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page_eval.go
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page_eval.go
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// This file serves for the Page.Evaluate.
package rod
import (
"errors"
"fmt"
"strings"
"time"
"github.com/go-rod/rod/lib/cdp"
"github.com/go-rod/rod/lib/js"
"github.com/go-rod/rod/lib/proto"
"github.com/go-rod/rod/lib/utils"
"github.com/ysmood/gson"
)
// EvalOptions for Page.Evaluate.
type EvalOptions struct {
// If enabled the eval result will be a plain JSON value.
// If disabled the eval result will be a reference of a remote js object.
ByValue bool
AwaitPromise bool
// ThisObj represents the "this" object in the JS
ThisObj *proto.RuntimeRemoteObject
// JS function definition to execute.
JS string
// JSArgs represents the arguments that will be passed to JS.
// If an argument is [*proto.RuntimeRemoteObject] type, the corresponding remote object will be used.
// Or it will be passed as a plain JSON value.
// When an arg in the args is a *js.Function, the arg will be cached on the page's js context.
// When the arg.Name exists in the page's cache, it reuse the cache without sending
// the definition to the browser again.
// Useful when you need to eval a huge js expression many times.
JSArgs []interface{}
// Whether execution should be treated as initiated by user in the UI.
UserGesture bool
}
// Eval creates a [EvalOptions] with ByValue set to true.
func Eval(js string, args ...interface{}) *EvalOptions {
return &EvalOptions{
ByValue: true,
AwaitPromise: false,
ThisObj: nil,
JS: js,
JSArgs: args,
UserGesture: false,
}
}
func evalHelper(fn *js.Function, args ...interface{}) *EvalOptions {
return &EvalOptions{
ByValue: true,
JSArgs: append([]interface{}{fn}, args...),
JS: fmt.Sprintf(`function (f /* %s */, ...args) { return f.apply(this, args) }`, fn.Name),
}
}
// String interface.
func (e *EvalOptions) String() string {
fn := e.JS
args := e.JSArgs
paramsStr := ""
thisStr := ""
if e.ThisObj != nil {
thisStr = e.ThisObj.Description
}
if len(args) > 0 {
if f, ok := args[0].(*js.Function); ok {
fn = "rod." + f.Name
args = e.JSArgs[1:]
}
paramsStr = strings.Trim(mustToJSONForDev(args), "[]\r\n")
}
return fmt.Sprintf("%s(%s) %s", fn, paramsStr, thisStr)
}
// This set the obj as ThisObj.
func (e *EvalOptions) This(obj *proto.RuntimeRemoteObject) *EvalOptions {
e.ThisObj = obj
return e
}
// ByObject disables ByValue.
func (e *EvalOptions) ByObject() *EvalOptions {
e.ByValue = false
return e
}
// ByUser enables UserGesture.
func (e *EvalOptions) ByUser() *EvalOptions {
e.UserGesture = true
return e
}
// ByPromise enables AwaitPromise.
func (e *EvalOptions) ByPromise() *EvalOptions {
e.AwaitPromise = true
return e
}
func (e *EvalOptions) formatToJSFunc() string {
js := strings.Trim(e.JS, "\t\n\v\f\r ;")
return `function() { return (` + js + `).apply(this, arguments) }`
}
// Eval is a shortcut for [Page.Evaluate] with AwaitPromise, ByValue set to true.
func (p *Page) Eval(js string, args ...interface{}) (*proto.RuntimeRemoteObject, error) {
return p.Evaluate(Eval(js, args...).ByPromise())
}
// Evaluate js on the page.
func (p *Page) Evaluate(opts *EvalOptions) (res *proto.RuntimeRemoteObject, err error) {
var backoff utils.Sleeper
// js context will be invalid if a frame is reloaded or not ready, then the isNilContextErr
// will be true, then we retry the eval again.
for {
res, err = p.evaluate(opts)
if err != nil && errors.Is(err, cdp.ErrCtxNotFound) {
if opts.ThisObj != nil {
return nil, &ObjectNotFoundError{opts.ThisObj}
}
if backoff == nil {
backoff = utils.BackoffSleeper(30*time.Millisecond, 3*time.Second, nil)
} else {
_ = backoff(p.ctx)
}
p.unsetJSCtxID()
continue
}
return
}
}
func (p *Page) evaluate(opts *EvalOptions) (*proto.RuntimeRemoteObject, error) {
args, err := p.formatArgs(opts)
if err != nil {
return nil, err
}
req := proto.RuntimeCallFunctionOn{
AwaitPromise: opts.AwaitPromise,
ReturnByValue: opts.ByValue,
UserGesture: opts.UserGesture,
FunctionDeclaration: opts.formatToJSFunc(),
Arguments: args,
}
if opts.ThisObj == nil {
req.ObjectID, err = p.getJSCtxID()
if err != nil {
return nil, err
}
} else {
req.ObjectID = opts.ThisObj.ObjectID
}
res, err := req.Call(p)
if err != nil {
return nil, err
}
if res.ExceptionDetails != nil {
return nil, &EvalError{res.ExceptionDetails}
}
return res.Result, nil
}
// Expose fn to the page's window object with the name. The exposure survives reloads.
// Call stop to unbind the fn.
func (p *Page) Expose(name string, fn func(gson.JSON) (interface{}, error)) (stop func() error, err error) {
bind := "_" + utils.RandString(8)
err = proto.RuntimeAddBinding{Name: bind}.Call(p)
if err != nil {
return
}
_, err = p.Evaluate(Eval(js.ExposeFunc.Definition, name, bind))
if err != nil {
return
}
code := fmt.Sprintf(`(%s)("%s", "%s")`, js.ExposeFunc.Definition, name, bind)
remove, err := p.EvalOnNewDocument(code)
if err != nil {
return
}
p, cancel := p.WithCancel()
stop = func() error {
defer cancel()
err := remove()
if err != nil {
return err
}
return proto.RuntimeRemoveBinding{Name: bind}.Call(p)
}
go p.EachEvent(func(e *proto.RuntimeBindingCalled) {
if e.Name == bind {
payload := gson.NewFrom(e.Payload)
res, err := fn(payload.Get("req"))
code := fmt.Sprintf("(res, err) => %s(res, err)", payload.Get("cb").Str())
_, _ = p.Evaluate(Eval(code, res, err))
}
})()
return
}
func (p *Page) formatArgs(opts *EvalOptions) ([]*proto.RuntimeCallArgument, error) {
formatted := []*proto.RuntimeCallArgument{}
for _, arg := range opts.JSArgs {
if obj, ok := arg.(*proto.RuntimeRemoteObject); ok { // remote object
formatted = append(formatted, &proto.RuntimeCallArgument{ObjectID: obj.ObjectID})
} else if obj, ok := arg.(*js.Function); ok { // js helper
id, err := p.ensureJSHelper(obj)
if err != nil {
return nil, err
}
formatted = append(formatted, &proto.RuntimeCallArgument{ObjectID: id})
} else { // plain json data
formatted = append(formatted, &proto.RuntimeCallArgument{Value: gson.New(arg)})
}
}
return formatted, nil
}
// Check the doc of EvalHelper.
func (p *Page) ensureJSHelper(fn *js.Function) (proto.RuntimeRemoteObjectID, error) {
jsCtxID, err := p.getJSCtxID()
if err != nil {
return "", err
}
fnID, has := p.getHelper(jsCtxID, js.Functions.Name)
if !has {
res, err := proto.RuntimeCallFunctionOn{
ObjectID: jsCtxID,
FunctionDeclaration: js.Functions.Definition,
}.Call(p)
if err != nil {
return "", err
}
fnID = res.Result.ObjectID
p.setHelper(jsCtxID, js.Functions.Name, fnID)
}
id, has := p.getHelper(jsCtxID, fn.Name)
if !has {
for _, dep := range fn.Dependencies {
_, err := p.ensureJSHelper(dep)
if err != nil {
return "", err
}
}
res, err := proto.RuntimeCallFunctionOn{
ObjectID: jsCtxID,
Arguments: []*proto.RuntimeCallArgument{{ObjectID: fnID}},
FunctionDeclaration: fmt.Sprintf(
// we only need the object id, but the cdp will return the whole function string.
// So we override the toString to reduce the overhead.
"functions => { const f = functions.%s = %s; f.toString = () => 'fn'; return f }",
fn.Name, fn.Definition,
),
}.Call(p)
if err != nil {
return "", err
}
id = res.Result.ObjectID
p.setHelper(jsCtxID, fn.Name, id)
}
return id, nil
}
func (p *Page) getHelper(jsCtxID proto.RuntimeRemoteObjectID, name string) (proto.RuntimeRemoteObjectID, bool) {
p.helpersLock.Lock()
defer p.helpersLock.Unlock()
if p.helpers == nil {
p.helpers = map[proto.RuntimeRemoteObjectID]map[string]proto.RuntimeRemoteObjectID{}
}
list, ok := p.helpers[jsCtxID]
if !ok {
list = map[string]proto.RuntimeRemoteObjectID{}
p.helpers[jsCtxID] = list
}
id, ok := list[name]
return id, ok
}
func (p *Page) setHelper(jsCtxID proto.RuntimeRemoteObjectID, name string, fnID proto.RuntimeRemoteObjectID) {
p.helpersLock.Lock()
defer p.helpersLock.Unlock()
p.helpers[jsCtxID][name] = fnID
}
// Returns the page's window object, the page can be an iframe.
func (p *Page) getJSCtxID() (proto.RuntimeRemoteObjectID, error) {
p.jsCtxLock.Lock()
defer p.jsCtxLock.Unlock()
if *p.jsCtxID != "" {
return *p.jsCtxID, nil
}
if !p.IsIframe() {
obj, err := proto.RuntimeEvaluate{Expression: "window"}.Call(p)
if err != nil {
return "", err
}
*p.jsCtxID = obj.Result.ObjectID
p.helpersLock.Lock()
p.helpers = nil
p.helpersLock.Unlock()
return *p.jsCtxID, nil
}
node, err := p.element.Describe(1, true)
if err != nil {
return "", err
}
obj, err := proto.DOMResolveNode{BackendNodeID: node.ContentDocument.BackendNodeID}.Call(p)
if err != nil {
return "", err
}
p.helpersLock.Lock()
delete(p.helpers, *p.jsCtxID)
p.helpersLock.Unlock()
id, err := p.jsCtxIDByObjectID(obj.Object.ObjectID)
*p.jsCtxID = id
return *p.jsCtxID, err
}
func (p *Page) unsetJSCtxID() {
p.jsCtxLock.Lock()
defer p.jsCtxLock.Unlock()
*p.jsCtxID = ""
}
func (p *Page) jsCtxIDByObjectID(id proto.RuntimeRemoteObjectID) (proto.RuntimeRemoteObjectID, error) {
res, err := proto.RuntimeCallFunctionOn{
ObjectID: id,
FunctionDeclaration: `() => window`,
}.Call(p)
if err != nil {
return "", err
}
return res.Result.ObjectID, nil
}