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rpc.proto
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syntax = "proto3";
package lnrpc;
option go_package = "github.com/lightningnetwork/lnd/lnrpc";
/*
* Comments in this file will be directly parsed into the API
* Documentation as descriptions of the associated method, message, or field.
* These descriptions should go right above the definition of the object, and
* can be in either block or // comment format.
*
* An RPC method can be matched to an lncli command by placing a line in the
* beginning of the description in exactly the following format:
* lncli: `methodname`
*
* Failure to specify the exact name of the command will cause documentation
* generation to fail.
*
* More information on how exactly the gRPC documentation is generated from
* this proto file can be found here:
* https://github.com/lightninglabs/lightning-api
*/
// WalletUnlocker is a service that is used to set up a wallet password for
// lnd at first startup, and unlock a previously set up wallet.
service WalletUnlocker {
/*
GenSeed is the first method that should be used to instantiate a new lnd
instance. This method allows a caller to generate a new aezeed cipher seed
given an optional passphrase. If provided, the passphrase will be necessary
to decrypt the cipherseed to expose the internal wallet seed.
Once the cipherseed is obtained and verified by the user, the InitWallet
method should be used to commit the newly generated seed, and create the
wallet.
*/
rpc GenSeed (GenSeedRequest) returns (GenSeedResponse);
/*
InitWallet is used when lnd is starting up for the first time to fully
initialize the daemon and its internal wallet. At the very least a wallet
password must be provided. This will be used to encrypt sensitive material
on disk.
In the case of a recovery scenario, the user can also specify their aezeed
mnemonic and passphrase. If set, then the daemon will use this prior state
to initialize its internal wallet.
Alternatively, this can be used along with the GenSeed RPC to obtain a
seed, then present it to the user. Once it has been verified by the user,
the seed can be fed into this RPC in order to commit the new wallet.
*/
rpc InitWallet (InitWalletRequest) returns (InitWalletResponse);
/* lncli: `unlock`
UnlockWallet is used at startup of lnd to provide a password to unlock
the wallet database.
*/
rpc UnlockWallet (UnlockWalletRequest) returns (UnlockWalletResponse);
/* lncli: `changepassword`
ChangePassword changes the password of the encrypted wallet. This will
automatically unlock the wallet database if successful.
*/
rpc ChangePassword (ChangePasswordRequest) returns (ChangePasswordResponse);
}
message GenSeedRequest {
/*
aezeed_passphrase is an optional user provided passphrase that will be used
to encrypt the generated aezeed cipher seed. When using REST, this field
must be encoded as base64.
*/
bytes aezeed_passphrase = 1;
/*
seed_entropy is an optional 16-bytes generated via CSPRNG. If not
specified, then a fresh set of randomness will be used to create the seed.
When using REST, this field must be encoded as base64.
*/
bytes seed_entropy = 2;
}
message GenSeedResponse {
/*
cipher_seed_mnemonic is a 24-word mnemonic that encodes a prior aezeed
cipher seed obtained by the user. This field is optional, as if not
provided, then the daemon will generate a new cipher seed for the user.
Otherwise, then the daemon will attempt to recover the wallet state linked
to this cipher seed.
*/
repeated string cipher_seed_mnemonic = 1;
/*
enciphered_seed are the raw aezeed cipher seed bytes. This is the raw
cipher text before run through our mnemonic encoding scheme.
*/
bytes enciphered_seed = 2;
}
message InitWalletRequest {
/*
wallet_password is the passphrase that should be used to encrypt the
wallet. This MUST be at least 8 chars in length. After creation, this
password is required to unlock the daemon. When using REST, this field
must be encoded as base64.
*/
bytes wallet_password = 1;
/*
cipher_seed_mnemonic is a 24-word mnemonic that encodes a prior aezeed
cipher seed obtained by the user. This may have been generated by the
GenSeed method, or be an existing seed.
*/
repeated string cipher_seed_mnemonic = 2;
/*
aezeed_passphrase is an optional user provided passphrase that will be used
to encrypt the generated aezeed cipher seed. When using REST, this field
must be encoded as base64.
*/
bytes aezeed_passphrase = 3;
/*
recovery_window is an optional argument specifying the address lookahead
when restoring a wallet seed. The recovery window applies to each
individual branch of the BIP44 derivation paths. Supplying a recovery
window of zero indicates that no addresses should be recovered, such after
the first initialization of the wallet.
*/
int32 recovery_window = 4;
/*
channel_backups is an optional argument that allows clients to recover the
settled funds within a set of channels. This should be populated if the
user was unable to close out all channels and sweep funds before partial or
total data loss occurred. If specified, then after on-chain recovery of
funds, lnd begin to carry out the data loss recovery protocol in order to
recover the funds in each channel from a remote force closed transaction.
*/
ChanBackupSnapshot channel_backups = 5;
}
message InitWalletResponse {
}
message UnlockWalletRequest {
/*
wallet_password should be the current valid passphrase for the daemon. This
will be required to decrypt on-disk material that the daemon requires to
function properly. When using REST, this field must be encoded as base64.
*/
bytes wallet_password = 1;
/*
recovery_window is an optional argument specifying the address lookahead
when restoring a wallet seed. The recovery window applies to each
individual branch of the BIP44 derivation paths. Supplying a recovery
window of zero indicates that no addresses should be recovered, such after
the first initialization of the wallet.
*/
int32 recovery_window = 2;
/*
channel_backups is an optional argument that allows clients to recover the
settled funds within a set of channels. This should be populated if the
user was unable to close out all channels and sweep funds before partial or
total data loss occurred. If specified, then after on-chain recovery of
funds, lnd begin to carry out the data loss recovery protocol in order to
recover the funds in each channel from a remote force closed transaction.
*/
ChanBackupSnapshot channel_backups = 3;
}
message UnlockWalletResponse {
}
message ChangePasswordRequest {
/*
current_password should be the current valid passphrase used to unlock the
daemon. When using REST, this field must be encoded as base64.
*/
bytes current_password = 1;
/*
new_password should be the new passphrase that will be needed to unlock the
daemon. When using REST, this field must be encoded as base64.
*/
bytes new_password = 2;
}
message ChangePasswordResponse {
}
// Lightning is the main RPC server of the daemon.
service Lightning {
/* lncli: `walletbalance`
WalletBalance returns total unspent outputs(confirmed and unconfirmed), all
confirmed unspent outputs and all unconfirmed unspent outputs under control
of the wallet.
*/
rpc WalletBalance (WalletBalanceRequest) returns (WalletBalanceResponse);
/* lncli: `channelbalance`
ChannelBalance returns the total funds available across all open channels
in satoshis.
*/
rpc ChannelBalance (ChannelBalanceRequest) returns (ChannelBalanceResponse);
/* lncli: `listchaintxns`
GetTransactions returns a list describing all the known transactions
relevant to the wallet.
*/
rpc GetTransactions (GetTransactionsRequest) returns (TransactionDetails);
/* lncli: `estimatefee`
EstimateFee asks the chain backend to estimate the fee rate and total fees
for a transaction that pays to multiple specified outputs.
When using REST, the `AddrToAmount` map type can be set by appending
`&AddrToAmount[<address>]=<amount_to_send>` to the URL. Unfortunately this
map type doesn't appear in the REST API documentation because of a bug in
the grpc-gateway library.
*/
rpc EstimateFee (EstimateFeeRequest) returns (EstimateFeeResponse);
/* lncli: `sendcoins`
SendCoins executes a request to send coins to a particular address. Unlike
SendMany, this RPC call only allows creating a single output at a time. If
neither target_conf, or sat_per_byte are set, then the internal wallet will
consult its fee model to determine a fee for the default confirmation
target.
*/
rpc SendCoins (SendCoinsRequest) returns (SendCoinsResponse);
/* lncli: `listunspent`
Deprecated, use walletrpc.ListUnspent instead.
ListUnspent returns a list of all utxos spendable by the wallet with a
number of confirmations between the specified minimum and maximum.
*/
rpc ListUnspent (ListUnspentRequest) returns (ListUnspentResponse);
/*
SubscribeTransactions creates a uni-directional stream from the server to
the client in which any newly discovered transactions relevant to the
wallet are sent over.
*/
rpc SubscribeTransactions (GetTransactionsRequest)
returns (stream Transaction);
/* lncli: `sendmany`
SendMany handles a request for a transaction that creates multiple specified
outputs in parallel. If neither target_conf, or sat_per_byte are set, then
the internal wallet will consult its fee model to determine a fee for the
default confirmation target.
*/
rpc SendMany (SendManyRequest) returns (SendManyResponse);
/* lncli: `newaddress`
NewAddress creates a new address under control of the local wallet.
*/
rpc NewAddress (NewAddressRequest) returns (NewAddressResponse);
/* lncli: `signmessage`
SignMessage signs a message with this node's private key. The returned
signature string is `zbase32` encoded and pubkey recoverable, meaning that
only the message digest and signature are needed for verification.
*/
rpc SignMessage (SignMessageRequest) returns (SignMessageResponse);
/* lncli: `verifymessage`
VerifyMessage verifies a signature over a msg. The signature must be
zbase32 encoded and signed by an active node in the resident node's
channel database. In addition to returning the validity of the signature,
VerifyMessage also returns the recovered pubkey from the signature.
*/
rpc VerifyMessage (VerifyMessageRequest) returns (VerifyMessageResponse);
/* lncli: `connect`
ConnectPeer attempts to establish a connection to a remote peer. This is at
the networking level, and is used for communication between nodes. This is
distinct from establishing a channel with a peer.
*/
rpc ConnectPeer (ConnectPeerRequest) returns (ConnectPeerResponse);
/* lncli: `disconnect`
DisconnectPeer attempts to disconnect one peer from another identified by a
given pubKey. In the case that we currently have a pending or active channel
with the target peer, then this action will be not be allowed.
*/
rpc DisconnectPeer (DisconnectPeerRequest) returns (DisconnectPeerResponse);
/* lncli: `listpeers`
ListPeers returns a verbose listing of all currently active peers.
*/
rpc ListPeers (ListPeersRequest) returns (ListPeersResponse);
/*
SubscribePeerEvents creates a uni-directional stream from the server to
the client in which any events relevant to the state of peers are sent
over. Events include peers going online and offline.
*/
rpc SubscribePeerEvents (PeerEventSubscription) returns (stream PeerEvent);
/* lncli: `getinfo`
GetInfo returns general information concerning the lightning node including
it's identity pubkey, alias, the chains it is connected to, and information
concerning the number of open+pending channels.
*/
rpc GetInfo (GetInfoRequest) returns (GetInfoResponse);
/** lncli: `getrecoveryinfo`
GetRecoveryInfo returns information concerning the recovery mode including
whether it's in a recovery mode, whether the recovery is finished, and the
progress made so far.
*/
rpc GetRecoveryInfo (GetRecoveryInfoRequest)
returns (GetRecoveryInfoResponse);
// TODO(roasbeef): merge with below with bool?
/* lncli: `pendingchannels`
PendingChannels returns a list of all the channels that are currently
considered "pending". A channel is pending if it has finished the funding
workflow and is waiting for confirmations for the funding txn, or is in the
process of closure, either initiated cooperatively or non-cooperatively.
*/
rpc PendingChannels (PendingChannelsRequest)
returns (PendingChannelsResponse);
/* lncli: `listchannels`
ListChannels returns a description of all the open channels that this node
is a participant in.
*/
rpc ListChannels (ListChannelsRequest) returns (ListChannelsResponse);
/*
SubscribeChannelEvents creates a uni-directional stream from the server to
the client in which any updates relevant to the state of the channels are
sent over. Events include new active channels, inactive channels, and closed
channels.
*/
rpc SubscribeChannelEvents (ChannelEventSubscription)
returns (stream ChannelEventUpdate);
/* lncli: `closedchannels`
ClosedChannels returns a description of all the closed channels that
this node was a participant in.
*/
rpc ClosedChannels (ClosedChannelsRequest) returns (ClosedChannelsResponse);
/*
OpenChannelSync is a synchronous version of the OpenChannel RPC call. This
call is meant to be consumed by clients to the REST proxy. As with all
other sync calls, all byte slices are intended to be populated as hex
encoded strings.
*/
rpc OpenChannelSync (OpenChannelRequest) returns (ChannelPoint);
/* lncli: `openchannel`
OpenChannel attempts to open a singly funded channel specified in the
request to a remote peer. Users are able to specify a target number of
blocks that the funding transaction should be confirmed in, or a manual fee
rate to us for the funding transaction. If neither are specified, then a
lax block confirmation target is used. Each OpenStatusUpdate will return
the pending channel ID of the in-progress channel. Depending on the
arguments specified in the OpenChannelRequest, this pending channel ID can
then be used to manually progress the channel funding flow.
*/
rpc OpenChannel (OpenChannelRequest) returns (stream OpenStatusUpdate);
/*
FundingStateStep is an advanced funding related call that allows the caller
to either execute some preparatory steps for a funding workflow, or
manually progress a funding workflow. The primary way a funding flow is
identified is via its pending channel ID. As an example, this method can be
used to specify that we're expecting a funding flow for a particular
pending channel ID, for which we need to use specific parameters.
Alternatively, this can be used to interactively drive PSBT signing for
funding for partially complete funding transactions.
*/
rpc FundingStateStep (FundingTransitionMsg) returns (FundingStateStepResp);
/*
ChannelAcceptor dispatches a bi-directional streaming RPC in which
OpenChannel requests are sent to the client and the client responds with
a boolean that tells LND whether or not to accept the channel. This allows
node operators to specify their own criteria for accepting inbound channels
through a single persistent connection.
*/
rpc ChannelAcceptor (stream ChannelAcceptResponse)
returns (stream ChannelAcceptRequest);
/* lncli: `closechannel`
CloseChannel attempts to close an active channel identified by its channel
outpoint (ChannelPoint). The actions of this method can additionally be
augmented to attempt a force close after a timeout period in the case of an
inactive peer. If a non-force close (cooperative closure) is requested,
then the user can specify either a target number of blocks until the
closure transaction is confirmed, or a manual fee rate. If neither are
specified, then a default lax, block confirmation target is used.
*/
rpc CloseChannel (CloseChannelRequest) returns (stream CloseStatusUpdate);
/* lncli: `abandonchannel`
AbandonChannel removes all channel state from the database except for a
close summary. This method can be used to get rid of permanently unusable
channels due to bugs fixed in newer versions of lnd. This method can also be
used to remove externally funded channels where the funding transaction was
never broadcast. Only available for non-externally funded channels in dev
build.
*/
rpc AbandonChannel (AbandonChannelRequest) returns (AbandonChannelResponse);
/* lncli: `sendpayment`
Deprecated, use routerrpc.SendPaymentV2. SendPayment dispatches a
bi-directional streaming RPC for sending payments through the Lightning
Network. A single RPC invocation creates a persistent bi-directional
stream allowing clients to rapidly send payments through the Lightning
Network with a single persistent connection.
*/
rpc SendPayment (stream SendRequest) returns (stream SendResponse) {
option deprecated = true;
}
/*
SendPaymentSync is the synchronous non-streaming version of SendPayment.
This RPC is intended to be consumed by clients of the REST proxy.
Additionally, this RPC expects the destination's public key and the payment
hash (if any) to be encoded as hex strings.
*/
rpc SendPaymentSync (SendRequest) returns (SendResponse);
/* lncli: `sendtoroute`
Deprecated, use routerrpc.SendToRouteV2. SendToRoute is a bi-directional
streaming RPC for sending payment through the Lightning Network. This
method differs from SendPayment in that it allows users to specify a full
route manually. This can be used for things like rebalancing, and atomic
swaps.
*/
rpc SendToRoute (stream SendToRouteRequest) returns (stream SendResponse) {
option deprecated = true;
}
/*
SendToRouteSync is a synchronous version of SendToRoute. It Will block
until the payment either fails or succeeds.
*/
rpc SendToRouteSync (SendToRouteRequest) returns (SendResponse);
/* lncli: `addinvoice`
AddInvoice attempts to add a new invoice to the invoice database. Any
duplicated invoices are rejected, therefore all invoices *must* have a
unique payment preimage.
*/
rpc AddInvoice (Invoice) returns (AddInvoiceResponse);
/* lncli: `listinvoices`
ListInvoices returns a list of all the invoices currently stored within the
database. Any active debug invoices are ignored. It has full support for
paginated responses, allowing users to query for specific invoices through
their add_index. This can be done by using either the first_index_offset or
last_index_offset fields included in the response as the index_offset of the
next request. By default, the first 100 invoices created will be returned.
Backwards pagination is also supported through the Reversed flag.
*/
rpc ListInvoices (ListInvoiceRequest) returns (ListInvoiceResponse);
/* lncli: `lookupinvoice`
LookupInvoice attempts to look up an invoice according to its payment hash.
The passed payment hash *must* be exactly 32 bytes, if not, an error is
returned.
*/
rpc LookupInvoice (PaymentHash) returns (Invoice);
/*
SubscribeInvoices returns a uni-directional stream (server -> client) for
notifying the client of newly added/settled invoices. The caller can
optionally specify the add_index and/or the settle_index. If the add_index
is specified, then we'll first start by sending add invoice events for all
invoices with an add_index greater than the specified value. If the
settle_index is specified, the next, we'll send out all settle events for
invoices with a settle_index greater than the specified value. One or both
of these fields can be set. If no fields are set, then we'll only send out
the latest add/settle events.
*/
rpc SubscribeInvoices (InvoiceSubscription) returns (stream Invoice);
/* lncli: `decodepayreq`
DecodePayReq takes an encoded payment request string and attempts to decode
it, returning a full description of the conditions encoded within the
payment request.
*/
rpc DecodePayReq (PayReqString) returns (PayReq);
/* lncli: `listpayments`
ListPayments returns a list of all outgoing payments.
*/
rpc ListPayments (ListPaymentsRequest) returns (ListPaymentsResponse);
/*
DeleteAllPayments deletes all outgoing payments from DB.
*/
rpc DeleteAllPayments (DeleteAllPaymentsRequest)
returns (DeleteAllPaymentsResponse);
/* lncli: `describegraph`
DescribeGraph returns a description of the latest graph state from the
point of view of the node. The graph information is partitioned into two
components: all the nodes/vertexes, and all the edges that connect the
vertexes themselves. As this is a directed graph, the edges also contain
the node directional specific routing policy which includes: the time lock
delta, fee information, etc.
*/
rpc DescribeGraph (ChannelGraphRequest) returns (ChannelGraph);
/* lncli: `getnodemetrics`
GetNodeMetrics returns node metrics calculated from the graph. Currently
the only supported metric is betweenness centrality of individual nodes.
*/
rpc GetNodeMetrics (NodeMetricsRequest) returns (NodeMetricsResponse);
/* lncli: `getchaninfo`
GetChanInfo returns the latest authenticated network announcement for the
given channel identified by its channel ID: an 8-byte integer which
uniquely identifies the location of transaction's funding output within the
blockchain.
*/
rpc GetChanInfo (ChanInfoRequest) returns (ChannelEdge);
/* lncli: `getnodeinfo`
GetNodeInfo returns the latest advertised, aggregated, and authenticated
channel information for the specified node identified by its public key.
*/
rpc GetNodeInfo (NodeInfoRequest) returns (NodeInfo);
/* lncli: `queryroutes`
QueryRoutes attempts to query the daemon's Channel Router for a possible
route to a target destination capable of carrying a specific amount of
satoshis. The returned route contains the full details required to craft and
send an HTLC, also including the necessary information that should be
present within the Sphinx packet encapsulated within the HTLC.
When using REST, the `dest_custom_records` map type can be set by appending
`&dest_custom_records[<record_number>]=<record_data_base64_url_encoded>`
to the URL. Unfortunately this map type doesn't appear in the REST API
documentation because of a bug in the grpc-gateway library.
*/
rpc QueryRoutes (QueryRoutesRequest) returns (QueryRoutesResponse);
/* lncli: `getnetworkinfo`
GetNetworkInfo returns some basic stats about the known channel graph from
the point of view of the node.
*/
rpc GetNetworkInfo (NetworkInfoRequest) returns (NetworkInfo);
/* lncli: `stop`
StopDaemon will send a shutdown request to the interrupt handler, triggering
a graceful shutdown of the daemon.
*/
rpc StopDaemon (StopRequest) returns (StopResponse);
/*
SubscribeChannelGraph launches a streaming RPC that allows the caller to
receive notifications upon any changes to the channel graph topology from
the point of view of the responding node. Events notified include: new
nodes coming online, nodes updating their authenticated attributes, new
channels being advertised, updates in the routing policy for a directional
channel edge, and when channels are closed on-chain.
*/
rpc SubscribeChannelGraph (GraphTopologySubscription)
returns (stream GraphTopologyUpdate);
/* lncli: `debuglevel`
DebugLevel allows a caller to programmatically set the logging verbosity of
lnd. The logging can be targeted according to a coarse daemon-wide logging
level, or in a granular fashion to specify the logging for a target
sub-system.
*/
rpc DebugLevel (DebugLevelRequest) returns (DebugLevelResponse);
/* lncli: `feereport`
FeeReport allows the caller to obtain a report detailing the current fee
schedule enforced by the node globally for each channel.
*/
rpc FeeReport (FeeReportRequest) returns (FeeReportResponse);
/* lncli: `updatechanpolicy`
UpdateChannelPolicy allows the caller to update the fee schedule and
channel policies for all channels globally, or a particular channel.
*/
rpc UpdateChannelPolicy (PolicyUpdateRequest)
returns (PolicyUpdateResponse);
/* lncli: `fwdinghistory`
ForwardingHistory allows the caller to query the htlcswitch for a record of
all HTLCs forwarded within the target time range, and integer offset
within that time range. If no time-range is specified, then the first chunk
of the past 24 hrs of forwarding history are returned.
A list of forwarding events are returned. The size of each forwarding event
is 40 bytes, and the max message size able to be returned in gRPC is 4 MiB.
As a result each message can only contain 50k entries. Each response has
the index offset of the last entry. The index offset can be provided to the
request to allow the caller to skip a series of records.
*/
rpc ForwardingHistory (ForwardingHistoryRequest)
returns (ForwardingHistoryResponse);
/* lncli: `exportchanbackup`
ExportChannelBackup attempts to return an encrypted static channel backup
for the target channel identified by it channel point. The backup is
encrypted with a key generated from the aezeed seed of the user. The
returned backup can either be restored using the RestoreChannelBackup
method once lnd is running, or via the InitWallet and UnlockWallet methods
from the WalletUnlocker service.
*/
rpc ExportChannelBackup (ExportChannelBackupRequest)
returns (ChannelBackup);
/*
ExportAllChannelBackups returns static channel backups for all existing
channels known to lnd. A set of regular singular static channel backups for
each channel are returned. Additionally, a multi-channel backup is returned
as well, which contains a single encrypted blob containing the backups of
each channel.
*/
rpc ExportAllChannelBackups (ChanBackupExportRequest)
returns (ChanBackupSnapshot);
/*
VerifyChanBackup allows a caller to verify the integrity of a channel backup
snapshot. This method will accept either a packed Single or a packed Multi.
Specifying both will result in an error.
*/
rpc VerifyChanBackup (ChanBackupSnapshot)
returns (VerifyChanBackupResponse);
/* lncli: `restorechanbackup`
RestoreChannelBackups accepts a set of singular channel backups, or a
single encrypted multi-chan backup and attempts to recover any funds
remaining within the channel. If we are able to unpack the backup, then the
new channel will be shown under listchannels, as well as pending channels.
*/
rpc RestoreChannelBackups (RestoreChanBackupRequest)
returns (RestoreBackupResponse);
/*
SubscribeChannelBackups allows a client to sub-subscribe to the most up to
date information concerning the state of all channel backups. Each time a
new channel is added, we return the new set of channels, along with a
multi-chan backup containing the backup info for all channels. Each time a
channel is closed, we send a new update, which contains new new chan back
ups, but the updated set of encrypted multi-chan backups with the closed
channel(s) removed.
*/
rpc SubscribeChannelBackups (ChannelBackupSubscription)
returns (stream ChanBackupSnapshot);
/* lncli: `bakemacaroon`
BakeMacaroon allows the creation of a new macaroon with custom read and
write permissions. No first-party caveats are added since this can be done
offline.
*/
rpc BakeMacaroon (BakeMacaroonRequest) returns (BakeMacaroonResponse);
/* lncli: `listpermissions`
ListPermissions lists all RPC method URIs and their required macaroon
permissions to access them.
*/
rpc ListPermissions (ListPermissionsRequest)
returns (ListPermissionsResponse);
}
message Utxo {
// The type of address
AddressType address_type = 1;
// The address
string address = 2;
// The value of the unspent coin in satoshis
int64 amount_sat = 3;
// The pkscript in hex
string pk_script = 4;
// The outpoint in format txid:n
OutPoint outpoint = 5;
// The number of confirmations for the Utxo
int64 confirmations = 6;
}
message Transaction {
// The transaction hash
string tx_hash = 1;
// The transaction amount, denominated in satoshis
int64 amount = 2;
// The number of confirmations
int32 num_confirmations = 3;
// The hash of the block this transaction was included in
string block_hash = 4;
// The height of the block this transaction was included in
int32 block_height = 5;
// Timestamp of this transaction
int64 time_stamp = 6;
// Fees paid for this transaction
int64 total_fees = 7;
// Addresses that received funds for this transaction
repeated string dest_addresses = 8;
// The raw transaction hex.
string raw_tx_hex = 9;
// A label that was optionally set on transaction broadcast.
string label = 10;
}
message GetTransactionsRequest {
/*
The height from which to list transactions, inclusive. If this value is
greater than end_height, transactions will be read in reverse.
*/
int32 start_height = 1;
/*
The height until which to list transactions, inclusive. To include
unconfirmed transactions, this value should be set to -1, which will
return transactions from start_height until the current chain tip and
unconfirmed transactions. If no end_height is provided, the call will
default to this option.
*/
int32 end_height = 2;
}
message TransactionDetails {
// The list of transactions relevant to the wallet.
repeated Transaction transactions = 1;
}
message FeeLimit {
oneof limit {
/*
The fee limit expressed as a fixed amount of satoshis.
The fields fixed and fixed_msat are mutually exclusive.
*/
int64 fixed = 1;
/*
The fee limit expressed as a fixed amount of millisatoshis.
The fields fixed and fixed_msat are mutually exclusive.
*/
int64 fixed_msat = 3;
// The fee limit expressed as a percentage of the payment amount.
int64 percent = 2;
}
}
message SendRequest {
/*
The identity pubkey of the payment recipient. When using REST, this field
must be encoded as base64.
*/
bytes dest = 1;
/*
The hex-encoded identity pubkey of the payment recipient. Deprecated now
that the REST gateway supports base64 encoding of bytes fields.
*/
string dest_string = 2 [deprecated = true];
/*
The amount to send expressed in satoshis.
The fields amt and amt_msat are mutually exclusive.
*/
int64 amt = 3;
/*
The amount to send expressed in millisatoshis.
The fields amt and amt_msat are mutually exclusive.
*/
int64 amt_msat = 12;
/*
The hash to use within the payment's HTLC. When using REST, this field
must be encoded as base64.
*/
bytes payment_hash = 4;
/*
The hex-encoded hash to use within the payment's HTLC. Deprecated now
that the REST gateway supports base64 encoding of bytes fields.
*/
string payment_hash_string = 5 [deprecated = true];
/*
A bare-bones invoice for a payment within the Lightning Network. With the
details of the invoice, the sender has all the data necessary to send a
payment to the recipient.
*/
string payment_request = 6;
/*
The CLTV delta from the current height that should be used to set the
timelock for the final hop.
*/
int32 final_cltv_delta = 7;
/*
The maximum number of satoshis that will be paid as a fee of the payment.
This value can be represented either as a percentage of the amount being
sent, or as a fixed amount of the maximum fee the user is willing the pay to
send the payment.
*/
FeeLimit fee_limit = 8;
/*
The channel id of the channel that must be taken to the first hop. If zero,
any channel may be used.
*/
uint64 outgoing_chan_id = 9 [jstype = JS_STRING];
/*
The pubkey of the last hop of the route. If empty, any hop may be used.
*/
bytes last_hop_pubkey = 13;
/*
An optional maximum total time lock for the route. This should not exceed
lnd's `--max-cltv-expiry` setting. If zero, then the value of
`--max-cltv-expiry` is enforced.
*/
uint32 cltv_limit = 10;
/*
An optional field that can be used to pass an arbitrary set of TLV records
to a peer which understands the new records. This can be used to pass
application specific data during the payment attempt. Record types are
required to be in the custom range >= 65536. When using REST, the values
must be encoded as base64.
*/
map<uint64, bytes> dest_custom_records = 11;
// If set, circular payments to self are permitted.
bool allow_self_payment = 14;
/*
Features assumed to be supported by the final node. All transitive feature
dependencies must also be set properly. For a given feature bit pair, either
optional or remote may be set, but not both. If this field is nil or empty,
the router will try to load destination features from the graph as a
fallback.
*/
repeated FeatureBit dest_features = 15;
}
message SendResponse {
string payment_error = 1;
bytes payment_preimage = 2;
Route payment_route = 3;
bytes payment_hash = 4;
}
message SendToRouteRequest {
/*
The payment hash to use for the HTLC. When using REST, this field must be
encoded as base64.
*/
bytes payment_hash = 1;
/*
An optional hex-encoded payment hash to be used for the HTLC. Deprecated now
that the REST gateway supports base64 encoding of bytes fields.
*/
string payment_hash_string = 2 [deprecated = true];
reserved 3;
// Route that should be used to attempt to complete the payment.
Route route = 4;
}
message ChannelAcceptRequest {
// The pubkey of the node that wishes to open an inbound channel.
bytes node_pubkey = 1;
// The hash of the genesis block that the proposed channel resides in.
bytes chain_hash = 2;
// The pending channel id.
bytes pending_chan_id = 3;
// The funding amount in satoshis that initiator wishes to use in the
// channel.
uint64 funding_amt = 4;
// The push amount of the proposed channel in millisatoshis.
uint64 push_amt = 5;
// The dust limit of the initiator's commitment tx.
uint64 dust_limit = 6;
// The maximum amount of coins in millisatoshis that can be pending in this
// channel.
uint64 max_value_in_flight = 7;
// The minimum amount of satoshis the initiator requires us to have at all
// times.
uint64 channel_reserve = 8;
// The smallest HTLC in millisatoshis that the initiator will accept.
uint64 min_htlc = 9;
// The initial fee rate that the initiator suggests for both commitment
// transactions.
uint64 fee_per_kw = 10;
/*
The number of blocks to use for the relative time lock in the pay-to-self
output of both commitment transactions.
*/
uint32 csv_delay = 11;
// The total number of incoming HTLC's that the initiator will accept.
uint32 max_accepted_htlcs = 12;
// A bit-field which the initiator uses to specify proposed channel
// behavior.
uint32 channel_flags = 13;
}
message ChannelAcceptResponse {
// Whether or not the client accepts the channel.
bool accept = 1;
// The pending channel id to which this response applies.
bytes pending_chan_id = 2;
}
message ChannelPoint {
oneof funding_txid {
/*
Txid of the funding transaction. When using REST, this field must be
encoded as base64.
*/
bytes funding_txid_bytes = 1;
/*
Hex-encoded string representing the byte-reversed hash of the funding
transaction.
*/
string funding_txid_str = 2;
}
// The index of the output of the funding transaction
uint32 output_index = 3;
}
message OutPoint {
// Raw bytes representing the transaction id.
bytes txid_bytes = 1;
// Reversed, hex-encoded string representing the transaction id.
string txid_str = 2;
// The index of the output on the transaction.
uint32 output_index = 3;
}
message LightningAddress {
// The identity pubkey of the Lightning node
string pubkey = 1;
// The network location of the lightning node, e.g. `69.69.69.69:1337` or
// `localhost:10011`
string host = 2;
}
message EstimateFeeRequest {
// The map from addresses to amounts for the transaction.
map<string, int64> AddrToAmount = 1;
// The target number of blocks that this transaction should be confirmed
// by.
int32 target_conf = 2;
}
message EstimateFeeResponse {
// The total fee in satoshis.
int64 fee_sat = 1;
// The fee rate in satoshi/byte.
int64 feerate_sat_per_byte = 2;