/* 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 */ #define DIRECTORY_PRIVATE #include "core/or/or.h" #include "lib/err/backtrace.h" #include "feature/client/bridges.h" #include "lib/container/buffers.h" #include "core/or/circuitbuild.h" #include "app/config/config.h" #include "core/mainloop/connection.h" #include "core/or/connection_edge.h" #include "feature/dircache/conscache.h" #include "feature/dircommon/consdiff.h" #include "feature/dircache/consdiffmgr.h" #include "feature/control/control.h" #include "lib/compress/compress.h" #include "lib/crypt_ops/crypto_rand.h" #include "lib/crypt_ops/crypto_util.h" #include "feature/dircache/directory.h" #include "feature/dircache/dirserv.h" #include "feature/client/entrynodes.h" #include "feature/dircommon/fp_pair.h" #include "feature/stats/geoip.h" #include "feature/hs/hs_cache.h" #include "feature/hs/hs_common.h" #include "feature/hs/hs_control.h" #include "feature/hs/hs_client.h" #include "core/mainloop/main.h" #include "feature/nodelist/microdesc.h" #include "feature/nodelist/networkstatus.h" #include "feature/nodelist/nodelist.h" #include "core/or/policies.h" #include "core/or/relay.h" #include "feature/rend/rendclient.h" #include "feature/rend/rendcommon.h" #include "feature/rend/rendservice.h" #include "feature/stats/rephist.h" #include "feature/relay/router.h" #include "feature/nodelist/routerlist.h" #include "feature/nodelist/routerparse.h" #include "feature/nodelist/routerset.h" #include "lib/encoding/confline.h" #include "lib/crypt_ops/crypto_format.h" #if defined(EXPORTMALLINFO) && defined(HAVE_MALLOC_H) && defined(HAVE_MALLINFO) #if !defined(OpenBSD) #include #endif #endif #include "feature/dirauth/dirvote.h" #include "feature/dirauth/mode.h" #include "feature/dirauth/shared_random.h" #include "feature/nodelist/authority_cert_st.h" #include "feature/dircache/cached_dir_st.h" #include "feature/dircommon/dir_connection_st.h" #include "feature/dirclient/dir_server_st.h" #include "core/or/entry_connection_st.h" #include "feature/nodelist/networkstatus_st.h" #include "feature/nodelist/node_st.h" #include "feature/rend/rend_service_descriptor_st.h" #include "feature/nodelist/routerinfo_st.h" /** * \file directory.c * \brief Code to send and fetch information from directory authorities and * caches via HTTP. * * Directory caches and authorities use dirserv.c to generate the results of a * query and stream them to the connection; clients use routerparse.c to parse * them. * * Every directory request has a dir_connection_t on the client side and on * the server side. In most cases, the dir_connection_t object is a linked * connection, tunneled through an edge_connection_t so that it can be a * stream on the Tor network. The only non-tunneled connections are those * that are used to upload material (descriptors and votes) to authorities. * Among tunneled connections, some use one-hop circuits, and others use * multi-hop circuits for anonymity. * * Directory requests are launched by calling * directory_initiate_request(). This * launch the connection, will construct an HTTP request with * directory_send_command(), send the and wait for a response. The client * later handles the response with connection_dir_client_reached_eof(), * which passes the information received to another part of Tor. * * On the server side, requests are read in directory_handle_command(), * which dispatches first on the request type (GET or POST), and then on * the URL requested. GET requests are processed with a table-based * dispatcher in url_table[]. The process of handling larger GET requests * is complicated because we need to avoid allocating a copy of all the * data to be sent to the client in one huge buffer. Instead, we spool the * data into the buffer using logic in connection_dirserv_flushed_some() in * dirserv.c. (TODO: If we extended buf.c to have a zero-copy * reference-based buffer type, we could remove most of that code, at the * cost of a bit more reference counting.) **/ /* In-points to directory.c: * * - directory_post_to_dirservers(), called from * router_upload_dir_desc_to_dirservers() in router.c * upload_service_descriptor() in rendservice.c * - directory_get_from_dirserver(), called from * rend_client_refetch_renddesc() in rendclient.c * run_scheduled_events() in main.c * do_hup() in main.c * - connection_dir_process_inbuf(), called from * connection_process_inbuf() in connection.c * - connection_dir_finished_flushing(), called from * connection_finished_flushing() in connection.c * - connection_dir_finished_connecting(), called from * connection_finished_connecting() in connection.c */ static void directory_send_command(dir_connection_t *conn, int direct, const directory_request_t *request); static int body_is_plausible(const char *body, size_t body_len, int purpose); static void http_set_address_origin(const char *headers, connection_t *conn); static void connection_dir_download_routerdesc_failed(dir_connection_t *conn); static void connection_dir_bridge_routerdesc_failed(dir_connection_t *conn); static void connection_dir_download_cert_failed( dir_connection_t *conn, int status_code); static void connection_dir_retry_bridges(smartlist_t *descs); static void dir_routerdesc_download_failed(smartlist_t *failed, int status_code, int router_purpose, int was_extrainfo, int was_descriptor_digests); static void dir_microdesc_download_failed(smartlist_t *failed, int status_code, const char *dir_id); static int client_likes_consensus(const struct consensus_cache_entry_t *ent, const char *want_url); static void connection_dir_close_consensus_fetches( dir_connection_t *except_this_one, const char *resource); /********* START VARIABLES **********/ /** Maximum size, in bytes, for resized buffers. */ #define MAX_BUF_SIZE ((1<<24)-1) /* 16MB-1 */ /** Maximum size, in bytes, for any directory object that we've downloaded. */ #define MAX_DIR_DL_SIZE MAX_BUF_SIZE /** Maximum size, in bytes, for any directory object that we're accepting * as an upload. */ #define MAX_DIR_UL_SIZE MAX_BUF_SIZE /** How far in the future do we allow a directory server to tell us it is * before deciding that one of us has the wrong time? */ #define ALLOW_DIRECTORY_TIME_SKEW (30*60) #define X_ADDRESS_HEADER "X-Your-Address-Is: " #define X_OR_DIFF_FROM_CONSENSUS_HEADER "X-Or-Diff-From-Consensus: " /** HTTP cache control: how long do we tell proxies they can cache each * kind of document we serve? */ #define FULL_DIR_CACHE_LIFETIME (60*60) #define RUNNINGROUTERS_CACHE_LIFETIME (20*60) #define DIRPORTFRONTPAGE_CACHE_LIFETIME (20*60) #define NETWORKSTATUS_CACHE_LIFETIME (5*60) #define ROUTERDESC_CACHE_LIFETIME (30*60) #define ROUTERDESC_BY_DIGEST_CACHE_LIFETIME (48*60*60) #define ROBOTS_CACHE_LIFETIME (24*60*60) #define MICRODESC_CACHE_LIFETIME (48*60*60) /********* END VARIABLES ************/ /** Convert a connection_t* to a dir_connection_t*; assert if the cast is * invalid. */ dir_connection_t * TO_DIR_CONN(connection_t *c) { tor_assert(c->magic == DIR_CONNECTION_MAGIC); return DOWNCAST(dir_connection_t, c); } /** Return false if the directory purpose dir_purpose * does not require an anonymous (three-hop) connection. * * Return true 1) by default, 2) if all directory actions have * specifically been configured to be over an anonymous connection, * or 3) if the router is a bridge */ int purpose_needs_anonymity(uint8_t dir_purpose, uint8_t router_purpose, const char *resource) { if (get_options()->AllDirActionsPrivate) return 1; if (router_purpose == ROUTER_PURPOSE_BRIDGE) { if (dir_purpose == DIR_PURPOSE_FETCH_SERVERDESC && resource && !strcmp(resource, "authority.z")) { /* We are asking a bridge for its own descriptor. That doesn't need anonymity. */ return 0; } /* Assume all other bridge stuff needs anonymity. */ return 1; /* if no circuits yet, this might break bootstrapping, but it's * needed to be safe. */ } switch (dir_purpose) { case DIR_PURPOSE_UPLOAD_DIR: case DIR_PURPOSE_UPLOAD_VOTE: case DIR_PURPOSE_UPLOAD_SIGNATURES: case DIR_PURPOSE_FETCH_STATUS_VOTE: case DIR_PURPOSE_FETCH_DETACHED_SIGNATURES: case DIR_PURPOSE_FETCH_CONSENSUS: case DIR_PURPOSE_FETCH_CERTIFICATE: case DIR_PURPOSE_FETCH_SERVERDESC: case DIR_PURPOSE_FETCH_EXTRAINFO: case DIR_PURPOSE_FETCH_MICRODESC: return 0; case DIR_PURPOSE_HAS_FETCHED_HSDESC: case DIR_PURPOSE_HAS_FETCHED_RENDDESC_V2: case DIR_PURPOSE_UPLOAD_RENDDESC_V2: case DIR_PURPOSE_FETCH_RENDDESC_V2: case DIR_PURPOSE_FETCH_HSDESC: case DIR_PURPOSE_UPLOAD_HSDESC: return 1; case DIR_PURPOSE_SERVER: default: log_warn(LD_BUG, "Called with dir_purpose=%d, router_purpose=%d", dir_purpose, router_purpose); tor_assert_nonfatal_unreached(); return 1; /* Assume it needs anonymity; better safe than sorry. */ } } /** Return a newly allocated string describing auth. Only describes * authority features. */ STATIC char * authdir_type_to_string(dirinfo_type_t auth) { char *result; smartlist_t *lst = smartlist_new(); if (auth & V3_DIRINFO) smartlist_add(lst, (void*)"V3"); if (auth & BRIDGE_DIRINFO) smartlist_add(lst, (void*)"Bridge"); if (smartlist_len(lst)) { result = smartlist_join_strings(lst, ", ", 0, NULL); } else { result = tor_strdup("[Not an authority]"); } smartlist_free(lst); return result; } /** Return a string describing a given directory connection purpose. */ STATIC const char * dir_conn_purpose_to_string(int purpose) { switch (purpose) { case DIR_PURPOSE_UPLOAD_DIR: return "server descriptor upload"; case DIR_PURPOSE_UPLOAD_VOTE: return "server vote upload"; case DIR_PURPOSE_UPLOAD_SIGNATURES: return "consensus signature upload"; case DIR_PURPOSE_FETCH_SERVERDESC: return "server descriptor fetch"; case DIR_PURPOSE_FETCH_EXTRAINFO: return "extra-info fetch"; case DIR_PURPOSE_FETCH_CONSENSUS: return "consensus network-status fetch"; case DIR_PURPOSE_FETCH_CERTIFICATE: return "authority cert fetch"; case DIR_PURPOSE_FETCH_STATUS_VOTE: return "status vote fetch"; case DIR_PURPOSE_FETCH_DETACHED_SIGNATURES: return "consensus signature fetch"; case DIR_PURPOSE_FETCH_RENDDESC_V2: return "hidden-service v2 descriptor fetch"; case DIR_PURPOSE_UPLOAD_RENDDESC_V2: return "hidden-service v2 descriptor upload"; case DIR_PURPOSE_FETCH_HSDESC: return "hidden-service descriptor fetch"; case DIR_PURPOSE_UPLOAD_HSDESC: return "hidden-service descriptor upload"; case DIR_PURPOSE_FETCH_MICRODESC: return "microdescriptor fetch"; } log_warn(LD_BUG, "Called with unknown purpose %d", purpose); return "(unknown)"; } /** Return the requisite directory information types. */ STATIC dirinfo_type_t dir_fetch_type(int dir_purpose, int router_purpose, const char *resource) { dirinfo_type_t type; switch (dir_purpose) { case DIR_PURPOSE_FETCH_EXTRAINFO: type = EXTRAINFO_DIRINFO; if (router_purpose == ROUTER_PURPOSE_BRIDGE) type |= BRIDGE_DIRINFO; else type |= V3_DIRINFO; break; case DIR_PURPOSE_FETCH_SERVERDESC: if (router_purpose == ROUTER_PURPOSE_BRIDGE) type = BRIDGE_DIRINFO; else type = V3_DIRINFO; break; case DIR_PURPOSE_FETCH_STATUS_VOTE: case DIR_PURPOSE_FETCH_DETACHED_SIGNATURES: case DIR_PURPOSE_FETCH_CERTIFICATE: type = V3_DIRINFO; break; case DIR_PURPOSE_FETCH_CONSENSUS: type = V3_DIRINFO; if (resource && !strcmp(resource, "microdesc")) type |= MICRODESC_DIRINFO; break; case DIR_PURPOSE_FETCH_MICRODESC: type = MICRODESC_DIRINFO; break; default: log_warn(LD_BUG, "Unexpected purpose %d", (int)dir_purpose); type = NO_DIRINFO; break; } return type; } /** Return true iff identity_digest is the digest of a router which * says that it caches extrainfos. (If is_authority we always * believe that to be true.) */ int router_supports_extrainfo(const char *identity_digest, int is_authority) { const node_t *node = node_get_by_id(identity_digest); if (node && node->ri) { if (node->ri->caches_extra_info) return 1; } if (is_authority) { return 1; } return 0; } /** Return true iff any trusted directory authority has accepted our * server descriptor. * * We consider any authority sufficient because waiting for all of * them means it never happens while any authority is down; we don't * go for something more complex in the middle (like \>1/3 or \>1/2 or * \>=1/2) because that doesn't seem necessary yet. */ int directories_have_accepted_server_descriptor(void) { const smartlist_t *servers = router_get_trusted_dir_servers(); const or_options_t *options = get_options(); SMARTLIST_FOREACH(servers, dir_server_t *, d, { if ((d->type & options->PublishServerDescriptor_) && d->has_accepted_serverdesc) { return 1; } }); return 0; } /** Start a connection to every suitable directory authority, using * connection purpose dir_purpose and uploading payload * (of length payload_len). The dir_purpose should be one of * 'DIR_PURPOSE_UPLOAD_{DIR|VOTE|SIGNATURES}'. * * router_purpose describes the type of descriptor we're * publishing, if we're publishing a descriptor -- e.g. general or bridge. * * type specifies what sort of dir authorities (V3, * BRIDGE, etc) we should upload to. * * If extrainfo_len is nonzero, the first payload_len bytes of * payload hold a router descriptor, and the next extrainfo_len * bytes of payload hold an extra-info document. Upload the descriptor * to all authorities, and the extra-info document to all authorities that * support it. */ void directory_post_to_dirservers(uint8_t dir_purpose, uint8_t router_purpose, dirinfo_type_t type, const char *payload, size_t payload_len, size_t extrainfo_len) { const or_options_t *options = get_options(); dir_indirection_t indirection; const smartlist_t *dirservers = router_get_trusted_dir_servers(); int found = 0; const int exclude_self = (dir_purpose == DIR_PURPOSE_UPLOAD_VOTE || dir_purpose == DIR_PURPOSE_UPLOAD_SIGNATURES); tor_assert(dirservers); /* This tries dirservers which we believe to be down, but ultimately, that's * harmless, and we may as well err on the side of getting things uploaded. */ SMARTLIST_FOREACH_BEGIN(dirservers, dir_server_t *, ds) { routerstatus_t *rs = &(ds->fake_status); size_t upload_len = payload_len; if ((type & ds->type) == 0) continue; if (exclude_self && router_digest_is_me(ds->digest)) { /* we don't upload to ourselves, but at least there's now at least * one authority of this type that has what we wanted to upload. */ found = 1; continue; } if (options->StrictNodes && routerset_contains_routerstatus(options->ExcludeNodes, rs, -1)) { log_warn(LD_DIR, "Wanted to contact authority '%s' for %s, but " "it's in our ExcludedNodes list and StrictNodes is set. " "Skipping.", ds->nickname, dir_conn_purpose_to_string(dir_purpose)); continue; } found = 1; /* at least one authority of this type was listed */ if (dir_purpose == DIR_PURPOSE_UPLOAD_DIR) ds->has_accepted_serverdesc = 0; if (extrainfo_len && router_supports_extrainfo(ds->digest, 1)) { upload_len += extrainfo_len; log_info(LD_DIR, "Uploading an extrainfo too (length %d)", (int) extrainfo_len); } if (purpose_needs_anonymity(dir_purpose, router_purpose, NULL)) { indirection = DIRIND_ANONYMOUS; } else if (!fascist_firewall_allows_dir_server(ds, FIREWALL_DIR_CONNECTION, 0)) { if (fascist_firewall_allows_dir_server(ds, FIREWALL_OR_CONNECTION, 0)) indirection = DIRIND_ONEHOP; else indirection = DIRIND_ANONYMOUS; } else { indirection = DIRIND_DIRECT_CONN; } directory_request_t *req = directory_request_new(dir_purpose); directory_request_set_routerstatus(req, rs); directory_request_set_router_purpose(req, router_purpose); directory_request_set_indirection(req, indirection); directory_request_set_payload(req, payload, upload_len); directory_initiate_request(req); directory_request_free(req); } SMARTLIST_FOREACH_END(ds); if (!found) { char *s = authdir_type_to_string(type); log_warn(LD_DIR, "Publishing server descriptor to directory authorities " "of type '%s', but no authorities of that type listed!", s); tor_free(s); } } /** Return true iff, according to the values in options, we should be * using directory guards for direct downloads of directory information. */ STATIC int should_use_directory_guards(const or_options_t *options) { /* Public (non-bridge) servers never use directory guards. */ if (public_server_mode(options)) return 0; /* If guards are disabled, we can't use directory guards. */ if (!options->UseEntryGuards) return 0; /* If we're configured to fetch directory info aggressively or of a * nonstandard type, don't use directory guards. */ if (options->DownloadExtraInfo || options->FetchDirInfoEarly || options->FetchDirInfoExtraEarly || options->FetchUselessDescriptors) return 0; return 1; } /** Pick an unconstrained directory server from among our guards, the latest * networkstatus, or the fallback dirservers, for use in downloading * information of type type, and return its routerstatus. */ static const routerstatus_t * directory_pick_generic_dirserver(dirinfo_type_t type, int pds_flags, uint8_t dir_purpose, circuit_guard_state_t **guard_state_out) { const routerstatus_t *rs = NULL; const or_options_t *options = get_options(); if (options->UseBridges) log_warn(LD_BUG, "Called when we have UseBridges set."); if (should_use_directory_guards(options)) { const node_t *node = guards_choose_dirguard(dir_purpose, guard_state_out); if (node) rs = node->rs; } else { /* anybody with a non-zero dirport will do */ rs = router_pick_directory_server(type, pds_flags); } if (!rs) { log_info(LD_DIR, "No router found for %s; falling back to " "dirserver list.", dir_conn_purpose_to_string(dir_purpose)); rs = router_pick_fallback_dirserver(type, pds_flags); } return rs; } /** * Set the extra fields in req that are used when requesting a * consensus of type resource. * * Right now, these fields are if-modified-since and x-or-diff-from-consensus. */ static void dir_consensus_request_set_additional_headers(directory_request_t *req, const char *resource) { time_t if_modified_since = 0; uint8_t or_diff_from[DIGEST256_LEN]; int or_diff_from_is_set = 0; /* DEFAULT_IF_MODIFIED_SINCE_DELAY is 1/20 of the default consensus * period of 1 hour. */ const int DEFAULT_IF_MODIFIED_SINCE_DELAY = 180; const int32_t DEFAULT_TRY_DIFF_FOR_CONSENSUS_NEWER = 72; const int32_t MIN_TRY_DIFF_FOR_CONSENSUS_NEWER = 0; const int32_t MAX_TRY_DIFF_FOR_CONSENSUS_NEWER = 8192; const char TRY_DIFF_FOR_CONSENSUS_NEWER_NAME[] = "try-diff-for-consensus-newer-than"; int flav = FLAV_NS; if (resource) flav = networkstatus_parse_flavor_name(resource); int32_t max_age_for_diff = 3600 * networkstatus_get_param(NULL, TRY_DIFF_FOR_CONSENSUS_NEWER_NAME, DEFAULT_TRY_DIFF_FOR_CONSENSUS_NEWER, MIN_TRY_DIFF_FOR_CONSENSUS_NEWER, MAX_TRY_DIFF_FOR_CONSENSUS_NEWER); if (flav != -1) { /* IF we have a parsed consensus of this type, we can do an * if-modified-time based on it. */ networkstatus_t *v; v = networkstatus_get_latest_consensus_by_flavor(flav); if (v) { /* In networks with particularly short V3AuthVotingIntervals, * ask for the consensus if it's been modified since half the * V3AuthVotingInterval of the most recent consensus. */ time_t ims_delay = DEFAULT_IF_MODIFIED_SINCE_DELAY; if (v->fresh_until > v->valid_after && ims_delay > (v->fresh_until - v->valid_after)/2) { ims_delay = (v->fresh_until - v->valid_after)/2; } if_modified_since = v->valid_after + ims_delay; if (v->valid_after >= approx_time() - max_age_for_diff) { memcpy(or_diff_from, v->digest_sha3_as_signed, DIGEST256_LEN); or_diff_from_is_set = 1; } } } else { /* Otherwise it might be a consensus we don't parse, but which we * do cache. Look at the cached copy, perhaps. */ cached_dir_t *cd = dirserv_get_consensus(resource); /* We have no method of determining the voting interval from an * unparsed consensus, so we use the default. */ if (cd) { if_modified_since = cd->published + DEFAULT_IF_MODIFIED_SINCE_DELAY; if (cd->published >= approx_time() - max_age_for_diff) { memcpy(or_diff_from, cd->digest_sha3_as_signed, DIGEST256_LEN); or_diff_from_is_set = 1; } } } if (if_modified_since > 0) directory_request_set_if_modified_since(req, if_modified_since); if (or_diff_from_is_set) { char hex[HEX_DIGEST256_LEN + 1]; base16_encode(hex, sizeof(hex), (const char*)or_diff_from, sizeof(or_diff_from)); directory_request_add_header(req, X_OR_DIFF_FROM_CONSENSUS_HEADER, hex); } } /** Start a connection to a random running directory server, using * connection purpose dir_purpose, intending to fetch descriptors * of purpose router_purpose, and requesting resource. * Use pds_flags as arguments to router_pick_directory_server() * or router_pick_trusteddirserver(). */ MOCK_IMPL(void, directory_get_from_dirserver,( uint8_t dir_purpose, uint8_t router_purpose, const char *resource, int pds_flags, download_want_authority_t want_authority)) { const routerstatus_t *rs = NULL; const or_options_t *options = get_options(); int prefer_authority = (directory_fetches_from_authorities(options) || want_authority == DL_WANT_AUTHORITY); int require_authority = 0; int get_via_tor = purpose_needs_anonymity(dir_purpose, router_purpose, resource); dirinfo_type_t type = dir_fetch_type(dir_purpose, router_purpose, resource); if (type == NO_DIRINFO) return; if (!options->FetchServerDescriptors) return; circuit_guard_state_t *guard_state = NULL; if (!get_via_tor) { if (options->UseBridges && !(type & BRIDGE_DIRINFO)) { /* We want to ask a running bridge for which we have a descriptor. * * When we ask choose_random_entry() for a bridge, we specify what * sort of dir fetch we'll be doing, so it won't return a bridge * that can't answer our question. */ const node_t *node = guards_choose_dirguard(dir_purpose, &guard_state); if (node && node->ri) { /* every bridge has a routerinfo. */ routerinfo_t *ri = node->ri; /* clients always make OR connections to bridges */ tor_addr_port_t or_ap; directory_request_t *req = directory_request_new(dir_purpose); /* we are willing to use a non-preferred address if we need to */ fascist_firewall_choose_address_node(node, FIREWALL_OR_CONNECTION, 0, &or_ap); directory_request_set_or_addr_port(req, &or_ap); directory_request_set_directory_id_digest(req, ri->cache_info.identity_digest); directory_request_set_router_purpose(req, router_purpose); directory_request_set_resource(req, resource); if (dir_purpose == DIR_PURPOSE_FETCH_CONSENSUS) dir_consensus_request_set_additional_headers(req, resource); directory_request_set_guard_state(req, guard_state); directory_initiate_request(req); directory_request_free(req); } else { if (guard_state) { entry_guard_cancel(&guard_state); } log_notice(LD_DIR, "Ignoring directory request, since no bridge " "nodes are available yet."); } return; } else { if (prefer_authority || (type & BRIDGE_DIRINFO)) { /* only ask authdirservers, and don't ask myself */ rs = router_pick_trusteddirserver(type, pds_flags); if (rs == NULL && (pds_flags & (PDS_NO_EXISTING_SERVERDESC_FETCH| PDS_NO_EXISTING_MICRODESC_FETCH))) { /* We don't want to fetch from any authorities that we're currently * fetching server descriptors from, and we got no match. Did we * get no match because all the authorities have connections * fetching server descriptors (in which case we should just * return,) or because all the authorities are down or on fire or * unreachable or something (in which case we should go on with * our fallback code)? */ pds_flags &= ~(PDS_NO_EXISTING_SERVERDESC_FETCH| PDS_NO_EXISTING_MICRODESC_FETCH); rs = router_pick_trusteddirserver(type, pds_flags); if (rs) { log_debug(LD_DIR, "Deferring serverdesc fetch: all authorities " "are in use."); return; } } if (rs == NULL && require_authority) { log_info(LD_DIR, "No authorities were available for %s: will try " "later.", dir_conn_purpose_to_string(dir_purpose)); return; } } if (!rs && !(type & BRIDGE_DIRINFO)) { rs = directory_pick_generic_dirserver(type, pds_flags, dir_purpose, &guard_state); if (!rs) get_via_tor = 1; /* last resort: try routing it via Tor */ } } } if (get_via_tor) { /* Never use fascistfirewall; we're going via Tor. */ pds_flags |= PDS_IGNORE_FASCISTFIREWALL; rs = router_pick_directory_server(type, pds_flags); } /* If we have any hope of building an indirect conn, we know some router * descriptors. If (rs==NULL), we can't build circuits anyway, so * there's no point in falling back to the authorities in this case. */ if (rs) { const dir_indirection_t indirection = get_via_tor ? DIRIND_ANONYMOUS : DIRIND_ONEHOP; directory_request_t *req = directory_request_new(dir_purpose); directory_request_set_routerstatus(req, rs); directory_request_set_router_purpose(req, router_purpose); directory_request_set_indirection(req, indirection); directory_request_set_resource(req, resource); if (dir_purpose == DIR_PURPOSE_FETCH_CONSENSUS) dir_consensus_request_set_additional_headers(req, resource); if (guard_state) directory_request_set_guard_state(req, guard_state); directory_initiate_request(req); directory_request_free(req); } else { log_notice(LD_DIR, "While fetching directory info, " "no running dirservers known. Will try again later. " "(purpose %d)", dir_purpose); if (!purpose_needs_anonymity(dir_purpose, router_purpose, resource)) { /* remember we tried them all and failed. */ directory_all_unreachable(time(NULL)); } } } /** As directory_get_from_dirserver, but initiates a request to every * directory authority other than ourself. Only for use by authorities when * searching for missing information while voting. */ void directory_get_from_all_authorities(uint8_t dir_purpose, uint8_t router_purpose, const char *resource) { tor_assert(dir_purpose == DIR_PURPOSE_FETCH_STATUS_VOTE || dir_purpose == DIR_PURPOSE_FETCH_DETACHED_SIGNATURES); SMARTLIST_FOREACH_BEGIN(router_get_trusted_dir_servers(), dir_server_t *, ds) { if (router_digest_is_me(ds->digest)) continue; if (!(ds->type & V3_DIRINFO)) continue; const routerstatus_t *rs = &ds->fake_status; directory_request_t *req = directory_request_new(dir_purpose); directory_request_set_routerstatus(req, rs); directory_request_set_router_purpose(req, router_purpose); directory_request_set_resource(req, resource); directory_initiate_request(req); directory_request_free(req); } SMARTLIST_FOREACH_END(ds); } /** Return true iff ind requires a multihop circuit. */ static int dirind_is_anon(dir_indirection_t ind) { return ind == DIRIND_ANON_DIRPORT || ind == DIRIND_ANONYMOUS; } /* Choose reachable OR and Dir addresses and ports from status, copying them * into use_or_ap and use_dir_ap. If indirection is anonymous, then we're * connecting via another relay, so choose the primary IPv4 address and ports. * * status should have at least one reachable address, if we can't choose a * reachable address, warn and return -1. Otherwise, return 0. */ static int directory_choose_address_routerstatus(const routerstatus_t *status, dir_indirection_t indirection, tor_addr_port_t *use_or_ap, tor_addr_port_t *use_dir_ap) { tor_assert(status != NULL); tor_assert(use_or_ap != NULL); tor_assert(use_dir_ap != NULL); const or_options_t *options = get_options(); int have_or = 0, have_dir = 0; /* We expect status to have at least one reachable address if we're * connecting to it directly. * * Therefore, we can simply use the other address if the one we want isn't * allowed by the firewall. * * (When Tor uploads and downloads a hidden service descriptor, it uses * DIRIND_ANONYMOUS, except for Tor2Web, which uses DIRIND_ONEHOP. * So this code will only modify the address for Tor2Web's HS descriptor * fetches. Even Single Onion Servers (NYI) use DIRIND_ANONYMOUS, to avoid * HSDirs denying service by rejecting descriptors.) */ /* Initialise the OR / Dir addresses */ tor_addr_make_null(&use_or_ap->addr, AF_UNSPEC); use_or_ap->port = 0; tor_addr_make_null(&use_dir_ap->addr, AF_UNSPEC); use_dir_ap->port = 0; /* ORPort connections */ if (indirection == DIRIND_ANONYMOUS) { if (status->addr) { /* Since we're going to build a 3-hop circuit and ask the 2nd relay * to extend to this address, always use the primary (IPv4) OR address */ tor_addr_from_ipv4h(&use_or_ap->addr, status->addr); use_or_ap->port = status->or_port; have_or = 1; } } else if (indirection == DIRIND_ONEHOP) { /* We use an IPv6 address if we have one and we prefer it. * Use the preferred address and port if they are reachable, otherwise, * use the alternate address and port (if any). */ fascist_firewall_choose_address_rs(status, FIREWALL_OR_CONNECTION, 0, use_or_ap); have_or = tor_addr_port_is_valid_ap(use_or_ap, 0); } /* DirPort connections * DIRIND_ONEHOP uses ORPort, but may fall back to the DirPort on relays */ if (indirection == DIRIND_DIRECT_CONN || indirection == DIRIND_ANON_DIRPORT || (indirection == DIRIND_ONEHOP && !directory_must_use_begindir(options))) { fascist_firewall_choose_address_rs(status, FIREWALL_DIR_CONNECTION, 0, use_dir_ap); have_dir = tor_addr_port_is_valid_ap(use_dir_ap, 0); } /* We rejected all addresses in the relay's status. This means we can't * connect to it. */ if (!have_or && !have_dir) { static int logged_backtrace = 0; log_info(LD_BUG, "Rejected all OR and Dir addresses from %s when " "launching an outgoing directory connection to: IPv4 %s OR %d " "Dir %d IPv6 %s OR %d Dir %d", routerstatus_describe(status), fmt_addr32(status->addr), status->or_port, status->dir_port, fmt_addr(&status->ipv6_addr), status->ipv6_orport, status->dir_port); if (!logged_backtrace) { log_backtrace(LOG_INFO, LD_BUG, "Addresses came from"); logged_backtrace = 1; } return -1; } return 0; } /** Return true iff conn is the client side of a directory connection * we launched to ourself in order to determine the reachability of our * dir_port. */ static int directory_conn_is_self_reachability_test(dir_connection_t *conn) { if (conn->requested_resource && !strcmpstart(conn->requested_resource,"authority")) { const routerinfo_t *me = router_get_my_routerinfo(); if (me && router_digest_is_me(conn->identity_digest) && tor_addr_eq_ipv4h(&conn->base_.addr, me->addr) && /*XXXX prop 118*/ me->dir_port == conn->base_.port) return 1; } return 0; } /** Called when we are unable to complete the client's request to a directory * server due to a network error: Mark the router as down and try again if * possible. */ static void connection_dir_request_failed(dir_connection_t *conn) { if (conn->guard_state) { /* We haven't seen a success on this guard state, so consider it to have * failed. */ entry_guard_failed(&conn->guard_state); } if (directory_conn_is_self_reachability_test(conn)) { return; /* this was a test fetch. don't retry. */ } if (!entry_list_is_constrained(get_options())) router_set_status(conn->identity_digest, 0); /* don't try this one again */ if (conn->base_.purpose == DIR_PURPOSE_FETCH_SERVERDESC || conn->base_.purpose == DIR_PURPOSE_FETCH_EXTRAINFO) { log_info(LD_DIR, "Giving up on serverdesc/extrainfo fetch from " "directory server at '%s'; retrying", conn->base_.address); if (conn->router_purpose == ROUTER_PURPOSE_BRIDGE) connection_dir_bridge_routerdesc_failed(conn); connection_dir_download_routerdesc_failed(conn); } else if (conn->base_.purpose == DIR_PURPOSE_FETCH_CONSENSUS) { if (conn->requested_resource) networkstatus_consensus_download_failed(0, conn->requested_resource); } else if (conn->base_.purpose == DIR_PURPOSE_FETCH_CERTIFICATE) { log_info(LD_DIR, "Giving up on certificate fetch from directory server " "at '%s'; retrying", conn->base_.address); connection_dir_download_cert_failed(conn, 0); } else if (conn->base_.purpose == DIR_PURPOSE_FETCH_DETACHED_SIGNATURES) { log_info(LD_DIR, "Giving up downloading detached signatures from '%s'", conn->base_.address); } else if (conn->base_.purpose == DIR_PURPOSE_FETCH_STATUS_VOTE) { log_info(LD_DIR, "Giving up downloading votes from '%s'", conn->base_.address); } else if (conn->base_.purpose == DIR_PURPOSE_FETCH_MICRODESC) { log_info(LD_DIR, "Giving up on downloading microdescriptors from " "directory server at '%s'; will retry", conn->base_.address); connection_dir_download_routerdesc_failed(conn); } } /** Helper: Attempt to fetch directly the descriptors of each bridge * listed in failed. */ static void connection_dir_retry_bridges(smartlist_t *descs) { char digest[DIGEST_LEN]; SMARTLIST_FOREACH(descs, const char *, cp, { if (base16_decode(digest, DIGEST_LEN, cp, strlen(cp)) != DIGEST_LEN) { log_warn(LD_BUG, "Malformed fingerprint in list: %s", escaped(cp)); continue; } retry_bridge_descriptor_fetch_directly(digest); }); } /** Called when an attempt to download one or more router descriptors * or extra-info documents on connection conn failed. */ static void connection_dir_download_routerdesc_failed(dir_connection_t *conn) { /* No need to increment the failure count for routerdescs, since * it's not their fault. */ /* No need to relaunch descriptor downloads here: we already do it * every 10 or 60 seconds (FOO_DESCRIPTOR_RETRY_INTERVAL) in main.c. */ tor_assert(conn->base_.purpose == DIR_PURPOSE_FETCH_SERVERDESC || conn->base_.purpose == DIR_PURPOSE_FETCH_EXTRAINFO || conn->base_.purpose == DIR_PURPOSE_FETCH_MICRODESC); (void) conn; } /** Called when an attempt to download a bridge's routerdesc from * one of the authorities failed due to a network error. If * possible attempt to download descriptors from the bridge directly. */ static void connection_dir_bridge_routerdesc_failed(dir_connection_t *conn) { smartlist_t *which = NULL; /* Requests for bridge descriptors are in the form 'fp/', so ignore anything else. */ if (!conn->requested_resource || strcmpstart(conn->requested_resource,"fp/")) return; which = smartlist_new(); dir_split_resource_into_fingerprints(conn->requested_resource + strlen("fp/"), which, NULL, 0); tor_assert(conn->base_.purpose != DIR_PURPOSE_FETCH_EXTRAINFO); if (smartlist_len(which)) { connection_dir_retry_bridges(which); SMARTLIST_FOREACH(which, char *, cp, tor_free(cp)); } smartlist_free(which); } /** Called when an attempt to fetch a certificate fails. */ static void connection_dir_download_cert_failed(dir_connection_t *conn, int status) { const char *fp_pfx = "fp/"; const char *fpsk_pfx = "fp-sk/"; smartlist_t *failed; tor_assert(conn->base_.purpose == DIR_PURPOSE_FETCH_CERTIFICATE); if (!conn->requested_resource) return; failed = smartlist_new(); /* * We have two cases download by fingerprint (resource starts * with "fp/") or download by fingerprint/signing key pair * (resource starts with "fp-sk/"). */ if (!strcmpstart(conn->requested_resource, fp_pfx)) { /* Download by fingerprint case */ dir_split_resource_into_fingerprints(conn->requested_resource + strlen(fp_pfx), failed, NULL, DSR_HEX); SMARTLIST_FOREACH_BEGIN(failed, char *, cp) { /* Null signing key digest indicates download by fp only */ authority_cert_dl_failed(cp, NULL, status); tor_free(cp); } SMARTLIST_FOREACH_END(cp); } else if (!strcmpstart(conn->requested_resource, fpsk_pfx)) { /* Download by (fp,sk) pairs */ dir_split_resource_into_fingerprint_pairs(conn->requested_resource + strlen(fpsk_pfx), failed); SMARTLIST_FOREACH_BEGIN(failed, fp_pair_t *, cp) { authority_cert_dl_failed(cp->first, cp->second, status); tor_free(cp); } SMARTLIST_FOREACH_END(cp); } else { log_warn(LD_DIR, "Don't know what to do with failure for cert fetch %s", conn->requested_resource); } smartlist_free(failed); update_certificate_downloads(time(NULL)); } /* Should this tor instance only use begindir for all its directory requests? */ int directory_must_use_begindir(const or_options_t *options) { /* Clients, onion services, and bridges must use begindir, * relays and authorities do not have to */ return !public_server_mode(options); } /** Evaluate the situation and decide if we should use an encrypted * "begindir-style" connection for this directory request. * 0) If there is no DirPort, yes. * 1) If or_port is 0, or it's a direct conn and or_port is firewalled * or we're a dir mirror, no. * 2) If we prefer to avoid begindir conns, and we're not fetching or * publishing a bridge relay descriptor, no. * 3) Else yes. * If returning 0, return in *reason why we can't use begindir. * reason must not be NULL. */ static int directory_command_should_use_begindir(const or_options_t *options, const directory_request_t *req, const char **reason) { const tor_addr_t *or_addr = &req->or_addr_port.addr; //const tor_addr_t *dir_addr = &req->dir_addr_port.addr; const int or_port = req->or_addr_port.port; const int dir_port = req->dir_addr_port.port; const dir_indirection_t indirection = req->indirection; tor_assert(reason); *reason = NULL; /* Reasons why we must use begindir */ if (!dir_port) { *reason = "(using begindir - directory with no DirPort)"; return 1; /* We don't know a DirPort -- must begindir. */ } /* Reasons why we can't possibly use begindir */ if (!or_port) { *reason = "directory with unknown ORPort"; return 0; /* We don't know an ORPort -- no chance. */ } if (indirection == DIRIND_DIRECT_CONN || indirection == DIRIND_ANON_DIRPORT) { *reason = "DirPort connection"; return 0; } if (indirection == DIRIND_ONEHOP) { /* We're firewalled and want a direct OR connection */ if (!fascist_firewall_allows_address_addr(or_addr, or_port, FIREWALL_OR_CONNECTION, 0, 0)) { *reason = "ORPort not reachable"; return 0; } } /* Reasons why we want to avoid using begindir */ if (indirection == DIRIND_ONEHOP) { if (!directory_must_use_begindir(options)) { *reason = "in relay mode"; return 0; } } /* DIRIND_ONEHOP on a client, or DIRIND_ANONYMOUS */ *reason = "(using begindir)"; return 1; } /** * Create and return a new directory_request_t with purpose * dir_purpose. */ directory_request_t * directory_request_new(uint8_t dir_purpose) { tor_assert(dir_purpose >= DIR_PURPOSE_MIN_); tor_assert(dir_purpose <= DIR_PURPOSE_MAX_); tor_assert(dir_purpose != DIR_PURPOSE_SERVER); tor_assert(dir_purpose != DIR_PURPOSE_HAS_FETCHED_RENDDESC_V2); tor_assert(dir_purpose != DIR_PURPOSE_HAS_FETCHED_HSDESC); directory_request_t *result = tor_malloc_zero(sizeof(*result)); tor_addr_make_null(&result->or_addr_port.addr, AF_INET); result->or_addr_port.port = 0; tor_addr_make_null(&result->dir_addr_port.addr, AF_INET); result->dir_addr_port.port = 0; result->dir_purpose = dir_purpose; result->router_purpose = ROUTER_PURPOSE_GENERAL; result->indirection = DIRIND_ONEHOP; return result; } /** * Release all resources held by req. */ void directory_request_free_(directory_request_t *req) { if (req == NULL) return; config_free_lines(req->additional_headers); tor_free(req); } /** * Set the address and OR port to use for this directory request. If there is * no OR port, we'll have to connect over the dirport. (If there are both, * the indirection setting determines which to use.) */ void directory_request_set_or_addr_port(directory_request_t *req, const tor_addr_port_t *p) { memcpy(&req->or_addr_port, p, sizeof(*p)); } /** * Set the address and dirport to use for this directory request. If there * is no dirport, we'll have to connect over the OR port. (If there are both, * the indirection setting determines which to use.) */ void directory_request_set_dir_addr_port(directory_request_t *req, const tor_addr_port_t *p) { memcpy(&req->dir_addr_port, p, sizeof(*p)); } /** * Set the RSA identity digest of the directory to use for this directory * request. */ void directory_request_set_directory_id_digest(directory_request_t *req, const char *digest) { memcpy(req->digest, digest, DIGEST_LEN); } /** * Set the router purpose associated with uploaded and downloaded router * descriptors and extrainfo documents in this directory request. The purpose * must be one of ROUTER_PURPOSE_GENERAL (the default) or * ROUTER_PURPOSE_BRIDGE. */ void directory_request_set_router_purpose(directory_request_t *req, uint8_t router_purpose) { tor_assert(router_purpose == ROUTER_PURPOSE_GENERAL || router_purpose == ROUTER_PURPOSE_BRIDGE); // assert that it actually makes sense to set this purpose, given // the dir_purpose. req->router_purpose = router_purpose; } /** * Set the indirection to be used for the directory request. The indirection * parameter configures whether to connect to a DirPort or ORPort, and whether * to anonymize the connection. DIRIND_ONEHOP (use ORPort, don't anonymize) * is the default. See dir_indirection_t for more information. */ void directory_request_set_indirection(directory_request_t *req, dir_indirection_t indirection) { req->indirection = indirection; } /** * Set a pointer to the resource to request from a directory. Different * request types use resources to indicate different components of their URL. * Note that only an alias to resource is stored, so the * resource must outlive the request. */ void directory_request_set_resource(directory_request_t *req, const char *resource) { req->resource = resource; } /** * Set a pointer to the payload to include with this directory request, along * with its length. Note that only an alias to payload is stored, so * the payload must outlive the request. */ void directory_request_set_payload(directory_request_t *req, const char *payload, size_t payload_len) { tor_assert(DIR_PURPOSE_IS_UPLOAD(req->dir_purpose)); req->payload = payload; req->payload_len = payload_len; } /** * Set an if-modified-since date to send along with the request. The * default is 0 (meaning, send no if-modified-since header). */ void directory_request_set_if_modified_since(directory_request_t *req, time_t if_modified_since) { req->if_modified_since = if_modified_since; } /** Include a header of name key with content val in the * request. Neither may include newlines or other odd characters. Their * ordering is not currently guaranteed. * * Note that, as elsewhere in this module, header keys include a trailing * colon and space. */ void directory_request_add_header(directory_request_t *req, const char *key, const char *val) { config_line_prepend(&req->additional_headers, key, val); } /** * Set an object containing HS data to be associated with this request. Note * that only an alias to query is stored, so the query object * must outlive the request. */ void directory_request_set_rend_query(directory_request_t *req, const rend_data_t *query) { if (query) { tor_assert(req->dir_purpose == DIR_PURPOSE_FETCH_RENDDESC_V2 || req->dir_purpose == DIR_PURPOSE_UPLOAD_RENDDESC_V2); } req->rend_query = query; } /** * Set an object containing HS connection identifier to be associated with * this request. Note that only an alias to ident is stored, so the * ident object must outlive the request. */ void directory_request_upload_set_hs_ident(directory_request_t *req, const hs_ident_dir_conn_t *ident) { if (ident) { tor_assert(req->dir_purpose == DIR_PURPOSE_UPLOAD_HSDESC); } req->hs_ident = ident; } /** * Set an object containing HS connection identifier to be associated with * this fetch request. Note that only an alias to ident is stored, so * the ident object must outlive the request. */ void directory_request_fetch_set_hs_ident(directory_request_t *req, const hs_ident_dir_conn_t *ident) { if (ident) { tor_assert(req->dir_purpose == DIR_PURPOSE_FETCH_HSDESC); } req->hs_ident = ident; } /** Set a static circuit_guard_state_t object to affliate with the request in * req. This object will receive notification when the attempt to * connect to the guard either succeeds or fails. */ void directory_request_set_guard_state(directory_request_t *req, circuit_guard_state_t *state) { req->guard_state = state; } /** * Internal: Return true if any information for contacting the directory in * req has been set, other than by the routerstatus. */ static int directory_request_dir_contact_info_specified(const directory_request_t *req) { /* We only check for ports here, since we don't use an addr unless the port * is set */ return (req->or_addr_port.port || req->dir_addr_port.port || ! tor_digest_is_zero(req->digest)); } /** * Set the routerstatus to use for the directory associated with this * request. If this option is set, then no other function to set the * directory's address or identity should be called. */ void directory_request_set_routerstatus(directory_request_t *req, const routerstatus_t *status) { req->routerstatus = status; } /** * Helper: update the addresses, ports, and identities in req * from the routerstatus object in req. Return 0 on success. * On failure, warn and return -1. */ static int directory_request_set_dir_from_routerstatus(directory_request_t *req) { const routerstatus_t *status = req->routerstatus; if (BUG(status == NULL)) return -1; const or_options_t *options = get_options(); const node_t *node; tor_addr_port_t use_or_ap, use_dir_ap; const int anonymized_connection = dirind_is_anon(req->indirection); tor_assert(status != NULL); node = node_get_by_id(status->identity_digest); /* XXX The below check is wrong: !node means it's not in the consensus, * but we haven't checked if we have a descriptor for it -- and also, * we only care about the descriptor if it's a begindir-style anonymized * connection. */ if (!node && anonymized_connection) { log_info(LD_DIR, "Not sending anonymized request to directory '%s'; we " "don't have its router descriptor.", routerstatus_describe(status)); return -1; } if (options->ExcludeNodes && options->StrictNodes && routerset_contains_routerstatus(options->ExcludeNodes, status, -1)) { log_warn(LD_DIR, "Wanted to contact directory mirror %s for %s, but " "it's in our ExcludedNodes list and StrictNodes is set. " "Skipping. This choice might make your Tor not work.", routerstatus_describe(status), dir_conn_purpose_to_string(req->dir_purpose)); return -1; } /* At this point, if we are a client making a direct connection to a * directory server, we have selected a server that has at least one address * allowed by ClientUseIPv4/6 and Reachable{"",OR,Dir}Addresses. This * selection uses the preference in ClientPreferIPv6{OR,Dir}Port, if * possible. (If UseBridges is set, clients always use IPv6, and prefer it * by default.) * * Now choose an address that we can use to connect to the directory server. */ if (directory_choose_address_routerstatus(status, req->indirection, &use_or_ap, &use_dir_ap) < 0) { return -1; } directory_request_set_or_addr_port(req, &use_or_ap); directory_request_set_dir_addr_port(req, &use_dir_ap); directory_request_set_directory_id_digest(req, status->identity_digest); return 0; } /** * Launch the provided directory request, configured in request. * After this function is called, you can free request. */ MOCK_IMPL(void, directory_initiate_request,(directory_request_t *request)) { tor_assert(request); if (request->routerstatus) { tor_assert_nonfatal( ! directory_request_dir_contact_info_specified(request)); if (directory_request_set_dir_from_routerstatus(request) < 0) { return; } } const tor_addr_port_t *or_addr_port = &request->or_addr_port; const tor_addr_port_t *dir_addr_port = &request->dir_addr_port; const char *digest = request->digest; const uint8_t dir_purpose = request->dir_purpose; const uint8_t router_purpose = request->router_purpose; const dir_indirection_t indirection = request->indirection; const char *resource = request->resource; const rend_data_t *rend_query = request->rend_query; const hs_ident_dir_conn_t *hs_ident = request->hs_ident; circuit_guard_state_t *guard_state = request->guard_state; tor_assert(or_addr_port->port || dir_addr_port->port); tor_assert(digest); dir_connection_t *conn; const or_options_t *options = get_options(); int socket_error = 0; const char *begindir_reason = NULL; /* Should the connection be to a relay's OR port (and inside that we will * send our directory request)? */ const int use_begindir = directory_command_should_use_begindir(options, request, &begindir_reason); /* Will the connection go via a three-hop Tor circuit? Note that this * is separate from whether it will use_begindir. */ const int anonymized_connection = dirind_is_anon(indirection); /* What is the address we want to make the directory request to? If * we're making a begindir request this is the ORPort of the relay * we're contacting; if not a begindir request, this is its DirPort. * Note that if anonymized_connection is true, we won't be initiating * a connection directly to this address. */ tor_addr_t addr; tor_addr_copy(&addr, &(use_begindir ? or_addr_port : dir_addr_port)->addr); uint16_t port = (use_begindir ? or_addr_port : dir_addr_port)->port; log_debug(LD_DIR, "anonymized %d, use_begindir %d.", anonymized_connection, use_begindir); log_debug(LD_DIR, "Initiating %s", dir_conn_purpose_to_string(dir_purpose)); if (purpose_needs_anonymity(dir_purpose, router_purpose, resource)) { tor_assert(anonymized_connection || rend_non_anonymous_mode_enabled(options)); } /* use encrypted begindir connections for everything except relays * this provides better protection for directory fetches */ if (!use_begindir && directory_must_use_begindir(options)) { log_warn(LD_BUG, "Client could not use begindir connection: %s", begindir_reason ? begindir_reason : "(NULL)"); return; } /* ensure that we don't make direct connections when a SOCKS server is * configured. */ if (!anonymized_connection && !use_begindir && !options->HTTPProxy && (options->Socks4Proxy || options->Socks5Proxy)) { log_warn(LD_DIR, "Cannot connect to a directory server through a " "SOCKS proxy!"); return; } /* Make sure that the destination addr and port we picked is viable. */ if (!port || tor_addr_is_null(&addr)) { static int logged_backtrace = 0; log_warn(LD_DIR, "Cannot make an outgoing %sconnection without a remote %sPort.", use_begindir ? "begindir " : "", use_begindir ? "OR" : "Dir"); if (!logged_backtrace) { log_backtrace(LOG_INFO, LD_BUG, "Address came from"); logged_backtrace = 1; } return; } conn = dir_connection_new(tor_addr_family(&addr)); /* set up conn so it's got all the data we need to remember */ tor_addr_copy(&conn->base_.addr, &addr); conn->base_.port = port; conn->base_.address = tor_addr_to_str_dup(&addr); memcpy(conn->identity_digest, digest, DIGEST_LEN); conn->base_.purpose = dir_purpose; conn->router_purpose = router_purpose; /* give it an initial state */ conn->base_.state = DIR_CONN_STATE_CONNECTING; /* decide whether we can learn our IP address from this conn */ /* XXXX This is a bad name for this field now. */ conn->dirconn_direct = !anonymized_connection; /* copy rendezvous data, if any */ if (rend_query) { /* We can't have both v2 and v3+ identifier. */ tor_assert_nonfatal(!hs_ident); conn->rend_data = rend_data_dup(rend_query); } if (hs_ident) { /* We can't have both v2 and v3+ identifier. */ tor_assert_nonfatal(!rend_query); conn->hs_ident = hs_ident_dir_conn_dup(hs_ident); } if (!anonymized_connection && !use_begindir) { /* then we want to connect to dirport directly */ if (options->HTTPProxy) { tor_addr_copy(&addr, &options->HTTPProxyAddr); port = options->HTTPProxyPort; } // In this case we should not have picked a directory guard. if (BUG(guard_state)) { entry_guard_cancel(&guard_state); } switch (connection_connect(TO_CONN(conn), conn->base_.address, &addr, port, &socket_error)) { case -1: connection_mark_for_close(TO_CONN(conn)); return; case 1: /* start flushing conn */ conn->base_.state = DIR_CONN_STATE_CLIENT_SENDING; /* fall through */ case 0: /* queue the command on the outbuf */ directory_send_command(conn, 1, request); connection_watch_events(TO_CONN(conn), READ_EVENT | WRITE_EVENT); /* writable indicates finish, readable indicates broken link, error indicates broken link in windowsland. */ } } else { /* We will use a Tor circuit (maybe 1-hop, maybe 3-hop, maybe with * begindir, maybe not with begindir) */ entry_connection_t *linked_conn; /* Anonymized tunneled connections can never share a circuit. * One-hop directory connections can share circuits with each other * but nothing else. */ int iso_flags = anonymized_connection ? ISO_STREAM : ISO_SESSIONGRP; /* If it's an anonymized connection, remember the fact that we * wanted it for later: maybe we'll want it again soon. */ if (anonymized_connection && use_begindir) rep_hist_note_used_internal(time(NULL), 0, 1); else if (anonymized_connection && !use_begindir) rep_hist_note_used_port(time(NULL), conn->base_.port); // In this case we should not have a directory guard; we'll // get a regular guard later when we build the circuit. if (BUG(anonymized_connection && guard_state)) { entry_guard_cancel(&guard_state); } conn->guard_state = guard_state; /* make an AP connection * populate it and add it at the right state * hook up both sides */ linked_conn = connection_ap_make_link(TO_CONN(conn), conn->base_.address, conn->base_.port, digest, SESSION_GROUP_DIRCONN, iso_flags, use_begindir, !anonymized_connection); if (!linked_conn) { log_warn(LD_NET,"Making tunnel to dirserver failed."); connection_mark_for_close(TO_CONN(conn)); return; } if (connection_add(TO_CONN(conn)) < 0) { log_warn(LD_NET,"Unable to add connection for link to dirserver."); connection_mark_for_close(TO_CONN(conn)); return; } conn->base_.state = DIR_CONN_STATE_CLIENT_SENDING; /* queue the command on the outbuf */ directory_send_command(conn, 0, request); connection_watch_events(TO_CONN(conn), READ_EVENT|WRITE_EVENT); connection_start_reading(ENTRY_TO_CONN(linked_conn)); } } /** Return true iff anything we say on conn is being encrypted before * we send it to the client/server. */ int connection_dir_is_encrypted(const dir_connection_t *conn) { /* Right now it's sufficient to see if conn is or has been linked, since * the only thing it could be linked to is an edge connection on a * circuit, and the only way it could have been unlinked is at the edge * connection getting closed. */ return TO_CONN(conn)->linked; } /** Helper for sorting * * sort strings alphabetically */ static int compare_strs_(const void **a, const void **b) { const char *s1 = *a, *s2 = *b; return strcmp(s1, s2); } #define CONDITIONAL_CONSENSUS_FPR_LEN 3 #if (CONDITIONAL_CONSENSUS_FPR_LEN > DIGEST_LEN) #error "conditional consensus fingerprint length is larger than digest length" #endif /** Return the URL we should use for a consensus download. * * Use the "conditional consensus downloading" feature described in * dir-spec.txt, i.e. * GET .../consensus/fpr+fpr+fpr * * If 'resource' is provided, it is the name of a consensus flavor to request. */ static char * directory_get_consensus_url(const char *resource) { char *url = NULL; const char *hyphen, *flavor; if (resource==NULL || strcmp(resource, "ns")==0) { flavor = ""; /* Request ns consensuses as "", so older servers will work*/ hyphen = ""; } else { flavor = resource; hyphen = "-"; } { char *authority_id_list; smartlist_t *authority_digests = smartlist_new(); SMARTLIST_FOREACH_BEGIN(router_get_trusted_dir_servers(), dir_server_t *, ds) { char *hex; if (!(ds->type & V3_DIRINFO)) continue; hex = tor_malloc(2*CONDITIONAL_CONSENSUS_FPR_LEN+1); base16_encode(hex, 2*CONDITIONAL_CONSENSUS_FPR_LEN+1, ds->v3_identity_digest, CONDITIONAL_CONSENSUS_FPR_LEN); smartlist_add(authority_digests, hex); } SMARTLIST_FOREACH_END(ds); smartlist_sort(authority_digests, compare_strs_); authority_id_list = smartlist_join_strings(authority_digests, "+", 0, NULL); tor_asprintf(&url, "/tor/status-vote/current/consensus%s%s/%s.z", hyphen, flavor, authority_id_list); SMARTLIST_FOREACH(authority_digests, char *, cp, tor_free(cp)); smartlist_free(authority_digests); tor_free(authority_id_list); } return url; } /** * Copies the ipv6 from source to destination, subject to buffer size limit * size. If decorate is true, makes sure the copied address is decorated. */ static void copy_ipv6_address(char* destination, const char* source, size_t len, int decorate) { tor_assert(destination); tor_assert(source); if (decorate && source[0] != '[') { tor_snprintf(destination, len, "[%s]", source); } else { strlcpy(destination, source, len); } } /** Queue an appropriate HTTP command for request on * conn-\>outbuf. If direct is true, we're making a * non-anonymized connection to the dirport. */ static void directory_send_command(dir_connection_t *conn, const int direct, const directory_request_t *req) { tor_assert(req); const int purpose = req->dir_purpose; const char *resource = req->resource; const char *payload = req->payload; const size_t payload_len = req->payload_len; const time_t if_modified_since = req->if_modified_since; const int anonymized_connection = dirind_is_anon(req->indirection); char proxystring[256]; char hoststring[128]; /* NEEDS to be the same size hoststring. Will be decorated with brackets around it if it is ipv6. */ char decorated_address[128]; smartlist_t *headers = smartlist_new(); char *url; char *accept_encoding; size_t url_len; char request[8192]; size_t request_len, total_request_len = 0; const char *httpcommand = NULL; tor_assert(conn); tor_assert(conn->base_.type == CONN_TYPE_DIR); tor_free(conn->requested_resource); if (resource) conn->requested_resource = tor_strdup(resource); /* decorate the ip address if it is ipv6 */ if (strchr(conn->base_.address, ':')) { copy_ipv6_address(decorated_address, conn->base_.address, sizeof(decorated_address), 1); } else { strlcpy(decorated_address, conn->base_.address, sizeof(decorated_address)); } /* come up with a string for which Host: we want */ if (conn->base_.port == 80) { strlcpy(hoststring, decorated_address, sizeof(hoststring)); } else { tor_snprintf(hoststring, sizeof(hoststring), "%s:%d", decorated_address, conn->base_.port); } /* Format if-modified-since */ if (if_modified_since) { char b[RFC1123_TIME_LEN+1]; format_rfc1123_time(b, if_modified_since); smartlist_add_asprintf(headers, "If-Modified-Since: %s\r\n", b); } /* come up with some proxy lines, if we're using one. */ if (direct && get_options()->HTTPProxy) { char *base64_authenticator=NULL; const char *authenticator = get_options()->HTTPProxyAuthenticator; tor_snprintf(proxystring, sizeof(proxystring),"http://%s", hoststring); if (authenticator) { base64_authenticator = alloc_http_authenticator(authenticator); if (!base64_authenticator) log_warn(LD_BUG, "Encoding http authenticator failed"); } if (base64_authenticator) { smartlist_add_asprintf(headers, "Proxy-Authorization: Basic %s\r\n", base64_authenticator); tor_free(base64_authenticator); } } else { proxystring[0] = 0; } if (! anonymized_connection) { /* Add Accept-Encoding. */ accept_encoding = accept_encoding_header(); smartlist_add_asprintf(headers, "Accept-Encoding: %s\r\n", accept_encoding); tor_free(accept_encoding); } /* Add additional headers, if any */ { config_line_t *h; for (h = req->additional_headers; h; h = h->next) { smartlist_add_asprintf(headers, "%s%s\r\n", h->key, h->value); } } switch (purpose) { case DIR_PURPOSE_FETCH_CONSENSUS: /* resource is optional. If present, it's a flavor name */ tor_assert(!payload); httpcommand = "GET"; url = directory_get_consensus_url(resource); log_info(LD_DIR, "Downloading consensus from %s using %s", hoststring, url); break; case DIR_PURPOSE_FETCH_CERTIFICATE: tor_assert(resource); tor_assert(!payload); httpcommand = "GET"; tor_asprintf(&url, "/tor/keys/%s", resource); break; case DIR_PURPOSE_FETCH_STATUS_VOTE: tor_assert(resource); tor_assert(!payload); httpcommand = "GET"; tor_asprintf(&url, "/tor/status-vote/next/%s.z", resource); break; case DIR_PURPOSE_FETCH_DETACHED_SIGNATURES: tor_assert(!resource); tor_assert(!payload); httpcommand = "GET"; url = tor_strdup("/tor/status-vote/next/consensus-signatures.z"); break; case DIR_PURPOSE_FETCH_SERVERDESC: tor_assert(resource); httpcommand = "GET"; tor_asprintf(&url, "/tor/server/%s", resource); break; case DIR_PURPOSE_FETCH_EXTRAINFO: tor_assert(resource); httpcommand = "GET"; tor_asprintf(&url, "/tor/extra/%s", resource); break; case DIR_PURPOSE_FETCH_MICRODESC: tor_assert(resource); httpcommand = "GET"; tor_asprintf(&url, "/tor/micro/%s", resource); break; case DIR_PURPOSE_UPLOAD_DIR: { const char *why = router_get_descriptor_gen_reason(); tor_assert(!resource); tor_assert(payload); httpcommand = "POST"; url = tor_strdup("/tor/"); if (!why) { why = "for no reason at all"; } smartlist_add_asprintf(headers, "X-Desc-Gen-Reason: %s\r\n", why); break; } case DIR_PURPOSE_UPLOAD_VOTE: tor_assert(!resource); tor_assert(payload); httpcommand = "POST"; url = tor_strdup("/tor/post/vote"); break; case DIR_PURPOSE_UPLOAD_SIGNATURES: tor_assert(!resource); tor_assert(payload); httpcommand = "POST"; url = tor_strdup("/tor/post/consensus-signature"); break; case DIR_PURPOSE_FETCH_RENDDESC_V2: tor_assert(resource); tor_assert(strlen(resource) <= REND_DESC_ID_V2_LEN_BASE32); tor_assert(!payload); httpcommand = "GET"; tor_asprintf(&url, "/tor/rendezvous2/%s", resource); break; case DIR_PURPOSE_FETCH_HSDESC: tor_assert(resource); tor_assert(strlen(resource) <= ED25519_BASE64_LEN); tor_assert(!payload); httpcommand = "GET"; tor_asprintf(&url, "/tor/hs/3/%s", resource); break; case DIR_PURPOSE_UPLOAD_RENDDESC_V2: tor_assert(!resource); tor_assert(payload); httpcommand = "POST"; url = tor_strdup("/tor/rendezvous2/publish"); break; case DIR_PURPOSE_UPLOAD_HSDESC: tor_assert(resource); tor_assert(payload); httpcommand = "POST"; tor_asprintf(&url, "/tor/hs/%s/publish", resource); break; default: tor_assert(0); return; } /* warn in the non-tunneled case */ if (direct && (strlen(proxystring) + strlen(url) >= 4096)) { log_warn(LD_BUG, "Squid does not like URLs longer than 4095 bytes, and this " "one is %d bytes long: %s%s", (int)(strlen(proxystring) + strlen(url)), proxystring, url); } tor_snprintf(request, sizeof(request), "%s %s", httpcommand, proxystring); request_len = strlen(request); total_request_len += request_len; connection_buf_add(request, request_len, TO_CONN(conn)); url_len = strlen(url); total_request_len += url_len; connection_buf_add(url, url_len, TO_CONN(conn)); tor_free(url); if (!strcmp(httpcommand, "POST") || payload) { smartlist_add_asprintf(headers, "Content-Length: %lu\r\n", payload ? (unsigned long)payload_len : 0); } { char *header = smartlist_join_strings(headers, "", 0, NULL); tor_snprintf(request, sizeof(request), " HTTP/1.0\r\nHost: %s\r\n%s\r\n", hoststring, header); tor_free(header); } request_len = strlen(request); total_request_len += request_len; connection_buf_add(request, request_len, TO_CONN(conn)); if (payload) { /* then send the payload afterwards too */ connection_buf_add(payload, payload_len, TO_CONN(conn)); total_request_len += payload_len; } SMARTLIST_FOREACH(headers, char *, h, tor_free(h)); smartlist_free(headers); log_debug(LD_DIR, "Sent request to directory server '%s:%d': " "(purpose: %d, request size: %"TOR_PRIuSZ", " "payload size: %"TOR_PRIuSZ")", conn->base_.address, conn->base_.port, conn->base_.purpose, (total_request_len), (payload ? payload_len : 0)); } /** Parse an HTTP request string headers of the form * \verbatim * "\%s [http[s]://]\%s HTTP/1..." * \endverbatim * If it's well-formed, strdup the second \%s into *url, and * nul-terminate it. If the url doesn't start with "/tor/", rewrite it * so it does. Return 0. * Otherwise, return -1. */ STATIC int parse_http_url(const char *headers, char **url) { char *command = NULL; if (parse_http_command(headers, &command, url) < 0) { return -1; } if (strcmpstart(*url, "/tor/")) { char *new_url = NULL; tor_asprintf(&new_url, "/tor%s%s", *url[0] == '/' ? "" : "/", *url); tor_free(*url); *url = new_url; } tor_free(command); return 0; } /** Parse an HTTP request line at the start of a headers string. On failure, * return -1. On success, set *command_out to a copy of the HTTP * command ("get", "post", etc), set *url_out to a copy of the URL, and * return 0. */ int parse_http_command(const char *headers, char **command_out, char **url_out) { const char *command, *end_of_command; char *s, *start, *tmp; s = (char *)eat_whitespace_no_nl(headers); if (!*s) return -1; command = s; s = (char *)find_whitespace(s); /* get past GET/POST */ if (!*s) return -1; end_of_command = s; s = (char *)eat_whitespace_no_nl(s); if (!*s) return -1; start = s; /* this is the URL, assuming it's valid */ s = (char *)find_whitespace(start); if (!*s) return -1; /* tolerate the http[s] proxy style of putting the hostname in the url */ if (s-start >= 4 && !strcmpstart(start,"http")) { tmp = start + 4; if (*tmp == 's') tmp++; if (s-tmp >= 3 && !strcmpstart(tmp,"://")) { tmp = strchr(tmp+3, '/'); if (tmp && tmp < s) { log_debug(LD_DIR,"Skipping over 'http[s]://hostname/' string"); start = tmp; } } } /* Check if the header is well formed (next sequence * should be HTTP/1.X\r\n). Assumes we're supporting 1.0? */ { unsigned minor_ver; char ch; char *e = (char *)eat_whitespace_no_nl(s); if (2 != tor_sscanf(e, "HTTP/1.%u%c", &minor_ver, &ch)) { return -1; } if (ch != '\r') return -1; } *url_out = tor_memdup_nulterm(start, s-start); *command_out = tor_memdup_nulterm(command, end_of_command - command); return 0; } /** Return a copy of the first HTTP header in headers whose key is * which. The key should be given with a terminating colon and space; * this function copies everything after, up to but not including the * following \\r\\n. */ char * http_get_header(const char *headers, const char *which) { const char *cp = headers; while (cp) { if (!strcasecmpstart(cp, which)) { char *eos; cp += strlen(which); if ((eos = strchr(cp,'\r'))) return tor_strndup(cp, eos-cp); else return tor_strdup(cp); } cp = strchr(cp, '\n'); if (cp) ++cp; } return NULL; } /** If headers indicates that a proxy was involved, then rewrite * conn-\>address to describe our best guess of the address that * originated this HTTP request. */ static void http_set_address_origin(const char *headers, connection_t *conn) { char *fwd; fwd = http_get_header(headers, "Forwarded-For: "); if (!fwd) fwd = http_get_header(headers, "X-Forwarded-For: "); if (fwd) { tor_addr_t toraddr; if (tor_addr_parse(&toraddr,fwd) == -1 || tor_addr_is_internal(&toraddr,0)) { log_debug(LD_DIR, "Ignoring local/internal IP %s", escaped(fwd)); tor_free(fwd); return; } tor_free(conn->address); conn->address = tor_strdup(fwd); tor_free(fwd); } } /** Parse an HTTP response string headers of the form * \verbatim * "HTTP/1.\%d \%d\%s\r\n...". * \endverbatim * * If it's well-formed, assign the status code to *code and * return 0. Otherwise, return -1. * * On success: If date is provided, set *date to the Date * header in the http headers, or 0 if no such header is found. If * compression is provided, set *compression to the * compression method given in the Content-Encoding header, or 0 if no * such header is found, or -1 if the value of the header is not * recognized. If reason is provided, strdup the reason string * into it. */ int parse_http_response(const char *headers, int *code, time_t *date, compress_method_t *compression, char **reason) { unsigned n1, n2; char datestr[RFC1123_TIME_LEN+1]; smartlist_t *parsed_headers; tor_assert(headers); tor_assert(code); while (TOR_ISSPACE(*headers)) headers++; /* tolerate leading whitespace */ if (tor_sscanf(headers, "HTTP/1.%u %u", &n1, &n2) < 2 || (n1 != 0 && n1 != 1) || (n2 < 100 || n2 >= 600)) { log_warn(LD_HTTP,"Failed to parse header %s",escaped(headers)); return -1; } *code = n2; parsed_headers = smartlist_new(); smartlist_split_string(parsed_headers, headers, "\n", SPLIT_SKIP_SPACE|SPLIT_IGNORE_BLANK, -1); if (reason) { smartlist_t *status_line_elements = smartlist_new(); tor_assert(smartlist_len(parsed_headers)); smartlist_split_string(status_line_elements, smartlist_get(parsed_headers, 0), " ", SPLIT_SKIP_SPACE|SPLIT_IGNORE_BLANK, 3); tor_assert(smartlist_len(status_line_elements) <= 3); if (smartlist_len(status_line_elements) == 3) { *reason = smartlist_get(status_line_elements, 2); smartlist_set(status_line_elements, 2, NULL); /* Prevent free */ } SMARTLIST_FOREACH(status_line_elements, char *, cp, tor_free(cp)); smartlist_free(status_line_elements); } if (date) { *date = 0; SMARTLIST_FOREACH(parsed_headers, const char *, s, if (!strcmpstart(s, "Date: ")) { strlcpy(datestr, s+6, sizeof(datestr)); /* This will do nothing on failure, so we don't need to check the result. We shouldn't warn, since there are many other valid date formats besides the one we use. */ parse_rfc1123_time(datestr, date); break; }); } if (compression) { const char *enc = NULL; SMARTLIST_FOREACH(parsed_headers, const char *, s, if (!strcmpstart(s, "Content-Encoding: ")) { enc = s+18; break; }); if (enc == NULL) *compression = NO_METHOD; else { *compression = compression_method_get_by_name(enc); if (*compression == UNKNOWN_METHOD) log_info(LD_HTTP, "Unrecognized content encoding: %s. Trying to deal.", escaped(enc)); } } SMARTLIST_FOREACH(parsed_headers, char *, s, tor_free(s)); smartlist_free(parsed_headers); return 0; } /** Return true iff body doesn't start with a plausible router or * network-status or microdescriptor opening. This is a sign of possible * compression. */ static int body_is_plausible(const char *body, size_t len, int purpose) { int i; if (len == 0) return 1; /* empty bodies don't need decompression */ if (len < 32) return 0; if (purpose == DIR_PURPOSE_FETCH_MICRODESC) { return (!strcmpstart(body,"onion-key")); } if (!strcmpstart(body,"router") || !strcmpstart(body,"network-status")) return 1; for (i=0;i<32;++i) { if (!TOR_ISPRINT(body[i]) && !TOR_ISSPACE(body[i])) return 0; } return 1; } /** Called when we've just fetched a bunch of router descriptors in * body. The list which, if present, holds digests for * descriptors we requested: descriptor digests if descriptor_digests * is true, or identity digests otherwise. Parse the descriptors, validate * them, and annotate them as having purpose purpose and as having been * downloaded from source. * * Return the number of routers actually added. */ static int load_downloaded_routers(const char *body, smartlist_t *which, int descriptor_digests, int router_purpose, const char *source) { char buf[256]; char time_buf[ISO_TIME_LEN+1]; int added = 0; int general = router_purpose == ROUTER_PURPOSE_GENERAL; format_iso_time(time_buf, time(NULL)); tor_assert(source); if (tor_snprintf(buf, sizeof(buf), "@downloaded-at %s\n" "@source %s\n" "%s%s%s", time_buf, escaped(source), !general ? "@purpose " : "", !general ? router_purpose_to_string(router_purpose) : "", !general ? "\n" : "")<0) return added; added = router_load_routers_from_string(body, NULL, SAVED_NOWHERE, which, descriptor_digests, buf); if (added && general) control_event_bootstrap(BOOTSTRAP_STATUS_LOADING_DESCRIPTORS, count_loading_descriptors_progress()); return added; } static int handle_response_fetch_certificate(dir_connection_t *, const response_handler_args_t *); static int handle_response_fetch_status_vote(dir_connection_t *, const response_handler_args_t *); static int handle_response_fetch_detached_signatures(dir_connection_t *, const response_handler_args_t *); static int handle_response_fetch_desc(dir_connection_t *, const response_handler_args_t *); static int handle_response_upload_dir(dir_connection_t *, const response_handler_args_t *); static int handle_response_upload_vote(dir_connection_t *, const response_handler_args_t *); static int handle_response_upload_signatures(dir_connection_t *, const response_handler_args_t *); static int handle_response_fetch_renddesc_v2(dir_connection_t *, const response_handler_args_t *); static int handle_response_upload_renddesc_v2(dir_connection_t *, const response_handler_args_t *); static int handle_response_upload_hsdesc(dir_connection_t *, const response_handler_args_t *); static int dir_client_decompress_response_body(char **bodyp, size_t *bodylenp, dir_connection_t *conn, compress_method_t compression, int anonymized_connection) { int rv = 0; const char *body = *bodyp; size_t body_len = *bodylenp; int allow_partial = (conn->base_.purpose == DIR_PURPOSE_FETCH_SERVERDESC || conn->base_.purpose == DIR_PURPOSE_FETCH_EXTRAINFO || conn->base_.purpose == DIR_PURPOSE_FETCH_MICRODESC); int plausible = body_is_plausible(body, body_len, conn->base_.purpose); if (plausible && compression == NO_METHOD) { return 0; } int severity = LOG_DEBUG; char *new_body = NULL; size_t new_len = 0; const char *description1, *description2; int want_to_try_both = 0; int tried_both = 0; compress_method_t guessed = detect_compression_method(body, body_len); description1 = compression_method_get_human_name(compression); if (BUG(description1 == NULL)) description1 = compression_method_get_human_name(UNKNOWN_METHOD); if (guessed == UNKNOWN_METHOD && !plausible) description2 = "confusing binary junk"; else description2 = compression_method_get_human_name(guessed); /* Tell the user if we don't believe what we're told about compression.*/ want_to_try_both = (compression == UNKNOWN_METHOD || guessed != compression); if (want_to_try_both) { severity = LOG_PROTOCOL_WARN; } tor_log(severity, LD_HTTP, "HTTP body from server '%s:%d' was labeled as %s, " "%s it seems to be %s.%s", conn->base_.address, conn->base_.port, description1, guessed != compression?"but":"and", description2, (compression>0 && guessed>0 && want_to_try_both)? " Trying both.":""); /* Try declared compression first if we can. * tor_compress_supports_method() also returns true for NO_METHOD. * Ensure that the server is not sending us data compressed using a * compression method that is not allowed for anonymous connections. */ if (anonymized_connection && ! allowed_anonymous_connection_compression_method(compression)) { warn_disallowed_anonymous_compression_method(compression); rv = -1; goto done; } if (tor_compress_supports_method(compression)) { tor_uncompress(&new_body, &new_len, body, body_len, compression, !allow_partial, LOG_PROTOCOL_WARN); if (new_body) { /* We succeeded with the declared compression method. Great! */ rv = 0; goto done; } } /* Okay, if that didn't work, and we think that it was compressed * differently, try that. */ if (anonymized_connection && ! allowed_anonymous_connection_compression_method(guessed)) { warn_disallowed_anonymous_compression_method(guessed); rv = -1; goto done; } if (tor_compress_supports_method(guessed) && compression != guessed) { tor_uncompress(&new_body, &new_len, body, body_len, guessed, !allow_partial, LOG_INFO); tried_both = 1; } /* If we're pretty sure that we have a compressed directory, and * we didn't manage to uncompress it, then warn and bail. */ if (!plausible && !new_body) { log_fn(LOG_PROTOCOL_WARN, LD_HTTP, "Unable to decompress HTTP body (tried %s%s%s, server '%s:%d').", description1, tried_both?" and ":"", tried_both?description2:"", conn->base_.address, conn->base_.port); rv = -1; goto done; } done: if (new_body) { if (rv == 0) { /* success! */ tor_free(*bodyp); *bodyp = new_body; *bodylenp = new_len; } else { tor_free(new_body); } } return rv; } /** We are a client, and we've finished reading the server's * response. Parse it and act appropriately. * * If we're still happy with using this directory server in the future, return * 0. Otherwise return -1; and the caller should consider trying the request * again. * * The caller will take care of marking the connection for close. */ static int connection_dir_client_reached_eof(dir_connection_t *conn) { char *body = NULL; char *headers = NULL; char *reason = NULL; size_t body_len = 0; int status_code; time_t date_header = 0; long apparent_skew; compress_method_t compression; int skewed = 0; int rv; int allow_partial = (conn->base_.purpose == DIR_PURPOSE_FETCH_SERVERDESC || conn->base_.purpose == DIR_PURPOSE_FETCH_EXTRAINFO || conn->base_.purpose == DIR_PURPOSE_FETCH_MICRODESC); size_t received_bytes; const int anonymized_connection = purpose_needs_anonymity(conn->base_.purpose, conn->router_purpose, conn->requested_resource); received_bytes = connection_get_inbuf_len(TO_CONN(conn)); switch (connection_fetch_from_buf_http(TO_CONN(conn), &headers, MAX_HEADERS_SIZE, &body, &body_len, MAX_DIR_DL_SIZE, allow_partial)) { case -1: /* overflow */ log_warn(LD_PROTOCOL, "'fetch' response too large (server '%s:%d'). Closing.", conn->base_.address, conn->base_.port); return -1; case 0: log_info(LD_HTTP, "'fetch' response not all here, but we're at eof. Closing."); return -1; /* case 1, fall through */ } if (parse_http_response(headers, &status_code, &date_header, &compression, &reason) < 0) { log_warn(LD_HTTP,"Unparseable headers (server '%s:%d'). Closing.", conn->base_.address, conn->base_.port); rv = -1; goto done; } if (!reason) reason = tor_strdup("[no reason given]"); tor_log(LOG_DEBUG, LD_DIR, "Received response from directory server '%s:%d': %d %s " "(purpose: %d, response size: %"TOR_PRIuSZ #ifdef MEASUREMENTS_21206 ", data cells received: %d, data cells sent: %d" #endif ", compression: %d)", conn->base_.address, conn->base_.port, status_code, escaped(reason), conn->base_.purpose, (received_bytes), #ifdef MEASUREMENTS_21206 conn->data_cells_received, conn->data_cells_sent, #endif compression); if (conn->guard_state) { /* we count the connection as successful once we can read from it. We do * not, however, delay use of the circuit here, since it's just for a * one-hop directory request. */ /* XXXXprop271 note that this will not do the right thing for other * waiting circuits that would be triggered by this circuit becoming * complete/usable. But that's ok, I think. */ entry_guard_succeeded(&conn->guard_state); circuit_guard_state_free(conn->guard_state); conn->guard_state = NULL; } /* now check if it's got any hints for us about our IP address. */ if (conn->dirconn_direct) { char *guess = http_get_header(headers, X_ADDRESS_HEADER); if (guess) { router_new_address_suggestion(guess, conn); tor_free(guess); } } if (date_header > 0) { /* The date header was written very soon after we sent our request, * so compute the skew as the difference between sending the request * and the date header. (We used to check now-date_header, but that's * inaccurate if we spend a lot of time downloading.) */ apparent_skew = conn->base_.timestamp_last_write_allowed - date_header; if (labs(apparent_skew)>ALLOW_DIRECTORY_TIME_SKEW) { int trusted = router_digest_is_trusted_dir(conn->identity_digest); clock_skew_warning(TO_CONN(conn), apparent_skew, trusted, LD_HTTP, "directory", "DIRSERV"); skewed = 1; /* don't check the recommended-versions line */ } else { log_debug(LD_HTTP, "Time on received directory is within tolerance; " "we are %ld seconds skewed. (That's okay.)", apparent_skew); } } (void) skewed; /* skewed isn't used yet. */ if (status_code == 503) { routerstatus_t *rs; dir_server_t *ds; const char *id_digest = conn->identity_digest; log_info(LD_DIR,"Received http status code %d (%s) from server " "'%s:%d'. I'll try again soon.", status_code, escaped(reason), conn->base_.address, conn->base_.port); time_t now = approx_time(); if ((rs = router_get_mutable_consensus_status_by_id(id_digest))) rs->last_dir_503_at = now; if ((ds = router_get_fallback_dirserver_by_digest(id_digest))) ds->fake_status.last_dir_503_at = now; rv = -1; goto done; } if (dir_client_decompress_response_body(&body, &body_len, conn, compression, anonymized_connection) < 0) { rv = -1; goto done; } response_handler_args_t args; memset(&args, 0, sizeof(args)); args.status_code = status_code; args.reason = reason; args.body = body; args.body_len = body_len; args.headers = headers; switch (conn->base_.purpose) { case DIR_PURPOSE_FETCH_CONSENSUS: rv = handle_response_fetch_consensus(conn, &args); break; case DIR_PURPOSE_FETCH_CERTIFICATE: rv = handle_response_fetch_certificate(conn, &args); break; case DIR_PURPOSE_FETCH_STATUS_VOTE: rv = handle_response_fetch_status_vote(conn, &args); break; case DIR_PURPOSE_FETCH_DETACHED_SIGNATURES: rv = handle_response_fetch_detached_signatures(conn, &args); break; case DIR_PURPOSE_FETCH_SERVERDESC: case DIR_PURPOSE_FETCH_EXTRAINFO: rv = handle_response_fetch_desc(conn, &args); break; case DIR_PURPOSE_FETCH_MICRODESC: rv = handle_response_fetch_microdesc(conn, &args); break; case DIR_PURPOSE_FETCH_RENDDESC_V2: rv = handle_response_fetch_renddesc_v2(conn, &args); break; case DIR_PURPOSE_UPLOAD_DIR: rv = handle_response_upload_dir(conn, &args); break; case DIR_PURPOSE_UPLOAD_SIGNATURES: rv = handle_response_upload_signatures(conn, &args); break; case DIR_PURPOSE_UPLOAD_VOTE: rv = handle_response_upload_vote(conn, &args); break; case DIR_PURPOSE_UPLOAD_RENDDESC_V2: rv = handle_response_upload_renddesc_v2(conn, &args); break; case DIR_PURPOSE_UPLOAD_HSDESC: rv = handle_response_upload_hsdesc(conn, &args); break; case DIR_PURPOSE_FETCH_HSDESC: rv = handle_response_fetch_hsdesc_v3(conn, &args); break; default: tor_assert_nonfatal_unreached(); rv = -1; break; } done: tor_free(body); tor_free(headers); tor_free(reason); return rv; } /** * Handler function: processes a response to a request for a networkstatus * consensus document by checking the consensus, storing it, and marking * router requests as reachable. **/ STATIC int handle_response_fetch_consensus(dir_connection_t *conn, const response_handler_args_t *args) { tor_assert(conn->base_.purpose == DIR_PURPOSE_FETCH_CONSENSUS); const int status_code = args->status_code; const char *body = args->body; const size_t body_len = args->body_len; const char *reason = args->reason; const time_t now = approx_time(); const char *consensus; char *new_consensus = NULL; const char *sourcename; int r; const char *flavname = conn->requested_resource; if (status_code != 200) { int severity = (status_code == 304) ? LOG_INFO : LOG_WARN; tor_log(severity, LD_DIR, "Received http status code %d (%s) from server " "'%s:%d' while fetching consensus directory.", status_code, escaped(reason), conn->base_.address, conn->base_.port); networkstatus_consensus_download_failed(status_code, flavname); return -1; } if (looks_like_a_consensus_diff(body, body_len)) { /* First find our previous consensus. Maybe it's in ram, maybe not. */ cached_dir_t *cd = dirserv_get_consensus(flavname); const char *consensus_body; char *owned_consensus = NULL; if (cd) { consensus_body = cd->dir; } else { owned_consensus = networkstatus_read_cached_consensus(flavname); consensus_body = owned_consensus; } if (!consensus_body) { log_warn(LD_DIR, "Received a consensus diff, but we can't find " "any %s-flavored consensus in our current cache.",flavname); networkstatus_consensus_download_failed(0, flavname); // XXXX if this happens too much, see below return -1; } new_consensus = consensus_diff_apply(consensus_body, body); tor_free(owned_consensus); if (new_consensus == NULL) { log_warn(LD_DIR, "Could not apply consensus diff received from server " "'%s:%d'", conn->base_.address, conn->base_.port); // XXXX If this happens too many times, we should maybe not use // XXXX this directory for diffs any more? networkstatus_consensus_download_failed(0, flavname); return -1; } log_info(LD_DIR, "Applied consensus diff (size %d) from server " "'%s:%d', resulting in a new consensus document (size %d).", (int)body_len, conn->base_.address, conn->base_.port, (int)strlen(new_consensus)); consensus = new_consensus; sourcename = "generated based on a diff"; } else { log_info(LD_DIR,"Received consensus directory (body size %d) from server " "'%s:%d'", (int)body_len, conn->base_.address, conn->base_.port); consensus = body; sourcename = "downloaded"; } if ((r=networkstatus_set_current_consensus(consensus, flavname, 0, conn->identity_digest))<0) { log_fn(r<-1?LOG_WARN:LOG_INFO, LD_DIR, "Unable to load %s consensus directory %s from " "server '%s:%d'. I'll try again soon.", flavname, sourcename, conn->base_.address, conn->base_.port); networkstatus_consensus_download_failed(0, flavname); tor_free(new_consensus); return -1; } /* If we launched other fetches for this consensus, cancel them. */ connection_dir_close_consensus_fetches(conn, flavname); /* update the list of routers and directory guards */ routers_update_all_from_networkstatus(now, 3); update_microdescs_from_networkstatus(now); directory_info_has_arrived(now, 0, 0); if (authdir_mode_v3(get_options())) { sr_act_post_consensus( networkstatus_get_latest_consensus_by_flavor(FLAV_NS)); } log_info(LD_DIR, "Successfully loaded consensus."); tor_free(new_consensus); return 0; } /** * Handler function: processes a response to a request for one or more * authority certificates **/ static int handle_response_fetch_certificate(dir_connection_t *conn, const response_handler_args_t *args) { tor_assert(conn->base_.purpose == DIR_PURPOSE_FETCH_CERTIFICATE); const int status_code = args->status_code; const char *reason = args->reason; const char *body = args->body; const size_t body_len = args->body_len; if (status_code != 200) { log_warn(LD_DIR, "Received http status code %d (%s) from server " "'%s:%d' while fetching \"/tor/keys/%s\".", status_code, escaped(reason), conn->base_.address, conn->base_.port, conn->requested_resource); connection_dir_download_cert_failed(conn, status_code); return -1; } log_info(LD_DIR,"Received authority certificates (body size %d) from " "server '%s:%d'", (int)body_len, conn->base_.address, conn->base_.port); /* * Tell trusted_dirs_load_certs_from_string() whether it was by fp * or fp-sk pair. */ int src_code = -1; if (!strcmpstart(conn->requested_resource, "fp/")) { src_code = TRUSTED_DIRS_CERTS_SRC_DL_BY_ID_DIGEST; } else if (!strcmpstart(conn->requested_resource, "fp-sk/")) { src_code = TRUSTED_DIRS_CERTS_SRC_DL_BY_ID_SK_DIGEST; } if (src_code != -1) { if (trusted_dirs_load_certs_from_string(body, src_code, 1, conn->identity_digest)<0) { log_warn(LD_DIR, "Unable to parse fetched certificates"); /* if we fetched more than one and only some failed, the successful * ones got flushed to disk so it's safe to call this on them */ connection_dir_download_cert_failed(conn, status_code); } else { time_t now = approx_time(); directory_info_has_arrived(now, 0, 0); log_info(LD_DIR, "Successfully loaded certificates from fetch."); } } else { log_warn(LD_DIR, "Couldn't figure out what to do with fetched certificates for " "unknown resource %s", conn->requested_resource); connection_dir_download_cert_failed(conn, status_code); } return 0; } /** * Handler function: processes a response to a request for an authority's * current networkstatus vote. **/ static int handle_response_fetch_status_vote(dir_connection_t *conn, const response_handler_args_t *args) { tor_assert(conn->base_.purpose == DIR_PURPOSE_FETCH_STATUS_VOTE); const int status_code = args->status_code; const char *reason = args->reason; const char *body = args->body; const size_t body_len = args->body_len; const char *msg; int st; log_info(LD_DIR,"Got votes (body size %d) from server %s:%d", (int)body_len, conn->base_.address, conn->base_.port); if (status_code != 200) { log_warn(LD_DIR, "Received http status code %d (%s) from server " "'%s:%d' while fetching \"/tor/status-vote/next/%s.z\".", status_code, escaped(reason), conn->base_.address, conn->base_.port, conn->requested_resource); return -1; } dirvote_add_vote(body, &msg, &st); if (st > 299) { log_warn(LD_DIR, "Error adding retrieved vote: %s", msg); } else { log_info(LD_DIR, "Added vote(s) successfully [msg: %s]", msg); } return 0; } /** * Handler function: processes a response to a request for the signatures * that an authority knows about on a given consensus. **/ static int handle_response_fetch_detached_signatures(dir_connection_t *conn, const response_handler_args_t *args) { tor_assert(conn->base_.purpose == DIR_PURPOSE_FETCH_DETACHED_SIGNATURES); const int status_code = args->status_code; const char *reason = args->reason; const char *body = args->body; const size_t body_len = args->body_len; const char *msg = NULL; log_info(LD_DIR,"Got detached signatures (body size %d) from server %s:%d", (int)body_len, conn->base_.address, conn->base_.port); if (status_code != 200) { log_warn(LD_DIR, "Received http status code %d (%s) from server '%s:%d' while fetching " "\"/tor/status-vote/next/consensus-signatures.z\".", status_code, escaped(reason), conn->base_.address, conn->base_.port); return -1; } if (dirvote_add_signatures(body, conn->base_.address, &msg)<0) { log_warn(LD_DIR, "Problem adding detached signatures from %s:%d: %s", conn->base_.address, conn->base_.port, msg?msg:"???"); } return 0; } /** * Handler function: processes a response to a request for a group of server * descriptors or an extrainfo documents. **/ static int handle_response_fetch_desc(dir_connection_t *conn, const response_handler_args_t *args) { tor_assert(conn->base_.purpose == DIR_PURPOSE_FETCH_SERVERDESC || conn->base_.purpose == DIR_PURPOSE_FETCH_EXTRAINFO); const int status_code = args->status_code; const char *reason = args->reason; const char *body = args->body; const size_t body_len = args->body_len; int was_ei = conn->base_.purpose == DIR_PURPOSE_FETCH_EXTRAINFO; smartlist_t *which = NULL; int n_asked_for = 0; int descriptor_digests = conn->requested_resource && !strcmpstart(conn->requested_resource,"d/"); log_info(LD_DIR,"Received %s (body size %d) from server '%s:%d'", was_ei ? "extra server info" : "server info", (int)body_len, conn->base_.address, conn->base_.port); if (conn->requested_resource && (!strcmpstart(conn->requested_resource,"d/") || !strcmpstart(conn->requested_resource,"fp/"))) { which = smartlist_new(); dir_split_resource_into_fingerprints(conn->requested_resource + (descriptor_digests ? 2 : 3), which, NULL, 0); n_asked_for = smartlist_len(which); } if (status_code != 200) { int dir_okay = status_code == 404 || (status_code == 400 && !strcmp(reason, "Servers unavailable.")); /* 404 means that it didn't have them; no big deal. * Older (pre-0.1.1.8) servers said 400 Servers unavailable instead. */ log_fn(dir_okay ? LOG_INFO : LOG_WARN, LD_DIR, "Received http status code %d (%s) from server '%s:%d' " "while fetching \"/tor/server/%s\". I'll try again soon.", status_code, escaped(reason), conn->base_.address, conn->base_.port, conn->requested_resource); if (!which) { connection_dir_download_routerdesc_failed(conn); } else { dir_routerdesc_download_failed(which, status_code, conn->router_purpose, was_ei, descriptor_digests); SMARTLIST_FOREACH(which, char *, cp, tor_free(cp)); smartlist_free(which); } return dir_okay ? 0 : -1; } /* Learn the routers, assuming we requested by fingerprint or "all" * or "authority". * * We use "authority" to fetch our own descriptor for * testing, and to fetch bridge descriptors for bootstrapping. Ignore * the output of "authority" requests unless we are using bridges, * since otherwise they'll be the response from reachability tests, * and we don't really want to add that to our routerlist. */ if (which || (conn->requested_resource && (!strcmpstart(conn->requested_resource, "all") || (!strcmpstart(conn->requested_resource, "authority") && get_options()->UseBridges)))) { /* as we learn from them, we remove them from 'which' */ if (was_ei) { router_load_extrainfo_from_string(body, NULL, SAVED_NOWHERE, which, descriptor_digests); } else { //router_load_routers_from_string(body, NULL, SAVED_NOWHERE, which, // descriptor_digests, conn->router_purpose); if (load_downloaded_routers(body, which, descriptor_digests, conn->router_purpose, conn->base_.address)) { time_t now = approx_time(); directory_info_has_arrived(now, 0, 1); } } } if (which) { /* mark remaining ones as failed */ log_info(LD_DIR, "Received %d/%d %s requested from %s:%d", n_asked_for-smartlist_len(which), n_asked_for, was_ei ? "extra-info documents" : "router descriptors", conn->base_.address, (int)conn->base_.port); if (smartlist_len(which)) { dir_routerdesc_download_failed(which, status_code, conn->router_purpose, was_ei, descriptor_digests); } SMARTLIST_FOREACH(which, char *, cp, tor_free(cp)); smartlist_free(which); } if (directory_conn_is_self_reachability_test(conn)) router_dirport_found_reachable(); return 0; } /** * Handler function: processes a response to a request for a group of * microdescriptors **/ STATIC int handle_response_fetch_microdesc(dir_connection_t *conn, const response_handler_args_t *args) { tor_assert(conn->base_.purpose == DIR_PURPOSE_FETCH_MICRODESC); const int status_code = args->status_code; const char *reason = args->reason; const char *body = args->body; const size_t body_len = args->body_len; smartlist_t *which = NULL; log_info(LD_DIR,"Received answer to microdescriptor request (status %d, " "body size %d) from server '%s:%d'", status_code, (int)body_len, conn->base_.address, conn->base_.port); tor_assert(conn->requested_resource && !strcmpstart(conn->requested_resource, "d/")); tor_assert_nonfatal(!tor_mem_is_zero(conn->identity_digest, DIGEST_LEN)); which = smartlist_new(); dir_split_resource_into_fingerprints(conn->requested_resource+2, which, NULL, DSR_DIGEST256|DSR_BASE64); if (status_code != 200) { log_info(LD_DIR, "Received status code %d (%s) from server " "'%s:%d' while fetching \"/tor/micro/%s\". I'll try again " "soon.", status_code, escaped(reason), conn->base_.address, (int)conn->base_.port, conn->requested_resource); dir_microdesc_download_failed(which, status_code, conn->identity_digest); SMARTLIST_FOREACH(which, char *, cp, tor_free(cp)); smartlist_free(which); return 0; } else { smartlist_t *mds; time_t now = approx_time(); mds = microdescs_add_to_cache(get_microdesc_cache(), body, body+body_len, SAVED_NOWHERE, 0, now, which); if (smartlist_len(which)) { /* Mark remaining ones as failed. */ dir_microdesc_download_failed(which, status_code, conn->identity_digest); } if (mds && smartlist_len(mds)) { control_event_bootstrap(BOOTSTRAP_STATUS_LOADING_DESCRIPTORS, count_loading_descriptors_progress()); directory_info_has_arrived(now, 0, 1); } SMARTLIST_FOREACH(which, char *, cp, tor_free(cp)); smartlist_free(which); smartlist_free(mds); } return 0; } /** * Handler function: processes a response to a POST request to upload our * router descriptor. **/ static int handle_response_upload_dir(dir_connection_t *conn, const response_handler_args_t *args) { tor_assert(conn->base_.purpose == DIR_PURPOSE_UPLOAD_DIR); const int status_code = args->status_code; const char *reason = args->reason; const char *headers = args->headers; switch (status_code) { case 200: { dir_server_t *ds = router_get_trusteddirserver_by_digest(conn->identity_digest); char *rejected_hdr = http_get_header(headers, "X-Descriptor-Not-New: "); if (rejected_hdr) { if (!strcmp(rejected_hdr, "Yes")) { log_info(LD_GENERAL, "Authority '%s' declined our descriptor (not new)", ds->nickname); /* XXXX use this information; be sure to upload next one * sooner. -NM */ /* XXXX++ On further thought, the task above implies that we're * basing our regenerate-descriptor time on when we uploaded the * last descriptor, not on the published time of the last * descriptor. If those are different, that's a bad thing to * do. -NM */ } tor_free(rejected_hdr); } log_info(LD_GENERAL,"eof (status 200) after uploading server " "descriptor: finished."); control_event_server_status( LOG_NOTICE, "ACCEPTED_SERVER_DESCRIPTOR DIRAUTH=%s:%d", conn->base_.address, conn->base_.port); ds->has_accepted_serverdesc = 1; if (directories_have_accepted_server_descriptor()) control_event_server_status(LOG_NOTICE, "GOOD_SERVER_DESCRIPTOR"); } break; case 400: log_warn(LD_GENERAL,"http status 400 (%s) response from " "dirserver '%s:%d'. Please correct.", escaped(reason), conn->base_.address, conn->base_.port); control_event_server_status(LOG_WARN, "BAD_SERVER_DESCRIPTOR DIRAUTH=%s:%d REASON=\"%s\"", conn->base_.address, conn->base_.port, escaped(reason)); break; default: log_warn(LD_GENERAL, "HTTP status %d (%s) was unexpected while uploading " "descriptor to server '%s:%d'. Possibly the server is " "misconfigured?", status_code, escaped(reason), conn->base_.address, conn->base_.port); break; } /* return 0 in all cases, since we don't want to mark any * dirservers down just because they don't like us. */ return 0; } /** * Handler function: processes a response to POST request to upload our * own networkstatus vote. **/ static int handle_response_upload_vote(dir_connection_t *conn, const response_handler_args_t *args) { tor_assert(conn->base_.purpose == DIR_PURPOSE_UPLOAD_VOTE); const int status_code = args->status_code; const char *reason = args->reason; switch (status_code) { case 200: { log_notice(LD_DIR,"Uploaded a vote to dirserver %s:%d", conn->base_.address, conn->base_.port); } break; case 400: log_warn(LD_DIR,"http status 400 (%s) response after uploading " "vote to dirserver '%s:%d'. Please correct.", escaped(reason), conn->base_.address, conn->base_.port); break; default: log_warn(LD_GENERAL, "HTTP status %d (%s) was unexpected while uploading " "vote to server '%s:%d'.", status_code, escaped(reason), conn->base_.address, conn->base_.port); break; } /* return 0 in all cases, since we don't want to mark any * dirservers down just because they don't like us. */ return 0; } /** * Handler function: processes a response to POST request to upload our * view of the signatures on the current consensus. **/ static int handle_response_upload_signatures(dir_connection_t *conn, const response_handler_args_t *args) { tor_assert(conn->base_.purpose == DIR_PURPOSE_UPLOAD_SIGNATURES); const int status_code = args->status_code; const char *reason = args->reason; switch (status_code) { case 200: { log_notice(LD_DIR,"Uploaded signature(s) to dirserver %s:%d", conn->base_.address, conn->base_.port); } break; case 400: log_warn(LD_DIR,"http status 400 (%s) response after uploading " "signatures to dirserver '%s:%d'. Please correct.", escaped(reason), conn->base_.address, conn->base_.port); break; default: log_warn(LD_GENERAL, "HTTP status %d (%s) was unexpected while uploading " "signatures to server '%s:%d'.", status_code, escaped(reason), conn->base_.address, conn->base_.port); break; } /* return 0 in all cases, since we don't want to mark any * dirservers down just because they don't like us. */ return 0; } /** * Handler function: processes a response to a request for a v3 hidden service * descriptor. **/ STATIC int handle_response_fetch_hsdesc_v3(dir_connection_t *conn, const response_handler_args_t *args) { const int status_code = args->status_code; const char *reason = args->reason; const char *body = args->body; const size_t body_len = args->body_len; tor_assert(conn->hs_ident); log_info(LD_REND,"Received v3 hsdesc (body size %d, status %d (%s))", (int)body_len, status_code, escaped(reason)); switch (status_code) { case 200: /* We got something: Try storing it in the cache. */ if (hs_cache_store_as_client(body, &conn->hs_ident->identity_pk) < 0) { log_warn(LD_REND, "Failed to store hidden service descriptor"); /* Fire control port FAILED event. */ hs_control_desc_event_failed(conn->hs_ident, conn->identity_digest, "BAD_DESC"); hs_control_desc_event_content(conn->hs_ident, conn->identity_digest, NULL); } else { log_info(LD_REND, "Stored hidden service descriptor successfully."); TO_CONN(conn)->purpose = DIR_PURPOSE_HAS_FETCHED_HSDESC; hs_client_desc_has_arrived(conn->hs_ident); /* Fire control port RECEIVED event. */ hs_control_desc_event_received(conn->hs_ident, conn->identity_digest); hs_control_desc_event_content(conn->hs_ident, conn->identity_digest, body); } break; case 404: /* Not there. We'll retry when connection_about_to_close_connection() * tries to clean this conn up. */ log_info(LD_REND, "Fetching hidden service v3 descriptor not found: " "Retrying at another directory."); /* Fire control port FAILED event. */ hs_control_desc_event_failed(conn->hs_ident, conn->identity_digest, "NOT_FOUND"); hs_control_desc_event_content(conn->hs_ident, conn->identity_digest, NULL); break; case 400: log_warn(LD_REND, "Fetching v3 hidden service descriptor failed: " "http status 400 (%s). Dirserver didn't like our " "query? Retrying at another directory.", escaped(reason)); /* Fire control port FAILED event. */ hs_control_desc_event_failed(conn->hs_ident, conn->identity_digest, "QUERY_REJECTED"); hs_control_desc_event_content(conn->hs_ident, conn->identity_digest, NULL); break; default: log_warn(LD_REND, "Fetching v3 hidden service descriptor failed: " "http status %d (%s) response unexpected from HSDir server " "'%s:%d'. Retrying at another directory.", status_code, escaped(reason), TO_CONN(conn)->address, TO_CONN(conn)->port); /* Fire control port FAILED event. */ hs_control_desc_event_failed(conn->hs_ident, conn->identity_digest, "UNEXPECTED"); hs_control_desc_event_content(conn->hs_ident, conn->identity_digest, NULL); break; } return 0; } /** * Handler function: processes a response to a request for a v2 hidden service * descriptor. **/ static int handle_response_fetch_renddesc_v2(dir_connection_t *conn, const response_handler_args_t *args) { tor_assert(conn->base_.purpose == DIR_PURPOSE_FETCH_RENDDESC_V2); const int status_code = args->status_code; const char *reason = args->reason; const char *body = args->body; const size_t body_len = args->body_len; #define SEND_HS_DESC_FAILED_EVENT(reason) \ (control_event_hsv2_descriptor_failed(conn->rend_data, \ conn->identity_digest, \ reason)) #define SEND_HS_DESC_FAILED_CONTENT() \ (control_event_hs_descriptor_content( \ rend_data_get_address(conn->rend_data), \ conn->requested_resource, \ conn->identity_digest, \ NULL)) tor_assert(conn->rend_data); log_info(LD_REND,"Received rendezvous descriptor (body size %d, status %d " "(%s))", (int)body_len, status_code, escaped(reason)); switch (status_code) { case 200: { rend_cache_entry_t *entry = NULL; if (rend_cache_store_v2_desc_as_client(body, conn->requested_resource, conn->rend_data, &entry) < 0) { log_warn(LD_REND,"Fetching v2 rendezvous descriptor failed. " "Retrying at another directory."); /* We'll retry when connection_about_to_close_connection() * cleans this dir conn up. */ SEND_HS_DESC_FAILED_EVENT("BAD_DESC"); SEND_HS_DESC_FAILED_CONTENT(); } else { char service_id[REND_SERVICE_ID_LEN_BASE32 + 1]; /* Should never be NULL here if we found the descriptor. */ tor_assert(entry); rend_get_service_id(entry->parsed->pk, service_id); /* success. notify pending connections about this. */ log_info(LD_REND, "Successfully fetched v2 rendezvous " "descriptor."); control_event_hsv2_descriptor_received(service_id, conn->rend_data, conn->identity_digest); control_event_hs_descriptor_content(service_id, conn->requested_resource, conn->identity_digest, body); conn->base_.purpose = DIR_PURPOSE_HAS_FETCHED_RENDDESC_V2; rend_client_desc_trynow(service_id); memwipe(service_id, 0, sizeof(service_id)); } break; } case 404: /* Not there. We'll retry when * connection_about_to_close_connection() cleans this conn up. */ log_info(LD_REND,"Fetching v2 rendezvous descriptor failed: " "Retrying at another directory."); SEND_HS_DESC_FAILED_EVENT("NOT_FOUND"); SEND_HS_DESC_FAILED_CONTENT(); break; case 400: log_warn(LD_REND, "Fetching v2 rendezvous descriptor failed: " "http status 400 (%s). Dirserver didn't like our " "v2 rendezvous query? Retrying at another directory.", escaped(reason)); SEND_HS_DESC_FAILED_EVENT("QUERY_REJECTED"); SEND_HS_DESC_FAILED_CONTENT(); break; default: log_warn(LD_REND, "Fetching v2 rendezvous descriptor failed: " "http status %d (%s) response unexpected while " "fetching v2 hidden service descriptor (server '%s:%d'). " "Retrying at another directory.", status_code, escaped(reason), conn->base_.address, conn->base_.port); SEND_HS_DESC_FAILED_EVENT("UNEXPECTED"); SEND_HS_DESC_FAILED_CONTENT(); break; } return 0; } /** * Handler function: processes a response to a POST request to upload a v2 * hidden service descriptor. **/ static int handle_response_upload_renddesc_v2(dir_connection_t *conn, const response_handler_args_t *args) { tor_assert(conn->base_.purpose == DIR_PURPOSE_UPLOAD_RENDDESC_V2); const int status_code = args->status_code; const char *reason = args->reason; #define SEND_HS_DESC_UPLOAD_FAILED_EVENT(reason) \ (control_event_hs_descriptor_upload_failed( \ conn->identity_digest, \ rend_data_get_address(conn->rend_data), \ reason)) log_info(LD_REND,"Uploaded rendezvous descriptor (status %d " "(%s))", status_code, escaped(reason)); /* Without the rend data, we'll have a problem identifying what has been * uploaded for which service. */ tor_assert(conn->rend_data); switch (status_code) { case 200: log_info(LD_REND, "Uploading rendezvous descriptor: finished with status " "200 (%s)", escaped(reason)); control_event_hs_descriptor_uploaded(conn->identity_digest, rend_data_get_address(conn->rend_data)); rend_service_desc_has_uploaded(conn->rend_data); break; case 400: log_warn(LD_REND,"http status 400 (%s) response from dirserver " "'%s:%d'. Malformed rendezvous descriptor?", escaped(reason), conn->base_.address, conn->base_.port); SEND_HS_DESC_UPLOAD_FAILED_EVENT("UPLOAD_REJECTED"); break; default: log_warn(LD_REND,"http status %d (%s) response unexpected (server " "'%s:%d').", status_code, escaped(reason), conn->base_.address, conn->base_.port); SEND_HS_DESC_UPLOAD_FAILED_EVENT("UNEXPECTED"); break; } return 0; } /** * Handler function: processes a response to a POST request to upload an * hidden service descriptor. **/ static int handle_response_upload_hsdesc(dir_connection_t *conn, const response_handler_args_t *args) { const int status_code = args->status_code; const char *reason = args->reason; tor_assert(conn); tor_assert(conn->base_.purpose == DIR_PURPOSE_UPLOAD_HSDESC); log_info(LD_REND, "Uploaded hidden service descriptor (status %d " "(%s))", status_code, escaped(reason)); /* For this directory response, it MUST have an hidden service identifier on * this connection. */ tor_assert(conn->hs_ident); switch (status_code) { case 200: log_info(LD_REND, "Uploading hidden service descriptor: " "finished with status 200 (%s)", escaped(reason)); hs_control_desc_event_uploaded(conn->hs_ident, conn->identity_digest); break; case 400: log_fn(LOG_PROTOCOL_WARN, LD_REND, "Uploading hidden service descriptor: http " "status 400 (%s) response from dirserver " "'%s:%d'. Malformed hidden service descriptor?", escaped(reason), conn->base_.address, conn->base_.port); hs_control_desc_event_failed(conn->hs_ident, conn->identity_digest, "UPLOAD_REJECTED"); break; default: log_warn(LD_REND, "Uploading hidden service descriptor: http " "status %d (%s) response unexpected (server " "'%s:%d').", status_code, escaped(reason), conn->base_.address, conn->base_.port); hs_control_desc_event_failed(conn->hs_ident, conn->identity_digest, "UNEXPECTED"); break; } return 0; } /** Called when a directory connection reaches EOF. */ int connection_dir_reached_eof(dir_connection_t *conn) { int retval; if (conn->base_.state != DIR_CONN_STATE_CLIENT_READING) { log_info(LD_HTTP,"conn reached eof, not reading. [state=%d] Closing.", conn->base_.state); connection_close_immediate(TO_CONN(conn)); /* error: give up on flushing */ connection_mark_for_close(TO_CONN(conn)); return -1; } retval = connection_dir_client_reached_eof(conn); if (retval == 0) /* success */ conn->base_.state = DIR_CONN_STATE_CLIENT_FINISHED; connection_mark_for_close(TO_CONN(conn)); return retval; } /** If any directory object is arriving, and it's over 10MB large, we're * getting DoS'd. (As of 0.1.2.x, raw directories are about 1MB, and we never * ask for more than 96 router descriptors at a time.) */ #define MAX_DIRECTORY_OBJECT_SIZE (10*(1<<20)) #define MAX_VOTE_DL_SIZE (MAX_DIRECTORY_OBJECT_SIZE * 5) /** Read handler for directory connections. (That's connections to * directory servers and connections at directory servers.) */ int connection_dir_process_inbuf(dir_connection_t *conn) { size_t max_size; tor_assert(conn); tor_assert(conn->base_.type == CONN_TYPE_DIR); /* Directory clients write, then read data until they receive EOF; * directory servers read data until they get an HTTP command, then * write their response (when it's finished flushing, they mark for * close). */ /* If we're on the dirserver side, look for a command. */ if (conn->base_.state == DIR_CONN_STATE_SERVER_COMMAND_WAIT) { if (directory_handle_command(conn) < 0) { connection_mark_for_close(TO_CONN(conn)); return -1; } return 0; } max_size = (TO_CONN(conn)->purpose == DIR_PURPOSE_FETCH_STATUS_VOTE) ? MAX_VOTE_DL_SIZE : MAX_DIRECTORY_OBJECT_SIZE; if (connection_get_inbuf_len(TO_CONN(conn)) > max_size) { log_warn(LD_HTTP, "Too much data received from directory connection (%s): " "denial of service attempt, or you need to upgrade?", conn->base_.address); connection_mark_for_close(TO_CONN(conn)); return -1; } if (!conn->base_.inbuf_reached_eof) log_debug(LD_HTTP,"Got data, not eof. Leaving on inbuf."); return 0; } /** We are closing a dir connection: If dir_conn is a dir connection * that tried to fetch an HS descriptor, check if it successfully fetched it, * or if we need to try again. */ static void refetch_hsdesc_if_needed(dir_connection_t *dir_conn) { connection_t *conn = TO_CONN(dir_conn); /* If we were trying to fetch a v2 rend desc and did not succeed, retry as * needed. (If a fetch is successful, the connection state is changed to * DIR_PURPOSE_HAS_FETCHED_RENDDESC_V2 or DIR_PURPOSE_HAS_FETCHED_HSDESC to * mark that refetching is unnecessary.) */ if (conn->purpose == DIR_PURPOSE_FETCH_RENDDESC_V2 && dir_conn->rend_data && rend_valid_v2_service_id( rend_data_get_address(dir_conn->rend_data))) { rend_client_refetch_v2_renddesc(dir_conn->rend_data); } /* Check for v3 rend desc fetch */ if (conn->purpose == DIR_PURPOSE_FETCH_HSDESC && dir_conn->hs_ident && !ed25519_public_key_is_zero(&dir_conn->hs_ident->identity_pk)) { hs_client_refetch_hsdesc(&dir_conn->hs_ident->identity_pk); } } /** Called when we're about to finally unlink and free a directory connection: * perform necessary accounting and cleanup */ void connection_dir_about_to_close(dir_connection_t *dir_conn) { connection_t *conn = TO_CONN(dir_conn); if (conn->state < DIR_CONN_STATE_CLIENT_FINISHED) { /* It's a directory connection and connecting or fetching * failed: forget about this router, and maybe try again. */ connection_dir_request_failed(dir_conn); } refetch_hsdesc_if_needed(dir_conn); } /** Create an http response for the client conn out of * status and reason_phrase. Write it to conn. */ static void write_short_http_response(dir_connection_t *conn, int status, const char *reason_phrase) { char *buf = NULL; char *datestring = NULL; IF_BUG_ONCE(!reason_phrase) { /* bullet-proofing */ reason_phrase = "unspecified"; } if (server_mode(get_options())) { /* include the Date: header, but only if we're a relay or bridge */ char datebuf[RFC1123_TIME_LEN+1]; format_rfc1123_time(datebuf, time(NULL)); tor_asprintf(&datestring, "Date: %s\r\n", datebuf); } tor_asprintf(&buf, "HTTP/1.0 %d %s\r\n%s\r\n", status, reason_phrase, datestring?datestring:""); log_debug(LD_DIRSERV,"Wrote status 'HTTP/1.0 %d %s'", status, reason_phrase); connection_buf_add(buf, strlen(buf), TO_CONN(conn)); tor_free(datestring); tor_free(buf); } /** Write the header for an HTTP/1.0 response onto conn-\>outbuf, * with type as the Content-Type. * * If length is nonnegative, it is the Content-Length. * If encoding is provided, it is the Content-Encoding. * If cache_lifetime is greater than 0, the content may be cached for * up to cache_lifetime seconds. Otherwise, the content may not be cached. */ static void write_http_response_header_impl(dir_connection_t *conn, ssize_t length, const char *type, const char *encoding, const char *extra_headers, long cache_lifetime) { char date[RFC1123_TIME_LEN+1]; time_t now = time(NULL); buf_t *buf = buf_new_with_capacity(1024); tor_assert(conn); format_rfc1123_time(date, now); buf_add_printf(buf, "HTTP/1.0 200 OK\r\nDate: %s\r\n", date); if (type) { buf_add_printf(buf, "Content-Type: %s\r\n", type); } if (!is_local_addr(&conn->base_.addr)) { /* Don't report the source address for a nearby/private connection. * Otherwise we tend to mis-report in cases where incoming ports are * being forwarded to a Tor server running behind the firewall. */ buf_add_printf(buf, X_ADDRESS_HEADER "%s\r\n", conn->base_.address); } if (encoding) { buf_add_printf(buf, "Content-Encoding: %s\r\n", encoding); } if (length >= 0) { buf_add_printf(buf, "Content-Length: %ld\r\n", (long)length); } if (cache_lifetime > 0) { char expbuf[RFC1123_TIME_LEN+1]; format_rfc1123_time(expbuf, (time_t)(now + cache_lifetime)); /* We could say 'Cache-control: max-age=%d' here if we start doing * http/1.1 */ buf_add_printf(buf, "Expires: %s\r\n", expbuf); } else if (cache_lifetime == 0) { /* We could say 'Cache-control: no-cache' here if we start doing * http/1.1 */ buf_add_string(buf, "Pragma: no-cache\r\n"); } if (extra_headers) { buf_add_string(buf, extra_headers); } buf_add_string(buf, "\r\n"); connection_buf_add_buf(TO_CONN(conn), buf); buf_free(buf); } /** As write_http_response_header_impl, but sets encoding and content-typed * based on whether the response will be compressed or not. */ static void write_http_response_headers(dir_connection_t *conn, ssize_t length, compress_method_t method, const char *extra_headers, long cache_lifetime) { const char *methodname = compression_method_get_name(method); const char *doctype; if (method == NO_METHOD) doctype = "text/plain"; else doctype = "application/octet-stream"; write_http_response_header_impl(conn, length, doctype, methodname, extra_headers, cache_lifetime); } /** As write_http_response_headers, but assumes extra_headers is NULL */ static void write_http_response_header(dir_connection_t *conn, ssize_t length, compress_method_t method, long cache_lifetime) { write_http_response_headers(conn, length, method, NULL, cache_lifetime); } /** Array of compression methods to use (if supported) for serving * precompressed data, ordered from best to worst. */ static compress_method_t srv_meth_pref_precompressed[] = { LZMA_METHOD, ZSTD_METHOD, ZLIB_METHOD, GZIP_METHOD, NO_METHOD }; /** Array of compression methods to use (if supported) for serving * streamed data, ordered from best to worst. */ static compress_method_t srv_meth_pref_streaming_compression[] = { ZSTD_METHOD, ZLIB_METHOD, GZIP_METHOD, NO_METHOD }; /** Array of allowed compression methods to use (if supported) when receiving a * response from a request that was required to be anonymous. */ static compress_method_t client_meth_allowed_anonymous_compression[] = { ZLIB_METHOD, GZIP_METHOD, NO_METHOD }; /** Parse the compression methods listed in an Accept-Encoding header h, * and convert them to a bitfield where compression method x is supported if * and only if 1 << x is set in the bitfield. */ STATIC unsigned parse_accept_encoding_header(const char *h) { unsigned result = (1u << NO_METHOD); smartlist_t *methods = smartlist_new(); smartlist_split_string(methods, h, ",", SPLIT_SKIP_SPACE|SPLIT_STRIP_SPACE|SPLIT_IGNORE_BLANK, 0); SMARTLIST_FOREACH_BEGIN(methods, const char *, m) { compress_method_t method = compression_method_get_by_name(m); if (method != UNKNOWN_METHOD) { tor_assert(((unsigned)method) < 8*sizeof(unsigned)); result |= (1u << method); } } SMARTLIST_FOREACH_END(m); SMARTLIST_FOREACH_BEGIN(methods, char *, m) { tor_free(m); } SMARTLIST_FOREACH_END(m); smartlist_free(methods); return result; } /** Array of compression methods to use (if supported) for requesting * compressed data, ordered from best to worst. */ static compress_method_t client_meth_pref[] = { LZMA_METHOD, ZSTD_METHOD, ZLIB_METHOD, GZIP_METHOD, NO_METHOD }; /** Return a newly allocated string containing a comma separated list of * supported encodings. */ STATIC char * accept_encoding_header(void) { smartlist_t *methods = smartlist_new(); char *header = NULL; compress_method_t method; unsigned i; for (i = 0; i < ARRAY_LENGTH(client_meth_pref); ++i) { method = client_meth_pref[i]; if (tor_compress_supports_method(method)) smartlist_add(methods, (char *)compression_method_get_name(method)); } header = smartlist_join_strings(methods, ", ", 0, NULL); smartlist_free(methods); return header; } /** Decide whether a client would accept the consensus we have. * * Clients can say they only want a consensus if it's signed by more * than half the authorities in a list. They pass this list in * the url as "...consensus/fpr+fpr+fpr". * * fpr may be an abbreviated fingerprint, i.e. only a left substring * of the full authority identity digest. (Only strings of even length, * i.e. encodings of full bytes, are handled correctly. In the case * of an odd number of hex digits the last one is silently ignored.) * * Returns 1 if more than half of the requested authorities signed the * consensus, 0 otherwise. */ int client_likes_consensus(const struct consensus_cache_entry_t *ent, const char *want_url) { smartlist_t *voters = smartlist_new(); int need_at_least; int have = 0; if (consensus_cache_entry_get_voter_id_digests(ent, voters) != 0) { smartlist_free(voters); return 1; // We don't know the voters; assume the client won't mind. */ } smartlist_t *want_authorities = smartlist_new(); dir_split_resource_into_fingerprints(want_url, want_authorities, NULL, 0); need_at_least = smartlist_len(want_authorities)/2+1; SMARTLIST_FOREACH_BEGIN(want_authorities, const char *, want_digest) { SMARTLIST_FOREACH_BEGIN(voters, const char *, digest) { if (!strcasecmpstart(digest, want_digest)) { have++; break; }; } SMARTLIST_FOREACH_END(digest); /* early exit, if we already have enough */ if (have >= need_at_least) break; } SMARTLIST_FOREACH_END(want_digest); SMARTLIST_FOREACH(want_authorities, char *, d, tor_free(d)); smartlist_free(want_authorities); SMARTLIST_FOREACH(voters, char *, cp, tor_free(cp)); smartlist_free(voters); return (have >= need_at_least); } /** Return the compression level we should use for sending a compressed * response of size n_bytes. */ STATIC compression_level_t choose_compression_level(ssize_t n_bytes) { if (! have_been_under_memory_pressure()) { return HIGH_COMPRESSION; /* we have plenty of RAM. */ } else if (n_bytes < 0) { return HIGH_COMPRESSION; /* unknown; might be big. */ } else if (n_bytes < 1024) { return LOW_COMPRESSION; } else if (n_bytes < 2048) { return MEDIUM_COMPRESSION; } else { return HIGH_COMPRESSION; } } /** Information passed to handle a GET request. */ typedef struct get_handler_args_t { /** Bitmask of compression methods that the client said (or implied) it * supported. */ unsigned compression_supported; /** If nonzero, the time included an if-modified-since header with this * value. */ time_t if_modified_since; /** String containing the requested URL or resource. */ const char *url; /** String containing the HTTP headers */ const char *headers; } get_handler_args_t; /** Entry for handling an HTTP GET request. * * This entry matches a request if "string" is equal to the requested * resource, or if "is_prefix" is true and "string" is a prefix of the * requested resource. * * The 'handler' function is called to handle the request. It receives * an arguments structure, and must return 0 on success or -1 if we should * close the connection. **/ typedef struct url_table_ent_s { const char *string; int is_prefix; int (*handler)(dir_connection_t *conn, const get_handler_args_t *args); } url_table_ent_t; static int handle_get_frontpage(dir_connection_t *conn, const get_handler_args_t *args); static int handle_get_current_consensus(dir_connection_t *conn, const get_handler_args_t *args); static int handle_get_status_vote(dir_connection_t *conn, const get_handler_args_t *args); static int handle_get_microdesc(dir_connection_t *conn, const get_handler_args_t *args); static int handle_get_descriptor(dir_connection_t *conn, const get_handler_args_t *args); static int handle_get_keys(dir_connection_t *conn, const get_handler_args_t *args); static int handle_get_hs_descriptor_v2(dir_connection_t *conn, const get_handler_args_t *args); static int handle_get_robots(dir_connection_t *conn, const get_handler_args_t *args); static int handle_get_networkstatus_bridges(dir_connection_t *conn, const get_handler_args_t *args); /** Table for handling GET requests. */ static const url_table_ent_t url_table[] = { { "/tor/", 0, handle_get_frontpage }, { "/tor/status-vote/current/consensus", 1, handle_get_current_consensus }, { "/tor/status-vote/current/", 1, handle_get_status_vote }, { "/tor/status-vote/next/", 1, handle_get_status_vote }, { "/tor/micro/d/", 1, handle_get_microdesc }, { "/tor/server/", 1, handle_get_descriptor }, { "/tor/extra/", 1, handle_get_descriptor }, { "/tor/keys/", 1, handle_get_keys }, { "/tor/rendezvous2/", 1, handle_get_hs_descriptor_v2 }, { "/tor/hs/3/", 1, handle_get_hs_descriptor_v3 }, { "/tor/robots.txt", 0, handle_get_robots }, { "/tor/networkstatus-bridges", 0, handle_get_networkstatus_bridges }, { NULL, 0, NULL }, }; /** Helper function: called when a dirserver gets a complete HTTP GET * request. Look for a request for a directory or for a rendezvous * service descriptor. On finding one, write a response into * conn-\>outbuf. If the request is unrecognized, send a 404. * Return 0 if we handled this successfully, or -1 if we need to close * the connection. */ MOCK_IMPL(STATIC int, directory_handle_command_get,(dir_connection_t *conn, const char *headers, const char *req_body, size_t req_body_len)) { char *url, *url_mem, *header; time_t if_modified_since = 0; int zlib_compressed_in_url; unsigned compression_methods_supported; /* We ignore the body of a GET request. */ (void)req_body; (void)req_body_len; log_debug(LD_DIRSERV,"Received GET command."); conn->base_.state = DIR_CONN_STATE_SERVER_WRITING; if (parse_http_url(headers, &url) < 0) { write_short_http_response(conn, 400, "Bad request"); return 0; } if ((header = http_get_header(headers, "If-Modified-Since: "))) { struct tm tm; if (parse_http_time(header, &tm) == 0) { if (tor_timegm(&tm, &if_modified_since)<0) { if_modified_since = 0; } else { log_debug(LD_DIRSERV, "If-Modified-Since is '%s'.", escaped(header)); } } /* The correct behavior on a malformed If-Modified-Since header is to * act as if no If-Modified-Since header had been given. */ tor_free(header); } log_debug(LD_DIRSERV,"rewritten url as '%s'.", escaped(url)); url_mem = url; { size_t url_len = strlen(url); zlib_compressed_in_url = url_len > 2 && !strcmp(url+url_len-2, ".z"); if (zlib_compressed_in_url) { url[url_len-2] = '\0'; } } if ((header = http_get_header(headers, "Accept-Encoding: "))) { compression_methods_supported = parse_accept_encoding_header(header); tor_free(header); } else { compression_methods_supported = (1u << NO_METHOD); } if (zlib_compressed_in_url) { compression_methods_supported |= (1u << ZLIB_METHOD); } /* Remove all methods that we don't both support. */ compression_methods_supported &= tor_compress_get_supported_method_bitmask(); get_handler_args_t args; args.url = url; args.headers = headers; args.if_modified_since = if_modified_since; args.compression_supported = compression_methods_supported; int i, result = -1; for (i = 0; url_table[i].string; ++i) { int match; if (url_table[i].is_prefix) { match = !strcmpstart(url, url_table[i].string); } else { match = !strcmp(url, url_table[i].string); } if (match) { result = url_table[i].handler(conn, &args); goto done; } } /* we didn't recognize the url */ write_short_http_response(conn, 404, "Not found"); result = 0; done: tor_free(url_mem); return result; } /** Helper function for GET / or GET /tor/ */ static int handle_get_frontpage(dir_connection_t *conn, const get_handler_args_t *args) { (void) args; /* unused */ const char *frontpage = get_dirportfrontpage(); if (frontpage) { size_t dlen; dlen = strlen(frontpage); /* Let's return a disclaimer page (users shouldn't use V1 anymore, and caches don't fetch '/', so this is safe). */ /* [We don't check for write_bucket_low here, since we want to serve * this page no matter what.] */ write_http_response_header_impl(conn, dlen, "text/html", "identity", NULL, DIRPORTFRONTPAGE_CACHE_LIFETIME); connection_buf_add(frontpage, dlen, TO_CONN(conn)); } else { write_short_http_response(conn, 404, "Not found"); } return 0; } /** Warn that the cached consensus consensus of type * flavor is too old and will not be served to clients. Rate-limit the * warning to avoid logging an entry on every request. */ static void warn_consensus_is_too_old(const struct consensus_cache_entry_t *consensus, const char *flavor, time_t now) { #define TOO_OLD_WARNING_INTERVAL (60*60) static ratelim_t warned = RATELIM_INIT(TOO_OLD_WARNING_INTERVAL); char timestamp[ISO_TIME_LEN+1]; time_t valid_until; char *dupes; if (consensus_cache_entry_get_valid_until(consensus, &valid_until)) return; if ((dupes = rate_limit_log(&warned, now))) { format_local_iso_time(timestamp, valid_until); log_warn(LD_DIRSERV, "Our %s%sconsensus is too old, so we will not " "serve it to clients. It was valid until %s local time and we " "continued to serve it for up to 24 hours after it expired.%s", flavor ? flavor : "", flavor ? " " : "", timestamp, dupes); tor_free(dupes); } } /** * Parse a single hex-encoded sha3-256 digest from hex into * digest. Return 0 on success. On failure, report that the hash came * from location, report that we are taking action with it, and * return -1. */ static int parse_one_diff_hash(uint8_t *digest, const char *hex, const char *location, const char *action) { if (base16_decode((char*)digest, DIGEST256_LEN, hex, strlen(hex)) == DIGEST256_LEN) { return 0; } else { log_fn(LOG_PROTOCOL_WARN, LD_DIR, "%s contained bogus digest %s; %s.", location, escaped(hex), action); return -1; } } /** If there is an X-Or-Diff-From-Consensus header included in headers, * set digest_out to a new smartlist containing every 256-bit * hex-encoded digest listed in that header and return 0. Otherwise return * -1. */ static int parse_or_diff_from_header(smartlist_t **digests_out, const char *headers) { char *hdr = http_get_header(headers, X_OR_DIFF_FROM_CONSENSUS_HEADER); if (hdr == NULL) { return -1; } smartlist_t *hex_digests = smartlist_new(); *digests_out = smartlist_new(); smartlist_split_string(hex_digests, hdr, " ", SPLIT_SKIP_SPACE|SPLIT_IGNORE_BLANK, -1); SMARTLIST_FOREACH_BEGIN(hex_digests, const char *, hex) { uint8_t digest[DIGEST256_LEN]; if (!parse_one_diff_hash(digest, hex, "X-Or-Diff-From-Consensus header", "ignoring")) { smartlist_add(*digests_out, tor_memdup(digest, sizeof(digest))); } } SMARTLIST_FOREACH_END(hex); SMARTLIST_FOREACH(hex_digests, char *, cp, tor_free(cp)); smartlist_free(hex_digests); tor_free(hdr); return 0; } /** Fallback compression method. The fallback compression method is used in * case a client requests a non-compressed document. We only store compressed * documents, so we use this compression method to fetch the document and let * the spooling system do the streaming decompression. */ #define FALLBACK_COMPRESS_METHOD ZLIB_METHOD /** * Try to find the best consensus diff possible in order to serve a client * request for a diff from one of the consensuses in digests to the * current consensus of flavor flav. The client supports the * compression methods listed in the compression_methods bitfield: * place the method chosen (if any) into compression_used_out. */ static struct consensus_cache_entry_t * find_best_diff(const smartlist_t *digests, int flav, unsigned compression_methods, compress_method_t *compression_used_out) { struct consensus_cache_entry_t *result = NULL; SMARTLIST_FOREACH_BEGIN(digests, const uint8_t *, diff_from) { unsigned u; for (u = 0; u < ARRAY_LENGTH(srv_meth_pref_precompressed); ++u) { compress_method_t method = srv_meth_pref_precompressed[u]; if (0 == (compression_methods & (1u<flav. * The preferred set of compression methods should be listed in the * compression_methods bitfield. The compression method chosen (if any) * is stored in compression_used_out. */ static struct consensus_cache_entry_t * find_best_consensus(int flav, unsigned compression_methods, compress_method_t *compression_used_out) { struct consensus_cache_entry_t *result = NULL; unsigned u; for (u = 0; u < ARRAY_LENGTH(srv_meth_pref_precompressed); ++u) { compress_method_t method = srv_meth_pref_precompressed[u]; if (0 == (compression_methods & (1u<compression_methods. Return NO_METHOD if no mutually supported * compression method could be found. */ static compress_method_t find_best_compression_method(unsigned compression_methods, int stream) { unsigned u; compress_method_t *methods; size_t length; if (stream) { methods = srv_meth_pref_streaming_compression; length = ARRAY_LENGTH(srv_meth_pref_streaming_compression); } else { methods = srv_meth_pref_precompressed; length = ARRAY_LENGTH(srv_meth_pref_precompressed); } for (u = 0; u < length; ++u) { compress_method_t method = methods[u]; if (compression_methods & (1u<digests matches the latest consensus * flavor (given in flavor) that we have available. */ static int digest_list_contains_best_consensus(consensus_flavor_t flavor, const smartlist_t *digests) { const networkstatus_t *ns = NULL; if (digests == NULL) return 0; ns = networkstatus_get_latest_consensus_by_flavor(flavor); if (ns == NULL) return 0; SMARTLIST_FOREACH_BEGIN(digests, const uint8_t *, digest) { if (tor_memeq(ns->digest_sha3_as_signed, digest, DIGEST256_LEN)) return 1; } SMARTLIST_FOREACH_END(digest); return 0; } /** Check if the given compression method is allowed for a connection that is * supposed to be anonymous. Returns 1 if the compression method is allowed, * otherwise 0. */ STATIC int allowed_anonymous_connection_compression_method(compress_method_t method) { unsigned u; for (u = 0; u < ARRAY_LENGTH(client_meth_allowed_anonymous_compression); ++u) { compress_method_t allowed_method = client_meth_allowed_anonymous_compression[u]; if (! tor_compress_supports_method(allowed_method)) continue; if (method == allowed_method) return 1; } return 0; } /** Log a warning when a remote server has sent us a document using a * compression method that is not allowed for anonymous directory requests. */ STATIC void warn_disallowed_anonymous_compression_method(compress_method_t method) { log_fn(LOG_PROTOCOL_WARN, LD_HTTP, "Received a %s HTTP response, which is not " "allowed for anonymous directory requests.", compression_method_get_human_name(method)); } /** Encodes the results of parsing a consensus request to figure out what * consensus, and possibly what diffs, the user asked for. */ typedef struct { /** name of the flavor to retrieve. */ char *flavor; /** flavor to retrive, as enum. */ consensus_flavor_t flav; /** plus-separated list of authority fingerprints; see * client_likes_consensus(). Aliases the URL in the request passed to * parse_consensus_request(). */ const char *want_fps; /** Optionally, a smartlist of sha3 digests-as-signed of the consensuses * to return a diff from. */ smartlist_t *diff_from_digests; /** If true, never send a full consensus. If there is no diff, send * a 404 instead. */ int diff_only; } parsed_consensus_request_t; /** Remove all data held in req. Do not free req itself, since * it is stack-allocated. */ static void parsed_consensus_request_clear(parsed_consensus_request_t *req) { if (!req) return; tor_free(req->flavor); if (req->diff_from_digests) { SMARTLIST_FOREACH(req->diff_from_digests, uint8_t *, d, tor_free(d)); smartlist_free(req->diff_from_digests); } memset(req, 0, sizeof(parsed_consensus_request_t)); } /** * Parse the URL and relevant headers of args for a current-consensus * request to learn what flavor of consensus we want, what keys it must be * signed with, and what diffs we would accept (or demand) instead. Return 0 * on success and -1 on failure. */ static int parse_consensus_request(parsed_consensus_request_t *out, const get_handler_args_t *args) { const char *url = args->url; memset(out, 0, sizeof(parsed_consensus_request_t)); out->flav = FLAV_NS; const char CONSENSUS_URL_PREFIX[] = "/tor/status-vote/current/consensus/"; const char CONSENSUS_FLAVORED_PREFIX[] = "/tor/status-vote/current/consensus-"; /* figure out the flavor if any, and who we wanted to sign the thing */ const char *after_flavor = NULL; if (!strcmpstart(url, CONSENSUS_FLAVORED_PREFIX)) { const char *f, *cp; f = url + strlen(CONSENSUS_FLAVORED_PREFIX); cp = strchr(f, '/'); if (cp) { after_flavor = cp+1; out->flavor = tor_strndup(f, cp-f); } else { out->flavor = tor_strdup(f); } int flav = networkstatus_parse_flavor_name(out->flavor); if (flav < 0) flav = FLAV_NS; out->flav = flav; } else { if (!strcmpstart(url, CONSENSUS_URL_PREFIX)) after_flavor = url+strlen(CONSENSUS_URL_PREFIX); } /* see whether we've been asked explicitly for a diff from an older * consensus. (The user might also have said that a diff would be okay, * via X-Or-Diff-From-Consensus */ const char DIFF_COMPONENT[] = "diff/"; char *diff_hash_in_url = NULL; if (after_flavor && !strcmpstart(after_flavor, DIFF_COMPONENT)) { after_flavor += strlen(DIFF_COMPONENT); const char *cp = strchr(after_flavor, '/'); if (cp) { diff_hash_in_url = tor_strndup(after_flavor, cp-after_flavor); out->want_fps = cp+1; } else { diff_hash_in_url = tor_strdup(after_flavor); out->want_fps = NULL; } } else { out->want_fps = after_flavor; } if (diff_hash_in_url) { uint8_t diff_from[DIGEST256_LEN]; out->diff_from_digests = smartlist_new(); out->diff_only = 1; int ok = !parse_one_diff_hash(diff_from, diff_hash_in_url, "URL", "rejecting"); tor_free(diff_hash_in_url); if (ok) { smartlist_add(out->diff_from_digests, tor_memdup(diff_from, DIGEST256_LEN)); } else { return -1; } } else { parse_or_diff_from_header(&out->diff_from_digests, args->headers); } return 0; } /** Helper function for GET /tor/status-vote/current/consensus */ static int handle_get_current_consensus(dir_connection_t *conn, const get_handler_args_t *args) { const compress_method_t compress_method = find_best_compression_method(args->compression_supported, 0); const time_t if_modified_since = args->if_modified_since; int clear_spool = 0; /* v3 network status fetch. */ long lifetime = NETWORKSTATUS_CACHE_LIFETIME; time_t now = time(NULL); parsed_consensus_request_t req; if (parse_consensus_request(&req, args) < 0) { write_short_http_response(conn, 404, "Couldn't parse request"); goto done; } if (digest_list_contains_best_consensus(req.flav, req.diff_from_digests)) { write_short_http_response(conn, 304, "Not modified"); geoip_note_ns_response(GEOIP_REJECT_NOT_MODIFIED); goto done; } struct consensus_cache_entry_t *cached_consensus = NULL; compress_method_t compression_used = NO_METHOD; if (req.diff_from_digests) { cached_consensus = find_best_diff(req.diff_from_digests, req.flav, args->compression_supported, &compression_used); } if (req.diff_only && !cached_consensus) { write_short_http_response(conn, 404, "No such diff available"); // XXXX warn_consensus_is_too_old(v, req.flavor, now); geoip_note_ns_response(GEOIP_REJECT_NOT_FOUND); goto done; } if (! cached_consensus) { cached_consensus = find_best_consensus(req.flav, args->compression_supported, &compression_used); } time_t fresh_until, valid_until; int have_fresh_until = 0, have_valid_until = 0; if (cached_consensus) { have_fresh_until = !consensus_cache_entry_get_fresh_until(cached_consensus, &fresh_until); have_valid_until = !consensus_cache_entry_get_valid_until(cached_consensus, &valid_until); } if (cached_consensus && have_valid_until && !networkstatus_valid_until_is_reasonably_live(valid_until, now)) { write_short_http_response(conn, 404, "Consensus is too old"); warn_consensus_is_too_old(cached_consensus, req.flavor, now); geoip_note_ns_response(GEOIP_REJECT_NOT_FOUND); goto done; } if (cached_consensus && req.want_fps && !client_likes_consensus(cached_consensus, req.want_fps)) { write_short_http_response(conn, 404, "Consensus not signed by sufficient " "number of requested authorities"); geoip_note_ns_response(GEOIP_REJECT_NOT_ENOUGH_SIGS); goto done; } conn->spool = smartlist_new(); clear_spool = 1; { spooled_resource_t *spooled; if (cached_consensus) { spooled = spooled_resource_new_from_cache_entry(cached_consensus); smartlist_add(conn->spool, spooled); } } lifetime = (have_fresh_until && fresh_until > now) ? fresh_until - now : 0; size_t size_guess = 0; int n_expired = 0; dirserv_spool_remove_missing_and_guess_size(conn, if_modified_since, compress_method != NO_METHOD, &size_guess, &n_expired); if (!smartlist_len(conn->spool) && !n_expired) { write_short_http_response(conn, 404, "Not found"); geoip_note_ns_response(GEOIP_REJECT_NOT_FOUND); goto done; } else if (!smartlist_len(conn->spool)) { write_short_http_response(conn, 304, "Not modified"); geoip_note_ns_response(GEOIP_REJECT_NOT_MODIFIED); goto done; } if (global_write_bucket_low(TO_CONN(conn), size_guess, 2)) { log_debug(LD_DIRSERV, "Client asked for network status lists, but we've been " "writing too many bytes lately. Sending 503 Dir busy."); write_short_http_response(conn, 503, "Directory busy, try again later"); geoip_note_ns_response(GEOIP_REJECT_BUSY); goto done; } tor_addr_t addr; if (tor_addr_parse(&addr, (TO_CONN(conn))->address) >= 0) { geoip_note_client_seen(GEOIP_CLIENT_NETWORKSTATUS, &addr, NULL, time(NULL)); geoip_note_ns_response(GEOIP_SUCCESS); /* Note that a request for a network status has started, so that we * can measure the download time later on. */ if (conn->dirreq_id) geoip_start_dirreq(conn->dirreq_id, size_guess, DIRREQ_TUNNELED); else geoip_start_dirreq(TO_CONN(conn)->global_identifier, size_guess, DIRREQ_DIRECT); } /* Use this header to tell caches that the response depends on the * X-Or-Diff-From-Consensus header (or lack thereof). */ const char vary_header[] = "Vary: X-Or-Diff-From-Consensus\r\n"; clear_spool = 0; // The compress_method might have been NO_METHOD, but we store the data // compressed. Decompress them using `compression_used`. See fallback code in // find_best_consensus() and find_best_diff(). write_http_response_headers(conn, -1, compress_method == NO_METHOD ? NO_METHOD : compression_used, vary_header, smartlist_len(conn->spool) == 1 ? lifetime : 0); if (compress_method == NO_METHOD && smartlist_len(conn->spool)) conn->compress_state = tor_compress_new(0, compression_used, HIGH_COMPRESSION); /* Prime the connection with some data. */ const int initial_flush_result = connection_dirserv_flushed_some(conn); tor_assert_nonfatal(initial_flush_result == 0); goto done; done: parsed_consensus_request_clear(&req); if (clear_spool) { dir_conn_clear_spool(conn); } return 0; } /** Helper function for GET /tor/status-vote/{current,next}/... */ static int handle_get_status_vote(dir_connection_t *conn, const get_handler_args_t *args) { const char *url = args->url; { ssize_t body_len = 0; ssize_t estimated_len = 0; int lifetime = 60; /* XXXX?? should actually use vote intervals. */ /* This smartlist holds strings that we can compress on the fly. */ smartlist_t *items = smartlist_new(); /* This smartlist holds cached_dir_t objects that have a precompressed * deflated version. */ smartlist_t *dir_items = smartlist_new(); dirvote_dirreq_get_status_vote(url, items, dir_items); if (!smartlist_len(dir_items) && !smartlist_len(items)) { write_short_http_response(conn, 404, "Not found"); goto vote_done; } /* We're sending items from at most one kind of source */ tor_assert_nonfatal(smartlist_len(items) == 0 || smartlist_len(dir_items) == 0); int streaming; unsigned mask; if (smartlist_len(items)) { /* We're taking strings and compressing them on the fly. */ streaming = 1; mask = ~0u; } else { /* We're taking cached_dir_t objects. We only have them uncompressed * or deflated. */ streaming = 0; mask = (1u<compression_supported&mask, streaming); SMARTLIST_FOREACH(dir_items, cached_dir_t *, d, body_len += compress_method != NO_METHOD ? d->dir_compressed_len : d->dir_len); estimated_len += body_len; SMARTLIST_FOREACH(items, const char *, item, { size_t ln = strlen(item); if (compress_method != NO_METHOD) { estimated_len += ln/2; } else { body_len += ln; estimated_len += ln; } }); if (global_write_bucket_low(TO_CONN(conn), estimated_len, 2)) { write_short_http_response(conn, 503, "Directory busy, try again later"); goto vote_done; } write_http_response_header(conn, body_len ? body_len : -1, compress_method, lifetime); if (smartlist_len(items)) { if (compress_method != NO_METHOD) { conn->compress_state = tor_compress_new(1, compress_method, choose_compression_level(estimated_len)); SMARTLIST_FOREACH(items, const char *, c, connection_buf_add_compress(c, strlen(c), conn, 0)); connection_buf_add_compress("", 0, conn, 1); } else { SMARTLIST_FOREACH(items, const char *, c, connection_buf_add(c, strlen(c), TO_CONN(conn))); } } else { SMARTLIST_FOREACH(dir_items, cached_dir_t *, d, connection_buf_add(compress_method != NO_METHOD ? d->dir_compressed : d->dir, compress_method != NO_METHOD ? d->dir_compressed_len : d->dir_len, TO_CONN(conn))); } vote_done: smartlist_free(items); smartlist_free(dir_items); goto done; } done: return 0; } /** Helper function for GET /tor/micro/d/... */ static int handle_get_microdesc(dir_connection_t *conn, const get_handler_args_t *args) { const char *url = args->url; const compress_method_t compress_method = find_best_compression_method(args->compression_supported, 1); int clear_spool = 1; { conn->spool = smartlist_new(); dir_split_resource_into_spoolable(url+strlen("/tor/micro/d/"), DIR_SPOOL_MICRODESC, conn->spool, NULL, DSR_DIGEST256|DSR_BASE64|DSR_SORT_UNIQ); size_t size_guess = 0; dirserv_spool_remove_missing_and_guess_size(conn, 0, compress_method != NO_METHOD, &size_guess, NULL); if (smartlist_len(conn->spool) == 0) { write_short_http_response(conn, 404, "Not found"); goto done; } if (global_write_bucket_low(TO_CONN(conn), size_guess, 2)) { log_info(LD_DIRSERV, "Client asked for server descriptors, but we've been " "writing too many bytes lately. Sending 503 Dir busy."); write_short_http_response(conn, 503, "Directory busy, try again later"); goto done; } clear_spool = 0; write_http_response_header(conn, -1, compress_method, MICRODESC_CACHE_LIFETIME); if (compress_method != NO_METHOD) conn->compress_state = tor_compress_new(1, compress_method, choose_compression_level(size_guess)); const int initial_flush_result = connection_dirserv_flushed_some(conn); tor_assert_nonfatal(initial_flush_result == 0); goto done; } done: if (clear_spool) { dir_conn_clear_spool(conn); } return 0; } /** Helper function for GET /tor/{server,extra}/... */ static int handle_get_descriptor(dir_connection_t *conn, const get_handler_args_t *args) { const char *url = args->url; const compress_method_t compress_method = find_best_compression_method(args->compression_supported, 1); const or_options_t *options = get_options(); int clear_spool = 1; if (!strcmpstart(url,"/tor/server/") || (!options->BridgeAuthoritativeDir && !options->BridgeRelay && !strcmpstart(url,"/tor/extra/"))) { int res; const char *msg = NULL; int cache_lifetime = 0; int is_extra = !strcmpstart(url,"/tor/extra/"); url += is_extra ? strlen("/tor/extra/") : strlen("/tor/server/"); dir_spool_source_t source; time_t publish_cutoff = 0; if (!strcmpstart(url, "d/")) { source = is_extra ? DIR_SPOOL_EXTRA_BY_DIGEST : DIR_SPOOL_SERVER_BY_DIGEST; } else { source = is_extra ? DIR_SPOOL_EXTRA_BY_FP : DIR_SPOOL_SERVER_BY_FP; /* We only want to apply a publish cutoff when we're requesting * resources by fingerprint. */ publish_cutoff = time(NULL) - ROUTER_MAX_AGE_TO_PUBLISH; } conn->spool = smartlist_new(); res = dirserv_get_routerdesc_spool(conn->spool, url, source, connection_dir_is_encrypted(conn), &msg); if (!strcmpstart(url, "all")) { cache_lifetime = FULL_DIR_CACHE_LIFETIME; } else if (smartlist_len(conn->spool) == 1) { cache_lifetime = ROUTERDESC_BY_DIGEST_CACHE_LIFETIME; } size_t size_guess = 0; int n_expired = 0; dirserv_spool_remove_missing_and_guess_size(conn, publish_cutoff, compress_method != NO_METHOD, &size_guess, &n_expired); /* If we are the bridge authority and the descriptor is a bridge * descriptor, remember that we served this descriptor for desc stats. */ /* XXXX it's a bit of a kludge to have this here. */ if (get_options()->BridgeAuthoritativeDir && source == DIR_SPOOL_SERVER_BY_FP) { SMARTLIST_FOREACH_BEGIN(conn->spool, spooled_resource_t *, spooled) { const routerinfo_t *router = router_get_by_id_digest((const char *)spooled->digest); /* router can be NULL here when the bridge auth is asked for its own * descriptor. */ if (router && router->purpose == ROUTER_PURPOSE_BRIDGE) rep_hist_note_desc_served(router->cache_info.identity_digest); } SMARTLIST_FOREACH_END(spooled); } if (res < 0 || size_guess == 0 || smartlist_len(conn->spool) == 0) { if (msg == NULL) msg = "Not found"; write_short_http_response(conn, 404, msg); } else { if (global_write_bucket_low(TO_CONN(conn), size_guess, 2)) { log_info(LD_DIRSERV, "Client asked for server descriptors, but we've been " "writing too many bytes lately. Sending 503 Dir busy."); write_short_http_response(conn, 503, "Directory busy, try again later"); dir_conn_clear_spool(conn); goto done; } write_http_response_header(conn, -1, compress_method, cache_lifetime); if (compress_method != NO_METHOD) conn->compress_state = tor_compress_new(1, compress_method, choose_compression_level(size_guess)); clear_spool = 0; /* Prime the connection with some data. */ int initial_flush_result = connection_dirserv_flushed_some(conn); tor_assert_nonfatal(initial_flush_result == 0); } goto done; } done: if (clear_spool) dir_conn_clear_spool(conn); return 0; } /** Helper function for GET /tor/keys/... */ static int handle_get_keys(dir_connection_t *conn, const get_handler_args_t *args) { const char *url = args->url; const compress_method_t compress_method = find_best_compression_method(args->compression_supported, 1); const time_t if_modified_since = args->if_modified_since; { smartlist_t *certs = smartlist_new(); ssize_t len = -1; if (!strcmp(url, "/tor/keys/all")) { authority_cert_get_all(certs); } else if (!strcmp(url, "/tor/keys/authority")) { authority_cert_t *cert = get_my_v3_authority_cert(); if (cert) smartlist_add(certs, cert); } else if (!strcmpstart(url, "/tor/keys/fp/")) { smartlist_t *fps = smartlist_new(); dir_split_resource_into_fingerprints(url+strlen("/tor/keys/fp/"), fps, NULL, DSR_HEX|DSR_SORT_UNIQ); SMARTLIST_FOREACH(fps, char *, d, { authority_cert_t *c = authority_cert_get_newest_by_id(d); if (c) smartlist_add(certs, c); tor_free(d); }); smartlist_free(fps); } else if (!strcmpstart(url, "/tor/keys/sk/")) { smartlist_t *fps = smartlist_new(); dir_split_resource_into_fingerprints(url+strlen("/tor/keys/sk/"), fps, NULL, DSR_HEX|DSR_SORT_UNIQ); SMARTLIST_FOREACH(fps, char *, d, { authority_cert_t *c = authority_cert_get_by_sk_digest(d); if (c) smartlist_add(certs, c); tor_free(d); }); smartlist_free(fps); } else if (!strcmpstart(url, "/tor/keys/fp-sk/")) { smartlist_t *fp_sks = smartlist_new(); dir_split_resource_into_fingerprint_pairs(url+strlen("/tor/keys/fp-sk/"), fp_sks); SMARTLIST_FOREACH(fp_sks, fp_pair_t *, pair, { authority_cert_t *c = authority_cert_get_by_digests(pair->first, pair->second); if (c) smartlist_add(certs, c); tor_free(pair); }); smartlist_free(fp_sks); } else { write_short_http_response(conn, 400, "Bad request"); goto keys_done; } if (!smartlist_len(certs)) { write_short_http_response(conn, 404, "Not found"); goto keys_done; } SMARTLIST_FOREACH(certs, authority_cert_t *, c, if (c->cache_info.published_on < if_modified_since) SMARTLIST_DEL_CURRENT(certs, c)); if (!smartlist_len(certs)) { write_short_http_response(conn, 304, "Not modified"); goto keys_done; } len = 0; SMARTLIST_FOREACH(certs, authority_cert_t *, c, len += c->cache_info.signed_descriptor_len); if (global_write_bucket_low(TO_CONN(conn), compress_method != NO_METHOD ? len/2 : len, 2)) { write_short_http_response(conn, 503, "Directory busy, try again later"); goto keys_done; } write_http_response_header(conn, compress_method != NO_METHOD ? -1 : len, compress_method, 60*60); if (compress_method != NO_METHOD) { conn->compress_state = tor_compress_new(1, compress_method, choose_compression_level(len)); SMARTLIST_FOREACH(certs, authority_cert_t *, c, connection_buf_add_compress( c->cache_info.signed_descriptor_body, c->cache_info.signed_descriptor_len, conn, 0)); connection_buf_add_compress("", 0, conn, 1); } else { SMARTLIST_FOREACH(certs, authority_cert_t *, c, connection_buf_add(c->cache_info.signed_descriptor_body, c->cache_info.signed_descriptor_len, TO_CONN(conn))); } keys_done: smartlist_free(certs); goto done; } done: return 0; } /** Helper function for GET /tor/rendezvous2/ */ static int handle_get_hs_descriptor_v2(dir_connection_t *conn, const get_handler_args_t *args) { const char *url = args->url; if (connection_dir_is_encrypted(conn)) { /* Handle v2 rendezvous descriptor fetch request. */ const char *descp; const char *query = url + strlen("/tor/rendezvous2/"); if (rend_valid_descriptor_id(query)) { log_info(LD_REND, "Got a v2 rendezvous descriptor request for ID '%s'", safe_str(escaped(query))); switch (rend_cache_lookup_v2_desc_as_dir(query, &descp)) { case 1: /* valid */ write_http_response_header(conn, strlen(descp), NO_METHOD, 0); connection_buf_add(descp, strlen(descp), TO_CONN(conn)); break; case 0: /* well-formed but not present */ write_short_http_response(conn, 404, "Not found"); break; case -1: /* not well-formed */ write_short_http_response(conn, 400, "Bad request"); break; } } else { /* not well-formed */ write_short_http_response(conn, 400, "Bad request"); } goto done; } else { /* Not encrypted! */ write_short_http_response(conn, 404, "Not found"); } done: return 0; } /** Helper function for GET /tor/hs/3/. Only for version 3. */ STATIC int handle_get_hs_descriptor_v3(dir_connection_t *conn, const get_handler_args_t *args) { int retval; const char *desc_str = NULL; const char *pubkey_str = NULL; const char *url = args->url; /* Reject unencrypted dir connections */ if (!connection_dir_is_encrypted(conn)) { write_short_http_response(conn, 404, "Not found"); goto done; } /* After the path prefix follows the base64 encoded blinded pubkey which we * use to get the descriptor from the cache. Skip the prefix and get the * pubkey. */ tor_assert(!strcmpstart(url, "/tor/hs/3/")); pubkey_str = url + strlen("/tor/hs/3/"); retval = hs_cache_lookup_as_dir(HS_VERSION_THREE, pubkey_str, &desc_str); if (retval <= 0 || desc_str == NULL) { write_short_http_response(conn, 404, "Not found"); goto done; } /* Found requested descriptor! Pass it to this nice client. */ write_http_response_header(conn, strlen(desc_str), NO_METHOD, 0); connection_buf_add(desc_str, strlen(desc_str), TO_CONN(conn)); done: return 0; } /** Helper function for GET /tor/networkstatus-bridges */ static int handle_get_networkstatus_bridges(dir_connection_t *conn, const get_handler_args_t *args) { const char *headers = args->headers; const or_options_t *options = get_options(); if (options->BridgeAuthoritativeDir && options->BridgePassword_AuthDigest_ && connection_dir_is_encrypted(conn)) { char *status; char digest[DIGEST256_LEN]; char *header = http_get_header(headers, "Authorization: Basic "); if (header) crypto_digest256(digest, header, strlen(header), DIGEST_SHA256); /* now make sure the password is there and right */ if (!header || tor_memneq(digest, options->BridgePassword_AuthDigest_, DIGEST256_LEN)) { write_short_http_response(conn, 404, "Not found"); tor_free(header); goto done; } tor_free(header); /* all happy now. send an answer. */ status = networkstatus_getinfo_by_purpose("bridge", time(NULL)); size_t dlen = strlen(status); write_http_response_header(conn, dlen, NO_METHOD, 0); connection_buf_add(status, dlen, TO_CONN(conn)); tor_free(status); goto done; } done: return 0; } /** Helper function for GET robots.txt or /tor/robots.txt */ static int handle_get_robots(dir_connection_t *conn, const get_handler_args_t *args) { (void)args; { const char robots[] = "User-agent: *\r\nDisallow: /\r\n"; size_t len = strlen(robots); write_http_response_header(conn, len, NO_METHOD, ROBOTS_CACHE_LIFETIME); connection_buf_add(robots, len, TO_CONN(conn)); } return 0; } /* Given the url from a POST request, try to extract the version number * using the provided prefix. The version should be after the prefix and * ending with the separator "/". For instance: * /tor/hs/3/publish * * On success, end_pos points to the position right after the version * was found. On error, it is set to NULL. * * Return version on success else negative value. */ STATIC int parse_hs_version_from_post(const char *url, const char *prefix, const char **end_pos) { int ok; unsigned long version; const char *start; char *end = NULL; tor_assert(url); tor_assert(prefix); tor_assert(end_pos); /* Check if the prefix does start the url. */ if (strcmpstart(url, prefix)) { goto err; } /* Move pointer to the end of the prefix string. */ start = url + strlen(prefix); /* Try this to be the HS version and if we are still at the separator, next * will be move to the right value. */ version = tor_parse_long(start, 10, 0, INT_MAX, &ok, &end); if (!ok) { goto err; } *end_pos = end; return (int) version; err: *end_pos = NULL; return -1; } /* Handle the POST request for a hidden service descripror. The request is in * url, the body of the request is in body. Return 200 on success * else return 400 indicating a bad request. */ STATIC int handle_post_hs_descriptor(const char *url, const char *body) { int version; const char *end_pos; tor_assert(url); tor_assert(body); version = parse_hs_version_from_post(url, "/tor/hs/", &end_pos); if (version < 0) { goto err; } /* We have a valid version number, now make sure it's a publish request. Use * the end position just after the version and check for the command. */ if (strcmpstart(end_pos, "/publish")) { goto err; } switch (version) { case HS_VERSION_THREE: if (hs_cache_store_as_dir(body) < 0) { goto err; } log_info(LD_REND, "Publish request for HS descriptor handled " "successfully."); break; default: /* Unsupported version, return a bad request. */ goto err; } return 200; err: /* Bad request. */ return 400; } /** Helper function: called when a dirserver gets a complete HTTP POST * request. Look for an uploaded server descriptor or rendezvous * service descriptor. On finding one, process it and write a * response into conn-\>outbuf. If the request is unrecognized, send a * 400. Always return 0. */ MOCK_IMPL(STATIC int, directory_handle_command_post,(dir_connection_t *conn, const char *headers, const char *body, size_t body_len)) { char *url = NULL; const or_options_t *options = get_options(); log_debug(LD_DIRSERV,"Received POST command."); conn->base_.state = DIR_CONN_STATE_SERVER_WRITING; if (!public_server_mode(options)) { log_info(LD_DIR, "Rejected dir post request from %s " "since we're not a public relay.", conn->base_.address); write_short_http_response(conn, 503, "Not acting as a public relay"); goto done; } if (parse_http_url(headers, &url) < 0) { write_short_http_response(conn, 400, "Bad request"); return 0; } log_debug(LD_DIRSERV,"rewritten url as '%s'.", escaped(url)); /* Handle v2 rendezvous service publish request. */ if (connection_dir_is_encrypted(conn) && !strcmpstart(url,"/tor/rendezvous2/publish")) { if (rend_cache_store_v2_desc_as_dir(body) < 0) { log_warn(LD_REND, "Rejected v2 rend descriptor (body size %d) from %s.", (int)body_len, conn->base_.address); write_short_http_response(conn, 400, "Invalid v2 service descriptor rejected"); } else { write_short_http_response(conn, 200, "Service descriptor (v2) stored"); log_info(LD_REND, "Handled v2 rendezvous descriptor post: accepted"); } goto done; } /* Handle HS descriptor publish request. */ /* XXX: This should be disabled with a consensus param until we want to * the prop224 be deployed and thus use. */ if (connection_dir_is_encrypted(conn) && !strcmpstart(url, "/tor/hs/")) { const char *msg = "HS descriptor stored successfully."; /* We most probably have a publish request for an HS descriptor. */ int code = handle_post_hs_descriptor(url, body); if (code != 200) { msg = "Invalid HS descriptor. Rejected."; } write_short_http_response(conn, code, msg); goto done; } if (!authdir_mode(options)) { /* we just provide cached directories; we don't want to * receive anything. */ write_short_http_response(conn, 400, "Nonauthoritative directory does not " "accept posted server descriptors"); goto done; } if (authdir_mode(options) && !strcmp(url,"/tor/")) { /* server descriptor post */ const char *msg = "[None]"; uint8_t purpose = authdir_mode_bridge(options) ? ROUTER_PURPOSE_BRIDGE : ROUTER_PURPOSE_GENERAL; was_router_added_t r = dirserv_add_multiple_descriptors(body, purpose, conn->base_.address, &msg); tor_assert(msg); if (r == ROUTER_ADDED_SUCCESSFULLY) { write_short_http_response(conn, 200, msg); } else if (WRA_WAS_OUTDATED(r)) { write_http_response_header_impl(conn, -1, NULL, NULL, "X-Descriptor-Not-New: Yes\r\n", -1); } else { log_info(LD_DIRSERV, "Rejected router descriptor or extra-info from %s " "(\"%s\").", conn->base_.address, msg); write_short_http_response(conn, 400, msg); } goto done; } if (authdir_mode_v3(options) && !strcmp(url,"/tor/post/vote")) { /* v3 networkstatus vote */ const char *msg = "OK"; int status; if (dirvote_add_vote(body, &msg, &status)) { write_short_http_response(conn, status, "Vote stored"); } else { tor_assert(msg); log_warn(LD_DIRSERV, "Rejected vote from %s (\"%s\").", conn->base_.address, msg); write_short_http_response(conn, status, msg); } goto done; } if (authdir_mode_v3(options) && !strcmp(url,"/tor/post/consensus-signature")) { /* sigs on consensus. */ const char *msg = NULL; if (dirvote_add_signatures(body, conn->base_.address, &msg)>=0) { write_short_http_response(conn, 200, msg?msg:"Signatures stored"); } else { log_warn(LD_DIR, "Unable to store signatures posted by %s: %s", conn->base_.address, msg?msg:"???"); write_short_http_response(conn, 400, msg?msg:"Unable to store signatures"); } goto done; } /* we didn't recognize the url */ write_short_http_response(conn, 404, "Not found"); done: tor_free(url); return 0; } /** Called when a dirserver receives data on a directory connection; * looks for an HTTP request. If the request is complete, remove it * from the inbuf, try to process it; otherwise, leave it on the * buffer. Return a 0 on success, or -1 on error. */ STATIC int directory_handle_command(dir_connection_t *conn) { char *headers=NULL, *body=NULL; size_t body_len=0; int r; tor_assert(conn); tor_assert(conn->base_.type == CONN_TYPE_DIR); switch (connection_fetch_from_buf_http(TO_CONN(conn), &headers, MAX_HEADERS_SIZE, &body, &body_len, MAX_DIR_UL_SIZE, 0)) { case -1: /* overflow */ log_warn(LD_DIRSERV, "Request too large from address '%s' to DirPort. Closing.", safe_str(conn->base_.address)); return -1; case 0: log_debug(LD_DIRSERV,"command not all here yet."); return 0; /* case 1, fall through */ } http_set_address_origin(headers, TO_CONN(conn)); // we should escape headers here as well, // but we can't call escaped() twice, as it uses the same buffer //log_debug(LD_DIRSERV,"headers %s, body %s.", headers, escaped(body)); if (!strncasecmp(headers,"GET",3)) r = directory_handle_command_get(conn, headers, body, body_len); else if (!strncasecmp(headers,"POST",4)) r = directory_handle_command_post(conn, headers, body, body_len); else { log_fn(LOG_PROTOCOL_WARN, LD_PROTOCOL, "Got headers %s with unknown command. Closing.", escaped(headers)); r = -1; } tor_free(headers); tor_free(body); return r; } /** Write handler for directory connections; called when all data has * been flushed. Close the connection or wait for a response as * appropriate. */ int connection_dir_finished_flushing(dir_connection_t *conn) { tor_assert(conn); tor_assert(conn->base_.type == CONN_TYPE_DIR); /* Note that we have finished writing the directory response. For direct * connections this means we're done; for tunneled connections it's only * an intermediate step. */ if (conn->dirreq_id) geoip_change_dirreq_state(conn->dirreq_id, DIRREQ_TUNNELED, DIRREQ_FLUSHING_DIR_CONN_FINISHED); else geoip_change_dirreq_state(TO_CONN(conn)->global_identifier, DIRREQ_DIRECT, DIRREQ_FLUSHING_DIR_CONN_FINISHED); switch (conn->base_.state) { case DIR_CONN_STATE_CONNECTING: case DIR_CONN_STATE_CLIENT_SENDING: log_debug(LD_DIR,"client finished sending command."); conn->base_.state = DIR_CONN_STATE_CLIENT_READING; return 0; case DIR_CONN_STATE_SERVER_WRITING: if (conn->spool) { log_warn(LD_BUG, "Emptied a dirserv buffer, but it's still spooling!"); connection_mark_for_close(TO_CONN(conn)); } else { log_debug(LD_DIRSERV, "Finished writing server response. Closing."); connection_mark_for_close(TO_CONN(conn)); } return 0; default: log_warn(LD_BUG,"called in unexpected state %d.", conn->base_.state); tor_fragile_assert(); return -1; } return 0; } /* We just got a new consensus! If there are other in-progress requests * for this consensus flavor (for example because we launched several in * parallel), cancel them. * * We do this check here (not just in * connection_ap_handshake_attach_circuit()) to handle the edge case where * a consensus fetch begins and ends before some other one tries to attach to * a circuit, in which case the other one won't know that we're all happy now. * * Don't mark the conn that just gave us the consensus -- otherwise we * would end up double-marking it when it cleans itself up. */ static void connection_dir_close_consensus_fetches(dir_connection_t *except_this_one, const char *resource) { smartlist_t *conns_to_close = connection_dir_list_by_purpose_and_resource(DIR_PURPOSE_FETCH_CONSENSUS, resource); SMARTLIST_FOREACH_BEGIN(conns_to_close, dir_connection_t *, d) { if (d == except_this_one) continue; log_info(LD_DIR, "Closing consensus fetch (to %s) since one " "has just arrived.", TO_CONN(d)->address); connection_mark_for_close(TO_CONN(d)); } SMARTLIST_FOREACH_END(d); smartlist_free(conns_to_close); } /** Connected handler for directory connections: begin sending data to the * server, and return 0. * Only used when connections don't immediately connect. */ int connection_dir_finished_connecting(dir_connection_t *conn) { tor_assert(conn); tor_assert(conn->base_.type == CONN_TYPE_DIR); tor_assert(conn->base_.state == DIR_CONN_STATE_CONNECTING); log_debug(LD_HTTP,"Dir connection to router %s:%u established.", conn->base_.address,conn->base_.port); /* start flushing conn */ conn->base_.state = DIR_CONN_STATE_CLIENT_SENDING; return 0; } /** Decide which download schedule we want to use based on descriptor type * in dls and options. * * Then, return the initial delay for that download schedule, in seconds. * * Helper function for download_status_increment_failure(), * download_status_reset(), and download_status_increment_attempt(). */ STATIC int find_dl_min_delay(const download_status_t *dls, const or_options_t *options) { tor_assert(dls); tor_assert(options); switch (dls->schedule) { case DL_SCHED_GENERIC: /* Any other directory document */ if (dir_server_mode(options)) { /* A directory authority or directory mirror */ return options->TestingServerDownloadInitialDelay; } else { return options->TestingClientDownloadInitialDelay; } case DL_SCHED_CONSENSUS: if (!networkstatus_consensus_can_use_multiple_directories(options)) { /* A public relay */ return options->TestingServerConsensusDownloadInitialDelay; } else { /* A client or bridge */ if (networkstatus_consensus_is_bootstrapping(time(NULL))) { /* During bootstrapping */ if (!networkstatus_consensus_can_use_extra_fallbacks(options)) { /* A bootstrapping client without extra fallback directories */ return options-> ClientBootstrapConsensusAuthorityOnlyDownloadInitialDelay; } else if (dls->want_authority) { /* A bootstrapping client with extra fallback directories, but * connecting to an authority */ return options->ClientBootstrapConsensusAuthorityDownloadInitialDelay; } else { /* A bootstrapping client connecting to extra fallback directories */ return options->ClientBootstrapConsensusFallbackDownloadInitialDelay; } } else { /* A client with a reasonably live consensus, with or without * certificates */ return options->TestingClientConsensusDownloadInitialDelay; } } case DL_SCHED_BRIDGE: if (options->UseBridges && num_bridges_usable(0) > 0) { /* A bridge client that is sure that one or more of its bridges are * running can afford to wait longer to update bridge descriptors. */ return options->TestingBridgeDownloadInitialDelay; } else { /* A bridge client which might have no running bridges, must try to * get bridge descriptors straight away. */ return options->TestingBridgeBootstrapDownloadInitialDelay; } default: tor_assert(0); } /* Impossible, but gcc will fail with -Werror without a `return`. */ return 0; } /** As next_random_exponential_delay() below, but does not compute a random * value. Instead, compute the range of values that * next_random_exponential_delay() should use when computing its random value. * Store the low bound into *low_bound_out, and the high bound into * *high_bound_out. Guarantees that the low bound is strictly less * than the high bound. */ STATIC void next_random_exponential_delay_range(int *low_bound_out, int *high_bound_out, int delay, int base_delay) { // This is the "decorrelated jitter" approach, from // https://www.awsarchitectureblog.com/2015/03/backoff.html // The formula is // sleep = min(cap, random_between(base, sleep * 3)) const int delay_times_3 = delay < INT_MAX/3 ? delay * 3 : INT_MAX; *low_bound_out = base_delay; if (delay_times_3 > base_delay) { *high_bound_out = delay_times_3; } else { *high_bound_out = base_delay+1; } } /** Advance one delay step. The algorithm will generate a random delay, * such that each failure is possibly (random) longer than the ones before. * * We then clamp that value to be no larger than max_delay, and return it. * * The base_delay parameter is lowest possible delay time (can't be * zero); the backoff_position parameter is the number of times we've * generated a delay; and the delay argument is the most recently used * delay. */ STATIC int next_random_exponential_delay(int delay, int base_delay) { /* Check preconditions */ if (BUG(delay < 0)) delay = 0; if (base_delay < 1) base_delay = 1; int low_bound=0, high_bound=INT_MAX; next_random_exponential_delay_range(&low_bound, &high_bound, delay, base_delay); return crypto_rand_int_range(low_bound, high_bound); } /** Find the current delay for dls based on min_delay. * * This function sets dls->next_attempt_at based on now, and returns the delay. * Helper for download_status_increment_failure and * download_status_increment_attempt. */ STATIC int download_status_schedule_get_delay(download_status_t *dls, int min_delay, time_t now) { tor_assert(dls); /* If we're using random exponential backoff, we do need min/max delay */ tor_assert(min_delay >= 0); int delay = INT_MAX; uint8_t dls_schedule_position = (dls->increment_on == DL_SCHED_INCREMENT_ATTEMPT ? dls->n_download_attempts : dls->n_download_failures); /* Check if we missed a reset somehow */ IF_BUG_ONCE(dls->last_backoff_position > dls_schedule_position) { dls->last_backoff_position = 0; dls->last_delay_used = 0; } if (dls_schedule_position > 0) { delay = dls->last_delay_used; while (dls->last_backoff_position < dls_schedule_position) { /* Do one increment step */ delay = next_random_exponential_delay(delay, min_delay); /* Update our position */ ++(dls->last_backoff_position); } } else { /* If we're just starting out, use the minimum delay */ delay = min_delay; } /* Clamp it within min/max if we have them */ if (min_delay >= 0 && delay < min_delay) delay = min_delay; /* Store it for next time */ dls->last_backoff_position = dls_schedule_position; dls->last_delay_used = delay; /* A negative delay makes no sense. Knowing that delay is * non-negative allows us to safely do the wrapping check below. */ tor_assert(delay >= 0); /* Avoid now+delay overflowing TIME_MAX, by comparing with a subtraction * that won't overflow (since delay is non-negative). */ if (delay < INT_MAX && now <= TIME_MAX - delay) { dls->next_attempt_at = now+delay; } else { dls->next_attempt_at = TIME_MAX; } return delay; } /* Log a debug message about item, which increments on increment_action, has * incremented dls_n_download_increments times. The message varies based on * was_schedule_incremented (if not, not_incremented_response is logged), and * the values of increment, dls_next_attempt_at, and now. * Helper for download_status_increment_failure and * download_status_increment_attempt. */ static void download_status_log_helper(const char *item, int was_schedule_incremented, const char *increment_action, const char *not_incremented_response, uint8_t dls_n_download_increments, int increment, time_t dls_next_attempt_at, time_t now) { if (item) { if (!was_schedule_incremented) log_debug(LD_DIR, "%s %s %d time(s); I'll try again %s.", item, increment_action, (int)dls_n_download_increments, not_incremented_response); else if (increment == 0) log_debug(LD_DIR, "%s %s %d time(s); I'll try again immediately.", item, increment_action, (int)dls_n_download_increments); else if (dls_next_attempt_at < TIME_MAX) log_debug(LD_DIR, "%s %s %d time(s); I'll try again in %d seconds.", item, increment_action, (int)dls_n_download_increments, (int)(dls_next_attempt_at-now)); else log_debug(LD_DIR, "%s %s %d time(s); Giving up for a while.", item, increment_action, (int)dls_n_download_increments); } } /** Determine when a failed download attempt should be retried. * Called when an attempt to download dls has failed with HTTP status * status_code. Increment the failure count (if the code indicates a * real failure, or if we're a server) and set dls-\>next_attempt_at to * an appropriate time in the future and return it. * If dls->increment_on is DL_SCHED_INCREMENT_ATTEMPT, increment the * failure count, and return a time in the far future for the next attempt (to * avoid an immediate retry). */ time_t download_status_increment_failure(download_status_t *dls, int status_code, const char *item, int server, time_t now) { (void) status_code; // XXXX no longer used. (void) server; // XXXX no longer used. int increment = -1; int min_delay = 0; tor_assert(dls); /* dls wasn't reset before it was used */ if (dls->next_attempt_at == 0) { download_status_reset(dls); } /* count the failure */ if (dls->n_download_failures < IMPOSSIBLE_TO_DOWNLOAD-1) { ++dls->n_download_failures; } if (dls->increment_on == DL_SCHED_INCREMENT_FAILURE) { /* We don't find out that a failure-based schedule has attempted a * connection until that connection fails. * We'll never find out about successful connections, but this doesn't * matter, because schedules are reset after a successful download. */ if (dls->n_download_attempts < IMPOSSIBLE_TO_DOWNLOAD-1) ++dls->n_download_attempts; /* only return a failure retry time if this schedule increments on failures */ min_delay = find_dl_min_delay(dls, get_options()); increment = download_status_schedule_get_delay(dls, min_delay, now); } download_status_log_helper(item, !dls->increment_on, "failed", "concurrently", dls->n_download_failures, increment, download_status_get_next_attempt_at(dls), now); if (dls->increment_on == DL_SCHED_INCREMENT_ATTEMPT) { /* stop this schedule retrying on failure, it will launch concurrent * connections instead */ return TIME_MAX; } else { return download_status_get_next_attempt_at(dls); } } /** Determine when the next download attempt should be made when using an * attempt-based (potentially concurrent) download schedule. * Called when an attempt to download dls is being initiated. * Increment the attempt count and set dls-\>next_attempt_at to an * appropriate time in the future and return it. * If dls->increment_on is DL_SCHED_INCREMENT_FAILURE, don't increment * the attempts, and return a time in the far future (to avoid launching a * concurrent attempt). */ time_t download_status_increment_attempt(download_status_t *dls, const char *item, time_t now) { int delay = -1; int min_delay = 0; tor_assert(dls); /* dls wasn't reset before it was used */ if (dls->next_attempt_at == 0) { download_status_reset(dls); } if (dls->increment_on == DL_SCHED_INCREMENT_FAILURE) { /* this schedule should retry on failure, and not launch any concurrent attempts */ log_warn(LD_BUG, "Tried to launch an attempt-based connection on a " "failure-based schedule."); return TIME_MAX; } if (dls->n_download_attempts < IMPOSSIBLE_TO_DOWNLOAD-1) ++dls->n_download_attempts; min_delay = find_dl_min_delay(dls, get_options()); delay = download_status_schedule_get_delay(dls, min_delay, now); download_status_log_helper(item, dls->increment_on, "attempted", "on failure", dls->n_download_attempts, delay, download_status_get_next_attempt_at(dls), now); return download_status_get_next_attempt_at(dls); } static time_t download_status_get_initial_delay_from_now(const download_status_t *dls) { /* We use constant initial delays, even in exponential backoff * schedules. */ return time(NULL) + find_dl_min_delay(dls, get_options()); } /** Reset dls so that it will be considered downloadable * immediately, and/or to show that we don't need it anymore. * * Must be called to initialise a download schedule, otherwise the zeroth item * in the schedule will never be used. * * (We find the zeroth element of the download schedule, and set * next_attempt_at to be the appropriate offset from 'now'. In most * cases this means setting it to 'now', so the item will be immediately * downloadable; when using authorities with fallbacks, there is a few seconds' * delay.) */ void download_status_reset(download_status_t *dls) { if (dls->n_download_failures == IMPOSSIBLE_TO_DOWNLOAD || dls->n_download_attempts == IMPOSSIBLE_TO_DOWNLOAD) return; /* Don't reset this. */ dls->n_download_failures = 0; dls->n_download_attempts = 0; dls->next_attempt_at = download_status_get_initial_delay_from_now(dls); dls->last_backoff_position = 0; dls->last_delay_used = 0; /* Don't reset dls->want_authority or dls->increment_on */ } /** Return true iff, as of now, the resource tracked by dls is * ready to get its download reattempted. */ int download_status_is_ready(download_status_t *dls, time_t now) { /* dls wasn't reset before it was used */ if (dls->next_attempt_at == 0) { download_status_reset(dls); } return download_status_get_next_attempt_at(dls) <= now; } /** Mark dl as never downloadable. */ void download_status_mark_impossible(download_status_t *dl) { dl->n_download_failures = IMPOSSIBLE_TO_DOWNLOAD; dl->n_download_attempts = IMPOSSIBLE_TO_DOWNLOAD; } /** Return the number of failures on dls since the last success (if * any). */ int download_status_get_n_failures(const download_status_t *dls) { return dls->n_download_failures; } /** Return the number of attempts to download dls since the last success * (if any). This can differ from download_status_get_n_failures() due to * outstanding concurrent attempts. */ int download_status_get_n_attempts(const download_status_t *dls) { return dls->n_download_attempts; } /** Return the next time to attempt to download dls. */ time_t download_status_get_next_attempt_at(const download_status_t *dls) { /* dls wasn't reset before it was used */ if (dls->next_attempt_at == 0) { /* so give the answer we would have given if it had been */ return download_status_get_initial_delay_from_now(dls); } return dls->next_attempt_at; } /** Called when one or more routerdesc (or extrainfo, if was_extrainfo) * fetches have failed (with uppercase fingerprints listed in failed, * either as descriptor digests or as identity digests based on * was_descriptor_digests). */ static void dir_routerdesc_download_failed(smartlist_t *failed, int status_code, int router_purpose, int was_extrainfo, int was_descriptor_digests) { char digest[DIGEST_LEN]; time_t now = time(NULL); int server = directory_fetches_from_authorities(get_options()); if (!was_descriptor_digests) { if (router_purpose == ROUTER_PURPOSE_BRIDGE) { tor_assert(!was_extrainfo); connection_dir_retry_bridges(failed); } return; /* FFFF should implement for other-than-router-purpose someday */ } SMARTLIST_FOREACH_BEGIN(failed, const char *, cp) { download_status_t *dls = NULL; if (base16_decode(digest, DIGEST_LEN, cp, strlen(cp)) != DIGEST_LEN) { log_warn(LD_BUG, "Malformed fingerprint in list: %s", escaped(cp)); continue; } if (was_extrainfo) { signed_descriptor_t *sd = router_get_by_extrainfo_digest(digest); if (sd) dls = &sd->ei_dl_status; } else { dls = router_get_dl_status_by_descriptor_digest(digest); } if (!dls) continue; download_status_increment_failure(dls, status_code, cp, server, now); } SMARTLIST_FOREACH_END(cp); /* No need to relaunch descriptor downloads here: we already do it * every 10 or 60 seconds (FOO_DESCRIPTOR_RETRY_INTERVAL) in main.c. */ } /** Called when a connection to download microdescriptors from relay with * dir_id has failed in whole or in part. failed is a list * of every microdesc digest we didn't get. status_code is the http * status code we received. Reschedule the microdesc downloads as * appropriate. */ static void dir_microdesc_download_failed(smartlist_t *failed, int status_code, const char *dir_id) { networkstatus_t *consensus = networkstatus_get_latest_consensus_by_flavor(FLAV_MICRODESC); routerstatus_t *rs; download_status_t *dls; time_t now = time(NULL); int server = directory_fetches_from_authorities(get_options()); if (! consensus) return; /* We failed to fetch a microdescriptor from 'dir_id', note it down * so that we don't try the same relay next time... */ microdesc_note_outdated_dirserver(dir_id); SMARTLIST_FOREACH_BEGIN(failed, const char *, d) { rs = router_get_mutable_consensus_status_by_descriptor_digest(consensus,d); if (!rs) continue; dls = &rs->dl_status; { /* Increment the failure count for this md fetch */ char buf[BASE64_DIGEST256_LEN+1]; digest256_to_base64(buf, d); log_info(LD_DIR, "Failed to download md %s from %s", buf, hex_str(dir_id, DIGEST_LEN)); download_status_increment_failure(dls, status_code, buf, server, now); } } SMARTLIST_FOREACH_END(d); } /** Helper. Compare two fp_pair_t objects, and return negative, 0, or * positive as appropriate. */ static int compare_pairs_(const void **a, const void **b) { const fp_pair_t *fp1 = *a, *fp2 = *b; int r; if ((r = fast_memcmp(fp1->first, fp2->first, DIGEST_LEN))) return r; else return fast_memcmp(fp1->second, fp2->second, DIGEST_LEN); } /** Divide a string res of the form FP1-FP2+FP3-FP4...[.z], where each * FP is a hex-encoded fingerprint, into a sequence of distinct sorted * fp_pair_t. Skip malformed pairs. On success, return 0 and add those * fp_pair_t into pairs_out. On failure, return -1. */ int dir_split_resource_into_fingerprint_pairs(const char *res, smartlist_t *pairs_out) { smartlist_t *pairs_tmp = smartlist_new(); smartlist_t *pairs_result = smartlist_new(); smartlist_split_string(pairs_tmp, res, "+", 0, 0); if (smartlist_len(pairs_tmp)) { char *last = smartlist_get(pairs_tmp,smartlist_len(pairs_tmp)-1); size_t last_len = strlen(last); if (last_len > 2 && !strcmp(last+last_len-2, ".z")) { last[last_len-2] = '\0'; } } SMARTLIST_FOREACH_BEGIN(pairs_tmp, char *, cp) { if (strlen(cp) != HEX_DIGEST_LEN*2+1) { log_info(LD_DIR, "Skipping digest pair %s with non-standard length.", escaped(cp)); } else if (cp[HEX_DIGEST_LEN] != '-') { log_info(LD_DIR, "Skipping digest pair %s with missing dash.", escaped(cp)); } else { fp_pair_t pair; if (base16_decode(pair.first, DIGEST_LEN, cp, HEX_DIGEST_LEN) != DIGEST_LEN || base16_decode(pair.second,DIGEST_LEN, cp+HEX_DIGEST_LEN+1, HEX_DIGEST_LEN) != DIGEST_LEN) { log_info(LD_DIR, "Skipping non-decodable digest pair %s", escaped(cp)); } else { smartlist_add(pairs_result, tor_memdup(&pair, sizeof(pair))); } } tor_free(cp); } SMARTLIST_FOREACH_END(cp); smartlist_free(pairs_tmp); /* Uniq-and-sort */ smartlist_sort(pairs_result, compare_pairs_); smartlist_uniq(pairs_result, compare_pairs_, tor_free_); smartlist_add_all(pairs_out, pairs_result); smartlist_free(pairs_result); return 0; } /** Given a directory resource request, containing zero * or more strings separated by plus signs, followed optionally by ".z", store * the strings, in order, into fp_out. If compressed_out is * non-NULL, set it to 1 if the resource ends in ".z", else set it to 0. * * If (flags & DSR_HEX), then delete all elements that aren't hex digests, and * decode the rest. If (flags & DSR_BASE64), then use "-" rather than "+" as * a separator, delete all the elements that aren't base64-encoded digests, * and decode the rest. If (flags & DSR_DIGEST256), these digests should be * 256 bits long; else they should be 160. * * If (flags & DSR_SORT_UNIQ), then sort the list and remove all duplicates. */ int dir_split_resource_into_fingerprints(const char *resource, smartlist_t *fp_out, int *compressed_out, int flags) { const int decode_hex = flags & DSR_HEX; const int decode_base64 = flags & DSR_BASE64; const int digests_are_256 = flags & DSR_DIGEST256; const int sort_uniq = flags & DSR_SORT_UNIQ; const int digest_len = digests_are_256 ? DIGEST256_LEN : DIGEST_LEN; const int hex_digest_len = digests_are_256 ? HEX_DIGEST256_LEN : HEX_DIGEST_LEN; const int base64_digest_len = digests_are_256 ? BASE64_DIGEST256_LEN : BASE64_DIGEST_LEN; smartlist_t *fp_tmp = smartlist_new(); tor_assert(!(decode_hex && decode_base64)); tor_assert(fp_out); smartlist_split_string(fp_tmp, resource, decode_base64?"-":"+", 0, 0); if (compressed_out) *compressed_out = 0; if (smartlist_len(fp_tmp)) { char *last = smartlist_get(fp_tmp,smartlist_len(fp_tmp)-1); size_t last_len = strlen(last); if (last_len > 2 && !strcmp(last+last_len-2, ".z")) { last[last_len-2] = '\0'; if (compressed_out) *compressed_out = 1; } } if (decode_hex || decode_base64) { const size_t encoded_len = decode_hex ? hex_digest_len : base64_digest_len; int i; char *cp, *d = NULL; for (i = 0; i < smartlist_len(fp_tmp); ++i) { cp = smartlist_get(fp_tmp, i); if (strlen(cp) != encoded_len) { log_info(LD_DIR, "Skipping digest %s with non-standard length.", escaped(cp)); smartlist_del_keeporder(fp_tmp, i--); goto again; } d = tor_malloc_zero(digest_len); if (decode_hex ? (base16_decode(d, digest_len, cp, hex_digest_len) != digest_len) : (base64_decode(d, digest_len, cp, base64_digest_len) != digest_len)) { log_info(LD_DIR, "Skipping non-decodable digest %s", escaped(cp)); smartlist_del_keeporder(fp_tmp, i--); goto again; } smartlist_set(fp_tmp, i, d); d = NULL; again: tor_free(cp); tor_free(d); } } if (sort_uniq) { if (decode_hex || decode_base64) { if (digests_are_256) { smartlist_sort_digests256(fp_tmp); smartlist_uniq_digests256(fp_tmp); } else { smartlist_sort_digests(fp_tmp); smartlist_uniq_digests(fp_tmp); } } else { smartlist_sort_strings(fp_tmp); smartlist_uniq_strings(fp_tmp); } } smartlist_add_all(fp_out, fp_tmp); smartlist_free(fp_tmp); return 0; } /** As dir_split_resource_into_fingerprints, but instead fills * spool_out with a list of spoolable_resource_t for the resource * identified through source. */ int dir_split_resource_into_spoolable(const char *resource, dir_spool_source_t source, smartlist_t *spool_out, int *compressed_out, int flags) { smartlist_t *fingerprints = smartlist_new(); tor_assert(flags & (DSR_HEX|DSR_BASE64)); const size_t digest_len = (flags & DSR_DIGEST256) ? DIGEST256_LEN : DIGEST_LEN; int r = dir_split_resource_into_fingerprints(resource, fingerprints, compressed_out, flags); /* This is not a very efficient implementation XXXX */ SMARTLIST_FOREACH_BEGIN(fingerprints, uint8_t *, digest) { spooled_resource_t *spooled = spooled_resource_new(source, digest, digest_len); if (spooled) smartlist_add(spool_out, spooled); tor_free(digest); } SMARTLIST_FOREACH_END(digest); smartlist_free(fingerprints); return r; }