys/types.h>
  27. #ifdef WIN32
  28. #include <time.h>
  29. #else
  30. #include <sys/socket.h>
  31. #include <netinet/in.h>
  32. #include <sys/time.h>
  33. #include <sys/socket.h>
  34. #include <netdb.h>
  35. #include <fcntl.h>
  36. #include <arpa/inet.h>
  37. #endif
  38. #include "EQPacket.h"
  39. #include "EQStream.h"
  40. #include "EQStreamFactory.h"
  41. #include "misc.h"
  42. #include "Mutex.h"
  43. #include "op_codes.h"
  44. #include "CRC16.h"
  45. #include "packet_dump.h"
  46. #ifdef LOGIN
  47. #include "../LoginServer/login_structs.h"
  48. #endif
  49. #include "EQ2_Common_Structs.h"
  50. #include "Log.h"
  51. uint16 EQStream::MaxWindowSize=2048;
  52. void EQStream::init(bool resetSession) {
  53. if (resetSession)
  54. {
  55. streamactive = false;
  56. sessionAttempts = 0;
  57. }
  58. timeout_delays = 0;
  59. MInUse.lock();
  60. active_users = 0;
  61. MInUse.unlock();
  62. Session=0;
  63. Key=0;
  64. MaxLen=0;
  65. NextInSeq=0;
  66. NextOutSeq=0;
  67. CombinedAppPacket=NULL;
  68. MAcks.lock();
  69. MaxAckReceived = -1;
  70. NextAckToSend = -1;
  71. LastAckSent = -1;
  72. MAcks.unlock();
  73. LastSeqSent=-1;
  74. MaxSends=5;
  75. LastPacket=Timer::GetCurrentTime2();
  76. oversize_buffer=NULL;
  77. oversize_length=0;
  78. oversize_offset=0;
  79. Factory = NULL;
  80. MRate.lock();
  81. RateThreshold=RATEBASE/250;
  82. DecayRate=DECAYBASE/250;
  83. MRate.unlock();
  84. BytesWritten=0;
  85. SequencedBase = 0;
  86. AverageDelta = 500;
  87. crypto->setRC4Key(0);
  88. retransmittimer = Timer::GetCurrentTime2();
  89. retransmittimeout = 500 * RETRANSMIT_TIMEOUT_MULT;
  90. if (uint16(SequencedBase + SequencedQueue.size()) != NextOutSeq) {
  91. LogWrite(PACKET__DEBUG, 9, "Packet", "init Invalid Sequenced queue: BS %u + SQ %u != NOS %u", SequencedBase, SequencedQueue.size(), NextOutSeq);
  92. }
  93. }
  94. EQStream::EQStream(sockaddr_in addr){
  95. crypto = new Crypto();
  96. resend_que_timer = new Timer(1000);
  97. combine_timer = new Timer(250); //250 milliseconds
  98. combine_timer->Start();
  99. resend_que_timer->Start();
  100. init();
  101. remote_ip=addr.sin_addr.s_addr;
  102. remote_port=addr.sin_port;
  103. State=CLOSED;
  104. StreamType=UnknownStream;
  105. compressed=true;
  106. encoded=false;
  107. app_opcode_size=2;
  108. #ifdef WIN32
  109. ZeroMemory(&stream, sizeof(z_stream));
  110. #else
  111. bzero(&stream, sizeof(z_stream));
  112. #endif
  113. stream.zalloc = (alloc_func)0;
  114. stream.zfree = (free_func)0;
  115. stream.opaque = (voidpf)0;
  116. deflateInit2(&stream, 9, Z_DEFLATED, 13, 9, Z_DEFAULT_STRATEGY);
  117. //deflateInit(&stream, 5);
  118. compressed_offset = 0;
  119. client_version = 0;
  120. received_packets = 0;
  121. sent_packets = 0;
  122. }
  123. EQProtocolPacket* EQStream::ProcessEncryptedData(uchar* data, int32 size, int16 opcode){
  124. //cout << "B4:\n";
  125. //DumpPacket(data, size);
  126. /*if(size >= 2 && data[0] == 0 && data[1] == 0){
  127. cout << "Attempting to fix packet!\n";
  128. //Have to fix bad packet from client or it will screw up encryption :P
  129. size--;
  130. data++;
  131. }*/
  132. crypto->RC4Decrypt(data,size);
  133. int8 offset = 0;
  134. if(data[0] == 0xFF && size > 2){
  135. offset = 3;
  136. memcpy(&opcode, data+sizeof(int8), sizeof(int16));
  137. }
  138. else{
  139. offset = 1;
  140. memcpy(&opcode, data, sizeof(int8));
  141. }
  142. //cout << "After:\n";
  143. //DumpPacket(data, size);
  144. return new EQProtocolPacket(opcode, data+offset, size - offset);
  145. }
  146. EQProtocolPacket* EQStream::ProcessEncryptedPacket(EQProtocolPacket *p){
  147. EQProtocolPacket* ret = NULL;
  148. if(p->opcode == OP_Packet && p->size > 2)
  149. ret = ProcessEncryptedData(p->pBuffer+2, p->size-2, p->opcode);
  150. else
  151. ret = ProcessEncryptedData(p->pBuffer, p->size, p->opcode);
  152. return ret;
  153. }
  154. bool EQStream::HandleEmbeddedPacket(EQProtocolPacket *p, int16 offset, int16 length){
  155. if(p && p->size >= ((uint32)(offset+2))){
  156. if(p->pBuffer[offset] == 0 && p->pBuffer[offset+1] == 0x19){
  157. if(length == 0)
  158. length = p->size-2-offset;
  159. else
  160. length-=2;
  161. #ifdef LE_DEBUG
  162. printf( "Creating OP_AppCombined Packet!\n");
  163. #endif
  164. EQProtocolPacket *subp=new EQProtocolPacket(OP_AppCombined, p->pBuffer+2+offset, length);
  165. subp->copyInfo(p);
  166. ProcessPacket(subp, p);
  167. safe_delete(subp);
  168. return true;
  169. }
  170. else if (p->pBuffer[offset] == 0 && p->pBuffer[offset + 1] == 0) {
  171. if (length == 0)
  172. length = p->size - 1 - offset;
  173. else
  174. length--;
  175. #ifdef LE_DEBUG
  176. LogWrite(PACKET__DEBUG, 0, "Packet", "Creating Opcode 0 Packet!");
  177. DumpPacket(p->pBuffer + 1 + offset, length);
  178. #endif
  179. EQProtocolPacket* newpacket = ProcessEncryptedData(p->pBuffer + 1 + offset, length, OP_Packet);
  180. if (newpacket) {
  181. #ifdef LE_DEBUG
  182. LogWrite(PACKET__DEBUG, 0, "Packet", "Result: ");
  183. DumpPacket(newpacket);
  184. #endif
  185. EQApplicationPacket* ap = newpacket->MakeApplicationPacket(2);
  186. InboundQueuePush(ap);
  187. safe_delete(newpacket);
  188. }
  189. else
  190. LogWrite(PACKET__ERROR, 0, "Packet", "No Packet!");
  191. return true;
  192. }
  193. }
  194. return false;
  195. }
  196. void EQStream::ProcessPacket(EQProtocolPacket *p, EQProtocolPacket* lastp)
  197. {
  198. uint32 processed=0,subpacket_length=0;
  199. if (p) {
  200. if (p->opcode!=OP_SessionRequest && p->opcode!=OP_SessionResponse && !Session) {
  201. #ifdef EQN_DEBUG
  202. LogWrite(PACKET__ERROR, 0, "Packet", "*** Session not initialized, packet ignored ");
  203. //p->DumpRaw();
  204. #endif
  205. return;
  206. }
  207. //cout << "Received " << (int)p->opcode << ":\n";
  208. //DumpPacket(p->pBuffer, p->size);
  209. switch (p->opcode) {
  210. case OP_Combined: {
  211. processed=0;
  212. int8 offset = 0;
  213. int count = 0;
  214. #ifdef LE_DEBUG
  215. printf( "OP_Combined:\n");
  216. DumpPacket(p);
  217. #endif
  218. while(processed<p->size) {
  219. if ((subpacket_length=(unsigned char)*(p->pBuffer+processed))==0xff) {
  220. subpacket_length = ntohs(*(uint16*)(p->pBuffer + processed + 1));
  221. offset = 3;
  222. }
  223. else
  224. offset = 1;
  225. count++;
  226. #ifdef LE_DEBUG
  227. printf( "OP_Combined Packet %i (%u) (%u):\n", count, subpacket_length, processed);
  228. #endif
  229. bool isSubPacket = EQProtocolPacket::IsProtocolPacket(p->pBuffer + processed + offset, subpacket_length, false);
  230. if (isSubPacket) {
  231. EQProtocolPacket* subp = new EQProtocolPacket(p->pBuffer + processed + offset, subpacket_length);
  232. subp->copyInfo(p);
  233. //I've seen some garbage packets get sent with wrong protocol opcodes but the rest of the combine is still correct
  234. //So don't break if GetProtocolPacket fails
  235. #ifdef LE_DEBUG
  236. printf( "Opcode %i:\n", subp->opcode);
  237. DumpPacket(subp);
  238. #endif
  239. ProcessPacket(subp, p);
  240. #ifdef LE_DEBUG
  241. DumpPacket(subp);
  242. #endif
  243. delete subp;
  244. }
  245. else if (ntohs(*reinterpret_cast<uint16_t*>(p->pBuffer + processed + offset)) > 0x1e) {
  246. //Garbage packet?
  247. crypto->RC4Decrypt(p->pBuffer + processed + offset, subpacket_length);
  248. LogWrite(PACKET__ERROR, 0, "Packet", "Garbage packet?!:");
  249. printf("!!!!!!!!!Garbage Packet!!!!!!!!!!!!!:\n");
  250. DumpPacket(p->pBuffer + processed + offset, subpacket_length);
  251. }
  252. processed+=subpacket_length+offset;
  253. }
  254. break;
  255. }
  256. case OP_AppCombined: {
  257. processed=0;
  258. EQProtocolPacket* newpacket = 0;
  259. int8 offset = 0;
  260. #ifdef LE_DEBUG
  261. printf( "OP_AppCombined: \n");
  262. DumpPacket(p);
  263. #endif
  264. int count = 0;
  265. while(processed<p->size) {
  266. count++;
  267. if ((subpacket_length=(unsigned char)*(p->pBuffer+processed))==0xff) {
  268. subpacket_length=ntohs(*(uint16 *)(p->pBuffer+processed+1));
  269. offset = 3;
  270. } else
  271. offset = 1;
  272. if(crypto->getRC4Key()==0 && p->size >= 70){
  273. processRSAKey(p);
  274. }
  275. else if(crypto->isEncrypted()){
  276. #ifdef LE_DEBUG
  277. printf( "OP_AppCombined Packet %i (%u) (%u): \n", count, subpacket_length, processed);
  278. DumpPacket(p->pBuffer+processed+offset, subpacket_length);
  279. #endif
  280. if(!HandleEmbeddedPacket(p, processed + offset, subpacket_length)){
  281. #ifdef LE_DEBUG
  282. printf( "OP_AppCombined Here:\n");
  283. #endif
  284. MCombineQueueLock.lock();
  285. newpacket = ProcessEncryptedData(p->pBuffer+processed + offset, subpacket_length, OP_AppCombined);
  286. MCombineQueueLock.unlock();
  287. if(newpacket){
  288. #ifdef LE_DEBUG
  289. printf( "Opcode %i:\n", newpacket->opcode);
  290. DumpPacket(newpacket);
  291. #endif
  292. EQApplicationPacket* ap = newpacket->MakeApplicationPacket(2);
  293. #ifdef LE_DEBUG
  294. printf( "OP_AppCombined Here2:\n");
  295. DumpPacket(ap);
  296. #endif
  297. InboundQueuePush(ap);
  298. safe_delete(newpacket);
  299. }
  300. }
  301. }
  302. processed+=subpacket_length+offset;
  303. }
  304. }
  305. break;
  306. case OP_Packet: {
  307. if (!p->pBuffer || (p->Size() < 4))
  308. {
  309. break;
  310. }
  311. uint16 seq=ntohs(*(uint16 *)(p->pBuffer));
  312. sint8 check=CompareSequence(NextInSeq,seq);
  313. if (check == SeqFuture) {
  314. #ifdef EQN_DEBUG
  315. LogWrite(PACKET__DEBUG, 1, "Packet", "*** Future packet: Expecting Seq=%i, but got Seq=%i", NextInSeq, seq);
  316. LogWrite(PACKET__DEBUG, 1, "Packet", "[Start]");
  317. p->DumpRawHeader(seq);
  318. LogWrite(PACKET__DEBUG, 1, "Packet", "[End]");
  319. #endif
  320. OutOfOrderpackets[seq] = p->Copy();
  321. // Image (2020): Removed as this is bad contributes to infinite loop
  322. //SendOutOfOrderAck(seq);
  323. } else if (check == SeqPast) {
  324. #ifdef EQN_DEBUG
  325. LogWrite(PACKET__DEBUG, 1, "Packet", "*** Duplicate packet: Expecting Seq=%i, but got Seq=%i", NextInSeq, seq);
  326. LogWrite(PACKET__DEBUG, 1, "Packet", "[Start]");
  327. p->DumpRawHeader(seq);
  328. LogWrite(PACKET__DEBUG, 1, "Packet", "[End]");
  329. #endif
  330. // Image (2020): Removed as this is bad contributes to infinite loop
  331. //OutOfOrderpackets[seq] = p->Copy();
  332. SendOutOfOrderAck(seq);
  333. } else {
  334. EQProtocolPacket* qp = RemoveQueue(seq);
  335. if (qp) {
  336. LogWrite(PACKET__DEBUG, 1, "Packet", "OP_Fragment: Removing older queued packet with sequence %i", seq);
  337. delete qp;
  338. }
  339. SetNextAckToSend(seq);
  340. NextInSeq++;
  341. if(HandleEmbeddedPacket(p))
  342. break;
  343. if(crypto->getRC4Key()==0 && p && p->size >= 70){
  344. processRSAKey(p);
  345. }
  346. else if(crypto->isEncrypted() && p){
  347. MCombineQueueLock.lock();
  348. EQProtocolPacket* newpacket = ProcessEncryptedPacket(p);
  349. MCombineQueueLock.unlock();
  350. if(newpacket){
  351. EQApplicationPacket *ap = newpacket->MakeApplicationPacket(2);
  352. InboundQueuePush(ap);
  353. safe_delete(newpacket);
  354. }
  355. }
  356. }
  357. }
  358. break;
  359. case OP_Fragment: {
  360. if (!p->pBuffer || (p->Size() < 4))
  361. {
  362. break;
  363. }
  364. uint16 seq=ntohs(*(uint16 *)(p->pBuffer));
  365. sint8 check=CompareSequence(NextInSeq,seq);
  366. if (check == SeqFuture) {
  367. #ifdef EQN_DEBUG
  368. LogWrite(PACKET__DEBUG, 1, "Packet", "*** Future packet2: Expecting Seq=%i, but got Seq=%i", NextInSeq, seq);
  369. LogWrite(PACKET__DEBUG, 1, "Packet", "[Start]");
  370. //p->DumpRawHeader(seq);
  371. LogWrite(PACKET__DEBUG, 1, "Packet", "[End]");
  372. #endif
  373. OutOfOrderpackets[seq] = p->Copy();
  374. //SendOutOfOrderAck(seq);
  375. } else if (check == SeqPast) {
  376. #ifdef EQN_DEBUG
  377. LogWrite(PACKET__DEBUG, 1, "Packet", "*** Duplicate packet2: Expecting Seq=%i, but got Seq=%i", NextInSeq, seq);
  378. LogWrite(PACKET__DEBUG, 1, "Packet", "[Start]");
  379. //p->DumpRawHeader(seq);
  380. LogWrite(PACKET__DEBUG, 1, "Packet", "[End]");
  381. #endif
  382. //OutOfOrderpackets[seq] = p->Copy();
  383. SendOutOfOrderAck(seq);
  384. } else {
  385. // In case we did queue one before as well.
  386. EQProtocolPacket* qp = RemoveQueue(seq);
  387. if (qp) {
  388. LogWrite(PACKET__DEBUG, 1, "Packet", "OP_Fragment: Removing older queued packet with sequence %i", seq);
  389. delete qp;
  390. }
  391. SetNextAckToSend(seq);
  392. NextInSeq++;
  393. if (oversize_buffer) {
  394. memcpy(oversize_buffer+oversize_offset,p->pBuffer+2,p->size-2);
  395. oversize_offset+=p->size-2;
  396. //cout << "Oversized is " << oversize_offset << "/" << oversize_length << " (" << (p->size-2) << ") Seq=" << seq << endl;
  397. if (oversize_offset==oversize_length) {
  398. if (*(p->pBuffer+2)==0x00 && *(p->pBuffer+3)==0x19) {
  399. EQProtocolPacket *subp=new EQProtocolPacket(oversize_buffer,oversize_offset);
  400. subp->copyInfo(p);
  401. ProcessPacket(subp, p);
  402. delete subp;
  403. } else {
  404. if(crypto->isEncrypted() && p && p->size > 2){
  405. MCombineQueueLock.lock();
  406. EQProtocolPacket* p2 = ProcessEncryptedData(oversize_buffer, oversize_offset, p->opcode);
  407. MCombineQueueLock.unlock();
  408. EQApplicationPacket *ap = p2->MakeApplicationPacket(2);
  409. ap->copyInfo(p);
  410. InboundQueuePush(ap);
  411. safe_delete(p2);
  412. }
  413. }
  414. delete[] oversize_buffer;
  415. oversize_buffer=NULL;
  416. oversize_offset=0;
  417. }
  418. } else if (!oversize_buffer) {
  419. oversize_length=ntohl(*(uint32 *)(p->pBuffer+2));
  420. oversize_buffer=new unsigned char[oversize_length];
  421. memcpy(oversize_buffer,p->pBuffer+6,p->size-6);
  422. oversize_offset=p->size-6;
  423. //cout << "Oversized is " << oversize_offset << "/" << oversize_length << " (" << (p->size-6) << ") Seq=" << seq << endl;
  424. }
  425. }
  426. }
  427. break;
  428. case OP_KeepAlive: {
  429. #ifndef COLLECTOR
  430. NonSequencedPush(new EQProtocolPacket(p->opcode,p->pBuffer,p->size));
  431. #endif
  432. }
  433. break;
  434. case OP_Ack: {
  435. if (!p->pBuffer || (p->Size() < 4))
  436. {
  437. LogWrite(PACKET__DEBUG, 9, "Packet", "Received OP_Ack that was of malformed size");
  438. break;
  439. }
  440. uint16 seq = ntohs(*(uint16*)(p->pBuffer));
  441. AckPackets(seq);
  442. retransmittimer = Timer::GetCurrentTime2();
  443. }
  444. break;
  445. case OP_SessionRequest: {
  446. if (p->Size() < sizeof(SessionRequest))
  447. {
  448. break;
  449. }
  450. if (GetState() == ESTABLISHED) {
  451. //_log(NET__ERROR, _L "Received OP_SessionRequest in ESTABLISHED state (%d) streamactive (%i) attempt (%i)" __L, GetState(), streamactive, sessionAttempts);
  452. // client seems to try a max of 4 times (initial +3 retries) then gives up, giving it a few more attempts just in case
  453. // streamactive means we identified the opcode, we cannot re-establish this connection
  454. if (streamactive || (sessionAttempts > 30))
  455. {
  456. SendDisconnect(false);
  457. SetState(CLOSED);
  458. break;
  459. }
  460. }
  461. sessionAttempts++;
  462. init(GetState() != ESTABLISHED);
  463. OutboundQueueClear();
  464. SessionRequest *Request=(SessionRequest *)p->pBuffer;
  465. Session=ntohl(Request->Session);
  466. SetMaxLen(ntohl(Request->MaxLength));
  467. #ifndef COLLECTOR
  468. NextInSeq=0;
  469. Key=0x33624702;
  470. SendSessionResponse();
  471. #endif
  472. SetState(ESTABLISHED);
  473. }
  474. break;
  475. case OP_SessionResponse: {
  476. if (p->Size() < sizeof(SessionResponse))
  477. {
  478. break;
  479. }
  480. init();
  481. OutboundQueueClear();
  482. SetActive(true);
  483. SessionResponse *Response=(SessionResponse *)p->pBuffer;
  484. SetMaxLen(ntohl(Response->MaxLength));
  485. Key=ntohl(Response->Key);
  486. NextInSeq=0;
  487. SetState(ESTABLISHED);
  488. if (!Session)
  489. Session=ntohl(Response->Session);
  490. compressed=(Response->Format&FLAG_COMPRESSED);
  491. encoded=(Response->Format&FLAG_ENCODED);
  492. // Kinda kludgy, but trie for now
  493. if (compressed) {
  494. if (remote_port==9000 || (remote_port==0 && p->src_port==9000))
  495. SetStreamType(WorldStream);
  496. else
  497. SetStreamType(ZoneStream);
  498. } else if (encoded)
  499. SetStreamType(ChatOrMailStream);
  500. else
  501. SetStreamType(LoginStream);
  502. }
  503. break;
  504. case OP_SessionDisconnect: {
  505. //NextInSeq=0;
  506. SendDisconnect();
  507. //SetState(CLOSED);
  508. }
  509. break;
  510. case OP_OutOfOrderAck: {
  511. if (!p->pBuffer || (p->Size() < 4))
  512. {
  513. LogWrite(PACKET__DEBUG, 9, "Packet", "Received OP_OutOfOrderAck that was of malformed size");
  514. break;
  515. }
  516. uint16 seq = ntohs(*(uint16*)(p->pBuffer));
  517. MOutboundQueue.lock();
  518. if (uint16(SequencedBase + SequencedQueue.size()) != NextOutSeq) {
  519. LogWrite(PACKET__DEBUG, 9, "Packet", "Pre-OOA Invalid Sequenced queue: BS %u + SQ %u != NOS %u", SequencedBase, SequencedQueue.size(), NextOutSeq);
  520. }
  521. //if the packet they got out of order is between our last acked packet and the last sent packet, then its valid.
  522. if (CompareSequence(SequencedBase, seq) != SeqPast && CompareSequence(NextOutSeq, seq) == SeqPast) {
  523. uint16 sqsize = SequencedQueue.size();
  524. uint16 index = seq - SequencedBase;
  525. LogWrite(PACKET__DEBUG, 9, "Packet", "OP_OutOfOrderAck marking packet acked in queue (queue index = %u, queue size = %u)", index, sqsize);
  526. if (index < sqsize) {
  527. SequencedQueue[index]->acked = true;
  528. // flag packets for a resend
  529. uint16 count = 0;
  530. uint32 timeout = AverageDelta * 2 + 100;
  531. for (auto sitr = SequencedQueue.begin(); sitr != SequencedQueue.end() && count < index; ++sitr, ++count) {
  532. if (!(*sitr)->acked && (*sitr)->sent_time > 0 && (((*sitr)->sent_time + timeout) < Timer::GetCurrentTime2())) {
  533. (*sitr)->sent_time = 0;
  534. LogWrite(PACKET__DEBUG, 9, "Packet", "OP_OutOfOrderAck Flagging packet %u for retransmission", SequencedBase + count);
  535. }
  536. }
  537. }
  538. if (RETRANSMIT_TIMEOUT_MULT) {
  539. retransmittimer = Timer::GetCurrentTime2();
  540. }
  541. }
  542. else {
  543. LogWrite(PACKET__DEBUG, 9, "Packet", "Received OP_OutOfOrderAck for out-of-window %u. Window (%u->%u)", seq, SequencedBase, NextOutSeq);
  544. }
  545. if (uint16(SequencedBase + SequencedQueue.size()) != NextOutSeq) {
  546. LogWrite(PACKET__DEBUG, 9, "Packet", "Post-OOA Invalid Sequenced queue: BS %u + SQ %u != NOS %u", SequencedBase, SequencedQueue.size(), NextOutSeq);
  547. }
  548. MOutboundQueue.unlock();
  549. }
  550. break;
  551. case OP_ServerKeyRequest:{
  552. if (p->Size() < sizeof(ClientSessionStats))
  553. {
  554. //_log(NET__ERROR, _L "Received OP_SessionStatRequest that was of malformed size" __L);
  555. break;
  556. }
  557. ClientSessionStats* Stats = (ClientSessionStats*)p->pBuffer;
  558. int16 request_id = Stats->RequestID;
  559. AdjustRates(ntohl(Stats->average_delta));
  560. ServerSessionStats* stats=(ServerSessionStats*)p->pBuffer;
  561. memset(stats, 0, sizeof(ServerSessionStats));
  562. stats->RequestID = request_id;
  563. stats->current_time = ntohl(Timer::GetCurrentTime2());
  564. stats->sent_packets = ntohl(sent_packets);
  565. stats->sent_packets2 = ntohl(sent_packets);
  566. stats->received_packets = ntohl(received_packets);
  567. stats->received_packets2 = ntohl(received_packets);
  568. NonSequencedPush(new EQProtocolPacket(OP_SessionStatResponse,p->pBuffer,p->size));
  569. if(!crypto->isEncrypted())
  570. SendKeyRequest();
  571. }
  572. break;
  573. case OP_SessionStatResponse: {
  574. LogWrite(PACKET__INFO, 0, "Packet", "OP_SessionStatResponse");
  575. }
  576. break;
  577. case OP_OutOfSession: {
  578. LogWrite(PACKET__INFO, 0, "Packet", "OP_OutOfSession");
  579. SendDisconnect();
  580. SetState(CLOSED);
  581. }
  582. break;
  583. default:
  584. //EQApplicationPacket *ap = p->MakeApplicationPacket(app_opcode_size);
  585. //InboundQueuePush(ap);
  586. printf("!!!!!!!!!GarbageBEFORE Packet!!!!!!!!!!!!!:\n");
  587. DumpPacket(p->pBuffer, p->size);
  588. LogWrite(PACKET__INFO, 0, "Packet", "Received unknown packet type");
  589. crypto->RC4Decrypt(p->pBuffer, p->size);
  590. LogWrite(PACKET__ERROR, 0, "Packet", "Garbage packet?!:");
  591. printf("!!!!!!!!!GarbageAFTER Packet!!!!!!!!!!!!!:\n");
  592. DumpPacket(p->pBuffer, p->size);
  593. if (oversize_buffer) {
  594. printf("!!!!!!!!!OverSizedBufferExists: %i, %i, %i!!!!!!!!!!!!!:\n", oversize_offset, p->size, oversize_length);
  595. }
  596. if (lastp)
  597. {
  598. printf("!!!!!!!!!PREVIOUSPACKET!!!!!!!!!!!!!:\n");
  599. DumpPacket(lastp->pBuffer, lastp->size);
  600. }
  601. //InboundQueuePush(ap);
  602. //SendDisconnect();
  603. break;
  604. }
  605. }
  606. }
  607. int8 EQStream::EQ2_Compress(EQ2Packet* app, int8 offset){
  608. #ifdef LE_DEBUG
  609. printf( "Before Compress in %s, line %i:\n", __FUNCTION__, __LINE__);
  610. DumpPacket(app);
  611. #endif
  612. uchar* pDataPtr = app->pBuffer + offset;
  613. int xpandSize = app->size * 2;
  614. uchar* deflate_buff = new uchar[xpandSize];
  615. MCompressData.lock();
  616. stream.next_in = pDataPtr;
  617. stream.avail_in = app->size - offset;
  618. stream.next_out = deflate_buff;
  619. stream.avail_out = xpandSize;
  620. int ret = deflate(&stream, Z_SYNC_FLUSH);
  621. if (ret != Z_OK)
  622. {
  623. printf("ZLIB COMPRESSION RETFAIL: %i, %i (Ret: %i)\n", app->size, stream.avail_out, ret);
  624. MCompressData.unlock();
  625. safe_delete_array(deflate_buff);
  626. return 0;
  627. }
  628. int32 newsize = xpandSize - stream.avail_out;
  629. safe_delete_array(app->pBuffer);
  630. app->size = newsize + offset;
  631. app->pBuffer = new uchar[app->size];
  632. app->pBuffer[(offset - 1)] = 1;
  633. memcpy(app->pBuffer + offset, deflate_buff, newsize);
  634. MCompressData.unlock();
  635. safe_delete_array(deflate_buff);
  636. #ifdef LE_DEBUG
  637. printf( "After Compress in %s, line %i:\n", __FUNCTION__, __LINE__);
  638. DumpPacket(app);
  639. #endif
  640. return offset - 1;
  641. }
  642. int16 EQStream::processRSAKey(EQProtocolPacket *p){
  643. /*int16 limit = 0;
  644. int8 offset = 13;
  645. int8 offset2 = 0;
  646. if(p->pBuffer[2] == 0)
  647. limit = p->pBuffer[9];
  648. else{
  649. limit = p->pBuffer[5];
  650. offset2 = 5;
  651. offset-=1;
  652. }
  653. crypto->setRC4Key(Crypto::RSADecrypt(p->pBuffer + offset + (limit-8), 8));
  654. return (limit + offset +1) - offset2;*/
  655. if(p->pBuffer[0] == 0)
  656. crypto->setRC4Key(Crypto::RSADecrypt(p->pBuffer + 62, 8));
  657. else
  658. crypto->setRC4Key(Crypto::RSADecrypt(p->pBuffer + 61, 8));
  659. return 0;
  660. }
  661. void EQStream::SendKeyRequest(){
  662. int32 crypto_key_size = 60;
  663. int16 size = sizeof(KeyGen_Struct) + sizeof(KeyGen_End_Struct) + crypto_key_size;
  664. EQ2Packet *outapp=new EQ2Packet(OP_WSLoginRequestMsg,NULL,size);
  665. memcpy(&outapp->pBuffer[0], &crypto_key_size, sizeof(int32));
  666. memset(&outapp->pBuffer[4], 0xFF, crypto_key_size);
  667. memset(&outapp->pBuffer[size-5], 1, 1);
  668. memset(&outapp->pBuffer[size-1], 1, 1);
  669. EQ2QueuePacket(outapp);
  670. }
  671. void EQStream::EncryptPacket(EQ2Packet* app, int8 compress_offset, int8 offset){
  672. if(app->size>2 && crypto->isEncrypted()){
  673. app->packet_encrypted = true;
  674. uchar* crypt_buff = app->pBuffer;
  675. if(app->eq2_compressed)
  676. crypto->RC4Encrypt(crypt_buff + compress_offset, app->size - compress_offset);
  677. else
  678. crypto->RC4Encrypt(crypt_buff + 2 + offset, app->size - 2 - offset);
  679. }
  680. }
  681. void EQStream::EQ2QueuePacket(EQ2Packet* app, bool attempted_combine){
  682. if(CheckActive()){
  683. if(!attempted_combine){
  684. MCombineQueueLock.lock();
  685. combine_queue.push_back(app);
  686. MCombineQueueLock.unlock();
  687. }
  688. else{
  689. MCombineQueueLock.lock();
  690. PreparePacket(app);
  691. MCombineQueueLock.unlock();
  692. #ifdef LE_DEBUG
  693. printf( "After B in %s, line %i:\n", __FUNCTION__, __LINE__);
  694. DumpPacket(app);
  695. #endif
  696. SendPacket(app);
  697. }
  698. }
  699. }
  700. void EQStream::UnPreparePacket(EQ2Packet* app){
  701. if(app->pBuffer[2] == 0 && app->pBuffer[3] == 19){
  702. uchar* new_buffer = new uchar[app->size-3];
  703. memcpy(new_buffer+2, app->pBuffer+5, app->size-3);
  704. delete[] app->pBuffer;
  705. app->size-=3;
  706. app->pBuffer = new_buffer;
  707. }
  708. }
  709. void EQStream::PreparePacket(EQ2Packet* app, int8 offset){
  710. app->setVersion(client_version);
  711. compressed_offset = 0;
  712. #ifdef LE_DEBUG
  713. printf( "Before A in %s, line %i:\n", __FUNCTION__, __LINE__);
  714. DumpPacket(app);
  715. #endif
  716. if(!app->packet_prepared){
  717. if(app->PreparePacket(MaxLen) == 255) //invalid version
  718. return;
  719. }
  720. #ifdef LE_DEBUG
  721. printf( "After Prepare in %s, line %i:\n", __FUNCTION__, __LINE__);
  722. DumpPacket(app);
  723. #endif
  724. if(!app->eq2_compressed && app->size>128){
  725. compressed_offset = EQ2_Compress(app);
  726. if (compressed_offset)
  727. app->eq2_compressed = true;
  728. }
  729. if(!app->packet_encrypted){
  730. EncryptPacket(app, compressed_offset, offset);
  731. if(app->size > 2 && app->pBuffer[2] == 0){
  732. uchar* new_buffer = new uchar[app->size+1];
  733. new_buffer[2] = 0;
  734. memcpy(new_buffer+3, app->pBuffer+2, app->size-2);
  735. delete[] app->pBuffer;
  736. app->pBuffer = new_buffer;
  737. app->size++;
  738. }
  739. }
  740. #ifdef LE_DEBUG
  741. printf( "After A in %s, line %i:\n", __FUNCTION__, __LINE__);
  742. DumpPacket(app);
  743. #endif
  744. }
  745. void EQStream::SendPacket(EQProtocolPacket *p)
  746. {
  747. uint32 chunksize,used;
  748. uint32 length;
  749. // Convert the EQApplicationPacket to 1 or more EQProtocolPackets
  750. if (p->size>( MaxLen-8)) { // proto-op(2), seq(2), app-op(2) ... data ... crc(2)
  751. uchar* tmpbuff=p->pBuffer;
  752. length=p->size - 2;
  753. EQProtocolPacket *out=new EQProtocolPacket(OP_Fragment,NULL,MaxLen-4);
  754. *(uint32 *)(out->pBuffer+2)=htonl(length);
  755. used=MaxLen-10;
  756. memcpy(out->pBuffer+6,tmpbuff+2,used);
  757. #ifdef LE_DEBUG
  758. printf("(%s, %i) New Fragment:\n ", __FUNCTION__, __LINE__);
  759. DumpPacket(out);
  760. #endif
  761. SequencedPush(out);
  762. while (used<length) {
  763. chunksize=min(length-used,MaxLen-6);
  764. out=new EQProtocolPacket(OP_Fragment,NULL,chunksize+2);
  765. //memcpy(out->pBuffer+2,tmpbuff,1);
  766. memcpy(out->pBuffer+2,tmpbuff+used+2,chunksize);
  767. #ifdef LE_DEBUG
  768. printf("Chunk: \n");
  769. DumpPacket(out);
  770. #endif
  771. SequencedPush(out);
  772. used+=chunksize;
  773. }
  774. #ifdef LE_DEBUG
  775. printf( "ChunkDelete: \n");
  776. DumpPacket(out);
  777. //cerr << "1: Deleting 0x" << hex << (uint32)(p) << dec << endl;
  778. #endif
  779. delete p;
  780. } else {
  781. SequencedPush(p);
  782. }
  783. }
  784. void EQStream::SendPacket(EQApplicationPacket *p)
  785. {
  786. uint32 chunksize,used;
  787. uint32 length;
  788. // Convert the EQApplicationPacket to 1 or more EQProtocolPackets
  789. if (p->size>(MaxLen-8)) { // proto-op(2), seq(2), app-op(2) ... data ... crc(2)
  790. //cout << "Making oversized packet for: " << endl;
  791. //cout << p->size << endl;
  792. //p->DumpRawHeader();
  793. //dump_message(p->pBuffer,p->size,timestamp());
  794. //cout << p->size << endl;
  795. unsigned char *tmpbuff=new unsigned char[p->size+2];
  796. //cout << hex << (int)tmpbuff << dec << endl;
  797. length=p->serialize(tmpbuff);
  798. EQProtocolPacket *out=new EQProtocolPacket(OP_Fragment,NULL,MaxLen-4);
  799. *(uint32 *)(out->pBuffer+2)=htonl(p->Size());
  800. memcpy(out->pBuffer+6,tmpbuff,MaxLen-10);
  801. used=MaxLen-10;
  802. SequencedPush(out);
  803. //cout << "Chunk #" << ++i << " size=" << used << ", length-used=" << (length-used) << endl;
  804. while (used<length) {
  805. out=new EQProtocolPacket(OP_Fragment,NULL,MaxLen-4);
  806. chunksize=min(length-used,MaxLen-6);
  807. memcpy(out->pBuffer+2,tmpbuff+used,chunksize);
  808. out->size=chunksize+2;
  809. SequencedPush(out);
  810. used+=chunksize;
  811. //cout << "Chunk #"<< ++i << " size=" << chunksize << ", length-used=" << (length-used) << endl;
  812. }
  813. //cerr << "1: Deleting 0x" << hex << (uint32)(p) << dec << endl;
  814. delete p;
  815. delete[] tmpbuff;
  816. } else {
  817. EQProtocolPacket *out=new EQProtocolPacket(OP_Packet,NULL,p->Size()+2);
  818. p->serialize(out->pBuffer+2);
  819. SequencedPush(out);
  820. //cerr << "2: Deleting 0x" << hex << (uint32)(p) << dec << endl;
  821. delete p;
  822. }
  823. }
  824. void EQStream::SequencedPush(EQProtocolPacket *p)
  825. {
  826. p->setVersion(client_version);
  827. MOutboundQueue.lock();
  828. *(uint16 *)(p->pBuffer)=htons(NextOutSeq);
  829. SequencedQueue.push_back(p);
  830. p->sequence = NextOutSeq;
  831. NextOutSeq++;
  832. MOutboundQueue.unlock();
  833. }
  834. void EQStream::NonSequencedPush(EQProtocolPacket *p)
  835. {
  836. p->setVersion(client_version);
  837. MOutboundQueue.lock();
  838. NonSequencedQueue.push(p);
  839. MOutboundQueue.unlock();
  840. }
  841. void EQStream::SendAck(uint16 seq)
  842. {
  843. uint16 Seq=htons(seq);
  844. SetLastAckSent(seq);
  845. NonSequencedPush(new EQProtocolPacket(OP_Ack,(unsigned char *)&Seq,sizeof(uint16)));
  846. }
  847. void EQStream::SendOutOfOrderAck(uint16 seq)
  848. {
  849. uint16 Seq=htons(seq);
  850. NonSequencedPush(new EQProtocolPacket(OP_OutOfOrderAck,(unsigned char *)&Seq,sizeof(uint16)));
  851. }
  852. bool EQStream::CheckCombineQueue(){
  853. bool ret = true; //processed all packets
  854. MCombineQueueLock.lock();
  855. if(combine_queue.size() > 0){
  856. EQ2Packet* first = combine_queue.front();
  857. combine_queue.pop_front();
  858. if(combine_queue.size() == 0){ //nothing to combine this with
  859. EQ2QueuePacket(first, true);
  860. }
  861. else{
  862. PreparePacket(first);
  863. EQ2Packet* second = 0;
  864. bool combine_worked = false;
  865. int16 count = 0;
  866. while(combine_queue.size()){
  867. count++;
  868. second = combine_queue.front();
  869. combine_queue.pop_front();
  870. PreparePacket(second);
  871. /*if(first->GetRawOpcode() != OP_AppCombined && first->pBuffer[2] == 0){
  872. EQ2Packet* tmp = second;
  873. second = first;
  874. first = tmp;
  875. }*/
  876. if(!first->AppCombine(second)){
  877. first->SetProtocolOpcode(OP_Packet);
  878. if(combine_worked){
  879. SequencedPush(first);
  880. }
  881. else{
  882. EQ2QueuePacket(first, true);
  883. }
  884. first = second;
  885. combine_worked = false;
  886. }
  887. else{
  888. combine_worked = true;
  889. //DumpPacket(first);
  890. }
  891. if(count >= 60 || first->size > 4000){ //other clients need packets too
  892. ret = false;
  893. break;
  894. }
  895. }
  896. if(first){
  897. first->SetProtocolOpcode(OP_Packet);
  898. if(combine_worked){
  899. SequencedPush(first);
  900. }
  901. else{
  902. EQ2QueuePacket(first, true);
  903. }
  904. }
  905. }
  906. }
  907. MCombineQueueLock.unlock();
  908. return ret;
  909. }
  910. void EQStream::CheckResend(int eq_fd){
  911. int32 curr = Timer::GetCurrentTime2();
  912. EQProtocolPacket* packet = 0;
  913. deque<EQProtocolPacket*>::iterator itr;
  914. MResendQue.lock();
  915. for(itr=resend_que.begin();itr!=resend_que.end();itr++){
  916. packet = *itr;
  917. if(packet->attempt_count >= 5){//tried to resend this packet 5 times, client must already have it but didnt ack it
  918. safe_delete(packet);
  919. itr = resend_que.erase(itr);
  920. if(itr == resend_que.end())
  921. break;
  922. }
  923. else{
  924. if((curr - packet->sent_time) < 1000)
  925. continue;
  926. packet->sent_time -=1000;
  927. packet->attempt_count++;
  928. WritePacket(eq_fd, packet);
  929. }
  930. }
  931. MResendQue.unlock();
  932. }
  933. //returns SeqFuture if `seq` is later than `expected_seq`
  934. EQStream::SeqOrder EQStream::CompareSequence(uint16 expected_seq, uint16 seq)
  935. {
  936. if (expected_seq == seq) {
  937. // Curent
  938. return SeqInOrder;
  939. }
  940. else if ((seq > expected_seq && (uint32)seq < ((uint32)expected_seq + EQStream::MaxWindowSize)) || seq < (expected_seq - EQStream::MaxWindowSize)) {
  941. // Future
  942. return SeqFuture;
  943. }
  944. else {
  945. // Past
  946. return SeqPast;
  947. }
  948. }
  949. void EQStream::AckPackets(uint16 seq)
  950. {
  951. std::deque<EQProtocolPacket*>::iterator itr, tmp;
  952. MOutboundQueue.lock();
  953. SeqOrder ord = CompareSequence(SequencedBase, seq);
  954. if (ord == SeqInOrder) {
  955. //they are not acking anything new...
  956. LogWrite(PACKET__DEBUG, 9, "Packet", "Received an ack with no window advancement (seq %u)", seq);
  957. }
  958. else if (ord == SeqPast) {
  959. //they are nacking blocks going back before our buffer, wtf?
  960. LogWrite(PACKET__DEBUG, 9, "Packet", "Received an ack with backward window advancement (they gave %u, our window starts at %u). This is bad" , seq, SequencedBase);
  961. }
  962. else {
  963. LogWrite(PACKET__DEBUG, 9, "Packet", "Received an ack up through sequence %u. Our base is %u", seq, SequencedBase);
  964. //this is a good ack, we get to ack some blocks.
  965. seq++; //we stop at the block right after their ack, counting on the wrap of both numbers.
  966. while (SequencedBase != seq) {
  967. if (SequencedQueue.empty()) {
  968. LogWrite(PACKET__DEBUG, 9, "Packet", "OUT OF PACKETS acked packet with sequence %u. Next send is %u before this", (unsigned long)SequencedBase, SequencedQueue.size());
  969. SequencedBase = NextOutSeq;
  970. break;
  971. }
  972. LogWrite(PACKET__DEBUG, 9, "Packet", "Removing acked packet with sequence %u", (unsigned long)SequencedBase);
  973. //clean out the acked packet
  974. delete SequencedQueue.front();
  975. SequencedQueue.pop_front();
  976. //advance the base sequence number to the seq of the block after the one we just got rid of.
  977. SequencedBase++;
  978. }
  979. if (uint16(SequencedBase + SequencedQueue.size()) != NextOutSeq) {
  980. LogWrite(PACKET__DEBUG, 9, "Packet", "Post-Ack on %u Invalid Sequenced queue: BS %u + SQ %u != NOS %u", seq, SequencedBase, SequencedQueue.size(), NextOutSeq);
  981. }
  982. }
  983. MOutboundQueue.unlock();
  984. }
  985. void EQStream::Write(int eq_fd)
  986. {
  987. queue<EQProtocolPacket *> ReadyToSend;
  988. long maxack;
  989. // Check our rate to make sure we can send more
  990. MRate.lock();
  991. sint32 threshold=RateThreshold;
  992. MRate.unlock();
  993. if (BytesWritten > threshold) {
  994. //cout << "Over threshold: " << BytesWritten << " > " << threshold << endl;
  995. return;
  996. }
  997. MCombinedAppPacket.lock();
  998. EQApplicationPacket *CombPack=CombinedAppPacket;
  999. CombinedAppPacket=NULL;
  1000. MCombinedAppPacket.unlock();
  1001. if (CombPack) {
  1002. SendPacket(CombPack);
  1003. }
  1004. // If we got more packets to we need to ack, send an ack on the highest one
  1005. MAcks.lock();
  1006. maxack=MaxAckReceived;
  1007. // Added from peaks findings
  1008. if (NextAckToSend>LastAckSent || LastAckSent == 0x0000ffff)
  1009. SendAck(NextAckToSend);
  1010. MAcks.unlock();
  1011. // Lock the outbound queues while we process
  1012. MOutboundQueue.lock();
  1013. // Adjust where we start sending in case we get a late ack
  1014. //if (maxack>LastSeqSent)
  1015. // LastSeqSent=maxack;
  1016. // Place to hold the base packet t combine into
  1017. EQProtocolPacket *p=NULL;
  1018. std::deque<EQProtocolPacket*>::iterator sitr;
  1019. // Find the next sequenced packet to send from the "queue"
  1020. sitr = SequencedQueue.begin();
  1021. uint16 count = 0;
  1022. // get to start of packets
  1023. while (sitr != SequencedQueue.end() && (*sitr)->sent_time > 0) {
  1024. ++sitr;
  1025. ++count;
  1026. }
  1027. bool SeqEmpty = false, NonSeqEmpty = false;
  1028. // Loop until both are empty or MaxSends is reached
  1029. while (!SeqEmpty || !NonSeqEmpty) {
  1030. // See if there are more non-sequenced packets left
  1031. if (!NonSequencedQueue.empty()) {
  1032. if (!p) {
  1033. // If we don't have a packet to try to combine into, use this one as the base
  1034. // And remove it form the queue
  1035. p = NonSequencedQueue.front();
  1036. LogWrite(PACKET__DEBUG, 9, "Packet", "Starting combined packet with non-seq packet of len %u",p->size);
  1037. NonSequencedQueue.pop();
  1038. }
  1039. else if (!p->combine(NonSequencedQueue.front())) {
  1040. // Trying to combine this packet with the base didn't work (too big maybe)
  1041. // So just send the base packet (we'll try this packet again later)
  1042. LogWrite(PACKET__DEBUG, 9, "Packet", "Combined packet full at len %u, next non-seq packet is len %u", p->size, (NonSequencedQueue.front())->size);
  1043. ReadyToSend.push(p);
  1044. BytesWritten += p->size;
  1045. p = nullptr;
  1046. if (BytesWritten > threshold) {
  1047. // Sent enough this round, lets stop to be fair
  1048. LogWrite(PACKET__DEBUG, 9, "Packet", "Exceeded write threshold in nonseq (%u > %u)", BytesWritten, threshold);
  1049. break;
  1050. }
  1051. }
  1052. else {
  1053. // Combine worked, so just remove this packet and it's spot in the queue
  1054. LogWrite(PACKET__DEBUG, 9, "Packet", "Combined non-seq packet of len %u, yeilding %u combined", (NonSequencedQueue.front())->size, p->size);
  1055. delete NonSequencedQueue.front();
  1056. NonSequencedQueue.pop();
  1057. }
  1058. }
  1059. else {
  1060. // No more non-sequenced packets
  1061. NonSeqEmpty = true;
  1062. }
  1063. if (sitr != SequencedQueue.end()) {
  1064. uint16 seq_send = SequencedBase + count; //just for logging...
  1065. if (SequencedQueue.empty()) {
  1066. LogWrite(PACKET__DEBUG, 9, "Packet", "Tried to write a packet with an empty queue (%u is past next out %u)", seq_send, NextOutSeq);
  1067. SeqEmpty = true;
  1068. continue;
  1069. }
  1070. if ((*sitr)->acked || (*sitr)->sent_time != 0) {
  1071. ++sitr;
  1072. ++count;
  1073. if (p) {
  1074. LogWrite(PACKET__DEBUG, 9, "Packet", "Final combined packet not full, len %u", p->size);
  1075. ReadyToSend.push(p);
  1076. BytesWritten += p->size;
  1077. p = nullptr;
  1078. }
  1079. LogWrite(PACKET__DEBUG, 9, "Packet", "Not retransmitting seq packet %u because already marked as acked", seq_send);
  1080. }
  1081. else if (!p) {
  1082. // If we don't have a packet to try to combine into, use this one as the base
  1083. // Copy it first as it will still live until it is acked
  1084. p = (*sitr)->Copy();
  1085. LogWrite(PACKET__DEBUG, 9, "Packet", "Starting combined packet with seq packet %u of len %u", seq_send, p->size);
  1086. (*sitr)->sent_time = Timer::GetCurrentTime2();
  1087. ++sitr;
  1088. ++count;
  1089. }
  1090. else if (!p->combine(*sitr)) {
  1091. // Trying to combine this packet with the base didn't work (too big maybe)
  1092. // So just send the base packet (we'll try this packet again later)
  1093. LogWrite(PACKET__DEBUG, 9, "Packet", "Combined packet full at len %u, next seq packet %u is len %u", p->size, seq_send + 1, (*sitr)->size);
  1094. ReadyToSend.push(p);
  1095. BytesWritten += p->size;
  1096. p = nullptr;
  1097. if ((*sitr)->opcode != OP_Fragment && BytesWritten > threshold) {
  1098. // Sent enough this round, lets stop to be fair
  1099. LogWrite(PACKET__DEBUG, 9, "Packet", "Exceeded write threshold in seq (%u > %u)", BytesWritten, threshold);
  1100. break;
  1101. }
  1102. }
  1103. else {
  1104. // Combine worked
  1105. LogWrite(PACKET__DEBUG, 9, "Packet", "Combined seq packet %u of len %u, yeilding %u combined", seq_send, (*sitr)->size, p->size);
  1106. (*sitr)->sent_time = Timer::GetCurrentTime2();
  1107. ++sitr;
  1108. ++count;
  1109. }
  1110. if (uint16(SequencedBase + SequencedQueue.size()) != NextOutSeq) {
  1111. LogWrite(PACKET__DEBUG, 9, "Packet", "Post send Invalid Sequenced queue: BS %u + SQ %u != NOS %u", SequencedBase, SequencedQueue.size(), NextOutSeq);
  1112. }
  1113. }
  1114. else {
  1115. // No more sequenced packets
  1116. SeqEmpty = true;
  1117. }
  1118. }
  1119. MOutboundQueue.unlock(); // Unlock the queue
  1120. // We have a packet still, must have run out of both seq and non-seq, so send it
  1121. if (p) {
  1122. LogWrite(PACKET__DEBUG, 9, "Packet", "Final combined packet not full, len %u", p->size);
  1123. ReadyToSend.push(p);
  1124. BytesWritten += p->size;
  1125. }
  1126. // Send all the packets we "made"
  1127. while (!ReadyToSend.empty()) {
  1128. p = ReadyToSend.front();
  1129. WritePacket(eq_fd, p);
  1130. delete p;
  1131. ReadyToSend.pop();
  1132. }
  1133. //see if we need to send our disconnect and finish our close
  1134. if (SeqEmpty && NonSeqEmpty) {
  1135. //no more data to send
  1136. if (GetState() == CLOSING) {
  1137. MOutboundQueue.lock();
  1138. if (SequencedQueue.size() > 0 )
  1139. LogWrite(PACKET__DEBUG, 9, "Packet", "All outgoing data flushed, client should be disconnecting, awaiting acknowledgement of SequencedQueue.");
  1140. else
  1141. {
  1142. LogWrite(PACKET__DEBUG, 9, "Packet", "All outgoing data flushed, disconnecting client.");
  1143. //we are waiting for the queues to empty, now we can do our disconnect.
  1144. //this packet will not actually go out until the next call to Write().
  1145. SendDisconnect();
  1146. //SetState(CLOSED);
  1147. }
  1148. MOutboundQueue.unlock();
  1149. }
  1150. }
  1151. }
  1152. void EQStream::WritePacket(int eq_fd, EQProtocolPacket *p)
  1153. {
  1154. uint32 length = 0;
  1155. sockaddr_in address;
  1156. unsigned char tmpbuffer[2048];
  1157. address.sin_family = AF_INET;
  1158. address.sin_addr.s_addr=remote_ip;
  1159. address.sin_port=remote_port;
  1160. #ifdef NOWAY
  1161. uint32 ip=address.sin_addr.s_addr;
  1162. cout << "Sending to: "
  1163. << (int)*(unsigned char *)&ip
  1164. << "." << (int)*((unsigned char *)&ip+1)
  1165. << "." << (int)*((unsigned char *)&ip+2)
  1166. << "." << (int)*((unsigned char *)&ip+3)
  1167. << "," << (int)ntohs(address.sin_port) << "(" << p->size << ")" << endl;
  1168. p->DumpRaw();
  1169. cout << "-------------" << endl;
  1170. #endif
  1171. length=p->serialize(buffer);
  1172. if (p->opcode!=OP_SessionRequest && p->opcode!=OP_SessionResponse) {
  1173. if (compressed) {
  1174. BytesWritten -= p->size;
  1175. uint32 newlen=EQProtocolPacket::Compress(buffer,length,tmpbuffer,2048);
  1176. memcpy(buffer,tmpbuffer,newlen);
  1177. length=newlen;
  1178. BytesWritten += newlen;
  1179. }
  1180. if (encoded) {
  1181. EQProtocolPacket::ChatEncode(buffer,length,Key);
  1182. }
  1183. *(uint16 *)(buffer+length)=htons(CRC16(buffer,length,Key));
  1184. length+=2;
  1185. }
  1186. sent_packets++;
  1187. //dump_message_column(buffer,length,"Writer: ");
  1188. //cout << "Raw Data:\n";
  1189. //DumpPacket(buffer, length);
  1190. sendto(eq_fd,(char *)buffer,length,0,(sockaddr *)&address,sizeof(address));
  1191. }
  1192. EQProtocolPacket *EQStream::Read(int eq_fd, sockaddr_in *from)
  1193. {
  1194. int socklen;
  1195. int length=0;
  1196. unsigned char buffer[2048];
  1197. EQProtocolPacket *p=NULL;
  1198. char temp[15];
  1199. socklen=sizeof(sockaddr);
  1200. #ifdef WIN32
  1201. length=recvfrom(eq_fd, (char *)buffer, 2048, 0, (struct sockaddr*)from, (int *)&socklen);
  1202. #else
  1203. length=recvfrom(eq_fd, buffer, 2048, 0, (struct sockaddr*)from, (socklen_t *)&socklen);
  1204. #endif
  1205. if (length>=2) {
  1206. DumpPacket(buffer, length);
  1207. p=new EQProtocolPacket(buffer[1],&buffer[2],length-2);
  1208. uint32 ip=from->sin_addr.s_addr;
  1209. sprintf(temp,"%d.%d.%d.%d:%d",
  1210. *(unsigned char *)&ip,
  1211. *((unsigned char *)&ip+1),
  1212. *((unsigned char *)&ip+2),
  1213. *((unsigned char *)&ip+3),
  1214. ntohs(from->sin_port));
  1215. //cout << timestamp() << "Data from: " << temp << " OpCode 0x" << hex << setw(2) << setfill('0') << (int)p->opcode << dec << endl;
  1216. //dump_message(p->pBuffer,p->size,timestamp());
  1217. }
  1218. return p;
  1219. }
  1220. void EQStream::SendSessionResponse()
  1221. {
  1222. EQProtocolPacket *out=new EQProtocolPacket(OP_SessionResponse,NULL,sizeof(SessionResponse));
  1223. SessionResponse *Response=(SessionResponse *)out->pBuffer;
  1224. Response->Session=htonl(Session);
  1225. Response->MaxLength=htonl(MaxLen);
  1226. Response->UnknownA=2;
  1227. Response->Format=0;
  1228. if (compressed)
  1229. Response->Format|=FLAG_COMPRESSED;
  1230. if (encoded)
  1231. Response->Format|=FLAG_ENCODED;
  1232. Response->Key=htonl(Key);
  1233. out->size=sizeof(SessionResponse);
  1234. NonSequencedPush(out);
  1235. }
  1236. void EQStream::SendSessionRequest()
  1237. {
  1238. EQProtocolPacket *out=new EQProtocolPacket(OP_SessionRequest,NULL,sizeof(SessionRequest));
  1239. SessionRequest *Request=(SessionRequest *)out->pBuffer;
  1240. memset(Request,0,sizeof(SessionRequest));
  1241. Request->Session=htonl(time(NULL));
  1242. Request->MaxLength=htonl(512);
  1243. NonSequencedPush(out);
  1244. }
  1245. void EQStream::SendDisconnect(bool setstate)
  1246. {
  1247. try{
  1248. if(GetState() != ESTABLISHED)
  1249. return;
  1250. EQProtocolPacket *out=new EQProtocolPacket(OP_SessionDisconnect,NULL,sizeof(uint32)+sizeof(int16));
  1251. *(uint32 *)out->pBuffer=htonl(Session);
  1252. out->pBuffer[4] = 0;
  1253. out->pBuffer[5] = 6;
  1254. NonSequencedPush(out);
  1255. if(setstate)
  1256. SetState(CLOSING);
  1257. }
  1258. catch(...){}
  1259. }
  1260. void EQStream::InboundQueuePush(EQApplicationPacket *p)
  1261. {
  1262. MInboundQueue.lock();
  1263. InboundQueue.push_back(p);
  1264. MInboundQueue.unlock();
  1265. }
  1266. EQApplicationPacket *EQStream::PopPacket()
  1267. {
  1268. EQApplicationPacket *p=NULL;
  1269. MInboundQueue.lock();
  1270. if (InboundQueue.size()) {
  1271. p=InboundQueue.front();
  1272. InboundQueue.pop_front();
  1273. }
  1274. MInboundQueue.unlock();
  1275. if(p)
  1276. p->setVersion(client_version);
  1277. return p;
  1278. }
  1279. void EQStream::InboundQueueClear()
  1280. {
  1281. MInboundQueue.lock();
  1282. while(InboundQueue.size()){
  1283. delete InboundQueue.front();
  1284. InboundQueue.pop_front();
  1285. }
  1286. MInboundQueue.unlock();
  1287. }
  1288. void EQStream::EncryptPacket(uchar* data, int16 size){
  1289. if(size>6){
  1290. }
  1291. }
  1292. bool EQStream::HasOutgoingData()
  1293. {
  1294. bool flag;
  1295. //once closed, we have nothing more to say
  1296. if(CheckClosed())
  1297. return(false);
  1298. MOutboundQueue.lock();
  1299. flag=(!NonSequencedQueue.empty());
  1300. if (!flag) {
  1301. flag = (!SequencedQueue.empty());
  1302. }
  1303. MOutboundQueue.unlock();
  1304. if (!flag) {
  1305. MAcks.lock();
  1306. flag= (NextAckToSend>LastAckSent);
  1307. MAcks.unlock();
  1308. }
  1309. if (!flag) {
  1310. MCombinedAppPacket.lock();
  1311. flag=(CombinedAppPacket!=NULL);
  1312. MCombinedAppPacket.unlock();
  1313. }
  1314. return flag;
  1315. }
  1316. void EQStream::OutboundQueueClear()
  1317. {
  1318. MOutboundQueue.lock();
  1319. while(NonSequencedQueue.size()) {
  1320. delete NonSequencedQueue.front();
  1321. NonSequencedQueue.pop();
  1322. }
  1323. while(SequencedQueue.size()) {
  1324. delete SequencedQueue.front();
  1325. SequencedQueue.pop_front();
  1326. }
  1327. MOutboundQueue.unlock();
  1328. }
  1329. void EQStream::Process(const unsigned char *buffer, const uint32 length)
  1330. {
  1331. received_packets++;
  1332. static unsigned char newbuffer[2048];
  1333. uint32 newlength=0;
  1334. #ifdef LE_DEBUG
  1335. printf("ProcessBuffer:\n");
  1336. DumpPacket(buffer, length);
  1337. #endif
  1338. if (EQProtocolPacket::ValidateCRC(buffer,length,Key)) {
  1339. if (compressed) {
  1340. newlength=EQProtocolPacket::Decompress(buffer,length,newbuffer,2048);
  1341. #ifdef LE_DEBUG
  1342. printf("ProcessBufferDecompress:\n");
  1343. DumpPacket(buffer, newlength);
  1344. #endif
  1345. } else {
  1346. memcpy(newbuffer,buffer,length);
  1347. newlength=length;
  1348. if (encoded)
  1349. EQProtocolPacket::ChatDecode(newbuffer,newlength-2,Key);
  1350. }
  1351. if (buffer[1]!=0x01 && buffer[1]!=0x02 && buffer[1]!=0x1d)
  1352. newlength-=2;
  1353. #ifdef LE_DEBUG
  1354. printf("ResultProcessBuffer:\n");
  1355. DumpPacket(buffer, newlength);
  1356. #endif
  1357. EQProtocolPacket p(newbuffer,newlength);
  1358. ProcessPacket(&p);
  1359. ProcessQueue();
  1360. } else {
  1361. #ifdef EQN_DEBUG
  1362. cout << "Incoming packet failed checksum:" <<endl;
  1363. dump_message_column(const_cast<unsigned char *>(buffer),length,"CRC failed: ");
  1364. #endif
  1365. }
  1366. }
  1367. long EQStream::GetMaxAckReceived()
  1368. {
  1369. MAcks.lock();
  1370. long l=MaxAckReceived;
  1371. MAcks.unlock();
  1372. return l;
  1373. }
  1374. long EQStream::GetNextAckToSend()
  1375. {
  1376. MAcks.lock();
  1377. long l=NextAckToSend;
  1378. MAcks.unlock();
  1379. return l;
  1380. }
  1381. long EQStream::GetLastAckSent()
  1382. {
  1383. MAcks.lock();
  1384. long l=LastAckSent;
  1385. MAcks.unlock();
  1386. return l;
  1387. }
  1388. void EQStream::SetMaxAckReceived(uint32 seq)
  1389. {
  1390. deque<EQProtocolPacket *>::iterator itr;
  1391. MAcks.lock();
  1392. MaxAckReceived=seq;
  1393. MAcks.unlock();
  1394. MOutboundQueue.lock();
  1395. if (long(seq) > LastSeqSent)
  1396. LastSeqSent=seq;
  1397. MResendQue.lock();
  1398. EQProtocolPacket* packet = 0;
  1399. for(itr=resend_que.begin();itr!=resend_que.end();itr++){
  1400. packet = *itr;
  1401. if(packet && packet->sequence <= seq){
  1402. safe_delete(packet);
  1403. itr = resend_que.erase(itr);
  1404. if(itr == resend_que.end())
  1405. break;
  1406. }
  1407. }
  1408. MResendQue.unlock();
  1409. MOutboundQueue.unlock();
  1410. }
  1411. void EQStream::SetNextAckToSend(uint32 seq)
  1412. {
  1413. MAcks.lock();
  1414. NextAckToSend=seq;
  1415. MAcks.unlock();
  1416. }
  1417. void EQStream::SetLastAckSent(uint32 seq)
  1418. {
  1419. MAcks.lock();
  1420. LastAckSent=seq;
  1421. MAcks.unlock();
  1422. }
  1423. void EQStream::SetLastSeqSent(uint32 seq)
  1424. {
  1425. MOutboundQueue.lock();
  1426. LastSeqSent=seq;
  1427. MOutboundQueue.unlock();
  1428. }
  1429. void EQStream::SetStreamType(EQStreamType type)
  1430. {
  1431. StreamType=type;
  1432. switch (StreamType) {
  1433. case LoginStream:
  1434. app_opcode_size=1;
  1435. compressed=false;
  1436. encoded=false;
  1437. break;
  1438. case EQ2Stream:
  1439. app_opcode_size=2;
  1440. compressed=false;
  1441. encoded=false;
  1442. break;
  1443. case ChatOrMailStream:
  1444. case ChatStream:
  1445. case MailStream:
  1446. app_opcode_size=1;
  1447. compressed=false;
  1448. encoded=true;
  1449. break;
  1450. case ZoneStream:
  1451. case WorldStream:
  1452. default:
  1453. app_opcode_size=2;
  1454. compressed=true;
  1455. encoded=false;
  1456. break;
  1457. }
  1458. }
  1459. void EQStream::ProcessQueue()
  1460. {
  1461. if (OutOfOrderpackets.empty()) {
  1462. return;
  1463. }
  1464. EQProtocolPacket* qp = NULL;
  1465. while ((qp = RemoveQueue(NextInSeq)) != NULL) {
  1466. //_log(NET__DEBUG, _L "Processing Queued Packet: Seq=%d" __L, NextInSeq);
  1467. ProcessPacket(qp);
  1468. delete qp;
  1469. //_log(NET__APP_TRACE, _L "OP_Packet Queue size=%d" __L, PacketQueue.size());
  1470. }
  1471. }
  1472. EQProtocolPacket* EQStream::RemoveQueue(uint16 seq)
  1473. {
  1474. map<unsigned short, EQProtocolPacket*>::iterator itr;
  1475. EQProtocolPacket* qp = NULL;
  1476. if ((itr = OutOfOrderpackets.find(seq)) != OutOfOrderpackets.end()) {
  1477. qp = itr->second;
  1478. OutOfOrderpackets.erase(itr);
  1479. //_log(NET__APP_TRACE, _L "OP_Packet Queue size=%d" __L, PacketQueue.size());
  1480. }
  1481. return qp;
  1482. }
  1483. void EQStream::Decay()
  1484. {
  1485. MRate.lock();
  1486. uint32 rate=DecayRate;
  1487. MRate.unlock();
  1488. if (BytesWritten>0) {
  1489. BytesWritten-=rate;
  1490. if (BytesWritten<0)
  1491. BytesWritten=0;
  1492. }
  1493. int count = 0;
  1494. MOutboundQueue.lock();
  1495. for (auto sitr = SequencedQueue.begin(); sitr != SequencedQueue.end(); ++sitr, count++) {
  1496. if (!(*sitr)->acked && (*sitr)->sent_time > 0 && ((*sitr)->sent_time + retransmittimeout) < Timer::GetCurrentTime2()) {
  1497. (*sitr)->sent_time = 0;
  1498. LogWrite(PACKET__DEBUG, 9, "Packet", "Timeout exceeded for seq %u. Flagging packet for retransmission", SequencedBase + count);
  1499. }
  1500. }
  1501. MOutboundQueue.unlock();
  1502. }
  1503. void EQStream::AdjustRates(uint32 average_delta)
  1504. {
  1505. if (average_delta && (average_delta <= AVERAGE_DELTA_MAX)) {
  1506. MRate.lock();
  1507. AverageDelta = average_delta;
  1508. RateThreshold = RATEBASE / average_delta;
  1509. DecayRate = DECAYBASE / average_delta;
  1510. if (BytesWritten > RateThreshold)
  1511. BytesWritten = RateThreshold + DecayRate;
  1512. MRate.unlock();
  1513. }
  1514. else {
  1515. AverageDelta = AVERAGE_DELTA_MAX;
  1516. }
  1517. }