static void fromName() { struct Allocator* alloc = MallocAllocator_new(20000); Sockaddr_fromName("localhost", alloc); // This will fail in some cases (eg dns hijacking) //Assert_always(!Sockaddr_fromName("hasjklgyolgbvlbiogi", alloc)); Allocator_free(alloc); }
static void udpInterface(Dict* config, struct Context* ctx) { List* ifaces = Dict_getList(config, String_CONST("UDPInterface")); if (!ifaces) { ifaces = List_new(ctx->alloc); List_addDict(ifaces, Dict_getDict(config, String_CONST("UDPInterface")), ctx->alloc); } uint32_t count = List_size(ifaces); for (uint32_t i = 0; i < count; i++) { Dict *udp = List_getDict(ifaces, i); if (!udp) { continue; } // Setup the interface. String* bindStr = Dict_getString(udp, String_CONST("bind")); Dict* d = Dict_new(ctx->alloc); if (bindStr) { Dict_putString(d, String_CONST("bindAddress"), bindStr, ctx->alloc); } Dict* resp = NULL; rpcCall0(String_CONST("UDPInterface_new"), d, ctx, ctx->alloc, &resp, true); int ifNum = *(Dict_getInt(resp, String_CONST("interfaceNumber"))); // Make the connections. Dict* connectTo = Dict_getDict(udp, String_CONST("connectTo")); if (connectTo) { struct Dict_Entry* entry = *connectTo; struct Allocator* perCallAlloc = Allocator_child(ctx->alloc); while (entry != NULL) { String* key = (String*) entry->key; if (entry->val->type != Object_DICT) { Log_critical(ctx->logger, "interfaces.UDPInterface.connectTo: entry [%s] " "is not a dictionary type.", key->bytes); exit(-1); } Dict* all = entry->val->as.dictionary; Dict* value = Dict_new(perCallAlloc); String* pub_d = Dict_getString(all, String_CONST("publicKey")); String* pss_d = Dict_getString(all, String_CONST("password")); String* peerName_d = Dict_getString(all, String_CONST("peerName")); String* login_d = Dict_getString(all, String_CONST("login")); if ( !pub_d || !pss_d ) { const char * error_name = "(unknown)"; if ( !pub_d ) { error_name = "publicKey"; } if ( !pss_d ) { error_name = "password"; } Log_warn(ctx->logger, "Skipping peer: missing %s for peer [%s]", error_name, key->bytes); if (abort_if_invalid_ref) { Assert_failure("Invalid peer reference"); } else { entry = entry->next; continue; } } Dict_putString(value, String_CONST("publicKey"), pub_d, perCallAlloc); Dict_putString(value, String_CONST("password"), pss_d, perCallAlloc); Dict_putString(value, String_CONST("peerName"), peerName_d, perCallAlloc); Dict_putString(value, String_CONST("login"), login_d, perCallAlloc); Log_keys(ctx->logger, "Attempting to connect to node [%s].", key->bytes); key = String_clone(key, perCallAlloc); char* lastColon = CString_strrchr(key->bytes, ':'); if (!Sockaddr_parse(key->bytes, NULL)) { // it's a sockaddr, fall through } else if (lastColon) { // try it as a hostname. int port = atoi(lastColon+1); if (!port) { Log_critical(ctx->logger, "Couldn't get port number from [%s]", key->bytes); exit(-1); } *lastColon = '\0'; struct Sockaddr* adr = Sockaddr_fromName(key->bytes, perCallAlloc); if (adr != NULL) { Sockaddr_setPort(adr, port); key = String_new(Sockaddr_print(adr, perCallAlloc), perCallAlloc); } else { Log_warn(ctx->logger, "Failed to lookup hostname [%s]", key->bytes); entry = entry->next; continue; } } struct Allocator* child = Allocator_child(ctx->alloc); struct Message* msg = Message_new(0, AdminClient_MAX_MESSAGE_SIZE + 256, child); int r = BencMessageWriter_writeDictTry(value, msg, NULL); const int max_reference_size = 298; if (r != 0 || msg->length > max_reference_size) { Log_warn(ctx->logger, "Peer skipped:"); Log_warn(ctx->logger, "Too long peer reference for [%s]", key->bytes); if (abort_if_invalid_ref) { Assert_failure("Invalid peer reference"); } else { entry = entry->next; continue; } } Dict_putInt(value, String_CONST("interfaceNumber"), ifNum, perCallAlloc); Dict_putString(value, String_CONST("address"), key, perCallAlloc); rpcCall(String_CONST("UDPInterface_beginConnection"), value, ctx, perCallAlloc); entry = entry->next; } Allocator_free(perCallAlloc); } } }
static void udpInterface(Dict* config, struct Context* ctx) { List* ifaces = Dict_getList(config, String_CONST("UDPInterface")); if (!ifaces) { ifaces = List_addDict(ifaces, Dict_getDict(config, String_CONST("UDPInterface")), ctx->alloc); } uint32_t count = List_size(ifaces); for (uint32_t i = 0; i < count; i++) { Dict *udp = List_getDict(ifaces, i); if (!udp) { continue; } // Setup the interface. String* bindStr = Dict_getString(udp, String_CONST("bind")); Dict* d = Dict_new(ctx->alloc); if (bindStr) { Dict_putString(d, String_CONST("bindAddress"), bindStr, ctx->alloc); } rpcCall(String_CONST("UDPInterface_new"), d, ctx, ctx->alloc); // Make the connections. Dict* connectTo = Dict_getDict(udp, String_CONST("connectTo")); if (connectTo) { struct Dict_Entry* entry = *connectTo; struct Allocator* perCallAlloc = Allocator_child(ctx->alloc); while (entry != NULL) { String* key = (String*) entry->key; if (entry->val->type != Object_DICT) { Log_critical(ctx->logger, "interfaces.UDPInterface.connectTo: entry [%s] " "is not a dictionary type.", key->bytes); exit(-1); } Dict* value = entry->val->as.dictionary; Log_keys(ctx->logger, "Attempting to connect to node [%s].", key->bytes); key = String_clone(key, perCallAlloc); char* lastColon = strrchr(key->bytes, ':'); if (!Sockaddr_parse(key->bytes, NULL)) { // it's a sockaddr, fall through } else if (lastColon) { // try it as a hostname. int port = atoi(lastColon+1); if (!port) { Log_critical(ctx->logger, "Couldn't get port number from [%s]", key->bytes); exit(-1); } *lastColon = '\0'; struct Sockaddr* adr = Sockaddr_fromName(key->bytes, perCallAlloc); if (adr != NULL) { Sockaddr_setPort(adr, port); key = String_new(Sockaddr_print(adr, perCallAlloc), perCallAlloc); } else { Log_warn(ctx->logger, "Failed to lookup hostname [%s]", key->bytes); entry = entry->next; continue; } } Dict_putString(value, String_CONST("address"), key, perCallAlloc); rpcCall(String_CONST("UDPInterface_beginConnection"), value, ctx, perCallAlloc); entry = entry->next; } Allocator_free(perCallAlloc); } } }