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# BOLT #2: Peer Protocol for Channel Management
The peer channel protocol has three phases: establishment, normal
operation, and closing.
# Table of Contents
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* [Channel ](#channel )
* [Channel Establishment ](#channel-establishment )
* [The `open_channel` message ](#the-open_channel-message )
* [The `accept_channel` message ](#the-accept_channel-message )
* [The `funding_created` message ](#the-funding_created-message )
* [The `funding_signed` message ](#the-funding_signed-message )
* [The `funding_locked` message ](#the-funding_locked-message )
* [Channel Close ](#channel-close )
* [Closing initiation: `shutdown` ](#closing-initiation-shutdown )
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* [Closing negotiation: `closing_signed` ](#closing-negotiation-closing_signed )
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* [Normal Operation ](#normal-operation )
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* [Forwarding HTLCs ](#forwarding-htlcs )
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* [Risks With HTLC Timeouts ](#risks-with-htlc-timeouts )
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* [Adding an HTLC: `update_add_htlc` ](#adding-an-htlc-update_add_htlc )
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* [Removing an HTLC: `update_fulfill_htlc`, `update_fail_htlc` and `update_fail_malformed_htlc` ](#removing-an-htlc-update_fulfill_htlc-update_fail_htlc-and-update_fail_malformed_htlc )
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* [Committing Updates So Far: `commitment_signed` ](#committing-updates-so-far-commitment_signed )
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* [Completing the transition to the updated state: `revoke_and_ack` ](#completing-the-transition-to-the-updated-state-revoke_and_ack )
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* [Updating Fees: `update_fee` ](#updating-fees-update_fee )
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* [Message Retransmission ](#message-retransmission )
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* [Authors ](#authors )
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# Channel
## Channel Establishment
Channel establishment begins immediately after authentication, and
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consists of the funding node sending an `open_channel` message,
followed by the responding node sending `accept_channel` . With the
channel parameters locked in, the funder is able to create the funding
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transaction and both versions of the commitment transaction as described in
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[BOLT
03](https://github.com/lightningnetwork/lightning-rfc/blob/master/03-transactions.md#bolt-3-bitcoin-transaction-and-script-formats).
The funder then sends the outpoint of the funding output along with a
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signature for the responder's version of the commitment transaction
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with the `funding_created` message. Once the responder learns the
funding outpoint, she is able to generate the initiator's commitment
for the commitment transaction, and send it over using the
`funding_signed` message.
Once the channel funder receives the `funding_signed` message, they
must broadcast the funding transaction to the Bitcoin network. After
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the `funding_signed` message is sent/received, both sides should wait
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for the funding transaction to enter the blockchain and reach their
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specified depth (number of confirmations). After both sides have sent
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the `funding_locked` message, the channel is established and can begin
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normal operation. The `funding_locked` message includes information
which will be used to construct channel authentication proofs.
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+-------+ +-------+
| |--(1)--- open_channel ----->| |
| |< - ( 2 ) -- accept_channel ----- | |
| | | |
| A |--(3)-- funding_created --->| B |
| |< - ( 4 ) -- funding_signed ----- | |
| | | |
| |--(5)--- funding_locked ---->| |
| |< - ( 6 ) --- funding_locked ----- | |
+-------+ +-------+
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If this fails at any stage, or a node decides that the channel terms
offered by the other node are not suitable, the channel establishment
fails.
BOLT 0,1,2,7: use txout not channel-id for demuxing. (#119)
At cost of a few extra bytes between peers, this avoids the whole "oops, we were on a chain fork" problem, and simplifies generation of temporary channel-ids (just pick a random one).
Now we move the announcement_signature exchange to at least 6 confirms, which makes re-xmit tricky; I resolved that by insisting on reconnect that we send if we haven't received, and reply to the first one.
The term "channel shortid" wasn't used anywhere, so I removed it; it's now a gossip-only thing anyway.
One subtle change: pkt_error on unknown channels is now "MUST ignore"; this section was reworked anyway, and we'll want this if the #120 goes through, where one side might have forgotten unformed channels).
Closes: #114
Suggested-by: Olaoluwa Osuntokun <laolu32@gmail.com>
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
* FIXUP! Two bytes for funding-output-index.
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
* FIXUP! Channel-id rework, temp ids, 32 bits only.
Re-add the idea of temporary channel ids: far simpler since they're now
big enough we can just fill with noise.
Remove the alignment issues by combining txid and outnum using XOR; we
could reduce to 128 bit if we really wanted to, but we don't.
Error handling is now simple again, but while editing I changed the
behaviour for unknown channels to MUST ignore (this is important for
Change the 8-byte gossip channel id to `short-channel-id`.
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
* FIXUP! Minor text tweaks from Pierre-Marie and Christian
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
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Note that multiple channels can operate in parallel, as all channel
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messages are identified by either a `temporary_channel_id` (before the
funding transaction is created) or `channel_id` derived from the
BOLT 0,1,2,7: use txout not channel-id for demuxing. (#119)
At cost of a few extra bytes between peers, this avoids the whole "oops, we were on a chain fork" problem, and simplifies generation of temporary channel-ids (just pick a random one).
Now we move the announcement_signature exchange to at least 6 confirms, which makes re-xmit tricky; I resolved that by insisting on reconnect that we send if we haven't received, and reply to the first one.
The term "channel shortid" wasn't used anywhere, so I removed it; it's now a gossip-only thing anyway.
One subtle change: pkt_error on unknown channels is now "MUST ignore"; this section was reworked anyway, and we'll want this if the #120 goes through, where one side might have forgotten unformed channels).
Closes: #114
Suggested-by: Olaoluwa Osuntokun <laolu32@gmail.com>
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
* FIXUP! Two bytes for funding-output-index.
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
* FIXUP! Channel-id rework, temp ids, 32 bits only.
Re-add the idea of temporary channel ids: far simpler since they're now
big enough we can just fill with noise.
Remove the alignment issues by combining txid and outnum using XOR; we
could reduce to 128 bit if we really wanted to, but we don't.
Error handling is now simple again, but while editing I changed the
behaviour for unknown channels to MUST ignore (this is important for
Change the 8-byte gossip channel id to `short-channel-id`.
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
* FIXUP! Minor text tweaks from Pierre-Marie and Christian
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
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funding transaction.
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### The `open_channel` message
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This message contains information about a node, and indicates its
desire to set up a new channel.
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1. type: 32 (`open_channel`)
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2. data:
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* [`32`:`chain_hash`]
* [`32`:`temporary_channel_id`]
* [`8`:`funding_satoshis`]
* [`8`:`push_msat`]
* [`8`:`dust_limit_satoshis`]
* [`8`:`max_htlc_value_in_flight_msat`]
* [`8`:`channel_reserve_satoshis`]
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* [`8`:`htlc_minimum_msat`]
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* [`4`:`feerate_per_kw`]
* [`2`:`to_self_delay`]
* [`2`:`max_accepted_htlcs`]
* [`33`:`funding_pubkey`]
* [`33`:`revocation_basepoint`]
* [`33`:`payment_basepoint`]
* [`33`:`delayed_payment_basepoint`]
* [`33`:`first_per_commitment_point`]
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* [`1`:`channel_flags`]
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The `chain_hash` value denotes the exact blockchain the opened channel will
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reside within. This is usually the genesis hash of the respective blockchain.
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The existence of the `chain_hash` allows nodes to open channel
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across many distinct blockchains as well as have channels within multiple
blockchains opened to the same peer (if they support the target chains).
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The `temporary_channel_id` is used to identify this channel until the funding transaction is established. `funding_satoshis` is the amount the sender is putting into the channel. `dust_limit_satoshis` is the threshold below which outputs should not be generated for this node's commitment or HTLC transaction; ie. HTLCs below this amount plus HTLC transaction fees are not enforceable on-chain. This reflects the reality that tiny outputs are not considered standard transactions and will not propagate through the Bitcoin network.
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`max_htlc_value_in_flight_msat` is a cap on total value of outstanding HTLCs, which allows a node to limit its exposure to HTLCs; similarly `max_accepted_htlcs` limits the number of outstanding HTLCs the other node can offer. `channel_reserve_satoshis` is the minimum amount that the other node is to keep as a direct payment. `htlc_minimum_msat` indicates the smallest value HTLC this node will accept.
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`feerate_per_kw` indicates the initial fee rate by 1000-weight (ie. 1/4 the more normally-used 'feerate per kilobyte') which 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). `to_self_delay` is the number of blocks that the other nodes to-self outputs must be delayed, using `OP_CHECKSEQUENCEVERIFY` delays; this is how long it will have to wait in case of breakdown before redeeming its own funds.
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Only the least-significant bit of `channel_flags` is currently
defined: `announce_channel` . This indicates whether the initiator of the
funding flow wishes to advertise this channel publicly to the network
as detailed within
[BOLT #7 ](https://github.com/lightningnetwork/lightning-rfc/blob/master/07-routing-gossip.md#bolt-7-p2p-node-and-channel-discovery ).
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The `funding_pubkey` is the public key in the 2-of-2 multisig script of the funding transaction output. The `revocation_basepoint` is combined with the revocation preimage for this commitment transaction to generate a unique revocation key for this commitment transaction. The `payment_basepoint` and `delayed_payment_basepoint` are similarly used to generate a series of keys for any payments to this node: `delayed_payment_basepoint` is used to for payments encumbered by a delay. Varying these keys ensures that the transaction ID of each commitment transaction is unpredictable by an external observer, even if one commitment transaction is seen: this property is very useful for preserving privacy when outsourcing penalty transactions to third parties.
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FIXME: Describe Dangerous feature bit for larger channel amounts.
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#### Requirements
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A sending node MUST ensure that the `chain_hash` value identifies the chain they
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they wish to open the channel within.
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A sending node MUST ensure `temporary_channel_id` is unique from any other
channel id with the same peer. The sender MUST set `funding_satoshis`
to less than 2^24 satoshi. The sender MUST set `push_msat` to
equal or less than to 1000 * `funding_satoshis` . The sender SHOULD set `to_self_delay` sufficient to ensure the sender
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can irreversibly spend a commitment transaction output in case of
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misbehavior by the receiver.
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`funding_pubkey` , `revocation_basepoint` , `payment_basepoint` and `delayed_payment_basepoint` MUST be valid DER-encoded
compressed secp256k1 pubkeys. The sender SHOULD set `feerate_per_kw`
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to at least the rate it estimates would cause the transaction to be
immediately included in a block.
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The sender SHOULD set `dust_limit_satoshis` to a sufficient value to
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allow commitment transactions to propagate through the Bitcoin
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network. It SHOULD set `htlc_minimum_msat` to the minimum
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amount HTLC it is willing to accept from this peer.
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The receiving node MAY fail the channel if `announce_channel` is
`false` (`0`), yet they wish to publicly announce the channel. The
receiving node MUST ignore undefined bits in `channel_flags` .
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The receiving node MUST accept a new `open_channel` message if the
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connection has been re-established after receiving a previous
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`open_channel` and before receiving a `funding_created` message. In
this case, the receiving node MUST discard the previous `open_channel`
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message.
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The receiving node MUST fail the channel if `to_self_delay` is
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unreasonably large. The receiver MAY fail the channel if
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`funding_satoshis` is too small, and MUST fail the channel if
`push_msat` is greater than `funding_satoshis` * 1000.
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The receiving node MAY fail the channel if it considers
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`htlc_minimum_msat` too large, `max_htlc_value_in_flight_msat` too small, `channel_reserve_satoshis` too large, or `max_accepted_htlcs` too small. It MUST fail the channel if `max_accepted_htlcs` is greater than 483.
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The receiver MUST fail the channel if it
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considers `feerate_per_kw` too small for timely processing, or unreasonably large. The
receiver MUST fail the channel if `funding_pubkey` , `revocation_basepoint` , `payment_basepoint` or `delayed_payment_basepoint`
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are not valid DER-encoded compressed secp256k1 pubkeys.
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The receiver MUST NOT consider funds received using `push_msat` to be received until the funding transaction has reached sufficient depth.
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#### Rationale
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The *channel reserve* is specified by the peer's `channel_reserve_satoshis` ; 1% of the channel total is suggested. Each side of a channel maintains this reserve so it always has something to lose if it were to try to broadcast an old, revoked commitment transaction. Initially this reserve may not be met, as only one side has funds, but the protocol ensures that progress is always toward it being met, and once met it is maintained.
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The sender can unconditionally give initial funds to the receiver using a non-zero `push_msat` , and this is one case where the normal reserve mechanism doesn't apply. However, like any other on-chain transaction, this payment is not certain until the funding transaction has been confirmed sufficiently (may be double-spent) and may require a separate method to prove payment via on-chain confirmation.
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The `feerate_per_kw` is generally only a concern to the sender (who pays the fees), but that is also the feerate paid by HTLC transactions; thus unreasonably large fee rates can also penalize the recipient.
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#### Future
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It would be easy to have a local feature bit which indicated that a
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receiving node was prepared to fund a channel, which would reverse this
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protocol.
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### The `accept_channel` message
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This message contains information about a node, and indicates its
acceptance of the new channel.
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1. type: 33 (`accept_channel`)
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2. data:
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* [`32`:`temporary_channel_id`]
* [`8`:`dust_limit_satoshis`]
* [`8`:`max_htlc_value_in_flight_msat`]
* [`8`:`channel_reserve_satoshis`]
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* [`8`:`htlc_minimum_msat`]
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* [`4`:`minimum_depth`]
* [`2`:`to_self_delay`]
* [`2`:`max_accepted_htlcs`]
* [`33`:`funding_pubkey`]
* [`33`:`revocation_basepoint`]
* [`33`:`payment_basepoint`]
* [`33`:`delayed_payment_basepoint`]
* [`33`:`first_per_commitment_point`]
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#### Requirements
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The receiving node MUST reject the channel if the `chain_hash` value within the
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`open_channel` message is set to a hash of a chain unknown to the receiver.
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The `temporary_channel_id` MUST be the same as the `temporary_channel_id` in the `open_channel` message. The sender SHOULD set `minimum_depth` to a number of blocks it considers reasonable to avoid double-spending of the funding transaction.
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The receiver MAY reject the `minimum_depth` if it considers it unreasonably large.
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Other fields have the same requirements as their counterparts in `open_channel` .
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### The `funding_created` message
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This message describes the outpoint which the funder has created for
the initial commitment transactions. After receiving the peer's
signature, it will broadcast the funding transaction.
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1. type: 34 (`funding_created`)
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2. data:
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* [`32`:`temporary_channel_id`]
* [`32`:`funding_txid`]
* [`2`:`funding_output_index`]
* [`64`:`signature`]
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#### Requirements
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The sender MUST set `temporary_channel_id` the same as the `temporary_channel_id` in the `open_channel` message. The sender MUST set `funding_txid` to the transaction ID of a non-malleable transaction, which it MUST NOT broadcast, and MUST set `funding_output_index` to the output number of that transaction which corresponds the funding transaction output as defined in [BOLT #3 ](03-transactions.md#funding-transaction-output ), and MUST set `signature` to the valid signature using its `funding_pubkey` for the initial commitment transaction as defined in [BOLT #3 ](03-transactions.md#commitment-transaction ). The sender SHOULD use only BIP141 (Segregated Witness) inputs when creating the funding transaction.
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The recipient MUST fail the channel if `signature` is incorrect.
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#### Rationale
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The `funding_output_index` can only be 2 bytes, since that's how we'll pack it into the `channel_id` used throughout the gossip protocol. The limit of 65535 outputs should not be overly burdensome.
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A transaction with all Segregated Witness inputs is not malleable, hence the recommendation for the funding transaction.
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### The `funding_signed` message
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This message gives the funder the signature they need for the first
commitment transaction, so they can broadcast it knowing they can
redeem their funds if they need to.
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This message introduces the `channel_id` to identify the channel, which is derived from the funding transaction by combining the `funding_txid` and the `funding_output_index` using big-endian exclusive-OR (ie. `funding_output_index` alters the last two bytes).
BOLT 0,1,2,7: use txout not channel-id for demuxing. (#119)
At cost of a few extra bytes between peers, this avoids the whole "oops, we were on a chain fork" problem, and simplifies generation of temporary channel-ids (just pick a random one).
Now we move the announcement_signature exchange to at least 6 confirms, which makes re-xmit tricky; I resolved that by insisting on reconnect that we send if we haven't received, and reply to the first one.
The term "channel shortid" wasn't used anywhere, so I removed it; it's now a gossip-only thing anyway.
One subtle change: pkt_error on unknown channels is now "MUST ignore"; this section was reworked anyway, and we'll want this if the #120 goes through, where one side might have forgotten unformed channels).
Closes: #114
Suggested-by: Olaoluwa Osuntokun <laolu32@gmail.com>
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
* FIXUP! Two bytes for funding-output-index.
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
* FIXUP! Channel-id rework, temp ids, 32 bits only.
Re-add the idea of temporary channel ids: far simpler since they're now
big enough we can just fill with noise.
Remove the alignment issues by combining txid and outnum using XOR; we
could reduce to 128 bit if we really wanted to, but we don't.
Error handling is now simple again, but while editing I changed the
behaviour for unknown channels to MUST ignore (this is important for
Change the 8-byte gossip channel id to `short-channel-id`.
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
* FIXUP! Minor text tweaks from Pierre-Marie and Christian
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2017-03-02 05:20:13 +01:00
2016-11-23 02:03:25 +01:00
1. type: 35 (`funding_signed`)
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2. data:
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* [`32`:`channel_id`]
* [`64`:`signature`]
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#### Requirements
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The sender MUST set `channel_id` by exclusive-OR of the `funding_txid` and the `funding_output_index` from the `funding_created` message, and MUST set `signature` to the valid signature using its `funding_pubkey` for the initial commitment transaction as defined in [BOLT #3 ](03-transactions.md#commitment-transaction ).
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The recipient MUST fail the channel if `signature` is incorrect.
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The recipient SHOULD broadcast the funding transaction on receipt of a valid `funding_signed` and MUST NOT broadcast the funding transaction earlier.
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### The `funding_locked` message
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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.
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1. type: 36 (`funding_locked`)
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2. data:
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* [`32`:`channel_id`]
* [`33`:`next_per_commitment_point`]
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#### Requirements
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The sender MUST wait until the funding transaction has reached
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`minimum_depth` before sending this message.
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The sender MUST set `next_per_commitment_point` to the
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per-commitment point to be used for the following commitment
transaction, derived as specified in
[BOLT #3 ](03-transactions.md#per-commitment-secret-requirements ).
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A non-funding node SHOULD forget the channel if it does not see the
funding transaction after a reasonable timeout.
From the point of waiting for `funding_locked` onward, a node MAY
fail the channel if it does not receive a required response from the
other node after a reasonable timeout.
#### Rationale
The non-funder can simply forget the channel ever existed, since no
funds are at risk; even if `push_msat` is significant, if it remembers
the channel forever on the promise of the funding transaction finally
appearing, there is a denial of service risk.
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#### Future
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We could add an SPV proof, and route block hashes in separate
messages.
## Channel Close
Nodes can negotiate a mutual close for the connection, which unlike a
unilateral close, allows them to access their funds immediately and
can be negotiated with lower fees.
Closing happens in two stages: the first is by one side indicating
that it wants to clear the channel (and thus will accept no new
HTLCs), and once all HTLCs are resolved, the final channel close
negotiation begins.
+-------+ +-------+
| |--(1)----- shutdown ------->| |
| |< - ( 2 ) ----- shutdown -------- | |
| | | |
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| | < complete all pending HTLCs > | |
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| A | ... | B |
| | | |
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| |< - ( 3 ) -- closing_signed F1---- | |
| |--(4)-- closing_signed F2--->| |
| | ... | |
| |--(?)-- closing_signed Fn--->| |
| |< - ( ? ) -- closing_signed Fn---- | |
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+-------+ +-------+
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### Closing initiation: `shutdown`
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Either node (or both) can send a `shutdown` message to initiate closing,
and indicating the scriptpubkey it wants to be paid to.
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1. type: 38 (`shutdown`)
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2. data:
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* [`32`:`channel_id`]
* [`2`:`len`]
* [`len`:`scriptpubkey`]
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#### Requirements
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A node MUST NOT send a `shutdown` if there are updates pending
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on the receiving node's commitment transaction.
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A node MUST NOT send an `update_add_htlc` after a `shutdown` . A sending node
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SHOULD fail to route any HTLC added after it sent `shutdown` .
A sending node MUST set `scriptpubkey` to one of the following forms:
1. `OP_DUP` `OP_HASH160` `20` 20-bytes `OP_EQUALVERIFY` `OP_CHECKSIG`
(pay to pubkey hash), OR
2. `OP_HASH160` `20` 20-bytes `OP_EQUAL` (pay to script hash), OR
3. `OP_0` `20` 20-bytes (version 0 pay to witness pubkey), OR
4. `OP_0` `32` 32-bytes (version 0 pay to witness script hash)
A receiving node SHOULD fail the connection if the `scriptpubkey` is not one
of those forms.
A receiving node MUST reply to a `shutdown` message with a `shutdown` once there are no outstanding updates on the peer, unless it has already sent a `shutdown` .
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#### Rationale
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If channel state is always "clean" (no pending changes) when a
shutdown starts, we avoid the question of how to behave if it wasn't;
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the sender always send an `commitment_signed` first.
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As shutdown implies a desire to terminate, it implies that no new
HTLCs will be added or accepted.
The `scriptpubkey` forms include only standard forms accepted by the
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Bitcoin network, ensuring that the resulting transaction will
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propagate to miners.
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The `shutdown` response requirement implies that the node sends `commitment_signed` to commit any outstanding changes before replying, but it could theoretically reconnect instead, which simply erases all outstanding uncommitted changes.
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### Closing negotiation: `closing_signed`
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Once shutdown is complete and the channel is empty of HTLCs, the final
current commitment transactions will have no HTLCs, and closing fee
negotiation begins. Each node chooses a fee it thinks is fair, and
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signs the close transaction with the `scriptpubkey` fields from the
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`shutdown` messages and that fee, and sends the signature. The
process terminates when both agree on the same fee, or one side fails
the channel.
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1. type: 39 (`closing_signed`)
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2. data:
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* [`32`:`channel_id`]
* [`8`:`fee_satoshis`]
* [`64`:`signature`]
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#### Requirements
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Nodes SHOULD send a `closing_signed` message after `shutdown` has
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been received and no HTLCs remain in either commitment transaction.
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A sending node MUST set `fee_satoshis` lower than or equal to the
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base fee of the final commitment transaction as calculated in [BOLT #3 ](03-transactions.md#fee-calculation ).
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The sender SHOULD set the initial `fee_satoshis` according to its
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estimate of cost of inclusion in a block.
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The sender MUST set `signature` to the Bitcoin signature of the close
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transaction as specified in [BOLT #3 ](03-transactions.md#closing-transaction ).
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The receiver MUST check `signature` is valid for either variant of close
transaction specified in [BOLT #3 ](03-transactions.md#closing-transaction ),
and MUST fail the connection if it is not.
If `fee_satoshis` is equal to its previously sent `fee_satoshis` , the receiver
SHOULD sign and broadcast the final closing transaction and MAY close the connection.
Otherwise, the
recipient MUST fail the connection if `fee_satoshis` is greater than
the base fee of the final commitment transaction as calculated in
[BOLT #3 ](03-transactions.md#fee-calculation ), and the
recipient SHOULD fail the connection if `fee_satoshis` is not strictly
between its last-sent `fee_satoshis` and its previously-received
`fee_satoshis` , unless it has reconnected since then.
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If the receiver agrees with the fee, it SHOULD reply with a
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`closing_signed` with the same `fee_satoshis` value, otherwise it
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MUST propose a value strictly between the received `fee_satoshis`
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and its previously-sent `fee_satoshis` .
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#### Rationale
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The "strictly between" requirements ensure that we make forward
progress, even if only by a single satoshi at a time. To avoid
keeping state and handle the corner case where fees have shifted
between disconnection and reconnection, negotiation restarts on reconnection.
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2016-11-15 02:23:20 +01:00
Note that there is limited risk if the closing transaction is
delayed, and it will be broadcast very soon, so there is usually no
reason to pay a premium for rapid processing.
## Normal Operation
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Once both nodes have exchanged `funding_locked` (and optionally [`announcement_signatures` ](https://github.com/lightningnetwork/lightning-rfc/blob/master/07-routing-gossip.md#the-announcement_signatures-message )), the channel can be used to make payments via Hash TimeLocked Contracts.
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Changes are sent in batches: one or more `update_` messages are sent before a
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`commitment_signed` message, as in the following diagram:
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+-------+ +-------+
| |--(1)---- add_htlc ------>| |
| |--(2)---- add_htlc ------>| |
| |< - ( 3 ) ---- add_htlc ------- | |
| | | |
| |--(4)---- commit ------>| |
| A | | B |
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| |< - ( 5 ) --- revoke_and_ack----- | |
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| |< - ( 6 ) ---- commit ------- | |
| | | |
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| |--(7)--- revoke_and_ack---->| |
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+-------+ +-------+
Counterintuitively, these updates apply to the *other node's*
commitment transaction; the node only adds those updates to its own
commitment transaction when the remote node acknowledges it has
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applied them via `revoke_and_ack` .
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Thus each update traverses through the following states:
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1. Pending on the receiver
2. In the receiver's latest commitment transaction,
3. ... and the receiver's previous commitment transaction has been revoked,
and the HTLC is pending on the sender.
4. ... and in the sender's latest commitment transaction
5. ... and the sender's previous commitment transaction has been revoked
As the two nodes updates are independent, the two commitment
transactions may be out of sync indefinitely. This is not concerning:
what matters is whether both sides have irrevocably committed to a
particular HTLC or not (the final state, above).
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### Forwarding HTLCs
In general, a node offers HTLCs for two reasons: to initiate a payment of its own,
or to forward a payment coming from another node. In the forwarding case, care must
be taken to ensure that the *outgoing* HTLC cannot be redeemed unless the *incoming*
HTLC can be redeemed; these requirements ensure that is always true.
The addition/removal of an HTLC is considered *irrevocably committed* when:
1. the commitment transaction with/without it it is committed by both nodes, and any
previous commitment transaction which without/with it has been revoked, OR
2. the commitment transaction with/without it has been irreversibly committed to
the blockchain.
#### Requirements
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A node MUST NOT offer an HTLC (`update_add_htlc`) in response to an incoming HTLC until
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the incoming HTLC has been irrevocably committed.
A node MUST NOT fail an incoming HTLC (`update_fail_htlc`) for which it has committed
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to an outgoing HTLC, until the removal of the outgoing HTLC is irrevocably committed, or the outgoing on-chain HTLC output has been spent via the HTLC-timeout transaction with sufficient depth.
A node MUST fail an incoming HTLC (`update_fail_htlc`) once its `cltv_expiry` has been reached.
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A node MUST fulfill an incoming HTLC for which it has committed to an outgoing HTLC,
as soon as it receives `update_fulfill_htlc` for the outgoing HTLC, or has discovered the `payment_preimage` from an on-chain HTLC spend.
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#### Rationale
In general, we need to complete one side of the exchange before dealing with the other.
Fulfilling an HTLC is different: knowledge of the preimage is by definition irrevocable,
so we should fulfill the incoming HTLC as soon as we can to reduce latency.
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### Risks With HTLC Timeouts
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Once an HTLC has timed out where it could either be fulfilled or timed-out;
care must be taken around this transition both for offered and received HTLCs.
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As a result of forwarding an HTLC from node A to node C, B will end up having an incoming
HTLC from A and an outgoing HTLC to C. B will make sure that the incoming HTLC has a greater
timeout than the outgoing HTLC, so that B can get refunded from C sooner than it has to refund
A if the payment does not complete.
For example, node A might offer node B an HTLC with a timeout of 3 days, and node B might
offer node C the same HTLC with a timeout of 2 days:
```
3 days timeout 2 days timeout
A ------------------> B ------------------> C
```
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The difference in timeouts is called `cltv_expiry_delta` in
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[BOLT #7 ](07-routing-gossip.md ).
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This difference is important: after 2 days B can try to
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remove the offer to C even if C is unresponsive, by broadcasting the
commitment transaction it has with C and spending the HTLC output.
Even though C might race to try to use its payment preimage at that point to
also spend the HTLC, it should be resolved well before the 3 day
deadline so B can either redeem the HTLC off A or close it.
If the timing is too close, there is a risk of "one-sided redemption",
where the payment preimage received from an offered HTLC is too late
to be used for an incoming HTLC, leaving the node with unexpected
liability.
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Thus the effective timeout of the HTLC is the `cltv_expiry` , plus some
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additional delay for the transaction which redeems the HTLC output to
be irreversibly committed to the blockchain.
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The fulfillment risk is similar: if a node C fulfills an HTLC after
its timeout, B might broadcast the commitment transaction and
immediately broadcast the HTLC timeout transaction. In this scenario,
B would gain knowledge of the preimage without paying C.
#### Requirements
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A node MUST estimate the deadline for successful redemption for each
HTLC. A node MUST NOT offer a HTLC after this deadline, and
MUST fail the channel if an HTLC which it offered is in either node's
current commitment transaction past this deadline.
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2017-03-23 00:39:04 +01:00
A node MUST NOT fulfill an HTLC after this deadline, and MUST fail the
connection if a HTLC it has fulfilled is in either node's current
commitment transaction past this deadline.
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### Adding an HTLC: `update_add_htlc`
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Either node can send `update_add_htlc` to offer a HTLC to the other,
which is redeemable in return for a payment preimage. Amounts are in
millisatoshi, though on-chain enforcement is only possible for whole
satoshi amounts greater than the dust limit: in commitment transactions these are rounded down as
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specified in [BOLT #3 ](03-transactions.md ).
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The format of the `onion_routing_packet` portion, which indicates where the payment
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is destined, is described in [BOLT #4 ](04-onion-routing.md ).
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1. type: 128 (`update_add_htlc`)
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2. data:
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* [`32`:`channel_id`]
* [`8`:`id`]
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* [`8`:`amount_msat`]
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* [`32`:`payment_hash`]
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* [`4`:`cltv_expiry`]
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* [`1366`:`onion_routing_packet`]
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#### Requirements
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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
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Fees") while maintaining its channel reserve, MUST offer
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`amount_msat` greater than 0, MUST NOT offer `amount_msat` below
the receiving node's `htlc_minimum_msat` , and MUST set `cltv_expiry` less
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than 500000000.
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For channels with `chain_hash` identifying the Bitcoin blockchain, the
sending node MUST set the 4 most significant bytes of `amount_msat` to
zero.
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A sending node MUST NOT add an HTLC if it would result in it offering
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more than the remote's `max_accepted_htlcs` HTLCs in the remote commitment
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transaction, or if the sum of total offered HTLCs would exceed the remote's
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`max_htlc_value_in_flight_msat` .
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A sending node MUST set `id` to 0 for the first HTLC it offers, and
increase the value by 1 for each successive offer.
A receiving node SHOULD fail the channel if it receives an
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`amount_msat` equal to zero, below its own `htlc_minimum_msat` , or
which the sending node cannot afford at the current `feerate_per_kw` while
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maintaining its channel reserve. A receiving node SHOULD fail the
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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, or
sets `cltv_expiry` to greater or equal to 500000000.
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For channels with `chain_hash` identifying the Bitcoin blockchain, the
receiving node MUST fail the channel if the 4 most significant bytes
of `amount_msat` are not zero.
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A receiving node MUST allow multiple HTLCs with the same payment hash.
A receiving node MUST ignore a repeated `id` value after a
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reconnection if the sender did not previously acknowledge the
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commitment of that HTLC. A receiving node MAY fail the channel if
other `id` violations occur.
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The `onion_routing_packet` contains an obfuscated list of hops and instructions for each hop along the path.
It commits to the HTLC by setting the `payment_hash` as associated data, i.e., including the `payment_hash` in the computation of HMACs.
This prevents replay attacks that'd reuse a previous `onion_routing_packet` with a different `payment_hash` .
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#### Rationale
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Invalid amounts are a clear protocol violation and indicate a
breakdown.
If a node did not accept multiple HTLCs with the same payment hash, an
attacker could probe to see if a node had an existing HTLC. This
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requirement to deal with duplicates leads us to use a separate
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identifier; we assume a 64 bit counter never wraps.
Retransmissions of unacknowledged updates are explicitly allowed for
reconnection purposes; allowing them at other times simplifies the
recipient code, though strict checking may help debugging.
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`max_accepted_htlcs` is limited to 483, to ensure that even if both
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sides send the maximum number of HTLCs, the `commitment_signed` message will
BOLT 1, BOLT 2, BOLT 5: 2-byte lengths everywhere.
Since our cryptopacket limits us to 2 bytes, and since people will
send 1-message-per-crypto-packet and nobody will test the
multiple-messages-in-one-cryptopacket code, let's just restrict to
64k messages.
1. Make cryptopacket length not include the HMAC, so we can actually send
64k messages.
2. Remove len prefix from packet, make type 2 bytes, note alignment properties.
3. Change message internal lengths/counts from 4 to 2 bytes, since more
is nonsensical anyway, and this removes a need to check before allocating:
- init feature bitfield length
- error message length
- shutdown scriptpubkey length
- commit_sig number of HTLC signatures
- revoke_and_ack number of HTLC-timeout signatures
4. Change max-accepted-htlcs to two bytes, and limit it to 511 to ensure
that commit_sig will always be under 64k.
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2016-11-24 05:58:30 +01:00
still be under the maximum message size. It also ensures that
a single penalty transaction can spend the entire commitment transaction,
as calculated in [BOLT #5 ](05-onchain.md#penalty-transaction-weight-calculation ).
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`cltv_expiry` values equal or above 500000000 would indicate a time in
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seconds, and the protocol only supports an expiry in blocks.
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`amount_msat` is deliberately limited for this version of the
specification; larger amounts are not necessary nor wise during the
bootstrap phase of the network.
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### Removing an HTLC: `update_fulfill_htlc`, `update_fail_htlc` and `update_fail_malformed_htlc`
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For simplicity, a node can only remove HTLCs added by the other node.
There are three reasons for removing an HTLC: it has timed out, it has
failed to route, or the payment preimage is supplied.
The `reason` field is an opaque encrypted blob for the benefit of the
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original HTLC initiator as defined in [BOLT #4 ](04-onion-routing.md ),
but there's a special malformed failure variant for the case where
our peer couldn't parse it; in this case the current node encrypts
it into a `update_fail_htlc` for relaying.
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1. type: 130 (`update_fulfill_htlc`)
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2. data:
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* [`32`:`channel_id`]
* [`8`:`id`]
* [`32`:`payment_preimage`]
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For a timed out or route-failed HTLC:
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1. type: 131 (`update_fail_htlc`)
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2. data:
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* [`32`:`channel_id`]
* [`8`:`id`]
* [`2`:`len`]
* [`len`:`reason`]
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For a unparsable HTLC:
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1. type: 135 (`update_fail_malformed_htlc`)
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2. data:
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* [`32`:`channel_id`]
* [`8`:`id`]
* [`32`:`sha256_of_onion`]
* [`2`:`failure_code`]
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#### Requirements
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A node SHOULD remove an HTLC as soon as it can; in particular, a node
SHOULD fail an HTLC which has timed out.
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A node MUST NOT send an `update_fulfill_htlc` , `update_fail_htlc` or
`update_fail_malformed_htlc` until the corresponding HTLC is irrevocably
committed in both sides' commitment transactions.
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A receiving node MUST check that `id` corresponds to an HTLC in its
current commitment transaction, and MUST fail the channel if it does
not.
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A receiving node MUST check that the `payment_preimage` value in
`update_fulfill_htlc` SHA256 hashes to the corresponding HTLC
`payment_hash` , and MUST fail the channel if it does not.
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A receiving node MUST fail the channel if the `BADONION` bit in
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`failure_code` is not set for `update_fail_malformed_htlc` .
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A receiving node MAY check the `sha256_of_onion` in
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`update_fail_malformed_htlc` and MAY retry or choose an alternate
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error response if it does not match the onion it sent.
Otherwise, a receiving node which has an outgoing HTLC canceled by
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`update_fail_malformed_htlc` MUST return an error in the
`update_fail_htlc` sent to the link which originally sent the HTLC
using the `failure_code` given and setting the data to
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`sha256_of_onion` .
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#### Rationale
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A node which doesn't time out HTLCs risks channel failure (see
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"Risks With HTLC Timeouts").
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A node which sends `update_fulfill_htlc` before the sender is also
committed to the HTLC risks losing funds.
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If the onion is malformed, the upstream node won't be able to extract
a key to generate a response, hence the special failure message which
makes this node do it.
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The node can check that the SHA256 the upstream is complaining about
does match the onion it sent, which may allow it to detect random bit
errors. Without re-checking the actual encrypted packet sent, however,
it won't know whether the error was its own or on the remote side, so
such detection is left as an option.
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### Committing Updates So Far: `commitment_signed`
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When a node has changes for the remote commitment, it can apply them,
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sign the resulting transaction as defined in [BOLT #3 ](03-transactions.md ) and send a
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`commitment_signed` message.
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1. type: 132 (`commitment_signed`)
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2. data:
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* [`32`:`channel_id`]
* [`64`:`signature`]
* [`2`:`num_htlcs`]
* [`num_htlcs*64`:`htlc_signature`]
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#### Requirements
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A node MUST NOT send a `commitment_signed` message which does not include any
updates. Note that a node MAY send a `commitment_signed` message which only
alters the fee, and MAY send a `commitment_signed` message which doesn't
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change the commitment transaction other than the new revocation hash
(due to dust, identical HTLC replacement, or insignificant or multiple
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fee changes). A node MUST include one `htlc_signature` for every HTLC
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transaction corresponding to BIP69 lexicographic ordering of the commitment
transaction.
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A receiving node MUST fail the channel if `signature` is not valid for
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its local commitment transaction once all pending updates are applied.
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A receiving node MUST fail the channel if `num_htlcs` is not equal to
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the number of HTLC outputs in the local commitment transaction once all
pending updates are applied. A receiving node MUST fail the channel if
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any `htlc_signature` is not valid for the corresponding HTLC transaction.
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A receiving node MUST respond with a `revoke_and_ack` message.
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#### Rationale
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There's little point offering spam updates; it implies a bug.
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The `num_htlcs` field is redundant, but makes the packet length check fully self-contained.
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### Completing the transition to the updated state: `revoke_and_ack`
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Once the recipient of `commitment_signed` checks the signature, it knows that
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it has a valid new commitment transaction, replies with the commitment
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preimage for the previous commitment transaction in a `revoke_and_ack`
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message.
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This message also implicitly serves as an acknowledgment of receipt
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of the `commitment_signed` , so it's a logical time for the `commitment_signed` sender
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to apply to its own commitment, any pending updates it sent before
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that `commitment_signed` .
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The description of key derivation is in [BOLT #3 ](03-transactions.md#key-derivation ).
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1. type: 133 (`revoke_and_ack`)
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2. data:
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* [`32`:`channel_id`]
* [`32`:`per_commitment_secret`]
* [`33`:`next_per_commitment_point`]
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#### Requirements
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A sending node MUST set `per_commitment_secret` to the secret used to generate keys for the
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previous commitment transaction, MUST set `next_per_commitment_point` to the values for its next commitment transaction.
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A receiving node MUST check that `per_commitment_secret` generates the previous `per_commitment_point` , and MUST fail if it does not. A receiving node MAY fail if the `per_commitment_secret` was not generated by the protocol in [BOLT #3 ](03-transactions.md#per-commitment-secret-requirements ).
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Nodes MUST NOT broadcast old (revoked) commitment transactions; doing
so will allow the other node to seize all the funds. Nodes SHOULD NOT
sign commitment transactions unless it is about to broadcast them (due
to a failed connection), to reduce this risk.
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### Updating Fees: `update_fee`
An `update_fee` message is sent by the node which is paying the
bitcoin fee. Like any update, it is first committed to the receiver's
commitment transaction, then (once acknowledged) committed to the
sender's. Unlike an HTLC, `update_fee` is never closed, simply
replaced.
There is a possibility of a race: the recipient can add new HTLCs
before it receives the `update_fee` , and the sender may not be able to
afford the fee on its own commitment transaction once the `update_fee`
is acknowledged by the recipient. In this case, the fee will be less
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than the fee rate, as described in [BOLT #3 ](03-transactions.md#fee-payment ).
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The exact calculation used for deriving the fee from the fee rate is
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given in [BOLT #3 ](03-transactions.md#fee-calculation ).
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1. type: 134 (`update_fee`)
2. data:
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* [`32`:`channel_id`]
* [`4`:`feerate_per_kw`]
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#### Requirements
The node which is responsible for paying the bitcoin fee SHOULD send
`update_fee` to ensure the current fee rate is sufficient for
timely processing of the commitment transaction by a significant
margin.
The node which is not responsible for paying the bitcoin fee MUST NOT
send `update_fee` .
A receiving node SHOULD fail the channel if the `update_fee` is too
low for timely processing, or unreasonably large.
A receiving node MUST fail the channel if the sender is not
responsible for paying the bitcoin fee.
A receiving node SHOULD fail the channel if the sender cannot afford
the new fee rate on the receiving node's current commitment
transaction, but it MAY delay this check until the `update_fee` is
committed.
#### Rationale
Bitcoin fees are required for unilateral closes to be effective,
particularly since there is no general method for the node which
broadcasts it to use child-pays-for-parent to increase its effective
fee.
Given the variance in fees, and the fact that the transaction may be
spent in the future, it's a good idea for the fee payer to keep a good
margin, say 5x the expected fee requirement, but differing methods of
fee estimation mean we don't specify an exact value.
Since the fees are currently one-sided (the party which requested the
channel creation always pays the fees for the commitment transaction),
it is simplest to only allow them to set fee levels, but as the same
fee rate applies to HTLC transactions, the receiving node must also
care about the reasonableness of the fee.
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## Message Retransmission
Because communication transports are unreliable and may need to be
re-established from time to time, the design of the transport has been
explicitly separated from the protocol.
Nonetheless, we assume that our transport is ordered and reliable;
reconnection introduces doubt as to what has been received, so we
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have explicit acknowledgments at that point.
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This is fairly straightforward in the case of channel establishment
and close where messages have an explicit order, but in normal
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operation acknowledgments of updates are delayed until the
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`commitment_signed` / `revoke_and_ack` exchange, so we cannot assume
the updates have been received. This also means that the receiving
node only needs to store updates upon receipt of `commitment_signed` .
Note that messages described in [BOLT #7 ](07-routing-gossip.md ) are
independent of particular channels; their transmission requirements
are covered there, and other than being transmitted after `init` (like
any message), they are independent of requirements here.
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1. type: 136 (`channel_reestablish`)
2. data:
* [`32`:`channel_id`]
* [`8`:`next_local_commitment_number`]
* [`8`:`next_remote_revocation_number`]
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### Requirements
A node MUST handle continuing a previous channel on a new encrypted
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transport.
On disconnection, the funder MUST remember the channel for
reconnection if it has broadcast the funding transaction, otherwise it
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SHOULD NOT.
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On disconnection, the non-funding node MUST remember the channel for
reconnection if it has sent the `funding_signed` message, otherwise
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it SHOULD NOT.
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On disconnection, a node MUST reverse any uncommitted updates sent by
the other side (ie. all messages beginning with `update_` for which no
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`commitment_signed` has been received). Note that a node MAY have
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already use the `payment_preimage` value from the `update_fulfill_htlc` ,
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so the effects of `update_fulfill_htlc` is not completely reversed.
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On reconnection, if a channel is in an error state, the node SHOULD
retransmit the error packet and ignore any other packets for that
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channel, and the following requirements do not apply.
On reconnection, a node MUST transmit `channel_reestablish`
for each channel, and MUST wait for to receive the other node's
`channel_reestablish` message before sending any other messages for
that channel. The sending node MUST set `next_local_commitment_number` to the
commitment number of the next `commitment_signed` it expects to receive, and
MUST set `next_remote_revocation_number` to the commitment number of the
next `revoke_and_ack` message it expects to receive.
If `next_local_commitment_number` is 1 in both the `channel_reestablish` it
sent and received, then the node MUST retransmit `funding_locked` , otherwise
it MUST NOT. On reconnection, a node MUST ignore a redundant `funding_locked`
if it receives one.
If `next_local_commitment_number` is equal to the commitment number of
the last `commitment_signed` message the receiving node has sent, it
MUST reuse the same commitment number for its next `commitment_signed` ,
otherwise if `next_local_commitment_number` is not one greater than the commitment number of the
last `commitment_signed` message the receiving node has sent, it
SHOULD fail the channel.
If `next_remote_revocation_number` is equal to the commitment number of
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the last `revoke_and_ack` the receiving node has sent and the receiving node has not already received a `closing_signed` , it MUST re-send
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the `revoke_and_ack` , otherwise if `next_remote_revocation_number` is not
equal to one greater than the commitment number of the last `revoke_and_ack` the
receiving node has sent (or equal to zero if none have been sent), it SHOULD fail the channel.
A node MUST not assume that previously-transmitted messages were lost:
in particular, if it has sent a previous `commitment_signed` message,
a node MUST handle the case where the corresponding commitment
transaction is broadcast by the other side at any time. This is
particularly important if a node does not simply retransmit the exact
same `update_` messages as previously sent.
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On reconnection if the node has sent a previous `closing_signed` it
MUST send another `closing_signed` , otherwise if the node
has sent a previous `shutdown` it MUST retransmit it.
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### Rationale
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The effect of requirements above are that the opening phase is almost
atomic: if it doesn't complete, it starts again. The only exception
is where the `funding_signed` message is sent and not received: in
this case, the funder will forget the channel and presumably open
a new one on reconnect; the other node will eventually forget the
original channel due to never receiving `funding_locked` or seeing
the funding transaction on-chain.
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There's no acknowledgment for `error` , so if a reconnect occurs it's
polite to retransmit before disconnecting again, but it's not a MUST
because there are also occasions where a node can simply forget the
channel altogether.
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`closing_signed` has no acknowledgment, so must be transmitted again
on reconnect (though negotiation restarts on reconnection, so it need
not be an exact retransmission). The only acknowledgment for
`shutdown` is `closing_signed` , so that needs to always be retransmitted
unless `closing_signed` is.
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The handling of updates is similarly atomic: if the commit is not
acknowledged (or wasn't sent) the updates are re-sent. However, we
don't insist they be identical: they could be in a different order, or
involve different fees, or even be missing HTLCs which are now too old
to be added. Requiring they be identical would effectively mean a
write to disk by the sender upon each transmission, whereas the scheme
here encourages a single persistent write to disk for each
`commitment_signed` sent or received.
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We should never be asked to retransmit `revoke_and_ack` if we've
received a `closing_signed` , since that implies we've completed
shutdown which can only happen once the `revoke_and_ack` was received
by the remote node.
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Note that the `next_local_commitment_number` starts at 1 since
commitment number 0 is created during opening.
`next_remote_revocation_number` will be 0 until the
`commitment_signed` for commitment number 1 is received, at which
point the revocation for commitment number 0 is sent.
`funding_locked` is implicitly acknowledged by the start of normal
operation, which we know has begun once a `commitment_signed` has been
received, thus the test for a `next_local_commitment_number` greater
than 1.
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A previous draft insisted that the funder "MUST remember ...if it has
broadcast the funding transaction, otherwise it MUST NOT": this was in
fact an impossible requirement, as a node must either first commit to
disk then broadcast the transaction, or the other way around. The new
language reflects this reality: it's surely better to remember a
channel which hasn't been broadcast than forget one which has!
Similarly, for the fundee's `funding_signed` message; better to
remember a channel which never opens (and time out) than let the
funder open it with the funder having forgotten it.
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# Authors
FIXME
2016-11-22 20:52:59 +01:00
![Creative Commons License ](https://i.creativecommons.org/l/by/4.0/88x31.png "License CC-BY" )
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This work is licensed under a [Creative Commons Attribution 4.0 International License ](http://creativecommons.org/licenses/by/4.0/ ).