forked from TrueCloudLab/neoneo-go
cba117352c
If tx with the same oracle response ID is already in mempool, replace it if network fee of added transaction is higher and return error otherwise.
504 lines
17 KiB
Go
504 lines
17 KiB
Go
package mempool
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import (
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"errors"
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"fmt"
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"math/big"
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"math/bits"
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"sort"
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"sync"
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"github.com/nspcc-dev/neo-go/pkg/core/transaction"
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"github.com/nspcc-dev/neo-go/pkg/util"
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)
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var (
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// ErrInsufficientFunds is returned when Sender is not able to pay for
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// transaction being added irrespective of the other contents of the
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// pool.
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ErrInsufficientFunds = errors.New("insufficient funds")
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// ErrConflict is returned when transaction being added is incompatible
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// with the contents of the memory pool (Sender doesn't have enough GAS
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// to pay for all transactions in the pool).
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ErrConflict = errors.New("conflicts with the memory pool")
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// ErrDup is returned when transaction being added is already present
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// in the memory pool.
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ErrDup = errors.New("already in the memory pool")
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// ErrOOM is returned when transaction just doesn't fit in the memory
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// pool because of its capacity constraints.
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ErrOOM = errors.New("out of memory")
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// ErrConflictsAttribute is returned when transaction conflicts with other transactions
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// due to its (or theirs) Conflicts attributes.
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ErrConflictsAttribute = errors.New("conflicts with memory pool due to Conflicts attribute")
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// ErrOracleResponse is returned when mempool already contains transaction
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// with the same oracle response ID and higher network fee.
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ErrOracleResponse = errors.New("conflicts with memory pool due to OracleResponse attribute")
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)
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// item represents a transaction in the the Memory pool.
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type item struct {
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txn *transaction.Transaction
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blockStamp uint32
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}
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// items is a slice of item.
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type items []item
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// utilityBalanceAndFees stores sender's balance and overall fees of
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// sender's transactions which are currently in mempool
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type utilityBalanceAndFees struct {
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balance *big.Int
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feeSum *big.Int
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}
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// Pool stores the unconfirms transactions.
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type Pool struct {
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lock sync.RWMutex
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verifiedMap map[util.Uint256]*transaction.Transaction
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verifiedTxes items
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fees map[util.Uint160]utilityBalanceAndFees
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// conflicts is a map of hashes of transactions which are conflicting with the mempooled ones.
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conflicts map[util.Uint256][]util.Uint256
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// oracleResp contains ids of oracle responses for tx in pool.
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oracleResp map[uint64]util.Uint256
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capacity int
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feePerByte int64
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resendThreshold uint32
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resendFunc func(*transaction.Transaction)
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}
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func (p items) Len() int { return len(p) }
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func (p items) Swap(i, j int) { p[i], p[j] = p[j], p[i] }
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func (p items) Less(i, j int) bool { return p[i].CompareTo(p[j]) < 0 }
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// CompareTo returns the difference between two items.
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// difference < 0 implies p < otherP.
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// difference = 0 implies p = otherP.
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// difference > 0 implies p > otherP.
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func (p item) CompareTo(otherP item) int {
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pHigh := p.txn.HasAttribute(transaction.HighPriority)
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otherHigh := otherP.txn.HasAttribute(transaction.HighPriority)
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if pHigh && !otherHigh {
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return 1
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} else if !pHigh && otherHigh {
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return -1
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}
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// Fees sorted ascending.
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if ret := int(p.txn.FeePerByte() - otherP.txn.FeePerByte()); ret != 0 {
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return ret
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}
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return int(p.txn.NetworkFee - otherP.txn.NetworkFee)
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}
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// Count returns the total number of uncofirm transactions.
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func (mp *Pool) Count() int {
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mp.lock.RLock()
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defer mp.lock.RUnlock()
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return mp.count()
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}
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// count is an internal unlocked version of Count.
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func (mp *Pool) count() int {
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return len(mp.verifiedTxes)
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}
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// ContainsKey checks if a transactions hash is in the Pool.
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func (mp *Pool) ContainsKey(hash util.Uint256) bool {
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mp.lock.RLock()
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defer mp.lock.RUnlock()
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return mp.containsKey(hash)
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}
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// containsKey is an internal unlocked version of ContainsKey.
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func (mp *Pool) containsKey(hash util.Uint256) bool {
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if _, ok := mp.verifiedMap[hash]; ok {
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return true
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}
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return false
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}
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// HasConflicts returns true if transaction is already in pool or in the Conflicts attributes
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// of pooled transactions or has Conflicts attributes for pooled transactions.
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func (mp *Pool) HasConflicts(t *transaction.Transaction, fee Feer) bool {
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mp.lock.RLock()
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defer mp.lock.RUnlock()
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if mp.containsKey(t.Hash()) {
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return true
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}
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if fee.P2PSigExtensionsEnabled() {
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// do not check sender's signature and fee
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if _, ok := mp.conflicts[t.Hash()]; ok {
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return true
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}
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for _, attr := range t.GetAttributes(transaction.ConflictsT) {
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if mp.containsKey(attr.Value.(*transaction.Conflicts).Hash) {
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return true
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}
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}
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}
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return false
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}
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// tryAddSendersFee tries to add system fee and network fee to the total sender`s fee in mempool
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// and returns false if both balance check is required and sender has not enough GAS to pay
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func (mp *Pool) tryAddSendersFee(tx *transaction.Transaction, feer Feer, needCheck bool) bool {
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senderFee, ok := mp.fees[tx.Sender()]
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if !ok {
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senderFee.balance = feer.GetUtilityTokenBalance(tx.Sender())
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senderFee.feeSum = big.NewInt(0)
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mp.fees[tx.Sender()] = senderFee
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}
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if needCheck {
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newFeeSum, err := checkBalance(tx, senderFee)
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if err != nil {
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return false
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}
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senderFee.feeSum.Set(newFeeSum)
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} else {
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senderFee.feeSum.Add(senderFee.feeSum, big.NewInt(tx.SystemFee+tx.NetworkFee))
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}
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return true
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}
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// checkBalance returns new cumulative fee balance for account or an error in
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// case sender doesn't have enough GAS to pay for the transaction.
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func checkBalance(tx *transaction.Transaction, balance utilityBalanceAndFees) (*big.Int, error) {
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txFee := big.NewInt(tx.SystemFee + tx.NetworkFee)
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if balance.balance.Cmp(txFee) < 0 {
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return nil, ErrInsufficientFunds
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}
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txFee.Add(txFee, balance.feeSum)
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if balance.balance.Cmp(txFee) < 0 {
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return nil, ErrConflict
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}
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return txFee, nil
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}
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// Add tries to add given transaction to the Pool.
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func (mp *Pool) Add(t *transaction.Transaction, fee Feer) error {
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var pItem = item{
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txn: t,
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blockStamp: fee.BlockHeight(),
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}
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mp.lock.Lock()
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if mp.containsKey(t.Hash()) {
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mp.lock.Unlock()
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return ErrDup
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}
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conflictsToBeRemoved, err := mp.checkTxConflicts(t, fee)
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if err != nil {
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mp.lock.Unlock()
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return err
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}
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if attrs := t.GetAttributes(transaction.OracleResponseT); len(attrs) != 0 {
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id := attrs[0].Value.(*transaction.OracleResponse).ID
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h, ok := mp.oracleResp[id]
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if ok {
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if mp.verifiedMap[h].NetworkFee >= t.NetworkFee {
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mp.lock.Unlock()
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return ErrOracleResponse
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}
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mp.removeInternal(h, fee)
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}
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mp.oracleResp[id] = t.Hash()
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}
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mp.verifiedMap[t.Hash()] = t
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if fee.P2PSigExtensionsEnabled() {
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// Remove conflicting transactions.
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for _, conflictingTx := range conflictsToBeRemoved {
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mp.removeInternal(conflictingTx.Hash(), fee)
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}
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}
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// Insert into sorted array (from max to min, that could also be done
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// using sort.Sort(sort.Reverse()), but it incurs more overhead. Notice
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// also that we're searching for position that is strictly more
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// prioritized than our new item because we do expect a lot of
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// transactions with the same priority and appending to the end of the
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// slice is always more efficient.
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n := sort.Search(len(mp.verifiedTxes), func(n int) bool {
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return pItem.CompareTo(mp.verifiedTxes[n]) > 0
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})
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// We've reached our capacity already.
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if len(mp.verifiedTxes) == mp.capacity {
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// Less prioritized than the least prioritized we already have, won't fit.
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if n == len(mp.verifiedTxes) {
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mp.lock.Unlock()
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return ErrOOM
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}
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// Ditch the last one.
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unlucky := mp.verifiedTxes[len(mp.verifiedTxes)-1]
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delete(mp.verifiedMap, unlucky.txn.Hash())
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if fee.P2PSigExtensionsEnabled() {
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mp.removeConflictsOf(unlucky.txn)
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}
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mp.verifiedTxes[len(mp.verifiedTxes)-1] = pItem
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} else {
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mp.verifiedTxes = append(mp.verifiedTxes, pItem)
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}
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if n != len(mp.verifiedTxes)-1 {
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copy(mp.verifiedTxes[n+1:], mp.verifiedTxes[n:])
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mp.verifiedTxes[n] = pItem
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}
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if fee.P2PSigExtensionsEnabled() {
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// Add conflicting hashes to the mp.conflicts list.
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for _, attr := range t.GetAttributes(transaction.ConflictsT) {
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hash := attr.Value.(*transaction.Conflicts).Hash
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mp.conflicts[hash] = append(mp.conflicts[hash], t.Hash())
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}
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}
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// we already checked balance in checkTxConflicts, so don't need to check again
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mp.tryAddSendersFee(pItem.txn, fee, false)
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updateMempoolMetrics(len(mp.verifiedTxes))
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mp.lock.Unlock()
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return nil
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}
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// Remove removes an item from the mempool, if it exists there (and does
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// nothing if it doesn't).
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func (mp *Pool) Remove(hash util.Uint256, feer Feer) {
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mp.lock.Lock()
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mp.removeInternal(hash, feer)
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mp.lock.Unlock()
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}
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// removeInternal is an internal unlocked representation of Remove
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func (mp *Pool) removeInternal(hash util.Uint256, feer Feer) {
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if tx, ok := mp.verifiedMap[hash]; ok {
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var num int
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delete(mp.verifiedMap, hash)
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for num = range mp.verifiedTxes {
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if hash.Equals(mp.verifiedTxes[num].txn.Hash()) {
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break
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}
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}
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if num < len(mp.verifiedTxes)-1 {
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mp.verifiedTxes = append(mp.verifiedTxes[:num], mp.verifiedTxes[num+1:]...)
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} else if num == len(mp.verifiedTxes)-1 {
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mp.verifiedTxes = mp.verifiedTxes[:num]
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}
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senderFee := mp.fees[tx.Sender()]
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senderFee.feeSum.Sub(senderFee.feeSum, big.NewInt(tx.SystemFee+tx.NetworkFee))
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mp.fees[tx.Sender()] = senderFee
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if feer.P2PSigExtensionsEnabled() {
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// remove all conflicting hashes from mp.conflicts list
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mp.removeConflictsOf(tx)
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}
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if attrs := tx.GetAttributes(transaction.OracleResponseT); len(attrs) != 0 {
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delete(mp.oracleResp, attrs[0].Value.(*transaction.OracleResponse).ID)
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}
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}
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updateMempoolMetrics(len(mp.verifiedTxes))
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}
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// RemoveStale filters verified transactions through the given function keeping
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// only the transactions for which it returns a true result. It's used to quickly
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// drop part of the mempool that is now invalid after the block acceptance.
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func (mp *Pool) RemoveStale(isOK func(*transaction.Transaction) bool, feer Feer) {
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mp.lock.Lock()
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policyChanged := mp.loadPolicy(feer)
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// We can reuse already allocated slice
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// because items are iterated one-by-one in increasing order.
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newVerifiedTxes := mp.verifiedTxes[:0]
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mp.fees = make(map[util.Uint160]utilityBalanceAndFees) // it'd be nice to reuse existing map, but we can't easily clear it
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if feer.P2PSigExtensionsEnabled() {
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mp.conflicts = make(map[util.Uint256][]util.Uint256)
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}
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height := feer.BlockHeight()
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var staleTxs []*transaction.Transaction
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for _, itm := range mp.verifiedTxes {
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if isOK(itm.txn) && mp.checkPolicy(itm.txn, policyChanged) && mp.tryAddSendersFee(itm.txn, feer, true) {
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newVerifiedTxes = append(newVerifiedTxes, itm)
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if feer.P2PSigExtensionsEnabled() {
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for _, attr := range itm.txn.GetAttributes(transaction.ConflictsT) {
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hash := attr.Value.(*transaction.Conflicts).Hash
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mp.conflicts[hash] = append(mp.conflicts[hash], itm.txn.Hash())
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}
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}
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if mp.resendThreshold != 0 {
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// tx is resend at resendThreshold, 2*resendThreshold, 4*resendThreshold ...
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// so quotient must be a power of two.
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diff := (height - itm.blockStamp)
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if diff%mp.resendThreshold == 0 && bits.OnesCount32(diff/mp.resendThreshold) == 1 {
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staleTxs = append(staleTxs, itm.txn)
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}
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}
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} else {
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delete(mp.verifiedMap, itm.txn.Hash())
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if attrs := itm.txn.GetAttributes(transaction.OracleResponseT); len(attrs) != 0 {
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delete(mp.oracleResp, attrs[0].Value.(*transaction.OracleResponse).ID)
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}
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}
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}
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if len(staleTxs) != 0 {
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go mp.resendStaleTxs(staleTxs)
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}
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mp.verifiedTxes = newVerifiedTxes
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mp.lock.Unlock()
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}
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// loadPolicy updates feePerByte field and returns whether policy has been
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// changed.
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func (mp *Pool) loadPolicy(feer Feer) bool {
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newFeePerByte := feer.FeePerByte()
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if newFeePerByte > mp.feePerByte {
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mp.feePerByte = newFeePerByte
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return true
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}
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return false
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}
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// checkPolicy checks whether transaction fits policy.
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func (mp *Pool) checkPolicy(tx *transaction.Transaction, policyChanged bool) bool {
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if !policyChanged || tx.FeePerByte() >= mp.feePerByte {
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return true
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}
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return false
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}
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// New returns a new Pool struct.
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func New(capacity int) *Pool {
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return &Pool{
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verifiedMap: make(map[util.Uint256]*transaction.Transaction),
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verifiedTxes: make([]item, 0, capacity),
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capacity: capacity,
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fees: make(map[util.Uint160]utilityBalanceAndFees),
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conflicts: make(map[util.Uint256][]util.Uint256),
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oracleResp: make(map[uint64]util.Uint256),
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}
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}
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// SetResendThreshold sets threshold after which transaction will be considered stale
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// and returned for retransmission by `GetStaleTransactions`.
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func (mp *Pool) SetResendThreshold(h uint32, f func(*transaction.Transaction)) {
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mp.lock.Lock()
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defer mp.lock.Unlock()
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mp.resendThreshold = h
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mp.resendFunc = f
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}
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func (mp *Pool) resendStaleTxs(txs []*transaction.Transaction) {
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for i := range txs {
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mp.resendFunc(txs[i])
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}
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}
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// TryGetValue returns a transaction and its fee if it exists in the memory pool.
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func (mp *Pool) TryGetValue(hash util.Uint256) (*transaction.Transaction, bool) {
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mp.lock.RLock()
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defer mp.lock.RUnlock()
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if tx, ok := mp.verifiedMap[hash]; ok {
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return tx, ok
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}
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return nil, false
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}
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// GetVerifiedTransactions returns a slice of transactions with their fees.
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func (mp *Pool) GetVerifiedTransactions() []*transaction.Transaction {
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mp.lock.RLock()
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defer mp.lock.RUnlock()
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var t = make([]*transaction.Transaction, len(mp.verifiedTxes))
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for i := range mp.verifiedTxes {
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t[i] = mp.verifiedTxes[i].txn
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}
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return t
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}
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// checkTxConflicts is an internal unprotected version of Verify. It takes into
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// consideration conflicting transactions which are about to be removed from mempool.
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func (mp *Pool) checkTxConflicts(tx *transaction.Transaction, fee Feer) ([]*transaction.Transaction, error) {
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actualSenderFee, ok := mp.fees[tx.Sender()]
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if !ok {
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actualSenderFee.balance = fee.GetUtilityTokenBalance(tx.Sender())
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actualSenderFee.feeSum = big.NewInt(0)
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}
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var expectedSenderFee utilityBalanceAndFees
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// Check Conflicts attributes.
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var conflictsToBeRemoved []*transaction.Transaction
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if fee.P2PSigExtensionsEnabled() {
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// Step 1: check if `tx` was in attributes of mempooled transactions.
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if conflictingHashes, ok := mp.conflicts[tx.Hash()]; ok {
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for _, hash := range conflictingHashes {
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existingTx := mp.verifiedMap[hash]
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if existingTx.HasSigner(tx.Sender()) && existingTx.NetworkFee > tx.NetworkFee {
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return nil, fmt.Errorf("%w: conflicting transaction %s has bigger network fee", ErrConflictsAttribute, existingTx.Hash().StringBE())
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}
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conflictsToBeRemoved = append(conflictsToBeRemoved, existingTx)
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}
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}
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// Step 2: check if mempooled transactions were in `tx`'s attributes.
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for _, attr := range tx.GetAttributes(transaction.ConflictsT) {
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hash := attr.Value.(*transaction.Conflicts).Hash
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existingTx, ok := mp.verifiedMap[hash]
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if !ok {
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continue
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}
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if !tx.HasSigner(existingTx.Sender()) {
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return nil, fmt.Errorf("%w: not signed by the sender of conflicting transaction %s", ErrConflictsAttribute, existingTx.Hash().StringBE())
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}
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if existingTx.NetworkFee >= tx.NetworkFee {
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return nil, fmt.Errorf("%w: conflicting transaction %s has bigger or equal network fee", ErrConflictsAttribute, existingTx.Hash().StringBE())
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}
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conflictsToBeRemoved = append(conflictsToBeRemoved, existingTx)
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}
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// Step 3: take into account sender's conflicting transactions before balance check.
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expectedSenderFee = utilityBalanceAndFees{
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balance: new(big.Int).Set(actualSenderFee.balance),
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feeSum: new(big.Int).Set(actualSenderFee.feeSum),
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}
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for _, conflictingTx := range conflictsToBeRemoved {
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if conflictingTx.Sender().Equals(tx.Sender()) {
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expectedSenderFee.feeSum.Sub(expectedSenderFee.feeSum, big.NewInt(conflictingTx.SystemFee+conflictingTx.NetworkFee))
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}
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}
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} else {
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expectedSenderFee = actualSenderFee
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}
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_, err := checkBalance(tx, expectedSenderFee)
|
|
return conflictsToBeRemoved, err
|
|
}
|
|
|
|
// Verify checks if a Sender of tx is able to pay for it (and all the other
|
|
// transactions in the pool). If yes, the transaction tx is a valid
|
|
// transaction and the function returns true. If no, the transaction tx is
|
|
// considered to be invalid the function returns false.
|
|
func (mp *Pool) Verify(tx *transaction.Transaction, feer Feer) bool {
|
|
mp.lock.RLock()
|
|
defer mp.lock.RUnlock()
|
|
_, err := mp.checkTxConflicts(tx, feer)
|
|
return err == nil
|
|
}
|
|
|
|
// removeConflictsOf removes hash of the given transaction from the conflicts list
|
|
// for each Conflicts attribute.
|
|
func (mp *Pool) removeConflictsOf(tx *transaction.Transaction) {
|
|
// remove all conflicting hashes from mp.conflicts list
|
|
for _, attr := range tx.GetAttributes(transaction.ConflictsT) {
|
|
conflictsHash := attr.Value.(*transaction.Conflicts).Hash
|
|
if len(mp.conflicts[conflictsHash]) == 1 {
|
|
delete(mp.conflicts, conflictsHash)
|
|
continue
|
|
}
|
|
for i, existingHash := range mp.conflicts[conflictsHash] {
|
|
if existingHash == tx.Hash() {
|
|
// tx.Hash can occur in the conflicting hashes array only once, because we can't add the same transaction to the mempol twice
|
|
mp.conflicts[conflictsHash] = append(mp.conflicts[conflictsHash][:i], mp.conflicts[conflictsHash][i+1:]...)
|
|
break
|
|
}
|
|
}
|
|
}
|
|
}
|