Hi Antoine, > I'm interested if you can propose a formal or mathematical definition of what constitute > an in-topic of off-topic comments on a matters like full RBF, which has been controversial > for like a decade. I will quote _willcl-ark_'s last comment as I do not have enough permissions in bitcoin core repository to moderate comments: "However the comments section here has become difficult to follow due to numerous off-topic comments, a few personal disagreements, and repetition of arguments. In the interest of having a more productive and focused technical and philosophical discussion we are going to close and lock this PR." A new pull request should help reviewers. If you do not agree with it, feel free to discuss it with moderators in bitcoin core IRC channel. > Again, I'm interested if you can propose a formal or mathematical definition of what constitute > a reasonable bitcoin core vulnerability handling policy and that way give more ground on qualifying > if a present situation is falling out of this reasonable guidelines and that can be qualified more > objectively as "politics". Related discussion: https://github.com/bitcoin-core/meta/issues/5 > I think we have a mailing list to favorize textual long format and encourage a more self-reflexive > mode of reasoning in the conduct of bitcoin engineering discussions. I believe comments not bringing > new factual information or pointing to past experiences or concrete piece of information are better > left to twitter / nostr / reddit, whatever other communication channel where the scientific and > ethics of conversation standards are less stringent. Ironically, this is exactly how moderation works in bitcoin core pull requests and some comments were marked off-topic.. I have opened a pull request with the same commits (Peter Todd being the author) to enable Full RBF by default: https://github.com/bitcoin/bitcoin/pull/30493 /dev/fd0 floppy disk guy On Saturday, July 20, 2024 at 12:01:12 AM UTC Antoine Riard wrote: > Hi /dev/fd0 > > > The last comment in the pull request suggests opening a new pull request > to enable full RBF by default, referencing the one closed due to off-topic > comments. > > I'm interested if you can propose a formal or mathematical definition of > what constitute > an in-topic of off-topic comments on a matters like full RBF, which has > been controversial > for like a decade. I can only think such definition could make future > conversations about > the boundaries of what is in / off bitcoin engineering topic more > objective. > > > It seems that you are the one trying to politicize this issue. > > Let's be realistic on the state of bitcoin core security issues handling > in the recent words of > a group of some active contributors: > > "The project has historically done a poor job at publicly disclosing > security-critical bugs, whether > externally reported or found by contributors. This has led to a situation > where a lot of users perceive > Bitcoin Core as never having bugs. This perception is dangerous and, > unfortunately, not accurate." [0]. > > [0] https://groups.google.com/g/bitcoindev/c/Q2ZGit2wF7w > > Again, I'm interested if you can propose a formal or mathematical > definition of what constitute > a reasonable bitcoin core vulnerability handling policy and that way give > more ground on qualifying > if a present situation is falling out of this reasonable guidelines and > that can be qualified more > objectively as "politics". > > I think we have a mailing list to favorize textual long format and > encourage a more self-reflexive > mode of reasoning in the conduct of bitcoin engineering discussions. I > believe comments not bringing > new factual information or pointing to past experiences or concrete piece > of information are better > left to twitter / nostr / reddit, whatever other communication channel > where the scientific and > ethics of conversation standards are less stringent. > > All that said, I'm thinking to agree that the usage of all political > rhethoric is a fallacy better > left for expressions on other communication channels and this is note wise > to bundle it with novel > technical information, as from the outset it does not favor to concentrate > the discussion on the fact > and logical reasoning themselves. Even more, political rhetoric very > easily downgrade in moralistic > contest among protagonists on who has the monopole of the good / truth. > Somehow bitcoin is beyond > good and evil (-- under some long-term and abstract perspective). > > Best, > Antoine > ots hash: 3088507ecfb55ed301bb0defce9fb490daa6bb9594e96d57336d603556a8fdab > Le vendredi 19 juillet 2024 à 19:27:36 UTC+1, /dev /fd0 a écrit : > >> Hi Peter, >> >> > I didn't get a substantive >> > response from Bitcoin Core, other than Core closing the my pull-req >> enabling >> > full-RBF by default that would fix this specific vulnerability. >> >> The last comment in the pull request suggests opening a new pull request >> to enable full RBF by default, referencing the one closed due to off-topic >> comments. >> >> > But read on, this is quite an odd case of Core politics, and the story >> is not >> > as simple as Core refusing to fix a vulnerability. >> >> It seems that you are the one trying to politicize this issue. >> >> /dev/fd0 >> floppy disk guy >> >> On Thursday, July 18, 2024 at 4:04:26 PM UTC Peter Todd wrote: >> >>> # Summary >>> >>> This is a public disclosure of a vulnerability that I previously >>> disclosed to >>> the bitcoin-security mailing list. It's an easy vulnerability to fix. >>> Although >>> as with other "free" relay attacks I've disclosed, I didn't get a >>> substantive >>> response from Bitcoin Core, other than Core closing the my pull-req >>> enabling >>> full-RBF by default that would fix this specific vulnerability. >>> >>> But read on, this is quite an odd case of Core politics, and the story >>> is not >>> as simple as Core refusing to fix a vulnerability. Also, I've including >>> a fun >>> homework problem at the end: figure out how TRUC/V3 transactions itself >>> creates >>> a "free" relay attack. >>> >>> >>> # Background >>> >>> This is just one of a few "free" relay attacks that I have recently >>> disclosed, >>> including, but not limited to: >>> >>> "A Free-Relay Attack Exploiting RBF Rule #6" - Mar 18th 2024 >>> https://groups.google.com/g/bitcoindev/c/EJYoeNTPVhg >>> >>> "A Free-Relay Attack Exploiting Min-Relay-Fee Differences" - Mar 31st >>> 2024 >>> https://groups.google.com/g/bitcoindev/c/3XqfIOYzXqo >>> >>> The term "free relay attack" simply refers to any mechanism where >>> transaction >>> data can be broadcast at unusually low cost; the "free" in "free relay" >>> is a >>> misnomer as all these attacks do in fact have some cost. >>> >>> This particular attack isn't significantly different than the other >>> attacks >>> I've disclosed. With one important exception: unlike those other >>> attacks, >>> fixing this particular attack would be quite easy, by enabling full-rbf >>> by >>> default. So I disclosed it to the bitcoin-security mailing list as a >>> test: does >>> Bitcoin Core actually care about free relay attacks? My hypothesis is >>> that Core >>> does not, as they know full well that "free" relay is an unavoidable >>> problem; >>> I've received absolutely no feedback from any Bitcoin Core members for >>> the >>> other disclosed attacks, beyond achow using my disclosure of the RBF >>> Rule #6 >>> attack as an excuse to remove me from the bitcoin-security mailing list. >>> >>> The fact that Core doesn't actually care about "free" relay attacks is >>> relevant >>> to TRUC/V3 Transactions. As per BIP-431: >>> >>> "The primary problem with [RBFR proposals] is the potential for free >>> relay and DDoS attacks. >>> >>> Removing Rule 3 and 4 in general would allow free relay [27]." >>> >>> https://github.com/bitcoin/bips/blob/812907c2b00b92ee31e2b638622a4fe14a428aee/bip-0431.mediawiki#user-content-Alternatives_replace_by_feerate >>> >>> I believe the authors of that BIP are fully aware of the fact that >>> "free" relay >>> is an unavoidable problem, making their rational for TRUC/V3 bogus, and >>> don't >>> want to admit that they've wasted a large amount of engineering time on >>> a bad >>> proposal. I will be submitting a pull-req to get BIP-431 corrected, as >>> the many >>> "free" relay attacks I've disclosed clearly show that claiming RBFR >>> would >>> "allow" free relay is simply not true. >>> >>> Notably, full-RBF is _itself_ a transaction pinning fix for many >>> use-cases; >>> part of the TRUC/V3 standard is to force full-RBF behavior for V3 >>> transactions. >>> So Core closing my full-RF pull-req is doubling down on TRUC/V3 in a >>> second >>> way, and TRUC/V3 proponents were the ones who tried to get the full-RBF >>> option >>> removed from Core in the first place. If not for this dumb bit of Core >>> politics, I'm sure my year-old pull-req to enable full-RBF by default >>> would >>> have been merged many months ago, as almost all hashpower has adopted >>> full-RBF >>> making objections based on "zeroconf" absurd. >>> >>> >>> # The Attack >>> >>> If you're a competent Bitcoin engineer, familiar with how mempools work, >>> you've >>> probably figured it out already based on the title: obviously, if a high >>> percentage of miners are adopting a policy that Bitcoin Core nodes are >>> not, you >>> can cheaply consume transaction relay bandwidth by simply relaying >>> transations >>> that miners are rejecting. >>> >>> Specifically, do the following: >>> >>> 1. Broadcast a small, low-fee-rate, tx A with BIP-125 opt-in disabled. >>> 2. Broadcast a full-RBF double-spend of A, A2, with a higher fee-rate. >>> 3. Spend the outputs of A in a large, low fee-rate, transaction B with >>> BIP-125 >>> opt-in enabled. ~100% of miners will reject B, as it spends an input not >>> in >>> their mempools. However Bitcoin Core nodes will waste bandwidth >>> propagating >>> B. >>> 4. (Optional) Double-spend B repeatedly. Again, Bitcoin Core nodes will >>> waste >>> bandwidth propagating Bn's that ~100% of miners are ignoring. >>> 5. Double-spend A2 to recover your funds and do it all over again (or if >>> A2 had >>> a high enough fee-rate, just wait for it to be mined). >>> >>> The cost to relay each B transaction depends on the fee-rate of B. Since >>> Bitcoin Core defaults to a fairly large mempool, the minimum relay >>> fee-rate is >>> typically well below the economic fee-rate required for miners to >>> actually mine >>> a transaction; Core accepts transactions that are uneconomical for >>> miners to >>> mine for the forseeable future. >>> >>> For example, at the moment typical mempools require transactions to pay >>> at >>> least 1sat/vB, while there are hundreds of MvB worth of transactions >>> paying >>> 4sat/vB, the minimum economical fee-rate. Thus, transactions paying less >>> than >>> 4sat/VB are extremely unlikely to get mined in the nearish future. >>> >>> Concretely, broadcasting B transactions at 1sat/vB, 2sat/vB, and 3sat/vB >>> would >>> have almost zero cost as the probability of those transactions getting >>> mined is >>> nearly zero. This is true _regardless_ of what % of miners are mining >>> full-RBF! >>> As long as you can get at least one miner to mine the A double-spend, >>> the >>> attack only costs what it cost to get A mined. >>> >>> If B's are broadcast at a higher fee-rate than the minimum economical >>> fee-rate, >>> then the % of full-RBF miners matters. For example, if only 99% of >>> miners mine >>> full-RBF, the chance of a B transaction getting mined per block is about >>> 1%, so >>> the amortized cost of broadcasting B is about 1% of whatever total fee >>> the >>> highest fee-rate variant of B pays. >>> >>> For an attacker who does not need any B to be broadcast, the cost >>> savings to >>> use of relay bandwidth is approximately the ratio of the difference in >>> size >>> between B and and A. With a maximum standard transaction size of 100KvB, >>> or >>> 400KB serialized size, this ratio is on the order of 5000:1, times the >>> total >>> number of B variants broadcast, and the % chance of each B being mined; >>> it's a >>> few orders of magnitude. >>> >>> Of course, as mentioned above, this is just one of *many* "free" relay >>> attacks, >>> so fixing this particular issue doesn't change much. >>> >>> >>> # Attackers Who Benefit From B Getting Mined >>> >>> Some attackers actually need B to get mined. For example, imagine an >>> exchange >>> who needs to do large consolidation transactions. They could use this >>> attack >>> (and some attacks like it) as a way to goad users and miners into mining >>> consolidation transactions for them at low cost. In this variant of the >>> attack, >>> the attacker would pad the size of B with consolidation spends that they >>> needed >>> to do anyway. Someone who tried to stop the attack by getting B mined >>> (eg via >>> mempool.space's transaction accellerator) would simply be paying the >>> attacker's >>> fees for them. >>> >>> Obviously, this strategy is only relevant for B's below the economic >>> fee-rate. >>> However, the weaker version of this strategy is to parallize the attack, >>> and do >>> your consolidation with the _A_ double-spends to reduce the # of bytes >>> used per >>> full-rbf double-spend. >>> >>> >>> # TRUC/V3 Creates a Free Relay Attack >>> >>> I'll leave the details of this as a homework problem. But obviously, the >>> introduction of TRUC/V3 transactions *itself* creates a free relay >>> attack very >>> similar to the above! Just like full-RBF, not all miners will mine V3 >>> transactions. So you can do the exact same type of attack by taking >>> advantage >>> of this difference in mining policy. >>> >>> -- >>> https://petertodd.org 'peter'[:-1]@petertodd.org >>> >> -- You received this message because you are subscribed to the Google Groups "Bitcoin Development Mailing List" group. To unsubscribe from this group and stop receiving emails from it, send an email to bitcoindev+unsubscribe@googlegroups.com. To view this discussion on the web visit https://groups.google.com/d/msgid/bitcoindev/fd1e1dd3-ffda-416b-9bc8-900d0b69c8c1n%40googlegroups.com.