// Copyright (c) 2014 The btcsuite developers // Use of this source code is governed by an ISC // license that can be found in the LICENSE file. package waddrmgr import ( "time" "github.com/roasbeef/btcd/chaincfg/chainhash" "github.com/roasbeef/btcwallet/walletdb" ) // BlockStamp defines a block (by height and a unique hash) and is used to mark // a point in the blockchain that an address manager element is // synced to. type BlockStamp struct { Height int32 Hash chainhash.Hash Timestamp time.Time } // syncState houses the sync state of the manager. It consists of the recently // seen blocks as height, as well as the start and current sync block stamps. type syncState struct { // startBlock is the first block that can be safely used to start a // rescan. It is either the block the manager was created with, or the // earliest block provided with imported addresses or scripts. startBlock BlockStamp // syncedTo is the current block the addresses in the manager are known // to be synced against. syncedTo BlockStamp } // newSyncState returns a new sync state with the provided parameters. func newSyncState(startBlock, syncedTo *BlockStamp) *syncState { return &syncState{ startBlock: *startBlock, syncedTo: *syncedTo, } } // SetSyncedTo marks the address manager to be in sync with the recently-seen // block described by the blockstamp. When the provided blockstamp is nil, the // oldest blockstamp of the block the manager was created at and of all // imported addresses will be used. This effectively allows the manager to be // marked as unsynced back to the oldest known point any of the addresses have // appeared in the block chain. func (m *Manager) SetSyncedTo(ns walletdb.ReadWriteBucket, bs *BlockStamp) error { m.mtx.Lock() defer m.mtx.Unlock() // Use the stored start blockstamp and reset recent hashes and height // when the provided blockstamp is nil. if bs == nil { bs = &m.syncState.startBlock } // Update the database. err := putSyncedTo(ns, bs) if err != nil { return err } // Update memory now that the database is updated. m.syncState.syncedTo = *bs return nil } // SyncedTo returns details about the block height and hash that the address // manager is synced through at the very least. The intention is that callers // can use this information for intelligently initiating rescans to sync back to // the best chain from the last known good block. func (m *Manager) SyncedTo() BlockStamp { m.mtx.Lock() defer m.mtx.Unlock() return m.syncState.syncedTo } // BlockHash returns the block hash at a particular block height. This // information is useful for comparing against the chain back-end to see if a // reorg is taking place and how far back it goes. func (m *Manager) BlockHash(ns walletdb.ReadBucket, height int32) ( *chainhash.Hash, error) { m.mtx.Lock() defer m.mtx.Unlock() return fetchBlockHash(ns, height) } // Birthday returns the birthday, or earliest time a key could have been used, // for the manager. func (m *Manager) Birthday() time.Time { m.mtx.Lock() defer m.mtx.Unlock() return m.birthday } // SetBirthday sets the birthday, or earliest time a key could have been used, // for the manager. func (m *Manager) SetBirthday(ns walletdb.ReadWriteBucket, birthday time.Time) error { m.mtx.Lock() defer m.mtx.Unlock() m.birthday = birthday return putBirthday(ns, birthday) }