đź“… Original date posted:2019-10-28
đź“ť Original message:>
>
> I don’te see how? Let’s imagine Party A has two spendable outputs, now
> they stuff the package size on one of their spendable outlets until it is
> right at the limit, add one more on their other output (to meet the
> Carve-Out), and now Party B can’t do anything.
Matt: With the proposed change, party B would always be able to add a child
to its output, regardless of what games party A is playing.
Thanks for the explanation, Jeremy!
> In terms of relay cost, if an ancestor can be replaced, it will invalidate
> all it's children, meaning that no one paid for that broadcasting. This can
> be fixed by appropriately assessing Replace By Fee update fees to
> encapsulate all descendants, but there are some tricky edge cases that make
> this non-obvious to do.
Relay cost is the obvious problem with just naively removing all limits.
Relaxing the current rules by allowing to add a child to each output as
long as it has a single unconfirmed parent would still only allow free
relay of O(size of parent) extra data (which might not be that bad? Similar
to the carve-out rule we could put limits on the child size). This would be
enough for the current LN use case (increasing fee of commitment tx), but
not for OP_SECURETHEBAG I guess, as you need the tree of children, as you
mention.
I imagine walking the mempool wouldn't change much, as you would only have
one extra child per output. But here I'm just speculating, as I don't know
the code well enough know what the diff would look like.
> OP_SECURETHEBAG can help with the LN issue by putting all HTLCS into a
> tree where they are individualized leaf nodes with a preceding CSV. Then,
> the above fix would ensure each HTLC always has time to close properly as
> they would have individualized lockpoints. This is desirable for some
> additional reasons and not for others, but it should "work".
This is interesting for an LN commitment! You could really hide every
output of the commitment within OP_STB, which could either allow bypassing
the fee-pinning attack entirely (if the output cannot be spent unconfirmed)
or adding fees to the commitment using SIGHASH_SINGLE|ANYONECANPAY.
- Johan
On Sun, Oct 27, 2019 at 8:13 PM Jeremy <jlrubin at mit.edu> wrote:
> Johan,
>
> The issues with mempool limits for OP_SECURETHEBAG are related, but have
> distinct solutions.
>
> There are two main categories of mempool issues at stake. One is relay
> cost, the other is mempool walking.
>
> In terms of relay cost, if an ancestor can be replaced, it will invalidate
> all it's children, meaning that no one paid for that broadcasting. This can
> be fixed by appropriately assessing Replace By Fee update fees to
> encapsulate all descendants, but there are some tricky edge cases that make
> this non-obvious to do.
>
> The other issue is walking the mempool -- many of the algorithms we use in
> the mempool can be N log N or N^2 in the number of descendants. (simple
> example: an input chain of length N to a fan out of N outputs that are all
> spent, is O(N^2) to look up ancestors per-child, unless we're caching).
>
> The other sort of walking issue is where the indegree or outdegree for a
> transaction is high. Then when we are computing descendants or ancestors we
> will need to visit it multiple times. To avoid re-expanding a node, we
> currently cache it with a set. This uses O(N) extra memory and makes O(N
> Log N) (we use std::set not unordered_set) comparisons.
>
> I just opened a PR which should help with some of the walking issues by
> allowing us to cheaply cache which nodes we've visited on a run. It makes a
> lot of previously O(N log N) stuff O(N) and doesn't allocate as much new
> memory. See: https://github.com/bitcoin/bitcoin/pull/17268.
>
>
> Now, for OP_SECURETHEBAG we want a particular property that is very
> different from with lightning htlcs (as is). We want that an unlimited
> number of child OP_SECURETHEBAG txns may extend from a confirmed
> OP_SECURETHEBAG, and then at the leaf nodes, we want the same rule as
> lightning (one dangling unconfirmed to permit channels).
>
> OP_SECURETHEBAG can help with the LN issue by putting all HTLCS into a
> tree where they are individualized leaf nodes with a preceding CSV. Then,
> the above fix would ensure each HTLC always has time to close properly as
> they would have individualized lockpoints. This is desirable for some
> additional reasons and not for others, but it should "work".
>
>
>
> --
> @JeremyRubin <https://twitter.com/JeremyRubin>;
> <https://twitter.com/JeremyRubin>;
>
>
> On Fri, Oct 25, 2019 at 10:31 AM Matt Corallo <lf-lists at mattcorallo.com>
> wrote:
>
>> I don’te see how? Let’s imagine Party A has two spendable outputs, now
>> they stuff the package size on one of their spendable outlets until it is
>> right at the limit, add one more on their other output (to meet the
>> Carve-Out), and now Party B can’t do anything.
>>
>> On Oct 24, 2019, at 21:05, Johan TorĂĄs Halseth <johanth at gmail.com> wrote:
>>
>> 
>> It essentially changes the rule to always allow CPFP-ing the commitment
>> as long as there is an output available without any descendants. It changes
>> the commitment from "you always need at least, and exactly, one non-CSV
>> output per party. " to "you always need at least one non-CSV output per
>> party. "
>>
>> I realize these limits are there for a reason though, but I'm wondering
>> if could relax them. Also now that jeremyrubin has expressed problems with
>> the current mempool limits.
>>
>> On Thu, Oct 24, 2019 at 11:25 PM Matt Corallo <lf-lists at mattcorallo.com>
>> wrote:
>>
>>> I may be missing something, but I'm not sure how this changes anything?
>>>
>>> If you have a commitment transaction, you always need at least, and
>>> exactly, one non-CSV output per party. The fact that there is a size
>>> limitation on the transaction that spends for carve-out purposes only
>>> effects how many other inputs/outputs you can add, but somehow I doubt
>>> its ever going to be a large enough number to matter.
>>>
>>> Matt
>>>
>>> On 10/24/19 1:49 PM, Johan TorĂĄs Halseth wrote:
>>> > Reviving this old thread now that the recently released RC for bitcoind
>>> > 0.19 includes the above mentioned carve-out rule.
>>> >
>>> > In an attempt to pave the way for more robust CPFP of on-chain
>>> contracts
>>> > (Lightning commitment transactions), the carve-out rule was added in
>>> > https://github.com/bitcoin/bitcoin/pull/15681. However, having worked
>>> on
>>> > an implementation of a new commitment format for utilizing the Bring
>>> > Your Own Fees strategy using CPFP, I’m wondering if the special case
>>> > rule should have been relaxed a bit, to avoid the need for adding a 1
>>> > CSV to all outputs (in case of Lightning this means HTLC scripts would
>>> > need to be changed to add the CSV delay).
>>> >
>>> > Instead, what about letting the rule be
>>> >
>>> > The last transaction which is added to a package of dependent
>>> > transactions in the mempool must:
>>> > * Have no more than one unconfirmed parent.
>>> >
>>> > This would of course allow adding a large transaction to each output of
>>> > the unconfirmed parent, which in effect would allow an attacker to
>>> > exceed the MAX_PACKAGE_VIRTUAL_SIZE limit in some cases. However, is
>>> > this a problem with the current mempool acceptance code in bitcoind? I
>>> > would imagine evicting transactions based on feerate when the max
>>> > mempool size is met handles this, but I’m asking since it seems like
>>> > there has been several changes to the acceptance code and eviction
>>> > policy since the limit was first introduced.
>>> >
>>> > - Johan
>>> >
>>> >
>>> > On Wed, Feb 13, 2019 at 6:57 AM Rusty Russell <rusty at rustcorp.com.au
>>> > <mailto:rusty at rustcorp.com.au>> wrote:
>>> >
>>> > Matt Corallo <lf-lists at mattcorallo.com
>>> > <mailto:lf-lists at mattcorallo.com>> writes:
>>> > >>> Thus, even if you imagine a steady-state mempool growth,
>>> unless the
>>> > >>> "near the top of the mempool" criteria is "near the top of the
>>> next
>>> > >>> block" (which is obviously *not* incentive-compatible)
>>> > >>
>>> > >> I was defining "top of mempool" as "in the first 4 MSipa", ie.
>>> next
>>> > >> block, and assumed you'd only allow RBF if the old package
>>> wasn't
>>> > in the
>>> > >> top and the replacement would be. That seems incentive
>>> > compatible; more
>>> > >> than the current scheme?
>>> > >
>>> > > My point was, because of block time variance, even that criteria
>>> > doesn't hold up. If you assume a steady flow of new transactions
>>> and
>>> > one or two blocks come in "late", suddenly "top 4MWeight" isn't
>>> > likely to get confirmed until a few blocks come in "early". Given
>>> > block variance within a 12 block window, this is a relatively
>>> likely
>>> > scenario.
>>> >
>>> > [ Digging through old mail. ]
>>> >
>>> > Doesn't really matter. Lightning close algorithm would be:
>>> >
>>> > 1. Give bitcoind unileratal close.
>>> > 2. Ask bitcoind what current expidited fee is (or survey your
>>> mempool).
>>> > 3. Give bitcoind child "push" tx at that total feerate.
>>> > 4. If next block doesn't contain unilateral close tx, goto 2.
>>> >
>>> > In this case, if you allow a simpified RBF where 'you can replace
>>> if
>>> > 1. feerate is higher, 2. new tx is in first 4Msipa of mempool, 3.
>>> > old tx isnt',
>>> > it works.
>>> >
>>> > It allows someone 100k of free tx spam, sure. But it's simple.
>>> >
>>> > We could further restrict it by marking the unilateral close
>>> somehow to
>>> > say "gonna be pushed" and further limiting the child tx weight
>>> (say,
>>> > 5kSipa?) in that case.
>>> >
>>> > Cheers,
>>> > Rusty.
>>> > _______________________________________________
>>> > Lightning-dev mailing list
>>> > Lightning-dev at lists.linuxfoundation.org
>>> > <mailto:Lightning-dev at lists.linuxfoundation.org>
>>> > https://lists.linuxfoundation.org/mailman/listinfo/lightning-dev
>>> >
>>>
>> _______________________________________________
>> Lightning-dev mailing list
>> Lightning-dev at lists.linuxfoundation.org
>> https://lists.linuxfoundation.org/mailman/listinfo/lightning-dev
>>
>
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Johan TorĂĄs Halseth [ARCHIVE] /
npub1pp…hs2fw
2023-06-07 18:21:26
in reply to nevent1q…7x3g
Author Public Key
npub1ppn2nhlfdzkw9gw0ytljpef5dpyzsxzw8ffcyykamt32hw6pge0smhs2fwPublished at
2023-06-07 18:21:26Event JSON
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"content": "📅 Original date posted:2019-10-28\n📝 Original message:\u003e\n\u003e\n\u003e I don’te see how? Let’s imagine Party A has two spendable outputs, now\n\u003e they stuff the package size on one of their spendable outlets until it is\n\u003e right at the limit, add one more on their other output (to meet the\n\u003e Carve-Out), and now Party B can’t do anything.\n\nMatt: With the proposed change, party B would always be able to add a child\nto its output, regardless of what games party A is playing.\n\n\nThanks for the explanation, Jeremy!\n\n\n\u003e In terms of relay cost, if an ancestor can be replaced, it will invalidate\n\u003e all it's children, meaning that no one paid for that broadcasting. This can\n\u003e be fixed by appropriately assessing Replace By Fee update fees to\n\u003e encapsulate all descendants, but there are some tricky edge cases that make\n\u003e this non-obvious to do.\n\n\nRelay cost is the obvious problem with just naively removing all limits.\nRelaxing the current rules by allowing to add a child to each output as\nlong as it has a single unconfirmed parent would still only allow free\nrelay of O(size of parent) extra data (which might not be that bad? Similar\nto the carve-out rule we could put limits on the child size). This would be\nenough for the current LN use case (increasing fee of commitment tx), but\nnot for OP_SECURETHEBAG I guess, as you need the tree of children, as you\nmention.\n\nI imagine walking the mempool wouldn't change much, as you would only have\none extra child per output. But here I'm just speculating, as I don't know\nthe code well enough know what the diff would look like.\n\n\n\u003e OP_SECURETHEBAG can help with the LN issue by putting all HTLCS into a\n\u003e tree where they are individualized leaf nodes with a preceding CSV. Then,\n\u003e the above fix would ensure each HTLC always has time to close properly as\n\u003e they would have individualized lockpoints. This is desirable for some\n\u003e additional reasons and not for others, but it should \"work\".\n\n\nThis is interesting for an LN commitment! You could really hide every\noutput of the commitment within OP_STB, which could either allow bypassing\nthe fee-pinning attack entirely (if the output cannot be spent unconfirmed)\nor adding fees to the commitment using SIGHASH_SINGLE|ANYONECANPAY.\n\n- Johan\n\nOn Sun, Oct 27, 2019 at 8:13 PM Jeremy \u003cjlrubin at mit.edu\u003e wrote:\n\n\u003e Johan,\n\u003e\n\u003e The issues with mempool limits for OP_SECURETHEBAG are related, but have\n\u003e distinct solutions.\n\u003e\n\u003e There are two main categories of mempool issues at stake. One is relay\n\u003e cost, the other is mempool walking.\n\u003e\n\u003e In terms of relay cost, if an ancestor can be replaced, it will invalidate\n\u003e all it's children, meaning that no one paid for that broadcasting. This can\n\u003e be fixed by appropriately assessing Replace By Fee update fees to\n\u003e encapsulate all descendants, but there are some tricky edge cases that make\n\u003e this non-obvious to do.\n\u003e\n\u003e The other issue is walking the mempool -- many of the algorithms we use in\n\u003e the mempool can be N log N or N^2 in the number of descendants. (simple\n\u003e example: an input chain of length N to a fan out of N outputs that are all\n\u003e spent, is O(N^2) to look up ancestors per-child, unless we're caching).\n\u003e\n\u003e The other sort of walking issue is where the indegree or outdegree for a\n\u003e transaction is high. Then when we are computing descendants or ancestors we\n\u003e will need to visit it multiple times. To avoid re-expanding a node, we\n\u003e currently cache it with a set. This uses O(N) extra memory and makes O(N\n\u003e Log N) (we use std::set not unordered_set) comparisons.\n\u003e\n\u003e I just opened a PR which should help with some of the walking issues by\n\u003e allowing us to cheaply cache which nodes we've visited on a run. It makes a\n\u003e lot of previously O(N log N) stuff O(N) and doesn't allocate as much new\n\u003e memory. See: https://github.com/bitcoin/bitcoin/pull/17268.\n\u003e\n\u003e\n\u003e Now, for OP_SECURETHEBAG we want a particular property that is very\n\u003e different from with lightning htlcs (as is). We want that an unlimited\n\u003e number of child OP_SECURETHEBAG txns may extend from a confirmed\n\u003e OP_SECURETHEBAG, and then at the leaf nodes, we want the same rule as\n\u003e lightning (one dangling unconfirmed to permit channels).\n\u003e\n\u003e OP_SECURETHEBAG can help with the LN issue by putting all HTLCS into a\n\u003e tree where they are individualized leaf nodes with a preceding CSV. Then,\n\u003e the above fix would ensure each HTLC always has time to close properly as\n\u003e they would have individualized lockpoints. This is desirable for some\n\u003e additional reasons and not for others, but it should \"work\".\n\u003e\n\u003e\n\u003e\n\u003e --\n\u003e @JeremyRubin \u003chttps://twitter.com/JeremyRubin\u003e\n\u003e \u003chttps://twitter.com/JeremyRubin\u003e\n\u003e\n\u003e\n\u003e On Fri, Oct 25, 2019 at 10:31 AM Matt Corallo \u003clf-lists at mattcorallo.com\u003e\n\u003e wrote:\n\u003e\n\u003e\u003e I don’te see how? Let’s imagine Party A has two spendable outputs, now\n\u003e\u003e they stuff the package size on one of their spendable outlets until it is\n\u003e\u003e right at the limit, add one more on their other output (to meet the\n\u003e\u003e Carve-Out), and now Party B can’t do anything.\n\u003e\u003e\n\u003e\u003e On Oct 24, 2019, at 21:05, Johan Torås Halseth \u003cjohanth at gmail.com\u003e wrote:\n\u003e\u003e\n\u003e\u003e \n\u003e\u003e It essentially changes the rule to always allow CPFP-ing the commitment\n\u003e\u003e as long as there is an output available without any descendants. It changes\n\u003e\u003e the commitment from \"you always need at least, and exactly, one non-CSV\n\u003e\u003e output per party. \" to \"you always need at least one non-CSV output per\n\u003e\u003e party. \"\n\u003e\u003e\n\u003e\u003e I realize these limits are there for a reason though, but I'm wondering\n\u003e\u003e if could relax them. Also now that jeremyrubin has expressed problems with\n\u003e\u003e the current mempool limits.\n\u003e\u003e\n\u003e\u003e On Thu, Oct 24, 2019 at 11:25 PM Matt Corallo \u003clf-lists at mattcorallo.com\u003e\n\u003e\u003e wrote:\n\u003e\u003e\n\u003e\u003e\u003e I may be missing something, but I'm not sure how this changes anything?\n\u003e\u003e\u003e\n\u003e\u003e\u003e If you have a commitment transaction, you always need at least, and\n\u003e\u003e\u003e exactly, one non-CSV output per party. The fact that there is a size\n\u003e\u003e\u003e limitation on the transaction that spends for carve-out purposes only\n\u003e\u003e\u003e effects how many other inputs/outputs you can add, but somehow I doubt\n\u003e\u003e\u003e its ever going to be a large enough number to matter.\n\u003e\u003e\u003e\n\u003e\u003e\u003e Matt\n\u003e\u003e\u003e\n\u003e\u003e\u003e On 10/24/19 1:49 PM, Johan Torås Halseth wrote:\n\u003e\u003e\u003e \u003e Reviving this old thread now that the recently released RC for bitcoind\n\u003e\u003e\u003e \u003e 0.19 includes the above mentioned carve-out rule.\n\u003e\u003e\u003e \u003e\n\u003e\u003e\u003e \u003e In an attempt to pave the way for more robust CPFP of on-chain\n\u003e\u003e\u003e contracts\n\u003e\u003e\u003e \u003e (Lightning commitment transactions), the carve-out rule was added in\n\u003e\u003e\u003e \u003e https://github.com/bitcoin/bitcoin/pull/15681. However, having worked\n\u003e\u003e\u003e on\n\u003e\u003e\u003e \u003e an implementation of a new commitment format for utilizing the Bring\n\u003e\u003e\u003e \u003e Your Own Fees strategy using CPFP, I’m wondering if the special case\n\u003e\u003e\u003e \u003e rule should have been relaxed a bit, to avoid the need for adding a 1\n\u003e\u003e\u003e \u003e CSV to all outputs (in case of Lightning this means HTLC scripts would\n\u003e\u003e\u003e \u003e need to be changed to add the CSV delay).\n\u003e\u003e\u003e \u003e\n\u003e\u003e\u003e \u003e Instead, what about letting the rule be\n\u003e\u003e\u003e \u003e\n\u003e\u003e\u003e \u003e The last transaction which is added to a package of dependent\n\u003e\u003e\u003e \u003e transactions in the mempool must:\n\u003e\u003e\u003e \u003e * Have no more than one unconfirmed parent.\n\u003e\u003e\u003e \u003e\n\u003e\u003e\u003e \u003e This would of course allow adding a large transaction to each output of\n\u003e\u003e\u003e \u003e the unconfirmed parent, which in effect would allow an attacker to\n\u003e\u003e\u003e \u003e exceed the MAX_PACKAGE_VIRTUAL_SIZE limit in some cases. However, is\n\u003e\u003e\u003e \u003e this a problem with the current mempool acceptance code in bitcoind? I\n\u003e\u003e\u003e \u003e would imagine evicting transactions based on feerate when the max\n\u003e\u003e\u003e \u003e mempool size is met handles this, but I’m asking since it seems like\n\u003e\u003e\u003e \u003e there has been several changes to the acceptance code and eviction\n\u003e\u003e\u003e \u003e policy since the limit was first introduced.\n\u003e\u003e\u003e \u003e\n\u003e\u003e\u003e \u003e - Johan\n\u003e\u003e\u003e \u003e\n\u003e\u003e\u003e \u003e\n\u003e\u003e\u003e \u003e On Wed, Feb 13, 2019 at 6:57 AM Rusty Russell \u003crusty at rustcorp.com.au\n\u003e\u003e\u003e \u003e \u003cmailto:rusty at rustcorp.com.au\u003e\u003e wrote:\n\u003e\u003e\u003e \u003e\n\u003e\u003e\u003e \u003e Matt Corallo \u003clf-lists at mattcorallo.com\n\u003e\u003e\u003e \u003e \u003cmailto:lf-lists at mattcorallo.com\u003e\u003e writes:\n\u003e\u003e\u003e \u003e \u003e\u003e\u003e Thus, even if you imagine a steady-state mempool growth,\n\u003e\u003e\u003e unless the\n\u003e\u003e\u003e \u003e \u003e\u003e\u003e \"near the top of the mempool\" criteria is \"near the top of the\n\u003e\u003e\u003e next\n\u003e\u003e\u003e \u003e \u003e\u003e\u003e block\" (which is obviously *not* incentive-compatible)\n\u003e\u003e\u003e \u003e \u003e\u003e\n\u003e\u003e\u003e \u003e \u003e\u003e I was defining \"top of mempool\" as \"in the first 4 MSipa\", ie.\n\u003e\u003e\u003e next\n\u003e\u003e\u003e \u003e \u003e\u003e block, and assumed you'd only allow RBF if the old package\n\u003e\u003e\u003e wasn't\n\u003e\u003e\u003e \u003e in the\n\u003e\u003e\u003e \u003e \u003e\u003e top and the replacement would be. That seems incentive\n\u003e\u003e\u003e \u003e compatible; more\n\u003e\u003e\u003e \u003e \u003e\u003e than the current scheme?\n\u003e\u003e\u003e \u003e \u003e\n\u003e\u003e\u003e \u003e \u003e My point was, because of block time variance, even that criteria\n\u003e\u003e\u003e \u003e doesn't hold up. If you assume a steady flow of new transactions\n\u003e\u003e\u003e and\n\u003e\u003e\u003e \u003e one or two blocks come in \"late\", suddenly \"top 4MWeight\" isn't\n\u003e\u003e\u003e \u003e likely to get confirmed until a few blocks come in \"early\". Given\n\u003e\u003e\u003e \u003e block variance within a 12 block window, this is a relatively\n\u003e\u003e\u003e likely\n\u003e\u003e\u003e \u003e scenario.\n\u003e\u003e\u003e \u003e\n\u003e\u003e\u003e \u003e [ Digging through old mail. ]\n\u003e\u003e\u003e \u003e\n\u003e\u003e\u003e \u003e Doesn't really matter. Lightning close algorithm would be:\n\u003e\u003e\u003e \u003e\n\u003e\u003e\u003e \u003e 1. Give bitcoind unileratal close.\n\u003e\u003e\u003e \u003e 2. Ask bitcoind what current expidited fee is (or survey your\n\u003e\u003e\u003e mempool).\n\u003e\u003e\u003e \u003e 3. Give bitcoind child \"push\" tx at that total feerate.\n\u003e\u003e\u003e \u003e 4. If next block doesn't contain unilateral close tx, goto 2.\n\u003e\u003e\u003e \u003e\n\u003e\u003e\u003e \u003e In this case, if you allow a simpified RBF where 'you can replace\n\u003e\u003e\u003e if\n\u003e\u003e\u003e \u003e 1. feerate is higher, 2. new tx is in first 4Msipa of mempool, 3.\n\u003e\u003e\u003e \u003e old tx isnt',\n\u003e\u003e\u003e \u003e it works.\n\u003e\u003e\u003e \u003e\n\u003e\u003e\u003e \u003e It allows someone 100k of free tx spam, sure. But it's simple.\n\u003e\u003e\u003e \u003e\n\u003e\u003e\u003e \u003e We could further restrict it by marking the unilateral close\n\u003e\u003e\u003e somehow to\n\u003e\u003e\u003e \u003e say \"gonna be pushed\" and further limiting the child tx weight\n\u003e\u003e\u003e (say,\n\u003e\u003e\u003e \u003e 5kSipa?) in that case.\n\u003e\u003e\u003e \u003e\n\u003e\u003e\u003e \u003e Cheers,\n\u003e\u003e\u003e \u003e Rusty.\n\u003e\u003e\u003e \u003e _______________________________________________\n\u003e\u003e\u003e \u003e Lightning-dev mailing list\n\u003e\u003e\u003e \u003e Lightning-dev at lists.linuxfoundation.org\n\u003e\u003e\u003e \u003e \u003cmailto:Lightning-dev at lists.linuxfoundation.org\u003e\n\u003e\u003e\u003e \u003e https://lists.linuxfoundation.org/mailman/listinfo/lightning-dev\n\u003e\u003e\u003e \u003e\n\u003e\u003e\u003e\n\u003e\u003e _______________________________________________\n\u003e\u003e Lightning-dev mailing list\n\u003e\u003e Lightning-dev at lists.linuxfoundation.org\n\u003e\u003e https://lists.linuxfoundation.org/mailman/listinfo/lightning-dev\n\u003e\u003e\n\u003e\n-------------- next part --------------\nAn HTML attachment was scrubbed...\nURL: \u003chttp://lists.linuxfoundation.org/pipermail/bitcoin-dev/attachments/20191028/92777d7b/attachment-0001.html\u003e",
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