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kaspad/app/protocol/flows/relaytransactions/handle_relayed_transactions.go
stasatdaglabs d14809694f
[NOD-1223] Reorganize directory structure (#874) 
* [NOD-1223] Delete unused files/packages.

* [NOD-1223] Move signal and limits to the os package.

* [NOD-1223] Put database and dbaccess into the db package.

* [NOD-1223] Fold the logs package into the logger package.

* [NOD-1223] Rename domainmessage to appmessage.

* [NOD-1223] Rename to/from DomainMessage to AppMessage.

* [NOD-1223] Move appmessage to the app packge.

* [NOD-1223] Move protocol to the app packge.

* [NOD-1223] Move the network package to the infrastructure packge.

* [NOD-1223] Rename cmd to executables.

* [NOD-1223] Fix go.doc in the logger package.
2020-08-18 10:26:39 +03:00

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package relaytransactions
import (
"github.com/kaspanet/kaspad/app/appmessage"
"github.com/kaspanet/kaspad/app/protocol/common"
"github.com/kaspanet/kaspad/app/protocol/protocolerrors"
"github.com/kaspanet/kaspad/domain/blockdag"
"github.com/kaspanet/kaspad/domain/mempool"
"github.com/kaspanet/kaspad/infrastructure/network/netadapter"
"github.com/kaspanet/kaspad/infrastructure/network/netadapter/router"
"github.com/kaspanet/kaspad/util"
"github.com/kaspanet/kaspad/util/daghash"
"github.com/pkg/errors"
)
// TransactionsRelayContext is the interface for the context needed for the
// HandleRelayedTransactions and HandleRequestedTransactions flows.
type TransactionsRelayContext interface {
NetAdapter() *netadapter.NetAdapter
DAG() *blockdag.BlockDAG
SharedRequestedTransactions() *SharedRequestedTransactions
TxPool() *mempool.TxPool
Broadcast(message appmessage.Message) error
}
type handleRelayedTransactionsFlow struct {
TransactionsRelayContext
incomingRoute, outgoingRoute *router.Route
invsQueue []*appmessage.MsgInvTransaction
}
// HandleRelayedTransactions listens to appmessage.MsgInvTransaction messages, requests their corresponding transactions if they
// are missing, adds them to the mempool and propagates them to the rest of the network.
func HandleRelayedTransactions(context TransactionsRelayContext, incomingRoute *router.Route, outgoingRoute *router.Route) error {
flow := &handleRelayedTransactionsFlow{
TransactionsRelayContext: context,
incomingRoute: incomingRoute,
outgoingRoute: outgoingRoute,
invsQueue: make([]*appmessage.MsgInvTransaction, 0),
}
return flow.start()
}
func (flow *handleRelayedTransactionsFlow) start() error {
for {
inv, err := flow.readInv()
if err != nil {
return err
}
requestedIDs, err := flow.requestInvTransactions(inv)
if err != nil {
return err
}
err = flow.receiveTransactions(requestedIDs)
if err != nil {
return err
}
}
}
func (flow *handleRelayedTransactionsFlow) requestInvTransactions(
inv *appmessage.MsgInvTransaction) (requestedIDs []*daghash.TxID, err error) {
idsToRequest := make([]*daghash.TxID, 0, len(inv.TxIDs))
for _, txID := range inv.TxIDs {
if flow.isKnownTransaction(txID) {
continue
}
exists := flow.SharedRequestedTransactions().addIfNotExists(txID)
if exists {
continue
}
idsToRequest = append(idsToRequest, txID)
}
if len(idsToRequest) == 0 {
return idsToRequest, nil
}
msgGetTransactions := appmessage.NewMsgRequestTransactions(idsToRequest)
err = flow.outgoingRoute.Enqueue(msgGetTransactions)
if err != nil {
flow.SharedRequestedTransactions().removeMany(idsToRequest)
return nil, err
}
return idsToRequest, nil
}
func (flow *handleRelayedTransactionsFlow) isKnownTransaction(txID *daghash.TxID) bool {
// Ask the transaction memory pool if the transaction is known
// to it in any form (main pool or orphan).
if flow.TxPool().HaveTransaction(txID) {
return true
}
// Check if the transaction exists from the point of view of the
// DAG's virtual block. Note that this is only a best effort
// since it is expensive to check existence of every output and
// the only purpose of this check is to avoid downloading
// already known transactions. Only the first two outputs are
// checked because the vast majority of transactions consist of
// two outputs where one is some form of "pay-to-somebody-else"
// and the other is a change output.
prevOut := appmessage.Outpoint{TxID: *txID}
for i := uint32(0); i < 2; i++ {
prevOut.Index = i
_, ok := flow.DAG().GetUTXOEntry(prevOut)
if ok {
return true
}
}
return false
}
func (flow *handleRelayedTransactionsFlow) readInv() (*appmessage.MsgInvTransaction, error) {
if len(flow.invsQueue) > 0 {
var inv *appmessage.MsgInvTransaction
inv, flow.invsQueue = flow.invsQueue[0], flow.invsQueue[1:]
return inv, nil
}
msg, err := flow.incomingRoute.Dequeue()
if err != nil {
return nil, err
}
inv, ok := msg.(*appmessage.MsgInvTransaction)
if !ok {
return nil, protocolerrors.Errorf(true, "unexpected %s message in the block relay flow while "+
"expecting an inv message", msg.Command())
}
return inv, nil
}
func (flow *handleRelayedTransactionsFlow) broadcastAcceptedTransactions(acceptedTxs []*mempool.TxDesc) error {
idsToBroadcast := make([]*daghash.TxID, len(acceptedTxs))
for i, tx := range acceptedTxs {
idsToBroadcast[i] = tx.Tx.ID()
}
inv := appmessage.NewMsgInvTransaction(idsToBroadcast)
return flow.Broadcast(inv)
}
// readMsgTxOrNotFound returns the next msgTx or msgTransactionNotFound in incomingRoute,
// returning only one of the message types at a time.
//
// and populates invsQueue with any inv messages that meanwhile arrive.
func (flow *handleRelayedTransactionsFlow) readMsgTxOrNotFound() (
msgTx *appmessage.MsgTx, msgNotFound *appmessage.MsgTransactionNotFound, err error) {
for {
message, err := flow.incomingRoute.DequeueWithTimeout(common.DefaultTimeout)
if err != nil {
return nil, nil, err
}
switch message := message.(type) {
case *appmessage.MsgInvTransaction:
flow.invsQueue = append(flow.invsQueue, message)
case *appmessage.MsgTx:
return message, nil, nil
case *appmessage.MsgTransactionNotFound:
return nil, message, nil
default:
return nil, nil, errors.Errorf("unexpected message %s", message.Command())
}
}
}
func (flow *handleRelayedTransactionsFlow) receiveTransactions(requestedTransactions []*daghash.TxID) error {
// In case the function returns earlier than expected, we want to make sure sharedRequestedTransactions is
// clean from any pending transactions.
defer flow.SharedRequestedTransactions().removeMany(requestedTransactions)
for _, expectedID := range requestedTransactions {
msgTx, msgTxNotFound, err := flow.readMsgTxOrNotFound()
if err != nil {
return err
}
if msgTxNotFound != nil {
if !msgTxNotFound.ID.IsEqual(expectedID) {
return protocolerrors.Errorf(true, "expected transaction %s, but got %s",
expectedID, msgTxNotFound.ID)
}
continue
}
tx := util.NewTx(msgTx)
if !tx.ID().IsEqual(expectedID) {
return protocolerrors.Errorf(true, "expected transaction %s, but got %s",
expectedID, tx.ID())
}
acceptedTxs, err := flow.TxPool().ProcessTransaction(tx, true)
if err != nil {
ruleErr := &mempool.RuleError{}
if !errors.As(err, ruleErr) {
return errors.Wrapf(err, "failed to process transaction %s", tx.ID())
}
shouldBan := false
if txRuleErr := (&mempool.TxRuleError{}); errors.As(ruleErr.Err, txRuleErr) {
if txRuleErr.RejectCode == mempool.RejectInvalid {
shouldBan = true
}
} else if dagRuleErr := (&blockdag.RuleError{}); errors.As(ruleErr.Err, dagRuleErr) {
shouldBan = true
}
if !shouldBan {
continue
}
return protocolerrors.Errorf(true, "rejected transaction %s", tx.ID())
}
err = flow.broadcastAcceptedTransactions(acceptedTxs)
if err != nil {
return err
}
}
return nil
}
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