diff --git a/.gitignore b/.gitignore index d33b79736..049163885 100644 --- a/.gitignore +++ b/.gitignore @@ -179,6 +179,7 @@ uptime-*.json /src/test/test-child /src/test/test-memwipe /src/test/test-ntor-cl +/src/test/test-hs-ntor-cl /src/test/test-switch-id /src/test/test-timers /src/test/test_workqueue @@ -187,6 +188,7 @@ uptime-*.json /src/test/test-bt-cl.exe /src/test/test-child.exe /src/test/test-ntor-cl.exe +/src/test/test-hs-ntor-cl.exe /src/test/test-memwipe.exe /src/test/test-switch-id.exe /src/test/test-timers.exe diff --git a/src/test/hs_ntor_ref.py b/src/test/hs_ntor_ref.py new file mode 100644 index 000000000..813e79782 --- /dev/null +++ b/src/test/hs_ntor_ref.py @@ -0,0 +1,408 @@ +#!/usr/bin/python +# Copyright 2017, The Tor Project, Inc +# See LICENSE for licensing information + +""" +hs_ntor_ref.py + +This module is a reference implementation of the modified ntor protocol +proposed for Tor hidden services in proposal 224 (Next Generation Hidden +Services) in section [NTOR-WITH-EXTRA-DATA]. + +The modified ntor protocol is a single-round protocol, with three steps in total: + + 1: Client generates keys and sends them to service via INTRODUCE cell + + 2: Service computes key material based on client's keys, and sends its own + keys to client via RENDEZVOUS cell + + 3: Client computes key material as well. + +It's meant to be used to validate Tor's HS ntor implementation by conducting +various integration tests. Specifically it conducts the following three tests: + +- Tests our Python implementation by running the whole protocol in Python and + making sure that results are consistent. + +- Tests little-t-tor ntor implementation. We use this Python code to instrument + little-t-tor and carry out the handshake by using little-t-tor code. The + small C wrapper at src/test/test-hs-ntor-cl is used for this Python module to + interface with little-t-tor. + +- Cross-tests Python and little-t-tor implementation by running half of the + protocol in Python code and the other in little-t-tor. This is actually two + tests so that all parts of the protocol are run both by little-t-tor and + Python. + +It requires the curve25519 python module from the curve25519-donna package. + +The whole logic and concept for this test suite was taken from ntor_ref.py. + + *** DO NOT USE THIS IN PRODUCTION. *** +""" + +import struct +import os, sys +import binascii +import subprocess + +try: + import curve25519 + curve25519mod = curve25519.keys +except ImportError: + curve25519 = None + import slownacl_curve25519 + curve25519mod = slownacl_curve25519 + +try: + import sha3 +except ImportError: + # error code 77 tells automake to skip this test + sys.exit(77) + +# Import Nick's ntor reference implementation in Python +# We are gonna use a few of its utilities. +from ntor_ref import hash_nil +from ntor_ref import PrivateKey + +# String constants used in this protocol +PROTOID = "tor-hs-ntor-curve25519-sha3-256-1" +T_HSENC = PROTOID + ":hs_key_extract" +T_HSVERIFY = PROTOID + ":hs_verify" +T_HSMAC = PROTOID + ":hs_mac" +M_HSEXPAND = PROTOID + ":hs_key_expand" + +INTRO_SECRET_LEN = 161 +REND_SECRET_LEN = 225 +AUTH_INPUT_LEN = 199 + +# Implements MAC(k,m) = H(htonll(len(k)) | k | m) +def mac(k,m): + def htonll(num): + return struct.pack('!q', num) + + s = sha3.SHA3256() + s.update(htonll(len(k))) + s.update(k) + s.update(m) + return s.digest() + +###################################################################### + +# Functions that implement the modified HS ntor protocol + +"""As client compute key material for INTRODUCE cell as follows: + + intro_secret_hs_input = EXP(B,x) | AUTH_KEY | X | B | PROTOID + info = m_hsexpand | subcredential + hs_keys = KDF(intro_secret_hs_input | t_hsenc | info, S_KEY_LEN+MAC_LEN) + ENC_KEY = hs_keys[0:S_KEY_LEN] + MAC_KEY = hs_keys[S_KEY_LEN:S_KEY_LEN+MAC_KEY_LEN] +""" +def intro2_ntor_client(intro_auth_pubkey_str, intro_enc_pubkey, + client_ephemeral_enc_pubkey, client_ephemeral_enc_privkey, subcredential): + + dh_result = client_ephemeral_enc_privkey.get_shared_key(intro_enc_pubkey, hash_nil) + secret = dh_result + intro_auth_pubkey_str + client_ephemeral_enc_pubkey.serialize() + intro_enc_pubkey.serialize() + PROTOID + assert(len(secret) == INTRO_SECRET_LEN) + info = M_HSEXPAND + subcredential + + kdf = sha3.SHAKE256() + kdf.update(secret + T_HSENC + info) + key_material = kdf.squeeze(64*8) + + enc_key = key_material[0:32] + mac_key = key_material[32:64] + + return enc_key, mac_key + +"""Wrapper over intro2_ntor_client()""" +def client_part1(intro_auth_pubkey_str, intro_enc_pubkey, + client_ephemeral_enc_pubkey, client_ephemeral_enc_privkey, subcredential): + enc_key, mac_key = intro2_ntor_client(intro_auth_pubkey_str, intro_enc_pubkey, client_ephemeral_enc_pubkey, client_ephemeral_enc_privkey, subcredential) + assert(enc_key) + assert(mac_key) + + return enc_key, mac_key + +"""As service compute key material for INTRODUCE cell as follows: + + intro_secret_hs_input = EXP(X,b) | AUTH_KEY | X | B | PROTOID + info = m_hsexpand | subcredential + hs_keys = KDF(intro_secret_hs_input | t_hsenc | info, S_KEY_LEN+MAC_LEN) + HS_DEC_KEY = hs_keys[0:S_KEY_LEN] + HS_MAC_KEY = hs_keys[S_KEY_LEN:S_KEY_LEN+MAC_KEY_LEN] +""" +def intro2_ntor_service(intro_auth_pubkey_str, client_enc_pubkey, service_enc_privkey, service_enc_pubkey, subcredential): + dh_result = service_enc_privkey.get_shared_key(client_enc_pubkey, hash_nil) + secret = dh_result + intro_auth_pubkey_str + client_enc_pubkey.serialize() + service_enc_pubkey.serialize() + PROTOID + assert(len(secret) == INTRO_SECRET_LEN) + info = M_HSEXPAND + subcredential + + kdf = sha3.SHAKE256() + kdf.update(secret + T_HSENC + info) + key_material = kdf.squeeze(64*8) + + enc_key = key_material[0:32] + mac_key = key_material[32:64] + + return enc_key, mac_key + +"""As service compute key material for INTRODUCE and REDNEZVOUS cells. + + Use intro2_ntor_service() to calculate the INTRODUCE key material, and use + the following computations to do the RENDEZVOUS ones: + + rend_secret_hs_input = EXP(X,y) | EXP(X,b) | AUTH_KEY | B | X | Y | PROTOID + NTOR_KEY_SEED = MAC(rend_secret_hs_input, t_hsenc) + verify = MAC(rend_secret_hs_input, t_hsverify) + auth_input = verify | AUTH_KEY | B | Y | X | PROTOID | "Server" + AUTH_INPUT_MAC = MAC(auth_input, t_hsmac) +""" +def service_part1(intro_auth_pubkey_str, client_enc_pubkey, intro_enc_privkey, intro_enc_pubkey, subcredential): + intro_enc_key, intro_mac_key = intro2_ntor_service(intro_auth_pubkey_str, client_enc_pubkey, intro_enc_privkey, intro_enc_pubkey, subcredential) + assert(intro_enc_key) + assert(intro_mac_key) + + service_ephemeral_privkey = PrivateKey() + service_ephemeral_pubkey = service_ephemeral_privkey.get_public() + + dh_result1 = service_ephemeral_privkey.get_shared_key(client_enc_pubkey, hash_nil) + dh_result2 = intro_enc_privkey.get_shared_key(client_enc_pubkey, hash_nil) + rend_secret_hs_input = dh_result1 + dh_result2 + intro_auth_pubkey_str + intro_enc_pubkey.serialize() + client_enc_pubkey.serialize() + service_ephemeral_pubkey.serialize() + PROTOID + assert(len(rend_secret_hs_input) == REND_SECRET_LEN) + + ntor_key_seed = mac(rend_secret_hs_input, T_HSENC) + verify = mac(rend_secret_hs_input, T_HSVERIFY) + auth_input = verify + intro_auth_pubkey_str + intro_enc_pubkey.serialize() + service_ephemeral_pubkey.serialize() + client_enc_pubkey.serialize() + PROTOID + "Server" + assert(len(auth_input) == AUTH_INPUT_LEN) + auth_input_mac = mac(auth_input, T_HSMAC) + + assert(ntor_key_seed) + assert(auth_input_mac) + assert(service_ephemeral_pubkey) + + return intro_enc_key, intro_mac_key, ntor_key_seed, auth_input_mac, service_ephemeral_pubkey + +"""As client compute key material for rendezvous cells as follows: + + rend_secret_hs_input = EXP(Y,x) | EXP(B,x) | AUTH_KEY | B | X | Y | PROTOID + NTOR_KEY_SEED = MAC(ntor_secret_input, t_hsenc) + verify = MAC(ntor_secret_input, t_hsverify) + auth_input = verify | AUTH_KEY | B | Y | X | PROTOID | "Server" + AUTH_INPUT_MAC = MAC(auth_input, t_hsmac) +""" +def client_part2(intro_auth_pubkey_str, client_ephemeral_enc_pubkey, client_ephemeral_enc_privkey, + intro_enc_pubkey, service_ephemeral_rend_pubkey): + dh_result1 = client_ephemeral_enc_privkey.get_shared_key(service_ephemeral_rend_pubkey, hash_nil) + dh_result2 = client_ephemeral_enc_privkey.get_shared_key(intro_enc_pubkey, hash_nil) + rend_secret_hs_input = dh_result1 + dh_result2 + intro_auth_pubkey_str + intro_enc_pubkey.serialize() + client_ephemeral_enc_pubkey.serialize() + service_ephemeral_rend_pubkey.serialize() + PROTOID + assert(len(rend_secret_hs_input) == REND_SECRET_LEN) + + ntor_key_seed = mac(rend_secret_hs_input, T_HSENC) + verify = mac(rend_secret_hs_input, T_HSVERIFY) + auth_input = verify + intro_auth_pubkey_str + intro_enc_pubkey.serialize() + service_ephemeral_rend_pubkey.serialize() + client_ephemeral_enc_pubkey.serialize() + PROTOID + "Server" + assert(len(auth_input) == AUTH_INPUT_LEN) + auth_input_mac = mac(auth_input, T_HSMAC) + + assert(ntor_key_seed) + assert(auth_input_mac) + + return ntor_key_seed, auth_input_mac + +################################################################################# + +""" +Utilities for communicating with the little-t-tor ntor wrapper to conduct the +integration tests +""" + +PROG = b"./src/test/test-hs-ntor-cl" +enhex=lambda s: binascii.b2a_hex(s) +dehex=lambda s: binascii.a2b_hex(s.strip()) + +def tor_client1(intro_auth_pubkey_str, intro_enc_pubkey, + client_ephemeral_enc_privkey, subcredential): + p = subprocess.Popen([PROG, "client1", + enhex(intro_auth_pubkey_str), + enhex(intro_enc_pubkey.serialize()), + enhex(client_ephemeral_enc_privkey.serialize()), + enhex(subcredential)], + stdout=subprocess.PIPE) + return map(dehex, p.stdout.readlines()) + +def tor_server1(intro_auth_pubkey_str, intro_enc_privkey, + client_ephemeral_enc_pubkey, subcredential): + p = subprocess.Popen([PROG, "server1", + enhex(intro_auth_pubkey_str), + enhex(intro_enc_privkey.serialize()), + enhex(client_ephemeral_enc_pubkey.serialize()), + enhex(subcredential)], + stdout=subprocess.PIPE) + return map(dehex, p.stdout.readlines()) + +def tor_client2(intro_auth_pubkey_str, client_ephemeral_enc_privkey, + intro_enc_pubkey, service_ephemeral_rend_pubkey, subcredential): + p = subprocess.Popen([PROG, "client2", + enhex(intro_auth_pubkey_str), + enhex(client_ephemeral_enc_privkey.serialize()), + enhex(intro_enc_pubkey.serialize()), + enhex(service_ephemeral_rend_pubkey.serialize()), + enhex(subcredential)], + stdout=subprocess.PIPE) + return map(dehex, p.stdout.readlines()) + +################################################################################## + +# Perform a pure python ntor test +def do_pure_python_ntor_test(): + # Initialize all needed key material + client_ephemeral_enc_privkey = PrivateKey() + client_ephemeral_enc_pubkey = client_ephemeral_enc_privkey.get_public() + intro_enc_privkey = PrivateKey() + intro_enc_pubkey = intro_enc_privkey.get_public() + intro_auth_pubkey_str = os.urandom(32) + subcredential = os.urandom(32) + + client_enc_key, client_mac_key = client_part1(intro_auth_pubkey_str, intro_enc_pubkey, client_ephemeral_enc_pubkey, client_ephemeral_enc_privkey, subcredential) + + service_enc_key, service_mac_key, service_ntor_key_seed, service_auth_input_mac, service_ephemeral_pubkey = service_part1(intro_auth_pubkey_str, client_ephemeral_enc_pubkey, intro_enc_privkey, intro_enc_pubkey, subcredential) + + assert(client_enc_key == service_enc_key) + assert(client_mac_key == service_mac_key) + + client_ntor_key_seed, client_auth_input_mac = client_part2(intro_auth_pubkey_str, client_ephemeral_enc_pubkey, client_ephemeral_enc_privkey, + intro_enc_pubkey, service_ephemeral_pubkey) + + assert(client_ntor_key_seed == service_ntor_key_seed) + assert(client_auth_input_mac == service_auth_input_mac) + + print "DONE: python dance [%s]" % repr(client_auth_input_mac) + +# Perform a pure little-t-tor integration test. +def do_little_t_tor_ntor_test(): + # Initialize all needed key material + subcredential = os.urandom(32) + client_ephemeral_enc_privkey = PrivateKey() + client_ephemeral_enc_pubkey = client_ephemeral_enc_privkey.get_public() + intro_enc_privkey = PrivateKey() + intro_enc_pubkey = intro_enc_privkey.get_public() # service-side enc key + intro_auth_pubkey_str = os.urandom(32) + + client_enc_key, client_mac_key = tor_client1(intro_auth_pubkey_str, intro_enc_pubkey, + client_ephemeral_enc_privkey, subcredential) + assert(client_enc_key) + assert(client_mac_key) + + service_enc_key, service_mac_key, service_ntor_auth_mac, service_ntor_key_seed, service_eph_pubkey = tor_server1(intro_auth_pubkey_str, + intro_enc_privkey, + client_ephemeral_enc_pubkey, + subcredential) + assert(service_enc_key) + assert(service_mac_key) + assert(service_ntor_auth_mac) + assert(service_ntor_key_seed) + + assert(client_enc_key == service_enc_key) + assert(client_mac_key == service_mac_key) + + # Turn from bytes to key + service_eph_pubkey = curve25519mod.Public(service_eph_pubkey) + + client_ntor_auth_mac, client_ntor_key_seed = tor_client2(intro_auth_pubkey_str, client_ephemeral_enc_privkey, + intro_enc_pubkey, service_eph_pubkey, subcredential) + assert(client_ntor_auth_mac) + assert(client_ntor_key_seed) + + assert(client_ntor_key_seed == service_ntor_key_seed) + assert(client_ntor_auth_mac == service_ntor_auth_mac) + + print "DONE: tor dance [%s]" % repr(client_ntor_auth_mac) + +""" +Do mixed test as follows: + 1. C -> S (python mode) + 2. C <- S (tor mode) + 3. Client computes keys (python mode) +""" +def do_first_mixed_test(): + subcredential = os.urandom(32) + + client_ephemeral_enc_privkey = PrivateKey() + client_ephemeral_enc_pubkey = client_ephemeral_enc_privkey.get_public() + intro_enc_privkey = PrivateKey() + intro_enc_pubkey = intro_enc_privkey.get_public() # service-side enc key + + intro_auth_pubkey_str = os.urandom(32) + + # Let's do mixed + client_enc_key, client_mac_key = client_part1(intro_auth_pubkey_str, intro_enc_pubkey, + client_ephemeral_enc_pubkey, client_ephemeral_enc_privkey, + subcredential) + + service_enc_key, service_mac_key, service_ntor_auth_mac, service_ntor_key_seed, service_eph_pubkey = tor_server1(intro_auth_pubkey_str, + intro_enc_privkey, + client_ephemeral_enc_pubkey, + subcredential) + assert(service_enc_key) + assert(service_mac_key) + assert(service_ntor_auth_mac) + assert(service_ntor_key_seed) + assert(service_eph_pubkey) + + assert(client_enc_key == service_enc_key) + assert(client_mac_key == service_mac_key) + + # Turn from bytes to key + service_eph_pubkey = curve25519mod.Public(service_eph_pubkey) + + client_ntor_key_seed, client_auth_input_mac = client_part2(intro_auth_pubkey_str, client_ephemeral_enc_pubkey, client_ephemeral_enc_privkey, + intro_enc_pubkey, service_eph_pubkey) + + assert(client_auth_input_mac == service_ntor_auth_mac) + assert(client_ntor_key_seed == service_ntor_key_seed) + + print "DONE: 1st mixed dance [%s]" % repr(client_auth_input_mac) + +""" +Do mixed test as follows: + 1. C -> S (tor mode) + 2. C <- S (python mode) + 3. Client computes keys (tor mode) +""" +def do_second_mixed_test(): + subcredential = os.urandom(32) + + client_ephemeral_enc_privkey = PrivateKey() + client_ephemeral_enc_pubkey = client_ephemeral_enc_privkey.get_public() + intro_enc_privkey = PrivateKey() + intro_enc_pubkey = intro_enc_privkey.get_public() # service-side enc key + + intro_auth_pubkey_str = os.urandom(32) + + # Let's do mixed + client_enc_key, client_mac_key = tor_client1(intro_auth_pubkey_str, intro_enc_pubkey, + client_ephemeral_enc_privkey, subcredential) + assert(client_enc_key) + assert(client_mac_key) + + service_enc_key, service_mac_key, service_ntor_key_seed, service_ntor_auth_mac, service_ephemeral_pubkey = service_part1(intro_auth_pubkey_str, client_ephemeral_enc_pubkey, intro_enc_privkey, intro_enc_pubkey, subcredential) + + client_ntor_auth_mac, client_ntor_key_seed = tor_client2(intro_auth_pubkey_str, client_ephemeral_enc_privkey, + intro_enc_pubkey, service_ephemeral_pubkey, subcredential) + assert(client_ntor_auth_mac) + assert(client_ntor_key_seed) + + assert(client_ntor_key_seed == service_ntor_key_seed) + assert(client_ntor_auth_mac == service_ntor_auth_mac) + + print "DONE: 2nd mixed dance [%s]" % repr(client_ntor_auth_mac) + +def do_mixed_tests(): + do_first_mixed_test() + do_second_mixed_test() + +if __name__ == '__main__': + do_pure_python_ntor_test() + do_little_t_tor_ntor_test() + do_mixed_tests() diff --git a/src/test/include.am b/src/test/include.am index 1c0726fd3..441ce5fae 100644 --- a/src/test/include.am +++ b/src/test/include.am @@ -20,7 +20,7 @@ TESTSCRIPTS = \ src/test/test_switch_id.sh if USEPYTHON -TESTSCRIPTS += src/test/test_ntor.sh src/test/test_bt.sh +TESTSCRIPTS += src/test/test_ntor.sh src/test/test_hs_ntor.sh src/test/test_bt.sh endif TESTS += src/test/test src/test/test-slow src/test/test-memwipe \ @@ -249,6 +249,7 @@ noinst_HEADERS+= \ src/test/vote_descriptors.inc noinst_PROGRAMS+= src/test/test-ntor-cl +noinst_PROGRAMS+= src/test/test-hs-ntor-cl src_test_test_ntor_cl_SOURCES = src/test/test_ntor_cl.c src_test_test_ntor_cl_LDFLAGS = @TOR_LDFLAGS_zlib@ @TOR_LDFLAGS_openssl@ src_test_test_ntor_cl_LDADD = src/or/libtor.a src/common/libor.a \ @@ -259,6 +260,17 @@ src_test_test_ntor_cl_LDADD = src/or/libtor.a src/common/libor.a \ src_test_test_ntor_cl_AM_CPPFLAGS = \ -I"$(top_srcdir)/src/or" +src_test_test_hs_ntor_cl_SOURCES = src/test/test_hs_ntor_cl.c +src_test_test_hs_ntor_cl_LDFLAGS = @TOR_LDFLAGS_zlib@ @TOR_LDFLAGS_openssl@ +src_test_test_hs_ntor_cl_LDADD = src/or/libtor.a src/common/libor.a \ + src/common/libor-ctime.a \ + src/common/libor-crypto.a $(LIBKECCAK_TINY) $(LIBDONNA) \ + @TOR_ZLIB_LIBS@ @TOR_LIB_MATH@ \ + @TOR_OPENSSL_LIBS@ @TOR_LIB_WS32@ @TOR_LIB_GDI@ @CURVE25519_LIBS@ +src_test_test_hs_ntor_cl_AM_CPPFLAGS = \ + -I"$(top_srcdir)/src/or" + + noinst_PROGRAMS += src/test/test-bt-cl src_test_test_bt_cl_SOURCES = src/test/test_bt_cl.c src_test_test_bt_cl_LDADD = src/common/libor-testing.a \ @@ -271,12 +283,13 @@ src_test_test_bt_cl_CPPFLAGS= $(src_test_AM_CPPFLAGS) $(TEST_CPPFLAGS) EXTRA_DIST += \ src/test/bt_test.py \ src/test/ntor_ref.py \ + src/test/hs_ntor_ref.py \ src/test/fuzz_static_testcases.sh \ src/test/slownacl_curve25519.py \ src/test/zero_length_keys.sh \ src/test/test_keygen.sh \ src/test/test_zero_length_keys.sh \ - src/test/test_ntor.sh src/test/test_bt.sh \ + src/test/test_ntor.sh src/test/test_hs_ntor.sh src/test/test_bt.sh \ src/test/test-network.sh \ src/test/test_switch_id.sh \ src/test/test_workqueue_cancel.sh \ diff --git a/src/test/test_hs_ntor.sh b/src/test/test_hs_ntor.sh new file mode 100755 index 000000000..8a0003d44 --- /dev/null +++ b/src/test/test_hs_ntor.sh @@ -0,0 +1,11 @@ +#!/bin/sh +# Validate Tor's ntor implementation. + +exitcode=0 + +# Run the python integration test sand return the exitcode of the python +# script. The python script might ask the testsuite to skip it if not all +# python dependencies are covered. +"${PYTHON:-python}" "${abs_top_srcdir:-.}/src/test/hs_ntor_ref.py" || exitcode=$? + +exit ${exitcode} diff --git a/src/test/test_hs_ntor_cl.c b/src/test/test_hs_ntor_cl.c new file mode 100644 index 000000000..ed1eda58e --- /dev/null +++ b/src/test/test_hs_ntor_cl.c @@ -0,0 +1,255 @@ +/* Copyright (c) 2017, The Tor Project, Inc. */ +/* See LICENSE for licensing information */ + +/** This is a wrapper over the little-t-tor HS ntor functions. The wrapper is + * used by src/test/hs_ntor_ref.py to conduct the HS ntor integration + * tests. + * + * The logic of this wrapper is basically copied from src/test/test_ntor_cl.c + */ + +#include "orconfig.h" +#include +#include + +#define ONION_NTOR_PRIVATE +#include "or.h" +#include "util.h" +#include "compat.h" +#include "crypto.h" +#include "crypto_curve25519.h" +#include "hs_ntor.h" +#include "onion_ntor.h" + +#define N_ARGS(n) STMT_BEGIN { \ + if (argc < (n)) { \ + fprintf(stderr, "%s needs %d arguments.\n",argv[1],n); \ + return 1; \ + } \ + } STMT_END +#define BASE16(idx, var, n) STMT_BEGIN { \ + const char *s = argv[(idx)]; \ + if (base16_decode((char*)var, n, s, strlen(s)) < (int)n ) { \ + fprintf(stderr, "couldn't decode argument %d (%s)\n",idx,s); \ + return 1; \ + } \ + } STMT_END +#define INT(idx, var) STMT_BEGIN { \ + var = atoi(argv[(idx)]); \ + if (var <= 0) { \ + fprintf(stderr, "bad integer argument %d (%s)\n",idx,argv[(idx)]); \ + } \ + } STMT_END + +/** The first part of the HS ntor protocol. The client-side computes all + necessary key material and sends the appropriate message to the service. */ +static int +client1(int argc, char **argv) +{ + int retval; + + /* Inputs */ + curve25519_public_key_t intro_enc_pubkey; + ed25519_public_key_t intro_auth_pubkey; + curve25519_keypair_t client_ephemeral_enc_keypair; + uint8_t subcredential[DIGEST256_LEN]; + + /* Output */ + hs_ntor_intro_cell_keys_t hs_ntor_intro_cell_keys; + + char buf[256]; + + N_ARGS(6); + BASE16(2, intro_auth_pubkey.pubkey, ED25519_PUBKEY_LEN); + BASE16(3, intro_enc_pubkey.public_key, CURVE25519_PUBKEY_LEN); + BASE16(4, client_ephemeral_enc_keypair.seckey.secret_key, + CURVE25519_SECKEY_LEN); + BASE16(5, subcredential, DIGEST256_LEN); + + /* Generate keypair */ + curve25519_public_key_generate(&client_ephemeral_enc_keypair.pubkey, + &client_ephemeral_enc_keypair.seckey); + + retval = hs_ntor_client_get_introduce1_keys(&intro_auth_pubkey, + &intro_enc_pubkey, + &client_ephemeral_enc_keypair, + subcredential, + &hs_ntor_intro_cell_keys); + if (retval < 0) { + goto done; + } + + /* Send ENC_KEY */ + base16_encode(buf, sizeof(buf), + (const char*)hs_ntor_intro_cell_keys.enc_key, + sizeof(hs_ntor_intro_cell_keys.enc_key)); + printf("%s\n", buf); + /* Send MAC_KEY */ + base16_encode(buf, sizeof(buf), + (const char*)hs_ntor_intro_cell_keys.mac_key, + sizeof(hs_ntor_intro_cell_keys.mac_key)); + printf("%s\n", buf); + + done: + return retval; +} + +/** The second part of the HS ntor protocol. The service-side computes all + necessary key material and sends the appropriate message to the client */ +static int +server1(int argc, char **argv) +{ + int retval; + + /* Inputs */ + curve25519_keypair_t intro_enc_keypair; + ed25519_public_key_t intro_auth_pubkey; + curve25519_public_key_t client_ephemeral_enc_pubkey; + uint8_t subcredential[DIGEST256_LEN]; + + /* Output */ + hs_ntor_intro_cell_keys_t hs_ntor_intro_cell_keys; + hs_ntor_rend_cell_keys_t hs_ntor_rend_cell_keys; + curve25519_keypair_t service_ephemeral_rend_keypair; + + char buf[256]; + + N_ARGS(6); + BASE16(2, intro_auth_pubkey.pubkey, ED25519_PUBKEY_LEN); + BASE16(3, intro_enc_keypair.seckey.secret_key, CURVE25519_SECKEY_LEN); + BASE16(4, client_ephemeral_enc_pubkey.public_key, CURVE25519_PUBKEY_LEN); + BASE16(5, subcredential, DIGEST256_LEN); + + /* Generate keypair */ + curve25519_public_key_generate(&intro_enc_keypair.pubkey, + &intro_enc_keypair.seckey); + curve25519_keypair_generate(&service_ephemeral_rend_keypair, 0); + + /* Get INTRODUCE1 keys */ + retval = hs_ntor_service_get_introduce1_keys(&intro_auth_pubkey, + &intro_enc_keypair, + &client_ephemeral_enc_pubkey, + subcredential, + &hs_ntor_intro_cell_keys); + if (retval < 0) { + goto done; + } + + /* Get RENDEZVOUS1 keys */ + retval = hs_ntor_service_get_rendezvous1_keys(&intro_auth_pubkey, + &intro_enc_keypair, + &service_ephemeral_rend_keypair, + &client_ephemeral_enc_pubkey, + &hs_ntor_rend_cell_keys); + if (retval < 0) { + goto done; + } + + /* Send ENC_KEY */ + base16_encode(buf, sizeof(buf), + (const char*)hs_ntor_intro_cell_keys.enc_key, + sizeof(hs_ntor_intro_cell_keys.enc_key)); + printf("%s\n", buf); + /* Send MAC_KEY */ + base16_encode(buf, sizeof(buf), + (const char*)hs_ntor_intro_cell_keys.mac_key, + sizeof(hs_ntor_intro_cell_keys.mac_key)); + printf("%s\n", buf); + /* Send AUTH_MAC */ + base16_encode(buf, sizeof(buf), + (const char*)hs_ntor_rend_cell_keys.rend_cell_auth_mac, + sizeof(hs_ntor_rend_cell_keys.rend_cell_auth_mac)); + printf("%s\n", buf); + /* Send NTOR_KEY_SEED */ + base16_encode(buf, sizeof(buf), + (const char*)hs_ntor_rend_cell_keys.ntor_key_seed, + sizeof(hs_ntor_rend_cell_keys.ntor_key_seed)); + printf("%s\n", buf); + /* Send service ephemeral pubkey (Y) */ + base16_encode(buf, sizeof(buf), + (const char*)service_ephemeral_rend_keypair.pubkey.public_key, + sizeof(service_ephemeral_rend_keypair.pubkey.public_key)); + printf("%s\n", buf); + + done: + return retval; +} + +/** The final step of the ntor protocol, the client computes and returns the + * rendezvous key material. */ +static int +client2(int argc, char **argv) +{ + int retval; + + /* Inputs */ + curve25519_public_key_t intro_enc_pubkey; + ed25519_public_key_t intro_auth_pubkey; + curve25519_keypair_t client_ephemeral_enc_keypair; + curve25519_public_key_t service_ephemeral_rend_pubkey; + uint8_t subcredential[DIGEST256_LEN]; + + /* Output */ + hs_ntor_rend_cell_keys_t hs_ntor_rend_cell_keys; + + char buf[256]; + + N_ARGS(7); + BASE16(2, intro_auth_pubkey.pubkey, ED25519_PUBKEY_LEN); + BASE16(3, client_ephemeral_enc_keypair.seckey.secret_key, + CURVE25519_SECKEY_LEN); + BASE16(4, intro_enc_pubkey.public_key, CURVE25519_PUBKEY_LEN); + BASE16(5, service_ephemeral_rend_pubkey.public_key, CURVE25519_PUBKEY_LEN); + BASE16(6, subcredential, DIGEST256_LEN); + + /* Generate keypair */ + curve25519_public_key_generate(&client_ephemeral_enc_keypair.pubkey, + &client_ephemeral_enc_keypair.seckey); + + /* Get RENDEZVOUS1 keys */ + retval = hs_ntor_client_get_rendezvous1_keys(&intro_auth_pubkey, + &client_ephemeral_enc_keypair, + &intro_enc_pubkey, + &service_ephemeral_rend_pubkey, + &hs_ntor_rend_cell_keys); + if (retval < 0) { + goto done; + } + + /* Send AUTH_MAC */ + base16_encode(buf, sizeof(buf), + (const char*)hs_ntor_rend_cell_keys.rend_cell_auth_mac, + sizeof(hs_ntor_rend_cell_keys.rend_cell_auth_mac)); + printf("%s\n", buf); + /* Send NTOR_KEY_SEED */ + base16_encode(buf, sizeof(buf), + (const char*)hs_ntor_rend_cell_keys.ntor_key_seed, + sizeof(hs_ntor_rend_cell_keys.ntor_key_seed)); + printf("%s\n", buf); + + done: + return 1; +} + +/** Perform a different part of the protocol depdning on the argv used. */ +int +main(int argc, char **argv) +{ + if (argc < 2) { + fprintf(stderr, "I need arguments. Read source for more info.\n"); + return 1; + } + + curve25519_init(); + if (!strcmp(argv[1], "client1")) { + return client1(argc, argv); + } else if (!strcmp(argv[1], "server1")) { + return server1(argc, argv); + } else if (!strcmp(argv[1], "client2")) { + return client2(argc, argv); + } else { + fprintf(stderr, "What's a %s?\n", argv[1]); + return 1; + } +} +