/* 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 https://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 `LayoutDom` 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 atomic_refcell::{AtomicRef, AtomicRefCell, AtomicRefMut};
use gfx_traits::ByteIndex;
use html5ever::{LocalName, Namespace};
use layout::data::LayoutData;
use layout::wrapper::GetStyleAndLayoutData;
use msg::constellation_msg::{BrowsingContextId, PipelineId};
use net_traits::image::base::{Image, ImageMetadata};
use range::Range;
use script::layout_exports::NodeFlags;
use script::layout_exports::ShadowRoot;
use script::layout_exports::{
CharacterDataTypeId, DocumentFragmentTypeId, ElementTypeId, HTMLElementTypeId, NodeTypeId,
TextTypeId,
};
use script::layout_exports::{Document, Element, Node, Text};
use script::layout_exports::{LayoutCharacterDataHelpers, LayoutDocumentHelpers};
use script::layout_exports::{
LayoutDom, LayoutElementHelpers, LayoutNodeHelpers, LayoutShadowRootHelpers,
};
use script_layout_interface::wrapper_traits::{
DangerousThreadSafeLayoutNode, GetStyleAndOpaqueLayoutData, LayoutNode,
};
use script_layout_interface::wrapper_traits::{
PseudoElementType, ThreadSafeLayoutElement, ThreadSafeLayoutNode,
};
use script_layout_interface::{
HTMLCanvasData, HTMLMediaData, LayoutNodeType, StyleAndOpaqueLayoutData,
};
use script_layout_interface::{SVGSVGData, StyleData, TrustedNodeAddress};
use selectors::attr::{AttrSelectorOperation, CaseSensitivity, NamespaceConstraint};
use selectors::matching::VisitedHandlingMode;
use selectors::matching::{ElementSelectorFlags, MatchingContext, QuirksMode};
use selectors::sink::Push;
use servo_arc::{Arc, ArcBorrow};
use servo_atoms::Atom;
use servo_url::ServoUrl;
use std::borrow::Cow;
use std::fmt;
use std::fmt::Debug;
use std::hash::{Hash, Hasher};
use std::sync::atomic::Ordering;
use std::sync::Arc as StdArc;
use style::animation::AnimationSetKey;
use style::applicable_declarations::ApplicableDeclarationBlock;
use style::attr::AttrValue;
use style::context::SharedStyleContext;
use style::data::ElementData;
use style::dom::{DomChildren, LayoutIterator, NodeInfo, OpaqueNode};
use style::dom::{TDocument, TElement, TNode, TShadowRoot};
use style::element_state::*;
use style::font_metrics::ServoMetricsProvider;
use style::media_queries::Device;
use style::properties::{ComputedValues, PropertyDeclarationBlock};
use style::selector_parser::{extended_filtering, PseudoElement, SelectorImpl};
use style::selector_parser::{AttrValue as SelectorAttrValue, Lang, NonTSPseudoClass};
use style::shared_lock::{
Locked as StyleLocked, SharedRwLock as StyleSharedRwLock, SharedRwLockReadGuard,
};
use style::str::is_whitespace;
use style::stylist::CascadeData;
use style::values::{AtomIdent, AtomString};
use style::CaseSensitivityExt;
#[derive(Clone, Copy)]
pub struct ServoLayoutNode<'dom> {
/// The wrapped node.
node: LayoutDom<'dom, Node>,
}
impl<'ln> Debug for ServoLayoutNode<'ln> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
if let Some(el) = self.as_element() {
el.fmt(f)
} else {
if self.is_text_node() {
write!(f, "<text node> ({:#x})", self.opaque().0)
} else {
write!(f, "<non-text node> ({:#x})", self.opaque().0)
}
}
}
}
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: LayoutDom<'ln, Node>) -> Self {
ServoLayoutNode { node: n }
}
pub unsafe fn new(address: &TrustedNodeAddress) -> Self {
ServoLayoutNode::from_layout_js(LayoutDom::from_trusted_node_address(*address))
}
fn script_type_id(&self) -> NodeTypeId {
self.node.type_id_for_layout()
}
}
impl<'ln> NodeInfo for ServoLayoutNode<'ln> {
fn is_element(&self) -> bool {
self.node.is_element_for_layout()
}
fn is_text_node(&self) -> bool {
self.script_type_id() ==
NodeTypeId::CharacterData(CharacterDataTypeId::Text(TextTypeId::Text))
}
}
#[derive(Clone, Copy, PartialEq)]
pub struct ServoShadowRoot<'dom> {
/// The wrapped shadow root.
shadow_root: LayoutDom<'dom, ShadowRoot>,
}
impl<'lr> Debug for ServoShadowRoot<'lr> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
self.as_node().fmt(f)
}
}
impl<'lr> TShadowRoot for ServoShadowRoot<'lr> {
type ConcreteNode = ServoLayoutNode<'lr>;
fn as_node(&self) -> Self::ConcreteNode {
ServoLayoutNode::from_layout_js(self.shadow_root.upcast())
}
fn host(&self) -> ServoLayoutElement<'lr> {
ServoLayoutElement::from_layout_js(self.shadow_root.get_host_for_layout())
}
fn style_data<'a>(&self) -> Option<&'a CascadeData>
where
Self: 'a,
{
Some(&self.shadow_root.get_style_data_for_layout())
}
}
impl<'lr> ServoShadowRoot<'lr> {
fn from_layout_js(shadow_root: LayoutDom<'lr, ShadowRoot>) -> Self {
ServoShadowRoot { shadow_root }
}
pub unsafe fn flush_stylesheets(
&self,
device: &Device,
quirks_mode: QuirksMode,
guard: &SharedRwLockReadGuard,
) {
self.shadow_root
.flush_stylesheets::<ServoLayoutElement>(device, quirks_mode, guard)
}
}
impl<'ln> TNode for ServoLayoutNode<'ln> {
type ConcreteDocument = ServoLayoutDocument<'ln>;
type ConcreteElement = ServoLayoutElement<'ln>;
type ConcreteShadowRoot = ServoShadowRoot<'ln>;
fn parent_node(&self) -> Option<Self> {
self.node
.composed_parent_node_ref()
.map(Self::from_layout_js)
}
fn first_child(&self) -> Option<Self> {
self.node.first_child_ref().map(Self::from_layout_js)
}
fn last_child(&self) -> Option<Self> {
self.node.last_child_ref().map(Self::from_layout_js)
}
fn prev_sibling(&self) -> Option<Self> {
self.node.prev_sibling_ref().map(Self::from_layout_js)
}
fn next_sibling(&self) -> Option<Self> {
self.node.next_sibling_ref().map(Self::from_layout_js)
}
fn owner_doc(&self) -> Self::ConcreteDocument {
ServoLayoutDocument::from_layout_js(self.node.owner_doc_for_layout())
}
fn traversal_parent(&self) -> Option<ServoLayoutElement<'ln>> {
let parent = self.parent_node()?;
if let Some(shadow) = parent.as_shadow_root() {
return Some(shadow.host());
};
parent.as_element()
}
fn opaque(&self) -> OpaqueNode {
self.get_jsmanaged().opaque()
}
fn debug_id(self) -> usize {
self.opaque().0
}
fn as_element(&self) -> Option<ServoLayoutElement<'ln>> {
as_element(self.node)
}
fn as_document(&self) -> Option<ServoLayoutDocument<'ln>> {
self.node
.downcast()
.map(ServoLayoutDocument::from_layout_js)
}
fn as_shadow_root(&self) -> Option<ServoShadowRoot<'ln>> {
self.node.downcast().map(ServoShadowRoot::from_layout_js)
}
fn is_in_document(&self) -> bool {
unsafe { self.node.get_flag(NodeFlags::IS_IN_DOC) }
}
}
impl<'ln> LayoutNode<'ln> 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()
}
unsafe fn initialize_data(&self) {
if self.get_style_and_layout_data().is_none() {
let opaque = StyleAndOpaqueLayoutData::new(
StyleData::new(),
AtomicRefCell::new(LayoutData::new()),
);
self.init_style_and_opaque_layout_data(opaque);
};
}
unsafe fn init_style_and_opaque_layout_data(&self, data: Box<StyleAndOpaqueLayoutData>) {
self.get_jsmanaged().init_style_and_opaque_layout_data(data);
}
unsafe fn take_style_and_opaque_layout_data(&self) -> Box<StyleAndOpaqueLayoutData> {
self.get_jsmanaged().take_style_and_opaque_layout_data()
}
fn is_connected(&self) -> bool {
unsafe { self.node.get_flag(NodeFlags::IS_CONNECTED) }
}
}
impl<'dom> GetStyleAndOpaqueLayoutData<'dom> for ServoLayoutNode<'dom> {
fn get_style_and_opaque_layout_data(self) -> Option<&'dom StyleAndOpaqueLayoutData> {
self.get_jsmanaged().get_style_and_opaque_layout_data()
}
}
impl<'dom> GetStyleAndOpaqueLayoutData<'dom> for ServoLayoutElement<'dom> {
fn get_style_and_opaque_layout_data(self) -> Option<&'dom StyleAndOpaqueLayoutData> {
self.as_node().get_style_and_opaque_layout_data()
}
}
impl<'dom> GetStyleAndOpaqueLayoutData<'dom> for ServoThreadSafeLayoutNode<'dom> {
fn get_style_and_opaque_layout_data(self) -> Option<&'dom StyleAndOpaqueLayoutData> {
self.node.get_style_and_opaque_layout_data()
}
}
impl<'dom> GetStyleAndOpaqueLayoutData<'dom> for ServoThreadSafeLayoutElement<'dom> {
fn get_style_and_opaque_layout_data(self) -> Option<&'dom StyleAndOpaqueLayoutData> {
self.element.as_node().get_style_and_opaque_layout_data()
}
}
impl<'dom> ServoLayoutNode<'dom> {
/// Returns the interior of this node as a `LayoutDom`.
pub fn get_jsmanaged(self) -> LayoutDom<'dom, Node> {
self.node
}
}
// A wrapper around documents that ensures ayout can only ever access safe properties.
#[derive(Clone, Copy)]
pub struct ServoLayoutDocument<'dom> {
document: LayoutDom<'dom, Document>,
}
impl<'ld> TDocument for ServoLayoutDocument<'ld> {
type ConcreteNode = ServoLayoutNode<'ld>;
fn as_node(&self) -> Self::ConcreteNode {
ServoLayoutNode::from_layout_js(self.document.upcast())
}
fn quirks_mode(&self) -> QuirksMode {
self.document.quirks_mode()
}
fn is_html_document(&self) -> bool {
self.document.is_html_document_for_layout()
}
fn shared_lock(&self) -> &StyleSharedRwLock {
self.document.style_shared_lock()
}
}
impl<'ld> ServoLayoutDocument<'ld> {
pub fn root_element(&self) -> Option<ServoLayoutElement<'ld>> {
self.as_node()
.dom_children()
.flat_map(|n| n.as_element())
.next()
}
pub fn needs_paint_from_layout(&self) {
unsafe { self.document.needs_paint_from_layout() }
}
pub fn will_paint(&self) {
unsafe { self.document.will_paint() }
}
pub fn style_shared_lock(&self) -> &StyleSharedRwLock {
self.document.style_shared_lock()
}
pub fn shadow_roots(&self) -> Vec<ServoShadowRoot> {
unsafe {
self.document
.shadow_roots()
.iter()
.map(|sr| {
debug_assert!(sr.upcast::<Node>().get_flag(NodeFlags::IS_CONNECTED));
ServoShadowRoot::from_layout_js(*sr)
})
.collect()
}
}
pub fn flush_shadow_roots_stylesheets(
&self,
device: &Device,
quirks_mode: QuirksMode,
guard: &SharedRwLockReadGuard,
) {
unsafe {
if !self.document.shadow_roots_styles_changed() {
return;
}
self.document.flush_shadow_roots_stylesheets();
for shadow_root in self.shadow_roots() {
shadow_root.flush_stylesheets(device, quirks_mode, guard);
}
}
}
pub fn from_layout_js(doc: LayoutDom<'ld, Document>) -> Self {
ServoLayoutDocument { document: doc }
}
}
/// A wrapper around elements that ensures layout can only ever access safe properties.
#[derive(Clone, Copy)]
pub struct ServoLayoutElement<'dom> {
element: LayoutDom<'dom, Element>,
}
impl<'le> fmt::Debug for ServoLayoutElement<'le> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "<{}", self.element.local_name())?;
if let Some(id) = self.id() {
write!(f, " id={}", id)?;
}
write!(f, "> ({:#x})", self.as_node().opaque().0)
}
}
impl<'le> TElement for ServoLayoutElement<'le> {
type ConcreteNode = ServoLayoutNode<'le>;
type TraversalChildrenIterator = DomChildren<Self::ConcreteNode>;
type FontMetricsProvider = ServoMetricsProvider;
fn as_node(&self) -> ServoLayoutNode<'le> {
ServoLayoutNode::from_layout_js(self.element.upcast())
}
fn traversal_children(&self) -> LayoutIterator<Self::TraversalChildrenIterator> {
LayoutIterator(if let Some(shadow) = self.shadow_root() {
shadow.as_node().dom_children()
} else {
self.as_node().dom_children()
})
}
fn is_html_element(&self) -> bool {
self.element.is_html_element()
}
fn is_mathml_element(&self) -> bool {
*self.element.namespace() == ns!(mathml)
}
fn is_svg_element(&self) -> bool {
*self.element.namespace() == ns!(svg)
}
fn has_part_attr(&self) -> bool {
false
}
fn exports_any_part(&self) -> bool {
false
}
fn style_attribute(&self) -> Option<ArcBorrow<StyleLocked<PropertyDeclarationBlock>>> {
unsafe {
(*self.element.style_attribute())
.as_ref()
.map(|x| x.borrow_arc())
}
}
fn may_have_animations(&self) -> bool {
true
}
fn animation_rule(
&self,
context: &SharedStyleContext,
) -> Option<Arc<StyleLocked<PropertyDeclarationBlock>>> {
let node = self.as_node();
let document = node.owner_doc();
context.animations.get_animation_declarations(
&AnimationSetKey::new_for_non_pseudo(node.opaque()),
context.current_time_for_animations,
document.style_shared_lock(),
)
}
fn transition_rule(
&self,
context: &SharedStyleContext,
) -> Option<Arc<StyleLocked<PropertyDeclarationBlock>>> {
let node = self.as_node();
let document = node.owner_doc();
context.animations.get_transition_declarations(
&AnimationSetKey::new_for_non_pseudo(node.opaque()),
context.current_time_for_animations,
document.style_shared_lock(),
)
}
fn state(&self) -> ElementState {
self.element.get_state_for_layout()
}
#[inline]
fn has_attr(&self, namespace: &style::Namespace, attr: &style::LocalName) -> bool {
self.get_attr(&**namespace, &**attr).is_some()
}
#[inline]
fn id(&self) -> Option<&Atom> {
unsafe { (*self.element.id_attribute()).as_ref() }
}
#[inline(always)]
fn each_class<F>(&self, mut callback: F)
where
F: FnMut(&AtomIdent),
{
if let Some(ref classes) = self.element.get_classes_for_layout() {
for class in *classes {
callback(AtomIdent::cast(class))
}
}
}
fn has_dirty_descendants(&self) -> bool {
unsafe {
self.as_node()
.node
.get_flag(NodeFlags::HAS_DIRTY_DESCENDANTS)
}
}
fn has_snapshot(&self) -> bool {
unsafe { self.as_node().node.get_flag(NodeFlags::HAS_SNAPSHOT) }
}
fn handled_snapshot(&self) -> bool {
unsafe { self.as_node().node.get_flag(NodeFlags::HANDLED_SNAPSHOT) }
}
unsafe fn set_handled_snapshot(&self) {
self.as_node()
.node
.set_flag(NodeFlags::HANDLED_SNAPSHOT, true);
}
unsafe fn set_dirty_descendants(&self) {
debug_assert!(self.as_node().is_connected());
self.as_node()
.node
.set_flag(NodeFlags::HAS_DIRTY_DESCENDANTS, true)
}
unsafe fn unset_dirty_descendants(&self) {
self.as_node()
.node
.set_flag(NodeFlags::HAS_DIRTY_DESCENDANTS, false)
}
fn store_children_to_process(&self, n: isize) {
let data = self.get_style_data().unwrap();
data.parallel
.children_to_process
.store(n, Ordering::Relaxed);
}
fn did_process_child(&self) -> isize {
let data = self.get_style_data().unwrap();
let old_value = data
.parallel
.children_to_process
.fetch_sub(1, Ordering::Relaxed);
debug_assert!(old_value >= 1);
old_value - 1
}
unsafe fn clear_data(&self) {
if self.get_style_and_layout_data().is_some() {
drop(self.as_node().take_style_and_opaque_layout_data());
}
}
unsafe fn ensure_data(&self) -> AtomicRefMut<ElementData> {
self.as_node().initialize_data();
self.mutate_data().unwrap()
}
/// Whether there is an ElementData container.
fn has_data(&self) -> bool {
self.get_style_data().is_some()
}
/// Immutably borrows the ElementData.
fn borrow_data(&self) -> Option<AtomicRef<ElementData>> {
self.get_style_data().map(|data| data.element_data.borrow())
}
/// Mutably borrows the ElementData.
fn mutate_data(&self) -> Option<AtomicRefMut<ElementData>> {
self.get_style_data()
.map(|data| data.element_data.borrow_mut())
}
fn skip_item_display_fixup(&self) -> bool {
false
}
unsafe fn set_selector_flags(&self, flags: ElementSelectorFlags) {
self.element.insert_selector_flags(flags);
}
fn has_selector_flags(&self, flags: ElementSelectorFlags) -> bool {
self.element.has_selector_flags(flags)
}
fn has_animations(&self, context: &SharedStyleContext) -> bool {
// This is not used for pseudo elements currently so we can pass None.
return self.has_css_animations(context, /* pseudo_element = */ None) ||
self.has_css_transitions(context, /* pseudo_element = */ None);
}
fn has_css_animations(
&self,
context: &SharedStyleContext,
pseudo_element: Option<PseudoElement>,
) -> bool {
let key = AnimationSetKey::new(self.as_node().opaque(), pseudo_element);
context.animations.has_active_animations(&key)
}
fn has_css_transitions(
&self,
context: &SharedStyleContext,
pseudo_element: Option<PseudoElement>,
) -> bool {
let key = AnimationSetKey::new(self.as_node().opaque(), pseudo_element);
context.animations.has_active_transitions(&key)
}
#[inline]
fn lang_attr(&self) -> Option<SelectorAttrValue> {
self.get_attr(&ns!(xml), &local_name!("lang"))
.or_else(|| self.get_attr(&ns!(), &local_name!("lang")))
.map(|v| SelectorAttrValue::from(v as &str))
}
fn match_element_lang(
&self,
override_lang: Option<Option<SelectorAttrValue>>,
value: &Lang,
) -> bool {
// Servo supports :lang() from CSS Selectors 4, which can take a comma-
// separated list of language tags in the pseudo-class, and which
// performs RFC 4647 extended filtering matching on them.
//
// FIXME(heycam): This is wrong, since extended_filtering accepts
// a string containing commas (separating each language tag in
// a list) but the pseudo-class instead should be parsing and
// storing separate <ident> or <string>s for each language tag.
//
// FIXME(heycam): Look at `element`'s document's Content-Language
// HTTP header for language tags to match `value` against. To
// do this, we should make `get_lang_for_layout` return an Option,
// so we can decide when to fall back to the Content-Language check.
let element_lang = match override_lang {
Some(Some(lang)) => lang,
Some(None) => AtomString::default(),
None => AtomString::from(&*self.element.get_lang_for_layout()),
};
extended_filtering(&element_lang, &*value)
}
fn is_html_document_body_element(&self) -> bool {
// This is only used for the "tables inherit from body" quirk, which we
// don't implement.
//
// FIXME(emilio): We should be able to give the right answer though!
false
}
fn synthesize_presentational_hints_for_legacy_attributes<V>(
&self,
_visited_handling: VisitedHandlingMode,
hints: &mut V,
) where
V: Push<ApplicableDeclarationBlock>,
{
self.element
.synthesize_presentational_hints_for_legacy_attributes(hints);
}
/// The shadow root this element is a host of.
fn shadow_root(&self) -> Option<ServoShadowRoot<'le>> {
self.element
.get_shadow_root_for_layout()
.map(ServoShadowRoot::from_layout_js)
}
/// The shadow root which roots the subtree this element is contained in.
fn containing_shadow(&self) -> Option<ServoShadowRoot<'le>> {
self.element
.upcast()
.containing_shadow_root_for_layout()
.map(ServoShadowRoot::from_layout_js)
}
fn local_name(&self) -> &LocalName {
self.element.local_name()
}
fn namespace(&self) -> &Namespace {
self.element.namespace()
}
}
impl<'le> PartialEq for ServoLayoutElement<'le> {
fn eq(&self, other: &Self) -> bool {
self.as_node() == other.as_node()
}
}
impl<'le> Hash for ServoLayoutElement<'le> {
fn hash<H: Hasher>(&self, state: &mut H) {
self.element.hash(state);
}
}
impl<'le> Eq for ServoLayoutElement<'le> {}
impl<'le> ServoLayoutElement<'le> {
fn from_layout_js(el: LayoutDom<'le, Element>) -> Self {
ServoLayoutElement { element: el }
}
#[inline]
fn get_attr_enum(&self, namespace: &Namespace, name: &LocalName) -> Option<&AttrValue> {
self.element.get_attr_for_layout(namespace, name)
}
#[inline]
fn get_attr(&self, namespace: &Namespace, name: &LocalName) -> Option<&str> {
self.element.get_attr_val_for_layout(namespace, name)
}
fn get_style_data(&self) -> Option<&StyleData> {
self.get_style_and_opaque_layout_data()
.map(|data| &data.style_data)
}
pub unsafe fn unset_snapshot_flags(&self) {
self.as_node()
.node
.set_flag(NodeFlags::HAS_SNAPSHOT | NodeFlags::HANDLED_SNAPSHOT, false);
}
pub unsafe fn set_has_snapshot(&self) {
self.as_node().node.set_flag(NodeFlags::HAS_SNAPSHOT, true);
}
}
fn as_element<'dom>(node: LayoutDom<'dom, Node>) -> Option<ServoLayoutElement<'dom>> {
node.downcast().map(ServoLayoutElement::from_layout_js)
}
impl<'le> ::selectors::Element for ServoLayoutElement<'le> {
type Impl = SelectorImpl;
fn opaque(&self) -> ::selectors::OpaqueElement {
::selectors::OpaqueElement::new(unsafe { &*(self.as_node().opaque().0 as *const ()) })
}
fn parent_element(&self) -> Option<ServoLayoutElement<'le>> {
self.element
.upcast()
.composed_parent_node_ref()
.and_then(as_element)
}
fn parent_node_is_shadow_root(&self) -> bool {
match self.as_node().parent_node() {
None => false,
Some(node) => {
node.script_type_id() ==
NodeTypeId::DocumentFragment(DocumentFragmentTypeId::ShadowRoot)
},
}
}
fn containing_shadow_host(&self) -> Option<Self> {
self.containing_shadow().map(|s| s.host())
}
fn prev_sibling_element(&self) -> Option<ServoLayoutElement<'le>> {
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<ServoLayoutElement<'le>> {
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 attr_matches(
&self,
ns: &NamespaceConstraint<&style::Namespace>,
local_name: &style::LocalName,
operation: &AttrSelectorOperation<&AtomString>,
) -> bool {
match *ns {
NamespaceConstraint::Specific(ref ns) => self
.get_attr_enum(ns, local_name)
.map_or(false, |value| value.eval_selector(operation)),
NamespaceConstraint::Any => self
.element
.get_attr_vals_for_layout(local_name)
.iter()
.any(|value| value.eval_selector(operation)),
}
}
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()
.dom_children()
.all(|node| match node.script_type_id() {
NodeTypeId::Element(..) => false,
NodeTypeId::CharacterData(CharacterDataTypeId::Text(TextTypeId::Text)) => {
node.node.downcast().unwrap().data_for_layout().is_empty()
},
_ => true,
})
}
#[inline]
fn has_local_name(&self, name: &LocalName) -> bool {
self.element.local_name() == name
}
#[inline]
fn has_namespace(&self, ns: &Namespace) -> bool {
self.element.namespace() == ns
}
#[inline]
fn is_same_type(&self, other: &Self) -> bool {
self.element.local_name() == other.element.local_name() &&
self.element.namespace() == other.element.namespace()
}
fn is_pseudo_element(&self) -> bool {
false
}
fn match_pseudo_element(
&self,
_pseudo: &PseudoElement,
_context: &mut MatchingContext<Self::Impl>,
) -> bool {
false
}
fn match_non_ts_pseudo_class<F>(
&self,
pseudo_class: &NonTSPseudoClass,
_: &mut MatchingContext<Self::Impl>,
_: &mut F,
) -> bool
where
F: FnMut(&Self, ElementSelectorFlags),
{
match *pseudo_class {
// https://github.com/servo/servo/issues/8718
NonTSPseudoClass::Link | NonTSPseudoClass::AnyLink => self.is_link(),
NonTSPseudoClass::Visited => false,
NonTSPseudoClass::Lang(ref lang) => self.match_element_lang(None, &*lang),
NonTSPseudoClass::ServoNonZeroBorder => {
match self
.element
.get_attr_for_layout(&ns!(), &local_name!("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::Fullscreen |
NonTSPseudoClass::Hover |
NonTSPseudoClass::Defined |
NonTSPseudoClass::Enabled |
NonTSPseudoClass::Disabled |
NonTSPseudoClass::Checked |
NonTSPseudoClass::Indeterminate |
NonTSPseudoClass::ReadWrite |
NonTSPseudoClass::PlaceholderShown |
NonTSPseudoClass::Target => self
.element
.get_state_for_layout()
.contains(pseudo_class.state_flag()),
}
}
#[inline]
fn is_link(&self) -> bool {
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
.get_attr_val_for_layout(&ns!(), &local_name!("href"))
.is_some()
},
_ => false,
}
}
#[inline]
fn has_id(&self, id: &AtomIdent, case_sensitivity: CaseSensitivity) -> bool {
unsafe {
(*self.element.id_attribute())
.as_ref()
.map_or(false, |atom| case_sensitivity.eq_atom(atom, id))
}
}
#[inline]
fn is_part(&self, _name: &AtomIdent) -> bool {
false
}
fn imported_part(&self, _: &AtomIdent) -> Option<AtomIdent> {
None
}
#[inline]
fn has_class(&self, name: &AtomIdent, case_sensitivity: CaseSensitivity) -> bool {
self.element.has_class_for_layout(name, case_sensitivity)
}
fn is_html_slot_element(&self) -> bool {
self.element.is_html_element() && self.local_name() == &local_name!("slot")
}
fn is_html_element_in_html_document(&self) -> bool {
if !self.element.is_html_element() {
return false;
}
self.as_node().owner_doc().is_html_document()
}
}
#[derive(Clone, Copy, Debug)]
pub struct ServoThreadSafeLayoutNode<'ln> {
/// The wrapped node.
node: ServoLayoutNode<'ln>,
/// The pseudo-element type, with (optionally)
/// a 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<'ln> for ServoThreadSafeLayoutNode<'ln> {
unsafe fn dangerous_first_child(&self) -> Option<Self> {
self.get_jsmanaged()
.first_child_ref()
.map(ServoLayoutNode::from_layout_js)
.map(Self::new)
}
unsafe fn dangerous_next_sibling(&self) -> Option<Self> {
self.get_jsmanaged()
.next_sibling_ref()
.map(ServoLayoutNode::from_layout_js)
.map(Self::new)
}
}
impl<'ln> ServoThreadSafeLayoutNode<'ln> {
/// Creates a new `ServoThreadSafeLayoutNode` from the given `ServoLayoutNode`.
pub fn new(node: ServoLayoutNode<'ln>) -> Self {
ServoThreadSafeLayoutNode {
node: node.clone(),
pseudo: PseudoElementType::Normal,
}
}
/// Returns the interior of this node as a `LayoutDom`. This is highly unsafe for layout to
/// call and as such is marked `unsafe`.
unsafe fn get_jsmanaged(&self) -> LayoutDom<'ln, Node> {
self.node.get_jsmanaged()
}
}
impl<'ln> NodeInfo for ServoThreadSafeLayoutNode<'ln> {
fn is_element(&self) -> bool {
self.node.is_element()
}
fn is_text_node(&self) -> bool {
self.node.is_text_node()
}
}
impl<'ln> ThreadSafeLayoutNode<'ln> for ServoThreadSafeLayoutNode<'ln> {
type ConcreteNode = ServoLayoutNode<'ln>;
type ConcreteThreadSafeLayoutElement = ServoThreadSafeLayoutElement<'ln>;
type ConcreteElement = ServoLayoutElement<'ln>;
type ChildrenIterator = ThreadSafeLayoutNodeChildrenIterator<Self>;
fn opaque(&self) -> OpaqueNode {
unsafe { self.get_jsmanaged().opaque() }
}
fn type_id(&self) -> Option<LayoutNodeType> {
if self.pseudo == PseudoElementType::Normal {
Some(self.node.type_id())
} else {
None
}
}
fn parent_style(&self) -> Arc<ComputedValues> {
let parent = self.node.parent_node().unwrap().as_element().unwrap();
let parent_data = parent.borrow_data().unwrap();
parent_data.styles.primary().clone()
}
fn debug_id(self) -> usize {
self.node.debug_id()
}
fn children(&self) -> LayoutIterator<Self::ChildrenIterator> {
if let Some(shadow) = self.node.as_element().and_then(|e| e.shadow_root()) {
return LayoutIterator(ThreadSafeLayoutNodeChildrenIterator::new(
shadow.as_node().to_threadsafe(),
));
}
LayoutIterator(ThreadSafeLayoutNodeChildrenIterator::new(*self))
}
fn as_element(&self) -> Option<ServoThreadSafeLayoutElement<'ln>> {
self.node
.as_element()
.map(|el| ServoThreadSafeLayoutElement {
element: el,
pseudo: self.pseudo,
})
}
fn get_style_and_opaque_layout_data(self) -> Option<&'ln StyleAndOpaqueLayoutData> {
self.node.get_style_and_opaque_layout_data()
}
fn is_ignorable_whitespace(&self, context: &SharedStyleContext) -> bool {
unsafe {
let text: LayoutDom<Text> = 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_inherited_text()
.white_space
.preserve_newlines()
}
}
unsafe fn unsafe_get(self) -> Self::ConcreteNode {
self.node
}
fn node_text_content(self) -> Cow<'ln, str> {
unsafe { self.get_jsmanaged().text_content() }
}
fn selection(&self) -> Option<Range<ByteIndex>> {
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<ServoUrl> {
let this = unsafe { self.get_jsmanaged() };
this.image_url()
}
fn image_density(&self) -> Option<f64> {
let this = unsafe { self.get_jsmanaged() };
this.image_density()
}
fn image_data(&self) -> Option<(Option<StdArc<Image>>, Option<ImageMetadata>)> {
let this = unsafe { self.get_jsmanaged() };
this.image_data()
}
fn canvas_data(&self) -> Option<HTMLCanvasData> {
let this = unsafe { self.get_jsmanaged() };
this.canvas_data()
}
fn media_data(&self) -> Option<HTMLMediaData> {
let this = unsafe { self.get_jsmanaged() };
this.media_data()
}
fn svg_data(&self) -> Option<SVGSVGData> {
let this = unsafe { self.get_jsmanaged() };
this.svg_data()
}
// Can return None if the iframe has no nested browsing context
fn iframe_browsing_context_id(&self) -> Option<BrowsingContextId> {
let this = unsafe { self.get_jsmanaged() };
this.iframe_browsing_context_id()
}
// Can return None if the iframe has no nested browsing context
fn iframe_pipeline_id(&self) -> Option<PipelineId> {
let this = unsafe { self.get_jsmanaged() };
this.iframe_pipeline_id()
}
fn get_colspan(&self) -> u32 {
unsafe {
self.get_jsmanaged()
.downcast::<Element>()
.unwrap()
.get_colspan()
}
}
fn get_rowspan(&self) -> u32 {
unsafe {
self.get_jsmanaged()
.downcast::<Element>()
.unwrap()
.get_rowspan()
}
}
}
pub struct ThreadSafeLayoutNodeChildrenIterator<ConcreteNode> {
current_node: Option<ConcreteNode>,
parent_node: ConcreteNode,
}
impl<'dom, ConcreteNode> ThreadSafeLayoutNodeChildrenIterator<ConcreteNode>
where
ConcreteNode: DangerousThreadSafeLayoutNode<'dom>,
{
pub fn new(parent: ConcreteNode) -> Self {
let first_child: Option<ConcreteNode> = 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<'dom, ConcreteNode> Iterator for ThreadSafeLayoutNodeChildrenIterator<ConcreteNode>
where
ConcreteNode: DangerousThreadSafeLayoutNode<'dom>,
{
type Item = ConcreteNode;
fn next(&mut self) -> Option<ConcreteNode> {
use selectors::Element;
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 let Some(element) = node.as_element() {
if element.has_local_name(&local_name!("summary")) &&
element.has_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()
.unwrap()
.has_local_name(&local_name!("summary")) &&
node.as_element().unwrap().has_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 => self
.parent_node
.get_details_summary_pseudo()
.or_else(|| unsafe { self.parent_node.dangerous_first_child() })
.or_else(|| self.parent_node.get_after_pseudo()),
PseudoElementType::Normal => unsafe { node.dangerous_next_sibling() }
.or_else(|| 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(Clone, Copy, Debug)]
pub struct ServoThreadSafeLayoutElement<'le> {
element: ServoLayoutElement<'le>,
/// The pseudo-element type, with (optionally)
/// a specified display value to override the stylesheet.
pseudo: PseudoElementType,
}
impl<'le> ThreadSafeLayoutElement<'le> for ServoThreadSafeLayoutElement<'le> {
type ConcreteThreadSafeLayoutNode = ServoThreadSafeLayoutNode<'le>;
type ConcreteElement = ServoLayoutElement<'le>;
fn as_node(&self) -> ServoThreadSafeLayoutNode<'le> {
ServoThreadSafeLayoutNode {
node: self.element.as_node(),
pseudo: self.pseudo.clone(),
}
}
fn get_pseudo_element_type(&self) -> PseudoElementType {
self.pseudo
}
fn with_pseudo(&self, pseudo: PseudoElementType) -> Self {
ServoThreadSafeLayoutElement {
element: self.element.clone(),
pseudo,
}
}
fn type_id(&self) -> Option<LayoutNodeType> {
self.as_node().type_id()
}
unsafe fn unsafe_get(self) -> ServoLayoutElement<'le> {
self.element
}
fn get_attr_enum(&self, namespace: &Namespace, name: &LocalName) -> Option<&AttrValue> {
self.element.get_attr_enum(namespace, name)
}
fn get_attr<'a>(&'a self, namespace: &Namespace, name: &LocalName) -> Option<&'a str> {
self.element.get_attr(namespace, name)
}
fn style_data(&self) -> AtomicRef<ElementData> {
self.element.borrow_data().expect("Unstyled layout node?")
}
fn is_shadow_host(&self) -> bool {
self.element.shadow_root().is_some()
}
}
/// 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`, 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 appropriately).
impl<'le> ::selectors::Element for ServoThreadSafeLayoutElement<'le> {
type Impl = SelectorImpl;
fn opaque(&self) -> ::selectors::OpaqueElement {
::selectors::OpaqueElement::new(unsafe { &*(self.as_node().opaque().0 as *const ()) })
}
fn is_pseudo_element(&self) -> bool {
false
}
fn parent_element(&self) -> Option<Self> {
warn!("ServoThreadSafeLayoutElement::parent_element called");
None
}
fn parent_node_is_shadow_root(&self) -> bool {
false
}
fn containing_shadow_host(&self) -> Option<Self> {
None
}
// Skips non-element nodes
fn prev_sibling_element(&self) -> Option<Self> {
warn!("ServoThreadSafeLayoutElement::prev_sibling_element called");
None
}
// Skips non-element nodes
fn next_sibling_element(&self) -> Option<Self> {
warn!("ServoThreadSafeLayoutElement::next_sibling_element called");
None
}
fn is_html_slot_element(&self) -> bool {
self.element.is_html_slot_element()
}
fn is_html_element_in_html_document(&self) -> bool {
debug!("ServoThreadSafeLayoutElement::is_html_element_in_html_document called");
true
}
#[inline]
fn has_local_name(&self, name: &LocalName) -> bool {
self.element.local_name() == name
}
#[inline]
fn has_namespace(&self, ns: &Namespace) -> bool {
self.element.namespace() == ns
}
#[inline]
fn is_same_type(&self, other: &Self) -> bool {
self.element.local_name() == other.element.local_name() &&
self.element.namespace() == other.element.namespace()
}
fn match_pseudo_element(
&self,
_pseudo: &PseudoElement,
_context: &mut MatchingContext<Self::Impl>,
) -> bool {
false
}
fn attr_matches(
&self,
ns: &NamespaceConstraint<&style::Namespace>,
local_name: &style::LocalName,
operation: &AttrSelectorOperation<&AtomString>,
) -> bool {
match *ns {
NamespaceConstraint::Specific(ref ns) => self
.get_attr_enum(ns, local_name)
.map_or(false, |value| value.eval_selector(operation)),
NamespaceConstraint::Any => self
.element
.element
.get_attr_vals_for_layout(local_name)
.iter()
.any(|v| v.eval_selector(operation)),
}
}
fn match_non_ts_pseudo_class<F>(
&self,
_: &NonTSPseudoClass,
_: &mut MatchingContext<Self::Impl>,
_: &mut F,
) -> bool
where
F: FnMut(&Self, ElementSelectorFlags),
{
// NB: This could maybe be implemented
warn!("ServoThreadSafeLayoutElement::match_non_ts_pseudo_class called");
false
}
fn is_link(&self) -> bool {
warn!("ServoThreadSafeLayoutElement::is_link called");
false
}
fn has_id(&self, _id: &AtomIdent, _case_sensitivity: CaseSensitivity) -> bool {
debug!("ServoThreadSafeLayoutElement::has_id called");
false
}
#[inline]
fn is_part(&self, _name: &AtomIdent) -> bool {
debug!("ServoThreadSafeLayoutElement::is_part called");
false
}
fn imported_part(&self, _: &AtomIdent) -> Option<AtomIdent> {
debug!("ServoThreadSafeLayoutElement::imported_part called");
None
}
fn has_class(&self, _name: &AtomIdent, _case_sensitivity: CaseSensitivity) -> bool {
debug!("ServoThreadSafeLayoutElement::has_class called");
false
}
fn is_empty(&self) -> bool {
warn!("ServoThreadSafeLayoutElement::is_empty called");
false
}
fn is_root(&self) -> bool {
warn!("ServoThreadSafeLayoutElement::is_root called");
false
}
}