gecko-dev/dom/base/ScriptSettings.h
Nathan Froyd cccdd9fbca Bug 1177488 - use |const char*| for representing async call reasons; r=bz,fitzgen
Using a simple |const char*| is more memory-efficient than allocating a
JS string. We still have to allocate the JS string for passing things
into JS, but ideally we will be able to move the point of allocation
much closer to where it's actually needed, rather than indiscriminantly
doing it all the time.
2016-03-23 10:40:53 -04:00

465 lines
17 KiB
C++

/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* 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/. */
/* Utilities for managing the script settings object stack defined in webapps */
#ifndef mozilla_dom_ScriptSettings_h
#define mozilla_dom_ScriptSettings_h
#include "MainThreadUtils.h"
#include "nsIGlobalObject.h"
#include "nsIPrincipal.h"
#include "mozilla/Maybe.h"
#include "jsapi.h"
#include "js/Debug.h"
class nsPIDOMWindowInner;
class nsGlobalWindow;
class nsIScriptContext;
class nsIDocument;
class nsIDocShell;
namespace mozilla {
namespace dom {
// For internal use only - use AutoJSAPI instead.
namespace danger {
/**
* Fundamental cx pushing class. All other cx pushing classes are implemented
* in terms of this class.
*/
class MOZ_STACK_CLASS AutoCxPusher
{
public:
explicit AutoCxPusher(JSContext *aCx, bool aAllowNull = false);
~AutoCxPusher();
nsIScriptContext* GetScriptContext() { return mScx; }
// Returns true if this AutoCxPusher performed the push that is currently at
// the top of the cx stack.
bool IsStackTop() const;
private:
mozilla::Maybe<JSAutoRequest> mAutoRequest;
nsCOMPtr<nsIScriptContext> mScx;
uint32_t mStackDepthAfterPush;
#ifdef DEBUG
JSContext* mPushedContext;
unsigned mCompartmentDepthOnEntry;
#endif
};
} /* namespace danger */
/*
* System-wide setup/teardown routines. Init and Destroy should be invoked
* once each, at startup and shutdown (respectively).
*/
void InitScriptSettings();
void DestroyScriptSettings();
bool ScriptSettingsInitialized();
/*
* Static helpers in ScriptSettings which track the number of listeners
* of Javascript RunToCompletion events. These should be used by the code in
* nsDocShell::SetRecordProfileTimelineMarkers to indicate to script
* settings that script run-to-completion needs to be monitored.
* SHOULD BE CALLED ONLY BY MAIN THREAD.
*/
void UseEntryScriptProfiling();
void UnuseEntryScriptProfiling();
// To implement a web-compatible browser, it is often necessary to obtain the
// global object that is "associated" with the currently-running code. This
// process is made more complicated by the fact that, historically, different
// algorithms have operated with different definitions of the "associated"
// global.
//
// HTML5 formalizes this into two concepts: the "incumbent global" and the
// "entry global". The incumbent global corresponds to the global of the
// current script being executed, whereas the entry global corresponds to the
// global of the script where the current JS execution began.
//
// There is also a potentially-distinct third global that is determined by the
// current compartment. This roughly corresponds with the notion of Realms in
// ECMAScript.
//
// Suppose some event triggers an event listener in window |A|, which invokes a
// scripted function in window |B|, which invokes the |window.location.href|
// setter in window |C|. The entry global would be |A|, the incumbent global
// would be |B|, and the current compartment would be that of |C|.
//
// In general, it's best to use to use the most-closely-associated global
// unless the spec says to do otherwise. In 95% of the cases, the global of
// the current compartment (GetCurrentGlobal()) is the right thing. For
// example, WebIDL constructors (new C.XMLHttpRequest()) are initialized with
// the global of the current compartment (i.e. |C|).
//
// The incumbent global is very similar, but differs in a few edge cases. For
// example, if window |B| does |C.location.href = "..."|, the incumbent global
// used for the navigation algorithm is B, because no script from |C| was ever run.
//
// The entry global is used for various things like computing base URIs, mostly
// for historical reasons.
//
// Note that all of these functions return bonafide global objects. This means
// that, for Windows, they always return the inner.
// Returns the global associated with the top-most Candidate Entry Point on
// the Script Settings Stack. See the HTML spec. This may be null.
nsIGlobalObject* GetEntryGlobal();
// If the entry global is a window, returns its extant document. Otherwise,
// returns null.
nsIDocument* GetEntryDocument();
// Returns the global associated with the top-most entry of the the Script
// Settings Stack. See the HTML spec. This may be null.
nsIGlobalObject* GetIncumbentGlobal();
// Returns the global associated with the current compartment. This may be null.
nsIGlobalObject* GetCurrentGlobal();
// JS-implemented WebIDL presents an interesting situation with respect to the
// subject principal. A regular C++-implemented API can simply examine the
// compartment of the most-recently-executed script, and use that to infer the
// responsible party. However, JS-implemented APIs are run with system
// principal, and thus clobber the subject principal of the script that
// invoked the API. So we have to do some extra work to keep track of this
// information.
//
// We therefore implement the following behavior:
// * Each Script Settings Object has an optional WebIDL Caller Principal field.
// This defaults to null.
// * When we push an Entry Point in preparation to run a JS-implemented WebIDL
// callback, we grab the subject principal at the time of invocation, and
// store that as the WebIDL Caller Principal.
// * When non-null, callers can query this principal from script via an API on
// Components.utils.
nsIPrincipal* GetWebIDLCallerPrincipal();
// This may be used by callers that know that their incumbent global is non-
// null (i.e. they know there have been no System Caller pushes since the
// inner-most script execution).
inline JSObject& IncumbentJSGlobal()
{
return *GetIncumbentGlobal()->GetGlobalJSObject();
}
class ScriptSettingsStack;
class ScriptSettingsStackEntry {
friend class ScriptSettingsStack;
public:
~ScriptSettingsStackEntry();
bool NoJSAPI() { return !mGlobalObject; }
protected:
ScriptSettingsStackEntry(nsIGlobalObject *aGlobal, bool aCandidate);
nsCOMPtr<nsIGlobalObject> mGlobalObject;
bool mIsCandidateEntryPoint;
private:
// This constructor is only for use by AutoNoJSAPI.
friend class AutoNoJSAPI;
ScriptSettingsStackEntry();
ScriptSettingsStackEntry *mOlder;
};
/*
* For any interaction with JSAPI, an AutoJSAPI (or one of its subclasses)
* must be on the stack.
*
* This base class should be instantiated as-is when the caller wants to use
* JSAPI but doesn't expect to run script. The caller must then call one of its
* Init functions before being able to access the JSContext through cx().
* Its current duties are as-follows (see individual Init comments for details):
*
* * Grabbing an appropriate JSContext, and, on the main thread, pushing it onto
* the JSContext stack.
* * Entering an initial (possibly null) compartment, to ensure that the
* previously entered compartment for that JSContext is not used by mistake.
*
* Additionally, the following duties are planned, but not yet implemented:
*
* * De-poisoning the JSRuntime to allow manipulation of JSAPI. We can't
* actually implement this poisoning until all the JSContext pushing in the
* system goes through AutoJSAPI (see bug 951991). For now, this de-poisoning
* effectively corresponds to having a non-null cx on the stack.
* * Reporting any exceptions left on the JSRuntime, unless the caller steals
* or silences them.
* * Entering a JSAutoRequest. At present, this is handled by the cx pushing
* on the main thread, and by other code on workers. Depending on the order
* in which various cleanup lands, this may never be necessary, because
* JSAutoRequests may go away.
*
* In situations where the consumer expects to run script, AutoEntryScript
* should be used, which does additional manipulation of the script settings
* stack. In bug 991758, we'll add hard invariants to SpiderMonkey, such that
* any attempt to run script without an AutoEntryScript on the stack will
* fail. This prevents system code from accidentally triggering script
* execution at inopportune moments via surreptitious getters and proxies.
*/
class MOZ_STACK_CLASS AutoJSAPI {
public:
// Trivial constructor. One of the Init functions must be called before
// accessing the JSContext through cx().
AutoJSAPI();
~AutoJSAPI();
// This uses the SafeJSContext (or worker equivalent), and enters a null
// compartment, so that the consumer is forced to select a compartment to
// enter before manipulating objects.
//
// This variant will ensure that any errors reported by this AutoJSAPI as it
// comes off the stack will not fire error events or be associated with any
// particular web-visible global.
void Init();
// This uses the SafeJSContext (or worker equivalent), and enters the
// compartment of aGlobalObject.
// If aGlobalObject or its associated JS global are null then it returns
// false and use of cx() will cause an assertion.
//
// If aGlobalObject represents a web-visible global, errors reported by this
// AutoJSAPI as it comes off the stack will fire the relevant error events and
// show up in the corresponding web console.
bool Init(nsIGlobalObject* aGlobalObject);
// This is a helper that grabs the native global associated with aObject and
// invokes the above Init() with that.
bool Init(JSObject* aObject);
// Unsurprisingly, this uses aCx and enters the compartment of aGlobalObject.
// If aGlobalObject or its associated JS global are null then it returns
// false and use of cx() will cause an assertion.
// If aCx is null it will cause an assertion.
//
// If aGlobalObject represents a web-visible global, errors reported by this
// AutoJSAPI as it comes off the stack will fire the relevant error events and
// show up in the corresponding web console.
bool Init(nsIGlobalObject* aGlobalObject, JSContext* aCx);
// Convenience functions to take an nsPIDOMWindow* or nsGlobalWindow*,
// when it is more easily available than an nsIGlobalObject.
bool Init(nsPIDOMWindowInner* aWindow);
bool Init(nsPIDOMWindowInner* aWindow, JSContext* aCx);
bool Init(nsGlobalWindow* aWindow);
bool Init(nsGlobalWindow* aWindow, JSContext* aCx);
JSContext* cx() const {
MOZ_ASSERT(mCx, "Must call Init before using an AutoJSAPI");
MOZ_ASSERT_IF(mIsMainThread, CxPusherIsStackTop());
return mCx;
}
bool CxPusherIsStackTop() const { return mCxPusher->IsStackTop(); }
// If HasException, report it. Otherwise, a no-op.
void ReportException();
bool HasException() const {
MOZ_ASSERT_IF(NS_IsMainThread(), CxPusherIsStackTop());
return JS_IsExceptionPending(cx());
};
// Transfers ownership of the current exception from the JS engine to the
// caller. Callers must ensure that HasException() is true, and that cx()
// is in a non-null compartment.
//
// Note that this fails if and only if we OOM while wrapping the exception
// into the current compartment.
bool StealException(JS::MutableHandle<JS::Value> aVal);
// Peek the current exception from the JS engine, without stealing it.
// Callers must ensure that HasException() is true, and that cx() is in a
// non-null compartment.
//
// Note that this fails if and only if we OOM while wrapping the exception
// into the current compartment.
bool PeekException(JS::MutableHandle<JS::Value> aVal);
void ClearException() {
MOZ_ASSERT_IF(NS_IsMainThread(), CxPusherIsStackTop());
JS_ClearPendingException(cx());
}
protected:
// Protected constructor, allowing subclasses to specify a particular cx to
// be used. This constructor initialises the AutoJSAPI, so Init must NOT be
// called on subclasses that use this.
// If aGlobalObject, its associated JS global or aCx are null this will cause
// an assertion, as will setting aIsMainThread incorrectly.
AutoJSAPI(nsIGlobalObject* aGlobalObject, bool aIsMainThread, JSContext* aCx);
private:
mozilla::Maybe<danger::AutoCxPusher> mCxPusher;
mozilla::Maybe<JSAutoNullableCompartment> mAutoNullableCompartment;
JSContext *mCx;
// Track state between the old and new error reporting modes.
bool mOldAutoJSAPIOwnsErrorReporting;
// Whether we're mainthread or not; set when we're initialized.
bool mIsMainThread;
Maybe<JSErrorReporter> mOldErrorReporter;
void InitInternal(JSObject* aGlobal, JSContext* aCx, bool aIsMainThread);
AutoJSAPI(const AutoJSAPI&) = delete;
AutoJSAPI& operator= (const AutoJSAPI&) = delete;
};
/*
* A class that represents a new script entry point.
*
* |aReason| should be a statically-allocated C string naming the reason we're
* invoking JavaScript code: "setTimeout", "event", and so on. The devtools use
* these strings to label JS execution in timeline and profiling displays.
*/
class MOZ_STACK_CLASS AutoEntryScript : public AutoJSAPI,
protected ScriptSettingsStackEntry {
public:
AutoEntryScript(nsIGlobalObject* aGlobalObject,
const char *aReason,
bool aIsMainThread = NS_IsMainThread(),
// Note: aCx is mandatory off-main-thread.
JSContext* aCx = nullptr);
AutoEntryScript(JSObject* aObject, // Any object from the relevant global
const char *aReason,
bool aIsMainThread = NS_IsMainThread(),
// Note: aCx is mandatory off-main-thread.
JSContext* aCx = nullptr);
~AutoEntryScript();
void SetWebIDLCallerPrincipal(nsIPrincipal *aPrincipal) {
mWebIDLCallerPrincipal = aPrincipal;
}
private:
// A subclass of AutoEntryMonitor that notifies the docshell.
class DocshellEntryMonitor : public JS::dbg::AutoEntryMonitor
{
public:
DocshellEntryMonitor(JSContext* aCx, const char* aReason);
// Please note that |aAsyncCause| here is owned by the caller, and its
// lifetime must outlive the lifetime of the DocshellEntryMonitor object.
// In practice, |aAsyncCause| is identical to |aReason| passed into
// the AutoEntryScript constructor, so the lifetime requirements are
// trivially satisfied by |aReason| being a statically allocated string.
void Entry(JSContext* aCx, JSFunction* aFunction,
JS::Handle<JS::Value> aAsyncStack,
const char* aAsyncCause) override
{
Entry(aCx, aFunction, nullptr, aAsyncStack, aAsyncCause);
}
void Entry(JSContext* aCx, JSScript* aScript,
JS::Handle<JS::Value> aAsyncStack,
const char* aAsyncCause) override
{
Entry(aCx, nullptr, aScript, aAsyncStack, aAsyncCause);
}
void Exit(JSContext* aCx) override;
private:
void Entry(JSContext* aCx, JSFunction* aFunction, JSScript* aScript,
JS::Handle<JS::Value> aAsyncStack,
const char* aAsyncCause);
const char* mReason;
};
// It's safe to make this a weak pointer, since it's the subject principal
// when we go on the stack, so can't go away until after we're gone. In
// particular, this is only used from the CallSetup constructor, and only in
// the aIsJSImplementedWebIDL case. And in that case, the subject principal
// is the principal of the callee function that is part of the CallArgs just a
// bit up the stack, and which will outlive us. So we know the principal
// can't go away until then either.
nsIPrincipal* MOZ_NON_OWNING_REF mWebIDLCallerPrincipal;
friend nsIPrincipal* GetWebIDLCallerPrincipal();
Maybe<DocshellEntryMonitor> mDocShellEntryMonitor;
};
/*
* A class that can be used to force a particular incumbent script on the stack.
*/
class AutoIncumbentScript : protected ScriptSettingsStackEntry {
public:
explicit AutoIncumbentScript(nsIGlobalObject* aGlobalObject);
private:
JS::AutoHideScriptedCaller mCallerOverride;
};
/*
* A class to put the JS engine in an unusable state. The subject principal
* will become System, the information on the script settings stack is
* rendered inaccessible, and JSAPI may not be manipulated until the class is
* either popped or an AutoJSAPI instance is subsequently pushed.
*
* This class may not be instantiated if an exception is pending.
*/
class AutoNoJSAPI : protected ScriptSettingsStackEntry {
public:
explicit AutoNoJSAPI(bool aIsMainThread = NS_IsMainThread());
private:
mozilla::Maybe<danger::AutoCxPusher> mCxPusher;
};
} // namespace dom
/**
* Use AutoJSContext when you need a JS context on the stack but don't have one
* passed as a parameter. AutoJSContext will take care of finding the most
* appropriate JS context and release it when leaving the stack.
*/
class MOZ_RAII AutoJSContext {
public:
explicit AutoJSContext(MOZ_GUARD_OBJECT_NOTIFIER_ONLY_PARAM);
operator JSContext*() const;
protected:
JSContext* mCx;
dom::AutoJSAPI mJSAPI;
MOZ_DECL_USE_GUARD_OBJECT_NOTIFIER
};
/**
* AutoSafeJSContext is similar to AutoJSContext but will only return the safe
* JS context. That means it will never call nsContentUtils::GetCurrentJSContext().
*
* Note - This is deprecated. Please use AutoJSAPI instead.
*/
class MOZ_RAII AutoSafeJSContext : public dom::AutoJSAPI {
public:
explicit AutoSafeJSContext(MOZ_GUARD_OBJECT_NOTIFIER_ONLY_PARAM);
operator JSContext*() const
{
return cx();
}
private:
MOZ_DECL_USE_GUARD_OBJECT_NOTIFIER
};
} // namespace mozilla
#endif // mozilla_dom_ScriptSettings_h