From mboxrd@z Thu Jan 1 00:00:00 1970 Return-Path: Received: from smtp1.osuosl.org (smtp1.osuosl.org [IPv6:2605:bc80:3010::138]) by lists.linuxfoundation.org (Postfix) with ESMTP id 19781C002D for ; Fri, 30 Sep 2022 12:08:59 +0000 (UTC) Received: from localhost (localhost [127.0.0.1]) by smtp1.osuosl.org (Postfix) with ESMTP id D477483FBC for ; Fri, 30 Sep 2022 12:08:58 +0000 (UTC) DKIM-Filter: OpenDKIM Filter v2.11.0 smtp1.osuosl.org D477483FBC Authentication-Results: smtp1.osuosl.org; dkim=pass (2048-bit key) header.d=acinq-fr.20210112.gappssmtp.com header.i=@acinq-fr.20210112.gappssmtp.com header.a=rsa-sha256 header.s=20210112 header.b=HDlSHp5G X-Virus-Scanned: amavisd-new at osuosl.org X-Spam-Flag: NO X-Spam-Score: -1.899 X-Spam-Level: X-Spam-Status: No, score=-1.899 tagged_above=-999 required=5 tests=[BAYES_00=-1.9, DKIM_SIGNED=0.1, DKIM_VALID=-0.1, HTML_MESSAGE=0.001, RCVD_IN_DNSWL_NONE=-0.0001, SPF_HELO_NONE=0.001, SPF_PASS=-0.001] autolearn=ham autolearn_force=no Received: from smtp1.osuosl.org ([127.0.0.1]) by localhost (smtp1.osuosl.org [127.0.0.1]) (amavisd-new, port 10024) with ESMTP id I8VQl4V1J52t for ; Fri, 30 Sep 2022 12:08:55 +0000 (UTC) X-Greylist: whitelisted by SQLgrey-1.8.0 DKIM-Filter: OpenDKIM Filter v2.11.0 smtp1.osuosl.org A876E82F49 Received: from mail-ua1-x92e.google.com (mail-ua1-x92e.google.com [IPv6:2607:f8b0:4864:20::92e]) by smtp1.osuosl.org (Postfix) with ESMTPS id A876E82F49 for ; Fri, 30 Sep 2022 12:08:54 +0000 (UTC) Received: by mail-ua1-x92e.google.com with SMTP id a14so1614983uat.13 for ; Fri, 30 Sep 2022 05:08:54 -0700 (PDT) DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=acinq-fr.20210112.gappssmtp.com; s=20210112; h=cc:to:subject:message-id:date:from:in-reply-to:references :mime-version:from:to:cc:subject:date; bh=BV+VRmtJxh17lVOAsMoibidXJWwYb60TCZT+tcTVp/E=; b=HDlSHp5GddZh6v6HhxlTy5DvK0o2GfvUx/B7bDkgEUhMfmhEu2xJObbyGgCFFrQr/X EhBVzaWirT5cj1vCKScDJN2EzeyqennqF9sP7iz0G2pIya0046mFCuZyF4WJRfraDciX AsX1PFNADkIkLleoS96O628hxHcgfHdLken/WUgswDqlTTWRoTnC+ajkMzdwePwUYDEC TpMCZwJrZcpNYMlAejaoy0HITHv92e3Pemu+U1KOHVYipF8mMhHYf9gMs/IuaUaQsGJF /T/QCXknBA7FjzAziFyj/7nGlJFFr6uQj2S1CMiD5jAiHoCqU1EkZFyYqXrDuRyVQ7pD EYbg== X-Google-DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=1e100.net; s=20210112; h=cc:to:subject:message-id:date:from:in-reply-to:references :mime-version:x-gm-message-state:from:to:cc:subject:date; bh=BV+VRmtJxh17lVOAsMoibidXJWwYb60TCZT+tcTVp/E=; b=UX8vphNRwyJr5mXsO7vAERALTditp4vdPfKzVdnNxbXHpbocf98KtWWCZpXwlRAOFI wxZHf7iMHiRgvi76w+UJDoUMOEA0u+BGrJ5r4bMTpULLkdC9Qtu0m9NviSA+cCLn38d+ ozAneKTtr1qOph3eaWl/QAphvTywgfcXxxjJ8T8Nx6hr+I0eS7TneJm3al1goTFnX6F2 xwTPdv5M5qC4KSEDmLZySPseVz9D0WggUwpMzJYO4mTAWCDcQX9YokIxyWPPh4+mPjmX 5aw+ozfMwsdhzRTKYBnIK9p3P0DF6bq4CT87PF1V4Kfk0F5nCe1rxE/yeQ2ksQlA09ZJ +yaQ== X-Gm-Message-State: ACrzQf1C5x5u//xCj17JT8mO0wytbF0sB9GhM0DK7+p6VUEMXZ1EEAQA J7Y1BhWQS1xXogthGDVJck4aHxk6Uzp+ArD5ZAYV5w== X-Google-Smtp-Source: AMsMyM5ZbuUsIbp+c2gno2UJgqL1hqkcuIvcP/obVbAnfVWmWiWxuxeNSKDdwqM1HLlI/a8ZLPmvT0uCO9j2RgNB25k= X-Received: by 2002:a05:6130:a0b:b0:3d5:61b2:b1ef with SMTP id bx11-20020a0561300a0b00b003d561b2b1efmr3026337uab.39.1664539733214; Fri, 30 Sep 2022 05:08:53 -0700 (PDT) MIME-Version: 1.0 References: In-Reply-To: From: Bastien TEINTURIER Date: Fri, 30 Sep 2022 14:08:41 +0200 Message-ID: To: Ruben Somsen Content-Type: multipart/alternative; boundary="000000000000835b1b05e9e3dbc9" X-Mailman-Approved-At: Fri, 30 Sep 2022 14:20:47 +0000 Cc: Bitcoin Protocol Discussion , Greg Sanders Subject: Re: [bitcoin-dev] New transaction policies (nVersion=3) for contracting protocols X-BeenThere: bitcoin-dev@lists.linuxfoundation.org X-Mailman-Version: 2.1.15 Precedence: list List-Id: Bitcoin Protocol Discussion List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Fri, 30 Sep 2022 12:08:59 -0000 --000000000000835b1b05e9e3dbc9 Content-Type: text/plain; charset="UTF-8" Content-Transfer-Encoding: quoted-printable Hey Ruben, I discussed this further over IRC, and I now agree that this particular change would be very desirable and can likely fit in the initial release (even though I'm not the one writing that code, but I'd be happy to review it and test it). Greg already has a draft design that addresses your concerns: if there is an "ephemeral output" (0-value, OP_TRUE) in an unconfirmed v3 transaction, it MUST be spent by any child v3 transaction. This way, you ensure that any child transaction spending the unconfirmed parent spends the ephemeral output(s). @Greg, correct me if I misunderstood something here. Note that we will need to precisely define the criteria for those "ephemeral outputs" (it can probably simply be "outputs that are 0 sats"). Coupled with transactions that pay no fees (and thus require a child to CPFP in order to be included in a block), this ensures those outputs can never leak into the utxo set. How does that sound? I'm curious why you would need more than one such output, can you detail? I believe we only ever need one, spendable by anyone. Cheers, Bastien Le ven. 30 sept. 2022 =C3=A0 02:14, Ruben Somsen a =C3= =A9crit : > Hi Bastien, > > >The other change mentioned (making OP_TRUE standard and allowing outputs > that are below dust) can be added later, as those won't be standard until > we start allowing them, so there shouldn't be any backwards-compatibility > issue with postponing this change. But maybe it's still worth having from > the get-go, even though it may take a bit more time? Again, I'm curious t= o > have other people's opinion here > > I'm sensitive to not wanting to overload the current discussion but this > also interests me, provided it can be done in a way that is acceptable > (i.e. minimizing the potential UTXO set impact). It would solve a big cos= t > issue in my spacechains design if transactions could be 0 fees and have a= 0 > sat output that could be used in order to pay all the fees with CPFP. > > My current view is that a tx containing a single 0 sat OP_TRUE output > should only get relayed if it is a package where the OP_TRUE output is > currently being spent in a way that increases the overall fee rate. But > even then, one theoretical edge case remains: > - Another CPFP tx can feebump the package on a different (non-OP_TRUE) > output with an even higher fee rate > - Subsequently, the tx that is spending the OP_TRUE might fall out of the > mempool if the mempool fee rate rises > - This could cause the 0 sat output to enter the UTXO set (specifically, > rational miners wouldn't refuse to mine such a tx) > > It doesn't seem like this would happen much in practice (nor is there an > incentive to do it on purpose), but the chance isn't 0. > > Cheers, > Ruben > > > > On Thu, Sep 29, 2022 at 4:50 PM Greg Sanders via bitcoin-dev < > bitcoin-dev@lists.linuxfoundation.org> wrote: > >> > Right, good catch, this does require new logic to handle this case. >> As Gloria points out, this should be doable, and is definitely worth >> adding (those CSV 1 on every other output are really hacky, glad to >> find a way to get rid of them). >> >> For the record, it turns out ephemeral anchors + v3 solves this already, >> as the anchor must be spent, and the parent tx may only have one child. >> Somehow I missed this implication for a few months. It's great news if w= e >> can directly source fees from any output claimable, including HTLCs! >> >> On Thu, Sep 29, 2022 at 5:15 AM Bastien TEINTURIER >> wrote: >> >>> Hi Gloria, Greg, >>> >>> > I interpret most of the discussion around limitations as ideas for >>> > future improvements rather than criticisms of the proposal >>> >>> As far as I'm concerned, definitely! >>> >>> My current understanding is that the main change/improvement that would >>> make sense here is restricting the whole v3 package's size (instead of >>> just the child) via committing to a specific value in the taproot annex >>> (also note that it's probably not just the v3 package's size, it should >>> be the whole unconfirmed package including potential v2 unconfirmed >>> ancestors). >>> >>> While I think this would be very valuable and would like to see this >>> happen, I believe that can be done in a second, separate step since thi= s >>> would make relay policy stricter (some v3 transactions that previously >>> propagated wouldn't propagate under this new rule). As long as you are >>> able to find a path to miners through upgraded peers that use this anne= x >>> approach, you should be able to resolve ACP pinning issues? >>> >>> I'm curious to know how other people feel about that: is it ok to do >>> later or should we try to implement this for the first release of v3 >>> transactions? >>> >>> The other change mentioned (making OP_TRUE standard and allowing output= s >>> that are below dust) can be added later, as those won't be standard unt= il >>> we start allowing them, so there shouldn't be any backwards-compatibili= ty >>> issue with postponing this change. But maybe it's still worth having fr= om >>> the get-go, even though it may take a bit more time? Again, I'm curious >>> to >>> have other people's opinion here, I'd be happy to get all of those >>> directly >>> in the first release of v3 transactions, but I don't know how much >>> implementation will have to go into that. >>> >>> > For clarification, package RBF is ParentTx*s*(plural), and >>> ChildTx(singular), >>> > so it might be a bit more complicated than we're thinking >>> >>> Right, good catch, this does require new logic to handle this case. >>> As Gloria points out, this should be doable, and is definitely worth >>> adding (those CSV 1 on every other output are really hacky, glad to >>> find a way to get rid of them). >>> >>> Thanks, >>> Bastien >>> >>> Le lun. 26 sept. 2022 =C3=A0 18:48, Gloria Zhao = a >>> =C3=A9crit : >>> >>>> Hi Greg, Antoine, Bastien, >>>> >>>> Thanks very much for the feedback! I interpret most of the discussion >>>> around limitations as ideas for future improvements rather than critic= isms >>>> of the proposal (please correct me if I'm wrong). I'll try to respond = to as >>>> much as possible. >>>> >>>> Also I realize that I didn't contextualize this proposal clearly >>>> enough; it is very tailored for LN Penalty and definitely doesn't clos= e all >>>> pinning attacks possible (sorry for confusing anyone). I also agree th= at >>>> some bits can be a little ugly or tack-on; I would definitely prefer a >>>> comprehensive RBF revamp to fix all our problems and enable other >>>> fee-bumping strategies such as >>>> sign-ANYONECANPAY-then-bring-your-own-fees-by-adding-inputs-at-broadca= st. I >>>> was hoping to get some ideas with the "RBF Improvements" post in Janua= ry, >>>> but it doesn't seem like we're much closer to a workable proposal. I t= hink >>>> this is a minimally-invasive step that works for Lightning today, a sm= all >>>> fix similar to CPFP carve out. >>>> >>>> > As you likely know from previous discussions the biggest scenario >>>> this does not fix in my estimation is ANYONECANPAY situations. If the >>>> parent transaction can be "inflated" by tacking on additional inputs, = this >>>> means the total weight of the parent tx lowers the effective feerate o= f the >>>> package. >>>> >>>> (For more context to other readers I wrote an explanation for this in >>>> "SIGHASH_ANYONECANPAY Pinning" section of RBF ML post). Yes, this >>>> unfortunately doesn't fix any of the existing pinning attacks for sing= le >>>> transaction RBF but also doesn't make them worse. This boils down to a= dding >>>> an incentive compatibility rule that ensures you can't replace a >>>> transaction with something that will confirm slower. Package RBF has a= n >>>> ancestor feerate-based rule for this (note it is quite conservative an= d not >>>> perfect). >>>> >>>> So in the scenario above with the "inflated" parent that was signed >>>> ACP, the replacement would be rejected because the package ancestor fe= erate >>>> is lower than the feerate of what is being replaced. But it is imperfe= ct >>>> (explained below) and thus I wouldn't recommend it for single transact= ion >>>> replacement. So that attack still exists for single transactions, yes. >>>> >>>> The strategy of using ACP to bring-your-own-fees has its own challenge= s >>>> but hopefully has no current use cases as you say. AFAIK LN Penalty is= not >>>> affected by this since it doesn't use ACP, though obviously I agree we >>>> should fix it for the future. >>>> >>>> So when I said "this is intended for fee-bumping presigned txns in >>>> contracting protocols," I should have said "this is intended for >>>> fee-bumping presigned txns specifically using CPFP and anchor outputs.= " >>>> Apologies for forgetting to contextualize, I've been sitting on this f= or >>>> too long. >>>> >>>> > The other scenario it doesn't really fix is where >>>> HTLC/commitment-like transactions are being resolved in a batch, but d= ue to >>>> relative time constraints, you may want to accelerate some and not oth= ers. >>>> Now you must pay higher rates to replace all of the transaction bumps.= This >>>> is a "self-pin" and "get good at utxos noob" type problem, but it's >>>> something that axing rule#3 in favor of a Replace-by-ancestor-feerate >>>> system would get us. >>>> >>>> I understand you to mean "if you don't have enough UTXOs and you're >>>> forced to batch-bump, you over-pay because you need to bring them all = to >>>> the highest target feerate." Isn't this kind of separate, wallet-relat= ed >>>> problem? Contracting or not, surely every wallet needs to have enough = UTXOs >>>> to not batch transactions that shouldn't be batched... I don't see how= a >>>> replace-by-ancestor-feerate policy would make any difference for this? >>>> >>>> Also in general I'd like to reiterate that ancestor feerate is not a >>>> panacea to all our RBF incentive compatibility concerns. Like individu= al >>>> feerate, unless we run the mining algorithm, it cannot tell us exactly= how >>>> quickly this transaction would be mined. >>>> >>>> We're estimating the incentive compatibility of the original >>>> transaction(s) and replacement transaction(s), with the goal of not le= tting >>>> a transaction replace something that would have been more incentive >>>> compatible to mine. As such, we don't want to overestimate how good th= e >>>> replacement is, and we don't want to underestimate how good the origin= al >>>> transactions are. This rule "The minimum between package feerate and >>>> ancestor feerate of the child is not lower than the individual feerate= s of >>>> all directly conflicting transactions and the ancestor feerates of all >>>> original transactions" is a conservative estimate. >>>> >>>> > Would kind of be nice if package RBF would detect a "sibling output >>>> spend" conflict, and knock it out of the mempool via the other replace= ment >>>> rules? Getting rid of the requirement to 1 block csv lock every output >>>> would be quite nice from a smart contracting composability point of vi= ew. >>>> >>>> Interesting, so when a transaction hits a mempool tx's descendant >>>> limit, we consider evicting one of its descendants in favor of this >>>> transaction, based on the RBF rules. >>>> Cool idea! After chewing on this for a bit, I think this *also* just >>>> boils down to the fact that RBF should require replacements to be bett= er >>>> mining candidates. As in, if we added this policy and it can make us e= vict >>>> the sibling and accept a transaction with a bunch of low-feerate ances= tor >>>> junk, it would be a new pinning vector. >>>> >>>> > If you're a miner and you receive a non-V3, second descendant of an >>>> unconfirmed V3 transaction, if the offered fee is in the top mempool >>>> backlog, I think you would have an interest to accept such a transacti= on. >>>> >>>> > So I'm not sure if those two rules are compatible with miners >>>> incentives... >>>> >>>> The same argument can be made for the 26th descendant of a mempool >>>> transaction; it's also not entirely incentive-compatible to reject it,= but >>>> that is not the *only* design goal in mempool policy. Of course, the >>>> difference here is that the 25-descendant limit rule is a sensible DoS >>>> protection, while this 1-descendant limit rule is more of a "help the >>>> Bitcoin ecosystem" policy, just like CPFP carve-out, dust limit, etc. = I can >>>> of course understand why not everyone would be in favor of this, but I= do >>>> think it's worth it. >>>> >>>> > > 4. A V3 transaction that has an unconfirmed V3 ancestor cannot be >>>> >>>> > > larger than 1000 virtual bytes. >>>> >>>> > If I understand correctly the 1000 vb upper bound rational, it would >>>> be to constraint the pinning counterparty to attach a high fee to a ch= ild >>>> due to the limited size, if they would like this transaction to be stu= ck in >>>> the network mempools. By doing so this child has high odds to confirm= . >>>> >>>> Yeah exactly, the "Rule 3 pin" is done by adding a child that's >>>> high-fee (so you have to pay that much to evict it). Because they *don= 't* >>>> want this tx to confirm, normally, this child would be really large. I= f >>>> they only have 1000vB for the child, they can't increase the replaceme= nt >>>> cost without also fee-bumping the transaction to make it confirm faste= r. >>>> >>>> > As of today, I think yes you can already fingerprint LN transactions >>>> on the spec-defined amount value of the anchor outputs, 330 sats. The= re is >>>> always one of them on post-anchor commitment transactions. And sadly I >>>> would say we'll always have tricky fingerprints leaking from unilatera= l LN >>>> closures such as HTLC/PTLC timelocks... >>>> >>>> > I agree with you, this isn't worse than today, unilateral closes wil= l >>>> probably always be identifiable on-chain. >>>> >>>> Great to hear that there is no privacy worsening! >>>> >>>> Best, >>>> Gloria >>>> >>>> On Mon, Sep 26, 2022 at 5:02 PM Greg Sanders >>>> wrote: >>>> >>>>> Bastien, >>>>> >>>>> > This may be already covered by the current package RBF logic, in th= at >>>>> scenario we are simply replacing [ParentTx, ChildTx1] with >>>>> [ParentTx, ChildTx2] that pays more fees, right? >>>>> >>>>> For clarification, package RBF is ParentTx*s*(plural), and >>>>> ChildTx(singular), so it might be a bit more complicated than we're >>>>> thinking, and currently the V3 proposal would first de-duplicate the >>>>> ParentTx based on what is in the mempool, then look at the "rest" of = the >>>>> transactions as a package, then individually. Not the same, not sure = how >>>>> different. I'll defer to experts. >>>>> >>>>> Best, >>>>> Greg >>>>> >>>>> On Mon, Sep 26, 2022 at 11:48 AM Bastien TEINTURIER via bitcoin-dev < >>>>> bitcoin-dev@lists.linuxfoundation.org> wrote: >>>>> >>>>>> Thanks Gloria for this great post. >>>>>> >>>>>> This is very valuable work for L2 contracts, and will greatly improv= e >>>>>> their security model. >>>>>> >>>>>> > "Only 1 anchor output? What if I need to bump counterparty's >>>>>> commitment tx in mempool?" >>>>>> > You won't need to fee-bump a counterparty's commitment tx using >>>>>> CPFP. >>>>>> > You would just package RBF it by attaching a high-feerate child to >>>>>> > your commitment tx. >>>>>> >>>>>> Note that we can also very easily make that single anchor spendable = by >>>>>> both participants (or even anyone), so if you see your counterparty'= s >>>>>> commitment in your mempool, you can bump it without publishing your >>>>>> own commitment, which is quite desirable (your own commitment tx has >>>>>> CSV delays on your outputs, whereas your counterparty's commitment t= x >>>>>> doesn't). >>>>>> >>>>>> > "Is this a privacy issue, i.e. doesn't it allow fingerprinting LN >>>>>> transactions based on nVersion?" >>>>>> >>>>>> I agree with you, this isn't worse than today, unilateral closes wil= l >>>>>> probably always be identifiable on-chain. >>>>>> >>>>>> > Would kind of be nice if package RBF would detect a "sibling outpu= t >>>>>> spend" >>>>>> > conflict, and knock it out of the mempool via the other replacemen= t >>>>>> rules? >>>>>> > Getting rid of the requirement to 1 block csv lock every output >>>>>> would be >>>>>> > quite nice from a smart contracting composability point of view. >>>>>> >>>>>> +1, that would be very neat! >>>>>> >>>>>> This may be already covered by the current package RBF logic, in tha= t >>>>>> scenario we are simply replacing [ParentTx, ChildTx1] with >>>>>> [ParentTx, ChildTx2] that pays more fees, right? >>>>>> >>>>>> > 1) I do think that we should seriously consider allowing OP_TRUE t= o >>>>>> become >>>>>> > a standard script type as part of this policy update. If pinning i= s >>>>>> solved, >>>>>> > then there's no reason to require all those extra bytes for >>>>>> "binding" an >>>>>> > anchor to a specific wallet/user. We can save quite a few bytes by >>>>>> having >>>>>> > the input be empty of witness data. >>>>>> > 2) If we allow for a single dust-value(0 on up) output which is >>>>>> immediately >>>>>> > spent by the package, anchors become even easier to to design. No >>>>>> value has >>>>>> > to be "sapped" from contract participants to make an anchor output= . >>>>>> There's >>>>>> > more complications for this, such as making sure the parent >>>>>> transaction is >>>>>> > dropped if the child spend is dropped, but maybe it's worth the >>>>>> squeeze. >>>>>> >>>>>> I also think both of these could be quite useful. This would probabl= y >>>>>> always >>>>>> be used in combination with a parent transaction that pays 0 fees, s= o >>>>>> the >>>>>> 0-value output would always be spent in the same block. >>>>>> >>>>>> But this means we could end up with 0-value outputs in the utxo set, >>>>>> if for >>>>>> some reason the parent tx is CPFP-ed via another output than the >>>>>> 0-value one, >>>>>> which would be a utxo set bloat issue. But I'd argue that we're >>>>>> probably >>>>>> already creating utxo set bloat with the 330 sat anchor outputs >>>>>> (especially >>>>>> since we use two of them, but only one is usually spent), so it woul= d >>>>>> probably be *better* than what we're doing today. >>>>>> >>>>>> Thanks, >>>>>> Bastien >>>>>> >>>>>> Le lun. 26 sept. 2022 =C3=A0 03:22, Antoine Riard via bitcoin-dev < >>>>>> bitcoin-dev@lists.linuxfoundation.org> a =C3=A9crit : >>>>>> >>>>>>> Hi Gloria, >>>>>>> >>>>>>> Thanks for the progress on package RBF, few early questions. >>>>>>> >>>>>>> > 2. Any descendant of an unconfirmed V3 transaction must also be V= 3. >>>>>>> >>>>>>> > 3. An unconfirmed V3 transaction cannot have more than 1 >>>>>>> descendant. >>>>>>> >>>>>>> If you're a miner and you receive a non-V3, second descendant of an >>>>>>> unconfirmed V3 transaction, if the offered fee is in the top mempoo= l >>>>>>> backlog, I think you would have an interest to accept such a transa= ction. >>>>>>> >>>>>>> So I'm not sure if those two rules are compatible with miners >>>>>>> incentives... >>>>>>> >>>>>>> > 4. A V3 transaction that has an unconfirmed V3 ancestor cannot be >>>>>>> > larger than 1000 virtual bytes. >>>>>>> >>>>>>> If I understand correctly the 1000 vb upper bound rational, it woul= d >>>>>>> be to constraint the pinning counterparty to attach a high fee to a= child >>>>>>> due to the limited size, if they would like this transaction to be = stuck in >>>>>>> the network mempools. By doing so this child has high odds to conf= irm. >>>>>>> >>>>>>> I still wonder if this compatible with miner incentives in period o= f >>>>>>> empty mempools, in the sense that if you've already a V3 transactio= n of >>>>>>> size 100Kvb offering 2 sat/vb, it's more interesting than a V3 repl= acement >>>>>>> candidate of size 1000 vb offering 10 sat/vb. It could be argued th= e former >>>>>>> should be conserved. >>>>>>> >>>>>>> (That said, the hard thing with any replacement strategy we might >>>>>>> evict a parent transaction *now* to which is attached a high-feerat= e child >>>>>>> *latter* making for a utxo considered the best ancestor set. Maybe = in the >>>>>>> long-term miners should keep every transaction ever accepted...) >>>>>>> >>>>>>> > (Lower bound) the smaller this limit, the fewer UTXOs a child may >>>>>>> use >>>>>>> > to fund this fee-bump. For example, only allowing the V3 child to >>>>>>> have >>>>>>> > 2 inputs would require L2 protocols to manage a wallet with >>>>>>> high-value >>>>>>> > UTXOs and make batched fee-bumping impossible. However, as the >>>>>>> > fee-bumping child only needs to fund fees (as opposed to payments= ), >>>>>>> > just a few UTXOs should suffice. >>>>>>> >>>>>>> Reminder for L2 devs, batched fee-bumping of time-sensitive >>>>>>> confirmations of commitment transactions is unsafe, as the counterp= arty >>>>>>> could enter in a "cat-and-mouse" game to replace one of the batch e= lement >>>>>>> at each block to delay confirmation of the remaining elements in th= e batch, >>>>>>> I think. >>>>>>> >>>>>>> On the other hand, I wonder if we wouldn't want a higher bound. LN >>>>>>> wallets are likely to have one big UTXO in their fee-bumping reserv= e pool, >>>>>>> as the cost of acquiring UTXO is non-null and in the optimistic cas= e, you >>>>>>> don't need to do unilateral closure. Let's say you close dozens of = channels >>>>>>> at the same time, a UTXO pool management strategy might be to fan-o= ut the >>>>>>> first spends UTXOs in N fan-out outputs ready to feed the remaining >>>>>>> in-flight channels. >>>>>>> >>>>>>> > 1. The rule around unconfirmed inputs was >>>>>>> > originally "A package may include new unconfirmed inputs, but the >>>>>>> > ancestor feerate of the child must be at least as high as the >>>>>>> ancestor >>>>>>> > feerates of every transaction being replaced." >>>>>>> >>>>>>> Note, I think we would like this new RBF rule to also apply to >>>>>>> single transaction package, e.g second-stage HTLC transactions, whe= re a >>>>>>> counterparty pins a HTLC-preimage by abusing rule 3. In that case, = the >>>>>>> honest LN node should be able to broadcast a "at least as high ance= stor >>>>>>> feerate" HTLC-timeout transaction. With `option_anchor_outputs" the= re is no >>>>>>> unconfirmed ancestor to replace, as the commitment transaction, wha= tever >>>>>>> the party it is originating from, should already be confirmed. >>>>>>> >>>>>>> > "Is this a privacy issue, i.e. doesn't it allow fingerprinting LN >>>>>>> transactions based on nVersion?" >>>>>>> >>>>>>> As of today, I think yes you can already fingerprint LN transaction= s >>>>>>> on the spec-defined amount value of the anchor outputs, 330 sats. = There is >>>>>>> always one of them on post-anchor commitment transactions. And sadl= y I >>>>>>> would say we'll always have tricky fingerprints leaking from unilat= eral LN >>>>>>> closures such as HTLC/PTLC timelocks... >>>>>>> >>>>>>> > "Can a V2 transaction replace a V3 transaction and vice versa?" >>>>>>> >>>>>>> IIUC, a V3 package could replace a V2 package, with the benefit of >>>>>>> the new package RBF rules applied. I think this would be a signific= ant >>>>>>> advantage for LN, as for the current ~85k of opened channels, the o= ld V2 >>>>>>> states shouldn't be pinning vectors. Currently, commitment transact= ions >>>>>>> signal replaceability. >>>>>>> >>>>>>> Le ven. 23 sept. 2022 =C3=A0 11:26, Gloria Zhao via bitcoin-dev < >>>>>>> bitcoin-dev@lists.linuxfoundation.org> a =C3=A9crit : >>>>>>> >>>>>>>> Hi everyone, >>>>>>>> >>>>>>>> I'm writing to propose a very simple set of mempool/transaction >>>>>>>> relay >>>>>>>> policies intended to aid L2/contract protocols. I realized that >>>>>>>> the previously proposed Package Mempool Accept package RBF [1] >>>>>>>> had a few remaining problems after digging into the RBF logic more >>>>>>>> [2]. >>>>>>>> This additional set of policies solves them without requiring a >>>>>>>> huge RBF overhaul. >>>>>>>> >>>>>>>> I've written an implementation (and docs) for Bitcoin Core: >>>>>>>> https://github.com/bitcoin/bitcoin/pull/25038 >>>>>>>> >>>>>>>> (You may notice that this proposal incorporates feedback on the PR >>>>>>>> - thanks Suhas Daftuar, Gregory Sanders, Bastien Teinturier, Antho= ny Towns, >>>>>>>> and others.) >>>>>>>> >>>>>>>> If you are interested in using package RBF/relay to bump presigned >>>>>>>> transactions, I think you may be interested in reviewing this >>>>>>>> proposal. >>>>>>>> This should solve Rule 3 pinning and perhaps allow us >>>>>>>> to get rid of CPFP carve-out (yay!). I'm keen to hear if people fi= nd >>>>>>>> the 1-anchor-output, 1000vB child limit too restrictive. Also, if >>>>>>>> you find a >>>>>>>> pinning attack or something that makes it unusable for you, I woul= d >>>>>>>> really really like to know. >>>>>>>> >>>>>>>> Note that transactions with nVersion=3D3 ("V3 transactions") are >>>>>>>> currently non-standard in Bitcoin Core. That means **anything that >>>>>>>> was >>>>>>>> standard before this policy change would still be standard >>>>>>>> afterwards.** If you don't want your transactions to be subject to >>>>>>>> these rules, just continue whatever you're doing and don't use >>>>>>>> nVersion=3D3. AFAICT this shouldn't break anything, but let me kno= w if >>>>>>>> this would be disruptive for you? >>>>>>>> >>>>>>>> **New Policies:** >>>>>>>> >>>>>>>> This includes: >>>>>>>> - a set of additional policy rules applying to V3 transactions >>>>>>>> - modifications to package RBF rules >>>>>>>> >>>>>>>> **V3 transactions:** >>>>>>>> >>>>>>>> Existing standardness rules apply to V3 (e.g. min/max tx weight, >>>>>>>> standard output types, cleanstack, etc.). The following additional >>>>>>>> rules apply to V3: >>>>>>>> >>>>>>>> 1. A V3 transaction can be replaced, even if it does not signal >>>>>>>> BIP125 >>>>>>>> replaceability. (It must also meet the other RBF rules around >>>>>>>> fees, >>>>>>>> etc. for replacement to happen). >>>>>>>> >>>>>>>> 2. Any descendant of an unconfirmed V3 transaction must also be V3= . >>>>>>>> >>>>>>>> *Rationale*: Combined with Rule 1, this gives us the property of >>>>>>>> "inherited" replaceability signaling when descendants of unconfirm= ed >>>>>>>> transactions are created. Additionally, checking whether a >>>>>>>> transaction >>>>>>>> signals replaceability this way does not require mempool traversal= , >>>>>>>> and does not change based on what transactions are mined. It also >>>>>>>> makes subsequent rules about descendant limits much easier to chec= k. >>>>>>>> >>>>>>>> *Note*: The descendant of a *confirmed* V3 transaction does not >>>>>>>> need to be V3. >>>>>>>> >>>>>>>> 3. An unconfirmed V3 transaction cannot have more than 1 descendan= t. >>>>>>>> >>>>>>>> *Rationale*: (Upper bound) the larger the descendant limit, the mo= re >>>>>>>> transactions may need to be replaced. This is a problematic pinnin= g >>>>>>>> attack, i.e., a malicious counterparty prevents the transaction fr= om >>>>>>>> being replaced by adding many descendant transactions that aren't >>>>>>>> fee-bumping. >>>>>>>> >>>>>>>> (Lower bound) at least 1 descendant is required to allow CPFP of t= he >>>>>>>> presigned transaction. The contract protocol can create presigned >>>>>>>> transactions paying 0 fees and 1 output for attaching a CPFP at >>>>>>>> broadcast time ("anchor output"). Without package RBF, multiple >>>>>>>> anchor >>>>>>>> outputs would be required to allow each counterparty to fee-bump a= ny >>>>>>>> presigned transaction. With package RBF, since the presigned >>>>>>>> transactions can replace each other, 1 anchor output is sufficient= . >>>>>>>> >>>>>>>> 4. A V3 transaction that has an unconfirmed V3 ancestor cannot be >>>>>>>> larger than 1000 virtual bytes. >>>>>>>> >>>>>>>> *Rationale*: (Upper bound) the larger the descendant size limit, t= he >>>>>>>> more vbytes may need to be replaced. With default limits, if the >>>>>>>> child >>>>>>>> is e.g. 100,000vB, that might be an additional 100,000sats (at >>>>>>>> 1sat/vbyte) or more, depending on the feerate. >>>>>>>> >>>>>>>> (Lower bound) the smaller this limit, the fewer UTXOs a child may >>>>>>>> use >>>>>>>> to fund this fee-bump. For example, only allowing the V3 child to >>>>>>>> have >>>>>>>> 2 inputs would require L2 protocols to manage a wallet with >>>>>>>> high-value >>>>>>>> UTXOs and make batched fee-bumping impossible. However, as the >>>>>>>> fee-bumping child only needs to fund fees (as opposed to payments)= , >>>>>>>> just a few UTXOs should suffice. >>>>>>>> >>>>>>>> With a limit of 1000 virtual bytes, depending on the output types, >>>>>>>> the >>>>>>>> child can have 6-15 UTXOs, which should be enough to fund a fee-bu= mp >>>>>>>> without requiring a carefully-managed UTXO pool. With 1000 virtual >>>>>>>> bytes as the descendant limit, the cost to replace a V3 transactio= n >>>>>>>> has much lower variance. >>>>>>>> >>>>>>>> *Rationale*: This makes the rule very easily "tacked on" to existi= ng >>>>>>>> logic for policy and wallets. A transaction may be up to 100KvB on >>>>>>>> its >>>>>>>> own (`MAX_STANDARD_TX_WEIGHT`) and 101KvB with descendants >>>>>>>> (`DEFAULT_DESCENDANT_SIZE_LIMIT_KVB`). If an existing V3 transacti= on >>>>>>>> in the mempool is 100KvB, its descendant can only be 1000vB, even = if >>>>>>>> the policy is 10KvB. >>>>>>>> >>>>>>>> **Package RBF modifications:** >>>>>>>> >>>>>>>> 1. The rule around unconfirmed inputs was >>>>>>>> originally "A package may include new unconfirmed inputs, but the >>>>>>>> ancestor feerate of the child must be at least as high as the >>>>>>>> ancestor >>>>>>>> feerates of every transaction being replaced." >>>>>>>> >>>>>>>> The package may still include new unconfirmed inputs. However, >>>>>>>> the new rule is modified to be "The minimum between package feerat= e >>>>>>>> and ancestor feerate of the child is not lower than the individual >>>>>>>> feerates of all directly conflicting transactions and the ancestor >>>>>>>> feerates of all original transactions." >>>>>>>> >>>>>>>> *Rationale*: We are attempting to ensure that the replacement >>>>>>>> transactions are not less incentive-compatible to mine. However, a >>>>>>>> package/transaction's ancestor feerate is not perfectly >>>>>>>> representative >>>>>>>> of its incentive compatibility; it may overestimate (some subset o= f >>>>>>>> the ancestors could be included by itself if it has other >>>>>>>> high-feerate >>>>>>>> descendants or are themselves higher feerate than this >>>>>>>> package/transaction). Instead, we use the minimum between the >>>>>>>> package >>>>>>>> feerate and ancestor feerate of the child as a more conservative >>>>>>>> value >>>>>>>> than what was proposed originally. >>>>>>>> >>>>>>>> 2. A new rule is added, requiring that all package transactions wi= th >>>>>>>> mempool conflicts to be V3. This also means the "sponsoring" >>>>>>>> child transaction must be V3. >>>>>>>> >>>>>>>> *Note*: Combined with the V3 rules, this means the package must be >>>>>>>> a child-with-parents package. Since package validation is only >>>>>>>> attempted if the transactions do not pay sufficient fees to be >>>>>>>> accepted on their own, this effectively means that only V3 >>>>>>>> transactions can pay to replace their ancestors' conflicts, and on= ly >>>>>>>> V3 transactions' replacements may be paid for by a descendant. >>>>>>>> >>>>>>>> *Rationale*: The fee-related rules are economically rational for >>>>>>>> ancestor packages, but not necessarily other types of packages. >>>>>>>> A child-with-parents package is a type of ancestor package. It >>>>>>>> may be fine to allow any ancestor package, but it's more difficult >>>>>>>> to account for all of the possibilities. For example, it gets much >>>>>>>> harder to see that we're applying the descendant limits correctly = if >>>>>>>> the package has a gnarly, many-generation, non-tree shape. I'm als= o >>>>>>>> not sure if this policy is 100% incentive-compatible if the sponso= r >>>>>>>> is not a direct descendant of the sponsee. >>>>>>>> >>>>>>>> Please see doc/policy/version3_transactions.md and >>>>>>>> doc/policy/packages.md in the PR for the full set of rules. >>>>>>>> >>>>>>>> **Intended usage for LN:** >>>>>>>> >>>>>>>> Commitment transactions should be V3 and have 1 anchor output. The= y >>>>>>>> can be signed with 0 fees (or 1sat/vbyte) once package relay is >>>>>>>> deployed >>>>>>>> on a significant portion of the network. If the commitment tx must >>>>>>>> be broadcast, determine the desired feerate at broadcast time and >>>>>>>> spend the anchor output in a high feerate transaction. I'm going t= o >>>>>>>> call the broadcasted commitment tx "the parent" and the attached >>>>>>>> fee-bumping tx "the child." >>>>>>>> >>>>>>>> - This child must be V3. >>>>>>>> - This child must be at most 1000vB. Note this restricts the >>>>>>>> number of inputs you can use to fund the fee bump. Depending >>>>>>>> on the output types, this is around 6-15. >>>>>>>> - One child may fund fees for multiple commitment tx ("batched >>>>>>>> fee-bumping"). >>>>>>>> - To do a second fee-bump to add more fees, replace the >>>>>>>> *child* with a higher-feerate tx. Do not try to attach a >>>>>>>> grandchild. >>>>>>>> >>>>>>>> Otherwise, never try to spend from an unconfirmed V3 transaction. >>>>>>>> The >>>>>>>> descendant limits for V3 transactions are very restrictive. >>>>>>>> >>>>>>>> **Expected Questions:** >>>>>>>> >>>>>>>> "Does this fix Rule 3 Pinning?" >>>>>>>> Yes. The V3 descendant limit restricts both you and your >>>>>>>> counterparty. >>>>>>>> Assuming nodes adopted this policy, you may reasonably assume that >>>>>>>> you >>>>>>>> only need to replace the commitment transaction + up to 1000vB. >>>>>>>> >>>>>>>> "Only 1 anchor output? What if I need to bump counterparty's >>>>>>>> commitment tx in mempool?" >>>>>>>> You won't need to fee-bump a counterparty's commitment tx using >>>>>>>> CPFP. >>>>>>>> You would just package RBF it by attaching a high-feerate child to >>>>>>>> your commitment tx. >>>>>>>> >>>>>>>> "Is this a privacy issue, i.e. doesn't it allow fingerprinting LN >>>>>>>> transactions based on nVersion?" >>>>>>>> Indeed it may be unrealistic to assume V3 transactions will be in >>>>>>>> widespread use outside of L2. IIUC, unilateral closes are already >>>>>>>> obvious LN transactions because of the HTLC inputs. For e.g. >>>>>>>> cooperative closes and opens, I think it makes sense to continue >>>>>>>> using >>>>>>>> V2. So, unless I'm missing something, this shouldn't make it worse= . >>>>>>>> >>>>>>>> "So a V3 transaction that doesn't signal BIP125 replaceability is >>>>>>>> replaceable? Is that a backward compatibility issue?" >>>>>>>> Yes it's replaceable. It's not an issue AFAICT because, >>>>>>>> under previous policy, the V3 transaction wouldn't have been >>>>>>>> in the mempool in the first place. >>>>>>>> >>>>>>>> "Can a V2 transaction replace a V3 transaction and vice versa?" >>>>>>>> Yes, otherwise someone can use V3 transactions to censor V2 >>>>>>>> transactions spending shared inputs. Note if the >>>>>>>> original V3 transaction has an unconfirmed V3 parent, this would >>>>>>>> violate the "inherited V3" rule and would be rejected. >>>>>>>> >>>>>>>> Thanks for reading! Feedback and review would be much appreciated. >>>>>>>> >>>>>>>> [1]: >>>>>>>> https://lists.linuxfoundation.org/pipermail/bitcoin-dev/2021-Septe= mber/019464.html >>>>>>>> [2]: >>>>>>>> https://lists.linuxfoundation.org/pipermail/bitcoin-dev/2022-Janua= ry/019817.html >>>>>>>> >>>>>>>> Best, >>>>>>>> Gloria >>>>>>>> _______________________________________________ >>>>>>>> bitcoin-dev mailing list >>>>>>>> bitcoin-dev@lists.linuxfoundation.org >>>>>>>> https://lists.linuxfoundation.org/mailman/listinfo/bitcoin-dev >>>>>>>> >>>>>>> _______________________________________________ >>>>>>> bitcoin-dev mailing list >>>>>>> bitcoin-dev@lists.linuxfoundation.org >>>>>>> https://lists.linuxfoundation.org/mailman/listinfo/bitcoin-dev >>>>>>> >>>>>> _______________________________________________ >>>>>> bitcoin-dev mailing list >>>>>> bitcoin-dev@lists.linuxfoundation.org >>>>>> https://lists.linuxfoundation.org/mailman/listinfo/bitcoin-dev >>>>>> >>>>> _______________________________________________ >> bitcoin-dev mailing list >> bitcoin-dev@lists.linuxfoundation.org >> https://lists.linuxfoundation.org/mailman/listinfo/bitcoin-dev >> > --000000000000835b1b05e9e3dbc9 Content-Type: text/html; charset="UTF-8" Content-Transfer-Encoding: quoted-printable
Hey Ruben,

I discussed this further over IRC, and I= now agree that this particular
change would be very desirable and can l= ikely fit in the initial release
(even though I'm not the one writi= ng that code, but I'd be happy to
review it and test it).
=
Greg already has a draft design that addresses your concerns: if there = is
an "ephemeral output" (0-value, OP_TRUE) in an unconfirmed = v3 transaction,
it MUST be spent by any child v3 transaction. This way, = you ensure that
any child transaction spending the unconfirmed parent sp= ends the ephemeral
output(s). @Greg, correct me if I misunderstood somet= hing here. Note that
we will need to precisely define the criteria for t= hose "ephemeral outputs"
(it can probably simply be "outp= uts that are 0 sats").

Coupled with transactions that pay no fe= es (and thus require a child to
CPFP in order to be included in a block)= , this ensures those outputs can
never leak into the utxo set. How does = that sound?

I'm curious why you would need more than one such ou= tput, can you detail?
I believe we only ever need one, spendable by anyo= ne.

Cheers,
Bastien

Le=C2=A0ven. 30 sept. 2022 =C3=A0=C2=A00= 2:14, Ruben Somsen <rsomsen@gmail.c= om> a =C3=A9crit=C2=A0:
Hi Bastien,

>Th= e other change mentioned (making OP_TRUE standard and allowing outputs
t= hat are below dust) can be added later, as those won't be standard unti= l
we start allowing them, so there shouldn't be any backwards-compat= ibility
issue with postponing this change. But maybe it's still wort= h having from
the get-go, even though it may take a bit more time? Again= , I'm curious to
have other people's opinion here

=
I'm sensitive to not wanting to overload the current discussion bu= t this also interests me, provided it can be done in a way that is acceptab= le (i.e. minimizing the potential UTXO set impact). It would solve a big co= st issue in my spacechains design if transactions could be 0 fees and have = a 0 sat output that could be used in order to pay all the fees with CPFP.

My current view is that a tx containing a single 0 = sat OP_TRUE output should only get relayed if it is a package where the OP_= TRUE output is currently being spent in a way that increases the overall fe= e rate. But even then, one theoretical edge case remains:
- A= nother CPFP tx can feebump the package on a different (non-OP_TRUE) output = with an even higher fee rate
- Subsequently, the tx that is spend= ing the OP_TRUE might fall out of the mempool if the mempool fee rate rises=
- This could cause the 0 sat output to enter the UTXO set (speci= fically, rational miners wouldn't refuse to mine such a tx)
<= br>
It doesn't seem like this would happen much in practice (= nor is there an incentive to do it on purpose), but the chance isn't 0.=

Cheers,
Ruben

=

On Thu, Sep 29, 2022 at 4:50 PM Greg Sanders via bitco= in-dev <bitcoin-dev@lists.linuxfoundation.org> wrote:
<= blockquote class=3D"gmail_quote" style=3D"margin:0px 0px 0px 0.8ex;border-l= eft:1px solid rgb(204,204,204);padding-left:1ex">
> Righ= t, good catch, this does require new logic to handle this case.
As Glori= a points out, this should be doable, and is definitely worth
adding (tho= se CSV 1 on every other output are really hacky, glad to
find a way to g= et rid of them).

For the record, it turns out ephemeral = anchors=C2=A0+ v3 solves this already, as the anchor must be spent, and the= parent tx may only have one child. Somehow I missed this implication for a= few months. It's great news if we can directly source fees from any ou= tput claimable, including HTLCs!

=
On Thu, Sep 29, 2022 at 5:15 AM Basti= en TEINTURIER <bas= tien@acinq.fr> wrote:
Hi Gloria, Greg,

> I interpret most= of the discussion around limitations as ideas for
> future improveme= nts rather than criticisms of the proposal

As far as I'm concern= ed, definitely!

My current understanding is that the main change/imp= rovement that would
make sense here is restricting the whole v3 package&= #39;s size (instead of
just the child) via committing to a specific valu= e in the taproot annex
(also note that it's probably not just the v3= package's size, it should
be the whole unconfirmed package includin= g potential v2 unconfirmed
ancestors).

While I think this would b= e very valuable and would like to see this
happen, I believe that can be= done in a second, separate step since this
would make relay policy stri= cter (some v3 transactions that previously
propagated wouldn't propa= gate under this new rule). As long as you are
able to find a path to min= ers through upgraded peers that use this annex
approach, you should be a= ble to resolve ACP pinning issues?

I'm curious to know how other= people feel about that: is it ok to do
later or should we try to implem= ent this for the first release of v3
transactions?

The other chan= ge mentioned (making OP_TRUE standard and allowing outputs
that are belo= w dust) can be added later, as those won't be standard until
we star= t allowing them, so there shouldn't be any backwards-compatibility
i= ssue with postponing this change. But maybe it's still worth having fro= m
the get-go, even though it may take a bit more time? Again, I'm cu= rious to
have other people's opinion here, I'd be happy to get a= ll of those directly
in the first release of v3 transactions, but I don&= #39;t know how much
implementation will have to go into that.

>= ; For clarification, package RBF is ParentTx*s*(plural), and ChildTx(singul= ar),
> so it might be a bit more complicated than we're thinking<= br>
Right, good catch, this does require new logic to handle this case.<= br>As Gloria points out, this should be doable, and is definitely worth
= adding (those CSV 1 on every other output are really hacky, glad to
find= a way to get rid of them).

Thanks,
Bastien

Le=C2=A0lun. 26 sept= . 2022 =C3=A0=C2=A018:48, Gloria Zhao <gloriajzhao@gmail.com> a =C3=A9crit=C2=A0:=
Hi Greg, Antoine, Bastien, =C2=A0
=C2=A0
Thanks very much for the = feedback! I interpret most of the discussion around limitations as ideas fo= r future improvements rather than criticisms of the proposal (please correc= t me if I'm wrong). I'll try to respond to as much as possible.
=
Also I realize that I didn't contextualize this proposal clearly en= ough; it is very tailored for LN Penalty and definitely doesn't close a= ll pinning attacks possible (sorry for confusing anyone). I also agree that= some bits can be a little ugly or tack-on; I would definitely prefer a com= prehensive RBF revamp to fix all our problems and enable other fee-bumping = strategies such as sign-ANYONECANPAY-then-bring-your-own-fees-by-adding-inp= uts-at-broadcast. I was hoping to get some ideas with the "RBF Improve= ments" post in January, but it doesn't seem like we're much cl= oser to a workable proposal. I think this is a minimally-invasive step that= works for Lightning today, a small fix similar to CPFP carve out.

&= gt; As you likely know from previous discussions the biggest scenario this = does not fix in my estimation is ANYONECANPAY situations. If the parent tra= nsaction can be "inflated" by tacking on additional inputs, this = means the total weight of the parent tx lowers the effective feerate of the= package. =C2=A0
=C2=A0
(For more context to other readers I wrote a= n explanation for this in "SIGHASH_ANYONECANPAY Pinning" section = of RBF ML post).=C2=A0 Yes, this unfortunately doesn't fix any of the e= xisting pinning attacks for single transaction RBF but also doesn't mak= e them worse. This boils down to adding an incentive compatibility rule tha= t ensures you can't replace a transaction with something that will conf= irm slower. Package RBF has an ancestor feerate-based rule for this (note i= t is quite conservative and not perfect).

So in the scenario above w= ith the "inflated" parent that was signed ACP, the replacement wo= uld be rejected because the package ancestor feerate is lower than the feer= ate of what is being replaced. But it is imperfect (explained below) and th= us I wouldn't recommend it for single transaction replacement. So that = attack still exists for single transactions, yes. =C2=A0

The strateg= y of using ACP to bring-your-own-fees has its own challenges but hopefully = has no current use cases as you say. AFAIK LN Penalty is not affected by th= is since it doesn't use ACP, though obviously I agree we should fix it = for the future.

So when I said "this is intended for fee-bumpin= g presigned txns in contracting protocols," I should have said "t= his is intended for fee-bumping presigned txns specifically using CPFP and = anchor outputs." Apologies for forgetting to contextualize, I've b= een sitting on this for too long.
=C2=A0
> The other scenario it = doesn't really fix is where HTLC/commitment-like transactions are being= resolved in a batch, but due to relative time constraints, you may want to= accelerate some and not others. Now you must pay higher rates to replace a= ll of the transaction bumps. This is a "self-pin" and "get g= ood at utxos noob" type problem, but it's something that axing rul= e#3 in favor of a Replace-by-ancestor-feerate system would get us. =C2=A0=C2=A0
I understand you to mean "if you don't have enough UT= XOs and you're forced to batch-bump, you over-pay because you need to b= ring them all to the highest target feerate." Isn't this kind of s= eparate, wallet-related problem? Contracting or not, surely every wallet ne= eds to have enough UTXOs to not batch transactions that shouldn't be ba= tched... I don't see how a replace-by-ancestor-feerate policy would mak= e any difference for this?

Also in general I'd like to reiterate= that ancestor feerate is not a panacea to all our RBF incentive compatibil= ity concerns. Like individual feerate, unless we run the mining algorithm, = it cannot tell us exactly how quickly this transaction would be mined.
<= br>We're estimating the incentive compatibility of the original transac= tion(s) and replacement transaction(s), with the goal of not letting a tran= saction replace something that would have been more incentive compatible to= mine. As such, we don't want to overestimate how good the replacement = is, and we don't want to underestimate how good the original transactio= ns are. This rule "The minimum between package feerate and ancestor fe= erate of the child is not lower than the individual feerates of all directl= y conflicting transactions and the ancestor feerates of all original transa= ctions" is a conservative estimate.

> Would kind of be nice = if package RBF would detect a "sibling output spend" conflict, an= d knock it out of the mempool via the other replacement rules? Getting rid = of the requirement to 1 block csv lock every output would be quite nice fro= m a smart contracting composability point of view.

Interesting, so w= hen a transaction hits a mempool tx's descendant limit, we consider evi= cting one of its descendants in favor of this transaction, based on the RBF= rules.
Cool idea! After chewing on this for a bit, I think this *also* = just boils down to the fact that RBF should require replacements to be bett= er mining candidates. As in, if we added this policy and it can make us evi= ct the sibling and accept a transaction with a bunch of low-feerate ancesto= r junk, it would be a new pinning vector.
=C2=A0
> If you're= a miner and you receive a non-V3, second descendant of an unconfirmed V3 t= ransaction, if the offered fee is in the top mempool backlog, I think you w= ould have an interest to accept such a transaction. =C2=A0 =C2=A0 =C2=A0> So I'm not sure if those two rules are compatible with miners inc= entives... =C2=A0
=C2=A0
The same argument can be made for the 26th = descendant of a mempool transaction; it's also not entirely incentive-c= ompatible to reject it, but that is not the *only* design goal in mempool p= olicy. Of course, the difference here is that the 25-descendant limit rule = is a sensible DoS protection, while this 1-descendant limit rule is more of= a "help the Bitcoin ecosystem" policy, just like CPFP carve-out,= dust limit, etc. I can of course understand why not everyone would be in f= avor of this, but I do think it's worth it.
=C2=A0
> > 4. = A V3 transaction that has an unconfirmed V3 ancestor cannot be =C2=A0 =C2= =A0
> > =C2=A0 =C2=A0larger than 1000 virtual bytes. =C2=A0 =C2=A0=
=C2=A0 =C2=A0
> If I understand correctly the 1000 vb upper bound= rational, it would be to constraint the pinning counterparty to attach a h= igh fee to a child due to the limited size, if they would like this transac= tion to be stuck in the network mempools. By doing so=C2=A0 this child has = high odds to confirm. =C2=A0
=C2=A0
Yeah exactly, the "Rul= e 3 pin" is done by adding a child that's high-fee (so you have to= pay that much to evict it). Because they *don't* want this tx to confi= rm, normally, this child would be really large. If they only have 1000vB fo= r the child, they can't increase the replacement cost without also fee-= bumping the transaction to make it confirm faster.=C2=A0

> As = of today, I think yes you can already fingerprint LN transactions on the=C2= =A0 spec-defined amount value of the anchor outputs, 330 sats. There is alw= ays one of them on post-anchor commitment transactions. And sadly I would s= ay we'll always have tricky fingerprints leaking from unilateral LN clo= sures such as HTLC/PTLC timelocks... =C2=A0

> I a= gree with you, this isn't worse than today, unilateral closes will
probably always be identifiable on-chain.

Great to hear that= there is no privacy worsening!

Best, =C2=A0
Gloria

=
On Mon, Se= p 26, 2022 at 5:02 PM Greg Sanders <gsanders87@gmail.com> wrote:
Bastien,
> This may be already covered by the current package RBF log= ic, in that
scenario we are simply replacing [ParentTx, ChildTx1] with=
[ParentTx, ChildTx2] that pays more fees, right?

For= clarification, package RBF is ParentTx*s*(plural), and ChildTx(singular), = so it might be a bit more complicated than we're thinking, and currentl= y the V3 proposal would first de-duplicate=C2=A0the ParentTx based on what = is in the mempool, then look at the "rest" of the transactions as= a package, then individually. Not the same, not sure how different. I'= ll defer to experts.

Best,
Greg

On = Mon, Sep 26, 2022 at 11:48 AM Bastien TEINTURIER via bitcoin-dev <bitcoi= n-dev@lists.linuxfoundation.org> wrote:
Thanks Gloria for this gr= eat post.

This is very valuable work for L2 contracts, and will grea= tly improve
their security model.

> "Only 1 anchor output= ? What if I need to bump counterparty's commitment tx in mempool?"=
> You won't need to fee-bump a counterparty's commitment tx = using CPFP.
> You would just package RBF it by attaching a high-feera= te child to
> your commitment tx.

Note that we can also very e= asily make that single anchor spendable by
both participants (or even an= yone), so if you see your counterparty's
commitment in your mempool,= you can bump it without publishing your
own commitment, which is quite = desirable (your own commitment tx has
CSV delays on your outputs, wherea= s your counterparty's commitment tx
doesn't).

> "= Is this a privacy issue, i.e. doesn't it allow fingerprinting LN
tra= nsactions based on nVersion?"

I agree with you, this isn't = worse than today, unilateral closes will
probably always be identifiable= on-chain.

> Would kind of be nice if package RBF would detect a = "sibling output spend"
> conflict, and knock it out of the = mempool via the other replacement rules?
> Getting rid of the require= ment to 1 block csv lock every output would be
> quite nice from a sm= art contracting composability point of view.

+1, that would be very = neat!

This may be already covered by the current package RBF logic, = in that
scenario we are simply replacing [ParentTx, ChildTx1] with
[P= arentTx, ChildTx2] that pays more fees, right?

> 1) I do think th= at we should seriously consider allowing OP_TRUE to become
> a standa= rd script type as part of this policy update. If pinning is solved,
>= then there's no reason to require all those extra bytes for "bind= ing" an
> anchor to a specific wallet/user. We can save quite a = few bytes by having
> the input be empty of witness data.
> 2) = If we allow for a single dust-value(0 on up) output which is immediately> spent by the package, anchors become even easier to to design. No val= ue has
> to be "sapped" from contract participants to make = an anchor output. There's
> more complications for this, such as = making sure the parent transaction is
> dropped if the child spend is= dropped, but maybe it's worth the squeeze.

I also think both of= these could be quite useful. This would probably always
be used in comb= ination with a parent transaction that pays 0 fees, so the
0-value outpu= t would always be spent in the same block.

But this means we could e= nd up with 0-value outputs in the utxo set, if for
some reason the paren= t tx is CPFP-ed via another output than the 0-value one,
which would be = a utxo set bloat issue. But I'd argue that we're probably
alread= y creating utxo set bloat with the 330 sat anchor outputs (especially
si= nce we use two of them, but only one is usually spent), so it would
prob= ably be *better* than what we're doing today.

Thanks,
Bastien=

= Le=C2=A0lun. 26 sept. 2022 =C3=A0=C2=A003:22, Antoine Riard via bitcoin-dev= <bitcoin-dev@lists.linuxfoundation.org> a =C3=A9crit=C2=A0:
<= /div>
Hi = Gloria,

Thanks for the progress on package RBF, few early questions.=

> 2. Any descendant of an unconfirmed V3 transaction must also b= e V3.

> 3. An unconfirmed V3 transaction cannot have more than 1 = descendant.

If you're a miner and you receive a non-V3, second d= escendant of an unconfirmed V3 transaction, if the offered fee is in the to= p mempool backlog, I think you would have an interest to accept such a tran= saction.

So I'm not sure if those two rules are compatible with = miners incentives...

> 4. A V3 transaction that has an unconfirme= d V3 ancestor cannot be
> =C2=A0 =C2=A0larger than 1000 virtual bytes= .

If I understand correctly the 1000 vb upper bound rational, it wou= ld be to constraint the pinning counterparty to attach a high fee to a chil= d due to the limited size, if they would like this transaction to be stuck = in the network mempools. By doing so=C2=A0 this child has high odds to conf= irm.

I still wonder if this compatible with miner incentives in peri= od of empty mempools, in the sense that if you've already a V3 transact= ion of size 100Kvb offering 2 sat/vb, it's more interesting than a V3 r= eplacement candidate of size 1000 vb offering 10 sat/vb. It could be argued= the former should be conserved.

(That said, the hard thing with any= replacement strategy we might evict a parent transaction *now* to which is= attached a high-feerate child *latter* making for a utxo considered the be= st ancestor set. Maybe in the long-term miners should keep every transactio= n ever accepted...)

> (Lower bound) the smaller this limit, the f= ewer UTXOs a child may use
> to fund this fee-bump. For example, only= allowing the V3 child to have
> 2 inputs would require L2 protocols = to manage a wallet with high-value
> UTXOs and make batched fee-bumpi= ng impossible. However, as the
> fee-bumping child only needs to fund= fees (as opposed to payments),
> just a few UTXOs should suffice.
Reminder for L2 devs, batched fee-bumping of time-sensitive confirmati= ons of commitment transactions is unsafe, as the counterparty could enter i= n a "cat-and-mouse" game to replace one of the batch element at e= ach block to delay confirmation of the remaining elements in the batch, I t= hink.

On the other hand, I wonder if we wouldn't want a higher b= ound. LN wallets are likely to have one big UTXO in their fee-bumping reser= ve pool, as the cost of acquiring UTXO is non-null and in the optimistic ca= se, you don't need to do unilateral closure. Let's say you close do= zens of channels at the same time, a UTXO pool management strategy might be= to fan-out the first spends UTXOs in N fan-out outputs ready to feed the r= emaining in-flight channels.

> 1. The rule around unconfirmed inp= uts was
> originally "A package may include new unconfirmed inpu= ts, but the
> ancestor feerate of the child must be at least as high = as the ancestor
> feerates of every transaction being replaced."=

Note, I think we would like this new RBF rule to also apply to sing= le transaction package, e.g second-stage HTLC transactions, where a counter= party pins a HTLC-preimage by abusing rule 3. In that case, the honest LN n= ode should be able to broadcast a "at least as high ancestor feerate&q= uot; HTLC-timeout transaction. With `option_anchor_outputs" there is n= o unconfirmed ancestor to replace, as the commitment transaction, whatever = the party it is originating from, should already be confirmed.

> = "Is this a privacy issue, i.e. doesn't it allow fingerprinting LN<= br>transactions based on nVersion?"

As of today, I think yes yo= u can already fingerprint LN transactions on the=C2=A0 spec-defined amount = value of the anchor outputs, 330 sats. There is always one of them on post-= anchor commitment transactions. And sadly I would say we'll always have= tricky fingerprints leaking from unilateral LN closures such as HTLC/PTLC = timelocks...

> "Can a V2 transaction replace a V3 transactio= n and vice versa?"

IIUC, a V3 package could replace a V2 packag= e, with the benefit of the new package RBF rules applied. I think this woul= d be a significant advantage for LN, as for the current ~85k of opened chan= nels, the old V2 states shouldn't be pinning vectors. Currently, commit= ment transactions signal replaceability.

Le=C2=A0ven. 23 sept. 2022 =C3= =A0=C2=A011:26, Gloria Zhao via bitcoin-dev <bitcoin-dev@lists.linuxfoun= dation.org> a =C3=A9crit=C2=A0:
Hi everyone,

I'm writing= to propose a very simple set of mempool/transaction relay
policies inte= nded to aid L2/contract protocols. I realized that
the previously propos= ed Package Mempool Accept package RBF [1]
had a few remaining probl= ems after digging into the RBF logic more [2].
This additional se= t of policies solves them without requiring a huge RBF overhaul.
<= br>I've written an implementation (and docs) for Bitcoin Core:
http= s://github.com/bitcoin/bitcoin/pull/25038

(You may notice that t= his proposal incorporates feedback on the PR - thanks Suhas Daftuar, Gregor= y Sanders, Bastien Teinturier, Anthony Towns, and others.)

If you ar= e interested in using package RBF/relay to bump presigned
transactions, = I think you may be interested in reviewing this proposal.
This should so= lve Rule 3 pinning and perhaps allow us
to get rid of CPFP carve-out (ya= y!). I'm keen to hear if people find
the 1-anchor-output, 1000vB chi= ld limit too restrictive. Also, if you find a
pinning attack or somethin= g that makes it unusable for you, I would
really really like to know.
Note that transactions with nVersion=3D3 ("V3 transactions")= are
currently non-standard in Bitcoin Core. That means **anything that = was
standard before this policy change would still be standard
afterw= ards.** If you don't want your transactions to be subject to
these r= ules, just continue whatever you're doing and don't use
nVersion= =3D3. AFAICT this shouldn't break anything, but let me know if
this = would be disruptive for you?

**New Policies:**

This includes:=
- a set of additional policy rules applying to V3 transactions
- mod= ifications to package RBF rules

**V3 transactions:**

Existing= standardness rules apply to V3 (e.g. min/max tx weight,
standard output= types, cleanstack, etc.). The following additional
rules apply to V3:
1. A V3 transaction can be replaced, even if it does not signal BIP12= 5
=C2=A0 =C2=A0replaceability. (It must also meet the other RBF rules ar= ound fees,
etc. for replacement to happen).

2. Any descendant of = an unconfirmed V3 transaction must also be V3.

*Rationale*: Combined= with Rule 1, this gives us the property of
"inherited" replac= eability signaling when descendants of unconfirmed
transactions are crea= ted. Additionally, checking whether a transaction
signals replaceability= this way does not require mempool traversal,
and does not change based = on what transactions are mined. It also
makes subsequent rules about des= cendant limits much easier to check.

*Note*: The descendant of a *co= nfirmed* V3 transaction does not need to be V3.

3. An unconfirmed V3= transaction cannot have more than 1 descendant.

*Rationale*: (Upper= bound) the larger the descendant limit, the more
transactions may need = to be replaced. This is a problematic pinning
attack, i.e., a malicious = counterparty prevents the transaction from
being replaced by adding many= descendant transactions that aren't
fee-bumping.

(Lower boun= d) at least 1 descendant is required to allow CPFP of the
presigned tran= saction. The contract protocol can create presigned
transactions paying = 0 fees and 1 output for attaching a CPFP at
broadcast time ("anchor= output"). Without package RBF, multiple anchor
outputs would be re= quired to allow each counterparty to fee-bump any
presigned transaction.= With package RBF, since the presigned
transactions can replace each oth= er, 1 anchor output is sufficient.

4. A V3 transaction that has an u= nconfirmed V3 ancestor cannot be
=C2=A0 =C2=A0larger than 1000 virtual b= ytes.

*Rationale*: (Upper bound) the larger the descendant size limi= t, the
more vbytes may need to be replaced. With default limits, if the = child
is e.g. 100,000vB, that might be an additional 100,000sats (at
= 1sat/vbyte) or more, depending on the feerate.

(Lower bound) the sma= ller this limit, the fewer UTXOs a child may use
to fund this fee-bump. = For example, only allowing the V3 child to have
2 inputs would require L= 2 protocols to manage a wallet with high-value
UTXOs and make batched fe= e-bumping impossible. However, as the
fee-bumping child only needs to fu= nd fees (as opposed to payments),
just a few UTXOs should suffice.
With a limit of 1000 virtual bytes, depending on the output types, thechild can have 6-15 UTXOs, which should be enough to fund a fee-bump
wi= thout requiring a carefully-managed UTXO pool. With 1000 virtual
bytes a= s the descendant limit, the cost to replace a V3 transaction
has much lo= wer variance.

*Rationale*: This makes the rule very easily "tac= ked on" to existing
logic for policy and wallets. A transaction may= be up to 100KvB on its
own (`MAX_STANDARD_TX_WEIGHT`) and 101KvB with d= escendants
(`DEFAULT_DESCENDANT_SIZE_LIMIT_KVB`). If an existing V3 tran= saction
in the mempool is 100KvB, its descendant can only be 1000vB, eve= n if
the policy is 10KvB.

**Package RBF modifications:**

1= . The rule around unconfirmed inputs was
originally "A package may = include new unconfirmed inputs, but the
ancestor feerate of the child mu= st be at least as high as the ancestor
feerates of every transaction bei= ng replaced."

The package may still include new unconfirmed inp= uts. However,
the new rule is modified to be "The minimum between p= ackage feerate
and ancestor feerate of the child is not lower than the i= ndividual
feerates of all directly conflicting transactions and the ance= stor
feerates of all original transactions."

*Rationale*: We= are attempting to ensure that the replacement
transactions are not less= incentive-compatible to mine. However, a
package/transaction's ance= stor feerate is not perfectly representative
of its incentive compatibil= ity; it may overestimate (some subset of
the ancestors could be included= by itself if it has other high-feerate
descendants or are themselves hi= gher feerate than this
package/transaction). Instead, we use the minimum= between the package
feerate and ancestor feerate of the child as a more= conservative value
than what was proposed originally.

2. A new r= ule is added, requiring that all package transactions with
mempool confl= icts to be V3. This also means the "sponsoring"
child transact= ion must be V3.

*Note*: Combined with the V3 rules, this means the p= ackage must be
a child-with-parents package. Since package validation is= only
attempted if the transactions do not pay sufficient fees to be
= accepted on their own, this effectively means that only V3
transactions = can pay to replace their ancestors' conflicts, and only
V3 transacti= ons' replacements may be paid for by a descendant.

*Rationale*: = The fee-related rules are economically rational for
ancestor packages, b= ut not necessarily other types of packages.
A child-with-parents package= is a type of ancestor package. It
may be fine to allow any ancestor pac= kage, but it's more difficult
to account for all of the possibilitie= s. For example, it gets much
harder to see that we're applying the d= escendant limits correctly if
the package has a gnarly, many-generation,= non-tree shape. I'm also
not sure if this policy is 100% incentive-= compatible if the sponsor
is not a direct descendant of the sponsee.
=
Please see doc/policy/version3_transactions.md and
doc/policy/packag= es.md in the PR for the full set of rules.

**Intended usage for LN:*= *

Commitment transactions should be V3 and have 1 anchor output. The= y
can be signed with 0 fees (or 1sat/vbyte) once package relay is deploy= ed
on a significant portion of the network. If the commitment tx mustbe broadcast, determine the desired feerate at broadcast time and
spend= the anchor output in a high feerate transaction. I'm going to
call = the broadcasted commitment tx "the parent" and the attached
fe= e-bumping tx "the child."

- This child must be V3.
- Th= is child must be at most 1000vB. Note this restricts the
=C2=A0 number o= f inputs you can use to fund the fee bump. Depending
on the output types= , this is around 6-15.
- One child may fund fees for multiple commitment= tx ("batched
=C2=A0 fee-bumping").
- To do a second fee-bu= mp to add more fees, replace the
=C2=A0 *child* with a higher-feerate tx= . Do not try to attach a grandchild.

Otherwise, never try to spend f= rom an unconfirmed V3 transaction. The
descendant limits for V3 transact= ions are very restrictive.

**Expected Questions:**

"Does= this fix Rule 3 Pinning?"
Yes. The V3 descendant limit restricts b= oth you and your counterparty.
Assuming nodes adopted this policy, you m= ay reasonably assume that you
only need to replace the commitment transa= ction + up to 1000vB.

"Only 1 anchor output? What if I need to = bump counterparty's commitment tx in mempool?"
You won'= ;t need to fee-bump a counterparty's commitment tx using CPFP.
You would just package RBF it by attaching a high-feerate child to
y= our commitment tx.

"Is this a privacy issue, i.e. doesn't i= t allow fingerprinting LN
transactions based on nVersion?"
Indee= d it may be unrealistic to assume V3 transactions will be in
widespread = use outside of L2. IIUC, unilateral closes are already
obvious LN transa= ctions because of the HTLC inputs. For e.g.
cooperative closes and opens= , I think it makes sense to continue using
V2. So, unless I'm missin= g something, this shouldn't make it worse.

"So a V3 transac= tion that doesn't signal BIP125 replaceability is
replaceable? Is th= at a backward compatibility issue?"
Yes it's replaceable. It= 9;s not an issue AFAICT because,
under previous policy, the V3 transacti= on wouldn't have been
in the mempool in the first place.

&quo= t;Can a V2 transaction replace a V3 transaction and vice versa?"
Ye= s, otherwise someone can use V3 transactions to censor V2
transactions s= pending shared inputs. Note if the
original V3 transaction has an unconf= irmed V3 parent, this would
violate the "inherited V3" rule an= d would be rejected.

Thanks for reading! Feedback and review would b= e much appreciated.

[1]: https= ://lists.linuxfoundation.org/pipermail/bitcoin-dev/2021-September/019464.ht= ml

Best,
Gloria
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