flow.c 38 KB

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  1. /* Name: flow.c
  2. *
  3. * This file contains functions for manipulating tagged flows.
  4. *
  5. * Slitheen - a decoy routing system for censorship resistance
  6. * Copyright (C) 2017 Cecylia Bocovich (cbocovic@uwaterloo.ca)
  7. *
  8. * This program is free software: you can redistribute it and/or modify
  9. * it under the terms of the GNU General Public License as published by
  10. * the Free Software Foundation, version 3.
  11. *
  12. * This program is distributed in the hope that it will be useful,
  13. * but WITHOUT ANY WARRANTY; without even the implied warranty of
  14. * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
  15. * GNU General Public License for more details.
  16. *
  17. * You should have received a copy of the GNU General Public License
  18. * along with this program. If not, see <http://www.gnu.org/licenses/>.
  19. *
  20. * Additional permission under GNU GPL version 3 section 7
  21. *
  22. * If you modify this Program, or any covered work, by linking or combining
  23. * it with the OpenSSL library (or a modified version of that library),
  24. * containing parts covered by the terms of the OpenSSL Licence and the
  25. * SSLeay license, the licensors of this Program grant you additional
  26. * permission to convey the resulting work. Corresponding Source for a
  27. * non-source form of such a combination shall include the source code
  28. * for the parts of the OpenSSL library used as well as that of the covered
  29. * work.
  30. */
  31. #include <stdio.h>
  32. #include <stdlib.h>
  33. #include <stdint.h>
  34. #include <pthread.h>
  35. #include <errno.h>
  36. #include <semaphore.h>
  37. #include <string.h>
  38. #include "flow.h"
  39. #include "crypto.h"
  40. #include "slitheen.h"
  41. #include "relay.h"
  42. #include "util.h"
  43. static flow_table *table;
  44. static session_cache *sessions;
  45. client_table *clients;
  46. sem_t flow_table_lock;
  47. /* Initialize the table of tagged flows */
  48. int init_tables(void) {
  49. table = emalloc(sizeof(flow_table));
  50. table->first_entry = NULL;
  51. table->len = 0;
  52. sem_init(&flow_table_lock, 0, 1);
  53. clients = emalloc(sizeof(client_table));
  54. clients->first = NULL;
  55. printf("initialized downstream queue\n");
  56. return 0;
  57. }
  58. /* Add a new flow to the tagged flow table */
  59. flow *add_flow(struct packet_info *info) {
  60. flow_entry *entry = emalloc(sizeof(flow_entry));
  61. flow *new_flow = emalloc(sizeof(flow));
  62. entry->f = new_flow;
  63. entry->next = NULL;
  64. new_flow->src_ip = info->ip_hdr->src;
  65. new_flow->dst_ip = info->ip_hdr->dst;
  66. new_flow->src_port = info->tcp_hdr->src_port;
  67. new_flow->dst_port = info->tcp_hdr->dst_port;
  68. new_flow->ref_ctr = 1;
  69. new_flow->removed = 0;
  70. new_flow->upstream_app_data = emalloc(sizeof(app_data_queue));
  71. new_flow->upstream_app_data->first_packet = NULL;
  72. new_flow->downstream_app_data = emalloc(sizeof(app_data_queue));
  73. new_flow->downstream_app_data->first_packet = NULL;
  74. new_flow->upstream_seq_num = ntohl(info->tcp_hdr->sequence_num);
  75. new_flow->downstream_seq_num = ntohl(info->tcp_hdr->ack_num);
  76. new_flow->us_frame_queue = emalloc(sizeof(frame_queue));
  77. new_flow->us_frame_queue->first_frame = NULL;
  78. new_flow->ds_frame_queue = emalloc(sizeof(frame_queue));
  79. new_flow->ds_frame_queue->first_frame = NULL;
  80. new_flow->streams=NULL;
  81. new_flow->downstream_queue=NULL;
  82. new_flow->client_ptr=NULL;
  83. sem_init(&(new_flow->flow_lock), 0, 1);
  84. new_flow->state = TLS_CLNT_HELLO;
  85. new_flow->in_encrypted = 0;
  86. new_flow->out_encrypted = 0;
  87. new_flow->application = 0;
  88. new_flow->stall = 0;
  89. new_flow->extended_master_secret = 0;
  90. new_flow->resume_session = 0;
  91. new_flow->current_session = NULL;
  92. new_flow->us_hs_queue = init_queue();
  93. new_flow->ds_hs_queue = init_queue();
  94. new_flow->us_packet_chain = emalloc(sizeof(packet_chain));
  95. new_flow->us_packet_chain->expected_seq_num = ntohl(info->tcp_hdr->sequence_num);
  96. new_flow->us_packet_chain->record_len = 0;
  97. new_flow->us_packet_chain->remaining_record_len = 0;
  98. new_flow->us_packet_chain->first_packet = NULL;
  99. new_flow->ds_packet_chain = emalloc(sizeof(packet_chain));
  100. new_flow->ds_packet_chain->expected_seq_num = ntohl(info->tcp_hdr->ack_num);
  101. new_flow->ds_packet_chain->record_len = 0;
  102. new_flow->ds_packet_chain->remaining_record_len = 0;
  103. new_flow->ds_packet_chain->first_packet = NULL;
  104. sem_init(&(new_flow->packet_chain_lock), 0, 1);
  105. new_flow->upstream_queue = NULL;
  106. new_flow->upstream_remaining = 0;
  107. sem_init(&(new_flow->upstream_queue_lock), 0, 1);
  108. new_flow->outbox = NULL;
  109. new_flow->outbox_len = 0;
  110. new_flow->outbox_offset = 0;
  111. new_flow->partial_record_header = NULL;
  112. new_flow->partial_record_header_len = 0;
  113. new_flow->remaining_record_len = 0;
  114. new_flow->remaining_response_len = 0;
  115. new_flow->httpstate = PARSE_HEADER;
  116. new_flow->replace_response = 0;
  117. new_flow->ecdh = NULL;
  118. new_flow->srvr_key = NULL;
  119. new_flow->dh = NULL;
  120. new_flow->hs_md_ctx = EVP_MD_CTX_create();
  121. const EVP_MD *md = EVP_sha256();
  122. EVP_DigestInit_ex(new_flow->hs_md_ctx, md, NULL);
  123. new_flow->cipher = NULL;
  124. new_flow->clnt_read_ctx = NULL;
  125. new_flow->clnt_write_ctx = NULL;
  126. new_flow->srvr_read_ctx = NULL;
  127. new_flow->srvr_write_ctx = NULL;
  128. memset(new_flow->read_seq, 0, 8);
  129. memset(new_flow->write_seq, 0, 8);
  130. sem_wait(&flow_table_lock);
  131. flow_entry *last = table->first_entry;
  132. if(last == NULL){
  133. table->first_entry = entry;
  134. } else {
  135. for(int i=0; i< table->len-1; i++){
  136. last = last->next;
  137. }
  138. last->next = entry;
  139. }
  140. table->len ++;
  141. sem_post(&flow_table_lock);
  142. return new_flow;
  143. }
  144. /** Observes TLS handshake messages and updates the state of
  145. * the flow
  146. *
  147. * Inputs:
  148. * f: the tagged flow
  149. * record: a complete TLS record
  150. *
  151. * Output:
  152. * 0 on success, 1 on failure
  153. */
  154. int update_flow(flow *f, uint8_t *record, uint8_t incoming) {
  155. const struct record_header *record_hdr;
  156. const struct handshake_header *handshake_hdr;
  157. uint8_t *p;
  158. record_hdr = (struct record_header*) record;
  159. int record_len;
  160. record_len = RECORD_LEN(record_hdr)+RECORD_HEADER_LEN;
  161. switch(record_hdr->type){
  162. case HS:
  163. p = record;
  164. #ifdef DEBUG_HS_EXTRA
  165. printf("Received handshake packet (%x:%d -> %x:%d) (incoming: %d)\n", f->src_ip.s_addr, ntohs(f->src_port), f->dst_ip.s_addr, ntohs(f->dst_port), incoming);
  166. for(int i=0; i< record_len; i++){
  167. printf("%02x ", p[i]);
  168. }
  169. printf("\n");
  170. #endif
  171. p += RECORD_HEADER_LEN;
  172. if((incoming && f->in_encrypted) || (!incoming && f->out_encrypted)){
  173. #ifdef DEBUG_HS
  174. printf("Decrypting finished (%d bytes) (%x:%d -> %x:%d) (incoming: %d)\n", record_len - RECORD_HEADER_LEN, f->src_ip.s_addr, ntohs(f->src_port), f->dst_ip.s_addr, ntohs(f->dst_port), incoming);
  175. printf("Finished ciphertext:\n");
  176. for(int i=0; i< record_len; i++){
  177. printf("%02x ", record[i]);
  178. }
  179. printf("\n");
  180. #endif
  181. int32_t n = encrypt(f, p, p, record_len - RECORD_HEADER_LEN, incoming, 0x16, 0, 0);
  182. if(n<=0){
  183. printf("Error decrypting finished (%x:%d -> %x:%d) (incoming: %d)\n", f->src_ip.s_addr, ntohs(f->src_port), f->dst_ip.s_addr, ntohs(f->dst_port), incoming);
  184. printf("record:\n");
  185. for(int i=0; i< 12; i++){
  186. printf("%02x ", p[i]);
  187. }
  188. }
  189. #ifdef DEBUG_HS
  190. printf("Finished decrypted: (%x:%d -> %x:%d)\n", f->src_ip.s_addr, ntohs(f->src_port), f->dst_ip.s_addr, ntohs(f->dst_port));
  191. #endif
  192. p += EVP_GCM_TLS_EXPLICIT_IV_LEN;
  193. #ifdef DEBUG_HS
  194. printf("record:\n");
  195. for(int i=0; i< n; i++){
  196. printf("%02x ", p[i]);
  197. }
  198. printf("\n");
  199. #endif
  200. if(p[0] != 0x14){
  201. p[0] = 0x20; //trigger error
  202. }
  203. if(incoming){
  204. f->in_encrypted = 2;
  205. } else {
  206. f->out_encrypted = 2;
  207. }
  208. }
  209. handshake_hdr = (struct handshake_header*) p;
  210. f->state = handshake_hdr->type;
  211. switch(f->state){
  212. case TLS_CLNT_HELLO:
  213. #ifdef DEBUG_HS
  214. printf("Received tagged client hello (%x:%d -> %x:%d)\n", f->src_ip.s_addr, ntohs(f->src_port), f->dst_ip.s_addr, ntohs(f->dst_port));
  215. #endif
  216. if(check_extensions(f, p, HANDSHAKE_MESSAGE_LEN(handshake_hdr))){
  217. fprintf(stderr, "Error checking session, might cause problems\n");
  218. }
  219. if(update_handshake_hash(f, p)){
  220. fprintf(stderr, "Error updating finish has with CLNT_HELLO msg\n");
  221. remove_flow(f);
  222. goto err;
  223. }
  224. break;
  225. case TLS_SERV_HELLO:
  226. #ifdef DEBUG_HS
  227. printf("Received server hello (%x:%d -> %x:%d)\n", f->src_ip.s_addr, ntohs(f->src_port), f->dst_ip.s_addr, ntohs(f->dst_port));
  228. #endif
  229. if(f->resume_session){
  230. if(verify_session_id(f,p)){
  231. fprintf(stderr, "Failed to verify session id\n");
  232. }
  233. } else {
  234. if(save_session_id(f,p)){
  235. fprintf(stderr, "Failed to save session id\n");
  236. }
  237. }
  238. if(verify_extensions(f,p, HANDSHAKE_MESSAGE_LEN(handshake_hdr))){
  239. fprintf(stderr, "Failed to verify extensions\n");
  240. }
  241. if(extract_server_random(f, p)){
  242. fprintf(stderr, "Failed to extract server random nonce\n");
  243. remove_flow(f);
  244. goto err;
  245. }
  246. if(update_handshake_hash(f, p)){
  247. fprintf(stderr, "Error updating finish has with CLNT_HELLO msg\n");
  248. remove_flow(f);
  249. goto err;
  250. }
  251. break;
  252. case TLS_NEW_SESS:
  253. #ifdef DEBUG_HS
  254. printf("Received new session\n");
  255. #endif
  256. if(save_session_ticket(f, p, HANDSHAKE_MESSAGE_LEN(handshake_hdr))){
  257. fprintf(stderr, "Failed to save session ticket\n");
  258. }
  259. break;
  260. case TLS_CERT:
  261. #ifdef DEBUG_HS
  262. printf("Received cert\n");
  263. #endif
  264. if(update_handshake_hash(f, p)){
  265. fprintf(stderr, "Error updating finish has with CLNT_HELLO msg\n");
  266. remove_flow(f);
  267. goto err;
  268. }
  269. break;
  270. case TLS_CERT_STATUS:
  271. #ifdef DEBUG_HS
  272. printf("Received certificate status\n");
  273. #endif
  274. if(update_handshake_hash(f, p)){
  275. fprintf(stderr, "Error updating finish has with CLNT_HELLO msg\n");
  276. remove_flow(f);
  277. goto err;
  278. }
  279. break;
  280. case TLS_SRVR_KEYEX:
  281. #ifdef DEBUG_HS
  282. printf("Received server keyex\n");
  283. #endif
  284. if(extract_parameters(f, p)){
  285. printf("Error extracting params\n");
  286. remove_flow(f);
  287. goto err;
  288. }
  289. if(update_handshake_hash(f, p)){
  290. fprintf(stderr, "Error updating finish has with CLNT_HELLO msg\n");
  291. remove_flow(f);
  292. goto err;
  293. }
  294. break;
  295. case TLS_CERT_REQ:
  296. if(update_handshake_hash(f, p)){
  297. fprintf(stderr, "Error updating finish has with CLNT_HELLO msg\n");
  298. remove_flow(f);
  299. goto err;
  300. }
  301. break;
  302. case TLS_SRVR_HELLO_DONE:
  303. #ifdef DEBUG_HS
  304. printf("Received server hello done\n");
  305. #endif
  306. if(update_handshake_hash(f, p)){
  307. fprintf(stderr, "Error updating finish has with CLNT_HELLO msg\n");
  308. remove_flow(f);
  309. goto err;
  310. }
  311. break;
  312. case TLS_CERT_VERIFY:
  313. #ifdef DEBUG_HS
  314. printf("received cert verify\n");
  315. #endif
  316. if(update_handshake_hash(f, p)){
  317. fprintf(stderr, "Error updating finish has with CLNT_HELLO msg\n");
  318. remove_flow(f);
  319. goto err;
  320. }
  321. break;
  322. case TLS_CLNT_KEYEX:
  323. #ifdef DEBUG_HS
  324. printf("Received client key exchange\n");
  325. #endif
  326. if(update_handshake_hash(f, p)){
  327. fprintf(stderr, "Error updating finish has with CLNT_HELLO msg\n");
  328. remove_flow(f);
  329. goto err;
  330. }
  331. if(compute_master_secret(f)){
  332. printf("Error computing master secret\n");
  333. remove_flow(f);
  334. goto err;
  335. }
  336. break;
  337. case TLS_FINISHED:
  338. #ifdef DEBUG_HS
  339. printf("Received finished (%d) (%x:%d -> %x:%d)\n", incoming, f->src_ip.s_addr, ntohs(f->src_port), f->dst_ip.s_addr, ntohs(f->dst_port));
  340. #endif
  341. if(!incoming) {
  342. // We only care about incoming
  343. // Finished messages
  344. break;
  345. }
  346. if(mark_finished_hash(f, p)){
  347. fprintf(stderr, "Error marking finished hash\n");
  348. remove_flow(f);
  349. goto err;
  350. }
  351. //re-encrypt finished message
  352. int32_t n = encrypt(f, record+RECORD_HEADER_LEN, record+RECORD_HEADER_LEN, record_len - (RECORD_HEADER_LEN+16), incoming, 0x16, 1, 1);
  353. #ifdef HS_DEBUG
  354. printf("New finished ciphertext:\n");
  355. for(int i=0; i< record_len; i++){
  356. printf("%02x ", record[i]);
  357. }
  358. printf("\n");
  359. #endif
  360. if(n<=0){
  361. printf("Error re-encrypting finished (%x:%d -> %x:%d)\n", f->src_ip.s_addr, ntohs(f->src_port),
  362. f->dst_ip.s_addr, ntohs(f->dst_port));
  363. }
  364. if((f->in_encrypted == 2) && (f->out_encrypted == 2)){
  365. f->application = 1;
  366. printf("Handshake complete!\n");
  367. }
  368. break;
  369. default:
  370. printf("Error: unrecognized hs message? (%x:%d -> %x:%d)...\n", f->src_ip.s_addr, ntohs(f->src_port), f->dst_ip.s_addr, ntohs(f->dst_port));
  371. remove_flow(f);
  372. goto err;
  373. }
  374. break;
  375. case APP:
  376. printf("Application Data (%x:%d -> %x:%d)...\n", f->src_ip.s_addr, ntohs(f->src_port), f->dst_ip.s_addr, ntohs(f->dst_port));
  377. break;
  378. case CCS:
  379. #ifdef DEBUG_HS
  380. printf("CCS (%x:%d -> %x:%d) \n", f->src_ip.s_addr, ntohs(f->src_port), f->dst_ip.s_addr, ntohs(f->dst_port));
  381. #endif
  382. /*Initialize ciphers */
  383. if ((!f->in_encrypted) && (!f->out_encrypted)){
  384. if(init_ciphers(f)){
  385. remove_flow(f);
  386. goto err;
  387. }
  388. }
  389. if(incoming){
  390. f->in_encrypted = 1;
  391. } else {
  392. f->out_encrypted = 1;
  393. }
  394. break;
  395. case ALERT:
  396. p = record;
  397. p += RECORD_HEADER_LEN;
  398. if(((incoming) && (f->in_encrypted > 0)) || ((!incoming) && (f->out_encrypted > 0))){
  399. //decrypt alert
  400. encrypt(f, p, p, record_len - RECORD_HEADER_LEN, incoming, 0x16, 0, 0);
  401. p += EVP_GCM_TLS_EXPLICIT_IV_LEN;
  402. }
  403. printf("Alert (%x:%d -> %x:%d) %02x %02x \n", f->src_ip.s_addr, ntohs(f->src_port), f->dst_ip.s_addr, ntohs(f->dst_port), p[0], p[1]);
  404. fflush(stdout);
  405. //re-encrypt alert
  406. if(((incoming) && (f->in_encrypted > 0)) || ((!incoming) && (f->out_encrypted > 0))){
  407. int32_t n = encrypt(f, record+RECORD_HEADER_LEN, record+RECORD_HEADER_LEN, record_len - (RECORD_HEADER_LEN+16), incoming, 0x16, 1, 1);
  408. if(n <= 0){
  409. printf("Error re-encrypting alert\n");
  410. }
  411. }
  412. break;
  413. case HB:
  414. printf("Heartbeat\n");
  415. break;
  416. default:
  417. printf("Error: Not a Record (%x:%d -> %x:%d)\n", f->src_ip.s_addr, ntohs(f->src_port), f->dst_ip.s_addr, ntohs(f->dst_port));
  418. fflush(stdout);
  419. remove_flow(f);
  420. goto err;
  421. }
  422. return 0;
  423. err:
  424. return 1;
  425. }
  426. /** Removes the tagged flow from the flow table: happens when
  427. * the station receives a TCP RST or FIN packet
  428. *
  429. * Input:
  430. * index: the index into the flow table of the tagged flow
  431. *
  432. * Output:
  433. * 0 on success, 1 on failure
  434. */
  435. int remove_flow(flow *f) {
  436. sem_wait(&flow_table_lock);
  437. //decrement reference counter
  438. f->ref_ctr--;
  439. if(f->ref_ctr){ //if there are still references to f, wait to free it
  440. printf("Cannot free %p, still %d reference(s)\n", f, f->ref_ctr);
  441. f->removed = 1;
  442. sem_post(&flow_table_lock);
  443. return 0;
  444. }
  445. if(f->removed)
  446. printf("Trying again to free\n");
  447. frame *first_frame = f->us_frame_queue->first_frame;
  448. while(first_frame != NULL){
  449. printf("Injecting delayed frame (seq = %u )\n", first_frame->seq_num);
  450. inject_packet(first_frame->iargs, first_frame->header, first_frame->packet);
  451. frame *tmp = first_frame->next;
  452. free(first_frame);
  453. first_frame = tmp;
  454. }
  455. free(f->us_frame_queue);
  456. first_frame = f->ds_frame_queue->first_frame;
  457. while(first_frame != NULL){
  458. printf("Injecting delayed frame (seq = %u )\n", first_frame->seq_num);
  459. inject_packet(first_frame->iargs, first_frame->header, first_frame->packet);
  460. frame *tmp = first_frame->next;
  461. free(first_frame);
  462. first_frame = tmp;
  463. }
  464. free(f->ds_frame_queue);
  465. //Empty application data queues
  466. packet *tmp = f->upstream_app_data->first_packet;
  467. while(tmp != NULL){
  468. f->upstream_app_data->first_packet = tmp->next;
  469. free(tmp->data);
  470. free(tmp);
  471. tmp = f->upstream_app_data->first_packet;
  472. }
  473. free(f->upstream_app_data);
  474. tmp = f->downstream_app_data->first_packet;
  475. while(tmp != NULL){
  476. f->downstream_app_data->first_packet = tmp->next;
  477. free(tmp->data);
  478. free(tmp);
  479. tmp = f->downstream_app_data->first_packet;
  480. }
  481. free(f->downstream_app_data);
  482. if(f->ds_hs_queue != NULL){
  483. remove_queue(f->ds_hs_queue);
  484. }
  485. if(f->us_hs_queue != NULL){
  486. remove_queue(f->us_hs_queue);
  487. }
  488. //free partial record headers
  489. if(f->partial_record_header_len > 0){
  490. f->partial_record_header_len = 0;
  491. free(f->partial_record_header);
  492. }
  493. //Clean up cipher ctxs
  494. #if OPENSSL_VERSION_NUMBER >= 0x1010000eL
  495. EVP_MD_CTX_free(f->hs_md_ctx);
  496. #else
  497. EVP_MD_CTX_cleanup(f->hs_md_ctx);
  498. if(f->hs_md_ctx != NULL){
  499. EVP_MD_CTX_destroy(f->hs_md_ctx);
  500. }
  501. #endif
  502. if(f->clnt_read_ctx != NULL){
  503. EVP_CIPHER_CTX_cleanup(f->clnt_read_ctx);
  504. OPENSSL_free(f->clnt_read_ctx);
  505. f->clnt_read_ctx = NULL;
  506. }
  507. if(f->clnt_write_ctx != NULL){
  508. EVP_CIPHER_CTX_cleanup(f->clnt_write_ctx);
  509. OPENSSL_free(f->clnt_write_ctx);
  510. f->clnt_write_ctx = NULL;
  511. }
  512. if(f->srvr_read_ctx != NULL){
  513. EVP_CIPHER_CTX_free(f->srvr_read_ctx);
  514. }
  515. if(f->srvr_write_ctx != NULL){
  516. EVP_CIPHER_CTX_free(f->srvr_write_ctx);
  517. }
  518. if(f->ecdh != NULL){
  519. EC_KEY_free(f->ecdh);
  520. }
  521. if(f->dh != NULL){
  522. DH_free(f->dh);
  523. }
  524. if(f->current_session != NULL && f->resume_session == 1){
  525. if( f->current_session->session_ticket != NULL){
  526. free(f->current_session->session_ticket);
  527. }
  528. free(f->current_session);
  529. }
  530. if(f->ds_packet_chain != NULL){
  531. packet *tmp = f->ds_packet_chain->first_packet;
  532. while(tmp != NULL){
  533. f->ds_packet_chain->first_packet = tmp->next;
  534. printf("Freed data %p\n", tmp->data);
  535. printf("Freed packet %p\n", tmp);
  536. free(tmp->data);
  537. free(tmp);
  538. tmp = f->ds_packet_chain->first_packet;
  539. }
  540. }
  541. free(f->ds_packet_chain);
  542. if(f->us_packet_chain != NULL){
  543. packet *tmp = f->us_packet_chain->first_packet;
  544. while(tmp != NULL){
  545. f->us_packet_chain->first_packet = tmp->next;
  546. printf("Freed data %p\n", tmp->data);
  547. printf("Freed packet %p\n", tmp);
  548. free(tmp->data);
  549. free(tmp);
  550. tmp = f->us_packet_chain->first_packet;
  551. }
  552. }
  553. free(f->us_packet_chain);
  554. if(f->upstream_queue != NULL){
  555. queue_block *tmp = f->upstream_queue;
  556. while(tmp != NULL){
  557. f->upstream_queue = tmp->next;
  558. printf("Freed data %p\n", tmp->data);
  559. printf("Freed packet %p\n", tmp);
  560. free(tmp->data);
  561. free(tmp);
  562. tmp = f->upstream_queue;
  563. }
  564. }
  565. flow_entry *entry = table->first_entry;
  566. if(entry->f == f){
  567. table->first_entry = entry->next;
  568. free(entry->f);
  569. free(entry);
  570. table->len --;
  571. } else {
  572. flow_entry *next;
  573. for(int i=0; i< table->len; i++){
  574. if(entry->next != NULL){
  575. next = entry->next;
  576. } else {
  577. printf("Flow not in table\n");
  578. break;
  579. }
  580. if(next->f == f){
  581. entry->next = next->next;
  582. free(next->f);
  583. free(next);
  584. table->len --;
  585. break;
  586. }
  587. entry = next;
  588. }
  589. }
  590. sem_post(&flow_table_lock);
  591. return 1;
  592. }
  593. /** Returns the index of a flow in the flow table if
  594. * it exists, returns 0 if it is not present.
  595. *
  596. * Inputs:
  597. * observed: details for the observed flow
  598. *
  599. * Output:
  600. * flow struct from table or NULL if it doesn't exist
  601. */
  602. flow *check_flow(struct packet_info *info){
  603. /* Loop through flows in table and see if it exists */
  604. int i;
  605. flow_entry *entry = table->first_entry;
  606. flow *candidate;
  607. flow *found = NULL;
  608. if(entry == NULL)
  609. return NULL;
  610. sem_wait(&flow_table_lock);
  611. /* Check first in this direction */
  612. for(i=0; i<table->len; i++){
  613. if(entry == NULL){
  614. printf("Error: entry is null\n");
  615. break;
  616. }
  617. candidate = entry->f;
  618. if(candidate->src_ip.s_addr == info->ip_hdr->src.s_addr){
  619. if(candidate->dst_ip.s_addr == info->ip_hdr->dst.s_addr){
  620. if(candidate->src_port == info->tcp_hdr->src_port){
  621. if(candidate->dst_port == info->tcp_hdr->dst_port){
  622. found = candidate;
  623. }
  624. }
  625. }
  626. }
  627. entry = entry->next;
  628. }
  629. entry = table->first_entry;
  630. /* Then in the other direction */
  631. for(i=0; i<table->len; i++){
  632. if(entry == NULL){
  633. printf("Error: entry is null\n");
  634. break;
  635. }
  636. candidate = entry->f;
  637. if(candidate->src_ip.s_addr == info->ip_hdr->dst.s_addr){
  638. if(candidate->dst_ip.s_addr == info->ip_hdr->src.s_addr){
  639. if(candidate->src_port == info->tcp_hdr->dst_port){
  640. if(candidate->dst_port == info->tcp_hdr->src_port){
  641. found = candidate;
  642. }
  643. }
  644. }
  645. }
  646. entry = entry->next;
  647. }
  648. if(found != NULL){
  649. found->ref_ctr++;
  650. }
  651. sem_post(&flow_table_lock);
  652. if(found != NULL && found->removed){
  653. remove_flow(found);
  654. found=NULL;
  655. }
  656. return found;
  657. }
  658. int init_session_cache(void){
  659. sessions = emalloc(sizeof(session_cache));
  660. sessions->length = 0;
  661. sessions->first_session = NULL;
  662. return 0;
  663. }
  664. /** Called from ServerHello, verifies that the session id returned matches
  665. * the session id requested from the client hello
  666. *
  667. * Input:
  668. * f: the tagged flow
  669. * hs: a pointer to the ServerHello message
  670. *
  671. * Output:
  672. * 0 if success, 1 if failed
  673. */
  674. int verify_session_id(flow *f, uint8_t *hs){
  675. if (f->current_session == NULL)
  676. return 1;
  677. //increment pointer to point to sessionid
  678. uint8_t *p = hs + HANDSHAKE_HEADER_LEN;
  679. p += 2; //skip version
  680. p += SSL3_RANDOM_SIZE; //skip random
  681. uint8_t id_len = (uint8_t) p[0];
  682. p ++;
  683. //check to see if it matches flow's session id set by ClientHello
  684. if(f->current_session->session_id_len > 0 && !memcmp(f->current_session->session_id, p, id_len)){
  685. //if it matched, update flow with master secret :D
  686. #ifdef DEBUG_HS
  687. printf("Session id matched!\n");
  688. printf("First session id (%p->%p):", sessions, sessions->first_session);
  689. #endif
  690. session *last = sessions->first_session;
  691. int found = 0;
  692. for(int i=0; ((i<sessions->length) && (!found)); i++){
  693. #ifdef DEBUG_HS
  694. printf("Checking saved session id: ");
  695. for (int j=0; j< last->session_id_len; j++){
  696. printf("%02x ", last->session_id[j]);
  697. }
  698. printf("\n");
  699. #endif
  700. if(!memcmp(last->session_id, f->current_session->session_id, id_len)){
  701. memcpy(f->master_secret, last->master_secret, SSL3_MASTER_SECRET_SIZE);
  702. found = 1;
  703. }
  704. last = last->next;
  705. }
  706. if((!found) && (f->current_session->session_ticket_len > 0)){
  707. last = sessions->first_session;
  708. for(int i=0; ((i<sessions->length) && (!found)); i++){
  709. if( (last->session_ticket != NULL) && (last->session_ticket_len == f->current_session->session_ticket_len)){
  710. if(!memcmp(last->session_ticket, f->current_session->session_ticket, f->current_session->session_ticket_len)){
  711. memcpy(f->master_secret, last->master_secret, SSL3_MASTER_SECRET_SIZE);
  712. found = 1;
  713. #ifdef DEBUG_HS
  714. printf("Found new session ticket (%x:%d -> %x:%d)\n", f->src_ip.s_addr, f->src_port, f->dst_ip.s_addr, f->dst_port);
  715. for(int i=0; i< last->session_ticket_len; i++){
  716. printf("%02x ", last->session_ticket[i]);
  717. }
  718. printf("\n");
  719. #endif
  720. }
  721. }
  722. last = last->next;
  723. }
  724. }
  725. } else if (f->current_session->session_id_len == 0){
  726. //search for session ticket in session cache
  727. printf("clnt session id was empty, looking for ticket\n");
  728. session *last = sessions->first_session;
  729. if(f->current_session->session_ticket_len > 0){
  730. last = sessions->first_session;
  731. for(int i=0; i<sessions->length; i++){
  732. if(last->session_ticket_len == f->current_session->session_ticket_len){
  733. if(!memcmp(last->session_ticket, f->current_session->session_ticket, f->current_session->session_ticket_len)){
  734. memcpy(f->master_secret, last->master_secret, SSL3_MASTER_SECRET_SIZE);
  735. #ifdef DEBUG_HS
  736. printf("Found new session ticket (%x:%d -> %x:%d)\n", f->src_ip.s_addr, f->src_port, f->dst_ip.s_addr, f->dst_port);
  737. for(int i=0; i< last->session_ticket_len; i++){
  738. printf("%02x ", last->session_ticket[i]);
  739. }
  740. printf("\n");
  741. break;
  742. #endif
  743. }
  744. }
  745. last = last->next;
  746. }
  747. }
  748. } else if (f->current_session->session_id_len > 0){
  749. //server refused resumption, save new session id
  750. printf("session ids did not match, saving new id\n");
  751. save_session_id(f, p);
  752. }
  753. return 0;
  754. }
  755. /* Called from ClientHello. Checks to see if the session id len is > 0. If so,
  756. * saves sessionid for later verification. Also checks to see if a session
  757. * ticket is included as an extension.
  758. *
  759. * Input:
  760. * f: the tagged flow
  761. * hs: a pointer to the ServerHello message
  762. *
  763. * Output:
  764. * 0 if success, 1 if failed
  765. */
  766. int check_extensions(flow *f, uint8_t *hs, uint32_t len){
  767. uint8_t *p = hs + HANDSHAKE_HEADER_LEN;
  768. p += 2; //skip version
  769. p += SSL3_RANDOM_SIZE; //skip random
  770. session *new_session = emalloc(sizeof(session));
  771. new_session->session_id_len = (uint8_t) p[0];
  772. new_session->session_ticket_len = 0;
  773. new_session->session_ticket = NULL;
  774. p ++;
  775. if(new_session->session_id_len > 0){
  776. f->resume_session = 1;
  777. memcpy(new_session->session_id, p, new_session->session_id_len);
  778. new_session->next = NULL;
  779. #ifdef DEBUG_HS
  780. printf("Requested new session (%x:%d -> %x:%d)\n", f->src_ip.s_addr, f->src_port, f->dst_ip.s_addr, f->dst_port);
  781. printf("session id: \n");
  782. for(int i=0; i< new_session->session_id_len; i++){
  783. printf("%02x ", p[i]);
  784. }
  785. printf("\n");
  786. #endif
  787. f->current_session = new_session;
  788. }
  789. p += new_session->session_id_len;
  790. //check to see if there is a session ticket included
  791. //skip to extensions
  792. uint16_t ciphersuite_len = (p[0] << 8) + p[1];
  793. p += 2 + ciphersuite_len;
  794. uint8_t compress_meth_len = p[0];
  795. p += 1 + compress_meth_len;
  796. //search for SessionTicket TLS extension
  797. if(2 + SSL3_RANDOM_SIZE + new_session->session_id_len + 1 + 2 + ciphersuite_len + 1 + compress_meth_len > len){
  798. //no extension
  799. if(f->current_session == NULL)
  800. free(new_session);
  801. return 0;
  802. }
  803. uint16_t extensions_len = (p[0] << 8) + p[1];
  804. p += 2;
  805. while(extensions_len > 0){
  806. uint16_t type = (p[0] << 8) + p[1];
  807. p += 2;
  808. uint16_t ext_len = (p[0] << 8) + p[1];
  809. p += 2;
  810. if(type == 0x23){
  811. if(ext_len > 0){
  812. f->resume_session = 1;
  813. new_session->session_ticket_len = ext_len;
  814. new_session->session_ticket = ecalloc(1, ext_len);
  815. memcpy(new_session->session_ticket, p, ext_len);
  816. f->current_session = new_session;
  817. }
  818. }
  819. if(type == 0x17){//Extended Master Secret
  820. f->extended_master_secret = 1;
  821. }
  822. p += ext_len;
  823. extensions_len -= (4 + ext_len);
  824. }
  825. if(!f->resume_session){
  826. free(new_session);
  827. f->stall = 0; //unstall the next packet
  828. }
  829. return 0;
  830. }
  831. /* Called from ServerHello. Cycles through extensions and verifies their use
  832. * in the flow.
  833. *
  834. * Input:
  835. * f: the tagged flow
  836. * hs: a pointer to the ServerHello message
  837. *
  838. * Output:
  839. * 0 if success, 1 if failed
  840. */
  841. int verify_extensions(flow *f, uint8_t *hs, uint32_t len){
  842. uint8_t extended_master_secret = 0;
  843. uint8_t *p = hs + HANDSHAKE_HEADER_LEN;
  844. p += 2; //skip version
  845. p += SSL3_RANDOM_SIZE; //skip random
  846. p += (uint8_t) p[0] + 1; //skip session id
  847. p += 2; //skip cipher suite
  848. p ++; //skip compression method
  849. //cycle through extensions
  850. uint16_t extensions_len = (p[0] << 8) + p[1];
  851. p += 2;
  852. while(extensions_len > 0){
  853. uint16_t type = (p[0] << 8) + p[1];
  854. p += 2;
  855. uint16_t ext_len = (p[0] << 8) + p[1];
  856. p += 2;
  857. if(type == 0x17){
  858. extended_master_secret = 1;
  859. }
  860. p += ext_len;
  861. extensions_len -= (4 + ext_len);
  862. }
  863. //Check to make sure both client and server included extension
  864. if(!f->extended_master_secret || !extended_master_secret){
  865. f->extended_master_secret = 0;
  866. }
  867. #ifdef DEBUG_HS
  868. else {
  869. printf("Extended master secret extension\n");
  870. }
  871. #endif
  872. return 0;
  873. }
  874. /* Called from ServerHello during full handshake. Adds the session id to the
  875. * cache for later resumptions
  876. *
  877. * Input:
  878. * f: the tagged flow
  879. * hs: a pointer to the ServerHello message
  880. *
  881. * Output:
  882. * 0 if success, 1 if failed
  883. */
  884. int save_session_id(flow *f, uint8_t *hs){
  885. //increment pointer to point to sessionid
  886. uint8_t *p = hs + HANDSHAKE_HEADER_LEN;
  887. p += 2; //skip version
  888. p += SSL3_RANDOM_SIZE; //skip random
  889. session *new_session = emalloc(sizeof(session));
  890. new_session->session_id_len = (uint8_t) p[0];
  891. if((new_session->session_id_len <= 0) || (new_session->session_id_len > SSL_MAX_SSL_SESSION_ID_LENGTH)){
  892. //if this value is zero, the session is non-resumable or the
  893. //server will issue a NewSessionTicket handshake message
  894. free(new_session);
  895. return 0;
  896. }
  897. p++;
  898. memcpy(new_session->session_id, p, new_session->session_id_len);
  899. new_session->session_ticket_len = 0;
  900. new_session->session_ticket = NULL;
  901. new_session->next = NULL;
  902. if(f->current_session != NULL){
  903. free(f->current_session);
  904. }
  905. f->resume_session = 0;
  906. f->current_session = new_session;
  907. if(sessions->first_session == NULL){
  908. sessions->first_session = new_session;
  909. printf("First session id (%p->%p):", sessions, sessions->first_session);
  910. for(int i=0; i< new_session->session_id_len; i++){
  911. printf(" %02x", sessions->first_session->session_id[i]);
  912. }
  913. printf("\n");
  914. } else {
  915. session *last = sessions->first_session;
  916. for(int i=0; i< sessions->length -1; i++){
  917. if(last == NULL){
  918. printf("UH OH: last is null?\n");
  919. fflush(stdout);
  920. }
  921. last = last->next;
  922. }
  923. last->next = new_session;
  924. }
  925. sessions->length ++;
  926. #ifdef DEBUG_HS
  927. printf("Saved session id:");
  928. for(int i=0; i< new_session->session_id_len; i++){
  929. printf(" %02x", new_session->session_id[i]);
  930. }
  931. printf("\n");
  932. printf("THERE ARE NOW %d saved sessions\n", sessions->length);
  933. #endif
  934. return 0;
  935. }
  936. /* Called from NewSessionTicket. Adds the session ticket to the
  937. * cache for later resumptions
  938. *
  939. * Input:
  940. * f: the tagged flow
  941. * hs: a pointer to the ServerHello message
  942. *
  943. * Output:
  944. * 0 if success, 1 if failed
  945. */
  946. int save_session_ticket(flow *f, uint8_t *hs, uint32_t len){
  947. #ifdef DEBUG_HS
  948. printf("TICKET HDR:");
  949. for(int i=0; i< HANDSHAKE_HEADER_LEN; i++){
  950. printf("%02x ", hs[i]);
  951. }
  952. printf("\n");
  953. #endif
  954. uint8_t *p = hs + HANDSHAKE_HEADER_LEN;
  955. p += 4;
  956. session *new_session = ecalloc(1, sizeof(session));
  957. new_session->session_id_len = 0;
  958. new_session->session_ticket_len = (p[0] << 8) + p[1];
  959. new_session->next = NULL;
  960. p += 2;
  961. uint8_t *ticket = emalloc(new_session->session_ticket_len);
  962. memcpy(ticket, p, new_session->session_ticket_len);
  963. new_session->session_ticket = ticket;
  964. memcpy(new_session->master_secret, f->master_secret, SSL3_MASTER_SECRET_SIZE);
  965. if(sessions->first_session == NULL){
  966. sessions->first_session = new_session;
  967. } else {
  968. session *last = sessions->first_session;
  969. for(int i=0; i< (sessions->length-1); i++){
  970. if(last == NULL){
  971. printf("UH OH: last is null?\n");
  972. fflush(stdout);
  973. }
  974. last = last->next;
  975. }
  976. last->next = new_session;
  977. }
  978. sessions->length ++;
  979. #ifdef DEBUG_HS
  980. printf("Saved session ticket:");
  981. for(int i=0; i< new_session->session_ticket_len; i++){
  982. printf(" %02x", p[i]);
  983. }
  984. printf("\n");
  985. fflush(stdout);
  986. printf("Saved session master secret:");
  987. for(int i=0; i< SSL3_MASTER_SECRET_SIZE; i++){
  988. printf(" %02x", new_session->master_secret[i]);
  989. }
  990. printf("\n");
  991. fflush(stdout);
  992. printf("THERE ARE NOW %d saved sessions (2)\n", sessions->length);
  993. fflush(stdout);
  994. #endif
  995. return 0;
  996. }
  997. /* Adds a (handshake) packet to the flow's packet chain. If it can complete a record, passes
  998. * this record to update_flow
  999. *
  1000. * Note: the code in slitheen-proxy.c should ensure that this function only ever gets the next
  1001. * expected sequence number
  1002. */
  1003. int add_packet(flow *f, struct packet_info *info){
  1004. if (info->tcp_hdr == NULL || info->app_data_len <= 0){
  1005. return 0;
  1006. }
  1007. packet *new_packet = emalloc(sizeof(packet));
  1008. new_packet->seq_num = ntohl(info->tcp_hdr->sequence_num);
  1009. new_packet->len = info->app_data_len;
  1010. uint8_t *packet_data = emalloc(new_packet->len);
  1011. memcpy(packet_data, info->app_data, new_packet->len);
  1012. new_packet->data = packet_data;
  1013. new_packet->next = NULL;
  1014. uint8_t incoming = (info->ip_hdr->src.s_addr == f->src_ip.s_addr) ? 0 : 1;
  1015. packet_chain *chain = (incoming) ? f->ds_packet_chain : f->us_packet_chain;
  1016. queue *packet_queue = (incoming) ? f->ds_hs_queue : f->us_hs_queue;
  1017. if(new_packet->seq_num < chain->expected_seq_num){
  1018. //see if this packet contains any data we are missing
  1019. //TODO: figure out how/why this happens and what should follow
  1020. printf("ERROR: Received replayed packet O.o\n");
  1021. free(new_packet->data);
  1022. free(new_packet);
  1023. remove_flow(f);
  1024. return 1;
  1025. }
  1026. if(new_packet->seq_num > chain->expected_seq_num) {
  1027. printf("ERROR: Received future packet O.o\n");
  1028. free(new_packet->data);
  1029. free(new_packet);
  1030. remove_flow(f);
  1031. return 1;
  1032. }
  1033. //temporary: see if it's the only packet, if so is new record
  1034. if(peek(packet_queue, 0) == NULL){
  1035. if(new_packet->seq_num == chain->expected_seq_num){
  1036. const struct record_header *record_hdr = (struct record_header *) new_packet->data;
  1037. chain->record_len = RECORD_LEN(record_hdr)+RECORD_HEADER_LEN;
  1038. chain->remaining_record_len = chain->record_len;
  1039. }
  1040. }
  1041. //append packet to queue
  1042. enqueue(packet_queue, new_packet);
  1043. chain->expected_seq_num += new_packet->len;
  1044. uint32_t record_offset = 0; //offset into record for updating info with any changes
  1045. uint32_t info_offset = 0; //offset into info for updating with changes
  1046. uint32_t info_len = 0; //number of bytes that possibly changed
  1047. //while there is still data left:
  1048. uint32_t available_data = new_packet->len;
  1049. while(available_data > 0){
  1050. //if full record, give to update_flow
  1051. if(chain->remaining_record_len <= new_packet->len){//we have enough to make a record
  1052. chain->remaining_record_len = 0;
  1053. uint8_t *record = emalloc(chain->record_len);
  1054. uint32_t record_len = chain->record_len;
  1055. uint32_t tmp_len = chain->record_len;
  1056. packet *next = peek(packet_queue, 0);
  1057. while(tmp_len > 0){
  1058. if(tmp_len >= next->len){
  1059. memcpy(record+chain->record_len - tmp_len, next->data, next->len);
  1060. if(next == new_packet){
  1061. new_packet = NULL;//TODO: why?
  1062. record_offset = chain->record_len - tmp_len;
  1063. info_len = next->len;
  1064. }
  1065. tmp_len -= next->len;
  1066. //remove packet from queue
  1067. next = dequeue(packet_queue);
  1068. free(next->data);
  1069. free(next);
  1070. next = peek(packet_queue, 0); //TODO: Do we need this???
  1071. available_data = 0;
  1072. } else { //didn't use up entire packet
  1073. memcpy(record+chain->record_len - tmp_len, next->data, tmp_len);
  1074. if(next == new_packet){//TODO: opposite shouldn't happen?
  1075. record_offset = chain->record_len - tmp_len;
  1076. info_len = tmp_len;
  1077. }
  1078. memmove(next->data, next->data+tmp_len, next->len - tmp_len);
  1079. next->len -= tmp_len;
  1080. available_data -= tmp_len;
  1081. tmp_len = 0;
  1082. //Last part of packet is a new record
  1083. const struct record_header *record_hdr = (struct record_header *) next->data;
  1084. chain->record_len = RECORD_LEN(record_hdr)+RECORD_HEADER_LEN;
  1085. chain->remaining_record_len = chain->record_len;
  1086. #ifdef DEBUG
  1087. printf("Found record of type %d\n", record_hdr->type);
  1088. fflush(stdout);
  1089. #endif
  1090. }
  1091. }
  1092. //if handshake is complete, send to relay code
  1093. if(f->application == 1){
  1094. //update packet info and send to replace_packet
  1095. struct packet_info *copy_info = copy_packet_info(info);
  1096. copy_info->app_data = record;
  1097. copy_info->app_data_len = record_len;
  1098. replace_packet(f, copy_info);
  1099. free(copy_info->app_data);
  1100. free(copy_info);
  1101. } else {
  1102. if(update_flow(f, record, incoming)){
  1103. free(record);
  1104. return 1;//error occurred and flow was removed
  1105. }
  1106. if(f->in_encrypted ==2){
  1107. //if server finished message was received, copy changes back to packet
  1108. #ifdef DEBUG
  1109. printf("Replacing info->data with finished message (%d bytes).\n", info_len);
  1110. printf("Previous bytes:\n");
  1111. for(int i=0; i<info_len; i++){
  1112. printf("%02x ", info->app_data[info_offset+i]);
  1113. }
  1114. printf("\n");
  1115. printf("New bytes:\n");
  1116. for(int i=0; i<info_len; i++){
  1117. printf("%02x ", record[record_offset+i]);
  1118. }
  1119. printf("\n");
  1120. printf("SLITHEEN: Previous packet contents:\n");
  1121. for(int i=0; i< info->app_data_len; i++){
  1122. printf("%02x ", info->app_data[i]);
  1123. }
  1124. printf("\n");
  1125. #endif
  1126. memcpy(info->app_data+info_offset, record+record_offset, info_len);
  1127. #ifdef DEBUG
  1128. printf("SLITHEEN: Current packet contents:\n");
  1129. for(int i=0; i< info->app_data_len; i++){
  1130. printf("%02x ", info->app_data[i]);
  1131. }
  1132. printf("\n");
  1133. #endif
  1134. //update TCP checksum
  1135. tcp_checksum(info);
  1136. }
  1137. free(record);
  1138. if(new_packet != NULL){
  1139. info_offset += info_len;
  1140. }
  1141. }
  1142. } else {//can't make a full record yet
  1143. chain->remaining_record_len -= new_packet->len;
  1144. available_data = 0;
  1145. }
  1146. } //exhausted new packet len
  1147. return 0;
  1148. }