Christian Decker [ARCHIVE] on Nostr: 📅 Original date posted:2019-10-03 📝 Original message: Chris Stewart <chris at ...
📅 Original date posted:2019-10-03
📝 Original message:
Chris Stewart <chris at suredbits.com> writes:
>> I don't find too compelling the potential problem of a 'bad wallet
> designer', whether lazy or dogmatic, misusing noinput. I think there are
> simpler ways to cut corners and there will always be plenty of good wallet
> options people can choose.
>
> In my original post, the business that I am talking about don't use "off
> the shelf" wallet options. It isn't a "let's switch from wallet A to wallet
> B" kind of situation. Usually this involves design from ground up with
> security considerations that businesses of scale need to consider (signing
> procedures and key handling being the most important!).
In this case I'd hope that the custom wallet designers/developers are
well-versed in the issues they might encounter when implementing their
wallet. This is especially true if they decide to opt into using some
lesser known sighash flags, such as noinput, that come with huge warning
signs (I forgot to mention that renaming noinput to noinput_dangerous is
also still on the table).
>>Because scripts signed with no_input signatures are only really exchanged
> and used for off-chain negotiations, very few should ever appear on chain.
> Those that do should represent non-cooperative situations that involve
> signing parties who know not to reuse or share scripts with these public
> keys again. No third party has any reason to spend value to a
> multisignature script they don't control, whether or not a no_input
> signature exists for it.
>
> Just because some one is your friend today, doesn't mean they aren't
> necessarily your adversary tomorrow. I don't think a signature being
> onchain really matters, as you have to give it to your counterparty
> regardless. How do you know your counterparty won't replay that
> SIGHASH_NOINPUT signature later? Offchain protocols shouldn't rely on
> "good-will" for their counter parties for security.
>
>>As I mentioned before, I don't think the lazy wallet designer advantage is
> enough to justify the downsides of chaperone signatures. One additional
> downside is the additional code complexity required to flag whether or not
> a chaperone output is included. By comparison, the code changes for
> creating a no_input digest that skips the prevout and prevscript parts of a
> tx is much less intrusive and easier to maintain.
>
>>I want to second this. The most expensive part of wallet design is
> engineering time. Writing code that uses a new sighash or a custom
> script with a OP_CODE is a very large barrier to use. How many wallets
> support multisig or RBF? How much BTC has been stolen over the entire
> history of Bitcoin because of sighash SIGHASH_NONE or SIGHASH_SINGLE
> vs ECDSA nonce reuse
>
> I actually think lazy wallet designer is a really compelling reason to fix
> footguns in the bitcoin protocol. Mt Gox is allegedly a product of lazy
> wallet design. Now we have non-malleable transactions in the form of segwit
> (yay!) that prevent this exploit. We can wish that the Mt Gox wallet
> designers were more aware of bitcoin protocol vulnerabilities, but at the
> end of the day the best thing to do was offering an alternative that
> circumvents the vulnerability all together.
It's worth pointing out that the transaction malleability issue and the
introduction of a new sighash flag are fundamentally different: a wallet
developer has to take active measures to guard against transaction
malleability since it was present even for the most minimal
implementation, whereas with sighash flags the developers have to
actively add support for it. Where transaction malleability you just had
to know that it might be an issue, with noinput you actively have to do
work yo expose yourself to it.
I'd argue that you have to have a very compelling reason to opt into
supporting noinput, and that's usually because you want to support a
more complex protocol such as an off-chain contract anyway, at which
point I'd hope you know about the tradeoffs of various sighash flags :-)
> Ethan made a great point about SIGHASH_NONE or SIGHASH_SINGLE -- which have
> virtually no use AFAIK -- vs the ECDSA nonce reuse which is used in nearly
> every transaction. The feature -- ECDSA in this case -- was managed to be
> done wrong by wallet developers causing fund loss. Unfortunately we can't
> protect against this type of bug in the protocol.
>
> If things aren't used -- such as SIGHASH_NONE or SIGHASH_SINGLE -- it
> doesn't matter if they are secure or insecure. I'm hopefully that offchain
> protocols will achieve wide adoption, and I would hate to see money lost
> because of this. Even though they aren't used, in my OP I do advocate for
> fixing these.
I do share the feeling that we better make a commonly used sighash flag
as useable and safe as possible, but it's rather unrealistic to have a
developer that is able to implement a complex off-chain system, but
fails to understand the importance of using the correct sighash flags in
their wallet. That being said, I think this concern would be addressed
by any form of explicit opt-in on the output side (whether hidden or
not), right?
Cheers,
Christian
📝 Original message:
Chris Stewart <chris at suredbits.com> writes:
>> I don't find too compelling the potential problem of a 'bad wallet
> designer', whether lazy or dogmatic, misusing noinput. I think there are
> simpler ways to cut corners and there will always be plenty of good wallet
> options people can choose.
>
> In my original post, the business that I am talking about don't use "off
> the shelf" wallet options. It isn't a "let's switch from wallet A to wallet
> B" kind of situation. Usually this involves design from ground up with
> security considerations that businesses of scale need to consider (signing
> procedures and key handling being the most important!).
In this case I'd hope that the custom wallet designers/developers are
well-versed in the issues they might encounter when implementing their
wallet. This is especially true if they decide to opt into using some
lesser known sighash flags, such as noinput, that come with huge warning
signs (I forgot to mention that renaming noinput to noinput_dangerous is
also still on the table).
>>Because scripts signed with no_input signatures are only really exchanged
> and used for off-chain negotiations, very few should ever appear on chain.
> Those that do should represent non-cooperative situations that involve
> signing parties who know not to reuse or share scripts with these public
> keys again. No third party has any reason to spend value to a
> multisignature script they don't control, whether or not a no_input
> signature exists for it.
>
> Just because some one is your friend today, doesn't mean they aren't
> necessarily your adversary tomorrow. I don't think a signature being
> onchain really matters, as you have to give it to your counterparty
> regardless. How do you know your counterparty won't replay that
> SIGHASH_NOINPUT signature later? Offchain protocols shouldn't rely on
> "good-will" for their counter parties for security.
>
>>As I mentioned before, I don't think the lazy wallet designer advantage is
> enough to justify the downsides of chaperone signatures. One additional
> downside is the additional code complexity required to flag whether or not
> a chaperone output is included. By comparison, the code changes for
> creating a no_input digest that skips the prevout and prevscript parts of a
> tx is much less intrusive and easier to maintain.
>
>>I want to second this. The most expensive part of wallet design is
> engineering time. Writing code that uses a new sighash or a custom
> script with a OP_CODE is a very large barrier to use. How many wallets
> support multisig or RBF? How much BTC has been stolen over the entire
> history of Bitcoin because of sighash SIGHASH_NONE or SIGHASH_SINGLE
> vs ECDSA nonce reuse
>
> I actually think lazy wallet designer is a really compelling reason to fix
> footguns in the bitcoin protocol. Mt Gox is allegedly a product of lazy
> wallet design. Now we have non-malleable transactions in the form of segwit
> (yay!) that prevent this exploit. We can wish that the Mt Gox wallet
> designers were more aware of bitcoin protocol vulnerabilities, but at the
> end of the day the best thing to do was offering an alternative that
> circumvents the vulnerability all together.
It's worth pointing out that the transaction malleability issue and the
introduction of a new sighash flag are fundamentally different: a wallet
developer has to take active measures to guard against transaction
malleability since it was present even for the most minimal
implementation, whereas with sighash flags the developers have to
actively add support for it. Where transaction malleability you just had
to know that it might be an issue, with noinput you actively have to do
work yo expose yourself to it.
I'd argue that you have to have a very compelling reason to opt into
supporting noinput, and that's usually because you want to support a
more complex protocol such as an off-chain contract anyway, at which
point I'd hope you know about the tradeoffs of various sighash flags :-)
> Ethan made a great point about SIGHASH_NONE or SIGHASH_SINGLE -- which have
> virtually no use AFAIK -- vs the ECDSA nonce reuse which is used in nearly
> every transaction. The feature -- ECDSA in this case -- was managed to be
> done wrong by wallet developers causing fund loss. Unfortunately we can't
> protect against this type of bug in the protocol.
>
> If things aren't used -- such as SIGHASH_NONE or SIGHASH_SINGLE -- it
> doesn't matter if they are secure or insecure. I'm hopefully that offchain
> protocols will achieve wide adoption, and I would hate to see money lost
> because of this. Even though they aren't used, in my OP I do advocate for
> fixing these.
I do share the feeling that we better make a commonly used sighash flag
as useable and safe as possible, but it's rather unrealistic to have a
developer that is able to implement a complex off-chain system, but
fails to understand the importance of using the correct sighash flags in
their wallet. That being said, I think this concern would be addressed
by any form of explicit opt-in on the output side (whether hidden or
not), right?
Cheers,
Christian