#include #include #include #include #include #include #include #include void printwire_u8(const char *fieldname, const u8 *v) { printf("%u\n", *v); } void printwire_u16(const char *fieldname, const u16 *v) { printf("%u\n", *v); } void printwire_u32(const char *fieldname, const u32 *v) { printf("%u\n", *v); } void printwire_u64(const char *fieldname, const u64 *v) { printf("%"PRIu64"\n", *v); } /* Returns false if we ran out of data. */ static bool print_hexstring(const u8 **cursor, size_t *plen, size_t len) { while (len) { u8 v = fromwire_u8(cursor, plen); if (!*cursor) return false; printf("%02x", v); len--; } return true; } static void printwire_alias(const u8 **cursor, size_t *plen, size_t len) { struct utf8_state utf8 = UTF8_STATE_INIT; const char *p = (const char *)*cursor; bool char_done = true; printf("["); for (size_t i = 0; i < len; i++) { if (!p[i]) { if (!memeqzero(p+i, len-i)) { printf(" **INVALID PADDING** "); goto hexdump; } break; } if (utf8_decode(&utf8, p[i])) { if (errno != 0) { printf(" **INVALID UTF-8** "); goto hexdump; } char_done = true; } else { /* Don't allow unprintable characters */ if (utf8.total_len == 1 && !cisprint(utf8.c)) { printf(" **UNPRINTABLE CHARACTER** "); goto hexdump; } char_done = false; } } if (!char_done) { printf(" **INCOMPLETE UTF-8** "); goto hexdump; } printf("%.*s ", (int)len, p); hexdump: if (!print_hexstring(cursor, plen, len)) return; printf(" ]\n"); } static void printwire_addresses(const u8 **cursor, size_t *plen, size_t len) { struct wireaddr addr; printf("["); while (*plen && fromwire_wireaddr(cursor, plen, &addr)) printf(" %s", fmt_wireaddr(NULL, &addr)); if (!*cursor) return; if (*plen != 0) { printf(" UNKNOWN:"); if (!print_hexstring(cursor, plen, len)) return; } printf(" ]\n"); } static void printwire_encoded_short_ids(const u8 **cursor, size_t *plen, size_t len) { struct short_channel_id *scids; u8 *arr = tal_arr(tmpctx, u8, len); fromwire_u8_array(cursor, plen, arr, len); if (!*cursor) return; printf("["); scids = decode_short_ids(tmpctx, arr); if (scids) { switch (arr[0]) { case SHORTIDS_UNCOMPRESSED: printf(" (UNCOMPRESSED)"); break; case SHORTIDS_ZLIB: printf(" (ZLIB)"); break; default: abort(); } for (size_t i = 0; i < tal_count(scids); i++) printf(" %s", short_channel_id_to_str(tmpctx, &scids[i])); } else { /* If it was unknown, that's different from corrupt */ if (len == 0 || arr[0] == SHORTIDS_UNCOMPRESSED || arr[0] == SHORTIDS_ZLIB) { printf(" **CORRUPT**"); return; } else { printf(" UNKNOWN:"); print_hexstring(cursor, plen, len); } } printf(" ]\n"); } void printwire_u8_array(const char *fieldname, const u8 **cursor, size_t *plen, size_t len) { if (streq(fieldname, "node_announcement.alias")) { printwire_alias(cursor, plen, len); return; } if (streq(fieldname, "node_announcement.addresses")) { printwire_addresses(cursor, plen, len); return; } if (strends(fieldname, ".encoded_short_ids")) { printwire_encoded_short_ids(cursor, plen, len); return; } printf("["); if (!print_hexstring(cursor, plen, len)) return; printf("]\n"); } #define PRINTWIRE_TYPE_TO_STRING(T, N) \ void printwire_##N(const char *fieldname, const T *v) \ { \ const char *s = type_to_string(NULL, T, v); \ printf("%s\n", s); \ tal_free(s); \ } #define PRINTWIRE_STRUCT_TYPE_TO_STRING(T) \ PRINTWIRE_TYPE_TO_STRING(struct T, T) PRINTWIRE_STRUCT_TYPE_TO_STRING(bitcoin_blkid); PRINTWIRE_STRUCT_TYPE_TO_STRING(bitcoin_txid); PRINTWIRE_STRUCT_TYPE_TO_STRING(channel_id); PRINTWIRE_STRUCT_TYPE_TO_STRING(preimage); PRINTWIRE_STRUCT_TYPE_TO_STRING(pubkey); PRINTWIRE_STRUCT_TYPE_TO_STRING(sha256); PRINTWIRE_STRUCT_TYPE_TO_STRING(secret); PRINTWIRE_STRUCT_TYPE_TO_STRING(short_channel_id); PRINTWIRE_TYPE_TO_STRING(secp256k1_ecdsa_signature, secp256k1_ecdsa_signature);