lnd.xprv/watchtower/wtclient/interface.go

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package wtclient
import (
"net"
"github.com/btcsuite/btcd/btcec"
"github.com/lightningnetwork/lnd/brontide"
"github.com/lightningnetwork/lnd/keychain"
"github.com/lightningnetwork/lnd/lnwire"
"github.com/lightningnetwork/lnd/watchtower/wtdb"
"github.com/lightningnetwork/lnd/watchtower/wtserver"
)
// DB abstracts the required database operations required by the watchtower
// client.
type DB interface {
// CreateTower initialize an address record used to communicate with a
// watchtower. Each Tower is assigned a unique ID, that is used to
// amortize storage costs of the public key when used by multiple
// sessions. If the tower already exists, the address is appended to the
// list of all addresses used to that tower previously and its
// corresponding sessions are marked as active.
CreateTower(*lnwire.NetAddress) (*wtdb.Tower, error)
// RemoveTower modifies a tower's record within the database. If an
// address is provided, then _only_ the address record should be removed
// from the tower's persisted state. Otherwise, we'll attempt to mark
// the tower as inactive by marking all of its sessions inactive. If any
// of its sessions has unacked updates, then ErrTowerUnackedUpdates is
// returned. If the tower doesn't have any sessions at all, it'll be
// completely removed from the database.
//
// NOTE: An error is not returned if the tower doesn't exist.
RemoveTower(*btcec.PublicKey, net.Addr) error
// LoadTower retrieves a tower by its public key.
LoadTower(*btcec.PublicKey) (*wtdb.Tower, error)
// LoadTowerByID retrieves a tower by its tower ID.
LoadTowerByID(wtdb.TowerID) (*wtdb.Tower, error)
// ListTowers retrieves the list of towers available within the
// database.
ListTowers() ([]*wtdb.Tower, error)
// NextSessionKeyIndex reserves a new session key derivation index for a
// particular tower id. The index is reserved for that tower until
// CreateClientSession is invoked for that tower and index, at which
// point a new index for that tower can be reserved. Multiple calls to
// this method before CreateClientSession is invoked should return the
// same index.
NextSessionKeyIndex(wtdb.TowerID) (uint32, error)
// CreateClientSession saves a newly negotiated client session to the
// client's database. This enables the session to be used across
// restarts.
CreateClientSession(*wtdb.ClientSession) error
// ListClientSessions returns all sessions that have not yet been
// exhausted. This is used on startup to find any sessions which may
// still be able to accept state updates. An optional tower ID can be
// used to filter out any client sessions in the response that do not
// correspond to this tower.
ListClientSessions(*wtdb.TowerID) (map[wtdb.SessionID]*wtdb.ClientSession, error)
// FetchChanSummaries loads a mapping from all registered channels to
// their channel summaries.
FetchChanSummaries() (wtdb.ChannelSummaries, error)
// RegisterChannel registers a channel for use within the client
// database. For now, all that is stored in the channel summary is the
// sweep pkscript that we'd like any tower sweeps to pay into. In the
// future, this will be extended to contain more info to allow the
// client efficiently request historical states to be backed up under
// the client's active policy.
RegisterChannel(lnwire.ChannelID, []byte) error
// MarkBackupIneligible records that the state identified by the
// (channel id, commit height) tuple was ineligible for being backed up
// under the current policy. This state can be retried later under a
// different policy.
MarkBackupIneligible(chanID lnwire.ChannelID, commitHeight uint64) error
// CommitUpdate writes the next state update for a particular
// session, so that we can be sure to resend it after a restart if it
// hasn't been ACK'd by the tower. The sequence number of the update
// should be exactly one greater than the existing entry, and less that
// or equal to the session's MaxUpdates.
CommitUpdate(id *wtdb.SessionID,
update *wtdb.CommittedUpdate) (uint16, error)
// AckUpdate records an acknowledgment from the watchtower that the
// update identified by seqNum was received and saved. The returned
// lastApplied will be recorded.
AckUpdate(id *wtdb.SessionID, seqNum, lastApplied uint16) error
}
// Dial connects to an addr using the specified net and returns the connection
// object.
type Dial func(net, addr string) (net.Conn, error)
// AuthDialer connects to a remote node using an authenticated transport, such as
// brontide. The dialer argument is used to specify a resolver, which allows
// this method to be used over Tor or clear net connections.
type AuthDialer func(localKey keychain.SingleKeyECDH, netAddr *lnwire.NetAddress,
dialer func(string, string) (net.Conn, error)) (wtserver.Peer, error)
// AuthDial is the watchtower client's default method of dialing.
func AuthDial(localKey keychain.SingleKeyECDH, netAddr *lnwire.NetAddress,
dialer func(string, string) (net.Conn, error)) (wtserver.Peer, error) {
return brontide.Dial(localKey, netAddr, dialer)
}
// ECDHKeyRing abstracts the ability to derive shared ECDH keys given a
// description of the derivation path of a private key.
type ECDHKeyRing interface {
keychain.ECDHRing
// DeriveKey attempts to derive an arbitrary key specified by the
// passed KeyLocator. This may be used in several recovery scenarios,
// or when manually rotating something like our current default node
// key.
DeriveKey(keyLoc keychain.KeyLocator) (keychain.KeyDescriptor, error)
}