Plugins are a simple yet powerful way to extend the functionality
provided by Core Lightning. They are subprocesses that are started by the
main lightningd
daemon and can interact with lightningd
in a
variety of ways:
- Command line option passthrough allows plugins to register their
own command line options that are exposed through
lightningd
so that only the main process needs to be configured1. - JSON-RPC command passthrough adds a way for plugins to add their own commands to the JSON-RPC interface.
- Event stream subscriptions provide plugins with a push-based
notification mechanism about events from the
lightningd
. - Hooks are a primitive that allows plugins to be notified about
internal events in
lightningd
and alter its behavior or inject custom behaviors.
A plugin may be written in any language, and communicates with
lightningd
through the plugin's stdin
and stdout
. JSON-RPCv2 is
used as protocol on top of the two streams, with the plugin acting as
server and lightningd
acting as client. The plugin file needs to be
executable (e.g. use chmod a+x plugin_name
)
A helloworld.py
example plugin based on pyln-client
can be found here. There is also a
repository with a collection of
actively maintained plugins and finally, lightningd
's own internal
tests can be a useful (and most reliable) resource.
As noted, lightningd
uses stdin
as an intake mechanism. This can
cause unexpected behavior if one is not careful. To wit, care should
be taken to ensure that debug/logging statements must be routed to
stderr
or directly to a file. Activities that are benign in other
contexts (println!
, dbg!
, etc) will cause the plugin to be killed
with an error along the lines of:
UNUSUAL plugin-cln-plugin-startup: Killing plugin: JSON-RPC message does not contain "jsonrpc" field
During startup of lightningd
you can use the --plugin=
option to
register one or more plugins that should be started. In case you wish
to start several plugins you have to use the --plugin=
argument
once for each plugin (or --plugin-dir
or place them in the default
plugin dirs, usually /usr/local/libexec/c-lightning/plugins
and
~/.lightning/plugins
). An example call might look like:
lightningd --plugin=/path/to/plugin1 --plugin=path/to/plugin2
lightningd
will run your plugins from the --lightning-dir
/networkname
as working directory and env variables "LIGHTNINGD_PLUGIN" and "LIGHTNINGD_VERSION" set, then
will write JSON-RPC requests to the plugin's stdin
and
will read replies from its stdout
. To initialize the plugin two RPC
methods are required:
getmanifest
asks the plugin for command line options and JSON-RPC commands that should be passed through. This can be run beforelightningd
checks that it is the sole user of thelightning-dir
directory (for--help
) so your plugin should not touch files at this point.init
is called after the command line options have been parsed and passes them through with the real values (if specified). This is also the signal thatlightningd
's JSON-RPC over Unix Socket is now up and ready to receive incoming requests from the plugin.
Once those two methods were called lightningd
will start passing
through incoming JSON-RPC commands that were registered and the plugin
may interact with lightningd
using the JSON-RPC over Unix-Socket
interface.
Above is generally valid for plugins that start when lightningd
starts.
For dynamic plugins that start via the plugin JSON-RPC command there
is some difference, mainly in options passthrough (see note in Types of Options).
shutdown
(optional): if subscribed to "shutdown" notification, a plugin can exit cleanly whenlightningd
is shutting down or when stopped viaplugin stop
.
The getmanifest
method is required for all plugins and will be
called on startup with optional parameters (in particular, it may have
allow-deprecated-apis: false
, but you should accept, and ignore,
other parameters). It MUST return a JSON object similar to this
example:
{
"options": [
{
"name": "greeting",
"type": "string",
"default": "World",
"description": "What name should I call you?",
"deprecated": false
}
],
"rpcmethods": [
{
"name": "hello",
"usage": "[name]",
"description": "Returns a personalized greeting for {greeting} (set via options)."
},
{
"name": "gettime",
"usage": "",
"description": "Returns the current time in {timezone}",
"long_description": "Returns the current time in the timezone that is given as the only parameter.\nThis description may be quite long and is allowed to span multiple lines.",
"deprecated": false
}
],
"subscriptions": [
"connect",
"disconnect"
],
"hooks": [
{ "name": "openchannel", "before": ["another_plugin"] },
{ "name": "htlc_accepted" }
],
"featurebits": {
"node": "D0000000",
"channel": "D0000000",
"init": "0E000000",
"invoice": "00AD0000"
},
"notifications": [
{
"method": "mycustomnotification"
}
],
"dynamic": true
}
During startup the options
will be added to the list of command line options that
lightningd
accepts. If any options
"name" is already taken startup will abort. The above will add a --greeting
option with a
default value of World
and the specified description. Notice that
currently string, integers, bool, and flag options are supported.
The rpcmethods
are methods that will be exposed via lightningd
's
JSON-RPC over Unix-Socket interface, just like the builtin
commands. Any parameters given to the JSON-RPC calls will be passed
through verbatim. Notice that the name
, description
and usage
fields
are mandatory, while the long_description
can be omitted (it'll be
set to description
if it was not provided). usage
should surround optional
parameter names in []
.
options
and rpcmethods
can mark themselves deprecated: true
if
you plan on removing them: this will disable them if the user sets
allow-deprecated-apis
to false (which every developer should do,
right?).
The dynamic
indicates if the plugin can be managed after lightningd
has been started using the plugin JSON-RPC command. Critical plugins that should not be stopped should set it
to false. Plugin options
can be passed to dynamic plugins as argument to the plugin
command .
If a disable
member exists, the plugin will be disabled and the contents
of this member is the reason why. This allows plugins to disable themselves
if they are not supported in this configuration.
The featurebits
object allows the plugin to register featurebits that should be
announced in a number of places in the protocol. They can be used to signal
support for custom protocol extensions to direct peers, remote nodes and in
invoices. Custom protocol extensions can be implemented for example using the
sendcustommsg
method and the custommsg
hook, or the sendonion
method and
the htlc_accepted
hook. The keys in the featurebits
object are node
for
features that should be announced via the node_announcement
to all nodes in
the network, init
for features that should be announced to direct peers
during the connection setup, channel
for features which should apply to channel_announcement
, and invoice
for features that should be
announced to a potential sender of a payment in the invoice. The low range of
featurebits is reserved for standardize features, so please pick random, high
position bits for experiments. If you'd like to standardize your extension
please reach out to the specification repository to get a featurebit
assigned.
The notifications
array allows plugins to announce which custom
notifications they intend to send to lightningd
. These custom
notifications can then be subscribed to by other plugins, allowing
them to communicate with each other via the existing publish-subscribe
mechanism and react to events that happen in other plugins, or collect
information based on the notification topics.
Plugins are free to register any name
for their rpcmethod
as long
as the name was not previously registered. This includes both built-in
methods, such as help
and getinfo
, as well as methods registered
by other plugins. If there is a conflict then lightningd
will report
an error and kill the plugin, this aborts startup if the plugin is important.
There are currently four supported option 'types':
- string: a string
- bool: a boolean
- int: parsed as a signed integer (64-bit)
- flag: no-arg flag option. Is boolean under the hood. Defaults to false.
In addition, string and int types can specify "multi": true
to indicate
they can be specified multiple times. These will always be represented in
init
as a (possibly empty) JSON array.
Nota bene: if a flag
type option is not set, it will not appear
in the options set that is passed to the plugin.
Here's an example option set, as sent in response to getmanifest
"options": [
{
"name": "greeting",
"type": "string",
"default": "World",
"description": "What name should I call you?"
},
{
"name": "run-hot",
"type": "flag",
"default": None, // defaults to false
"description": "If set, overclocks plugin"
},
{
"name": "is_online",
"type": "bool",
"default": false,
"description": "Set to true if plugin can use network"
},
{
"name": "service-port",
"type": "int",
"default": 6666,
"description": "Port to use to connect to 3rd-party service"
},
{
"name": "number",
"type": "int",
"default": 0,
"description": "Another number to add",
"multi": true
}
],
Note: lightningd
command line options are only parsed during startup and their
values are not remembered when the plugin is stopped or killed.
For dynamic plugins started with plugin start
, options can be
passed as extra arguments to that command.
The plugins may emit custom notifications for topics they have announced during startup. The list of notification topics declared during startup must include all topics that may be emitted, in order to verify that all topics plugins subscribe to are also emitted by some other plugin, and warn if a plugin subscribes to a non-existent topic. In case a plugin emits notifications it has not announced the notification will be ignored and not forwarded to subscribers.
When forwarding a custom notification lightningd
will wrap the
payload of the notification in an object that contains metadata about
the notification. The following is an example of this
transformation. The first listing is the original notification emitted
by the sender
plugin, while the second is the the notification as
received by the receiver
plugin (both listings show the full
JSON-RPC notification to illustrate the wrapping).
{
"jsonrpc": "2.0",
"method": "mycustomnotification",
"params": {
"key": "value",
"message": "Hello fellow plugin!"
}
}
is delivered as
{
"jsonrpc": "2.0",
"method": "mycustomnotification",
"params": {
"origin": "sender",
"payload": {
"key": "value",
"message": "Hello fellow plugin!"
}
}
}
The notification topic (method
in the JSON-RPC message) must not
match one of the internal events in order to prevent breaking
subscribers that expect the existing notification format. Multiple
plugins are allowed to emit notifications for the same topics,
allowing things like metric aggregators where the aggregator
subscribes to a common topic and other plugins publish metrics as
notifications.
The init
method is required so that lightningd
can pass back the
filled command line options and notify the plugin that lightningd
is
now ready to receive JSON-RPC commands. The params
of the call are a
simple JSON object containing the options:
{
"options": {
"greeting": "World",
"number": [0]
},
"configuration": {
"lightning-dir": "/home/user/.lightning/testnet",
"rpc-file": "lightning-rpc",
"startup": true,
"network": "testnet",
"feature_set": {
"init": "02aaa2",
"node": "8000000002aaa2",
"channel": "",
"invoice": "028200"
},
"proxy": {
"type": "ipv4",
"address": "127.0.0.1",
"port": 9050
},
"torv3-enabled": true,
"always_use_proxy": false
}
}
The plugin must respond to init
calls. The response should be a
valid JSON-RPC response to the init
, but this is not currently
enforced. If the response is an object containing result
which
contains disable
then the plugin will be disabled and the contents
of this member is the reason why.
The startup
field allows a plugin to detect if it was started at
lightningd
startup (true), or at runtime (false).
During startup ("startup" is true), the plugin has 60 seconds to
return getmanifest
and another 60 seconds to return init
, or gets killed.
When started dynamically via the plugin JSON-RPC command, both getmanifest
and init
should be completed within 60 seconds.
Plugins may register their own JSON-RPC methods that are exposed
through the JSON-RPC provided by lightningd
. This provides users
with a single interface to interact with, while allowing the addition
of custom methods without having to modify the daemon itself.
JSON-RPC methods are registered as part of the getmanifest
result. Each registered method must provide a name
and a
description
. An optional long_description
may also be
provided. This information is then added to the internal dispatch
table, and used to return the help text when using lightning-cli help
, and the methods can be called using the name
.
For example the above getmanifest
result will register two methods,
called hello
and gettime
:
...
"rpcmethods": [
{
"name": "hello",
"usage": "[name]",
"description": "Returns a personalized greeting for {greeting} (set via options)."
},
{
"name": "gettime",
"description": "Returns the current time in {timezone}",
"usage": "",
"long_description": "Returns the current time in the timezone that is given as the only parameter.\nThis description may be quite long and is allowed to span multiple lines."
}
],
...
The RPC call will be passed through unmodified, with the exception of
the JSON-RPC call id
, which is internally remapped to a unique
integer instead, in order to avoid collisions. When passing the result
back the id
field is restored to its original value.
Note that if your result
for an RPC call includes "format-hint": "simple"
, then lightning-cli
will default to printing your output
in "human-readable" flat form.
Event notifications allow a plugin to subscribe to events in
lightningd
. lightningd
will then send a push notification if an
event matching the subscription occurred. A notification is defined in
the JSON-RPC specification as an RPC call that does
not include an id
parameter:
A Notification is a Request object without an "id" member. A Request object that is a Notification signifies the Client's lack of interest in the corresponding Response object, and as such no Response object needs to be returned to the client. The Server MUST NOT reply to a Notification, including those that are within a batch request.
Notifications are not confirmable by definition, since they do not have a Response object to be returned. As such, the Client would not be aware of any errors (like e.g. "Invalid params","Internal error").
Plugins subscribe by returning an array of subscriptions as part of
the getmanifest
response. The result for the getmanifest
call
above for example subscribes to the two topics connect
and
disconnect
. The topics that are currently defined and the
corresponding payloads are listed below.
A notification for topic channel_opened
is sent if a peer successfully
funded a channel with us. It contains the peer id, the funding amount
(in millisatoshis), the funding transaction id, and a boolean indicating
if the funding transaction has been included into a block.
{
"channel_opened": {
"id": "03864ef025fde8fb587d989186ce6a4a186895ee44a926bfc370e2c366597a3f8f",
"funding_msat": 100000000,
"funding_txid": "4a5e1e4baab89f3a32518a88c31bc87f618f76673e2cc77ab2127b7afdeda33b",
"funding_locked": false
}
}
A notification to indicate that a channel open attempt has been unsuccessful.
Useful for cleaning up state for a v2 channel open attempt. See
plugins/funder.c
for an example of how to use this.
{
"channel_open_failed": {
"channel_id": "a2d0851832f0e30a0cf...",
}
}
A notification for topic channel_state_changed
is sent every time a channel
changes its state. The notification includes the peer_id
and channel_id
, the
old and new channel states, the type of cause
and a message
.
{
"channel_state_changed": {
"peer_id": "03bc9337c7a28bb784d67742ebedd30a93bacdf7e4ca16436ef3798000242b2251",
"channel_id": "a2d0851832f0e30a0cf778a826d72f077ca86b69f72677e0267f23f63a0599b4",
"short_channel_id" : "561820x1020x1",
"old_state": "CHANNELD_NORMAL",
"new_state": "CHANNELD_SHUTTING_DOWN",
"cause" : "remote",
"message" : "Peer closes channel"
}
}
A cause
can have the following values:
- "unknown" Anything other than the reasons below. Should not happen.
- "local" Unconscious internal reasons, e.g. dev fail of a channel.
- "user" The operator or a plugin opened or closed a channel by intention.
- "remote" The remote closed or funded a channel with us by intention.
- "protocol" We need to close a channel because of bad signatures and such.
- "onchain" A channel was closed onchain, while we were offline.
Most state changes are caused subsequentially for a prior state change, e.g.
"CLOSINGD_COMPLETE" is followed by "FUNDING_SPEND_SEEN". Because of this, the
cause
reflects the last known reason in terms of local or remote user
interaction, protocol reasons, etc. More specifically, a new_state
"FUNDING_SPEND_SEEN" will likely not have "onchain" as a cause
but some
value such as "REMOTE" or "LOCAL" depending on who initiated the closing of a
channel.
Note: If the channel is not closed or being closed yet, the cause
will reflect
which side "remote" or "local" opened the channel.
Note: If the cause is "onchain" this was very likely a conscious decision of the remote peer, but we have been offline.
A notification for topic connect
is sent every time a new connection
to a peer is established. direction
is either "in"
or "out"
.
{
"id": "02f6725f9c1c40333b67faea92fd211c183050f28df32cac3f9d69685fe9665432",
"direction": "in",
"address": "1.2.3.4:1234"
}
A notification for topic disconnect
is sent every time a connection
to a peer was lost.
{
"id": "02f6725f9c1c40333b67faea92fd211c183050f28df32cac3f9d69685fe9665432"
}
A notification for topic invoice_payment
is sent every time an invoice is paid.
{
"invoice_payment": {
"label": "unique-label-for-invoice",
"preimage": "0000000000000000000000000000000000000000000000000000000000000000",
"amount_msat": 10000
}
}
A notification for topic invoice_creation
is sent every time an invoice is created.
{
"invoice_creation": {
"label": "unique-label-for-invoice",
"preimage": "0000000000000000000000000000000000000000000000000000000000000000",
"amount_msat": 10000
}
}
A notification for topic warning
is sent every time a new BROKEN
/UNUSUAL
level(in plugins, we use error
/warn
) log generated,
which means an unusual/borken thing happens, such as channel failed,
message resolving failed...
{
"warning": {
"level": "warn",
"time": "1559743608.565342521",
"source": "lightningd(17652): 0821f80652fb840239df8dc99205792bba2e559a05469915804c08420230e23c7c chan #7854:",
"log": "Peer permanent failure in CHANNELD_NORMAL: lightning_channeld: sent ERROR bad reestablish dataloss msg"
}
}
level
iswarn
orerror
:warn
means something seems bad happened and it's under control, but we'd better check it;error
means something extremely bad is out of control, and it may lead to crash;time
is the second since epoch;source
means where the event happened, it may have the following forms:<node_id> chan #<db_id_of_channel>:
,lightningd(<lightningd_pid>):
,plugin-<plugin_name>:
,<daemon_name>(<daemon_pid>):
,jsonrpc:
,jcon fd <error_fd_to_jsonrpc>:
,plugin-manager
;log
is the context of the original log entry.
A notification for topic forward_event
is sent every time the status
of a forward payment is set. The json format is same as the API
listforwards
.
{
"forward_event": {
"payment_hash": "f5a6a059a25d1e329d9b094aeeec8c2191ca037d3f5b0662e21ae850debe8ea2",
"in_channel": "103x2x1",
"out_channel": "103x1x1",
"in_msat": 100001001,
"out_msat": 100000000,
"fee_msat": 1001,
"status": "settled",
"received_time": 1560696342.368,
"resolved_time": 1560696342.556
}
}
or
{
"forward_event": {
"payment_hash": "ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff",
"in_channel": "103x2x1",
"out_channel": "110x1x0",
"in_msat": 100001001,
"out_msat": 100000000,
"fee_msat": 1001,
"status": "local_failed",
"failcode": 16392,
"failreason": "WIRE_PERMANENT_CHANNEL_FAILURE",
"received_time": 1560696343.052
}
}
- The status includes
offered
,settled
,failed
andlocal_failed
, and they are all string type in json.- When the forward payment is valid for us, we'll set
offered
and send the forward payment to next hop to resolve; - When the payment forwarded by us gets paid eventually, the forward
payment will change the status from
offered
tosettled
; - If payment fails locally(like failing to resolve locally) or the
corresponding htlc with next hop fails(like htlc timeout), we will
set the status as
local_failed
.local_failed
may be set before settingoffered
or after settingoffered
. In fact, from the time we receive the htlc of the previous hop, all we can know the cause of the failure is treated aslocal_failed
.local_failed
only occuors locally or happens in the htlc between us and next hop;- If
local_failed
is set beforeoffered
, this means we just received htlc from the previous hop and haven't generate htlc for next hop. In this case, the json offorward_event
sets the fields ofout_msatoshi
,out_msat
,fee
andout_channel
as 0;- Note: In fact, for this case we may be not sure if this incoming
htlc represents a pay to us or a payment we need to forward.
We just simply treat all incoming failed to resolve as
local_failed
.
- Note: In fact, for this case we may be not sure if this incoming
htlc represents a pay to us or a payment we need to forward.
We just simply treat all incoming failed to resolve as
- Only in
local_failed
case, json includesfailcode
andfailreason
fields;
- If
failed
means the payment forwarded by us fails in the latter hops, and the failure isn't related to us, so we aren't accessed to the fail reason.failed
must be set afteroffered
.failed
case doesn't includefailcode
andfailreason
fields;
- When the forward payment is valid for us, we'll set
received_time
means when we received the htlc of this payment from the previous peer. It will be contained into all status case;resolved_time
means when the htlc of this payment between us and the next peer was resolved. The resolved result may success or fail, so onlysettled
andfailed
case containresolved_time
;- The
failcode
andfailreason
are defined in [BOLT 4][bolt4-failure-codes].
A notification for topic sendpay_success
is sent every time a sendpay
succeeds (with complete
status). The json is the same as the return value of
the commands sendpay
/waitsendpay
when these commands succeed.
{
"sendpay_success": {
"id": 1,
"payment_hash": "5c85bf402b87d4860f4a728e2e58a2418bda92cd7aea0ce494f11670cfbfb206",
"destination": "035d2b1192dfba134e10e540875d366ebc8bc353d5aa766b80c090b39c3a5d885d",
"amount_msat": 100000000,
"amount_sent_msat": 100001001,
"created_at": 1561390572,
"status": "complete",
"payment_preimage": "9540d98095fd7f37687ebb7759e733934234d4f934e34433d4998a37de3733ee"
}
}
sendpay
doesn't wait for the result of sendpay and waitsendpay
returns the result of sendpay in specified time or timeout, but
sendpay_success
will always return the result anytime when sendpay
successes if is was subscribed.
A notification for topic sendpay_failure
is sent every time a sendpay
completes with failed
status. The JSON is same as the return value of
the commands sendpay
/waitsendpay
when these commands fail.
{
"sendpay_failure": {
"code": 204,
"message": "failed: WIRE_UNKNOWN_NEXT_PEER (reply from remote)",
"data": {
"id": 2,
"payment_hash": "9036e3bdbd2515f1e653cb9f22f8e4c49b73aa2c36e937c926f43e33b8db8851",
"destination": "035d2b1192dfba134e10e540875d366ebc8bc353d5aa766b80c090b39c3a5d885d",
"amount_msat": 100000000,
"amount_sent_msat": 100001001,
"created_at": 1561395134,
"status": "failed",
"erring_index": 1,
"failcode": 16394,
"failcodename": "WIRE_UNKNOWN_NEXT_PEER",
"erring_node": "022d223620a359a47ff7f7ac447c85c46c923da53389221a0054c11c1e3ca31d59",
"erring_channel": "103x2x1",
"erring_direction": 0
}
}
}
sendpay
doesn't wait for the result of sendpay and waitsendpay
returns the result of sendpay in specified time or timeout, but
sendpay_failure
will always return the result anytime when sendpay
fails if is was subscribed.
A notification for topic coin_movement
is sent to record the
movement of coins. It is only triggered by finalized ledger updates,
i.e. only definitively resolved HTLCs or confirmed bitcoin transactions.
{
"coin_movement": {
"version":2,
"node_id":"03a7103a2322b811f7369cbb27fb213d30bbc0b012082fed3cad7e4498da2dc56b",
"type":"chain_mvt",
"account_id":"wallet",
"originating_account": "wallet", // (`chain_mvt` only, optional)
"txid":"0159693d8f3876b4def468b208712c630309381e9d106a9836fa0a9571a28722", // (`chain_mvt` only, optional)
"utxo_txid":"0159693d8f3876b4def468b208712c630309381e9d106a9836fa0a9571a28722", // (`chain_mvt` only)
"vout":1, // (`chain_mvt` only)
"payment_hash": "xxx", // (either type, optional on both)
"part_id": 0, // (`channel_mvt` only, optional)
"credit_msat":2000000000,
"debit_msat":0,
"output_msat": 2000000000, // ('chain_mvt' only)
"output_count": 2, // ('chain_mvt' only, typically only channel closes)
"fees_msat": 382, // ('channel_mvt' only)
"tags": ["deposit"],
"blockheight":102, // 'chain_mvt' only
"timestamp":1585948198,
"coin_type":"bc"
}
}
version
indicates which version of the coin movement data struct this
notification adheres to.
node_id
specifies the node issuing the coin movement.
type
marks the underlying mechanism which moved these coins. There are two
'types' of coin_movements
:
channel_mvt
s, which occur as a result of htlcs being resolved and,chain_mvt
s, which occur as a result of bitcoin txs being mined.
account_id
is the name of this account. The node's wallet is named 'wallet',
all channel funds' account are the channel id.
originating_account
is the account that this movement originated from.
Only tagged on external events (deposits/withdrawals to an external party).
txid
is the transaction id of the bitcoin transaction that triggered this
ledger event. utxo_txid
and vout
identify the bitcoin output which triggered
this notification. (chain_mvt
only). Notifications tagged
journal_entry
do not have a utxo_txid
as they're not
represented in the utxo set.
payment_hash
is the hash of the preimage used to move this payment. Only
present for HTLC mediated moves (both chain_mvt
and channel_mvt
)
A chain_mvt
will have a payment_hash
iff it's recording an htlc that was
fulfilled onchain.
part_id
is an identifier for parts of a multi-part payment. useful for
aggregating payments for an invoice or to indicate why a payment hash appears
multiple times. channel_mvt
only
credit
and debit
are millisatoshi denominated amounts of the fund movement. A
'credit' is funds deposited into an account; a debit
is funds withdrawn.
output_value
is the total value of the on-chain UTXO. Note that for
channel opens/closes the total output value will not necessarily correspond
to the amount that's credited/debited.
output_count
is the total outputs to expect for a channel close. Useful
for figuring out when every onchain output for a close has been resolved.
fees
is an HTLC annotation for the amount of fees either paid or
earned. For "invoice" tagged events, the fees are the total fees
paid to send that payment. The end amount can be found by subtracting
the total fees from the debited
amount. For "routed" tagged events,
both the debit/credit contain fees. Technically routed debits are the
'fee generating' event, however we include them on routed credits as well.
tag
is a movement descriptor. Current tags are as follows:
deposit
: funds depositedwithdrawal
: funds withdrawnpenalty
: funds paid or gained from a penalty tx.invoice
: funds paid to or recieved from an invoice.routed
: funds routed through this node.pushed
: funds pushed to peer.channel_open
: channel is opened, initial channel balancechannel_close
: channel is closed, final channel balancedelayed_to_us
: on-chain output to us, spent back into our wallethtlc_timeout
: on-chain htlc timeout outputhtlc_fulfill
: on-chian htlc fulfill outputhtlc_tx
: on-chain htlc tx has happenedto_wallet
: output being spent into our walletignored
: output is being ignoredanchor
: an anchor outputto_them
: output intended to peer's walletpenalized
: output we've 'lost' due to a penalty (failed cheat attempt)stolen
: output we've 'lost' due to peer's cheatto_miner
: output we've burned to miner (OP_RETURN)opener
: tags channel_open, we are the channel openerlease_fee
: amount paid as lease feeleased
: tags channel_open, channel contains leased funds
blockheight
is the block the txid is included in. channel_mvt
s will be null,
so will the blockheight for withdrawals to external parties (we issue these events
when we send the tx containing them, before they're included in the chain).
The timestamp
is seconds since Unix epoch of the node's machine time
at the time lightningd broadcasts the notification.
coin_type
is the BIP173 name for the coin which moved.
Emitted after we've caught up to the chain head on first start. Lists all
current accounts (account_id
matches the account_id
emitted from
coin_movement
). Useful for checkpointing account balances.
{
"balance_snapshots": [
{
'node_id': '035d2b1192dfba134e10e540875d366ebc8bc353d5aa766b80c090b39c3a5d885d',
'blockheight': 101,
'timestamp': 1639076327,
'accounts': [
{
'account_id': 'wallet',
'balance': '0msat',
'coin_type': 'bcrt'
}
]
},
{
'node_id': '035d2b1192dfba134e10e540875d366ebc8bc353d5aa766b80c090b39c3a5d885d',
'blockheight': 110,
'timestamp': 1639076343,
'accounts': [
{
'account_id': 'wallet',
'balance': '995433000msat',
'coin_type': 'bcrt'
}, {
'account_id': '5b65c199ee862f49758603a5a29081912c8816a7c0243d1667489d244d3d055f',
'balance': '500000000msat',
'coin_type': 'bcrt'
}
]
}
]
}
When opening a channel with a peer using the collaborative transaction protocol
(opt_dual_fund
), this notification is fired when the peer sends us their funding
transaction signatures, tx_signatures
. We update the in-progress PSBT and return it
here, with the peer's signatures attached.
{
"openchannel_peer_sigs": {
"channel_id": "252d1b0a1e5789...",
"signed_psbt": "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"
}
}
Send in two situations: lightningd is (almost completely) shutdown, or the plugin
stop
command has been called for this plugin. In both cases the plugin has 30
seconds to exit itself, otherwise it's killed.
In the shutdown case, plugins should not interact with lightnind except via (id-less) logging or notifications. New rpc calls will fail with error code -5 and (plugin's) responses will be ignored. Because lightningd can crash or be killed, a plugin cannot rely on the shutdown notification always been send.
Hooks allow a plugin to define custom behavior for lightningd
without having to modify the Core Lightning source code itself. A plugin
declares that it'd like to be consulted on what to do next for certain
events in the daemon. A hook can then decide how lightningd
should
react to the given event.
When hooks are registered, they can optionally specify "before" and "after" arrays of plugin names, which control what order they will be called in. If a plugin name is unknown, it is ignored, otherwise if the hook calls cannot be ordered to satisfy the specifications of all plugin hooks, the plugin registration will fail.
The call semantics of the hooks, i.e., when and how hooks are called, depend
on the hook type. Most hooks are currently set to single
-mode. In this mode
only a single plugin can register the hook, and that plugin will get called
for each event of that type. If a second plugin attempts to register the hook
it gets killed and a corresponding log entry will be added to the logs.
In chain
-mode multiple plugins can register for the hook type and
they are called in any order they are loaded (i.e. cmdline order
first, configuration order file second: though note that the order of
plugin directories is implementation-dependent), overriden only by
before
and after
requirements the plugin's hook registrations specify.
Each plugin can then handle the event or defer by returning a
continue
result like the following:
{
"result": "continue"
}
The remainder of the response is ignored and if there are any more plugins
that have registered the hook the next one gets called. If there are no more
plugins then the internal handling is resumed as if no hook had been
called. Any other result returned by a plugin is considered an exit from the
chain. Upon exit no more plugin hooks are called for the current event, and
the result is executed. Unless otherwise stated all hooks are single
-mode.
Hooks and notifications are very similar, however there are a few key differences:
- Notifications are asynchronous, i.e.,
lightningd
will send the notifications but not wait for the plugin to process them. Hooks on the other hand are synchronous,lightningd
cannot finish processing the event until the plugin has returned. - Any number of plugins can subscribe to a notification topic and get
notified in parallel, however only one plugin may register for
single
-mode hook types, and in all cases only one plugin may return a non-continue
response. This avoids having multiple contradictory responses.
Hooks are considered to be an advanced feature due to the fact that
lightningd
relies on the plugin to tell it what to do next. Use them
carefully, and make sure your plugins always return a valid response
to any hook invocation.
As a convention, for all hooks, returning the object
{ "result" : "continue" }
results in lightningd
behaving exactly as if
no plugin is registered on the hook.
This hook is called whenever a peer has connected and successfully completed the cryptographic handshake. The parameters have the following structure:
{
"peer": {
"id": "03864ef025fde8fb587d989186ce6a4a186895ee44a926bfc370e2c366597a3f8f",
"direction": "in",
"addr": "34.239.230.56:9735",
"features": ""
}
}
The hook is sparse on information, since the plugin can use the JSON-RPC
listpeers
command to get additional details should they be required.
direction
is either "in"
or "out"
. The addr
field shows the address
that we are connected to ourselves, not the gossiped list of known
addresses. In particular this means that the port for incoming connections is
an ephemeral port, that may not be available for reconnections.
The returned result must contain a result
member which is either
the string disconnect
or continue
. If disconnect
and
there's a member error_message
, that member is sent to the peer
before disconnection.
Note that peer_connected
is a chained hook. The first plugin that decides to
disconnect
with or without an error_message
will lead to the subsequent
plugins not being called anymore.
This hook is called whenever a channel state is updated, and the old state was revoked. State updates in Lightning consist of the following steps:
- Proposal of a new state commitment in the form of a commitment transaction
- Exchange of signatures for the agreed upon commitment transaction
- Verification that the signatures match the commitment transaction
- Exchange of revocation secrets that could be used to penalize an eventual misbehaving party
The commitment_revocation
hook is used to inform the plugin about the state
transition being completed, and deliver the penalty transaction. The penalty
transaction could then be sent to a watchtower that automaticaly reacts in
case one party attempts to settle using a revoked commitment.
The payload consists of the following information:
{
"commitment_txid": "58eea2cf538cfed79f4d6b809b920b40bb6b35962c4bb4cc81f5550a7728ab05",
"penalty_tx": "02000000000101...ac00000000",
"channel_id": "fb16398de93e8690c665873715ef590c038dfac5dd6c49a9d4b61dccfcedc2fb",
"commitnum": 21
}
Notice that the commitment_txid
could also be extracted from the sole input
of the penalty_tx
, however it is enclosed so plugins don't have to include
the logic to parse transactions.
Not included are the htlc_success
and htlc_failure
transactions that
may also be spending commitment_tx
outputs. This is because these
transactions are much more dynamic and have a predictable timeout, allowing
wallets to ensure a quick checkin when the CLTV of the HTLC is about to
expire.
The commitment_revocation
hook is a chained hook, i.e., multiple plugins can
register it, and they will be called in the order they were registered in.
Plugins should always return {"result": "continue"}
, otherwise subsequent
hook subscribers would not get called.
This hook is called whenever a change is about to be committed to the database,
if you are using a SQLITE3 database (the default).
This hook will be useless (the "writes"
field will always be empty) if you are
using a PostgreSQL database.
It is currently extremely restricted:
- a plugin registering for this hook should not perform anything that may cause a db operation in response (pretty much, anything but logging).
- a plugin registering for this hook should not register for other hooks or commands, as these may become intermingled and break rule #1.
- the hook will be called before your plugin is initialized!
This hook, unlike all the other hooks, is also strongly synchronous:
lightningd
will stop almost all the other processing until this
hook responds.
{
"data_version": 42,
"writes": [
"PRAGMA foreign_keys = ON"
]
}
This hook is intended for creating continuous backups.
The intent is that your backup plugin maintains three
pieces of information (possibly in separate files):
(1) a snapshot of the database, (2) a log of database queries
that will bring that snapshot up-to-date, and (3) the previous
data_version
.
data_version
is an unsigned 32-bit number that will always
increment by 1 each time db_write
is called.
Note that this will wrap around on the limit of 32-bit numbers.
writes
is an array of strings, each string being a database query
that modifies the database.
If the data_version
above is validated correctly, then you can
simply append this to the log of database queries.
Your plugin MUST validate the data_version
.
It MUST keep track of the previous data_version
it got,
and:
- If the new
data_version
is exactly one higher than the previous, then this is the ideal case and nothing bad happened and we should save this and continue. - If the new
data_version
is exactly the same value as the previous, then the previous set of queries was not committed. Your plugin MAY overwrite the previous set of queries with the current set, or it MAY overwrite its entire backup with a new snapshot of the database and the currentwrites
array (treating this case as ifdata_version
were two or more higher than the previous). - If the new
data_version
is less than the previous, your plugin MUST halt and catch fire, and have the operator inspect what exactly happend here. - Otherwise, some queries were lost and your plugin SHOULD
recover by creating a new snapshot of the database: copy the
database file, back up the given
writes
array, then delete (or atomicallyrename
if in a POSIX filesystem) the previous backups of the database and SQL statements, or you MAY fail the hook to abortlightningd
.
The "rolling up" of the database could be done periodically as well if the log of SQL statements has grown large.
Any response other than {"result": "continue"}
will cause lightningd
to error without
committing to the database!
This is the expected way to halt and catch fire.
db_write
is a parallel-chained hook, i.e., multiple plugins can
register it, and all of them will be invoked simultaneously without
regard for order of registration.
The hook is considered handled if all registered plugins return
{"result": "continue"}
.
If any plugin returns anything else, lightningd
will error without
committing to the database.
This hook is called whenever a valid payment for an unpaid invoice has arrived.
{
"payment": {
"label": "unique-label-for-invoice",
"preimage": "0000000000000000000000000000000000000000000000000000000000000000",
"amount_msat": 10000
}
}
The hook is deliberately sparse, since the plugin can use the JSON-RPC
listinvoices
command to get additional details about this invoice.
It can return a failure_message
field as defined for final
nodes in BOLT 4, a result
field with the string
reject
to fail it with incorrect_or_unknown_payment_details
, or a
result
field with the string continue
to accept the payment.
This hook is called whenever a remote peer tries to fund a channel to us using the v1 protocol, and it has passed basic sanity checks:
{
"openchannel": {
"id": "03864ef025fde8fb587d989186ce6a4a186895ee44a926bfc370e2c366597a3f8f",
"funding_msat": 100000000,
"push_msat": 0,
"dust_limit_msat": 546000,
"max_htlc_value_in_flight_msat": 18446744073709551615,
"channel_reserve_msat": 1000000,
"htlc_minimum_msat": 0,
"feerate_per_kw": 7500,
"to_self_delay": 5,
"max_accepted_htlcs": 483,
"channel_flags": 1
}
}
There may be additional fields, including shutdown_scriptpubkey
and
a hex-string. You can see the definitions of these fields in BOLT 2's description of the open_channel message.
The returned result must contain a result
member which is either
the string reject
or continue
. If reject
and
there's a member error_message
, that member is sent to the peer
before disconnection.
For a 'continue'd result, you can also include a close_to
address,
which will be used as the output address for a mutual close transaction.
e.g.
{
"result": "continue",
"close_to": "bc1qlq8srqnz64wgklmqvurv7qnr4rvtq2u96hhfg2"
}
Note that close_to
must be a valid address for the current chain,
an invalid address will cause the node to exit with an error.
Note that openchannel
is a chained hook. Therefore close_to
will only be
evaluated for the first plugin that sets it. If more than one plugin tries to
set a close_to
address an error will be logged.
This hook is called whenever a remote peer tries to fund a channel to us using the v2 protocol, and it has passed basic sanity checks:
{
"openchannel2": {
"id": "03864ef025fde8fb587d989186ce6a4a186895ee44a926bfc370e2c366597a3f8f",
"channel_id": "252d1b0a1e57895e84137f28cf19ab2c35847e284c112fefdecc7afeaa5c1de7",
"their_funding_msat": 100000000,
"dust_limit_msat": 546000,
"max_htlc_value_in_flight_msat": 18446744073709551615,
"htlc_minimum_msat": 0,
"funding_feerate_per_kw": 7500,
"commitment_feerate_per_kw": 7500,
"feerate_our_max": 10000,
"feerate_our_min": 253,
"to_self_delay": 5,
"max_accepted_htlcs": 483,
"channel_flags": 1
"locktime": 2453,
"channel_max_msat": 16777215000,
"requested_lease_msat": 100000000,
"lease_blockheight_start": 683990,
"node_blockheight": 683990
}
}
There may be additional fields, such as shutdown_scriptpubkey
. You can
see the definitions of these fields in BOLT 2's description of the open_channel message.
requested_lease_msat
, lease_blockheight_start
, and node_blockheight
are
only present if the opening peer has requested a funding lease,
per option_will_fund
.
The returned result must contain a result
member which is either
the string reject
or continue
. If reject
and
there's a member error_message
, that member is sent to the peer
before disconnection.
For a 'continue'd result, you can also include a close_to
address,
which will be used as the output address for a mutual close transaction; you
can include a psbt
and an our_funding_msat
to contribute funds,
inputs and outputs to this channel open.
Note that, like openchannel_init
RPC call, the our_funding_msat
amount
must NOT be accounted for in any supplied output. Change, however, should be
included and should use the funding_feerate_per_kw
to calculate.
See plugins/funder.c
for an example of how to use this hook
to contribute funds to a channel open.
e.g.
{
"result": "continue",
"close_to": "bc1qlq8srqnz64wgklmqvurv7qnr4rvtq2u96hhfg2"
"psbt": "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",
"our_funding_msat": 39999000
}
Note that close_to
must be a valid address for the current chain,
an invalid address will cause the node to exit with an error.
Note that openchannel
is a chained hook. Therefore close_to
will only be
evaluated for the first plugin that sets it. If more than one plugin tries to
set a close_to
address an error will be logged.
This hook is called when we received updates to the funding transaction from the peer.
{
"openchannel2_changed": {
"channel_id": "252d1b0a1e57895e841...",
"psbt": "cHNidP8BADMCAAAAAQ+yBipSVZr..."
}
}
In return, we expect a result
indicated to continue
and an updated psbt
.
If we have no updates to contribute, return the passed in PSBT. Once no
changes to the PSBT are made on either side, the transaction construction
negotation will end and commitment transactions will be exchanged.
{
"result": "continue",
"psbt": "cHNidP8BADMCAAAAAQ+yBipSVZr..."
}
See plugins/funder.c
for an example of how to use this hook
to continue a v2 channel open.
This hook is called after we've gotten the commitment transactions for a channel open. It expects psbt to be returned which contains signatures for our inputs to the funding transaction.
{
"openchannel2_sign": {
"channel_id": "252d1b0a1e57895e841...",
"psbt": "cHNidP8BADMCAAAAAQ+yBipSVZr..."
}
}
In return, we expect a result
indicated to continue
and an partially
signed psbt
.
If we have no inputs to sign, return the passed in PSBT. Once we have also received the signatures from the peer, the funding transaction will be broadcast.
{
"result": "continue",
"psbt": "cHNidP8BADMCAAAAAQ+yBipSVZr..."
}
See plugins/funder.c
for an example of how to use this hook
to sign a funding transaction.
Similar to openchannel2
, the rbf_channel
hook is called when a peer
requests an RBF for a channel funding transaction.
{
"rbf_channel": {
"id": "03864ef025fde8fb587d989186ce6a4a186895ee44a926bfc370e2c366597a3f8f",
"channel_id": "252d1b0a1e57895e84137f28cf19ab2c35847e284c112fefdecc7afeaa5c1de7",
"their_funding_msat": 100000000,
"funding_feerate_per_kw": 7500,
"feerate_our_max": 10000,
"feerate_our_min": 253,
"channel_max_msat": 16777215000,
"locktime": 2453
}
}
The returned result must contain a result
member which is either
the string reject
or continue
. If reject
and
there's a member error_message
, that member is sent to the peer
before disconnection.
For a 'continue'd result, you can include a psbt
and an
our_funding_msat
to contribute funds, inputs and outputs to
this channel open.
Note that, like the openchannel_init
RPC call, the our_funding_msat
amount must NOT be accounted for in any supplied output. Change,
however, should be included and should use the funding_feerate_per_kw
to calculate.
{
"result": "continue",
"psbt": "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",
"our_funding_msat": 39999000
}
The htlc_accepted
hook is called whenever an incoming HTLC is accepted, and
its result determines how lightningd
should treat that HTLC.
The payload of the hook call has the following format:
{
"onion": {
"payload": "",
"short_channel_id": "1x2x3",
"forward_msat": 42,
"outgoing_cltv_value": 500014,
"shared_secret": "0000000000000000000000000000000000000000000000000000000000000000",
"next_onion": "[1365bytes of serialized onion]"
},
"htlc": {
"short_channel_id": "4x5x6",
"id": 27,
"amount_msat": 43,
"cltv_expiry": 500028,
"cltv_expiry_relative": 10,
"payment_hash": "0000000000000000000000000000000000000000000000000000000000000000"
}
}
For detailed information about each field please refer to BOLT 04 of the specification, the following is just a brief summary:
onion
:payload
contains the unparsed payload that was sent to us from the sender of the payment.short_channel_id
determines the channel that the sender is hinting should be used next. Not present if we're the final destination.forward_amount
is the amount we should be forwarding to the next hop, and should match the incoming funds in case we are the recipient.outgoing_cltv_value
determines what the CLTV value for the HTLC that we forward to the next hop should be.total_msat
specifies the total amount to pay, if present.payment_secret
specifies the payment secret (which the payer should have obtained from the invoice), if present.next_onion
is the fully processed onion that we should be sending to the next hop as part of the outgoing HTLC. Processed in this case means that we took the incoming onion, decrypted it, extracted the payload destined for us, and serialized the resulting onion again.shared_secret
is the shared secret we used to decrypt the incoming onion. It is shared with the sender that constructed the onion.
htlc
:short_channel_id
is the channel this payment is coming from.id
is the low-level sequential HTLC id integer as sent by the channel peer.amount
is the amount that we received with the HTLC. This amount minus theforward_amount
is the fee that will stay with us.cltv_expiry
determines when the HTLC reverts back to the sender.cltv_expiry
minusoutgoing_cltv_expiry
should be equal or larger than ourcltv_delta
setting.cltv_expiry_relative
hints how much time we still have to claim the HTLC. It is thecltv_expiry
minus the currentblockheight
and is passed along mainly to avoid the plugin having to look up the current blockheight.payment_hash
is the hash whosepayment_preimage
will unlock the funds and allow us to claim the HTLC.
The hook response must have one of the following formats:
{
"result": "continue"
}
This means that the plugin does not want to do anything special and
lightningd
should continue processing it normally, i.e., resolve the payment
if we're the recipient, or attempt to forward it otherwise. Notice that the
usual checks such as sufficient fees and CLTV deltas are still enforced.
It can also replace the onion.payload
by specifying a payload
in
the response. Note that this is always a TLV-style payload, so unlike
onion.payload
there is no length prefix (and it must be at least 4
hex digits long). This will be re-parsed; it's useful for removing
onion fields which a plugin doesn't want lightningd to consider.
{
"result": "fail",
"failure_message": "2002"
}
fail
will tell lightningd
to fail the HTLC with a given hex-encoded
failure_message
(please refer to the spec for
details: incorrect_or_unknown_payment_details
is the most common).
{
"result": "fail",
"failure_onion": "[serialized error packet]"
}
Instead of failure_message
the response can contain a hex-encoded
failure_onion
that will be used instead (please refer to the
spec for details). This can be used, for example,
if you're writing a bridge between two Lightning Networks. Note that
lightningd
will apply the obfuscation step to the value returned here
with its own shared secret (and key type ammag
) before returning it to
the previous hop.
{
"result": "resolve",
"payment_key": "0000000000000000000000000000000000000000000000000000000000000000"
}
resolve
instructs lightningd
to claim the HTLC by providing the preimage
matching the payment_hash
presented in the call. Notice that the plugin must
ensure that the payment_key
really matches the payment_hash
since
lightningd
will not check and the wrong value could result in the channel
being closed.
Warning: lightningd
will replay the HTLCs for which it doesn't have a final
verdict during startup. This means that, if the plugin response wasn't
processed before the HTLC was forwarded, failed, or resolved, then the plugin
may see the same HTLC again during startup. It is therefore paramount that the
plugin is idempotent if it talks to an external system.
The htlc_accepted
hook is a chained hook, i.e., multiple plugins can
register it, and they will be called in the order they were registered in
until the first plugin return a result that is not {"result": "continue"}
,
after which the event is considered to be handled. After the event has been
handled the remaining plugins will be skipped.
The rpc_command
hook allows a plugin to take over any RPC command. It sends
the received JSON-RPC request (for any method!) to the registered plugin,
{
"rpc_command": {
"id": 3,
"method": "method_name",
"params": {
"param_1": [],
"param_2": {},
"param_n": "",
}
}
}
which can in turn:
Let lightningd
execute the command with
{
"result" : "continue"
}
Replace the request made to lightningd
:
{
"replace": {
"id": 3,
"method": "method_name",
"params": {
"param_1": [],
"param_2": {},
"param_n": "",
}
}
}
Return a custom response to the request sender:
{
"return": {
"result": {
}
}
}
Return a custom error to the request sender:
{
"return": {
"error": {
}
}
}
Note: The rpc_command
hook is chainable. If two or more plugins try to
replace/result/error the same method
, only the first plugin in the chain
will be respected. Others will be ignored and a warning will be logged.
The custommsg
plugin hook is the receiving counterpart to the
sendcustommsg
RPC method and allows plugins to handle
messages that are not handled internally. The goal of these two components is
to allow the implementation of custom protocols or prototypes on top of a
Core Lightning node, without having to change the node's implementation itself.
The payload for a call follows this format:
{
"peer_id": "02df5ffe895c778e10f7742a6c5b8a0cefbe9465df58b92fadeb883752c8107c8f",
"payload": "1337ffffffff"
}
This payload would have been sent by the peer with the node_id
matching
peer_id
, and the message has type 0x1337
and contents ffffffff
. Notice
that the messages are currently limited to odd-numbered types and must not
match a type that is handled internally by Core Lightning. These limitations are
in place in order to avoid conflicts with the internal state tracking, and
avoiding disconnections or channel closures, since odd-numbered message can be
ignored by nodes (see "it's ok to be odd" in the specification for
details). The plugin must implement the parsing of the message, including the
type prefix, since Core Lightning does not know how to parse the message.
Because this is a chained hook, the daemon expects the result to be
{'result': 'continue'}
. It will fail if something else is returned.
(WARNING: experimental-offers only)
These two hooks are almost identical, in that they are called when an onion message is received.
onion_message_blinded
is used for unsolicited messages (where the
source knows that it is sending to this node), and
onion_message_ourpath
is used for messages which use a blinded path
we supplied (where the source doesn't know that this node is the
destination). The latter hook will have a our_alias
field, the
former never will.
These hooks are separate, because replies MUST be ignored unless they
use the correct path (i.e. onion_message_ourpath
, with the expected
our_alias
). This avoids the source trying to probe for responses
without using the designated delivery path.
The payload for a call follows this format:
{
"onion_message": {
"our_alias": "02df5ffe895c778e10f7742a6c5b8a0cefbe9465df58b92fadeb883752c8107c8f",
"reply_first_node": "02df5ffe895c778e10f7742a6c5b8a0cefbe9465df58b92fadeb883752c8107c8f",
"reply_blinding": "02df5ffe895c778e10f7742a6c5b8a0cefbe9465df58b92fadeb883752c8107c8f",
"reply_path": [ {"id": "02df5ffe895c778e10f7742a6c5b8a0cefbe9465df58b92fadeb883752c8107c8f",
"encrypted_recipient_data": "0a020d0d",
"blinding": "02df5ffe895c778e10f7742a6c5b8a0cefbe9465df58b92fadeb883752c8107c8f"} ],
"invoice_request": "0a020d0d",
"invoice": "0a020d0d",
"invoice_error": "0a020d0d",
"unknown_fields": [ {"number": 12345, "value": "0a020d0d"} ]
}
}
All fields shown here are optional.
We suggest just returning {'result': 'continue'}
; any other result
Signed-off-by: Rusty Russell [email protected]
will cause the message not to be handed to any other hooks.
Core Lightning communicates with the Bitcoin network through a plugin. It uses the
bcli
plugin by default but you can use a custom one, multiple custom ones for
different operations, or write your own for your favourite Bitcoin data source!
Communication with the plugin is done through 5 JSONRPC commands, lightningd
can use from 1 to 5 plugin(s) registering these 5 commands for gathering Bitcoin
data. Each plugin must follow the below specification for lightningd
to operate.
Called at startup, it's used to check the network lightningd
is operating on and to
get the sync status of the backend.
The plugin must respond to getchaininfo
with the following fields:
- chain
(string), the network name as introduced in bip70
- headercount
(number), the number of fetched block headers
- blockcount
(number), the number of fetched block body
- ibd
(bool), whether the backend is performing initial block download
Polled by lightningd
to get the current feerate, all values must be passed in sat/kVB.
If fee estimation fails, the plugin must set all the fields to null
.
The plugin, if fee estimation succeeds, must respond with the following fields:
- opening
(number), used for funding and also misc transactions
- mutual_close
(number), used for the mutual close transaction
- unilateral_close
(number), used for unilateral close (/commitment) transactions
- delayed_to_us
(number), used for resolving our output from our unilateral close
- htlc_resolution
(number), used for resolving HTLCs after an unilateral close
- penalty
(number), used for resolving revoked transactions
- min_acceptable
(number), used as the minimum acceptable feerate
- max_acceptable
(number), used as the maximum acceptable feerate
This call takes one parameter, height
, which determines the block height of
the block to fetch.
The plugin must set all fields to null
if no block was found at the specified height
.
The plugin must respond to getrawblockbyheight
with the following fields:
- blockhash
(string), the block hash as a hexadecimal string
- block
(string), the block content as a hexadecimal string
This call takes two parameter, the txid
(string) and the vout
(number)
identifying the UTXO we're interested in.
The plugin must set both fields to null
if the specified TXO was spent.
The plugin must respond to gettxout
with the following fields:
- amount
(number), the output value in sats
- script
(string), the output scriptPubKey
This call takes two parameters,
a string tx
representing a hex-encoded Bitcoin transaction,
and a boolean allowhighfees
, which if set means suppress
any high-fees check implemented in the backend, since the given
transaction may have fees that are very high.
The plugin must broadcast it and respond with the following fields:
- success
(boolean), which is true
if the broadcast succeeded
- errmsg
(string), if success is false
, the reason why it failed
Footnotes
-
Only for plugins that start when
lightningd
starts, option values are not remembered when a plugin is stopped or killed. ↩