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[50.135.46.157]) by mx.google.com with ESMTPSA id fx1sm5502727pbb.42.2015.02.10.08.55.36 (version=TLSv1.2 cipher=ECDHE-RSA-AES128-GCM-SHA256 bits=128/128); Tue, 10 Feb 2015 08:55:37 -0800 (PST) Message-ID: <54DA381E.7050407@voskuil.org> Date: Tue, 10 Feb 2015 08:55:58 -0800 From: Eric Voskuil User-Agent: Mozilla/5.0 (X11; Linux x86_64; rv:31.0) Gecko/20100101 Thunderbird/31.2.0 MIME-Version: 1.0 To: =?UTF-8?B?TeKStnJ0aW4gSOKStmJv4pOLxaF0aWFr?= References: <54D3D636.1030308@voskuil.org> <279489A5-1E46-48A2-8F58-1A25821D4D96@gmail.com> <6AEDF3C4-DEE0-4E31-83D0-4FD92B125452@voskuil.org> <54D3FB4A.9010105@voskuil.org> <54D400F0.9090406@voskuil.org> <54D4093F.5000707@voskuil.org> <54D418DF.1000704@voskuil.org> In-Reply-To: Content-Type: multipart/signed; micalg=pgp-sha1; protocol="application/pgp-signature"; boundary="QAErG4EvppDB0CdnQsU31LKcApwL2mC0o" X-Spam-Score: 0.0 (/) X-Spam-Report: Spam Filtering performed by mx.sourceforge.net. See http://spamassassin.org/tag/ for more details. X-Headers-End: 1YLE6C-0004aE-1n Cc: Bitcoin Dev , Paul Puey Subject: Re: [Bitcoin-development] Proposal for P2P Wireless (Bluetooth LE) transfer of Payment URI X-BeenThere: bitcoin-development@lists.sourceforge.net X-Mailman-Version: 2.1.9 Precedence: list List-Id: List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Tue, 10 Feb 2015 17:16:41 -0000 This is an OpenPGP/MIME signed message (RFC 4880 and 3156) --QAErG4EvppDB0CdnQsU31LKcApwL2mC0o Content-Type: text/plain; charset=utf-8 Content-Transfer-Encoding: quoted-printable Martin, I like your idea for the commit protocol in that it resolves the vandalous address substitution attack. However, I don't see a way to prevent privacy loss without adverse impact to the scenario. Anyone could perform the handshake and thereby obtain the payment request. Therefore to prevent inadvertent disclosure the customer must visually confirm the "phrase" and then verbally tell the merchant to proceed by sending the payment request. One might argue that it's sufficient to preserve the integrity of the transaction while suffering the privacy loss, especially given that a hijacked handshake should never result in a completed transaction - unless of course the hijacker pays. But imagine someone purchasing their meds. HIPAA requires the checkout queue to form behind a yellow line. That speaks directly to this question= =2E e On 02/06/2015 01:07 AM, M=E2=92=B6rtin H=E2=92=B6bo=E2=93=8B=C5=A1tiak wr= ote: > 2015-02-06 2:29 GMT+01:00 Eric Voskuil : >> On 02/05/2015 04:36 PM, Martin Habov=C5=A1tiak wrote: >>> I believe, we are still talking about transactions of physical >>> people in physical world. So yes, it's proximity based - people >>> tell the words by mouth. :) >> >> Notice from my original comment: >> >>>>>> A MITM can substitute the key. If you don't have verifiable >>>>>> identity associated with the public key (PKI/WoT), you need >>>>>> a shared secret (such as a secret phrase). >> >> I said this could only be accomplished using a shared secret or a >> trusted public key. Exchanging a value that is derived from a pair of >> public keys is a distinction without a difference. The problem remains= >> that the parties must have a secure/out-of-band channel for >> communicating this value. >> >> The fact that they are face-to-face establishes this channel, but that= >> brings us back to the original problem, as it requires manual >> verification - as in visual/audible scanning of the two values for >> comparison. At that point the visual comparison of the address, or som= e >> value derived from it, is simpler. >=20 > I have never been against manual verification. What I'm trying to say > is let's just make manual verification easier and more secure. > Comparison of address is simpler for the coder but also simpler to > attack. It has these problems: > - Addresses broadcasted in plaintext (privacy issue) > - Amounts broadcasted in plaintext (privacy issue) > - Address is long - takes lot of time to verify (user experience issue)= > - Address prefix can be brute-forced, if too short or used to make > "black hole" address if longer (vandalism issue) >=20 > Commit protocol can be used for both the encryption and the > authentication while user experience is not bad and everything is > still secure. >=20 >> >>> In case of RedPhone, you read those words verbally over not-yet- >>> verified channel relying on difficulty of spoofing your voice. Also >>> the app remembers the public keys, so you don't need to verify >>> second time. >> >> This is reasonable, but wouldn't help in the case of an ad-hoc >> connection between parties who don't know each other well. >> >>> I suggest you to try RedPhone (called Signal on iPhone) yourself. >>> It's free/open source, Internet-based and end-to-end encrypted. You >>> may find it useful some day. Also I'm willing to help you with >>> trying it after I wake up. (~8 hours: Send me private e-mail if >>> you want to.) >> >> I appreciate the offer. I really don't trust *any* smartphone as a >> platform for secure communication/data. But encrypting on the wire doe= s >> of course shrink the attack surface and increase the attacker's cost. >> >> e >> >>> D=C5=88a 6. febru=C3=A1ra 2015 1:22:23 CET pou=C5=BE=C3=ADvate=C4=BE = Eric Voskuil >> nap=C3=ADsal: >> >>>> On 02/05/2015 04:04 PM, M=E2=92=B6rtin H=E2=92=B6bo=E2=93=8B=C5=A1ti= ak wrote: >>>>> That's exactly what I though when seeing the RedPhone code, but aft= er >>>>> I studied the commit protocol I realized it's actually secure and >>>>> convenient way to do it. You should do that too. :) >>> >>>> I was analyzing the model as you described it to me. A formal analys= is >>>> of the security model of a particular implementation, based on >>>> inference >>> >from source code, is a bit beyond what I signed up for. But I'm >>>> perfectly willing to comment on your description of the model if you= >>>> are >>>> willing to indulge me. >>> >>>>> Shortly, how it works: >>>>> The initiator of the connection sends commit message containing the= >>>>> hash of his temporary public ECDH part, second party sends back the= ir >>>>> public ECDH part and then initiator sends his public ECDH part in >>>>> open. All three messages are hashed together and the first two byte= s >>>>> are used to select two words from a shared dictionary which are >>>>> displayed on the screen of both the initiator and the second party.= >>> >>>>> The parties communicate those two words and verify they match. >>> >>>> How do they compare words if they haven't yet established a secure >>>> channel? >>> >>>>> If an attacker wants to do MITM, he has a chance of choosing right >>>>> public parts 1:65536. There is no way to brute-force it, since that= >>>>> would be noticed immediately. If instead of two words based on the >>>>> first two bytes, four words from BIP39 wordlist were chosen, it wou= ld >>>>> provide entropy of 44 bits which I believe should be enough even fo= r >>>>> paranoid people. >>>>> >>>>> How this would work in Bitcoin payment scenario: user's phone >>>>> broadcasts his name, merchant inputs amount and selects the name fr= om >>>>> the list, commit message is sent (and then the remaining two >>>>> messages), merchant spells four words he sees on the screen and buy= er >>>>> confirms transaction after verifying that words match. >>> >>>> So the assumption is that there exists a secure (as in proximity-bas= ed) >>>> communication channel? >>> >>>> e >>> >>>>> 2015-02-06 0:46 GMT+01:00 Eric Voskuil : >>>>>> On 02/05/2015 03:36 PM, M=E2=92=B6rtin H=E2=92=B6bo=E2=93=8B=C5=A1= tiak wrote: >>>>>>>> A BIP-70 signed payment request in the initial broadcast can >>>> resolve the >>>>>>>> integrity issues, but because of the public nature of the >>>> broadcast >>>>>>>> coupled with strong public identity, the privacy compromise is >>>> much >>>>>>>> worse. Now transactions are cryptographically tainted. >>>>>>>> >>>>>>>> This is also the problem with BIP-70 over the web. TLS and other= >>>>>>>> security precautions aside, an interloper on the communication, >>>> desktop, >>>>>>>> datacenter, etc., can capture payment requests and strongly >>>> correlate >>>>>>>> transactions to identities in an automated manner. The payment >>>> request >>>>>>>> must be kept private between the parties, and that's hard to do.= >>>>>>> >>>>>>> What about using encryption with forward secrecy? Merchant would >>>>>>> generate signed request containing public ECDH part, buyer would >>>> send >>>>>>> back transaction encrypted with ECDH and his public ECDH part. If= >>>>>>> receiving address/amount is meant to be private, use commit >>>> protocol >>>>>>> (see ZRTP/RedPhone) and short authentication phrase (which is har= d >>>> to >>>>>>> spoof thanks to commit protocol - see RedPhone)? >>>>>> >>>>>> Hi Martin, >>>>>> >>>>>> The problem is that you need to verify the ownership of the public= >>>> key. >>>>>> A MITM can substitute the key. If you don't have verifiable identi= ty >>>>>> associated with the public key (PKI/WoT), you need a shared secret= >>>> (such >>>>>> as a secret phrase). But the problem is then establishing that >>>> secret >>>>>> over a public channel. >>>>>> >>>>>> You can bootstrap a private session over the untrusted network usi= ng >>>> a >>>>>> trusted public key (PKI/WoT). But the presumption is that you are >>>>>> already doing this over the web (using TLS). That process is subje= ct >>>> to >>>>>> attack at the CA. WoT is not subject to a CA attack, because it's >>>>>> decentralized. But it's also not sufficiently deployed for some >>>> scenarios. >>>>>> >>>>>> e >>>>>> >>> >>> >> --QAErG4EvppDB0CdnQsU31LKcApwL2mC0o Content-Type: application/pgp-signature; name="signature.asc" Content-Description: OpenPGP digital signature Content-Disposition: attachment; filename="signature.asc" -----BEGIN PGP SIGNATURE----- Version: GnuPG v1 iQEcBAEBAgAGBQJU2jgeAAoJEDzYwH8LXOFOnQQH/RD64w7IqMxMjMnN2wAbmS5U 6GgyQ9wPgl40+lyo/bsOCjL6/uBNzECG6ulVUkI/hKXzoJtJxE6XCogV4NGiGP+X nIvf7exjUwDPMKAwhMRo/cPyGutqzbATqEzQEFH3KekL4mKLrZm2mF7FaWHmBB5I BKDHn+w4bBTM1D6IroyCuMU0lp7RTZ+rGtGgUv98qq3odS+dqD8CLbP5aGf5RQZw M8OAByoenosUVZByWtWnc24LbbvpKXGlK3gOKvSmcbNgEFaq1GoUWiwThW5o4Bzo TU0v2JFbXKatO3h7wsxB8ONgC8uhQPLxVooZfmb63tANM3jqy/Ov23X3XtxTUPw= =ZEPY -----END PGP SIGNATURE----- --QAErG4EvppDB0CdnQsU31LKcApwL2mC0o--