18 KiB
Plugins
Plugins are a simple yet powerful way to extend the functionality
provided by c-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 configured. - 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 day in the life of a plugin
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. An example call might look like:
lightningd --plugin=/path/to/plugin1 --plugin=path/to/plugin2
lightningd
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 throughinit
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.
The getmanifest
method
The getmanifest
method is required for all plugins and will be called on
startup without any params. It MUST return a JSON object similar to
this example:
{
"options": [
{
"name": "greeting",
"type": "string",
"default": "World",
"description": "What name should I call you?"
}
],
"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."
}
],
"subscriptions": [
"connect",
"disconnect"
]
}
The options
will be added to the list of command line options that
lightningd
accepts. The above will add a --greeting
option with a
default value of World
and the specified description. Notice that
currently string, (unsigned) integers, and bool 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 []
.
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 exit.
The init
method
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"
},
"configuration": {
"lightning-dir": "/home/user/.lightning",
"rpc-file": "lightning-rpc"
}
}
The plugin must respond to init
calls, however the response can be
arbitrary and will currently be discarded by lightningd
. JSON-RPC
commands were chosen over notifications in order not to force plugins
to implement notifications which are not that well supported.
JSON-RPC passthrough
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.
Event notifications
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.
Notification Types
connect
A notification for topic connect
is sent every time a new connection
to a peer is established.
{
"id": "02f6725f9c1c40333b67faea92fd211c183050f28df32cac3f9d69685fe9665432",
"address": "1.2.3.4"
}
disconnect
A notification for topic disconnect
is sent every time a connection
to a peer was lost.
{
"id": "02f6725f9c1c40333b67faea92fd211c183050f28df32cac3f9d69685fe9665432"
}
warning
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.
Hooks
Hooks allow a plugin to define custom behavior for lightningd
without having to modify the c-lightning source code itself. A plugin
declares that it'd like to 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.
Hooks and notifications sounds 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, however only one plugin may register for any hook topic at any point in time (we cannot disambiguate between multiple plugins returning contradictory results from a hook callback).
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.
Hook Types
peer_connected
This hook is called whenever a peer has connected and successfully completed the cryptographic handshake. The parameters have the following structure if there is a channel with the peer:
{
"peer": {
"id": "03864ef025fde8fb587d989186ce6a4a186895ee44a926bfc370e2c366597a3f8f",
"addr": "34.239.230.56:9735",
"globalfeatures": "",
"localfeatures": ""
}
}
The hook is sparse on purpose, since the plugin can use the JSON-RPC
listpeers
command to get additional details should they be required. 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.
db_write
This hook is called whenever a change is about to be committed to the 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!
{
"writes": [ "PRAGMA foreign_keys = ON" ]
}
Any response but "true" will cause lightningd to error without committing to the database!
invoice_payment
This hook is called whenever a valid payment for an unpaid invoice has arrived.
{
"payment": {
"label": "unique-label-for-invoice",
"preimage": "0000000000000000000000000000000000000000000000000000000000000000",
"msat": "10000msat"
}
}
The hook is sparse on purpose, since the plugin can use the JSON-RPC
listinvoices
command to get additional details about this invoice.
It can return a non-zero failure_code
field as defined for final
nodes in BOLT 4, or otherwise an empty object
to accept the payment.
openchannel
This hook is called whenever a remote peer tries to fund a channel to us, and it has passed basic sanity checks:
{
"openchannel": {
"id": "03864ef025fde8fb587d989186ce6a4a186895ee44a926bfc370e2c366597a3f8f",
"funding_satoshis": "100000000msat",
"push_msat": "0msat",
"dust_limit_satoshis": "546000msat",
"max_htlc_value_in_flight_msat": "18446744073709551615msat",
"channel_reserve_satoshis": "1000000msat",
"htlc_minimum_msat": "0msat",
"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.
htlc_accepted
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": "",
"per_hop_v0": {
"realm": "00",
"short_channel_id": "1x2x3",
"forward_amount": "42msat",
"outgoing_cltv_value": 500014
}
},
"next_onion": "[1365bytes of serialized onion]",
"shared_secret": "0000000000000000000000000000000000000000000000000000000000000000",
"htlc": {
"amount": "43msat",
"cltv_expiry": 500028,
"cltv_expiry_relative": 10,
"payment_hash": "0000000000000000000000000000000000000000000000000000000000000000"
}
}
The per_hop_v0
will only be present if the per hop payload has format 0x00
as defined by the specification. If not present an object representing the
type-length-vale (TLV) payload will be added (pending specification). 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.onion.per_hop_v0
:realm
will always be00
since that value determines that we are using theper_hop_v0
format.short_channel_id
determines the channel that the sender is hinting should be used next (set to0x0x0
if we are the recipient of the payment).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.
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
: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.
{
"result": "fail",
"failure_code": 4301
}
fail
will tell lightningd
to fail the HTLC with a given numeric
failure_code
(please refer to the spec for details).
{
"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.