/* 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/. */ //! The high-level interface from script to constellation. Using this abstract interface helps //! reduce coupling between these two components. use std::cell::Cell; use std::num::NonZeroU32; use std::sync::Arc; use std::time::Duration; use std::{fmt, mem}; use ipc_channel::ipc::{self, IpcReceiver, IpcSender}; use lazy_static::lazy_static; use malloc_size_of::malloc_size_of_is_0; use malloc_size_of_derive::MallocSizeOf; use parking_lot::Mutex; use serde::{Deserialize, Serialize}; use size_of_test::size_of_test; use webrender_api::{ExternalScrollId, PipelineId as WebRenderPipelineId}; macro_rules! namespace_id_method { ($func_name:ident, $func_return_data_type:ident, $self:ident, $index_name:ident) => { fn $func_name(&mut $self) -> $func_return_data_type { $func_return_data_type { namespace_id: $self.id, index: $index_name($self.next_index()), } } }; } macro_rules! namespace_id { ($id_name:ident, $index_name:ident) => { #[derive( Clone, Copy, Debug, Deserialize, Eq, Hash, Ord, PartialEq, PartialOrd, Serialize, )] pub struct $index_name(pub NonZeroU32); malloc_size_of_is_0!($index_name); #[derive( Clone, Copy, Debug, Deserialize, Eq, Hash, MallocSizeOf, Ord, PartialEq, PartialOrd, Serialize, )] pub struct $id_name { pub namespace_id: PipelineNamespaceId, pub index: $index_name, } }; } #[derive(Clone, Copy, Debug, Deserialize, Eq, Hash, PartialEq, Serialize)] pub enum TraversalDirection { Forward(usize), Back(usize), } #[derive(Debug, Deserialize, Serialize)] /// Request a pipeline-namespace id from the constellation. pub struct PipelineNamespaceRequest(pub IpcSender); /// A per-process installer of pipeline-namespaces. pub struct PipelineNamespaceInstaller { request_sender: Option>, namespace_sender: IpcSender, namespace_receiver: IpcReceiver, } impl PipelineNamespaceInstaller { pub fn new() -> Self { let (namespace_sender, namespace_receiver) = ipc::channel().expect("PipelineNamespaceInstaller ipc channel failure"); PipelineNamespaceInstaller { request_sender: None, namespace_sender: namespace_sender, namespace_receiver: namespace_receiver, } } /// Provide a request sender to send requests to the constellation. pub fn set_sender(&mut self, sender: IpcSender) { self.request_sender = Some(sender); } /// Install a namespace, requesting a new Id from the constellation. pub fn install_namespace(&self) { match self.request_sender.as_ref() { Some(sender) => { let _ = sender.send(PipelineNamespaceRequest(self.namespace_sender.clone())); let namespace_id = self .namespace_receiver .recv() .expect("The constellation to make a pipeline namespace id available"); PipelineNamespace::install(namespace_id); }, None => unreachable!("PipelineNamespaceInstaller should have a request_sender setup"), } } } lazy_static! { /// A per-process unique pipeline-namespace-installer. /// Accessible via PipelineNamespace. /// /// Use PipelineNamespace::set_installer_sender to initiate with a sender to the constellation, /// when a new process has been created. /// /// Use PipelineNamespace::fetch_install to install a unique pipeline-namespace from the calling thread. static ref PIPELINE_NAMESPACE_INSTALLER: Arc> = Arc::new(Mutex::new(PipelineNamespaceInstaller::new())); } /// Each pipeline ID needs to be unique. However, it also needs to be possible to /// generate the pipeline ID from an iframe element (this simplifies a lot of other /// code that makes use of pipeline IDs). /// /// To achieve this, each pipeline index belongs to a particular namespace. There is /// a namespace for the constellation thread, and also one for every script thread. /// /// A namespace can be installed for any other thread in a process /// where an pipeline-installer has been initialized. /// /// This allows pipeline IDs to be generated by any of those threads without conflicting /// with pipeline IDs created by other script threads or the constellation. The /// constellation is the only code that is responsible for creating new *namespaces*. /// This ensures that namespaces are always unique, even when using multi-process mode. /// /// It may help conceptually to think of the namespace ID as an identifier for the /// thread that created this pipeline ID - however this is really an implementation /// detail so shouldn't be relied upon in code logic. It's best to think of the /// pipeline ID as a simple unique identifier that doesn't convey any more information. #[derive(Clone, Copy)] pub struct PipelineNamespace { id: PipelineNamespaceId, index: u32, } impl PipelineNamespace { /// Install a namespace for a given Id. pub fn install(namespace_id: PipelineNamespaceId) { PIPELINE_NAMESPACE.with(|tls| { assert!(tls.get().is_none()); tls.set(Some(PipelineNamespace { id: namespace_id, index: 0, })); }); } /// Setup the pipeline-namespace-installer, by providing it with a sender to the constellation. /// Idempotent in single-process mode. pub fn set_installer_sender(sender: IpcSender) { PIPELINE_NAMESPACE_INSTALLER.lock().set_sender(sender); } /// Install a namespace in the current thread, without requiring having a namespace Id ready. /// Panics if called more than once per thread. pub fn auto_install() { // Note that holding the lock for the duration of the call is irrelevant to performance, // since a thread would have to block on the ipc-response from the constellation, // with the constellation already acting as a global lock on namespace ids, // and only being able to handle one request at a time. // // Hence, any other thread attempting to concurrently install a namespace // would have to wait for the current call to finish, regardless of the lock held here. PIPELINE_NAMESPACE_INSTALLER.lock().install_namespace(); } fn next_index(&mut self) -> NonZeroU32 { self.index += 1; NonZeroU32::new(self.index).expect("pipeline id index wrapped!") } namespace_id_method! {next_pipeline_id, PipelineId, self, PipelineIndex} namespace_id_method! {next_browsing_context_id, BrowsingContextId, self, BrowsingContextIndex} namespace_id_method! {next_history_state_id, HistoryStateId, self, HistoryStateIndex} namespace_id_method! {next_message_port_id, MessagePortId, self, MessagePortIndex} namespace_id_method! {next_message_port_router_id, MessagePortRouterId, self, MessagePortRouterIndex} namespace_id_method! {next_broadcast_channel_router_id, BroadcastChannelRouterId, self, BroadcastChannelRouterIndex} namespace_id_method! {next_service_worker_id, ServiceWorkerId, self, ServiceWorkerIndex} namespace_id_method! {next_service_worker_registration_id, ServiceWorkerRegistrationId, self, ServiceWorkerRegistrationIndex} namespace_id_method! {next_blob_id, BlobId, self, BlobIndex} } thread_local!(pub static PIPELINE_NAMESPACE: Cell> = Cell::new(None)); #[derive( Clone, Copy, Debug, Deserialize, Eq, Hash, MallocSizeOf, Ord, PartialEq, PartialOrd, Serialize, )] pub struct PipelineNamespaceId(pub u32); namespace_id! {PipelineId, PipelineIndex} size_of_test!(PipelineId, 8); size_of_test!(Option, 8); impl PipelineId { pub fn new() -> PipelineId { PIPELINE_NAMESPACE.with(|tls| { let mut namespace = tls.get().expect("No namespace set for this thread!"); let new_pipeline_id = namespace.next_pipeline_id(); tls.set(Some(namespace)); new_pipeline_id }) } pub fn to_webrender(&self) -> WebRenderPipelineId { let PipelineNamespaceId(namespace_id) = self.namespace_id; let PipelineIndex(index) = self.index; WebRenderPipelineId(namespace_id, index.get()) } #[allow(unsafe_code)] pub fn from_webrender(pipeline: WebRenderPipelineId) -> PipelineId { let WebRenderPipelineId(namespace_id, index) = pipeline; unsafe { PipelineId { namespace_id: PipelineNamespaceId(namespace_id), index: PipelineIndex(NonZeroU32::new_unchecked(index)), } } } pub fn root_scroll_id(&self) -> webrender_api::ExternalScrollId { ExternalScrollId(0, self.to_webrender()) } } impl fmt::Display for PipelineId { fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result { let PipelineNamespaceId(namespace_id) = self.namespace_id; let PipelineIndex(index) = self.index; write!(fmt, "({},{})", namespace_id, index.get()) } } namespace_id! {BrowsingContextId, BrowsingContextIndex} size_of_test!(BrowsingContextId, 8); size_of_test!(Option, 8); impl BrowsingContextId { pub fn new() -> BrowsingContextId { PIPELINE_NAMESPACE.with(|tls| { let mut namespace = tls.get().expect("No namespace set for this thread!"); let new_browsing_context_id = namespace.next_browsing_context_id(); tls.set(Some(namespace)); new_browsing_context_id }) } } impl fmt::Display for BrowsingContextId { fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result { let PipelineNamespaceId(namespace_id) = self.namespace_id; let BrowsingContextIndex(index) = self.index; write!(fmt, "({},{})", namespace_id, index.get()) } } #[derive(Clone, Default, Eq, Hash, PartialEq)] pub struct BrowsingContextGroupId(pub u32); thread_local!(pub static TOP_LEVEL_BROWSING_CONTEXT_ID: Cell> = Cell::new(None)); #[derive( Clone, Copy, Debug, Deserialize, Eq, Hash, MallocSizeOf, Ord, PartialEq, PartialOrd, Serialize, )] pub struct TopLevelBrowsingContextId(pub BrowsingContextId); size_of_test!(TopLevelBrowsingContextId, 8); size_of_test!(Option, 8); impl TopLevelBrowsingContextId { pub fn new() -> TopLevelBrowsingContextId { TopLevelBrowsingContextId(BrowsingContextId::new()) } /// Each script and layout thread should have the top-level browsing context id installed, /// since it is used by crash reporting. pub fn install(id: TopLevelBrowsingContextId) { TOP_LEVEL_BROWSING_CONTEXT_ID.with(|tls| tls.set(Some(id))) } pub fn installed() -> Option { TOP_LEVEL_BROWSING_CONTEXT_ID.with(|tls| tls.get()) } } impl fmt::Display for TopLevelBrowsingContextId { fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result { self.0.fmt(fmt) } } impl From for BrowsingContextId { fn from(id: TopLevelBrowsingContextId) -> BrowsingContextId { id.0 } } impl PartialEq for BrowsingContextId { fn eq(&self, rhs: &TopLevelBrowsingContextId) -> bool { self.eq(&rhs.0) } } impl PartialEq for TopLevelBrowsingContextId { fn eq(&self, rhs: &BrowsingContextId) -> bool { self.0.eq(rhs) } } namespace_id! {MessagePortId, MessagePortIndex} impl MessagePortId { pub fn new() -> MessagePortId { PIPELINE_NAMESPACE.with(|tls| { let mut namespace = tls.get().expect("No namespace set for this thread!"); let next_message_port_id = namespace.next_message_port_id(); tls.set(Some(namespace)); next_message_port_id }) } } impl fmt::Display for MessagePortId { fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result { let PipelineNamespaceId(namespace_id) = self.namespace_id; let MessagePortIndex(index) = self.index; write!(fmt, "({},{})", namespace_id, index.get()) } } namespace_id! {MessagePortRouterId, MessagePortRouterIndex} impl MessagePortRouterId { pub fn new() -> MessagePortRouterId { PIPELINE_NAMESPACE.with(|tls| { let mut namespace = tls.get().expect("No namespace set for this thread!"); let next_message_port_router_id = namespace.next_message_port_router_id(); tls.set(Some(namespace)); next_message_port_router_id }) } } impl fmt::Display for MessagePortRouterId { fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result { let PipelineNamespaceId(namespace_id) = self.namespace_id; let MessagePortRouterIndex(index) = self.index; write!(fmt, "({},{})", namespace_id, index.get()) } } namespace_id! {BroadcastChannelRouterId, BroadcastChannelRouterIndex} impl BroadcastChannelRouterId { pub fn new() -> BroadcastChannelRouterId { PIPELINE_NAMESPACE.with(|tls| { let mut namespace = tls.get().expect("No namespace set for this thread!"); let next_broadcast_channel_router_id = namespace.next_broadcast_channel_router_id(); tls.set(Some(namespace)); next_broadcast_channel_router_id }) } } impl fmt::Display for BroadcastChannelRouterId { fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result { let PipelineNamespaceId(namespace_id) = self.namespace_id; let BroadcastChannelRouterIndex(index) = self.index; write!( fmt, "(BroadcastChannelRouterId{},{})", namespace_id, index.get() ) } } namespace_id! {ServiceWorkerId, ServiceWorkerIndex} impl ServiceWorkerId { pub fn new() -> ServiceWorkerId { PIPELINE_NAMESPACE.with(|tls| { let mut namespace = tls.get().expect("No namespace set for this thread!"); let next_service_worker_id = namespace.next_service_worker_id(); tls.set(Some(namespace)); next_service_worker_id }) } } impl fmt::Display for ServiceWorkerId { fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result { let PipelineNamespaceId(namespace_id) = self.namespace_id; let ServiceWorkerIndex(index) = self.index; write!(fmt, "(ServiceWorkerId{},{})", namespace_id, index.get()) } } namespace_id! {ServiceWorkerRegistrationId, ServiceWorkerRegistrationIndex} impl ServiceWorkerRegistrationId { pub fn new() -> ServiceWorkerRegistrationId { PIPELINE_NAMESPACE.with(|tls| { let mut namespace = tls.get().expect("No namespace set for this thread!"); let next_service_worker_registration_id = namespace.next_service_worker_registration_id(); tls.set(Some(namespace)); next_service_worker_registration_id }) } } impl fmt::Display for ServiceWorkerRegistrationId { fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result { let PipelineNamespaceId(namespace_id) = self.namespace_id; let ServiceWorkerRegistrationIndex(index) = self.index; write!( fmt, "(ServiceWorkerRegistrationId{},{})", namespace_id, index.get() ) } } namespace_id! {BlobId, BlobIndex} impl BlobId { pub fn new() -> BlobId { PIPELINE_NAMESPACE.with(|tls| { let mut namespace = tls.get().expect("No namespace set for this thread!"); let next_blob_id = namespace.next_blob_id(); tls.set(Some(namespace)); next_blob_id }) } } impl fmt::Display for BlobId { fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result { let PipelineNamespaceId(namespace_id) = self.namespace_id; let BlobIndex(index) = self.index; write!(fmt, "({},{})", namespace_id, index.get()) } } namespace_id! {HistoryStateId, HistoryStateIndex} impl HistoryStateId { pub fn new() -> HistoryStateId { PIPELINE_NAMESPACE.with(|tls| { let mut namespace = tls.get().expect("No namespace set for this thread!"); let next_history_state_id = namespace.next_history_state_id(); tls.set(Some(namespace)); next_history_state_id }) } } impl fmt::Display for HistoryStateId { fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result { let PipelineNamespaceId(namespace_id) = self.namespace_id; let HistoryStateIndex(index) = self.index; write!(fmt, "({},{})", namespace_id, index.get()) } } // We provide ids just for unit testing. pub const TEST_NAMESPACE: PipelineNamespaceId = PipelineNamespaceId(1234); #[allow(unsafe_code)] pub const TEST_PIPELINE_INDEX: PipelineIndex = unsafe { PipelineIndex(NonZeroU32::new_unchecked(5678)) }; pub const TEST_PIPELINE_ID: PipelineId = PipelineId { namespace_id: TEST_NAMESPACE, index: TEST_PIPELINE_INDEX, }; #[allow(unsafe_code)] pub const TEST_BROWSING_CONTEXT_INDEX: BrowsingContextIndex = unsafe { BrowsingContextIndex(NonZeroU32::new_unchecked(8765)) }; pub const TEST_BROWSING_CONTEXT_ID: BrowsingContextId = BrowsingContextId { namespace_id: TEST_NAMESPACE, index: TEST_BROWSING_CONTEXT_INDEX, }; // Used to specify the kind of input method editor appropriate to edit a field. // This is a subset of htmlinputelement::InputType because some variants of InputType // don't make sense in this context. #[derive(Debug, Deserialize, Serialize)] pub enum InputMethodType { Color, Date, DatetimeLocal, Email, Month, Number, Password, Search, Tel, Text, Time, Url, Week, } #[derive(Clone, Copy, Debug, Deserialize, Serialize)] /// The equivalent of script_layout_interface::message::Msg pub enum LayoutHangAnnotation { AddStylesheet, RemoveStylesheet, SetQuirksMode, Reflow, GetRPC, CollectReports, PrepareToExit, ExitNow, GetCurrentEpoch, GetWebFontLoadState, CreateLayoutThread, SetFinalUrl, SetScrollStates, UpdateScrollStateFromScript, RegisterPaint, SetNavigationStart, } #[derive(Clone, Copy, Debug, Deserialize, Serialize)] /// The equivalent of script::script_runtime::ScriptEventCategory pub enum ScriptHangAnnotation { AttachLayout, ConstellationMsg, DevtoolsMsg, DocumentEvent, DomEvent, FileRead, FormPlannedNavigation, ImageCacheMsg, InputEvent, HistoryEvent, NetworkEvent, Resize, ScriptEvent, SetScrollState, SetViewport, StylesheetLoad, TimerEvent, UpdateReplacedElement, WebSocketEvent, WorkerEvent, WorkletEvent, ServiceWorkerEvent, EnterFullscreen, ExitFullscreen, WebVREvent, PerformanceTimelineTask, PortMessage, WebGPUMsg, } #[derive(Clone, Copy, Debug, Deserialize, Serialize)] pub enum HangAnnotation { Layout(LayoutHangAnnotation), Script(ScriptHangAnnotation), } /// Hang-alerts are sent by the monitor to the constellation. #[derive(Deserialize, Serialize)] pub enum HangMonitorAlert { /// A component hang has been detected. Hang(HangAlert), /// Report a completed sampled profile. Profile(Vec), } impl fmt::Debug for HangMonitorAlert { fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result { match *self { HangMonitorAlert::Hang(..) => write!(fmt, "Hang"), HangMonitorAlert::Profile(..) => write!(fmt, "Profile"), } } } /// Hang-alerts are sent by the monitor to the constellation. #[derive(Deserialize, Serialize)] pub enum HangAlert { /// Report a transient hang. Transient(MonitoredComponentId, HangAnnotation), /// Report a permanent hang. Permanent(MonitoredComponentId, HangAnnotation, Option), } impl fmt::Debug for HangAlert { fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result { let (annotation, profile) = match self { HangAlert::Transient(component_id, annotation) => { write!( fmt, "\n The following component is experiencing a transient hang: \n {:?}", component_id )?; (annotation.clone(), None) }, HangAlert::Permanent(component_id, annotation, profile) => { write!( fmt, "\n The following component is experiencing a permanent hang: \n {:?}", component_id )?; (annotation.clone(), profile.clone()) }, }; write!(fmt, "\n Annotation for the hang:\n{:?}", annotation)?; if let Some(profile) = profile { write!(fmt, "\n {:?}", profile)?; } Ok(()) } } #[derive(Clone, Deserialize, Serialize)] pub struct HangProfileSymbol { pub name: Option, pub filename: Option, pub lineno: Option, } #[derive(Clone, Deserialize, Serialize)] /// Info related to the activity of an hanging component. pub struct HangProfile { pub backtrace: Vec, } impl fmt::Debug for HangProfile { fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result { let hex_width = mem::size_of::() * 2 + 2; write!(fmt, "HangProfile backtrace:")?; if self.backtrace.is_empty() { write!(fmt, "backtrace failed to resolve")?; return Ok(()); } for symbol in self.backtrace.iter() { write!(fmt, "\n {:1$}", "", hex_width)?; if let Some(ref name) = symbol.name { write!(fmt, " - {}", name)?; } else { write!(fmt, " - ")?; } if let (Some(ref file), Some(ref line)) = (symbol.filename.as_ref(), symbol.lineno) { write!(fmt, "\n {:3$}at {}:{}", "", file, line, hex_width)?; } } Ok(()) } } #[derive(Clone, Debug, Deserialize, Eq, Hash, PartialEq, Serialize)] pub enum MonitoredComponentType { Layout, Script, } #[derive(Clone, Debug, Deserialize, Eq, Hash, PartialEq, Serialize)] pub struct MonitoredComponentId(pub PipelineId, pub MonitoredComponentType); /// A handle to register components for hang monitoring, /// and to receive a means to communicate with the underlying hang monitor worker. pub trait BackgroundHangMonitorRegister: BackgroundHangMonitorClone + Send { /// Register a component for hang monitoring: /// to be called from within the thread to be monitored for hangs. fn register_component( &self, component: MonitoredComponentId, transient_hang_timeout: Duration, permanent_hang_timeout: Duration, exit_signal: Option>, ) -> Box; } impl Clone for Box { fn clone(&self) -> Box { self.clone_box() } } pub trait BackgroundHangMonitorClone { fn clone_box(&self) -> Box; } /// Proxy methods to communicate with the background hang monitor pub trait BackgroundHangMonitor { /// Notify the start of handling an event. fn notify_activity(&self, annotation: HangAnnotation); /// Notify the start of waiting for a new event to come in. fn notify_wait(&self); /// Unregister the component from monitor. fn unregister(&self); } /// A means for the BHM to signal a monitored component to exit. /// Useful when the component is hanging, and cannot be notified via the usual way. /// The component should implement this in a way allowing for the signal to be received when hanging, /// if at all. pub trait BackgroundHangMonitorExitSignal: Send { /// Called by the BHM, to notify the monitored component to exit. fn signal_to_exit(&self); } /// Messages to control the sampling profiler. #[derive(Deserialize, Serialize)] pub enum BackgroundHangMonitorControlMsg { /// Enable the sampler, with a given sampling rate and max total sampling duration. EnableSampler(Duration, Duration), DisableSampler, /// Exit, and propagate the signal to monitored components. Exit(IpcSender<()>), }