Matt Corallo [ARCHIVE] on Nostr: 📅 Original date posted:2018-11-21 📝 Original message: Oh, also, obviously, the ...
📅 Original date posted:2018-11-21
📝 Original message:
Oh, also, obviously, the HTLC transactions need a pushme output, though
luckily only one for the side we expect to be broadcasting the transaction.
On 11/21/18 2:54 AM, Matt Corallo wrote:
> Not sure if others already realized this, but in thinking about our RBF
> policy hack from Adelaide a bit more, to allow the carve-out exception
> of "last tx in a package, which has only one unconfirmed ancestor" to
> always be available for the "honest party" when broadcasting a
> commitment transaction, we also need at least a CSV delay of 1 block on
> the HTLC transaction outputs (as otherwise those transactions could
> count as the carve-out tx).
>
> Matt
>
> On 11/21/18 2:17 AM, Rusty Russell wrote:
>> I'm also starting to implement this, to see what I missed!
>>
>> Original at https://github.com/lightningnetwork/lightning-rfc/pull/513
>>
>> Pasted here for your reading convenience:
>>
>> - Option is sticky; it set at open time, it stays with channel
>> - I didn't want to have to handle penalty txs on channels which switch
>> - We could, however, upgrade on splice.
>> - Feerate is fixed at 253
>> - `feerate_per_kw` is still in open /accept (just ignored):
>> multifund may want it.
>> - closing tx negotiates *upwards* not *downwards*
>> - Starting from base fee of commitment tx = 282 satoshi.
>> - to_remote output is always CSV delayed.
>> - pushme outputs are paid for by funder, but only exist if the matching
>> to_local/remote output exists.
>> - After 10 blocks, they become anyone-can-spend (they need to see the
>> to-local/remote witness script though).
>> - remotepubkey is not rotated.
>> - You must spend your pushme output; you may sweep for others.
>>
>> Signed-off-by: Rusty Russell <rusty at rustcorp.com.au>
>>
>> diff --git a/02-peer-protocol.md b/02-peer-protocol.md
>> index 7cf9ebf..6ec1155 100644
>> --- a/02-peer-protocol.md
>> +++ b/02-peer-protocol.md
>> @@ -133,7 +133,9 @@ node can offer.
>> (i.e. 1/4 the more normally-used 'satoshi per 1000 vbytes') that this
>> side will pay for commitment and HTLC transactions, as described in
>> [BOLT #3](03-transactions.md#fee-calculation) (this can be adjusted
>> -later with an `update_fee` message).
>> +later with an `update_fee` message). Note that if
>> +`option_simplified_commitment` is negotiated, this `feerate_per_kw`
>> +is treated as 253 for all transactions.
>> `to_self_delay` is the number of blocks that the other node's to-self
>> outputs must be delayed, using `OP_CHECKSEQUENCEVERIFY` delays; this
>> @@ -208,7 +210,8 @@ The receiving node MUST fail the channel if:
>> - `push_msat` is greater than `funding_satoshis` * 1000.
>> - `to_self_delay` is unreasonably large.
>> - `max_accepted_htlcs` is greater than 483.
>> - - it considers `feerate_per_kw` too small for timely processing or
>> unreasonably large.
>> + - if `option_simplified_commitment` is not negotiated:
>> + - it considers `feerate_per_kw` too small for timely processing
>> or unreasonably large.
>> - `funding_pubkey`, `revocation_basepoint`, `htlc_basepoint`,
>> `payment_basepoint`, or `delayed_payment_basepoint`
>> are not valid DER-encoded compressed secp256k1 pubkeys.
>> - `dust_limit_satoshis` is greater than `channel_reserve_satoshis`.
>> @@ -228,7 +231,7 @@ The *channel reserve* is specified by the peer's
>> `channel_reserve_satoshis`: 1%
>> The sender can unconditionally give initial funds to the receiver
>> using a non-zero `push_msat`, but even in this case we ensure that the
>> funder has sufficient remaining funds to pay fees and that one side
>> has some amount it can spend (which also implies there is at least one
>> non-dust output). Note that, like any other on-chain transaction, this
>> payment is not certain until the funding transaction has been
>> confirmed sufficiently (with a danger of double-spend until this
>> occurs) and may require a separate method to prove payment via
>> on-chain confirmation.
>> -The `feerate_per_kw` is generally only of concern to the sender (who
>> pays the fees), but there is also the fee rate paid by HTLC
>> transactions; thus, unreasonably large fee rates can also penalize the
>> recipient.
>> +The `feerate_per_kw` is generally only of concern to the sender (who
>> pays the fees), but there is also the fee rate paid by HTLC
>> transactions; thus, unreasonably large fee rates can also penalize the
>> recipient. It is ignored for `option_simplified_commitment`.
>> Separating the `htlc_basepoint` from the `payment_basepoint`
>> improves security: a node needs the secret associated with the
>> `htlc_basepoint` to produce HTLC signatures for the protocol, but the
>> secret for the `payment_basepoint` can be in cold storage.
>> @@ -340,6 +343,12 @@ This message introduces the `channel_id` to
>> identify the channel. It's derived f
>> #### Requirements
>> +Both peers:
>> + - if `option_simplified_commitment` was negotiated:
>> + - `option_simplified_commitment` applies to all commitment and
>> HTLC transactions
>> + - otherwise:
>> + - `option_simplified_commitment` does not apply to any commitment
>> or HTLC transactions
>> +
>> The sender MUST set:
>> - `channel_id` by exclusive-OR of the `funding_txid` and the
>> `funding_output_index` from the `funding_created` message.
>> - `signature` to the valid signature, using its `funding_pubkey`
>> for the initial commitment transaction, as defined in [BOLT
>> #3](03-transactions.md#commitment-transaction).
>> @@ -351,6 +360,12 @@ The recipient:
>> - on receipt of a valid `funding_signed`:
>> - SHOULD broadcast the funding transaction.
>> +#### Rationale
>> +
>> +We decide on `option_simplified_commitment` at this point when we
>> first have to generate the commitment
>> +transaction. Even if a later reconnection does not negotiate this
>> parameter, this channel will honor it.
>> +This simplifies channel state, particularly penalty transaction
>> handling.
>> +
>> ### The `funding_locked` Message
>> This message indicates that the funding transaction has reached the
>> `minimum_depth` asked for in `accept_channel`. Once both nodes have
>> sent this, the channel enters normal operating mode.
>> @@ -508,8 +523,11 @@ The funding node:
>> - SHOULD send a `closing_signed` message.
>> The sending node:
>> - - MUST set `fee_satoshis` less than or equal to the
>> - base fee of the final commitment transaction, as calculated in [BOLT
>> #3](03-transactions.md#fee-calculation).
>> + - if `option_upfront_shutdown_script` applies to the final
>> commitment transaction:
>> + - MUST set `fee_satoshis` greater than or equal to 282.
>> + - otherwise:
>> + - MUST set `fee_satoshis` less than or equal to the
>> + base fee of the final commitment transaction, as calculated in
>> [BOLT #3](03-transactions.md#fee-calculation).
>> - SHOULD set the initial `fee_satoshis` according to its
>> estimate of cost of inclusion in a block.
>> - MUST set `signature` to the Bitcoin signature of the close
>> @@ -543,9 +561,18 @@ progress is made, even if only by a single
>> satoshi at a time. To avoid
>> keeping state and to handle the corner case, where fees have shifted
>> between disconnection and reconnection, negotiation restarts on
>> reconnection.
>> -Note there is limited risk if the closing transaction is
>> -delayed, but it will be broadcast very soon; so there is usually no
>> -reason to pay a premium for rapid processing.
>> +In the `option_simplified_commitment` case, the fees on the commitment
>> +transaction itself are minimal (it is assumed that a child
>> transaction will
>> +supply additional fee incentive), so that forms a floor for negotiation.
>> +[BOLT #3](03-transactions.md#fee-calculation), gives 282 satoshis (1116
>> +weight, 254 `feerate_per_kw`).
>> +
>> +Otherwise, the commitment transaction usually pays a premium fee, so
>> that
>> +forms a ceiling.
>> +
>> +Note there is limited risk if the closing transaction is delayed, but
>> it will
>> +be broadcast very soon; so there is usually no reason to pay a
>> premium for
>> +rapid processing.
>> ## Normal Operation
>> @@ -763,7 +790,10 @@ is destined, is described in [BOLT
>> #4](04-onion-routing.md).
>> A sending node:
>> - MUST NOT offer `amount_msat` it cannot pay for in the
>> remote commitment transaction at the current `feerate_per_kw` (see
>> "Updating
>> -Fees") while maintaining its channel reserve.
>> +Fees") while maintaining its channel reserve
>> + - if `option_simplified_commitment` applies to this commitment
>> transaction and the sending
>> + node is the funder:
>> + - MUST be able to additionally pay for `to_local_pushme` and
>> `to_remote_pushme` above its reserve.
>> - MUST offer `amount_msat` greater than 0.
>> - MUST NOT offer `amount_msat` below the receiving node's
>> `htlc_minimum_msat`
>> - MUST set `cltv_expiry` less than 500000000.
>> @@ -782,7 +812,7 @@ Fees") while maintaining its channel reserve.
>> A receiving node:
>> - receiving an `amount_msat` equal to 0, OR less than its own
>> `htlc_minimum_msat`:
>> - SHOULD fail the channel.
>> - - receiving an `amount_msat` that the sending node cannot afford at
>> the current `feerate_per_kw` (while maintaining its channel reserve):
>> + - receiving an `amount_msat` that the sending node cannot afford at
>> the current `feerate_per_kw` (while maintaining its channel reserve
>> and any `to_local_pushme` and `to_remote_pushme` fees):
>> - SHOULD fail the channel.
>> - if a sending node adds more than its `max_accepted_htlcs` HTLCs to
>> its local commitment transaction, OR adds more than its
>> `max_htlc_value_in_flight_msat` worth of offered HTLCs to its local
>> commitment transaction:
>> @@ -997,6 +1027,11 @@ A node:
>> ### Updating Fees: `update_fee`
>> +If `option_simplified_commitment` applies to the commitment transaction,
>> +`update_fee` is never used: the `feerate_per_kw` is always considered
>> 253, but
>> +the funder also pays 2000 satoshi for the `to_local_pushme` and
>> +`to_remote_pushme` outputs.
>> +
>> An `update_fee` message is sent by the node which is paying the
>> Bitcoin fee. Like any update, it's first committed to the receiver's
>> commitment transaction and then (once acknowledged) committed to the
>> @@ -1020,13 +1055,19 @@ given in [BOLT
>> #3](03-transactions.md#fee-calculation).
>> #### Requirements
>> The node _responsible_ for paying the Bitcoin fee:
>> - - SHOULD send `update_fee` to ensure the current fee rate is
>> sufficient (by a
>> + - if `option_simplified_commitment` applies to the commitment
>> transaction:
>> + - MUST NOT send `update_fee`.
>> + - otherwise:
>> + - SHOULD send `update_fee` to ensure the current fee rate is
>> sufficient (by a
>> significant margin) for timely processing of the commitment
>> transaction.
>> The node _not responsible_ for paying the Bitcoin fee:
>> - MUST NOT send `update_fee`.
>> A receiving node:
>> + - if `option_simplified_commitment` applies to the commitment
>> transaction:
>> + - SHOULD fail the channel.
>> + - MUST NOT update the `feerate_per_kw`.
>> - if the `update_fee` is too low for timely processing, OR is
>> unreasonably large:
>> - SHOULD fail the channel.
>> - if the sender is not responsible for paying the Bitcoin fee:
>> @@ -1038,7 +1079,12 @@ A receiving node:
>> #### Rationale
>> -Bitcoin fees are required for unilateral closes to be effective —
>> +Fee adjustments are unnecessary for `option_simplified_commitment` which
>> +relies on "pushme" outputs and a child transaction which will provide
>> +additional fee incentive which can be calculated at the time it is
>> spent, and
>> +replaced by higher-fee children if required.
>> +
>> +Without this option, bitcoin fees are required for unilateral closes
>> to be effective —
>> particularly since there is no general method for the broadcasting
>> node to use
>> child-pays-for-parent to increase its effective fee.
>> diff --git a/03-transactions.md b/03-transactions.md
>> index e769961..440bd0d 100644
>> --- a/03-transactions.md
>> +++ b/03-transactions.md
>> @@ -82,6 +82,8 @@ To allow an opportunity for penalty transactions, in
>> case of a revoked commitmen
>> The reason for the separate transaction stage for HTLC outputs is so
>> that HTLCs can timeout or be fulfilled even though they are within the
>> `to_self_delay` delay.
>> Otherwise, the required minimum timeout on HTLCs is lengthened by
>> this delay, causing longer timeouts for HTLCs traversing the network.
>> +If `option_simplified_commitment` applies to the commitment
>> transaction, then the `to_self_delay` used for all transactions is the
>> greater of the `to_self_delay` sent by each peer. Otherwise, each
>> peer sends the `to_self_delay` to be used for the other peer's
>> commitment amd HTLC transactions.
>> +
>> The amounts for each output MUST be rounded down to whole satoshis.
>> If this amount, minus the fees for the HTLC transaction, is less than
>> the `dust_limit_satoshis` set by the owner of the commitment
>> transaction, the output MUST NOT be produced (thus the funds add to
>> fees).
>> #### `to_local` Output
>> @@ -109,7 +111,40 @@ If a revoked commitment transaction is published,
>> the other party can spend this
>> #### `to_remote` Output
>> -This output sends funds to the other peer and thus is a simple P2WPKH
>> to `remotepubkey`.
>> +This output sends funds to the other peer, thus is not encumbered by a
>> +revocation private key.
>> +
>> +If `option_simplified_commitment` applies to the commitment
>> transaction, the `to_remote` output is delayed similarly to the
>> `to_local` output, and is to a fixed key:
>> +
>> + `to_self_delay`
>> + OP_CSV
>> + OP_DROP
>> + <remote_pubkey>
>> +
>> +The output is spent by a transaction with `nSequence` field set to
>> `to_self_delay` (which can only be valid after that duration has
>> passed) and witness:
>> +
>> + <remote_sig>
>> +
>> +Otherwise, this output is a simple P2WPKH to `remotepubkey`.
>> +
>> +
>> +#### `to_local_pushme` and `to_remote_pushme` Output
>> (option_simplified_commitment)
>> +
>> +This output can be spent by the local and remote nodes respectivey to
>> provide incentive to mine the transaction, using
>> child-pays-for-parent. They are only added if the `to_local` and
>> `to_remote` outputs exist, respectively.
>> +
>> + OP_DEPTH
>> + OP_IF
>> + <pubkey> OP_CHECKSIG
>> + OP_ELSE
>> + 10 OP_CSV
>> + OP_ENDIF
>> +
>> +The `<pubkey>` is `<local_delayedpubkey>` to `to_local_pushme` and
>> +`<remote_delayedpubkey>` for `to_remote_pushme`. The output amount is
>> +1000 satoshi, to encourage spending of the output. Once the
>> +`remote_pubkey` is revealed (by spending the `to_local` output) and
>> +the commitment transaction is 10 blocks deep, anyone can spend it.
>> +
>> #### Offered HTLC Outputs
>> @@ -294,6 +329,9 @@ The fee calculation for both commitment
>> transactions and HTLC
>> transactions is based on the current `feerate_per_kw` and the
>> *expected weight* of the transaction.
>> +Note that if `option_simplified_commitment` applies to the commitment
>> +transaction then `feerate_per_kw` is 253.
>> +
>> The actual and expected weights vary for several reasons:
>> * Bitcoin uses DER-encoded signatures, which vary in size.
>> @@ -306,10 +344,12 @@ Thus, a simplified formula for *expected weight*
>> is used, which assumes:
>> * Signatures are 73 bytes long (the maximum length).
>> * There are a small number of outputs (thus 1 byte to count them).
>> * There are always both a `to_local` output and a `to_remote` output.
>> +* (if `option_simplified_commitment`) there are always both a
>> `to_local_pushme` and `to_remote_pushme` output.
>> This yields the following *expected weights* (details of the
>> computation in [Appendix A](#appendix-a-expected-weights)):
>> - Commitment weight: 724 + 172 * num-untrimmed-htlc-outputs
>> + Commitment weight (no option_simplified_commitment): 724 + 172
>> * num-untrimmed-htlc-outputs
>> + Commitment weight (option_simplified_commitment: 1116 + 172 *
>> num-untrimmed-htlc-outputs
>> HTLC-timeout weight: 663
>> HTLC-success weight: 703
>> @@ -366,7 +406,7 @@ outputs) is 7140 satoshi. The final fee may be
>> even higher if the
>> ### Fee Payment
>> -Base commitment transaction fees are extracted from the funder's
>> amount; if that amount is insufficient, the entire amount of the
>> funder's output is used.
>> +Base commitment transaction fees and amounts for `to_local_pushme`
>> and `to_remote_pushme` outputs are extracted from the funder's amount;
>> if that amount is insufficient, the entire amount of the funder's
>> output is used.
>> Note that after the fee amount is subtracted from the to-funder output,
>> that output may be below `dust_limit_satoshis`, and thus will also
>> @@ -390,23 +430,29 @@ committed HTLCs:
>> 2. Calculate the base [commitment transaction fee](#fee-calculation).
>> 3. Subtract this base fee from the funder (either `to_local` or
>> `to_remote`),
>> with a floor of 0 (see [Fee Payment](#fee-payment)).
>> +4. If `option_simplified_commitment` applies to the commitment
>> transaction,
>> + subtract 2000 satoshis from the funder (either `to_local` or
>> `to_remote`).
>> 3. For every offered HTLC, if it is not trimmed, add an
>> [offered HTLC output](#offered-htlc-outputs).
>> 4. For every received HTLC, if it is not trimmed, add an
>> [received HTLC output](#received-htlc-outputs).
>> 5. If the `to_local` amount is greater or equal to
>> `dust_limit_satoshis`,
>> add a [`to_local` output](#to_local-output).
>> +6. If `option_simplified_commitment` applies to the commitment
>> transaction,
>> + and `to_local` was added, add `to_local_pushme`.
>> 6. If the `to_remote` amount is greater or equal to
>> `dust_limit_satoshis`,
>> add a [`to_remote` output](#to_remote-output).
>> +6. If `option_simplified_commitment` applies to the commitment
>> transaction,
>> + and `to_remote` was added, add `to_remote_pushme`.
>> 7. Sort the outputs into [BIP 69
>> order](#transaction-input-and-output-ordering).
>> # Keys
>> ## Key Derivation
>> -Each commitment transaction uses a unique set of keys: `localpubkey`
>> and `remotepubkey`.
>> +Each commitment transaction uses a unique `localpubkey`, and a
>> `remotepubkey`.
>> The HTLC-success and HTLC-timeout transactions use
>> `local_delayedpubkey` and `revocationpubkey`.
>> -These are changed for every transaction based on the
>> `per_commitment_point`.
>> +These are changed for every transaction based on the
>> `per_commitment_point`, with the exception of `remotepubkey` if
>> `option_simplified_commitment` is negotiated.
>> The reason for key change is so that trustless watching for revoked
>> transactions can be outsourced. Such a _watcher_ should not be able to
>> @@ -419,8 +465,9 @@ avoid storage of every commitment transaction, a
>> _watcher_ can be given the
>> the scripts required for the penalty transaction; thus, a _watcher_
>> need only be
>> given (and store) the signatures for each penalty input.
>> -Changing the `localpubkey` and `remotepubkey` every time ensures that
>> commitment
>> -transaction ID cannot be guessed; every commitment transaction uses
>> an ID
>> +Changing the `localpubkey` every time ensures that commitment
>> +transaction ID cannot be guessed except in the trivial case where
>> there is no
>> +`to_local` output, as every commitment transaction uses an ID
>> in its output script. Splitting the `local_delayedpubkey`, which is
>> required for
>> the penalty transaction, allows it to be shared with the _watcher_
>> without
>> revealing `localpubkey`; even if both peers use the same _watcher_,
>> nothing is revealed.
>> @@ -434,14 +481,13 @@ For efficiency, keys are generated from a series
>> of per-commitment secrets
>> that are generated from a single seed, which allows the receiver to
>> compactly
>> store them (see [below](#efficient-per-commitment-secret-storage)).
>> -### `localpubkey`, `remotepubkey`, `local_htlcpubkey`,
>> `remote_htlcpubkey`, `local_delayedpubkey`, and `remote_delayedpubkey`
>> Derivation
>> +### `localpubkey``local_htlcpubkey`, `remote_htlcpubkey`,
>> `local_delayedpubkey`, and `remote_delayedpubkey` Derivation
>> These pubkeys are simply generated by addition from their base points:
>> pubkey = basepoint + SHA256(per_commitment_point || basepoint) * G
>> -The `localpubkey` uses the local node's `payment_basepoint`; the
>> `remotepubkey`
>> -uses the remote node's `payment_basepoint`; the `local_delayedpubkey`
>> +The `localpubkey` uses the local node's `payment_basepoint`; the
>> `local_delayedpubkey`
>> uses the local node's `delayed_payment_basepoint`; the
>> `local_htlcpubkey` uses the
>> local node's `htlc_basepoint`; and the `remote_delayedpubkey` uses
>> the remote
>> node's `delayed_payment_basepoint`.
>> @@ -451,6 +497,17 @@ secrets are known (i.e. the private keys
>> corresponding to `localpubkey`, `local_
>> privkey = basepoint_secret + SHA256(per_commitment_point ||
>> basepoint)
>> +### `remotepubkey` Derivation
>> +
>> +If `option_simplified_commitment` is negotiated the `remotepubkey` is
>> simply the remote node's `payment_basepoint`, otherwise it is
>> calculated as above using the remote node's `payment_basepoint`.
>> +
>> +The simplified derivation means that a node can spend a commitment
>> +transaction even if it has lost data and doesn't know the
>> +corresponding `payment_basepoint`. A watchtower could correlate
>> +transactions given to it which only have a `to_remote` output if it
>> +sees one of them onchain, but such transactions do not need any
>> +enforcement and should not be handed to a watchtower.
>> +
>> ### `revocationpubkey` Derivation
>> The `revocationpubkey` is a blinded key: when the local node wishes
>> to create a new
>> @@ -636,12 +693,22 @@ The *expected weight* of a commitment
>> transaction is calculated as follows:
>> - var_int: 1 byte (pk_script length)
>> - pk_script (p2wsh): 34 bytes
>> - output_paying_to_remote: 31 bytes
>> + output_paying_to_remote (no option_simplified_commitment): 31 bytes
>> - value: 8 bytes
>> - var_int: 1 byte (pk_script length)
>> - pk_script (p2wpkh): 22 bytes
>> - htlc_output: 43 bytes
>> + output_paying_to_remote (option_simplified_commitment): 43 bytes
>> + - value: 8 bytes
>> + - var_int: 1 byte (pk_script length)
>> + - pk_script (p2wsh): 34 bytes
>> +
>> + output_pushme (option_simplified_commitment): 43 bytes
>> + - value: 8 bytes
>> + - var_int: 1 byte (pk_script length)
>> + - pk_script (p2wsh): 34 bytes
>> +
>> + htlc_output: 43 bytes
>> - value: 8 bytes
>> - var_int: 1 byte (pk_script length)
>> - pk_script (p2wsh): 34 bytes
>> @@ -650,7 +717,7 @@ The *expected weight* of a commitment transaction
>> is calculated as follows:
>> - flag: 1 byte
>> - marker: 1 byte
>> - commitment_transaction: 125 + 43 * num-htlc-outputs bytes
>> + commitment_transaction (no option_simplified_commitment): 125 +
>> 43 * num-htlc-outputs bytes
>> - version: 4 bytes
>> - witness_header <---- part of the witness data
>> - count_tx_in: 1 byte
>> @@ -663,15 +730,32 @@ The *expected weight* of a commitment
>> transaction is calculated as follows:
>> ....htlc_output's...
>> - lock_time: 4 bytes
>> + commitment_transaction (option_simplified_commitment): 223 + 43
>> * num-htlc-outputs bytes
>> + - version: 4 bytes
>> + - witness_header <---- part of the witness data
>> + - count_tx_in: 1 byte
>> + - tx_in: 41 bytes
>> + funding_input
>> + - count_tx_out: 1 byte
>> + - tx_out: 172 + 43 * num-htlc-outputs bytes
>> + output_paying_to_remote,
>> + output_paying_to_local,
>> + output_pushme,
>> + output_pushme,
>> + ....htlc_output's...
>> + - lock_time: 4 bytes
>> +
>> Multiplying non-witness data by 4 results in a weight of:
>> - // 500 + 172 * num-htlc-outputs weight
>> + // 500 + 172 * num-htlc-outputs weight (no
>> option_simplified_commitment)
>> + // 892 + 172 * num-htlc-outputs weight
>> (option_simplified_commitment)
>> commitment_transaction_weight = 4 * commitment_transaction
>> // 224 weight
>> witness_weight = witness_header + witness
>> - overall_weight = 500 + 172 * num-htlc-outputs + 224 weight
>> + overall_weight (no option_simplified_commitment) = 500 + 172 *
>> num-htlc-outputs + 224 weight
>> + overall_weight (option_simplified_commitment) = 892 + 172 *
>> num-htlc-outputs + 224 weight
>> ## Expected Weight of HTLC-timeout and HTLC-success Transactions
>> diff --git a/05-onchain.md b/05-onchain.md
>> index 231c209..c5fb5e1 100644
>> --- a/05-onchain.md
>> +++ b/05-onchain.md
>> @@ -89,21 +89,29 @@ trigger any action.
>> # Commitment Transaction
>> The local and remote nodes each hold a *commitment transaction*.
>> Each of these
>> -commitment transactions has four types of outputs:
>> +commitment transactions has six types of outputs:
>> 1. _local node's main output_: Zero or one output, to pay to the
>> *local node's*
>> -commitment pubkey.
>> +delayed pubkey.
>> 2. _remote node's main output_: Zero or one output, to pay to the
>> *remote node's*
>> -commitment pubkey.
>> +pubkey.
>> +1. _local node's push output_: Zero or one output, to pay to the
>> *local node's*
>> +delayed pubkey.
>> +2. _remote node's push output_: Zero or one output, to pay to the
>> *remote node's*
>> +pubkey.
>> 3. _local node's offered HTLCs_: Zero or more pending payments
>> (*HTLCs*), to pay
>> the *remote node* in return for a payment preimage.
>> 4. _remote node's offered HTLCs_: Zero or more pending payments
>> (*HTLCs*), to
>> pay the *local node* in return for a payment preimage.
>> To incentivize the local and remote nodes to cooperate, an
>> `OP_CHECKSEQUENCEVERIFY`
>> -relative timeout encumbers the *local node's outputs* (in the *local
>> node's
>> +relative timeout encumbers some outputs: the *local node's outputs*
>> (in the *local node's
>> commitment transaction*) and the *remote node's outputs* (in the
>> *remote node's
>> -commitment transaction*). So for example, if the local node publishes
>> its
>> +commitment transaction*). If `option_simplified_commitment` applies
>> +to the commitment transaction, then the *to_remote* output of each
>> commitment is
>> +identically encumbered, for fairness.
>> +
>> +Without `option_simplified_commitment`, if the local node publishes its
>> commitment transaction, it will have to wait to claim its own funds,
>> whereas the remote node will have immediate access to its own funds.
>> As a
>> consequence, the two commitment transactions are not identical, but
>> they are
>> @@ -140,6 +148,11 @@ A node:
>> - otherwise:
>> - MUST use the *last commitment transaction*, for which it
>> has a
>> signature, to perform a *unilateral close*.
>> + - MUST spend any `to_local_pushme` output, providing sufficient
>> fees as incentive to include the commitment transaction in a block
>> + - SHOULD use
>> [replace-by-fee](https://github.com/bitcoin/bips/blob/master/bip-0125.mediawiki)
>> or other mechanism on the spending transaction if it proves
>> insufficient for timely inclusion in a block.
>> +
>> +A node:
>> + - MAY monitor the blockchain for unspent `to_local_pushme` and
>> `to_remote_pushme` outputs and try to spend them after 10 confirmations.
>> ## Rationale
>> @@ -154,7 +167,8 @@ need not consume resources monitoring the channel
>> state.
>> There exists a bias towards preferring mutual closes over unilateral
>> closes,
>> because outputs of the former are unencumbered by a delay and are
>> directly
>> spendable by wallets. In addition, mutual close fees tend to be less
>> exaggerated
>> -than those of commitment transactions. So, the only reason not to use
>> the
>> +than those of commitment transactions (or in the case of
>> `option_simplified_commitment`,
>> +the commitment transaction may require a child transaction to cause
>> it to be mined). So, the only reason not to use the
>> signature from `closing_signed` would be if the fee offered was too
>> small for
>> it to be processed.
>> diff --git a/09-features.md b/09-features.md
>> index d06fcff..caea38b 100644
>> --- a/09-features.md
>> +++ b/09-features.md
>> @@ -26,6 +26,7 @@ These flags may only be used in the `init` message:
>> | 3 | `initial_routing_sync` | Indicates that the sending node
>> needs a complete routing information dump | [BOLT
>> #7](07-routing-gossip.md#initial-sync) |
>> | 4/5 | `option_upfront_shutdown_script` | Commits to a shutdown
>> scriptpubkey when opening channel | [BOLT
>> #2](02-peer-protocol.md#the-open_channel-message) |
>> | 6/7 | `gossip_queries` | More sophisticated gossip
>> control | [BOLT #7](07-routing-gossip.md#query-messages) |
>> +| 8/9 | `option_simplified_commitment` | Simplified
>> commitment transactions | [BOLT #3](03-transactions.md) |
>> ## Assigned `globalfeatures` flags
>> _______________________________________________
>> Lightning-dev mailing list
>> 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
📝 Original message:
Oh, also, obviously, the HTLC transactions need a pushme output, though
luckily only one for the side we expect to be broadcasting the transaction.
On 11/21/18 2:54 AM, Matt Corallo wrote:
> Not sure if others already realized this, but in thinking about our RBF
> policy hack from Adelaide a bit more, to allow the carve-out exception
> of "last tx in a package, which has only one unconfirmed ancestor" to
> always be available for the "honest party" when broadcasting a
> commitment transaction, we also need at least a CSV delay of 1 block on
> the HTLC transaction outputs (as otherwise those transactions could
> count as the carve-out tx).
>
> Matt
>
> On 11/21/18 2:17 AM, Rusty Russell wrote:
>> I'm also starting to implement this, to see what I missed!
>>
>> Original at https://github.com/lightningnetwork/lightning-rfc/pull/513
>>
>> Pasted here for your reading convenience:
>>
>> - Option is sticky; it set at open time, it stays with channel
>> - I didn't want to have to handle penalty txs on channels which switch
>> - We could, however, upgrade on splice.
>> - Feerate is fixed at 253
>> - `feerate_per_kw` is still in open /accept (just ignored):
>> multifund may want it.
>> - closing tx negotiates *upwards* not *downwards*
>> - Starting from base fee of commitment tx = 282 satoshi.
>> - to_remote output is always CSV delayed.
>> - pushme outputs are paid for by funder, but only exist if the matching
>> to_local/remote output exists.
>> - After 10 blocks, they become anyone-can-spend (they need to see the
>> to-local/remote witness script though).
>> - remotepubkey is not rotated.
>> - You must spend your pushme output; you may sweep for others.
>>
>> Signed-off-by: Rusty Russell <rusty at rustcorp.com.au>
>>
>> diff --git a/02-peer-protocol.md b/02-peer-protocol.md
>> index 7cf9ebf..6ec1155 100644
>> --- a/02-peer-protocol.md
>> +++ b/02-peer-protocol.md
>> @@ -133,7 +133,9 @@ node can offer.
>> (i.e. 1/4 the more normally-used 'satoshi per 1000 vbytes') that this
>> side will pay for commitment and HTLC transactions, as described in
>> [BOLT #3](03-transactions.md#fee-calculation) (this can be adjusted
>> -later with an `update_fee` message).
>> +later with an `update_fee` message). Note that if
>> +`option_simplified_commitment` is negotiated, this `feerate_per_kw`
>> +is treated as 253 for all transactions.
>> `to_self_delay` is the number of blocks that the other node's to-self
>> outputs must be delayed, using `OP_CHECKSEQUENCEVERIFY` delays; this
>> @@ -208,7 +210,8 @@ The receiving node MUST fail the channel if:
>> - `push_msat` is greater than `funding_satoshis` * 1000.
>> - `to_self_delay` is unreasonably large.
>> - `max_accepted_htlcs` is greater than 483.
>> - - it considers `feerate_per_kw` too small for timely processing or
>> unreasonably large.
>> + - if `option_simplified_commitment` is not negotiated:
>> + - it considers `feerate_per_kw` too small for timely processing
>> or unreasonably large.
>> - `funding_pubkey`, `revocation_basepoint`, `htlc_basepoint`,
>> `payment_basepoint`, or `delayed_payment_basepoint`
>> are not valid DER-encoded compressed secp256k1 pubkeys.
>> - `dust_limit_satoshis` is greater than `channel_reserve_satoshis`.
>> @@ -228,7 +231,7 @@ The *channel reserve* is specified by the peer's
>> `channel_reserve_satoshis`: 1%
>> The sender can unconditionally give initial funds to the receiver
>> using a non-zero `push_msat`, but even in this case we ensure that the
>> funder has sufficient remaining funds to pay fees and that one side
>> has some amount it can spend (which also implies there is at least one
>> non-dust output). Note that, like any other on-chain transaction, this
>> payment is not certain until the funding transaction has been
>> confirmed sufficiently (with a danger of double-spend until this
>> occurs) and may require a separate method to prove payment via
>> on-chain confirmation.
>> -The `feerate_per_kw` is generally only of concern to the sender (who
>> pays the fees), but there is also the fee rate paid by HTLC
>> transactions; thus, unreasonably large fee rates can also penalize the
>> recipient.
>> +The `feerate_per_kw` is generally only of concern to the sender (who
>> pays the fees), but there is also the fee rate paid by HTLC
>> transactions; thus, unreasonably large fee rates can also penalize the
>> recipient. It is ignored for `option_simplified_commitment`.
>> Separating the `htlc_basepoint` from the `payment_basepoint`
>> improves security: a node needs the secret associated with the
>> `htlc_basepoint` to produce HTLC signatures for the protocol, but the
>> secret for the `payment_basepoint` can be in cold storage.
>> @@ -340,6 +343,12 @@ This message introduces the `channel_id` to
>> identify the channel. It's derived f
>> #### Requirements
>> +Both peers:
>> + - if `option_simplified_commitment` was negotiated:
>> + - `option_simplified_commitment` applies to all commitment and
>> HTLC transactions
>> + - otherwise:
>> + - `option_simplified_commitment` does not apply to any commitment
>> or HTLC transactions
>> +
>> The sender MUST set:
>> - `channel_id` by exclusive-OR of the `funding_txid` and the
>> `funding_output_index` from the `funding_created` message.
>> - `signature` to the valid signature, using its `funding_pubkey`
>> for the initial commitment transaction, as defined in [BOLT
>> #3](03-transactions.md#commitment-transaction).
>> @@ -351,6 +360,12 @@ The recipient:
>> - on receipt of a valid `funding_signed`:
>> - SHOULD broadcast the funding transaction.
>> +#### Rationale
>> +
>> +We decide on `option_simplified_commitment` at this point when we
>> first have to generate the commitment
>> +transaction. Even if a later reconnection does not negotiate this
>> parameter, this channel will honor it.
>> +This simplifies channel state, particularly penalty transaction
>> handling.
>> +
>> ### The `funding_locked` Message
>> This message indicates that the funding transaction has reached the
>> `minimum_depth` asked for in `accept_channel`. Once both nodes have
>> sent this, the channel enters normal operating mode.
>> @@ -508,8 +523,11 @@ The funding node:
>> - SHOULD send a `closing_signed` message.
>> The sending node:
>> - - MUST set `fee_satoshis` less than or equal to the
>> - base fee of the final commitment transaction, as calculated in [BOLT
>> #3](03-transactions.md#fee-calculation).
>> + - if `option_upfront_shutdown_script` applies to the final
>> commitment transaction:
>> + - MUST set `fee_satoshis` greater than or equal to 282.
>> + - otherwise:
>> + - MUST set `fee_satoshis` less than or equal to the
>> + base fee of the final commitment transaction, as calculated in
>> [BOLT #3](03-transactions.md#fee-calculation).
>> - SHOULD set the initial `fee_satoshis` according to its
>> estimate of cost of inclusion in a block.
>> - MUST set `signature` to the Bitcoin signature of the close
>> @@ -543,9 +561,18 @@ progress is made, even if only by a single
>> satoshi at a time. To avoid
>> keeping state and to handle the corner case, where fees have shifted
>> between disconnection and reconnection, negotiation restarts on
>> reconnection.
>> -Note there is limited risk if the closing transaction is
>> -delayed, but it will be broadcast very soon; so there is usually no
>> -reason to pay a premium for rapid processing.
>> +In the `option_simplified_commitment` case, the fees on the commitment
>> +transaction itself are minimal (it is assumed that a child
>> transaction will
>> +supply additional fee incentive), so that forms a floor for negotiation.
>> +[BOLT #3](03-transactions.md#fee-calculation), gives 282 satoshis (1116
>> +weight, 254 `feerate_per_kw`).
>> +
>> +Otherwise, the commitment transaction usually pays a premium fee, so
>> that
>> +forms a ceiling.
>> +
>> +Note there is limited risk if the closing transaction is delayed, but
>> it will
>> +be broadcast very soon; so there is usually no reason to pay a
>> premium for
>> +rapid processing.
>> ## Normal Operation
>> @@ -763,7 +790,10 @@ is destined, is described in [BOLT
>> #4](04-onion-routing.md).
>> A sending node:
>> - MUST NOT offer `amount_msat` it cannot pay for in the
>> remote commitment transaction at the current `feerate_per_kw` (see
>> "Updating
>> -Fees") while maintaining its channel reserve.
>> +Fees") while maintaining its channel reserve
>> + - if `option_simplified_commitment` applies to this commitment
>> transaction and the sending
>> + node is the funder:
>> + - MUST be able to additionally pay for `to_local_pushme` and
>> `to_remote_pushme` above its reserve.
>> - MUST offer `amount_msat` greater than 0.
>> - MUST NOT offer `amount_msat` below the receiving node's
>> `htlc_minimum_msat`
>> - MUST set `cltv_expiry` less than 500000000.
>> @@ -782,7 +812,7 @@ Fees") while maintaining its channel reserve.
>> A receiving node:
>> - receiving an `amount_msat` equal to 0, OR less than its own
>> `htlc_minimum_msat`:
>> - SHOULD fail the channel.
>> - - receiving an `amount_msat` that the sending node cannot afford at
>> the current `feerate_per_kw` (while maintaining its channel reserve):
>> + - receiving an `amount_msat` that the sending node cannot afford at
>> the current `feerate_per_kw` (while maintaining its channel reserve
>> and any `to_local_pushme` and `to_remote_pushme` fees):
>> - SHOULD fail the channel.
>> - if a sending node adds more than its `max_accepted_htlcs` HTLCs to
>> its local commitment transaction, OR adds more than its
>> `max_htlc_value_in_flight_msat` worth of offered HTLCs to its local
>> commitment transaction:
>> @@ -997,6 +1027,11 @@ A node:
>> ### Updating Fees: `update_fee`
>> +If `option_simplified_commitment` applies to the commitment transaction,
>> +`update_fee` is never used: the `feerate_per_kw` is always considered
>> 253, but
>> +the funder also pays 2000 satoshi for the `to_local_pushme` and
>> +`to_remote_pushme` outputs.
>> +
>> An `update_fee` message is sent by the node which is paying the
>> Bitcoin fee. Like any update, it's first committed to the receiver's
>> commitment transaction and then (once acknowledged) committed to the
>> @@ -1020,13 +1055,19 @@ given in [BOLT
>> #3](03-transactions.md#fee-calculation).
>> #### Requirements
>> The node _responsible_ for paying the Bitcoin fee:
>> - - SHOULD send `update_fee` to ensure the current fee rate is
>> sufficient (by a
>> + - if `option_simplified_commitment` applies to the commitment
>> transaction:
>> + - MUST NOT send `update_fee`.
>> + - otherwise:
>> + - SHOULD send `update_fee` to ensure the current fee rate is
>> sufficient (by a
>> significant margin) for timely processing of the commitment
>> transaction.
>> The node _not responsible_ for paying the Bitcoin fee:
>> - MUST NOT send `update_fee`.
>> A receiving node:
>> + - if `option_simplified_commitment` applies to the commitment
>> transaction:
>> + - SHOULD fail the channel.
>> + - MUST NOT update the `feerate_per_kw`.
>> - if the `update_fee` is too low for timely processing, OR is
>> unreasonably large:
>> - SHOULD fail the channel.
>> - if the sender is not responsible for paying the Bitcoin fee:
>> @@ -1038,7 +1079,12 @@ A receiving node:
>> #### Rationale
>> -Bitcoin fees are required for unilateral closes to be effective —
>> +Fee adjustments are unnecessary for `option_simplified_commitment` which
>> +relies on "pushme" outputs and a child transaction which will provide
>> +additional fee incentive which can be calculated at the time it is
>> spent, and
>> +replaced by higher-fee children if required.
>> +
>> +Without this option, bitcoin fees are required for unilateral closes
>> to be effective —
>> particularly since there is no general method for the broadcasting
>> node to use
>> child-pays-for-parent to increase its effective fee.
>> diff --git a/03-transactions.md b/03-transactions.md
>> index e769961..440bd0d 100644
>> --- a/03-transactions.md
>> +++ b/03-transactions.md
>> @@ -82,6 +82,8 @@ To allow an opportunity for penalty transactions, in
>> case of a revoked commitmen
>> The reason for the separate transaction stage for HTLC outputs is so
>> that HTLCs can timeout or be fulfilled even though they are within the
>> `to_self_delay` delay.
>> Otherwise, the required minimum timeout on HTLCs is lengthened by
>> this delay, causing longer timeouts for HTLCs traversing the network.
>> +If `option_simplified_commitment` applies to the commitment
>> transaction, then the `to_self_delay` used for all transactions is the
>> greater of the `to_self_delay` sent by each peer. Otherwise, each
>> peer sends the `to_self_delay` to be used for the other peer's
>> commitment amd HTLC transactions.
>> +
>> The amounts for each output MUST be rounded down to whole satoshis.
>> If this amount, minus the fees for the HTLC transaction, is less than
>> the `dust_limit_satoshis` set by the owner of the commitment
>> transaction, the output MUST NOT be produced (thus the funds add to
>> fees).
>> #### `to_local` Output
>> @@ -109,7 +111,40 @@ If a revoked commitment transaction is published,
>> the other party can spend this
>> #### `to_remote` Output
>> -This output sends funds to the other peer and thus is a simple P2WPKH
>> to `remotepubkey`.
>> +This output sends funds to the other peer, thus is not encumbered by a
>> +revocation private key.
>> +
>> +If `option_simplified_commitment` applies to the commitment
>> transaction, the `to_remote` output is delayed similarly to the
>> `to_local` output, and is to a fixed key:
>> +
>> + `to_self_delay`
>> + OP_CSV
>> + OP_DROP
>> + <remote_pubkey>
>> +
>> +The output is spent by a transaction with `nSequence` field set to
>> `to_self_delay` (which can only be valid after that duration has
>> passed) and witness:
>> +
>> + <remote_sig>
>> +
>> +Otherwise, this output is a simple P2WPKH to `remotepubkey`.
>> +
>> +
>> +#### `to_local_pushme` and `to_remote_pushme` Output
>> (option_simplified_commitment)
>> +
>> +This output can be spent by the local and remote nodes respectivey to
>> provide incentive to mine the transaction, using
>> child-pays-for-parent. They are only added if the `to_local` and
>> `to_remote` outputs exist, respectively.
>> +
>> + OP_DEPTH
>> + OP_IF
>> + <pubkey> OP_CHECKSIG
>> + OP_ELSE
>> + 10 OP_CSV
>> + OP_ENDIF
>> +
>> +The `<pubkey>` is `<local_delayedpubkey>` to `to_local_pushme` and
>> +`<remote_delayedpubkey>` for `to_remote_pushme`. The output amount is
>> +1000 satoshi, to encourage spending of the output. Once the
>> +`remote_pubkey` is revealed (by spending the `to_local` output) and
>> +the commitment transaction is 10 blocks deep, anyone can spend it.
>> +
>> #### Offered HTLC Outputs
>> @@ -294,6 +329,9 @@ The fee calculation for both commitment
>> transactions and HTLC
>> transactions is based on the current `feerate_per_kw` and the
>> *expected weight* of the transaction.
>> +Note that if `option_simplified_commitment` applies to the commitment
>> +transaction then `feerate_per_kw` is 253.
>> +
>> The actual and expected weights vary for several reasons:
>> * Bitcoin uses DER-encoded signatures, which vary in size.
>> @@ -306,10 +344,12 @@ Thus, a simplified formula for *expected weight*
>> is used, which assumes:
>> * Signatures are 73 bytes long (the maximum length).
>> * There are a small number of outputs (thus 1 byte to count them).
>> * There are always both a `to_local` output and a `to_remote` output.
>> +* (if `option_simplified_commitment`) there are always both a
>> `to_local_pushme` and `to_remote_pushme` output.
>> This yields the following *expected weights* (details of the
>> computation in [Appendix A](#appendix-a-expected-weights)):
>> - Commitment weight: 724 + 172 * num-untrimmed-htlc-outputs
>> + Commitment weight (no option_simplified_commitment): 724 + 172
>> * num-untrimmed-htlc-outputs
>> + Commitment weight (option_simplified_commitment: 1116 + 172 *
>> num-untrimmed-htlc-outputs
>> HTLC-timeout weight: 663
>> HTLC-success weight: 703
>> @@ -366,7 +406,7 @@ outputs) is 7140 satoshi. The final fee may be
>> even higher if the
>> ### Fee Payment
>> -Base commitment transaction fees are extracted from the funder's
>> amount; if that amount is insufficient, the entire amount of the
>> funder's output is used.
>> +Base commitment transaction fees and amounts for `to_local_pushme`
>> and `to_remote_pushme` outputs are extracted from the funder's amount;
>> if that amount is insufficient, the entire amount of the funder's
>> output is used.
>> Note that after the fee amount is subtracted from the to-funder output,
>> that output may be below `dust_limit_satoshis`, and thus will also
>> @@ -390,23 +430,29 @@ committed HTLCs:
>> 2. Calculate the base [commitment transaction fee](#fee-calculation).
>> 3. Subtract this base fee from the funder (either `to_local` or
>> `to_remote`),
>> with a floor of 0 (see [Fee Payment](#fee-payment)).
>> +4. If `option_simplified_commitment` applies to the commitment
>> transaction,
>> + subtract 2000 satoshis from the funder (either `to_local` or
>> `to_remote`).
>> 3. For every offered HTLC, if it is not trimmed, add an
>> [offered HTLC output](#offered-htlc-outputs).
>> 4. For every received HTLC, if it is not trimmed, add an
>> [received HTLC output](#received-htlc-outputs).
>> 5. If the `to_local` amount is greater or equal to
>> `dust_limit_satoshis`,
>> add a [`to_local` output](#to_local-output).
>> +6. If `option_simplified_commitment` applies to the commitment
>> transaction,
>> + and `to_local` was added, add `to_local_pushme`.
>> 6. If the `to_remote` amount is greater or equal to
>> `dust_limit_satoshis`,
>> add a [`to_remote` output](#to_remote-output).
>> +6. If `option_simplified_commitment` applies to the commitment
>> transaction,
>> + and `to_remote` was added, add `to_remote_pushme`.
>> 7. Sort the outputs into [BIP 69
>> order](#transaction-input-and-output-ordering).
>> # Keys
>> ## Key Derivation
>> -Each commitment transaction uses a unique set of keys: `localpubkey`
>> and `remotepubkey`.
>> +Each commitment transaction uses a unique `localpubkey`, and a
>> `remotepubkey`.
>> The HTLC-success and HTLC-timeout transactions use
>> `local_delayedpubkey` and `revocationpubkey`.
>> -These are changed for every transaction based on the
>> `per_commitment_point`.
>> +These are changed for every transaction based on the
>> `per_commitment_point`, with the exception of `remotepubkey` if
>> `option_simplified_commitment` is negotiated.
>> The reason for key change is so that trustless watching for revoked
>> transactions can be outsourced. Such a _watcher_ should not be able to
>> @@ -419,8 +465,9 @@ avoid storage of every commitment transaction, a
>> _watcher_ can be given the
>> the scripts required for the penalty transaction; thus, a _watcher_
>> need only be
>> given (and store) the signatures for each penalty input.
>> -Changing the `localpubkey` and `remotepubkey` every time ensures that
>> commitment
>> -transaction ID cannot be guessed; every commitment transaction uses
>> an ID
>> +Changing the `localpubkey` every time ensures that commitment
>> +transaction ID cannot be guessed except in the trivial case where
>> there is no
>> +`to_local` output, as every commitment transaction uses an ID
>> in its output script. Splitting the `local_delayedpubkey`, which is
>> required for
>> the penalty transaction, allows it to be shared with the _watcher_
>> without
>> revealing `localpubkey`; even if both peers use the same _watcher_,
>> nothing is revealed.
>> @@ -434,14 +481,13 @@ For efficiency, keys are generated from a series
>> of per-commitment secrets
>> that are generated from a single seed, which allows the receiver to
>> compactly
>> store them (see [below](#efficient-per-commitment-secret-storage)).
>> -### `localpubkey`, `remotepubkey`, `local_htlcpubkey`,
>> `remote_htlcpubkey`, `local_delayedpubkey`, and `remote_delayedpubkey`
>> Derivation
>> +### `localpubkey``local_htlcpubkey`, `remote_htlcpubkey`,
>> `local_delayedpubkey`, and `remote_delayedpubkey` Derivation
>> These pubkeys are simply generated by addition from their base points:
>> pubkey = basepoint + SHA256(per_commitment_point || basepoint) * G
>> -The `localpubkey` uses the local node's `payment_basepoint`; the
>> `remotepubkey`
>> -uses the remote node's `payment_basepoint`; the `local_delayedpubkey`
>> +The `localpubkey` uses the local node's `payment_basepoint`; the
>> `local_delayedpubkey`
>> uses the local node's `delayed_payment_basepoint`; the
>> `local_htlcpubkey` uses the
>> local node's `htlc_basepoint`; and the `remote_delayedpubkey` uses
>> the remote
>> node's `delayed_payment_basepoint`.
>> @@ -451,6 +497,17 @@ secrets are known (i.e. the private keys
>> corresponding to `localpubkey`, `local_
>> privkey = basepoint_secret + SHA256(per_commitment_point ||
>> basepoint)
>> +### `remotepubkey` Derivation
>> +
>> +If `option_simplified_commitment` is negotiated the `remotepubkey` is
>> simply the remote node's `payment_basepoint`, otherwise it is
>> calculated as above using the remote node's `payment_basepoint`.
>> +
>> +The simplified derivation means that a node can spend a commitment
>> +transaction even if it has lost data and doesn't know the
>> +corresponding `payment_basepoint`. A watchtower could correlate
>> +transactions given to it which only have a `to_remote` output if it
>> +sees one of them onchain, but such transactions do not need any
>> +enforcement and should not be handed to a watchtower.
>> +
>> ### `revocationpubkey` Derivation
>> The `revocationpubkey` is a blinded key: when the local node wishes
>> to create a new
>> @@ -636,12 +693,22 @@ The *expected weight* of a commitment
>> transaction is calculated as follows:
>> - var_int: 1 byte (pk_script length)
>> - pk_script (p2wsh): 34 bytes
>> - output_paying_to_remote: 31 bytes
>> + output_paying_to_remote (no option_simplified_commitment): 31 bytes
>> - value: 8 bytes
>> - var_int: 1 byte (pk_script length)
>> - pk_script (p2wpkh): 22 bytes
>> - htlc_output: 43 bytes
>> + output_paying_to_remote (option_simplified_commitment): 43 bytes
>> + - value: 8 bytes
>> + - var_int: 1 byte (pk_script length)
>> + - pk_script (p2wsh): 34 bytes
>> +
>> + output_pushme (option_simplified_commitment): 43 bytes
>> + - value: 8 bytes
>> + - var_int: 1 byte (pk_script length)
>> + - pk_script (p2wsh): 34 bytes
>> +
>> + htlc_output: 43 bytes
>> - value: 8 bytes
>> - var_int: 1 byte (pk_script length)
>> - pk_script (p2wsh): 34 bytes
>> @@ -650,7 +717,7 @@ The *expected weight* of a commitment transaction
>> is calculated as follows:
>> - flag: 1 byte
>> - marker: 1 byte
>> - commitment_transaction: 125 + 43 * num-htlc-outputs bytes
>> + commitment_transaction (no option_simplified_commitment): 125 +
>> 43 * num-htlc-outputs bytes
>> - version: 4 bytes
>> - witness_header <---- part of the witness data
>> - count_tx_in: 1 byte
>> @@ -663,15 +730,32 @@ The *expected weight* of a commitment
>> transaction is calculated as follows:
>> ....htlc_output's...
>> - lock_time: 4 bytes
>> + commitment_transaction (option_simplified_commitment): 223 + 43
>> * num-htlc-outputs bytes
>> + - version: 4 bytes
>> + - witness_header <---- part of the witness data
>> + - count_tx_in: 1 byte
>> + - tx_in: 41 bytes
>> + funding_input
>> + - count_tx_out: 1 byte
>> + - tx_out: 172 + 43 * num-htlc-outputs bytes
>> + output_paying_to_remote,
>> + output_paying_to_local,
>> + output_pushme,
>> + output_pushme,
>> + ....htlc_output's...
>> + - lock_time: 4 bytes
>> +
>> Multiplying non-witness data by 4 results in a weight of:
>> - // 500 + 172 * num-htlc-outputs weight
>> + // 500 + 172 * num-htlc-outputs weight (no
>> option_simplified_commitment)
>> + // 892 + 172 * num-htlc-outputs weight
>> (option_simplified_commitment)
>> commitment_transaction_weight = 4 * commitment_transaction
>> // 224 weight
>> witness_weight = witness_header + witness
>> - overall_weight = 500 + 172 * num-htlc-outputs + 224 weight
>> + overall_weight (no option_simplified_commitment) = 500 + 172 *
>> num-htlc-outputs + 224 weight
>> + overall_weight (option_simplified_commitment) = 892 + 172 *
>> num-htlc-outputs + 224 weight
>> ## Expected Weight of HTLC-timeout and HTLC-success Transactions
>> diff --git a/05-onchain.md b/05-onchain.md
>> index 231c209..c5fb5e1 100644
>> --- a/05-onchain.md
>> +++ b/05-onchain.md
>> @@ -89,21 +89,29 @@ trigger any action.
>> # Commitment Transaction
>> The local and remote nodes each hold a *commitment transaction*.
>> Each of these
>> -commitment transactions has four types of outputs:
>> +commitment transactions has six types of outputs:
>> 1. _local node's main output_: Zero or one output, to pay to the
>> *local node's*
>> -commitment pubkey.
>> +delayed pubkey.
>> 2. _remote node's main output_: Zero or one output, to pay to the
>> *remote node's*
>> -commitment pubkey.
>> +pubkey.
>> +1. _local node's push output_: Zero or one output, to pay to the
>> *local node's*
>> +delayed pubkey.
>> +2. _remote node's push output_: Zero or one output, to pay to the
>> *remote node's*
>> +pubkey.
>> 3. _local node's offered HTLCs_: Zero or more pending payments
>> (*HTLCs*), to pay
>> the *remote node* in return for a payment preimage.
>> 4. _remote node's offered HTLCs_: Zero or more pending payments
>> (*HTLCs*), to
>> pay the *local node* in return for a payment preimage.
>> To incentivize the local and remote nodes to cooperate, an
>> `OP_CHECKSEQUENCEVERIFY`
>> -relative timeout encumbers the *local node's outputs* (in the *local
>> node's
>> +relative timeout encumbers some outputs: the *local node's outputs*
>> (in the *local node's
>> commitment transaction*) and the *remote node's outputs* (in the
>> *remote node's
>> -commitment transaction*). So for example, if the local node publishes
>> its
>> +commitment transaction*). If `option_simplified_commitment` applies
>> +to the commitment transaction, then the *to_remote* output of each
>> commitment is
>> +identically encumbered, for fairness.
>> +
>> +Without `option_simplified_commitment`, if the local node publishes its
>> commitment transaction, it will have to wait to claim its own funds,
>> whereas the remote node will have immediate access to its own funds.
>> As a
>> consequence, the two commitment transactions are not identical, but
>> they are
>> @@ -140,6 +148,11 @@ A node:
>> - otherwise:
>> - MUST use the *last commitment transaction*, for which it
>> has a
>> signature, to perform a *unilateral close*.
>> + - MUST spend any `to_local_pushme` output, providing sufficient
>> fees as incentive to include the commitment transaction in a block
>> + - SHOULD use
>> [replace-by-fee](https://github.com/bitcoin/bips/blob/master/bip-0125.mediawiki)
>> or other mechanism on the spending transaction if it proves
>> insufficient for timely inclusion in a block.
>> +
>> +A node:
>> + - MAY monitor the blockchain for unspent `to_local_pushme` and
>> `to_remote_pushme` outputs and try to spend them after 10 confirmations.
>> ## Rationale
>> @@ -154,7 +167,8 @@ need not consume resources monitoring the channel
>> state.
>> There exists a bias towards preferring mutual closes over unilateral
>> closes,
>> because outputs of the former are unencumbered by a delay and are
>> directly
>> spendable by wallets. In addition, mutual close fees tend to be less
>> exaggerated
>> -than those of commitment transactions. So, the only reason not to use
>> the
>> +than those of commitment transactions (or in the case of
>> `option_simplified_commitment`,
>> +the commitment transaction may require a child transaction to cause
>> it to be mined). So, the only reason not to use the
>> signature from `closing_signed` would be if the fee offered was too
>> small for
>> it to be processed.
>> diff --git a/09-features.md b/09-features.md
>> index d06fcff..caea38b 100644
>> --- a/09-features.md
>> +++ b/09-features.md
>> @@ -26,6 +26,7 @@ These flags may only be used in the `init` message:
>> | 3 | `initial_routing_sync` | Indicates that the sending node
>> needs a complete routing information dump | [BOLT
>> #7](07-routing-gossip.md#initial-sync) |
>> | 4/5 | `option_upfront_shutdown_script` | Commits to a shutdown
>> scriptpubkey when opening channel | [BOLT
>> #2](02-peer-protocol.md#the-open_channel-message) |
>> | 6/7 | `gossip_queries` | More sophisticated gossip
>> control | [BOLT #7](07-routing-gossip.md#query-messages) |
>> +| 8/9 | `option_simplified_commitment` | Simplified
>> commitment transactions | [BOLT #3](03-transactions.md) |
>> ## Assigned `globalfeatures` flags
>> _______________________________________________
>> Lightning-dev mailing list
>> Lightning-dev at lists.linuxfoundation.org
>> https://lists.linuxfoundation.org/mailman/listinfo/lightning-dev
>>
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