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scheduler.go
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scheduler.go
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package block_stm
import (
"fmt"
"runtime"
"sync"
"sync/atomic"
)
type TaskKind int
const (
TaskKindExecution TaskKind = iota
TaskKindValidation
)
type TxDependency struct {
sync.Mutex
dependents []TxnIndex
}
func (t *TxDependency) Swap(new []TxnIndex) []TxnIndex {
t.Lock()
old := t.dependents
t.dependents = new
t.Unlock()
return old
}
// Scheduler implements the scheduler for the block-stm
// ref: `Algorithm 4 The Scheduler module, variables, utility APIs and next task logic`
type Scheduler struct {
block_size int
// An index that tracks the next transaction to try and execute.
execution_idx atomic.Uint64
// A similar index for tracking validation.
validation_idx atomic.Uint64
// Number of times validation_idx or execution_idx was decreased
decrease_cnt atomic.Uint64
// Number of ongoing validation and execution tasks
num_active_tasks atomic.Uint64
// Marker for completion
done_marker atomic.Bool
// txn_idx to a mutex-protected set of dependent transaction indices
txn_dependency []TxDependency
// txn_idx to a mutex-protected pair (incarnation_number, status), where status ∈ {READY_TO_EXECUTE, EXECUTING, EXECUTED, ABORTING}.
txn_status []StatusEntry
// metrics
executedTxns atomic.Int64
validatedTxns atomic.Int64
}
func NewScheduler(block_size int) *Scheduler {
return &Scheduler{
block_size: block_size,
txn_dependency: make([]TxDependency, block_size),
txn_status: make([]StatusEntry, block_size),
}
}
func (s *Scheduler) Done() bool {
return s.done_marker.Load()
}
func (s *Scheduler) DecreaseValidationIdx(target TxnIndex) {
StoreMin(&s.validation_idx, uint64(target))
s.decrease_cnt.Add(1)
}
func (s *Scheduler) CheckDone() {
observed_cnt := s.decrease_cnt.Load()
if s.execution_idx.Load() >= uint64(s.block_size) &&
s.validation_idx.Load() >= uint64(s.block_size) &&
s.num_active_tasks.Load() == 0 {
if observed_cnt == s.decrease_cnt.Load() {
s.done_marker.Store(true)
}
}
// avoid busy waiting
runtime.Gosched()
}
// TryIncarnate tries to incarnate a transaction index to execute.
// Returns the transaction version if successful, otherwise returns invalid version.
//
// Invariant `num_active_tasks`: decreased if an invalid task is returned.
func (s *Scheduler) TryIncarnate(idx TxnIndex) TxnVersion {
if int(idx) < s.block_size {
if incarnation, ok := s.txn_status[idx].TrySetExecuting(); ok {
return TxnVersion{idx, incarnation}
}
}
DecrAtomic(&s.num_active_tasks)
return InvalidTxnVersion
}
// NextVersionToExecute get the next transaction index to execute,
// returns invalid version if no task is available
//
// Invariant `num_active_tasks`: increased if a valid task is returned.
func (s *Scheduler) NextVersionToExecute() TxnVersion {
if s.execution_idx.Load() >= uint64(s.block_size) {
s.CheckDone()
return InvalidTxnVersion
}
IncrAtomic(&s.num_active_tasks)
idx_to_execute := s.execution_idx.Add(1) - 1
return s.TryIncarnate(TxnIndex(idx_to_execute))
}
// NextVersionToValidate get the next transaction index to validate,
// returns invalid version if no task is available.
//
// Invariant `num_active_tasks`: increased if a valid task is returned.
func (s *Scheduler) NextVersionToValidate() TxnVersion {
if s.validation_idx.Load() >= uint64(s.block_size) {
s.CheckDone()
return InvalidTxnVersion
}
IncrAtomic(&s.num_active_tasks)
idx_to_validate := FetchIncr(&s.validation_idx)
if idx_to_validate < uint64(s.block_size) {
if ok, incarnation := s.txn_status[idx_to_validate].IsExecuted(); ok {
return TxnVersion{TxnIndex(idx_to_validate), incarnation}
}
}
DecrAtomic(&s.num_active_tasks)
return InvalidTxnVersion
}
// NextTask returns the transaction index and task kind for the next task to execute or validate,
// returns invalid version if no task is available.
//
// Invariant `num_active_tasks`: increased if a valid task is returned.
func (s *Scheduler) NextTask() (TxnVersion, TaskKind) {
validation_idx := s.validation_idx.Load()
execution_idx := s.execution_idx.Load()
if validation_idx < execution_idx {
return s.NextVersionToValidate(), TaskKindValidation
} else {
return s.NextVersionToExecute(), TaskKindExecution
}
}
func (s *Scheduler) WaitForDependency(txn TxnIndex, blocking_txn TxnIndex) *Condvar {
cond := NewCondvar()
entry := &s.txn_dependency[blocking_txn]
entry.Lock()
// thread holds 2 locks
if ok, _ := s.txn_status[blocking_txn].IsExecuted(); ok {
// dependency resolved before locking in Line 148
entry.Unlock()
return nil
}
s.txn_status[txn].Suspend(cond)
entry.dependents = append(entry.dependents, txn)
entry.Unlock()
return cond
}
func (s *Scheduler) ResumeDependencies(txns []TxnIndex) {
for _, txn := range txns {
s.txn_status[txn].Resume()
}
}
// Invariant `num_active_tasks`: decreased if an invalid task is returned.
func (s *Scheduler) FinishExecution(version TxnVersion, wroteNewPath bool) (TxnVersion, TaskKind) {
s.txn_status[version.Index].SetExecuted()
deps := s.txn_dependency[version.Index].Swap(nil)
s.ResumeDependencies(deps)
if s.validation_idx.Load() > uint64(version.Index) { // otherwise index already small enough
if !wroteNewPath {
// schedule validation for current tx only, don't decrease num_active_tasks
return version, TaskKindValidation
}
// schedule validation for txn_idx and higher txns
s.DecreaseValidationIdx(version.Index)
}
DecrAtomic(&s.num_active_tasks)
return InvalidTxnVersion, 0
}
func (s *Scheduler) TryValidationAbort(version TxnVersion) bool {
return s.txn_status[version.Index].TryValidationAbort(version.Incarnation)
}
// Invariant `num_active_tasks`: decreased if an invalid task is returned.
func (s *Scheduler) FinishValidation(txn TxnIndex, aborted bool) (TxnVersion, TaskKind) {
if aborted {
s.txn_status[txn].SetReadyStatus()
s.DecreaseValidationIdx(txn + 1)
if s.execution_idx.Load() > uint64(txn) {
return s.TryIncarnate(txn), TaskKindExecution
}
}
DecrAtomic(&s.num_active_tasks)
return InvalidTxnVersion, 0
}
func (s *Scheduler) Stats() string {
return fmt.Sprintf("executed: %d, validated: %d",
s.executedTxns.Load(), s.validatedTxns.Load())
}