/* Copyright 2001 Matej Pfajfar. * Copyright 2001-2004 Roger Dingledine. * Copyright 2004-2005 Roger Dingledine, Nick Mathewson. */ /* See LICENSE for licensing information */ /* $Id$ */ const char routerparse_c_id[] = "$Id$"; /** * \file routerparse.c * \brief Code to parse and validate router descriptors and directories. **/ #include "or.h" /****************************************************************************/ /** Enumeration of possible token types. The ones starting with K_ * correspond to directory 'keywords'. _UNRECOGNIZED is for an * unrecognized keyword; _ERR is an error in the tokenizing process, * _EOF is an end-of-file marker, and _NIL is used to encode * not-a-token. */ typedef enum { K_ACCEPT, K_DIRECTORY_SIGNATURE, K_RECOMMENDED_SOFTWARE, K_REJECT, K_ROUTER, K_SIGNED_DIRECTORY, K_SIGNING_KEY, K_ONION_KEY, K_ROUTER_SIGNATURE, K_PUBLISHED, K_RUNNING_ROUTERS, K_ROUTER_STATUS, K_PLATFORM, K_OPT, K_BANDWIDTH, K_PORTS, K_CONTACT, K_NETWORK_STATUS, K_UPTIME, K_DIR_SIGNING_KEY, K_FAMILY, K_FINGERPRINT, K_HIBERNATING, K_READ_HISTORY, K_WRITE_HISTORY, K_NETWORK_STATUS_VERSION, K_DIR_SOURCE, K_DIR_OPTIONS, K_CLIENT_VERSIONS, K_SERVER_VERSIONS, K_R, K_S, _UNRECOGNIZED, _ERR, _EOF, _NIL } directory_keyword; /** Structure to hold a single directory token. * * We parse a directory by breaking it into "tokens", each consisting * of a keyword, a line full of arguments, and a binary object. The * arguments and object are both optional, depending on the keyword * type. */ typedef struct directory_token_t { directory_keyword tp; /**< Type of the token. */ int n_args; /**< Number of elements in args */ char **args; /**< Array of arguments from keyword line. */ char *object_type; /**< -----BEGIN [object_type]-----*/ size_t object_size; /**< Bytes in object_body */ char *object_body; /**< Contents of object, base64-decoded. */ crypto_pk_env_t *key; /**< For public keys only. */ const char *error; /**< For _ERR tokens only. */ } directory_token_t; /* ********************************************************************** */ /** We use a table of rules to decide how to parse each token type. */ /** Rules for how many arguments a keyword can take. */ typedef enum { NO_ARGS, /**< No arguments, ever. */ ARGS, /**< A list of arguments separated by spaces. */ CONCAT_ARGS, /**< The rest of the line, treated as a single argument. */ } arg_syntax; /** Rules for whether the keyword needs an object. */ typedef enum { NO_OBJ, /**< No object, ever. */ NEED_OBJ, /**< Object is required. */ NEED_KEY, /**< Object is required, and must be a public key. */ OBJ_OK, /**< Object is optional. */ } obj_syntax; /** Rules for where a keyword can appear. */ typedef enum { DIR = 1, /**< Appears only in directory. */ RTR = 2, /**< Appears only in router descriptor or runningrouters. */ NETSTATUS = 4, /**< v2 or later ("versioned") network status. */ ANYSIGNED = 7, /**< Any "full" document (that is, not a router status.) */ RTRSTATUS = 8, /**< Router-status portion of a versioned network status. */ ANY = 15, /**< Appears in any document type. */ } where_syntax; /** Table mapping keywords to token value and to argument rules. */ static struct { const char *t; int v; arg_syntax s; obj_syntax os; int ws; } token_table[] = { { "accept", K_ACCEPT, ARGS, NO_OBJ, RTR }, { "directory-signature", K_DIRECTORY_SIGNATURE, ARGS, NEED_OBJ, DIR|NETSTATUS}, { "r", K_R, ARGS, NO_OBJ, RTRSTATUS }, { "s", K_S, ARGS, NO_OBJ, RTRSTATUS }, { "reject", K_REJECT, ARGS, NO_OBJ, RTR }, { "router", K_ROUTER, ARGS, NO_OBJ, RTR }, { "recommended-software",K_RECOMMENDED_SOFTWARE,ARGS, NO_OBJ, DIR }, { "signed-directory", K_SIGNED_DIRECTORY, NO_ARGS, NO_OBJ, DIR }, { "signing-key", K_SIGNING_KEY, NO_ARGS, NEED_KEY,RTR }, { "onion-key", K_ONION_KEY, NO_ARGS, NEED_KEY,RTR }, { "router-signature", K_ROUTER_SIGNATURE, NO_ARGS, NEED_OBJ,RTR }, { "running-routers", K_RUNNING_ROUTERS, ARGS, NO_OBJ, DIR }, { "router-status", K_ROUTER_STATUS, ARGS, NO_OBJ, DIR }, { "ports", K_PORTS, ARGS, NO_OBJ, RTR }, { "bandwidth", K_BANDWIDTH, ARGS, NO_OBJ, RTR }, { "platform", K_PLATFORM, CONCAT_ARGS, NO_OBJ, RTR }, { "published", K_PUBLISHED, CONCAT_ARGS, NO_OBJ, ANYSIGNED }, { "opt", K_OPT, CONCAT_ARGS, OBJ_OK, ANY }, { "contact", K_CONTACT, CONCAT_ARGS, NO_OBJ, ANYSIGNED }, { "network-status", K_NETWORK_STATUS, NO_ARGS, NO_OBJ, DIR }, { "uptime", K_UPTIME, ARGS, NO_OBJ, RTR }, { "dir-signing-key", K_DIR_SIGNING_KEY, ARGS, OBJ_OK, DIR|NETSTATUS}, { "family", K_FAMILY, ARGS, NO_OBJ, RTR }, { "fingerprint", K_FINGERPRINT, CONCAT_ARGS, NO_OBJ, ANYSIGNED }, { "hibernating", K_HIBERNATING, ARGS, NO_OBJ, RTR }, { "read-history", K_READ_HISTORY, ARGS, NO_OBJ, RTR }, { "write-history", K_WRITE_HISTORY, ARGS, NO_OBJ, RTR }, { "network-status-version", K_NETWORK_STATUS_VERSION, ARGS, NO_OBJ, NETSTATUS }, { "dir-source", K_DIR_SOURCE, ARGS, NO_OBJ, NETSTATUS }, { "dir-options", K_DIR_OPTIONS, ARGS, NO_OBJ, NETSTATUS }, { "client-versions", K_CLIENT_VERSIONS, ARGS, NO_OBJ, NETSTATUS }, { "server-versions", K_SERVER_VERSIONS, ARGS, NO_OBJ, NETSTATUS }, { NULL, -1, NO_ARGS, NO_OBJ, ANY } }; /* 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); static int router_get_hash_impl(const char *s, char *digest, const char *start_str, const char *end_str); static void token_free(directory_token_t *tok); static smartlist_t *find_all_exitpolicy(smartlist_t *s); static directory_token_t *find_first_by_keyword(smartlist_t *s, directory_keyword keyword); static int tokenize_string(const char *start, const char *end, smartlist_t *out, where_syntax where); static directory_token_t *get_next_token(const char **s, where_syntax where); static int check_directory_signature(const char *digest, directory_token_t *tok, crypto_pk_env_t *pkey, crypto_pk_env_t *declared_key, int check_authority); static crypto_pk_env_t *find_dir_signing_key(const char *str); static int tor_version_same_series(tor_version_t *a, tor_version_t *b); /** Set digest to the SHA-1 digest of the hash of the directory in * s. Return 0 on success, -1 on failure. */ int router_get_dir_hash(const char *s, char *digest) { return router_get_hash_impl(s,digest, "signed-directory","\ndirectory-signature"); } /** 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, char *digest) { return router_get_hash_impl(s,digest, "router ","\nrouter-signature"); } /** Set digest to the SHA-1 digest of the hash of the running-routers * string in s. Return 0 on success, -1 on failure. */ int router_get_runningrouters_hash(const char *s, char *digest) { return router_get_hash_impl(s,digest, "network-status","\ndirectory-signature"); } /** Set digest to the SHA-1 digest of the hash of the network-status * string in s. Return 0 on success, -1 on failure. */ int router_get_networkstatus_v2_hash(const char *s, char *digest) { return router_get_hash_impl(s,digest, "network-status-version","\ndirectory-signature"); } /** Helper: used to generate signatures for routers, directories and * network-status objects. Given a digest in digest and a secret * private_key, generate an PKCS1-padded signature, BASE64-encode it, * surround it with -----BEGIN/END----- pairs, and write it to the * buf_len-byte buffer at buf. Return 0 on success, -1 on * failure. */ int router_append_dirobj_signature(char *buf, size_t buf_len, const char *digest, crypto_pk_env_t *private_key) { char signature[PK_BYTES]; int i; if (crypto_pk_private_sign(private_key, signature, digest, DIGEST_LEN) < 0) { warn(LD_BUG,"Couldn't sign digest."); return -1; } if (strlcat(buf, "-----BEGIN SIGNATURE-----\n", buf_len) >= buf_len) goto truncated; i = strlen(buf); if (base64_encode(buf+i, buf_len-i, signature, 128) < 0) { warn(LD_BUG,"couldn't base64-encode signature"); tor_free(buf); return -1; } if (strlcat(buf, "-----END SIGNATURE-----\n", buf_len) >= buf_len) goto truncated; return 0; truncated: warn(LD_BUG,"tried to exceed string length."); return -1; } /** Return VS_RECOMMENDED if myversion is contained in * versionlist. Else, return VS_OLD if every member of * versionlist is newer than myversion. Else, return * VS_NEW_IN_SERIES if there is at least one member of versionlist in * the same series (major.minor.micro) as myversion, but no such member * is newer than myversion.. Else, return VS_NEW if every memeber of * versionlist is older than myversion. Else, return * VS_UNRECOMMENDED. * * (versionlist is a comma-separated list of version strings, * optionally prefixed with "Tor". Versions that can't be parsed are * ignored.) */ version_status_t tor_version_is_obsolete(const char *myversion, const char *versionlist) { const char *vl; tor_version_t mine, other; int found_newer = 0, found_older = 0, found_newer_in_series = 0, found_any_in_series = 0, r, same; version_status_t ret = VS_UNRECOMMENDED; smartlist_t *version_sl; vl = versionlist; debug(LD_CONFIG,"Checking whether version '%s' is in '%s'", myversion, versionlist); if (tor_version_parse(myversion, &mine)) { err(LD_BUG,"I couldn't parse my own version (%s)", myversion); tor_assert(0); } version_sl = smartlist_create(); smartlist_split_string(version_sl, versionlist, ",", SPLIT_SKIP_SPACE, 0); SMARTLIST_FOREACH(version_sl, const char *, cp, { if (!strcmpstart(cp, "Tor ")) cp += 4; if (tor_version_parse(cp, &other)) { /* Couldn't parse other; it can't be a match. */ } else { same = tor_version_same_series(&mine, &other); if (same) found_any_in_series = 1; r = tor_version_compare(&mine, &other); if (r==0) { ret = VS_RECOMMENDED; goto done; } else if (r<0) { found_newer = 1; if (same) found_newer_in_series = 1; } else if (r>0) { found_older = 1; } } }); /* We didn't find the listed version. Is it new or old? */ if (found_any_in_series && !found_newer_in_series) { ret = VS_NEW_IN_SERIES; } else if (found_newer && !found_older) { ret = VS_OLD; } else if (found_older && !found_newer) { ret = VS_NEW; } else { ret = VS_UNRECOMMENDED; } done: SMARTLIST_FOREACH(version_sl, char *, version, tor_free(version)); smartlist_free(version_sl); return ret; } /** Return the combined status of the current version, given that we know of * one set of networkstatuses that give us status a, and another that * gives us status b. * * For example, if one authority thinks that we're NEW, and another thinks * we're OLD, we're simply UNRECOMMENDED. * * This function does not handle calculating whether we're RECOMMENDED; that * follows a simple majority rule. This function simply calculates *why* * we're not recommended (if we're not). */ version_status_t version_status_join(version_status_t a, version_status_t b) { if (a == b) return a; else if (a == VS_UNRECOMMENDED || b == VS_UNRECOMMENDED) return VS_UNRECOMMENDED; else if (a == VS_RECOMMENDED) return b; else if (b == VS_RECOMMENDED) return a; /* Okay. Neither is 'recommended' or 'unrecommended', and they differ. */ else if (a == VS_OLD || b == VS_OLD) return VS_UNRECOMMENDED; /* One is VS_NEW, the other is VS_NEW_IN_SERIES */ else return VS_NEW_IN_SERIES; } /** Read a signed directory from str. If it's well-formed, return 0. * Otherwise, return -1. If we're a directory cache, cache it. */ int router_parse_directory(const char *str) { directory_token_t *tok; char digest[DIGEST_LEN]; time_t published_on; int r; const char *end, *cp; smartlist_t *tokens = NULL; crypto_pk_env_t *declared_key = NULL; /* XXXX This could be simplified a lot, but it will all go away * once pre-0.1.1.8 is obsolete, and for now it's better not to * tuoch it. */ if (router_get_dir_hash(str, digest)) { warn(LD_DIR, "Unable to compute digest of directory"); goto err; } debug(LD_DIR,"Received directory hashes to %s",hex_str(digest,4)); /* Check signature first, before we try to tokenize. */ cp = str; while (cp && (end = strstr(cp+1, "\ndirectory-signature"))) cp = end; if (cp == str || !cp) { warn(LD_DIR, "No signature found on directory."); goto err; } ++cp; tokens = smartlist_create(); if (tokenize_string(cp,strchr(cp,'\0'),tokens,DIR)) { warn(LD_DIR, "Error tokenizing directory signature"); goto err; } if (smartlist_len(tokens) != 1) { warn(LD_DIR, "Unexpected number of tokens in signature"); goto err; } tok=smartlist_get(tokens,0); if (tok->tp != K_DIRECTORY_SIGNATURE) { warn(LD_DIR,"Expected a single directory signature"); goto err; } declared_key = find_dir_signing_key(str); if (check_directory_signature(digest, tok, NULL, declared_key, 1)<0) goto err; SMARTLIST_FOREACH(tokens, directory_token_t *, tok, token_free(tok)); smartlist_free(tokens); tokens = NULL; /* Now try to parse the first part of the directory. */ if ((end = strstr(str,"\nrouter "))) { ++end; } else if ((end = strstr(str, "\ndirectory-signature"))) { ++end; } else { end = str + strlen(str); } tokens = smartlist_create(); if (tokenize_string(str,end,tokens,DIR)) { warn(LD_DIR, "Error tokenizing directory"); goto err; } if (!(tok = find_first_by_keyword(tokens, K_PUBLISHED))) { warn(LD_DIR, "Missing published time on directory."); goto err; } tor_assert(tok->n_args == 1); if (parse_iso_time(tok->args[0], &published_on) < 0) { goto err; } /* Now that we know the signature is okay, and we have a * publication time, cache the directory. */ if (get_options()->DirPort && !get_options()->V1AuthoritativeDir) dirserv_set_cached_directory(str, published_on, 0); r = 0; goto done; err: r = -1; done: if (declared_key) crypto_free_pk_env(declared_key); if (tokens) { SMARTLIST_FOREACH(tokens, directory_token_t *, tok, token_free(tok)); smartlist_free(tokens); } return r; } /** Read a signed router status statement from str. If it's * well-formed, return 0. Otherwise, return -1. If we're a directory cache, * cache it.*/ int router_parse_runningrouters(const char *str) { char digest[DIGEST_LEN]; directory_token_t *tok; time_t published_on; int r = -1; crypto_pk_env_t *declared_key = NULL; smartlist_t *tokens = NULL; if (router_get_runningrouters_hash(str, digest)) { warn(LD_DIR, "Unable to compute digest of directory"); goto err; } tokens = smartlist_create(); if (tokenize_string(str,str+strlen(str),tokens,DIR)) { warn(LD_DIR, "Error tokenizing directory"); goto err; } if ((tok = find_first_by_keyword(tokens, _UNRECOGNIZED))) { warn(LD_DIR, "Unrecognized keyword '%s'; can't parse running-routers", tok->args[0]); goto err; } tok = smartlist_get(tokens,0); if (tok->tp != K_NETWORK_STATUS) { warn(LD_DIR, "Network-status starts with wrong token"); goto err; } if (!(tok = find_first_by_keyword(tokens, K_PUBLISHED))) { warn(LD_DIR, "Missing published time on directory."); goto err; } tor_assert(tok->n_args == 1); if (parse_iso_time(tok->args[0], &published_on) < 0) { goto err; } if (!(tok = find_first_by_keyword(tokens, K_DIRECTORY_SIGNATURE))) { warn(LD_DIR, "Missing signature on running-routers"); goto err; } declared_key = find_dir_signing_key(str); if (check_directory_signature(digest, tok, NULL, declared_key, 1) < 0) goto err; /* Now that we know the signature is okay, and we have a * publication time, cache the list. */ if (get_options()->DirPort && !get_options()->V1AuthoritativeDir) dirserv_set_cached_directory(str, published_on, 1); r = 0; err: if (declared_key) crypto_free_pk_env(declared_key); if (tokens) { SMARTLIST_FOREACH(tokens, directory_token_t *, tok, token_free(tok)); smartlist_free(tokens); } return r; } /** Given a directory or running-routers string in str, try to * find the its dir-signing-key token (if any). If this token is * present, extract and return the key. Return NULL on failure. */ static crypto_pk_env_t * find_dir_signing_key(const char *str) { const char *cp; directory_token_t *tok; crypto_pk_env_t *key = NULL; /* Is there a dir-signing-key in the directory? */ cp = strstr(str, "\nopt dir-signing-key"); if (!cp) cp = strstr(str, "\ndir-signing-key"); if (!cp) return NULL; ++cp; /* Now cp points to the start of the token. */ tok = get_next_token(&cp, DIR); if (!tok) { warn(LD_DIR, "Unparseable dir-signing-key token"); return NULL; } if (tok->tp != K_DIR_SIGNING_KEY) { warn(LD_DIR, "Dir-signing-key token did not parse as expected"); return NULL; } if (tok->key) { key = tok->key; tok->key = NULL; /* steal reference. */ } else if (tok->n_args >= 1) { /** XXXX Once all the directories are running 0.1.0.6-rc or later, we * can remove this logic. */ key = crypto_pk_DER64_decode_public_key(tok->args[0]); if (!key) { warn(LD_DIR, "Unparseable dir-signing-key argument"); return NULL; } } else { warn(LD_DIR, "Dir-signing-key token contained no key"); return NULL; } token_free(tok); return key; } /** Return true iff key is allowed to sign directories. */ static int dir_signing_key_is_trusted(crypto_pk_env_t *key) { char digest[DIGEST_LEN]; if (!key) return 0; if (crypto_pk_get_digest(key, digest) < 0) { warn(LD_DIR, "Error computing dir-signing-key digest"); return 0; } if (!router_digest_is_trusted_dir(digest)) { warn(LD_DIR, "Listed dir-signing-key is not trusted"); return 0; } return 1; } /** Check whether the K_DIRECTORY_SIGNATURE token in tok has a * good signature for digest. * * If declared_key is set, the directory has declared what key * was used to sign it, so we will use that key only if it is an * authoritative directory signing key or if check_authority is 0. * * Otherwise, if pkey is provided, try to use it. * * (New callers should always use declared_key when possible; * pkey is only for debugging.) */ static int check_directory_signature(const char *digest, directory_token_t *tok, crypto_pk_env_t *pkey, crypto_pk_env_t *declared_key, int check_authority) { char signed_digest[PK_BYTES]; crypto_pk_env_t *_pkey = NULL; if (tok->n_args != 1) { warn(LD_DIR, "Too many or too few arguments to directory-signature"); return -1; } if (declared_key) { if (!check_authority || dir_signing_key_is_trusted(declared_key)) _pkey = declared_key; } if (!_pkey && pkey) { /* pkey provided for debugging purposes */ _pkey = pkey; } if (!_pkey) { warn(LD_DIR, "Obsolete directory format (dir signing key not present) or signing key not trusted--rejecting."); return -1; } if (strcmp(tok->object_type, "SIGNATURE") || tok->object_size != 128) { warn(LD_DIR, "Bad object type or length on directory signature"); return -1; } tor_assert(_pkey); if (crypto_pk_public_checksig(_pkey, signed_digest, tok->object_body, 128) != 20) { warn(LD_DIR, "Error reading directory: invalid signature."); return -1; } debug(LD_DIR,"Signed directory hash starts %s", hex_str(signed_digest,4)); if (memcmp(digest, signed_digest, DIGEST_LEN)) { warn(LD_DIR, "Error reading directory: signature does not match."); return -1; } return 0; } /** Given a string *s containing a concatenated sequence of router * descriptors, parses them and stores the result in dest. All routers * are marked running and verified. Advances *s to a point immediately * following the last router entry. Ignore any trailing router entries that * are not complete. Returns 0 on success and -1 on failure. */ int router_parse_list_from_string(const char **s, smartlist_t *dest) { routerinfo_t *router; const char *end, *cp; tor_assert(s); tor_assert(*s); tor_assert(dest); while (1) { *s = eat_whitespace(*s); /* Don't start parsing the rest of *s unless it contains a router. */ if (strcmpstart(*s, "router ")!=0) break; if ((end = strstr(*s+1, "\nrouter "))) { cp = end; end++; } else if ((end = strstr(*s+1, "\ndirectory-signature"))) { cp = end; end++; } else { cp = end = *s+strlen(*s); } while (cp > *s && (!*cp || TOR_ISSPACE(*cp))) --cp; /* cp now points to the last non-space character in this descriptor. */ while (cp > *s && *cp != '\n') --cp; /* cp now points to the first \n before the last non-blank line in this * descriptor */ if (strcmpstart(cp, "\n-----END SIGNATURE-----\n")) { info(LD_DIR, "Ignoring truncated router descriptor."); *s = end; continue; } router = router_parse_entry_from_string(*s, end); *s = end; if (!router) { warn(LD_DIR, "Error reading router; skipping"); continue; } smartlist_add(dest, router); } return 0; } /** Helper function: reads a single router entry from *s ... * *end. Mallocs a new router and returns it if all goes well, else * returns NULL. */ routerinfo_t * router_parse_entry_from_string(const char *s, const char *end) { routerinfo_t *router = NULL; char signed_digest[128]; char digest[128]; smartlist_t *tokens = NULL, *exit_policy_tokens = NULL; directory_token_t *tok; int t; int ports_set, bw_set; struct in_addr in; 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_router_hash(s, digest) < 0) { warn(LD_DIR, "Couldn't compute router hash."); return NULL; } tokens = smartlist_create(); if (tokenize_string(s,end,tokens,RTR)) { warn(LD_DIR, "Error tokeninzing router descriptor."); goto err; } if (smartlist_len(tokens) < 2) { warn(LD_DIR, "Impossibly short router descriptor."); goto err; } if ((tok = find_first_by_keyword(tokens, _UNRECOGNIZED))) { warn(LD_DIR, "Unrecognized critical keyword '%s'; skipping descriptor. (It may be from another version of Tor.)", tok->args[0]); goto err; } tok = smartlist_get(tokens,0); if (tok->tp != K_ROUTER) { warn(LD_DIR,"Entry does not start with \"router\""); goto err; } router = tor_malloc_zero(sizeof(routerinfo_t)); router->cache_info.signed_descriptor = tor_strndup(s, end-s); router->cache_info.signed_descriptor_len = end-s; memcpy(router->cache_info.signed_descriptor_digest, digest, DIGEST_LEN); ports_set = bw_set = 0; if (tok->n_args == 2 || tok->n_args == 5 || tok->n_args == 6) { router->nickname = tor_strdup(tok->args[0]); if (!is_legal_nickname(router->nickname)) { warn(LD_DIR,"Router nickname is invalid"); goto err; } router->address = tor_strdup(tok->args[1]); if (!tor_inet_aton(router->address, &in)) { warn(LD_DIR,"Router address is not an IP."); goto err; } router->addr = ntohl(in.s_addr); if (tok->n_args >= 5) { router->or_port = (uint16_t) tor_parse_long(tok->args[2],10,0,65535,NULL,NULL); router->dir_port = (uint16_t) tor_parse_long(tok->args[4],10,0,65535,NULL,NULL); ports_set = 1; } } else { warn(LD_DIR,"Wrong # of arguments to \"router\" (%d)",tok->n_args); goto err; } tok = find_first_by_keyword(tokens, K_PORTS); if (tok && ports_set) { warn(LD_DIR,"Redundant ports line"); goto err; } else if (tok) { if (tok->n_args != 3) { warn(LD_DIR,"Wrong # of arguments to \"ports\""); goto err; } router->or_port = (uint16_t) tor_parse_long(tok->args[0],10,0,65535,NULL,NULL); router->dir_port = (uint16_t) tor_parse_long(tok->args[2],10,0,65535,NULL,NULL); ports_set = 1; } tok = find_first_by_keyword(tokens, K_BANDWIDTH); if (tok && bw_set) { warn(LD_DIR,"Redundant bandwidth line"); goto err; } else if (tok) { if (tok->n_args < 3) { /* XXXX Once 0.0.7 is *really* dead, restore this warning to its old form*/ warn(LD_DIR,"Not enough arguments to \"bandwidth\": must be an obsolete server. Rejecting one server (nickname '%s').", router->nickname); goto err; } router->bandwidthrate = tor_parse_long(tok->args[0],10,0,INT_MAX,NULL,NULL); router->bandwidthburst = tor_parse_long(tok->args[1],10,0,INT_MAX,NULL,NULL); router->bandwidthcapacity = tor_parse_long(tok->args[2],10,0,INT_MAX,NULL,NULL); bw_set = 1; } if ((tok = find_first_by_keyword(tokens, K_UPTIME))) { if (tok->n_args != 1) { warn(LD_DIR, "Unrecognized number of args on K_UPTIME; skipping."); } else { router->uptime = tor_parse_long(tok->args[0],10,0,LONG_MAX,NULL,NULL); } } if ((tok = find_first_by_keyword(tokens, K_HIBERNATING))) { if (tok->n_args < 1) { warn(LD_DIR, "Too few args on 'hibernating' keyword. Skipping."); } else { router->is_hibernating = (tor_parse_long(tok->args[0],10,0,LONG_MAX,NULL,NULL) != 0); } } if (!(tok = find_first_by_keyword(tokens, K_PUBLISHED))) { warn(LD_DIR, "Missing published time"); goto err; } tor_assert(tok->n_args == 1); if (parse_iso_time(tok->args[0], &router->cache_info.published_on) < 0) goto err; if (!(tok = find_first_by_keyword(tokens, K_ONION_KEY))) { warn(LD_DIR, "Missing onion key"); goto err; } if (crypto_pk_keysize(tok->key) != PK_BYTES) { warn(LD_DIR, "Wrong size on onion key: %d bits!", (int)crypto_pk_keysize(tok->key)*8); goto err; } router->onion_pkey = tok->key; tok->key = NULL; /* Prevent free */ if (!(tok = find_first_by_keyword(tokens, K_SIGNING_KEY))) { warn(LD_DIR, "Missing identity key"); goto err; } if (crypto_pk_keysize(tok->key) != PK_BYTES) { warn(LD_DIR, "Wrong size on identity key: %d bits!", (int)crypto_pk_keysize(tok->key)*8); goto err; } router->identity_pkey = tok->key; tok->key = NULL; /* Prevent free */ if (crypto_pk_get_digest(router->identity_pkey, router->cache_info.identity_digest)) { warn(LD_DIR, "Couldn't calculate key digest"); goto err; } if ((tok = find_first_by_keyword(tokens, K_FINGERPRINT))) { /* If there's a fingerprint line, it must match the identity digest. */ char d[DIGEST_LEN]; if (tok->n_args < 1) { warn(LD_DIR, "Too few arguments to fingerprint"); goto err; } tor_strstrip(tok->args[0], " "); if (base16_decode(d, DIGEST_LEN, tok->args[0], strlen(tok->args[0]))) { warn(LD_DIR, "Couldn't decode fingerprint '%s'", tok->args[0]); goto err; } if (memcmp(d,router->cache_info.identity_digest, DIGEST_LEN)!=0) { warn(LD_DIR, "Fingerprint '%s' does not match identity digest.", tok->args[0]); goto err; } } if ((tok = find_first_by_keyword(tokens, K_PLATFORM))) { router->platform = tor_strdup(tok->args[0]); } if ((tok = find_first_by_keyword(tokens, K_CONTACT))) { router->contact_info = tor_strdup(tok->args[0]); } exit_policy_tokens = find_all_exitpolicy(tokens); SMARTLIST_FOREACH(exit_policy_tokens, directory_token_t *, t, if (router_add_exit_policy(router,t)<0) { warn(LD_DIR,"Error in exit policy"); goto err; }); if ((tok = find_first_by_keyword(tokens, K_FAMILY)) && tok->n_args) { int i; router->declared_family = smartlist_create(); for (i=0;in_args;++i) { if (!is_legal_nickname_or_hexdigest(tok->args[i])) { warn(LD_DIR, "Illegal nickname '%s' in family line", tok->args[i]); goto err; } smartlist_add(router->declared_family, tor_strdup(tok->args[i])); } } if (!(tok = find_first_by_keyword(tokens, K_ROUTER_SIGNATURE))) { warn(LD_DIR, "Missing router signature"); goto err; } if (strcmp(tok->object_type, "SIGNATURE") || tok->object_size != 128) { warn(LD_DIR, "Bad object type or length on router signature"); goto err; } if ((t=crypto_pk_public_checksig(router->identity_pkey, signed_digest, tok->object_body, 128)) != 20) { warn(LD_DIR, "Invalid signature %d",t); goto err; } if (memcmp(digest, signed_digest, DIGEST_LEN)) { warn(LD_DIR, "Mismatched signature"); goto err; } if (!ports_set) { warn(LD_DIR,"No ports declared; failing."); goto err; } if (!bw_set) { warn(LD_DIR,"No bandwidth declared; failing."); goto err; } if (!router->or_port) { warn(LD_DIR,"or_port unreadable or 0. Failing."); goto err; } if (!router->bandwidthrate) { warn(LD_DIR,"bandwidthrate unreadable or 0. Failing."); goto err; } if (!router->platform) { router->platform = tor_strdup(""); } goto done; err: routerinfo_free(router); router = NULL; done: if (tokens) { SMARTLIST_FOREACH(tokens, directory_token_t *, tok, token_free(tok)); smartlist_free(tokens); } if (exit_policy_tokens) { smartlist_free(exit_policy_tokens); } return router; } /** Helper: given a string s, return the start of the next router-status * object (starting with "r " at the start of a line). If none is found, * return the start of the next directory signature. If none is found, return * the end of the string. */ static INLINE const char * find_start_of_next_routerstatus(const char *s) { const char *eos = strstr(s, "\nr "); if (!eos) eos = strstr(s, "\ndirectory-signature"); if (eos) return eos+1; else return s + strlen(s); } /** Given a string at *s, containing a routerstatus object, and an * empty smartlist at tokens, parse and return the first router status * object in the string, and advance *s to just after the end of the * router status. Return NULL and advance *s on error. */ static routerstatus_t * routerstatus_parse_entry_from_string(const char **s, smartlist_t *tokens) { const char *eos; routerstatus_t *rs = NULL; directory_token_t *tok; char timebuf[ISO_TIME_LEN+1]; struct in_addr in; tor_assert(tokens); eos = find_start_of_next_routerstatus(*s); if (tokenize_string(*s, eos, tokens, RTRSTATUS)) { warn(LD_DIR, "Error tokenizing router status"); goto err; } if (smartlist_len(tokens) < 1) { warn(LD_DIR, "Impossibly short router status"); goto err; } if ((tok = find_first_by_keyword(tokens, _UNRECOGNIZED))) { warn(LD_DIR, "Unrecognized keyword \"%s\" in router status; skipping.", tok->args[0]); goto err; } if (!(tok = find_first_by_keyword(tokens, K_R))) { warn(LD_DIR, "Missing 'r' keywork in router status; skipping."); goto err; } if (tok->n_args < 8) { warn(LD_DIR, "Too few arguments to 'r' keywork in router status; skipping."); } rs = tor_malloc_zero(sizeof(routerstatus_t)); if (!is_legal_nickname(tok->args[0])) { warn(LD_DIR, "Invalid nickname '%s' in router status; skipping.", tok->args[0]); goto err; } strlcpy(rs->nickname, tok->args[0], sizeof(rs->nickname)); if (digest_from_base64(rs->identity_digest, tok->args[1])) { warn(LD_DIR, "Error decoding digest '%s'", tok->args[1]); goto err; } if (digest_from_base64(rs->descriptor_digest, tok->args[2])) { warn(LD_DIR, "Error decoding digest '%s'", tok->args[2]); goto err; } if (tor_snprintf(timebuf, sizeof(timebuf), "%s %s", tok->args[3], tok->args[4]) < 0 || parse_iso_time(timebuf, &rs->published_on)<0) { warn(LD_DIR, "Error parsing time '%s %s'", tok->args[3], tok->args[4]); goto err; } if (tor_inet_aton(tok->args[5], &in) == 0) { warn(LD_DIR, "Error parsing address '%s'", tok->args[5]); goto err; } rs->addr = ntohl(in.s_addr); rs->or_port =(uint16_t) tor_parse_long(tok->args[6],10,0,65535,NULL,NULL); rs->dir_port = (uint16_t) tor_parse_long(tok->args[7],10,0,65535,NULL,NULL); if ((tok = find_first_by_keyword(tokens, K_S))) { int i; for (i=0; i < tok->n_args; ++i) { if (!strcmp(tok->args[i], "Exit")) rs->is_exit = 1; else if (!strcmp(tok->args[i], "Stable")) rs->is_stable = 1; else if (!strcmp(tok->args[i], "Fast")) rs->is_fast = 1; else if (!strcmp(tok->args[i], "Running")) rs->is_running = 1; else if (!strcmp(tok->args[i], "Named")) rs->is_named = 1; else if (!strcmp(tok->args[i], "Valid")) rs->is_valid = 1; } } goto done; err: if (rs) routerstatus_free(rs); rs = NULL; done: SMARTLIST_FOREACH(tokens, directory_token_t *, t, token_free(t)); smartlist_clear(tokens); *s = eos; return rs; } /** Helper to sort a smartlist of pointers to routerstatus_t */ static int _compare_routerstatus_entries(const void **_a, const void **_b) { const routerstatus_t *a = *_a, *b = *_b; return memcmp(a->identity_digest, b->identity_digest, DIGEST_LEN); } /** Given a versioned (v2 or later) network-status object in s, try to * parse it and return the result. Return NULL on failure. Check the * signature of the network status, but do not (yet) check the signing key for * authority. */ networkstatus_t * networkstatus_parse_from_string(const char *s) { const char *eos; smartlist_t *tokens = smartlist_create(); networkstatus_t *ns = NULL; char ns_digest[DIGEST_LEN]; char tmp_digest[DIGEST_LEN]; struct in_addr in; directory_token_t *tok; int i; if (router_get_networkstatus_v2_hash(s, ns_digest)) { warn(LD_DIR, "Unable to compute digest of network-status"); goto err; } eos = find_start_of_next_routerstatus(s); if (tokenize_string(s, eos, tokens, NETSTATUS)) { warn(LD_DIR, "Error tokenizing network-status header."); goto err; } if ((tok = find_first_by_keyword(tokens, _UNRECOGNIZED))) { warn(LD_DIR, "Unrecognized keyword '%s'; can't parse network-status", tok->args[0]); goto err; } ns = tor_malloc_zero(sizeof(networkstatus_t)); memcpy(ns->networkstatus_digest, ns_digest, DIGEST_LEN); if (!(tok = find_first_by_keyword(tokens, K_NETWORK_STATUS_VERSION))) { warn(LD_DIR, "Couldn't find network-status-version keyword"); goto err; } if (!(tok = find_first_by_keyword(tokens, K_DIR_SOURCE))) { warn(LD_DIR, "Couldn't find dir-source keyword"); goto err; } if (tok->n_args < 3) { warn(LD_DIR, "Too few arguments to dir-source keyword"); goto err; } ns->source_address = tok->args[0]; tok->args[0] = NULL; if (tor_inet_aton(tok->args[1], &in) == 0) { warn(LD_DIR, "Error parsing address '%s'", tok->args[1]); goto err; } ns->source_addr = ntohl(in.s_addr); ns->source_dirport = (uint16_t) tor_parse_long(tok->args[2],10,0,65535,NULL,NULL); if (ns->source_dirport == 0) { warn(LD_DIR, "Directory source without dirport; skipping."); goto err; } if (!(tok = find_first_by_keyword(tokens, K_FINGERPRINT))) { warn(LD_DIR, "Couldn't find fingerprint keyword"); goto err; } if (tok->n_args < 1) { warn(LD_DIR, "Too few arguments to fingerprint"); goto err; } if (base16_decode(ns->identity_digest, DIGEST_LEN, tok->args[0], strlen(tok->args[0]))) { warn(LD_DIR, "Couldn't decode fingerprint '%s'", tok->args[0]); goto err; } if ((tok = find_first_by_keyword(tokens, K_CONTACT)) && tok->n_args) { ns->contact = tok->args[0]; tok->args[0] = NULL; } if (!(tok = find_first_by_keyword(tokens, K_DIR_SIGNING_KEY)) || !tok->key) { warn(LD_DIR, "Missing dir-signing-key"); goto err; } ns->signing_key = tok->key; tok->key = NULL; if (crypto_pk_get_digest(ns->signing_key, tmp_digest)<0) { warn(LD_DIR, "Couldn't compute signing key digest"); goto err; } if (memcmp(tmp_digest, ns->identity_digest, DIGEST_LEN)) { warn(LD_DIR, "network-status fingerprint did not match dir-signing-key"); goto err; } if ((tok = find_first_by_keyword(tokens, K_DIR_OPTIONS))) { for (i=0; i < tok->n_args; ++i) { if (!strcmp(tok->args[i], "Names")) ns->binds_names = 1; if (!strcmp(tok->args[i], "Versions")) ns->recommends_versions = 1; } } if (ns->recommends_versions) { if (!(tok = find_first_by_keyword(tokens, K_CLIENT_VERSIONS)) || tok->n_args<1) { warn(LD_DIR, "Missing client-versions"); } ns->client_versions = tok->args[0]; tok->args[0] = NULL; if (!(tok = find_first_by_keyword(tokens, K_SERVER_VERSIONS)) || tok->n_args<1) { warn(LD_DIR, "Missing server-versions on versioning directory"); goto err; } ns->server_versions = tok->args[0]; tok->args[0] = NULL; } if (!(tok = find_first_by_keyword(tokens, K_PUBLISHED))) { warn(LD_DIR, "Missing published time on directory."); goto err; } tor_assert(tok->n_args == 1); if (parse_iso_time(tok->args[0], &ns->published_on) < 0) { goto err; } ns->entries = smartlist_create(); s = eos; SMARTLIST_FOREACH(tokens, directory_token_t *, t, token_free(t)); smartlist_clear(tokens); while (!strcmpstart(s, "r ")) { routerstatus_t *rs; if ((rs = routerstatus_parse_entry_from_string(&s, tokens))) smartlist_add(ns->entries, rs); } smartlist_sort(ns->entries, _compare_routerstatus_entries); /* Kill duplicate entries. */ for (i=0; i < smartlist_len(ns->entries)-1; ++i) { routerstatus_t *rs1 = smartlist_get(ns->entries, i); routerstatus_t *rs2 = smartlist_get(ns->entries, i+1); if (!memcmp(rs1->identity_digest, rs2->identity_digest, DIGEST_LEN)) { warn(LD_DIR, "Network-status has two entries for the same router. Dropping one."); smartlist_del_keeporder(ns->entries, i--); routerstatus_free(rs1); } } if (tokenize_string(s, NULL, tokens, NETSTATUS)) { warn(LD_DIR, "Error tokenizing network-status footer."); goto err; } if (smartlist_len(tokens) < 1) { warn(LD_DIR, "Too few items in network-status footer."); goto err; } tok = smartlist_get(tokens, smartlist_len(tokens)-1); if (tok->tp != K_DIRECTORY_SIGNATURE) { warn(LD_DIR, "Expected network-status footer to end with a signature."); goto err; } if (check_directory_signature(ns_digest, tok, NULL, ns->signing_key, 0)) goto err; goto done; err: if (ns) networkstatus_free(ns); ns = NULL; done: SMARTLIST_FOREACH(tokens, directory_token_t *, t, token_free(t)); smartlist_free(tokens); return ns; } /** Parse the exit 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. */ addr_policy_t * router_parse_addr_policy_from_string(const char *s, int assume_action) { directory_token_t *tok = NULL; const char *cp; char *tmp; addr_policy_t *r; size_t len, idx; /* *s might not end with \n, so we need to extend it with one. */ len = strlen(s); cp = tmp = tor_malloc(len+2); for (idx = 0; idx < len; ++idx) { tmp[idx] = tolower(s[idx]); } tmp[len]='\n'; tmp[len+1]='\0'; while (TOR_ISSPACE(*cp)) ++cp; if ((*cp == '*' || TOR_ISDIGIT(*cp)) && assume_action >= 0) { char *new_str = tor_malloc(len+10); tor_snprintf(new_str, len+10, "%s %s\n", assume_action == ADDR_POLICY_ACCEPT?"accept":"reject", cp); tor_free(tmp); cp = tmp = new_str; } tok = get_next_token(&cp, RTR); if (tok->tp == _ERR) { warn(LD_DIR, "Error reading exit policy: %s", tok->error); goto err; } if (tok->tp != K_ACCEPT && tok->tp != K_REJECT) { warn(LD_DIR, "Expected 'accept' or 'reject'."); goto err; } /* Now that we've gotten an exit policy, add it to the router. */ r = router_parse_addr_policy(tok); goto done; err: r = NULL; done: tor_free(tmp); token_free(tok); 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, **tmpe; newe = router_parse_addr_policy(tok); if (!newe) return -1; for (tmpe = &router->exit_policy; *tmpe; tmpe=&((*tmpe)->next)) ; *tmpe = newe; return 0; } /** Given a K_ACCEPT or K_REJECT token and a router, create and return * a new exit_policy_t corresponding to the token. */ static addr_policy_t * router_parse_addr_policy(directory_token_t *tok) { addr_policy_t *newe; // struct in_addr in; char *arg; // char *address; // char buf[INET_NTOA_BUF_LEN]; tor_assert(tok->tp == K_REJECT || tok->tp == K_ACCEPT); if (tok->n_args != 1) return NULL; arg = tok->args[0]; newe = tor_malloc_zero(sizeof(addr_policy_t)); newe->string = tor_malloc(8+strlen(arg)); /* XXX eventually, use the code from router.c:727 to generate this */ tor_snprintf(newe->string, 8+strlen(arg), "%s %s", (tok->tp == K_REJECT) ? "reject" : "accept", arg); newe->policy_type = (tok->tp == K_REJECT) ? ADDR_POLICY_REJECT : ADDR_POLICY_ACCEPT; if (parse_addr_and_port_range(arg, &newe->addr, &newe->msk, &newe->prt_min, &newe->prt_max)) goto policy_read_failed; // in.s_addr = htonl(newe->addr); // tor_inet_ntoa(&in, buf, sizeof(buf)); // address = tor_strdup(buf); // in.s_addr = htonl(newe->msk); // log_fn(LOG_DEBUG,"%s %s/%s:%d-%d", // newe->policy_type == ADDR_POLICY_REJECT ? "reject" : "accept", // address, inet_ntoa(in), newe->prt_min, newe->prt_max); // tor_free(address); return newe; policy_read_failed: tor_assert(newe->string); warn(LD_DIR,"Couldn't parse line '%s'. Dropping", newe->string); tor_free(newe->string); tor_free(newe); return NULL; } /** Log and exit if t is malformed */ void assert_addr_policy_ok(addr_policy_t *t) { addr_policy_t *t2; while (t) { tor_assert(t->policy_type == ADDR_POLICY_REJECT || t->policy_type == ADDR_POLICY_ACCEPT); tor_assert(t->prt_min <= t->prt_max); t2 = router_parse_addr_policy_from_string(t->string, -1); tor_assert(t2); tor_assert(t2->policy_type == t->policy_type); tor_assert(t2->addr == t->addr); tor_assert(t2->msk == t->msk); tor_assert(t2->prt_min == t->prt_min); tor_assert(t2->prt_max == t->prt_max); tor_assert(!strcmp(t2->string, t->string)); tor_assert(t2->next == NULL); addr_policy_free(t2); t = t->next; } } /* * Low-level tokenizer for router descriptors and directories. */ /** Free all resources allocated for tok */ static void token_free(directory_token_t *tok) { int i; tor_assert(tok); if (tok->args) { for (i = 0; i < tok->n_args; ++i) { tor_free(tok->args[i]); } tor_free(tok->args); } tor_free(tok->object_type); tor_free(tok->object_body); if (tok->key) crypto_free_pk_env(tok->key); tor_free(tok); } /** Helper function: read the next token from *s, advance *s to the end * of the token, and return the parsed token. If 'where' is DIR * or RTR, reject all tokens of the wrong type. */ static directory_token_t * get_next_token(const char **s, where_syntax where) { const char *next, *obstart; int i, done, allocated, is_opt; directory_token_t *tok; arg_syntax a_syn; obj_syntax o_syn = NO_OBJ; #define RET_ERR(msg) \ do { if (tok) token_free(tok); \ tok = tor_malloc_zero(sizeof(directory_token_t));\ tok->tp = _ERR; \ tok->error = msg; \ goto done_tokenizing; } while (0) tok = tor_malloc_zero(sizeof(directory_token_t)); tok->tp = _ERR; *s = eat_whitespace(*s); if (!**s) { tok->tp = _EOF; return tok; } next = find_whitespace(*s); if (!next) { tok->error = "Unexpected EOF"; return tok; } /* It's a keyword... but which one? */ is_opt = !strncmp("opt", *s, next-*s); if (is_opt) { *s = eat_whitespace(next); next = NULL; if (**s) next = find_whitespace(*s); if (!**s || !next) { RET_ERR("opt without keyword"); } } for (i = 0; token_table[i].t ; ++i) { if (!strncmp(token_table[i].t, *s, next-*s)) { /* We've found the keyword. */ tok->tp = token_table[i].v; a_syn = token_table[i].s; o_syn = token_table[i].os; if (!(token_table[i].ws & where)) { if (where == DIR) { RET_ERR("Found an out-of-place token in a directory section"); } else if (where == RTR) { RET_ERR("Found an out-of-place token in a router descriptor"); } else if (where == NETSTATUS) { RET_ERR("Found an out-of-place token in a network-status header"); } else { RET_ERR("Found an out-of-place token in a router status body"); } } if (a_syn == ARGS) { /* This keyword takes multiple arguments. */ i = 0; done = (*next == '\n'); allocated = 32; tok->args = tor_malloc(sizeof(char*)*32); *s = eat_whitespace_no_nl(next); while (**s != '\n' && !done) { next = find_whitespace(*s); if (*next == '\n') done = 1; if (i == allocated) { allocated *= 2; tok->args = tor_realloc(tok->args,sizeof(char*)*allocated); } tok->args[i++] = tor_strndup(*s,next-*s); *s = eat_whitespace_no_nl(next+1); } tok->n_args = i; } else if (a_syn == CONCAT_ARGS) { /* The keyword takes the line as a single argument */ *s = eat_whitespace_no_nl(next); next = strchr(*s, '\n'); if (!next) RET_ERR("Unexpected EOF"); tok->args = tor_malloc(sizeof(char*)); tok->args[0] = tor_strndup(*s,next-*s); tok->n_args = 1; *s = eat_whitespace_no_nl(next+1); } else { /* The keyword takes no arguments. */ tor_assert(a_syn == NO_ARGS); *s = eat_whitespace_no_nl(next); if (**s != '\n') { RET_ERR("Unexpected arguments"); } tok->n_args = 0; *s = eat_whitespace_no_nl(*s+1); } break; } } if (tok->tp == _ERR) { if (is_opt) { tok->tp = K_OPT; *s = eat_whitespace_no_nl(next); next = strchr(*s,'\n'); if (!next) RET_ERR("Unexpected EOF"); tok->args = tor_malloc(sizeof(char*)); tok->args[0] = tor_strndup(*s,next-*s); tok->n_args = 1; *s = eat_whitespace_no_nl(next+1); o_syn = OBJ_OK; } else { tok->tp = _UNRECOGNIZED; next = strchr(*s, '\n'); if (!next) { RET_ERR("Unexpected EOF"); } tok->args = tor_malloc(sizeof(char*)); tok->args[0] = tor_strndup(*s,next-*s); tok->n_args = 1; *s = next+1; o_syn = OBJ_OK; } } *s = eat_whitespace(*s); if (strcmpstart(*s, "-----BEGIN ")) { goto done_tokenizing; } obstart = *s; *s += 11; /* length of "-----BEGIN ". */ next = strchr(*s, '\n'); if (next-*s < 6 || strcmpstart(next-5, "-----\n")) { RET_ERR("Malformed object: bad begin line"); } tok->object_type = tor_strndup(*s, next-*s-5); *s = next+1; next = strstr(*s, "-----END "); if (!next) { RET_ERR("Malformed object: missing end line"); } if (!strcmp(tok->object_type, "RSA PUBLIC KEY")) { if (strcmpstart(next, "-----END RSA PUBLIC KEY-----\n")) RET_ERR("Malformed object: mismatched end line"); next = strchr(next,'\n')+1; tok->key = crypto_new_pk_env(); if (crypto_pk_read_public_key_from_string(tok->key, obstart, next-obstart)) RET_ERR("Couldn't parse public key."); *s = next; } else { tok->object_body = tor_malloc(next-*s); /* really, this is too much RAM. */ i = base64_decode(tok->object_body, 256, *s, next-*s); if (i<0) { RET_ERR("Malformed object: bad base64-encoded data"); } tok->object_size = i; *s = next + 9; /* length of "-----END ". */ i = strlen(tok->object_type); if (strncmp(*s, tok->object_type, i) || strcmpstart(*s+i, "-----\n")) { RET_ERR("Malformed object: mismatched end tag"); } *s += i+6; } switch (o_syn) { case NO_OBJ: if (tok->object_body) RET_ERR("Unexpected object for keyword"); if (tok->key) RET_ERR("Unexpected public key for keyword"); break; case NEED_OBJ: if (!tok->object_body) RET_ERR("Missing object for keyword"); break; case NEED_KEY: if (!tok->key) RET_ERR("Missing public key for keyword"); break; case OBJ_OK: break; } done_tokenizing: return tok; #undef RET_ERR } /** Read all tokens from a string between start and end, and add * them to out. If is_dir is true, reject all non-directory * tokens; else reject all non-routerdescriptor tokens. */ static int tokenize_string(const char *start, const char *end, smartlist_t *out, where_syntax where) { const char **s; directory_token_t *tok = NULL; s = &start; if (!end) end = start+strlen(start); while (*s < end && (!tok || tok->tp != _EOF)) { tok = get_next_token(s, where); if (tok->tp == _ERR) { warn(LD_DIR, "parse error: %s", tok->error); return -1; } smartlist_add(out, tok); *s = eat_whitespace(*s); } return 0; } /** Find the first token in s whose keyword is keyword; return * NULL if no such keyword is found. */ static directory_token_t * find_first_by_keyword(smartlist_t *s, directory_keyword keyword) { SMARTLIST_FOREACH(s, directory_token_t *, t, if (t->tp == keyword) return t); return NULL; } /** 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_create(); SMARTLIST_FOREACH(s, directory_token_t *, t, if (t->tp == K_ACCEPT || t->tp == K_REJECT) smartlist_add(out,t)); return out; } /** Compute the SHA digest of the substring of s taken from the first * occurrence of start_str through the first newline after the first * subsequent occurrence of end_str; store the 20-byte result in * digest; return 0 on success. * * If no such substring exists, return -1. */ static int router_get_hash_impl(const char *s, char *digest, const char *start_str, const char *end_str) { char *start, *end; start = strstr(s, start_str); if (!start) { warn(LD_DIR,"couldn't find \"%s\"",start_str); return -1; } if (start != s && *(start-1) != '\n') { warn(LD_DIR, "first occurrence of \"%s\" is not at the start of a line", start_str); return -1; } end = strstr(start+strlen(start_str), end_str); if (!end) { warn(LD_DIR,"couldn't find \"%s\"",end_str); return -1; } end = strchr(end+strlen(end_str), '\n'); if (!end) { warn(LD_DIR,"couldn't find EOL"); return -1; } ++end; if (crypto_digest(digest, start, end-start)) { warn(LD_DIR,"couldn't compute digest"); return -1; } return 0; } /** Parse the Tor version of the platform string platform, * and compare it to the version in cutoff. Return 1 if * the router is at least as new as the cutoff, else return 0. */ int tor_version_as_new_as(const char *platform, const char *cutoff) { tor_version_t cutoff_version, router_version; char *s, *start; char tmp[128]; if (tor_version_parse(cutoff, &cutoff_version)<0) { warn(LD_DIR,"Bug: cutoff version '%s' unparseable.",cutoff); return 0; } if (strcmpstart(platform,"Tor ")) /* nonstandard Tor; be safe and say yes */ return 1; start = (char *)eat_whitespace(platform+3); if (!*start) return 0; s = (char *)find_whitespace(start); /* also finds '\0', which is fine */ if ((size_t)(s-start+1) >= sizeof(tmp)) /* too big, no */ return 0; strlcpy(tmp, start, s-start+1); if (tor_version_parse(tmp, &router_version)<0) { info(LD_DIR,"Router version '%s' unparseable.",tmp); return 1; /* be safe and say yes */ } return tor_version_compare(&router_version, &cutoff_version) >= 0; } /** Parse a tor version from s, and store the result in out. * Return 0 on success, -1 on failure. */ int tor_version_parse(const char *s, tor_version_t *out) { char *eos=NULL, *cp=NULL; /* Format is: * "Tor " ? NUM dot NUM dot NUM [ ( pre | rc | dot ) NUM [ -cvs ] ] */ tor_assert(s); tor_assert(out); memset(out, 0, sizeof(tor_version_t)); if (!strcasecmpstart(s, "Tor ")) cp += 4; /* Get major. */ out->major = strtol(s,&eos,10); if (!eos || eos==s || *eos != '.') return -1; cp = eos+1; /* Get minor */ out->minor = strtol(cp,&eos,10); if (!eos || eos==cp || *eos != '.') return -1; cp = eos+1; /* Get micro */ out->micro = strtol(cp,&eos,10); if (!eos || eos==cp) return -1; if (!*eos) { out->status = VER_RELEASE; out->patchlevel = 0; out->cvs = IS_NOT_CVS; return 0; } cp = eos; /* Get status */ if (*cp == '.') { out->status = VER_RELEASE; ++cp; } else if (0==strncmp(cp, "pre", 3)) { out->status = VER_PRE; cp += 3; } else if (0==strncmp(cp, "rc", 2)) { out->status = VER_RC; cp += 2; } else { return -1; } /* Get patchlevel */ out->patchlevel = strtol(cp,&eos,10); if (!eos || eos==cp) return -1; cp = eos; /* Get cvs status and status tag. */ if (*cp == '-' || *cp == '.') ++cp; strlcpy(out->status_tag, cp, sizeof(out->status_tag)); if (0==strcmp(cp, "cvs")) { out->cvs = IS_CVS; } else { out->cvs = IS_NOT_CVS; } return 0; } /** Compare two tor versions; Return <0 if a < b; 0 if a ==b, >0 if a > * b. */ int tor_version_compare(tor_version_t *a, tor_version_t *b) { int i; tor_assert(a); tor_assert(b); if ((i = a->major - b->major)) return i; else if ((i = a->minor - b->minor)) return i; else if ((i = a->micro - b->micro)) return i; else if ((i = a->status - b->status)) return i; else if ((i = a->patchlevel - b->patchlevel)) return i; if (a->major > 0 || a->minor > 0) { return strcmp(a->status_tag, b->status_tag); } else { return (a->cvs - b->cvs); } } /** Return true iff versions a and b belong to the same series. */ static int tor_version_same_series(tor_version_t *a, tor_version_t *b) { tor_assert(a); tor_assert(b); return ((a->major == b->major) && (a->minor == b->minor) && (a->micro == b->micro)); }