* Re: [bitcoin-dev] Weak block thoughts...
2015-09-23 15:43 [bitcoin-dev] Weak block thoughts Gavin Andresen
@ 2015-09-23 16:07 ` Bryan Bishop
2015-09-23 19:24 ` Gregory Maxwell
2015-09-23 16:07 ` Btc Drak
` (3 subsequent siblings)
4 siblings, 1 reply; 18+ messages in thread
From: Bryan Bishop @ 2015-09-23 16:07 UTC (permalink / raw)
To: Gavin Andresen, Bryan Bishop; +Cc: Bitcoin Dev
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On Wed, Sep 23, 2015 at 10:43 AM, Gavin Andresen via bitcoin-dev <
bitcoin-dev@lists.linuxfoundation.org> wrote:
> First: the idea of 'weak blocks' (hat tip to Rusty for the term)
Here are some other "weak blocks" and "near blocks" proposals or mentions:
https://bitcointalk.org/index.php?topic=179598.0
http://lists.linuxfoundation.org/pipermail/bitcoin-dev/2013-July/002976.html
http://lists.linuxfoundation.org/pipermail/bitcoin-dev/2013-September/003275.html
https://bitcointalk.org/index.php?topic=673415.msg7658481#msg7658481
http://gnusha.org/bitcoin-wizards/2015-08-20.log
more recently:
http://gnusha.org/bitcoin-wizards/2015-09-20.log
http://diyhpl.us/wiki/transcripts/scalingbitcoin/roundgroup-roundup-1/
http://diyhpl.us/wiki/transcripts/scalingbitcoin/bitcoin-block-propagation-iblt-rusty-russell/
- Bryan
http://heybryan.org/
1 512 203 0507
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^ permalink raw reply [flat|nested] 18+ messages in thread
* Re: [bitcoin-dev] Weak block thoughts...
2015-09-23 16:07 ` Bryan Bishop
@ 2015-09-23 19:24 ` Gregory Maxwell
2015-09-23 21:37 ` Gavin Andresen
0 siblings, 1 reply; 18+ messages in thread
From: Gregory Maxwell @ 2015-09-23 19:24 UTC (permalink / raw)
To: Bryan Bishop; +Cc: Bitcoin Dev
On Wed, Sep 23, 2015 at 4:07 PM, Bryan Bishop via bitcoin-dev
<bitcoin-dev@lists.linuxfoundation.org> wrote:
> more recently:
> http://gnusha.org/bitcoin-wizards/2015-09-20.log
> http://diyhpl.us/wiki/transcripts/scalingbitcoin/roundgroup-roundup-1/
> http://diyhpl.us/wiki/transcripts/scalingbitcoin/bitcoin-block-propagation-iblt-rusty-russell/
See also my response to Peter R's paper that was republished to the
list at http://pastebin.com/jFgkk8M3
(See sections at "For example, imagine if miners only include
transactions that were previously committed" and especially "Miners
volutarily participate in a fast consensus mechenism which commits to
transactions")
On Wed, Sep 23, 2015 at 3:43 PM, Gavin Andresen via bitcoin-dev
<bitcoin-dev@lists.linuxfoundation.org> wrote:
> Imagine miners always pre-announce the blocks they're working on to their
> peers, and peers validate those 'weak blocks' as quickly as they are able.
>
> Because weak blocks are pre-validated, when a full-difficulty block based on
> a previously announced weak block is found, block propagation should be
> insanely fast--
[...]
> A miner could try to avoid validation work by just taking a weak block
> announced by somebody else, replacing the coinbase and re-computing the
> merkle root, and then mining. They will be at a slight disadvantage to fully
Take care, here-- if a scheme is used where e.g. the full solution had
to be exactly identical to a prior weak block then the result would be
making mining not progress free because bigger miners would have
disproportionately more access to the weak/strong one/two punch. I
think what you're thinking here is okay, but it wasn't clear to me if
you'd caught that particular potential issue.
Avoiding this is why I've always previously described this idea as
merged mined block DAG (with blocks of arbitrary strength) which are
always efficiently deferentially coded against prior state. A new
solution (regardless of who creates it) can still be efficiently
transmitted even if it differs in arbitrary ways (though the
efficiency is less the more different it is).
There is a cost to these schemes-- additional overhead from
communicating the efficiently encoded weak blocks. But participation
in this overhead is optional and doesn't impact the history.
I'm unsure of what approach to take for incentive compatibility
analysis. In the worst case this approach class has no better delays
(and higher bandwidth); but it doesn't seem to me to give rise to any
immediate incrementally strategic behavior (or at least none worse
than you'd get from just privately using the same scheme).
On Wed, Sep 23, 2015 at 4:28 PM, Peter R via bitcoin-dev
<bitcoin-dev@lists.linuxfoundation.org> wrote:
> Shouldn't mining pools and miners be paying you guys for coding solutions
> that improve their profitability?
The income to miners as a whole doesn't depend on these sorts of
optimizations, competitive advantages do... so better common open
infrastructure helps mostly in the case of putting propagation
disadvantaged miners on an equal playing field. You'll note that none
of them are exactly sharing their SPV mining source code right now....
in any case, there are simple, expedient, and low risk ways to improve
their equality in that respect: centralize (e.g. use bigger pools).
^ permalink raw reply [flat|nested] 18+ messages in thread
* Re: [bitcoin-dev] Weak block thoughts...
2015-09-23 19:24 ` Gregory Maxwell
@ 2015-09-23 21:37 ` Gavin Andresen
2015-09-23 22:16 ` Jonathan Toomim (Toomim Bros)
` (2 more replies)
0 siblings, 3 replies; 18+ messages in thread
From: Gavin Andresen @ 2015-09-23 21:37 UTC (permalink / raw)
To: Gregory Maxwell; +Cc: Bitcoin Dev
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On Wed, Sep 23, 2015 at 3:24 PM, Gregory Maxwell <gmaxwell@gmail.com> wrote:
> On Wed, Sep 23, 2015 at 3:43 PM, Gavin Andresen via bitcoin-dev
> <bitcoin-dev@lists.linuxfoundation.org> wrote:
> [...]
> > A miner could try to avoid validation work by just taking a weak block
> > announced by somebody else, replacing the coinbase and re-computing the
> > merkle root, and then mining. They will be at a slight disadvantage to
> fully
>
> Take care, here-- if a scheme is used where e.g. the full solution had
> to be exactly identical to a prior weak block then the result would be
> making mining not progress free because bigger miners would have
> disproportionately more access to the weak/strong one/two punch. I
> think what you're thinking here is okay, but it wasn't clear to me if
> you'd caught that particular potential issue.
>
I'm assuming the optimized protocol would be forward-error-coded (e.g.
using IBLTs) and NOT require the full solution (or follow-on weak blocks)
to be exactly the same.
> Avoiding this is why I've always previously described this idea as
> merged mined block DAG (with blocks of arbitrary strength) which are
> always efficiently deferentially coded against prior state. A new
> solution (regardless of who creates it) can still be efficiently
> transmitted even if it differs in arbitrary ways (though the
> efficiency is less the more different it is).
>
Yup, although I don't get the 'merge mined' bit; the weak blocks are
ephemeral, probably purged out of memory as soon as a few full blocks are
found...
> I'm unsure of what approach to take for incentive compatibility
> analysis. In the worst case this approach class has no better delays
> (and higher bandwidth); but it doesn't seem to me to give rise to any
> immediate incrementally strategic behavior (or at least none worse
> than you'd get from just privately using the same scheme).
>
I don't see any incentive problems, either. Worst case is more miners
decide to skip validation and just mine a variation of the
highest-fee-paying weak block they've seen, but that's not a disaster--
invalid blocks will still get rejected by all the non-miners running full
nodes.
If we did see that behavior, I bet it would be a good strategy for a big
hashrate miner to dedicate some of their hashrate to announcing invalid
weak blocks; if you can get your lazy competitors to mine it, then you
win....
--
--
Gavin Andresen
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* Re: [bitcoin-dev] Weak block thoughts...
2015-09-23 21:37 ` Gavin Andresen
@ 2015-09-23 22:16 ` Jonathan Toomim (Toomim Bros)
2015-09-24 1:11 ` Rusty Russell
2015-09-27 1:39 ` Gregory Maxwell
2 siblings, 0 replies; 18+ messages in thread
From: Jonathan Toomim (Toomim Bros) @ 2015-09-23 22:16 UTC (permalink / raw)
To: Bitcoin Dev
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On Sep 23, 2015, at 2:37 PM, Gavin Andresen via bitcoin-dev <bitcoin-dev@lists.linuxfoundation.org> wrote:
> Take care, here-- if a scheme is used where e.g. the full solution had
> to be exactly identical to a prior weak block then the result would be
> making mining not progress free because bigger miners would have
> disproportionately more access to the weak/strong one/two punch. I
> think what you're thinking here is okay, but it wasn't clear to me if
> you'd caught that particular potential issue.
>
> I'm assuming the optimized protocol would be forward-error-coded (e.g. using IBLTs) and NOT require the full solution (or follow-on weak blocks) to be exactly the same.
>
One possible improvement on this is to cache Merkle nodes/subtrees. When a weak block is created, nodes could cache the hashes for the Merkle nodes along with each node's children. A miner could then describe their block in terms of Merkle nodes (describing groups of 2^n transactions), which would give them the ability to copy e.g. 87.5% or 96.875% or whatever of their new block from someone else's weak block but with a few modifications (e.g. new transactions) in the remaining non-prespecified portion. This gives small miners the ability to trade off versatility (do I specify all of the transactions with my own Merkle structure?) versus propagation speed (do I copy all of my Merkle tree from another miner's weak block?) with all steps in between.
I've got a proposal for a block propagation protocol inspired by bittorrent applied to the Merkle tree instead of chunks of a file. Weak blocks would fit in with this blocktorrent protocol quite nicely by caching and pre-transmitting Merkle nodes. I don't want to hijack this thread, so I'll post it under a separate subject in an hour or so.
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* Re: [bitcoin-dev] Weak block thoughts...
2015-09-23 21:37 ` Gavin Andresen
2015-09-23 22:16 ` Jonathan Toomim (Toomim Bros)
@ 2015-09-24 1:11 ` Rusty Russell
2015-09-27 1:39 ` Gregory Maxwell
2 siblings, 0 replies; 18+ messages in thread
From: Rusty Russell @ 2015-09-24 1:11 UTC (permalink / raw)
To: Gavin Andresen, Gregory Maxwell; +Cc: Bitcoin Dev
Gavin Andresen via bitcoin-dev <bitcoin-dev@lists.linuxfoundation.org>
writes:
> I don't see any incentive problems, either. Worst case is more miners
> decide to skip validation and just mine a variation of the
> highest-fee-paying weak block they've seen, but that's not a disaster--
> invalid blocks will still get rejected by all the non-miners running full
> nodes.
That won't help SPV nodes, unfortunately.
> If we did see that behavior, I bet it would be a good strategy for a big
> hashrate miner to dedicate some of their hashrate to announcing invalid
> weak blocks; if you can get your lazy competitors to mine it, then you
> win....
We already see non-validating mining, but they do empty blocks. This
just makes it more attractive in the future, since you can collect fees
too.
But I think it's clear we'll eventually need some UTXO commitment so
full nodes can tell SPV nodes about bad blocks.
Cheers,
Rusty.
^ permalink raw reply [flat|nested] 18+ messages in thread
* Re: [bitcoin-dev] Weak block thoughts...
2015-09-23 21:37 ` Gavin Andresen
2015-09-23 22:16 ` Jonathan Toomim (Toomim Bros)
2015-09-24 1:11 ` Rusty Russell
@ 2015-09-27 1:39 ` Gregory Maxwell
2015-09-27 9:42 ` Tier Nolan
2 siblings, 1 reply; 18+ messages in thread
From: Gregory Maxwell @ 2015-09-27 1:39 UTC (permalink / raw)
To: Gavin Andresen; +Cc: Bitcoin Dev
On Wed, Sep 23, 2015 at 9:37 PM, Gavin Andresen <gavinandresen@gmail.com> wrote:
>> Avoiding this is why I've always previously described this idea as
>> merged mined block DAG (with blocks of arbitrary strength) which are
>> always efficiently deferentially coded against prior state. A new
>> solution (regardless of who creates it) can still be efficiently
>> transmitted even if it differs in arbitrary ways (though the
>> efficiency is less the more different it is).
>
> Yup, although I don't get the 'merge mined' bit; the weak blocks are
> ephemeral, probably purged out of memory as soon as a few full blocks are
> found...
Unless the weak block transaction list can be a superset of the block
transaction list size proportional propagation costs are not totally
eliminated.
As even if the weak block criteria is MUCH lower than the block
criteria (which would become problematic in its own right at some
point) the network will sometimes find blocks when there hasn't been
any weak block priming at all (e.g. all prior priming has made it into
blocks already).
So if the weak block commitment must be exactly the block commitment
you end up having to add a small number of transactions to your block
above and beyond the latest well propagated weak-blocks... Could still
work, but then creates a pressure to crank up the weak block overhead
which could better be avoided.
^ permalink raw reply [flat|nested] 18+ messages in thread
* Re: [bitcoin-dev] Weak block thoughts...
2015-09-27 1:39 ` Gregory Maxwell
@ 2015-09-27 9:42 ` Tier Nolan
2015-09-27 15:10 ` Kalle Rosenbaum
0 siblings, 1 reply; 18+ messages in thread
From: Tier Nolan @ 2015-09-27 9:42 UTC (permalink / raw)
Cc: Bitcoin Dev
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On Sun, Sep 27, 2015 at 2:39 AM, Gregory Maxwell via bitcoin-dev <
bitcoin-dev@lists.linuxfoundation.org> wrote:
> Unless the weak block transaction list can be a superset of the block
> transaction list size proportional propagation costs are not totally
> eliminated.
>
The POW threshold could be dynamic. The first weak-block that builds on a
new block could be forwarded with a smaller target.
This reduces the window size until at least one weak block is propagated.
The change in threshold could be time based (for the first 30 seconds or
so). This would cause a surge of traffic when a new block once a new block
has propagated, so perhaps not so good an idea.
> As even if the weak block criteria is MUCH lower than the block
> criteria (which would become problematic in its own right at some
> point) the network will sometimes find blocks when there hasn't been
> any weak block priming at all (e.g. all prior priming has made it into
> blocks already).
>
If there is a transaction backlog, then miners could forward merkle
branches with transactions in the memory pool with a commitment in the
coinbase.
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^ permalink raw reply [flat|nested] 18+ messages in thread
* Re: [bitcoin-dev] Weak block thoughts...
2015-09-27 9:42 ` Tier Nolan
@ 2015-09-27 15:10 ` Kalle Rosenbaum
2015-09-27 19:50 ` Gregory Maxwell
0 siblings, 1 reply; 18+ messages in thread
From: Kalle Rosenbaum @ 2015-09-27 15:10 UTC (permalink / raw)
To: Bitcoin Dev
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I was mansplaining weak blocks to my wife. She asked a simple question:
Why would I, as a miner, publish a weak block if I find one?
I don't know.
Sure, I will get faster propagation for my solved block, should I find one.
On the other hand everybody else mining a similar block will enjoy the same
benefit. Assuming that I'm not a huge miner, it's unlikely that I will
actually solve the block, so I'm probably just giving away fast propagation
times to someone else.
So how does publishing a weak block benefit the producer of it more than
the other miners? Please help me understand this.
/Kalle Rosenbaum
2015-09-27 11:42 GMT+02:00 Tier Nolan via bitcoin-dev <
bitcoin-dev@lists.linuxfoundation.org>:
>
>
> On Sun, Sep 27, 2015 at 2:39 AM, Gregory Maxwell via bitcoin-dev <
> bitcoin-dev@lists.linuxfoundation.org> wrote:
>
>> Unless the weak block transaction list can be a superset of the block
>> transaction list size proportional propagation costs are not totally
>> eliminated.
>>
>
> The POW threshold could be dynamic. The first weak-block that builds on a
> new block could be forwarded with a smaller target.
>
> This reduces the window size until at least one weak block is
> propagated.
>
> The change in threshold could be time based (for the first 30 seconds or
> so). This would cause a surge of traffic when a new block once a new block
> has propagated, so perhaps not so good an idea.
>
>
>> As even if the weak block criteria is MUCH lower than the block
>> criteria (which would become problematic in its own right at some
>> point) the network will sometimes find blocks when there hasn't been
>> any weak block priming at all (e.g. all prior priming has made it into
>> blocks already).
>>
>
> If there is a transaction backlog, then miners could forward merkle
> branches with transactions in the memory pool with a commitment in the
> coinbase.
>
> _______________________________________________
> bitcoin-dev mailing list
> bitcoin-dev@lists.linuxfoundation.org
> https://lists.linuxfoundation.org/mailman/listinfo/bitcoin-dev
>
>
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* Re: [bitcoin-dev] Weak block thoughts...
2015-09-27 15:10 ` Kalle Rosenbaum
@ 2015-09-27 19:50 ` Gregory Maxwell
2015-09-28 8:30 ` Kalle Rosenbaum
0 siblings, 1 reply; 18+ messages in thread
From: Gregory Maxwell @ 2015-09-27 19:50 UTC (permalink / raw)
To: Kalle Rosenbaum; +Cc: Bitcoin Dev
On Sun, Sep 27, 2015 at 3:10 PM, Kalle Rosenbaum via bitcoin-dev
<bitcoin-dev@lists.linuxfoundation.org> wrote:
> I was mansplaining weak blocks to my wife. She asked a simple question:
>
> Why would I, as a miner, publish a weak block if I find one?
>
> I don't know.
> Sure, I will get faster propagation for my solved block, should I find one.
> On the other hand everybody else mining a similar block will enjoy the same
> benefit. Assuming that I'm not a huge miner, it's unlikely that I will
> actually solve the block, so I'm probably just giving away fast propagation
> times to someone else.
> So how does publishing a weak block benefit the producer of it more than the
> other miners? Please help me understand this.
Keep in mind, because of efficient differential transmission the cost
to you is effectively nothing if your transaction acceptance policy is
predictable, it's a hand-full of bytes sent. And by failing to send
yours you do little to nothing to deny others the improvement.
Lets imagine an alternative weak-blockless weak block implementation:
Every N seconds, every miner send to every other miner what they're
working on. This isn't totally crazy-- efficient differential
transmission will keep the amount transmitted small.
Any block found can be referenced to any of these earlier worklists.
What the effect be of not transmitting yours?
If your block is unlike everyone elses, you would suffer great delays
in the event you found a block.
If your block is mostly like everyone elses, you wouldn't suffer as
much delay-- but the transmission costs would be negligible in that
case. ... the size sent is proportional to the improvement you get
when finding a block.
In either case, no one else is harmed by you not sending yours... they
still send their lists.
A problem with that scheme is that unless you've layered an identity
based access control system on it anyone can DOS attack it, because
anyone can send as much as they want, they don't even have to be
actual miners.
What weak blocks adds to that is using hashcash as a rate limiting
mechanism-- a coordination free lottery weighed by hash-power decides
who can transmit.
What if you don't participate in the lottery and share your solutions?
No major harm for the other users... the other users will just choose
a somewhat lower weak-block threshold to get the updates at the
desired rate than they would otherwise. To the extent that what you
were working on was different from anyone else, you'll suffer because
you failed to make use of your chance to influence what could be
efficiently transmitted to include your own blocks.
You could also ask a question of why would you transitively relay
someone elses announcement-- well if it helped their blocks too (by
reflecting things they also want to mine) the answer is obvious. But
what if it was disjoint from the things they wanted to mine and didn't
help compared to the weak blocks they already relayed? In that case
it's still in likely in their interest to relay it because if a block
similar to it is produced and they extend that block they may end up
orphaned because of propagation delays their parent block suffered.
What if they receive an announcement which is so "ugly" that they
wouldn't extend the chain with the strong block version of it (they'd
intentionally try to fork it off?)-- in that case they wouldn't want
to relay it. So much the same logic as why you relay other parties
blocks applies, including-- relaying helps the network, but if you
don't it'll still get along fine without you.
^ permalink raw reply [flat|nested] 18+ messages in thread
* Re: [bitcoin-dev] Weak block thoughts...
2015-09-27 19:50 ` Gregory Maxwell
@ 2015-09-28 8:30 ` Kalle Rosenbaum
2015-09-28 13:30 ` Jonathan Toomim (Toomim Bros)
0 siblings, 1 reply; 18+ messages in thread
From: Kalle Rosenbaum @ 2015-09-28 8:30 UTC (permalink / raw)
To: Gregory Maxwell; +Cc: Bitcoin Dev
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2015-09-27 21:50 GMT+02:00 Gregory Maxwell <gmaxwell@gmail.com>:
> On Sun, Sep 27, 2015 at 3:10 PM, Kalle Rosenbaum via bitcoin-dev
> <bitcoin-dev@lists.linuxfoundation.org> wrote:
> > I was mansplaining weak blocks to my wife. She asked a simple question:
> >
> > Why would I, as a miner, publish a weak block if I find one?
> >
> > I don't know.
> > Sure, I will get faster propagation for my solved block, should I find
> one.
> > On the other hand everybody else mining a similar block will enjoy the
> same
> > benefit. Assuming that I'm not a huge miner, it's unlikely that I will
> > actually solve the block, so I'm probably just giving away fast
> propagation
> > times to someone else.
> > So how does publishing a weak block benefit the producer of it more than
> the
> > other miners? Please help me understand this.
>
> Keep in mind, because of efficient differential transmission the cost
> to you is effectively nothing if your transaction acceptance policy is
> predictable, it's a hand-full of bytes sent. And by failing to send
> yours you do little to nothing to deny others the improvement.
>
>
Suppose that you've solved a block Z (weak or not) and you want to
propagate it using a previous weak block Y. With "efficient differential
transmission", I assume that you refer to the transmission of the
differences between Y and Z to a peer? What encodings are discussed? I
guess IBLTs are a hot candidate, but are there other schemes in the making?
I suppose that sending something like "weak block Y plus transactions A, B,
C minus transaction ids h(D), h(E)" is not considered an efficient
differential transmission. Then that's part of the answer to my question.
> Lets imagine an alternative weak-blockless weak block implementation:
>
> Every N seconds, every miner send to every other miner what they're
> working on. This isn't totally crazy-- efficient differential
> transmission will keep the amount transmitted small.
>
> Any block found can be referenced to any of these earlier worklists.
>
> What the effect be of not transmitting yours?
>
> If your block is unlike everyone elses, you would suffer great delays
> in the event you found a block.
> If your block is mostly like everyone elses, you wouldn't suffer as
> much delay-- but the transmission costs would be negligible in that
> case. ... the size sent is proportional to the improvement you get
> when finding a block.
>
"the size sent is proportional to the improvement you get when finding a
block." - This encapsulates the issue quite well! The more exotic block I'm
building, the more I would benefit from publishing a weak block, but my
weak block would also be larger.
>
> In either case, no one else is harmed by you not sending yours... they
> still send their lists.
>
> A problem with that scheme is that unless you've layered an identity
> based access control system on it anyone can DOS attack it, because
> anyone can send as much as they want, they don't even have to be
> actual miners.
>
> What weak blocks adds to that is using hashcash as a rate limiting
> mechanism-- a coordination free lottery weighed by hash-power decides
> who can transmit.
>
> What if you don't participate in the lottery and share your solutions?
> No major harm for the other users... the other users will just choose
> a somewhat lower weak-block threshold to get the updates at the
> desired rate than they would otherwise. To the extent that what you
> were working on was different from anyone else, you'll suffer because
> you failed to make use of your chance to influence what could be
> efficiently transmitted to include your own blocks.
>
Makes perfect sense. Also, if I'm working on an exotic block, the
probability of someone extending my weak block would be low-ish, so I'm not
necessarily "giving away fast propagation times to someone else" as I first
thought.
> You could also ask a question of why would you transitively relay
> someone elses announcement-- well if it helped their blocks too (by
> reflecting things they also want to mine) the answer is obvious. But
> what if it was disjoint from the things they wanted to mine and didn't
> help compared to the weak blocks they already relayed? In that case
> it's still in likely in their interest to relay it because if a block
> similar to it is produced and they extend that block they may end up
> orphaned because of propagation delays their parent block suffered.
> What if they receive an announcement which is so "ugly" that they
> wouldn't extend the chain with the strong block version of it (they'd
> intentionally try to fork it off?)-- in that case they wouldn't want
> to relay it. So much the same logic as why you relay other parties
> blocks applies, including-- relaying helps the network, but if you
> don't it'll still get along fine without you.
>
Thank you very much for your explanation.
/Kalle
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^ permalink raw reply [flat|nested] 18+ messages in thread
* Re: [bitcoin-dev] Weak block thoughts...
2015-09-28 8:30 ` Kalle Rosenbaum
@ 2015-09-28 13:30 ` Jonathan Toomim (Toomim Bros)
0 siblings, 0 replies; 18+ messages in thread
From: Jonathan Toomim (Toomim Bros) @ 2015-09-28 13:30 UTC (permalink / raw)
To: Kalle Rosenbaum; +Cc: Bitcoin Dev
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On Sep 28, 2015, at 1:30 AM, Kalle Rosenbaum via bitcoin-dev <bitcoin-dev@lists.linuxfoundation.org> wrote:
> Suppose that you've solved a block Z (weak or not) and you want to propagate it using a previous weak block Y. With "efficient differential transmission", I assume that you refer to the transmission of the differences between Y and Z to a peer? What encodings are discussed? I guess IBLTs are a hot candidate, but are there other schemes in the making? I suppose that sending something like "weak block Y plus transactions A, B, C minus transaction ids h(D), h(E)" is not considered an efficient differential transmission. Then that's part of the answer to my question.
>
IBLTs are effective for synchronizing mempools, to ensure that all nodes in a network can successfully map a transaction hash to a full transaction. However, IBLTs do not help with the ordering of the transactions.
Encoding the new blocks as a diff (delete bytes x through y, insert string s after byte z) based on a weak block would probably be pretty effective, but it would probably require a lot of memory for keeping a weak block (or chain of diffs) for each miner that publishes weak blocks. It might be a little complicated to manage and remove duplicate information between weak blocks published by different sources. You'd probably have to build a weak block tree or DAG with diffs as edges, and walk the tree each time you wanted to fetch a (weak) block.
Another strategy is to use the Merkle tree nodes. Each node is a hash of its concatenated child nodes, Each node thus specifies the order of 2^n transaction hashes. Changing one transaction hash requires modifying log_2(n) Merkle node hashes, which is okay but maybe not as good as the diff approach. However, the main benefit comes from compressing and storing data from many different weak blocks generated by different miners. You can build a cache of Merkle nodes, and each time you get a new weak block, you can add any new Merkle nodes to that cache. There's some more info on this here: http://bitcoin-development.narkive.com/dGIxjVI5/torrent-style-new-block-propagation-on-merkle-trees
Merkle tree encodings handle replacements of transactions well, but they have trouble with insertions or deletions near the beginning of a block. Efforts could be made to avoid insertions and deletions in the actual transaction ordering to improve transmissibility, or a hybrid system could be implemented in which byte-level diffs or transaction-level diffs are used for transmitting the weak blocks as a diff against previously cached Merkle nodes.
Or maybe there's a better way.
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* Re: [bitcoin-dev] Weak block thoughts...
2015-09-23 15:43 [bitcoin-dev] Weak block thoughts Gavin Andresen
2015-09-23 16:07 ` Bryan Bishop
@ 2015-09-23 16:07 ` Btc Drak
2015-09-23 16:28 ` Peter R
` (2 subsequent siblings)
4 siblings, 0 replies; 18+ messages in thread
From: Btc Drak @ 2015-09-23 16:07 UTC (permalink / raw)
To: Gavin Andresen; +Cc: Bitcoin Dev
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For anyone who missed the discussions of weak blocks, here are the Scaling
Bitcoin's transcripts:
http://diyhpl.us/wiki/transcripts/scalingbitcoin/bitcoin-block-propagation-iblt-rusty-russell/
http://diyhpl.us/wiki/transcripts/scalingbitcoin/roundgroup-roundup-1/
(under Network Propagation).
On Wed, Sep 23, 2015 at 4:43 PM, Gavin Andresen via bitcoin-dev <
bitcoin-dev@lists.linuxfoundation.org> wrote:
> I've been thinking about 'weak blocks' and SPV mining, and it seems to me
> weak blocks will make things better, not worse, if we improve the mining
> code a little bit.
>
> First: the idea of 'weak blocks' (hat tip to Rusty for the term) is for
> miners to pre-announce blocks that they're working on, before they've
> solved the proof-of-work puzzle. To prevent DoS attacks, assume that some
> amount of proof-of-work is done (hence the term 'weak block') to rate-limit
> how many 'weak block' messages are relayed across the network.
>
>
> Today, miners are incentivized to start mining an empty block as soon as
> they see a block with valid proof-of-work, because they want to spend as
> little time as possible mining a not-best chain.
>
> Imagine miners always pre-announce the blocks they're working on to their
> peers, and peers validate those 'weak blocks' as quickly as they are able.
>
> Because weak blocks are pre-validated, when a full-difficulty block based
> on a previously announced weak block is found, block propagation should be
> insanely fast-- basically, as fast as a single packet can be relayed across
> the network the whole network could be mining on the new block.
>
> I don't see any barrier to making accepting the full-difficulty block and
> CreateNewBlock() insanely fast, and if those operations take just a
> microsecond or three, miners will have an incentive to create blocks with
> fee-paying transactions that weren't in the last block, rather than mining
> empty blocks.
>
> .................
>
> A miner could try to avoid validation work by just taking a weak block
> announced by somebody else, replacing the coinbase and re-computing the
> merkle root, and then mining. They will be at a slight disadvantage to
> fully validating miners, though, because they WOULD have to mine empty
> blocks between the time a full block is found and a fully-validating miner
> announced their next weak block.
>
> .................
>
> Weak block announcements are great for the network; they give transaction
> creators a pretty good idea of whether or not their transactions are likely
> to be confirmed in the next block. And if we're smart about implementing
> them, they shouldn't increase bandwidth or CPU usage significantly, because
> all the weak blocks at a given point in time are likely to contain the same
> transactions.
>
> --
> --
> Gavin Andresen
>
>
> _______________________________________________
> bitcoin-dev mailing list
> bitcoin-dev@lists.linuxfoundation.org
> https://lists.linuxfoundation.org/mailman/listinfo/bitcoin-dev
>
>
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^ permalink raw reply [flat|nested] 18+ messages in thread
* Re: [bitcoin-dev] Weak block thoughts...
2015-09-23 15:43 [bitcoin-dev] Weak block thoughts Gavin Andresen
2015-09-23 16:07 ` Bryan Bishop
2015-09-23 16:07 ` Btc Drak
@ 2015-09-23 16:28 ` Peter R
2015-09-23 17:40 ` Gavin
2015-09-23 18:48 ` Tier Nolan
2015-09-24 1:32 ` Rusty Russell
4 siblings, 1 reply; 18+ messages in thread
From: Peter R @ 2015-09-23 16:28 UTC (permalink / raw)
To: Gavin Andresen; +Cc: Bitcoin Dev
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Hi Gavin,
One thing that's not clear to me is whether it is even necessary--from the perspective of the block size limit--to consider block propagation. Bitcoin has been successfully operating unconstrained by the block size limit over its entire history (except for in the past few months)--block propagation never entered into the equation.
Imagine that the limit were raised to significantly above the free market equilibrium block size Q*. Mining pools and other miners would then have an incentive to work out schemes like "weak blocks," relay networks, IBLTs, etc., in order to reduce the risk of orphaning larger blocks (blocks with more fees that they'd like to produce if it were profitable).
Shouldn't mining pools and miners be paying you guys for coding solutions that improve their profitability?
Best regards,
Peter
On 2015-09-23, at 8:43 AM, Gavin Andresen via bitcoin-dev <bitcoin-dev@lists.linuxfoundation.org> wrote:
> I've been thinking about 'weak blocks' and SPV mining, and it seems to me weak blocks will make things better, not worse, if we improve the mining code a little bit.
>
> First: the idea of 'weak blocks' (hat tip to Rusty for the term) is for miners to pre-announce blocks that they're working on, before they've solved the proof-of-work puzzle. To prevent DoS attacks, assume that some amount of proof-of-work is done (hence the term 'weak block') to rate-limit how many 'weak block' messages are relayed across the network.
>
>
> Today, miners are incentivized to start mining an empty block as soon as they see a block with valid proof-of-work, because they want to spend as little time as possible mining a not-best chain.
>
> Imagine miners always pre-announce the blocks they're working on to their peers, and peers validate those 'weak blocks' as quickly as they are able.
>
> Because weak blocks are pre-validated, when a full-difficulty block based on a previously announced weak block is found, block propagation should be insanely fast-- basically, as fast as a single packet can be relayed across the network the whole network could be mining on the new block.
>
> I don't see any barrier to making accepting the full-difficulty block and CreateNewBlock() insanely fast, and if those operations take just a microsecond or three, miners will have an incentive to create blocks with fee-paying transactions that weren't in the last block, rather than mining empty blocks.
>
> .................
>
> A miner could try to avoid validation work by just taking a weak block announced by somebody else, replacing the coinbase and re-computing the merkle root, and then mining. They will be at a slight disadvantage to fully validating miners, though, because they WOULD have to mine empty blocks between the time a full block is found and a fully-validating miner announced their next weak block.
>
> .................
>
> Weak block announcements are great for the network; they give transaction creators a pretty good idea of whether or not their transactions are likely to be confirmed in the next block. And if we're smart about implementing them, they shouldn't increase bandwidth or CPU usage significantly, because all the weak blocks at a given point in time are likely to contain the same transactions.
>
> --
> --
> Gavin Andresen
>
> _______________________________________________
> bitcoin-dev mailing list
> bitcoin-dev@lists.linuxfoundation.org
> https://lists.linuxfoundation.org/mailman/listinfo/bitcoin-dev
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^ permalink raw reply [flat|nested] 18+ messages in thread
* Re: [bitcoin-dev] Weak block thoughts...
2015-09-23 16:28 ` Peter R
@ 2015-09-23 17:40 ` Gavin
2015-09-23 17:49 ` Peter R
0 siblings, 1 reply; 18+ messages in thread
From: Gavin @ 2015-09-23 17:40 UTC (permalink / raw)
To: Peter R; +Cc: Bitcoin Dev
> On Sep 23, 2015, at 12:28 PM, Peter R <peter_r@gmx.com> wrote:
>
> Hi Gavin,
>
> One thing that's not clear to me is whether it is even necessary--from the perspective of the block size limit--to consider block propagation.
I didn't mention the block size limit; weak blocks are a good idea no matter the limit.
As for miners paying for the work: lots of companies contributed to the Foundation, and will contribute to the DCI. When there are big, stable, profitable companies I think we'll see them task their developers to contribute code.
I think optimizing new block propagation is interesting and important, so I plan on working on it.
^ permalink raw reply [flat|nested] 18+ messages in thread
* Re: [bitcoin-dev] Weak block thoughts...
2015-09-23 15:43 [bitcoin-dev] Weak block thoughts Gavin Andresen
` (2 preceding siblings ...)
2015-09-23 16:28 ` Peter R
@ 2015-09-23 18:48 ` Tier Nolan
2015-09-24 1:32 ` Rusty Russell
4 siblings, 0 replies; 18+ messages in thread
From: Tier Nolan @ 2015-09-23 18:48 UTC (permalink / raw)
Cc: Bitcoin Dev
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On Wed, Sep 23, 2015 at 4:43 PM, Gavin Andresen via bitcoin-dev <
bitcoin-dev@lists.linuxfoundation.org> wrote:
> Imagine miners always pre-announce the blocks they're working on to their
> peers, and peers validate those 'weak blocks' as quickly as they are able.
>
> Because weak blocks are pre-validated, when a full-difficulty block based
> on a previously announced weak block is found, block propagation should be
> insanely fast-- basically, as fast as a single packet can be relayed across
> the network the whole network could be mining on the new block.
>
> I don't see any barrier to making accepting the full-difficulty block and
> CreateNewBlock() insanely fast, and if those operations take just a
> microsecond or three, miners will have an incentive to create blocks with
> fee-paying transactions that weren't in the last block, rather than mining
> empty blocks.
>
You can create these blocks in advance too.
- receive weak block
- validate
- create child block
It becomes a pure array lookup to get the new header that builds on top of
that block. The child blocks would need to be updated as the memory pool
changes though.
> A miner could try to avoid validation work by just taking a weak block
> announced by somebody else, replacing the coinbase and re-computing the
> merkle root, and then mining. They will be at a slight disadvantage to
> fully validating miners, though, because they WOULD have to mine empty
> blocks between the time a full block is found and a fully-validating miner
> announced their next weak block.
>
This also speeds up propagation for the miner. The first weak block that
is broadcast could end up being copied by many other miners.
A miner who is copying a block could send coinbase + original header if he
hits a block. Weak blocks that are just coinbase + header could have lower
POW requirements, since they use up much less bandwidth.
Miners would mostly copy other miners once they had verified their blocks.
The IBLT system works well here. A miner could pick a weak block that is
close to what it actually wants to broadcast.
> Weak block announcements are great for the network; they give transaction
> creators a pretty good idea of whether or not their transactions are likely
> to be confirmed in the next block.
>
Aggregator nodes could offer a service to show/prove how many weak blocks
that the transaction has been accepted in.
> And if we're smart about implementing them, they shouldn't increase
> bandwidth or CPU usage significantly, because all the weak blocks at a
> given point in time are likely to contain the same transactions.
>
This assumes other compression systems for handling block propagation.
>
>
> --
> --
> Gavin Andresen
>
>
> _______________________________________________
> bitcoin-dev mailing list
> bitcoin-dev@lists.linuxfoundation.org
> https://lists.linuxfoundation.org/mailman/listinfo/bitcoin-dev
>
>
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^ permalink raw reply [flat|nested] 18+ messages in thread
* Re: [bitcoin-dev] Weak block thoughts...
2015-09-23 15:43 [bitcoin-dev] Weak block thoughts Gavin Andresen
` (3 preceding siblings ...)
2015-09-23 18:48 ` Tier Nolan
@ 2015-09-24 1:32 ` Rusty Russell
4 siblings, 0 replies; 18+ messages in thread
From: Rusty Russell @ 2015-09-24 1:32 UTC (permalink / raw)
To: Gavin Andresen, Bitcoin Dev
Gavin Andresen via bitcoin-dev <bitcoin-dev@lists.linuxfoundation.org>
writes:
> I've been thinking about 'weak blocks' and SPV mining, and it seems to me
> weak blocks will make things better, not worse, if we improve the mining
> code a little bit.
>
> First: the idea of 'weak blocks' (hat tip to Rusty for the term) is for
> miners to pre-announce blocks that they're working on, before they've
> solved the proof-of-work puzzle. To prevent DoS attacks, assume that some
> amount of proof-of-work is done (hence the term 'weak block') to rate-limit
> how many 'weak block' messages are relayed across the network.
>
>
> Today, miners are incentivized to start mining an empty block as soon as
> they see a block with valid proof-of-work, because they want to spend as
> little time as possible mining a not-best chain.
>
> Imagine miners always pre-announce the blocks they're working on to their
> peers, and peers validate those 'weak blocks' as quickly as they are able.
>
> Because weak blocks are pre-validated, when a full-difficulty block based
> on a previously announced weak block is found, block propagation should be
> insanely fast-- basically, as fast as a single packet can be relayed across
> the network the whole network could be mining on the new block.
The bandwidth/latency argument is solid. And if a block encodes to <
~3k, then we can just spray it to (some?) peers rather than using INV.
But validation is only trivially cachable if the delta to the previous
weak block is zero. The "partially validated" cases need to be coded
with care (eg. total opcode constraints, tx order).
I was thinking as a first cut we do the opposite: don't validate weak
blocks at all (other than PoW), and just use them as a bandwidth
optimization.
Ambition is good though!
Chers,
Rusty.
PS. Original idea came to me from Greg Maxwell; Peter Todd called it
"near blocks" and extolled their virtues 2 years ago...
^ permalink raw reply [flat|nested] 18+ messages in thread