micro/flow/default.go

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package flow
import (
"context"
"fmt"
"sync"
"github.com/silas/dag"
"go.unistack.org/micro/v3/client"
"go.unistack.org/micro/v3/codec"
"go.unistack.org/micro/v3/logger"
"go.unistack.org/micro/v3/metadata"
"go.unistack.org/micro/v3/store"
"go.unistack.org/micro/v3/util/id"
)
type microFlow struct {
opts Options
}
type microWorkflow struct {
opts Options
g *dag.AcyclicGraph
steps map[string]Step
id string
status Status
sync.RWMutex
init bool
}
func (w *microWorkflow) ID() string {
return w.id
}
func (w *microWorkflow) Steps() ([][]Step, error) {
return w.getSteps("", false)
}
func (w *microWorkflow) Status() Status {
return w.status
}
func (w *microWorkflow) AppendSteps(steps ...Step) error {
w.Lock()
for _, s := range steps {
w.steps[s.String()] = s
w.g.Add(s)
}
for _, dst := range steps {
for _, req := range dst.Requires() {
src, ok := w.steps[req]
if !ok {
return ErrStepNotExists
}
w.g.Connect(dag.BasicEdge(src, dst))
}
}
if err := w.g.Validate(); err != nil {
w.Unlock()
return err
}
w.g.TransitiveReduction()
w.Unlock()
return nil
}
func (w *microWorkflow) RemoveSteps(steps ...Step) error {
// TODO: handle case when some step requires or required by removed step
w.Lock()
for _, s := range steps {
delete(w.steps, s.String())
w.g.Remove(s)
}
for _, dst := range steps {
for _, req := range dst.Requires() {
src, ok := w.steps[req]
if !ok {
return ErrStepNotExists
}
w.g.Connect(dag.BasicEdge(src, dst))
}
}
if err := w.g.Validate(); err != nil {
w.Unlock()
return err
}
w.g.TransitiveReduction()
w.Unlock()
return nil
}
func (w *microWorkflow) getSteps(start string, reverse bool) ([][]Step, error) {
var steps [][]Step
var root dag.Vertex
var err error
fn := func(n dag.Vertex, idx int) error {
if idx == 0 {
steps = make([][]Step, 1)
steps[0] = make([]Step, 0, 1)
} else if idx >= len(steps) {
tsteps := make([][]Step, idx+1)
copy(tsteps, steps)
steps = tsteps
steps[idx] = make([]Step, 0, 1)
}
steps[idx] = append(steps[idx], n.(Step))
return nil
}
if start != "" {
var ok bool
w.RLock()
root, ok = w.steps[start]
w.RUnlock()
if !ok {
return nil, ErrStepNotExists
}
} else {
root, err = w.g.Root()
if err != nil {
return nil, err
}
}
if reverse {
err = w.g.SortedReverseDepthFirstWalk([]dag.Vertex{root}, fn)
} else {
err = w.g.SortedDepthFirstWalk([]dag.Vertex{root}, fn)
}
if err != nil {
return nil, err
}
return steps, nil
}
func (w *microWorkflow) Abort(ctx context.Context, id string) error {
workflowStore := store.NewNamespaceStore(w.opts.Store, "workflows"+w.opts.Store.Options().Separator+id)
return workflowStore.Write(ctx, "status", &codec.Frame{Data: []byte(StatusAborted.String())})
}
func (w *microWorkflow) Suspend(ctx context.Context, id string) error {
workflowStore := store.NewNamespaceStore(w.opts.Store, "workflows"+w.opts.Store.Options().Separator+id)
return workflowStore.Write(ctx, "status", &codec.Frame{Data: []byte(StatusSuspend.String())})
}
func (w *microWorkflow) Resume(ctx context.Context, id string) error {
workflowStore := store.NewNamespaceStore(w.opts.Store, "workflows"+w.opts.Store.Options().Separator+id)
return workflowStore.Write(ctx, "status", &codec.Frame{Data: []byte(StatusRunning.String())})
}
func (w *microWorkflow) Execute(ctx context.Context, req *Message, opts ...ExecuteOption) (string, error) {
w.Lock()
if !w.init {
if err := w.g.Validate(); err != nil {
w.Unlock()
return "", err
}
w.g.TransitiveReduction()
w.init = true
}
w.Unlock()
eid, err := id.New()
if err != nil {
return "", err
}
stepStore := store.NewNamespaceStore(w.opts.Store, "steps"+w.opts.Store.Options().Separator+eid)
workflowStore := store.NewNamespaceStore(w.opts.Store, "workflows"+w.opts.Store.Options().Separator+eid)
options := NewExecuteOptions(opts...)
steps, err := w.getSteps(options.Start, options.Reverse)
if err != nil {
if werr := workflowStore.Write(w.opts.Context, "status", &codec.Frame{Data: []byte(StatusPending.String())}); werr != nil {
w.opts.Logger.Errorf(w.opts.Context, "store error: %v", werr)
}
return "", err
}
var wg sync.WaitGroup
cherr := make(chan error, 1)
chstatus := make(chan Status, 1)
nctx, cancel := context.WithCancel(ctx)
defer cancel()
nopts := make([]ExecuteOption, 0, len(opts)+5)
nopts = append(nopts,
ExecuteClient(w.opts.Client),
ExecuteTracer(w.opts.Tracer),
ExecuteLogger(w.opts.Logger),
ExecuteMeter(w.opts.Meter),
)
nopts = append(nopts, opts...)
done := make(chan struct{})
if werr := workflowStore.Write(w.opts.Context, "status", &codec.Frame{Data: []byte(StatusRunning.String())}); werr != nil {
w.opts.Logger.Errorf(w.opts.Context, "store error: %v", werr)
return eid, werr
}
for idx := range steps {
for nidx := range steps[idx] {
cstep := steps[idx][nidx]
if werr := stepStore.Write(ctx, cstep.ID()+w.opts.Store.Options().Separator+"status", &codec.Frame{Data: []byte(StatusPending.String())}); werr != nil {
return eid, werr
}
}
}
go func() {
for idx := range steps {
for nidx := range steps[idx] {
wStatus := &codec.Frame{}
if werr := workflowStore.Read(w.opts.Context, "status", wStatus); werr != nil {
cherr <- werr
return
}
if status := StringStatus[string(wStatus.Data)]; status != StatusRunning {
chstatus <- status
return
}
if w.opts.Logger.V(logger.TraceLevel) {
w.opts.Logger.Tracef(nctx, "will be executed %v", steps[idx][nidx])
}
cstep := steps[idx][nidx]
// nolint: nestif
if len(cstep.Requires()) == 0 {
wg.Add(1)
go func(step Step) {
defer wg.Done()
if werr := stepStore.Write(ctx, step.ID()+w.opts.Store.Options().Separator+"req", req); werr != nil {
cherr <- werr
return
}
if werr := stepStore.Write(ctx, step.ID()+w.opts.Store.Options().Separator+"status", &codec.Frame{Data: []byte(StatusRunning.String())}); werr != nil {
cherr <- werr
return
}
rsp, serr := step.Execute(nctx, req, nopts...)
if serr != nil {
step.SetStatus(StatusFailure)
if werr := stepStore.Write(ctx, step.ID()+w.opts.Store.Options().Separator+"rsp", serr); werr != nil && w.opts.Logger.V(logger.ErrorLevel) {
w.opts.Logger.Errorf(ctx, "store write error: %v", werr)
}
if werr := stepStore.Write(ctx, step.ID()+w.opts.Store.Options().Separator+"status", &codec.Frame{Data: []byte(StatusFailure.String())}); werr != nil && w.opts.Logger.V(logger.ErrorLevel) {
w.opts.Logger.Errorf(ctx, "store write error: %v", werr)
}
cherr <- serr
return
}
if werr := stepStore.Write(ctx, step.ID()+w.opts.Store.Options().Separator+"rsp", rsp); werr != nil {
w.opts.Logger.Errorf(ctx, "store write error: %v", werr)
cherr <- werr
return
}
if werr := stepStore.Write(ctx, step.ID()+w.opts.Store.Options().Separator+"status", &codec.Frame{Data: []byte(StatusSuccess.String())}); werr != nil {
w.opts.Logger.Errorf(ctx, "store write error: %v", werr)
cherr <- werr
return
}
}(cstep)
wg.Wait()
} else {
if werr := stepStore.Write(ctx, cstep.ID()+w.opts.Store.Options().Separator+"req", req); werr != nil {
cherr <- werr
return
}
if werr := stepStore.Write(ctx, cstep.ID()+w.opts.Store.Options().Separator+"status", &codec.Frame{Data: []byte(StatusRunning.String())}); werr != nil {
cherr <- werr
return
}
rsp, serr := cstep.Execute(nctx, req, nopts...)
if serr != nil {
cstep.SetStatus(StatusFailure)
if werr := stepStore.Write(ctx, cstep.ID()+w.opts.Store.Options().Separator+"rsp", serr); werr != nil && w.opts.Logger.V(logger.ErrorLevel) {
w.opts.Logger.Errorf(ctx, "store write error: %v", werr)
}
if werr := stepStore.Write(ctx, cstep.ID()+w.opts.Store.Options().Separator+"status", &codec.Frame{Data: []byte(StatusFailure.String())}); werr != nil && w.opts.Logger.V(logger.ErrorLevel) {
w.opts.Logger.Errorf(ctx, "store write error: %v", werr)
}
cherr <- serr
return
}
if werr := stepStore.Write(ctx, cstep.ID()+w.opts.Store.Options().Separator+"rsp", rsp); werr != nil {
w.opts.Logger.Errorf(ctx, "store write error: %v", werr)
cherr <- werr
return
}
if werr := stepStore.Write(ctx, cstep.ID()+w.opts.Store.Options().Separator+"status", &codec.Frame{Data: []byte(StatusSuccess.String())}); werr != nil {
cherr <- werr
return
}
}
}
}
close(done)
}()
if options.Async {
return eid, nil
}
logger.Tracef(ctx, "wait for finish or error")
select {
case <-nctx.Done():
err = nctx.Err()
case cerr := <-cherr:
err = cerr
case <-done:
close(cherr)
case <-chstatus:
close(chstatus)
return eid, nil
}
switch {
case nctx.Err() != nil:
if werr := workflowStore.Write(w.opts.Context, "status", &codec.Frame{Data: []byte(StatusAborted.String())}); werr != nil {
w.opts.Logger.Errorf(w.opts.Context, "store error: %v", werr)
}
case err == nil:
if werr := workflowStore.Write(w.opts.Context, "status", &codec.Frame{Data: []byte(StatusSuccess.String())}); werr != nil {
w.opts.Logger.Errorf(w.opts.Context, "store error: %v", werr)
}
case err != nil:
if werr := workflowStore.Write(w.opts.Context, "status", &codec.Frame{Data: []byte(StatusFailure.String())}); werr != nil {
w.opts.Logger.Errorf(w.opts.Context, "store error: %v", werr)
}
}
return eid, err
}
// NewFlow create new flow
func NewFlow(opts ...Option) Flow {
options := NewOptions(opts...)
return &microFlow{opts: options}
}
func (f *microFlow) Options() Options {
return f.opts
}
func (f *microFlow) Init(opts ...Option) error {
for _, o := range opts {
o(&f.opts)
}
if err := f.opts.Client.Init(); err != nil {
return err
}
if err := f.opts.Tracer.Init(); err != nil {
return err
}
if err := f.opts.Logger.Init(); err != nil {
return err
}
if err := f.opts.Meter.Init(); err != nil {
return err
}
if err := f.opts.Store.Init(); err != nil {
return err
}
return nil
}
func (f *microFlow) WorkflowList(ctx context.Context) ([]Workflow, error) {
return nil, nil
}
func (f *microFlow) WorkflowCreate(ctx context.Context, id string, steps ...Step) (Workflow, error) {
w := &microWorkflow{opts: f.opts, id: id, g: &dag.AcyclicGraph{}, steps: make(map[string]Step, len(steps))}
for _, s := range steps {
w.steps[s.String()] = s
w.g.Add(s)
}
for _, dst := range steps {
for _, req := range dst.Requires() {
src, ok := w.steps[req]
if !ok {
return nil, ErrStepNotExists
}
w.g.Connect(dag.BasicEdge(src, dst))
}
}
if err := w.g.Validate(); err != nil {
return nil, err
}
w.g.TransitiveReduction()
w.init = true
return w, nil
}
func (f *microFlow) WorkflowRemove(ctx context.Context, id string) error {
return nil
}
func (f *microFlow) WorkflowSave(ctx context.Context, w Workflow) error {
return nil
}
func (f *microFlow) WorkflowLoad(ctx context.Context, id string) (Workflow, error) {
return nil, nil
}
type microCallStep struct {
rsp *Message
req *Message
service string
method string
opts StepOptions
status Status
}
func (s *microCallStep) Request() *Message {
return s.req
}
func (s *microCallStep) Response() *Message {
return s.rsp
}
func (s *microCallStep) ID() string {
return s.String()
}
func (s *microCallStep) Options() StepOptions {
return s.opts
}
func (s *microCallStep) Endpoint() string {
return s.method
}
func (s *microCallStep) Requires() []string {
return s.opts.Requires
}
func (s *microCallStep) Require(steps ...Step) error {
for _, step := range steps {
s.opts.Requires = append(s.opts.Requires, step.String())
}
return nil
}
func (s *microCallStep) String() string {
if s.opts.ID != "" {
return s.opts.ID
}
return fmt.Sprintf("%s.%s", s.service, s.method)
}
func (s *microCallStep) Name() string {
return s.String()
}
func (s *microCallStep) Hashcode() interface{} {
return s.String()
}
func (s *microCallStep) GetStatus() Status {
return s.status
}
func (s *microCallStep) SetStatus(status Status) {
s.status = status
}
func (s *microCallStep) Execute(ctx context.Context, req *Message, opts ...ExecuteOption) (*Message, error) {
options := NewExecuteOptions(opts...)
if options.Client == nil {
return nil, ErrMissingClient
}
rsp := &codec.Frame{}
copts := []client.CallOption{client.WithRetries(0)}
if options.Timeout > 0 {
copts = append(copts,
client.WithRequestTimeout(options.Timeout),
client.WithDialTimeout(options.Timeout))
}
nctx := metadata.NewOutgoingContext(ctx, req.Header)
err := options.Client.Call(nctx, options.Client.NewRequest(s.service, s.method, &codec.Frame{Data: req.Body}), rsp, copts...)
if err != nil {
return nil, err
}
md, _ := metadata.FromOutgoingContext(nctx)
return &Message{Header: md, Body: rsp.Data}, err
}
type microPublishStep struct {
req *Message
rsp *Message
topic string
opts StepOptions
status Status
}
func (s *microPublishStep) Request() *Message {
return s.req
}
func (s *microPublishStep) Response() *Message {
return s.rsp
}
func (s *microPublishStep) ID() string {
return s.String()
}
func (s *microPublishStep) Options() StepOptions {
return s.opts
}
func (s *microPublishStep) Endpoint() string {
return s.topic
}
func (s *microPublishStep) Requires() []string {
return s.opts.Requires
}
func (s *microPublishStep) Require(steps ...Step) error {
for _, step := range steps {
s.opts.Requires = append(s.opts.Requires, step.String())
}
return nil
}
func (s *microPublishStep) String() string {
if s.opts.ID != "" {
return s.opts.ID
}
return s.topic
}
func (s *microPublishStep) Name() string {
return s.String()
}
func (s *microPublishStep) Hashcode() interface{} {
return s.String()
}
func (s *microPublishStep) GetStatus() Status {
return s.status
}
func (s *microPublishStep) SetStatus(status Status) {
s.status = status
}
func (s *microPublishStep) Execute(ctx context.Context, req *Message, opts ...ExecuteOption) (*Message, error) {
return nil, nil
}
// NewCallStep create new step with client.Call
func NewCallStep(service string, name string, method string, opts ...StepOption) Step {
options := NewStepOptions(opts...)
return &microCallStep{service: service, method: name + "." + method, opts: options}
}
// NewPublishStep create new step with client.Publish
func NewPublishStep(topic string, opts ...StepOption) Step {
options := NewStepOptions(opts...)
return &microPublishStep{topic: topic, opts: options}
}