/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ //! A safe wrapper for DOM nodes that prevents layout from mutating the DOM, from letting DOM nodes //! escape, and from generally doing anything that it isn't supposed to. This is accomplished via //! a simple whitelist of allowed operations, along with some lifetime magic to prevent nodes from //! escaping. //! //! As a security wrapper is only as good as its whitelist, be careful when adding operations to //! this list. The cardinal rules are: //! //! 1. Layout is not allowed to mutate the DOM. //! //! 2. Layout is not allowed to see anything with `LayoutJS` in the name, because it could hang //! onto these objects and cause use-after-free. //! //! When implementing wrapper functions, be careful that you do not touch the borrow flags, or you //! will race and cause spurious thread failure. (Note that I do not believe these races are //! exploitable, but they'll result in brokenness nonetheless.) //! //! Rules of the road for this file: //! //! * Do not call any methods on DOM nodes without checking to see whether they use borrow flags. //! //! o Instead of `get_attr()`, use `.get_attr_val_for_layout()`. //! //! o Instead of `html_element_in_html_document()`, use //! `html_element_in_html_document_for_layout()`. #![allow(unsafe_code)] use dom::bindings::inheritance::{CharacterDataTypeId, ElementTypeId}; use dom::bindings::inheritance::{HTMLElementTypeId, NodeTypeId}; use dom::bindings::js::LayoutJS; use dom::characterdata::LayoutCharacterDataHelpers; use dom::document::{Document, LayoutDocumentHelpers}; use dom::element::{Element, LayoutElementHelpers, RawLayoutElementHelpers}; use dom::node::{CAN_BE_FRAGMENTED, HAS_CHANGED, HAS_DIRTY_DESCENDANTS, IS_DIRTY}; use dom::node::{Node, LayoutNodeHelpers}; use dom::text::Text; use gfx_traits::ByteIndex; use msg::constellation_msg::PipelineId; use range::Range; use script_layout_interface::restyle_damage::RestyleDamage; use script_layout_interface::wrapper_traits::{DangerousThreadSafeLayoutNode, LayoutNode, PseudoElementType}; use script_layout_interface::wrapper_traits::{ThreadSafeLayoutNode, ThreadSafeLayoutElement}; use script_layout_interface::{HTMLCanvasData, LayoutNodeType, TrustedNodeAddress}; use script_layout_interface::{OpaqueStyleAndLayoutData, PartialStyleAndLayoutData}; use selectors::matching::{DeclarationBlock, ElementFlags}; use selectors::parser::{AttrSelector, NamespaceConstraint}; use smallvec::VecLike; use std::marker::PhantomData; use std::mem::{transmute, transmute_copy}; use string_cache::{Atom, BorrowedAtom, BorrowedNamespace, Namespace}; use style::attr::AttrValue; use style::computed_values::display; use style::dom::{PresentationalHintsSynthetizer, OpaqueNode, TDocument, TElement, TNode, UnsafeNode}; use style::element_state::*; use style::properties::{ComputedValues, ServoComputedValues}; use style::properties::{PropertyDeclaration, PropertyDeclarationBlock}; use style::refcell::{Ref, RefCell, RefMut}; use style::restyle_hints::ElementSnapshot; use style::selector_impl::{NonTSPseudoClass, ServoSelectorImpl}; use style::servo::{PrivateStyleData, SharedStyleContext}; use url::Url; use util::str::is_whitespace; #[derive(Copy, Clone)] pub struct ServoLayoutNode<'a> { /// The wrapped node. node: LayoutJS, /// Being chained to a PhantomData prevents `LayoutNode`s from escaping. chain: PhantomData<&'a ()>, } impl<'a> PartialEq for ServoLayoutNode<'a> { #[inline] fn eq(&self, other: &ServoLayoutNode) -> bool { self.node == other.node } } impl<'ln> ServoLayoutNode<'ln> { fn from_layout_js(n: LayoutJS) -> ServoLayoutNode<'ln> { ServoLayoutNode { node: n, chain: PhantomData, } } pub unsafe fn new(address: &TrustedNodeAddress) -> ServoLayoutNode { ServoLayoutNode::from_layout_js(LayoutJS::from_trusted_node_address(*address)) } /// Creates a new layout node with the same lifetime as this layout node. pub unsafe fn new_with_this_lifetime(&self, node: &LayoutJS) -> ServoLayoutNode<'ln> { ServoLayoutNode { node: *node, chain: self.chain, } } fn script_type_id(&self) -> NodeTypeId { unsafe { self.node.type_id_for_layout() } } } impl<'ln> TNode for ServoLayoutNode<'ln> { type ConcreteComputedValues = ServoComputedValues; type ConcreteElement = ServoLayoutElement<'ln>; type ConcreteDocument = ServoLayoutDocument<'ln>; type ConcreteRestyleDamage = RestyleDamage; fn to_unsafe(&self) -> UnsafeNode { unsafe { let ptr: usize = transmute_copy(self); (ptr, 0) } } unsafe fn from_unsafe(n: &UnsafeNode) -> Self { let (node, _) = *n; transmute(node) } fn is_text_node(&self) -> bool { self.script_type_id() == NodeTypeId::CharacterData(CharacterDataTypeId::Text) } fn is_element(&self) -> bool { unsafe { self.node.is_element_for_layout() } } fn dump(self) { self.dump_indent(0); } fn opaque(&self) -> OpaqueNode { unsafe { self.get_jsmanaged().opaque() } } fn layout_parent_node(self, reflow_root: OpaqueNode) -> Option> { if self.opaque() == reflow_root { None } else { self.parent_node() } } fn debug_id(self) -> usize { self.opaque().0 } fn children_count(&self) -> u32 { unsafe { self.node.children_count() } } fn as_element(&self) -> Option> { as_element(self.node) } fn as_document(&self) -> Option> { self.node.downcast().map(ServoLayoutDocument::from_layout_js) } fn has_changed(&self) -> bool { unsafe { self.node.get_flag(HAS_CHANGED) } } unsafe fn set_changed(&self, value: bool) { self.node.set_flag(HAS_CHANGED, value) } fn is_dirty(&self) -> bool { unsafe { self.node.get_flag(IS_DIRTY) } } unsafe fn set_dirty(&self, value: bool) { self.node.set_flag(IS_DIRTY, value) } fn has_dirty_descendants(&self) -> bool { unsafe { self.node.get_flag(HAS_DIRTY_DESCENDANTS) } } unsafe fn set_dirty_descendants(&self, value: bool) { self.node.set_flag(HAS_DIRTY_DESCENDANTS, value) } fn can_be_fragmented(&self) -> bool { unsafe { self.node.get_flag(CAN_BE_FRAGMENTED) } } unsafe fn set_can_be_fragmented(&self, value: bool) { self.node.set_flag(CAN_BE_FRAGMENTED, value) } unsafe fn borrow_data_unchecked(&self) -> Option<*const PrivateStyleData> { self.get_style_data().map(|d| { &(*d.as_unsafe_cell().get()).style_data as *const _ }) } fn borrow_data(&self) -> Option> { self.get_style_data().map(|d| { Ref::map(d.borrow(), |d| &d.style_data) }) } fn mutate_data(&self) -> Option> { self.get_style_data().map(|d| { RefMut::map(d.borrow_mut(), |d| &mut d.style_data) }) } fn restyle_damage(self) -> RestyleDamage { self.get_style_data().unwrap().borrow().restyle_damage } fn set_restyle_damage(self, damage: RestyleDamage) { self.get_style_data().unwrap().borrow_mut().restyle_damage = damage; } fn parent_node(&self) -> Option> { unsafe { self.node.parent_node_ref().map(|node| self.new_with_this_lifetime(&node)) } } fn first_child(&self) -> Option> { unsafe { self.node.first_child_ref().map(|node| self.new_with_this_lifetime(&node)) } } fn last_child(&self) -> Option> { unsafe { self.node.last_child_ref().map(|node| self.new_with_this_lifetime(&node)) } } fn prev_sibling(&self) -> Option> { unsafe { self.node.prev_sibling_ref().map(|node| self.new_with_this_lifetime(&node)) } } fn next_sibling(&self) -> Option> { unsafe { self.node.next_sibling_ref().map(|node| self.new_with_this_lifetime(&node)) } } } impl<'ln> LayoutNode for ServoLayoutNode<'ln> { type ConcreteThreadSafeLayoutNode = ServoThreadSafeLayoutNode<'ln>; fn to_threadsafe(&self) -> Self::ConcreteThreadSafeLayoutNode { ServoThreadSafeLayoutNode::new(self) } fn type_id(&self) -> LayoutNodeType { self.script_type_id().into() } fn get_style_data(&self) -> Option<&RefCell> { unsafe { self.get_jsmanaged().get_style_and_layout_data().map(|d| { &**d.ptr }) } } fn init_style_and_layout_data(&self, data: OpaqueStyleAndLayoutData) { unsafe { self.get_jsmanaged().init_style_and_layout_data(data); } } fn get_style_and_layout_data(&self) -> Option { unsafe { self.get_jsmanaged().get_style_and_layout_data() } } } impl<'ln> ServoLayoutNode<'ln> { fn dump_indent(self, indent: u32) { let mut s = String::new(); for _ in 0..indent { s.push_str(" "); } s.push_str(&self.debug_str()); println!("{}", s); for kid in self.children() { kid.dump_indent(indent + 1); } } fn debug_str(self) -> String { format!("{:?}: changed={} dirty={} dirty_descendants={}", self.script_type_id(), self.has_changed(), self.is_dirty(), self.has_dirty_descendants()) } /// Returns the interior of this node as a `LayoutJS`. This is highly unsafe for layout to /// call and as such is marked `unsafe`. unsafe fn get_jsmanaged(&self) -> &LayoutJS { &self.node } } // A wrapper around documents that ensures ayout can only ever access safe properties. #[derive(Copy, Clone)] pub struct ServoLayoutDocument<'ld> { document: LayoutJS, chain: PhantomData<&'ld ()>, } impl<'ld> TDocument for ServoLayoutDocument<'ld> { type ConcreteNode = ServoLayoutNode<'ld>; type ConcreteElement = ServoLayoutElement<'ld>; fn as_node(&self) -> ServoLayoutNode<'ld> { ServoLayoutNode::from_layout_js(self.document.upcast()) } fn root_node(&self) -> Option> { self.as_node().children().find(ServoLayoutNode::is_element) } fn drain_modified_elements(&self) -> Vec<(ServoLayoutElement<'ld>, ElementSnapshot)> { let elements = unsafe { self.document.drain_modified_elements() }; elements.into_iter().map(|(el, snapshot)| (ServoLayoutElement::from_layout_js(el), snapshot)).collect() } } impl<'ld> ServoLayoutDocument<'ld> { fn from_layout_js(doc: LayoutJS) -> ServoLayoutDocument<'ld> { ServoLayoutDocument { document: doc, chain: PhantomData, } } } /// A wrapper around elements that ensures layout can only ever access safe properties. #[derive(Copy, Clone)] pub struct ServoLayoutElement<'le> { element: LayoutJS, chain: PhantomData<&'le ()>, } impl<'le> PresentationalHintsSynthetizer for ServoLayoutElement<'le> { fn synthesize_presentational_hints_for_legacy_attributes(&self, hints: &mut V) where V: VecLike>> { unsafe { self.element.synthesize_presentational_hints_for_legacy_attributes(hints); } } } impl<'le> TElement for ServoLayoutElement<'le> { type ConcreteNode = ServoLayoutNode<'le>; type ConcreteDocument = ServoLayoutDocument<'le>; fn as_node(&self) -> ServoLayoutNode<'le> { ServoLayoutNode::from_layout_js(self.element.upcast()) } fn style_attribute(&self) -> &Option { unsafe { &*self.element.style_attribute() } } fn get_state(&self) -> ElementState { self.element.get_state_for_layout() } #[inline] fn get_attr(&self, namespace: &Namespace, name: &Atom) -> Option<&str> { unsafe { (*self.element.unsafe_get()).get_attr_val_for_layout(namespace, name) } } #[inline] fn get_attrs(&self, name: &Atom) -> Vec<&str> { unsafe { (*self.element.unsafe_get()).get_attr_vals_for_layout(name) } } } impl<'le> ServoLayoutElement<'le> { fn from_layout_js(el: LayoutJS) -> ServoLayoutElement<'le> { ServoLayoutElement { element: el, chain: PhantomData, } } } fn as_element<'le>(node: LayoutJS) -> Option> { node.downcast().map(ServoLayoutElement::from_layout_js) } impl<'le> ::selectors::Element for ServoLayoutElement<'le> { type Impl = ServoSelectorImpl; fn parent_element(&self) -> Option> { unsafe { self.element.upcast().parent_node_ref().and_then(as_element) } } fn first_child_element(&self) -> Option> { self.as_node().children().filter_map(|n| n.as_element()).next() } fn last_child_element(&self) -> Option> { self.as_node().rev_children().filter_map(|n| n.as_element()).next() } fn prev_sibling_element(&self) -> Option> { let mut node = self.as_node(); while let Some(sibling) = node.prev_sibling() { if let Some(element) = sibling.as_element() { return Some(element) } node = sibling; } None } fn next_sibling_element(&self) -> Option> { let mut node = self.as_node(); while let Some(sibling) = node.next_sibling() { if let Some(element) = sibling.as_element() { return Some(element) } node = sibling; } None } fn is_root(&self) -> bool { match self.as_node().parent_node() { None => false, Some(node) => { match node.script_type_id() { NodeTypeId::Document(_) => true, _ => false } }, } } fn is_empty(&self) -> bool { self.as_node().children().all(|node| match node.script_type_id() { NodeTypeId::Element(..) => false, NodeTypeId::CharacterData(CharacterDataTypeId::Text) => unsafe { node.node.downcast().unwrap().data_for_layout().is_empty() }, _ => true }) } #[inline] fn get_local_name<'a>(&'a self) -> BorrowedAtom<'a> { BorrowedAtom(self.element.local_name()) } #[inline] fn get_namespace<'a>(&'a self) -> BorrowedNamespace<'a> { BorrowedNamespace(self.element.namespace()) } fn match_non_ts_pseudo_class(&self, pseudo_class: NonTSPseudoClass) -> bool { match pseudo_class { // https://github.com/servo/servo/issues/8718 NonTSPseudoClass::Link | NonTSPseudoClass::AnyLink => unsafe { match self.as_node().script_type_id() { // https://html.spec.whatwg.org/multipage/#selector-link NodeTypeId::Element(ElementTypeId::HTMLElement(HTMLElementTypeId::HTMLAnchorElement)) | NodeTypeId::Element(ElementTypeId::HTMLElement(HTMLElementTypeId::HTMLAreaElement)) | NodeTypeId::Element(ElementTypeId::HTMLElement(HTMLElementTypeId::HTMLLinkElement)) => (*self.element.unsafe_get()).get_attr_val_for_layout(&ns!(), &atom!("href")).is_some(), _ => false, } }, NonTSPseudoClass::Visited => false, NonTSPseudoClass::ServoNonZeroBorder => unsafe { match (*self.element.unsafe_get()).get_attr_for_layout(&ns!(), &atom!("border")) { None | Some(&AttrValue::UInt(_, 0)) => false, _ => true, } }, NonTSPseudoClass::ReadOnly => !self.element.get_state_for_layout().contains(pseudo_class.state_flag()), NonTSPseudoClass::Active | NonTSPseudoClass::Focus | NonTSPseudoClass::Hover | NonTSPseudoClass::Enabled | NonTSPseudoClass::Disabled | NonTSPseudoClass::Checked | NonTSPseudoClass::Indeterminate | NonTSPseudoClass::ReadWrite | NonTSPseudoClass::PlaceholderShown => self.element.get_state_for_layout().contains(pseudo_class.state_flag()) } } #[inline] fn get_id(&self) -> Option { unsafe { (*self.element.id_attribute()).clone() } } #[inline] fn has_class(&self, name: &Atom) -> bool { unsafe { self.element.has_class_for_layout(name) } } #[inline(always)] fn each_class(&self, mut callback: F) where F: FnMut(&Atom) { unsafe { if let Some(ref classes) = self.element.get_classes_for_layout() { for class in *classes { callback(class) } } } } fn match_attr(&self, attr: &AttrSelector, test: F) -> bool where F: Fn(&str) -> bool { let name = if self.is_html_element_in_html_document() { &attr.lower_name } else { &attr.name }; match attr.namespace { NamespaceConstraint::Specific(ref ns) => { self.get_attr(ns, name).map_or(false, |attr| test(attr)) }, NamespaceConstraint::Any => { self.get_attrs(name).iter().any(|attr| test(*attr)) } } } fn is_html_element_in_html_document(&self) -> bool { unsafe { self.element.html_element_in_html_document_for_layout() } } fn insert_flags(&self, flags: ElementFlags) { self.element.insert_atomic_flags(flags); } } #[derive(Copy, Clone)] pub struct ServoThreadSafeLayoutNode<'ln> { /// The wrapped node. node: ServoLayoutNode<'ln>, /// The pseudo-element type, with (optionally), /// an specified display value to override the stylesheet. pseudo: PseudoElementType>, } impl<'a> PartialEq for ServoThreadSafeLayoutNode<'a> { #[inline] fn eq(&self, other: &ServoThreadSafeLayoutNode<'a>) -> bool { self.node == other.node } } impl<'ln> DangerousThreadSafeLayoutNode for ServoThreadSafeLayoutNode<'ln> { unsafe fn dangerous_first_child(&self) -> Option { self.get_jsmanaged().first_child_ref() .map(|node| self.new_with_this_lifetime(&node)) } unsafe fn dangerous_next_sibling(&self) -> Option { self.get_jsmanaged().next_sibling_ref() .map(|node| self.new_with_this_lifetime(&node)) } } impl<'ln> ServoThreadSafeLayoutNode<'ln> { /// Creates a new layout node with the same lifetime as this layout node. pub unsafe fn new_with_this_lifetime(&self, node: &LayoutJS) -> ServoThreadSafeLayoutNode<'ln> { ServoThreadSafeLayoutNode { node: self.node.new_with_this_lifetime(node), pseudo: PseudoElementType::Normal, } } /// Creates a new `ServoThreadSafeLayoutNode` from the given `ServoLayoutNode`. pub fn new<'a>(node: &ServoLayoutNode<'a>) -> ServoThreadSafeLayoutNode<'a> { ServoThreadSafeLayoutNode { node: node.clone(), pseudo: PseudoElementType::Normal, } } /// Returns the interior of this node as a `LayoutJS`. This is highly unsafe for layout to /// call and as such is marked `unsafe`. unsafe fn get_jsmanaged(&self) -> &LayoutJS { self.node.get_jsmanaged() } } impl<'ln> ThreadSafeLayoutNode for ServoThreadSafeLayoutNode<'ln> { type ConcreteThreadSafeLayoutElement = ServoThreadSafeLayoutElement<'ln>; type ChildrenIterator = ThreadSafeLayoutNodeChildrenIterator; fn with_pseudo(&self, pseudo: PseudoElementType>) -> ServoThreadSafeLayoutNode<'ln> { ServoThreadSafeLayoutNode { node: self.node.clone(), pseudo: pseudo, } } fn opaque(&self) -> OpaqueNode { unsafe { self.get_jsmanaged().opaque() } } fn type_id(&self) -> Option { if self.pseudo != PseudoElementType::Normal { return None } Some(self.node.type_id()) } #[inline] fn type_id_without_excluding_pseudo_elements(&self) -> LayoutNodeType { self.node.type_id() } fn debug_id(self) -> usize { self.node.debug_id() } fn children(&self) -> Self::ChildrenIterator { ThreadSafeLayoutNodeChildrenIterator::new(*self) } fn as_element(&self) -> ServoThreadSafeLayoutElement<'ln> { unsafe { let element = match self.get_jsmanaged().downcast() { Some(e) => e.unsafe_get(), None => panic!("not an element") }; // FIXME(pcwalton): Workaround until Rust gets multiple lifetime parameters on // implementations. ServoThreadSafeLayoutElement { element: &*element, } } } fn get_pseudo_element_type(&self) -> PseudoElementType> { self.pseudo } fn get_style_and_layout_data(&self) -> Option { self.node.get_style_and_layout_data() } fn is_ignorable_whitespace(&self, context: &SharedStyleContext) -> bool { unsafe { let text: LayoutJS = match self.get_jsmanaged().downcast() { Some(text) => text, None => return false }; if !is_whitespace(text.upcast().data_for_layout()) { return false } // NB: See the rules for `white-space` here: // // http://www.w3.org/TR/CSS21/text.html#propdef-white-space // // If you implement other values for this property, you will almost certainly // want to update this check. !self.style(context).get_inheritedtext().white_space.preserve_newlines() } } fn restyle_damage(self) -> RestyleDamage { self.node.restyle_damage() } fn set_restyle_damage(self, damage: RestyleDamage) { self.node.set_restyle_damage(damage) } fn can_be_fragmented(&self) -> bool { self.node.can_be_fragmented() } fn node_text_content(&self) -> String { let this = unsafe { self.get_jsmanaged() }; return this.text_content(); } fn selection(&self) -> Option> { let this = unsafe { self.get_jsmanaged() }; this.selection().map(|range| { Range::new(ByteIndex(range.start as isize), ByteIndex(range.len() as isize)) }) } fn image_url(&self) -> Option { let this = unsafe { self.get_jsmanaged() }; this.image_url() } fn canvas_data(&self) -> Option { let this = unsafe { self.get_jsmanaged() }; this.canvas_data() } fn iframe_pipeline_id(&self) -> PipelineId { let this = unsafe { self.get_jsmanaged() }; this.iframe_pipeline_id() } fn get_colspan(&self) -> u32 { unsafe { self.get_jsmanaged().downcast::().unwrap().get_colspan() } } fn get_style_data(&self) -> Option<&RefCell> { self.node.get_style_data() } } pub struct ThreadSafeLayoutNodeChildrenIterator { current_node: Option, parent_node: ConcreteNode, } impl ThreadSafeLayoutNodeChildrenIterator where ConcreteNode: DangerousThreadSafeLayoutNode { pub fn new(parent: ConcreteNode) -> Self { let first_child: Option = match parent.get_pseudo_element_type() { PseudoElementType::Normal => { parent.get_before_pseudo().or_else(|| parent.get_details_summary_pseudo()).or_else(|| { unsafe { parent.dangerous_first_child() } }) }, PseudoElementType::DetailsContent(_) | PseudoElementType::DetailsSummary(_) => { unsafe { parent.dangerous_first_child() } }, _ => None, }; ThreadSafeLayoutNodeChildrenIterator { current_node: first_child, parent_node: parent, } } } impl Iterator for ThreadSafeLayoutNodeChildrenIterator where ConcreteNode: DangerousThreadSafeLayoutNode { type Item = ConcreteNode; fn next(&mut self) -> Option { match self.parent_node.get_pseudo_element_type() { PseudoElementType::Before(_) | PseudoElementType::After(_) => None, PseudoElementType::DetailsSummary(_) => { let mut current_node = self.current_node.clone(); loop { let next_node = if let Some(ref node) = current_node { if node.is_element() && node.as_element().get_local_name() == atom!("summary") && node.as_element().get_namespace() == ns!(html) { self.current_node = None; return Some(node.clone()); } unsafe { node.dangerous_next_sibling() } } else { self.current_node = None; return None }; current_node = next_node; } } PseudoElementType::DetailsContent(_) => { let node = self.current_node.clone(); let node = node.and_then(|node| { if node.is_element() && node.as_element().get_local_name() == atom!("summary") && node.as_element().get_namespace() == ns!(html) { unsafe { node.dangerous_next_sibling() } } else { Some(node) } }); self.current_node = node.and_then(|node| unsafe { node.dangerous_next_sibling() }); node } PseudoElementType::Normal => { let node = self.current_node.clone(); if let Some(ref node) = node { self.current_node = match node.get_pseudo_element_type() { PseudoElementType::Before(_) => { let first = self.parent_node.get_details_summary_pseudo().or_else(|| unsafe { self.parent_node.dangerous_first_child() }); match first { Some(first) => Some(first), None => self.parent_node.get_after_pseudo(), } }, PseudoElementType::Normal => { match unsafe { node.dangerous_next_sibling() } { Some(next) => Some(next), None => self.parent_node.get_after_pseudo(), } }, PseudoElementType::DetailsSummary(_) => self.parent_node.get_details_content_pseudo(), PseudoElementType::DetailsContent(_) => self.parent_node.get_after_pseudo(), PseudoElementType::After(_) => { None }, }; } node } } } } /// A wrapper around elements that ensures layout can only /// ever access safe properties and cannot race on elements. #[derive(Copy, Clone)] pub struct ServoThreadSafeLayoutElement<'le> { element: &'le Element, } impl<'le> ThreadSafeLayoutElement for ServoThreadSafeLayoutElement<'le> { type ConcreteThreadSafeLayoutNode = ServoThreadSafeLayoutNode<'le>; fn get_attr<'a>(&'a self, namespace: &Namespace, name: &Atom) -> Option<&'a str> { unsafe { self.element.get_attr_val_for_layout(namespace, name) } } #[inline] fn get_local_name<'a>(&'a self) -> BorrowedAtom<'a> { BorrowedAtom(self.element.local_name()) } #[inline] fn get_namespace<'a>(&'a self) -> BorrowedNamespace<'a> { BorrowedNamespace(self.element.namespace()) } } /// This implementation of `::selectors::Element` is used for implementing lazy /// pseudo-elements. /// /// Lazy pseudo-elements in Servo only allows selectors using safe properties, /// i.e., local_name, attributes, so they can only be used for **private** /// pseudo-elements (like `::-servo-details-content`). /// /// Probably a few more of this functions can be implemented (like `has_class`, /// `each_class`, etc), but they have no use right now. /// /// Note that the element implementation is needed only for selector matching, /// not for inheritance (styles are inherited appropiately). impl <'le> ::selectors::Element for ServoThreadSafeLayoutElement<'le> { type Impl = ServoSelectorImpl; fn parent_element(&self) -> Option { warn!("ServoThreadSafeLayoutElement::parent_element called"); None } fn first_child_element(&self) -> Option { warn!("ServoThreadSafeLayoutElement::first_child_element called"); None } // Skips non-element nodes fn last_child_element(&self) -> Option { warn!("ServoThreadSafeLayoutElement::last_child_element called"); None } // Skips non-element nodes fn prev_sibling_element(&self) -> Option { warn!("ServoThreadSafeLayoutElement::prev_sibling_element called"); None } // Skips non-element nodes fn next_sibling_element(&self) -> Option { warn!("ServoThreadSafeLayoutElement::next_sibling_element called"); None } fn is_html_element_in_html_document(&self) -> bool { debug!("ServoThreadSafeLayoutElement::is_html_element_in_html_document called"); true } #[inline] fn get_local_name<'a>(&'a self) -> BorrowedAtom<'a> { ThreadSafeLayoutElement::get_local_name(self) } #[inline] fn get_namespace<'a>(&'a self) -> BorrowedNamespace<'a> { ThreadSafeLayoutElement::get_namespace(self) } fn match_non_ts_pseudo_class(&self, _: NonTSPseudoClass) -> bool { // NB: This could maybe be implemented warn!("ServoThreadSafeLayoutElement::match_non_ts_pseudo_class called"); false } fn get_id(&self) -> Option { debug!("ServoThreadSafeLayoutElement::get_id called"); None } fn has_class(&self, _name: &Atom) -> bool { debug!("ServoThreadSafeLayoutElement::has_class called"); false } fn match_attr(&self, attr: &AttrSelector, test: F) -> bool where F: Fn(&str) -> bool { match attr.namespace { NamespaceConstraint::Specific(ref ns) => { self.get_attr(ns, &attr.name).map_or(false, |attr| test(attr)) }, NamespaceConstraint::Any => { unsafe { self.element.get_attr_vals_for_layout(&attr.name).iter() .any(|attr| test(*attr)) } } } } fn is_empty(&self) -> bool { warn!("ServoThreadSafeLayoutElement::is_empty called"); false } fn is_root(&self) -> bool { warn!("ServoThreadSafeLayoutElement::is_root called"); false } fn each_class(&self, _callback: F) where F: FnMut(&Atom) { warn!("ServoThreadSafeLayoutElement::each_class called"); } } impl<'le> PresentationalHintsSynthetizer for ServoThreadSafeLayoutElement<'le> { fn synthesize_presentational_hints_for_legacy_attributes(&self, _hints: &mut V) where V: VecLike>> {} }