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meshdb.go
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meshdb.go
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package mesh
import (
"container/list"
"encoding/hex"
"errors"
"fmt"
"github.com/spacemeshos/go-spacemesh/common/types"
"github.com/spacemeshos/go-spacemesh/database"
"github.com/spacemeshos/go-spacemesh/log"
"github.com/spacemeshos/go-spacemesh/pendingtxs"
"math/big"
"path/filepath"
"strconv"
"strings"
"sync"
)
type layerMutex struct {
m sync.Mutex
layerWorkers uint32
}
// DB represents a mesh database instance
type DB struct {
log.Log
blockCache blockCache
layers database.Database
blocks database.Database
transactions database.Database
contextualValidity database.Database
general database.Database
unappliedTxs database.Database
unappliedTxsMutex sync.Mutex
blockMutex sync.RWMutex
orphanBlocks map[types.LayerID]map[types.BlockID]struct{}
layerMutex map[types.LayerID]*layerMutex
lhMutex sync.Mutex
exit chan struct{}
}
// NewPersistentMeshDB creates an instance of a mesh database
func NewPersistentMeshDB(path string, blockCacheSize int, log log.Log) (*DB, error) {
bdb, err := database.NewLDBDatabase(filepath.Join(path, "blocks"), 0, 0, log)
if err != nil {
return nil, fmt.Errorf("failed to initialize blocks db: %v", err)
}
ldb, err := database.NewLDBDatabase(filepath.Join(path, "layers"), 0, 0, log)
if err != nil {
return nil, fmt.Errorf("failed to initialize layers db: %v", err)
}
vdb, err := database.NewLDBDatabase(filepath.Join(path, "validity"), 0, 0, log)
if err != nil {
return nil, fmt.Errorf("failed to initialize validity db: %v", err)
}
tdb, err := database.NewLDBDatabase(filepath.Join(path, "transactions"), 0, 0, log)
if err != nil {
return nil, fmt.Errorf("failed to initialize transactions db: %v", err)
}
gdb, err := database.NewLDBDatabase(filepath.Join(path, "general"), 0, 0, log)
if err != nil {
return nil, fmt.Errorf("failed to initialize general db: %v", err)
}
utx, err := database.NewLDBDatabase(filepath.Join(path, "unappliedTxs"), 0, 0, log)
if err != nil {
return nil, fmt.Errorf("failed to initialize mesh unappliedTxs db: %v", err)
}
ll := &DB{
Log: log,
blockCache: newBlockCache(blockCacheSize * layerSize),
blocks: bdb,
layers: ldb,
transactions: tdb,
general: gdb,
contextualValidity: vdb,
unappliedTxs: utx,
orphanBlocks: make(map[types.LayerID]map[types.BlockID]struct{}),
layerMutex: make(map[types.LayerID]*layerMutex),
exit: make(chan struct{}),
}
ll.AddBlock(GenesisBlock())
ll.SaveContextualValidity(GenesisBlock().ID(), true)
return ll, nil
}
// PersistentData checks to see if db is empty
func (m *DB) PersistentData() bool {
if _, err := m.general.Get(constLATEST); err == nil {
m.Info("found data to recover on disc")
return true
}
m.Info("did not find data to recover on disc")
return false
}
// NewMemMeshDB is a mock used for testing
func NewMemMeshDB(log log.Log) *DB {
ll := &DB{
Log: log,
blockCache: newBlockCache(100 * layerSize),
blocks: database.NewMemDatabase(),
layers: database.NewMemDatabase(),
general: database.NewMemDatabase(),
contextualValidity: database.NewMemDatabase(),
transactions: database.NewMemDatabase(),
unappliedTxs: database.NewMemDatabase(),
orphanBlocks: make(map[types.LayerID]map[types.BlockID]struct{}),
layerMutex: make(map[types.LayerID]*layerMutex),
exit: make(chan struct{}),
}
ll.AddBlock(GenesisBlock())
ll.SaveContextualValidity(GenesisBlock().ID(), true)
return ll
}
// Close closes all resources
func (m *DB) Close() {
close(m.exit)
m.blocks.Close()
m.layers.Close()
m.transactions.Close()
m.unappliedTxs.Close()
m.general.Close()
m.contextualValidity.Close()
}
// ErrAlreadyExist error returned when adding an existing value to the database
var ErrAlreadyExist = errors.New("block already exist in database")
// AddBlock adds a block to the database
func (m *DB) AddBlock(bl *types.Block) error {
m.blockMutex.Lock()
defer m.blockMutex.Unlock()
if _, err := m.getBlockBytes(bl.ID()); err == nil {
m.With().Warning(ErrAlreadyExist.Error(), bl.ID())
return ErrAlreadyExist
}
if err := m.writeBlock(bl); err != nil {
return err
}
return nil
}
// GetBlock gets a block from the database by id
func (m *DB) GetBlock(id types.BlockID) (*types.Block, error) {
if blkh := m.blockCache.Get(id); blkh != nil {
return blkh, nil
}
b, err := m.getBlockBytes(id)
if err != nil {
return nil, err
}
mbk := &types.Block{}
err = types.BytesToInterface(b, mbk)
mbk.Initialize()
return mbk, err
}
// LayerBlocks retrieves all blocks from a layer by layer index
func (m *DB) LayerBlocks(index types.LayerID) ([]*types.Block, error) {
ids, err := m.LayerBlockIds(index)
if err != nil {
return nil, err
}
blocks := make([]*types.Block, 0, len(ids))
for _, k := range ids {
block, err := m.GetBlock(k)
if err != nil {
return nil, fmt.Errorf("could not retrieve block %s %s", k.String(), err)
}
blocks = append(blocks, block)
}
return blocks, nil
}
// ForBlockInView traverses all blocks in a view and uses blockHandler func on each block
// The block handler func should return two values - a bool indicating whether or not we should stop traversing after the current block (happy flow)
// and an error indicating that an error occurred while handling the block, the traversing will stop in that case as well (error flow)
func (m *DB) ForBlockInView(view map[types.BlockID]struct{}, layer types.LayerID, blockHandler func(block *types.Block) (bool, error)) error {
blocksToVisit := list.New()
for id := range view {
blocksToVisit.PushBack(id)
}
seenBlocks := make(map[types.BlockID]struct{})
for blocksToVisit.Len() > 0 {
block, err := m.GetBlock(blocksToVisit.Remove(blocksToVisit.Front()).(types.BlockID))
if err != nil {
return err
}
// catch blocks that were referenced after more than one layer, and slipped through the stop condition
if block.LayerIndex < layer {
continue
}
// execute handler
stop, err := blockHandler(block)
if err != nil {
return err
}
if stop {
m.Log.With().Debug("ForBlockInView stopped", block.ID())
break
}
// stop condition: referenced blocks must be in lower layers, so we don't traverse them
if block.LayerIndex == layer {
continue
}
// push children to bfs queue
for _, id := range block.ViewEdges {
if _, found := seenBlocks[id]; !found {
seenBlocks[id] = struct{}{}
blocksToVisit.PushBack(id)
}
}
}
return nil
}
// LayerBlockIds retrieves all block ids from a layer by layer index
func (m *DB) LayerBlockIds(index types.LayerID) ([]types.BlockID, error) {
idsBytes, err := m.layers.Get(index.Bytes())
if err != nil {
return nil, err
}
if len(idsBytes) == 0 {
//zero block layer
return []types.BlockID{}, nil
}
blockIds, err := types.BytesToBlockIds(idsBytes)
if err != nil {
return nil, errors.New("could not get all blocks from database ")
}
return blockIds, nil
}
// AddZeroBlockLayer tags lyr as a layer without blocks
func (m *DB) AddZeroBlockLayer(index types.LayerID) error {
blockIds := make([]types.BlockID, 0, 1)
w, err := types.BlockIdsToBytes(blockIds)
if err != nil {
return errors.New("could not encode layer blk ids")
}
return m.layers.Put(index.Bytes(), w)
}
func (m *DB) getBlockBytes(id types.BlockID) ([]byte, error) {
return m.blocks.Get(id.Bytes())
}
// ContextualValidity retrieves opinion on block from the database
func (m *DB) ContextualValidity(id types.BlockID) (bool, error) {
b, err := m.contextualValidity.Get(id.Bytes())
if err != nil {
return false, err
}
return b[0] == 1, nil // bytes to bool
}
// SaveContextualValidity persists opinion on block to the database
func (m *DB) SaveContextualValidity(id types.BlockID, valid bool) error {
var v []byte
if valid {
v = constTrue
} else {
v = constFalse
}
m.Debug("save contextual validity %v %v", id, valid)
return m.contextualValidity.Put(id.Bytes(), v)
}
func (m *DB) writeBlock(bl *types.Block) error {
bytes, err := types.InterfaceToBytes(bl)
if err != nil {
return fmt.Errorf("could not encode bl")
}
if err := m.blocks.Put(bl.ID().Bytes(), bytes); err != nil {
return fmt.Errorf("could not add bl %v to database %v", bl.ID(), err)
}
m.updateLayerWithBlock(bl)
m.blockCache.put(bl)
return nil
}
func (m *DB) updateLayerWithBlock(blk *types.Block) error {
lm := m.getLayerMutex(blk.LayerIndex)
defer m.endLayerWorker(blk.LayerIndex)
lm.m.Lock()
defer lm.m.Unlock()
ids, err := m.layers.Get(blk.LayerIndex.Bytes())
var blockIds []types.BlockID
if err != nil {
// layer doesnt exist, need to insert new layer
blockIds = make([]types.BlockID, 0, 1)
} else {
blockIds, err = types.BytesToBlockIds(ids)
if err != nil {
return errors.New("could not get all blocks from database ")
}
}
m.Debug("added block %v to layer %v", blk.ID(), blk.LayerIndex)
blockIds = append(blockIds, blk.ID())
w, err := types.BlockIdsToBytes(blockIds)
if err != nil {
return errors.New("could not encode layer blk ids")
}
m.layers.Put(blk.LayerIndex.Bytes(), w)
return nil
}
// try delete layer Handler (deletes if pending pendingCount is 0)
func (m *DB) endLayerWorker(index types.LayerID) {
m.lhMutex.Lock()
defer m.lhMutex.Unlock()
ll, found := m.layerMutex[index]
if !found {
panic("trying to double close layer mutex")
}
ll.layerWorkers--
if ll.layerWorkers == 0 {
delete(m.layerMutex, index)
}
}
// returns the existing layer Handler (crates one if doesn't exist)
func (m *DB) getLayerMutex(index types.LayerID) *layerMutex {
m.lhMutex.Lock()
defer m.lhMutex.Unlock()
ll, found := m.layerMutex[index]
if !found {
ll = &layerMutex{}
m.layerMutex[index] = ll
}
ll.layerWorkers++
return ll
}
func getRewardKey(l types.LayerID, account types.Address) []byte {
str := string(getRewardKeyPrefix(account)) + "_" + strconv.FormatUint(l.Uint64(), 10)
return []byte(str)
}
func getRewardKeyPrefix(account types.Address) []byte {
str := "reward_" + account.String()
return []byte(str)
}
func getTransactionOriginKey(l types.LayerID, t *types.Transaction) []byte {
str := string(getTransactionOriginKeyPrefix(l, t.Origin())) + "_" + t.ID().String()
return []byte(str)
}
func getTransactionDestKey(l types.LayerID, t *types.Transaction) []byte {
str := string(getTransactionDestKeyPrefix(l, t.Recipient)) + "_" + t.ID().String()
return []byte(str)
}
func getTransactionOriginKeyPrefix(l types.LayerID, account types.Address) []byte {
str := "a_o_" + account.String() + "_" + strconv.FormatUint(l.Uint64(), 10)
return []byte(str)
}
func getTransactionDestKeyPrefix(l types.LayerID, account types.Address) []byte {
str := "a_d_" + account.String() + "_" + strconv.FormatUint(l.Uint64(), 10)
return []byte(str)
}
type dbTransaction struct {
*types.Transaction
Origin types.Address
}
func newDbTransaction(tx *types.Transaction) *dbTransaction {
return &dbTransaction{Transaction: tx, Origin: tx.Origin()}
}
func (t dbTransaction) getTransaction() *types.Transaction {
t.Transaction.SetOrigin(t.Origin)
return t.Transaction
}
func (m *DB) writeTransactions(l types.LayerID, txs []*types.Transaction) error {
batch := m.transactions.NewBatch()
for _, t := range txs {
bytes, err := types.InterfaceToBytes(newDbTransaction(t))
if err != nil {
return fmt.Errorf("could not marshall tx %v to bytes: %v", t.ID().ShortString(), err)
}
if err := batch.Put(t.ID().Bytes(), bytes); err != nil {
return fmt.Errorf("could not write tx %v to database: %v", t.ID().ShortString(), err)
}
// write extra index for querying txs by account
if err := batch.Put(getTransactionOriginKey(l, t), t.ID().Bytes()); err != nil {
return fmt.Errorf("could not write tx %v to database: %v", t.ID().ShortString(), err)
}
if err := batch.Put(getTransactionDestKey(l, t), t.ID().Bytes()); err != nil {
return fmt.Errorf("could not write tx %v to database: %v", t.ID().ShortString(), err)
}
m.Debug("wrote tx %v to db", t.ID().ShortString())
}
err := batch.Write()
if err != nil {
return fmt.Errorf("failed to write transactions: %v", err)
}
return nil
}
// WriteTransaction writes a single transaction to the db
func (m *DB) WriteTransaction(l types.LayerID, t *types.Transaction) error {
bytes, err := types.InterfaceToBytes(newDbTransaction(t))
if err != nil {
return fmt.Errorf("could not marshall tx %v to bytes: %v", t.ID().ShortString(), err)
}
if err := m.transactions.Put(t.ID().Bytes(), bytes); err != nil {
return fmt.Errorf("could not write tx %v to database: %v", t.ID().ShortString(), err)
}
// write extra index for querying txs by account
if err := m.transactions.Put(getTransactionOriginKey(l, t), t.ID().Bytes()); err != nil {
return fmt.Errorf("could not write tx %v to database: %v", t.ID().ShortString(), err)
}
if err := m.transactions.Put(getTransactionDestKey(l, t), t.ID().Bytes()); err != nil {
return fmt.Errorf("could not write tx %v to database: %v", t.ID().ShortString(), err)
}
m.Debug("wrote tx %v to db", t.ID().ShortString())
return nil
}
type dbReward struct {
TotalReward uint64
LayerRewardEstimate uint64
// TotalReward - LayerRewardEstimate = FeesEstimate
}
func (m *DB) writeTransactionRewards(l types.LayerID, accounts []types.Address, totalReward, layerReward *big.Int) error {
actBlockCnt := make(map[types.Address]uint64)
for _, account := range accounts {
actBlockCnt[account]++
}
batch := m.transactions.NewBatch()
for account, cnt := range actBlockCnt {
reward := dbReward{TotalReward: cnt * totalReward.Uint64(), LayerRewardEstimate: cnt * layerReward.Uint64()}
if b, err := types.InterfaceToBytes(&reward); err != nil {
return fmt.Errorf("could not marshal reward for %v: %v", account.Short(), err)
} else if err := batch.Put(getRewardKey(l, account), b); err != nil {
return fmt.Errorf("could not write reward to %v to database: %v", account.Short(), err)
}
}
return batch.Write()
}
// GetRewards retrieves account's rewards by address
func (m *DB) GetRewards(account types.Address) (rewards []types.Reward, err error) {
it := m.transactions.Find(getRewardKeyPrefix(account))
for it.Next() {
if it.Key() == nil {
break
}
str := string(it.Key())
strs := strings.Split(str, "_")
layer, err := strconv.ParseUint(strs[2], 10, 64)
if err != nil {
return nil, fmt.Errorf("wrong key in db %s: %v", it.Key(), err)
}
var reward dbReward
err = types.BytesToInterface(it.Value(), &reward)
if err != nil {
return nil, fmt.Errorf("failed to unmarshal reward: %v", err)
}
rewards = append(rewards, types.Reward{
Layer: types.LayerID(layer),
TotalReward: reward.TotalReward,
LayerRewardEstimate: reward.LayerRewardEstimate,
})
}
return
}
func (m *DB) addToUnappliedTxs(txs []*types.Transaction, layer types.LayerID) error {
groupedTxs := groupByOrigin(txs)
for addr, accountTxs := range groupedTxs {
if err := m.addToAccountTxs(addr, accountTxs, layer); err != nil {
return err
}
}
return nil
}
func (m *DB) addToAccountTxs(addr types.Address, accountTxs []*types.Transaction, layer types.LayerID) error {
m.unappliedTxsMutex.Lock()
defer m.unappliedTxsMutex.Unlock()
// TODO: instead of storing a list, use LevelDB's prefixed keys and then iterate all relevant keys
pending, err := m.getAccountPendingTxs(addr)
if err != nil {
return err
}
pending.Add(layer, accountTxs...)
if err := m.storeAccountPendingTxs(addr, pending); err != nil {
return err
}
return nil
}
func (m *DB) removeFromUnappliedTxs(accepted []*types.Transaction) (grouped map[types.Address][]*types.Transaction, accounts map[types.Address]struct{}) {
grouped = groupByOrigin(accepted)
accounts = make(map[types.Address]struct{})
for account := range grouped {
accounts[account] = struct{}{}
}
for account := range accounts {
m.removeFromAccountTxs(account, grouped)
}
return
}
func (m *DB) removeFromAccountTxs(account types.Address, gAccepted map[types.Address][]*types.Transaction) {
m.unappliedTxsMutex.Lock()
defer m.unappliedTxsMutex.Unlock()
// TODO: instead of storing a list, use LevelDB's prefixed keys and then iterate all relevant keys
pending, err := m.getAccountPendingTxs(account)
if err != nil {
m.With().Error("failed to get account pending txs",
log.String("address", account.Short()), log.Err(err))
return
}
pending.RemoveAccepted(gAccepted[account])
if err := m.storeAccountPendingTxs(account, pending); err != nil {
m.With().Error("failed to store account pending txs",
log.String("address", account.Short()), log.Err(err))
}
}
func (m *DB) removeRejectedFromAccountTxs(account types.Address, rejected map[types.Address][]*types.Transaction, layer types.LayerID) {
m.unappliedTxsMutex.Lock()
defer m.unappliedTxsMutex.Unlock()
// TODO: instead of storing a list, use LevelDB's prefixed keys and then iterate all relevant keys
pending, err := m.getAccountPendingTxs(account)
if err != nil {
m.With().Error("failed to get account pending txs",
layer, log.String("address", account.Short()), log.Err(err))
return
}
pending.RemoveRejected(rejected[account], layer)
if err := m.storeAccountPendingTxs(account, pending); err != nil {
m.With().Error("failed to store account pending txs",
layer, log.String("address", account.Short()), log.Err(err))
}
}
func (m *DB) storeAccountPendingTxs(account types.Address, pending *pendingtxs.AccountPendingTxs) error {
if pending.IsEmpty() {
if err := m.unappliedTxs.Delete(account.Bytes()); err != nil {
return fmt.Errorf("failed to delete empty pending txs for account %v: %v", account.Short(), err)
}
return nil
}
if accountTxsBytes, err := types.InterfaceToBytes(&pending); err != nil {
return fmt.Errorf("failed to marshal account pending txs: %v", err)
} else if err := m.unappliedTxs.Put(account.Bytes(), accountTxsBytes); err != nil {
return fmt.Errorf("failed to store mesh txs for address %s", account.Short())
}
return nil
}
func (m *DB) getAccountPendingTxs(addr types.Address) (*pendingtxs.AccountPendingTxs, error) {
accountTxsBytes, err := m.unappliedTxs.Get(addr.Bytes())
if err != nil && err != database.ErrNotFound {
return nil, fmt.Errorf("failed to get mesh txs for account %s", addr.Short())
}
if err == database.ErrNotFound {
return pendingtxs.NewAccountPendingTxs(), nil
}
var pending pendingtxs.AccountPendingTxs
if err := types.BytesToInterface(accountTxsBytes, &pending); err != nil {
return nil, fmt.Errorf("failed to unmarshal account pending txs: %v", err)
}
return &pending, nil
}
func groupByOrigin(txs []*types.Transaction) map[types.Address][]*types.Transaction {
grouped := make(map[types.Address][]*types.Transaction)
for _, tx := range txs {
grouped[tx.Origin()] = append(grouped[tx.Origin()], tx)
}
return grouped
}
// GetProjection returns projection of address
func (m *DB) GetProjection(addr types.Address, prevNonce, prevBalance uint64) (nonce, balance uint64, err error) {
pending, err := m.getAccountPendingTxs(addr)
if err != nil {
return 0, 0, err
}
nonce, balance = pending.GetProjection(prevNonce, prevBalance)
return nonce, balance, nil
}
type txGetter struct {
missingIds map[types.TransactionID]struct{}
txs []*types.Transaction
mesh *DB
}
func (g *txGetter) get(id types.TransactionID) {
t, err := g.mesh.GetTransaction(id)
if err != nil {
g.mesh.With().Warning("could not fetch tx", id, log.Err(err))
g.missingIds[id] = struct{}{}
} else {
g.txs = append(g.txs, t)
}
}
func newGetter(m *DB) *txGetter {
return &txGetter{mesh: m, missingIds: make(map[types.TransactionID]struct{})}
}
// GetTransactions retrieves a list of txs by their id's
func (m *DB) GetTransactions(transactions []types.TransactionID) ([]*types.Transaction, map[types.TransactionID]struct{}) {
getter := newGetter(m)
for _, id := range transactions {
getter.get(id)
}
return getter.txs, getter.missingIds
}
// GetTransaction retrieves a tx by its id
func (m *DB) GetTransaction(id types.TransactionID) (*types.Transaction, error) {
tBytes, err := m.transactions.Get(id[:])
if err != nil {
return nil, fmt.Errorf("could not find transaction in database %v err=%v", hex.EncodeToString(id[:]), err)
}
var dbTx dbTransaction
err = types.BytesToInterface(tBytes, &dbTx)
if err != nil {
return nil, fmt.Errorf("failed to unmarshal transaction: %v", err)
}
return dbTx.getTransaction(), nil
}
// GetTransactionsByDestination retrieves txs by destination and layer
func (m *DB) GetTransactionsByDestination(l types.LayerID, account types.Address) (txs []types.TransactionID) {
it := m.transactions.Find(getTransactionDestKeyPrefix(l, account))
for it.Next() {
if it.Key() == nil {
break
}
var a types.TransactionID
err := types.BytesToInterface(it.Value(), &a)
if err != nil {
// log error
break
}
txs = append(txs, a)
}
return
}
// GetTransactionsByOrigin retrieves txs by origin and layer
func (m *DB) GetTransactionsByOrigin(l types.LayerID, account types.Address) (txs []types.TransactionID) {
it := m.transactions.Find(getTransactionOriginKeyPrefix(l, account))
for it.Next() {
if it.Key() == nil {
break
}
var a types.TransactionID
err := types.BytesToInterface(it.Value(), &a)
if err != nil {
// log error
break
}
txs = append(txs, a)
}
return
}
// BlocksByValidity classifies a slice of blocks by validity
func (m *DB) BlocksByValidity(blocks []*types.Block) (validBlocks, invalidBlocks []*types.Block) {
for _, b := range blocks {
valid, err := m.ContextualValidity(b.ID())
if err != nil {
m.With().Error("could not get contextual validity", b.ID(), log.Err(err))
}
if valid {
validBlocks = append(validBlocks, b)
} else {
invalidBlocks = append(invalidBlocks, b)
}
}
return validBlocks, invalidBlocks
}
// ContextuallyValidBlock - returns the contextually valid blocks for the provided layer
func (m *DB) ContextuallyValidBlock(layer types.LayerID) (map[types.BlockID]struct{}, error) {
if layer == 0 || layer == 1 {
v, err := m.LayerBlockIds(layer)
if err != nil {
m.Error("Could not get layer block ids for layer %v err=%v", layer, err)
return nil, err
}
mp := make(map[types.BlockID]struct{}, len(v))
for _, blk := range v {
mp[blk] = struct{}{}
}
return mp, nil
}
blockIds, err := m.LayerBlockIds(layer)
if err != nil {
return nil, err
}
validBlks := make(map[types.BlockID]struct{})
for _, b := range blockIds {
valid, err := m.ContextualValidity(b)
if err != nil {
m.With().Error("could not get contextual validity", b, layer, log.Err(err))
}
if !valid {
continue
}
validBlks[b] = struct{}{}
}
return validBlks, nil
}
// Persist persists an item v into the database using key as its id
func (m *DB) Persist(key []byte, v interface{}) error {
buf, err := types.InterfaceToBytes(v)
if err != nil {
panic(err)
}
return m.general.Put(key, buf)
}
// Retrieve retrieves item by key into v
func (m *DB) Retrieve(key []byte, v interface{}) (interface{}, error) {
val, err := m.general.Get(key)
if err != nil {
m.Warning("failed retrieving object from db ", err)
return nil, err
}
if val == nil {
return nil, fmt.Errorf("no such value in database db ")
}
if err := types.BytesToInterface(val, v); err != nil {
return nil, fmt.Errorf("failed decoding object from db %v", err)
}
return v, nil
}
func (m *DB) cacheWarmUpFromTo(from types.LayerID, to types.LayerID) error {
m.Info("warming up cache with layers %v to %v", from, to)
for i := from; i < to; i++ {
select {
case <-m.exit:
m.Info("shutdown during cache warm up")
return nil
default:
}
layer, err := m.LayerBlockIds(i)
if err != nil {
return fmt.Errorf("could not get layer %v from database %v", layer, err)
}
for _, b := range layer {
block, blockErr := m.GetBlock(b)
if blockErr != nil {
return fmt.Errorf("could not get bl %v from database %v", b, blockErr)
}
m.blockCache.put(block)
}
}
m.Info("done warming up cache")
return nil
}