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 9E3B2C002D for ; Fri, 23 Sep 2022 18:48:53 +0000 (UTC) Received: from localhost (localhost [127.0.0.1]) by smtp1.osuosl.org (Postfix) with ESMTP id 6485C81432 for ; Fri, 23 Sep 2022 18:48:53 +0000 (UTC) DKIM-Filter: OpenDKIM Filter v2.11.0 smtp1.osuosl.org 6485C81432 Authentication-Results: smtp1.osuosl.org; dkim=pass (2048-bit key) header.d=gmail.com header.i=@gmail.com header.a=rsa-sha256 header.s=20210112 header.b=H0zzTFn4 X-Virus-Scanned: amavisd-new at osuosl.org X-Spam-Flag: NO X-Spam-Score: -1.848 X-Spam-Level: X-Spam-Status: No, score=-1.848 tagged_above=-999 required=5 tests=[BAYES_00=-1.9, DKIM_SIGNED=0.1, DKIM_VALID=-0.1, DKIM_VALID_AU=-0.1, DKIM_VALID_EF=-0.1, FREEMAIL_ENVFROM_END_DIGIT=0.25, FREEMAIL_FROM=0.001, 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 sflGOvaZD8y6 for ; Fri, 23 Sep 2022 18:48:51 +0000 (UTC) X-Greylist: whitelisted by SQLgrey-1.8.0 DKIM-Filter: OpenDKIM Filter v2.11.0 smtp1.osuosl.org 39C068142B Received: from mail-pj1-x102c.google.com (mail-pj1-x102c.google.com [IPv6:2607:f8b0:4864:20::102c]) by smtp1.osuosl.org (Postfix) with ESMTPS id 39C068142B for ; Fri, 23 Sep 2022 18:48:51 +0000 (UTC) Received: by mail-pj1-x102c.google.com with SMTP id q15-20020a17090a304f00b002002ac83485so1066958pjl.0 for ; Fri, 23 Sep 2022 11:48:51 -0700 (PDT) DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=gmail.com; s=20210112; h=to:subject:message-id:date:from:in-reply-to:references:mime-version :from:to:cc:subject:date; bh=y1XlBdM90N5bnLBnSA/CFe0Us25ZQ2yMK9opwhR5SP4=; b=H0zzTFn4oXjz7v9dpwpkVjwqG0FgQQq4U9tqTfS/rEHgbzmOu46fhxf51RvgMnr52F AGorZMYI0dGmX+EQXkrxJuUIkxilErnCZFKIKXJ+cudAFjLupzIsLiAo2oSRoBSl9Yoy CdtdU76RLbyfbcpa38nmgtKcBqgjPTaaA+/anEJ8ubeOSmJA72sPmh7jiOVpyZPc4CJG hmjqUvXGZfDPuFIxld3uU48p+si7JadA3q69ovwHKTNHb13YyCTZ8LyLlg17oKFJD0rt TIG6JtTQP7qhAiuWHM57j0JSmQmbmufzfCleavq1RNd+lgYGgo6a9pv4uFJwF9Udf1ND PY1g== X-Google-DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=1e100.net; s=20210112; h=to:subject:message-id:date:from:in-reply-to:references:mime-version :x-gm-message-state:from:to:cc:subject:date; bh=y1XlBdM90N5bnLBnSA/CFe0Us25ZQ2yMK9opwhR5SP4=; b=QCp2QWC6WuzPGJQJAV1EXDA6yrSZmnRwf/bB9eAUVKhgRpdi+vfl3tkNbXSx6+lgSf d5GRwHKZoCTg8wwiQcszRTD+OmumMzQueBXX1pqyQCEZAV/v1fr3r9ojNFZJ7S5jx3f7 SHrP76/yhURWxs14q7DkdmD3OKQYm5Jezd9jjorp0psV2TBS1/cs4wyFRM+z4q8n05ly tBOPdhGPbftYb4Oy6JN24YAODBHMKm4gJ6g4tSEQrVeBGmgaWYuUCgxDijw2/nyihVSu Pa24UCGFJztYpFoEQlnCh2kzAYVWCyz7nvSteHlDpWvOpQZz+5vza0TK7Tnz7To6eP8J Xbkw== X-Gm-Message-State: ACrzQf1gm8TlWJNydTYJEXi8yOsTAuJOArltFJ4lzwSoTgGp38Ed9jh/ FZ2IVwSRYvNp/mUHO310h1zxU1L3+etMLLNpYZNeILhaYZw= X-Google-Smtp-Source: AMsMyM7Fxdnm570CjzNM4EmHxLKzW3OZ33LRnSAOt72xOxze2TN/E10hKbqvLgUc/tU8Ja1uyE7sitmj7n8iLbT8N6o= X-Received: by 2002:a17:90b:380e:b0:202:d747:a044 with SMTP id mq14-20020a17090b380e00b00202d747a044mr11213418pjb.170.1663958930300; Fri, 23 Sep 2022 11:48:50 -0700 (PDT) MIME-Version: 1.0 References: In-Reply-To: From: Greg Sanders Date: Fri, 23 Sep 2022 14:48:39 -0400 Message-ID: To: Gloria Zhao , Bitcoin Protocol Discussion Content-Type: multipart/alternative; boundary="000000000000f6237b05e95ca03f" 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, 23 Sep 2022 18:48:53 -0000 --000000000000f6237b05e95ca03f Content-Type: text/plain; charset="UTF-8" Hello Gloria, Great work on synthesizing so much feedback into a proposal like this! Death to carve-out rule. I'd like to elaborate on some caveats and give a few incomplete thoughts. There are basically two types of pinning in my estimation today: 1) rule#3 pinning: Make it uneconomical to replace whatever is in mempool via large in size but low feerate junk that won't get mined anytime soon. Replacing this with feerate-based policy seems apt, but fraught with DoS risks. 2) package limit pinning: disallowing transaction propagation by package limits being hit: size, ancestor count, descendant count. Today it is mitigated by having all outputs be 1 csv timelocked, and having up to 2 anchor outputs(1 without carve-out rule). 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 requirement to 1 block csv lock every output would be quite nice from a smart contracting composability point of view. > "Does this fix Rule 3 Pinning?" 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 of the package. Due to this pinning attack there aren't many(?) deployed schemes that use the signature type. To mitigate this we would likely have to opt into a more complex policy scheme, committing in the annex to "total mempool package weight", which would allow mempool package limits to be picked at signing time. Maybe ANYONECANPAY isn't a very useful paradigm in general, I cannot speak to that, but it came up in eltoo-related designs using BIP118, which adopts ACP-like signing behavior. This can be mitigated via straight forward policy updates as well for BIP118 deployment, but off topic so will leave it there. 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 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. > "Can a V2 transaction replace a V3 transaction and vice versa?" Circling back to my ACP point, this regime still allows pinning anytime you are sharing a transaction with someone else where you don't have control over *all* the inputs. So anytime you are doing a coinjoin-like transaction, someone else's inputs can be self-double-spent, requiring you to satisfy rule#3 when replacing theirs, if they're bip125-signaling. If they're not bip125 signaling, you'll have to somehow detect this and/or double-spend your input back to yourself. Finally, a couple suggestions I've already made elsewhere: 1) I do think that we should seriously consider allowing OP_TRUE to become a standard script type as part of this policy update. If pinning is 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 do think that any L2 uptake of these new rules will take significant time... maybe we should be a bit more ambitious? Cheers, Greg On Fri, Sep 23, 2022 at 11:27 AM Gloria Zhao via bitcoin-dev < bitcoin-dev@lists.linuxfoundation.org> wrote: > 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, Anthony 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 find > 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 would > really really like to know. > > Note that transactions with nVersion=3 ("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=3. 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 > - 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 unconfirmed > 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 check. > > *Note*: The descendant of a *confirmed* 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 bound) at least 1 descendant is required to allow CPFP of the > 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 any > 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, 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 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-bump > without requiring a carefully-managed UTXO pool. With 1000 virtual > bytes as the descendant limit, the cost to replace a V3 transaction > has much lower variance. > > *Rationale*: This makes the rule very easily "tacked 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 descendants > (`DEFAULT_DESCENDANT_SIZE_LIMIT_KVB`). If an existing V3 transaction > 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 feerate > 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 of > 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 with > 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 only > 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 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/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. They > 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 to > 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-September/019464.html > [2]: > https://lists.linuxfoundation.org/pipermail/bitcoin-dev/2022-January/019817.html > > Best, > Gloria > _______________________________________________ > bitcoin-dev mailing list > bitcoin-dev@lists.linuxfoundation.org > https://lists.linuxfoundation.org/mailman/listinfo/bitcoin-dev > --000000000000f6237b05e95ca03f Content-Type: text/html; charset="UTF-8" Content-Transfer-Encoding: quoted-printable
Hello Gloria,

Great work on synthesizin= g so much feedback into a proposal like this!

Deat= h to carve-out=C2=A0rule.

I'd like to elaborat= e on some caveats and give a few incomplete thoughts.

<= div>There are basically two types of pinning in my estimation today:
<= div>
1) rule#3 pinning: Make it uneconomical to replace whate= ver is in mempool via large in size but low feerate junk that won't get= mined anytime soon. Replacing this with feerate-based policy seems apt, bu= t fraught with DoS risks.

2) package limit pinning= : disallowing transaction propagation by package limits being hit: size, an= cestor count, descendant count. Today it is mitigated by having all outputs= be 1 csv timelocked, and having up to 2 anchor outputs(1 without carve-out= rule).

Would kind of be nice if package RBF would= detect a "sibling output spend" conflict, and knock it out of th= e mempool via the other replacement rules? Getting rid of the requirement t= o 1 block csv lock every output would be quite nice from a smart contractin= g composability point of view.

>=C2=A0"Does this fix Rule 3 Pin= ning?"

As you likely know from previous discussions the biggest sc= enario this does not fix in my estimation is ANYONECANPAY situations. If th= e parent transaction can be "inflated" by tacking on additional i= nputs, this means the total weight of the parent tx lowers the effective fe= erate of the package. Due to this pinning attack there aren't many(?) d= eployed schemes that use the signature type.

To mi= tigate this we would likely have to opt into a more complex policy scheme, = committing in the annex to "total mempool package weight", which= would allow mempool package limits to be picked at signing time.

Maybe ANYONECANPAY isn't a very useful paradigm in gene= ral, I cannot speak to that, but it came up in eltoo-related designs using = BIP118, which adopts ACP-like signing behavior. This can be mitigated via s= traight forward policy updates as well for BIP118 deployment, but off topic= so will leave it there.

The other scenario it doe= sn't really fix is where HTLC/commitment-like transactions are being re= solved in a batch, but due to relative time constraints, you may want to ac= celerate some and not others. 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.
<= br>
> "Can a V2 transaction replace a V3 transaction and vice ve= rsa?"

Circling back to my ACP point, this regime still allows pinning any= time you are sharing a transaction with someone else where you don't ha= ve control over *all* the inputs. So anytime you are doing a coinjoin-like = transaction, someone else's inputs can be self-double-spent, requiring = you to satisfy rule#3 when replacing theirs, if they're bip125-signalin= g. If they're not bip125 signaling, you'll have to somehow detect t= his and/or double-spend your input back to yourself.


Finally, a couple= suggestions I've already made elsewhere:

<= /div>
1) I= do think that we should seriously consider allowing OP_TRUE to become a st= andard script type as part of this policy update. If pinning is solved, the= n there's no reason to require all those extra bytes for "binding&= quot; 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 imm= ediately spent by the package, anchors become even easier to to design. No = value has to be "sapped" from contract participants to make an an= chor output. There's more complications for this, such as making sure t= he parent transaction is dropped if the child spend is dropped, but maybe i= t's worth the squeeze. I do think that any L2 uptake of these new rules= will take significant time... maybe we should be a bit more ambitious?

Cheers= ,
Greg

On Fri, Sep 23, 2022 at 11:27 AM Gloria= Zhao via bitcoin-dev <bitcoin-dev@lists.linuxfoundation.org> wrote:
Hi everyone,<= br>
I'm writing to propose a very simple set of mempool/transaction = relay
policies intended to aid L2/contract protocols. I realized thatthe previously proposed Package Mempool Accept package RBF [1]
had= a few remaining problems after digging into the RBF logic more [2].
<= div>This additional set of policies solves them without requiring a huge RB= F 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, Anthony Towns, and oth= ers.)

If you are interested in using package RBF/relay to bump presi= gned
transactions, I think you may be interested in reviewing this propo= sal.
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 find
the 1-anc= hor-output, 1000vB child limit too restrictive. Also, if you find a
pinn= ing attack or something that makes it unusable for you, I would
really r= eally 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 l= et me know 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 transacti= ons:**

Existing standardness rules apply to V3 (e.g. min/max tx weig= ht,
standard output types, cleanstack, etc.). The following additionalrules apply to V3:

1. A V3 transaction can be replaced, even if it= does not signal BIP125
=C2=A0 =C2=A0replaceability. (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 unconfirmedtransactions 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 subs= equent rules about descendant limits much easier to check.

*Note*: T= he descendant of a *confirmed* V3 transaction does not need to be V3.
3. An unconfirmed V3 transaction cannot have more than 1 descendant.
<= br>*Rationale*: (Upper bound) the larger the descendant limit, the more
= transactions may need to be replaced. This is a problematic pinning
atta= ck, i.e., a malicious counterparty prevents the transaction from
being r= eplaced by adding many descendant transactions that aren't
fee-bumpi= ng.

(Lower bound) at least 1 descendant is required to allow CPFP of= the
presigned transaction. The contract protocol can create presignedtransactions paying 0 fees and 1 output for attaching a CPFP at
broadc= ast time ("anchor output"). Without package RBF, multiple anchor<= br>outputs would be required to allow each counterparty to fee-bump any
= presigned transaction. With package RBF, since the presigned
transaction= s can replace each other, 1 anchor output is sufficient.

4. A V3 tra= nsaction that has an unconfirmed V3 ancestor cannot be
=C2=A0 =C2=A0larg= er than 1000 virtual bytes.

*Rationale*: (Upper bound) the larger th= e descendant size limit, the
more vbytes may need to be replaced. With d= efault limits, if the child
is e.g. 100,000vB, that might be an addition= al 100,000sats (at
1sat/vbyte) or more, depending on the feerate.
(Lower bound) the smaller this limit, the fewer UTXOs a child may use
t= o 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
UTX= Os 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 th= e output types, the
child can have 6-15 UTXOs, which should be enough to= fund a fee-bump
without requiring a carefully-managed UTXO pool. With 1= 000 virtual
bytes as the descendant limit, the cost to replace a V3 tran= saction
has much lower variance.

*Rationale*: This makes the rule= very easily "tacked on" to existing
logic for policy and wall= ets. A transaction may be up to 100KvB on its
own (`MAX_STANDARD_TX_WEIG= HT`) and 101KvB with descendants
(`DEFAULT_DESCENDANT_SIZE_LIMIT_KVB`). = If an existing V3 transaction
in the mempool is 100KvB, its descendant c= an only be 1000vB, even if
the policy is 10KvB.

**Package RBF mod= ifications:**

1. The rule around unconfirmed inputs was
originall= y "A package may include new unconfirmed inputs, but the
ancestor f= eerate of the child must be at least as high as the ancestor
feerates of= every transaction being replaced."

The package may still inclu= de new unconfirmed inputs. However,
the new rule is modified to be "= ;The minimum between package feerate
and ancestor feerate of the child i= s not lower than the individual
feerates of all directly conflicting tra= nsactions and the ancestor
feerates of all original transactions."<= br>
*Rationale*: We are attempting to ensure that the replacement
tra= nsactions are not less incentive-compatible to mine. However, a
package/= transaction's ancestor feerate is not perfectly representative
of it= s incentive compatibility; it may overestimate (some subset of
the ances= tors could be included by itself if it has other high-feerate
descendant= s or are themselves higher feerate than this
package/transaction). Inste= ad, we use the minimum between the package
feerate and ancestor feerate = of the child as a more conservative value
than what was proposed origina= lly.

2. A new rule is added, requiring that all package transactions= with
mempool conflicts to be V3. This also means the "sponsoring&q= uot;
child transaction must be V3.

*Note*: Combined with the V3 r= ules, this means the package must be
a child-with-parents package. Since= package validation is only
attempted if the transactions do not pay suf= ficient fees to be
accepted on their own, this effectively means that on= ly V3
transactions can pay to replace their ancestors' conflicts, an= d only
V3 transactions' replacements may be paid for by a descendant= .

*Rationale*: The fee-related rules are economically rational forancestor packages, but not necessarily other types of packages.
A chil= d-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 a= ll of the possibilities. For example, it gets much
harder to see that we= 're applying the descendant limits correctly if
the package has a gn= arly, many-generation, non-tree shape. I'm also
not sure if this pol= icy is 100% incentive-compatible if the sponsor
is not a direct descenda= nt of the sponsee.

Please see doc/policy/version3_transactions.md an= d
doc/policy/packages.md in the PR for the full set of rules.

**I= ntended usage for LN:**

Commitment transactions should be V3 and hav= e 1 anchor output. They
can be signed with 0 fees (or 1sat/vbyte) once p= ackage relay is deployed
on a significant portion of the network. If the= commitment tx must
be broadcast, determine the desired feerate at broad= cast time and
spend the anchor output in a high feerate transaction. I&#= 39;m going to
call the broadcasted commitment tx "the parent" = and the attached
fee-bumping tx "the child."

- This chi= ld must be V3.
- This child must be at most 1000vB. Note this restricts = the
=C2=A0 number of inputs you can use to fund the fee bump. Depending<= br>on the output types, this is around 6-15.
- One child may fund fees f= or multiple commitment tx ("batched
=C2=A0 fee-bumping").
-= To do a second fee-bump to add more fees, replace the
=C2=A0 *child* wi= th 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 Question= s:**

"Does this fix Rule 3 Pinning?"
Yes. The V3 descen= dant limit restricts both you and your counterparty.
Assuming nodes adop= ted this policy, you may reasonably assume that you
only need to replace= the commitment transaction + up to 1000vB.

"Only 1 anchor outp= ut? What if I need to bump counterparty's commitment tx in mempool?&quo= t;
You won't need to fee-bump a counterparty's commitment t= x using CPFP.
You would just package RBF it by attaching a high-f= eerate child to
your commitment tx.

"Is this a privacy iss= ue, i.e. doesn't it allow fingerprinting LN
transactions based on nV= ersion?"
Indeed it may be unrealistic to assume V3 transactions wil= l be in
widespread use outside of L2. IIUC, unilateral closes are alread= y
obvious LN transactions because of the HTLC inputs. For e.g.
cooper= ative 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= 9;s replaceable. It's not an issue AFAICT because,
under previous po= licy, the V3 transaction wouldn't have been
in the mempool in the fi= rst place.

"Can a V2 transaction replace a V3 transaction and v= ice versa?"
Yes, otherwise someone can use V3 transactions to censo= r V2
transactions spending shared inputs. Note if the
original V3 tra= nsaction has an unconfirmed V3 parent, this would
violate the "inhe= rited V3" rule and would be rejected.

Thanks for reading! Feedb= ack and review would be much appreciated.

[1]: https://lists.linuxfoundation.org/pipermail/bitcoin-dev/20= 21-September/019464.html

Best,
Gloria
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= bitcoin-dev@lists.linuxfoundation.org
https://lists.linuxfoundation.org/mail= man/listinfo/bitcoin-dev
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