#include "config.h" #include #include #include #include #include #include #include #include #include #include #include #include /* We don't actually use this, but common/onion needs it */ void ecdh(const struct pubkey *point, struct secret *ss) { abort(); } static void do_generate(int argc, char **argv, const u8 *assocdata, const struct node_id *rvnode_id) { const tal_t *ctx = talz(NULL, tal_t); int num_hops = argc - 2; struct pubkey *path = tal_arr(ctx, struct pubkey, num_hops); u8 rawprivkey[PRIVKEY_LEN]; struct secret session_key; struct secret *shared_secrets; struct sphinx_path *sp; struct sphinx_compressed_onion *comp; u8 *serialized; struct onionpacket *packet; memset(&session_key, 'A', sizeof(struct secret)); sp = sphinx_path_new_with_key(ctx, assocdata, &session_key); sphinx_path_set_rendezvous(sp, rvnode_id); for (int i = 0; i < num_hops; i++) { size_t klen = strcspn(argv[2 + i], "/"); if (hex_data_size(klen) == PRIVKEY_LEN) { if (!hex_decode(argv[2 + i], klen, rawprivkey, PRIVKEY_LEN)) errx(1, "Invalid private key hex '%s'", argv[2 + i]); if (secp256k1_ec_pubkey_create(secp256k1_ctx, &path[i].pubkey, rawprivkey) != 1) errx(1, "Could not decode pubkey"); } else if (hex_data_size(klen) == PUBKEY_CMPR_LEN) { if (!pubkey_from_hexstr(argv[2 + i], klen, &path[i])) errx(1, "Invalid public key hex '%s'", argv[2 + i]); } else { errx(1, "Provided key is neither a pubkey nor a privkey: " "%s\n", argv[2 + i]); } /* / -> raw hopdata. /tlv -> TLV encoding. */ if (argv[2 + i][klen] != '\0' && argv[2 + i][klen] != 't') { const char *hopstr = argv[2 + i] + klen + 1; u8 *data = tal_hexdata(ctx, hopstr, strlen(hopstr)); if (!data) errx(1, "bad hex after / in %s", argv[1 + i]); sphinx_add_hop(sp, &path[i], data); } else { struct short_channel_id scid; struct amount_msat amt; /* FIXME: support secret and and total_msat */ memset(&scid, i, sizeof(scid)); amt = amount_msat(i); if (i == num_hops - 1) sphinx_add_hop(sp, &path[i], take(onion_final_hop(NULL, amt, i, amt, NULL, NULL, NULL))); else sphinx_add_hop(sp, &path[i], take(onion_nonfinal_hop(NULL, &scid, amt, i, NULL, NULL))); } } packet = create_onionpacket(ctx, sp, ROUTING_INFO_SIZE, &shared_secrets); if (rvnode_id != NULL) { comp = sphinx_compress(ctx, packet, sp); serialized = sphinx_compressed_onion_serialize(ctx, comp); printf("Rendezvous onion: %s\n", tal_hex(ctx, serialized)); } else { assert(sphinx_compress(ctx, packet, sp) == NULL); } serialized = serialize_onionpacket(ctx, packet); if (!serialized) errx(1, "Error serializing message."); printf("%s\n", tal_hex(ctx, serialized)); tal_free(ctx); } static struct route_step *decode_with_privkey(const tal_t *ctx, const u8 *onion, char *hexprivkey, const u8 *assocdata) { struct privkey seckey; struct route_step *step; struct onionpacket *packet; enum onion_wire why_bad; struct secret shared_secret; if (!hex_decode(hexprivkey, strlen(hexprivkey), &seckey, sizeof(seckey))) errx(1, "Invalid private key hex '%s'", hexprivkey); packet = parse_onionpacket(tmpctx, onion, tal_bytelen(onion), &why_bad); if (!packet) errx(1, "Error parsing message: %s", onion_wire_name(why_bad)); if (!onion_shared_secret(&shared_secret, packet, &seckey)) errx(1, "Error creating shared secret."); step = process_onionpacket(ctx, packet, &shared_secret, assocdata, tal_bytelen(assocdata), true); return step; } static void do_decode(int argc, char **argv, const u8 *assocdata) { const tal_t *ctx = talz(NULL, tal_t); u8 *serialized; struct route_step *step; if (argc != 4) opt_usage_exit_fail("Expect an filename and privkey with 'decode' method"); /* "-" means stdin, which is NULL for grab_file */ char *hextemp = grab_file(ctx, streq(argv[2], "-") ? NULL : argv[2]); size_t hexlen = strlen(hextemp); // trim trailing whitespace while (isspace(hextemp[hexlen-1])) hexlen--; serialized = tal_hexdata(hextemp, hextemp, hexlen); if (!serialized) { errx(1, "Invalid onion hex '%s'", hextemp); } step = decode_with_privkey(ctx, serialized, tal_strdup(ctx, argv[3]), assocdata); if (!step || !step->next) errx(1, "Error processing message."); printf("payload=%s\n", tal_hex(ctx, step->raw_payload)); if (step->nextcase == ONION_FORWARD) { u8 *ser = serialize_onionpacket(ctx, step->next); if (!ser) errx(1, "Error serializing message."); printf("next=%s\n", tal_hex(ctx, ser)); } tal_free(ctx); } static char *opt_set_ad(const char *arg, u8 **assocdata) { *assocdata = tal_hexdata(NULL, arg, strlen(arg)); if (!*assocdata) return "Bad hex string"; return NULL; } static void opt_show_ad(char buf[OPT_SHOW_LEN], u8 *const *assocdata) { hex_encode(*assocdata, tal_bytelen(*assocdata), buf, OPT_SHOW_LEN); } static char *opt_set_node_id(const char *arg, struct node_id *node_id) { node_id_from_hexstr(arg, strlen(arg), node_id); return NULL; } /** * Run an onion encoding/decoding unit-test from a file */ static void runtest(const char *filename) { const tal_t *ctx = tal(NULL, u8); char *buffer = grab_file(ctx, filename); const jsmntok_t *toks, *session_key_tok, *associated_data_tok, *gentok, *hopstok, *hop, *payloadtok, *pubkeytok, *typetok, *oniontok, *decodetok; const u8 *associated_data, *session_key_raw, *payload, *serialized, *onion; struct secret session_key, *shared_secrets; struct pubkey pubkey; struct sphinx_path *path; size_t i; struct onionpacket *res; struct route_step *step; char *hexprivkey; toks = json_parse_simple(ctx, buffer, strlen(buffer)); if (!toks) errx(1, "File is not a valid JSON file."); gentok = json_get_member(buffer, toks, "generate"); if (!gentok) errx(1, "JSON object does not contain a 'generate' key"); /* Unpack the common parts */ associated_data_tok = json_get_member(buffer, gentok, "associated_data"); session_key_tok = json_get_member(buffer, gentok, "session_key"); associated_data = json_tok_bin_from_hex(ctx, buffer, associated_data_tok); session_key_raw = json_tok_bin_from_hex(ctx, buffer, session_key_tok); memcpy(&session_key, session_key_raw, sizeof(session_key)); path = sphinx_path_new_with_key(ctx, associated_data, &session_key); /* Unpack the hops and build up the path */ hopstok = json_get_member(buffer, gentok, "hops"); json_for_each_arr(i, hop, hopstok) { u8 *full; size_t prepended; payloadtok = json_get_member(buffer, hop, "payload"); typetok = json_get_member(buffer, hop, "type"); pubkeytok = json_get_member(buffer, hop, "pubkey"); payload = json_tok_bin_from_hex(ctx, buffer, payloadtok); json_to_pubkey(buffer, pubkeytok, &pubkey); if (!typetok || json_tok_streq(buffer, typetok, "legacy")) { /* Legacy has a single 0 prepended as "realm" byte */ full = tal_arrz(ctx, u8, 33); memcpy(full + 1, payload, tal_bytelen(payload)); } else { /* TLV has length prepended */ full = tal_arr(ctx, u8, 0); towire_bigsize(&full, tal_bytelen(payload)); prepended = tal_bytelen(full); tal_resize(&full, prepended + tal_bytelen(payload)); memcpy(full + prepended, payload, tal_bytelen(payload)); } sphinx_add_hop(path, &pubkey, full); } res = create_onionpacket(ctx, path, ROUTING_INFO_SIZE, &shared_secrets); serialized = serialize_onionpacket(ctx, res); if (!serialized) errx(1, "Error serializing message."); oniontok = json_get_member(buffer, toks, "onion"); if (oniontok) { onion = json_tok_bin_from_hex(ctx, buffer, oniontok); if (!memeq(onion, tal_bytelen(onion), serialized, tal_bytelen(serialized))) errx(1, "Generated does not match the expected onion: \n" "generated: %s\n" "expected : %s\n", tal_hex(ctx, serialized), tal_hex(ctx, onion)); } printf("Generated onion: %s\n", tal_hex(ctx, serialized)); decodetok = json_get_member(buffer, toks, "decode"); json_for_each_arr(i, hop, decodetok) { bool valid; hexprivkey = json_strdup(ctx, buffer, hop); printf("Processing at hop %zu\n", i); step = decode_with_privkey(ctx, serialized, hexprivkey, associated_data); serialized = serialize_onionpacket(ctx, step->next); if (!serialized) errx(1, "Error serializing message."); onion_payload_length(step->raw_payload, tal_bytelen(step->raw_payload), true, &valid); assert(valid); printf(" Payload: %s\n", tal_hex(ctx, step->raw_payload)); printf(" Next onion: %s\n", tal_hex(ctx, serialized)); printf(" Next HMAC: %s\n", tal_hexstr(ctx, step->next->hmac.bytes, crypto_auth_hmacsha256_BYTES)); } tal_free(ctx); } static void decompress(char *hexprivkey, char *hexonion) { struct privkey rendezvous_key; size_t onionlen = hex_data_size(strlen(hexonion)); u8 *compressed; struct pubkey ephkey; struct secret shared_secret; struct onionpacket *onion; struct sphinx_compressed_onion *tinyonion; if (!hex_decode(hexprivkey, strlen(hexprivkey), &rendezvous_key, sizeof(rendezvous_key))) errx(1, "Invalid private key hex '%s'", hexprivkey); compressed = tal_arr(NULL, u8, onionlen); if (!hex_decode(hexonion, strlen(hexonion), compressed, onionlen)) errx(1, "Invalid onion hex '%s'", hexonion); if (onionlen < HMAC_SIZE + 1 + PUBKEY_SIZE) errx(1, "Onion is too short to contain the version, ephemeral key and HMAC"); pubkey_from_der(compressed + 1, PUBKEY_SIZE, &ephkey); tinyonion = sphinx_compressed_onion_deserialize(NULL, compressed); if (tinyonion == NULL) errx(1, "Could not deserialize compressed onion"); if (!sphinx_create_shared_secret(&shared_secret, &tinyonion->ephemeralkey, &rendezvous_key.secret)) errx(1, "Could not generate shared secret from ephemeral key %s " "and private key %s", pubkey_to_hexstr(NULL, &ephkey), hexprivkey); onion = sphinx_decompress(NULL, tinyonion, &shared_secret); if (onion == NULL) errx(1, "Could not decompress compressed onion"); printf("Decompressed Onion: %s\n", tal_hex(NULL, serialize_onionpacket(NULL, onion))); } /* Tal wrappers for opt. */ static void *opt_allocfn(size_t size) { return tal_arr_label(NULL, char, size, TAL_LABEL("opt_allocfn", "")); } static void *tal_reallocfn(void *ptr, size_t size) { if (!ptr) return opt_allocfn(size); tal_resize_(&ptr, 1, size, false); return ptr; } static void tal_freefn(void *ptr) { tal_free(ptr); } int main(int argc, char **argv) { setup_locale(); const char *method; u8 *assocdata = NULL; struct node_id rendezvous_id; memset(&rendezvous_id, 0, sizeof(struct node_id)); secp256k1_ctx = secp256k1_context_create(SECP256K1_CONTEXT_VERIFY | SECP256K1_CONTEXT_SIGN); opt_set_alloc(opt_allocfn, tal_reallocfn, tal_freefn); opt_register_arg("--assoc-data", opt_set_ad, opt_show_ad, &assocdata, "Associated data (usu. payment_hash of payment)"); opt_register_arg("--rendezvous-id", opt_set_node_id, NULL, &rendezvous_id, "Node ID of the rendez-vous node"); opt_register_noarg("--help|-h", opt_usage_and_exit, "\n\n\tdecode \n" "\tgenerate ...\n" "\tgenerate [/hopdata|/tlv] [/hopdata|/tlv]\n" "\tgenerate [/hopdata|/tlv] [/hopdata|/tlv]\n" "\truntest \n\n", "Show this message\n\n" "\texample:\n" "\t> onion generate 02c18e7ff9a319983e85094b8c957da5c1230ecb328c1f1c7e88029f1fec2046f8/00000000000000000000000000000f424000000138000000000000000000000000 --assoc-data 44ee26f01e54665937b892f6afbfdfb88df74bcca52d563f088668cf4490aacd > onion.dat\n" "\t> onion decode onion.dat 78302c8edb1b94e662464e99af721054b6ab9d577d3189f933abde57709c5cb8 --assoc-data 44ee26f01e54665937b892f6afbfdfb88df74bcca52d563f088668cf4490aacd\n"); opt_register_version(); opt_early_parse(argc, argv, opt_log_stderr_exit); opt_parse(&argc, argv, opt_log_stderr_exit); if (argc < 2) errx(1, "You must specify a method"); method = argv[1]; if (streq(method, "runtest")) { if (argc != 3) errx(1, "'runtest' requires a filename argument"); runtest(argv[2]); } else if (streq(method, "generate")) { if (memeqzero(&rendezvous_id, sizeof(rendezvous_id))) do_generate(argc, argv, assocdata, NULL); else do_generate(argc, argv, assocdata, &rendezvous_id); } else if (streq(method, "decompress")) { if (argc != 4) { errx(2, "'%s decompress' requires a private key and a " "compressed onion", argv[0]); } decompress(argv[2], argv[3]); } else if (streq(method, "decode")) { do_decode(argc, argv, assocdata); } else { errx(1, "Unrecognized method '%s'", method); } return 0; }