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cache.go
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package txs
import (
"container/list"
"context"
"errors"
"fmt"
"sort"
"sync"
"time"
"github.com/spacemeshos/go-spacemesh/common/types"
"github.com/spacemeshos/go-spacemesh/events"
"github.com/spacemeshos/go-spacemesh/log"
"github.com/spacemeshos/go-spacemesh/sql"
"github.com/spacemeshos/go-spacemesh/sql/layers"
"github.com/spacemeshos/go-spacemesh/sql/transactions"
)
const (
maxTXsPerAcct = 100
maxTXsPerNonce = 100
)
var (
errBadNonce = errors.New("bad nonce")
errInsufficientBalance = errors.New("insufficient balance")
errTooManyNonce = errors.New("account has too many nonce pending")
errLayerNotInOrder = errors.New("layers not applied in order")
)
// a candidate for the mempool.
type candidate struct {
// this is the best tx among all the txs with the same nonce
best *NanoTX
postBalance uint64
}
func (s *candidate) id() types.TransactionID {
return s.best.ID
}
func (s *candidate) layer() types.LayerID {
return s.best.Layer
}
func (s *candidate) block() types.BlockID {
return s.best.Block
}
func (s *candidate) nonce() uint64 {
return s.best.Nonce
}
func (s *candidate) maxSpending() uint64 {
return s.best.MaxSpending()
}
type accountCache struct {
addr types.Address
txsByNonce *list.List
startNonce uint64
startBalance uint64
// moreInDB is used to indicate that an account has pending txs in db that need to be
// reconsidered for mempool after a layer is applied.
// - there are too many nonces for an account in the mempool. the extra (higher nonce) txs are in db only.
// - txs deemed insufficient balance by the conservative state, but can be feasible after a layer applied
// (that may contain incoming funds for that account)
// - a better tx arrived (higher fee) and made higher nonce txs infeasible due to insufficient balance
// deemed by conservative state.
// TODO: evict accounts that only has DB-only txs
// https://github.com/spacemeshos/go-spacemesh/issues/3668
moreInDB bool
cachedTXs map[types.TransactionID]*NanoTX // shared with the cache instance
}
func (ac *accountCache) nextNonce() uint64 {
if ac.txsByNonce.Len() == 0 {
return ac.startNonce
}
return ac.txsByNonce.Back().Value.(*candidate).nonce() + 1
}
func (ac *accountCache) availBalance() uint64 {
if ac.txsByNonce.Len() == 0 {
return ac.startBalance
}
return ac.txsByNonce.Back().Value.(*candidate).postBalance
}
func (ac *accountCache) precheck(logger log.Log, ntx *NanoTX) (*list.Element, *candidate, error) {
if ac.txsByNonce.Len() >= maxTXsPerAcct {
ac.moreInDB = true
return nil, nil, errTooManyNonce
}
balance := ac.startBalance
var prev *list.Element
for e := ac.txsByNonce.Back(); e != nil; e = e.Prev() {
cand := e.Value.(*candidate)
if cand.nonce() > ntx.Nonce {
continue
}
if cand.nonce() == ntx.Nonce {
balance = cand.postBalance + cand.maxSpending()
} else {
balance = cand.postBalance
}
prev = e
break
}
if balance < ntx.MaxSpending() {
ac.moreInDB = true
logger.With().Debug("insufficient balance",
ntx.ID,
ntx.Principal,
log.Uint64("nonce", ntx.Nonce),
log.Uint64("cons_balance", balance),
log.Uint64("cons_spending", ntx.MaxSpending()))
return nil, nil, errInsufficientBalance
}
return prev, &candidate{best: ntx, postBalance: balance - ntx.MaxSpending()}, nil
}
func (ac *accountCache) accept(logger log.Log, ntx *NanoTX, blockSeed []byte) error {
var (
added, prev *list.Element
cand *candidate
replaced *NanoTX
err error
)
prev, cand, err = ac.precheck(logger, ntx)
if err != nil {
return err
}
if prev == nil { // insert at the first position
added = ac.txsByNonce.PushFront(cand)
} else if prevCand := prev.Value.(*candidate); prevCand.nonce() < ntx.Nonce {
added = ac.txsByNonce.InsertAfter(cand, prev)
} else { // existing nonce
if !ntx.Better(prevCand.best, blockSeed) {
return nil
}
added = prev
replaced = prevCand.best
delete(ac.cachedTXs, prevCand.best.ID)
prevCand.best = ntx
prevCand.postBalance = cand.postBalance
}
ac.cachedTXs[ntx.ID] = ntx
if replaced != nil {
logger.With().Debug("better transaction replaced for nonce",
log.Stringer("better", ntx.ID),
log.Stringer("replaced", replaced.ID),
log.Uint64("nonce", ntx.Nonce),
log.Uint64("max_spending", ntx.MaxSpending()),
log.Uint64("post_balance", cand.postBalance),
log.Uint64("avail_balance", ac.availBalance()))
} else {
logger.With().Debug("new nonce added",
ntx.ID,
log.Uint64("nonce", ntx.Nonce),
log.Uint64("max_spending", ntx.MaxSpending()),
log.Uint64("post_balance", cand.postBalance),
log.Uint64("avail_balance", ac.availBalance()))
}
// propagate the balance change
next := added.Next()
newBalance := cand.postBalance
for next != nil {
nextCand := next.Value.(*candidate)
if newBalance >= nextCand.maxSpending() {
newBalance -= nextCand.maxSpending()
nextCand.postBalance = newBalance
next = next.Next()
logger.With().Debug("updated next balance",
log.Uint64("nonce", nextCand.nonce()),
log.Uint64("post_balance", nextCand.postBalance),
log.Uint64("avail_balance", ac.availBalance()))
continue
}
ac.moreInDB = true
rm := next
next = next.Next()
removed := ac.txsByNonce.Remove(rm).(*candidate)
delete(ac.cachedTXs, removed.id())
logger.With().Debug("tx made infeasible by new/better transaction",
removed.id(),
log.Uint64("nonce", removed.nonce()),
log.Uint64("max_spending", ntx.MaxSpending()))
}
return nil
}
func nonceMarshaller(any any) log.ArrayMarshaler {
return log.ArrayMarshalerFunc(func(encoder log.ArrayEncoder) error {
var allNonce []uint64
noncesList, ok := any.([]uint64)
if ok {
allNonce = noncesList
} else if nonce2ID, ok := any.(map[uint64]types.TransactionID); ok {
allNonce = make([]uint64, 0, len(nonce2ID))
for nonce := range nonce2ID {
allNonce = append(allNonce, nonce)
}
} else if nonce2TXs, ok := any.(map[uint64][]*NanoTX); ok {
allNonce = make([]uint64, 0, len(nonce2TXs))
for nonce := range nonce2TXs {
allNonce = append(allNonce, nonce)
}
}
sort.Slice(allNonce, func(i, j int) bool { return allNonce[i] < allNonce[j] })
for _, nonce := range allNonce {
encoder.AppendUint64(nonce)
}
return nil
})
}
func (ac *accountCache) addBatch(logger log.Log, nonce2TXs map[uint64][]*NanoTX, blockSeed []byte) error {
logger.With().Debug("account has pending txs", log.Int("num_pending", len(nonce2TXs)))
var (
nextNonce = ac.nextNonce()
balance = ac.availBalance()
sortedNonce = make([]uint64, 0, len(nonce2TXs))
added = make([]uint64, 0, len(nonce2TXs))
)
for nonce := range nonce2TXs {
if nonce < nextNonce {
continue
}
sortedNonce = append(sortedNonce, nonce)
}
sort.Slice(sortedNonce, func(i, j int) bool { return sortedNonce[i] < sortedNonce[j] })
for _, nonce := range sortedNonce {
best := findBest(nonce2TXs[nonce], balance, blockSeed)
if best == nil {
logger.With().Debug("no feasible transactions at nonce",
log.Uint64("nonce", nonce),
log.Uint64("balance", balance))
continue
}
logger.With().Debug("found best in nonce txs",
best.ID,
log.Uint64("nonce", nonce),
log.Uint64("fee", best.Fee()))
if err := ac.accept(logger, best, blockSeed); err != nil {
if errors.Is(err, errTooManyNonce) {
break
}
continue
}
added = append(added, nonce)
balance = ac.availBalance()
}
ac.moreInDB = len(sortedNonce) > len(added)
if len(added) > 0 {
logger.With().Debug("added batch to account pool", log.Array("batch", nonceMarshaller(added)))
} else {
logger.With().Debug("no feasible txs from batch", log.Array("batch", nonceMarshaller(nonce2TXs)))
}
return nil
}
func findBest(ntxs []*NanoTX, balance uint64, blockSeed []byte) *NanoTX {
var best *NanoTX
for _, ntx := range ntxs {
if balance >= ntx.MaxSpending() &&
(best == nil || ntx.Better(best, blockSeed)) {
best = ntx
}
}
return best
}
// adding a tx to the account cache. possible outcomes:
// - nonce is smaller than the next nonce in state: reject from cache
// - too many txs present: reject from cache
// - nonce already exists in the cache:
// if it is better than the best candidate in that nonce group, swap
// - nonce not present: add to cache.
func (ac *accountCache) add(logger log.Log, tx *types.Transaction, received time.Time) error {
if tx.Nonce < ac.startNonce {
logger.With().Debug("nonce too small",
tx.ID,
log.Uint64("next_nonce", ac.startNonce),
log.Uint64("tx_nonce", tx.Nonce))
return errBadNonce
}
ntx := NewNanoTX(&types.MeshTransaction{
Transaction: *tx,
Received: received,
LayerID: 0,
BlockID: types.EmptyBlockID,
})
err := ac.accept(logger, ntx, nil)
if err != nil {
if errors.Is(err, errTooManyNonce) {
mempoolTxCount.WithLabelValues(tooManyNonce).Inc()
} else if errors.Is(err, errInsufficientBalance) {
mempoolTxCount.WithLabelValues(balanceTooSmall).Inc()
}
return err
}
mempoolTxCount.WithLabelValues(mempool).Inc()
return nil
}
func (ac *accountCache) addPendingFromNonce(logger log.Log, db *sql.Database, nonce uint64, applied types.LayerID) error {
mtxs, err := transactions.GetAcctPendingFromNonce(db, ac.addr, nonce)
if err != nil {
logger.With().Error("failed to get more pending txs from db", log.Err(err))
return err
}
if len(mtxs) == 0 {
ac.moreInDB = false
return nil
}
if applied != 0 {
for _, mtx := range mtxs {
if mtx.State == types.APPLIED {
continue
}
nextLayer, nextBlock, err := getNextIncluded(db, mtx.ID, applied)
if err != nil {
return err
}
mtx.LayerID = nextLayer
mtx.BlockID = nextBlock
if nextLayer != 0 {
logger.With().Debug("next layer found", mtx.ID, nextLayer)
}
}
}
byPrincipal := groupTXsByPrincipal(logger, mtxs)
if _, ok := byPrincipal[ac.addr]; !ok {
logger.Panic("no txs for account after grouping")
}
return ac.addBatch(logger, byPrincipal[ac.addr], nil)
}
// find the first nonce without a layer.
// a nonce with a valid layer indicates that it's already packed in a proposal/block.
func (ac *accountCache) getMempool(logger log.Log) []*NanoTX {
bests := make([]*NanoTX, 0, maxTXsPerAcct)
offset := 0
found := false
for e := ac.txsByNonce.Front(); e != nil; e = e.Next() {
cand := e.Value.(*candidate)
if !found && cand.layer() == 0 {
found = true
} else if found && cand.layer() != 0 {
logger.With().Debug("some proposals/blocks packed txs out of order",
cand.id(),
cand.layer(),
cand.block(),
log.Uint64("nonce", cand.nonce()))
}
if found {
bests = append(bests, cand.best)
} else {
offset++
}
}
if len(bests) > 0 {
logger.With().Debug("account in mempool",
log.Int("offset", offset),
log.Int("size", ac.txsByNonce.Len()),
log.Int("added", len(bests)),
log.Uint64("from", bests[0].Nonce),
log.Uint64("to", bests[len(bests)-1].Nonce))
} else {
logger.With().Debug("account has no txs for mempool",
log.Int("offset", offset),
log.Int("size", ac.txsByNonce.Len()))
}
return bests
}
// NOTE: this is the only point in time when we reconsider those previously rejected txs,
// because applying a layer changes the conservative balance in the cache.
func (ac *accountCache) resetAfterApply(logger log.Log, db *sql.Database, nextNonce, newBalance uint64, applied types.LayerID) error {
logger = logger.WithFields(ac.addr)
logger.With().Debug("resetting to nonce", log.Uint64("nonce", nextNonce))
for e := ac.txsByNonce.Front(); e != nil; e = e.Next() {
delete(ac.cachedTXs, e.Value.(*candidate).id())
}
ac.txsByNonce = list.New()
ac.startNonce = nextNonce
ac.startBalance = newBalance
return ac.addPendingFromNonce(logger, db, ac.startNonce, applied)
}
func (ac *accountCache) shouldEvict() bool {
return ac.txsByNonce.Len() == 0 && !ac.moreInDB
}
type stateFunc func(types.Address) (uint64, uint64)
type Cache struct {
logger log.Log
stateF stateFunc
mu sync.Mutex
pending map[types.Address]*accountCache
cachedTXs map[types.TransactionID]*NanoTX // shared with accountCache instances
}
func NewCache(s stateFunc, logger log.Log) *Cache {
return &Cache{
logger: logger,
stateF: s,
pending: make(map[types.Address]*accountCache),
cachedTXs: make(map[types.TransactionID]*NanoTX),
}
}
func groupTXsByPrincipal(logger log.Log, mtxs []*types.MeshTransaction) map[types.Address]map[uint64][]*NanoTX {
byPrincipal := make(map[types.Address]map[uint64][]*NanoTX)
for _, mtx := range mtxs {
principal := mtx.Principal
if _, ok := byPrincipal[principal]; !ok {
byPrincipal[principal] = make(map[uint64][]*NanoTX)
}
if _, ok := byPrincipal[principal][mtx.Nonce]; !ok {
byPrincipal[principal][mtx.Nonce] = make([]*NanoTX, 0, maxTXsPerNonce)
}
if len(byPrincipal[principal][mtx.Nonce]) < maxTXsPerNonce {
byPrincipal[principal][mtx.Nonce] = append(byPrincipal[principal][mtx.Nonce], NewNanoTX(mtx))
} else {
logger.With().Debug("too many txs in same nonce. ignoring tx",
mtx.ID,
principal,
log.Uint64("nonce", mtx.Nonce),
log.Uint64("fee", mtx.Fee()))
}
}
return byPrincipal
}
// buildFromScratch builds the cache from database.
func (c *Cache) buildFromScratch(db *sql.Database) error {
applied, err := layers.GetLastApplied(db)
if err != nil {
return fmt.Errorf("cache: get pending %w", err)
}
addresses, err := transactions.AddressesWithPendingTransactions(db)
if err != nil {
return fmt.Errorf("pending transactions %w", err)
}
var rst []*types.MeshTransaction
for _, addr := range addresses {
txs, err := transactions.GetAcctPendingFromNonce(db, addr.Address, addr.Nonce)
if err != nil {
return fmt.Errorf("get pending addr=%s nonce=%d %w", addr.Address, addr.Nonce, err)
}
rst = append(rst, txs...)
}
for _, mtx := range rst {
if mtx.State == types.APPLIED {
continue
}
nextLayer, nextBlock, err := getNextIncluded(db, mtx.ID, applied)
if err != nil {
return err
}
mtx.LayerID = nextLayer
mtx.BlockID = nextBlock
}
return c.BuildFromTXs(rst, nil)
}
// BuildFromTXs builds the cache from the provided transactions.
func (c *Cache) BuildFromTXs(rst []*types.MeshTransaction, blockSeed []byte) error {
c.mu.Lock()
defer c.mu.Unlock()
c.pending = make(map[types.Address]*accountCache)
toCleanup := make(map[types.Address]struct{})
for _, tx := range rst {
toCleanup[tx.Principal] = struct{}{}
}
defer c.cleanupAccounts(toCleanup)
byPrincipal := groupTXsByPrincipal(c.logger, rst)
acctsAdded := 0
for principal, nonce2TXs := range byPrincipal {
c.createAcctIfNotPresent(principal)
if err := c.pending[principal].addBatch(c.logger, nonce2TXs, blockSeed); err != nil {
return err
}
if c.pending[principal].shouldEvict() {
c.logger.With().Debug("account has pending txs but none feasible",
principal,
log.Array("batch", nonceMarshaller(nonce2TXs)))
} else {
acctsAdded++
}
}
c.logger.Debug("added pending tx for %d accounts", acctsAdded)
return nil
}
func (c *Cache) createAcctIfNotPresent(addr types.Address) {
if _, ok := c.pending[addr]; !ok {
nextNonce, balance := c.stateF(addr)
c.logger.With().Debug("created account with nonce/balance",
addr,
log.Uint64("nonce", nextNonce),
log.Uint64("balance", balance))
c.pending[addr] = &accountCache{
addr: addr,
startNonce: nextNonce,
startBalance: balance,
txsByNonce: list.New(),
cachedTXs: c.cachedTXs,
}
}
}
func (c *Cache) MoreInDB(addr types.Address) bool {
acct, ok := c.pending[addr]
if !ok {
return false
}
return acct.moreInDB
}
func (c *Cache) cleanupAccounts(accounts map[types.Address]struct{}) {
for addr := range accounts {
if _, ok := c.pending[addr]; ok && c.pending[addr].shouldEvict() {
delete(c.pending, addr)
}
}
}
// - errInsufficientBalance:
// conservative cache is conservative in that it only counts principal's spending for pending transactions.
// a tx rejected due to insufficient balance MAY become feasible after a layer is applied (principal
// received incoming funds). when we receive a errInsufficientBalance tx, we should store it in db and
// re-evaluate it after each layer is applied.
// - errTooManyNonce: when a principal has way too many nonces, we don't want to blow up the memory. they should
// be stored in db and retrieved after each earlier nonce is applied.
func acceptable(err error) bool {
return err == nil || errors.Is(err, errInsufficientBalance) || errors.Is(err, errTooManyNonce)
}
func (c *Cache) Add(ctx context.Context, db *sql.Database, tx *types.Transaction, received time.Time, mustPersist bool) error {
c.mu.Lock()
defer c.mu.Unlock()
principal := tx.Principal
c.createAcctIfNotPresent(principal)
defer c.cleanupAccounts(map[types.Address]struct{}{principal: {}})
logger := c.logger.WithContext(ctx).WithFields(principal)
err := c.pending[principal].add(logger, tx, received)
if acceptable(err) {
err = nil
mempoolTxCount.WithLabelValues(accepted).Inc()
}
if err == nil || mustPersist {
if dbErr := transactions.Add(db, tx, received); dbErr != nil {
return dbErr
}
}
return err
}
// Get gets a transaction from the cache.
func (c *Cache) Get(tid types.TransactionID) *NanoTX {
c.mu.Lock()
defer c.mu.Unlock()
return c.cachedTXs[tid]
}
// Has returns true if transaction exists in the cache.
func (c *Cache) Has(tid types.TransactionID) bool {
c.mu.Lock()
defer c.mu.Unlock()
return c.has(tid)
}
func (c *Cache) has(tid types.TransactionID) bool {
return c.cachedTXs[tid] != nil
}
// LinkTXsWithProposal associates the transactions to a proposal.
func (c *Cache) LinkTXsWithProposal(db *sql.Database, lid types.LayerID, pid types.ProposalID, tids []types.TransactionID) error {
if len(tids) == 0 {
return nil
}
if err := addToProposal(db, lid, pid, tids); err != nil {
c.logger.With().Error("failed to link txs to proposal in db", log.Err(err))
return err
}
return c.updateLayer(lid, types.EmptyBlockID, tids)
}
// LinkTXsWithBlock associates the transactions to a block.
func (c *Cache) LinkTXsWithBlock(db *sql.Database, lid types.LayerID, bid types.BlockID, tids []types.TransactionID) error {
if len(tids) == 0 {
return nil
}
if err := addToBlock(db, lid, bid, tids); err != nil {
return err
}
return c.updateLayer(lid, bid, tids)
}
// updateLayer associates the transactions to a layer and optionally a block.
// A transaction is tagged with a layer when it's included in a proposal/block.
// If a transaction is included in multiple proposals/blocks in different layers,
// the lowest layer is retained.
func (c *Cache) updateLayer(lid types.LayerID, bid types.BlockID, tids []types.TransactionID) error {
c.mu.Lock()
defer c.mu.Unlock()
for _, ID := range tids {
if _, ok := c.cachedTXs[ID]; !ok {
// transaction is not considered best in its nonce group
return nil
}
c.cachedTXs[ID].UpdateLayerMaybe(lid, bid)
}
return nil
}
func (c *Cache) applyEmptyLayer(db *sql.Database, lid types.LayerID) error {
c.mu.Lock()
defer c.mu.Unlock()
for tid, ntx := range c.cachedTXs {
if ntx.Layer == lid {
nbid, nlid, err := getNextIncluded(db, tid, lid)
if err != nil {
return err
}
ntx.UpdateLayer(nbid, nlid)
}
}
return nil
}
// ApplyLayer retires the applied transactions from the cache and updates the balances.
func (c *Cache) ApplyLayer(
ctx context.Context,
db *sql.Database,
lid types.LayerID,
bid types.BlockID,
results []types.TransactionWithResult,
ineffective []types.Transaction,
) error {
logger := c.logger.WithContext(ctx).WithFields(lid, bid)
if err := checkApplyOrder(logger, db, lid); err != nil {
return err
}
if bid == types.EmptyBlockID {
return c.applyEmptyLayer(db, lid)
}
c.mu.Lock()
defer c.mu.Unlock()
toCleanup := make(map[types.Address]struct{})
toReset := make(map[types.Address]struct{})
byPrincipal := make(map[types.Address]struct{})
// commmit results before reporting them
// TODO(dshulyak) save results in vm
if err := db.WithTx(context.Background(), func(dbtx *sql.Tx) error {
for _, rst := range results {
err := transactions.AddResult(dbtx, rst.ID, &rst.TransactionResult)
if err != nil {
return fmt.Errorf("add result tx=%s nonce=%d %w", rst.ID, rst.Nonce, err)
}
}
return nil
}); err != nil {
return fmt.Errorf("add results %w", err)
}
for _, rst := range results {
byPrincipal[rst.Principal] = struct{}{}
toCleanup[rst.Principal] = struct{}{}
if !c.has(rst.ID) {
RawTxCount.WithLabelValues(updated).Inc()
if err := transactions.Add(db, &rst.Transaction, time.Now()); err != nil {
return err
}
}
events.ReportResult(rst)
}
for _, tx := range ineffective {
if tx.TxHeader == nil {
logger.With().Warning("tx header not parsed", tx.ID)
continue
}
if !c.has(tx.ID) {
RawTxCount.WithLabelValues(updated).Inc()
if err := transactions.Add(db, &tx, time.Now()); err != nil {
return err
}
}
toCleanup[tx.Principal] = struct{}{}
if _, ok := byPrincipal[tx.Principal]; ok {
continue
}
if _, ok := c.pending[tx.Principal]; !ok {
continue
}
toReset[tx.Principal] = struct{}{}
}
defer c.cleanupAccounts(toCleanup)
for principal := range byPrincipal {
c.createAcctIfNotPresent(principal)
nextNonce, balance := c.stateF(principal)
logger.With().Debug("new account nonce/balance",
principal,
log.Uint64("nonce", nextNonce),
log.Uint64("balance", balance))
t0 := time.Now()
if err := c.pending[principal].resetAfterApply(logger, db, nextNonce, balance, lid); err != nil {
logger.With().Error("failed to reset cache for principal", principal, log.Err(err))
return err
}
acctResetDuration.Observe(float64(time.Since(t0)))
}
for principal, accCache := range c.pending {
if _, ok := toCleanup[principal]; ok {
continue
}
if accCache.moreInDB {
toReset[principal] = struct{}{}
}
}
for principal := range toReset {
nextNonce, balance := c.stateF(principal)
t2 := time.Now()
if err := c.pending[principal].resetAfterApply(logger, db, nextNonce, balance, lid); err != nil {
logger.With().Error("failed to reset cache for principal", principal, log.Err(err))
return err
}
acctResetDuration.Observe(float64(time.Since(t2)))
}
return nil
}
func (c *Cache) RevertToLayer(db *sql.Database, revertTo types.LayerID) error {
if err := undoLayers(db, revertTo.Add(1)); err != nil {
return err
}
if err := c.buildFromScratch(db); err != nil {
c.logger.With().Error("failed to build from scratch after revert", log.Err(err))
return err
}
return nil
}
// GetProjection returns the projected nonce and balance for an account, including
// pending transactions that are paced in proposals/blocks but not yet applied to the state.
func (c *Cache) GetProjection(addr types.Address) (uint64, uint64) {
c.mu.Lock()
defer c.mu.Unlock()
if _, ok := c.pending[addr]; !ok {
return c.stateF(addr)
}
return c.pending[addr].nextNonce(), c.pending[addr].availBalance()
}
// GetMempool returns all the transactions that eligible for a proposal/block.
func (c *Cache) GetMempool(logger log.Log) map[types.Address][]*NanoTX {
c.mu.Lock()
defer c.mu.Unlock()
all := make(map[types.Address][]*NanoTX)
logger.With().Debug("cache has pending accounts", log.Int("num_acct", len(c.pending)))
for addr, accCache := range c.pending {
txs := accCache.getMempool(logger.WithFields(addr))
if len(txs) > 0 {
all[addr] = txs
}
}
return all
}
// checkApplyOrder returns an error if layers were not applied in order.
func checkApplyOrder(logger log.Log, db *sql.Database, toApply types.LayerID) error {
lastApplied, err := layers.GetLastApplied(db)
if err != nil {
logger.With().Error("failed to get last applied layer", log.Err(err))
return fmt.Errorf("cache get last applied %w", err)
}
if toApply != lastApplied.Add(1) {
logger.With().Error("layer not applied in order",
log.Stringer("expected", lastApplied.Add(1)),
log.Stringer("to_apply", toApply))
return errLayerNotInOrder
}
return nil
}
func addToProposal(db *sql.Database, lid types.LayerID, pid types.ProposalID, tids []types.TransactionID) error {
return db.WithTx(context.Background(), func(dbtx *sql.Tx) error {
for _, tid := range tids {
if err := transactions.AddToProposal(dbtx, tid, lid, pid); err != nil {
return fmt.Errorf("add2prop %w", err)
}
}
return nil
})
}
func addToBlock(db *sql.Database, lid types.LayerID, bid types.BlockID, tids []types.TransactionID) error {
return db.WithTx(context.Background(), func(dbtx *sql.Tx) error {
for _, tid := range tids {
if err := transactions.AddToBlock(dbtx, tid, lid, bid); err != nil {
return fmt.Errorf("add2block %w", err)
}
}
return nil
})
}
func undoLayers(db *sql.Database, from types.LayerID) error {
return db.WithTx(context.Background(), func(dbtx *sql.Tx) error {
err := transactions.UndoLayers(dbtx, from)
if err != nil {
return fmt.Errorf("undo %w", err)
}
return nil
})
}
func getNextIncluded(db sql.Executor, id types.TransactionID, after types.LayerID) (types.LayerID, types.BlockID, error) {
bid, lid, err := transactions.TransactionInBlock(db, id, after)
if err != nil && errors.Is(err, sql.ErrNotFound) {
lid, err = transactions.TransactionInProposal(db, id, after)
if err != nil && !errors.Is(err, sql.ErrNotFound) {
return lid, bid, fmt.Errorf("get tx in next proposals %w", err)
}
} else if err != nil {
return lid, bid, fmt.Errorf("get tx in next blocks %w", err)
}
return lid, bid, nil
}