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728 lines
28 KiB
Plaintext
[appendix]
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[[wire_protocol_enumeration]]
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[[protocol_messages]]
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[[messages]]
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== Wire Protocol Messages
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This appendix lists all the currently defined message types used in the Lightning P2P protocol. Additionally, we show the structure of each message, grouping the messages into logical groupings based on the protocol flows.
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[NOTE]
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====
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Lightning Protocol messages are extensible and their structure may change during network-wide upgrades. For the authoritative information, consult the latest version of the BOLTs found in the https://github.com/lightningnetwork/lightning-rfc[Github - Lightning-RFC] repository.
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====
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=== Message Types
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Currently defined message types are:
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[[message_types]]
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.Message Types
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[options="header"]
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|===
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| Type Integer | Message Name | Category
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| 16 | `init` | Connection Establishment
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| 17 | `error` | Error Communication
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| 18 | `ping` | Connection Liveness
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| 19 | `pong` | Connection Liveness
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| 32 | `open_channel` | Channel Funding
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| 33 | `accept_channel` | Channel Funding
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| 34 | `funding_created` | Channel Funding
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| 35 | `funding_signed` | Channel Funding
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| 36 | `funding_locked` | Channel Funding + Channel Operation
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| 38 | `shutdown` | Channel Closing
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| 39 | `closing_signed` | Channel Closing
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| 128 | `update_add_htlc` | Channel Operation
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| 130 | `update_fulfill_hltc` | Channel Operation
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| 131 | `update_fail_htlc` | Channel Operation
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| 132 | `commit_sig` | Channel Operation
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| 133 | `revoke_and_ack` | Channel Operation
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| 134 | `update_fee` | Channel Operation
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| 135 | `update_fail_malformed_htlc` | Channel Operation
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| 136 | `channel_reestablish` | Channel Operation
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| 256 | `channel_announcement` | Channel Announcement
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| 257 | `node_announcement` | Channel Announcement
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| 258 | `channel_update` | Channel Announcement
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| 259 | `announce_signatures` | Channel Announcement
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| 261 | `query_short_chan_ids` | Channel Graph Syncing
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| 262 | `reply_short_chan_ids_end` | Channel Graph Syncing
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| 263 | `query_channel_range` | Channel Graph Syncing
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| 264 | `reply_channel_range` | Channel Graph Syncing
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| 265 | `gossip_timestamp_range` | Channel Graph Syncing
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|===
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In <<message_types>>, the `Category` field allows us to quickly categorize a
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message based on its functionality within the protocol itself. At a high level,
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we place a message into one of 8 (non exhaustive) buckets including:
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* *Connection Establishment*: Sent when a peer to peer connection is first
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established. Also used in order to negotiate the set of feature supported
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by a new connection.
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* *Error Communication*: Used by peer to communicate the occurrence of
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protocol level errors to each other.
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* *Connection Liveness*: Used by peers to check that a given transport
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connection is still live.
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* *Channel Funding*: Used by peers to create a new payment channel. This
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process is also known as the channel funding process.
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* *Channel Operation*: The act of updating a given channel off-chain. This
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includes sending and receiving payments, as well as forwarding payments
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within the network.
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* *Channel Announcement*: The process of announcing a new public channel to
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the wider network so it can be used for routing purposes.
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* *Channel Graph Syncing*: The process of downloading & verifying the channel
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graph.
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Notice how messages that belong to the same category typically share an
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adjacent _message type_ as well. This is done on purpose in order to group
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semantically similar messages together within the specification itself.
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=== Message Structure
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We now detail each message category in order to define
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the precise structure and semantics of all defined messages within the LN
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protocol.
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==== Connection Establishment Messages
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Messages in this category are the very first message sent between peers once
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they establish a transport connection. At the time of writing of this chapter,
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there exists only a single messages within this category, the `init` message.
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The `init` message is sent by _both_ sides of the connection once it has been
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first established. No other messages are to be sent before the `init` message
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has been sent by both parties.
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The structure of the `init` message is defined as follows:
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[[apdx_init_message]]
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===== The `init` message
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* type: *16*
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* fields:
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** `uint16`: `global_features_len`
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** `global_features_len*byte`: `global_features`
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** `uint16`: `features_len`
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** `features_len*byte`: `features`
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** `tlv_stream_tlvs`
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Structurally, the `init` message is composed of two variable size bytes slices
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that each store a set of _feature bits_. As we see in <<feature_bits>>, feature bits are a
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primitive used within the protocol in order to advertise the set of protocol
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features a node either understands (optional features), or demands (required
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features).
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Note that modern node implementations will only use the `features` field, with
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items residing within the `global_features` vector for primarily _historical_
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purposes (backwards compatibility).
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What follows after the core message is a series of T.L.V, or Type Length Value
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records which can be used to extend the message in a forwards+backwards
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compatible manner in the future. We'll cover what TLV records are and how
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they're used later in the chapter.
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An `init` message is then examined by a peer in order to determine if the
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connection is well defined based on the set of optional and required feature
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bits advertised by both sides.
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An optional feature means that a peer knows about a feature, but they don't
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consider it critical to the operation of a new connection. An example of one
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would be something like the ability to understand the semantics of a newly
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added field to an existing message.
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On the other hand, required feature indicate that if the other peer doesn't
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know about the feature, then the connection isn't well defined. An example of
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such a feature would be a theoretical new channel type within the protocol: if
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your peer doesn't know of this feature, they you don't want to keep the
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connection as they're unable to open your new preferred channel type.
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==== Error Communication Messages
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Messages in this category are used to send connection level errors between two
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peers. Another type of error exists in the protocol: an
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HTLC forwarding level error. Connection level errors may signal things like
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feature bit incompatibility, or the intent to force close (unilaterally
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broadcast the latest signed commitment)
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The sole message in this category is the `error` message:
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[[apdx_error_message]]
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===== The `error` message
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* type: *17*
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* fields:
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** `channel_id` : `chan_id`
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** `uint16` : `data_len`
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** `data_len*byte` : `data`
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An `error` message can be sent within the scope of a particular channel by
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setting the `channel_id`, to the `channel_id` of the channel under going this
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new error state. Alternatively, if the error applies to the connection in
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general, then the `channel_id` field should be set to all zeroes. This all zero
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`channel_id` is also known as the connection level identifier for an error.
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Depending on the nature of the error, sending an `error` message to a peer you
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have a channel with may indicate that the channel cannot continue without
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manual intervention, so the only option at that point is to force close the
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channel by broadcasting the latest commitment state of the channel.
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==== Connection Liveness
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Messages in this section are used to probe to determine if a connection is
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still live or not. As the LN protocol somewhat abstracts over the underlying
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transport being used to transmit the messages, a set of protocol level `ping`
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and `pong` messages are defined.
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[[apdx_ping_message]]
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===== The `ping` message
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* type: *18*
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* fields:
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** `uint16` : `num_pong_bytes`
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** `uint16` : `ping_body_len`
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** `ping_body_len*bytes` : `ping_body`
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Next it's companion, the `pong` message.
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[[apdx_pong_message]]
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===== The `pong` message
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* type: *19*
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* fields:
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** `uint16` : `pong_body_len`
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** `ping_body_len*bytes` : `pong_body`
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A `ping` message can be sent by either party at any time.
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The `ping` message includes a `num_pong_bytes` field that is used to instruct
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the receiving node with respect to how large the payload it sends in its `pong`
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message is. The `ping` message also includes a `ping_body` opaque set of bytes
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which can be safely ignored. It only serves to allow a sender to pad out `ping`
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messages they send, which can be useful in attempting to thwart certain
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de-anonymization techniques based on packet sizes on the wire.
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A `pong` message should be sent in response to a received `ping` message. The
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receiver should read a set of `num_pong_bytes` random bytes to send back as the
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`pong_body` field. Clever use of these fields/messages may allow a privacy
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concious routing node to attempt to thwart certain classes of network
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de-anonymization attempts, as they can create a "fake" transcript that
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resembles other messages based on the packet sizes set across. Remember that by
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default the LN uses an _encrypted_ transport, so a passive network monitor
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cannot read the plaintext bytes, thus only has timing and packet sizes to go
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off of.
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==== Channel Funding
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As we go on, we enter into the territory of the core messages that govern the
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functionality and semantics of the Lightning Protocol. In this section, we
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explore the messages sent during the process of creating a new channel. We'll
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only describe the fields used as we leave a in in-depth analysis of the
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funding process to <<payment_channels>>.
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Messages that are sent during the channel funding flow belong to the following
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set of 5 messages: `open_channel`, `accept_channel`, `funding_created`,
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`funding_signed`, `funding_locked`.
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The detailed protocol flow using these messages is described in <<payment_channels>>.
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[[apdx_open_channel_message]]
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===== The `open_channel` message
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* type: *32*
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* fields:
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** `chain_hash` : `chain_hash`
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** `32*byte` : `temp_chan_id`
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** `uint64` : `funding_satoshis`
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** `uint64` : `push_msat`
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** `uint64` : `dust_limit_satoshis`
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** `uint64` : `max_htlc_value_in_flight_msat`
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** `uint64` : `channel_reserve_satoshis`
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** `uint64` : `htlc_minimum_msat`
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** `uint32` : `feerate_per_kw`
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** `uint16` : `to_self_delay`
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** `uint16` : `max_accepted_htlcs`
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** `pubkey` : `funding_pubkey`
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** `pubkey` : `revocation_basepoint`
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** `pubkey` : `payment_basepoint`
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** `pubkey` : `delayed_payment_basepoint`
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** `pubkey` : `htlc_basepoint`
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** `pubkey` : `first_per_commitment_point`
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** `byte` : `channel_flags`
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** `tlv_stream` : `tlvs`
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This is the first message sent when a node wishes to execute a new funding flow
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with another node. This message contains all the necessary information required
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for both peers to constructs both the funding transaction as well as the
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commitment transaction.
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At the time of writing of this chapter, a single TLV record is defined within
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the set of optional TLV records that may be appended to the end of a defined
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message:
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* type: *0*
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* data: `upfront_shutdown_script`
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The `upfront_shutdown_script` is a variable sized byte slice that MUST be a
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valid public key script as accepted by the Bitcoin networks' consensus
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algorithm. By providing such an address, the sending party is able to
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effectively create a "closed loop" for their channel, as neither side will sign
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off an cooperative closure transaction that pays to any other address. In
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practice, this address is usually one derived from a cold storage wallet.
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The `channel_flags` field is a bitfield of which at the time of writing, only
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the _first_ bit has any sort of significance. If this bit is set, then this
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denotes that this channel is to be advertised to the public network as a route
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bal channel. Otherwise, the channel is considered to be unadvertised, also
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commonly referred to as a "private" channel.
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The `accept_channel` message is the response to the `open_channel` message:
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[[apdx_accept_channel_message]]
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===== The `accept_channel` message
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* type: *33*
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* fields:
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** `32*byte` : `temp_chan_id`
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** `uint64` : `dust_limit_satoshis`
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** `uint64` : `max_htlc_value_in_flight_msat`
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** `uint64` : `channel_reserve_satoshis`
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** `uint64` : `htlc_minimum_msat`
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** `uint32` : `minimum_depth`
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** `uint16` : `to_self_delay`
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** `uint16` : `max_accepted_htlcs`
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** `pubkey` : `funding_pubkey`
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** `pubkey` : `revocation_basepoint`
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** `pubkey` : `payment_basepoint`
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** `pubkey` : `delayed_payment_basepoint`
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** `pubkey` : `htlc_basepoint`
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** `pubkey` : `first_per_commitment_point`
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** `tlv_stream` : `tlvs`
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The `accept_channel` message is the second message sent during the funding flow
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process. It serves to acknowledge an intent to open a channel with a new remote
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peer. The message mostly echoes the set of parameters that the responder wishes
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to apply to their version of the commitment transaction. In <<payment_channels>>,
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when we go into the funding process in details, we do a deep dive to explore
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the implications of the various parameters that can be set when opening a new
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channel.
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In response, the initiator will send the `funding_created` message.
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[[apdx_funding_created_message]]
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===== The `funding_created` message
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* type: *34*
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* fields:
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** `32*byte` : `temp_chan_id`
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** `32*byte` : `funding_txid`
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** `uint16` : `funding_output_index`
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** `sig` : `commit_sig`
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Once the initiator of a channel receives the `accept_channel` message from the
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responder, they they have all the materials they need in order to construct the
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commitment transaction, as well as the funding transaction. As channels by
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default are single funder (only one side commits funds), only the initiator
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needs to construct the funding transaction. As a result, in order to allow the
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responder to sign a version of a commitment transaction for the initiator, the
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initiator, only needs to send the funding outpoint of the channel.
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To conclude the responder sends the `funding_signed` message.
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[[apdx_funding_signed_message]]
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===== The `funding_signed` message
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* type: *34*
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* fields:
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** `channel_id` : `channel_id`
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** `sig` : `signature`
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To conclude after the responder receivers the `funding_created` message, they
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now own a valid signature of the commitment transaction by the initiator. With
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this signature they're able to exit the channel at any time by signing their
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half of the multi-sig funding output, and broadcasting the transaction. This is
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referred to as a force close. In order to give the initiator the ability to do
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so was well, before the channel can be used, the responder then signs the
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initiator's commitment transaction as well.
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Once this message has been received by the initiator, it's safe for them to
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broadcast the funding transaction, as they're now able to exit the channel
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agreement unilaterally.
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Once the funding transaction has received enough confirmations, the
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`funding_locked` is sent.
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[[apdx_funding_locked_message]]
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===== The `funding_locked` message
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* type: *36*
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* fields:
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** `channel_id` : `channel_id`
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** `pubkey` : `next_per_commitment_point`
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Once the funding transaction obtains a `minimum_depth` number of confirmations,
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then the `funding_locked` message is to be sent by both sides. Only after this
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message has been received, and sent can the channel being to be used.
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==== Channel Closing
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Channel closing is a multi-step process. One node initiates by sending the `shutdown` message. The two channel partners then exchange a series of `channel_closing` messages to negotiate mutually acceptable fees for the closing transaction. The channel funder sends the first `closing_signed` message and the other side can accept by sending a `closing_signed` message with the same fee values.
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[[apdx_shutdown_message]]
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===== The `shutdown` message
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* type: *38*
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* fields:
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** `channel_id` : `channel_id`
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** `u16` : `len`
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** `len*byte` : `scriptpubkey`
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[[apdx_closing_signed_message]]
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===== The `closing_signed` message
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* type: *39*
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* fields:
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** `channel_id` : `channel_id`
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** `u64` : `fee_satoshis`
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** `signature` : `signature`
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==== Channel Operation
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In this section, we briefly describe the set of messages used to allow
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nodes to operate a channel. By operation, we mean being able to send receive,
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and forward payments for a given channel.
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In order to send, receive or forward a payment over a channel, an HTLC must
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first be added to both commitment transactions that comprise of a channel link.
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The `update_add_htlc` message allows either side to add a new HTLC to the
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opposite commitment transaction.
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[[apdx_update_add_htlc_message]]
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===== The `update_add_htlc` message
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* type: *128*
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* fields:
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** `channel_id` : `channel_id`
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** `uint64` : `id`
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** `uint64` : `amount_msat`
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** `sha256` : `payment_hash`
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** `uint32` : `cltv_expiry`
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** `1366*byte` : `onion_routing_packet`
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Sending this message allows one party to initiate either sending a new payment,
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or forwarding an existing payment that arrived via in incoming channel. The
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message specifies the amount (`amount_msat`) along with the payment hash that
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unlocks the payment itself. The set of forwarding instructions of the next hop
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are onion encrypted within the `onion_routing_packet` field. In <<onion_routing>>, on
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multi-hop HTLC forwarding, we detail the onion routing protocol used in the
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Lighting Network in detail.
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Note that each HTLC sent uses an auto incrementing ID which is used by any
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message which modifies an HTLC (settle or cancel) to reference the HTLC in a
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unique manner scoped to the channel.
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The `update_fulfill_hltc` allow redemption (receipt) of an active HTLC.
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[[apdx_update_fulfill_hltc_message]]
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===== The `update_fulfill_hltc` message
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* type: *130*
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* fields:
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** `channel_id` : `channel_id`
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** `uint64` : `id`
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** `32*byte` : `payment_preimage`
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This message is sent by the HTLC receiver to the proposer in order to redeem an
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active HTLC. The message references the `id` of the HTLC in question, and also
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provides the pre-image (which unlocks the HLTC) as well.
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The `update_fail_htlc` is sent to remove an HTLC from a commitment transaction.
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[[apdx_update_fail_htlc_message]]
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===== The `update_fail_htlc` message
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* type: *131*
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* fields:
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** `channel_id` : `channel_id`
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** `uint64` : `id`
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** `uint16` : `len`
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** `len*byte` : `reason`
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The `update_fail_htlc` is the opposite of the `update_fulfill_hltc` message as
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it allows the receiver of an HTLC to remove the very same HTLC. This message is
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typically sent when an HTLC cannot be properly routed upstream, and needs to be
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sent back to the sender in order to unravel the HTLC chain. As we explore in
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Chapter XX, the message contains an _encrypted_ failure reason (`reason`) which
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may allow the sender to either adjust their payment route, or terminate if the
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failure itself is a terminal one.
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The `commitment_signed` message is used to stamp the creation of a new commitment transaction
|
|
|
|
[[apdx_commitment_signed_message]]
|
|
===== The `commitment_signed` message
|
|
|
|
* type: *132*
|
|
* fields:
|
|
** `channel_id` : `channel_id`
|
|
** `sig` : `signature`
|
|
** `uint16` : `num_htlcs`
|
|
** `num_htlcs*sig` : `htlc_signature`
|
|
|
|
In addition to sending a signature for the next commitment transaction, the
|
|
sender of this message also needs to send a signature for each HTLC that's
|
|
present on the commitment transaction. This is due to the existence of the
|
|
|
|
|
|
The `revoke_and_ack` is sent to revoke a dated commitment:
|
|
|
|
[[apdx_revoke_and_ack_message]]
|
|
===== The `revoke_and_ack` message
|
|
|
|
* type: *133*
|
|
* fields:
|
|
** `channel_id` : `channel_id`
|
|
** `32*byte` : `per_commitment_secret`
|
|
** `pubkey` : `next_per_commitment_point`
|
|
|
|
As the Lightning Network uses a replace-by-revoke commitment transaction, after
|
|
receiving a new commitment transaction via the `commit_sig` message, a party
|
|
must revoke their past commitment before they're able to receive another one.
|
|
While revoking a commitment transaction, the revoker then also provides the
|
|
next commitment point that's required to allow the other party to send them a
|
|
new commitment state.
|
|
|
|
The `update_fee` is sent to update the fee on the current commitment
|
|
transactions.
|
|
|
|
[[apdx_update_fee_message]]
|
|
===== The `update_fee` message
|
|
|
|
* type: *134*
|
|
* fields:
|
|
** `channel_id` : `channel_id`
|
|
** `uint32` : `feerate_per_kw`
|
|
|
|
This message can only be sent by the initiator of the channel they're the ones
|
|
that will pay for the commitment fee of the channel as along as it's open.
|
|
|
|
The `update_fail_malformed_htlc` is sent to remove a corrupted HTLC:
|
|
|
|
|
|
[[apdx_update_fail_malformed_htlc_message]]
|
|
===== The `update_fail_malformed_htlc` message
|
|
|
|
* type: *135*
|
|
* fields:
|
|
** `channel_id` : `channel_id`
|
|
** `uint64` : `id`
|
|
** `sha256` : `sha256_of_onion`
|
|
** `uint16` : `failure_code`
|
|
|
|
This message is similar to the `update_fail_htlc` but it's rarely used in
|
|
practice. As mentioned above, each HTLC carries an onion encrypted routing
|
|
packet that also covers the integrity of portions of the HTLC itself. If a
|
|
party receives an onion packet that has somehow been corrupted along the way,
|
|
then it won't be able to decrypt the packet. As a result it also can't properly
|
|
forward the HTLC, therefore it'll send this message to signify that the HTLC
|
|
has been corrupted somewhere along the route back to the sender.
|
|
|
|
==== Channel Announcement
|
|
|
|
Messages in this category are used to announce components of the Channel Graph
|
|
authenticated data structure to the wider network. The Channel Graph has a
|
|
series of unique properties due to the condition that all data added to the
|
|
channel graph MUST also be anchored in the base Bitcoin blockchain. As a
|
|
result, in order to add a new entry to the channel graph, an agent must be an
|
|
on chain transaction fee. This serves as a natural spam de tenace for the
|
|
Lightning Network.
|
|
|
|
The `channel_announcement` is used to announce a new channel to the wider
|
|
network.
|
|
|
|
[[apdx_channel_announcement_message]]
|
|
===== The `channel_announcement` message
|
|
|
|
* type: *256*
|
|
* fields:
|
|
** `sig` : `node_signature_1`
|
|
** `sig` : `node_signature_2`
|
|
** `sig` : `bitcoin_signature_1`
|
|
** `sig` : `bitcoin_signature_2`
|
|
** `uint16` : `len`
|
|
** `len*byte` : `features`
|
|
** `chain_hash` : `chain_hash`
|
|
** `short_channel_id` : `short_channel_id`
|
|
** `pubkey` : `node_id_1`
|
|
** `pubkey` : `node_id_2`
|
|
** `pubkey` : `bitcoin_key_1`
|
|
** `pubkey` : `bitcoin_key_2`
|
|
|
|
The series of signatures and public keys in the message serves to create a
|
|
_proof_ that the channel actually exists within the base Bitcoin blockchain. As
|
|
we detail in <<sid>>, each channel is uniquely identified by a locator
|
|
that encodes it's _location_ within the blockchain. This locator is called this
|
|
`short_channel_id` and can fit into a 64-bit integer.
|
|
|
|
The `node_announcement` allows a node to announce/update it's vertex within the
|
|
greater Channel Graph.
|
|
|
|
[[apdx_node_announcement_message]]
|
|
===== The `node_announcement` message
|
|
|
|
* type: *257*
|
|
* fields:
|
|
** `sig` : `signature`
|
|
** `uint64` : `flen`
|
|
** `flen*byte` : `features`
|
|
** `uint32` : `timestamp`
|
|
** `pubkey` : `node_id`
|
|
** `3*byte` : `rgb_color`
|
|
** `32*byte` : `alias`
|
|
** `uint16` : `addrlen`
|
|
** `addrlen*byte` : `addresses`
|
|
|
|
Note that if a node doesn't have any advertised channel within the Channel
|
|
Graph, then this message is ignored in order to ensure that adding an item to
|
|
the Channel Graph bares an on-chain cost. In this case, the on-chain cost will
|
|
the cost of creating the channel which this node is connected to.
|
|
|
|
In addition to advertising its feature set, this message also allows a node to
|
|
announce/update the set of network `addresses` that it can be reached at.
|
|
|
|
The `channel_update` message is sent to update the properties and policies of
|
|
an active channel edge within the Channel graph.
|
|
|
|
[[apdx_channel_update_message]]
|
|
===== The `channel_update` message
|
|
|
|
* type: *258*
|
|
* fields:
|
|
** `signature` : `signature`
|
|
** `chain_hash` : `chain_hash`
|
|
** `short_channel_id` : `short_channel_id`
|
|
** `uint32` : `timestamp`
|
|
** `byte` : `message_flags`
|
|
** `byte` : `channel_flags`
|
|
** `uint16` : `cltv_expiry_delta`
|
|
** `uint64` : `htlc_minimum_msat`
|
|
** `uint32` : `fee_base_msat`
|
|
** `uint32` : `fee_proportional_millionths`
|
|
** `uint16` : `htlc_maximum_msat`
|
|
|
|
In addition to being able to enable/disable a channel this message allows a
|
|
node to update it's routing fees as well as other fields that shape the type of
|
|
payment that is permitted to flow through this channel.
|
|
|
|
The `announce_signatures` message is exchange by channel peers in order to
|
|
assemble the set of signatures required to produce a `channel_announcement`
|
|
message.
|
|
|
|
[[apdx_announce_signatures_message]]
|
|
===== The `announce_signatures` message
|
|
|
|
* type: *259*
|
|
* fields:
|
|
** `channel_id` : `channel_id`
|
|
** `short_channel_id` : `short_channel_id`
|
|
** `sig` : `node_signature`
|
|
** `sig` : `bitcoin_signature`
|
|
|
|
After the `funding_locked` message has been sent, if both sides wish to
|
|
advertise their channel to the network, then they'll each send the
|
|
`announce_signatures` message which allows both sides to emplace the 4
|
|
signatures required to generate a `announce_signatures` message.
|
|
|
|
==== Channel Graph Syncing
|
|
|
|
The `query_short_chan_ids` allows a peer to obtain the channel information
|
|
related to a series of short channel IDs.
|
|
|
|
[[apdx_query_short_chan_ids_message]]
|
|
===== The `query_short_chan_ids` message
|
|
|
|
* type: *261*
|
|
* fields:
|
|
** `chain_hash` : `chain_hash`
|
|
** `u16` : `len`
|
|
** `len*byte` : `encoded_short_ids`
|
|
** `query_short_channel_ids_tlvs` : `tlvs`
|
|
|
|
As we learn in <<gosssip>>, these channel IDs may be a series of channels
|
|
that were new to the sender, or were out of date which allows the sender to
|
|
obtain the latest set of information for a set of channels.
|
|
|
|
The `reply_short_chan_ids_end` message is sent after a peer finishes responding
|
|
to a prior `query_short_chan_ids` message.
|
|
|
|
[[apdx_reply_short_chan_ids_end_message]]
|
|
===== The `reply_short_chan_ids_end` message
|
|
|
|
* type: *262*
|
|
* fields:
|
|
** `chain_hash` : `chain_hash`
|
|
** `byte` : `full_information`
|
|
|
|
This message signals to the receiving party that if they wish to send another
|
|
query message, they can now do so.
|
|
|
|
The `query_channel_range` message allows a node to query for the set of channel
|
|
opened within a block range.
|
|
|
|
[[apdx_query_channel_range_message]]
|
|
===== The `query_channel_range` message
|
|
|
|
* type: *263*
|
|
* fields:
|
|
** `chain_hash` : `chain_hash`
|
|
** `u32` : `first_blocknum`
|
|
** `u32` : `number_of_blocks`
|
|
** `query_channel_range_tlvs` : `tlvs`
|
|
|
|
|
|
As channels are represented using a short channel ID that encodes the location
|
|
of a channel in the chain, a node on the network can use a block height as a
|
|
sort of _cursor_ to seek through the chain in order to discover a set of newly
|
|
opened channels.
|
|
|
|
The `reply_channel_range` message is the response to `query_channel_range` and
|
|
includes the set of short channel IDs for known channels within that range.
|
|
|
|
[[apdx_reply_channel_range_message]]
|
|
===== The `reply_channel_range` message
|
|
|
|
* type: *264*
|
|
* fields:
|
|
** `chain_hash` : `chain_hash`
|
|
** `u32` : `first_blocknum`
|
|
** `u32` : `number_of_blocks`
|
|
** `byte` : `sync_complete`
|
|
** `u16` : `len`
|
|
** `len*byte` : `encoded_short_ids`
|
|
** `reply_channel_range_tlvs` : `tlvs`
|
|
|
|
As a response to `query_channel_range`, this message sends back the set of
|
|
channels that were opened within that range. This process can be repeated with
|
|
the requester advancing their cursor further down the chain in order to
|
|
continue syncing the Channel Graph.
|
|
|
|
The `gossip_timestamp_range` message allows a peer to start receiving new
|
|
incoming gossip messages on the network.
|
|
|
|
[[apdx_gossip_timestamp_range_message]]
|
|
===== The `gossip_timestamp_range` message
|
|
|
|
* type: *265*
|
|
* fields:
|
|
** `chain_hash` : `chain_hash`
|
|
** `u32` : `first_timestamp`
|
|
** `u32` : `timestamp_range`
|
|
|
|
Once a peer has synced the channel graph, they can send this message if they
|
|
wish to receive real-time updates on changes in the Channel Graph. They can
|
|
also set the `first_timestamp` and `timestamp_range` fields if they wish to
|
|
receive a backlog of updates they may have missed while they were down.
|