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Cc: Bitcoin Dev <bitcoin-development@lists.sourceforge.net>
Subject: Re: [Bitcoin-development] Update on mobile 2-factor wallets
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Thanks Mike I'll have to read that threshold signature paper.

I am familiar with the Princeton threshold signature but I was under the
impression a single key needed to be generated on a single device then
split and distributed.

Does this scheme work the same way?

I would have concerns about generating a key on a compromised computer.
On Nov 8, 2014 11:05 AM, "Mike Hearn" <mike@plan99.net> wrote:

> Here is a summary of current developments in the space of decentralised
> 2-factor Bitcoin wallets. I figured some people here might find it
> interesting.
>
> There has been very nice progress in the last month or two. Decentralised
> 2FA wallets run on a desktop/laptop and have a (currently always Android)
> smartphone app to go with them. Compromise of the wallet requires
> compromise of both devices.
>
> Alon Muroch and Chris Pacia have made huge progress on "Bitcoin
> Authenticator", their (HD) wallet app. The desktop side runs on
> Win/Mac/Linux and the mobile side runs on Android. Sending money from the
> desktop triggers a push notification to the mobile side, which presents the
> transaction for confirmation. Additionally the desktop wallet has a variety
> of other features like OneName integration. It's currently in alpha, but I
> suspect it will be quite popular once released due to its focus on UI and
> the simple mobile security model. I've tried it out and it worked fine.
>
> https://www.bitcoinauthenticator.org/
> https://github.com/cpacia/BitcoinAuthenticator/commits/master    (mobile)
> https://github.com/negedzuregal/BitcoinAuthWallet   (desktop)
>
> Bitcoin Authenticator uses P2SH/CHECKMULTISIG to provide the 2-factor
> functionality. However, this has various downsides that are well known:
>  less support for the address type and larger transactions that waste block
> chain space + result in higher fees.
>
> To solve this problem Christopher Mann and Daniel Loebenberger from Uni
> Bonn have ported the efficient DSA 2-of-2 signing protocol by MacKenzie and
> Reiter to ECDSA, and implemented their own desktop/Android wallet app pair
> showing that it works and has good enough performance. This means that P2SH
> / CHECKMULTISIG is no longer required for the two factor auth case, and
> thus it's as cheap as using regular addresses.
>
> https://github.com/ChristopherMann/2FactorWallet
> https://eprint.iacr.org/2014/629.pdf
>
> Their protocol uses an interesting combination of ECDSA, Paillier
> homomorphic encryption and some zero knowledge proofs to build a working
> solution for the 2-of-2 case only. Their app bootstraps from a QR code that
> includes a TLS public key and IP address of the desktop: the mobile app
> then connects to it directly, renders the transaction and performs the
> protocol when the user confirms. The protocol is online, so both devices
> must be physically present.
>
> Their code is liberally licensed and looks easy to integrate with Alon and
> Chris' more user focused work, as both projects are built with Android and
> the latest bitcoinj. If someone is interested, merging Christopher/Daniel's
> code into the bitcoinj multisig framework would be a useful project, and
> would make it easier for wallet devs to benefit from this work. I can write
> a design doc to follow if needed.
>
> Currently, neither of these projects implement support for BIP70, so the
> screen you see when signing the transaction is hardly user friendly or
> secure: you just have to trust that the destination address you're paying
> to isn't tampered with. Support for sending a full payment request between
> devices is the clear next step once these wallets have obtained a
> reasonable user base and are stable.
>
>
>
>
> ------------------------------------------------------------------------------
>
> _______________________________________________
> Bitcoin-development mailing list
> Bitcoin-development@lists.sourceforge.net
> https://lists.sourceforge.net/lists/listinfo/bitcoin-development
>
>

--001a113d1c7065d52d05075d4f55
Content-Type: text/html; charset=UTF-8
Content-Transfer-Encoding: quoted-printable

<p dir=3D"ltr">Thanks Mike I&#39;ll have to read that threshold signature p=
aper. </p>
<p dir=3D"ltr">I am familiar with the Princeton threshold signature but I w=
as under the impression a single key needed to be generated on a single dev=
ice then split and distributed.</p>
<p dir=3D"ltr">Does this scheme work the same way? </p>
<p dir=3D"ltr">I would have concerns about generating a key on a compromise=
d computer. </p>
<div class=3D"gmail_quote">On Nov 8, 2014 11:05 AM, &quot;Mike Hearn&quot; =
&lt;<a href=3D"mailto:mike@plan99.net">mike@plan99.net</a>&gt; wrote:<br ty=
pe=3D"attribution"><blockquote class=3D"gmail_quote" style=3D"margin:0 0 0 =
.8ex;border-left:1px #ccc solid;padding-left:1ex"><div dir=3D"ltr">Here is =
a summary of current developments in the space of decentralised 2-factor Bi=
tcoin wallets. I figured some people here might find it interesting.<div><b=
r></div><div>There has been very nice progress in the last month or two. De=
centralised 2FA wallets run on a desktop/laptop and have a (currently alway=
s Android) smartphone app to go with them. Compromise of the wallet require=
s compromise of both devices.<div><br></div><div>Alon Muroch and Chris Paci=
a have made huge progress on &quot;Bitcoin Authenticator&quot;, their (HD) =
wallet app. The desktop side runs on Win/Mac/Linux and the mobile side runs=
 on Android. Sending money from the desktop triggers a push notification to=
 the mobile side, which presents the transaction for confirmation. Addition=
ally the desktop wallet has a variety of other features like OneName integr=
ation. It&#39;s currently in alpha, but I suspect it will be quite popular =
once released due to its focus on UI and the simple mobile security model. =
I&#39;ve tried it out and it worked fine.</div><div><br></div><div><a href=
=3D"https://www.bitcoinauthenticator.org/" target=3D"_blank">https://www.bi=
tcoinauthenticator.org/</a></div><div><a href=3D"https://github.com/cpacia/=
BitcoinAuthenticator/commits/master" target=3D"_blank">https://github.com/c=
pacia/BitcoinAuthenticator/commits/master</a> =C2=A0 =C2=A0(mobile)<br></di=
v><div><a href=3D"https://github.com/negedzuregal/BitcoinAuthWallet" target=
=3D"_blank">https://github.com/negedzuregal/BitcoinAuthWallet</a> =C2=A0 (d=
esktop)<br></div><div><br></div><div>Bitcoin Authenticator uses P2SH/CHECKM=
ULTISIG to provide the 2-factor functionality. However, this has various do=
wnsides that are well known: =C2=A0less support for the address type and la=
rger transactions that waste block chain space + result in higher fees.</di=
v><div><br></div><div>To solve this problem Christopher Mann and Daniel Loe=
benberger from Uni Bonn have ported the efficient DSA 2-of-2 signing protoc=
ol by MacKenzie and Reiter to ECDSA, and implemented their own desktop/Andr=
oid wallet app pair showing that it works and has good enough performance. =
This means that P2SH / CHECKMULTISIG is no longer required for the two fact=
or auth case, and thus it&#39;s as cheap as using regular addresses.</div><=
div><br></div><div><a href=3D"https://github.com/ChristopherMann/2FactorWal=
let" target=3D"_blank">https://github.com/ChristopherMann/2FactorWallet</a>=
<br></div></div><div><a href=3D"https://eprint.iacr.org/2014/629.pdf" targe=
t=3D"_blank">https://eprint.iacr.org/2014/629.pdf</a><br></div><div><br></d=
iv><div>Their protocol uses an interesting combination of ECDSA, Paillier h=
omomorphic encryption and some zero knowledge proofs to build a working sol=
ution for the 2-of-2 case only. Their app bootstraps from a QR code that in=
cludes a TLS public key and IP address of the desktop: the mobile app then =
connects to it directly, renders the transaction and performs the protocol =
when the user confirms. The protocol is online, so both devices must be phy=
sically present.</div><div><br></div><div>Their code is liberally licensed =
and looks easy to integrate with Alon and Chris&#39; more user focused work=
, as both projects are built with Android and the latest bitcoinj. If someo=
ne is interested, merging Christopher/Daniel&#39;s code into the bitcoinj m=
ultisig framework would be a useful project, and would make it easier for w=
allet devs to benefit from this work. I can write a design doc to follow if=
 needed.</div><div><br></div><div>Currently, neither of these projects impl=
ement support for BIP70, so the screen you see when signing the transaction=
 is hardly user friendly or secure: you just have to trust that the destina=
tion address you&#39;re paying to isn&#39;t tampered with. Support for send=
ing a full payment request between devices is the clear next step once thes=
e wallets have obtained a reasonable user base and are stable.</div><div><b=
r></div><div><br></div></div>
<br>-----------------------------------------------------------------------=
-------<br>
<br>_______________________________________________<br>
Bitcoin-development mailing list<br>
<a href=3D"mailto:Bitcoin-development@lists.sourceforge.net">Bitcoin-develo=
pment@lists.sourceforge.net</a><br>
<a href=3D"https://lists.sourceforge.net/lists/listinfo/bitcoin-development=
" target=3D"_blank">https://lists.sourceforge.net/lists/listinfo/bitcoin-de=
velopment</a><br>
<br></blockquote></div>

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