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package mempool
import (
"container/list"
"sync"
"sync/atomic"
"github.com/tendermint/go-clist"
. "github.com/tendermint/go-common"
"github.com/tendermint/tendermint/proxy"
"github.com/tendermint/tendermint/types"
tmsp "github.com/tendermint/tmsp/types"
)
/*
The mempool pushes new txs onto the proxyAppConn.
It gets a stream of (req, res) tuples from the proxy.
The memool stores good txs in a concurrent linked-list.
Multiple concurrent go-routines can traverse this linked-list
safely by calling .NextWait() on each element.
So we have several go-routines:
1. Consensus calling Update() and Reap() synchronously
2. Many mempool reactor's peer routines calling CheckTx()
3. Many mempool reactor's peer routines traversing the txs linked list
4. Another goroutine calling GarbageCollectTxs() periodically
To manage these goroutines, there are three methods of locking.
1. Mutations to the linked-list is protected by an internal mtx (CList is goroutine-safe)
2. Mutations to the linked-list elements are atomic
3. CheckTx() calls can be paused upon Update() and Reap(), protected by .proxyMtx
Garbage collection of old elements from mempool.txs is handlde via
the DetachPrev() call, which makes old elements not reachable by
peer broadcastTxRoutine() automatically garbage collected.
*/
const cacheSize = 100000
type Mempool struct {
proxyMtx sync.Mutex
proxyAppConn proxy.AppConn
txs *clist.CList // concurrent linked-list of good txs
counter int64 // simple incrementing counter
height int // the last block Update()'d to
// Keep a cache of already-seen txs.
// This reduces the pressure on the proxyApp.
cacheMap map[string]struct{}
cacheList *list.List
}
func NewMempool(proxyAppConn proxy.AppConn) *Mempool {
mempool := &Mempool{
proxyAppConn: proxyAppConn,
txs: clist.New(),
counter: 0,
height: 0,
cacheMap: make(map[string]struct{}, cacheSize),
cacheList: list.New(),
}
proxyAppConn.SetResponseCallback(mempool.resCb)
return mempool
}
// Return the first element of mem.txs for peer goroutines to call .NextWait() on.
// Blocks until txs has elements.
func (mem *Mempool) TxsFrontWait() *clist.CElement {
return mem.txs.FrontWait()
}
// Try a new transaction in the mempool.
// Potentially blocking if we're blocking on Update() or Reap().
// cb: A callback from the CheckTx command.
// It gets called from another goroutine.
// CONTRACT: Either cb will get called, or err returned.
func (mem *Mempool) CheckTx(tx types.Tx, cb func(*tmsp.Response)) (err error) {
mem.proxyMtx.Lock()
defer mem.proxyMtx.Unlock()
// CACHE
if _, exists := mem.cacheMap[string(tx)]; exists {
if cb != nil {
cb(&tmsp.Response{
Code: tmsp.CodeType_BadNonce, // TODO or duplicate tx
Log: "Duplicate transaction (ignored)",
})
}
return nil
}
if mem.cacheList.Len() >= cacheSize {
popped := mem.cacheList.Front()
poppedTx := popped.Value.(types.Tx)
delete(mem.cacheMap, string(poppedTx))
mem.cacheList.Remove(popped)
}
mem.cacheMap[string(tx)] = struct{}{}
mem.cacheList.PushBack(tx)
// END CACHE
if err = mem.proxyAppConn.Error(); err != nil {
return err
}
reqRes := mem.proxyAppConn.CheckTxAsync(tx)
if cb != nil {
reqRes.SetCallback(cb)
}
return nil
}
// TMSP callback function
func (mem *Mempool) resCb(req *tmsp.Request, res *tmsp.Response) {
switch res.Type {
case tmsp.MessageType_CheckTx:
if res.Code == tmsp.CodeType_OK {
mem.counter++
memTx := &mempoolTx{
counter: mem.counter,
height: int64(mem.height),
tx: req.Data,
}
mem.txs.PushBack(memTx)
} else {
// ignore bad transaction
// TODO: handle other retcodes
}
default:
// ignore other messages
}
}
// Get the valid transactions remaining
func (mem *Mempool) Reap() ([]types.Tx, error) {
mem.proxyMtx.Lock()
defer mem.proxyMtx.Unlock()
txs := mem.collectTxs()
return txs, nil
}
func (mem *Mempool) collectTxs() []types.Tx {
txs := make([]types.Tx, 0, mem.txs.Len())
for e := mem.txs.Front(); e != nil; e = e.Next() {
memTx := e.Value.(*mempoolTx)
txs = append(txs, memTx.tx)
}
return txs
}
// Tell mempool that these txs were committed.
// Mempool will discard these txs.
// NOTE: this should be called *after* block is committed by consensus.
func (mem *Mempool) Update(height int, txs []types.Tx) error {
mem.proxyMtx.Lock()
defer mem.proxyMtx.Unlock()
// First, create a lookup map of txns in new txs.
txsMap := make(map[string]struct{})
for _, tx := range txs {
txsMap[string(tx)] = struct{}{}
}
// Set height
mem.height = height
// Remove transactions that are already in txs.
mem.filterTxs(txsMap)
return nil
}
func (mem *Mempool) filterTxs(blockTxsMap map[string]struct{}) []types.Tx {
goodTxs := make([]types.Tx, 0, mem.txs.Len())
for e := mem.txs.Front(); e != nil; e = e.Next() {
memTx := e.Value.(*mempoolTx)
if _, ok := blockTxsMap[string(memTx.tx)]; ok {
// Remove the tx since already in block.
mem.txs.Remove(e)
e.DetachPrev()
continue
}
// Good tx!
goodTxs = append(goodTxs, memTx.tx)
}
return goodTxs
}
//--------------------------------------------------------------------------------
// A transaction that successfully ran
type mempoolTx struct {
counter int64 // a simple incrementing counter
height int64 // height that this tx had been validated in
tx types.Tx //
}
func (memTx *mempoolTx) Height() int {
return int(atomic.LoadInt64(&memTx.height))
}