Return-Path: Received: from smtp1.linuxfoundation.org (smtp1.linux-foundation.org [172.17.192.35]) by mail.linuxfoundation.org (Postfix) with ESMTPS id AC791B37 for ; Wed, 7 Jun 2017 22:53:18 +0000 (UTC) X-Greylist: whitelisted by SQLgrey-1.7.6 Received: from mail-vk0-f53.google.com (mail-vk0-f53.google.com [209.85.213.53]) by smtp1.linuxfoundation.org (Postfix) with ESMTPS id 3FEF71F3 for ; Wed, 7 Jun 2017 22:53:16 +0000 (UTC) Received: by mail-vk0-f53.google.com with SMTP id g66so10869599vki.1 for ; Wed, 07 Jun 2017 15:53:16 -0700 (PDT) DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=gmail.com; s=20161025; h=mime-version:in-reply-to:references:from:date:message-id:subject:to :cc; bh=MQ6AnUtFtehCSbws475IxZWwi2WVajW+G8E0WqoghW8=; b=fcrm3GuFa7soO6CRzf0Hz3PUEtU2w9VuxuQsRflw9DZPymL5DaGyelKLWpKSy9X/AI XlLawMQ0JfD9m6djvWHrKXy+V3A+F5GspCKCa5ukna01BHmCvQydvG5GIDQRJvFbyewM EXvIVpZ25Q5eCIAc5YkOHLILHJcI4r2OA7LOJWzVCJtmspwmWkU53QBI638ZyMXt67pt GRHW93NqYYKQaO9xw3T7ncYFxzkpAWyhHTDoi1iOvf2AU4+4A3T9E9tG+L3kVEsop7y4 WJnv4IEPdWzfSuox3Iv8HPDB4d/9mYwY2HXYFoxBTi4ZeWb8AxrJ7EINNTCv7PQlwEhx GRrQ== X-Google-DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=1e100.net; s=20161025; h=x-gm-message-state:mime-version:in-reply-to:references:from:date :message-id:subject:to:cc; bh=MQ6AnUtFtehCSbws475IxZWwi2WVajW+G8E0WqoghW8=; b=kVGy71Y06YlSfUm95RRhQwEjx/ZMTxDFDF/AFVL1rAZP2KID7ZelXe0nhZye3epnX7 nlipD2YoG3CbchAUmCEko+qXdD5avPcS7l82xI4nqWOaezPIDLF4l7jh/0BsOj8E+rA3 BxvsBaSXErUsvhfiq+mnsPEEML/6aF7pfmwP26rW6UzFJ7hC8OszdCkkA6+HO5RLg4IV ig/BJmEnic0gtqGjLqxH1935Rv4skrtMAxKjGwWfk1tx1EflW6JIXrTEb5Rj+iYwUDwG ySAs8CD28FIhRjZQe9w2TrtDZ/3QJIJvKUGZybE3R+t0avPLMLhVdJwrXdW8GAu58OZw pcLg== X-Gm-Message-State: AODbwcA5CQGwbedg5VzzL2VpvVvFOCYdfG1T3bnNCk54z3iQa+Ze1pZr pfebD1sMZEi0Y3L5fy+wXl85VCKZFw== X-Received: by 10.31.137.145 with SMTP id l139mr17821576vkd.39.1496875995266; Wed, 07 Jun 2017 15:53:15 -0700 (PDT) MIME-Version: 1.0 Received: by 10.31.157.215 with HTTP; Wed, 7 Jun 2017 15:53:14 -0700 (PDT) In-Reply-To: References: From: Jared Lee Richardson Date: Wed, 7 Jun 2017 15:53:14 -0700 Message-ID: To: James Hilliard Content-Type: multipart/alternative; boundary="001a11457cc2f8847c055166995d" X-Spam-Status: No, score=-1.7 required=5.0 tests=BAYES_00,DKIM_SIGNED, DKIM_VALID,DKIM_VALID_AU,FREEMAIL_ENVFROM_END_DIGIT,FREEMAIL_FROM, HTML_MESSAGE,RCVD_IN_DNSWL_NONE autolearn=no version=3.3.1 X-Spam-Checker-Version: SpamAssassin 3.3.1 (2010-03-16) on smtp1.linux-foundation.org X-Mailman-Approved-At: Wed, 07 Jun 2017 22:59:58 +0000 Cc: Bitcoin Dev Subject: Re: [bitcoin-dev] User Activated Soft Fork Split Protection X-BeenThere: bitcoin-dev@lists.linuxfoundation.org X-Mailman-Version: 2.1.12 Precedence: list List-Id: Bitcoin Protocol Discussion List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Wed, 07 Jun 2017 22:53:18 -0000 --001a11457cc2f8847c055166995d Content-Type: text/plain; charset="UTF-8" > There are 2 primary factors involved here, economic support and hashpower either of which is enough to make a permanent chain split unlikely, miners will mine whichever chain is most profitable(see ETH/ETC hashpower profitability equilibrium for an example of how this works in practice) That's not a comparable example. ETC did not face potentially years of slow blocktimes before it normalized, whereas BIP148 is on track to do exactly that. Moreover, ETC represented a fundamental break from the majority consensus that could not be rectified, whereas BIP148 represents only a minority attempt to accelerate something that an overwhelming majority of miners have already agreed to activate under segwit2x. Lastly ETC was required to add replay protection, just like any minority fork proposed by any crypto-currency has been, something that BIP148 both lacks and refuses to add or even acknowledge the necessity of. Without replay protection, ETC could not have become profitable enough to be a viable minority chain. If BIP148's chain is not the majority chain and it does not have replay protection, it will face the same problems, but that required replay protection will turn it into a hardfork. This will be a very bad position for UASF supporters to find themselves in - Either hardfork and hope the price is higher and the majority converts, or die as the minority chain with no reliable methods of economic conversion. I believe, but don't have data to back this, that most of the BIP148 insistence comes not from a legitimate attempt to gain consensus (or else they would either outright oppose segwit2mb for its hardfork, or they would outright support it), but rather from an attempt for BIP148 supporters to save face for BIP148 being a failure. If I'm correct, that's a terrible and highly non-technical reason for segwit2mb to bend over backwards attempting to support BIP148's attempt to save face. > The main issue is just one of activation timelines, BIP91 as is takes too long to activate unless started ahead of the existing segwit2x schedule and it's unlikely that BIP148 will get pushed back any further. Even if I'm not correct on the above, I and others find it hard to accept that this timeline conflict is segwit2x's fault. Segwit2x has both some flexibility and broad support that crosses contentious pro-segwit and pro-blocksize-increase divisions that have existed for two years. BIP148 is attempting to hold segwit2x's timelines and code hostage by claiming inflexibility and claiming broad support, and not only are neither of those assertions are backed by real data, BIP148 (by being so inflexible) is pushing a position that deepens the divides between those groups. For there to be technical reasons for compatibility (so long as there are tradeoffs, which there are), there needs to be hard data showing that BIP148 is a viable minority fork that won't simply die off on its own. Jared On Wed, Jun 7, 2017 at 3:23 PM, James Hilliard wrote: > On Wed, Jun 7, 2017 at 4:50 PM, Jared Lee Richardson > wrote: > > Could this risk mitigation measure be an optional flag? And if so, > > could it+BIP91 signal on a different bit than bit4? > It's fairly trivial for miners to signal for BIP91 on bit4 or a > different bit at the same time as the code is trivial enough to > combine > > > > The reason being, if for some reason the segwit2x activation cannot > > take place in time, it would be preferable for miners to have a more > > standard approach to activation that requires stronger consensus and > > may be more forgiving than BIP148. If the segwit2x activation is on > > time to cooperate with BIP148, it could be signaled through the > > non-bit4 approach and everything could go smoothly. Thoughts on that > > idea? It may add more complexity and more developer time, but may > > also address your concerns among others. > This does give miners another approach to activate segwit ahead of > BIP148, if segwit2x activation is rolled out and activated immediately > then this would not be needed however based on the timeline here > https://segwit2x.github.io/ it would not be possible for BIP91 to > enforce mandatory signalling ahead of BIP148. Maybe that can be > changed though, I've suggested an immediate rollout with a placeholder > client timeout instead of the HF code initially in order to accelerate > that. > > > >> Since this BIP > >> only activates with a clear miner majority it should not increase the > >> risk of an extended chain split. > > > > The concern I'm raising is more about the psychology of giving BIP148 > > a sense of safety that may not be valid. Without several more steps, > > BIP148 is definitely on track to be a risky chainsplit, and without > > segwit2x it will almost certainly be a small minority chain. (Unless > > the segwit2x compromise falls apart before then, and even in that case > > it is likely to be a minority chain) > There are 2 primary factors involved here, economic support and > hashpower either of which is enough to make a permanent chain split > unlikely, miners will mine whichever chain is most profitable(see > ETH/ETC hashpower profitability equilibrium for an example of how this > works in practice) however there may be lag time immediately after the > split if there is an economic majority but not a hashpower majority > initially. This is risk mitigation that only requires miners support > however. The main issue is just one of activation timelines, BIP91 as > is takes too long to activate unless started ahead of the existing > segwit2x schedule and it's unlikely that BIP148 will get pushed back > any further. > > > > Jared > > > > > > On Wed, Jun 7, 2017 at 2:42 PM, James Hilliard > > wrote: > >> I don't really see how this would increase the likelihood of an > >> extended chain split assuming BIP148 is going to have > >> non-insignificant economic backing. This BIP is designed to provide a > >> risk mitigation measure that miners can safely deploy. Since this BIP > >> only activates with a clear miner majority it should not increase the > >> risk of an extended chain split. At this point it is not completely > >> clear how much economic support there is for BIP148 but support > >> certainly seems to be growing and we have nearly 2 months until BIP148 > >> activation. I intentionally used a shorter activation period here so > >> that decisions by miners can be made close to the BIP148 activation > >> date. > >> > >> On Wed, Jun 7, 2017 at 4:29 PM, Jared Lee Richardson < > jaredr26@gmail.com> wrote: > >>> I think this BIP represents a gamble, and the gamble may not be a good > >>> one. The gamble here is that if the segwit2x changes are rolled out > >>> on time, and if the signatories accept the bit4 + bit1 signaling > >>> proposals within BIP91, the launch will go smoother, as intended. But > >>> conversely, if either the segwit2x signatories balk about the Bit1 > >>> signaling OR if the timelines for segwit2mb are missed even by a bit, > >>> it may cause the BIP148 chainsplit to be worse than it would be > >>> without. Given the frequent concerns raised in multiple places about > >>> the aggressiveness of the segwit2x timelines, including the > >>> non-hardfork timelines, this does not seem like a great gamble to be > >>> making. > >>> > >>> The reason I say it may make the chainsplit be worse than it would > >>> otherwise be is that it may provide a false sense of safety for BIP148 > >>> that currently does not currently exist(and should not, as it is a > >>> chainsplit). That sense of safety would only be legitimate if the > >>> segwit2x signatories were on board, and the segwit2x code effectively > >>> enforced BIP148 simultaneously, neither of which are guaranteed. If > >>> users and more miners had a false sense that BIP148 was *not* going to > >>> chainsplit from default / segwit2x, they might not follow the news if > >>> suddenly the segwit2x plan were delayed for a few days. While any > >>> additional support would definitely be cheered on by BIP148 > >>> supporters, the practical reality might be that this proposal would > >>> take BIP148 from the "unlikely to have any viable chain after flag day > >>> without segwit2x" category into the "small but viable minority chain" > >>> category, and even worse, it might strengthen the chainsplit just days > >>> before segwit is activated on BOTH chains, putting the BIP148 > >>> supporters on the wrong pro-segwit, but still-viable chain. > >>> > >>> If Core had taken a strong stance to include BIP148 into the client, > >>> and if BIP148 support were much much broader, I would feel differently > >>> as the gamble would be more likely to discourage a chainsplit (By > >>> forcing the acceleration of segwit2x) rather than encourage it (by > >>> strengthening an extreme minority chainsplit that may wind up on the > >>> wrong side of two segwit-activated chains). As it stands now, this > >>> seems like a very dangerous attempt to compromise with a small but > >>> vocal group that are the ones creating the threat to begin with. > >>> > >>> Jared > >>> > >>> On Tue, Jun 6, 2017 at 5:56 PM, James Hilliard via bitcoin-dev > >>> wrote: > >>>> Due to the proposed calendar(https://segwit2x.github.io/) for the > >>>> SegWit2x agreement being too slow to activate SegWit mandatory > >>>> signalling ahead of BIP148 using BIP91 I would like to propose another > >>>> option that miners can use to prevent a chain split ahead of the Aug > >>>> 1st BIP148 activation date. > >>>> > >>>> The splitprotection soft fork is essentially BIP91 but using BIP8 > >>>> instead of BIP9 with a lower activation threshold and immediate > >>>> mandatory signalling lock-in. This allows for a majority of miners to > >>>> activate mandatory SegWit signalling and prevent a potential chain > >>>> split ahead of BIP148 activation. > >>>> > >>>> This BIP allows for miners to respond to market forces quickly ahead > >>>> of BIP148 activation by signalling for splitprotection. Any miners > >>>> already running BIP148 should be encouraged to use splitprotection. > >>>> > >>>>
> >>>>   BIP: splitprotection
> >>>>   Layer: Consensus (soft fork)
> >>>>   Title: User Activated Soft Fork Split Protection
> >>>>   Author: James Hilliard 
> >>>>   Comments-Summary: No comments yet.
> >>>>   Comments-URI:
> >>>>   Status: Draft
> >>>>   Type: Standards Track
> >>>>   Created: 2017-05-22
> >>>>   License: BSD-3-Clause
> >>>>            CC0-1.0
> >>>> 
> >>>> > >>>> ==Abstract== > >>>> > >>>> This document specifies a coordination mechanism for a simple majority > >>>> of miners to prevent a chain split ahead of BIP148 activation. > >>>> > >>>> ==Definitions== > >>>> > >>>> "existing segwit deployment" refer to the BIP9 "segwit" deployment > >>>> using bit 1, between November 15th 2016 and November 15th 2017 to > >>>> activate BIP141, BIP143 and BIP147. > >>>> > >>>> ==Motivation== > >>>> > >>>> The biggest risk of BIP148 is an extended chain split, this BIP > >>>> provides a way for a simple majority of miners to eliminate that risk. > >>>> > >>>> This BIP provides a way for a simple majority of miners to coordinate > >>>> activation of the existing segwit deployment with less than 95% > >>>> hashpower before BIP148 activation. Due to time constraints unless > >>>> immediately deployed BIP91 will likely not be able to enforce > >>>> mandatory signalling of segwit before the Aug 1st activation of > >>>> BIP148. This BIP provides a method for rapid miner activation of > >>>> SegWit mandatory signalling ahead of the BIP148 activation date. Since > >>>> the primary goal of this BIP is to reduce the chance of an extended > >>>> chain split as much as possible we activate using a simple miner > >>>> majority of 65% over a 504 block interval rather than a higher > >>>> percentage. This BIP also allows miners to signal their intention to > >>>> run BIP148 in order to prevent a chain split. > >>>> > >>>> ==Specification== > >>>> > >>>> While this BIP is active, all blocks must set the nVersion header top > >>>> 3 bits to 001 together with bit field (1<<1) (according to the > >>>> existing segwit deployment). Blocks that do not signal as required > >>>> will be rejected. > >>>> > >>>> ==Deployment== > >>>> > >>>> This BIP will be deployed by "version bits" with a 65%(this can be > >>>> adjusted if desired) activation threshold BIP9 with the name > >>>> "splitprotecion" and using bit 2. > >>>> > >>>> This BIP starts immediately and is a BIP8 style soft fork since > >>>> mandatory signalling will start on midnight August 1st 2017 (epoch > >>>> time 1501545600) regardless of whether or not this BIP has reached its > >>>> own signalling threshold. This BIP will cease to be active when segwit > >>>> is locked-in. > >>>> > >>>> === Reference implementation === > >>>> > >>>>
> >>>> // Check if Segregated Witness is Locked In
> >>>> bool IsWitnessLockedIn(const CBlockIndex* pindexPrev, const
> >>>> Consensus::Params& params)
> >>>> {
> >>>>     LOCK(cs_main);
> >>>>     return (VersionBitsState(pindexPrev, params,
> >>>> Consensus::DEPLOYMENT_SEGWIT, versionbitscache) ==
> >>>> THRESHOLD_LOCKED_IN);
> >>>> }
> >>>>
> >>>> // SPLITPROTECTION mandatory segwit signalling.
> >>>> if ( VersionBitsState(pindex->pprev, chainparams.GetConsensus(),
> >>>> Consensus::DEPLOYMENT_SPLITPROTECTION, versionbitscache) ==
> >>>> THRESHOLD_LOCKED_IN &&
> >>>>      !IsWitnessLockedIn(pindex->pprev, chainparams.GetConsensus()) &&
> >>>> // Segwit is not locked in
> >>>>      !IsWitnessEnabled(pindex->pprev, chainparams.GetConsensus()) )
> //
> >>>> and is not active.
> >>>> {
> >>>>     bool fVersionBits = (pindex->nVersion & VERSIONBITS_TOP_MASK) ==
> >>>> VERSIONBITS_TOP_BITS;
> >>>>     bool fSegbit = (pindex->nVersion &
> >>>> VersionBitsMask(chainparams.GetConsensus(),
> >>>> Consensus::DEPLOYMENT_SEGWIT)) != 0;
> >>>>     if (!(fVersionBits && fSegbit)) {
> >>>>         return state.DoS(0, error("ConnectBlock(): relayed block must
> >>>> signal for segwit, please upgrade"), REJECT_INVALID, "bad-no-segwit");
> >>>>     }
> >>>> }
> >>>>
> >>>> // BIP148 mandatory segwit signalling.
> >>>> int64_t nMedianTimePast = pindex->GetMedianTimePast();
> >>>> if ( (nMedianTimePast >= 1501545600) &&  // Tue 01 Aug 2017 00:00:00
> UTC
> >>>>      (nMedianTimePast <= 1510704000) &&  // Wed 15 Nov 2017 00:00:00
> UTC
> >>>>      (!IsWitnessLockedIn(pindex->pprev, chainparams.GetConsensus())
> &&
> >>>>  // Segwit is not locked in
> >>>>       !IsWitnessEnabled(pindex->pprev, chainparams.GetConsensus())) )
> >>>>  // and is not active.
> >>>> {
> >>>>     bool fVersionBits = (pindex->nVersion & VERSIONBITS_TOP_MASK) ==
> >>>> VERSIONBITS_TOP_BITS;
> >>>>     bool fSegbit = (pindex->nVersion &
> >>>> VersionBitsMask(chainparams.GetConsensus(),
> >>>> Consensus::DEPLOYMENT_SEGWIT)) != 0;
> >>>>     if (!(fVersionBits && fSegbit)) {
> >>>>         return state.DoS(0, error("ConnectBlock(): relayed block must
> >>>> signal for segwit, please upgrade"), REJECT_INVALID, "bad-no-segwit");
> >>>>     }
> >>>> }
> >>>> 
> >>>> > >>>> https://github.com/bitcoin/bitcoin/compare/0.14... > jameshilliard:splitprotection-v0.14.1 > >>>> > >>>> ==Backwards Compatibility== > >>>> > >>>> This deployment is compatible with the existing "segwit" bit 1 > >>>> deployment scheduled between midnight November 15th, 2016 and midnight > >>>> November 15th, 2017. This deployment is also compatible with the > >>>> existing BIP148 deployment. This BIP is compatible with BIP91 only if > >>>> BIP91 activates before it and before BIP148. Miners will need to > >>>> upgrade their nodes to support splitprotection otherwise they may > >>>> build on top of an invalid block. While this bip is active users > >>>> should either upgrade to splitprotection or wait for additional > >>>> confirmations when accepting payments. > >>>> > >>>> ==Rationale== > >>>> > >>>> Historically we have used IsSuperMajority() to activate soft forks > >>>> such as BIP66 which has a mandatory signalling requirement for miners > >>>> once activated, this ensures that miners are aware of new rules being > >>>> enforced. This technique can be leveraged to lower the signalling > >>>> threshold of a soft fork while it is in the process of being deployed > >>>> in a backwards compatible way. We also use a BIP8 style timeout to > >>>> ensure that this BIP is compatible with BIP148 and that BIP148 > >>>> compatible mandatory signalling activates regardless of miner > >>>> signalling levels. > >>>> > >>>> By orphaning non-signalling blocks during the BIP9 bit 1 "segwit" > >>>> deployment, this BIP can cause the existing "segwit" deployment to > >>>> activate without needing to release a new deployment. As we approach > >>>> BIP148 activation it may be desirable for a majority of miners to have > >>>> a method that will ensure that there is no chain split. > >>>> > >>>> ==References== > >>>> > >>>> *[https://lists.linuxfoundation.org/pipermail/ > bitcoin-dev/2017-March/013714.html > >>>> Mailing list discussion] > >>>> *[https://github.com/bitcoin/bitcoin/blob/v0.6.0/src/main. > cpp#L1281-L1283 > >>>> P2SH flag day activation] > >>>> *[[bip-0009.mediawiki|BIP9 Version bits with timeout and delay]] > >>>> *[[bip-0016.mediawiki|BIP16 Pay to Script Hash]] > >>>> *[[bip-0091.mediawiki|BIP91 Reduced threshold Segwit MASF]] > >>>> *[[bip-0141.mediawiki|BIP141 Segregated Witness (Consensus layer)]] > >>>> *[[bip-0143.mediawiki|BIP143 Transaction Signature Verification for > >>>> Version 0 Witness Program]] > >>>> *[[bip-0147.mediawiki|BIP147 Dealing with dummy stack element > malleability]] > >>>> *[[bip-0148.mediawiki|BIP148 Mandatory activation of segwit > deployment]] > >>>> *[[bip-0149.mediawiki|BIP149 Segregated Witness (second deployment)]] > >>>> *[https://bitcoincore.org/en/2016/01/26/segwit-benefits/ Segwit > benefits] > >>>> > >>>> ==Copyright== > >>>> > >>>> This document is dual licensed as BSD 3-clause, and Creative Commons > >>>> CC0 1.0 Universal. > >>>> _______________________________________________ > >>>> bitcoin-dev mailing list > >>>> bitcoin-dev@lists.linuxfoundation.org > >>>> https://lists.linuxfoundation.org/mailman/listinfo/bitcoin-dev > --001a11457cc2f8847c055166995d Content-Type: text/html; charset="UTF-8" Content-Transfer-Encoding: quoted-printable
>=C2=A0There are 2 pri= mary factors involved here, economic support and
hashpower either of which is en= ough to make a permanent chain split
<= span style=3D"font-size:12.8px">unlikely, miners will mine whichever chain = is most profitable(see
ETH/ETC hashpower profitability equilibrium for an exampl= e of how this
works in practice)=C2=A0

That's not a comparable example.=C2=A0 ETC did not face potential= ly years of slow blocktimes before it normalized, whereas BIP148 is on trac= k to do exactly that.=C2=A0 Moreover, ETC represented a fundamental break f= rom the majority consensus that could not be rectified, whereas BIP148 repr= esents only a minority attempt to accelerate something that an overwhelming= majority of miners have already agreed to activate under segwit2x.=C2=A0 L= astly ETC was required to add replay protection, just like any minority fork proposed by any crypto-currency h= as been, something that BIP148 both lacks and refuses to add or even acknow= ledge the necessity of.=C2=A0 Without replay protection, ETC could not have= become profitable enough to be a viable minority chain.=C2=A0 If BIP148= 9;s chain is not the majority chain and it does not have replay protection,= it will face the same problems, but that required replay protection will t= urn it into a hardfork.=C2=A0 This will be a very bad position for UASF sup= porters to find themselves in - Either hardfork and hope the price is highe= r and the majority converts, or die as the minority chain with no reliable = methods of economic conversion.
=
I believe, but don't have data to back this, that most of the BIP14= 8 insistence comes not from a legitimate attempt to gain consensus=C2=A0(or= else they would either outright oppose segwit2mb for its hardfork, or they= would outright support it), but rather from an attempt for BIP148 supporte= rs to save face for BIP148 being a failure.=C2=A0 If I'm correct, that&= #39;s a terrible and highly non-technical reason for segwit2mb to bend over= backwards attempting to support BIP148's attempt to save face.
<= br>
>=C2=A0The main issue is just on= e of activation timelines, BIP91 as
is takes too long to activate unless started= ahead of the existing
segwit2x schedule and it's unlikely that BIP148 will = get pushed back
any further.

Even if I'm not correct on the ab= ove, I and others find it hard to accept that this timeline conflict is seg= wit2x's fault.=C2=A0 Segwit2x has both some flexibility and broad suppo= rt that crosses contentious pro-segwit and pro-blocksize-increase divisions= that have existed for two years.=C2=A0 BIP148 is attempting to hold segwit= 2x's timelines and code hostage by claiming inflexibility and claiming = broad support, and not only are neither of those assertions are backed by r= eal data, BIP148 (by being so inflexible) is pushing a position that deepen= s the divides between those groups.=C2=A0 For there to be technical reasons= for compatibility (so long as there are tradeoffs, which there are), there= needs to be hard data showing that BIP148 is a viable minority fork that w= on't simply die off on its own.

Jared


On Wed, Jun 7, 2017 at 3:23 PM= , James Hilliard <james.hilliard1@gmail.com> wrote:<= br>
On Wed, Jun 7, 2017 at 4= :50 PM, Jared Lee Richardson <jare= dr26@gmail.com> wrote:
> Could this risk mitigation measure be an optional flag?=C2=A0 And if s= o,
> could it+BIP91 signal on a different bit than bit4?
It's fairly trivial for miners to signal for BIP91 on bit4 or a<= br> different bit at the same time as the code is trivial enough to
combine
>
> The reason being, if for some reason the segwit2x activation cannot > take place in time, it would be preferable for miners to have a more > standard approach to activation that requires stronger consensus and > may be more forgiving than BIP148.=C2=A0 If the segwit2x activation is= on
> time to cooperate with BIP148, it could be signaled through the
> non-bit4 approach and everything could go smoothly.=C2=A0 Thoughts on = that
> idea?=C2=A0 It may add more complexity and more developer time, but ma= y
> also address your concerns among others.
This does give miners another approach to activate segwit ahead of BIP148, if segwit2x activation is rolled out and activated immediately
then this would not be needed however based on the timeline here
https://segwit2x.github.io/ it would not be possible for BIP91 to
enforce mandatory signalling ahead of BIP148. Maybe that can be
changed though, I've suggested an immediate rollout with a placeholder<= br> client timeout instead of the HF code initially in order to accelerate
that.
>
>> Since this BIP
>> only activates with a clear miner majority it should not increase = the
>> risk of an extended chain split.
>
> The concern I'm raising is more about the psychology of giving BIP= 148
> a sense of safety that may not be valid.=C2=A0 Without several more st= eps,
> BIP148 is definitely on track to be a risky chainsplit, and without > segwit2x it will almost certainly be a small minority chain. (Unless > the segwit2x compromise falls apart before then, and even in that case=
> it is likely to be a minority chain)
There are 2 primary factors involved here, economic support and
hashpower either of which is enough to make a permanent chain split
unlikely, miners will mine whichever chain is most profitable(see
ETH/ETC hashpower profitability equilibrium for an example of how this
works in practice) however there may be lag time immediately after the
split if there is an economic majority but not a hashpower majority
initially. This is risk mitigation that only requires miners support
however. The main issue is just one of activation timelines, BIP91 as
is takes too long to activate unless started ahead of the existing
segwit2x schedule and it's unlikely that BIP148 will get pushed back any further.
>
> Jared
>
>
> On Wed, Jun 7, 2017 at 2:42 PM, James Hilliard
> <james.hilliard1@gmail= .com> wrote:
>> I don't really see how this would increase the likelihood of a= n
>> extended chain split assuming BIP148 is going to have
>> non-insignificant economic backing. This BIP is designed to provid= e a
>> risk mitigation measure that miners can safely deploy. Since this = BIP
>> only activates with a clear miner majority it should not increase = the
>> risk of an extended chain split. At this point it is not completel= y
>> clear how much economic support there is for BIP148 but support >> certainly seems to be growing and we have nearly 2 months until BI= P148
>> activation. I intentionally used a shorter activation period here = so
>> that decisions by miners can be made close to the BIP148 activatio= n
>> date.
>>
>> On Wed, Jun 7, 2017 at 4:29 PM, Jared Lee Richardson <jaredr26@gmail.com> wrote:
>>> I think this BIP represents a gamble, and the gamble may not b= e a good
>>> one.=C2=A0 The gamble here is that if the segwit2x changes are= rolled out
>>> on time, and if the signatories accept the bit4 + bit1 signali= ng
>>> proposals within BIP91, the launch will go smoother, as intend= ed.=C2=A0 But
>>> conversely, if either the segwit2x signatories balk about the = Bit1
>>> signaling OR if the timelines for segwit2mb are missed even by= a bit,
>>> it may cause the BIP148 chainsplit to be worse than it would b= e
>>> without.=C2=A0 Given the frequent concerns raised in multiple = places about
>>> the aggressiveness of the segwit2x timelines, including the >>> non-hardfork timelines, this does not seem like a great gamble= to be
>>> making.
>>>
>>> The reason I say it may make the chainsplit be worse than it w= ould
>>> otherwise be is that it may provide a false sense of safety fo= r BIP148
>>> that currently does not currently exist(and should not, as it = is a
>>> chainsplit).=C2=A0 That sense of safety would only be legitima= te if the
>>> segwit2x signatories were on board, and the segwit2x code effe= ctively
>>> enforced BIP148 simultaneously, neither of which are guarantee= d.=C2=A0 If
>>> users and more miners had a false sense that BIP148 was *not* = going to
>>> chainsplit from default / segwit2x, they might not follow the = news if
>>> suddenly the segwit2x plan were delayed for a few days.=C2=A0 = While any
>>> additional support would definitely be cheered on by BIP148 >>> supporters, the practical reality might be that this proposal = would
>>> take BIP148 from the "unlikely to have any viable chain a= fter flag day
>>> without segwit2x" category into the "small but viabl= e minority chain"
>>> category, and even worse, it might strengthen the chainsplit j= ust days
>>> before segwit is activated on BOTH chains, putting the BIP148<= br> >>> supporters on the wrong pro-segwit, but still-viable chain. >>>
>>> If Core had taken a strong stance to include BIP148 into the c= lient,
>>> and if BIP148 support were much much broader, I would feel dif= ferently
>>> as the gamble would be more likely to discourage a chainsplit = (By
>>> forcing the acceleration of segwit2x) rather than encourage it= (by
>>> strengthening an extreme minority chainsplit that may wind up = on the
>>> wrong side of two segwit-activated chains).=C2=A0 As it stands= now, this
>>> seems like a very dangerous attempt to compromise with a small= but
>>> vocal group that are the ones creating the threat to begin wit= h.
>>>
>>> Jared
>>>
>>> On Tue, Jun 6, 2017 at 5:56 PM, James Hilliard via bitcoin-dev=
>>> <b= itcoin-dev@lists.linuxfoundation.org> wrote:
>>>> Due to the proposed calendar(https://segwit2x.githu= b.io/) for the
>>>> SegWit2x agreement being too slow to activate SegWit manda= tory
>>>> signalling ahead of BIP148 using BIP91 I would like to pro= pose another
>>>> option that miners can use to prevent a chain split ahead = of the Aug
>>>> 1st BIP148 activation date.
>>>>
>>>> The splitprotection soft fork is essentially BIP91 but usi= ng BIP8
>>>> instead of BIP9 with a lower activation threshold and imme= diate
>>>> mandatory signalling lock-in. This allows for a majority o= f miners to
>>>> activate mandatory SegWit signalling and prevent a potenti= al chain
>>>> split ahead of BIP148 activation.
>>>>
>>>> This BIP allows for miners to respond to market forces qui= ckly ahead
>>>> of BIP148 activation by signalling for splitprotection. An= y miners
>>>> already running BIP148 should be encouraged to use splitpr= otection.
>>>>
>>>> <pre>
>>>>=C2=A0 =C2=A0BIP: splitprotection
>>>>=C2=A0 =C2=A0Layer: Consensus (soft fork)
>>>>=C2=A0 =C2=A0Title: User Activated Soft Fork Split Protecti= on
>>>>=C2=A0 =C2=A0Author: James Hilliard <james.hilliard1@gmail.com>
>>>>=C2=A0 =C2=A0Comments-Summary: No comments yet.
>>>>=C2=A0 =C2=A0Comments-URI:
>>>>=C2=A0 =C2=A0Status: Draft
>>>>=C2=A0 =C2=A0Type: Standards Track
>>>>=C2=A0 =C2=A0Created: 2017-05-22
>>>>=C2=A0 =C2=A0License: BSD-3-Clause
>>>>=C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0 CC0-1.0
>>>> </pre>
>>>>
>>>> =3D=3DAbstract=3D=3D
>>>>
>>>> This document specifies a coordination mechanism for a sim= ple majority
>>>> of miners to prevent a chain split ahead of BIP148 activat= ion.
>>>>
>>>> =3D=3DDefinitions=3D=3D
>>>>
>>>> "existing segwit deployment" refer to the BIP9 &= quot;segwit" deployment
>>>> using bit 1, between November 15th 2016 and November 15th = 2017 to
>>>> activate BIP141, BIP143 and BIP147.
>>>>
>>>> =3D=3DMotivation=3D=3D
>>>>
>>>> The biggest risk of BIP148 is an extended chain split, thi= s BIP
>>>> provides a way for a simple majority of miners to eliminat= e that risk.
>>>>
>>>> This BIP provides a way for a simple majority of miners to= coordinate
>>>> activation of the existing segwit deployment with less tha= n 95%
>>>> hashpower before BIP148 activation. Due to time constraint= s unless
>>>> immediately deployed BIP91 will likely not be able to enfo= rce
>>>> mandatory signalling of segwit before the Aug 1st activati= on of
>>>> BIP148. This BIP provides a method for rapid miner activat= ion of
>>>> SegWit mandatory signalling ahead of the BIP148 activation= date. Since
>>>> the primary goal of this BIP is to reduce the chance of an= extended
>>>> chain split as much as possible we activate using a simple= miner
>>>> majority of 65% over a 504 block interval rather than a hi= gher
>>>> percentage. This BIP also allows miners to signal their in= tention to
>>>> run BIP148 in order to prevent a chain split.
>>>>
>>>> =3D=3DSpecification=3D=3D
>>>>
>>>> While this BIP is active, all blocks must set the nVersion= header top
>>>> 3 bits to 001 together with bit field (1<<1) (accord= ing to the
>>>> existing segwit deployment). Blocks that do not signal as = required
>>>> will be rejected.
>>>>
>>>> =3D=3DDeployment=3D=3D
>>>>
>>>> This BIP will be deployed by "version bits" with= a 65%(this can be
>>>> adjusted if desired) activation threshold BIP9 with the na= me
>>>> "splitprotecion" and using bit 2.
>>>>
>>>> This BIP starts immediately and is a BIP8 style soft fork = since
>>>> mandatory signalling will start on midnight August 1st 201= 7 (epoch
>>>> time 1501545600) regardless of whether or not this BIP has= reached its
>>>> own signalling threshold. This BIP will cease to be active= when segwit
>>>> is locked-in.
>>>>
>>>> =3D=3D=3D Reference implementation =3D=3D=3D
>>>>
>>>> <pre>
>>>> // Check if Segregated Witness is Locked In
>>>> bool IsWitnessLockedIn(const CBlockIndex* pindexPrev, cons= t
>>>> Consensus::Params& params)
>>>> {
>>>>=C2=A0 =C2=A0 =C2=A0LOCK(cs_main);
>>>>=C2=A0 =C2=A0 =C2=A0return (VersionBitsState(pindexPrev, pa= rams,
>>>> Consensus::DEPLOYMENT_SEGWIT, versionbitscache) =3D=3D
>>>> THRESHOLD_LOCKED_IN);
>>>> }
>>>>
>>>> // SPLITPROTECTION mandatory segwit signalling.
>>>> if ( VersionBitsState(pindex->pprev, chainparams.G= etConsensus(),
>>>> Consensus::DEPLOYMENT_SPLITPROTECTION, versionbitscac= he) =3D=3D
>>>> THRESHOLD_LOCKED_IN &&
>>>>=C2=A0 =C2=A0 =C2=A0 !IsWitnessLockedIn(pindex->ppr= ev, chainparams.GetConsensus()) &&
>>>> // Segwit is not locked in
>>>>=C2=A0 =C2=A0 =C2=A0 !IsWitnessEnabled(pindex->ppre= v, chainparams.GetConsensus()) ) //
>>>> and is not active.
>>>> {
>>>>=C2=A0 =C2=A0 =C2=A0bool fVersionBits =3D (pindex->nVers= ion & VERSIONBITS_TOP_MASK) =3D=3D
>>>> VERSIONBITS_TOP_BITS;
>>>>=C2=A0 =C2=A0 =C2=A0bool fSegbit =3D (pindex->nVersion &= amp;
>>>> VersionBitsMask(chainparams.GetConsensus(),
>>>> Consensus::DEPLOYMENT_SEGWIT)) !=3D 0;
>>>>=C2=A0 =C2=A0 =C2=A0if (!(fVersionBits && fSegbit))= {
>>>>=C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0return state.DoS(0, error= ("ConnectBlock(): relayed block must
>>>> signal for segwit, please upgrade"), REJECT_INVALID, = "bad-no-segwit");
>>>>=C2=A0 =C2=A0 =C2=A0}
>>>> }
>>>>
>>>> // BIP148 mandatory segwit signalling.
>>>> int64_t nMedianTimePast =3D pindex->GetMedianTimePast()= ;
>>>> if ( (nMedianTimePast >=3D 1501545600) &&=C2=A0= // Tue 01 Aug 2017 00:00:00 UTC
>>>>=C2=A0 =C2=A0 =C2=A0 (nMedianTimePast <=3D 1510704000) &= amp;&=C2=A0 // Wed 15 Nov 2017 00:00:00 UTC
>>>>=C2=A0 =C2=A0 =C2=A0 (!IsWitnessLockedIn(pindex->pp= rev, chainparams.GetConsensus()) &&
>>>>=C2=A0 // Segwit is not locked in
>>>>=C2=A0 =C2=A0 =C2=A0 =C2=A0!IsWitnessEnabled(pindex->pprev, chainparams.GetConsensus())) )
>>>>=C2=A0 // and is not active.
>>>> {
>>>>=C2=A0 =C2=A0 =C2=A0bool fVersionBits =3D (pindex->nVers= ion & VERSIONBITS_TOP_MASK) =3D=3D
>>>> VERSIONBITS_TOP_BITS;
>>>>=C2=A0 =C2=A0 =C2=A0bool fSegbit =3D (pindex->nVersion &= amp;
>>>> VersionBitsMask(chainparams.GetConsensus(),
>>>> Consensus::DEPLOYMENT_SEGWIT)) !=3D 0;
>>>>=C2=A0 =C2=A0 =C2=A0if (!(fVersionBits && fSegbit))= {
>>>>=C2=A0 =C2=A0 =C2=A0 =C2=A0 =C2=A0return state.DoS(0, error= ("ConnectBlock(): relayed block must
>>>> signal for segwit, please upgrade"), REJECT_INVALID, = "bad-no-segwit");
>>>>=C2=A0 =C2=A0 =C2=A0}
>>>> }
>>>> </pre>
>>>>
>>>> https://github.com/bitcoin/bitcoin/compare/0.14...jameshillia= rd:splitprotection-v0.14.1
>>>>
>>>> =3D=3DBackwards Compatibility=3D=3D
>>>>
>>>> This deployment is compatible with the existing "segw= it" bit 1
>>>> deployment scheduled between midnight November 15th, 2016 = and midnight
>>>> November 15th, 2017. This deployment is also compatible wi= th the
>>>> existing BIP148 deployment. This BIP is compatible with BI= P91 only if
>>>> BIP91 activates before it and before BIP148. Miners will n= eed to
>>>> upgrade their nodes to support splitprotection otherwise t= hey may
>>>> build on top of an invalid block. While this bip is active= users
>>>> should either upgrade to splitprotection or wait for addit= ional
>>>> confirmations when accepting payments.
>>>>
>>>> =3D=3DRationale=3D=3D
>>>>
>>>> Historically we have used IsSuperMajority() to activate so= ft forks
>>>> such as BIP66 which has a mandatory signalling requirement= for miners
>>>> once activated, this ensures that miners are aware of new = rules being
>>>> enforced. This technique can be leveraged to lower the sig= nalling
>>>> threshold of a soft fork while it is in the process of bei= ng deployed
>>>> in a backwards compatible way. We also use a BIP8 style ti= meout to
>>>> ensure that this BIP is compatible with BIP148 and that BI= P148
>>>> compatible mandatory signalling activates regardless of mi= ner
>>>> signalling levels.
>>>>
>>>> By orphaning non-signalling blocks during the BIP9 bit 1 &= quot;segwit"
>>>> deployment, this BIP can cause the existing "segwit&q= uot; deployment to
>>>> activate without needing to release a new deployment. As w= e approach
>>>> BIP148 activation it may be desirable for a majority of mi= ners to have
>>>> a method that will ensure that there is no chain split. >>>>
>>>> =3D=3DReferences=3D=3D
>>>>
>>>> *[htt= ps://lists.linuxfoundation.org/pipermail/bitcoin-dev/2017-March/0= 13714.html
>>>> Mailing list discussion]
>>>> *[https://gi= thub.com/bitcoin/bitcoin/blob/v0.6.0/src/main.cpp#L1281-L1283=
>>>> P2SH flag day activation]
>>>> *[[bip-0009.mediawiki|BIP9 Version bits with timeout and d= elay]]
>>>> *[[bip-0016.mediawiki|BIP16 Pay to Script Hash]]
>>>> *[[bip-0091.mediawiki|BIP91 Reduced threshold Segwit MASF]= ]
>>>> *[[bip-0141.mediawiki|BIP141 Segregated Witness (Consensus= layer)]]
>>>> *[[bip-0143.mediawiki|BIP143 Transaction Signature Verific= ation for
>>>> Version 0 Witness Program]]
>>>> *[[bip-0147.mediawiki|BIP147 Dealing with dummy stack elem= ent malleability]]
>>>> *[[bip-0148.mediawiki|BIP148 Mandatory activation of segwi= t deployment]]
>>>> *[[bip-0149.mediawiki|BIP149 Segregated Witness (second de= ployment)]]
>>>> *[https://bitcoincore.org/en/= 2016/01/26/segwit-benefits/ Segwit benefits]
>>>>
>>>> =3D=3DCopyright=3D=3D
>>>>
>>>> This document is dual licensed as BSD 3-clause, and Creati= ve Commons
>>>> CC0 1.0 Universal.
>>>> _______________________________________________
>>>> bitcoin-dev mailing list
>>>> b= itcoin-dev@lists.linuxfoundation.org
>>>> https://lists.linuxfo= undation.org/mailman/listinfo/bitcoin-dev

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