#include "features.h" #include #include #include #include static const u32 our_localfeatures[] = { OPTIONAL_FEATURE(LOCAL_DATA_LOSS_PROTECT), OPTIONAL_FEATURE(LOCAL_INITIAL_ROUTING_SYNC), OPTIONAL_FEATURE(LOCAL_UPFRONT_SHUTDOWN_SCRIPT), OPTIONAL_FEATURE(LOCAL_GOSSIP_QUERIES), OPTIONAL_FEATURE(LOCAL_GOSSIP_QUERIES_EX), #if EXPERIMENTAL_FEATURES OPTIONAL_FEATURE(LOCAL_STATIC_REMOTEKEY), #endif }; static const u32 our_globalfeatures[] = { }; /* BOLT #1: * * All data fields are unsigned big-endian unless otherwise specified. */ void set_feature_bit(u8 **ptr, u32 bit) { size_t len = tal_count(*ptr); if (bit / 8 >= len) { size_t newlen = (bit / 8) + 1; u8 *newarr = tal_arrz(tal_parent(*ptr), u8, newlen); memcpy(newarr + (newlen - len), *ptr, len); tal_free(*ptr); *ptr = newarr; len = newlen; } (*ptr)[len - 1 - bit / 8] |= (1 << (bit % 8)); } static bool test_bit(const u8 *features, size_t byte, unsigned int bit) { assert(byte < tal_count(features)); return features[tal_count(features) - 1 - byte] & (1 << (bit % 8)); } static u8 *mkfeatures(const tal_t *ctx, const u32 *arr, size_t n) { u8 *f = tal_arr(ctx, u8, 0); for (size_t i = 0; i < n; i++) set_feature_bit(&f, arr[i]); return f; } u8 *get_offered_globalfeatures(const tal_t *ctx) { return mkfeatures(ctx, our_globalfeatures, ARRAY_SIZE(our_globalfeatures)); } u8 *get_offered_localfeatures(const tal_t *ctx) { return mkfeatures(ctx, our_localfeatures, ARRAY_SIZE(our_localfeatures)); } bool feature_is_set(const u8 *features, size_t bit) { size_t bytenum = bit / 8; if (bytenum >= tal_count(features)) return false; return test_bit(features, bytenum, bit % 8); } bool feature_offered(const u8 *features, size_t f) { return feature_is_set(features, COMPULSORY_FEATURE(f)) || feature_is_set(features, OPTIONAL_FEATURE(f)); } static bool feature_supported(int feature_bit, const u32 *supported, size_t num_supported) { for (size_t i = 0; i < num_supported; i++) { if (OPTIONAL_FEATURE(supported[i]) == OPTIONAL_FEATURE(feature_bit)) return true; } return false; } /** * all_supported_features - Check if we support what's being asked * * Given the features vector that the remote connection is expecting * from us, we check to see if we support all even bit features, i.e., * the required features. * * @bitmap: the features bitmap the peer is asking for * @supported: array of features we support * @num_supported: how many elements in supported */ static bool all_supported_features(const u8 *bitmap, const u32 *supported, size_t num_supported) { size_t len = tal_count(bitmap) * 8; /* It's OK to be odd: only check even bits. */ for (size_t bitnum = 0; bitnum < len; bitnum += 2) { if (!test_bit(bitmap, bitnum/8, bitnum%8)) continue; if (feature_supported(bitnum, supported, num_supported)) continue; return false; } return true; } bool features_supported(const u8 *globalfeatures, const u8 *localfeatures) { /* BIT 2 would logically be "compulsory initial_routing_sync", but * that does not exist, so we special case it. */ if (feature_is_set(localfeatures, COMPULSORY_FEATURE(LOCAL_INITIAL_ROUTING_SYNC))) return false; return all_supported_features(globalfeatures, our_globalfeatures, ARRAY_SIZE(our_globalfeatures)) && all_supported_features(localfeatures, our_localfeatures, ARRAY_SIZE(our_localfeatures)); } bool local_feature_negotiated(const u8 *lfeatures, size_t f) { if (!feature_offered(lfeatures, f)) return false; return feature_supported(f, our_localfeatures, ARRAY_SIZE(our_localfeatures)); } bool global_feature_negotiated(const u8 *gfeatures, size_t f) { if (!feature_offered(gfeatures, f)) return false; return feature_supported(f, our_globalfeatures, ARRAY_SIZE(our_globalfeatures)); } static const char *feature_name(const tal_t *ctx, size_t f) { static const char *fnames[] = { "option_data_loss_protect", "option_initial_routing_sync", "option_upfront_shutdown_script", "option_gossip_queries", "option_var_onion_optin", "option_gossip_queries_ex", "option_static_remotekey" }; assert(f / 2 < ARRAY_SIZE(fnames)); return tal_fmt(ctx, "%s/%s", fnames[f / 2], (f & 1) ? "odd" : "even"); } const char **list_supported_features(const tal_t *ctx) { const char **list = tal_arr(ctx, const char *, 0); /* The local/global number spaces are to be distinct, so this works */ for (size_t i = 0; i < ARRAY_SIZE(our_localfeatures); i++) tal_arr_expand(&list, feature_name(list, our_localfeatures[i])); for (size_t i = 0; i < ARRAY_SIZE(our_globalfeatures); i++) tal_arr_expand(&list, feature_name(list, our_globalfeatures[i])); return list; }