/* Copyright (C) 2016-2017 CZ.NIC, z.s.p.o. * SPDX-License-Identifier: GPL-3.0-or-later */ #include #include #include #include #include #include #include #include #include #include "lib/cookies/alg_containers.h" #include "lib/cookies/control.h" #include "lib/cookies/helper.h" #include "lib/cookies/lru_cache.h" #include "lib/cookies/nonce.h" #include "lib/resolve.h" #include "lib/rplan.h" #include "modules/cookies/cookiemonster.h" #define VERBOSE_MSG(qry, ...) QRVERBOSE(qry, "cookies", __VA_ARGS__) /** * Obtain address from query/response context if if can be obtained. * @param req resolution context * @return pointer to where the server socket address, NULL if not provided within context */ static const struct sockaddr *passed_server_sockaddr(const struct kr_request *req) { if (!req || !req->upstream.addr) { return NULL; } if (req->upstream.addr->sa_family == AF_INET || req->upstream.addr->sa_family == AF_INET6) { return req->upstream.addr; } return NULL; } /** * Obtain pointer to server socket address that matches obtained cookie. * @param srvr_sa server socket address * @param cc client cookie from the response * @param cc_len client cookie size * @param clnt_sett client cookie settings structure * @retval 1 if cookie matches current settings * @retval 0 if cookie matches recent settings * @return -1 if cookie does not match * @return -2 on any error */ static int srvr_sockaddr_cc_check(const struct sockaddr *srvr_sa, const uint8_t *cc, uint16_t cc_len, const struct kr_cookie_settings *clnt_sett) { assert(cc && cc_len > 0 && clnt_sett); if (!srvr_sa) { return -2; } assert(clnt_sett->current.secr); /* The address must correspond with the client cookie. */ struct knot_cc_input input = { .clnt_sockaddr = NULL, /* Not supported yet. */ .srvr_sockaddr = srvr_sa, .secret_data = clnt_sett->current.secr->data, .secret_len = clnt_sett->current.secr->size }; const struct knot_cc_alg *cc_alg = kr_cc_alg_get(clnt_sett->current.alg_id); if (!cc_alg) { return -2; } int comp_ret = -1; /* Cookie does not match. */ int ret = knot_cc_check(cc, cc_len, &input, cc_alg); if (ret == KNOT_EOK) { comp_ret = 1; } else { cc_alg = kr_cc_alg_get(clnt_sett->recent.alg_id); if (clnt_sett->recent.secr && cc_alg) { input.secret_data = clnt_sett->recent.secr->data; input.secret_len = clnt_sett->recent.secr->size; ret = knot_cc_check(cc, cc_len, &input, cc_alg); if (ret == KNOT_EOK) { comp_ret = 0; } } } return comp_ret; } /** * Obtain cookie from cache. * @note Cookies with invalid length are ignored. * @param cache cache context * @param sa key value * @param cookie_opt entire EDNS cookie option (including header) * @return true if a cookie exists in cache */ static const uint8_t *get_cookie_opt(kr_cookie_lru_t *cache, const struct sockaddr *sa) { assert(cache && sa); const uint8_t *cached_cookie_opt = kr_cookie_lru_get(cache, sa); if (!cached_cookie_opt) { return NULL; } size_t cookie_opt_size = KNOT_EDNS_OPTION_HDRLEN + knot_edns_opt_get_length(cached_cookie_opt); if (cookie_opt_size > KR_COOKIE_OPT_MAX_LEN) { return NULL; } return cached_cookie_opt; } /** * Check whether the supplied cookie is cached under the given key. * @param cache cache context * @param sa key value * @param cookie_opt cookie option to search for */ static bool is_cookie_cached(kr_cookie_lru_t *cache, const struct sockaddr *sa, const uint8_t *cookie_opt) { assert(cache && sa && cookie_opt); const uint8_t *cached_opt = get_cookie_opt(cache, sa); if (!cached_opt) { return false; } uint16_t cookie_opt_size = KNOT_EDNS_OPTION_HDRLEN + knot_edns_opt_get_length(cookie_opt); uint16_t cached_opt_size = KNOT_EDNS_OPTION_HDRLEN + knot_edns_opt_get_length(cached_opt); if (cookie_opt_size != cached_opt_size) { return false; } return memcmp(cookie_opt, cached_opt, cookie_opt_size) == 0; } /** * Check cookie content and store it to cache. */ static bool check_cookie_content_and_cache(const struct kr_cookie_settings *clnt_sett, struct kr_request *req, uint8_t *pkt_cookie_opt, kr_cookie_lru_t *cache) { assert(clnt_sett && req && pkt_cookie_opt && cache); const uint8_t *pkt_cookie_data = knot_edns_opt_get_data(pkt_cookie_opt); uint16_t pkt_cookie_len = knot_edns_opt_get_length(pkt_cookie_opt); /* knot_edns_opt_cookie_parse() returns error on invalid data. */ const uint8_t *pkt_cc = NULL, *pkt_sc = NULL; uint16_t pkt_cc_len = 0, pkt_sc_len = 0; int ret = knot_edns_opt_cookie_parse(pkt_cookie_data, pkt_cookie_len, &pkt_cc, &pkt_cc_len, &pkt_sc, &pkt_sc_len); if (ret != KNOT_EOK || !pkt_sc) { VERBOSE_MSG(NULL, "%s\n", "got malformed DNS cookie or server cookie missing"); return false; } assert(pkt_cc_len == KNOT_OPT_COOKIE_CLNT); /* Check server address against received client cookie. */ const struct sockaddr *srvr_sockaddr = passed_server_sockaddr(req); ret = srvr_sockaddr_cc_check(srvr_sockaddr, pkt_cc, pkt_cc_len, clnt_sett); if (ret < 0) { VERBOSE_MSG(NULL, "%s\n", "could not match received cookie"); return false; } assert(srvr_sockaddr); /* Don't cache received cookies that don't match the current secret. */ if ((ret == 1) && !is_cookie_cached(cache, srvr_sockaddr, pkt_cookie_opt)) { ret = kr_cookie_lru_set(cache, srvr_sockaddr, pkt_cookie_opt); if (ret != kr_ok()) { VERBOSE_MSG(NULL, "%s\n", "failed caching cookie"); } else { VERBOSE_MSG(NULL, "%s\n", "cookie cached"); } } return true; } /** Process incoming response. */ int check_response(kr_layer_t *ctx, knot_pkt_t *pkt) { struct kr_request *req = ctx->req; struct kr_query *qry = req->current_query; struct kr_cookie_ctx *cookie_ctx = &req->ctx->cookie_ctx; if (ctx->state & (KR_STATE_DONE | KR_STATE_FAIL)) { return ctx->state; } if (!cookie_ctx->clnt.enabled || (qry->flags.TCP)) { return ctx->state; } /* Obtain cookie if present in response. Don't check actual content. */ uint8_t *pkt_cookie_opt = NULL; if (knot_pkt_has_edns(pkt)) { pkt_cookie_opt = knot_edns_get_option(pkt->opt_rr, KNOT_EDNS_OPTION_COOKIE); } kr_cookie_lru_t *cookie_cache = req->ctx->cache_cookie; const struct sockaddr *srvr_sockaddr = passed_server_sockaddr(req); if (!pkt_cookie_opt && srvr_sockaddr && get_cookie_opt(cookie_cache, srvr_sockaddr)) { /* We haven't received any cookies although we should. */ VERBOSE_MSG(NULL, "%s\n", "expected to receive a cookie but none received"); return KR_STATE_FAIL; } if (!pkt_cookie_opt) { /* Don't do anything if no cookies expected and received. */ return ctx->state; } if (!check_cookie_content_and_cache(&cookie_ctx->clnt, req, pkt_cookie_opt, cookie_cache)) { return KR_STATE_FAIL; } uint16_t rcode = knot_pkt_ext_rcode(pkt); if (rcode == KNOT_RCODE_BADCOOKIE) { struct kr_query *next = NULL; if (!(qry->flags.BADCOOKIE_AGAIN)) { /* Received first BADCOOKIE, regenerate query. */ next = kr_rplan_push(&req->rplan, qry->parent, qry->sname, qry->sclass, qry->stype); } if (next) { VERBOSE_MSG(NULL, "%s\n", "BADCOOKIE querying again"); qry->flags.BADCOOKIE_AGAIN = true; } else { /* * Either the planning of the second request failed or * BADCOOKIE received for the second time. * * RFC7873 5.3 says that TCP should be used. Currently * we always expect that the server doesn't support TCP. */ qry->flags.BADCOOKIE_AGAIN = false; return KR_STATE_FAIL; } return KR_STATE_CONSUME; } return ctx->state; } static inline uint8_t *req_cookie_option(struct kr_request *req) { if (!req || !req->qsource.opt) { return NULL; } return knot_edns_get_option(req->qsource.opt, KNOT_EDNS_OPTION_COOKIE); } /** * @brief Returns resolver state and sets answer RCODE on missing or invalid * server cookie. * * @note Caller should exit when only KR_STATE_FAIL is returned. * * @param state original resolver state * @param sc_present true if server cookie is present * @param ignore_badcookie true if bad cookies should be treated as good ones * @param req request context * @return new resolver state */ static int invalid_sc_status(int state, bool sc_present, bool ignore_badcookie, const struct kr_request *req, knot_pkt_t *answer) { assert(req && answer); const knot_pkt_t *pkt = req->qsource.packet; if (!pkt) { return KR_STATE_FAIL; } if (knot_wire_get_qdcount(pkt->wire) == 0) { /* RFC7873 5.4 */ state = KR_STATE_DONE; if (sc_present) { kr_pkt_set_ext_rcode(answer, KNOT_RCODE_BADCOOKIE); state |= KR_STATE_FAIL; } } else if (!ignore_badcookie) { /* Generate BADCOOKIE response. */ VERBOSE_MSG(NULL, "%s\n", !sc_present ? "request is missing server cookie" : "request has invalid server cookie"); if (!knot_pkt_has_edns(answer)) { VERBOSE_MSG(NULL, "%s\n", "missing EDNS section in prepared answer"); /* Caller should exit on this (and only this) state. */ return KR_STATE_FAIL; } kr_pkt_set_ext_rcode(answer, KNOT_RCODE_BADCOOKIE); state = KR_STATE_FAIL | KR_STATE_DONE; } return state; } int check_request(kr_layer_t *ctx) { struct kr_request *req = ctx->req; struct kr_cookie_settings *srvr_sett = &req->ctx->cookie_ctx.srvr; if (!srvr_sett->enabled) { return ctx->state; } knot_pkt_t *answer = req->answer; // FIXME: see kr_request_ensure_answer() if (ctx->state & (KR_STATE_DONE | KR_STATE_FAIL)) { return ctx->state; } if (!srvr_sett->enabled) { if (knot_pkt_has_edns(answer)) { /* Delete any cookies. */ knot_edns_remove_options(answer->opt_rr, KNOT_EDNS_OPTION_COOKIE); } return ctx->state; } uint8_t *req_cookie_opt = req_cookie_option(req); if (!req_cookie_opt) { return ctx->state; /* Don't do anything without cookies. */ } struct knot_dns_cookies cookies; memset(&cookies, 0, sizeof(cookies)); int ret = kr_parse_cookie_opt(req_cookie_opt, &cookies); if (ret != kr_ok()) { /* FORMERR -- malformed cookies. */ VERBOSE_MSG(NULL, "%s\n", "request with malformed cookie"); knot_wire_set_rcode(answer->wire, KNOT_RCODE_FORMERR); return KR_STATE_FAIL | KR_STATE_DONE; } /* * RFC7873 5.2.3 and 5.2.4 suggest that queries with invalid or * missing server cookies can be treated like normal. * Right now bad cookies are always ignored (i.e. treated as valid). */ bool ignore_badcookie = true; const struct knot_sc_alg *current_sc_alg = kr_sc_alg_get(srvr_sett->current.alg_id); if (!req->qsource.addr || !srvr_sett->current.secr || !current_sc_alg) { VERBOSE_MSG(NULL, "%s\n", "missing valid server cookie context"); return KR_STATE_FAIL; } int return_state = ctx->state; struct knot_sc_private srvr_data = { .clnt_sockaddr = req->qsource.addr, .secret_data = srvr_sett->current.secr->data, .secret_len = srvr_sett->current.secr->size }; struct knot_sc_input sc_input = { .cc = cookies.cc, .cc_len = cookies.cc_len, /* Don't set nonce here. */ .srvr_data = &srvr_data }; struct kr_nonce_input nonce = { .rand = kr_rand_bytes(sizeof(nonce.rand)), .time = req->current_query->timestamp.tv_sec }; if (!cookies.sc) { /* Request has no server cookie. */ return_state = invalid_sc_status(return_state, false, ignore_badcookie, req, answer); if (return_state & KR_STATE_FAIL) { return return_state; } goto answer_add_cookies; } /* Check server cookie obtained in request. */ ret = knot_sc_check(KR_NONCE_LEN, &cookies, &srvr_data, current_sc_alg); if (ret == KNOT_EINVAL && srvr_sett->recent.secr) { const struct knot_sc_alg *recent_sc_alg = kr_sc_alg_get(srvr_sett->recent.alg_id); if (recent_sc_alg) { /* Try recent algorithm. */ struct knot_sc_private recent_srvr_data = { .clnt_sockaddr = req->qsource.addr, .secret_data = srvr_sett->recent.secr->data, .secret_len = srvr_sett->recent.secr->size }; ret = knot_sc_check(KR_NONCE_LEN, &cookies, &recent_srvr_data, recent_sc_alg); } } if (ret != KNOT_EOK) { /* Invalid server cookie. */ return_state = invalid_sc_status(return_state, true, ignore_badcookie, req, answer); if (return_state & KR_STATE_FAIL) { return return_state; } goto answer_add_cookies; } /* Server cookie is OK. */ answer_add_cookies: /* Add server cookie into response. */ ret = kr_answer_write_cookie(&sc_input, &nonce, current_sc_alg, answer); if (ret != kr_ok()) { return_state = KR_STATE_FAIL; } return return_state; } #undef VERBOSE_MSG