package chromedp import ( "time" "github.com/knq/chromedp/cdp" "github.com/knq/chromedp/cdp/util" ) const ( // DefaultNewTargetTimeout is the default time to wait for a new target to // be started. DefaultNewTargetTimeout = 3 * time.Second // DefaultCheckDuration is the default time to sleep between a check. DefaultCheckDuration = 50 * time.Millisecond // DefaultPoolStartPort is the default start port number. DefaultPoolStartPort = 9000 // DefaultPoolEndPort is the default end port number. DefaultPoolEndPort = 10000 // EmptyFrameID is the "non-existent" (ie current) frame. EmptyFrameID cdp.FrameID = cdp.FrameID("") // EmptyNodeID is the "non-existent" node id. EmptyNodeID cdp.NodeID = cdp.NodeID(0) // textJS is a javascript snippet that returns the concatenated textContent // of all visible (ie, offsetParent !== null) children. textJS = `(function(a) { var s = ''; for (var i = 0; i < a.length; i++) { if (a[i].offsetParent !== null) { s += a[i].textContent; } } return s; })($x("%s/node()"))` // blurJS is a javscript snippet that blurs the specified element. blurJS = `(function(a) { a[0].blur(); return true; })($x('%s'))` // scrollJS is a javascript snippet that scrolls the window to the // specified x, y coordinates and then returns the actual window x/y after // execution. scrollJS = `(function(x, y) { window.scrollTo(x, y); return [window.scrollX, window.scrollY]; })(%d, %d)` // submitJS is a javascript snippet that will call the containing form's // submit function, returning true or false if the call was successful. submitJS = `(function(a) { if (a[0].nodeName === 'FORM') { a[0].submit(); return true; } else if (a[0].form !== null) { a[0].form.submit(); return true; } return false; })($x('%s'))` // resetJS is a javascript snippet that will call the containing form's // reset function, returning true or false if the call was successful. resetJS = `(function(a) { if (a[0].nodeName === 'FORM') { a[0].reset(); return true; } else if (a[0].form !== null) { a[0].form.reset(); return true; } return false; })($x('%s'))` // valueJS is a javascript snippet that returns the value of a specified // node. valueJS = `(function(a) { return a[0].value; })($x('%s'))` // setValueJS is a javascript snippet that sets the value of the specified // node, and returns the value. setValueJS = `(function(a, val) { return a[0].value = val; })($x('%s'), '%s')` // visibleJS is a javascript snippet that returns true or false depending // on if the specified node's offsetParent is not null. visibleJS = `(function(a) { return a[0].offsetParent !== null })($x('%s'))` ) // UnmarshalMessage unmarshals the message result or params. func UnmarshalMessage(msg *cdp.Message) (interface{}, error) { return util.UnmarshalMessage(msg) } // frameOp is a frame manipulation operation. type frameOp func(*cdp.Frame) /*func domContentEventFired(f *cdp.Frame) { } func loadEventFired(f *cdp.Frame) { }*/ func frameAttached(id cdp.FrameID) frameOp { return func(f *cdp.Frame) { f.ParentID = id setFrameState(f, cdp.FrameAttached) } } /*func frameNavigated(f *cdp.Frame) { setFrameState(f, cdp.FrameNavigated) }*/ func frameDetached(f *cdp.Frame) { f.ParentID = EmptyFrameID clearFrameState(f, cdp.FrameAttached) } func frameStartedLoading(f *cdp.Frame) { setFrameState(f, cdp.FrameLoading) } func frameStoppedLoading(f *cdp.Frame) { clearFrameState(f, cdp.FrameLoading) } func frameScheduledNavigation(f *cdp.Frame) { setFrameState(f, cdp.FrameScheduledNavigation) } func frameClearedScheduledNavigation(f *cdp.Frame) { clearFrameState(f, cdp.FrameScheduledNavigation) } /*func frameResized(f *cdp.Frame) { // TODO }*/ // setFrameState sets the frame state via bitwise or (|). func setFrameState(f *cdp.Frame, fs cdp.FrameState) { f.State |= fs } // clearFrameState clears the frame state via bit clear (&^). func clearFrameState(f *cdp.Frame, fs cdp.FrameState) { f.State &^= fs } // nodeOp is a node manipulation operation. type nodeOp func(*cdp.Node) func walk(m map[cdp.NodeID]*cdp.Node, n *cdp.Node) { m[n.NodeID] = n for _, c := range n.Children { c.Parent = n c.Invalidated = n.Invalidated walk(m, c) } for _, c := range n.ShadowRoots { c.Parent = n c.Invalidated = n.Invalidated walk(m, c) } for _, c := range n.PseudoElements { c.Parent = n c.Invalidated = n.Invalidated walk(m, c) } for _, c := range []*cdp.Node{n.ContentDocument, n.TemplateContent, n.ImportedDocument} { if c == nil { continue } c.Parent = n c.Invalidated = n.Invalidated walk(m, c) } } func setChildNodes(m map[cdp.NodeID]*cdp.Node, nodes []*cdp.Node) nodeOp { return func(n *cdp.Node) { n.Children = nodes walk(m, n) } } func attributeModified(name, value string) nodeOp { return func(n *cdp.Node) { var found bool i := 0 for ; i < len(n.Attributes); i += 2 { if n.Attributes[i] == name { found = true break } } if found { n.Attributes[i] = name n.Attributes[i+1] = value } else { n.Attributes = append(n.Attributes, name, value) } } } func attributeRemoved(name string) nodeOp { return func(n *cdp.Node) { var a []string for i := 0; i < len(n.Attributes); i += 2 { if n.Attributes[i] == name { continue } a = append(a, n.Attributes[i], n.Attributes[i+1]) } n.Attributes = a } } func inlineStyleInvalidated(ids []cdp.NodeID) nodeOp { return func(n *cdp.Node) { } } func characterDataModified(characterData string) nodeOp { return func(n *cdp.Node) { n.Value = characterData } } func childNodeCountUpdated(count int64) nodeOp { return func(n *cdp.Node) { n.ChildNodeCount = count } } func childNodeInserted(m map[cdp.NodeID]*cdp.Node, prevID cdp.NodeID, c *cdp.Node) nodeOp { return func(n *cdp.Node) { n.Children = insertNode(n.Children, prevID, c) walk(m, n) } } func childNodeRemoved(m map[cdp.NodeID]*cdp.Node, id cdp.NodeID) nodeOp { return func(n *cdp.Node) { n.Children = removeNode(n.Children, id) //delete(m, id) } } func shadowRootPushed(m map[cdp.NodeID]*cdp.Node, c *cdp.Node) nodeOp { return func(n *cdp.Node) { n.ShadowRoots = append(n.ShadowRoots, c) walk(m, n) } } func shadowRootPopped(m map[cdp.NodeID]*cdp.Node, id cdp.NodeID) nodeOp { return func(n *cdp.Node) { n.ShadowRoots = removeNode(n.ShadowRoots, id) //delete(m, id) } } func pseudoElementAdded(m map[cdp.NodeID]*cdp.Node, c *cdp.Node) nodeOp { return func(n *cdp.Node) { n.PseudoElements = append(n.PseudoElements, c) walk(m, n) } } func pseudoElementRemoved(m map[cdp.NodeID]*cdp.Node, id cdp.NodeID) nodeOp { return func(n *cdp.Node) { n.PseudoElements = removeNode(n.PseudoElements, id) //delete(m, id) } } func distributedNodesUpdated(nodes []*cdp.BackendNode) nodeOp { return func(n *cdp.Node) { n.DistributedNodes = nodes } } func nodeHighlightRequested(n *cdp.Node) { // TODO } func insertNode(n []*cdp.Node, prevID cdp.NodeID, c *cdp.Node) []*cdp.Node { i := 0 found := false for ; i < len(n); i++ { if n[i].NodeID == prevID { found = true break } } if !found { return append(n, c) } i++ n = append(n, nil) copy(n[i+1:], n[i:]) n[i] = c return n } func removeNode(n []*cdp.Node, id cdp.NodeID) []*cdp.Node { if len(n) == 0 { return n } var found bool i := 0 for ; i < len(n); i++ { if n[i].NodeID == id { found = true break } } if !found { return n } return append(n[:i], n[i+1:]...) } // isCouldNotComputeBoxModelError unwraps err as a MessageError and determines // if it is a compute box model error. func isCouldNotComputeBoxModelError(err error) bool { e, ok := err.(*cdp.MessageError) return ok && e.Code == -32000 && e.Message == "Could not compute box model." }