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From: John Hardy <john@seebitcoin.com>
To: Bram Cohen <bram@bittorrent.com>, Bitcoin Protocol Discussion
<bitcoin-dev@lists.linuxfoundation.org>
Thread-Topic: [bitcoin-dev] Malice Reactive Proof of Work Additions (MR POWA):
Protecting Bitcoin from malicious miners
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Subject: Re: [bitcoin-dev] Malice Reactive Proof of Work Additions (MR
POWA): Protecting Bitcoin from malicious miners
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> It's possible to switch PoW algorithms with a soft fork rather than a har=
d fork.
You put forward an interesting idea if it could work, but in the adversaria=
l emergency where an entity is contentiously using a POW monopoly, a hard f=
ork would likely be a far easier and more efficient response.
That said unless I'm missing something I can't see how it would work withou=
t still requiring a hard fork since you still need an SHA256 block of suffi=
cient difficulty for the existing network to accept. If the holders of SHA2=
56 hardware didn't want to make their equipment obsolete (likely) they simp=
ly would refuse to mine these alternate PoW blocks. I guess a UASF would be=
an option to force this, but without co-operation (Turkeys voting for Chri=
stmas is the British idiom) you'd still end up requiring a hard fork proof =
of difficulty change, which kind of defeats the purpose?
> Using many PoWs is a bad idea, that generally gets the worst of everythin=
g rather than the best.
Upon what do you base this assertion?
________________________________
From: Bram Cohen <bram@bittorrent.com>
Sent: Monday, March 20, 2017 5:49:59 PM
To: John Hardy; Bitcoin Protocol Discussion
Subject: Re: [bitcoin-dev] Malice Reactive Proof of Work Additions (MR POWA=
): Protecting Bitcoin from malicious miners
It's possible to switch PoW algorithms with a soft fork rather than a hard =
fork. You make it so that there are two different PoWs, the old one and the=
new one, and each old-style block has to reference a new-style block and c=
ontain the exact same transactions. The new work rule is that the weighted =
geometric mean of the quality of the new-style block and the old-style bloc=
k has to exceed the work threshold, with the weighting starting almost enti=
rely on the old-style block and shifting gradually over to the new-style bl=
ock until in the end the amount of work to generate the old-style block is =
completely trivial and doesn't matter any more.
The most interesting part of the whole thing is keeping it so that the new =
work limit is consistently the limiting factor on mining difficulty rather =
than the old one interfering. Getting that to work right is an interesting =
problem which I'm not sure how to do off the top of my head but I believe i=
s manageable.
Using many PoWs is a bad idea, that generally gets the worst of everything =
rather than the best. There are two ways to go with a PoW, either make it a=
s advantaged on custom hardware as possible, which means sha3, or make it a=
s difficult to ASIC as possible, which at this point means cuckoo since the=
re's already hardware for equihash.
On Sat, Mar 18, 2017 at 9:01 AM, John Hardy via bitcoin-dev <bitcoin-dev@li=
sts.linuxfoundation.org<mailto:bitcoin-dev@lists.linuxfoundation.org>> wrot=
e:
I=92m very worried about the state of miner centralisation in Bitcoin.
I always felt the centralising effects of ASIC manufacturing would resolve =
themselves once the first mover advantage had been exhausted and the indust=
ry had the opportunity to mature.
I had always assumed initial centralisation would be harmless since miners =
have no incentive to harm the network. This does not consider the risk of a=
single entity with sufficient power and either poor, malicious or coerced =
decision making. I now believe that such centralisation poses a huge risk t=
o the security of Bitcoin and preemptive action needs to be taken to protec=
t the network from malicious actions by any party able to exert influence o=
ver a substantial portion of SHA256 hardware.
Inspired by UASF, I believe we should implement a Malicious miner Reactive =
Proof of Work Additions (MR POWA).
This would be a hard fork activated in response to a malicious attempt by a=
hashpower majority to introduce a contentious hard fork.
The activation would occur once a fork was detected violating protocol (lik=
ely oversize blocks) with a majority of hashpower. The threshold and durati=
on for activation would need to be carefully considered.
I don=92t think we should eliminate SHA256 as a hashing method and change P=
OW entirely. That would be throwing the baby out with the bathwater and hur=
t the non-malicious miners who have invested in hardware, making it harder =
to gain their support.
Instead I believe we should introduce multiple new proofs of work that are =
already established and proven within existing altcoin implementations. As =
an example we could add Scrypt, Ethash and Equihash. Much of the code and m=
ining infrastructure already exists. Diversification of hardware (a mix of =
CPU and memory intensive methods) would also be positive for decentralisati=
on. Initial difficulty could simply be an estimated portion of existing inf=
rastructure.
This example would mean 4 proofs of work with 40 minute block target diffic=
ulty for each. There could also be a rule that two different proofs of work=
must find a block before a method can start hashing again. This means ther=
e would only be 50% of hardware hashing at a time, and a sudden gain or dro=
p in hashpower from a particular method does not dramatically impact the fu=
nctioning of the network between difficulty adjustments. This also adds pro=
tection from attacks by the malicious SHA256 hashpower which could even be =
required to wait until all other methods have found a block before being al=
lowed to hash again.
50% hashing time would mean that the cost of electricity in relation to har=
dware would fall by 50%, reducing some of the centralising impact of subsid=
ised or inexpensive electricity in some regions over others.
Such a hard fork could also, counter-intuitively, introduce a block size in=
crease since while we=92re hard forking it makes sense to minimise the numb=
er of future hard forks where possible. It could also activate SegWit if it=
hasn=92t already.
The beauty of this method is that it creates a huge risk to any malicious a=
ctor trying to abuse their position. Ideally, MR POWA would just serve as a=
deterrent and never activate.
If consensus were to form around a hard fork in the future nodes would be a=
ble to upgrade and MR POWA, while automatically activating on non-upgraded =
nodes, would be of no economic significance: a vestigial chain immediately =
abandoned with no miner incentive.
I think this would be a great way to help prevent malicious use of hashpowe=
r to harm the network. This is the beauty of Bitcoin: for any road block th=
at emerges the economic majority can always find a way around.
_______________________________________________
bitcoin-dev mailing list
bitcoin-dev@lists.linuxfoundation.org<mailto:bitcoin-dev@lists.linuxfoundat=
ion.org>
https://lists.linuxfoundation.org/mailman/listinfo/bitcoin-dev
--_000_BL2PR03MB435E077052146EA1706A5A9EE3A0BL2PR03MB435namprd_
Content-Type: text/html; charset="Windows-1252"
Content-Transfer-Encoding: quoted-printable
<html>
<head>
<meta http-equiv=3D"Content-Type" content=3D"text/html; charset=3DWindows-1=
252">
</head>
<body>
<style type=3D"text/css" style=3D"display:none;"><!-- P {margin-top:0;margi=
n-bottom:0;} --></style>
<div id=3D"divtagdefaultwrapper" style=3D"font-size:12pt;color:#000000;font=
-family:Calibri,Arial,Helvetica,sans-serif;" dir=3D"ltr">
<p>> <span style=3D"color: rgb(33, 33, 33); font-size: 15px;">It's =
possible to switch PoW algorithms with a soft fork rather than a hard fork.=
</span></p>
<p><span style=3D"color: rgb(33, 33, 33); font-size: 15px;"><br>
</span></p>
<p><font color=3D"#212121"><span style=3D"font-size: 15px;">You put forward=
an interesting idea if it could work, but in the adversarial emergency whe=
re an entity is contentiously using a POW monopoly, a hard fork would likel=
y be a far easier and more efficient
response.</span></font></p>
<p><font color=3D"#212121"><span style=3D"font-size: 15px;"><br>
</span></font></p>
<p><font color=3D"#212121"><span style=3D"font-size: 15px;">That said unles=
s I'm missing something I can't see how it would work without still requiri=
ng a hard fork since you still need an SHA256 block of sufficient diff=
iculty for the existing network to accept.
If the holders of SHA256 hardware didn't want to make their equipment obso=
lete (likely) they simply would refuse to mine these alternate PoW blocks. =
I guess a UASF would be an option to force this, but without co-operation&n=
bsp;(Turkeys voting for Christmas is
the British idiom) you'd still end up requiring a hard fork proof of diffi=
culty change, which kind of defeats the purpose?</span></font></p>
<p><font color=3D"#212121"><span style=3D"font-size: 15px;"><br>
</span></font></p>
<p><font color=3D"#212121"><span style=3D"font-size: 15px;">> <span=
style=3D"color: rgb(33, 33, 33); font-size: 15px;">Using many PoWs is a ba=
d idea, that generally gets the worst of everything rather than the best.</=
span></span></font></p>
<p><font color=3D"#212121"><span style=3D"font-size: 15px;"><br>
</span></font></p>
<p><font color=3D"#212121"><span style=3D"font-size: 15px;">Upon what do yo=
u base this assertion?</span></font></p>
<p><font color=3D"#212121"><span style=3D"font-size: 15px;"><br>
</span></font></p>
</div>
<hr style=3D"display:inline-block;width:98%" tabindex=3D"-1">
<div id=3D"divRplyFwdMsg" dir=3D"ltr"><font face=3D"Calibri, sans-serif" st=
yle=3D"font-size:11pt" color=3D"#000000"><b>From:</b> Bram Cohen <bram@b=
ittorrent.com><br>
<b>Sent:</b> Monday, March 20, 2017 5:49:59 PM<br>
<b>To:</b> John Hardy; Bitcoin Protocol Discussion<br>
<b>Subject:</b> Re: [bitcoin-dev] Malice Reactive Proof of Work Additions (=
MR POWA): Protecting Bitcoin from malicious miners</font>
<div> </div>
</div>
<div>
<div dir=3D"ltr">It's possible to switch PoW algorithms with a soft fork ra=
ther than a hard fork. You make it so that there are two different PoWs, th=
e old one and the new one, and each old-style block has to reference a new-=
style block and contain the exact
same transactions. The new work rule is that the weighted geometric mean o=
f the quality of the new-style block and the old-style block has to exceed =
the work threshold, with the weighting starting almost entirely on the old-=
style block and shifting gradually
over to the new-style block until in the end the amount of work to generat=
e the old-style block is completely trivial and doesn't matter any more.&nb=
sp;
<div><br>
</div>
<div>The most interesting part of the whole thing is keeping it so that the=
new work limit is consistently the limiting factor on mining difficulty ra=
ther than the old one interfering. Getting that to work right is an interes=
ting problem which I'm not sure
how to do off the top of my head but I believe is manageable.</div>
<div><br>
</div>
<div>Using many PoWs is a bad idea, that generally gets the worst of everyt=
hing rather than the best. There are two ways to go with a PoW, either make=
it as advantaged on custom hardware as possible, which means sha3, or make=
it as difficult to ASIC as possible,
which at this point means cuckoo since there's already hardware for equiha=
sh.</div>
</div>
<div class=3D"gmail_extra"><br>
<div class=3D"gmail_quote">On Sat, Mar 18, 2017 at 9:01 AM, John Hardy via =
bitcoin-dev
<span dir=3D"ltr"><<a href=3D"mailto:bitcoin-dev@lists.linuxfoundation.o=
rg" target=3D"_blank">bitcoin-dev@lists.linuxfoundation.org</a>></span> =
wrote:<br>
<blockquote class=3D"gmail_quote" style=3D"margin:0 0 0 .8ex;border-left:1p=
x #ccc solid;padding-left:1ex">
<div dir=3D"ltr">
<div id=3D"m_7235471870693523876divtagdefaultwrapper" style=3D"font-size:12=
pt;color:#000000;font-family:Calibri,Arial,Helvetica,sans-serif" dir=3D"ltr=
">
<p></p>
<div>I=92m very worried about the state of miner centralisation in Bitcoin.=
</div>
<div><br>
</div>
<div>I always felt the centralising effects of ASIC manufacturing would res=
olve themselves once the first mover advantage had been exhausted and the i=
ndustry had the opportunity to mature.</div>
<div><br>
</div>
<div>I had always assumed initial centralisation would be harmless since mi=
ners have no incentive to harm the network. This does not consider the risk=
of a single entity with sufficient power and either poor, malicious or coe=
rced decision making. I now believe
that such centralisation poses a huge risk to the security of Bitcoin and =
preemptive action needs to be taken to protect the network from malicious a=
ctions by any party able to exert influence over a substantial portion of S=
HA256 hardware.</div>
<div><br>
</div>
<div>Inspired by UASF, I believe we should implement a Malicious miner Reac=
tive Proof of Work Additions (MR POWA).</div>
<div><br>
</div>
<div>This would be a hard fork activated in response to a malicious attempt=
by a hashpower majority to introduce a contentious hard fork.</div>
<div><br>
</div>
<div>The activation would occur once a fork was detected violating protocol=
(likely oversize blocks) with a majority of hashpower. The threshold and d=
uration for activation would need to be carefully considered.</div>
<div><br>
</div>
<div>I don=92t think we should eliminate SHA256 as a hashing method and cha=
nge POW entirely. That would be throwing the baby out with the bathwater an=
d hurt the non-malicious miners who have invested in hardware, making it ha=
rder to gain their support.</div>
<div><br>
</div>
<div>Instead I believe we should introduce multiple new proofs of work that=
are already established and proven within existing altcoin implementations=
. As an example we could add Scrypt, Ethash and Equihash. Much of the code =
and mining infrastructure already
exists. Diversification of hardware (a mix of CPU and memory intensive met=
hods) would also be positive for decentralisation. Initial difficulty could=
simply be an estimated portion of existing infrastructure.</div>
<div><br>
</div>
<div>This example would mean 4 proofs of work with 40 minute block target d=
ifficulty for each. There could also be a rule that two different proofs of=
work must find a block before a method can start hashing again. This means=
there would only be 50% of hardware
hashing at a time, and a sudden gain or drop in hashpower from a particula=
r method does not dramatically impact the functioning of the network betwee=
n difficulty adjustments. This also adds protection from attacks by the mal=
icious SHA256 hashpower which could
even be required to wait until all other methods have found a block before=
being allowed to hash again.</div>
<div><br>
</div>
<div>50% hashing time would mean that the cost of electricity in relation t=
o hardware would fall by 50%, reducing some of the centralising impact of s=
ubsidised or inexpensive electricity in some regions over others.</div>
<div><br>
</div>
<div>Such a hard fork could also, counter-intuitively, introduce a block si=
ze increase since while we=92re hard forking it makes sense to minimise the=
number of future hard forks where possible. It could also activate SegWit =
if it hasn=92t already.</div>
<div><br>
</div>
<div>The beauty of this method is that it creates a huge risk to any malici=
ous actor trying to abuse their position. Ideally, MR POWA would just serve=
as a deterrent and never activate.</div>
<div><br>
</div>
<div>If consensus were to form around a hard fork in the future nodes would=
be able to upgrade and MR POWA, while automatically activating on non-upgr=
aded nodes, would be of no economic significance: a vestigial chain immedia=
tely abandoned with no miner incentive.</div>
<div><br>
</div>
<div>I think this would be a great way to help prevent malicious use of has=
hpower to harm the network. This is the beauty of Bitcoin: for any road blo=
ck that emerges the economic majority can always find a way around.</div>
<p></p>
</div>
</div>
<br>
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rel=3D"noreferrer" target=3D"_blank">https://lists.linuxfoundation.<wbr>org=
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<br>
</blockquote>
</div>
<br>
</div>
</div>
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