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Erik Aronesty [ARCHIVE] /
npub1y22…taj0
2023-06-07 18:04:56
in reply to nevent1q…ypf6

Erik Aronesty [ARCHIVE] on Nostr: πŸ“… Original date posted:2017-08-22 πŸ“ Original message:> The initial message I ...

πŸ“… Original date posted:2017-08-22
πŸ“ Original message:> The initial message I replied to stated:

Yes, 3 years is silly. But coin expiration and quantum resistance is
something I've been thinking about for a while, so I tried to steer the
conversation away from stealing old money for no reason ;). Plus I like
the idea of making Bitcoin "2000 year proof".

- I cannot imagine either SHA256 or any of our existing wallet formats
surviving 200 years, if we expect both moores law and quantum computing to
be a thing. I would expect the PoW to be rendered obsolete before the
Bitcoin addresses.

- A PoW change using Keccak and a flexible number of bits can be designed
as a "future hard fork". That is: the existing POW can be automatically
rendered obsolete... but only in the event that difficulty rises to the
level of obsolescence. Then the code for a new algorithm with a flexible
number of bits and a difficulty that can scale for thousands of years can
then automatically kick in.

- A new addresses format and signing protocols that use a flexible number
of bits can be introduced. The maximum number of supported bits can be
configurable, and trivially changed. These can be made immediately
available but completely optional.

- The POW difficulty can be used to inform the expiration of any addresses
that can be compromised within 5 years assuming this power was somehow used
to compromise them. Some mechanism for translating global hashpower to
brute force attack power can be researched, and consesrvative estimates
made. Right now, it's like "heat death of the universe" amount of time to
crack with every machine on the planet. But hey... things change and 2000
years is a long time. This information can be used to inform the
expiration and reclamation of old, compromised public addresses.

- Planning a hard fork 100 to 1000 years out is a fun exercise




On Tue, Aug 22, 2017 at 2:55 PM, Chris Riley <criley at gmail.com> wrote:

> The initial message I replied to stated in part, "Okay so I quite like
> this idea. If we start removing at height 630000 or 840000 (gives us 4-8
> years to develop this solution), it stays nice and neat with the halving
> interval...."
>
> That is less than 3 years or less than 7 years away. Much sooner than it
> is believed QC or Moore's law could impact bitcoin. Changing bitcoin so as
> to require that early coins start getting "scavenged" at that date seems
> unneeded and irresponsible. Besides, your ECDSA is only revealed when you
> spend the coins which does provide some quantum resistance. Hal was just
> an example of people putting their coins away expecting them to be there at
> X years in the future, whether it is for himself or for his kids and wife.
>
> :-)
>
>
>
> On Tue, Aug 22, 2017 at 1:33 PM, Matthew Beton <matthew.beton at gmail.com>
> wrote:
>
>> Very true, if Moore's law is still functional in 200 years, computers
>> will be 2^100 times faster (possibly more if quantum computing becomes
>> commonplace), and so old wallets may be easily cracked.
>>
>> We will need a way to force people to use newer, higher security wallets,
>> and turning coins to mining rewards is better solution than them just being
>> hacked.
>>
>> On Tue, 22 Aug 2017, 7:24 pm Thomas Guyot-Sionnest <dermoth at aei.ca>
>> wrote:
>>
>>> In any case when Hal Finney do not wake up from his 200years
>>> cryo-preservation (because unfortunately for him 200 years earlier they did
>>> not know how to preserve a body well enough to resurrect it) he would find
>>> that advance in computer technology made it trivial for anyone to steal his
>>> coins using the long-obsolete secp256k1 ec curve (which was done long
>>> before, as soon as it became profitable to crack down the huge stash of
>>> coins stale in the early blocks)
>>>
>>> I just don't get that argument that you can't be "your own bank". The
>>> only requirement coming from this would be to move your coins about once
>>> every 10 years or so, which you should be able to do if you have your
>>> private keys (you should!). You say it may be something to consider when
>>> computer breakthroughs makes old outputs vulnerable, but I say it's not
>>> "if" but "when" it happens, and by telling firsthand people that their
>>> coins requires moving every once in a long while you ensure they won't do
>>> stupid things or come back 50 years from now and complain their addresses
>>> have been scavenged.
>>>
>>> --
>>> Thomas
>>>
>>>
>>> On 22/08/17 10:29 AM, Erik Aronesty via bitcoin-dev wrote:
>>>
>>> I agree, it is only a good idea in the event of a quantum computing
>>> threat to the security of Bitcoin.
>>>
>>> On Tue, Aug 22, 2017 at 9:45 AM, Chris Riley via bitcoin-dev <
>>> bitcoin-dev at lists.linuxfoundation.org> wrote:
>>>
>>>> This seems to be drifting off into alt-coin discussion. The idea that
>>>> we can change the rules and steal coins at a later date because they are
>>>> "stale" or someone is "hoarding" is antithetical to one of the points of
>>>> bitcoin in that you can no longer control your own money ("be your own
>>>> bank") because someone can at a later date take your coins for some reason
>>>> that is outside your control and solely based on some rationalization by a
>>>> third party. Once the rule is established that there are valid reasons why
>>>> someone should not have control of their own bitcoins, what other reasons
>>>> will then be determined to be valid?
>>>>
>>>> I can imagine Hal Finney being revived (he was cryo-preserved at Alcor
>>>> if you aren't aware) after 100 or 200 years expecting his coins to be there
>>>> only to find out that his coins were deemed "stale" so were "reclaimed" (in
>>>> the current doublespeak - e.g. stolen or confiscated). Or perhaps he
>>>> locked some for his children and they are found to be "stale" before they
>>>> are available. He said in March 2013, "I think they're safe enough" stored
>>>> in a paper wallet. Perhaps any remaining coins are no longer "safe enough."
>>>>
>>>> Again, this seems (a) more about an alt-coin/bitcoin fork or (b) better
>>>> in bitcoin-discuss at best vs bitcoin-dev. I've seen it discussed many
>>>> times since 2010 and still do not agree with the rational that embracing
>>>> allowing someone to steal someone else's coins for any reason is a useful
>>>> change to bitcoin.
>>>>
>>>>
>>>>
>>>>
>>>> On Tue, Aug 22, 2017 at 4:19 AM, Matthew Beton via bitcoin-dev <
>>>> bitcoin-dev at lists.linuxfoundation.org> wrote:
>>>>
>>>>> Okay so I quite like this idea. If we start removing at height 630000
>>>>> or 840000 (gives us 4-8 years to develop this solution), it stays nice and
>>>>> neat with the halving interval. We can look at this like so:
>>>>>
>>>>> B - the current block number
>>>>> P - how many blocks behind current the coin burning block is. (630000,
>>>>> 840000, or otherwise.)
>>>>>
>>>>> Every time we mine a new block, we go to block (B-P), and check for
>>>>> stale coins. These coins get burnt up and pooled into block B's miner fees.
>>>>> This keeps the mining rewards up in the long term, people are less likely
>>>>> to stop mining due to too low fees. It also encourages people to keep
>>>>> moving their money around the enconomy instead of just hording and leaving
>>>>> it.
>>>>>
>>>>
>>>
>
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