/* Copyright (c) 2001 Matej Pfajfar. * Copyright (c) 2001-2004, Roger Dingledine. * Copyright (c) 2004-2006, Roger Dingledine, Nick Mathewson. * Copyright (c) 2007-2018, The Tor Project, Inc. */ /* See LICENSE for licensing information */ /** * \file routerparse.c * \brief Code to parse and validate router descriptors, consenus directories, * and similar objects. * * The objects parsed by this module use a common text-based metaformat, * documented in dir-spec.txt in torspec.git. This module is itself divided * into two major kinds of function: code to handle the metaformat, and code * to convert from particular instances of the metaformat into the * objects that Tor uses. * * The generic parsing code works by calling a table-based tokenizer on the * input string. Each token corresponds to a single line with a token, plus * optional arguments on that line, plus an optional base-64 encoded object * after that line. Each token has a definition in a table of token_rule_t * entries that describes how many arguments it can take, whether it takes an * object, how many times it may appear, whether it must appear first, and so * on. * * The tokenizer function tokenize_string() converts its string input into a * smartlist full of instances of directory_token_t, according to a provided * table of token_rule_t. * * The generic parts of this module additionally include functions for * finding the start and end of signed information inside a signed object, and * computing the digest that will be signed. * * There are also functions for saving objects to disk that have caused * parsing to fail. * * The specific parts of this module describe conversions between * particular lists of directory_token_t and particular objects. The * kinds of objects that can be parsed here are: * **/ #define ROUTERPARSE_PRIVATE #include "core/or/or.h" #include "app/config/config.h" #include "core/or/circuitstats.h" #include "core/or/policies.h" #include "core/or/protover.h" #include "feature/client/entrynodes.h" #include "feature/dirauth/shared_random.h" #include "feature/dircommon/voting_schedule.h" #include "feature/dirparse/parsecommon.h" #include "feature/dirparse/routerparse.h" #include "feature/hs_common/shared_random_client.h" #include "feature/nodelist/authcert.h" #include "feature/nodelist/describe.h" #include "feature/nodelist/microdesc.h" #include "feature/nodelist/networkstatus.h" #include "feature/nodelist/nickname.h" #include "feature/nodelist/routerinfo.h" #include "feature/nodelist/routerlist.h" #include "feature/nodelist/torcert.h" #include "feature/relay/router.h" #include "feature/relay/routerkeys.h" #include "feature/rend/rendcommon.h" #include "feature/stats/rephist.h" #include "lib/crypt_ops/crypto_format.h" #include "lib/crypt_ops/crypto_util.h" #include "lib/memarea/memarea.h" #include "lib/sandbox/sandbox.h" #include "feature/dirparse/authcert_parse.h" #include "feature/dirparse/sigcommon.h" #include "feature/dirparse/unparseable.h" #include "feature/dirauth/dirvote.h" #include "core/or/addr_policy_st.h" #include "feature/nodelist/authority_cert_st.h" #include "feature/nodelist/document_signature_st.h" #include "core/or/extend_info_st.h" #include "feature/nodelist/extrainfo_st.h" #include "feature/nodelist/microdesc_st.h" #include "feature/nodelist/networkstatus_st.h" #include "feature/nodelist/networkstatus_voter_info_st.h" #include "feature/dirauth/ns_detached_signatures_st.h" #include "feature/rend/rend_authorized_client_st.h" #include "feature/rend/rend_intro_point_st.h" #include "feature/rend/rend_service_descriptor_st.h" #include "feature/nodelist/routerinfo_st.h" #include "feature/nodelist/routerlist_st.h" #include "core/or/tor_version_st.h" #include "feature/dirauth/vote_microdesc_hash_st.h" #include "feature/nodelist/vote_routerstatus_st.h" #include "lib/container/bloomfilt.h" #undef log #include /****************************************************************************/ /** List of tokens recognized in router descriptors */ static token_rule_t routerdesc_token_table[] = { T0N("reject", K_REJECT, ARGS, NO_OBJ ), T0N("accept", K_ACCEPT, ARGS, NO_OBJ ), T0N("reject6", K_REJECT6, ARGS, NO_OBJ ), T0N("accept6", K_ACCEPT6, ARGS, NO_OBJ ), T1_START( "router", K_ROUTER, GE(5), NO_OBJ ), T01("ipv6-policy", K_IPV6_POLICY, CONCAT_ARGS, NO_OBJ), T1( "signing-key", K_SIGNING_KEY, NO_ARGS, NEED_KEY_1024 ), T1( "onion-key", K_ONION_KEY, NO_ARGS, NEED_KEY_1024 ), T01("ntor-onion-key", K_ONION_KEY_NTOR, GE(1), NO_OBJ ), T1_END( "router-signature", K_ROUTER_SIGNATURE, NO_ARGS, NEED_OBJ ), T1( "published", K_PUBLISHED, CONCAT_ARGS, NO_OBJ ), T01("uptime", K_UPTIME, GE(1), NO_OBJ ), T01("fingerprint", K_FINGERPRINT, CONCAT_ARGS, NO_OBJ ), T01("hibernating", K_HIBERNATING, GE(1), NO_OBJ ), T01("platform", K_PLATFORM, CONCAT_ARGS, NO_OBJ ), T01("proto", K_PROTO, CONCAT_ARGS, NO_OBJ ), T01("contact", K_CONTACT, CONCAT_ARGS, NO_OBJ ), T01("read-history", K_READ_HISTORY, ARGS, NO_OBJ ), T01("write-history", K_WRITE_HISTORY, ARGS, NO_OBJ ), T01("extra-info-digest", K_EXTRA_INFO_DIGEST, GE(1), NO_OBJ ), T01("hidden-service-dir", K_HIDDEN_SERVICE_DIR, NO_ARGS, NO_OBJ ), T01("identity-ed25519", K_IDENTITY_ED25519, NO_ARGS, NEED_OBJ ), T01("master-key-ed25519", K_MASTER_KEY_ED25519, GE(1), NO_OBJ ), T01("router-sig-ed25519", K_ROUTER_SIG_ED25519, GE(1), NO_OBJ ), T01("onion-key-crosscert", K_ONION_KEY_CROSSCERT, NO_ARGS, NEED_OBJ ), T01("ntor-onion-key-crosscert", K_NTOR_ONION_KEY_CROSSCERT, EQ(1), NEED_OBJ ), T01("allow-single-hop-exits",K_ALLOW_SINGLE_HOP_EXITS, NO_ARGS, NO_OBJ ), T01("family", K_FAMILY, ARGS, NO_OBJ ), T01("caches-extra-info", K_CACHES_EXTRA_INFO, NO_ARGS, NO_OBJ ), T0N("or-address", K_OR_ADDRESS, GE(1), NO_OBJ ), T0N("opt", K_OPT, CONCAT_ARGS, OBJ_OK ), T1( "bandwidth", K_BANDWIDTH, GE(3), NO_OBJ ), A01("@purpose", A_PURPOSE, GE(1), NO_OBJ ), T01("tunnelled-dir-server",K_DIR_TUNNELLED, NO_ARGS, NO_OBJ ), END_OF_TABLE }; /** List of tokens recognized in extra-info documents. */ static token_rule_t extrainfo_token_table[] = { T1_END( "router-signature", K_ROUTER_SIGNATURE, NO_ARGS, NEED_OBJ ), T1( "published", K_PUBLISHED, CONCAT_ARGS, NO_OBJ ), T01("identity-ed25519", K_IDENTITY_ED25519, NO_ARGS, NEED_OBJ ), T01("router-sig-ed25519", K_ROUTER_SIG_ED25519, GE(1), NO_OBJ ), T0N("opt", K_OPT, CONCAT_ARGS, OBJ_OK ), T01("read-history", K_READ_HISTORY, ARGS, NO_OBJ ), T01("write-history", K_WRITE_HISTORY, ARGS, NO_OBJ ), T01("dirreq-stats-end", K_DIRREQ_END, ARGS, NO_OBJ ), T01("dirreq-v2-ips", K_DIRREQ_V2_IPS, ARGS, NO_OBJ ), T01("dirreq-v3-ips", K_DIRREQ_V3_IPS, ARGS, NO_OBJ ), T01("dirreq-v2-reqs", K_DIRREQ_V2_REQS, ARGS, NO_OBJ ), T01("dirreq-v3-reqs", K_DIRREQ_V3_REQS, ARGS, NO_OBJ ), T01("dirreq-v2-share", K_DIRREQ_V2_SHARE, ARGS, NO_OBJ ), T01("dirreq-v3-share", K_DIRREQ_V3_SHARE, ARGS, NO_OBJ ), T01("dirreq-v2-resp", K_DIRREQ_V2_RESP, ARGS, NO_OBJ ), T01("dirreq-v3-resp", K_DIRREQ_V3_RESP, ARGS, NO_OBJ ), T01("dirreq-v2-direct-dl", K_DIRREQ_V2_DIR, ARGS, NO_OBJ ), T01("dirreq-v3-direct-dl", K_DIRREQ_V3_DIR, ARGS, NO_OBJ ), T01("dirreq-v2-tunneled-dl", K_DIRREQ_V2_TUN, ARGS, NO_OBJ ), T01("dirreq-v3-tunneled-dl", K_DIRREQ_V3_TUN, ARGS, NO_OBJ ), T01("entry-stats-end", K_ENTRY_END, ARGS, NO_OBJ ), T01("entry-ips", K_ENTRY_IPS, ARGS, NO_OBJ ), T01("cell-stats-end", K_CELL_END, ARGS, NO_OBJ ), T01("cell-processed-cells", K_CELL_PROCESSED, ARGS, NO_OBJ ), T01("cell-queued-cells", K_CELL_QUEUED, ARGS, NO_OBJ ), T01("cell-time-in-queue", K_CELL_TIME, ARGS, NO_OBJ ), T01("cell-circuits-per-decile", K_CELL_CIRCS, ARGS, NO_OBJ ), T01("exit-stats-end", K_EXIT_END, ARGS, NO_OBJ ), T01("exit-kibibytes-written", K_EXIT_WRITTEN, ARGS, NO_OBJ ), T01("exit-kibibytes-read", K_EXIT_READ, ARGS, NO_OBJ ), T01("exit-streams-opened", K_EXIT_OPENED, ARGS, NO_OBJ ), T1_START( "extra-info", K_EXTRA_INFO, GE(2), NO_OBJ ), END_OF_TABLE }; #undef T /* static function prototypes */ static int router_add_exit_policy(routerinfo_t *router,directory_token_t *tok); static addr_policy_t *router_parse_addr_policy(directory_token_t *tok, unsigned fmt_flags); static addr_policy_t *router_parse_addr_policy_private(directory_token_t *tok); static smartlist_t *find_all_exitpolicy(smartlist_t *s); /** Set digest to the SHA-1 digest of the hash of the first router in * s. Return 0 on success, -1 on failure. */ int router_get_router_hash(const char *s, size_t s_len, char *digest) { return router_get_hash_impl(s, s_len, digest, "router ","\nrouter-signature", '\n', DIGEST_SHA1); } /** Set digest to the SHA-1 digest of the hash of the s_len-byte * extrainfo string at s. Return 0 on success, -1 on failure. */ int router_get_extrainfo_hash(const char *s, size_t s_len, char *digest) { return router_get_hash_impl(s, s_len, digest, "extra-info", "\nrouter-signature",'\n', DIGEST_SHA1); } /** Helper: move *s_ptr ahead to the next router, the next extra-info, * or to the first of the annotations proceeding the next router or * extra-info---whichever comes first. Set is_extrainfo_out to true if * we found an extrainfo, or false if found a router. Do not scan beyond * eos. Return -1 if we found nothing; 0 if we found something. */ static int find_start_of_next_router_or_extrainfo(const char **s_ptr, const char *eos, int *is_extrainfo_out) { const char *annotations = NULL; const char *s = *s_ptr; s = eat_whitespace_eos(s, eos); while (s < eos-32) { /* 32 gives enough room for a the first keyword. */ /* We're at the start of a line. */ tor_assert(*s != '\n'); if (*s == '@' && !annotations) { annotations = s; } else if (*s == 'r' && !strcmpstart(s, "router ")) { *s_ptr = annotations ? annotations : s; *is_extrainfo_out = 0; return 0; } else if (*s == 'e' && !strcmpstart(s, "extra-info ")) { *s_ptr = annotations ? annotations : s; *is_extrainfo_out = 1; return 0; } if (!(s = memchr(s+1, '\n', eos-(s+1)))) break; s = eat_whitespace_eos(s, eos); } return -1; } /** Given a string *s containing a concatenated sequence of router * descriptors (or extra-info documents if want_extrainfo is set), * parses them and stores the result in dest. All routers are marked * running and valid. Advances *s to a point immediately following the last * router entry. Ignore any trailing router entries that are not complete. * * If saved_location isn't SAVED_IN_CACHE, make a local copy of each * descriptor in the signed_descriptor_body field of each routerinfo_t. If it * isn't SAVED_NOWHERE, remember the offset of each descriptor. * * Returns 0 on success and -1 on failure. Adds a digest to * invalid_digests_out for every entry that was unparseable or * invalid. (This may cause duplicate entries.) */ int router_parse_list_from_string(const char **s, const char *eos, smartlist_t *dest, saved_location_t saved_location, int want_extrainfo, int allow_annotations, const char *prepend_annotations, smartlist_t *invalid_digests_out) { routerinfo_t *router; extrainfo_t *extrainfo; signed_descriptor_t *signed_desc = NULL; void *elt; const char *end, *start; int have_extrainfo; tor_assert(s); tor_assert(*s); tor_assert(dest); start = *s; if (!eos) eos = *s + strlen(*s); tor_assert(eos >= *s); while (1) { char raw_digest[DIGEST_LEN]; int have_raw_digest = 0; int dl_again = 0; if (find_start_of_next_router_or_extrainfo(s, eos, &have_extrainfo) < 0) break; end = tor_memstr(*s, eos-*s, "\nrouter-signature"); if (end) end = tor_memstr(end, eos-end, "\n-----END SIGNATURE-----\n"); if (end) end += strlen("\n-----END SIGNATURE-----\n"); if (!end) break; elt = NULL; if (have_extrainfo && want_extrainfo) { routerlist_t *rl = router_get_routerlist(); have_raw_digest = router_get_extrainfo_hash(*s, end-*s, raw_digest) == 0; extrainfo = extrainfo_parse_entry_from_string(*s, end, saved_location != SAVED_IN_CACHE, rl->identity_map, &dl_again); if (extrainfo) { signed_desc = &extrainfo->cache_info; elt = extrainfo; } } else if (!have_extrainfo && !want_extrainfo) { have_raw_digest = router_get_router_hash(*s, end-*s, raw_digest) == 0; router = router_parse_entry_from_string(*s, end, saved_location != SAVED_IN_CACHE, allow_annotations, prepend_annotations, &dl_again); if (router) { log_debug(LD_DIR, "Read router '%s', purpose '%s'", router_describe(router), router_purpose_to_string(router->purpose)); signed_desc = &router->cache_info; elt = router; } } if (! elt && ! dl_again && have_raw_digest && invalid_digests_out) { smartlist_add(invalid_digests_out, tor_memdup(raw_digest, DIGEST_LEN)); } if (!elt) { *s = end; continue; } if (saved_location != SAVED_NOWHERE) { tor_assert(signed_desc); signed_desc->saved_location = saved_location; signed_desc->saved_offset = *s - start; } *s = end; smartlist_add(dest, elt); } return 0; } /** Try to find an IPv6 OR port in list of directory_token_t's * with at least one argument (use GE(1) in setup). If found, store * address and port number to addr_out and * port_out. Return number of OR ports found. */ int find_single_ipv6_orport(const smartlist_t *list, tor_addr_t *addr_out, uint16_t *port_out) { int ret = 0; tor_assert(list != NULL); tor_assert(addr_out != NULL); tor_assert(port_out != NULL); SMARTLIST_FOREACH_BEGIN(list, directory_token_t *, t) { tor_addr_t a; maskbits_t bits; uint16_t port_min, port_max; tor_assert(t->n_args >= 1); /* XXXX Prop186 the full spec allows much more than this. */ if (tor_addr_parse_mask_ports(t->args[0], 0, &a, &bits, &port_min, &port_max) == AF_INET6 && bits == 128 && port_min == port_max) { /* Okay, this is one we can understand. Use it and ignore any potential more addresses in list. */ tor_addr_copy(addr_out, &a); *port_out = port_min; ret = 1; break; } } SMARTLIST_FOREACH_END(t); return ret; } /** Helper function: reads a single router entry from *s ... * *end. Mallocs a new router and returns it if all goes well, else * returns NULL. If cache_copy is true, duplicate the contents of * s through end into the signed_descriptor_body of the resulting * routerinfo_t. * * If end is NULL, s must be properly NUL-terminated. * * If allow_annotations, it's okay to encounter annotations in s * before the router; if it's false, reject the router if it's annotated. If * prepend_annotations is set, it should contain some annotations: * append them to the front of the router before parsing it, and keep them * around when caching the router. * * Only one of allow_annotations and prepend_annotations may be set. * * If can_dl_again_out is provided, set *can_dl_again_out to 1 * if it's okay to try to download a descriptor with this same digest again, * and 0 if it isn't. (It might not be okay to download it again if part of * the part covered by the digest is invalid.) */ routerinfo_t * router_parse_entry_from_string(const char *s, const char *end, int cache_copy, int allow_annotations, const char *prepend_annotations, int *can_dl_again_out) { routerinfo_t *router = NULL; char digest[128]; smartlist_t *tokens = NULL, *exit_policy_tokens = NULL; directory_token_t *tok; struct in_addr in; const char *start_of_annotations, *cp, *s_dup = s; size_t prepend_len = prepend_annotations ? strlen(prepend_annotations) : 0; int ok = 1; memarea_t *area = NULL; tor_cert_t *ntor_cc_cert = NULL; /* Do not set this to '1' until we have parsed everything that we intend to * parse that's covered by the hash. */ int can_dl_again = 0; crypto_pk_t *rsa_pubkey = NULL; tor_assert(!allow_annotations || !prepend_annotations); if (!end) { end = s + strlen(s); } /* point 'end' to a point immediately after the final newline. */ while (end > s+2 && *(end-1) == '\n' && *(end-2) == '\n') --end; area = memarea_new(); tokens = smartlist_new(); if (prepend_annotations) { if (tokenize_string(area,prepend_annotations,NULL,tokens, routerdesc_token_table,TS_NOCHECK)) { log_warn(LD_DIR, "Error tokenizing router descriptor (annotations)."); goto err; } } start_of_annotations = s; cp = tor_memstr(s, end-s, "\nrouter "); if (!cp) { if (end-s < 7 || strcmpstart(s, "router ")) { log_warn(LD_DIR, "No router keyword found."); goto err; } } else { s = cp+1; } if (start_of_annotations != s) { /* We have annotations */ if (allow_annotations) { if (tokenize_string(area,start_of_annotations,s,tokens, routerdesc_token_table,TS_NOCHECK)) { log_warn(LD_DIR, "Error tokenizing router descriptor (annotations)."); goto err; } } else { log_warn(LD_DIR, "Found unexpected annotations on router descriptor not " "loaded from disk. Dropping it."); goto err; } } if (router_get_router_hash(s, end - s, digest) < 0) { log_warn(LD_DIR, "Couldn't compute router hash."); goto err; } { int flags = 0; if (allow_annotations) flags |= TS_ANNOTATIONS_OK; if (prepend_annotations) flags |= TS_ANNOTATIONS_OK|TS_NO_NEW_ANNOTATIONS; if (tokenize_string(area,s,end,tokens,routerdesc_token_table, flags)) { log_warn(LD_DIR, "Error tokenizing router descriptor."); goto err; } } if (smartlist_len(tokens) < 2) { log_warn(LD_DIR, "Impossibly short router descriptor."); goto err; } tok = find_by_keyword(tokens, K_ROUTER); const int router_token_pos = smartlist_pos(tokens, tok); tor_assert(tok->n_args >= 5); router = tor_malloc_zero(sizeof(routerinfo_t)); router->cert_expiration_time = TIME_MAX; router->cache_info.routerlist_index = -1; router->cache_info.annotations_len = s-start_of_annotations + prepend_len; router->cache_info.signed_descriptor_len = end-s; if (cache_copy) { size_t len = router->cache_info.signed_descriptor_len + router->cache_info.annotations_len; char *signed_body = router->cache_info.signed_descriptor_body = tor_malloc(len+1); if (prepend_annotations) { memcpy(signed_body, prepend_annotations, prepend_len); signed_body += prepend_len; } /* This assertion will always succeed. * len == signed_desc_len + annotations_len * == end-s + s-start_of_annotations + prepend_len * == end-start_of_annotations + prepend_len * We already wrote prepend_len bytes into the buffer; now we're * writing end-start_of_annotations -NM. */ tor_assert(signed_body+(end-start_of_annotations) == router->cache_info.signed_descriptor_body+len); memcpy(signed_body, start_of_annotations, end-start_of_annotations); router->cache_info.signed_descriptor_body[len] = '\0'; tor_assert(strlen(router->cache_info.signed_descriptor_body) == len); } memcpy(router->cache_info.signed_descriptor_digest, digest, DIGEST_LEN); router->nickname = tor_strdup(tok->args[0]); if (!is_legal_nickname(router->nickname)) { log_warn(LD_DIR,"Router nickname is invalid"); goto err; } if (!tor_inet_aton(tok->args[1], &in)) { log_warn(LD_DIR,"Router address is not an IP address."); goto err; } router->addr = ntohl(in.s_addr); router->or_port = (uint16_t) tor_parse_long(tok->args[2],10,0,65535,&ok,NULL); if (!ok) { log_warn(LD_DIR,"Invalid OR port %s", escaped(tok->args[2])); goto err; } router->dir_port = (uint16_t) tor_parse_long(tok->args[4],10,0,65535,&ok,NULL); if (!ok) { log_warn(LD_DIR,"Invalid dir port %s", escaped(tok->args[4])); goto err; } tok = find_by_keyword(tokens, K_BANDWIDTH); tor_assert(tok->n_args >= 3); router->bandwidthrate = (int) tor_parse_long(tok->args[0],10,1,INT_MAX,&ok,NULL); if (!ok) { log_warn(LD_DIR, "bandwidthrate %s unreadable or 0. Failing.", escaped(tok->args[0])); goto err; } router->bandwidthburst = (int) tor_parse_long(tok->args[1],10,0,INT_MAX,&ok,NULL); if (!ok) { log_warn(LD_DIR, "Invalid bandwidthburst %s", escaped(tok->args[1])); goto err; } router->bandwidthcapacity = (int) tor_parse_long(tok->args[2],10,0,INT_MAX,&ok,NULL); if (!ok) { log_warn(LD_DIR, "Invalid bandwidthcapacity %s", escaped(tok->args[1])); goto err; } if ((tok = find_opt_by_keyword(tokens, A_PURPOSE))) { tor_assert(tok->n_args); router->purpose = router_purpose_from_string(tok->args[0]); } else { router->purpose = ROUTER_PURPOSE_GENERAL; } router->cache_info.send_unencrypted = (router->purpose == ROUTER_PURPOSE_GENERAL) ? 1 : 0; if ((tok = find_opt_by_keyword(tokens, K_UPTIME))) { tor_assert(tok->n_args >= 1); router->uptime = tor_parse_long(tok->args[0],10,0,LONG_MAX,&ok,NULL); if (!ok) { log_warn(LD_DIR, "Invalid uptime %s", escaped(tok->args[0])); goto err; } } if ((tok = find_opt_by_keyword(tokens, K_HIBERNATING))) { tor_assert(tok->n_args >= 1); router->is_hibernating = (tor_parse_long(tok->args[0],10,0,LONG_MAX,NULL,NULL) != 0); } tok = find_by_keyword(tokens, K_PUBLISHED); tor_assert(tok->n_args == 1); if (parse_iso_time(tok->args[0], &router->cache_info.published_on) < 0) goto err; tok = find_by_keyword(tokens, K_ONION_KEY); if (!crypto_pk_public_exponent_ok(tok->key)) { log_warn(LD_DIR, "Relay's onion key had invalid exponent."); goto err; } router_set_rsa_onion_pkey(tok->key, &router->onion_pkey, &router->onion_pkey_len); crypto_pk_free(tok->key); if ((tok = find_opt_by_keyword(tokens, K_ONION_KEY_NTOR))) { curve25519_public_key_t k; tor_assert(tok->n_args >= 1); if (curve25519_public_from_base64(&k, tok->args[0]) < 0) { log_warn(LD_DIR, "Bogus ntor-onion-key in routerinfo"); goto err; } router->onion_curve25519_pkey = tor_memdup(&k, sizeof(curve25519_public_key_t)); } tok = find_by_keyword(tokens, K_SIGNING_KEY); router->identity_pkey = tok->key; tok->key = NULL; /* Prevent free */ if (crypto_pk_get_digest(router->identity_pkey, router->cache_info.identity_digest)) { log_warn(LD_DIR, "Couldn't calculate key digest"); goto err; } { directory_token_t *ed_sig_tok, *ed_cert_tok, *cc_tap_tok, *cc_ntor_tok, *master_key_tok; ed_sig_tok = find_opt_by_keyword(tokens, K_ROUTER_SIG_ED25519); ed_cert_tok = find_opt_by_keyword(tokens, K_IDENTITY_ED25519); master_key_tok = find_opt_by_keyword(tokens, K_MASTER_KEY_ED25519); cc_tap_tok = find_opt_by_keyword(tokens, K_ONION_KEY_CROSSCERT); cc_ntor_tok = find_opt_by_keyword(tokens, K_NTOR_ONION_KEY_CROSSCERT); int n_ed_toks = !!ed_sig_tok + !!ed_cert_tok + !!cc_tap_tok + !!cc_ntor_tok; if ((n_ed_toks != 0 && n_ed_toks != 4) || (n_ed_toks == 4 && !router->onion_curve25519_pkey)) { log_warn(LD_DIR, "Router descriptor with only partial ed25519/" "cross-certification support"); goto err; } if (master_key_tok && !ed_sig_tok) { log_warn(LD_DIR, "Router descriptor has ed25519 master key but no " "certificate"); goto err; } if (ed_sig_tok) { tor_assert(ed_cert_tok && cc_tap_tok && cc_ntor_tok); const int ed_cert_token_pos = smartlist_pos(tokens, ed_cert_tok); if (ed_cert_token_pos == -1 || router_token_pos == -1 || (ed_cert_token_pos != router_token_pos + 1 && ed_cert_token_pos != router_token_pos - 1)) { log_warn(LD_DIR, "Ed25519 certificate in wrong position"); goto err; } if (ed_sig_tok != smartlist_get(tokens, smartlist_len(tokens)-2)) { log_warn(LD_DIR, "Ed25519 signature in wrong position"); goto err; } if (strcmp(ed_cert_tok->object_type, "ED25519 CERT")) { log_warn(LD_DIR, "Wrong object type on identity-ed25519 in decriptor"); goto err; } if (strcmp(cc_ntor_tok->object_type, "ED25519 CERT")) { log_warn(LD_DIR, "Wrong object type on ntor-onion-key-crosscert " "in decriptor"); goto err; } if (strcmp(cc_tap_tok->object_type, "CROSSCERT")) { log_warn(LD_DIR, "Wrong object type on onion-key-crosscert " "in decriptor"); goto err; } if (strcmp(cc_ntor_tok->args[0], "0") && strcmp(cc_ntor_tok->args[0], "1")) { log_warn(LD_DIR, "Bad sign bit on ntor-onion-key-crosscert"); goto err; } int ntor_cc_sign_bit = !strcmp(cc_ntor_tok->args[0], "1"); uint8_t d256[DIGEST256_LEN]; const char *signed_start, *signed_end; tor_cert_t *cert = tor_cert_parse( (const uint8_t*)ed_cert_tok->object_body, ed_cert_tok->object_size); if (! cert) { log_warn(LD_DIR, "Couldn't parse ed25519 cert"); goto err; } /* makes sure it gets freed. */ router->cache_info.signing_key_cert = cert; if (cert->cert_type != CERT_TYPE_ID_SIGNING || ! cert->signing_key_included) { log_warn(LD_DIR, "Invalid form for ed25519 cert"); goto err; } if (master_key_tok) { /* This token is optional, but if it's present, it must match * the signature in the signing cert, or supplant it. */ tor_assert(master_key_tok->n_args >= 1); ed25519_public_key_t pkey; if (ed25519_public_from_base64(&pkey, master_key_tok->args[0])<0) { log_warn(LD_DIR, "Can't parse ed25519 master key"); goto err; } if (fast_memneq(&cert->signing_key.pubkey, pkey.pubkey, ED25519_PUBKEY_LEN)) { log_warn(LD_DIR, "Ed25519 master key does not match " "key in certificate"); goto err; } } ntor_cc_cert = tor_cert_parse((const uint8_t*)cc_ntor_tok->object_body, cc_ntor_tok->object_size); if (!ntor_cc_cert) { log_warn(LD_DIR, "Couldn't parse ntor-onion-key-crosscert cert"); goto err; } if (ntor_cc_cert->cert_type != CERT_TYPE_ONION_ID || ! ed25519_pubkey_eq(&ntor_cc_cert->signed_key, &cert->signing_key)) { log_warn(LD_DIR, "Invalid contents for ntor-onion-key-crosscert cert"); goto err; } ed25519_public_key_t ntor_cc_pk; if (ed25519_public_key_from_curve25519_public_key(&ntor_cc_pk, router->onion_curve25519_pkey, ntor_cc_sign_bit)<0) { log_warn(LD_DIR, "Error converting onion key to ed25519"); goto err; } if (router_get_hash_impl_helper(s, end-s, "router ", "\nrouter-sig-ed25519", ' ', LOG_WARN, &signed_start, &signed_end) < 0) { log_warn(LD_DIR, "Can't find ed25519-signed portion of descriptor"); goto err; } crypto_digest_t *d = crypto_digest256_new(DIGEST_SHA256); crypto_digest_add_bytes(d, ED_DESC_SIGNATURE_PREFIX, strlen(ED_DESC_SIGNATURE_PREFIX)); crypto_digest_add_bytes(d, signed_start, signed_end-signed_start); crypto_digest_get_digest(d, (char*)d256, sizeof(d256)); crypto_digest_free(d); ed25519_checkable_t check[3]; int check_ok[3]; time_t expires = TIME_MAX; if (tor_cert_get_checkable_sig(&check[0], cert, NULL, &expires) < 0) { log_err(LD_BUG, "Couldn't create 'checkable' for cert."); goto err; } if (tor_cert_get_checkable_sig(&check[1], ntor_cc_cert, &ntor_cc_pk, &expires) < 0) { log_err(LD_BUG, "Couldn't create 'checkable' for ntor_cc_cert."); goto err; } if (ed25519_signature_from_base64(&check[2].signature, ed_sig_tok->args[0])<0) { log_warn(LD_DIR, "Couldn't decode ed25519 signature"); goto err; } check[2].pubkey = &cert->signed_key; check[2].msg = d256; check[2].len = DIGEST256_LEN; if (ed25519_checksig_batch(check_ok, check, 3) < 0) { log_warn(LD_DIR, "Incorrect ed25519 signature(s)"); goto err; } rsa_pubkey = router_get_rsa_onion_pkey(router->onion_pkey, router->onion_pkey_len); if (check_tap_onion_key_crosscert( (const uint8_t*)cc_tap_tok->object_body, (int)cc_tap_tok->object_size, rsa_pubkey, &cert->signing_key, (const uint8_t*)router->cache_info.identity_digest)<0) { log_warn(LD_DIR, "Incorrect TAP cross-verification"); goto err; } /* We check this before adding it to the routerlist. */ router->cert_expiration_time = expires; } } if ((tok = find_opt_by_keyword(tokens, K_FINGERPRINT))) { /* If there's a fingerprint line, it must match the identity digest. */ char d[DIGEST_LEN]; tor_assert(tok->n_args == 1); tor_strstrip(tok->args[0], " "); if (base16_decode(d, DIGEST_LEN, tok->args[0], strlen(tok->args[0])) != DIGEST_LEN) { log_warn(LD_DIR, "Couldn't decode router fingerprint %s", escaped(tok->args[0])); goto err; } if (tor_memneq(d,router->cache_info.identity_digest, DIGEST_LEN)) { log_warn(LD_DIR, "Fingerprint '%s' does not match identity digest.", tok->args[0]); goto err; } } { const char *version = NULL, *protocols = NULL; if ((tok = find_opt_by_keyword(tokens, K_PLATFORM))) { router->platform = tor_strdup(tok->args[0]); version = tok->args[0]; } if ((tok = find_opt_by_keyword(tokens, K_PROTO))) { router->protocol_list = tor_strdup(tok->args[0]); protocols = tok->args[0]; } summarize_protover_flags(&router->pv, protocols, version); } if ((tok = find_opt_by_keyword(tokens, K_CONTACT))) { router->contact_info = tor_strdup(tok->args[0]); } if (find_opt_by_keyword(tokens, K_REJECT6) || find_opt_by_keyword(tokens, K_ACCEPT6)) { log_warn(LD_DIR, "Rejecting router with reject6/accept6 line: they crash " "older Tors."); goto err; } { smartlist_t *or_addresses = find_all_by_keyword(tokens, K_OR_ADDRESS); if (or_addresses) { find_single_ipv6_orport(or_addresses, &router->ipv6_addr, &router->ipv6_orport); smartlist_free(or_addresses); } } exit_policy_tokens = find_all_exitpolicy(tokens); if (!smartlist_len(exit_policy_tokens)) { log_warn(LD_DIR, "No exit policy tokens in descriptor."); goto err; } SMARTLIST_FOREACH(exit_policy_tokens, directory_token_t *, t, if (router_add_exit_policy(router,t)<0) { log_warn(LD_DIR,"Error in exit policy"); goto err; }); policy_expand_private(&router->exit_policy); if ((tok = find_opt_by_keyword(tokens, K_IPV6_POLICY)) && tok->n_args) { router->ipv6_exit_policy = parse_short_policy(tok->args[0]); if (! router->ipv6_exit_policy) { log_warn(LD_DIR , "Error in ipv6-policy %s", escaped(tok->args[0])); goto err; } } if (policy_is_reject_star(router->exit_policy, AF_INET, 1) && (!router->ipv6_exit_policy || short_policy_is_reject_star(router->ipv6_exit_policy))) router->policy_is_reject_star = 1; if ((tok = find_opt_by_keyword(tokens, K_FAMILY)) && tok->n_args) { int i; router->declared_family = smartlist_new(); for (i=0;in_args;++i) { if (!is_legal_nickname_or_hexdigest(tok->args[i])) { log_warn(LD_DIR, "Illegal nickname %s in family line", escaped(tok->args[i])); goto err; } smartlist_add_strdup(router->declared_family, tok->args[i]); } } if (find_opt_by_keyword(tokens, K_CACHES_EXTRA_INFO)) router->caches_extra_info = 1; if (find_opt_by_keyword(tokens, K_ALLOW_SINGLE_HOP_EXITS)) router->allow_single_hop_exits = 1; if ((tok = find_opt_by_keyword(tokens, K_EXTRA_INFO_DIGEST))) { tor_assert(tok->n_args >= 1); if (strlen(tok->args[0]) == HEX_DIGEST_LEN) { if (base16_decode(router->cache_info.extra_info_digest, DIGEST_LEN, tok->args[0], HEX_DIGEST_LEN) != DIGEST_LEN) { log_warn(LD_DIR,"Invalid extra info digest"); } } else { log_warn(LD_DIR, "Invalid extra info digest %s", escaped(tok->args[0])); } if (tok->n_args >= 2) { if (digest256_from_base64(router->cache_info.extra_info_digest256, tok->args[1]) < 0) { log_warn(LD_DIR, "Invalid extra info digest256 %s", escaped(tok->args[1])); } } } if (find_opt_by_keyword(tokens, K_HIDDEN_SERVICE_DIR)) { router->wants_to_be_hs_dir = 1; } /* This router accepts tunnelled directory requests via begindir if it has * an open dirport or it included "tunnelled-dir-server". */ if (find_opt_by_keyword(tokens, K_DIR_TUNNELLED) || router->dir_port > 0) { router->supports_tunnelled_dir_requests = 1; } tok = find_by_keyword(tokens, K_ROUTER_SIGNATURE); if (!router->or_port) { log_warn(LD_DIR,"or_port unreadable or 0. Failing."); goto err; } /* We've checked everything that's covered by the hash. */ can_dl_again = 1; if (check_signature_token(digest, DIGEST_LEN, tok, router->identity_pkey, 0, "router descriptor") < 0) goto err; if (!router->platform) { router->platform = tor_strdup(""); } goto done; err: dump_desc(s_dup, "router descriptor"); routerinfo_free(router); router = NULL; done: crypto_pk_free(rsa_pubkey); tor_cert_free(ntor_cc_cert); if (tokens) { SMARTLIST_FOREACH(tokens, directory_token_t *, t, token_clear(t)); smartlist_free(tokens); } smartlist_free(exit_policy_tokens); if (area) { DUMP_AREA(area, "routerinfo"); memarea_drop_all(area); } if (can_dl_again_out) *can_dl_again_out = can_dl_again; return router; } /** Parse a single extrainfo entry from the string s, ending at * end. (If end is NULL, parse up to the end of s.) If * cache_copy is true, make a copy of the extra-info document in the * cache_info fields of the result. If routermap is provided, use it * as a map from router identity to routerinfo_t when looking up signing keys. * * If can_dl_again_out is provided, set *can_dl_again_out to 1 * if it's okay to try to download an extrainfo with this same digest again, * and 0 if it isn't. (It might not be okay to download it again if part of * the part covered by the digest is invalid.) */ extrainfo_t * extrainfo_parse_entry_from_string(const char *s, const char *end, int cache_copy, struct digest_ri_map_t *routermap, int *can_dl_again_out) { extrainfo_t *extrainfo = NULL; char digest[128]; smartlist_t *tokens = NULL; directory_token_t *tok; crypto_pk_t *key = NULL; routerinfo_t *router = NULL; memarea_t *area = NULL; const char *s_dup = s; /* Do not set this to '1' until we have parsed everything that we intend to * parse that's covered by the hash. */ int can_dl_again = 0; if (BUG(s == NULL)) return NULL; if (!end) { end = s + strlen(s); } /* point 'end' to a point immediately after the final newline. */ while (end > s+2 && *(end-1) == '\n' && *(end-2) == '\n') --end; if (router_get_extrainfo_hash(s, end-s, digest) < 0) { log_warn(LD_DIR, "Couldn't compute router hash."); goto err; } tokens = smartlist_new(); area = memarea_new(); if (tokenize_string(area,s,end,tokens,extrainfo_token_table,0)) { log_warn(LD_DIR, "Error tokenizing extra-info document."); goto err; } if (smartlist_len(tokens) < 2) { log_warn(LD_DIR, "Impossibly short extra-info document."); goto err; } /* XXXX Accept this in position 1 too, and ed identity in position 0. */ tok = smartlist_get(tokens,0); if (tok->tp != K_EXTRA_INFO) { log_warn(LD_DIR,"Entry does not start with \"extra-info\""); goto err; } extrainfo = tor_malloc_zero(sizeof(extrainfo_t)); extrainfo->cache_info.is_extrainfo = 1; if (cache_copy) extrainfo->cache_info.signed_descriptor_body = tor_memdup_nulterm(s,end-s); extrainfo->cache_info.signed_descriptor_len = end-s; memcpy(extrainfo->cache_info.signed_descriptor_digest, digest, DIGEST_LEN); crypto_digest256((char*)extrainfo->digest256, s, end-s, DIGEST_SHA256); tor_assert(tok->n_args >= 2); if (!is_legal_nickname(tok->args[0])) { log_warn(LD_DIR,"Bad nickname %s on \"extra-info\"",escaped(tok->args[0])); goto err; } strlcpy(extrainfo->nickname, tok->args[0], sizeof(extrainfo->nickname)); if (strlen(tok->args[1]) != HEX_DIGEST_LEN || base16_decode(extrainfo->cache_info.identity_digest, DIGEST_LEN, tok->args[1], HEX_DIGEST_LEN) != DIGEST_LEN) { log_warn(LD_DIR,"Invalid fingerprint %s on \"extra-info\"", escaped(tok->args[1])); goto err; } tok = find_by_keyword(tokens, K_PUBLISHED); if (parse_iso_time(tok->args[0], &extrainfo->cache_info.published_on)) { log_warn(LD_DIR,"Invalid published time %s on \"extra-info\"", escaped(tok->args[0])); goto err; } { directory_token_t *ed_sig_tok, *ed_cert_tok; ed_sig_tok = find_opt_by_keyword(tokens, K_ROUTER_SIG_ED25519); ed_cert_tok = find_opt_by_keyword(tokens, K_IDENTITY_ED25519); int n_ed_toks = !!ed_sig_tok + !!ed_cert_tok; if (n_ed_toks != 0 && n_ed_toks != 2) { log_warn(LD_DIR, "Router descriptor with only partial ed25519/" "cross-certification support"); goto err; } if (ed_sig_tok) { tor_assert(ed_cert_tok); const int ed_cert_token_pos = smartlist_pos(tokens, ed_cert_tok); if (ed_cert_token_pos != 1) { /* Accept this in position 0 XXXX */ log_warn(LD_DIR, "Ed25519 certificate in wrong position"); goto err; } if (ed_sig_tok != smartlist_get(tokens, smartlist_len(tokens)-2)) { log_warn(LD_DIR, "Ed25519 signature in wrong position"); goto err; } if (strcmp(ed_cert_tok->object_type, "ED25519 CERT")) { log_warn(LD_DIR, "Wrong object type on identity-ed25519 in decriptor"); goto err; } uint8_t d256[DIGEST256_LEN]; const char *signed_start, *signed_end; tor_cert_t *cert = tor_cert_parse( (const uint8_t*)ed_cert_tok->object_body, ed_cert_tok->object_size); if (! cert) { log_warn(LD_DIR, "Couldn't parse ed25519 cert"); goto err; } /* makes sure it gets freed. */ extrainfo->cache_info.signing_key_cert = cert; if (cert->cert_type != CERT_TYPE_ID_SIGNING || ! cert->signing_key_included) { log_warn(LD_DIR, "Invalid form for ed25519 cert"); goto err; } if (router_get_hash_impl_helper(s, end-s, "extra-info ", "\nrouter-sig-ed25519", ' ', LOG_WARN, &signed_start, &signed_end) < 0) { log_warn(LD_DIR, "Can't find ed25519-signed portion of extrainfo"); goto err; } crypto_digest_t *d = crypto_digest256_new(DIGEST_SHA256); crypto_digest_add_bytes(d, ED_DESC_SIGNATURE_PREFIX, strlen(ED_DESC_SIGNATURE_PREFIX)); crypto_digest_add_bytes(d, signed_start, signed_end-signed_start); crypto_digest_get_digest(d, (char*)d256, sizeof(d256)); crypto_digest_free(d); ed25519_checkable_t check[2]; int check_ok[2]; if (tor_cert_get_checkable_sig(&check[0], cert, NULL, NULL) < 0) { log_err(LD_BUG, "Couldn't create 'checkable' for cert."); goto err; } if (ed25519_signature_from_base64(&check[1].signature, ed_sig_tok->args[0])<0) { log_warn(LD_DIR, "Couldn't decode ed25519 signature"); goto err; } check[1].pubkey = &cert->signed_key; check[1].msg = d256; check[1].len = DIGEST256_LEN; if (ed25519_checksig_batch(check_ok, check, 2) < 0) { log_warn(LD_DIR, "Incorrect ed25519 signature(s)"); goto err; } /* We don't check the certificate expiration time: checking that it * matches the cert in the router descriptor is adequate. */ } } /* We've checked everything that's covered by the hash. */ can_dl_again = 1; if (routermap && (router = digestmap_get((digestmap_t*)routermap, extrainfo->cache_info.identity_digest))) { key = router->identity_pkey; } tok = find_by_keyword(tokens, K_ROUTER_SIGNATURE); if (strcmp(tok->object_type, "SIGNATURE") || tok->object_size < 128 || tok->object_size > 512) { log_warn(LD_DIR, "Bad object type or length on extra-info signature"); goto err; } if (key) { if (check_signature_token(digest, DIGEST_LEN, tok, key, 0, "extra-info") < 0) goto err; if (router) extrainfo->cache_info.send_unencrypted = router->cache_info.send_unencrypted; } else { extrainfo->pending_sig = tor_memdup(tok->object_body, tok->object_size); extrainfo->pending_sig_len = tok->object_size; } goto done; err: dump_desc(s_dup, "extra-info descriptor"); extrainfo_free(extrainfo); extrainfo = NULL; done: if (tokens) { SMARTLIST_FOREACH(tokens, directory_token_t *, t, token_clear(t)); smartlist_free(tokens); } if (area) { DUMP_AREA(area, "extrainfo"); memarea_drop_all(area); } if (can_dl_again_out) *can_dl_again_out = can_dl_again; return extrainfo; } /** Parse the addr policy in the string s and return it. If * assume_action is nonnegative, then insert its action (ADDR_POLICY_ACCEPT or * ADDR_POLICY_REJECT) for items that specify no action. * * Returns NULL on policy errors. * * Set *malformed_list to true if the entire policy list should be * discarded. Otherwise, set it to false, and only this item should be ignored * on error - the rest of the policy list can continue to be processed and * used. * * The addr_policy_t returned by this function can have its address set to * AF_UNSPEC for '*'. Use policy_expand_unspec() to turn this into a pair * of AF_INET and AF_INET6 items. */ MOCK_IMPL(addr_policy_t *, router_parse_addr_policy_item_from_string,(const char *s, int assume_action, int *malformed_list)) { directory_token_t *tok = NULL; const char *cp, *eos; /* Longest possible policy is * "accept6 [ffff:ffff:..255]/128:10000-65535", * which contains a max-length IPv6 address, plus 26 characters. * But note that there can be an arbitrary amount of space between the * accept and the address:mask/port element. * We don't need to multiply TOR_ADDR_BUF_LEN by 2, as there is only one * IPv6 address. But making the buffer shorter might cause valid long lines, * which parsed in previous versions, to fail to parse in new versions. * (These lines would have to have excessive amounts of whitespace.) */ char line[TOR_ADDR_BUF_LEN*2 + 32]; addr_policy_t *r; memarea_t *area = NULL; tor_assert(malformed_list); *malformed_list = 0; s = eat_whitespace(s); /* We can only do assume_action on []-quoted IPv6, as "a" (accept) * and ":" (port separator) are ambiguous */ if ((*s == '*' || *s == '[' || TOR_ISDIGIT(*s)) && assume_action >= 0) { if (tor_snprintf(line, sizeof(line), "%s %s", assume_action == ADDR_POLICY_ACCEPT?"accept":"reject", s)<0) { log_warn(LD_DIR, "Policy %s is too long.", escaped(s)); return NULL; } cp = line; tor_strlower(line); } else { /* assume an already well-formed address policy line */ cp = s; } eos = cp + strlen(cp); area = memarea_new(); tok = get_next_token(area, &cp, eos, routerdesc_token_table); if (tok->tp == ERR_) { log_warn(LD_DIR, "Error reading address policy: %s", tok->error); goto err; } if (tok->tp != K_ACCEPT && tok->tp != K_ACCEPT6 && tok->tp != K_REJECT && tok->tp != K_REJECT6) { log_warn(LD_DIR, "Expected 'accept' or 'reject'."); goto err; } /* Use the extended interpretation of accept/reject *, * expanding it into an IPv4 wildcard and an IPv6 wildcard. * Also permit *4 and *6 for IPv4 and IPv6 only wildcards. */ r = router_parse_addr_policy(tok, TAPMP_EXTENDED_STAR); if (!r) { goto err; } /* Ensure that accept6/reject6 fields are followed by IPv6 addresses. * AF_UNSPEC addresses are only permitted on the accept/reject field type. * Unlike descriptors, torrcs exit policy accept/reject can be followed by * either an IPv4 or IPv6 address. */ if ((tok->tp == K_ACCEPT6 || tok->tp == K_REJECT6) && tor_addr_family(&r->addr) != AF_INET6) { /* This is a non-fatal error, just ignore this one entry. */ *malformed_list = 0; log_warn(LD_DIR, "IPv4 address '%s' with accept6/reject6 field type in " "exit policy. Ignoring, but continuing to parse rules. (Use " "accept/reject with IPv4 addresses.)", tok->n_args == 1 ? tok->args[0] : ""); addr_policy_free(r); r = NULL; goto done; } goto done; err: *malformed_list = 1; r = NULL; done: token_clear(tok); if (area) { DUMP_AREA(area, "policy item"); memarea_drop_all(area); } return r; } /** Add an exit policy stored in the token tok to the router info in * router. Return 0 on success, -1 on failure. */ static int router_add_exit_policy(routerinfo_t *router, directory_token_t *tok) { addr_policy_t *newe; /* Use the standard interpretation of accept/reject *, an IPv4 wildcard. */ newe = router_parse_addr_policy(tok, 0); if (!newe) return -1; if (! router->exit_policy) router->exit_policy = smartlist_new(); /* Ensure that in descriptors, accept/reject fields are followed by * IPv4 addresses, and accept6/reject6 fields are followed by * IPv6 addresses. Unlike torrcs, descriptor exit policies do not permit * accept/reject followed by IPv6. */ if (((tok->tp == K_ACCEPT6 || tok->tp == K_REJECT6) && tor_addr_family(&newe->addr) == AF_INET) || ((tok->tp == K_ACCEPT || tok->tp == K_REJECT) && tor_addr_family(&newe->addr) == AF_INET6)) { /* There's nothing the user can do about other relays' descriptors, * so we don't provide usage advice here. */ log_warn(LD_DIR, "Mismatch between field type and address type in exit " "policy '%s'. Discarding entire router descriptor.", tok->n_args == 1 ? tok->args[0] : ""); addr_policy_free(newe); return -1; } smartlist_add(router->exit_policy, newe); return 0; } /** Given a K_ACCEPT[6] or K_REJECT[6] token and a router, create and return * a new exit_policy_t corresponding to the token. If TAPMP_EXTENDED_STAR * is set in fmt_flags, K_ACCEPT6 and K_REJECT6 tokens followed by * * expand to IPv6-only policies, otherwise they expand to IPv4 and IPv6 * policies */ static addr_policy_t * router_parse_addr_policy(directory_token_t *tok, unsigned fmt_flags) { addr_policy_t newe; char *arg; tor_assert(tok->tp == K_REJECT || tok->tp == K_REJECT6 || tok->tp == K_ACCEPT || tok->tp == K_ACCEPT6); if (tok->n_args != 1) return NULL; arg = tok->args[0]; if (!strcmpstart(arg,"private")) return router_parse_addr_policy_private(tok); memset(&newe, 0, sizeof(newe)); if (tok->tp == K_REJECT || tok->tp == K_REJECT6) newe.policy_type = ADDR_POLICY_REJECT; else newe.policy_type = ADDR_POLICY_ACCEPT; /* accept6/reject6 * produces an IPv6 wildcard address only. * (accept/reject * produces rules for IPv4 and IPv6 wildcard addresses.) */ if ((fmt_flags & TAPMP_EXTENDED_STAR) && (tok->tp == K_ACCEPT6 || tok->tp == K_REJECT6)) { fmt_flags |= TAPMP_STAR_IPV6_ONLY; } if (tor_addr_parse_mask_ports(arg, fmt_flags, &newe.addr, &newe.maskbits, &newe.prt_min, &newe.prt_max) < 0) { log_warn(LD_DIR,"Couldn't parse line %s. Dropping", escaped(arg)); return NULL; } return addr_policy_get_canonical_entry(&newe); } /** Parse an exit policy line of the format "accept[6]/reject[6] private:...". * This didn't exist until Tor 0.1.1.15, so nobody should generate it in * router descriptors until earlier versions are obsolete. * * accept/reject and accept6/reject6 private all produce rules for both * IPv4 and IPv6 addresses. */ static addr_policy_t * router_parse_addr_policy_private(directory_token_t *tok) { const char *arg; uint16_t port_min, port_max; addr_policy_t result; arg = tok->args[0]; if (strcmpstart(arg, "private")) return NULL; arg += strlen("private"); arg = (char*) eat_whitespace(arg); if (!arg || *arg != ':') return NULL; if (parse_port_range(arg+1, &port_min, &port_max)<0) return NULL; memset(&result, 0, sizeof(result)); if (tok->tp == K_REJECT || tok->tp == K_REJECT6) result.policy_type = ADDR_POLICY_REJECT; else result.policy_type = ADDR_POLICY_ACCEPT; result.is_private = 1; result.prt_min = port_min; result.prt_max = port_max; if (tok->tp == K_ACCEPT6 || tok->tp == K_REJECT6) { log_warn(LD_GENERAL, "'%s' expands into rules which apply to all private IPv4 and " "IPv6 addresses. (Use accept/reject private:* for IPv4 and " "IPv6.)", tok->n_args == 1 ? tok->args[0] : ""); } return addr_policy_get_canonical_entry(&result); } /** Return a newly allocated smartlist of all accept or reject tokens in * s. */ static smartlist_t * find_all_exitpolicy(smartlist_t *s) { smartlist_t *out = smartlist_new(); SMARTLIST_FOREACH(s, directory_token_t *, t, if (t->tp == K_ACCEPT || t->tp == K_ACCEPT6 || t->tp == K_REJECT || t->tp == K_REJECT6) smartlist_add(out,t)); return out; } /** Called on startup; right now we just handle scanning the unparseable * descriptor dumps, but hang anything else we might need to do in the * future here as well. */ void routerparse_init(void) { /* * Check both if the sandbox is active and whether it's configured; no * point in loading all that if we won't be able to use it after the * sandbox becomes active. */ if (!(sandbox_is_active() || get_options()->Sandbox)) { dump_desc_init(); } } /** Clean up all data structures used by routerparse.c at exit */ void routerparse_free_all(void) { dump_desc_fifo_cleanup(); }