more fixes

2023-09-01 17:34:05 +02:00 · 2023-09-01 17:34:05 +02:00 · ba8befbb2d
parent a1a9bf886a
commit ba8befbb2d
9 changed files with 37 additions and 61 deletions
--- a/solanaceae/ngc_ft1/cca.hpp
+++ b/solanaceae/ngc_ft1/cca.hpp
@ -46,10 +46,13 @@ struct CCAI {
 		// return the current believed window in bytes of how much data can be inflight,
 		//virtual float getCWnD(void) const = 0;

+		// returns current rtt/delay
+		virtual float getCurrentDelay(void) const = 0;
+
 		// TODO: api for how much data we should send
 		// take time since last sent into account
 		// respect max_byterate_allowed
-		virtual size_t canSend(void) = 0;
+		virtual int64_t canSend(void) = 0;

 		// get the list of timed out seq_ids
 		virtual std::vector<SeqIDType> getTimeouts(void) const = 0;
--- a/solanaceae/ngc_ft1/cubic.cpp
+++ b/solanaceae/ngc_ft1/cubic.cpp
@ -35,16 +35,23 @@ float CUBIC::getCWnD(void) const {
 void CUBIC::onCongestion(void) {
 	if (getTimeNow() - _time_point_reduction >= getCurrentDelay()*4.f) {
 		const auto current_cwnd = getCWnD();
+		const auto tmp_old_tp = _time_point_reduction;
 		_time_point_reduction = getTimeNow();
 		_window_max = current_cwnd * BETA;
 		_window_max = std::max(_window_max, 2.*MAXIMUM_SEGMENT_SIZE);

-		//std::cout << "CONGESTION! cwnd:" << current_cwnd << "\n";
-		std::cout << "CONGESTION! cwnd_max:" << _window_max << "\n";
+#if 1
+		std::cout << "CONGESTION!"
+			<< " cwnd_max:" << _window_max
+			<< " pts:" << tmp_old_tp
+			<< " rtt:" << getCurrentDelay()
+			<< "\n"
+		;
+#endif
 	}
 }

-size_t CUBIC::canSend(void) {
+int64_t CUBIC::canSend(void) {
 	const auto fspace_pkgs = FlowOnly::canSend();

 	if (fspace_pkgs == 0u) {
@ -57,7 +64,7 @@ size_t CUBIC::canSend(void) {
 	}

 	// limit to whole packets
-	size_t cspace_pkgs = std::floor(cspace_bytes / MAXIMUM_SEGMENT_DATA_SIZE) * MAXIMUM_SEGMENT_DATA_SIZE;
+	int64_t cspace_pkgs = (cspace_bytes / MAXIMUM_SEGMENT_DATA_SIZE) * MAXIMUM_SEGMENT_DATA_SIZE;

 	return std::min(cspace_pkgs, fspace_pkgs);
 }
--- a/solanaceae/ngc_ft1/cubic.hpp
+++ b/solanaceae/ngc_ft1/cubic.hpp
@ -35,7 +35,7 @@ struct CUBIC : public FlowOnly {
 		// TODO: api for how much data we should send
 		// take time since last sent into account
 		// respect max_byterate_allowed
-		size_t canSend(void) override;
+		int64_t canSend(void) override;

 		// get the list of timed out seq_ids
 		//std::vector<SeqIDType> getTimeouts(void) const override;
--- a/solanaceae/ngc_ft1/flow_only.cpp
+++ b/solanaceae/ngc_ft1/flow_only.cpp
@ -28,7 +28,7 @@ void FlowOnly::updateWindow(void) {
 	_fwnd = std::max(_fwnd, 2.f * MAXIMUM_SEGMENT_DATA_SIZE);
 }

-size_t FlowOnly::canSend(void) {
+int64_t FlowOnly::canSend(void) {
 	if (_in_flight.empty()) {
 		assert(_in_flight_bytes == 0);
 		return MAXIMUM_SEGMENT_DATA_SIZE;
@ -42,10 +42,7 @@ size_t FlowOnly::canSend(void) {
 	}

 	// limit to whole packets
-	size_t space = std::floor(fspace / MAXIMUM_SEGMENT_DATA_SIZE)
-		* MAXIMUM_SEGMENT_DATA_SIZE;
-
-	return space;
+	return (fspace / MAXIMUM_SEGMENT_DATA_SIZE) * MAXIMUM_SEGMENT_DATA_SIZE;
 }

 std::vector<FlowOnly::SeqIDType> FlowOnly::getTimeouts(void) const {
@ -147,16 +144,10 @@ void FlowOnly::onLoss(SeqIDType seq, bool discard) {
 		assert(_in_flight_bytes >= 0);
 		_in_flight.erase(it);
 	}
-	// TODO: reset timestamp?

-#if 0 // temporarily disable ce for timeout
-	// at most once per rtt?
-	// TODO: use delay at event instead
-	if (getTimeNow() >= _last_congestion_event + _last_congestion_rtt) {
-		_recently_lost_data = true;
-		_last_congestion_event = getTimeNow();
-		_last_congestion_rtt = getCurrentDelay();
-	}
-#endif
+	// TODO: reset timestamp?
+	// and not take into rtt
+
+	// no ce, since this is usually after data arrived out-of-order/duplicate
 }

--- a/solanaceae/ngc_ft1/flow_only.hpp
+++ b/solanaceae/ngc_ft1/flow_only.hpp
@ -45,7 +45,7 @@ struct FlowOnly : public CCAI {

 		// moving avg over the last few delay samples
 		// VERY sensitive to bundling acks
-		float getCurrentDelay(void) const;
+		float getCurrentDelay(void) const override;

 		void addRTT(float new_delay);

@ -59,7 +59,7 @@ struct FlowOnly : public CCAI {
 		// TODO: api for how much data we should send
 		// take time since last sent into account
 		// respect max_byterate_allowed
-		size_t canSend(void) override;
+		int64_t canSend(void) override;

 		// get the list of timed out seq_ids
 		std::vector<SeqIDType> getTimeouts(void) const override;
--- a/solanaceae/ngc_ft1/ledbat.cpp
+++ b/solanaceae/ngc_ft1/ledbat.cpp
@ -19,7 +19,7 @@ LEDBAT::LEDBAT(size_t maximum_segment_data_size) : CCAI(maximum_segment_data_siz
 	_time_start_offset = clock::now();
 }

-size_t LEDBAT::canSend(void) {
+int64_t LEDBAT::canSend(void) {
 	if (_in_flight.empty()) {
 		return MAXIMUM_SEGMENT_DATA_SIZE;
 	}
@ -34,9 +34,7 @@ size_t LEDBAT::canSend(void) {
 		return 0u;
 	}

-	size_t space = std::ceil(std::min<float>(cspace, fspace) / MAXIMUM_SEGMENT_DATA_SIZE) * MAXIMUM_SEGMENT_DATA_SIZE;
-
-	return space;
+	return std::ceil(std::min<float>(cspace, fspace) / MAXIMUM_SEGMENT_DATA_SIZE) * MAXIMUM_SEGMENT_DATA_SIZE;
 }

 std::vector<LEDBAT::SeqIDType> LEDBAT::getTimeouts(void) const {
--- a/solanaceae/ngc_ft1/ledbat.hpp
+++ b/solanaceae/ngc_ft1/ledbat.hpp
@ -61,7 +61,7 @@ struct LEDBAT : public CCAI{
 		// TODO: api for how much data we should send
 		// take time since last sent into account
 		// respect max_byterate_allowed
-		size_t canSend(void) override;
+		int64_t canSend(void) override;

 		// get the list of timed out seq_ids
 		std::vector<SeqIDType> getTimeouts(void) const override;
@ -86,7 +86,7 @@ struct LEDBAT : public CCAI{

 		// moving avg over the last few delay samples
 		// VERY sensitive to bundling acks
-		float getCurrentDelay(void) const;
+		float getCurrentDelay(void) const override;

 		void addRTT(float new_delay);

--- a/solanaceae/ngc_ft1/ngcft1.cpp
+++ b/solanaceae/ngc_ft1/ngcft1.cpp
@ -143,7 +143,7 @@ bool NGCFT1::sendPKG_FT1_MESSAGE(
 	return _t.toxGroupSendCustomPacket(group_number, true, pkg) == TOX_ERR_GROUP_SEND_CUSTOM_PACKET_OK;
 }

-void NGCFT1::updateSendTransfer(float time_delta, uint32_t group_number, uint32_t peer_number, Group::Peer& peer, size_t idx, std::set<CCAI::SeqIDType>& timeouts_set) {
+void NGCFT1::updateSendTransfer(float time_delta, uint32_t group_number, uint32_t peer_number, Group::Peer& peer, size_t idx, std::set<CCAI::SeqIDType>& timeouts_set, int64_t& can_packet_size) {
 	auto& tf_opt = peer.send_transfers.at(idx);
 	assert(tf_opt.has_value());
 	auto& tf = tf_opt.value();
@ -177,14 +177,13 @@ void NGCFT1::updateSendTransfer(float time_delta, uint32_t group_number, uint32_
 			return;
 		case State::SENDING: {
 				tf.ssb.for_each(time_delta, [&](uint16_t id, const std::vector<uint8_t>& data, float& time_since_activity) {
-					// no ack after 5 sec -> resend
-					//if (time_since_activity >= ngc_ft1_ctx->options.sending_resend_without_ack_after) {
-					if (timeouts_set.count({idx, id})) {
+					if (can_packet_size >= data.size() && time_since_activity >= peer.cca->getCurrentDelay() && timeouts_set.count({idx, id})) {
 						// TODO: can fail
 						sendPKG_FT1_DATA(group_number, peer_number, idx, id, data.data(), data.size());
 						peer.cca->onLoss({idx, id}, false);
 						time_since_activity = 0.f;
 						timeouts_set.erase({idx, id});
+						can_packet_size -= data.size();
 					}
 				});

@ -211,21 +210,10 @@ void NGCFT1::updateSendTransfer(float time_delta, uint32_t group_number, uint32_
 				}

 				// if chunks in flight < window size (2)
-				//while (tf.ssb.size() < ngc_ft1_ctx->options.packet_window_size) {
-				int64_t can_packet_size {static_cast<int64_t>(peer.cca->canSend())};
-				//if (can_packet_size) {
-					//std::cerr << "FT: can_packet_size: " << can_packet_size;
-				//}
-				size_t count {0};
 				while (can_packet_size > 0 && tf.file_size > 0) {
 					std::vector<uint8_t> new_data;

-					// TODO: parameterize packet size? -> only if JF increases lossy packet size >:)
-					//size_t chunk_size = std::min<size_t>(496u, tf.file_size - tf.file_size_current);
-					//size_t chunk_size = std::min<size_t>(can_packet_size, tf.file_size - tf.file_size_current);
 					size_t chunk_size = std::min<size_t>({
-						//496u,
-						//996u,
 						peer.cca->MAXIMUM_SEGMENT_DATA_SIZE,
 						static_cast<size_t>(can_packet_size),
 						tf.file_size - tf.file_size_current
@ -237,14 +225,6 @@ void NGCFT1::updateSendTransfer(float time_delta, uint32_t group_number, uint32_

 					new_data.resize(chunk_size);

-					//ngc_ft1_ctx->cb_send_data[tf.file_kind](
-						//tox,
-						//group_number, peer_number,
-						//idx,
-						//tf.file_size_current,
-						//new_data.data(), new_data.size(),
-						//ngc_ft1_ctx->ud_send_data.count(tf.file_kind) ? ngc_ft1_ctx->ud_send_data.at(tf.file_kind) : nullptr
-					//);
 					assert(idx <= 0xffu);
 					// TODO: check return value
 					dispatch(
@ -267,22 +247,17 @@ void NGCFT1::updateSendTransfer(float time_delta, uint32_t group_number, uint32_

 					tf.file_size_current += chunk_size;
 					can_packet_size -= chunk_size;
-					count++;
 				}
-				//if (count) {
-					//std::cerr << " split over " << count << "\n";
-				//}
 			}
 			break;
 		case State::FINISHING: // we still have unacked packets
 			tf.ssb.for_each(time_delta, [&](uint16_t id, const std::vector<uint8_t>& data, float& time_since_activity) {
-				// no ack after 5 sec -> resend
-				//if (time_since_activity >= ngc_ft1_ctx->options.sending_resend_without_ack_after) {
-				if (timeouts_set.count({idx, id})) {
+				if (can_packet_size >= data.size() && timeouts_set.count({idx, id})) {
 					sendPKG_FT1_DATA(group_number, peer_number, idx, id, data.data(), data.size());
 					peer.cca->onLoss({idx, id}, false);
 					time_since_activity = 0.f;
 					timeouts_set.erase({idx, id});
+					can_packet_size -= data.size();
 				}
 			});
 			if (tf.time_since_activity >= sending_give_up_after) {
@ -311,9 +286,11 @@ void NGCFT1::iteratePeer(float time_delta, uint32_t group_number, uint32_t peer_
 	auto timeouts = peer.cca->getTimeouts();
 	std::set<CCAI::SeqIDType> timeouts_set{timeouts.cbegin(), timeouts.cend()};

+
 	for (size_t idx = 0; idx < peer.send_transfers.size(); idx++) {
 		if (peer.send_transfers.at(idx).has_value()) {
-			updateSendTransfer(time_delta, group_number, peer_number, peer, idx, timeouts_set);
+			int64_t can_packet_size {peer.cca->canSend()}; // might get more space while iterating (time)
+			updateSendTransfer(time_delta, group_number, peer_number, peer, idx, timeouts_set, can_packet_size);
 		}
 	}

--- a/solanaceae/ngc_ft1/ngcft1.hpp
+++ b/solanaceae/ngc_ft1/ngcft1.hpp
@ -201,7 +201,7 @@ class NGCFT1 : public ToxEventI, public NGCEXTEventI, public NGCFT1EventProvider
 		bool sendPKG_FT1_DATA_ACK(uint32_t group_number, uint32_t peer_number, uint8_t transfer_id, const uint16_t* seq_ids, size_t seq_ids_size);
 		bool sendPKG_FT1_MESSAGE(uint32_t group_number, uint32_t message_id, uint32_t file_kind, const uint8_t* file_id, size_t file_id_size);

-		void updateSendTransfer(float time_delta, uint32_t group_number, uint32_t peer_number, Group::Peer& peer, size_t idx, std::set<CCAI::SeqIDType>& timeouts_set);
+		void updateSendTransfer(float time_delta, uint32_t group_number, uint32_t peer_number, Group::Peer& peer, size_t idx, std::set<CCAI::SeqIDType>& timeouts_set, int64_t& can_packet_size);
 		void iteratePeer(float time_delta, uint32_t group_number, uint32_t peer_number, Group::Peer& peer);

 	public: