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builtin_promise.go
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builtin_promise.go
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package goja
import (
"github.com/dop251/goja/unistring"
"reflect"
)
type PromiseState int
type PromiseRejectionOperation int
type promiseReactionType int
const (
PromiseStatePending PromiseState = iota
PromiseStateFulfilled
PromiseStateRejected
)
const (
PromiseRejectionReject PromiseRejectionOperation = iota
PromiseRejectionHandle
)
const (
promiseReactionFulfill promiseReactionType = iota
promiseReactionReject
)
type PromiseRejectionTracker func(p *Promise, operation PromiseRejectionOperation)
type jobCallback struct {
callback func(FunctionCall) Value
}
type promiseCapability struct {
promise *Object
resolveObj, rejectObj *Object
}
type promiseReaction struct {
capability *promiseCapability
typ promiseReactionType
handler *jobCallback
asyncRunner *asyncRunner
asyncCtx interface{}
}
var typePromise = reflect.TypeOf((*Promise)(nil))
// Promise is a Go wrapper around ECMAScript Promise. Calling Runtime.ToValue() on it
// returns the underlying Object. Calling Export() on a Promise Object returns a Promise.
//
// Use Runtime.NewPromise() to create one. Calling Runtime.ToValue() on a zero object or nil returns null Value.
//
// WARNING: Instances of Promise are not goroutine-safe. See Runtime.NewPromise() for more details.
type Promise struct {
baseObject
state PromiseState
result Value
fulfillReactions []*promiseReaction
rejectReactions []*promiseReaction
handled bool
}
func (p *Promise) State() PromiseState {
return p.state
}
func (p *Promise) Result() Value {
return p.result
}
func (p *Promise) toValue(r *Runtime) Value {
if p == nil || p.val == nil {
return _null
}
promise := p.val
if promise.runtime != r {
panic(r.NewTypeError("Illegal runtime transition of a Promise"))
}
return promise
}
func (p *Promise) createResolvingFunctions() (resolve, reject *Object) {
r := p.val.runtime
alreadyResolved := false
return p.val.runtime.newNativeFunc(func(call FunctionCall) Value {
if alreadyResolved {
return _undefined
}
alreadyResolved = true
resolution := call.Argument(0)
if resolution.SameAs(p.val) {
return p.reject(r.NewTypeError("Promise self-resolution"))
}
if obj, ok := resolution.(*Object); ok {
var thenAction Value
ex := r.vm.try(func() {
thenAction = obj.self.getStr("then", nil)
})
if ex != nil {
return p.reject(ex.val)
}
if call, ok := assertCallable(thenAction); ok {
job := r.newPromiseResolveThenableJob(p, resolution, &jobCallback{callback: call})
r.enqueuePromiseJob(job)
return _undefined
}
}
return p.fulfill(resolution)
}, "", 1),
p.val.runtime.newNativeFunc(func(call FunctionCall) Value {
if alreadyResolved {
return _undefined
}
alreadyResolved = true
reason := call.Argument(0)
return p.reject(reason)
}, "", 1)
}
func (p *Promise) reject(reason Value) Value {
reactions := p.rejectReactions
p.result = reason
p.fulfillReactions, p.rejectReactions = nil, nil
p.state = PromiseStateRejected
r := p.val.runtime
if !p.handled {
r.trackPromiseRejection(p, PromiseRejectionReject)
}
r.triggerPromiseReactions(reactions, reason)
return _undefined
}
func (p *Promise) fulfill(value Value) Value {
reactions := p.fulfillReactions
p.result = value
p.fulfillReactions, p.rejectReactions = nil, nil
p.state = PromiseStateFulfilled
p.val.runtime.triggerPromiseReactions(reactions, value)
return _undefined
}
func (p *Promise) exportType() reflect.Type {
return typePromise
}
func (p *Promise) export(*objectExportCtx) interface{} {
return p
}
func (p *Promise) addReactions(fulfillReaction *promiseReaction, rejectReaction *promiseReaction) {
r := p.val.runtime
if tracker := r.asyncContextTracker; tracker != nil {
ctx := tracker.Grab()
fulfillReaction.asyncCtx = ctx
rejectReaction.asyncCtx = ctx
}
switch p.state {
case PromiseStatePending:
p.fulfillReactions = append(p.fulfillReactions, fulfillReaction)
p.rejectReactions = append(p.rejectReactions, rejectReaction)
case PromiseStateFulfilled:
r.enqueuePromiseJob(r.newPromiseReactionJob(fulfillReaction, p.result))
default:
reason := p.result
if !p.handled {
r.trackPromiseRejection(p, PromiseRejectionHandle)
}
r.enqueuePromiseJob(r.newPromiseReactionJob(rejectReaction, reason))
}
p.handled = true
}
func (r *Runtime) newPromiseResolveThenableJob(p *Promise, thenable Value, then *jobCallback) func() {
return func() {
resolve, reject := p.createResolvingFunctions()
ex := r.vm.try(func() {
r.callJobCallback(then, thenable, resolve, reject)
})
if ex != nil {
if fn, ok := reject.self.assertCallable(); ok {
fn(FunctionCall{Arguments: []Value{ex.val}})
}
}
}
}
func (r *Runtime) enqueuePromiseJob(job func()) {
r.jobQueue = append(r.jobQueue, job)
}
func (r *Runtime) triggerPromiseReactions(reactions []*promiseReaction, argument Value) {
for _, reaction := range reactions {
r.enqueuePromiseJob(r.newPromiseReactionJob(reaction, argument))
}
}
func (r *Runtime) newPromiseReactionJob(reaction *promiseReaction, argument Value) func() {
return func() {
var handlerResult Value
fulfill := false
if reaction.handler == nil {
handlerResult = argument
if reaction.typ == promiseReactionFulfill {
fulfill = true
}
} else {
if tracker := r.asyncContextTracker; tracker != nil {
tracker.Resumed(reaction.asyncCtx)
}
ex := r.vm.try(func() {
handlerResult = r.callJobCallback(reaction.handler, _undefined, argument)
fulfill = true
})
if ex != nil {
handlerResult = ex.val
}
if tracker := r.asyncContextTracker; tracker != nil {
tracker.Exited()
}
}
if reaction.capability != nil {
if fulfill {
reaction.capability.resolve(handlerResult)
} else {
reaction.capability.reject(handlerResult)
}
}
}
}
func (r *Runtime) newPromise(proto *Object) *Promise {
o := &Object{runtime: r}
po := &Promise{}
po.class = classObject
po.val = o
po.extensible = true
o.self = po
po.prototype = proto
po.init()
return po
}
func (r *Runtime) builtin_newPromise(args []Value, newTarget *Object) *Object {
if newTarget == nil {
panic(r.needNew("Promise"))
}
var arg0 Value
if len(args) > 0 {
arg0 = args[0]
}
executor := r.toCallable(arg0)
proto := r.getPrototypeFromCtor(newTarget, r.global.Promise, r.getPromisePrototype())
po := r.newPromise(proto)
resolve, reject := po.createResolvingFunctions()
ex := r.vm.try(func() {
executor(FunctionCall{Arguments: []Value{resolve, reject}})
})
if ex != nil {
if fn, ok := reject.self.assertCallable(); ok {
fn(FunctionCall{Arguments: []Value{ex.val}})
}
}
return po.val
}
func (r *Runtime) promiseProto_then(call FunctionCall) Value {
thisObj := r.toObject(call.This)
if p, ok := thisObj.self.(*Promise); ok {
c := r.speciesConstructorObj(thisObj, r.getPromise())
resultCapability := r.newPromiseCapability(c)
return r.performPromiseThen(p, call.Argument(0), call.Argument(1), resultCapability)
}
panic(r.NewTypeError("Method Promise.prototype.then called on incompatible receiver %s", r.objectproto_toString(FunctionCall{This: thisObj})))
}
func (r *Runtime) newPromiseCapability(c *Object) *promiseCapability {
pcap := new(promiseCapability)
if c == r.getPromise() {
p := r.newPromise(r.getPromisePrototype())
pcap.resolveObj, pcap.rejectObj = p.createResolvingFunctions()
pcap.promise = p.val
} else {
var resolve, reject Value
executor := r.newNativeFunc(func(call FunctionCall) Value {
if resolve != nil {
panic(r.NewTypeError("resolve is already set"))
}
if reject != nil {
panic(r.NewTypeError("reject is already set"))
}
if arg := call.Argument(0); arg != _undefined {
resolve = arg
}
if arg := call.Argument(1); arg != _undefined {
reject = arg
}
return nil
}, "", 2)
pcap.promise = r.toConstructor(c)([]Value{executor}, c)
pcap.resolveObj = r.toObject(resolve)
r.toCallable(pcap.resolveObj) // make sure it's callable
pcap.rejectObj = r.toObject(reject)
r.toCallable(pcap.rejectObj)
}
return pcap
}
func (r *Runtime) performPromiseThen(p *Promise, onFulfilled, onRejected Value, resultCapability *promiseCapability) Value {
var onFulfilledJobCallback, onRejectedJobCallback *jobCallback
if f, ok := assertCallable(onFulfilled); ok {
onFulfilledJobCallback = &jobCallback{callback: f}
}
if f, ok := assertCallable(onRejected); ok {
onRejectedJobCallback = &jobCallback{callback: f}
}
fulfillReaction := &promiseReaction{
capability: resultCapability,
typ: promiseReactionFulfill,
handler: onFulfilledJobCallback,
}
rejectReaction := &promiseReaction{
capability: resultCapability,
typ: promiseReactionReject,
handler: onRejectedJobCallback,
}
p.addReactions(fulfillReaction, rejectReaction)
if resultCapability == nil {
return _undefined
}
return resultCapability.promise
}
func (r *Runtime) promiseProto_catch(call FunctionCall) Value {
return r.invoke(call.This, "then", _undefined, call.Argument(0))
}
func (r *Runtime) promiseResolve(c *Object, x Value) *Object {
if obj, ok := x.(*Object); ok {
xConstructor := nilSafe(obj.self.getStr("constructor", nil))
if xConstructor.SameAs(c) {
return obj
}
}
pcap := r.newPromiseCapability(c)
pcap.resolve(x)
return pcap.promise
}
func (r *Runtime) promiseProto_finally(call FunctionCall) Value {
promise := r.toObject(call.This)
c := r.speciesConstructorObj(promise, r.getPromise())
onFinally := call.Argument(0)
var thenFinally, catchFinally Value
if onFinallyFn, ok := assertCallable(onFinally); !ok {
thenFinally, catchFinally = onFinally, onFinally
} else {
thenFinally = r.newNativeFunc(func(call FunctionCall) Value {
value := call.Argument(0)
result := onFinallyFn(FunctionCall{})
promise := r.promiseResolve(c, result)
valueThunk := r.newNativeFunc(func(call FunctionCall) Value {
return value
}, "", 0)
return r.invoke(promise, "then", valueThunk)
}, "", 1)
catchFinally = r.newNativeFunc(func(call FunctionCall) Value {
reason := call.Argument(0)
result := onFinallyFn(FunctionCall{})
promise := r.promiseResolve(c, result)
thrower := r.newNativeFunc(func(call FunctionCall) Value {
panic(reason)
}, "", 0)
return r.invoke(promise, "then", thrower)
}, "", 1)
}
return r.invoke(promise, "then", thenFinally, catchFinally)
}
func (pcap *promiseCapability) resolve(result Value) {
pcap.promise.runtime.toCallable(pcap.resolveObj)(FunctionCall{Arguments: []Value{result}})
}
func (pcap *promiseCapability) reject(reason Value) {
pcap.promise.runtime.toCallable(pcap.rejectObj)(FunctionCall{Arguments: []Value{reason}})
}
func (pcap *promiseCapability) try(f func()) bool {
ex := pcap.promise.runtime.vm.try(f)
if ex != nil {
pcap.reject(ex.val)
return false
}
return true
}
func (r *Runtime) promise_all(call FunctionCall) Value {
c := r.toObject(call.This)
pcap := r.newPromiseCapability(c)
pcap.try(func() {
promiseResolve := r.toCallable(c.self.getStr("resolve", nil))
iter := r.getIterator(call.Argument(0), nil)
var values []Value
remainingElementsCount := 1
iter.iterate(func(nextValue Value) {
index := len(values)
values = append(values, _undefined)
nextPromise := promiseResolve(FunctionCall{This: c, Arguments: []Value{nextValue}})
alreadyCalled := false
onFulfilled := r.newNativeFunc(func(call FunctionCall) Value {
if alreadyCalled {
return _undefined
}
alreadyCalled = true
values[index] = call.Argument(0)
remainingElementsCount--
if remainingElementsCount == 0 {
pcap.resolve(r.newArrayValues(values))
}
return _undefined
}, "", 1)
remainingElementsCount++
r.invoke(nextPromise, "then", onFulfilled, pcap.rejectObj)
})
remainingElementsCount--
if remainingElementsCount == 0 {
pcap.resolve(r.newArrayValues(values))
}
})
return pcap.promise
}
func (r *Runtime) promise_allSettled(call FunctionCall) Value {
c := r.toObject(call.This)
pcap := r.newPromiseCapability(c)
pcap.try(func() {
promiseResolve := r.toCallable(c.self.getStr("resolve", nil))
iter := r.getIterator(call.Argument(0), nil)
var values []Value
remainingElementsCount := 1
iter.iterate(func(nextValue Value) {
index := len(values)
values = append(values, _undefined)
nextPromise := promiseResolve(FunctionCall{This: c, Arguments: []Value{nextValue}})
alreadyCalled := false
reaction := func(status Value, valueKey unistring.String) *Object {
return r.newNativeFunc(func(call FunctionCall) Value {
if alreadyCalled {
return _undefined
}
alreadyCalled = true
obj := r.NewObject()
obj.self._putProp("status", status, true, true, true)
obj.self._putProp(valueKey, call.Argument(0), true, true, true)
values[index] = obj
remainingElementsCount--
if remainingElementsCount == 0 {
pcap.resolve(r.newArrayValues(values))
}
return _undefined
}, "", 1)
}
onFulfilled := reaction(asciiString("fulfilled"), "value")
onRejected := reaction(asciiString("rejected"), "reason")
remainingElementsCount++
r.invoke(nextPromise, "then", onFulfilled, onRejected)
})
remainingElementsCount--
if remainingElementsCount == 0 {
pcap.resolve(r.newArrayValues(values))
}
})
return pcap.promise
}
func (r *Runtime) promise_any(call FunctionCall) Value {
c := r.toObject(call.This)
pcap := r.newPromiseCapability(c)
pcap.try(func() {
promiseResolve := r.toCallable(c.self.getStr("resolve", nil))
iter := r.getIterator(call.Argument(0), nil)
var errors []Value
remainingElementsCount := 1
iter.iterate(func(nextValue Value) {
index := len(errors)
errors = append(errors, _undefined)
nextPromise := promiseResolve(FunctionCall{This: c, Arguments: []Value{nextValue}})
alreadyCalled := false
onRejected := r.newNativeFunc(func(call FunctionCall) Value {
if alreadyCalled {
return _undefined
}
alreadyCalled = true
errors[index] = call.Argument(0)
remainingElementsCount--
if remainingElementsCount == 0 {
_error := r.builtin_new(r.getAggregateError(), nil)
_error.self._putProp("errors", r.newArrayValues(errors), true, false, true)
pcap.reject(_error)
}
return _undefined
}, "", 1)
remainingElementsCount++
r.invoke(nextPromise, "then", pcap.resolveObj, onRejected)
})
remainingElementsCount--
if remainingElementsCount == 0 {
_error := r.builtin_new(r.getAggregateError(), nil)
_error.self._putProp("errors", r.newArrayValues(errors), true, false, true)
pcap.reject(_error)
}
})
return pcap.promise
}
func (r *Runtime) promise_race(call FunctionCall) Value {
c := r.toObject(call.This)
pcap := r.newPromiseCapability(c)
pcap.try(func() {
promiseResolve := r.toCallable(c.self.getStr("resolve", nil))
iter := r.getIterator(call.Argument(0), nil)
iter.iterate(func(nextValue Value) {
nextPromise := promiseResolve(FunctionCall{This: c, Arguments: []Value{nextValue}})
r.invoke(nextPromise, "then", pcap.resolveObj, pcap.rejectObj)
})
})
return pcap.promise
}
func (r *Runtime) promise_reject(call FunctionCall) Value {
pcap := r.newPromiseCapability(r.toObject(call.This))
pcap.reject(call.Argument(0))
return pcap.promise
}
func (r *Runtime) promise_resolve(call FunctionCall) Value {
return r.promiseResolve(r.toObject(call.This), call.Argument(0))
}
func (r *Runtime) createPromiseProto(val *Object) objectImpl {
o := newBaseObjectObj(val, r.global.ObjectPrototype, classObject)
o._putProp("constructor", r.getPromise(), true, false, true)
o._putProp("catch", r.newNativeFunc(r.promiseProto_catch, "catch", 1), true, false, true)
o._putProp("finally", r.newNativeFunc(r.promiseProto_finally, "finally", 1), true, false, true)
o._putProp("then", r.newNativeFunc(r.promiseProto_then, "then", 2), true, false, true)
o._putSym(SymToStringTag, valueProp(asciiString(classPromise), false, false, true))
return o
}
func (r *Runtime) createPromise(val *Object) objectImpl {
o := r.newNativeConstructOnly(val, r.builtin_newPromise, r.getPromisePrototype(), "Promise", 1)
o._putProp("all", r.newNativeFunc(r.promise_all, "all", 1), true, false, true)
o._putProp("allSettled", r.newNativeFunc(r.promise_allSettled, "allSettled", 1), true, false, true)
o._putProp("any", r.newNativeFunc(r.promise_any, "any", 1), true, false, true)
o._putProp("race", r.newNativeFunc(r.promise_race, "race", 1), true, false, true)
o._putProp("reject", r.newNativeFunc(r.promise_reject, "reject", 1), true, false, true)
o._putProp("resolve", r.newNativeFunc(r.promise_resolve, "resolve", 1), true, false, true)
r.putSpeciesReturnThis(o)
return o
}
func (r *Runtime) getPromisePrototype() *Object {
ret := r.global.PromisePrototype
if ret == nil {
ret = &Object{runtime: r}
r.global.PromisePrototype = ret
ret.self = r.createPromiseProto(ret)
}
return ret
}
func (r *Runtime) getPromise() *Object {
ret := r.global.Promise
if ret == nil {
ret = &Object{runtime: r}
r.global.Promise = ret
ret.self = r.createPromise(ret)
}
return ret
}
func (r *Runtime) wrapPromiseReaction(fObj *Object) func(interface{}) {
f, _ := AssertFunction(fObj)
return func(x interface{}) {
_, _ = f(nil, r.ToValue(x))
}
}
// NewPromise creates and returns a Promise and resolving functions for it.
//
// WARNING: The returned values are not goroutine-safe and must not be called in parallel with VM running.
// In order to make use of this method you need an event loop such as the one in goja_nodejs (https://github.com/dop251/goja_nodejs)
// where it can be used like this:
//
// loop := NewEventLoop()
// loop.Start()
// defer loop.Stop()
// loop.RunOnLoop(func(vm *goja.Runtime) {
// p, resolve, _ := vm.NewPromise()
// vm.Set("p", p)
// go func() {
// time.Sleep(500 * time.Millisecond) // or perform any other blocking operation
// loop.RunOnLoop(func(*goja.Runtime) { // resolve() must be called on the loop, cannot call it here
// resolve(result)
// })
// }()
// }
func (r *Runtime) NewPromise() (promise *Promise, resolve func(result interface{}), reject func(reason interface{})) {
p := r.newPromise(r.getPromisePrototype())
resolveF, rejectF := p.createResolvingFunctions()
return p, r.wrapPromiseReaction(resolveF), r.wrapPromiseReaction(rejectF)
}
// SetPromiseRejectionTracker registers a function that will be called in two scenarios: when a promise is rejected
// without any handlers (with operation argument set to PromiseRejectionReject), and when a handler is added to a
// rejected promise for the first time (with operation argument set to PromiseRejectionHandle).
//
// Setting a tracker replaces any existing one. Setting it to nil disables the functionality.
//
// See https://tc39.es/ecma262/#sec-host-promise-rejection-tracker for more details.
func (r *Runtime) SetPromiseRejectionTracker(tracker PromiseRejectionTracker) {
r.promiseRejectionTracker = tracker
}
// SetAsyncContextTracker registers a handler that allows to track async execution contexts. See AsyncContextTracker
// documentation for more details. Setting it to nil disables the functionality.
// This method (as Runtime in general) is not goroutine-safe.
func (r *Runtime) SetAsyncContextTracker(tracker AsyncContextTracker) {
r.asyncContextTracker = tracker
}