/* $OpenBSD: check_tcp.c,v 1.55 2017/07/04 20:27:09 benno Exp $ */ /* * Copyright (c) 2006 Pierre-Yves Ritschard * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "relayd.h" void tcp_write(int, short, void *); void tcp_host_up(struct ctl_tcp_event *); void tcp_close(struct ctl_tcp_event *, int); void tcp_send_req(int, short, void *); void tcp_read_buf(int, short, void *); int check_http_code(struct ctl_tcp_event *); int check_http_digest(struct ctl_tcp_event *); int check_send_expect(struct ctl_tcp_event *); void check_tcp(struct ctl_tcp_event *cte) { int s; socklen_t len; struct timeval tv; struct linger lng; int he = HCE_TCP_SOCKET_OPTION; switch (cte->host->conf.ss.ss_family) { case AF_INET: ((struct sockaddr_in *)&cte->host->conf.ss)->sin_port = cte->table->conf.port; break; case AF_INET6: ((struct sockaddr_in6 *)&cte->host->conf.ss)->sin6_port = cte->table->conf.port; break; } len = ((struct sockaddr *)&cte->host->conf.ss)->sa_len; if ((s = socket(cte->host->conf.ss.ss_family, SOCK_STREAM | SOCK_NONBLOCK, 0)) == -1) { if (errno == EMFILE || errno == ENFILE) he = HCE_TCP_SOCKET_LIMIT; else he = HCE_TCP_SOCKET_ERROR; goto bad; } cte->s = s; bzero(&lng, sizeof(lng)); if (setsockopt(s, SOL_SOCKET, SO_LINGER, &lng, sizeof(lng)) == -1) goto bad; if (cte->host->conf.ttl > 0) switch (cte->host->conf.ss.ss_family) { case AF_INET: if (setsockopt(s, IPPROTO_IP, IP_TTL, &cte->host->conf.ttl, sizeof(int)) == -1) goto bad; break; case AF_INET6: if (setsockopt(s, IPPROTO_IPV6, IPV6_UNICAST_HOPS, &cte->host->conf.ttl, sizeof(int)) == -1) goto bad; break; } bcopy(&cte->table->conf.timeout, &tv, sizeof(tv)); if (connect(s, (struct sockaddr *)&cte->host->conf.ss, len) == -1) { if (errno != EINPROGRESS) { he = HCE_TCP_CONNECT_FAIL; goto bad; } } cte->buf = NULL; cte->host->up = HOST_UP; event_del(&cte->ev); event_set(&cte->ev, s, EV_TIMEOUT|EV_WRITE, tcp_write, cte); event_add(&cte->ev, &tv); return; bad: tcp_close(cte, HOST_DOWN); hce_notify_done(cte->host, he); } void tcp_write(int s, short event, void *arg) { struct ctl_tcp_event *cte = arg; int err; socklen_t len; if (event == EV_TIMEOUT) { tcp_close(cte, HOST_DOWN); hce_notify_done(cte->host, HCE_TCP_CONNECT_TIMEOUT); return; } len = sizeof(err); if (getsockopt(s, SOL_SOCKET, SO_ERROR, &err, &len)) fatal("%s: getsockopt", __func__); if (err != 0) { tcp_close(cte, HOST_DOWN); hce_notify_done(cte->host, HCE_TCP_CONNECT_FAIL); return; } cte->host->up = HOST_UP; tcp_host_up(cte); } void tcp_close(struct ctl_tcp_event *cte, int status) { close(cte->s); cte->s = -1; if (status != 0) cte->host->up = status; ibuf_free(cte->buf); cte->buf = NULL; } void tcp_host_up(struct ctl_tcp_event *cte) { switch (cte->table->conf.check) { case CHECK_TCP: if (cte->table->conf.flags & F_TLS) break; tcp_close(cte, 0); hce_notify_done(cte->host, HCE_TCP_CONNECT_OK); return; case CHECK_HTTP_CODE: cte->validate_read = NULL; cte->validate_close = check_http_code; break; case CHECK_HTTP_DIGEST: cte->validate_read = NULL; cte->validate_close = check_http_digest; break; case CHECK_SEND_EXPECT: cte->validate_read = check_send_expect; cte->validate_close = check_send_expect; break; } if (cte->table->conf.flags & F_TLS) { check_tls(cte); return; } if (cte->table->sendbuf != NULL) { cte->req = cte->table->sendbuf; event_again(&cte->ev, cte->s, EV_TIMEOUT|EV_WRITE, tcp_send_req, &cte->tv_start, &cte->table->conf.timeout, cte); return; } if ((cte->buf = ibuf_dynamic(SMALL_READ_BUF_SIZE, UINT_MAX)) == NULL) fatalx("%s: cannot create dynamic buffer", __func__); event_again(&cte->ev, cte->s, EV_TIMEOUT|EV_READ, tcp_read_buf, &cte->tv_start, &cte->table->conf.timeout, cte); } void tcp_send_req(int s, short event, void *arg) { struct ctl_tcp_event *cte = arg; int bs; int len; if (event == EV_TIMEOUT) { tcp_close(cte, HOST_DOWN); hce_notify_done(cte->host, HCE_TCP_WRITE_TIMEOUT); return; } len = strlen(cte->req); do { bs = write(s, cte->req, len); if (bs == -1) { if (errno == EAGAIN || errno == EINTR) goto retry; log_warn("%s: cannot send request", __func__); tcp_close(cte, HOST_DOWN); hce_notify_done(cte->host, HCE_TCP_WRITE_FAIL); return; } cte->req += bs; len -= bs; } while (len > 0); if ((cte->buf = ibuf_dynamic(SMALL_READ_BUF_SIZE, UINT_MAX)) == NULL) fatalx("%s: cannot create dynamic buffer", __func__); event_again(&cte->ev, s, EV_TIMEOUT|EV_READ, tcp_read_buf, &cte->tv_start, &cte->table->conf.timeout, cte); return; retry: event_again(&cte->ev, s, EV_TIMEOUT|EV_WRITE, tcp_send_req, &cte->tv_start, &cte->table->conf.timeout, cte); } void tcp_read_buf(int s, short event, void *arg) { ssize_t br; char rbuf[SMALL_READ_BUF_SIZE]; struct ctl_tcp_event *cte = arg; if (event == EV_TIMEOUT) { if (ibuf_size(cte->buf)) (void)cte->validate_close(cte); else cte->host->he = HCE_TCP_READ_TIMEOUT; tcp_close(cte, cte->host->up == HOST_UP ? 0 : HOST_DOWN); hce_notify_done(cte->host, cte->host->he); return; } bzero(rbuf, sizeof(rbuf)); br = read(s, rbuf, sizeof(rbuf) - 1); switch (br) { case -1: if (errno == EAGAIN || errno == EINTR) goto retry; tcp_close(cte, HOST_DOWN); hce_notify_done(cte->host, HCE_TCP_READ_FAIL); return; case 0: cte->host->up = HOST_DOWN; (void)cte->validate_close(cte); tcp_close(cte, 0); hce_notify_done(cte->host, cte->host->he); return; default: if (ibuf_add(cte->buf, rbuf, br) == -1) fatal("%s: buf_add error", __func__); if (cte->validate_read != NULL) { if (cte->validate_read(cte) != 0) goto retry; tcp_close(cte, 0); hce_notify_done(cte->host, cte->host->he); return; } break; /* retry */ } retry: event_again(&cte->ev, s, EV_TIMEOUT|EV_READ, tcp_read_buf, &cte->tv_start, &cte->table->conf.timeout, cte); } int check_send_expect(struct ctl_tcp_event *cte) { u_char *b; /* * ensure string is nul-terminated. */ b = ibuf_reserve(cte->buf, 1); if (b == NULL) fatal("out of memory"); *b = '\0'; if (fnmatch(cte->table->conf.exbuf, cte->buf->buf, 0) == 0) { cte->host->he = HCE_SEND_EXPECT_OK; cte->host->up = HOST_UP; return (0); } cte->host->he = HCE_SEND_EXPECT_FAIL; cte->host->up = HOST_UNKNOWN; /* * go back to original position. */ cte->buf->wpos--; return (1); } int check_http_code(struct ctl_tcp_event *cte) { char *head; char scode[4]; const char *estr; u_char *b; int code; struct host *host; /* * ensure string is nul-terminated. */ b = ibuf_reserve(cte->buf, 1); if (b == NULL) fatal("out of memory"); *b = '\0'; head = cte->buf->buf; host = cte->host; host->he = HCE_HTTP_CODE_ERROR; host->code = 0; if (strncmp(head, "HTTP/1.1 ", strlen("HTTP/1.1 ")) && strncmp(head, "HTTP/1.0 ", strlen("HTTP/1.0 "))) { log_debug("%s: %s failed (cannot parse HTTP version)", __func__, host->conf.name); host->up = HOST_DOWN; return (1); } head += strlen("HTTP/1.1 "); if (strlen(head) < 5) /* code + \r\n */ { host->up = HOST_DOWN; return (1); } (void)strlcpy(scode, head, sizeof(scode)); code = strtonum(scode, 100, 999, &estr); if (estr != NULL) { log_debug("%s: %s failed (cannot parse HTTP code)", __func__, host->conf.name); host->up = HOST_DOWN; return (1); } if (code != cte->table->conf.retcode) { log_debug("%s: %s failed (invalid HTTP code %d returned)", __func__, host->conf.name, code); host->he = HCE_HTTP_CODE_FAIL; host->up = HOST_DOWN; host->code = code; } else { host->he = HCE_HTTP_CODE_OK; host->up = HOST_UP; } return (!(host->up == HOST_UP)); } int check_http_digest(struct ctl_tcp_event *cte) { char *head; u_char *b; char digest[SHA1_DIGEST_STRING_LENGTH]; struct host *host; /* * ensure string is nul-terminated. */ b = ibuf_reserve(cte->buf, 1); if (b == NULL) fatal("out of memory"); *b = '\0'; head = cte->buf->buf; host = cte->host; host->he = HCE_HTTP_DIGEST_ERROR; if ((head = strstr(head, "\r\n\r\n")) == NULL) { log_debug("%s: %s failed (no end of headers)", __func__, host->conf.name); host->up = HOST_DOWN; return (1); } head += strlen("\r\n\r\n"); digeststr(cte->table->conf.digest_type, head, strlen(head), digest); if (strcmp(cte->table->conf.digest, digest)) { log_warnx("%s: %s failed (wrong digest)", __func__, host->conf.name); host->he = HCE_HTTP_DIGEST_FAIL; host->up = HOST_DOWN; } else { host->he = HCE_HTTP_DIGEST_OK; host->up = HOST_UP; } return (!(host->up == HOST_UP)); }