bsc/jsre/jsre.go
zsfelfoldi c54d123b31 setTimeout and sendAsync implemented
added and eval queue for serializing JSRE vm execution
2015-05-06 15:58:27 +02:00

333 lines
7.8 KiB
Go

package jsre
import (
"fmt"
"io/ioutil"
"sync"
"time"
"github.com/ethereum/go-ethereum/common"
"github.com/robertkrimen/otto"
)
/*
JSRE is a generic JS runtime environment embedding the otto JS interpreter.
It provides some helper functions to
- load code from files
- run code snippets
- require libraries
- bind native go objects
*/
type JSRE struct {
assetPath string
vm *otto.Otto
evalQueue chan *evalReq
stopEventLoop chan bool
loopWg sync.WaitGroup
}
// jsTimer is a single timer instance with a callback function
type jsTimer struct {
timer *time.Timer
duration time.Duration
interval bool
call otto.FunctionCall
}
// evalResult is a structure to store the result of any serialized vm execution
type evalResult struct {
result otto.Value
err error
}
// evalReq is a serialized vm execution request put in evalQueue and processed by runEventLoop
type evalReq struct {
fn func(res *evalResult)
done chan bool
res evalResult
}
// runtime must be stopped with Stop() after use and cannot be used after stopping
func New(assetPath string) *JSRE {
re := &JSRE{
assetPath: assetPath,
vm: otto.New(),
}
// load prettyprint func definition
re.vm.Run(pp_js)
re.vm.Set("loadScript", re.loadScript)
re.evalQueue = make(chan *evalReq)
re.stopEventLoop = make(chan bool)
re.loopWg.Add(1)
go re.runEventLoop()
return re
}
// this function runs a piece of JS code either in a serialized way (when useEQ is true) or instantly, circumventing the evalQueue
func (self *JSRE) run(src interface{}, useEQ bool) (value otto.Value, err error) {
if useEQ {
done := make(chan bool)
req := &evalReq{
fn: func(res *evalResult) {
res.result, res.err = self.vm.Run(src)
},
done: done,
}
self.evalQueue <- req
<-done
return req.res.result, req.res.err
} else {
return self.vm.Run(src)
}
}
/*
This function runs the main event loop from a goroutine that is started
when JSRE is created. Use Stop() before exiting to properly stop it.
The event loop processes vm access requests from the evalQueue in a
serialized way and calls timer callback functions at the appropriate time.
Exported functions always access the vm through the event queue. You can
call the functions of the otto vm directly to circumvent the queue. These
functions should be used if and only if running a routine that was already
called from JS through an RPC call.
*/
func (self *JSRE) runEventLoop() {
registry := map[*jsTimer]*jsTimer{}
ready := make(chan *jsTimer)
newTimer := func(call otto.FunctionCall, interval bool) (*jsTimer, otto.Value) {
delay, _ := call.Argument(1).ToInteger()
if 0 >= delay {
delay = 1
}
timer := &jsTimer{
duration: time.Duration(delay) * time.Millisecond,
call: call,
interval: interval,
}
registry[timer] = timer
timer.timer = time.AfterFunc(timer.duration, func() {
ready <- timer
})
value, err := call.Otto.ToValue(timer)
if err != nil {
panic(err)
}
return timer, value
}
setTimeout := func(call otto.FunctionCall) otto.Value {
_, value := newTimer(call, false)
return value
}
setInterval := func(call otto.FunctionCall) otto.Value {
_, value := newTimer(call, true)
return value
}
clearTimeout := func(call otto.FunctionCall) otto.Value {
timer, _ := call.Argument(0).Export()
if timer, ok := timer.(*jsTimer); ok {
timer.timer.Stop()
delete(registry, timer)
}
return otto.UndefinedValue()
}
var waitForCallbacks bool
loop:
for {
select {
case timer := <-ready:
// execute callback, remove/reschedule the timer
var arguments []interface{}
if len(timer.call.ArgumentList) > 2 {
tmp := timer.call.ArgumentList[2:]
arguments = make([]interface{}, 2+len(tmp))
for i, value := range tmp {
arguments[i+2] = value
}
} else {
arguments = make([]interface{}, 1)
}
arguments[0] = timer.call.ArgumentList[0]
_, err := self.vm.Call(`Function.call.call`, nil, arguments...)
if err != nil {
break loop
}
if timer.interval {
timer.timer.Reset(timer.duration)
} else {
delete(registry, timer)
if waitForCallbacks && (len(registry) == 0) {
break loop
}
}
case evalReq := <-self.evalQueue:
// run the code, send the result back
self.vm.Set("setTimeout", setTimeout)
self.vm.Set("setInterval", setInterval)
self.vm.Set("clearTimeout", clearTimeout)
self.vm.Set("clearInterval", clearTimeout)
evalReq.fn(&evalReq.res)
close(evalReq.done)
if waitForCallbacks && (len(registry) == 0) {
break loop
}
case waitForCallbacks = <-self.stopEventLoop:
if !waitForCallbacks || (len(registry) == 0) {
break loop
}
}
}
for _, timer := range registry {
timer.timer.Stop()
delete(registry, timer)
}
self.loopWg.Done()
}
// stops the event loop before exit, optionally waits for all timers to expire
func (self *JSRE) Stop(waitForCallbacks bool) {
self.stopEventLoop <- waitForCallbacks
self.loopWg.Wait()
}
// Exec(file) loads and runs the contents of a file
// if a relative path is given, the jsre's assetPath is used
func (self *JSRE) Exec(file string) error {
return self.exec(common.AbsolutePath(self.assetPath, file), true)
}
// circumvents the eval queue, see runEventLoop
func (self *JSRE) execWithoutEQ(file string) error {
return self.exec(common.AbsolutePath(self.assetPath, file), false)
}
func (self *JSRE) exec(path string, useEQ bool) error {
code, err := ioutil.ReadFile(path)
if err != nil {
return err
}
_, err = self.run(code, useEQ)
return err
}
// assigns value v to a variable in the JS environment
func (self *JSRE) Bind(name string, v interface{}) (err error) {
self.Set(name, v)
return
}
// runs a piece of JS code
func (self *JSRE) Run(code string) (otto.Value, error) {
return self.run(code, true)
}
// returns the value of a variable in the JS environment
func (self *JSRE) Get(ns string) (otto.Value, error) {
done := make(chan bool)
req := &evalReq{
fn: func(res *evalResult) {
res.result, res.err = self.vm.Get(ns)
},
done: done,
}
self.evalQueue <- req
<-done
return req.res.result, req.res.err
}
// assigns value v to a variable in the JS environment
func (self *JSRE) Set(ns string, v interface{}) error {
done := make(chan bool)
req := &evalReq{
fn: func(res *evalResult) {
res.err = self.vm.Set(ns, v)
},
done: done,
}
self.evalQueue <- req
<-done
return req.res.err
}
/*
Executes a JS script from inside the currently executing JS code.
Should only be called from inside an RPC routine.
*/
func (self *JSRE) loadScript(call otto.FunctionCall) otto.Value {
file, err := call.Argument(0).ToString()
if err != nil {
return otto.FalseValue()
}
if err := self.execWithoutEQ(file); err != nil { // loadScript is only called from inside js
fmt.Println("err:", err)
return otto.FalseValue()
}
return otto.TrueValue()
}
// uses the "prettyPrint" JS function to format a value
func (self *JSRE) PrettyPrint(v interface{}) (val otto.Value, err error) {
var method otto.Value
v, err = self.vm.ToValue(v)
if err != nil {
return
}
method, err = self.vm.Get("prettyPrint")
if err != nil {
return
}
return method.Call(method, v)
}
// creates an otto value from a go type
func (self *JSRE) ToVal(v interface{}) otto.Value {
result, err := self.vm.ToValue(v)
if err != nil {
fmt.Println("Value unknown:", err)
return otto.UndefinedValue()
}
return result
}
// evaluates JS function and returns result in a pretty printed string format
func (self *JSRE) Eval(code string) (s string, err error) {
var val otto.Value
val, err = self.Run(code)
if err != nil {
return
}
val, err = self.PrettyPrint(val)
if err != nil {
return
}
return fmt.Sprintf("%v", val), nil
}
// compiles and then runs a piece of JS code
func (self *JSRE) Compile(fn string, src interface{}) error {
script, err := self.vm.Compile(fn, src)
if err != nil {
return err
}
self.run(script, true)
return nil
}