disable sending timeout assert, we believe the underlying ngcft1

solanaceae/ngc_ft1_sha1/sending_transfers.cpp

@@ -11,7 +11,8 @@ void SendingTransfers::tick(float delta) {
 			// if we have not heard for 10min, timeout (lower level event on real timeout)
 			// (2min was too little, so it seems)
 			// TODO: do we really need this if we get events?
-			if (it->second.time_since_activity >= 60.f*10.f) {
+			// FIXME: disabled for now, we are trusting ngcft1 for now
+			if (false && it->second.time_since_activity >= 60.f*10.f) {
 				std::cerr << "SHA1_NGCFT1 warning: sending tansfer timed out " << "." << int(it->first) << "\n";
 				assert(false);
 				it = peer_it->second.erase(it);

solanaceae/ngc_ft1_sha1/sha1_ngcft1.cpp

@@ -1372,7 +1372,7 @@ bool SHA1_NGCFT1::onEvent(const Events::NGCEXT_ft1_have& e) {
 	// we might not know yet
 	if (addParticipation(c, o)) {
 		// something happend, update chunk picker
-		c.emplace_or_replace<ChunkPickerUpdateTag>();
+		//c.emplace_or_replace<ChunkPickerUpdateTag>();
 	}
 
 	auto& remote_have = o.get_or_emplace<Components::RemoteHaveBitset>().others;
@@ -1381,14 +1381,17 @@ bool SHA1_NGCFT1::onEvent(const Events::NGCEXT_ft1_have& e) {
 		remote_have.emplace(c, Components::RemoteHaveBitset::Entry{false, num_total_chunks});
 
 		// new have? nice
-		// (always update on biset, not always on have)
+		//c.emplace_or_replace<ChunkPickerUpdateTag>();
-		c.emplace_or_replace<ChunkPickerUpdateTag>();
 	}
 
 	auto& remote_have_peer = remote_have.at(c);
-	if (!remote_have_peer.have_all) {
+	if (remote_have_peer.have_all) {
+		return true; // peer somehow already had all, ignoring
+	}
+
 	assert(remote_have_peer.have.size_bits() >= num_total_chunks);
 
+	bool a_valid_change {false};
 	for (const auto c_i : e.chunks) {
 		if (c_i >= num_total_chunks) {
 			std::cerr << "SHA1_NGCFT1 error: remote sent have with out-of-range chunk index!!!\n";
@@ -1398,6 +1401,12 @@ bool SHA1_NGCFT1::onEvent(const Events::NGCEXT_ft1_have& e) {
 
 		assert(c_i < num_total_chunks);
 		remote_have_peer.have.set(c_i);
+		a_valid_change = true;
+	}
+
+	if (a_valid_change) {
+		// new have? nice
+		c.emplace_or_replace<ChunkPickerUpdateTag>();
 	}
 
 	// check for completion?
@@ -1415,7 +1424,6 @@ bool SHA1_NGCFT1::onEvent(const Events::NGCEXT_ft1_have& e) {
 		remote_have_peer.have_all = true;
 		remote_have_peer.have = BitSet{};
 	}
-	}
 
 	return true;
 }
@@ -1491,7 +1499,6 @@ bool SHA1_NGCFT1::onEvent(const Events::NGCEXT_ft1_bitset& e) {
 	}
 
 	// new have? nice
-	// (always update on bitset, not always on have)
 	c.emplace_or_replace<ChunkPickerUpdateTag>();
 
 	return true;
@@ -1530,7 +1537,6 @@ bool SHA1_NGCFT1::onEvent(const Events::NGCEXT_ft1_have_all& e) {
 	remote_have[c] = Components::RemoteHaveBitset::Entry{true, {}};
 
 	// new have? nice
-	// (always update on have_all, not always on have)
 	c.emplace_or_replace<ChunkPickerUpdateTag>();
 
 	return true;