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task.go
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task.go
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package kapacitor
import (
"bytes"
"errors"
"fmt"
"math/rand"
"sync"
"time"
"github.com/influxdata/kapacitor/edge"
"github.com/influxdata/kapacitor/keyvalue"
"github.com/influxdata/kapacitor/pipeline"
)
type TaskDiagnostic interface {
WithNodeContext(node string) NodeDiagnostic
Error(msg string, err error, ctx ...keyvalue.T)
}
// The type of a task
type TaskType int
const (
StreamTask TaskType = iota
BatchTask
InvalidTask
)
func (t TaskType) String() string {
switch t {
case StreamTask:
return "stream"
case BatchTask:
return "batch"
default:
return "unknown"
}
}
func (t TaskType) MarshalText() ([]byte, error) {
return []byte(t.String()), nil
}
func (t *TaskType) UnmarshalText(text []byte) error {
switch string(text) {
case "stream":
*t = StreamTask
case "batch":
*t = BatchTask
default:
return fmt.Errorf("unknown task type %s", string(text))
}
return nil
}
type DBRP struct {
Database string `json:"db"`
RetentionPolicy string `json:"rp"`
}
func CreateDBRPMap(dbrps []DBRP) map[DBRP]bool {
dbMap := make(map[DBRP]bool, len(dbrps))
for _, dbrp := range dbrps {
dbMap[dbrp] = true
}
return dbMap
}
func (d DBRP) String() string {
return fmt.Sprintf("%q.%q", d.Database, d.RetentionPolicy)
}
// The complete definition of a task, its id, pipeline and type.
type Task struct {
ID string
Pipeline *pipeline.Pipeline
Type TaskType
DBRPs []DBRP
SnapshotInterval time.Duration
}
func (t *Task) Dot() []byte {
return t.Pipeline.Dot(t.ID)
}
// returns all the measurements from a FromNode
func (t *Task) Measurements() []string {
measurements := make([]string, 0)
_ = t.Pipeline.Walk(func(node pipeline.Node) error {
switch streamNode := node.(type) {
case *pipeline.FromNode:
measurements = append(measurements, streamNode.Measurement)
}
return nil
})
return measurements
}
// ----------------------------------
// ExecutingTask
// A task that is ready for execution.
type ExecutingTask struct {
tm *TaskMaster
Task *Task
source Node
outputs map[string]Output
// node lookup from pipeline.ID -> Node
lookup map[pipeline.ID]Node
nodes []Node
stopping chan struct{}
wg sync.WaitGroup
diag TaskDiagnostic
// Mutex for throughput var
tmu sync.RWMutex
throughput float64
}
// Create a new task from a defined kapacitor.
func NewExecutingTask(tm *TaskMaster, t *Task) (*ExecutingTask, error) {
d := tm.diag.WithTaskContext(t.ID)
et := &ExecutingTask{
tm: tm,
Task: t,
outputs: make(map[string]Output),
lookup: make(map[pipeline.ID]Node),
diag: d,
}
err := et.link()
if err != nil {
return nil, err
}
return et, nil
}
// walks the entire pipeline applying function f.
func (et *ExecutingTask) walk(f func(n Node) error) error {
for _, n := range et.nodes {
err := f(n)
if err != nil {
return err
}
}
return nil
}
// walks the entire pipeline in reverse order applying function f.
func (et *ExecutingTask) rwalk(f func(n Node) error) error {
for i := len(et.nodes) - 1; i >= 0; i-- {
err := f(et.nodes[i])
if err != nil {
return err
}
}
return nil
}
// Link all the nodes together based on the task pipeline.
func (et *ExecutingTask) link() error {
// Walk Pipeline and create equivalent executing nodes
err := et.Task.Pipeline.Walk(func(n pipeline.Node) error {
d := et.diag.WithNodeContext(n.Name())
en, err := et.createNode(n, d)
if err != nil {
return err
}
et.lookup[n.ID()] = en
// Save the walk order
et.nodes = append(et.nodes, en)
// Duplicate the Edges
for _, p := range n.Parents() {
ep := et.lookup[p.ID()]
err := ep.linkChild(en)
if err != nil {
return err
}
}
return err
})
if err != nil {
return err
}
// The first node is always the source node
et.source = et.nodes[0]
return nil
}
// Start the task.
func (et *ExecutingTask) start(ins []edge.StatsEdge, snapshot *TaskSnapshot) error {
for _, in := range ins {
et.source.addParentEdge(in)
}
validSnapshot := false
if snapshot != nil {
err := et.walk(func(n Node) error {
_, ok := snapshot.NodeSnapshots[n.Name()]
if !ok {
return fmt.Errorf("task pipeline changed not using snapshot")
}
return nil
})
validSnapshot = err == nil
}
err := et.walk(func(n Node) error {
if validSnapshot {
n.start(snapshot.NodeSnapshots[n.Name()])
} else {
n.start(nil)
}
return nil
})
if err != nil {
return err
}
et.stopping = make(chan struct{})
if et.Task.SnapshotInterval > 0 {
et.wg.Add(1)
go et.runSnapshotter()
}
// Start calcThroughput
et.wg.Add(1)
go et.calcThroughput()
return nil
}
func (et *ExecutingTask) stop() (err error) {
close(et.stopping)
_ = et.walk(func(n Node) error {
n.stop()
e := n.Wait()
if e != nil {
err = e
}
return nil
})
et.wg.Wait()
return
}
var ErrWrongTaskType = errors.New("wrong task type")
// Instruct source batch node to start querying and sending batches of data
func (et *ExecutingTask) StartBatching() error {
if et.Task.Type != BatchTask {
return ErrWrongTaskType
}
batcher := et.source.(*BatchNode)
err := et.checkDBRPs(batcher)
if err != nil {
batcher.Abort()
return err
}
batcher.Start()
return nil
}
func (et *ExecutingTask) BatchCount() (int, error) {
if et.Task.Type != BatchTask {
return 0, ErrWrongTaskType
}
batcher := et.source.(*BatchNode)
return batcher.Count(), nil
}
// Get the next `num` batch queries that the batcher will run starting at time `start`.
func (et *ExecutingTask) BatchQueries(start, stop time.Time) ([]BatchQueries, error) {
if et.Task.Type != BatchTask {
return nil, ErrWrongTaskType
}
batcher := et.source.(*BatchNode)
err := et.checkDBRPs(batcher)
if err != nil {
return nil, err
}
return batcher.Queries(start, stop)
}
// Check that the task allows access to DBRPs
func (et *ExecutingTask) checkDBRPs(batcher *BatchNode) error {
dbMap := CreateDBRPMap(et.Task.DBRPs)
dbrps, err := batcher.DBRPs()
if err != nil {
return err
}
for _, dbrp := range dbrps {
if !dbMap[dbrp] {
return fmt.Errorf("batch query is not allowed to request data from %v", dbrp)
}
}
return nil
}
// Stop all stats nodes
func (et *ExecutingTask) StopStats() {
_ = et.walk(func(n Node) error {
if s, ok := n.(*StatsNode); ok {
s.stopStats()
}
return nil
})
}
// Wait till the task finishes and return any error
func (et *ExecutingTask) Wait() error {
return et.rwalk(func(n Node) error {
return n.Wait()
})
}
// Get a named output.
func (et *ExecutingTask) GetOutput(name string) (Output, error) {
if o, ok := et.outputs[name]; ok {
return o, nil
} else {
return nil, fmt.Errorf("unknown output %s", name)
}
}
// Register a named output.
func (et *ExecutingTask) registerOutput(name string, o Output) {
et.outputs[name] = o
}
type ExecutionStats struct {
TaskStats map[string]interface{}
NodeStats map[string]map[string]interface{}
}
func (et *ExecutingTask) ExecutionStats() (ExecutionStats, error) {
executionStats := ExecutionStats{
TaskStats: make(map[string]interface{}),
NodeStats: make(map[string]map[string]interface{}),
}
// Fill the task stats
executionStats.TaskStats["throughput"] = et.getThroughput()
// Fill the nodes stats
err := et.walk(func(node Node) error {
nodeStats := node.stats()
// Add collected and emitted
nodeStats["collected"] = node.collectedCount()
nodeStats["emitted"] = node.emittedCount()
executionStats.NodeStats[node.Name()] = nodeStats
return nil
})
if err != nil {
return executionStats, err
}
return executionStats, nil
}
// Return a graphviz .dot formatted byte array.
// Label edges with relavant execution information.
func (et *ExecutingTask) EDot(labels bool) []byte {
var buf bytes.Buffer
buf.WriteString("digraph ")
buf.WriteString(et.Task.ID)
buf.WriteString(" {\n")
// Write graph attributes
unit := "points"
if et.Task.Type == BatchTask {
unit = "batches"
}
buf.WriteString("graph [")
if labels {
buf.WriteString(
fmt.Sprintf("label=\"Throughput: %0.2f %s/s\" forcelabels=true pad=\"0.8,0.5\"",
et.getThroughput(),
unit,
),
)
} else {
buf.WriteString(
fmt.Sprintf("throughput=\"%0.2f %s/s\"",
et.getThroughput(),
unit,
),
)
}
buf.WriteString("];\n")
_ = et.walk(func(n Node) error {
n.edot(&buf, labels)
return nil
})
buf.Write([]byte("}"))
return buf.Bytes()
}
// Return the current throughput value.
func (et *ExecutingTask) getThroughput() float64 {
et.tmu.RLock()
defer et.tmu.RUnlock()
return et.throughput
}
func (et *ExecutingTask) calcThroughput() {
defer et.wg.Done()
var previous int64
last := time.Now()
ticker := time.NewTicker(time.Second)
defer ticker.Stop()
for {
select {
case <-ticker.C:
current := et.source.collectedCount()
now := time.Now()
elapsed := float64(now.Sub(last)) / float64(time.Second)
et.tmu.Lock()
et.throughput = float64(current-previous) / elapsed
et.tmu.Unlock()
last = now
previous = current
case <-et.stopping:
return
}
}
}
// Create a node from a given pipeline node.
func (et *ExecutingTask) createNode(p pipeline.Node, d NodeDiagnostic) (n Node, err error) {
switch t := p.(type) {
case *pipeline.FromNode:
n, err = newFromNode(et, t, d)
case *pipeline.StreamNode:
n, err = newStreamNode(et, t, d)
case *pipeline.BatchNode:
n, err = newBatchNode(et, t, d)
case *pipeline.QueryNode:
n, err = newQueryNode(et, t, d)
case *pipeline.QueryFluxNode:
n, err = newQueryFluxNode(et, t, d)
case *pipeline.WindowNode:
n, err = newWindowNode(et, t, d)
case *pipeline.HTTPOutNode:
n, err = newHTTPOutNode(et, t, d)
case *pipeline.HTTPPostNode:
n, err = newHTTPPostNode(et, t, d)
case *pipeline.InfluxDBOutNode:
n, err = newInfluxDBOutNode(et, t, d)
case *pipeline.KapacitorLoopbackNode:
n, err = newKapacitorLoopbackNode(et, t, d)
case *pipeline.AlertNode:
n, err = newAlertNode(et, t, d)
case *pipeline.GroupByNode:
n, err = newGroupByNode(et, t, d)
case *pipeline.UnionNode:
n, err = newUnionNode(et, t, d)
case *pipeline.JoinNode:
n, err = newJoinNode(et, t, d)
case *pipeline.FlattenNode:
n, err = newFlattenNode(et, t, d)
case *pipeline.EvalNode:
n, err = newEvalNode(et, t, d)
case *pipeline.WhereNode:
n, err = newWhereNode(et, t, d)
case *pipeline.SampleNode:
n, err = newSampleNode(et, t, d)
case *pipeline.DerivativeNode:
n, err = newDerivativeNode(et, t, d)
case *pipeline.ChangeDetectNode:
n, err = newChangeDetectNode(et, t, d)
case *pipeline.UDFNode:
n, err = newUDFNode(et, t, d)
case *pipeline.StatsNode:
n, err = newStatsNode(et, t, d)
case *pipeline.ShiftNode:
n, err = newShiftNode(et, t, d)
case *pipeline.NoOpNode:
n, err = newNoOpNode(et, t, d)
case *pipeline.InfluxQLNode:
n, err = newInfluxQLNode(et, t, d)
case *pipeline.LogNode:
n, err = newLogNode(et, t, d)
case *pipeline.DefaultNode:
n, err = newDefaultNode(et, t, d)
case *pipeline.DeleteNode:
n, err = newDeleteNode(et, t, d)
case *pipeline.CombineNode:
n, err = newCombineNode(et, t, d)
case *pipeline.K8sAutoscaleNode:
n, err = newK8sAutoscaleNode(et, t, d)
case *pipeline.SwarmAutoscaleNode:
n, err = newSwarmAutoscaleNode(et, t, d)
case *pipeline.Ec2AutoscaleNode:
n, err = newEc2AutoscaleNode(et, t, d)
case *pipeline.StateDurationNode:
n, err = newStateDurationNode(et, t, d)
case *pipeline.StateCountNode:
n, err = newStateCountNode(et, t, d)
case *pipeline.SideloadNode:
n, err = newSideloadNode(et, t, d)
case *pipeline.TrickleNode:
n = newTrickleNode(et, t, d)
case *pipeline.BarrierNode:
n, err = newBarrierNode(et, t, d)
default:
return nil, fmt.Errorf("unknown pipeline node type %T", p)
}
if err == nil && n != nil {
n.init(p.IsQuiet())
}
return n, err
}
type TaskSnapshot struct {
NodeSnapshots map[string][]byte
}
func (et *ExecutingTask) Snapshot() (*TaskSnapshot, error) {
snapshot := &TaskSnapshot{
NodeSnapshots: make(map[string][]byte),
}
err := et.walk(func(n Node) error {
data, err := n.snapshot()
if err != nil {
return err
}
snapshot.NodeSnapshots[n.Name()] = data
return nil
})
if err != nil {
return nil, err
}
return snapshot, nil
}
func (et *ExecutingTask) runSnapshotter() {
defer et.wg.Done()
// Wait random duration to splay snapshot events across interval
select {
case <-time.After(time.Duration(rand.Float64() * float64(et.Task.SnapshotInterval))):
case <-et.stopping:
return
}
ticker := time.NewTicker(et.Task.SnapshotInterval)
defer ticker.Stop()
for {
select {
case <-ticker.C:
snapshot, err := et.Snapshot()
if err != nil {
et.diag.Error("failed to snapshot task", err)
break
}
size := 0
for _, data := range snapshot.NodeSnapshots {
size += len(data)
}
// Only save the snapshot if it has content
if size > 0 {
err = et.tm.TaskStore.SaveSnapshot(et.Task.ID, snapshot)
if err != nil {
et.diag.Error("failed to save task snapshot", err)
}
}
case <-et.stopping:
return
}
}
}