AdamISZ [ARCHIVE] on Nostr: š Original date posted:2019-11-23 š Original message:Two party mixes can be ...
š
Original date posted:2019-11-23
š Original message:Two party mixes can be useful in the context of a very large number of them.
There is no pretence that doing one such, or even doing several such, gives any privacy *guarantees*.
However, if it can be arranged that such 'mixes' occur frequently across a broad spectrum of wallets - and the claim is that that is possible precisely because at least one of the two participants needs to do *absolutely nothing at all* for the join to happen - then the degradation of blockchain analysis could be pretty severe.
What's described here therefore is essentially an attempt to go to the other far extreme from 'rigidly controlled and coordinated large mix sets' to 'ultra loosely coupled almost zero coordination mixing', trading off size in one step for convenience/low effort/even zero effort mixing. Part of that may (or may not) involve Proposers being specialised entities, and it's only the Receiver side that's zero effort.
It should be noted that the two extremes are not incompatible; if one is valuable, it doesn't mean the other isn't.
But what I think you can deduce: a proposal to do SNICKER that just involved a very small set of users would not be much use (still not zero, though); the tradeoffs have been made having in mind the idea of more usage, especially more *broad* usage.
Answering about 2 party joins in more general terms:
Any such coinjoin, no matter its pattern, will break the common input ownership heuristic. If there are equal sized outputs of the same scriptpubkey type (as is proposed) then that delinking effect is of considerable value also.
Sent with ProtonMail Secure Email.
āāāāāāā Original Message āāāāāāā
On Friday, November 22, 2019 2:57 PM, popo via bitcoin-dev <bitcoin-dev at lists.linuxfoundation.org> wrote:
> Hi, AFAIK snicker is limited to 2 party mixes for the foreseeable future.
> What makes this a useful anonymity system for cryptocurrency/Bitcoin?
>
> Thanks
>
> On 11/22/19 3:02 PM, AdamISZ via bitcoin-dev wrote:
>
> > Hi Riccardo,
> > Apologies for not answering before, this slipped my mind.
> > Clearly what you propose is possible, and adding the proposer's own
> > signed transaction is a nice touch to make it more privacy-viable.
> > For now my inclination is not to add this complexity, especially because
> > of the cost implication.
> > I'd note though that your idea about adding in second-stage transactions
> > aligns with the CoinJoinXT idea (or perhaps, just the segwit idea!).
> > Proposers could send sequences of transactions with various patterns,
> > including backouts and promises, but it would clearly be way more
> > complicated than what we're considering right now.
> > Regards,
> > Adam/waxwing
> > Sent with ProtonMail https://protonmail.com Secure Email.
> > āāāāāāā Original Message āāāāāāā
> > On Wednesday, November 6, 2019 4:52 PM, Riccardo Casatta via bitcoin-dev
> > bitcoin-dev at lists.linuxfoundation.org wrote:
> >
> > > Hello Adam,
> > > are you sure you can't tackle the watch-only issue?
> > > What if the proposer create the coinjoin-tx, plus another tx
> > > (encrypted with the shared secret) which is a 1 input-1 output (1to1)
> > > tx which spend his output to another of his key.
> > > At this point when the receiver accept the proposal tx he could create
> > > other tx 1to1 which are spending his tweaked output to pure bip32
> > > derived key, he than broadcast together the coinjoin tx and for every
> > > output of the coinjoin tx one other tx which is a 1to1 tx.
> > > Notes:
> > >
> > > - We are obviously spending more fee because there are more txs
> > > involved but the receiver ends up having only bip32 derived outputs.
> > >
> > > - The receiver must create the 1to1 tx or the receiver lose privacy by
> > > being the only one to create 1to1 tx
> > >
> > > - a good strategy could be to let the coinjoin tx have a very low fee,
> > > while the 1to1 tx an higher one so there is less risk that only the
> > > coinjoin gets mined
> > >
> > > - Whit this spending strategy, the wallet initial scan does not need
> > > to be modified
> > >
> > >
> > > Il giorno mar 22 ott 2019 alle ore 15:29 AdamISZ via bitcoin-dev
> > > <bitcoin-dev at lists.linuxfoundation.org
> > > mailto:bitcoin-dev at lists.linuxfoundation.org> ha scritto:
> > >
> > > Just to chime in on these points:
> > >
> > > My discussions with ghost43 and ThomasV led me to the same
> > > conclusion, at least in general, for the whole watch-only issue:
> > >
> > > It's necessary that the key tweak (`c` as per draft BIP) be known
> > > by Proposer (because has to add it to transaction before signing)
> > > and Receiver (to check ownership), but must not be known by anyone
> > > else (else Coinjoin function fails), hence it can't be publically
> > > derivable in any way but must require information secret to the
> > > two parties. This can be a pure random sent along with the
> > > encrypted proposal (the original concept), or based on such, or
> > > implicit via ECDH (arubi's suggestion, now in the draft, requiring
> > > each party to access their own secret key). So I reached the same
> > > conclusion: the classic watch-only use case of monitoring a wallet
> > > in real time with no privkey access is incompatible with this.
> > >
> > > It's worth mentioning a nuance, however: distinguish two
> > > requirements: (1) to recover from zero information and (2) to
> > > monitor in real time as new SNICKER transactions arrive.
> > >
> > > For (2) it's interesting to observe that the tweak `c` is not a
> > > money-controlling secret; it's only a privacy-controlling secret.
> > > If you imagined two wallets, one hot and one cold, with the second
> > > tracking the first but having a lower security requirement because
> > > cold, then the `c` values could be sent along from the hot to the
> > > cold, as they are created, without changing the cold's security
> > > model as they are not money-controlling private keys. They should
> > > still be encrypted of course, but that's largely a technical
> > > detail, if they were exposed it would only break the effect of the
> > > coinjoin outputs being indistinguishable.
> > >
> > > For (1) the above does not apply; for there, we don't have anyone
> > > telling us what `c` values to look for, we have to somehow
> > > rederive, and to do that we need key access, so it reverts to the
> > > discussion above about whether it might be possible to interact
> > > with the cold wallet 'manually' so to speak.
> > >
> > > To be clear, I don't think either of the above paragraphs describe
> > > things that are particularly likely to be implemented, but the
> > > hot/cold monitoring is at least feasible, if there were enough
> > > desire for it.
> > >
> > > At the higher level, how important is this? I guess it just
> > > depends; there are similar problems (not identical, and perhaps
> > > more addressable?) in Lightning; importing keys is generally
> > > non-trivial; one can always sweep non-standard keys back into the
> > > HD tree, but clearly that is not really a solution in general; one
> > > can mark out wallets/seeds of this type as distinct; not all
> > > wallets need to have watch-only (phone wallets? small wallets?
> > > lower security?) one can prioritise spends of these coins. Etc.
> > >
> > > Some more general comments:
> > >
> > > Note Elichai's comment on the draft (repeated here for local
> > > convenience:
> > > https://gist.github.com/AdamISZ/2c13fb5819bd469ca318156e2cf25d79#gistcomment-3014924)
> > > about AES-GCM vs AES-CBC, any thoughts?
> > >
> > > I didn't discuss the security of the construction for a Receiver
> > > from a Proposer who should after all be assumed to be an attacker
> > > (except, I emphasised that PSBT parsing could be sensitive on this
> > > point); I hope it's clear to everyone that the construction Q = P
> > > + cG is only controllable by the owner of the discrete log of P
> > > (trivial reduction: if an attacker who knows c, can find the
> > > private key q of Q, he can derive the private key p of P as q - c,
> > > thus he is an ECDLP cracker).
> > >
> > > Thanks for all the comments so far, it's been very useful.
> > >
> > > AdamISZ/waxwing/Adam Gibson
> > >
> > > Sent with ProtonMail Secure Email.
> > >
> > > āāāāāāā Original Message āāāāāāā
> > > On Monday, October 21, 2019 4:04 PM, SomberNight via bitcoin-dev
> > > <bitcoin-dev at lists.linuxfoundation.org
> > > <mailto:bitcoin-dev at lists.linuxfoundation.org>> wrote:
> > >
> > > > > The SNICKER recovery process is, of course, only required for
> > > wallet
> > > >
> > > > recovery and not normal wallet use, so I don't think a small
> > > amount of
> > > > round-trip communication between the hot wallet and the cold
> > > wallet is
> > > > too much to ask---especially since anyone using SNICKER with a
> > > > watching-only wallet must be regularly interacting with their cold
> > > > wallet anyway to sign the coinjoins.
> > > >
> > > > What you described only considers the "initial setup" of a
> > > watch-only wallet. There are many usecases for watch-only wallets.
> > > There doesn't even necessarily need to be any offline-signing
> > > involved. For example, consider a user who has a hot wallet on
> > > their laptop with xprv; and wants to watch their addresses using
> > > an xpub from their mobile. Or consider giving an xpub to an
> > > accountant. Or giving an xpub to your Electrum Personal Server
> > > (which is how it works).
> > > >
> > > > Note that all these usecases require "on-going" discovery of
> > > addresses, and so they would break.
> > > >
> > > > ghost43
> > > >
> > > > (ps: Apologies Dave for the double-email; forgot to cc list
> > > originally)
> > > >
> > > > bitcoin-dev mailing list
> > > > bitcoin-dev at lists.linuxfoundation.org
> > > <mailto:bitcoin-dev at lists.linuxfoundation.org>
> > > > https://lists.linuxfoundation.org/mailman/listinfo/bitcoin-dev
> > >
> > >
> > > _______________________________________________
> > > bitcoin-dev mailing list
> > > bitcoin-dev at lists.linuxfoundation.org
> > > <mailto:bitcoin-dev at lists.linuxfoundation.org>
> > > https://lists.linuxfoundation.org/mailman/listinfo/bitcoin-dev
> > >
> > >
> > > --
> > > Riccardo Casatta - @RCasatta https://twitter.com/RCasatta
> >
> > bitcoin-dev mailing list
> > bitcoin-dev at lists.linuxfoundation.org
> > https://lists.linuxfoundation.org/mailman/listinfo/bitcoin-dev
>
> bitcoin-dev mailing list
> bitcoin-dev at lists.linuxfoundation.org
> https://lists.linuxfoundation.org/mailman/listinfo/bitcoin-dev
š Original message:Two party mixes can be useful in the context of a very large number of them.
There is no pretence that doing one such, or even doing several such, gives any privacy *guarantees*.
However, if it can be arranged that such 'mixes' occur frequently across a broad spectrum of wallets - and the claim is that that is possible precisely because at least one of the two participants needs to do *absolutely nothing at all* for the join to happen - then the degradation of blockchain analysis could be pretty severe.
What's described here therefore is essentially an attempt to go to the other far extreme from 'rigidly controlled and coordinated large mix sets' to 'ultra loosely coupled almost zero coordination mixing', trading off size in one step for convenience/low effort/even zero effort mixing. Part of that may (or may not) involve Proposers being specialised entities, and it's only the Receiver side that's zero effort.
It should be noted that the two extremes are not incompatible; if one is valuable, it doesn't mean the other isn't.
But what I think you can deduce: a proposal to do SNICKER that just involved a very small set of users would not be much use (still not zero, though); the tradeoffs have been made having in mind the idea of more usage, especially more *broad* usage.
Answering about 2 party joins in more general terms:
Any such coinjoin, no matter its pattern, will break the common input ownership heuristic. If there are equal sized outputs of the same scriptpubkey type (as is proposed) then that delinking effect is of considerable value also.
Sent with ProtonMail Secure Email.
āāāāāāā Original Message āāāāāāā
On Friday, November 22, 2019 2:57 PM, popo via bitcoin-dev <bitcoin-dev at lists.linuxfoundation.org> wrote:
> Hi, AFAIK snicker is limited to 2 party mixes for the foreseeable future.
> What makes this a useful anonymity system for cryptocurrency/Bitcoin?
>
> Thanks
>
> On 11/22/19 3:02 PM, AdamISZ via bitcoin-dev wrote:
>
> > Hi Riccardo,
> > Apologies for not answering before, this slipped my mind.
> > Clearly what you propose is possible, and adding the proposer's own
> > signed transaction is a nice touch to make it more privacy-viable.
> > For now my inclination is not to add this complexity, especially because
> > of the cost implication.
> > I'd note though that your idea about adding in second-stage transactions
> > aligns with the CoinJoinXT idea (or perhaps, just the segwit idea!).
> > Proposers could send sequences of transactions with various patterns,
> > including backouts and promises, but it would clearly be way more
> > complicated than what we're considering right now.
> > Regards,
> > Adam/waxwing
> > Sent with ProtonMail https://protonmail.com Secure Email.
> > āāāāāāā Original Message āāāāāāā
> > On Wednesday, November 6, 2019 4:52 PM, Riccardo Casatta via bitcoin-dev
> > bitcoin-dev at lists.linuxfoundation.org wrote:
> >
> > > Hello Adam,
> > > are you sure you can't tackle the watch-only issue?
> > > What if the proposer create the coinjoin-tx, plus another tx
> > > (encrypted with the shared secret) which is a 1 input-1 output (1to1)
> > > tx which spend his output to another of his key.
> > > At this point when the receiver accept the proposal tx he could create
> > > other tx 1to1 which are spending his tweaked output to pure bip32
> > > derived key, he than broadcast together the coinjoin tx and for every
> > > output of the coinjoin tx one other tx which is a 1to1 tx.
> > > Notes:
> > >
> > > - We are obviously spending more fee because there are more txs
> > > involved but the receiver ends up having only bip32 derived outputs.
> > >
> > > - The receiver must create the 1to1 tx or the receiver lose privacy by
> > > being the only one to create 1to1 tx
> > >
> > > - a good strategy could be to let the coinjoin tx have a very low fee,
> > > while the 1to1 tx an higher one so there is less risk that only the
> > > coinjoin gets mined
> > >
> > > - Whit this spending strategy, the wallet initial scan does not need
> > > to be modified
> > >
> > >
> > > Il giorno mar 22 ott 2019 alle ore 15:29 AdamISZ via bitcoin-dev
> > > <bitcoin-dev at lists.linuxfoundation.org
> > > mailto:bitcoin-dev at lists.linuxfoundation.org> ha scritto:
> > >
> > > Just to chime in on these points:
> > >
> > > My discussions with ghost43 and ThomasV led me to the same
> > > conclusion, at least in general, for the whole watch-only issue:
> > >
> > > It's necessary that the key tweak (`c` as per draft BIP) be known
> > > by Proposer (because has to add it to transaction before signing)
> > > and Receiver (to check ownership), but must not be known by anyone
> > > else (else Coinjoin function fails), hence it can't be publically
> > > derivable in any way but must require information secret to the
> > > two parties. This can be a pure random sent along with the
> > > encrypted proposal (the original concept), or based on such, or
> > > implicit via ECDH (arubi's suggestion, now in the draft, requiring
> > > each party to access their own secret key). So I reached the same
> > > conclusion: the classic watch-only use case of monitoring a wallet
> > > in real time with no privkey access is incompatible with this.
> > >
> > > It's worth mentioning a nuance, however: distinguish two
> > > requirements: (1) to recover from zero information and (2) to
> > > monitor in real time as new SNICKER transactions arrive.
> > >
> > > For (2) it's interesting to observe that the tweak `c` is not a
> > > money-controlling secret; it's only a privacy-controlling secret.
> > > If you imagined two wallets, one hot and one cold, with the second
> > > tracking the first but having a lower security requirement because
> > > cold, then the `c` values could be sent along from the hot to the
> > > cold, as they are created, without changing the cold's security
> > > model as they are not money-controlling private keys. They should
> > > still be encrypted of course, but that's largely a technical
> > > detail, if they were exposed it would only break the effect of the
> > > coinjoin outputs being indistinguishable.
> > >
> > > For (1) the above does not apply; for there, we don't have anyone
> > > telling us what `c` values to look for, we have to somehow
> > > rederive, and to do that we need key access, so it reverts to the
> > > discussion above about whether it might be possible to interact
> > > with the cold wallet 'manually' so to speak.
> > >
> > > To be clear, I don't think either of the above paragraphs describe
> > > things that are particularly likely to be implemented, but the
> > > hot/cold monitoring is at least feasible, if there were enough
> > > desire for it.
> > >
> > > At the higher level, how important is this? I guess it just
> > > depends; there are similar problems (not identical, and perhaps
> > > more addressable?) in Lightning; importing keys is generally
> > > non-trivial; one can always sweep non-standard keys back into the
> > > HD tree, but clearly that is not really a solution in general; one
> > > can mark out wallets/seeds of this type as distinct; not all
> > > wallets need to have watch-only (phone wallets? small wallets?
> > > lower security?) one can prioritise spends of these coins. Etc.
> > >
> > > Some more general comments:
> > >
> > > Note Elichai's comment on the draft (repeated here for local
> > > convenience:
> > > https://gist.github.com/AdamISZ/2c13fb5819bd469ca318156e2cf25d79#gistcomment-3014924)
> > > about AES-GCM vs AES-CBC, any thoughts?
> > >
> > > I didn't discuss the security of the construction for a Receiver
> > > from a Proposer who should after all be assumed to be an attacker
> > > (except, I emphasised that PSBT parsing could be sensitive on this
> > > point); I hope it's clear to everyone that the construction Q = P
> > > + cG is only controllable by the owner of the discrete log of P
> > > (trivial reduction: if an attacker who knows c, can find the
> > > private key q of Q, he can derive the private key p of P as q - c,
> > > thus he is an ECDLP cracker).
> > >
> > > Thanks for all the comments so far, it's been very useful.
> > >
> > > AdamISZ/waxwing/Adam Gibson
> > >
> > > Sent with ProtonMail Secure Email.
> > >
> > > āāāāāāā Original Message āāāāāāā
> > > On Monday, October 21, 2019 4:04 PM, SomberNight via bitcoin-dev
> > > <bitcoin-dev at lists.linuxfoundation.org
> > > <mailto:bitcoin-dev at lists.linuxfoundation.org>> wrote:
> > >
> > > > > The SNICKER recovery process is, of course, only required for
> > > wallet
> > > >
> > > > recovery and not normal wallet use, so I don't think a small
> > > amount of
> > > > round-trip communication between the hot wallet and the cold
> > > wallet is
> > > > too much to ask---especially since anyone using SNICKER with a
> > > > watching-only wallet must be regularly interacting with their cold
> > > > wallet anyway to sign the coinjoins.
> > > >
> > > > What you described only considers the "initial setup" of a
> > > watch-only wallet. There are many usecases for watch-only wallets.
> > > There doesn't even necessarily need to be any offline-signing
> > > involved. For example, consider a user who has a hot wallet on
> > > their laptop with xprv; and wants to watch their addresses using
> > > an xpub from their mobile. Or consider giving an xpub to an
> > > accountant. Or giving an xpub to your Electrum Personal Server
> > > (which is how it works).
> > > >
> > > > Note that all these usecases require "on-going" discovery of
> > > addresses, and so they would break.
> > > >
> > > > ghost43
> > > >
> > > > (ps: Apologies Dave for the double-email; forgot to cc list
> > > originally)
> > > >
> > > > bitcoin-dev mailing list
> > > > bitcoin-dev at lists.linuxfoundation.org
> > > <mailto:bitcoin-dev at lists.linuxfoundation.org>
> > > > https://lists.linuxfoundation.org/mailman/listinfo/bitcoin-dev
> > >
> > >
> > > _______________________________________________
> > > bitcoin-dev mailing list
> > > bitcoin-dev at lists.linuxfoundation.org
> > > <mailto:bitcoin-dev at lists.linuxfoundation.org>
> > > https://lists.linuxfoundation.org/mailman/listinfo/bitcoin-dev
> > >
> > >
> > > --
> > > Riccardo Casatta - @RCasatta https://twitter.com/RCasatta
> >
> > bitcoin-dev mailing list
> > bitcoin-dev at lists.linuxfoundation.org
> > https://lists.linuxfoundation.org/mailman/listinfo/bitcoin-dev
>
> bitcoin-dev mailing list
> bitcoin-dev at lists.linuxfoundation.org
> https://lists.linuxfoundation.org/mailman/listinfo/bitcoin-dev