/* * misc.cpp * * Created on: Sep 23, 2017 * Author: root */ #include "git_version.h" #include "common.h" #include "encrypt.h" #include "misc.h" #include "network.h" #include "connection.h" #include "fd_manager.h" int hb_mode = 1; int hb_len = 1200; char hb_buf[buf_len]; int mtu_warn = 1375; // if a packet larger than mtu warn is receviced,there will be a warning int max_rst_to_show = 15; int max_rst_allowed = -1; int enable_dns_resolve = 0; int ttl_value = 64; fd_manager_t fd_manager; // char remote_address[max_address_len]=""; // char local_ip[100]="0.0.0.0", remote_ip[100]="255.255.255.255",source_ip[100]="0.0.0.0";//local_ip is for -l option,remote_ip for -r option,source for --source-ip // u32_t local_ip_uint32,remote_ip_uint32,source_ip_uint32;//convert from last line. // int local_port = -1, remote_port=-1,source_port=0;//similiar to local_ip remote_ip,buf for port.source_port=0 indicates --source-port is not enabled address_t local_addr, remote_addr, source_addr; my_ip_t bind_addr; int source_port = -1; int bind_addr_used = 0; int force_source_ip = 0; // if --source-ip is enabled int force_source_port = 0; my_id_t const_id = 0; // an id used for connection recovery,its generated randomly,it never change since its generated int udp_fd = -1; // for client only. client use this fd to listen and handle udp connection int bind_fd = -1; // bind only,never send or recv. its just a dummy fd for bind,so that other program wont occupy the same port #ifdef UDP2RAW_LINUX int epollfd = -1; // fd for epoll int timer_fd = -1; // the general timer fd for client and server.for server this is not the only timer find,every connection has a timer fd. #endif int fail_time_counter = 0; // determine if the max_fail_time is reached int epoll_trigger_counter = 0; // for debug only int debug_flag = 0; // for debug only int simple_rule = 0; // deprecated. int keep_rule = 0; // whether to monitor the iptables rule periodly,re-add if losted int auto_add_iptables_rule = 0; // if -a is set int generate_iptables_rule = 0; // if -g is set int generate_iptables_rule_add = 0; // if --gen-add is set int retry_on_error = 0; int debug_resend = 0; // debug only char key_string[1000] = "secret key"; // -k option char fifo_file[1000] = ""; int clear_iptables = 0; int wait_xtables_lock = 0; #ifdef UDP2RAW_LINUX string iptables_command0 = "iptables/ip6tables "; string iptables_command = ""; string iptables_pattern = ""; int iptables_rule_added = 0; int iptables_rule_keeped = 0; int iptables_rule_keep_index = 0; #endif program_mode_t program_mode = unset_mode; // 0 unset; 1client 2server raw_mode_t raw_mode = mode_faketcp; u32_t raw_ip_version = (u32_t)-1; unordered_map raw_mode_tostring = {{mode_faketcp, "faketcp"}, {mode_udp, "udp"}, {mode_icmp, "icmp"}}; int about_to_exit = 0; int socket_buf_size = 1024 * 1024; // int force_socket_buf=0; // char lower_level_arg[1000]; #ifdef UDP2RAW_LINUX int process_lower_level_arg() // handle --lower-level option { lower_level = 1; if (strcmp(optarg, "auto") == 0) { return 0; } lower_level_manual = 1; if (strchr(optarg, '#') == 0) { mylog(log_fatal, "lower-level parameter invaild,check help page for format\n"); myexit(-1); } lower_level = 1; u32_t hw[6]; memset(hw, 0, sizeof(hw)); sscanf(optarg, "%[^#]#%x:%x:%x:%x:%x:%x", if_name, &hw[0], &hw[1], &hw[2], &hw[3], &hw[4], &hw[5]); mylog(log_warn, "make sure this is correct: if_name=<%s> dest_mac_adress=<%02x:%02x:%02x:%02x:%02x:%02x> \n", if_name, hw[0], hw[1], hw[2], hw[3], hw[4], hw[5]); for (int i = 0; i < 6; i++) { dest_hw_addr[i] = uint8_t(hw[i]); } return 0; } #endif void print_help() { char git_version_buf[100] = {0}; strncpy(git_version_buf, gitversion, 10); printf("udp2raw-tunnel\n"); printf("git version:%s ", git_version_buf); printf("build date:%s %s\n", __DATE__, __TIME__); printf("repository: https://github.com/wangyu-/udp2raw-tunnel\n"); printf("\n"); #ifdef UDP2RAW_MP #ifdef NO_LIBNET printf("libnet is disabled at compile time\n"); printf("\n"); #endif #endif printf("usage:\n"); printf(" run as client : ./this_program -c -l local_listen_ip:local_port -r server_address:server_port [options]\n"); printf(" run as server : ./this_program -s -l server_listen_ip:server_port -r remote_address:remote_port [options]\n"); printf("\n"); printf("common options,these options must be same on both side:\n"); printf(" --raw-mode available values:faketcp(default),udp,icmp and easy-faketcp\n"); printf(" -k,--key password to gen symetric key,default:\"secret key\"\n"); printf(" --cipher-mode available values:aes128cfb,aes128cbc(default),xor,none\n"); printf(" --auth-mode available values:hmac_sha1,md5(default),crc32,simple,none\n"); printf(" -a,--auto-rule auto add (and delete) iptables rule\n"); printf(" -g,--gen-rule generate iptables rule then exit,so that you can copy and\n"); printf(" add it manually.overrides -a\n"); printf(" --disable-anti-replay disable anti-replay,not suggested\n"); printf(" --fix-gro try to fix huge packet caused by GRO. this option is at an early stage.\n"); printf(" make sure client and server are at same version.\n"); // printf("\n"); printf("client options:\n"); printf(" --source-ip force source-ip for raw socket\n"); printf(" --source-port force source-port for raw socket,tcp/udp only\n"); printf(" this option disables port changing while re-connecting\n"); // printf(" \n"); printf("other options:\n"); printf(" --conf-file read options from a configuration file instead of command line.\n"); printf(" check example.conf in repo for format\n"); printf(" --fifo use a fifo(named pipe) for sending commands to the running program,\n"); printf(" check readme.md in repository for supported commands.\n"); printf(" --log-level 0:never 1:fatal 2:error 3:warn \n"); printf(" 4:info (default) 5:debug 6:trace\n"); // printf("\n"); printf(" --log-position enable file name,function name,line number in log\n"); printf(" --disable-color disable log color\n"); printf(" --disable-bpf disable the kernel space filter,most time its not necessary\n"); printf(" unless you suspect there is a bug\n"); // printf("\n"); #ifdef UDP2RAW_LINUX printf(" --dev bind raw socket to a device, not necessary but improves performance\n"); #endif printf(" --sock-buf buf size for socket,>=10 and <=10240,unit:kbyte,default:1024\n"); printf(" --force-sock-buf bypass system limitation while setting sock-buf\n"); printf(" --seq-mode seq increase mode for faketcp:\n"); printf(" 0:static header,do not increase seq and ack_seq\n"); printf(" 1:increase seq for every packet,simply ack last seq\n"); printf(" 2:increase seq randomly, about every 3 packets,simply ack last seq\n"); printf(" 3:simulate an almost real seq/ack procedure(default)\n"); printf(" 4:similiar to 3,but do not consider TCP Option Window_Scale,\n"); printf(" maybe useful when firewall doesnt support TCP Option \n"); // printf("\n"); printf(" --lower-level send packets at OSI level 2, format:'if_name#dest_mac_adress'\n"); printf(" ie:'eth0#00:23:45:67:89:b9'.or try '--lower-level auto' to obtain\n"); printf(" the parameter automatically,specify it manually if 'auto' failed\n"); printf(" --wait-lock wait for xtables lock while invoking iptables, need iptables v1.4.20+\n"); printf(" --gen-add generate iptables rule and add it permanently,then exit.overrides -g\n"); printf(" --keep-rule monitor iptables and auto re-add if necessary.implys -a\n"); printf(" --hb-len length of heart-beat packet, >=0 and <=1500\n"); printf(" --mtu-warn mtu warning threshold, unit:byte, default:1375\n"); printf(" --clear clear any iptables rules added by this program.overrides everything\n"); printf(" --retry-on-error retry on error, allow to start udp2raw before network is initialized\n"); printf(" -h,--help print this help message\n"); // printf("common options,these options must be same on both side\n"); } int load_config(char *file_name, int &argc, vector &argv) // load conf file and append to argv { // Load configurations from config_file instead of the command line. // See config.example for example configurations std::ifstream conf_file(file_name); std::string line; if (conf_file.fail()) { mylog(log_fatal, "conf_file %s open failed,reason :%s\n", file_name, get_sock_error()); myexit(-1); } while (std::getline(conf_file, line)) { auto res = parse_conf_line(line); argc += res.size(); for (int i = 0; i < (int)res.size(); i++) { argv.push_back(res[i]); } } conf_file.close(); return 0; } int process_log_level(int argc, char *argv[]) // process --log-level and --disable-cloer --log-postion options { int i, j, k; for (i = 0; i < argc; i++) { if (strcmp(argv[i], "--log-level") == 0) { if (i < argc - 1) { sscanf(argv[i + 1], "%d", &log_level); if (0 <= log_level && log_level < log_end) { } else { log_bare(log_fatal, "invalid log_level\n"); myexit(-1); } } } if (strcmp(argv[i], "--enable-color") == 0) { enable_log_color = 1; } if (strcmp(argv[i], "--disable-color") == 0) { enable_log_color = 0; } if (strcmp(argv[i], "--log-position") == 0) { enable_log_position = 1; } } return 0; } void process_arg(int argc, char *argv[]) // process all options { int i, j, k, opt; int option_index = 0; char options[] = "l:r:schk:ag"; static struct option long_options[] = { /* These options set a flag. */ {"source-ip", required_argument, 0, 1}, {"source-port", required_argument, 0, 1}, {"log-level", required_argument, 0, 1}, {"key", required_argument, 0, 'k'}, {"auth-mode", required_argument, 0, 1}, {"cipher-mode", required_argument, 0, 1}, {"raw-mode", required_argument, 0, 1}, {"disable-color", no_argument, 0, 1}, {"enable-color", no_argument, 0, 1}, {"log-position", no_argument, 0, 1}, {"disable-bpf", no_argument, 0, 1}, {"disable-anti-replay", no_argument, 0, 1}, {"auto-rule", no_argument, 0, 'a'}, {"gen-rule", no_argument, 0, 'g'}, {"gen-add", no_argument, 0, 1}, {"debug", no_argument, 0, 1}, {"retry-on-error", no_argument, 0, 1}, {"clear", no_argument, 0, 1}, {"simple-rule", no_argument, 0, 1}, {"keep-rule", no_argument, 0, 1}, {"lower-level", required_argument, 0, 1}, {"sock-buf", required_argument, 0, 1}, {"seq-mode", required_argument, 0, 1}, {"conf-file", required_argument, 0, 1}, {"force-sock-buf", no_argument, 0, 1}, {"wait-lock", no_argument, 0, 1}, {"random-drop", required_argument, 0, 1}, {"fifo", required_argument, 0, 1}, {"hb-mode", required_argument, 0, 1}, {"hb-len", required_argument, 0, 1}, {"mtu-warn", required_argument, 0, 1}, {"max-rst-to-show", required_argument, 0, 1}, {"max-rst-allowed", required_argument, 0, 1}, {"set-ttl", required_argument, 0, 1}, {"dev", required_argument, 0, 1}, {"dns-resolve", no_argument, 0, 1}, {"easy-tcp", no_argument, 0, 1}, #ifdef UDP2RAW_MP {"pcap-send", no_argument, 0, 1}, {"no-pcap-mutex", no_argument, 0, 1}, #endif {"fix-gro", no_argument, 0, 1}, {NULL, 0, 0, 0}}; process_log_level(argc, argv); set all_options; map shortcut_map; all_options.insert("--help"); all_options.insert("-h"); string dummy = ""; for (i = 0; i < (int)strlen(options); i++) { char val = options[i]; if ((val >= '0' && val <= '9') || (val >= 'a' && val <= 'z') || (val >= 'A' && val <= 'Z')) { all_options.insert(dummy + '-' + val); } } for (i = 0; i < int(sizeof(long_options) / sizeof(long_options[0])); i++) { if (long_options[i].name == NULL) break; int val = long_options[i].val; if ((val >= '0' && val <= '9') || (val >= 'a' && val <= 'z') || (val >= 'A' && val <= 'Z')) { shortcut_map[dummy + "--" + long_options[i].name] = dummy + "-" + char(val); } all_options.insert(dummy + "--" + long_options[i].name); } for (i = 0; i < argc; i++) { int len = strlen(argv[i]); if (len == 0) { mylog(log_fatal, "found an empty string in options\n"); myexit(-1); } if (len == 1 && argv[i][0] == '-') { mylog(log_fatal, "invaild option '-' in argv\n"); myexit(-1); } if (len == 2 && argv[i][0] == '-' && argv[i][1] == '-') { mylog(log_fatal, "invaild option '--' in argv\n"); myexit(-1); } } mylog(log_info, "argc=%d ", argc); for (i = 0; i < argc; i++) { log_bare(log_info, "%s ", argv[i]); } log_bare(log_info, "\n"); // string dummy=""; for (i = +1; i < argc; i++) { if (argv[i][0] != '-') continue; string a = argv[i]; if (a[0] == '-' && a[1] != '-') a = dummy + a[0] + a[1]; if (all_options.find(a.c_str()) == all_options.end()) { mylog(log_fatal, "invaild option %s\n", a.c_str()); myexit(-1); } for (j = i + 1; j < argc; j++) { if (argv[j][0] != '-') continue; string b = argv[j]; if (b[0] == '-' && b[1] != '-') b = dummy + b[0] + b[1]; if (shortcut_map.find(a) != shortcut_map.end()) a = shortcut_map[a]; if (shortcut_map.find(b) != shortcut_map.end()) b = shortcut_map[b]; if (a == b) { mylog(log_fatal, "%s duplicates with %s\n", argv[i], argv[j]); myexit(-1); } } } int no_l = 1, no_r = 1; while ((opt = getopt_long(argc, argv, options, long_options, &option_index)) != -1) { // string opt_key; // opt_key+=opt; switch (opt) { case 'l': no_l = 0; local_addr.from_str(optarg); if (local_addr.get_port() == 22) { mylog(log_fatal, "port 22 not allowed\n"); myexit(-1); } /* if (strchr(optarg, ':') != 0) { sscanf(optarg, "%[^:]:%d", local_ip, &local_port); if(local_port==22) { mylog(log_fatal,"port 22 not allowed\n"); myexit(-1); } } else { mylog(log_fatal,"invalid parameter for -l ,%s,should be ip:port\n",optarg); myexit(-1); }*/ break; case 'r': no_r = 0; remote_addr.from_str(optarg); if (remote_addr.get_port() == 22) { mylog(log_fatal, "port 22 not allowed\n"); myexit(-1); } /* if (strchr(optarg, ':') != 0) { sscanf(optarg, "%[^:]:%d", remote_address, &remote_port); if(remote_port==22) { mylog(log_fatal,"port 22 not allowed\n"); myexit(-1); } } else { mylog(log_fatal,"invalid parameter for -r ,%s,should be ip:port\n",optarg); myexit(-1); }*/ break; case 's': if (program_mode == 0) { program_mode = server_mode; } else { mylog(log_fatal, "-s /-c has already been set,conflict\n"); myexit(-1); } break; case 'c': if (program_mode == 0) { program_mode = client_mode; } else { mylog(log_fatal, "-s /-c has already been set,conflict\n"); myexit(-1); } break; case 'h': break; case 'a': if (is_udp2raw_mp) { mylog(log_fatal, "-a not supported in this version, check -g or --raw-mode easyfaketcp\n"); myexit(-1); } auto_add_iptables_rule = 1; break; case 'g': generate_iptables_rule = 1; break; case 'k': mylog(log_debug, "parsing key option\n"); sscanf(optarg, "%s", key_string); break; case 1: mylog(log_debug, "option_index: %d\n", option_index); if (strcmp(long_options[option_index].name, "clear") == 0) { if (is_udp2raw_mp) { mylog(log_fatal, "--clear not supported in this version\n"); myexit(-1); } clear_iptables = 1; } else if (strcmp(long_options[option_index].name, "source-ip") == 0) { mylog(log_debug, "parsing long option :source-ip\n"); // sscanf(optarg, "%s", source_ip); source_addr.from_str_ip_only(optarg); mylog(log_debug, "source: %s\n", source_addr.get_ip()); force_source_ip = 1; } else if (strcmp(long_options[option_index].name, "source-port") == 0) { mylog(log_debug, "parsing long option :source-port\n"); sscanf(optarg, "%d", &source_port); mylog(log_info, "source: %d\n", source_port); force_source_port = 1; } else if (strcmp(long_options[option_index].name, "raw-mode") == 0) { /* for(i=0;i 10000) { mylog(log_fatal, "random_drop must be between 0 10000 \n"); myexit(-1); } mylog(log_info, "random_drop =%d \n", random_drop); } else if (strcmp(long_options[option_index].name, "fifo") == 0) { if (is_udp2raw_mp) { mylog(log_fatal, "--fifo not supported in this version\n"); myexit(-1); } sscanf(optarg, "%s", fifo_file); mylog(log_info, "fifo_file =%s \n", fifo_file); } else if (strcmp(long_options[option_index].name, "conf-file") == 0) { mylog(log_info, "configuration loaded from %s\n", optarg); } else if (strcmp(long_options[option_index].name, "hb-mode") == 0) { sscanf(optarg, "%d", &hb_mode); assert(hb_mode == 0 || hb_mode == 1); mylog(log_info, "hb_mode =%d \n", hb_mode); } else if (strcmp(long_options[option_index].name, "hb-len") == 0) { sscanf(optarg, "%d", &hb_len); assert(hb_len >= 0 && hb_len <= 1500); mylog(log_info, "hb_len =%d \n", hb_len); } else if (strcmp(long_options[option_index].name, "mtu-warn") == 0) { sscanf(optarg, "%d", &mtu_warn); assert(mtu_warn > 0); mylog(log_info, "mtu_warn=%d \n", mtu_warn); } else if (strcmp(long_options[option_index].name, "max-rst-to-show") == 0) { sscanf(optarg, "%d", &max_rst_to_show); assert(max_rst_to_show >= -1); mylog(log_info, "max_rst_to_show=%d \n", max_rst_to_show); } else if (strcmp(long_options[option_index].name, "max-rst-allowed") == 0) { sscanf(optarg, "%d", &max_rst_allowed); assert(max_rst_allowed >= -1); mylog(log_info, "max_rst_allowed=%d \n", max_rst_allowed); } else if (strcmp(long_options[option_index].name, "set-ttl") == 0) { sscanf(optarg, "%d", &ttl_value); assert(ttl_value >= 0 && ttl_value <= 255); mylog(log_info, "ttl_value=%d\n", ttl_value); } else if (strcmp(long_options[option_index].name, "dns-resolve") == 0) // currently not used { enable_dns_resolve = 1; mylog(log_info, "dns-resolve enabled\n"); } #ifdef UDP2RAW_MP else if (strcmp(long_options[option_index].name, "pcap-send") == 0) { send_with_pcap = 1; mylog(log_info, "--pcap-send enabled, now pcap will be used for sending packet instead of libnet\n"); } else if (strcmp(long_options[option_index].name, "no-pcap-mutex") == 0) { use_pcap_mutex = 0; mylog(log_warn, "--no-pcap-mutex enabled, we will assume the underlying pcap calls are threadsafe\n"); } #endif else if (strcmp(long_options[option_index].name, "easy-tcp") == 0) { use_tcp_dummy_socket = 1; mylog(log_info, "--easy-tcp enabled, now a dummy tcp socket will be created for handshake and block rst\n"); } else if (strcmp(long_options[option_index].name, "fix-gro") == 0) { mylog(log_info, "--fix-gro enabled\n"); g_fix_gro = 1; } else { mylog(log_warn, "ignored unknown long option ,option_index:%d code:<%x>\n", option_index, optopt); } break; default: mylog(log_fatal, "unknown option ,code:<%c>,<%x>\n", optopt, optopt); myexit(-1); } } if (no_l) mylog(log_fatal, "error: -l not found\n"); if (no_r) mylog(log_fatal, "error: -r not found\n"); if (program_mode == 0) mylog(log_fatal, "error: -c /-s hasnt been set\n"); if (no_l || no_r || program_mode == 0) { print_help(); myexit(-1); } if (program_mode == client_mode) { raw_ip_version = remote_addr.get_type(); } else { raw_ip_version = local_addr.get_type(); } if (auto_add_iptables_rule && use_tcp_dummy_socket) { mylog(log_error, "-a,--auto-rule is not supposed to be used with easyfaketcp mode, you are likely making a mistake, but we can try to continue\n"); } if (keep_rule && use_tcp_dummy_socket) { mylog(log_error, "--keep-rule is not supposed to be used with easyfaketcp mode, you are likely making a mistake, but we can try to continue\n"); } mylog(log_info, "important variables: "); log_bare(log_info, "log_level=%d:%s ", log_level, log_text[log_level]); log_bare(log_info, "raw_mode=%s ", raw_mode_tostring[raw_mode]); log_bare(log_info, "cipher_mode=%s ", cipher_mode_tostring[cipher_mode]); log_bare(log_info, "auth_mode=%s ", auth_mode_tostring[auth_mode]); log_bare(log_info, "key=%s ", key_string); log_bare(log_info, "local_addr=%s ", local_addr.get_str()); log_bare(log_info, "remote_addr=%s ", remote_addr.get_str()); if (force_source_ip) log_bare(log_info, "source_addr=%s ", source_addr.get_ip()); if (force_source_port) log_bare(log_info, "source_port=%d ", source_port); log_bare(log_info, "socket_buf_size=%d ", socket_buf_size); log_bare(log_info, "\n"); } void pre_process_arg(int argc, char *argv[]) // mainly for load conf file { int i, j, k; for (i = 0; i < argc; i++) { if (strcmp(argv[i], "--unit-test") == 0) { unit_test(); myexit(0); } } for (i = 0; i < argc; i++) { if (strcmp(argv[i], "-h") == 0 || strcmp(argv[i], "--help") == 0) { print_help(); myexit(0); } } if (argc == 1) { print_help(); myexit(-1); } process_log_level(argc, argv); int new_argc = 0; vector new_argv; int count = 0; int pos = -1; for (i = 0; i < argc; i++) { if (strcmp(argv[i], "--conf-file") == 0) { count++; pos = i; if (i == argc) { mylog(log_fatal, "--conf-file need a parameter\n"); myexit(-1); } if (argv[i + 1][0] == '-') { mylog(log_fatal, "--conf-file need a parameter\n"); myexit(-1); } i++; } else { // printf("<%s>",argv[i]); new_argc++; new_argv.push_back(argv[i]); } } if (count > 1) { mylog(log_fatal, "duplicated --conf-file option\n"); myexit(-1); } if (count > 0) { load_config(argv[pos + 1], new_argc, new_argv); } char *new_argv_char[new_argv.size()]; new_argc = 0; for (i = 0; i < (int)new_argv.size(); i++) { if (strcmp(new_argv[i].c_str(), "--conf-file") == 0) { mylog(log_fatal, "cant have --conf-file in a config file\n"); myexit(-1); } new_argv_char[new_argc++] = (char *)new_argv[i].c_str(); } process_arg(new_argc, new_argv_char); } #ifdef UDP2RAW_LINUX void *run_keep(void *none) // called in a new thread for --keep-rule option { while (1) { sleep(iptables_rule_keep_interval); keep_iptables_rule(); if (about_to_exit) // just incase it runs forever if there is some bug,not necessary { sleep(10); keep_thread_running = 0; // not thread safe ,but wont cause problem break; } } return NULL; } void iptables_rule() // handles -a -g --gen-add --keep-rule --clear --wait-lock { assert(raw_ip_version == AF_INET || raw_ip_version == AF_INET6); if (raw_ip_version == AF_INET) { iptables_command0 = "iptables "; } else iptables_command0 = "ip6tables "; if (!wait_xtables_lock) { iptables_command = iptables_command0; } else { iptables_command = iptables_command0 + "-w "; } if (clear_iptables) { char *output; // int ret =system("iptables-save |grep udp2raw_dWRwMnJhdw|sed -n 's/^-A/iptables -D/p'|sh"); int ret = run_command(iptables_command + "-S|sed -n '/udp2rawDwrW/p'|sed -n 's/^-A/" + iptables_command + "-D/p'|sh", output); int ret2 = run_command(iptables_command + "-S|sed -n '/udp2rawDwrW/p'|sed -n 's/^-N/" + iptables_command + "-X/p'|sh", output); // system("iptables-save |grep udp2raw_dWRwMnJhdw|sed 's/^-A/iptables -D/'|sh"); // system("iptables-save|grep -v udp2raw_dWRwMnJhdw|iptables-restore"); mylog(log_info, "tried to clear all iptables rule created previously,return value %d %d\n", ret, ret2); myexit(-1); } if (auto_add_iptables_rule && generate_iptables_rule) { mylog(log_warn, " -g overrides -a\n"); auto_add_iptables_rule = 0; // myexit(-1); } if (generate_iptables_rule_add && generate_iptables_rule) { mylog(log_warn, " --gen-add overrides -g\n"); generate_iptables_rule = 0; // myexit(-1); } if (keep_rule && auto_add_iptables_rule == 0) { auto_add_iptables_rule = 1; mylog(log_warn, " --keep_rule implys -a\n"); generate_iptables_rule = 0; // myexit(-1); } char tmp_pattern[200]; string pattern = ""; if (program_mode == client_mode) { tmp_pattern[0] = 0; if (raw_mode == mode_faketcp) { sprintf(tmp_pattern, "-s %s -p tcp -m tcp --sport %d", remote_addr.get_ip(), remote_addr.get_port()); } if (raw_mode == mode_udp) { sprintf(tmp_pattern, "-s %s -p udp -m udp --sport %d", remote_addr.get_ip(), remote_addr.get_port()); } if (raw_mode == mode_icmp) { if (raw_ip_version == AF_INET) sprintf(tmp_pattern, "-s %s -p icmp --icmp-type 0", remote_addr.get_ip()); else sprintf(tmp_pattern, "-s %s -p icmpv6 --icmpv6-type 129", remote_addr.get_ip()); } pattern += tmp_pattern; } if (program_mode == server_mode) { tmp_pattern[0] = 0; if (raw_ip_version == AF_INET) { if (local_addr.inner.ipv4.sin_addr.s_addr != 0) { sprintf(tmp_pattern, "-d %s ", local_addr.get_ip()); } } else { char zero_arr[16] = {0}; if (memcmp(&local_addr.inner.ipv6.sin6_addr, zero_arr, 16) != 0) { sprintf(tmp_pattern, "-d %s ", local_addr.get_ip()); } } pattern += tmp_pattern; tmp_pattern[0] = 0; if (raw_mode == mode_faketcp) { sprintf(tmp_pattern, "-p tcp -m tcp --dport %d", local_addr.get_port()); } if (raw_mode == mode_udp) { sprintf(tmp_pattern, "-p udp -m udp --dport %d", local_addr.get_port()); } if (raw_mode == mode_icmp) { if (raw_ip_version == AF_INET) sprintf(tmp_pattern, "-p icmp --icmp-type 8"); else sprintf(tmp_pattern, "-p icmpv6 --icmpv6-type 128"); } pattern += tmp_pattern; } /* if(!simple_rule) { pattern += " -m comment --comment udp2rawDwrW_"; char const_id_str[100]; sprintf(const_id_str, "%x_", const_id); pattern += const_id_str; time_t timer; char buffer[26]; struct tm* tm_info; time(&timer); tm_info = localtime(&timer); strftime(buffer, 26, "%Y-%m-%d-%H:%M:%S", tm_info); pattern += buffer; }*/ if (generate_iptables_rule) { string rule = iptables_command + "-I INPUT "; rule += pattern; rule += " -j DROP"; printf("generated iptables rule:\n"); printf("%s\n", rule.c_str()); myexit(0); } if (generate_iptables_rule_add) { iptables_gen_add(pattern.c_str(), const_id); myexit(0); } if (auto_add_iptables_rule) { iptables_rule_init(pattern.c_str(), const_id, keep_rule); if (keep_rule) { if (pthread_create(&keep_thread, NULL, run_keep, 0)) { mylog(log_fatal, "Error creating thread\n"); myexit(-1); } keep_thread_running = 1; } } else { mylog(log_warn, " -a has not been set, make sure you have added the needed iptables rules manually\n"); } } #endif int unit_test() { printf("running unit test\n"); vector conf_lines = {"---aaa", "--aaa bbb", "-a bbb", " \t \t \t-a\t \t \t bbbbb\t \t \t "}; for (int i = 0; i < int(conf_lines.size()); i++) { printf("orign:%s\n", conf_lines[i].c_str()); auto res = parse_conf_line(conf_lines[i]); printf("pasrse_result: size %d", int(res.size())); for (int j = 0; j < int(res.size()); j++) { printf("<%s>", res[j].c_str()); } printf("\n"); } char s1[] = {1, 2, 3, 4, 5}; char s2[] = {1}; short c1 = csum((unsigned short *)s1, 5); short c2 = csum((unsigned short *)s2, 1); // c2=0; printf("%x %x\n", (int)c1, (int)c2); const char buf[] = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 2, 13, 14, 15, 16}; char key[100] = {0}; char buf2[100] = {0}; char buf3[100] = {0}; char buf4[100] = {0}; int len = 16; for (int i = 0; i < len; i++) { printf("<%d>", buf[i]); } printf("\n"); cipher_encrypt(buf, buf2, len, key); for (int i = 0; i < len; i++) { printf("<%d>", buf2[i]); } printf("\n"); int temp_len = len; cipher_decrypt(buf2, buf3, len, key); for (int i = 0; i < len; i++) { printf("<%d>", buf3[i]); } printf("\n"); cipher_encrypt(buf2, buf4, temp_len, key); for (int i = 0; i < temp_len; i++) { printf("<%d>", buf4[i]); } return 0; } #ifdef UDP2RAW_LINUX int set_timer(int epollfd, int &timer_fd) // put a timer_fd into epoll,general function,used both in client and server { int ret; epoll_event ev; itimerspec its; memset(&its, 0, sizeof(its)); if ((timer_fd = timerfd_create(CLOCK_MONOTONIC, TFD_NONBLOCK)) < 0) { mylog(log_fatal, "timer_fd create error\n"); myexit(1); } its.it_interval.tv_sec = (timer_interval / 1000); its.it_interval.tv_nsec = (timer_interval % 1000) * 1000ll * 1000ll; its.it_value.tv_nsec = 1; // imidiately timerfd_settime(timer_fd, 0, &its, 0); ev.events = EPOLLIN; ev.data.u64 = timer_fd; ret = epoll_ctl(epollfd, EPOLL_CTL_ADD, timer_fd, &ev); if (ret < 0) { mylog(log_fatal, "epoll_ctl return %d\n", ret); myexit(-1); } return 0; } int set_timer_server(int epollfd, int &timer_fd, fd64_t &fd64) // only for server { int ret; epoll_event ev; itimerspec its; memset(&its, 0, sizeof(its)); if ((timer_fd = timerfd_create(CLOCK_MONOTONIC, TFD_NONBLOCK)) < 0) { mylog(log_fatal, "timer_fd create error\n"); myexit(1); } its.it_interval.tv_sec = (timer_interval / 1000); its.it_interval.tv_nsec = (timer_interval % 1000) * 1000ll * 1000ll; its.it_value.tv_nsec = 1; // imidiately timerfd_settime(timer_fd, 0, &its, 0); fd64 = fd_manager.create(timer_fd); ev.events = EPOLLIN; ev.data.u64 = fd64; ////difference ret = epoll_ctl(epollfd, EPOLL_CTL_ADD, timer_fd, &ev); if (ret < 0) { mylog(log_fatal, "epoll_ctl return %d\n", ret); myexit(-1); } return 0; } int handle_lower_level(raw_info_t &raw_info) // fill lower_level info,when --lower-level is enabled,only for server { packet_info_t &send_info = raw_info.send_info; packet_info_t &recv_info = raw_info.recv_info; if (lower_level_manual) { memset(&send_info.addr_ll, 0, sizeof(send_info.addr_ll)); send_info.addr_ll.sll_family = AF_PACKET; send_info.addr_ll.sll_ifindex = ifindex; send_info.addr_ll.sll_halen = ETHER_ADDR_LEN; send_info.addr_ll.sll_protocol = htons(ETH_P_IP); memcpy(&send_info.addr_ll.sll_addr, dest_hw_addr, ETHER_ADDR_LEN); mylog(log_debug, "[manual]lower level info %x %x\n ", send_info.addr_ll.sll_halen, send_info.addr_ll.sll_protocol); } else { memset(&send_info.addr_ll, 0, sizeof(send_info.addr_ll)); send_info.addr_ll.sll_family = recv_info.addr_ll.sll_family; send_info.addr_ll.sll_ifindex = recv_info.addr_ll.sll_ifindex; send_info.addr_ll.sll_protocol = recv_info.addr_ll.sll_protocol; send_info.addr_ll.sll_halen = recv_info.addr_ll.sll_halen; memcpy(send_info.addr_ll.sll_addr, recv_info.addr_ll.sll_addr, sizeof(send_info.addr_ll.sll_addr)); // other bytes should be kept zero. mylog(log_debug, "[auto]lower level info %x %x\n ", send_info.addr_ll.sll_halen, send_info.addr_ll.sll_protocol); } return 0; } string chain[2]; string rule_keep[2]; string rule_keep_add[2]; string rule_keep_del[2]; u64_t keep_rule_last_time = 0; pthread_t keep_thread; int keep_thread_running = 0; int iptables_gen_add(const char *s, u32_t const_id) { string dummy = ""; iptables_pattern = s; chain[0] = dummy + "udp2rawDwrW_C"; rule_keep[0] = dummy + iptables_pattern + " -j " + chain[0]; rule_keep_add[0] = iptables_command + "-I INPUT " + rule_keep[0]; char *output; run_command(iptables_command + "-N " + chain[0], output, show_none); run_command(iptables_command + "-F " + chain[0], output); run_command(iptables_command + "-I " + chain[0] + " -j DROP", output); rule_keep_del[0] = iptables_command + "-D INPUT " + rule_keep[0]; run_command(rule_keep_del[0], output, show_none); run_command(rule_keep_del[0], output, show_none); if (run_command(rule_keep_add[0], output) != 0) { mylog(log_fatal, "auto added iptables failed by: %s\n", rule_keep_add[0].c_str()); myexit(-1); } return 0; } int iptables_rule_init(const char *s, u32_t const_id, int keep) { iptables_pattern = s; iptables_rule_added = 1; iptables_rule_keeped = keep; string dummy = ""; char const_id_str[100]; sprintf(const_id_str, "%x", const_id); chain[0] = dummy + "udp2rawDwrW_" + const_id_str + "_C0"; chain[1] = dummy + "udp2rawDwrW_" + const_id_str + "_C1"; rule_keep[0] = dummy + iptables_pattern + " -j " + chain[0]; rule_keep[1] = dummy + iptables_pattern + " -j " + chain[1]; rule_keep_add[0] = iptables_command + "-I INPUT " + rule_keep[0]; rule_keep_add[1] = iptables_command + "-I INPUT " + rule_keep[1]; rule_keep_del[0] = iptables_command + "-D INPUT " + rule_keep[0]; rule_keep_del[1] = iptables_command + "-D INPUT " + rule_keep[1]; keep_rule_last_time = get_current_time(); char *output; for (int i = 0; i <= iptables_rule_keeped; i++) { run_command(iptables_command + "-N " + chain[i], output); run_command(iptables_command + "-F " + chain[i], output); run_command(iptables_command + "-I " + chain[i] + " -j DROP", output); if (run_command(rule_keep_add[i], output) != 0) { mylog(log_fatal, "auto added iptables failed by: %s\n", rule_keep_add[i].c_str()); myexit(-1); } } mylog(log_warn, "auto added iptables rules\n"); return 0; } int keep_iptables_rule() // magic to work on a machine without grep/iptables --check/-m commment { /* if(iptables_rule_keeped==0) return 0; uint64_t tmp_current_time=get_current_time(); if(tmp_current_time-keep_rule_last_time<=iptables_rule_keep_interval) { return 0; } else { keep_rule_last_time=tmp_current_time; }*/ mylog(log_debug, "keep_iptables_rule begin %llu\n", get_current_time()); iptables_rule_keep_index += 1; iptables_rule_keep_index %= 2; string dummy = ""; char *output; int i = iptables_rule_keep_index; run_command(iptables_command + "-N " + chain[i], output, show_none); if (run_command(iptables_command + "-F " + chain[i], output, show_none) != 0) mylog(log_warn, "iptables -F failed %d\n", i); if (run_command(iptables_command + "-I " + chain[i] + " -j DROP", output, show_none) != 0) mylog(log_warn, "iptables -I failed %d\n", i); if (run_command(rule_keep_del[i], output, show_none) != 0) mylog(log_warn, "rule_keep_del failed %d\n", i); run_command(rule_keep_del[i], output, show_none); // do it twice,incase it fails for unknown random reason if (run_command(rule_keep_add[i], output, show_log) != 0) mylog(log_warn, "rule_keep_del failed %d\n", i); mylog(log_debug, "keep_iptables_rule end %llu\n", get_current_time()); return 0; } int clear_iptables_rule() { char *output; string dummy = ""; if (!iptables_rule_added) return 0; for (int i = 0; i <= iptables_rule_keeped; i++) { run_command(rule_keep_del[i], output); run_command(iptables_command + "-F " + chain[i], output); run_command(iptables_command + "-X " + chain[i], output); } return 0; } #endif #ifdef UDP2RAW_MP void iptables_rule() // handles -a -g --gen-add --keep-rule --clear --wait-lock { if (generate_iptables_rule) { if (raw_mode == mode_faketcp && use_tcp_dummy_socket == 1) { mylog(log_fatal, "failed,-g doesnt work with easy-faketcp mode\n"); myexit(-1); } if (raw_mode == mode_udp) { mylog(log_warn, "It not necessary to use iptables/firewall rule in udp mode\n"); } log_bare(log_warn, "for linux, use:\n"); if (raw_ip_version == AF_INET) { if (raw_mode == mode_faketcp) printf("iptables -I INPUT -s %s -p tcp -m tcp --sport %d -j DROP\n", remote_addr.get_ip(), remote_addr.get_port()); if (raw_mode == mode_udp) printf("iptables -I INPUT -s %s -p udp -m udp --sport %d -j DROP\n", remote_addr.get_ip(), remote_addr.get_port()); if (raw_mode == mode_icmp) printf("iptables -I INPUT -s %s -p icmp --icmp-type 0 -j DROP\n", remote_addr.get_ip()); printf("\n"); } else { assert(raw_ip_version == AF_INET6); if (raw_mode == mode_faketcp) printf("ip6tables -I INPUT -s %s -p tcp -m tcp --sport %d -j DROP\n", remote_addr.get_ip(), remote_addr.get_port()); if (raw_mode == mode_udp) printf("ip6tables -I INPUT -s %s -p udp -m udp --sport %d -j DROP\n", remote_addr.get_ip(), remote_addr.get_port()); if (raw_mode == mode_icmp) printf("ip6tables -I INPUT -s %s -p -p icmpv6 --icmpv6-type 129 -j DROP\n", remote_addr.get_ip()); printf("\n"); } log_bare(log_warn, "for mac/bsd use:\n"); if (raw_ip_version == AF_INET) { if (raw_mode == mode_faketcp) printf("echo 'block drop inet proto tcp from %s port %d to any' > ./1.conf\n", remote_addr.get_ip(), remote_addr.get_port()); if (raw_mode == mode_udp) printf("echo 'block drop inet proto udp from %s port %d to any' > ./1.conf\n", remote_addr.get_ip(), remote_addr.get_port()); if (raw_mode == mode_icmp) printf("echo 'block drop inet proto icmp from %s to any' > ./1.conf\n", remote_addr.get_ip()); } else { assert(raw_ip_version == AF_INET6); if (raw_mode == mode_faketcp) printf("echo 'block drop inet6 proto tcp from %s port %d to any' > ./1.conf\n", remote_addr.get_ip(), remote_addr.get_port()); if (raw_mode == mode_udp) printf("echo 'block drop inet6 proto udp from %s port %d to any' > ./1.conf\n", remote_addr.get_ip(), remote_addr.get_port()); if (raw_mode == mode_icmp) printf("echo 'block drop inet6 proto icmp6 from %s to any' > ./1.conf\n", remote_addr.get_ip()); } printf("pfctl -f ./1.conf\n"); printf("pfctl -e\n"); printf("\n"); log_bare(log_warn, "for windows vista and above use:\n"); if (raw_ip_version == AF_INET) { if (raw_mode == mode_faketcp) { printf("netsh advfirewall firewall add rule name=udp2raw protocol=TCP dir=in remoteip=%s remoteport=%d action=block\n", remote_addr.get_ip(), remote_addr.get_port()); printf("netsh advfirewall firewall add rule name=udp2raw protocol=TCP dir=out remoteip=%s remoteport=%d action=block\n", remote_addr.get_ip(), remote_addr.get_port()); } if (raw_mode == mode_udp) { printf("netsh advfirewall firewall add rule name=udp2raw protocol=UDP dir=in remoteip=%s remoteport=%d action=block\n", remote_addr.get_ip(), remote_addr.get_port()); printf("netsh advfirewall firewall add rule name=udp2raw protocol=UDP dir=out remoteip=%s remoteport=%d action=block\n", remote_addr.get_ip(), remote_addr.get_port()); } if (raw_mode == mode_icmp) { printf("netsh advfirewall firewall add rule name=udp2raw protocol=ICMPV4 dir=in remoteip=%s action=block\n", remote_addr.get_ip()); printf("netsh advfirewall firewall add rule name=udp2raw protocol=ICMPV4 dir=out remoteip=%s action=block\n", remote_addr.get_ip()); } } else { assert(raw_ip_version == AF_INET6); if (raw_mode == mode_faketcp) { printf("netsh advfirewall firewall add rule name=udp2raw protocol=TCP dir=in remoteip=%s remoteport=%d action=block\n", remote_addr.get_ip(), remote_addr.get_port()); printf("netsh advfirewall firewall add rule name=udp2raw protocol=TCP dir=out remoteip=%s remoteport=%d action=block\n", remote_addr.get_ip(), remote_addr.get_port()); } if (raw_mode == mode_udp) { printf("netsh advfirewall firewall add rule name=udp2raw protocol=UDP dir=in remoteip=%s remoteport=%d action=block\n", remote_addr.get_ip(), remote_addr.get_port()); printf("netsh advfirewall firewall add rule name=udp2raw protocol=UDP dir=out remoteip=%s remoteport=%d action=block\n", remote_addr.get_ip(), remote_addr.get_port()); } if (raw_mode == mode_icmp) { printf("netsh advfirewall firewall add rule name=udp2raw protocol=ICMPV6 dir=in remoteip=%s action=block\n", remote_addr.get_ip()); printf("netsh advfirewall firewall add rule name=udp2raw protocol=ICMPV6 dir=out remoteip=%s action=block\n", remote_addr.get_ip()); } } myexit(0); } } #endif void signal_handler(int sig) { about_to_exit = 1; // myexit(0); }