#include "extend.h" #ifdef _WIN32 #include #ifndef TCP_MAXRT #define TCP_MAXRT 5 #endif #else #include #include #include #include #endif #include #include #include "proxy.h" #include "error.h" #include "params.h" #include "desync.h" #include "packets.h" #define KEY_SIZE sizeof(struct sockaddr_ina) static int set_timeout(int fd, unsigned int s) { #ifdef __linux__ if (setsockopt(fd, IPPROTO_TCP, TCP_USER_TIMEOUT, (char *)&s, sizeof(s))) { uniperror("setsockopt TCP_USER_TIMEOUT"); return -1; } #else #ifdef _WIN32 if (setsockopt(fd, IPPROTO_TCP, TCP_MAXRT, (char *)&s, sizeof(s))) { uniperror("setsockopt TCP_MAXRT"); return -1; } #endif #endif return 0; } static ssize_t serialize_addr(const struct sockaddr_ina *dst, uint8_t *const out, const size_t out_len) { #define serialize(raw, field, len, counter){ \ const size_t size = sizeof(field); \ if ((counter + size) <= len) { \ memcpy(raw + counter, &(field), size); \ counter += size; \ } else return 0; \ } size_t c = 0; serialize(out, dst->in.sin_port, out_len, c); serialize(out, dst->sa.sa_family, out_len, c); if (dst->sa.sa_family == AF_INET) { serialize(out, dst->in.sin_addr, out_len, c); } else { serialize(out, dst->in6.sin6_addr, out_len, c); } #undef serialize return c; } static int cache_get(struct sockaddr_ina *dst) { uint8_t key[KEY_SIZE] = { 0 }; int len = serialize_addr(dst, key, sizeof(key)); struct elem *val = mem_get(params.mempool, (char *)key, len); if (!val) { return -1; } time_t t = time(0); if (t > val->time + params.cache_ttl) { LOG(LOG_S, "time=%jd, now=%jd, ignore\n", (intmax_t)val->time, (intmax_t)t); return 0; } return val->m; } static int cache_add(struct sockaddr_ina *dst, int m) { assert(m >= 0 && m < params.dp_count); uint8_t key[KEY_SIZE] = { 0 }; int len = serialize_addr(dst, key, sizeof(key)); INIT_ADDR_STR((*dst)); if (m == 0) { LOG(LOG_S, "delete ip: %s\n", ADDR_STR); mem_delete(params.mempool, (char *)key, len); return 0; } LOG(LOG_S, "save ip: %s, m=%d\n", ADDR_STR, m); time_t t = time(0); struct elem *val = mem_add(params.mempool, (char *)key, len); if (!val) { uniperror("mem_add"); return -1; } val->m = m; val->time = t; return 0; } static inline bool check_port(uint16_t *p, struct sockaddr_in6 *dst) { return (dst->sin6_port >= p[0] && dst->sin6_port <= p[1]); } int connect_hook(struct poolhd *pool, struct eval *val, struct sockaddr_ina *dst, int next) { int m = cache_get(dst); val->cache = (m == 0); val->attempt = m < 0 ? 0 : m; return create_conn(pool, val, dst, next); } int socket_mod(int fd, struct sockaddr *dst) { if (params.custom_ttl) { if (setttl(fd, params.def_ttl) < 0) { return -1; } } if (params.protect_path) { return protect(fd, params.protect_path); } return 0; } static int reconnect(struct poolhd *pool, struct eval *val, int m) { assert(val->flag == FLAG_CONN); struct eval *client = val->pair; if (create_conn(pool, client, (struct sockaddr_ina *)&val->in6, EV_TUNNEL)) { return -1; } val->pair = 0; del_event(pool, val); //client->type = EV_IGNORE; client->attempt = m; client->cache = 1; client->buff.offset = 0; return 0; } static bool check_host(struct mphdr *hosts, char *buffer, ssize_t n) { char *host = 0; int len; if (!(len = parse_tls(buffer, n, &host))) { len = parse_http(buffer, n, &host, 0); } assert(len == 0 || host != 0); if (len <= 0) { return 0; } char *e = host + len; for (; host < e; host++) { if (mem_get(hosts, host, e - host)) { return 1; } if (!(host = memchr(host, '.', e - host))) { return 0; } } return 0; } static bool check_proto_tcp(int proto, char *buffer, ssize_t n) { if (proto & IS_TCP) { return 1; } else if ((proto & IS_HTTP) && is_http(buffer, n)) { return 1; } else if ((proto & IS_HTTPS) && is_tls_chello(buffer, n)) { return 1; } return 0; } static int on_trigger(int type, struct poolhd *pool, struct eval *val) { int m = val->pair->attempt + 1; bool can_reconn = ( val->pair->buff.locked && !val->recv_count ); if (!can_reconn && params.auto_level <= AUTO_NOSAVE) { return -1; } for (; m < params.dp_count; m++) { struct desync_params *dp = ¶ms.dp[m]; if (!dp->detect) { break; } if (!(dp->detect & type)) { continue; } if (can_reconn) { return reconnect(pool, val, m); } cache_add( (struct sockaddr_ina *)&val->in6, m); break; } if (m >= params.dp_count && m > 1) { cache_add( (struct sockaddr_ina *)&val->in6, 0); } return -1; } static int on_torst(struct poolhd *pool, struct eval *val) { if (on_trigger(DETECT_TORST, pool, val) == 0) { return 0; } struct linger l = { .l_onoff = 1 }; if (setsockopt(val->pair->fd, SOL_SOCKET, SO_LINGER, (char *)&l, sizeof(l)) < 0) { uniperror("setsockopt SO_LINGER"); } return -1; } static int on_fin(struct poolhd *pool, struct eval *val) { if (!(val->pair->mark && val->round_count <= 1)) { return -1; } if (on_trigger(DETECT_TLS_ERR, pool, val) == 0) { return 0; } return -1; } static int on_response(struct poolhd *pool, struct eval *val, char *resp, ssize_t sn) { int m = val->pair->attempt + 1; char *req = val->pair->buff.data; ssize_t qn = val->pair->buff.size; for (; m < params.dp_count; m++) { struct desync_params *dp = ¶ms.dp[m]; if (!dp->detect) { return -1; } if ((dp->detect & DETECT_HTTP_LOCAT) && is_http_redirect(req, qn, resp, sn)) { break; } else if ((dp->detect & DETECT_TLS_ERR) && ((is_tls_chello(req, qn) && !is_tls_shello(resp, sn)) || neq_tls_sid(req, qn, resp, sn))) { break; } } if (m < params.dp_count) { return reconnect(pool, val, m); } return -1; } static inline void free_first_req(struct eval *client) { assert(client->buff.data); free(client->buff.data); memset(&client->buff, 0, sizeof(client->buff)); } static ssize_t on_first_send(struct eval *client, char *buffer, ssize_t n, ssize_t bfsize) { int m = client->attempt; if (!m) for (; m < params.dp_count; m++) { struct desync_params *dp = ¶ms.dp[m]; if (!dp->detect && (!dp->pf[0] || check_port(dp->pf, &client->pair->in6)) && (!dp->proto || check_proto_tcp(dp->proto, buffer, n)) && (!dp->hosts || check_host(dp->hosts, buffer, n))) { break; } } if (m >= params.dp_count) { LOG(LOG_E, "drop connection (m=%d)\n", m); return -1; } if (params.auto_level > AUTO_NOBUFF && params.dp_count > 1) { client->mark = is_tls_chello(buffer, n); } client->attempt = m; if (params.timeout && set_timeout(client->pair->fd, params.timeout)) { return -1; } if (client->buff.locked) { assert(bfsize >= client->buff.size); memcpy(buffer, client->buff.data, client->buff.size); return client->buff.size; } return n; } ssize_t tcp_send_hook(struct poolhd *pool, struct eval *remote, char *buffer, size_t bfsize, ssize_t n) { ssize_t sn = -1; if (remote->flag != FLAG_CONN || remote->pair->round_count > params.repeats) { sn = send(remote->fd, buffer, n, 0); if (sn < 0 && get_e() == EAGAIN) { return 0; } return sn; } struct eval *client = remote->pair; if (client->recv_count == n) { n = on_first_send(client, buffer, n, bfsize); if (n < 0) { return -1; } } int m = client->attempt; LOG((m ? LOG_S : LOG_L), "desync params index: %d\n", m); sn = desync(remote->fd, buffer, bfsize, n, 0, (struct sockaddr *)&remote->in6, m); return sn; } ssize_t tcp_recv_hook(struct poolhd *pool, struct eval *val, char *buffer, size_t bfsize) { ssize_t n = recv(val->fd, buffer, bfsize, 0); if (n < 1) { if (!n) { if (val->flag != FLAG_CONN) { val = val->pair; } return on_fin(pool, val); } if (get_e() == EAGAIN) { return 0; } uniperror("recv"); switch (get_e()) { case ECONNRESET: case ECONNREFUSED: case ETIMEDOUT: if (val->flag == FLAG_CONN) return on_torst(pool, val); else return on_fin(pool, val->pair); } return -1; } if (val->flag != FLAG_CONN && params.auto_level > AUTO_NOBUFF && val->pair->recv_count == 0) { val->buff.size += n; if (val->buff.size >= bfsize) { free_first_req(val); return n; } val->buff.locked = 1; val->buff.data = realloc(val->buff.data, val->buff.size); if (val->buff.data == 0) { uniperror("realloc"); return -1; } memcpy(val->buff.data + val->buff.size - n, buffer, n); } else if (val->recv_count == 0 && val->flag == FLAG_CONN) { if (val->pair->buff.locked) { if (on_response(pool, val, buffer, n) == 0) { return 0; } free_first_req(val->pair); } if (params.timeout && params.auto_level <= AUTO_NOSAVE && set_timeout(val->fd, 0)) { return -1; } int m = val->pair->attempt; if (post_desync(val->fd, m)) { return -1; } if (val->pair->cache && cache_add((struct sockaddr_ina *)&val->in6, m) < 0) { return -1; } } return n; } ssize_t udp_hook(struct eval *val, char *buffer, size_t bfsize, ssize_t n, struct sockaddr_ina *dst) { if (val->recv_count) { return send(val->fd, buffer, n, 0); } int m = val->attempt; if (!m) for (; m < params.dp_count; m++) { struct desync_params *dp = ¶ms.dp[m]; if (!dp->detect && (!dp->proto || (dp->proto & IS_UDP)) && (!dp->pf[0] || check_port(dp->pf, &dst->in6))) { break; } } if (m >= params.dp_count) { return -1; } return desync_udp(val->fd, buffer, bfsize, n, &dst->sa, m); } #ifdef __linux__ int protect(int conn_fd, const char *path) { struct sockaddr_un sa; sa.sun_family = AF_UNIX; strcpy(sa.sun_path, path); int fd = socket(AF_UNIX, SOCK_STREAM, 0); if (fd < 0) { uniperror("socket"); return -1; } struct timeval tv = { .tv_sec = 1 }; setsockopt(fd, SOL_SOCKET, SO_RCVTIMEO, &tv, sizeof(tv)); setsockopt(fd, SOL_SOCKET, SO_SNDTIMEO, &tv, sizeof(tv)); int err = connect(fd, (struct sockaddr *)&sa, sizeof(sa)); if (err) { uniperror("connect"); close(fd); return -1; } char buf[CMSG_SPACE(sizeof(fd))] = {}; struct iovec io = { .iov_base = "1", .iov_len = 1 }; struct msghdr msg = { .msg_iov = &io }; msg.msg_iovlen = 1; msg.msg_control = buf; msg.msg_controllen = sizeof(buf); struct cmsghdr *cmsg = CMSG_FIRSTHDR(&msg); cmsg->cmsg_level = SOL_SOCKET; cmsg->cmsg_type = SCM_RIGHTS; cmsg->cmsg_len = CMSG_LEN(sizeof(conn_fd)); *((int *)CMSG_DATA(cmsg)) = conn_fd; msg.msg_controllen = CMSG_SPACE(sizeof(conn_fd)); if (sendmsg(fd, &msg, 0) < 0) { uniperror("sendmsg"); close(fd); return -1; } if (recv(fd, buf, 1, 0) < 1) { uniperror("recv"); close(fd); return -1; } close(fd); return 0; } #endif