So you might have rumblings about changes to the network: OP_EVAL and BIP 16 and BIP 17 and multisig and P2SH, and you wonder what the heck is going on.
Here's my view; I'll try not to get too technical.
First, the feature:
I want more secure wallets. There's unanimous agreement among developers that the easiest, fastest way to get there is with "multi-signature transactions" -- bitcoins that require approval from more than one person or device to spend.
For example, a future version of Bitcoin-Qt might know how to talk to an app running on your mobile phone. When you send bitcoins, it would provide one signature, but it would have to ask your phone for approval and the other signature. That way even if your computer gets compromised by malware your bitcoins absolutely positively cannot be stolen, since the best the malware could do would be to ask your phone to approve the "Send the bad guys bitcoins" transaction.
The bitcoin network protocol already mostly support multi-signature transactions, although they're considered "non-standard" right now. Part of what is going in is making them standard. That's not controversial.
What is causing all the discussion is how to support sending coins into one of these new, spiffy, secure wallets. There is rough consensus that the best way to do that right now is with a new type of bitcoin address; I say "rough consensus" because in a perfect world some people think that there wouldn't be bitcoin addresses visible to users at all. And I say "right now" because we don't live in a perfect world, and there are no proposals for how, exactly, to replace bitcoin addresses with something better.
Part of the controversy is whether really long bitcoin addresses would work-- would it be OK if the new bitcoin addresses were really long and looked something like this:
57HrrfEw6ZgRS58dygiHhfN7vVhaPaBE7HrrfEw6ZgRS58dygiHhfN7vVhaPaBiTE7vVhaPaBE7Hr
(or possibly even longer)
I've argued no: past 70 or so characters it becomes a lot harder to copy and paste, a lot harder to scan an address with your eyes to see if you're paying who you think you're paying, harder to create a readable QR code, harder to upgrade website or database code that deals with bitcoin addresses, etc. There is rough consensus that very-long addresses are not workable.
So: there are three proposals on how to support short multisignature addresses-- BIP 12, 16, and 17.
I withdrew BIP 12 (also known as "OP_EVAL") because I try to be extremely conservative when it comes to changes to core Bitcoin, and I think BIP 16 is a safer way to go.
Luke Dashjr liked OP_EVAL, really doesn't like BIP 16, and came up with BIP 17, which solves the same problem in a different way. I still like BIP 16 best, because I think it is the most conservative, safest solution. The number of people who understand the guts of Bitcoin well enough to have an informed opinion about which is better is pretty darn small, but I think the controversy is really about how conservative we aught to be.
All of the BIP 12/16/17 stuff is mostly engineers arguing over whether it is better to use a nail, a screw, or glue to put two pieces of wood together. Any of the solutions would work, and ordinary users wouldn't notice any difference; you'll still (eventually) get spiffy, more secure wallets.
(don't take the analogy too far, in this case using a nail AND a screw AND some glue to be extra safe isn't an option).
How dangerous is all this? Is the bitcoin network in danger of falling apart one of these BIPs is adopted?
The worst-case scenario for all of this stuff (including the non-controversial support of multisignature transactions as "standard") is that some bug will slip by, and an attacker will figure out a way of getting all the nodes running the new software to crash or misbehave. I'm working hard to prevent that from happening-- I've been writing "unit tests" and "fuzzing tools" and have been getting other developers to look really hard at the code. I strongly believe that the new feature is worth the (small) risk, and that even in the worst-case scenario the consequences are not catastrophic (we'd just fix the bug and come out with a new release; everybody still running old code would continue to confirm transactions and create blocks while the early adopters were busy downloading and installing the fixed software).
The bitcoin network is NOT in danger of falling apart if any of these are adopted; they are all backwards-compatible, so old software will continue to work exactly as before.
Some footnotes (and sorry for making this so long):
I concentrated on multisignature transactions for secure wallets, but they're useful for several other things, including escrow transactions and "emergency offline backup keys" for wallet backups.
I've set an arbitrary deadline of February 1'st for deciding whether or not to "turn on" the new short-multisignature-bitcoin-address-support feature, mostly because deadlines are the only way I know to actually get people to pay attention. If you read the BIPs, those deadlines are designed to be flexible, so if there is NOT a majority of support or "we" think that not enough time has gone by or enough testing has been done they can (and will) be slipped.
Right now, it looks like one person/pool (Tycho/deepbit) has enough hashing power to veto any change. I believe Tycho liked, and planned to support, the original OP_EVAL proposal, but doesn't like/support either BIP 16 or BIP 17 (he does like/support BIP 11, the multisignature-as-standard-transactions part of all this), so unless he changes his mind or there is a mass exodus from his pool short, multisignature bitcoin addresses will have to wait.