/* Copyright (c) 2016-2019, The Tor Project, Inc. */ /* See LICENSE for licensing information */ /** * \file hs_intropoint.c * \brief Implement next generation introductions point functionality **/ #define HS_INTROPOINT_PRIVATE #include "core/or/or.h" #include "app/config/config.h" #include "core/or/circuitlist.h" #include "core/or/circuituse.h" #include "core/or/relay.h" #include "feature/rend/rendmid.h" #include "feature/stats/rephist.h" #include "lib/crypt_ops/crypto_format.h" /* Trunnel */ #include "trunnel/ed25519_cert.h" #include "trunnel/hs/cell_common.h" #include "trunnel/hs/cell_establish_intro.h" #include "trunnel/hs/cell_introduce1.h" #include "feature/hs/hs_circuitmap.h" #include "feature/hs/hs_descriptor.h" #include "feature/hs/hs_intropoint.h" #include "feature/hs/hs_common.h" #include "core/or/or_circuit_st.h" /** Extract the authentication key from an ESTABLISH_INTRO or INTRODUCE1 using * the given cell_type from cell and place it in * auth_key_out. */ STATIC void get_auth_key_from_cell(ed25519_public_key_t *auth_key_out, unsigned int cell_type, const void *cell) { size_t auth_key_len; const uint8_t *key_array; tor_assert(auth_key_out); tor_assert(cell); switch (cell_type) { case RELAY_COMMAND_ESTABLISH_INTRO: { const trn_cell_establish_intro_t *c_cell = cell; key_array = trn_cell_establish_intro_getconstarray_auth_key(c_cell); auth_key_len = trn_cell_establish_intro_getlen_auth_key(c_cell); break; } case RELAY_COMMAND_INTRODUCE1: { const trn_cell_introduce1_t *c_cell = cell; key_array = trn_cell_introduce1_getconstarray_auth_key(cell); auth_key_len = trn_cell_introduce1_getlen_auth_key(c_cell); break; } default: /* Getting here is really bad as it means we got a unknown cell type from * this file where every call has an hardcoded value. */ tor_assert_unreached(); /* LCOV_EXCL_LINE */ } tor_assert(key_array); tor_assert(auth_key_len == sizeof(auth_key_out->pubkey)); memcpy(auth_key_out->pubkey, key_array, auth_key_len); } /** We received an ESTABLISH_INTRO cell. Verify its signature and MAC, * given circuit_key_material. Return 0 on success else -1 on error. */ STATIC int verify_establish_intro_cell(const trn_cell_establish_intro_t *cell, const uint8_t *circuit_key_material, size_t circuit_key_material_len) { /* We only reach this function if the first byte of the cell is 0x02 which * means that auth_key_type is of ed25519 type, hence this check should * always pass. See hs_intro_received_establish_intro(). */ if (BUG(cell->auth_key_type != HS_INTRO_AUTH_KEY_TYPE_ED25519)) { return -1; } /* Make sure the auth key length is of the right size for this type. For * EXTRA safety, we check both the size of the array and the length which * must be the same. Safety first!*/ if (trn_cell_establish_intro_getlen_auth_key(cell) != ED25519_PUBKEY_LEN || trn_cell_establish_intro_get_auth_key_len(cell) != ED25519_PUBKEY_LEN) { log_fn(LOG_PROTOCOL_WARN, LD_PROTOCOL, "ESTABLISH_INTRO auth key length is invalid"); return -1; } const uint8_t *msg = cell->start_cell; /* Verify the sig */ { ed25519_signature_t sig_struct; const uint8_t *sig_array = trn_cell_establish_intro_getconstarray_sig(cell); /* Make sure the signature length is of the right size. For EXTRA safety, * we check both the size of the array and the length which must be the * same. Safety first!*/ if (trn_cell_establish_intro_getlen_sig(cell) != sizeof(sig_struct.sig) || trn_cell_establish_intro_get_sig_len(cell) != sizeof(sig_struct.sig)) { log_fn(LOG_PROTOCOL_WARN, LD_PROTOCOL, "ESTABLISH_INTRO sig len is invalid"); return -1; } /* We are now sure that sig_len is of the right size. */ memcpy(sig_struct.sig, sig_array, cell->sig_len); ed25519_public_key_t auth_key; get_auth_key_from_cell(&auth_key, RELAY_COMMAND_ESTABLISH_INTRO, cell); const size_t sig_msg_len = cell->end_sig_fields - msg; int sig_mismatch = ed25519_checksig_prefixed(&sig_struct, msg, sig_msg_len, ESTABLISH_INTRO_SIG_PREFIX, &auth_key); if (sig_mismatch) { log_fn(LOG_PROTOCOL_WARN, LD_PROTOCOL, "ESTABLISH_INTRO signature not as expected"); return -1; } } /* Verify the MAC */ { const size_t auth_msg_len = cell->end_mac_fields - msg; uint8_t mac[DIGEST256_LEN]; crypto_mac_sha3_256(mac, sizeof(mac), circuit_key_material, circuit_key_material_len, msg, auth_msg_len); if (tor_memneq(mac, cell->handshake_mac, sizeof(mac))) { log_fn(LOG_PROTOCOL_WARN, LD_PROTOCOL, "ESTABLISH_INTRO handshake_auth not as expected"); return -1; } } return 0; } /* Send an INTRO_ESTABLISHED cell to circ. */ MOCK_IMPL(int, hs_intro_send_intro_established_cell,(or_circuit_t *circ)) { int ret; uint8_t *encoded_cell = NULL; ssize_t encoded_len, result_len; trn_cell_intro_established_t *cell; trn_cell_extension_t *ext; tor_assert(circ); /* Build the cell payload. */ cell = trn_cell_intro_established_new(); ext = trn_cell_extension_new(); trn_cell_extension_set_num(ext, 0); trn_cell_intro_established_set_extensions(cell, ext); /* Encode the cell to binary format. */ encoded_len = trn_cell_intro_established_encoded_len(cell); tor_assert(encoded_len > 0); encoded_cell = tor_malloc_zero(encoded_len); result_len = trn_cell_intro_established_encode(encoded_cell, encoded_len, cell); tor_assert(encoded_len == result_len); ret = relay_send_command_from_edge(0, TO_CIRCUIT(circ), RELAY_COMMAND_INTRO_ESTABLISHED, (char *) encoded_cell, encoded_len, NULL); /* On failure, the above function will close the circuit. */ trn_cell_intro_established_free(cell); tor_free(encoded_cell); return ret; } /** We received an ESTABLISH_INTRO parsed_cell on circ. It's * well-formed and passed our verifications. Perform appropriate actions to * establish an intro point. */ static int handle_verified_establish_intro_cell(or_circuit_t *circ, const trn_cell_establish_intro_t *parsed_cell) { /* Get the auth key of this intro point */ ed25519_public_key_t auth_key; get_auth_key_from_cell(&auth_key, RELAY_COMMAND_ESTABLISH_INTRO, parsed_cell); /* Then notify the hidden service that the intro point is established by sending an INTRO_ESTABLISHED cell */ if (hs_intro_send_intro_established_cell(circ)) { log_warn(LD_PROTOCOL, "Couldn't send INTRO_ESTABLISHED cell."); return -1; } /* Associate intro point auth key with this circuit. */ hs_circuitmap_register_intro_circ_v3_relay_side(circ, &auth_key); /* Repurpose this circuit into an intro circuit. */ circuit_change_purpose(TO_CIRCUIT(circ), CIRCUIT_PURPOSE_INTRO_POINT); return 0; } /** We just received an ESTABLISH_INTRO cell in circ with payload in * request. Handle it by making circ an intro circuit. Return 0 * if everything went well, or -1 if there were errors. */ static int handle_establish_intro(or_circuit_t *circ, const uint8_t *request, size_t request_len) { int cell_ok, retval = -1; trn_cell_establish_intro_t *parsed_cell = NULL; tor_assert(circ); tor_assert(request); log_info(LD_REND, "Received an ESTABLISH_INTRO request on circuit %" PRIu32, circ->p_circ_id); /* Check that the circuit is in shape to become an intro point */ if (!hs_intro_circuit_is_suitable_for_establish_intro(circ)) { goto err; } /* Parse the cell */ ssize_t parsing_result = trn_cell_establish_intro_parse(&parsed_cell, request, request_len); if (parsing_result < 0) { log_fn(LOG_PROTOCOL_WARN, LD_PROTOCOL, "Rejecting %s ESTABLISH_INTRO cell.", parsing_result == -1 ? "invalid" : "truncated"); goto err; } cell_ok = verify_establish_intro_cell(parsed_cell, (uint8_t *) circ->rend_circ_nonce, sizeof(circ->rend_circ_nonce)); if (cell_ok < 0) { log_fn(LOG_PROTOCOL_WARN, LD_PROTOCOL, "Failed to verify ESTABLISH_INTRO cell."); goto err; } /* This cell is legit. Take the appropriate actions. */ cell_ok = handle_verified_establish_intro_cell(circ, parsed_cell); if (cell_ok < 0) { goto err; } /* We are done! */ retval = 0; goto done; err: /* When sending the intro establish ack, on error the circuit can be marked * as closed so avoid a double close. */ if (!TO_CIRCUIT(circ)->marked_for_close) { circuit_mark_for_close(TO_CIRCUIT(circ), END_CIRC_REASON_TORPROTOCOL); } done: trn_cell_establish_intro_free(parsed_cell); return retval; } /* Return True if circuit is suitable for being an intro circuit. */ static int circuit_is_suitable_intro_point(const or_circuit_t *circ, const char *log_cell_type_str) { tor_assert(circ); tor_assert(log_cell_type_str); /* Basic circuit state sanity checks. */ if (circ->base_.purpose != CIRCUIT_PURPOSE_OR) { log_fn(LOG_PROTOCOL_WARN, LD_PROTOCOL, "Rejecting %s on non-OR circuit.", log_cell_type_str); return 0; } if (circ->base_.n_chan) { log_fn(LOG_PROTOCOL_WARN, LD_PROTOCOL, "Rejecting %s on non-edge circuit.", log_cell_type_str); return 0; } /* Suitable. */ return 1; } /* Return True if circuit is suitable for being service-side intro circuit. */ int hs_intro_circuit_is_suitable_for_establish_intro(const or_circuit_t *circ) { return circuit_is_suitable_intro_point(circ, "ESTABLISH_INTRO"); } /* We just received an ESTABLISH_INTRO cell in circ. Figure out of it's * a legacy or a next gen cell, and pass it to the appropriate handler. */ int hs_intro_received_establish_intro(or_circuit_t *circ, const uint8_t *request, size_t request_len) { tor_assert(circ); tor_assert(request); if (request_len == 0) { log_fn(LOG_PROTOCOL_WARN, LD_PROTOCOL, "Empty ESTABLISH_INTRO cell."); goto err; } /* Using the first byte of the cell, figure out the version of * ESTABLISH_INTRO and pass it to the appropriate cell handler */ const uint8_t first_byte = request[0]; switch (first_byte) { case HS_INTRO_AUTH_KEY_TYPE_LEGACY0: case HS_INTRO_AUTH_KEY_TYPE_LEGACY1: return rend_mid_establish_intro_legacy(circ, request, request_len); case HS_INTRO_AUTH_KEY_TYPE_ED25519: return handle_establish_intro(circ, request, request_len); default: log_fn(LOG_PROTOCOL_WARN, LD_PROTOCOL, "Unrecognized AUTH_KEY_TYPE %u.", first_byte); goto err; } err: circuit_mark_for_close(TO_CIRCUIT(circ), END_CIRC_REASON_TORPROTOCOL); return -1; } /* Send an INTRODUCE_ACK cell onto the circuit circ with the status * value in status. Depending on the status, it can be ACK or a NACK. * Return 0 on success else a negative value on error which will close the * circuit. */ static int send_introduce_ack_cell(or_circuit_t *circ, hs_intro_ack_status_t status) { int ret = -1; uint8_t *encoded_cell = NULL; ssize_t encoded_len, result_len; trn_cell_introduce_ack_t *cell; trn_cell_extension_t *ext; tor_assert(circ); /* Setup the INTRODUCE_ACK cell. We have no extensions so the N_EXTENSIONS * field is set to 0 by default with a new object. */ cell = trn_cell_introduce_ack_new(); ret = trn_cell_introduce_ack_set_status(cell, status); /* We have no cell extensions in an INTRODUCE_ACK cell. */ ext = trn_cell_extension_new(); trn_cell_extension_set_num(ext, 0); trn_cell_introduce_ack_set_extensions(cell, ext); /* A wrong status is a very bad code flow error as this value is controlled * by the code in this file and not an external input. This means we use a * code that is not known by the trunnel ABI. */ tor_assert(ret == 0); /* Encode the payload. We should never fail to get the encoded length. */ encoded_len = trn_cell_introduce_ack_encoded_len(cell); tor_assert(encoded_len > 0); encoded_cell = tor_malloc_zero(encoded_len); result_len = trn_cell_introduce_ack_encode(encoded_cell, encoded_len, cell); tor_assert(encoded_len == result_len); ret = relay_send_command_from_edge(CONTROL_CELL_ID, TO_CIRCUIT(circ), RELAY_COMMAND_INTRODUCE_ACK, (char *) encoded_cell, encoded_len, NULL); /* On failure, the above function will close the circuit. */ trn_cell_introduce_ack_free(cell); tor_free(encoded_cell); return ret; } /* Validate a parsed INTRODUCE1 cell. Return 0 if valid or else a * negative value for an invalid cell that should be NACKed. */ STATIC int validate_introduce1_parsed_cell(const trn_cell_introduce1_t *cell) { size_t legacy_key_id_len; const uint8_t *legacy_key_id; tor_assert(cell); /* This code path SHOULD NEVER be reached if the cell is a legacy type so * safety net here. The legacy ID must be zeroes in this case. */ legacy_key_id_len = trn_cell_introduce1_getlen_legacy_key_id(cell); legacy_key_id = trn_cell_introduce1_getconstarray_legacy_key_id(cell); if (BUG(!tor_mem_is_zero((char *) legacy_key_id, legacy_key_id_len))) { goto invalid; } /* The auth key of an INTRODUCE1 should be of type ed25519 thus leading to a * known fixed length as well. */ if (trn_cell_introduce1_get_auth_key_type(cell) != HS_INTRO_AUTH_KEY_TYPE_ED25519) { log_fn(LOG_PROTOCOL_WARN, LD_PROTOCOL, "Rejecting invalid INTRODUCE1 cell auth key type. " "Responding with NACK."); goto invalid; } if (trn_cell_introduce1_get_auth_key_len(cell) != ED25519_PUBKEY_LEN || trn_cell_introduce1_getlen_auth_key(cell) != ED25519_PUBKEY_LEN) { log_fn(LOG_PROTOCOL_WARN, LD_PROTOCOL, "Rejecting invalid INTRODUCE1 cell auth key length. " "Responding with NACK."); goto invalid; } if (trn_cell_introduce1_getlen_encrypted(cell) == 0) { log_fn(LOG_PROTOCOL_WARN, LD_PROTOCOL, "Rejecting invalid INTRODUCE1 cell encrypted length. " "Responding with NACK."); goto invalid; } return 0; invalid: return -1; } /* We just received a non legacy INTRODUCE1 cell on client_circ with * the payload in request of size request_len. Return 0 if * everything went well, or -1 if an error occurred. This function is in charge * of sending back an INTRODUCE_ACK cell and will close client_circ on error. */ STATIC int handle_introduce1(or_circuit_t *client_circ, const uint8_t *request, size_t request_len) { int ret = -1; or_circuit_t *service_circ; trn_cell_introduce1_t *parsed_cell; hs_intro_ack_status_t status = HS_INTRO_ACK_STATUS_SUCCESS; tor_assert(client_circ); tor_assert(request); /* Parse cell. Note that we can only parse the non encrypted section for * which we'll use the authentication key to find the service introduction * circuit and relay the cell on it. */ ssize_t cell_size = trn_cell_introduce1_parse(&parsed_cell, request, request_len); if (cell_size < 0) { log_fn(LOG_PROTOCOL_WARN, LD_PROTOCOL, "Rejecting %s INTRODUCE1 cell. Responding with NACK.", cell_size == -1 ? "invalid" : "truncated"); /* Inform client that the INTRODUCE1 has a bad format. */ status = HS_INTRO_ACK_STATUS_BAD_FORMAT; goto send_ack; } /* Once parsed validate the cell format. */ if (validate_introduce1_parsed_cell(parsed_cell) < 0) { /* Inform client that the INTRODUCE1 has bad format. */ status = HS_INTRO_ACK_STATUS_BAD_FORMAT; goto send_ack; } /* Find introduction circuit through our circuit map. */ { ed25519_public_key_t auth_key; get_auth_key_from_cell(&auth_key, RELAY_COMMAND_INTRODUCE1, parsed_cell); service_circ = hs_circuitmap_get_intro_circ_v3_relay_side(&auth_key); if (service_circ == NULL) { char b64_key[ED25519_BASE64_LEN + 1]; ed25519_public_to_base64(b64_key, &auth_key); log_info(LD_REND, "No intro circuit found for INTRODUCE1 cell " "with auth key %s from circuit %" PRIu32 ". " "Responding with NACK.", safe_str(b64_key), client_circ->p_circ_id); /* Inform the client that we don't know the requested service ID. */ status = HS_INTRO_ACK_STATUS_UNKNOWN_ID; goto send_ack; } } /* Relay the cell to the service on its intro circuit with an INTRODUCE2 * cell which is the same exact payload. */ if (relay_send_command_from_edge(CONTROL_CELL_ID, TO_CIRCUIT(service_circ), RELAY_COMMAND_INTRODUCE2, (char *) request, request_len, NULL)) { log_warn(LD_PROTOCOL, "Unable to send INTRODUCE2 cell to the service."); /* Inform the client that we can't relay the cell. */ status = HS_INTRO_ACK_STATUS_CANT_RELAY; goto send_ack; } /* Success! Send an INTRODUCE_ACK success status onto the client circuit. */ status = HS_INTRO_ACK_STATUS_SUCCESS; ret = 0; send_ack: /* Send INTRODUCE_ACK or INTRODUCE_NACK to client */ if (send_introduce_ack_cell(client_circ, status) < 0) { log_warn(LD_PROTOCOL, "Unable to send an INTRODUCE ACK status %d " "to client.", status); /* Circuit has been closed on failure of transmission. */ goto done; } done: trn_cell_introduce1_free(parsed_cell); return ret; } /* Identify if the encoded cell we just received is a legacy one or not. The * request should be at least DIGEST_LEN bytes long. */ STATIC int introduce1_cell_is_legacy(const uint8_t *request) { tor_assert(request); /* If the first 20 bytes of the cell (DIGEST_LEN) are NOT zeroes, it * indicates a legacy cell (v2). */ if (!tor_mem_is_zero((const char *) request, DIGEST_LEN)) { /* Legacy cell. */ return 1; } /* Not a legacy cell. */ return 0; } /* Return true iff the circuit circ is suitable for receiving an * INTRODUCE1 cell. */ STATIC int circuit_is_suitable_for_introduce1(const or_circuit_t *circ) { tor_assert(circ); /* Is this circuit an intro point circuit? */ if (!circuit_is_suitable_intro_point(circ, "INTRODUCE1")) { return 0; } if (circ->already_received_introduce1) { log_fn(LOG_PROTOCOL_WARN, LD_REND, "Blocking multiple introductions on the same circuit. " "Someone might be trying to attack a hidden service through " "this relay."); return 0; } return 1; } /* We just received an INTRODUCE1 cell on circ. Figure out which type * it is and pass it to the appropriate handler. Return 0 on success else a * negative value and the circuit is closed. */ int hs_intro_received_introduce1(or_circuit_t *circ, const uint8_t *request, size_t request_len) { int ret; tor_assert(circ); tor_assert(request); /* A cell that can't hold a DIGEST_LEN is invalid as we need to check if * it's a legacy cell or not using the first DIGEST_LEN bytes. */ if (request_len < DIGEST_LEN) { log_fn(LOG_PROTOCOL_WARN, LD_PROTOCOL, "Invalid INTRODUCE1 cell length."); goto err; } /* Make sure we have a circuit that can have an INTRODUCE1 cell on it. */ if (!circuit_is_suitable_for_introduce1(circ)) { /* We do not send a NACK because the circuit is not suitable for any kind * of response or transmission as it's a violation of the protocol. */ goto err; } /* Mark the circuit that we got this cell. None are allowed after this as a * DoS mitigation since one circuit with one client can hammer a service. */ circ->already_received_introduce1 = 1; /* We are sure here to have at least DIGEST_LEN bytes. */ if (introduce1_cell_is_legacy(request)) { /* Handle a legacy cell. */ ret = rend_mid_introduce_legacy(circ, request, request_len); } else { /* Handle a non legacy cell. */ ret = handle_introduce1(circ, request, request_len); } return ret; err: circuit_mark_for_close(TO_CIRCUIT(circ), END_CIRC_REASON_TORPROTOCOL); return -1; } /* Clear memory allocated by the given intropoint object ip (but don't free the * object itself). */ void hs_intropoint_clear(hs_intropoint_t *ip) { if (ip == NULL) { return; } tor_cert_free(ip->auth_key_cert); SMARTLIST_FOREACH(ip->link_specifiers, link_specifier_t *, ls, link_specifier_free(ls)); smartlist_free(ip->link_specifiers); memset(ip, 0, sizeof(hs_intropoint_t)); }