FS-9775: Initial work towards sending messages, refactored into less headers, test updated

2025-06-07 13:35:00 +00:00 · 2016-12-02 19:57:45 +00:00 · 2016-12-02 19:57:45 +00:00 · e4176f5873
commit e4176f5873
parent d9c1dba85f
13 changed files with 587 additions and 189 deletions
--- a/libs/libks/Makefile.am
+++ b/libs/libks/Makefile.am
@ -13,7 +13,7 @@ libks_la_SOURCES += src/ks_time.c src/ks_printf.c src/ks_hash.c src/ks_q.c src/k
 libks_la_SOURCES += src/ks_ssl.c src/kws.c src/ks_rng.c
 libks_la_SOURCES += src/utp/utp_api.cpp src/utp/utp_callbacks.cpp src/utp/utp_hash.cpp src/utp/utp_internal.cpp
 libks_la_SOURCES += src/utp/utp_packedsockaddr.cpp src/utp/utp_utils.cpp src/ks_bencode.c
-libks_la_SOURCES += src/dht/ks_dht.c src/dht/ks_dht_endpoint.c src/dht/ks_dht_nodeid.c src/dht/ks_dht_message.c
+libks_la_SOURCES += src/dht/ks_dht.c src/dht/ks_dht_endpoint.c src/dht/ks_dht_nodeid.c src/dht/ks_dht_message.c src/dht/ks_dht_transaction.c
 libks_la_SOURCES += crypt/aeskey.c crypt/aestab.c crypt/sha2.c crypt/twofish.c crypt/aes_modes.c crypt/aescrypt.c crypt/twofish_cfb.c 
 #aes.h aescpp.h brg_endian.h aesopt.h aestab.h brg_types.h sha2.h twofish.h
@ -29,8 +29,7 @@ library_include_HEADERS += src/include/ks_dso.h src/include/ks_dht.h src/include
 library_include_HEADERS += src/include/ks_printf.h src/include/ks_hash.h src/include/ks_ssl.h src/include/kws.h
 library_include_HEADERS += src/utp/utp_internal.h src/utp/utp.h src/utp/utp_types.h src/utp/utp_callbacks.h src/utp/utp_templates.h
 library_include_HEADERS += src/utp/utp_hash.h src/utp/utp_packedsockaddr.h src/utp/utp_utils.h src/include/ks_utp.h
-library_include_HEADERS += src/dht/ks_dht.h src/dht/ks_dht-int.h src/dht/ks_dht_endpoint.h src/dht/ks_dht_endpoint-int.h
+library_include_HEADERS += src/dht/ks_dht.h src/dht/ks_dht-int.h
 library_include_HEADERS += src/dht/ks_dht_nodeid.h src/dht/ks_dht_message.h
 tests: libks.la
 	$(MAKE) -C test tests
--- a/libs/libks/src/dht/ks_dht-int.h
+++ b/libs/libks/src/dht/ks_dht-int.h
@ -5,12 +5,35 @@
 KS_BEGIN_EXTERN_C
-
+/**
 *
 */
 KS_DECLARE(ks_status_t) ks_dht2_send(ks_dht2_t *dht, ks_sockaddr_t *raddr, ks_dht2_message_t *message);
 KS_DECLARE(ks_status_t) ks_dht2_idle(ks_dht2_t *dht);
 KS_DECLARE(ks_status_t) ks_dht2_process(ks_dht2_t *dht, ks_sockaddr_t *raddr);
 KS_DECLARE(ks_status_t) ks_dht2_process_query(ks_dht2_t *dht, ks_sockaddr_t *raddr, ks_dht2_message_t *message);
 KS_DECLARE(ks_status_t) ks_dht2_process_response(ks_dht2_t *dht, ks_sockaddr_t *raddr, ks_dht2_message_t *message);
 KS_DECLARE(ks_status_t) ks_dht2_process_query_ping(ks_dht2_t *dht, ks_sockaddr_t *raddr, ks_dht2_message_t *message);
 KS_DECLARE(ks_status_t) ks_dht2_process_response_ping(ks_dht2_t *dht, ks_sockaddr_t *raddr, ks_dht2_message_t *message);
 KS_DECLARE(ks_status_t) ks_dht2_send_query_ping(ks_dht2_t *dht, ks_sockaddr_t *raddr);
 KS_DECLARE(ks_status_t) ks_dht2_send_response_ping(ks_dht2_t *dht,
 												   ks_sockaddr_t *raddr,
 												   uint8_t *transactionid,
 												   ks_size_t transactionid_length);
 /**
 *
 */
 KS_DECLARE(ks_status_t) ks_dht2_endpoint_alloc(ks_dht2_endpoint_t **endpoint, ks_pool_t *pool);
 KS_DECLARE(ks_status_t) ks_dht2_endpoint_prealloc(ks_dht2_endpoint_t *endpoint, ks_pool_t *pool);
 KS_DECLARE(ks_status_t) ks_dht2_endpoint_free(ks_dht2_endpoint_t *endpoint);
 KS_DECLARE(ks_status_t) ks_dht2_endpoint_init(ks_dht2_endpoint_t *endpoint, const ks_sockaddr_t *addr, ks_socket_t sock);
 KS_DECLARE(ks_status_t) ks_dht2_endpoint_deinit(ks_dht2_endpoint_t *endpoint);
 KS_END_EXTERN_C
--- a/libs/libks/src/dht/ks_dht.c
+++ b/libs/libks/src/dht/ks_dht.c
@ -1,6 +1,5 @@
 #include "ks_dht.h"
 #include "ks_dht-int.h"
 #include "ks_dht_endpoint-int.h"
 #include "sodium.h"
 /**
@ -62,6 +61,9 @@ KS_DECLARE(ks_status_t) ks_dht2_init(ks_dht2_t *dht, const ks_dht2_nodeid_raw_t
 	ks_assert(dht);
 	ks_assert(dht->pool);
 	dht->autoroute = KS_FALSE;
 	dht->autoroute_port = 0;
 	if (ks_dht2_nodeid_prealloc(&dht->nodeid, dht->pool) != KS_STATUS_SUCCESS) {
 		return KS_STATUS_FAIL;
 	}
@ -72,6 +74,7 @@ KS_DECLARE(ks_status_t) ks_dht2_init(ks_dht2_t *dht, const ks_dht2_nodeid_raw_t
 	ks_hash_create(&dht->registry_type, KS_HASH_MODE_DEFAULT, KS_HASH_FLAG_RWLOCK | KS_HASH_FLAG_DUP_CHECK, dht->pool);
 	ks_dht2_register_type(dht, "q", ks_dht2_process_query);
 	ks_dht2_register_type(dht, "r", ks_dht2_process_response);
 	// @todo ks_hash_insert the r/e callbacks into type registry
 	ks_hash_create(&dht->registry_query, KS_HASH_MODE_DEFAULT, KS_HASH_FLAG_RWLOCK | KS_HASH_FLAG_DUP_CHECK, dht->pool);
@ -87,6 +90,9 @@ KS_DECLARE(ks_status_t) ks_dht2_init(ks_dht2_t *dht, const ks_dht2_nodeid_raw_t
 	dht->recv_buffer_length = 0;
 	dht->transactionid_next = rand() % 0xFFFF;
 	ks_hash_create(&dht->transactions_hash, KS_HASH_MODE_INT, KS_HASH_FLAG_RWLOCK, dht->pool);
 	return KS_STATUS_SUCCESS;
 }
@ -97,6 +103,11 @@ KS_DECLARE(ks_status_t) ks_dht2_deinit(ks_dht2_t *dht)
 {
 	ks_assert(dht);
 	dht->transactionid_next = 0;
 	if (dht->transactions_hash) {
 		ks_hash_destroy(&dht->transactions_hash);
 		dht->transactions_hash = NULL;
 	}
 	dht->recv_buffer_length = 0;
 	for (int32_t i = 0; i < dht->endpoints_size; ++i) {
 		ks_dht2_endpoint_t *ep = dht->endpoints[i];
@ -131,13 +142,35 @@ KS_DECLARE(ks_status_t) ks_dht2_deinit(ks_dht2_t *dht)
 	ks_dht2_nodeid_deinit(&dht->nodeid);
 	dht->autoroute = KS_FALSE;
 	dht->autoroute_port = 0;
 	return KS_STATUS_SUCCESS;
 }
 /**
 *
 */
-KS_DECLARE(ks_status_t) ks_dht2_register_type(ks_dht2_t *dht, const char *value, ks_dht2_registry_callback_t callback)
+KS_DECLARE(ks_status_t) ks_dht2_autoroute(ks_dht2_t *dht, ks_bool_t autoroute, ks_port_t port)
 {
 	ks_assert(dht);
 	if (!autoroute) {
 		port = 0;
 	} else if (port == 0) {
 		return KS_STATUS_FAIL;
 	}
 	dht->autoroute = autoroute;
 	dht->autoroute_port = port;
 	return KS_STATUS_SUCCESS;
 }
 /**
 *
 */
 KS_DECLARE(ks_status_t) ks_dht2_register_type(ks_dht2_t *dht, const char *value, ks_dht2_message_callback_t callback)
 {
 	ks_assert(dht);
 	ks_assert(value);
@ -149,7 +182,7 @@ KS_DECLARE(ks_status_t) ks_dht2_register_type(ks_dht2_t *dht, const char *value,
 /**
 *
 */
-KS_DECLARE(ks_status_t) ks_dht2_register_query(ks_dht2_t *dht, const char *value, ks_dht2_registry_callback_t callback)
+KS_DECLARE(ks_status_t) ks_dht2_register_query(ks_dht2_t *dht, const char *value, ks_dht2_message_callback_t callback)
 {
 	ks_assert(dht);
 	ks_assert(value);
@ -161,7 +194,7 @@ KS_DECLARE(ks_status_t) ks_dht2_register_query(ks_dht2_t *dht, const char *value
 /**
 *
 */
-KS_DECLARE(ks_status_t) ks_dht2_bind(ks_dht2_t *dht, const ks_sockaddr_t *addr)
+KS_DECLARE(ks_status_t) ks_dht2_bind(ks_dht2_t *dht, const ks_sockaddr_t *addr, ks_dht2_endpoint_t **endpoint)
 {
 	ks_dht2_endpoint_t *ep;
 	ks_socket_t sock;
@ -172,6 +205,9 @@ KS_DECLARE(ks_status_t) ks_dht2_bind(ks_dht2_t *dht, const ks_sockaddr_t *addr)
 	ks_assert(addr->family == AF_INET || addr->family == AF_INET6);
 	ks_assert(addr->port);
 	if (endpoint) {
 		*endpoint = NULL;
 	}
 	dht->bind_ipv4 |= addr->family == AF_INET;
 	dht->bind_ipv6 |= addr->family == AF_INET6;
@ -216,6 +252,10 @@ KS_DECLARE(ks_status_t) ks_dht2_bind(ks_dht2_t *dht, const ks_sockaddr_t *addr)
 	dht->endpoints_poll[epindex].fd = ep->sock;
 	dht->endpoints_poll[epindex].events = POLLIN | POLLERR;
 	if (endpoint) {
 		*endpoint = ep;
 	}
 	return KS_STATUS_SUCCESS;
 }
@ -260,6 +300,63 @@ KS_DECLARE(ks_status_t) ks_dht2_pulse(ks_dht2_t *dht, int32_t timeout)
 	return KS_STATUS_SUCCESS;
 }
 /**
 *
 */
 KS_DECLARE(ks_status_t) ks_dht2_send(ks_dht2_t *dht, ks_sockaddr_t *raddr, ks_dht2_message_t *message)
 {
 	// @todo lookup standard def for IPV6 max size
 	char ip[48];
 	ks_dht2_endpoint_t *ep;
 	// @todo calculate max IPV6 payload size?
 	char buf[1000];
 	ks_size_t buf_len;
 	ks_assert(dht);
 	ks_assert(raddr);
 	ks_assert(message);
 	ks_assert(message->data);
 	// @todo blacklist check
 	ks_ip_route(ip, sizeof(ip), raddr->host);
 	if (!(ep = ks_hash_search(dht->endpoints_hash, ip, KS_UNLOCKED)) && dht->autoroute) {
 		ks_sockaddr_t addr;
 		ks_addr_set(&addr, ip, dht->autoroute_port, raddr->family);
 		if (ks_dht2_bind(dht, &addr, &ep) != KS_STATUS_SUCCESS) {
 			return KS_STATUS_FAIL;
 		}
 	}
 	if (!ep) {
 		ks_log(KS_LOG_DEBUG, "No route available to %s\n", raddr->host);
 		return KS_STATUS_FAIL;
 	}
 	buf_len = ben_encode2(buf, sizeof(buf), message->data);
 	ks_log(KS_LOG_DEBUG, "Sending message to %s %d\n", raddr->host, raddr->port);
 	ks_log(KS_LOG_DEBUG, "%s\n", ben_print(message->data));
 	if (ks_socket_sendto(ep->sock, (void *)buf, &buf_len, raddr) != KS_STATUS_SUCCESS) {
 		ks_log(KS_LOG_DEBUG, "Socket error\n");
 		return KS_STATUS_FAIL;
 	}
 	return KS_STATUS_SUCCESS;
 }
 /**
 *
 */
 KS_DECLARE(ks_status_t) ks_dht2_maketid(ks_dht2_t *dht)
 {
 	ks_assert(dht);
 	return KS_STATUS_SUCCESS;
 }
 /**
 *
 */
@ -276,7 +373,7 @@ KS_DECLARE(ks_status_t) ks_dht2_idle(ks_dht2_t *dht)
 KS_DECLARE(ks_status_t) ks_dht2_process(ks_dht2_t *dht, ks_sockaddr_t *raddr)
 {
 	ks_dht2_message_t message;
-	ks_dht2_registry_callback_t callback;
+	ks_dht2_message_callback_t callback;
 	ks_status_t ret = KS_STATUS_FAIL;
 	ks_assert(dht);
@ -294,16 +391,21 @@ KS_DECLARE(ks_status_t) ks_dht2_process(ks_dht2_t *dht, ks_sockaddr_t *raddr)
 		return KS_STATUS_FAIL;
 	}
-	if (ks_dht2_message_init(&message, dht->recv_buffer, dht->recv_buffer_length) != KS_STATUS_SUCCESS) {
+	if (ks_dht2_message_init(&message, KS_FALSE) != KS_STATUS_SUCCESS) {
 		return KS_STATUS_FAIL;
 	}
-	if (!(callback = (ks_dht2_registry_callback_t)(intptr_t)ks_hash_search(dht->registry_type, message.type, KS_UNLOCKED))) {
+	if (ks_dht2_message_parse(&message, dht->recv_buffer, dht->recv_buffer_length) != KS_STATUS_SUCCESS) {
 		goto done;
 	}
 	if (!(callback = (ks_dht2_message_callback_t)(intptr_t)ks_hash_search(dht->registry_type, message.type, KS_UNLOCKED))) {
 		ks_log(KS_LOG_DEBUG, "Message type '%s' is not registered\n", message.type);
 	} else {
 		ret = callback(dht, raddr, &message);
 	}
 done:
 	ks_dht2_message_deinit(&message);
 	return ret;
@ -319,23 +421,24 @@ KS_DECLARE(ks_status_t) ks_dht2_process_query(ks_dht2_t *dht, ks_sockaddr_t *rad
 	const char *qv;
 	ks_size_t qv_len;
 	char query[KS_DHT_MESSAGE_QUERY_MAX_SIZE];
-	ks_dht2_registry_callback_t callback;
+	ks_dht2_message_callback_t callback;
 	ks_status_t ret = KS_STATUS_FAIL;
 	ks_assert(dht);
 	ks_assert(raddr);
 	ks_assert(message);
 	// @todo start of ks_dht2_message_parse_query
    q = ben_dict_get_by_str(message->data, "q");
    if (!q) {
-		ks_log(KS_LOG_DEBUG, "Message missing required key 'q'\n");
+		ks_log(KS_LOG_DEBUG, "Message query missing required key 'q'\n");
 		return KS_STATUS_FAIL;
 	}
    qv = ben_str_val(q);
 	qv_len = ben_str_len(q);
    if (qv_len >= KS_DHT_MESSAGE_QUERY_MAX_SIZE) {
-		ks_log(KS_LOG_DEBUG, "Message 'q' value has an unexpectedly large size of %d\n", qv_len);
+		ks_log(KS_LOG_DEBUG, "Message query 'q' value has an unexpectedly large size of %d\n", qv_len);
 		return KS_STATUS_FAIL;
 	}
@ -345,13 +448,14 @@ KS_DECLARE(ks_status_t) ks_dht2_process_query(ks_dht2_t *dht, ks_sockaddr_t *rad
 	a = ben_dict_get_by_str(message->data, "a");
 	if (!a) {
-		ks_log(KS_LOG_DEBUG, "Message missing required key 'a'\n");
+		ks_log(KS_LOG_DEBUG, "Message query missing required key 'a'\n");
 		return KS_STATUS_FAIL;
 	}
 	// @todo end of ks_dht2_message_parse_query
 	message->args = a;
-	if (!(callback = (ks_dht2_registry_callback_t)(intptr_t)ks_hash_search(dht->registry_query, query, KS_UNLOCKED))) {
+	if (!(callback = (ks_dht2_message_callback_t)(intptr_t)ks_hash_search(dht->registry_query, query, KS_UNLOCKED))) {
 		ks_log(KS_LOG_DEBUG, "Message query '%s' is not registered\n", query);
 	} else {
 		ret = callback(dht, raddr, message);
@ -360,6 +464,46 @@ KS_DECLARE(ks_status_t) ks_dht2_process_query(ks_dht2_t *dht, ks_sockaddr_t *rad
 	return ret;
 }
 /**
 *
 */
 KS_DECLARE(ks_status_t) ks_dht2_process_response(ks_dht2_t *dht, ks_sockaddr_t *raddr, ks_dht2_message_t *message)
 {
 	struct bencode *r;
 	ks_dht2_transaction_t *transaction;
 	uint32_t transactionid;
 	uint16_t *tid;
 	ks_status_t ret = KS_STATUS_FAIL;
 	ks_assert(dht);
 	ks_assert(raddr);
 	ks_assert(message);
 	// @todo start of ks_dht2_message_parse_response
 	r = ben_dict_get_by_str(message->data, "r");
 	if (!r) {
 		ks_log(KS_LOG_DEBUG, "Message response missing required key 'r'\n");
 		return KS_STATUS_FAIL;
 	}
 	// todo end of ks_dht2_message_parse_response
 	message->args = r;
 	tid = (uint16_t *)message->transactionid;
 	transactionid = ntohs(*tid);
 	transaction = ks_hash_search(dht->transactions_hash, (void *)&transactionid, KS_READLOCKED);
 	ks_hash_read_unlock(dht->transactions_hash);
 	if (!transaction) {
 		ks_log(KS_LOG_DEBUG, "Message response rejected with unknown transaction id %d\n", transactionid);
 	} else {
 		ret = transaction->callback(dht, raddr, message);
 	}
 	return ret;
 }
 /**
 *
 */
@ -369,6 +513,7 @@ KS_DECLARE(ks_status_t) ks_dht2_process_query_ping(ks_dht2_t *dht, ks_sockaddr_t
 	const char *idv;
 	ks_size_t idv_len;
 	ks_dht2_nodeid_t nid;
 	ks_status_t ret = KS_STATUS_FAIL;
 	ks_assert(dht);
 	ks_assert(raddr);
@ -397,13 +542,122 @@ KS_DECLARE(ks_status_t) ks_dht2_process_query_ping(ks_dht2_t *dht, ks_sockaddr_t
 	}
 	//ks_log(KS_LOG_DEBUG, "Message query ping id is '%s'\n", id->id);
-	ks_log(KS_LOG_DEBUG, "Mesage query ping is valid\n");
+	ks_log(KS_LOG_DEBUG, "Message query ping is valid\n");
 	ret = ks_dht2_send_response_ping(dht, raddr, message->transactionid, message->transactionid_length);
 	ks_dht2_nodeid_deinit(&nid);
 	return ret;
 }
 /**
 *
 */
 KS_DECLARE(ks_status_t) ks_dht2_process_response_ping(ks_dht2_t *dht, ks_sockaddr_t *raddr, ks_dht2_message_t *message)
 {
 	ks_assert(dht);
 	ks_assert(raddr);
 	ks_assert(message);
 	return KS_STATUS_SUCCESS;
 }
 /**
 *
 */
 KS_DECLARE(ks_status_t) ks_dht2_send_query_ping(ks_dht2_t *dht, ks_sockaddr_t *raddr)
 {
 	uint32_t transactionid;
 	ks_dht2_transaction_t *transaction = NULL;
 	ks_dht2_message_t query;
 	struct bencode *a;
 	ks_status_t ret = KS_STATUS_FAIL;
 	ks_assert(dht);
 	ks_assert(raddr);
 	// @todo atomic increment or mutex...
 	transactionid = dht->transactionid_next++;
 	if (ks_dht2_transaction_alloc(&transaction, dht->pool) != KS_STATUS_SUCCESS) {
 		goto done;
 	}
 	if (ks_dht2_transaction_init(transaction, transactionid, ks_dht2_process_response_ping) != KS_STATUS_SUCCESS) {
 		goto done;
 	}
 	if (ks_dht2_message_prealloc(&query, dht->pool) != KS_STATUS_SUCCESS) {
 		goto done;
 	}
 	if (ks_dht2_message_init(&query, KS_TRUE) != KS_STATUS_SUCCESS) {
 	    goto done;
 	}
 	if (ks_dht2_message_query(&query, transactionid, "ping", &a) != KS_STATUS_SUCCESS) {
 		goto done;
 	}
 	// @todo transaction expiration and raddr
 	// @todo transactions_hash mutex?
 	ks_hash_insert(dht->transactions_hash, (void *)&transactionid, transaction);
 	// @note a joins response.data and will be freed with it
 	ben_dict_set(a, ben_blob("id", 2), ben_blob(dht->nodeid.id, KS_DHT_NODEID_LENGTH));
 	ks_log(KS_LOG_DEBUG, "Sending message query ping\n");
 	ret = ks_dht2_send(dht, raddr, &query);
 done:
 	if (transaction && ret != KS_STATUS_SUCCESS) {
 		ks_dht2_transaction_deinit(transaction);
 		ks_dht2_transaction_free(transaction);
 	}
 	ks_dht2_message_deinit(&query);
 	return ret;
 }
 /**
 *
 */
 KS_DECLARE(ks_status_t) ks_dht2_send_response_ping(ks_dht2_t *dht,
 												   ks_sockaddr_t *raddr,
 												   uint8_t *transactionid,
 												   ks_size_t transactionid_length)
 {
 	ks_dht2_message_t response;
 	struct bencode *r;
 	ks_status_t ret = KS_STATUS_FAIL;
 	ks_assert(dht);
 	ks_assert(raddr);
 	if (ks_dht2_message_prealloc(&response, dht->pool) != KS_STATUS_SUCCESS) {
 		return KS_STATUS_FAIL;
 	}
 	if (ks_dht2_message_init(&response, KS_TRUE) != KS_STATUS_SUCCESS) {
 		return KS_STATUS_FAIL;
 	}
 	if (ks_dht2_message_response(&response, transactionid, transactionid_length, &r) != KS_STATUS_SUCCESS) {
 		goto done;
 	}
 	// @note r joins response.data and will be freed with it
 	ben_dict_set(r, ben_blob("id", 2), ben_blob(dht->nodeid.id, KS_DHT_NODEID_LENGTH));
 	ks_log(KS_LOG_DEBUG, "Sending message response ping\n");
 	ret = ks_dht2_send(dht, raddr, &response);
 done:
 	ks_dht2_message_deinit(&response);
 	return ret;
 }
 /* For Emacs:
 * Local Variables:
 * mode:c
--- a/libs/libks/src/dht/ks_dht.h
+++ b/libs/libks/src/dht/ks_dht.h
@ -4,9 +4,6 @@
 #include "ks.h"
 #include "ks_bencode.h"
 #include "ks_dht_endpoint.h"
 #include "ks_dht_message.h"
 #include "ks_dht_nodeid.h"
 KS_BEGIN_EXTERN_C
@ -14,11 +11,62 @@ KS_BEGIN_EXTERN_C
 #define KS_DHT_DEFAULT_PORT 5309
 #define KS_DHT_RECV_BUFFER_SIZE 0xFFFF
 #define KS_DHT_NODEID_LENGTH 20
 #define KS_DHT_MESSAGE_TRANSACTIONID_MAX_SIZE 20
 #define KS_DHT_MESSAGE_TYPE_MAX_SIZE 20
 #define KS_DHT_MESSAGE_QUERY_MAX_SIZE 20
 typedef struct ks_dht2_s ks_dht2_t;
 typedef struct ks_dht2_nodeid_s ks_dht2_nodeid_t;
 typedef struct ks_dht2_nodeid_raw_s ks_dht2_nodeid_raw_t;
 typedef struct ks_dht2_message_s ks_dht2_message_t;
 typedef struct ks_dht2_endpoint_s ks_dht2_endpoint_t;
 typedef struct ks_dht2_transaction_s ks_dht2_transaction_t;
 typedef ks_status_t (*ks_dht2_message_callback_t)(ks_dht2_t *dht, ks_sockaddr_t *raddr, ks_dht2_message_t *message);
 struct ks_dht2_nodeid_raw_s {
 	uint8_t id[KS_DHT_NODEID_LENGTH];
 };
 struct ks_dht2_nodeid_s {
 	ks_pool_t *pool;
 	uint8_t id[KS_DHT_NODEID_LENGTH];
 };
 struct ks_dht2_message_s {
 	ks_pool_t *pool;
 	struct bencode *data;
 	uint8_t transactionid[KS_DHT_MESSAGE_TRANSACTIONID_MAX_SIZE];
 	ks_size_t transactionid_length;
 	char type[KS_DHT_MESSAGE_TYPE_MAX_SIZE];
 	struct bencode *args;
 };
 struct ks_dht2_endpoint_s {
 	ks_pool_t *pool;
 	ks_sockaddr_t addr;
 	ks_socket_t sock;
 };
 struct ks_dht2_transaction_s {
 	ks_pool_t *pool;
 	uint16_t transactionid;
 	ks_dht2_message_callback_t callback;
 	// @todo expiration data
 };
 struct ks_dht2_s {
 	ks_pool_t *pool;
 	ks_bool_t pool_alloc;
 	ks_bool_t autoroute;
 	ks_port_t autoroute_port;
 	ks_dht2_nodeid_t nodeid;
 	ks_hash_t *registry_type;
@ -34,11 +82,14 @@ struct ks_dht2_s {
 	uint8_t recv_buffer[KS_DHT_RECV_BUFFER_SIZE];
 	ks_size_t recv_buffer_length;
 	uint16_t transactionid_next;
 	ks_hash_t *transactions_hash;
 };
-typedef ks_status_t (*ks_dht2_registry_callback_t)(ks_dht2_t *dht, ks_sockaddr_t *raddr, ks_dht2_message_t *message);
+/**
-
+ *
-
+ */
 KS_DECLARE(ks_status_t) ks_dht2_alloc(ks_dht2_t **dht, ks_pool_t *pool);
 KS_DECLARE(ks_status_t) ks_dht2_prealloc(ks_dht2_t *dht, ks_pool_t *pool);
 KS_DECLARE(ks_status_t) ks_dht2_free(ks_dht2_t *dht);
@ -47,14 +98,61 @@ KS_DECLARE(ks_status_t) ks_dht2_free(ks_dht2_t *dht);
 KS_DECLARE(ks_status_t) ks_dht2_init(ks_dht2_t *dht, const ks_dht2_nodeid_raw_t *nodeid);
 KS_DECLARE(ks_status_t) ks_dht2_deinit(ks_dht2_t *dht);
 KS_DECLARE(ks_status_t) ks_dht2_autoroute(ks_dht2_t *dht, ks_bool_t autoroute, ks_port_t port);
-KS_DECLARE(ks_status_t) ks_dht2_bind(ks_dht2_t *dht, const ks_sockaddr_t *addr);
+KS_DECLARE(ks_status_t) ks_dht2_bind(ks_dht2_t *dht, const ks_sockaddr_t *addr, ks_dht2_endpoint_t **endpoint);
 KS_DECLARE(ks_status_t) ks_dht2_pulse(ks_dht2_t *dht, int32_t timeout);
-KS_DECLARE(ks_status_t) ks_dht2_register_type(ks_dht2_t *dht, const char *value, ks_dht2_registry_callback_t callback);
+KS_DECLARE(ks_status_t) ks_dht2_register_type(ks_dht2_t *dht, const char *value, ks_dht2_message_callback_t callback);
-KS_DECLARE(ks_status_t) ks_dht2_register_query(ks_dht2_t *dht, const char *value, ks_dht2_registry_callback_t callback);
+KS_DECLARE(ks_status_t) ks_dht2_register_query(ks_dht2_t *dht, const char *value, ks_dht2_message_callback_t callback);
 /**
 *
 */
 KS_DECLARE(ks_status_t) ks_dht2_nodeid_alloc(ks_dht2_nodeid_t **nodeid, ks_pool_t *pool);
 KS_DECLARE(ks_status_t) ks_dht2_nodeid_prealloc(ks_dht2_nodeid_t *nodeid, ks_pool_t *pool);
 KS_DECLARE(ks_status_t) ks_dht2_nodeid_free(ks_dht2_nodeid_t *nodeid);
 KS_DECLARE(ks_status_t) ks_dht2_nodeid_init(ks_dht2_nodeid_t *nodeid, const ks_dht2_nodeid_raw_t *id);
 KS_DECLARE(ks_status_t) ks_dht2_nodeid_deinit(ks_dht2_nodeid_t *nodeid);
 /**
 *
 */
 KS_DECLARE(ks_status_t) ks_dht2_message_alloc(ks_dht2_message_t **message, ks_pool_t *pool);
 KS_DECLARE(ks_status_t) ks_dht2_message_prealloc(ks_dht2_message_t *message, ks_pool_t *pool);
 KS_DECLARE(ks_status_t) ks_dht2_message_free(ks_dht2_message_t *message);
 KS_DECLARE(ks_status_t) ks_dht2_message_init(ks_dht2_message_t *message, ks_bool_t alloc_data);
 KS_DECLARE(ks_status_t) ks_dht2_message_deinit(ks_dht2_message_t *message);
 KS_DECLARE(ks_status_t) ks_dht2_message_parse(ks_dht2_message_t *message, const uint8_t *buffer, ks_size_t buffer_length);
 KS_DECLARE(ks_status_t) ks_dht2_message_query(ks_dht2_message_t *message,
 											  uint16_t transactionid,
 											  const char *query,
 											  struct bencode **args);
 KS_DECLARE(ks_status_t) ks_dht2_message_response(ks_dht2_message_t *message,
 												 uint8_t *transactionid,
 												 ks_size_t transactionid_length,
 												 struct bencode **args);
 /**
 *
 */
 /**
 *
 */
 KS_DECLARE(ks_status_t) ks_dht2_transaction_alloc(ks_dht2_transaction_t **transaction, ks_pool_t *pool);
 KS_DECLARE(ks_status_t) ks_dht2_transaction_prealloc(ks_dht2_transaction_t *trasnaction, ks_pool_t *pool);
 KS_DECLARE(ks_status_t) ks_dht2_transaction_free(ks_dht2_transaction_t *transaction);
 KS_DECLARE(ks_status_t) ks_dht2_transaction_init(ks_dht2_transaction_t *transaction,
 												 uint16_t transactionid,
 												 ks_dht2_message_callback_t callback);
 KS_DECLARE(ks_status_t) ks_dht2_transaction_deinit(ks_dht2_transaction_t *transaction);
 KS_END_EXTERN_C
--- a/libs/libks/src/dht/ks_dht_endpoint-int.h
+++ b/libs/libks/src/dht/ks_dht_endpoint-int.h
@ -1,29 +0,0 @@
 #ifndef KS_DHT_ENDPOINT_INT_H
 #define KS_DHT_ENDPOINT_INT_H
 #include "ks.h"
 KS_BEGIN_EXTERN_C
 KS_DECLARE(ks_status_t) ks_dht2_endpoint_alloc(ks_dht2_endpoint_t **endpoint, ks_pool_t *pool);
 KS_DECLARE(ks_status_t) ks_dht2_endpoint_prealloc(ks_dht2_endpoint_t *endpoint, ks_pool_t *pool);
 KS_DECLARE(ks_status_t) ks_dht2_endpoint_free(ks_dht2_endpoint_t *endpoint);
 KS_DECLARE(ks_status_t) ks_dht2_endpoint_init(ks_dht2_endpoint_t *endpoint, const ks_sockaddr_t *addr, ks_socket_t sock);
 KS_DECLARE(ks_status_t) ks_dht2_endpoint_deinit(ks_dht2_endpoint_t *endpoint);
 KS_END_EXTERN_C
 #endif /* KS_DHT_ENDPOINT_H */
 /* For Emacs:
 * Local Variables:
 * mode:c
 * indent-tabs-mode:t
 * tab-width:4
 * c-basic-offset:4
 * End:
 * For VIM:
 * vim:set softtabstop=4 shiftwidth=4 tabstop=4 noet:
 */
--- a/libs/libks/src/dht/ks_dht_endpoint.c
+++ b/libs/libks/src/dht/ks_dht_endpoint.c
@ -1,5 +1,5 @@
-#include "ks_dht_endpoint.h"
+#include "ks_dht.h"
-#include "ks_dht_endpoint-int.h"
+#include "ks_dht-int.h"
 /**
 *
--- a/libs/libks/src/dht/ks_dht_endpoint.h
+++ b/libs/libks/src/dht/ks_dht_endpoint.h
@ -1,29 +0,0 @@
 #ifndef KS_DHT_ENDPOINT_H
 #define KS_DHT_ENDPOINT_H
 #include "ks.h"
 KS_BEGIN_EXTERN_C
 typedef struct ks_dht2_endpoint_s ks_dht2_endpoint_t;
 struct ks_dht2_endpoint_s {
 	ks_pool_t *pool;
 	ks_sockaddr_t addr;
 	ks_socket_t sock;
 };
 KS_END_EXTERN_C
 #endif /* KS_DHT_ENDPOINT_H */
 /* For Emacs:
 * Local Variables:
 * mode:c
 * indent-tabs-mode:t
 * tab-width:4
 * c-basic-offset:4
 * End:
 * For VIM:
 * vim:set softtabstop=4 shiftwidth=4 tabstop=4 noet:
 */
--- a/libs/libks/src/dht/ks_dht_message.c
+++ b/libs/libks/src/dht/ks_dht_message.c
@ -1,4 +1,5 @@
 #include "ks_dht.h"
 #include "ks_dht-int.h"
 /**
 *
@ -46,7 +47,44 @@ KS_DECLARE(ks_status_t) ks_dht2_message_free(ks_dht2_message_t *message)
 /**
 *
 */
-KS_DECLARE(ks_status_t) ks_dht2_message_init(ks_dht2_message_t *message, const uint8_t *buffer, ks_size_t buffer_length)
+KS_DECLARE(ks_status_t) ks_dht2_message_init(ks_dht2_message_t *message, ks_bool_t alloc_data)
 {
 	ks_assert(message);
 	ks_assert(message->pool);
 	message->data = NULL;
 	message->args = NULL;
 	message->transactionid_length = 0;
 	message->type[0] = '\0';
 	if (alloc_data) {
 		message->data = ben_dict();
 	}
 	return KS_STATUS_SUCCESS;
 }
 /**
 *
 */
 KS_DECLARE(ks_status_t) ks_dht2_message_deinit(ks_dht2_message_t *message)
 {
 	ks_assert(message);
 	message->args = NULL;
 	message->type[0] = '\0';
 	message->transactionid_length = 0;
 	if (message->data) {
 		ben_free(message->data);
 		message->data = NULL;
 	}
 	return KS_STATUS_SUCCESS;
 }
 /**
 *
 */
 KS_DECLARE(ks_status_t) ks_dht2_message_parse(ks_dht2_message_t *message, const uint8_t *buffer, ks_size_t buffer_length)
 {
 	struct bencode *t;
 	struct bencode *y;
@ -58,8 +96,7 @@ KS_DECLARE(ks_status_t) ks_dht2_message_init(ks_dht2_message_t *message, const u
 	ks_assert(message);
 	ks_assert(message->pool);
 	ks_assert(buffer);
-
+	ks_assert(!message->data);
 	message->args = NULL;
    message->data = ben_decode((const void *)buffer, buffer_length);
 	if (!message->data) {
@ -115,16 +152,56 @@ KS_DECLARE(ks_status_t) ks_dht2_message_init(ks_dht2_message_t *message, const u
 /**
 *
 */
-KS_DECLARE(ks_status_t) ks_dht2_message_deinit(ks_dht2_message_t *message)
+KS_DECLARE(ks_status_t) ks_dht2_message_query(ks_dht2_message_t *message,
 											  uint16_t transactionid,
 											  const char *query,
 											  struct bencode **args)
 {
-	ks_assert(message);
+	struct bencode *a;
 	uint16_t tid;
-	message->args = NULL;
+	ks_assert(message);
-	message->type[0] = '\0';
+	ks_assert(query);
-	message->transactionid_length = 0;
+
-	if (message->data) {
+	tid = htons(transactionid);
-		ben_free(message->data);
+	
-		message->data = NULL;
+    ben_dict_set(message->data, ben_blob("t", 1), ben_blob((uint8_t *)&tid, 2));
 	ben_dict_set(message->data, ben_blob("y", 1), ben_blob("q", 1));
 	ben_dict_set(message->data, ben_blob("q", 1), ben_blob(query, strlen(query)));
 	// @note r joins message->data and will be freed with it
 	a = ben_dict();
 	ben_dict_set(message->data, ben_blob("a", 1), a);
 	if (args) {
 		*args = a;
 	}
 	return KS_STATUS_SUCCESS;
 }
 /**
 *
 */
 KS_DECLARE(ks_status_t) ks_dht2_message_response(ks_dht2_message_t *message,
 												 uint8_t *transactionid,
 												 ks_size_t transactionid_length,
 												 struct bencode **args)
 {
 	struct bencode *r;
 	ks_assert(message);
 	ks_assert(transactionid);
    ben_dict_set(message->data, ben_blob("t", 1), ben_blob(transactionid, transactionid_length));
 	ben_dict_set(message->data, ben_blob("y", 1), ben_blob("r", 1));
 	// @note r joins message->data and will be freed with it
 	r = ben_dict();
 	ben_dict_set(message->data, ben_blob("r", 1), r);
 	if (args) {
 		*args = r;
 	}
 	return KS_STATUS_SUCCESS;
--- a/libs/libks/src/dht/ks_dht_message.h
+++ b/libs/libks/src/dht/ks_dht_message.h
@ -1,43 +0,0 @@
 #ifndef KS_DHT_MESSAGE_H
 #define KS_DHT_MESSAGE_H
 #include "ks.h"
 KS_BEGIN_EXTERN_C
 #define KS_DHT_MESSAGE_TRANSACTIONID_MAX_SIZE 20
 #define KS_DHT_MESSAGE_TYPE_MAX_SIZE 20
 #define KS_DHT_MESSAGE_QUERY_MAX_SIZE 20
 typedef struct ks_dht2_message_s ks_dht2_message_t;
 struct ks_dht2_message_s {
 	ks_pool_t *pool;
 	struct bencode *data;
    uint8_t transactionid[KS_DHT_MESSAGE_TRANSACTIONID_MAX_SIZE];
 	ks_size_t transactionid_length;
 	char type[KS_DHT_MESSAGE_TYPE_MAX_SIZE];
 	struct bencode *args;
 };
 KS_DECLARE(ks_status_t) ks_dht2_message_alloc(ks_dht2_message_t **message, ks_pool_t *pool);
 KS_DECLARE(ks_status_t) ks_dht2_message_prealloc(ks_dht2_message_t *message, ks_pool_t *pool);
 KS_DECLARE(ks_status_t) ks_dht2_message_free(ks_dht2_message_t *message);
 KS_DECLARE(ks_status_t) ks_dht2_message_init(ks_dht2_message_t *message, const uint8_t *buffer, ks_size_t buffer_length);
 KS_DECLARE(ks_status_t) ks_dht2_message_deinit(ks_dht2_message_t *message);
 KS_END_EXTERN_C
 #endif /* KS_DHT_MESSAGE_H */
 /* For Emacs:
 * Local Variables:
 * mode:c
 * indent-tabs-mode:t
 * tab-width:4
 * c-basic-offset:4
 * End:
 * For VIM:
 * vim:set softtabstop=4 shiftwidth=4 tabstop=4 noet:
 */
--- a/libs/libks/src/dht/ks_dht_nodeid.c
+++ b/libs/libks/src/dht/ks_dht_nodeid.c
@ -1,4 +1,5 @@
-#include "ks_dht_nodeid.h"
+#include "ks_dht.h"
 #include "ks_dht-int.h"
 #include "sodium.h"
 /**
--- a/libs/libks/src/dht/ks_dht_nodeid.h
+++ b/libs/libks/src/dht/ks_dht_nodeid.h
@ -1,42 +0,0 @@
 #ifndef KS_DHT_NODEID_H
 #define KS_DHT_NODEID_H
 #include "ks.h"
 KS_BEGIN_EXTERN_C
 #define KS_DHT_NODEID_LENGTH 20
 typedef struct ks_dht2_nodeid_raw_s ks_dht2_nodeid_raw_t;
 struct ks_dht2_nodeid_raw_s {
    uint8_t id[KS_DHT_NODEID_LENGTH];
 };
 typedef struct ks_dht2_nodeid_s ks_dht2_nodeid_t;
 struct ks_dht2_nodeid_s {
 	ks_pool_t *pool;
    uint8_t id[KS_DHT_NODEID_LENGTH];
 };
 KS_DECLARE(ks_status_t) ks_dht2_nodeid_alloc(ks_dht2_nodeid_t **nodeid, ks_pool_t *pool);
 KS_DECLARE(ks_status_t) ks_dht2_nodeid_prealloc(ks_dht2_nodeid_t *nodeid, ks_pool_t *pool);
 KS_DECLARE(ks_status_t) ks_dht2_nodeid_free(ks_dht2_nodeid_t *nodeid);
 KS_DECLARE(ks_status_t) ks_dht2_nodeid_init(ks_dht2_nodeid_t *nodeid, const ks_dht2_nodeid_raw_t *id);
 KS_DECLARE(ks_status_t) ks_dht2_nodeid_deinit(ks_dht2_nodeid_t *nodeid);
 KS_END_EXTERN_C
 #endif /* KS_DHT_NODEID_H */
 /* For Emacs:
 * Local Variables:
 * mode:c
 * indent-tabs-mode:t
 * tab-width:4
 * c-basic-offset:4
 * End:
 * For VIM:
 * vim:set softtabstop=4 shiftwidth=4 tabstop=4 noet:
 */
--- a/libs/libks/src/dht/ks_dht_transaction.c
+++ b/libs/libks/src/dht/ks_dht_transaction.c
@ -0,0 +1,87 @@
 #include "ks_dht.h"
 #include "ks_dht-int.h"
 /**
 *
 */
 KS_DECLARE(ks_status_t) ks_dht2_transaction_alloc(ks_dht2_transaction_t **transaction, ks_pool_t *pool)
 {
 	ks_dht2_transaction_t *tran;
 	ks_assert(transaction);
 	ks_assert(pool);
 	*transaction = tran = ks_pool_alloc(pool, sizeof(ks_dht2_transaction_t));
 	tran->pool = pool;
 	return KS_STATUS_SUCCESS;
 }
 /**
 *
 */
 KS_DECLARE(ks_status_t) ks_dht2_transaction_prealloc(ks_dht2_transaction_t *transaction, ks_pool_t *pool)
 {
 	ks_assert(transaction);
 	ks_assert(pool);
 	transaction->pool = pool;
 	return KS_STATUS_SUCCESS;
 }
 /**
 *
 */
 KS_DECLARE(ks_status_t) ks_dht2_transaction_free(ks_dht2_transaction_t *transaction)
 {
 	ks_assert(transaction);
 	ks_dht2_transaction_deinit(transaction);
 	ks_pool_free(transaction->pool, transaction);
 	return KS_STATUS_SUCCESS;
 }
 /**
 *
 */
 KS_DECLARE(ks_status_t) ks_dht2_transaction_init(ks_dht2_transaction_t *transaction,
 												 uint16_t transactionid,
 												 ks_dht2_message_callback_t callback)
 {
 	ks_assert(transaction);
 	ks_assert(transaction->pool);
 	ks_assert(callback);
 	transaction->transactionid = transactionid;
 	transaction->callback = callback;
 	return KS_STATUS_SUCCESS;
 }
 /**
 *
 */
 KS_DECLARE(ks_status_t) ks_dht2_transaction_deinit(ks_dht2_transaction_t *transaction)
 {
 	ks_assert(transaction);
 	transaction->transactionid = 0;
 	transaction->callback = NULL;
 	return KS_STATUS_SUCCESS;
 }
 /* For Emacs:
 * Local Variables:
 * mode:c
 * indent-tabs-mode:t
 * tab-width:4
 * c-basic-offset:4
 * End:
 * For VIM:
 * vim:set softtabstop=4 shiftwidth=4 tabstop=4 noet:
 */
--- a/libs/libks/test/testdht2.c
+++ b/libs/libks/test/testdht2.c
@ -1,7 +1,6 @@
 #include <ks.h>
 #include <../dht/ks_dht.h>
 #include <../dht/ks_dht-int.h>
 #include <../dht/ks_dht_endpoint-int.h>
 #include <tap.h>
 #define TEST_DHT1_REGISTER_TYPE_BUFFER "d1:ad2:id20:12345678901234567890e1:q4:ping1:t2:421:y1:ze"
@ -65,13 +64,13 @@ int main() {
    err = ks_addr_set(&addr, v4, KS_DHT_DEFAULT_PORT, AF_INET);
 	ok(err == KS_STATUS_SUCCESS);
-    err = ks_dht2_bind(dht1, &addr);
+    err = ks_dht2_bind(dht1, &addr, NULL);
    ok(err == KS_STATUS_SUCCESS);
 	err = ks_addr_set(&addr, v4, KS_DHT_DEFAULT_PORT + 1, AF_INET);
 	ok(err == KS_STATUS_SUCCESS);
-	err = ks_dht2_bind(&dht2, &addr);
+	err = ks_dht2_bind(&dht2, &addr, NULL);
 	ok(err == KS_STATUS_SUCCESS);
 	raddr = addr;
@ -81,13 +80,13 @@ int main() {
 	err = ks_addr_set(&addr, v6, KS_DHT_DEFAULT_PORT, AF_INET6);
 	ok(err == KS_STATUS_SUCCESS);
-    err = ks_dht2_bind(dht1, &addr);
+    err = ks_dht2_bind(dht1, &addr, NULL);
    ok(err == KS_STATUS_SUCCESS);
 	err = ks_addr_set(&addr, v6, KS_DHT_DEFAULT_PORT + 1, AF_INET6);
 	ok(err == KS_STATUS_SUCCESS);
-	err = ks_dht2_bind(&dht2, &addr);
+	err = ks_dht2_bind(&dht2, &addr, NULL);
 	ok(err == KS_STATUS_SUCCESS);
  }
@ -106,7 +105,10 @@ int main() {
  err = ks_dht2_process(dht1, &raddr);
  ok(err == KS_STATUS_SUCCESS);
  err = ks_dht2_pulse(&dht2, 1000);
  ok(err == KS_STATUS_SUCCESS);
  diag("Cleanup\n");
  /* Cleanup and shutdown */
  err = ks_dht2_deinit(&dht2);