/* 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 script runtime contains common traits and structs commonly used by the
//! script thread, the dom, and the worker threads.
#![allow(dead_code)]
use crate::body::BodyMixin;
use crate::dom::bindings::codegen::Bindings::PromiseBinding::PromiseJobCallback;
use crate::dom::bindings::codegen::Bindings::ResponseBinding::ResponseBinding::ResponseMethods;
use crate::dom::bindings::codegen::Bindings::ResponseBinding::ResponseType as DOMResponseType;
use crate::dom::bindings::conversions::get_dom_class;
use crate::dom::bindings::conversions::private_from_object;
use crate::dom::bindings::conversions::root_from_handleobject;
use crate::dom::bindings::error::{throw_dom_exception, Error};
use crate::dom::bindings::inheritance::Castable;
use crate::dom::bindings::principals;
use crate::dom::bindings::refcounted::{trace_refcounted_objects, LiveDOMReferences};
use crate::dom::bindings::refcounted::{Trusted, TrustedPromise};
use crate::dom::bindings::reflector::DomObject;
use crate::dom::bindings::root::trace_roots;
use crate::dom::bindings::settings_stack;
use crate::dom::bindings::trace::{trace_traceables, JSTraceable};
use crate::dom::bindings::utils::DOM_CALLBACKS;
use crate::dom::event::{Event, EventBubbles, EventCancelable, EventStatus};
use crate::dom::eventtarget::EventTarget;
use crate::dom::globalscope::GlobalScope;
use crate::dom::promise::Promise;
use crate::dom::promiserejectionevent::PromiseRejectionEvent;
use crate::dom::response::Response;
use crate::microtask::{EnqueuedPromiseCallback, Microtask, MicrotaskQueue};
use crate::realms::{AlreadyInRealm, InRealm};
use crate::script_module::EnsureModuleHooksInitialized;
use crate::script_thread::trace_thread;
use crate::task::TaskBox;
use crate::task_source::networking::NetworkingTaskSource;
use crate::task_source::{TaskSource, TaskSourceName};
use js::glue::{CollectServoSizes, CreateJobQueue, DeleteJobQueue, DispatchableRun};
use js::glue::{JobQueueTraps, RUST_js_GetErrorMessage, SetBuildId, StreamConsumerConsumeChunk};
use js::glue::{
StreamConsumerNoteResponseURLs, StreamConsumerStreamEnd, StreamConsumerStreamError,
};
use js::jsapi::ContextOptionsRef;
use js::jsapi::GetPromiseUserInputEventHandlingState;
use js::jsapi::InitConsumeStreamCallback;
use js::jsapi::InitDispatchToEventLoop;
use js::jsapi::MimeType;
use js::jsapi::PromiseUserInputEventHandlingState;
use js::jsapi::StreamConsumer as JSStreamConsumer;
use js::jsapi::{BuildIdCharVector, DisableIncrementalGC, GCDescription, GCProgress};
use js::jsapi::{Dispatchable as JSRunnable, Dispatchable_MaybeShuttingDown};
use js::jsapi::{
GCOptions, GCReason, JSGCStatus, JS_AddExtraGCRootsTracer, JS_RequestInterruptCallback,
JS_SetGCCallback,
};
use js::jsapi::{HandleObject, Heap, JobQueue};
use js::jsapi::{JSContext as RawJSContext, JSTracer, SetDOMCallbacks, SetGCSliceCallback};
use js::jsapi::{JSGCParamKey, JS_SetGCParameter, JS_SetGlobalJitCompilerOption};
use js::jsapi::{
JSJitCompilerOption, JS_SetOffthreadIonCompilationEnabled, JS_SetParallelParsingEnabled,
};
use js::jsapi::{JSObject, PromiseRejectionHandlingState, SetPreserveWrapperCallbacks};
use js::jsapi::{JSSecurityCallbacks, JS_InitDestroyPrincipalsCallback, JS_SetSecurityCallbacks};
use js::jsapi::{SetJobQueue, SetProcessBuildIdOp, SetPromiseRejectionTrackerCallback};
use js::jsval::UndefinedValue;
use js::panic::wrap_panic;
use js::rust::wrappers::{GetPromiseIsHandled, JS_GetPromiseResult};
use js::rust::Handle;
use js::rust::HandleObject as RustHandleObject;
use js::rust::IntoHandle;
use js::rust::ParentRuntime;
use js::rust::Runtime as RustRuntime;
use js::rust::{JSEngine, JSEngineHandle};
use malloc_size_of::MallocSizeOfOps;
use msg::constellation_msg::PipelineId;
use profile_traits::mem::{Report, ReportKind, ReportsChan};
use servo_config::opts;
use servo_config::pref;
use std::cell::Cell;
use std::ffi::CString;
use std::fmt;
use std::io::{stdout, Write};
use std::ops::Deref;
use std::os;
use std::os::raw::c_void;
use std::ptr;
use std::rc::Rc;
use std::sync::Mutex;
use std::thread;
use std::time::Duration;
use style::thread_state::{self, ThreadState};
use time::{now, Tm};
static JOB_QUEUE_TRAPS: JobQueueTraps = JobQueueTraps {
getIncumbentGlobal: Some(get_incumbent_global),
enqueuePromiseJob: Some(enqueue_promise_job),
empty: Some(empty),
};
static SECURITY_CALLBACKS: JSSecurityCallbacks = JSSecurityCallbacks {
// TODO: Content Security Policy <https://developer.mozilla.org/en-US/docs/Web/HTTP/CSP>
contentSecurityPolicyAllows: None,
subsumes: Some(principals::subsumes),
};
/// Common messages used to control the event loops in both the script and the worker
pub enum CommonScriptMsg {
/// Requests that the script thread measure its memory usage. The results are sent back via the
/// supplied channel.
CollectReports(ReportsChan),
/// Generic message that encapsulates event handling.
Task(
ScriptThreadEventCategory,
Box<dyn TaskBox>,
Option<PipelineId>,
TaskSourceName,
),
}
impl fmt::Debug for CommonScriptMsg {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
CommonScriptMsg::CollectReports(_) => write!(f, "CollectReports(...)"),
CommonScriptMsg::Task(ref category, ref task, _, _) => {
f.debug_tuple("Task").field(category).field(task).finish()
},
}
}
}
/// A cloneable interface for communicating with an event loop.
pub trait ScriptChan: JSTraceable {
/// Send a message to the associated event loop.
fn send(&self, msg: CommonScriptMsg) -> Result<(), ()>;
/// Clone this handle.
fn clone(&self) -> Box<dyn ScriptChan + Send>;
}
#[derive(Clone, Copy, Debug, Eq, Hash, JSTraceable, PartialEq)]
pub enum ScriptThreadEventCategory {
AttachLayout,
ConstellationMsg,
DevtoolsMsg,
DocumentEvent,
DomEvent,
FileRead,
FormPlannedNavigation,
HistoryEvent,
ImageCacheMsg,
InputEvent,
NetworkEvent,
PortMessage,
Resize,
ScriptEvent,
SetScrollState,
SetViewport,
StylesheetLoad,
TimerEvent,
UpdateReplacedElement,
WebSocketEvent,
WorkerEvent,
WorkletEvent,
ServiceWorkerEvent,
EnterFullscreen,
ExitFullscreen,
PerformanceTimelineTask,
WebGPUMsg,
}
/// An interface for receiving ScriptMsg values in an event loop. Used for synchronous DOM
/// APIs that need to abstract over multiple kinds of event loops (worker/main thread) with
/// different Receiver interfaces.
pub trait ScriptPort {
fn recv(&self) -> Result<CommonScriptMsg, ()>;
}
#[allow(unsafe_code)]
unsafe extern "C" fn get_incumbent_global(_: *const c_void, _: *mut RawJSContext) -> *mut JSObject {
let mut result = ptr::null_mut();
wrap_panic(&mut || {
let incumbent_global = GlobalScope::incumbent();
assert!(incumbent_global.is_some());
result = incumbent_global
.map(|g| g.reflector().get_jsobject().get())
.unwrap_or(ptr::null_mut())
});
result
}
#[allow(unsafe_code)]
unsafe extern "C" fn empty(extra: *const c_void) -> bool {
let mut result = false;
wrap_panic(&mut || {
let microtask_queue = &*(extra as *const MicrotaskQueue);
result = microtask_queue.empty()
});
result
}
/// SM callback for promise job resolution. Adds a promise callback to the current
/// global's microtask queue.
#[allow(unsafe_code)]
unsafe extern "C" fn enqueue_promise_job(
extra: *const c_void,
cx: *mut RawJSContext,
promise: HandleObject,
job: HandleObject,
_allocation_site: HandleObject,
incumbent_global: HandleObject,
) -> bool {
let cx = JSContext::from_ptr(cx);
let mut result = false;
wrap_panic(&mut || {
let microtask_queue = &*(extra as *const MicrotaskQueue);
let global = if !incumbent_global.is_null() {
GlobalScope::from_object(incumbent_global.get())
} else {
let realm = AlreadyInRealm::assert_for_cx(cx);
GlobalScope::from_context(*cx, InRealm::in_realm(&realm))
};
let pipeline = global.pipeline_id();
let interaction = if promise.get().is_null() {
PromiseUserInputEventHandlingState::DontCare
} else {
GetPromiseUserInputEventHandlingState(promise)
};
let is_user_interacting =
interaction == PromiseUserInputEventHandlingState::HadUserInteractionAtCreation;
microtask_queue.enqueue(
Microtask::Promise(EnqueuedPromiseCallback {
callback: PromiseJobCallback::new(cx, job.get()),
pipeline,
is_user_interacting,
}),
cx,
);
result = true
});
result
}
#[allow(unsafe_code, unrooted_must_root)]
/// https://html.spec.whatwg.org/multipage/#the-hostpromiserejectiontracker-implementation
unsafe extern "C" fn promise_rejection_tracker(
cx: *mut RawJSContext,
_muted_errors: bool,
promise: HandleObject,
state: PromiseRejectionHandlingState,
_data: *mut c_void,
) {
// TODO: Step 2 - If script's muted errors is true, terminate these steps.
// Step 3.
let cx = JSContext::from_ptr(cx);
let in_realm_proof = AlreadyInRealm::assert_for_cx(cx);
let global = GlobalScope::from_context(*cx, InRealm::Already(&in_realm_proof));
wrap_panic(&mut || {
match state {
// Step 4.
PromiseRejectionHandlingState::Unhandled => {
global.add_uncaught_rejection(promise);
},
// Step 5.
PromiseRejectionHandlingState::Handled => {
// Step 5-1.
if global
.get_uncaught_rejections()
.borrow()
.contains(&Heap::boxed(promise.get()))
{
global.remove_uncaught_rejection(promise);
return;
}
// Step 5-2.
if !global
.get_consumed_rejections()
.borrow()
.contains(&Heap::boxed(promise.get()))
{
return;
}
// Step 5-3.
global.remove_consumed_rejection(promise);
let target = Trusted::new(global.upcast::<EventTarget>());
let promise = Promise::new_with_js_promise(Handle::from_raw(promise), cx);
let trusted_promise = TrustedPromise::new(promise.clone());
// Step 5-4.
global.dom_manipulation_task_source().queue(
task!(rejection_handled_event: move || {
let target = target.root();
let cx = GlobalScope::get_cx();
let root_promise = trusted_promise.root();
rooted!(in(*cx) let mut reason = UndefinedValue());
JS_GetPromiseResult(root_promise.reflector().get_jsobject(), reason.handle_mut());
let event = PromiseRejectionEvent::new(
&target.global(),
atom!("rejectionhandled"),
EventBubbles::DoesNotBubble,
EventCancelable::Cancelable,
root_promise,
reason.handle()
);
event.upcast::<Event>().fire(&target);
}),
global.upcast(),
).unwrap();
},
};
})
}
#[allow(unsafe_code, unrooted_must_root)]
/// https://html.spec.whatwg.org/multipage/#notify-about-rejected-promises
pub fn notify_about_rejected_promises(global: &GlobalScope) {
let cx = GlobalScope::get_cx();
unsafe {
// Step 2.
if global.get_uncaught_rejections().borrow().len() > 0 {
// Step 1.
let uncaught_rejections: Vec<TrustedPromise> = global
.get_uncaught_rejections()
.borrow()
.iter()
.map(|promise| {
let promise =
Promise::new_with_js_promise(Handle::from_raw(promise.handle()), cx);
TrustedPromise::new(promise)
})
.collect();
// Step 3.
global.get_uncaught_rejections().borrow_mut().clear();
let target = Trusted::new(global.upcast::<EventTarget>());
// Step 4.
global.dom_manipulation_task_source().queue(
task!(unhandled_rejection_event: move || {
let target = target.root();
let cx = GlobalScope::get_cx();
for promise in uncaught_rejections {
let promise = promise.root();
// Step 4-1.
let promise_is_handled = GetPromiseIsHandled(promise.reflector().get_jsobject());
if promise_is_handled {
continue;
}
// Step 4-2.
rooted!(in(*cx) let mut reason = UndefinedValue());
JS_GetPromiseResult(promise.reflector().get_jsobject(), reason.handle_mut());
let event = PromiseRejectionEvent::new(
&target.global(),
atom!("unhandledrejection"),
EventBubbles::DoesNotBubble,
EventCancelable::Cancelable,
promise.clone(),
reason.handle()
);
let event_status = event.upcast::<Event>().fire(&target);
// Step 4-3.
if event_status == EventStatus::Canceled {
// TODO: The promise rejection is not handled; we need to add it back to the list.
}
// Step 4-4.
if !promise_is_handled {
target.global().add_consumed_rejection(promise.reflector().get_jsobject().into_handle());
}
}
}),
global.upcast(),
).unwrap();
}
}
}
#[derive(JSTraceable)]
pub struct Runtime {
rt: RustRuntime,
pub microtask_queue: Rc<MicrotaskQueue>,
job_queue: *mut JobQueue,
}
impl Drop for Runtime {
#[allow(unsafe_code)]
fn drop(&mut self) {
unsafe {
DeleteJobQueue(self.job_queue);
}
THREAD_ACTIVE.with(|t| {
LiveDOMReferences::destruct();
t.set(false);
});
}
}
impl Deref for Runtime {
type Target = RustRuntime;
fn deref(&self) -> &RustRuntime {
&self.rt
}
}
pub struct JSEngineSetup(JSEngine);
impl JSEngineSetup {
pub fn new() -> Self {
let engine = JSEngine::init().unwrap();
*JS_ENGINE.lock().unwrap() = Some(engine.handle());
Self(engine)
}
}
impl Drop for JSEngineSetup {
fn drop(&mut self) {
*JS_ENGINE.lock().unwrap() = None;
while !self.0.can_shutdown() {
thread::sleep(Duration::from_millis(50));
}
}
}
lazy_static! {
static ref JS_ENGINE: Mutex<Option<JSEngineHandle>> = Mutex::new(None);
}
#[allow(unsafe_code)]
pub unsafe fn new_child_runtime(
parent: ParentRuntime,
networking_task_source: Option<NetworkingTaskSource>,
) -> Runtime {
new_rt_and_cx_with_parent(Some(parent), networking_task_source)
}
#[allow(unsafe_code)]
pub fn new_rt_and_cx(networking_task_source: Option<NetworkingTaskSource>) -> Runtime {
unsafe { new_rt_and_cx_with_parent(None, networking_task_source) }
}
#[allow(unsafe_code)]
unsafe fn new_rt_and_cx_with_parent(
parent: Option<ParentRuntime>,
networking_task_source: Option<NetworkingTaskSource>,
) -> Runtime {
LiveDOMReferences::initialize();
let (cx, runtime) = if let Some(parent) = parent {
let runtime = RustRuntime::create_with_parent(parent);
let cx = runtime.cx();
(cx, runtime)
} else {
let runtime = RustRuntime::new(JS_ENGINE.lock().unwrap().as_ref().unwrap().clone());
(runtime.cx(), runtime)
};
JS_AddExtraGCRootsTracer(cx, Some(trace_rust_roots), ptr::null_mut());
JS_SetSecurityCallbacks(cx, &SECURITY_CALLBACKS);
JS_InitDestroyPrincipalsCallback(cx, Some(principals::destroy_servo_jsprincipal));
// Needed for debug assertions about whether GC is running.
if cfg!(debug_assertions) {
JS_SetGCCallback(cx, Some(debug_gc_callback), ptr::null_mut());
}
if opts::get().debug.gc_profile {
SetGCSliceCallback(cx, Some(gc_slice_callback));
}
unsafe extern "C" fn empty_wrapper_callback(_: *mut RawJSContext, _: HandleObject) -> bool {
true
}
unsafe extern "C" fn empty_has_released_callback(_: HandleObject) -> bool {
// fixme: return true when the Drop impl for a DOM object has been invoked
false
}
SetDOMCallbacks(cx, &DOM_CALLBACKS);
SetPreserveWrapperCallbacks(
cx,
Some(empty_wrapper_callback),
Some(empty_has_released_callback),
);
// Pre barriers aren't working correctly at the moment
DisableIncrementalGC(cx);
unsafe extern "C" fn dispatch_to_event_loop(
closure: *mut c_void,
dispatchable: *mut JSRunnable,
) -> bool {
let networking_task_src: &NetworkingTaskSource = &*(closure as *mut NetworkingTaskSource);
let runnable = Runnable(dispatchable);
let task = task!(dispatch_to_event_loop_message: move || {
runnable.run(RustRuntime::get(), Dispatchable_MaybeShuttingDown::NotShuttingDown);
});
networking_task_src.queue_unconditionally(task).is_ok()
}
if let Some(source) = networking_task_source {
let networking_task_src = Box::new(source);
InitDispatchToEventLoop(
cx,
Some(dispatch_to_event_loop),
Box::into_raw(networking_task_src) as *mut c_void,
);
}
InitConsumeStreamCallback(cx, Some(consume_stream), Some(report_stream_error));
let microtask_queue = Rc::new(MicrotaskQueue::default());
let job_queue = CreateJobQueue(
&JOB_QUEUE_TRAPS,
&*microtask_queue as *const _ as *const c_void,
);
SetJobQueue(cx, job_queue);
SetPromiseRejectionTrackerCallback(cx, Some(promise_rejection_tracker), ptr::null_mut());
EnsureModuleHooksInitialized(runtime.rt());
set_gc_zeal_options(cx);
// Enable or disable the JITs.
let cx_opts = &mut *ContextOptionsRef(cx);
JS_SetGlobalJitCompilerOption(
cx,
JSJitCompilerOption::JSJITCOMPILER_BASELINE_ENABLE,
pref!(js.baseline.enabled) as u32,
);
JS_SetGlobalJitCompilerOption(
cx,
JSJitCompilerOption::JSJITCOMPILER_ION_ENABLE,
pref!(js.ion.enabled) as u32,
);
cx_opts.set_asmJS_(pref!(js.asmjs.enabled));
let wasm_enabled = pref!(js.wasm.enabled);
cx_opts.set_wasm_(wasm_enabled);
if wasm_enabled {
// If WASM is enabled without setting the buildIdOp,
// initializing a module will report an out of memory error.
// https://dxr.mozilla.org/mozilla-central/source/js/src/wasm/WasmTypes.cpp#458
SetProcessBuildIdOp(Some(servo_build_id));
}
cx_opts.set_wasmBaseline_(pref!(js.wasm.baseline.enabled));
cx_opts.set_wasmIon_(pref!(js.wasm.ion.enabled));
cx_opts.set_strictMode_(pref!(js.strict.enabled));
// TODO: handle js.strict.debug.enabled
// TODO: handle js.throw_on_asmjs_validation_failure (needs new Spidermonkey)
JS_SetGlobalJitCompilerOption(
cx,
JSJitCompilerOption::JSJITCOMPILER_NATIVE_REGEXP_ENABLE,
pref!(js.native_regex.enabled) as u32,
);
JS_SetParallelParsingEnabled(cx, pref!(js.parallel_parsing.enabled));
JS_SetOffthreadIonCompilationEnabled(cx, pref!(js.offthread_compilation.enabled));
JS_SetGlobalJitCompilerOption(
cx,
JSJitCompilerOption::JSJITCOMPILER_BASELINE_WARMUP_TRIGGER,
if pref!(js.baseline.unsafe_eager_compilation.enabled) {
0
} else {
u32::max_value()
},
);
JS_SetGlobalJitCompilerOption(
cx,
JSJitCompilerOption::JSJITCOMPILER_ION_NORMAL_WARMUP_TRIGGER,
if pref!(js.ion.unsafe_eager_compilation.enabled) {
0
} else {
u32::max_value()
},
);
// TODO: handle js.discard_system_source.enabled
// TODO: handle js.asyncstack.enabled (needs new Spidermonkey)
// TODO: handle js.throw_on_debugee_would_run (needs new Spidermonkey)
// TODO: handle js.dump_stack_on_debugee_would_run (needs new Spidermonkey)
// TODO: handle js.shared_memory.enabled
JS_SetGCParameter(
cx,
JSGCParamKey::JSGC_MAX_BYTES,
in_range(pref!(js.mem.max), 1, 0x100)
.map(|val| (val * 1024 * 1024) as u32)
.unwrap_or(u32::max_value()),
);
// NOTE: This is disabled above, so enabling it here will do nothing for now.
JS_SetGCParameter(
cx,
JSGCParamKey::JSGC_INCREMENTAL_GC_ENABLED,
pref!(js.mem.gc.incremental.enabled) as u32,
);
JS_SetGCParameter(
cx,
JSGCParamKey::JSGC_PER_ZONE_GC_ENABLED,
pref!(js.mem.gc.per_zone.enabled) as u32,
);
if let Some(val) = in_range(pref!(js.mem.gc.incremental.slice_ms), 0, 100_000) {
JS_SetGCParameter(cx, JSGCParamKey::JSGC_SLICE_TIME_BUDGET_MS, val as u32);
}
JS_SetGCParameter(
cx,
JSGCParamKey::JSGC_COMPACTING_ENABLED,
pref!(js.mem.gc.compacting.enabled) as u32,
);
if let Some(val) = in_range(pref!(js.mem.gc.high_frequency_time_limit_ms), 0, 10_000) {
JS_SetGCParameter(cx, JSGCParamKey::JSGC_HIGH_FREQUENCY_TIME_LIMIT, val as u32);
}
if let Some(val) = in_range(pref!(js.mem.gc.low_frequency_heap_growth), 0, 10_000) {
JS_SetGCParameter(cx, JSGCParamKey::JSGC_LOW_FREQUENCY_HEAP_GROWTH, val as u32);
}
if let Some(val) = in_range(pref!(js.mem.gc.high_frequency_heap_growth_min), 0, 10_000) {
JS_SetGCParameter(
cx,
JSGCParamKey::JSGC_HIGH_FREQUENCY_LARGE_HEAP_GROWTH,
val as u32,
);
}
if let Some(val) = in_range(pref!(js.mem.gc.high_frequency_heap_growth_max), 0, 10_000) {
JS_SetGCParameter(
cx,
JSGCParamKey::JSGC_HIGH_FREQUENCY_SMALL_HEAP_GROWTH,
val as u32,
);
}
if let Some(val) = in_range(pref!(js.mem.gc.high_frequency_low_limit_mb), 0, 10_000) {
JS_SetGCParameter(cx, JSGCParamKey::JSGC_SMALL_HEAP_SIZE_MAX, val as u32);
}
if let Some(val) = in_range(pref!(js.mem.gc.high_frequency_high_limit_mb), 0, 10_000) {
JS_SetGCParameter(cx, JSGCParamKey::JSGC_LARGE_HEAP_SIZE_MIN, val as u32);
}
/*if let Some(val) = in_range(pref!(js.mem.gc.allocation_threshold_factor), 0, 10_000) {
JS_SetGCParameter(cx, JSGCParamKey::JSGC_NON_INCREMENTAL_FACTOR, val as u32);
}*/
/*
// JSGC_SMALL_HEAP_INCREMENTAL_LIMIT
pref("javascript.options.mem.gc_small_heap_incremental_limit", 140);
// JSGC_LARGE_HEAP_INCREMENTAL_LIMIT
pref("javascript.options.mem.gc_large_heap_incremental_limit", 110);
*/
if let Some(val) = in_range(pref!(js.mem.gc.empty_chunk_count_min), 0, 10_000) {
JS_SetGCParameter(cx, JSGCParamKey::JSGC_MIN_EMPTY_CHUNK_COUNT, val as u32);
}
if let Some(val) = in_range(pref!(js.mem.gc.empty_chunk_count_max), 0, 10_000) {
JS_SetGCParameter(cx, JSGCParamKey::JSGC_MAX_EMPTY_CHUNK_COUNT, val as u32);
}
Runtime {
rt: runtime,
microtask_queue,
job_queue,
}
}
fn in_range<T: PartialOrd + Copy>(val: T, min: T, max: T) -> Option<T> {
if val < min || val >= max {
None
} else {
Some(val)
}
}
#[allow(unsafe_code)]
unsafe extern "C" fn get_size(obj: *mut JSObject) -> usize {
match get_dom_class(obj) {
Ok(v) => {
let dom_object = private_from_object(obj) as *const c_void;
if dom_object.is_null() {
return 0;
}
let mut ops = MallocSizeOfOps::new(servo_allocator::usable_size, None, None);
(v.malloc_size_of)(&mut ops, dom_object)
},
Err(_e) => {
return 0;
},
}
}
#[allow(unsafe_code)]
pub fn get_reports(cx: *mut RawJSContext, path_seg: String) -> Vec<Report> {
let mut reports = vec![];
unsafe {
let mut stats = ::std::mem::zeroed();
if CollectServoSizes(cx, &mut stats, Some(get_size)) {
let mut report = |mut path_suffix, kind, size| {
let mut path = path![path_seg, "js"];
path.append(&mut path_suffix);
reports.push(Report {
path: path,
kind: kind,
size: size as usize,
})
};
// A note about possibly confusing terminology: the JS GC "heap" is allocated via
// mmap/VirtualAlloc, which means it's not on the malloc "heap", so we use
// `ExplicitNonHeapSize` as its kind.
report(
path!["gc-heap", "used"],
ReportKind::ExplicitNonHeapSize,
stats.gcHeapUsed,
);
report(
path!["gc-heap", "unused"],
ReportKind::ExplicitNonHeapSize,
stats.gcHeapUnused,
);
report(
path!["gc-heap", "admin"],
ReportKind::ExplicitNonHeapSize,
stats.gcHeapAdmin,
);
report(
path!["gc-heap", "decommitted"],
ReportKind::ExplicitNonHeapSize,
stats.gcHeapDecommitted,
);
// SpiderMonkey uses the system heap, not jemalloc.
report(
path!["malloc-heap"],
ReportKind::ExplicitSystemHeapSize,
stats.mallocHeap,
);
report(
path!["non-heap"],
ReportKind::ExplicitNonHeapSize,
stats.nonHeap,
);
}
}
reports
}
thread_local!(static GC_CYCLE_START: Cell<Option<Tm>> = Cell::new(None));
thread_local!(static GC_SLICE_START: Cell<Option<Tm>> = Cell::new(None));
#[allow(unsafe_code)]
unsafe extern "C" fn gc_slice_callback(
_cx: *mut RawJSContext,
progress: GCProgress,
desc: *const GCDescription,
) {
match progress {
GCProgress::GC_CYCLE_BEGIN => GC_CYCLE_START.with(|start| {
start.set(Some(now()));
println!("GC cycle began");
}),
GCProgress::GC_SLICE_BEGIN => GC_SLICE_START.with(|start| {
start.set(Some(now()));
println!("GC slice began");
}),
GCProgress::GC_SLICE_END => GC_SLICE_START.with(|start| {
let dur = now() - start.get().unwrap();
start.set(None);
println!("GC slice ended: duration={}", dur);
}),
GCProgress::GC_CYCLE_END => GC_CYCLE_START.with(|start| {
let dur = now() - start.get().unwrap();
start.set(None);
println!("GC cycle ended: duration={}", dur);
}),
};
if !desc.is_null() {
let desc: &GCDescription = &*desc;
let options = match desc.options_ {
GCOptions::Normal => "Normal",
GCOptions::Shrink => "Shrink",
GCOptions::Shutdown => "Shutdown",
};
println!(" isZone={}, options={}", desc.isZone_, options);
}
let _ = stdout().flush();
}
#[allow(unsafe_code)]
unsafe extern "C" fn debug_gc_callback(
_cx: *mut RawJSContext,
status: JSGCStatus,
_reason: GCReason,
_data: *mut os::raw::c_void,
) {
match status {
JSGCStatus::JSGC_BEGIN => thread_state::enter(ThreadState::IN_GC),
JSGCStatus::JSGC_END => thread_state::exit(ThreadState::IN_GC),
}
}
thread_local!(
static THREAD_ACTIVE: Cell<bool> = Cell::new(true);
);
#[allow(unsafe_code)]
unsafe extern "C" fn trace_rust_roots(tr: *mut JSTracer, _data: *mut os::raw::c_void) {
if !THREAD_ACTIVE.with(|t| t.get()) {
return;
}
debug!("starting custom root handler");
trace_thread(tr);
trace_traceables(tr);
trace_roots(tr);
trace_refcounted_objects(tr);
settings_stack::trace(tr);
debug!("done custom root handler");
}
#[allow(unsafe_code)]
unsafe extern "C" fn servo_build_id(build_id: *mut BuildIdCharVector) -> bool {
let servo_id = b"Servo\0";
SetBuildId(build_id, &servo_id[0], servo_id.len())
}
#[allow(unsafe_code)]
#[cfg(feature = "debugmozjs")]
unsafe fn set_gc_zeal_options(cx: *mut RawJSContext) {
use js::jsapi::{JS_SetGCZeal, JS_DEFAULT_ZEAL_FREQ};
let level = match pref!(js.mem.gc.zeal.level) {
level @ 0..=14 => level as u8,
_ => return,
};
let frequency = match pref!(js.mem.gc.zeal.frequency) {
frequency if frequency >= 0 => frequency as u32,
_ => JS_DEFAULT_ZEAL_FREQ,
};
JS_SetGCZeal(cx, level, frequency);
}
#[allow(unsafe_code)]
#[cfg(not(feature = "debugmozjs"))]
unsafe fn set_gc_zeal_options(_: *mut RawJSContext) {}
#[repr(transparent)]
/// A wrapper around a JSContext that is Send,
/// enabling an interrupt to be requested
/// from a thread other than the one running JS using that context.
pub struct ContextForRequestInterrupt(*mut RawJSContext);
impl ContextForRequestInterrupt {
pub fn new(context: *mut RawJSContext) -> ContextForRequestInterrupt {
ContextForRequestInterrupt(context)
}
#[allow(unsafe_code)]
/// Can be called from any thread, to request the callback set by
/// JS_AddInterruptCallback to be called
/// on the thread where that context is running.
pub fn request_interrupt(&self) {
unsafe {
JS_RequestInterruptCallback(self.0);
}
}
}
#[allow(unsafe_code)]
/// It is safe to call `JS_RequestInterruptCallback(cx)` from any thread.
/// See the docs for the corresponding `requestInterrupt` method,
/// at `mozjs/js/src/vm/JSContext.h`.
unsafe impl Send for ContextForRequestInterrupt {}
#[derive(Clone, Copy)]
#[repr(transparent)]
pub struct JSContext(*mut RawJSContext);
#[allow(unsafe_code)]
impl JSContext {
pub unsafe fn from_ptr(raw_js_context: *mut RawJSContext) -> Self {
JSContext(raw_js_context)
}
}
#[allow(unsafe_code)]
impl Deref for JSContext {
type Target = *mut RawJSContext;
fn deref(&self) -> &Self::Target {
&self.0
}
}
pub struct StreamConsumer(*mut JSStreamConsumer);
#[allow(unsafe_code)]
impl StreamConsumer {
pub fn consume_chunk(&self, stream: &[u8]) -> bool {
unsafe {
let stream_ptr = stream.as_ptr();
return StreamConsumerConsumeChunk(self.0, stream_ptr, stream.len());
}
}
pub fn stream_end(&self) {
unsafe {
StreamConsumerStreamEnd(self.0);
}
}
pub fn stream_error(&self, error_code: usize) {
unsafe {
StreamConsumerStreamError(self.0, error_code);
}
}
pub fn note_response_urls(
&self,
maybe_url: Option<String>,
maybe_source_map_url: Option<String>,
) {
unsafe {
let maybe_url = maybe_url.map(|url| CString::new(url).unwrap());
let maybe_source_map_url = maybe_source_map_url.map(|url| CString::new(url).unwrap());
let maybe_url_param = match maybe_url.as_ref() {
Some(url) => url.as_ptr(),
None => ptr::null(),
};
let maybe_source_map_url_param = match maybe_source_map_url.as_ref() {
Some(url) => url.as_ptr(),
None => ptr::null(),
};
StreamConsumerNoteResponseURLs(self.0, maybe_url_param, maybe_source_map_url_param);
}
}
}
/// Implements the steps to compile webassembly response mentioned here
/// <https://webassembly.github.io/spec/web-api/#compile-a-potential-webassembly-response>
#[allow(unsafe_code)]
unsafe extern "C" fn consume_stream(
_cx: *mut RawJSContext,
obj: HandleObject,
_mime_type: MimeType,
_consumer: *mut JSStreamConsumer,
) -> bool {
let cx = JSContext::from_ptr(_cx);
let in_realm_proof = AlreadyInRealm::assert_for_cx(cx);
let global = GlobalScope::from_context(*cx, InRealm::Already(&in_realm_proof));
//Step 2.1 Upon fulfillment of source, store the Response with value unwrappedSource.
if let Ok(unwrapped_source) =
root_from_handleobject::<Response>(RustHandleObject::from_raw(obj), *cx)
{
//Step 2.2 Let mimeType be the result of extracting a MIME type from response’s header list.
let mimetype = unwrapped_source.Headers().extract_mime_type();
//Step 2.3 If mimeType is not `application/wasm`, return with a TypeError and abort these substeps.
if !&mimetype[..].eq_ignore_ascii_case(b"application/wasm") {
throw_dom_exception(
cx,
&global,
Error::Type("Response has unsupported MIME type".to_string()),
);
return false;
}
//Step 2.4 If response is not CORS-same-origin, return with a TypeError and abort these substeps.
match unwrapped_source.Type() {
DOMResponseType::Basic | DOMResponseType::Cors | DOMResponseType::Default => {},
_ => {
throw_dom_exception(
cx,
&global,
Error::Type("Response.type must be 'basic', 'cors' or 'default'".to_string()),
);
return false;
},
}
//Step 2.5 If response’s status is not an ok status, return with a TypeError and abort these substeps.
if !unwrapped_source.Ok() {
throw_dom_exception(
cx,
&global,
Error::Type("Response does not have ok status".to_string()),
);
return false;
}
// Step 2.6.1 If response body is locked, return with a TypeError and abort these substeps.
if unwrapped_source.is_locked() {
throw_dom_exception(
cx,
&global,
Error::Type("There was an error consuming the Response".to_string()),
);
return false;
}
// Step 2.6.2 If response body is alreaady consumed, return with a TypeError and abort these substeps.
if unwrapped_source.is_disturbed() {
throw_dom_exception(
cx,
&global,
Error::Type("Response already consumed".to_string()),
);
return false;
}
unwrapped_source.set_stream_consumer(Some(StreamConsumer(_consumer)));
} else {
//Step 3 Upon rejection of source, return with reason.
throw_dom_exception(
cx,
&global,
Error::Type("expected Response or Promise resolving to Response".to_string()),
);
return false;
}
return true;
}
#[allow(unsafe_code)]
unsafe extern "C" fn report_stream_error(_cx: *mut RawJSContext, error_code: usize) {
error!(
"Error initializing StreamConsumer: {:?}",
RUST_js_GetErrorMessage(ptr::null_mut(), error_code as u32)
);
}
pub struct Runnable(*mut JSRunnable);
#[allow(unsafe_code)]
unsafe impl Sync for Runnable {}
#[allow(unsafe_code)]
unsafe impl Send for Runnable {}
#[allow(unsafe_code)]
impl Runnable {
fn run(&self, cx: *mut RawJSContext, maybe_shutting_down: Dispatchable_MaybeShuttingDown) {
unsafe {
DispatchableRun(cx, self.0, maybe_shutting_down);
}
}
}