With UDP you control the "connection state" and it is pretty much the best way to do anything peer to peer related IF you have a high number of nodes or care about bandwidth, memory and CPU overhead. By moving all the control to your application in regards to the "connection state" of each node you minimize the amount of wasted resources by making it fit your needs exactly.
You will bypass a lot of operating system specific weirdness that limits the effectiveness of TCP with high numbers of connections. There is TIME_WAIT bloat and tens to hundreds of OS specific settings which will need tweaking for every user of your P2P app if it needs those high numbers. A test app I made which allowed you to use UDP with ack or TCP showed only a 10% difference in performance regardless of operating system using UDP. TCP performance was always lower than the best UDP and its performance varied wildly by over 600% depending upon the OS. With tweaks you can make most OS perform roughly the same using TCP but by default most are not properly tweaked.
So in my opinion it is harder to make a reliable UDP P2P network compared to TCP but it is often needed. However I would only advise that route it if you were quite experienced with networking as there are a lot of "gotchas" to deal with. There are libraries which help with this like Raknet or Enet. They provide ways to do reliable UDP but it still takes a higher amount of networking knowledge to know how this all ties in together, whereas with TCP it is mostly hidden from you.
In a peer to peer network you often have messages like NODE PINGs that you may not care if each one is always received, you just care if you have received one recently. ie You may send a ping every 10 seconds, and disconnect the node after 60 seconds of no ping. This would mean you would need 6 ping packets in a row to fail, which is highly unlikely unless the node is really down. If you received even one ping in that 60 second period then the node is still active. A TCP implementation of this would have involved more latency and bandwidth as it makes sure EACH ping message gets through and will block any other data going out until it does. And since you cannot rely on TCP to reliably tell you if a connection is dead, you are forced to add similar PING features for TCP, on top of all the other things TCP is already doing extra with your packets.
Games also often have data that if its not received by a client it is no big deal because there are more packets coming in a few milliseconds which will invalidate any missed packets. ie Player is moving from A to Z over a time span of 1 second, his client sends out each packet, roughly 40 milliseconds apart ABCDEFG__I__KLMNOPQRSTUVWXYZ Do we really care if we miss "H and J" since every 40ms we are receiving updates? Not really, this is where prediction can come into it, but this is usually not relevant to most P2P projects. If that was TCP instead of UDP then it would have increased bandwidth requirements and added latency to the rest of the packets being received as the data will be resent until it arrives, on top of the extra latency it is already adding by acking everything.
Essentially you can lower latency and network overhead for many messages in a peer to peer network using UDP. However there will always be some messages which NEED to be sent reliably and that requires you to basically implement some reliable way to get packets to that node, similar to that of TCP. And this is where you need some level of expertise if you want a reliable peer to peer network. Some things to look into include sequencing packets with a number, message ACKs, etc.
If you care a lot about efficiency or really need tens of thousands of connections then implementing your specific protocol in UDP will always be better than TCP. But there are cases to be made for TCP, like if the time to make the project matters or if you are a new to network programming.