None built in from what I recall. That was from back in 2011, so it’s possible things changed since.
Reading through, it looks like retries do exist, but remember that duplicate packets are treated as a window reset, so it’s possible that transmission succeeded but the ack was lost.
I remember the project demos from the course though - one team implemented some form of fast retry on two laptops and had one guy walk out and away. With regular wifi he didn’t even make it to the end of the hall before the video dropped out. With their custom stack he made it out of the building before it went.
I’ll need to dig through to find the name of what they did.
To be fair, because of window size management it only takes 1% packet loss to cause a catastrophic drop in speed.
Packet loss in TCP is only ever handled as a signal of extreme network congestion. It was never intended to go over a lossy link like wifi.
Doesn’t wifi have its own retrial protocol? It’s been a long time since I’ve read the standard, but I think it’s almost lossless from the POV of TCP.
None built in from what I recall. That was from back in 2011, so it’s possible things changed since.
Reading through, it looks like retries do exist, but remember that duplicate packets are treated as a window reset, so it’s possible that transmission succeeded but the ack was lost.
I remember the project demos from the course though - one team implemented some form of fast retry on two laptops and had one guy walk out and away. With regular wifi he didn’t even make it to the end of the hall before the video dropped out. With their custom stack he made it out of the building before it went.
I’ll need to dig through to find the name of what they did.
I believe so, yes. Every 802.11 frame is effectively ACK’d. Makes a mockery of OSI layering, but so does everything else.
On the other side of the spectrum packet loss is a key feature of some of the layers below tcp, like path-mtu discovery.