From mboxrd@z Thu Jan 1 00:00:00 1970 Return-Path: Received: from smtp1.linuxfoundation.org (smtp1.linux-foundation.org [172.17.192.35]) by mail.linuxfoundation.org (Postfix) with ESMTPS id 19F752C for ; Wed, 24 May 2017 13:43:50 +0000 (UTC) X-Greylist: whitelisted by SQLgrey-1.7.6 Received: from mail-qt0-f171.google.com (mail-qt0-f171.google.com [209.85.216.171]) by smtp1.linuxfoundation.org (Postfix) with ESMTPS id 19CFFF3 for ; Wed, 24 May 2017 13:43:48 +0000 (UTC) Received: by mail-qt0-f171.google.com with SMTP id f55so155168522qta.3 for ; Wed, 24 May 2017 06:43:47 -0700 (PDT) DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=gmail.com; s=20161025; h=subject:references:to:from:message-id:date:user-agent:mime-version :in-reply-to:content-transfer-encoding; bh=X5jk+RnR0API287uGLlKUqjFQnPTKCtGZL+rWgJ+ujs=; b=VpR/6sjHwnV+l+uh1EHumPNhIOO75Mf8579Tn/UrTu27ptwbTT96e13fpc35Kn1uYO OTon5t6hHmUHXioTDS4zBnQlz5vAommLh/wzfFcMF+wGzRp+Z8PFuiYJ53KufgEaivwS YZ9BCBRKL7Zzm9DEulkPpn6m/vIFtcpLBBKCH5En2S5v3SUYDsaRN+bQym7UA7eaz+pK RzhoHpbgNELusw+E/qXOvDcnQVNHU7+2d+8om5T01On1hRj+qzaPt+Kk7iC5TEFyuUSQ v90PS9KHm810IP6npDIIPAF2E1h/DlCNxnWHLhG1rSt2q/r0SRIPqiw5Gs2R9o0VsMAn a2Gw== X-Google-DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=1e100.net; s=20161025; h=x-gm-message-state:subject:references:to:from:message-id:date :user-agent:mime-version:in-reply-to:content-transfer-encoding; bh=X5jk+RnR0API287uGLlKUqjFQnPTKCtGZL+rWgJ+ujs=; b=WImr8RT0bB3hPrNdlQzI/mTJZ/mlNKitEUgIi7XTj4Sp/FuT1OwqUSI6BlLMjFXkO7 vDqMflQ6VbGouQ+RK480mEjsacH765N+j/PYmdCGxd8JwdmdVESFSy/3cGLVu3vKP+M5 Z3tDW6yL2vWAqDR1G4CPhT7TmTfF/BXnFbEN8K3h8bTCUbNmo80sFSO2Fo3VbAfguNoj RGjWvnvUd2ZZmuqZIWfWt6W99rn8yqigV61JZVOGztoSp+qGW9b0f85zZ6TmoogyCpzU 3/CIaQzBtXKZZXwhBoplJSpGptuosLyBnwKPDuRLetlfReOa4Fq0PKUvvpFrmpvoPcTG gPiA== X-Gm-Message-State: AODbwcBd7E+1CGf5++i1OMhpPx3ct07gydd6vnZFWCjcuyoydtPyHfSq ZSfR95tYsGguL6H4Xns= X-Received: by 10.200.41.214 with SMTP id 22mr34368989qtt.144.1495633426634; Wed, 24 May 2017 06:43:46 -0700 (PDT) Received: from [192.168.44.223] ([172.58.224.50]) by smtp.googlemail.com with ESMTPSA id 69sm2735968qkc.18.2017.05.24.06.43.44 for (version=TLS1_2 cipher=ECDHE-RSA-AES128-GCM-SHA256 bits=128/128); Wed, 24 May 2017 06:43:45 -0700 (PDT) References: <3c744cf9-da15-00c2-dea1-f1f3a1f0b5d5@gmail.com> To: Bitcoin Dev From: Paul Sztorc X-Forwarded-Message-Id: <3c744cf9-da15-00c2-dea1-f1f3a1f0b5d5@gmail.com> Message-ID: Date: Wed, 24 May 2017 09:43:49 -0400 User-Agent: Mozilla/5.0 (Windows NT 6.3; WOW64; rv:45.0) Gecko/20100101 Thunderbird/45.8.0 MIME-Version: 1.0 In-Reply-To: <3c744cf9-da15-00c2-dea1-f1f3a1f0b5d5@gmail.com> Content-Type: text/plain; charset=utf-8 Content-Transfer-Encoding: 7bit X-Spam-Status: No, score=-1.5 required=5.0 tests=BAYES_00,DKIM_SIGNED, DKIM_VALID, DKIM_VALID_AU, FREEMAIL_FROM, RCVD_IN_DNSWL_NONE, RCVD_IN_SORBS_SPAM autolearn=no version=3.3.1 X-Spam-Checker-Version: SpamAssassin 3.3.1 (2010-03-16) on smtp1.linux-foundation.org Subject: [bitcoin-dev] Fwd: Re: Drivechain -- Request for Discussion X-BeenThere: bitcoin-dev@lists.linuxfoundation.org X-Mailman-Version: 2.1.12 Precedence: list List-Id: Bitcoin Protocol Discussion List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Wed, 24 May 2017 13:43:50 -0000 Responses below. On 5/23/2017 7:26 PM, ZmnSCPxj wrote: > Good morning, > > >>> >>> How is OP_BRIBE superior to just using a OP_RETURN script? Cannot >>> a sidechain scan the block for OP_RETURN attesting that the block hash >>> is present in the block? >> >>The sidechain software can indeed, but the mainchain software cannot >>(without making validation of both chains part of the mainchain, which >>defeats the original purpose of sidechains). >> >>The purpose of OP_BRIBE is to allow "Sam" (on the sidechain) and "Mary" >>(a mainchain miner) to work together. Sam would pay X BTC to Mary, if >>Mary could provide Sam with some guarantee that Sam's sidechain block >>[defined by h*] would make it into the largest chain. > > Regarding "largest chain", do you mean mainchain or sidechain? Sidechain. Sam is paying himself the revenues of the sidechain's block. These are side:btc, that he gets, if this block is part of the largest chain. > > An OP_RETURN is still some guarantee that it will make it into the > longest mainchain. If OP_RETURN tx is in a shorter mainchain but not on > the longer mainchain, then on the longer mainchain, the utxo's funding > the OP_RETURN tx is still unspent and the OP_RETURN tx will still be > mineable by any miner following the longer mainchain. The X BTC would > be the OP_RETURN transaction's fee, which Mary would still want to mine > into the longest mainchain, as it is still money on the table if it is > not mined on the longest mainchain. As you say below, it is about the sidechain, not mainchain. (Anything not in the longest mainchain is just discarded by everyone, as always.) > > Or, does OP_BRIBE somehow assure that Sam's block goes onto the longer > sidechain? But then, do not side blocks refer to their previous side > block to define the sidechain? Yes, there is a new construction for this, which might be called "SPV squared". Classical merged mining (ie Namecoin) does not require the mainchain to do anything, except occasionally keep track of an ordered list of hash commitments. BMM is different, it does require the mainchain to keep track of a minimal amount of things. One is the total number of sidechains, but the second is what you have hit on here. In addition to a list of commitments (ideally, one commitment per block), the mainchain also keeps track of the block number ( ..or, as you'll see, perhaps "block number modulo x".. ) of recent sidechain blocks (for the last x=65,536 mainchain blocks). It then subsets the most recent y=4000 of these, and only allows new sidechain blocks to appear if they have a blocknumber equal to a member of set Y', where Y' is the set of all sidechain blocknumbers y blocks ago + 1. Then, the sidechain nodes simply reject the block if the h* commitment refers to a side:blockheader that has a different block number. Perhaps these notes.. http://www.truthcoin.info/images/bmm-outline.txt ..would be helpful. Looking back, this is probably the hackiest part of the entire system, by a wide margin, so it is good that you bring it up. > > > Is there some predictable schedule for side->main withdrawals? If a > withdrawal is imminent, or if some actor can get "insider information" > about whether a withdrawal is imminent, cannot some actor induce the > above, with potentially shorter time to reach step 3? Yes, these delays are parameters, which are defined per sidechain. So once the sidechain has been 'added' to bitcoin, the schedule would be fully predictable. > > From my reading, Blockstream's sidechains proposal supports a reorg > proof after a side->main withdrawal on the mainchain side, with a reorg > proof burn window after the main:side->main withdrawal, preventing its > utxo from being used. If the reorg proof is published and shows that a > sidechain reorg invalidates a particular side->main withdrawal, then the > main:side->main withdrawal's utxo is burned. In this, there is no reorg proof (the miners would simply prevent the withdrawal from accumulating enough ACKs). A 51% miner coalition can always filter any message they like from the blockchain, including the reorg proofs. > >>For extraordinary DAO-like situations, disinterested mainchain miners >>merely need a single bit of information (per sidechain), which is >>"distress=true", and indicates to them to temporarily stop ACKing >>withdrawals from the sidechain. This alone is enough to give the reorg >>an unlimited amount of time to work itself out. > > Do you have some document containing these details? I cannot find this > in the blog posts I've read so far. This specific detail is not documented. I feel it is comparable to, for example, the March 2013 chain fork. > >>>>I feel that my proposal is more secure, as it can operate healthily and >>> quickly while using spv proofs which are much slower and much much >>> easier to audit. >>> >>> I don't quite understand how Drivechain handles sidechain reorgs, while >>> keeping Bitcoin miners blinded. It seems sidechains need to be known >>> ("seen") by the miner, so I don't see what is being blinded by blinded >>> merge mining. >> >>Mainchain miners do need to maintain some data about the sidechains, but >>this is very minimal, and certainly does not include the transaction >>data (or arbitrary messages) of the sidechain. > > As above, do you have document containing what data mainchain needs to > track? Yes, I think the notes (above) may be helpful. > >>>>>Blind merged mining seems strictly inferior ... a rich attacker can >>> simply reorg the sidechain outright without playing such games. >>>> >>>>In the future, when there is no block subsidy, a rich attacker can also >>> do that in mainchain Bitcoin. >>> >>> I see. However, block subsidies will drop far in the future, do you >>> mean to say, that sidechains will be used only in the far future? >> >>In one sense, I mean "you have already endorsed this 'fees only will >>work' premise, by endorsing Bitcoin". > > I endorse this on the basis of Greg Maxwell's analysis that a block size > limit is necessary to have a fee market. Even were that the case, the limit does not need to be imposed by nodes. Miners are likely to self-impose a limit, on nodes and each other, in order to maximize their total revenues. In fact they will eventually be required to do so (even though they do not now, beyond the naive maximization of imposing minimum tx fee requirements). In fact, in that case, the larger the range of possible blocksizes, the greater the ability of miners to extract fees from users -- ie the less limited the blocksize, the more hashpower security. Simply, if revenue = R = f(demand, supply), and miners choose the supply which argmax R , then R can only go down as supply is constrained. And, the effect is even more beneficial to security than _that_ ...if the sidechains are different from each other, such that blockspace in one chain is _not_ a perfect substitute for blockspace in another. In this case miners can choke up on some (or each) individual S_i, forcing sum(R_i) to go even higher. > > >>That mechanism is enforced by drivechain itself, not OP_BRIBE. (OP Bribe >>is itself only ~half of BMM. I admit it is getting a little confusing.) > > Can you provide the details of this mechanism? For example, does h* > actually include some information identifying the sidechain and OP_BRIBE > is supposed to do some additional checking not shown in your current > code, or ....? Yes. Yes. This is what we nicknamed the "ratchet", I cannot easily check the code right now but will get back to you. https://github.com/drivechain-project/bitcoin/commit/c4fe067e298f57252789c28161272db3d7483dca#diff-be5f6bb690c9898e44cbd7e78c465e43R83 > >>Drivechain requires a soft fork to add each new sidechain > > Oh. > > My understanding is that with Blockstream's zk-SNARKs, a new sidechain > would not require a soft fork at all (or even miner voting on the > validity of WT^: the validity of side:side->main transactions is assured > by proof that the zk-SNARK checking that transaction was executed > correctly, and the lack of a reorg proof during the burn window after > the main:side->main). > > Is your model then, that each sidechain maintainer has to maintain a > patchset or some plugin system to Core? And miners who want to support > particular sidechains to modify their software, applying the patch for > each sidechain they want to support? Not necessarily, but I think "plugins" are a good metaphor. > > It seems this is somewhat brittle and may cause sidechain coding > problems to leak into mainchain. > > I think, it is much less interesting to have to softfork in every > sidechain, rather than to support a general mechanism (zk-SNARK) to > allow sidechains to be launched without any modification to Core code. > I completely disagree. Unrestrained smart contract execution will be the death of most of the interesting applications of sidechains, and would probably destabilize Bitcoin itself. I would be as if your body "added" the ability to synthesize any protein, including prions. Then you make one prion and your entire body dies. I thought this would come up, I have a presentation on this: https://www.youtube.com/watch?v=xGu0o8HH10U&list=PLw8-6ARlyVciMH79ZyLOpImsMug3LgNc4&index=1 You don't need to watch the whole thing, maybe just parts 1 and 5. > >>. It requires >>this literally for a few good reasons...but the best is: there is an >>implicit requirement that the miners not steal from the sidechain >>anyway. In this way drivechain knows how to keep track of what it should >>expect. > > It seems to be, more of "completely sighted merged mining" than "blind > merge mining". You can call it microscope mining if you like..it attempts to address the concerns that were raised earlier in the peer review process. > > > >>> Perhaps the datacenter point is simply that your proposal suggests to >>> reduce the size of the datacenter by removing surge suppressors and >>> UPS's, to avoid some definition of "datacenter is a room with >$XXX of >>> equipment". >> >>I hope that my replies above already help with these. If not, let me know. > > I find this point now moot, as drivechains require a softfork for each > sidechain, and the size of the datacenter is pointless if there is some > need to softfork in every sidechain. You might be confused...miners can soft fork in a sidechain that they have *no* intention of merged mining, or BMM ing. I do not know why, as they would be leaving money on the table, but it is possible. Perhaps only 5% of miners want to bother with it. The point is that the other 90% hashpower has no inherent reason *not* to allow that the experiment be run. > > Regards, > ZmnXCPxj