* [bitcoin-dev] BIP 117 Feedback @ 2018-01-09 11:22 Rusty Russell 2018-01-09 12:40 ` Mark Friedenbach 2018-03-05 15:28 ` Johnson Lau 0 siblings, 2 replies; 10+ messages in thread From: Rusty Russell @ 2018-01-09 11:22 UTC (permalink / raw) To: Bitcoin Protocol Discussion; +Cc: Russell O'Connor, Kalle Alm I've just re-read BIP 117, and I'm concerned about its flexibility. It seems to be doing too much. The use of altstack is awkward, and makes me query this entire approach. I understand that CLEANSTACK painted us into a corner here :( The simplest implementation of tail recursion would be a single blob: if a single element is left on the altstack, pop and execute it. That seems trivial to specify. The treatment of concatenation seems like trying to run before we can walk. Note that if we restrict this for a specific tx version, we can gain experience first and get fancier later. BIP 117 also drops SIGOP and opcode limits. This requires more justification, in particular, measurements and bounds on execution times. If this analysis has been done, I'm not aware of it. We could restore statically analyzability by rules like so: 1. Only applied for tx version 3 segwit txs. 2. For version 3, top element of stack is counted for limits (perhaps with discount). 3. The blob popped off for tail recursion must be identical to that top element of the stack (ie. the one counted above). Again, future tx versions could drop such restrictions. Cheers, Rusty. ^ permalink raw reply [flat|nested] 10+ messages in thread
* Re: [bitcoin-dev] BIP 117 Feedback 2018-01-09 11:22 [bitcoin-dev] BIP 117 Feedback Rusty Russell @ 2018-01-09 12:40 ` Mark Friedenbach 2018-01-09 14:21 ` Pieter Wuille 2018-03-05 15:28 ` Johnson Lau 1 sibling, 1 reply; 10+ messages in thread From: Mark Friedenbach @ 2018-01-09 12:40 UTC (permalink / raw) To: Rusty Russell Cc: Bitcoin Protocol Discussion, Russell O'Connor, Kalle Alm The use of the alt stack is a hack for segwit script version 0 which has the clean stack rule. Anticipated future improvements here are to switch to a witness script version, and a new segwit output version which supports native MAST to save an additional 40 or so witness bytes. Either approach would allow getting rid of the alt stack hack. They are not part of the proposal now because it is better to do things incrementally, and because we anticipate usage of MAST to better inform these less generic changes. Your suggestion of “single blob on the stack” seems to be exactly this proposal afaict? Note the witness data needs to be passed separately because signatures can’t be included in that single blob if that blob is hashed and compared against something in the scriptPubKey. The sigop and opcode limit drop can be justified with some back of the envelope calculations. Non-scriptPubKey scripts are fundamentally limited by blocksize/weight and the most damage you can do, as an adversary, is limited by space. The most expensive thing you can do check a signature. Our assumptions about block size safety are basically due to how much computation you can stuff in a block with checksigs — all the analysis there applies. My suggestion is to limit the number of checksigs allowed in a script to size(script+witness)/64, but I wanted this to come up in review rather than complicate the code right off the bat. I will make a strong assertion: static analyzing the number of opcodes and sigops gets us absolutely nothing. It is cargo cult safety engineering. No need to perpetuate it when it is now in the way. Sent from my iPhone > On Jan 9, 2018, at 8:22 PM, Rusty Russell <rusty@rustcorp.com.au> wrote: > > I've just re-read BIP 117, and I'm concerned about its flexibility. It > seems to be doing too much. > > The use of altstack is awkward, and makes me query this entire approach. > I understand that CLEANSTACK painted us into a corner here :( > > The simplest implementation of tail recursion would be a single blob: if > a single element is left on the altstack, pop and execute it. That > seems trivial to specify. The treatment of concatenation seems like > trying to run before we can walk. > > Note that if we restrict this for a specific tx version, we can gain > experience first and get fancier later. > > BIP 117 also drops SIGOP and opcode limits. This requires more > justification, in particular, measurements and bounds on execution > times. If this analysis has been done, I'm not aware of it. > > We could restore statically analyzability by rules like so: > 1. Only applied for tx version 3 segwit txs. > 2. For version 3, top element of stack is counted for limits (perhaps > with discount). > 3. The blob popped off for tail recursion must be identical to that top > element of the stack (ie. the one counted above). > > Again, future tx versions could drop such restrictions. > > Cheers, > Rusty. ^ permalink raw reply [flat|nested] 10+ messages in thread
* Re: [bitcoin-dev] BIP 117 Feedback 2018-01-09 12:40 ` Mark Friedenbach @ 2018-01-09 14:21 ` Pieter Wuille 2018-01-09 22:57 ` Mark Friedenbach 2018-01-12 10:48 ` Russell O'Connor 0 siblings, 2 replies; 10+ messages in thread From: Pieter Wuille @ 2018-01-09 14:21 UTC (permalink / raw) To: Mark Friedenbach, Bitcoin Dev; +Cc: Russell O'Connor, Kalle Alm [-- Attachment #1: Type: text/plain, Size: 3997 bytes --] On Jan 9, 2018 13:41, "Mark Friedenbach via bitcoin-dev" < bitcoin-dev@lists.linuxfoundation.org> wrote: The use of the alt stack is a hack for segwit script version 0 which has the clean stack rule. Anticipated future improvements here are to switch to a witness script version, and a new segwit output version which supports native MAST to save an additional 40 or so witness bytes. Either approach would allow getting rid of the alt stack hack. They are not part of the proposal now because it is better to do things incrementally, and because we anticipate usage of MAST to better inform these less generic changes. If the goal is to introduce a native MAST output type later, what is gained by first having the tailcall semantics? As far as I can see, this proposal does not have any benefits over Johnson Lau's MAST idea [1]: * It is more compact, already giving us the space savings a native MAST version of the tail call semantics would bring. * It does not need to work around limitations of push size limits or cleanstack rules. * The implementation (of code I've seen) is easier to reason about, as it's just another case in VerifyScript (which you'd need for a native MAST output later too) without introducing jumps or loops inside EvalScript. * It can express the same, as even though the MBV opcode supports proving multiple elements simultaneously, I don't see a way to use that in the tail call. Every scenario that consists of some logic before deciding what the tail call is going to be can be rewritten to have that logic inside each of the branches, I believe. * It does not interfere with static analysis (see further). * Tail call semantics may be easier to extend in the future to enable semantics that are not compactly representable in either proposal right now, by allowing a single top-level script may invoke multiple subscripts, or recursion. However, those sound even riskier and harder to analyse to me, and I don't think there is sufficient evidence they're needed. Native MAST outputs would need a new witness script version, which your current proposal does indeed not need. However, I believe a new script version will be desirable for other reasons regardless (returning invalid opcodes to the pool of NOPs available for softforks, for example). I will make a strong assertion: static analyzing the number of opcodes and sigops gets us absolutely nothing. It is cargo cult safety engineering. No need to perpetuate it when it is now in the way. I'm not sure I agree here. While I'd like to see the separate execution limits go away, removing them entirely and complicating future ability to introduce unified costing towards weight of execution cost seems the wrong way to go. My reasoning is this: perhaps you can currently make an argument that the current weight limit is sufficient in preventing overly expensive block validation costs, due to a minimal ratio between script sizes and their execution cost. But such an argument needs to rely on assumptions about sighash caching and low per-opcode CPU time, which may change in the future. In my view, tail call semantics gratuitously remove or complicate the ability to reason about the executed code. One suggestion to reduce the impact of this is limiting the per-script execution to something proportional to the script size. However, I don't think that addresses all potential concerns about static analysis (for example, it doesn't easily let you prove all possible execution paths to a participant in a smart contract). Another idea that has been suggested on this list is to mark pushes of potentially executable code on the stack/witness explicitly. This would retain all ability to analyse, while still leaving the flexibility of future extensions to tail call execution. If tail call semantics are adopted, I strongly prefer an approach like that to blindly throwing out all limits and analysis. [1] https://github.com/jl2012/bips/blob/mast/bip-mast.mediawiki Cheers, -- Pieter [-- Attachment #2: Type: text/html, Size: 5469 bytes --] ^ permalink raw reply [flat|nested] 10+ messages in thread
* Re: [bitcoin-dev] BIP 117 Feedback 2018-01-09 14:21 ` Pieter Wuille @ 2018-01-09 22:57 ` Mark Friedenbach 2018-01-12 10:48 ` Russell O'Connor 1 sibling, 0 replies; 10+ messages in thread From: Mark Friedenbach @ 2018-01-09 22:57 UTC (permalink / raw) To: Pieter Wuille; +Cc: Bitcoin Dev, Russell O'Connor, Kalle Alm [-- Attachment #1: Type: text/plain, Size: 10803 bytes --] I havent the hubris to suggest that we know exactly what a templated MAST *should* look like. It's not used in production anywhere. Even if we did have the foresight, the tail-call semantics allow for other constructions besides MAST and for the sake of the future we should allow such permission-less innovation. The proper sequence of events should be to enable features in a generic way, and then to create specialized templates to save space for common constructions. Not the other way around. We've been down the route of templating new features, and have made mistakes. P2SH is a canonical example, which BIP 117 is fixing. P2SH only provides 80 bits of security to a multi-party construction. Had we been designing BIP 16 now we probably would have used double-SHA256 instead of RIPEMD160. I will also assert that had we been using single-use tail-call semantics *instead* of BIP 16, recognition of this limitation would have resulted in us immediately defining a longer '3...' address which used HASH256 instead, and we would have immediately benefited from the fix. Instead we had to wait years until segwit gave us the opportunity to fix it at the same time. To take another example, in some ideal sense we probably shouldn't even be developing a programmable signature script framework. We should instead template a generic lightning-derived layer-2 protocol and use that for everything, including both payments (supporting cut-through) and payment channels for smart contracts. This may not be the majority technical opinion yet, but as someone working in this space I believe that's where we are headed: a single layer-2 protocol that's generic enough to use for all payment caching and smart contracts, while achieving a full anonymity set for all contracts, as closures look identical on the wire. Even if that's where things are headed, I hope it is clear that we are not yet at such a stage to standardize what that looks like. We still need many years of use of specialized lightning protocols and work to be done to make them more generic and applicable to other protocols. I believe the situation to be similar with MAST. Even if we have a better idea of what the MAST constructions will look like, *nobody* uses MAST in production yet, and there are bound to be implementation issues in rolling it out, or unique variants we do not have the foresight to see now. As a concrete example, BIP 116 has been modified since the initial proposal to allow multiple branches to be proven at once from a single Merkle tree root. To be honest, I don't know exactly how this will be used. We were able to come up with a couple of examples to justify inclusion of the feature, but I anticipate that someone down the line will come up with an even more creative use. Maybe a payment channel that uses a single tree to simultaneously commit to both the policy script and a sequence number. Or something like that. If we provide a templated, special-cased MAST now before it sees wide use then we will be locking in the protocol that we anticipate people using without having any production experience or ecosystem-wide review. Frankly that strikes me as a poor engineering decision. Finally, even if we had perfect foresight into how a feature will be used, which we don't, it is still the case that we would want to enable permission-less innovation with the generic construct, even if using it comes with a 40-byte or so witness hit. I make the argument for this in the "intuitive explanation of MAST" email I sent to this list back in September of last year. I will reproduce the argument below: https://lists.linuxfoundation.org/pipermail/bitcoin-dev/2017-September/015028.html The driving motivation for the tail-call and MBV proposals, and the reason they are presented and considered together is to enable Merklized Abstract Syntax Trees. However neither BIP actually defines a MAST template, except as an example use case of the primitive features. This is very much on purpose: it is the opinion of this author that new bitcoin consensus features should follow the UNIX philosophy as expressed by Peter Salus and Mike Gancarz and paraphrased by yours truly: * Write features that do one thing and do it well. * Write features to work together. * Simple is beautiful. By using modularity and composition of powerful but simple tools like MERKLEBRANCHVERIFY and single tail-call recursion to construct MAST we enable a complex and desirable feature while minimizing changes to the consensus code, review burden, and acquired technical debt. The reusability of the underlying primitives also means that they can be combined with other modular features to support use cases other than vanilla MAST, or reused in series to work around various limits that might otherwise be imposed on a templated form of MAST. At the moment the chief utility of these proposals is the straightforward MAST script written above, but as primitives they do allow a few other use cases and also combine well with features in the pipeline or on the drawing board. For example, in addition to MAST you can: 1. Use MERKLEBRANCHVERIFY alone to support honeypot bounties, as discussed in the BIP. 2. Use a series of MERKLEBRANCHVERIFY opcodes to verify a branch with split proofs to stay under script and witness push limitations. 3. Combine MERKLEBRANCHVERIFY with key aggregation to get Wuille-Maxwell tree signatures which support arbitrary signing policies using a single, aggregatable signature. 4. Combine tail-call execution semantics with CHECKSIGFROMSTACK to get delegation and signature-time commitment to subscript policy. 5. Combine MERKLEBRANCHVERIFY with a Merkle proof prefix check opcode and Lamport signature support to get reusable Lamport keys. I believe these benefits and possible future expansions to be strong arguments in favor of extending bitcoin in the form of small, modular, incremental, and reusable changes that can be combined and used even in ways unforeseen even by their creators, creating a platform for unrestricted innovation. The alternative approach of rigid templates achieves the stated goals, perhaps even with slightly better encoding efficiency, but at the cost of requiring workaround for each future innovation. P2SH is just such an example -- we couldn't even upgrade to 128-bit security without designing an entirely different implementation because of the limitations of template pattern matching. > On Jan 9, 2018, at 11:21 PM, Pieter Wuille <pieter.wuille@gmail.com> wrote: > > On Jan 9, 2018 13:41, "Mark Friedenbach via bitcoin-dev" <bitcoin-dev@lists.linuxfoundation.org <mailto:bitcoin-dev@lists.linuxfoundation.org>> wrote: > The use of the alt stack is a hack for segwit script version 0 which has the clean stack rule. Anticipated future improvements here are to switch to a witness script version, and a new segwit output version which supports native MAST to save an additional 40 or so witness bytes. Either approach would allow getting rid of the alt stack hack. They are not part of the proposal now because it is better to do things incrementally, and because we anticipate usage of MAST to better inform these less generic changes. > > If the goal is to introduce a native MAST output type later, what is gained by first having the tailcall semantics? > > As far as I can see, this proposal does not have any benefits over Johnson Lau's MAST idea [1]: > * It is more compact, already giving us the space savings a native MAST version of the tail call semantics would bring. > * It does not need to work around limitations of push size limits or cleanstack rules. > * The implementation (of code I've seen) is easier to reason about, as it's just another case in VerifyScript (which you'd need for a native MAST output later too) without introducing jumps or loops inside EvalScript. > * It can express the same, as even though the MBV opcode supports proving multiple elements simultaneously, I don't see a way to use that in the tail call. Every scenario that consists of some logic before deciding what the tail call is going to be can be rewritten to have that logic inside each of the branches, I believe. > * It does not interfere with static analysis (see further). > * Tail call semantics may be easier to extend in the future to enable semantics that are not compactly representable in either proposal right now, by allowing a single top-level script may invoke multiple subscripts, or recursion. However, those sound even riskier and harder to analyse to me, and I don't think there is sufficient evidence they're needed. > > Native MAST outputs would need a new witness script version, which your current proposal does indeed not need. However, I believe a new script version will be desirable for other reasons regardless (returning invalid opcodes to the pool of NOPs available for softforks, for example). > > I will make a strong assertion: static analyzing the number of opcodes and sigops gets us absolutely nothing. It is cargo cult safety engineering. No need to perpetuate it when it is now in the way. > > I'm not sure I agree here. While I'd like to see the separate execution limits go away, removing them entirely and complicating future ability to introduce unified costing towards weight of execution cost seems the wrong way to go. > > My reasoning is this: perhaps you can currently make an argument that the current weight limit is sufficient in preventing overly expensive block validation costs, due to a minimal ratio between script sizes and their execution cost. But such an argument needs to rely on assumptions about sighash caching and low per-opcode CPU time, which may change in the future. In my view, tail call semantics gratuitously remove or complicate the ability to reason about the executed code. > > One suggestion to reduce the impact of this is limiting the per-script execution to something proportional to the script size. However, I don't think that addresses all potential concerns about static analysis (for example, it doesn't easily let you prove all possible execution paths to a participant in a smart contract). > > Another idea that has been suggested on this list is to mark pushes of potentially executable code on the stack/witness explicitly. This would retain all ability to analyse, while still leaving the flexibility of future extensions to tail call execution. If tail call semantics are adopted, I strongly prefer an approach like that to blindly throwing out all limits and analysis. > > [1] https://github.com/jl2012/bips/blob/mast/bip-mast.mediawiki <https://github.com/jl2012/bips/blob/mast/bip-mast.mediawiki> > > Cheers, > > -- > Pieter > [-- Attachment #2: Type: text/html, Size: 14072 bytes --] ^ permalink raw reply [flat|nested] 10+ messages in thread
* Re: [bitcoin-dev] BIP 117 Feedback 2018-01-09 14:21 ` Pieter Wuille 2018-01-09 22:57 ` Mark Friedenbach @ 2018-01-12 10:48 ` Russell O'Connor 2018-01-16 1:06 ` Rusty Russell 1 sibling, 1 reply; 10+ messages in thread From: Russell O'Connor @ 2018-01-12 10:48 UTC (permalink / raw) To: Pieter Wuille; +Cc: Bitcoin Dev, Russell O'Connor, Kalle Alm [-- Attachment #1: Type: text/plain, Size: 2643 bytes --] Putting aside for the moment the concerns that Pieter and Rusty have raised about BIP 117 (concerns which I agree with), is BIP 117 even a viable soft fork to begin with? When it comes to soft forks of Script, in the past there have been two kinds. The first kind is soft-forking new script semantics into NOPn codes. In this case, everyone ought to know that these op codes are reserved for future extensions and no one should be writing script that depends on NOPn having NOP behavior (For users who want real nop behaviour, there does exist a real NOP opcode). The second kind of soft-forking new script semantics is the reinterpretation of various wholesale scripts (historically via templates). Examples of this are Segwit and P2SH. In the case of Segwit, the scripts gaining new semantics were applied to a form of completely unsecured "anyone-can-spend" programs. Anyone who created such output prior to the activation of Segwit would know that anyone could claim ownership of those outputs, and therefore the possibility of losing the ability to spend legacy forms of these segwit-style outputs is arguably not harmful as no one in particular had ownership of such funds. The story for P2SH is somewhat similar: Prior to the activation of P2SH the creator of of P2SH style outputs would know that anyone could claim ownership of that style of output as soon as the hash preimage is published (in the mempool, for example). However, if I understand correctly, the situation for BIP 117 is entirely different. As far as I understand there is currently no restrictions about terminating a v0 witness program with a non-empty alt-stack, and there are no restrictions on leaving non-canonical boolean values on the main stack. There could already be commitments to V0 witness programs that, when executed in some reasonable context, leave a non-empty alt-stack and/or leave a non-canonical true value on the main stack. Unlike the P2SH or Segwit soft-forks, these existing commitments could be real outputs that currently confer non-trivial ownership over their associated funds. If BIP 117 were activated, these commitments would be subject to a new set of rules that didn't exist when the commitments were made. In particular, these funds could be rendered unspendable. Because segwit commitments are hashes of segwit programs, there is no way to even analyze the blockchain to determine if these commitments currently exist (and even if we could it probably woudln't be adequate protection). Naturally we shouldn't be making new rules that could, in principle, retroactively remove ownership of existing user's funds. > [-- Attachment #2: Type: text/html, Size: 3224 bytes --] ^ permalink raw reply [flat|nested] 10+ messages in thread
* Re: [bitcoin-dev] BIP 117 Feedback 2018-01-12 10:48 ` Russell O'Connor @ 2018-01-16 1:06 ` Rusty Russell 2018-01-16 3:27 ` Gregory Maxwell 2018-01-16 4:15 ` Luke Dashjr 0 siblings, 2 replies; 10+ messages in thread From: Rusty Russell @ 2018-01-16 1:06 UTC (permalink / raw) To: Russell O'Connor, Pieter Wuille Cc: Bitcoin Dev, Russell O'Connor, Kalle Alm "Russell O'Connor" <roconnor@blockstream.io> writes: > However, if I understand correctly, the situation for BIP 117 is entirely > different. As far as I understand there is currently no restrictions about > terminating a v0 witness program with a non-empty alt-stack, and there are > no restrictions on leaving non-canonical boolean values on the main stack. BIP-141: "The script must not fail, and result in exactly a single TRUE on the stack." And it has long been non-standard for P2SH scripts to not do the same (don't know exactly when). > There could already be commitments to V0 witness programs that, when > executed in some reasonable context, leave a non-empty alt-stack and/or > leave a non-canonical true value on the main stack. Unlike the P2SH or > Segwit soft-forks, these existing commitments could be real outputs that > currently confer non-trivial ownership over their associated funds. If BIP > 117 were activated, these commitments would be subject to a new set of > rules that didn't exist when the commitments were made. In particular, > these funds could be rendered unspendable. Because segwit commitments are > hashes of segwit programs, there is no way to even analyze the blockchain > to determine if these commitments currently exist (and even if we could it > probably woudln't be adequate protection). The rule AFAICT is "standard transactions must still work". This was violated with low-S, but the transformation was arguably trivial. OTOH, use of altstack is completely standard, though in practice it's unused and so only a theoretical concern. My concern remains unanswered: I want hard numbers on the worst-case time taken by sigops with the limit removed. It's about 120 usec per sigop (from [1]), so how bad could it be? I think Russell had an estimate like 1 in 3 ops, so 160 seconds to validate a block? Thanks, Rusty. [1] https://lists.linuxfoundation.org/pipermail/bitcoin-dev/2017-December/015346.html ^ permalink raw reply [flat|nested] 10+ messages in thread
* Re: [bitcoin-dev] BIP 117 Feedback 2018-01-16 1:06 ` Rusty Russell @ 2018-01-16 3:27 ` Gregory Maxwell 2018-01-16 4:15 ` Luke Dashjr 1 sibling, 0 replies; 10+ messages in thread From: Gregory Maxwell @ 2018-01-16 3:27 UTC (permalink / raw) To: Rusty Russell, Bitcoin Protocol Discussion Cc: Russell O'Connor, Kalle Alm On Tue, Jan 16, 2018 at 1:06 AM, Rusty Russell via bitcoin-dev <bitcoin-dev@lists.linuxfoundation.org> wrote: > The rule AFAICT is "standard transactions must still work". This was > violated with low-S, but the transformation was arguably trivial. That is my view, generally. Like any other principle, its applicability is modulated by the specific facts. For low-s the most critical mitigating specific facts were (in order of importance): Any third party could malleate non-conforming transactions to make them conform and that code to do this was written and run, that S-value malleation was being actively attacked at the time, and that the intention to eventually enforce lowS had been made clear a long time ahead and the vast majority of transactions were already conforming. In particular these facts meant that the change could not result in the confiscation of funds except in the case of a key-destroyed unconfirmed chain of timelock transactions which was already highly vulnerable due to the malleation attacks -- and even there, the non-standardness step itself wouldn't destroy the funds esp. given the malleation risk redemption of that sort of chain would probably be best accomplished with the collaboration of a miner. ^ permalink raw reply [flat|nested] 10+ messages in thread
* Re: [bitcoin-dev] BIP 117 Feedback 2018-01-16 1:06 ` Rusty Russell 2018-01-16 3:27 ` Gregory Maxwell @ 2018-01-16 4:15 ` Luke Dashjr 2018-01-16 8:39 ` Russell O'Connor 1 sibling, 1 reply; 10+ messages in thread From: Luke Dashjr @ 2018-01-16 4:15 UTC (permalink / raw) To: bitcoin-dev, Rusty Russell; +Cc: Russell O'Connor, Kalle Alm On Tuesday 16 January 2018 1:06:14 AM Rusty Russell via bitcoin-dev wrote: > "Russell O'Connor" <roconnor@blockstream.io> writes: > > However, if I understand correctly, the situation for BIP 117 is entirely > > different. As far as I understand there is currently no restrictions > > about terminating a v0 witness program with a non-empty alt-stack, and > > there are no restrictions on leaving non-canonical boolean values on the > > main stack. > > BIP-141: "The script must not fail, and result in exactly a single TRUE > on the stack." And it has long been non-standard for P2SH scripts to > not do the same (don't know exactly when). This doesn't affect the alt-stack (it's a completely separate stack). > The rule AFAICT is "standard transactions must still work". This was > violated with low-S, but the transformation was arguably trivial. > > OTOH, use of altstack is completely standard, though in practice it's > unused and so only a theoretical concern. I'm not aware of a single standard/BIP that uses the altstack at all. Luke ^ permalink raw reply [flat|nested] 10+ messages in thread
* Re: [bitcoin-dev] BIP 117 Feedback 2018-01-16 4:15 ` Luke Dashjr @ 2018-01-16 8:39 ` Russell O'Connor 0 siblings, 0 replies; 10+ messages in thread From: Russell O'Connor @ 2018-01-16 8:39 UTC (permalink / raw) To: Luke Dashjr; +Cc: Bitcoin Protocol Discussion, Russell O'Connor, Kalle Alm [-- Attachment #1: Type: text/plain, Size: 1363 bytes --] On Mon, Jan 15, 2018 at 11:15 PM, Luke Dashjr <luke@dashjr.org> wrote: > On Tuesday 16 January 2018 1:06:14 AM Rusty Russell via bitcoin-dev wrote: > > The rule AFAICT is "standard transactions must still work". This was > > violated with low-S, but the transformation was arguably trivial. > > > > OTOH, use of altstack is completely standard, though in practice it's > > unused and so only a theoretical concern. > > I'm not aware of a single standard/BIP that uses the altstack at all. > By "standard transaction" here, Rusty means that (P2SH or Segwit) scripts that use the alt-stack pass the standardness checks and will be relayed by recent Bitcoin Core software. ---- Regarding lowS: I think the more severe standardness change was the added requirement that (some of the) pubkeys in a multisig must be parsable. I have talked with people who cannot retrieve their funds now, when before they could. However, like lowS, this was only a change to the standardness rules and not a consensus change, so these funds are not necessarily permanently lost. They can be retrieved with miner help. I don't see how BIP 117, which is a change in consensus rules that could cause permanent loss of otherwise well-secured funds (in addition to the other issues raised about BIP 117), is even comparable to the previous changes in only the standardness rules. [-- Attachment #2: Type: text/html, Size: 1874 bytes --] ^ permalink raw reply [flat|nested] 10+ messages in thread
* Re: [bitcoin-dev] BIP 117 Feedback 2018-01-09 11:22 [bitcoin-dev] BIP 117 Feedback Rusty Russell 2018-01-09 12:40 ` Mark Friedenbach @ 2018-03-05 15:28 ` Johnson Lau 1 sibling, 0 replies; 10+ messages in thread From: Johnson Lau @ 2018-03-05 15:28 UTC (permalink / raw) To: Rusty Russell, bitcoin-dev, Mark Friedenbach Cc: Russell O'Connor, Kalle Alm Altstack in v0 P2WSH should be left untouched. If anyone is already using altstack, BIP117 would very likely confiscate those UTXOs because the altstack would unlikely be executable. Even in v1 witness, I think altstack should remain be a temporary data storage. The “(many scripts) concatinated together in reverse order to form a serialized script” in BIP117 is exactly the same security hole of Satoshi’s scriptSig + OP_CODESAPARATOR + scriptPubKey . That means it is possible to skip execution of scriptPubKey by using a scriptSig with an invalid push operation, so the whole concatenated script becomes a simple push. For SigOp limit, I think it’d become more and more difficult to maintain the current statical analyzability model as we try to introduce more functions. I think we should just migrate to a model of limiting sigop per weight, and count the actual number of sigop during execution. ( https://lists.linuxfoundation.org/pipermail/bitcoin-dev/2018-February/015764.html ) Actually, this approach is cheaper to analyse, as you only need to look at the witness size, and don’t need to look at the script at all. > On 9 Jan 2018, at 6:22 AM, Rusty Russell via bitcoin-dev <bitcoin-dev@lists.linuxfoundation.org> wrote: > > I've just re-read BIP 117, and I'm concerned about its flexibility. It > seems to be doing too much. > > The use of altstack is awkward, and makes me query this entire approach. > I understand that CLEANSTACK painted us into a corner here :( > > The simplest implementation of tail recursion would be a single blob: if > a single element is left on the altstack, pop and execute it. That > seems trivial to specify. The treatment of concatenation seems like > trying to run before we can walk. > > Note that if we restrict this for a specific tx version, we can gain > experience first and get fancier later. > > BIP 117 also drops SIGOP and opcode limits. This requires more > justification, in particular, measurements and bounds on execution > times. If this analysis has been done, I'm not aware of it. > > We could restore statically analyzability by rules like so: > 1. Only applied for tx version 3 segwit txs. > 2. For version 3, top element of stack is counted for limits (perhaps > with discount). > 3. The blob popped off for tail recursion must be identical to that top > element of the stack (ie. the one counted above). > > Again, future tx versions could drop such restrictions. > > Cheers, > Rusty. > _______________________________________________ > bitcoin-dev mailing list > bitcoin-dev@lists.linuxfoundation.org > https://lists.linuxfoundation.org/mailman/listinfo/bitcoin-dev ^ permalink raw reply [flat|nested] 10+ messages in thread
end of thread, other threads:[~2018-03-05 15:28 UTC | newest] Thread overview: 10+ messages (download: mbox.gz / follow: Atom feed) -- links below jump to the message on this page -- 2018-01-09 11:22 [bitcoin-dev] BIP 117 Feedback Rusty Russell 2018-01-09 12:40 ` Mark Friedenbach 2018-01-09 14:21 ` Pieter Wuille 2018-01-09 22:57 ` Mark Friedenbach 2018-01-12 10:48 ` Russell O'Connor 2018-01-16 1:06 ` Rusty Russell 2018-01-16 3:27 ` Gregory Maxwell 2018-01-16 4:15 ` Luke Dashjr 2018-01-16 8:39 ` Russell O'Connor 2018-03-05 15:28 ` Johnson Lau
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