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[bitcoin-dev] Taproot (and graftroot) complexity
Bryan Bishop kanzure at gmail.com
Sun Feb 9 20:19:55 UTC 2020
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The following is a message forwarded from an anonymous email that, for
whatever reason, couldn't be relayed through the mailing list without my
assistance.
This email is the first of a collection of sentiments from a group of
developers
who in aggregate prefer to remain anonymous. These emails have been sent
under a
pseudonym so as to keep the focus of discussion on the merits of the
technical
issues, rather than miring the discussion in personal politics. Our goal
isn't
to cause a schism, but rather to help figure out what the path forward is
with
Taproot. To that end, we:
- Discuss the merits of Taproot's design versus simpler alternatives (see
thread subject, "Taproot (and Graftroot) Complexity"). - Propose an alternative path to deploying the technologies described in
BIP-340, BIP-341, and BIP-342 (see thread subject, "An Alternative
Deployment
Path for Taproot Technologies"). - Suggest a modification to Taproot to reduce some of the overhead (see
thread
subject, "Taproot Public NUMS Optimization").
Now that the BIP has moved to draft we felt that now was the time to
prioritize
review to make sure it was an acceptable change for our activities. As a
group,
we're excited about the totality of what Taproot has to offer. However,
after
our review, we're left perplexed about the development of Taproot (and
Graftroot, to a lesser extent).
We also want to convey that we have nothing but respect for the developers
and
community who have poured their heart and soul into preparing Taproot. Self
evidently, it is an impressive synthesis of ideas. We believe that the
highest
form of respect to pay such a synthesis of ideas is a detailed and critical
review, as it's pertinent to closely consider changes to Bitcoin.
In essence, Taproot is fundamentally the same as doing
https://github.com/bitcoin/bips/blob/master/bip-0114.mediawiki and Schnorr
signatures separately.
The main reason for putting them together -- as mentioned in the BIP -- is a
gain in efficiency. But this efficiency pre-supposes a specific use case and
probability distribution of use cases.
Compare:
Suppose a MAST for {a,b,c,d,e,f,g,h} spending conditions it looks something
like this:
/\
/ \
/ \
/
/\ /
/ \ /
/\ /\ /\ /
a b c d e f g h
If we want this to be functionally equivalent to Taproot, we add a new path:
/\
/\
/ \
/ \
/
/\ /
/ \ /
/\ /\ /\ /
a b c d e f g h
Now, to spend from this MBV you have to reveal 32 bytes on the stack for
the not
taken branch, and 35 bytes for the schnorr_checksig (1 byte push, 33
bytes
PK, 1 byte checksig).
This is 67 bytes more than Taproot would require for the same spending
condition.
However, suppose we wanted to use one of the script paths instead. We still
need
to have one extra hash for the schnorr_checksig} (depending on if we
put
the key in this position or not--see below). But now we can spend with just
a
logarithmic control program path.
However, if we do the same script via taproot, we now need to provide the
base
public key (33 bytes) as well as the root hash (32 bytes) and path and then
the
actual scripts. With the need for 2 push bytes, this ends up being back at
67
bytes extra.
Is Taproot just a probability assumption about the frequency and likelihood
of
the signature case over the script case? Is this a good assumption? The BIP
only goes as far as to claim that the advantage is apparent if the outputs
could be spent as an N of N, but doesn't make representations about how
likely
that N of N case would be in practice compared to the script paths. Perhaps
among use cases, more than half of the ones we expect people to be doing
could be
spent as an N of N. But how frequently would that path get used? Further,
while
the use cases might skew toward things with N of N opt-out, we might end
up in
a power law case where it's the one case that doesn't use an N of N opt out
at
all (or at a de minimis level) that becomes very popular, thereby making
Taproot
more costly then beneficial.
Further, if you don't want to use a Taproot top-level key (e.g., you need
to be
able to audit that no one can spend outside of one of the script
conditions),
then you need to use a NUMS (nothing up my sleeve) point. This forces users
who
don't want Taproot to pay the expense, when if they just had a MAST based
witness type they would be cheaper. So if this use case is at all common,
Taproot leaves them worse off in terms of fees. Given that script paths are
usually done in the case where there is some contested close, it's actually
in
the interest of protocol developers that the contested script path be as
efficient as possible so that the fees paid maximally increase the feerate.
We
think this can be fixed simply in Taproot though, as noted below.
On privacy, we're also a bit confused as to the goal of Taproot over MAST
and
Schnorr. Earlier, we presented a design with MAST which is very close to
Taproot.
However, it'd also be possible to just add schnorr_checksig} to the
set
{a,b,c,d,e,f,g,h}, shuffle them, and compute some MAST structure (perhaps
probability encoded) on them. This has the effect of not having much
additional
fees for adding the extra Schnorr path at redeem time (only 1 extra branch
on
2/8 script paths), e.g.
/\
/ \
/ \
/
/\ /
/ \ /
/\ /\ /\ /
a b c d e f/
g h
We could argue that this is more private than Taproot, because we don't
distinguish between the Schnorr key case and other cases by default, so
chain
analyzers can't tell if the signature came from the Taproot case or from
one of
the Script paths. There's also no NUMS point required, which means chain
analyzers can't tell when you spend that there was no top level key if the
NUMS
point is not per-output indistinguishable. By using a semi-randomized MAST
structure, chain analyzers also can't tell exactly how big your spend
condition
MAST was. In particular, you care more about privacy when you are
contesting a
close of a channel or other script path because then the miners could be
more
likely to extract a rent from you as "ransom" for properly closing your
channel
(or in other words, in a contested close the value of the closing
transaction is
larger than usual).
It would also be possible to do something really simple which is to allow
the
witness type to be either a MAST hash OR a schnorr key (but not a Taproot).
This
allows you to not completely fracture the anonymity set between people who
want
plain Schnorr and people who want MAST (at least until they go to spend).
This
fix can also be used in Taproot in place of a NUMS point, to decrease extra
fees. It's unclear if this plays negatively with any future batch validation
mechanism though, but the contextual checks to exclude a witness program
from
the batch are relatively simple. See thread subject, "Taproot Public NUMS
Optimization".
The considerations around Graftroot, a proposed delegation mechanism, is a
bit
similar. Delegation is a mechanism by which a UTXO with script S can sign a
script R which can then be executed in addition to S without requiring a
transaction. This allows an output to monotonically and dynamically
increase the
number of conditions under which it can be spent. As noted by Pieter Wiulle
here:
://github.com/kanzure/diyhpluswiki/commit/a03f6567d714f8733b578de263a4b149441cd058
delegation was originally possible in Bitcoin, but got broken during an
emergency fork to split the scriptSig and scriptpubkey separation. Rather
than
adding some fancy delegation mechanism in Bitcoin, why not just have a
P2SH-like
semantic which allows a delegated script to be evaluated? See BIP-117
://github.com/bitcoin/bips/blob/master/bip-0117.mediawiki. This way we
aren't special casing where delegation can occur, and we can allow taproot
nested spending conditions (i.e., with timelocks) to generate their own
delegations. As I've seen Graftroot discussed thus far, it is as a top-level
witness program version like Taproot and non-recursive. Similar to the above
discussion, top-level is more efficient if you suspect that delegation will
be
most likely occurring at the top level, but it's not clear that's a good
assumption as it may be common to want to allow different scripts to
delegate.
Overall, we are left with concerns both about the merit of doing Taproot
versus alternatives, as well as the process through which we got to be here.
- Is Taproot actually more private than bare MAST and Schnorr separately?
What
are the actual anonymity set benefits compared to doing the separately? - Is Taproot actually cheaper than bare MAST and Schnorr separately? What
evidence do we have that the assumption it will be more common to use
Taproot
with a key will outweigh Script cases? - Is Taproot riskier than bare MAST and Schnorr separately given the new
crypto? How well reviewed is the actual crypto parts? None of us personally
feel
comfortable reviewing the crypto in Schnorr -- what's the set of people who
have
thoroughly reviewed the crypto and aren't just ACKing because they trust
other
developers to have looked at it close enough? - Design wise, couldn't we forego the NUMS point requirement and be able to
check if it's a hash root directly? This would encumber users who don't
need the
key path a cheaper spend path. See thread subject, "Taproot Public NUMS
Optimization". - Is the development model of trying to jam a bunch of features into
Bitcoin
all at once good for Bitcoin development? Would we be better off if we
embraced
incremental improvements that can work together (e.g., MAST and then
Schnorr)?
Although the BIP raises some points about anonymity sets being why to do
them
all at once, it's not clear to me this argument holds water (same goes for
businesses not upgrading). If we can take things as smaller steps, we are
not
only more secure, but we also have more time to dedicate review to each
change
independently. We also end up co-mingling changes that people end up
accepting
only because they want one and they're bundled (e.g., MAST and Schnorr, MAST
seems like a much less risky addition versus Schnorr). See thread subject,
"An
Alternative Deployment Path for Taproot Technologies".
Our provocation with this email is primarily that we think we should more
carefully consider the benefits of Taproot over simpler primitives that are
not
only easier to review, but could have been made available much sooner rather
than waiting on putting everything all together for an unclear aggregate
benefit.
We do think that most of the developers have been honest about the benefits
of
Taproot, but that on closer look we feel the general ecosystem has oversold
Taproot as being the key enabler for a collection of techniques that we
could do
with much simpler building blocks.
At the end of the day, we do not strongly advocate not deploying Taproot at
this
point in the review cycle. We think the Taproot Public NUMS Optimization
may be
a good idea, worth considering if it's not insecure, as it cuts through the
case
where you would otherwise need a NUMS point. Things like TapScript and its
MAST
mechanisms are well designed and offer exciting new deployment paths, and
would
be something we would use even if we opted for MAST instead of Taproot.
However,
we also believe it is our duty to raise these concerns and suggestions, and
we
look forward to listening to the responses of the community.
Great thanks,
The Group
SUBJECT: An Alternative Deployment Path for Taproot Technologies
This email is the second of a collection of sentiments from a group of
developers
who in aggregate prefer to remain anonymous. These emails have been sent
under a
pseudonym so as to keep the focus of discussion on the merits of the
technical
issues, rather than miring the discussion in personal politics. Our goal
isn't
to cause a schism, but rather to help figure out what the path forward is
with
Taproot. To that end, we:
- Discuss the merits of Taproot's design versus simpler alternatives (see
thread subject, "Taproot (and Graftroot) Complexity"). - Propose an alternative path to deploying the technologies described in
BIP-340, BIP-341, and BIP-342 (see thread subject, "An Alternative
Deployment
Path for Taproot Technologies"). - Suggest a modification to Taproot to reduce some of the overhead (see
thread
subject, "Taproot Public NUMS Optimization").
As a follow up to our prior message, we propose a different path forward
for the
Taproot family of changes:
- A separate soft-fork for Merkle Branch Witnesses based on Taproot;
- A separate soft-fork for Schnorr Signatures
- A separate follow up soft-fork which enables Taproot and Graftroot
We think that the first 2 forks can be offered at the same time or one at a
time.
Taproot, as a follow up to changes 1 and 2, can be enabled as a soft-fork
on the
existing semantics, but requiring a new witness version. With the Public
NUMS Optimization, wallets could upgrade by just changing one version byte
to be
in the same anonymity set as Taproot.
It's not clear to us that the time to prepare a BIP and implementation for
1 and
2 at this point would be any less than the time to do Taproot as currently
proposed. However, we believe that such a deployment plan is a reasonable
option
as it is more conservative, as Merkle Branch witnesses are relatively
simple and
users only have to use Schnorr signing if they want to, and can otherwise
continue to use ECDSA. A further benefit of waiting on 3 is that we get to
collect real world protocol engineering experience to see how frequently the
Taproot frequency of use assumption holds, and if it is worth doing or not.
Great thanks,
The Group
--
- Bryan
://heybryan.org/
1 512 203 0507
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