tun_dev_client.cpp 8.9 KB

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  1. #include "tun_dev.h"
  2. static int got_feed_back = 0;
  3. static dest_t udp_dest;
  4. static dest_t tun_dest;
  5. static void remote_cb(struct ev_loop *loop, struct ev_io *watcher, int revents) {
  6. assert(!(revents & EV_ERROR));
  7. conn_info_t &conn_info = *((conn_info_t *)watcher->data);
  8. char data[buf_len];
  9. int len;
  10. fd64_t fd64 = watcher->u64;
  11. int fd = fd_manager.to_fd(fd64);
  12. len = recv(fd, data, max_data_len + 1, 0);
  13. if (len == max_data_len + 1) {
  14. mylog(log_warn, "huge packet, data_len > %d,dropped\n", max_data_len);
  15. return;
  16. }
  17. if (len < 0) {
  18. mylog(log_warn, "recv return %d,errno=%s\n", len, strerror(errno));
  19. return;
  20. }
  21. if (de_cook(data, len) < 0) {
  22. mylog(log_warn, "de_cook(data,len)failed \n");
  23. return;
  24. }
  25. char header = 0;
  26. if (get_header(header, data, len) != 0) {
  27. mylog(log_warn, "get_header failed\n");
  28. return;
  29. }
  30. if (header == header_keep_alive) {
  31. mylog(log_trace, "got keep_alive packet\n");
  32. return;
  33. }
  34. if (header == header_reject) {
  35. if (keep_reconnect == 0) {
  36. mylog(log_fatal, "server restarted or switched to handle another client,exited. maybe you need --keep-reconnect\n");
  37. myexit(-1);
  38. } else {
  39. if (got_feed_back == 1)
  40. mylog(log_warn, "server restarted or switched to handle another client,but keep-reconnect enabled,trying to reconnect\n");
  41. got_feed_back = 0;
  42. }
  43. return;
  44. } else if (header == header_normal) {
  45. if (got_feed_back == 0)
  46. mylog(log_info, "connection accepted by server\n");
  47. got_feed_back = 1;
  48. } else {
  49. mylog(log_warn, "invalid header %d %d\n", int(header), len);
  50. return;
  51. }
  52. mylog(log_trace, "Received packet from udp,len: %d\n", len);
  53. from_fec_to_normal2(conn_info, tun_dest, data, len);
  54. }
  55. static void tun_fd_cb(struct ev_loop *loop, struct ev_io *watcher, int revents) {
  56. assert(!(revents & EV_ERROR));
  57. conn_info_t &conn_info = *((conn_info_t *)watcher->data);
  58. char data[buf_len];
  59. int len;
  60. int tun_fd = watcher->fd;
  61. len = read(tun_fd, data, max_data_len + 1);
  62. if (len == max_data_len + 1) {
  63. mylog(log_warn, "huge packet, data_len > %d,dropped\n", max_data_len);
  64. return;
  65. }
  66. if (len < 0) {
  67. mylog(log_warn, "read from tun_fd return %d,errno=%s\n", len, strerror(errno));
  68. return;
  69. }
  70. do_mssfix(data, len);
  71. mylog(log_trace, "Received packet from tun,len: %d\n", len);
  72. char header = (got_feed_back == 0 ? header_new_connect : header_normal);
  73. from_normal_to_fec2(conn_info, udp_dest, data, len, header);
  74. }
  75. static void delay_manager_cb(struct ev_loop *loop, struct ev_timer *watcher, int revents) {
  76. assert(!(revents & EV_ERROR));
  77. // do nothing
  78. }
  79. static void fec_encode_cb(struct ev_loop *loop, struct ev_timer *watcher, int revents) {
  80. assert(!(revents & EV_ERROR));
  81. mylog(log_trace, "fec_encode_cb() called\n");
  82. conn_info_t &conn_info = *((conn_info_t *)watcher->data);
  83. /// int ret;
  84. /// fd64_t fd64=watcher->u64;
  85. /// mylog(log_trace,"events[idx].data.u64 == conn_info.fec_encode_manager.get_timer_fd64()\n");
  86. /// uint64_t value;
  87. /// if(!fd_manager.exist(fd64)) //fd64 has been closed
  88. ///{
  89. /// mylog(log_trace,"!fd_manager.exist(fd64)");
  90. /// return;
  91. /// }
  92. /// if((ret=read(fd_manager.to_fd(fd64), &value, 8))!=8)
  93. ///{
  94. /// mylog(log_trace,"(ret=read(fd_manager.to_fd(fd64), &value, 8))!=8,ret=%d\n",ret);
  95. /// return;
  96. /// }
  97. /// if(value==0)
  98. ///{
  99. /// mylog(log_debug,"value==0\n");
  100. /// return;
  101. /// }
  102. /// assert(value==1);
  103. char header = (got_feed_back == 0 ? header_new_connect : header_normal);
  104. from_normal_to_fec2(conn_info, udp_dest, 0, 0, header);
  105. }
  106. static void conn_timer_cb(struct ev_loop *loop, struct ev_timer *watcher, int revents) {
  107. assert(!(revents & EV_ERROR));
  108. conn_info_t &conn_info = *((conn_info_t *)watcher->data);
  109. /// uint64_t value;
  110. /// read(conn_info.timer.get_timer_fd(), &value, 8);
  111. /// mylog(log_trace,"events[idx].data.u64==(u64_t)conn_info.timer.get_timer_fd()\n");
  112. mylog(log_trace, "conn_timer_cb() called\n");
  113. conn_info.stat.report_as_client();
  114. if (got_feed_back) do_keep_alive(udp_dest);
  115. }
  116. static void fifo_cb(struct ev_loop *loop, struct ev_io *watcher, int revents) {
  117. assert(!(revents & EV_ERROR));
  118. int fifo_fd = watcher->fd;
  119. char buf[buf_len];
  120. int len = read(fifo_fd, buf, sizeof(buf));
  121. if (len < 0) {
  122. mylog(log_warn, "fifo read failed len=%d,errno=%s\n", len, strerror(errno));
  123. return;
  124. }
  125. buf[len] = 0;
  126. handle_command(buf);
  127. }
  128. static void prepare_cb(struct ev_loop *loop, struct ev_prepare *watcher, int revents) {
  129. assert(!(revents & EV_ERROR));
  130. delay_manager.check();
  131. }
  132. int tun_dev_client_event_loop() {
  133. // char data[buf_len];
  134. // int len;
  135. int i, j, k, ret;
  136. int tun_fd;
  137. int remote_fd;
  138. fd64_t remote_fd64;
  139. conn_info_t *conn_info_p = new conn_info_t;
  140. conn_info_t &conn_info = *conn_info_p; // huge size of conn_info,do not allocate on stack
  141. tun_fd = get_tun_fd(tun_dev);
  142. assert(tun_fd > 0);
  143. assert(new_connected_socket2(remote_fd, remote_addr, out_addr, out_interface) == 0);
  144. remote_fd64 = fd_manager.create(remote_fd);
  145. assert(set_tun(tun_dev, htonl((ntohl(sub_net_uint32) & 0xFFFFFF00) | 2), htonl((ntohl(sub_net_uint32) & 0xFFFFFF00) | 1), tun_mtu) == 0);
  146. tun_dest.type = type_write_fd;
  147. tun_dest.inner.fd = tun_fd;
  148. udp_dest.cook = 1;
  149. udp_dest.type = type_fd64;
  150. udp_dest.inner.fd64 = remote_fd64;
  151. /// epoll_fd = epoll_create1(0);
  152. /// assert(epoll_fd>0);
  153. /// const int max_events = 4096;
  154. /// struct epoll_event ev, events[max_events];
  155. /// if (epoll_fd < 0) {
  156. /// mylog(log_fatal,"epoll return %d\n", epoll_fd);
  157. /// myexit(-1);
  158. /// }
  159. struct ev_loop *loop = ev_default_loop(0);
  160. assert(loop != NULL);
  161. conn_info.loop = loop;
  162. /// ev.events = EPOLLIN;
  163. /// ev.data.u64 = remote_fd64;
  164. /// ret = epoll_ctl(epoll_fd, EPOLL_CTL_ADD, remote_fd, &ev);
  165. /// if (ret!=0) {
  166. /// mylog(log_fatal,"add remote_fd64 error\n");
  167. /// myexit(-1);
  168. /// }
  169. struct ev_io remote_watcher;
  170. remote_watcher.data = &conn_info;
  171. remote_watcher.u64 = remote_fd64;
  172. ev_io_init(&remote_watcher, remote_cb, remote_fd, EV_READ);
  173. ev_io_start(loop, &remote_watcher);
  174. /// ev.events = EPOLLIN;
  175. /// ev.data.u64 = tun_fd;
  176. /// ret = epoll_ctl(epoll_fd, EPOLL_CTL_ADD, tun_fd, &ev);
  177. /// if (ret!=0) {
  178. /// mylog(log_fatal,"add tun_fd error\n");
  179. /// myexit(-1);
  180. /// }
  181. struct ev_io tun_fd_watcher;
  182. tun_fd_watcher.data = &conn_info;
  183. ev_io_init(&tun_fd_watcher, tun_fd_cb, tun_fd, EV_READ);
  184. ev_io_start(loop, &tun_fd_watcher);
  185. /// ev.events = EPOLLIN;
  186. /// ev.data.u64 = delay_manager.get_timer_fd();
  187. /// mylog(log_debug,"delay_manager.get_timer_fd()=%d\n",delay_manager.get_timer_fd());
  188. /// ret = epoll_ctl(epoll_fd, EPOLL_CTL_ADD, delay_manager.get_timer_fd(), &ev);
  189. /// if (ret!= 0) {
  190. /// mylog(log_fatal,"add delay_manager.get_timer_fd() error\n");
  191. /// myexit(-1);
  192. /// }
  193. delay_manager.set_loop_and_cb(loop, delay_manager_cb);
  194. /// u64_t tmp_timer_fd64=conn_info.fec_encode_manager.get_timer_fd64();
  195. /// ev.events = EPOLLIN;
  196. /// ev.data.u64 = tmp_timer_fd64;
  197. /// mylog(log_debug,"conn_info.fec_encode_manager.get_timer_fd64()=%llu\n",conn_info.fec_encode_manager.get_timer_fd64());
  198. /// ret = epoll_ctl(epoll_fd, EPOLL_CTL_ADD, fd_manager.to_fd(tmp_timer_fd64), &ev);
  199. /// if (ret!= 0) {
  200. /// mylog(log_fatal,"add fec_encode_manager.get_timer_fd64() error\n");
  201. /// myexit(-1);
  202. /// }
  203. conn_info.fec_encode_manager.set_data(&conn_info);
  204. conn_info.fec_encode_manager.set_loop_and_cb(loop, fec_encode_cb);
  205. // conn_info.timer.add_fd_to_epoll(epoll_fd);
  206. // conn_info.timer.data=&conn_info;
  207. conn_info.timer.data = &conn_info;
  208. ev_init(&conn_info.timer, conn_timer_cb);
  209. ev_timer_set(&conn_info.timer, 0, timer_interval / 1000.0);
  210. ev_timer_start(loop, &conn_info.timer);
  211. struct ev_io fifo_watcher;
  212. int fifo_fd = -1;
  213. if (fifo_file[0] != 0) {
  214. fifo_fd = create_fifo(fifo_file);
  215. /// ev.events = EPOLLIN;
  216. /// ev.data.u64 = fifo_fd;
  217. /// ret = epoll_ctl(epoll_fd, EPOLL_CTL_ADD, fifo_fd, &ev);
  218. /// if (ret!= 0) {
  219. /// mylog(log_fatal,"add fifo_fd to epoll error %s\n",strerror(errno));
  220. /// myexit(-1);
  221. /// }
  222. ev_io_init(&fifo_watcher, fifo_cb, fifo_fd, EV_READ);
  223. ev_io_start(loop, &fifo_watcher);
  224. mylog(log_info, "fifo_file=%s\n", fifo_file);
  225. }
  226. ev_prepare prepare_watcher;
  227. ev_init(&prepare_watcher, prepare_cb);
  228. ev_prepare_start(loop, &prepare_watcher);
  229. ev_run(loop, 0);
  230. mylog(log_warn, "ev_run returned\n");
  231. myexit(0);
  232. return 0;
  233. }