[bitcoin-dev] Managing block size the same way we do difficulty (aka Block75)
james.hilliard1 at gmail.com
Sun Dec 11 20:31:05 UTC 2016
What's most likely to happen is miners will max out the blocks they
mine simply to try and get as many transaction fees as possible like
they are doing right now(there will be a backlog of transactions at
any block size). Having the block size double every year would likely
cause major problems and this proposal allows over a 7x increase it
The main problem with this proposal I think is that users effectively
have no way to stop the miners from increasing block size
On Sun, Dec 11, 2016 at 1:55 PM, t. khan via bitcoin-dev
<bitcoin-dev at lists.linuxfoundation.org> wrote:
> On Sun, Dec 11, 2016 at 12:11 PM, s7r <s7r at sky-ip.org> wrote:
>> This is an incentive, if few miners agree to create a large conglomerate
>> that will ultimately control the network.
>> You miss something obvious that makes this attack actually free of cost.
>> Nothing will "cost them more in transaction fees". A miner can create
>> thousands of transactions paying to himself, and not broadcast them to
>> the network, but hold them and include them in the blocks he mines. The
>> fees are collected by him because transactions are included in a block
>> that he mined and the left amount is in another wallet of the same
>> person. Repeat this continuously to fill blocks.
> No, that wasn't overlooked. Miners could indeed stuff their own blocks for
> free, but they can't stuff blocks mined by others for free.
> In the hypothetical scenario where there is a single mining pool which mines
> most (if not all) of the blocks, we would have much larger problems than
> their ability to raise the max block size gradually. Even if they were able
> to fill 100% of the blocks for an entire year, the max block size for that
> 2016 block period would be 7.25MB (not accounting for SegWit). After the
> whole year they would have made no extra profit vs doing nothing. And as
> soon as they stopped this scheme, block size would spring back to it's
> natural level.
> The good news is, this scenario has never happened and even when we've come
> remotely close (when ASICs first shipped), the situation was temporary. The
> odds of this happening in the future and persisting long enough to have any
> major effect with Block75 are very close to zero.
>> Topology and bandwidth speed / hash rate of the network cannot be
>> controlled - if we make assumptions about these it might have terrible
>> Even if we take in consideration that bandwidth will only grow and disk
>> space will only cost less (which is not something we can safely assume,
>> by the way) the hard limit max. block size cannot grow to unlimited
>> value (even if the growth happens over time). There is also a validation
>> cost in time for each block, for the health of the network any node
>> should be able to download _and_ validate a block, before next block
>> gets mined.
>> You said in another post that a permanent solution is preferred, rather
>> than kicking the can down the road. I fully agree, as well as many
>> others reading this list, but the permanent solution doesn't necessarily
>> have to be increasing the max block size dynamically.
> Increasing *and* decreasing max block size dynamically. Block75 is
> self-correcting, whereas any solution with hardcoded limits can't correct
> without human intervention and would rely on our ability to predict the
> future (which as you pointed out, we can't do). Therefore, any solution
> that's not dynamic cannot be permanent.
> Additionally, the frequent and gradual changes in max block size would allow
> us to see any consequences well in advance (years probably).
>> If you think about it the other way around, dynamically growing the max
>> block size is also kicking the can down the road ... just without having
>> to touch it and get dust on the boot ;)
> Not having to touch it again = permanent solution. ;)
> It would be helpful if some others would run the numbers on how Block75
> would adjust the block size over time:
> new max block size = 1000kb + (average block size over last 2016 blocks -
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