1d73a6564f
These operations are currently unused, but will be integrated into the TowerClient at a later point as future preparation for the WatchtowerClient RPC subserver, which will allow users to add, remove, and list the watchtowers currntly in use.
428 lines
12 KiB
Go
428 lines
12 KiB
Go
package wtmock
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import (
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"net"
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"sync"
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"sync/atomic"
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"github.com/btcsuite/btcd/btcec"
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"github.com/lightningnetwork/lnd/lnwire"
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"github.com/lightningnetwork/lnd/watchtower/wtdb"
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)
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type towerPK [33]byte
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// ClientDB is a mock, in-memory database or testing the watchtower client
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// behavior.
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type ClientDB struct {
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nextTowerID uint64 // to be used atomically
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mu sync.Mutex
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summaries map[lnwire.ChannelID]wtdb.ClientChanSummary
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activeSessions map[wtdb.SessionID]*wtdb.ClientSession
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towerIndex map[towerPK]wtdb.TowerID
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towers map[wtdb.TowerID]*wtdb.Tower
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nextIndex uint32
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indexes map[wtdb.TowerID]uint32
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}
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// NewClientDB initializes a new mock ClientDB.
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func NewClientDB() *ClientDB {
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return &ClientDB{
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summaries: make(map[lnwire.ChannelID]wtdb.ClientChanSummary),
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activeSessions: make(map[wtdb.SessionID]*wtdb.ClientSession),
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towerIndex: make(map[towerPK]wtdb.TowerID),
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towers: make(map[wtdb.TowerID]*wtdb.Tower),
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indexes: make(map[wtdb.TowerID]uint32),
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}
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}
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// CreateTower initialize an address record used to communicate with a
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// watchtower. Each Tower is assigned a unique ID, that is used to amortize
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// storage costs of the public key when used by multiple sessions. If the tower
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// already exists, the address is appended to the list of all addresses used to
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// that tower previously and its corresponding sessions are marked as active.
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func (m *ClientDB) CreateTower(lnAddr *lnwire.NetAddress) (*wtdb.Tower, error) {
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m.mu.Lock()
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defer m.mu.Unlock()
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var towerPubKey towerPK
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copy(towerPubKey[:], lnAddr.IdentityKey.SerializeCompressed())
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var tower *wtdb.Tower
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towerID, ok := m.towerIndex[towerPubKey]
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if ok {
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tower = m.towers[towerID]
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tower.AddAddress(lnAddr.Address)
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towerSessions, err := m.listClientSessions(&towerID)
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if err != nil {
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return nil, err
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}
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for id, session := range towerSessions {
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session.Status = wtdb.CSessionActive
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m.activeSessions[id] = session
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}
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} else {
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towerID = wtdb.TowerID(atomic.AddUint64(&m.nextTowerID, 1))
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tower = &wtdb.Tower{
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ID: wtdb.TowerID(towerID),
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IdentityKey: lnAddr.IdentityKey,
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Addresses: []net.Addr{lnAddr.Address},
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}
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}
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m.towerIndex[towerPubKey] = towerID
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m.towers[towerID] = tower
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return copyTower(tower), nil
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}
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// RemoveTower modifies a tower's record within the database. If an address is
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// provided, then _only_ the address record should be removed from the tower's
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// persisted state. Otherwise, we'll attempt to mark the tower as inactive by
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// marking all of its sessions inactive. If any of its sessions has unacked
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// updates, then ErrTowerUnackedUpdates is returned. If the tower doesn't have
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// any sessions at all, it'll be completely removed from the database.
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//
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// NOTE: An error is not returned if the tower doesn't exist.
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func (m *ClientDB) RemoveTower(pubKey *btcec.PublicKey, addr net.Addr) error {
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m.mu.Lock()
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defer m.mu.Unlock()
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tower, err := m.loadTower(pubKey)
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if err == wtdb.ErrTowerNotFound {
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return nil
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}
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if err != nil {
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return err
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}
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if addr != nil {
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tower.RemoveAddress(addr)
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m.towers[tower.ID] = tower
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return nil
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}
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towerSessions, err := m.listClientSessions(&tower.ID)
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if err != nil {
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return err
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}
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if len(towerSessions) == 0 {
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var towerPK towerPK
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copy(towerPK[:], pubKey.SerializeCompressed())
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delete(m.towerIndex, towerPK)
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delete(m.towers, tower.ID)
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return nil
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}
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for id, session := range towerSessions {
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if len(session.CommittedUpdates) > 0 {
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return wtdb.ErrTowerUnackedUpdates
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}
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session.Status = wtdb.CSessionInactive
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m.activeSessions[id] = session
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}
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return nil
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}
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// LoadTower retrieves a tower by its public key.
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func (m *ClientDB) LoadTower(pubKey *btcec.PublicKey) (*wtdb.Tower, error) {
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m.mu.Lock()
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defer m.mu.Unlock()
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return m.loadTower(pubKey)
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}
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// loadTower retrieves a tower by its public key.
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//
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// NOTE: This method requires the database's lock to be acquired.
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func (m *ClientDB) loadTower(pubKey *btcec.PublicKey) (*wtdb.Tower, error) {
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var towerPK towerPK
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copy(towerPK[:], pubKey.SerializeCompressed())
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towerID, ok := m.towerIndex[towerPK]
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if !ok {
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return nil, wtdb.ErrTowerNotFound
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}
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tower, ok := m.towers[towerID]
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if !ok {
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return nil, wtdb.ErrTowerNotFound
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}
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return copyTower(tower), nil
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}
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// LoadTowerByID retrieves a tower by its tower ID.
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func (m *ClientDB) LoadTowerByID(towerID wtdb.TowerID) (*wtdb.Tower, error) {
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m.mu.Lock()
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defer m.mu.Unlock()
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if tower, ok := m.towers[towerID]; ok {
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return copyTower(tower), nil
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}
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return nil, wtdb.ErrTowerNotFound
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}
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// ListTowers retrieves the list of towers available within the database.
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func (m *ClientDB) ListTowers() ([]*wtdb.Tower, error) {
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m.mu.Lock()
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defer m.mu.Unlock()
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towers := make([]*wtdb.Tower, 0, len(m.towers))
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for _, tower := range m.towers {
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towers = append(towers, copyTower(tower))
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}
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return towers, nil
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}
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// MarkBackupIneligible records that particular commit height is ineligible for
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// backup. This allows the client to track which updates it should not attempt
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// to retry after startup.
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func (m *ClientDB) MarkBackupIneligible(chanID lnwire.ChannelID, commitHeight uint64) error {
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return nil
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}
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// ListClientSessions returns the set of all client sessions known to the db. An
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// optional tower ID can be used to filter out any client sessions in the
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// response that do not correspond to this tower.
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func (m *ClientDB) ListClientSessions(
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tower *wtdb.TowerID) (map[wtdb.SessionID]*wtdb.ClientSession, error) {
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m.mu.Lock()
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defer m.mu.Unlock()
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return m.listClientSessions(tower)
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}
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// listClientSessions returns the set of all client sessions known to the db. An
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// optional tower ID can be used to filter out any client sessions in the
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// response that do not correspond to this tower.
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func (m *ClientDB) listClientSessions(
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tower *wtdb.TowerID) (map[wtdb.SessionID]*wtdb.ClientSession, error) {
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sessions := make(map[wtdb.SessionID]*wtdb.ClientSession)
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for _, session := range m.activeSessions {
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if tower != nil && *tower != session.TowerID {
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continue
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}
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sessions[session.ID] = session
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}
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return sessions, nil
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}
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// CreateClientSession records a newly negotiated client session in the set of
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// active sessions. The session can be identified by its SessionID.
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func (m *ClientDB) CreateClientSession(session *wtdb.ClientSession) error {
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m.mu.Lock()
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defer m.mu.Unlock()
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// Ensure that we aren't overwriting an existing session.
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if _, ok := m.activeSessions[session.ID]; ok {
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return wtdb.ErrClientSessionAlreadyExists
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}
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// Ensure that a session key index has been reserved for this tower.
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keyIndex, ok := m.indexes[session.TowerID]
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if !ok {
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return wtdb.ErrNoReservedKeyIndex
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}
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// Ensure that the session's index matches the reserved index.
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if keyIndex != session.KeyIndex {
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return wtdb.ErrIncorrectKeyIndex
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}
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// Remove the key index reservation for this tower. Once committed, this
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// permits us to create another session with this tower.
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delete(m.indexes, session.TowerID)
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m.activeSessions[session.ID] = &wtdb.ClientSession{
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ID: session.ID,
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ClientSessionBody: wtdb.ClientSessionBody{
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SeqNum: session.SeqNum,
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TowerLastApplied: session.TowerLastApplied,
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TowerID: session.TowerID,
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KeyIndex: session.KeyIndex,
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Policy: session.Policy,
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RewardPkScript: cloneBytes(session.RewardPkScript),
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},
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CommittedUpdates: make([]wtdb.CommittedUpdate, 0),
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AckedUpdates: make(map[uint16]wtdb.BackupID),
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}
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return nil
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}
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// NextSessionKeyIndex reserves a new session key derivation index for a
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// particular tower id. The index is reserved for that tower until
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// CreateClientSession is invoked for that tower and index, at which point a new
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// index for that tower can be reserved. Multiple calls to this method before
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// CreateClientSession is invoked should return the same index.
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func (m *ClientDB) NextSessionKeyIndex(towerID wtdb.TowerID) (uint32, error) {
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m.mu.Lock()
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defer m.mu.Unlock()
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if index, ok := m.indexes[towerID]; ok {
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return index, nil
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}
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m.nextIndex++
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index := m.nextIndex
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m.indexes[towerID] = index
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return index, nil
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}
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// CommitUpdate persists the CommittedUpdate provided in the slot for (session,
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// seqNum). This allows the client to retransmit this update on startup.
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func (m *ClientDB) CommitUpdate(id *wtdb.SessionID,
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update *wtdb.CommittedUpdate) (uint16, error) {
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m.mu.Lock()
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defer m.mu.Unlock()
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// Fail if session doesn't exist.
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session, ok := m.activeSessions[*id]
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if !ok {
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return 0, wtdb.ErrClientSessionNotFound
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}
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// Check if an update has already been committed for this state.
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for _, dbUpdate := range session.CommittedUpdates {
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if dbUpdate.SeqNum == update.SeqNum {
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// If the breach hint matches, we'll just return the
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// last applied value so the client can retransmit.
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if dbUpdate.Hint == update.Hint {
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return session.TowerLastApplied, nil
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}
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// Otherwise, fail since the breach hint doesn't match.
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return 0, wtdb.ErrUpdateAlreadyCommitted
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}
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}
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// Sequence number must increment.
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if update.SeqNum != session.SeqNum+1 {
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return 0, wtdb.ErrCommitUnorderedUpdate
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}
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// Save the update and increment the sequence number.
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session.CommittedUpdates = append(session.CommittedUpdates, *update)
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session.SeqNum++
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return session.TowerLastApplied, nil
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}
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// AckUpdate persists an acknowledgment for a given (session, seqnum) pair. This
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// removes the update from the set of committed updates, and validates the
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// lastApplied value returned from the tower.
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func (m *ClientDB) AckUpdate(id *wtdb.SessionID, seqNum, lastApplied uint16) error {
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m.mu.Lock()
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defer m.mu.Unlock()
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// Fail if session doesn't exist.
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session, ok := m.activeSessions[*id]
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if !ok {
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return wtdb.ErrClientSessionNotFound
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}
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// Ensure the returned last applied value does not exceed the highest
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// allocated sequence number.
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if lastApplied > session.SeqNum {
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return wtdb.ErrUnallocatedLastApplied
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}
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// Ensure the last applied value isn't lower than a previous one sent by
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// the tower.
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if lastApplied < session.TowerLastApplied {
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return wtdb.ErrLastAppliedReversion
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}
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// Retrieve the committed update, failing if none is found. We should
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// only receive acks for state updates that we send.
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updates := session.CommittedUpdates
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for i, update := range updates {
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if update.SeqNum != seqNum {
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continue
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}
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// Remove the committed update from disk and mark the update as
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// acked. The tower last applied value is also recorded to send
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// along with the next update.
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copy(updates[:i], updates[i+1:])
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updates[len(updates)-1] = wtdb.CommittedUpdate{}
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session.CommittedUpdates = updates[:len(updates)-1]
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session.AckedUpdates[seqNum] = update.BackupID
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session.TowerLastApplied = lastApplied
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return nil
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}
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return wtdb.ErrCommittedUpdateNotFound
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}
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// FetchChanSummaries loads a mapping from all registered channels to their
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// channel summaries.
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func (m *ClientDB) FetchChanSummaries() (wtdb.ChannelSummaries, error) {
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m.mu.Lock()
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defer m.mu.Unlock()
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summaries := make(map[lnwire.ChannelID]wtdb.ClientChanSummary)
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for chanID, summary := range m.summaries {
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summaries[chanID] = wtdb.ClientChanSummary{
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SweepPkScript: cloneBytes(summary.SweepPkScript),
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}
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}
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return summaries, nil
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}
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// RegisterChannel registers a channel for use within the client database. For
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// now, all that is stored in the channel summary is the sweep pkscript that
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// we'd like any tower sweeps to pay into. In the future, this will be extended
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// to contain more info to allow the client efficiently request historical
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// states to be backed up under the client's active policy.
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func (m *ClientDB) RegisterChannel(chanID lnwire.ChannelID,
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sweepPkScript []byte) error {
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m.mu.Lock()
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defer m.mu.Unlock()
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if _, ok := m.summaries[chanID]; ok {
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return wtdb.ErrChannelAlreadyRegistered
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}
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m.summaries[chanID] = wtdb.ClientChanSummary{
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SweepPkScript: cloneBytes(sweepPkScript),
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}
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return nil
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}
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func cloneBytes(b []byte) []byte {
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if b == nil {
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return nil
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}
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bb := make([]byte, len(b))
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copy(bb, b)
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return bb
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}
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func copyTower(tower *wtdb.Tower) *wtdb.Tower {
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t := &wtdb.Tower{
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ID: tower.ID,
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IdentityKey: tower.IdentityKey,
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Addresses: make([]net.Addr, len(tower.Addresses)),
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}
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copy(t.Addresses, tower.Addresses)
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return t
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}
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