lnd.xprv/watchtower/wtmock/client_db.go

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package wtmock
import (
"fmt"
"net"
"sync"
"sync/atomic"
"github.com/lightningnetwork/lnd/lnwire"
"github.com/lightningnetwork/lnd/watchtower/wtdb"
)
type towerPK [33]byte
// ClientDB is a mock, in-memory database or testing the watchtower client
// behavior.
type ClientDB struct {
nextTowerID uint64 // to be used atomically
mu sync.Mutex
sweepPkScripts map[lnwire.ChannelID][]byte
activeSessions map[wtdb.SessionID]*wtdb.ClientSession
towerIndex map[towerPK]uint64
towers map[uint64]*wtdb.Tower
}
// NewClientDB initializes a new mock ClientDB.
func NewClientDB() *ClientDB {
return &ClientDB{
sweepPkScripts: make(map[lnwire.ChannelID][]byte),
activeSessions: make(map[wtdb.SessionID]*wtdb.ClientSession),
towerIndex: make(map[towerPK]uint64),
towers: make(map[uint64]*wtdb.Tower),
}
}
// CreateTower initializes a database entry with the given lightning address. If
// the tower exists, the address is append to the list of all addresses used to
// that tower previously.
func (m *ClientDB) CreateTower(lnAddr *lnwire.NetAddress) (*wtdb.Tower, error) {
m.mu.Lock()
defer m.mu.Unlock()
var towerPubKey towerPK
copy(towerPubKey[:], lnAddr.IdentityKey.SerializeCompressed())
var tower *wtdb.Tower
towerID, ok := m.towerIndex[towerPubKey]
if ok {
tower = m.towers[towerID]
tower.AddAddress(lnAddr.Address)
} else {
towerID = atomic.AddUint64(&m.nextTowerID, 1)
tower = &wtdb.Tower{
ID: towerID,
IdentityKey: lnAddr.IdentityKey,
Addresses: []net.Addr{lnAddr.Address},
}
}
m.towerIndex[towerPubKey] = towerID
m.towers[towerID] = tower
return tower, nil
}
// MarkBackupIneligible records that particular commit height is ineligible for
// backup. This allows the client to track which updates it should not attempt
// to retry after startup.
func (m *ClientDB) MarkBackupIneligible(chanID lnwire.ChannelID, commitHeight uint64) error {
return nil
}
// ListClientSessions returns the set of all client sessions known to the db.
func (m *ClientDB) ListClientSessions() (map[wtdb.SessionID]*wtdb.ClientSession, error) {
m.mu.Lock()
defer m.mu.Unlock()
sessions := make(map[wtdb.SessionID]*wtdb.ClientSession)
for _, session := range m.activeSessions {
sessions[session.ID] = session
}
return sessions, nil
}
// CreateClientSession records a newly negotiated client session in the set of
// active sessions. The session can be identified by its SessionID.
func (m *ClientDB) CreateClientSession(session *wtdb.ClientSession) error {
m.mu.Lock()
defer m.mu.Unlock()
m.activeSessions[session.ID] = &wtdb.ClientSession{
TowerID: session.TowerID,
Tower: session.Tower,
SessionKeyDesc: session.SessionKeyDesc,
SessionPrivKey: session.SessionPrivKey,
ID: session.ID,
Policy: session.Policy,
SeqNum: session.SeqNum,
TowerLastApplied: session.TowerLastApplied,
RewardPkScript: session.RewardPkScript,
CommittedUpdates: make(map[uint16]*wtdb.CommittedUpdate),
AckedUpdates: make(map[uint16]wtdb.BackupID),
}
return nil
}
// CommitUpdate persists the CommittedUpdate provided in the slot for (session,
// seqNum). This allows the client to retransmit this update on startup.
func (m *ClientDB) CommitUpdate(id *wtdb.SessionID, seqNum uint16,
update *wtdb.CommittedUpdate) (uint16, error) {
m.mu.Lock()
defer m.mu.Unlock()
// Fail if session doesn't exist.
session, ok := m.activeSessions[*id]
if !ok {
return 0, wtdb.ErrClientSessionNotFound
}
// Check if an update has already been committed for this state.
dbUpdate, ok := session.CommittedUpdates[seqNum]
if ok {
// If the breach hint matches, we'll just return the last
// applied value so the client can retransmit.
if dbUpdate.Hint == update.Hint {
return session.TowerLastApplied, nil
}
// Otherwise, fail since the breach hint doesn't match.
return 0, wtdb.ErrUpdateAlreadyCommitted
}
// Sequence number must increment.
if seqNum != session.SeqNum+1 {
return 0, wtdb.ErrCommitUnorderedUpdate
}
// Save the update and increment the sequence number.
session.CommittedUpdates[seqNum] = update
session.SeqNum++
return session.TowerLastApplied, nil
}
// AckUpdate persists an acknowledgment for a given (session, seqnum) pair. This
// removes the update from the set of committed updates, and validates the
// lastApplied value returned from the tower.
func (m *ClientDB) AckUpdate(id *wtdb.SessionID, seqNum, lastApplied uint16) error {
m.mu.Lock()
defer m.mu.Unlock()
// Fail if session doesn't exist.
session, ok := m.activeSessions[*id]
if !ok {
return wtdb.ErrClientSessionNotFound
}
// Retrieve the committed update, failing if none is found. We should
// only receive acks for state updates that we send.
update, ok := session.CommittedUpdates[seqNum]
if !ok {
return wtdb.ErrCommittedUpdateNotFound
}
// Ensure the returned last applied value does not exceed the highest
// allocated sequence number.
if lastApplied > session.SeqNum {
return wtdb.ErrUnallocatedLastApplied
}
// Ensure the last applied value isn't lower than a previous one sent by
// the tower.
if lastApplied < session.TowerLastApplied {
return wtdb.ErrLastAppliedReversion
}
// Finally, remove the committed update from disk and mark the update as
// acked. The tower last applied value is also recorded to send along
// with the next update.
delete(session.CommittedUpdates, seqNum)
session.AckedUpdates[seqNum] = update.BackupID
session.TowerLastApplied = lastApplied
return nil
}
// FetchChanPkScripts returns the set of sweep pkscripts known for all channels.
// This allows the client to cache them in memory on startup.
func (m *ClientDB) FetchChanPkScripts() (map[lnwire.ChannelID][]byte, error) {
m.mu.Lock()
defer m.mu.Unlock()
sweepPkScripts := make(map[lnwire.ChannelID][]byte)
for chanID, pkScript := range m.sweepPkScripts {
sweepPkScripts[chanID] = cloneBytes(pkScript)
}
return sweepPkScripts, nil
}
// AddChanPkScript sets a pkscript or sweeping funds from the channel or chanID.
func (m *ClientDB) AddChanPkScript(chanID lnwire.ChannelID, pkScript []byte) error {
m.mu.Lock()
defer m.mu.Unlock()
if _, ok := m.sweepPkScripts[chanID]; ok {
return fmt.Errorf("pkscript for %x already exists", pkScript)
}
m.sweepPkScripts[chanID] = cloneBytes(pkScript)
return nil
}
func cloneBytes(b []byte) []byte {
bb := make([]byte, len(b))
copy(bb, b)
return bb
}