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tenfourfox/devtools/server/actors/script.js
Cameron Kaiser c9b2922b70 hello FPR
2017-04-19 00:56:45 -07:00

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/* -*- indent-tabs-mode: nil; js-indent-level: 2; js-indent-level: 2 -*- */
/* vim: set ft=javascript ts=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/. */
"use strict";
const Services = require("Services");
const { Cc, Ci, Cu, components, ChromeWorker } = require("chrome");
const { ActorPool, OriginalLocation, GeneratedLocation } = require("devtools/server/actors/common");
const { ObjectActor, createValueGrip, longStringGrip } = require("devtools/server/actors/object");
const { DebuggerServer } = require("devtools/server/main");
const DevToolsUtils = require("devtools/shared/DevToolsUtils");
const { assert, dbg_assert, dumpn, update, fetch } = DevToolsUtils;
const { dirname, joinURI } = require("devtools/shared/path");
const promise = require("promise");
const PromiseDebugging = require("PromiseDebugging");
const xpcInspector = require("xpcInspector");
const ScriptStore = require("./utils/ScriptStore");
const { DevToolsWorker } = require("devtools/shared/worker/worker");
const { defer, resolve, reject, all } = promise;
loader.lazyGetter(this, "Debugger", () => {
let Debugger = require("Debugger");
hackDebugger(Debugger);
return Debugger;
});
loader.lazyRequireGetter(this, "SourceMapConsumer", "source-map", true);
loader.lazyRequireGetter(this, "SourceMapGenerator", "source-map", true);
loader.lazyRequireGetter(this, "CssLogic", "devtools/shared/styleinspector/css-logic", true);
loader.lazyRequireGetter(this, "events", "sdk/event/core");
loader.lazyRequireGetter(this, "mapURIToAddonID", "devtools/server/actors/utils/map-uri-to-addon-id");
loader.lazyRequireGetter(this, "setTimeout", "sdk/timers", true);
/**
* A BreakpointActorMap is a map from locations to instances of BreakpointActor.
*/
function BreakpointActorMap() {
this._size = 0;
this._actors = {};
}
BreakpointActorMap.prototype = {
/**
* Return the number of BreakpointActors in this BreakpointActorMap.
*
* @returns Number
* The number of BreakpointActor in this BreakpointActorMap.
*/
get size() {
return this._size;
},
/**
* Generate all BreakpointActors that match the given location in
* this BreakpointActorMap.
*
* @param OriginalLocation location
* The location for which matching BreakpointActors should be generated.
*/
findActors: function* (location = new OriginalLocation()) {
// Fast shortcut for when we know we won't find any actors. Surprisingly
// enough, this speeds up refreshing when there are no breakpoints set by
// about 2x!
if (this.size === 0) {
return;
}
function* findKeys(object, key) {
if (key !== undefined) {
if (key in object) {
yield key;
}
}
else {
for (let key of Object.keys(object)) {
yield key;
}
}
}
let query = {
sourceActorID: location.originalSourceActor ? location.originalSourceActor.actorID : undefined,
line: location.originalLine,
};
// If location contains a line, assume we are searching for a whole line
// breakpoint, and set begin/endColumn accordingly. Otherwise, we are
// searching for all breakpoints, so begin/endColumn should be left unset.
if (location.originalLine) {
query.beginColumn = location.originalColumn ? location.originalColumn : 0;
query.endColumn = location.originalColumn ? location.originalColumn + 1 : Infinity;
} else {
query.beginColumn = location.originalColumn ? query.originalColumn : undefined;
query.endColumn = location.originalColumn ? query.originalColumn + 1 : undefined;
}
for (let sourceActorID of findKeys(this._actors, query.sourceActorID))
for (let line of findKeys(this._actors[sourceActorID], query.line))
for (let beginColumn of findKeys(this._actors[sourceActorID][line], query.beginColumn))
for (let endColumn of findKeys(this._actors[sourceActorID][line][beginColumn], query.endColumn)) {
yield this._actors[sourceActorID][line][beginColumn][endColumn];
}
},
/**
* Return the BreakpointActor at the given location in this
* BreakpointActorMap.
*
* @param OriginalLocation location
* The location for which the BreakpointActor should be returned.
*
* @returns BreakpointActor actor
* The BreakpointActor at the given location.
*/
getActor: function (originalLocation) {
for (let actor of this.findActors(originalLocation)) {
return actor;
}
return null;
},
/**
* Set the given BreakpointActor to the given location in this
* BreakpointActorMap.
*
* @param OriginalLocation location
* The location to which the given BreakpointActor should be set.
*
* @param BreakpointActor actor
* The BreakpointActor to be set to the given location.
*/
setActor: function (location, actor) {
let { originalSourceActor, originalLine, originalColumn } = location;
let sourceActorID = originalSourceActor.actorID;
let line = originalLine;
let beginColumn = originalColumn ? originalColumn : 0;
let endColumn = originalColumn ? originalColumn + 1 : Infinity;
if (!this._actors[sourceActorID]) {
this._actors[sourceActorID] = [];
}
if (!this._actors[sourceActorID][line]) {
this._actors[sourceActorID][line] = [];
}
if (!this._actors[sourceActorID][line][beginColumn]) {
this._actors[sourceActorID][line][beginColumn] = [];
}
if (!this._actors[sourceActorID][line][beginColumn][endColumn]) {
++this._size;
}
this._actors[sourceActorID][line][beginColumn][endColumn] = actor;
},
/**
* Delete the BreakpointActor from the given location in this
* BreakpointActorMap.
*
* @param OriginalLocation location
* The location from which the BreakpointActor should be deleted.
*/
deleteActor: function (location) {
let { originalSourceActor, originalLine, originalColumn } = location;
let sourceActorID = originalSourceActor.actorID;
let line = originalLine;
let beginColumn = originalColumn ? originalColumn : 0;
let endColumn = originalColumn ? originalColumn + 1 : Infinity;
if (this._actors[sourceActorID]) {
if (this._actors[sourceActorID][line]) {
if (this._actors[sourceActorID][line][beginColumn]) {
if (this._actors[sourceActorID][line][beginColumn][endColumn]) {
--this._size;
}
delete this._actors[sourceActorID][line][beginColumn][endColumn];
if (Object.keys(this._actors[sourceActorID][line][beginColumn]).length === 0) {
delete this._actors[sourceActorID][line][beginColumn];
}
}
if (Object.keys(this._actors[sourceActorID][line]).length === 0) {
delete this._actors[sourceActorID][line];
}
}
}
}
};
exports.BreakpointActorMap = BreakpointActorMap;
/**
* Keeps track of persistent sources across reloads and ties different
* source instances to the same actor id so that things like
* breakpoints survive reloads. ThreadSources uses this to force the
* same actorID on a SourceActor.
*/
function SourceActorStore() {
// source identifier --> actor id
this._sourceActorIds = Object.create(null);
}
SourceActorStore.prototype = {
/**
* Lookup an existing actor id that represents this source, if available.
*/
getReusableActorId: function(aSource, aOriginalUrl) {
let url = this.getUniqueKey(aSource, aOriginalUrl);
if (url && url in this._sourceActorIds) {
return this._sourceActorIds[url];
}
return null;
},
/**
* Update a source with an actorID.
*/
setReusableActorId: function(aSource, aOriginalUrl, actorID) {
let url = this.getUniqueKey(aSource, aOriginalUrl);
if (url) {
this._sourceActorIds[url] = actorID;
}
},
/**
* Make a unique URL from a source that identifies it across reloads.
*/
getUniqueKey: function(aSource, aOriginalUrl) {
if (aOriginalUrl) {
// Original source from a sourcemap.
return aOriginalUrl;
}
else {
return getSourceURL(aSource);
}
}
};
exports.SourceActorStore = SourceActorStore;
/**
* Manages pushing event loops and automatically pops and exits them in the
* correct order as they are resolved.
*
* @param ThreadActor thread
* The thread actor instance that owns this EventLoopStack.
* @param DebuggerServerConnection connection
* The remote protocol connection associated with this event loop stack.
* @param Object hooks
* An object with the following properties:
* - url: The URL string of the debuggee we are spinning an event loop
* for.
* - preNest: function called before entering a nested event loop
* - postNest: function called after exiting a nested event loop
*/
function EventLoopStack({ thread, connection, hooks }) {
this._hooks = hooks;
this._thread = thread;
this._connection = connection;
}
EventLoopStack.prototype = {
/**
* The number of nested event loops on the stack.
*/
get size() {
return xpcInspector.eventLoopNestLevel;
},
/**
* The URL of the debuggee who pushed the event loop on top of the stack.
*/
get lastPausedUrl() {
let url = null;
if (this.size > 0) {
try {
url = xpcInspector.lastNestRequestor.url
} catch (e) {
// The tab's URL getter may throw if the tab is destroyed by the time
// this code runs, but we don't really care at this point.
dumpn(e);
}
}
return url;
},
/**
* The DebuggerServerConnection of the debugger who pushed the event loop on
* top of the stack
*/
get lastConnection() {
return xpcInspector.lastNestRequestor._connection;
},
/**
* Push a new nested event loop onto the stack.
*
* @returns EventLoop
*/
push: function () {
return new EventLoop({
thread: this._thread,
connection: this._connection,
hooks: this._hooks
});
}
};
/**
* An object that represents a nested event loop. It is used as the nest
* requestor with nsIJSInspector instances.
*
* @param ThreadActor thread
* The thread actor that is creating this nested event loop.
* @param DebuggerServerConnection connection
* The remote protocol connection associated with this event loop.
* @param Object hooks
* The same hooks object passed into EventLoopStack during its
* initialization.
*/
function EventLoop({ thread, connection, hooks }) {
this._thread = thread;
this._hooks = hooks;
this._connection = connection;
this.enter = this.enter.bind(this);
this.resolve = this.resolve.bind(this);
}
EventLoop.prototype = {
entered: false,
resolved: false,
get url() { return this._hooks.url; },
/**
* Enter this nested event loop.
*/
enter: function () {
let nestData = this._hooks.preNest
? this._hooks.preNest()
: null;
this.entered = true;
xpcInspector.enterNestedEventLoop(this);
// Keep exiting nested event loops while the last requestor is resolved.
if (xpcInspector.eventLoopNestLevel > 0) {
const { resolved } = xpcInspector.lastNestRequestor;
if (resolved) {
xpcInspector.exitNestedEventLoop();
}
}
dbg_assert(this._thread.state === "running", "Should be in the running state");
if (this._hooks.postNest) {
this._hooks.postNest(nestData);
}
},
/**
* Resolve this nested event loop.
*
* @returns boolean
* True if we exited this nested event loop because it was on top of
* the stack, false if there is another nested event loop above this
* one that hasn't resolved yet.
*/
resolve: function () {
if (!this.entered) {
throw new Error("Can't resolve an event loop before it has been entered!");
}
if (this.resolved) {
throw new Error("Already resolved this nested event loop!");
}
this.resolved = true;
if (this === xpcInspector.lastNestRequestor) {
xpcInspector.exitNestedEventLoop();
return true;
}
return false;
},
};
/**
* JSD2 actors.
*/
/**
* Creates a ThreadActor.
*
* ThreadActors manage a JSInspector object and manage execution/inspection
* of debuggees.
*
* @param aParent object
* This |ThreadActor|'s parent actor. It must implement the following
* properties:
* - url: The URL string of the debuggee.
* - window: The global window object.
* - preNest: Function called before entering a nested event loop.
* - postNest: Function called after exiting a nested event loop.
* - makeDebugger: A function that takes no arguments and instantiates
* a Debugger that manages its globals on its own.
* @param aGlobal object [optional]
* An optional (for content debugging only) reference to the content
* window.
*/
function ThreadActor(aParent, aGlobal)
{
this._state = "detached";
this._frameActors = [];
this._parent = aParent;
this._dbg = null;
this._gripDepth = 0;
this._threadLifetimePool = null;
this._tabClosed = false;
this._scripts = null;
this._pauseOnDOMEvents = null;
this._options = {
useSourceMaps: false,
autoBlackBox: false
};
this.breakpointActorMap = new BreakpointActorMap();
this.sourceActorStore = new SourceActorStore();
this._debuggerSourcesSeen = null;
// A map of actorID -> actor for breakpoints created and managed by the
// server.
this._hiddenBreakpoints = new Map();
this.global = aGlobal;
this._allEventsListener = this._allEventsListener.bind(this);
this.onNewGlobal = this.onNewGlobal.bind(this);
this.onNewSource = this.onNewSource.bind(this);
this.uncaughtExceptionHook = this.uncaughtExceptionHook.bind(this);
this.onDebuggerStatement = this.onDebuggerStatement.bind(this);
this.onNewScript = this.onNewScript.bind(this);
this.objectGrip = this.objectGrip.bind(this);
this.pauseObjectGrip = this.pauseObjectGrip.bind(this);
this._onWindowReady = this._onWindowReady.bind(this);
events.on(this._parent, "window-ready", this._onWindowReady);
// Set a wrappedJSObject property so |this| can be sent via the observer svc
// for the xpcshell harness.
this.wrappedJSObject = this;
}
ThreadActor.prototype = {
// Used by the ObjectActor to keep track of the depth of grip() calls.
_gripDepth: null,
actorPrefix: "context",
get dbg() {
if (!this._dbg) {
this._dbg = this._parent.makeDebugger();
this._dbg.uncaughtExceptionHook = this.uncaughtExceptionHook;
this._dbg.onDebuggerStatement = this.onDebuggerStatement;
this._dbg.onNewScript = this.onNewScript;
this._dbg.on("newGlobal", this.onNewGlobal);
// Keep the debugger disabled until a client attaches.
this._dbg.enabled = this._state != "detached";
}
return this._dbg;
},
get globalDebugObject() {
if (!this._parent.window) {
return null;
}
return this.dbg.makeGlobalObjectReference(this._parent.window);
},
get state() {
return this._state;
},
get attached() {
return this.state == "attached" ||
this.state == "running" ||
this.state == "paused";
},
get threadLifetimePool() {
if (!this._threadLifetimePool) {
this._threadLifetimePool = new ActorPool(this.conn);
this.conn.addActorPool(this._threadLifetimePool);
this._threadLifetimePool.objectActors = new WeakMap();
}
return this._threadLifetimePool;
},
get scripts() {
if (!this._scripts) {
this._scripts = new ScriptStore();
this._scripts.addScripts(this.dbg.findScripts());
}
return this._scripts;
},
get sources() {
return this._parent.sources;
},
get youngestFrame() {
if (this.state != "paused") {
return null;
}
return this.dbg.getNewestFrame();
},
_prettyPrintWorker: null,
get prettyPrintWorker() {
if (!this._prettyPrintWorker) {
this._prettyPrintWorker = new DevToolsWorker(
"resource://devtools/server/actors/pretty-print-worker.js",
{ name: "pretty-print",
verbose: dumpn.wantLogging }
);
}
return this._prettyPrintWorker;
},
/**
* Keep track of all of the nested event loops we use to pause the debuggee
* when we hit a breakpoint/debugger statement/etc in one place so we can
* resolve them when we get resume packets. We have more than one (and keep
* them in a stack) because we can pause within client evals.
*/
_threadPauseEventLoops: null,
_pushThreadPause: function () {
if (!this._threadPauseEventLoops) {
this._threadPauseEventLoops = [];
}
const eventLoop = this._nestedEventLoops.push();
this._threadPauseEventLoops.push(eventLoop);
eventLoop.enter();
},
_popThreadPause: function () {
const eventLoop = this._threadPauseEventLoops.pop();
assert(eventLoop, "Should have an event loop.");
eventLoop.resolve();
},
/**
* Remove all debuggees and clear out the thread's sources.
*/
clearDebuggees: function () {
if (this._dbg) {
this.dbg.removeAllDebuggees();
}
this._sources = null;
this._scripts = null;
},
/**
* Listener for our |Debugger|'s "newGlobal" event.
*/
onNewGlobal: function (aGlobal) {
// Notify the client.
this.conn.send({
from: this.actorID,
type: "newGlobal",
// TODO: after bug 801084 lands see if we need to JSONify this.
hostAnnotations: aGlobal.hostAnnotations
});
},
disconnect: function () {
dumpn("in ThreadActor.prototype.disconnect");
if (this._state == "paused") {
this.onResume();
}
// Blow away our source actor ID store because those IDs are only
// valid for this connection. This is ok because we never keep
// things like breakpoints across connections.
this._sourceActorStore = null;
events.off(this._parent, "window-ready", this._onWindowReady);
this.clearDebuggees();
this.conn.removeActorPool(this._threadLifetimePool);
this._threadLifetimePool = null;
if (this._prettyPrintWorker) {
this._prettyPrintWorker.destroy();
this._prettyPrintWorker = null;
}
if (!this._dbg) {
return;
}
this._dbg.enabled = false;
this._dbg = null;
},
/**
* Disconnect the debugger and put the actor in the exited state.
*/
exit: function () {
this.disconnect();
this._state = "exited";
},
// Request handlers
onAttach: function (aRequest) {
if (this.state === "exited") {
return { type: "exited" };
}
if (this.state !== "detached") {
return { error: "wrongState",
message: "Current state is " + this.state };
}
this._state = "attached";
this._debuggerSourcesSeen = new Set();
update(this._options, aRequest.options || {});
this.sources.reconfigure(this._options);
this.sources.on('newSource', (name, source) => {
this.onNewSource(source);
});
// Initialize an event loop stack. This can't be done in the constructor,
// because this.conn is not yet initialized by the actor pool at that time.
this._nestedEventLoops = new EventLoopStack({
hooks: this._parent,
connection: this.conn,
thread: this
});
this.dbg.addDebuggees();
this.dbg.enabled = true;
try {
// Put ourselves in the paused state.
let packet = this._paused();
if (!packet) {
return { error: "notAttached" };
}
packet.why = { type: "attached" };
this._restoreBreakpoints();
// Send the response to the attach request now (rather than
// returning it), because we're going to start a nested event loop
// here.
this.conn.send(packet);
// Start a nested event loop.
this._pushThreadPause();
// We already sent a response to this request, don't send one
// now.
return null;
} catch (e) {
reportError(e);
return { error: "notAttached", message: e.toString() };
}
},
onDetach: function (aRequest) {
this.disconnect();
this._state = "detached";
this._debuggerSourcesSeen = null;
dumpn("ThreadActor.prototype.onDetach: returning 'detached' packet");
return {
type: "detached"
};
},
onReconfigure: function (aRequest) {
if (this.state == "exited") {
return { error: "wrongState" };
}
update(this._options, aRequest.options || {});
// Update the global source store
this.sources.reconfigure(this._options);
return {};
},
/**
* Pause the debuggee, by entering a nested event loop, and return a 'paused'
* packet to the client.
*
* @param Debugger.Frame aFrame
* The newest debuggee frame in the stack.
* @param object aReason
* An object with a 'type' property containing the reason for the pause.
* @param function onPacket
* Hook to modify the packet before it is sent. Feel free to return a
* promise.
*/
_pauseAndRespond: function (aFrame, aReason, onPacket=function (k) { return k; }) {
try {
let packet = this._paused(aFrame);
if (!packet) {
return undefined;
}
packet.why = aReason;
let generatedLocation = this.sources.getFrameLocation(aFrame);
this.sources.getOriginalLocation(generatedLocation)
.then((originalLocation) => {
if (!originalLocation.originalSourceActor) {
// The only time the source actor will be null is if there
// was a sourcemap and it tried to look up the original
// location but there was no original URL. This is a strange
// scenario so we simply don't pause.
DevToolsUtils.reportException(
'ThreadActor',
new Error('Attempted to pause in a script with a sourcemap but ' +
'could not find original location.')
);
return undefined;
}
packet.frame.where = {
source: originalLocation.originalSourceActor.form(),
line: originalLocation.originalLine,
column: originalLocation.originalColumn
};
resolve(onPacket(packet))
.then(null, error => {
reportError(error);
return {
error: "unknownError",
message: error.message + "\n" + error.stack
};
})
.then(packet => {
this.conn.send(packet);
});
});
this._pushThreadPause();
} catch(e) {
reportError(e, "Got an exception during TA__pauseAndRespond: ");
}
// If the browser tab has been closed, terminate the debuggee script
// instead of continuing. Executing JS after the content window is gone is
// a bad idea.
return this._tabClosed ? null : undefined;
},
_makeOnEnterFrame: function ({ pauseAndRespond }) {
return aFrame => {
const generatedLocation = this.sources.getFrameLocation(aFrame);
let { originalSourceActor } = this.unsafeSynchronize(this.sources.getOriginalLocation(
generatedLocation));
let url = originalSourceActor.url;
return this.sources.isBlackBoxed(url)
? undefined
: pauseAndRespond(aFrame);
};
},
_makeOnPop: function ({ thread, pauseAndRespond, createValueGrip }) {
return function (aCompletion) {
// onPop is called with 'this' set to the current frame.
const generatedLocation = thread.sources.getFrameLocation(this);
const { originalSourceActor } = thread.unsafeSynchronize(thread.sources.getOriginalLocation(
generatedLocation));
const url = originalSourceActor.url;
if (thread.sources.isBlackBoxed(url)) {
return undefined;
}
// Note that we're popping this frame; we need to watch for
// subsequent step events on its caller.
this.reportedPop = true;
return pauseAndRespond(this, aPacket => {
aPacket.why.frameFinished = {};
if (!aCompletion) {
aPacket.why.frameFinished.terminated = true;
} else if (aCompletion.hasOwnProperty("return")) {
aPacket.why.frameFinished.return = createValueGrip(aCompletion.return);
} else if (aCompletion.hasOwnProperty("yield")) {
aPacket.why.frameFinished.return = createValueGrip(aCompletion.yield);
} else {
aPacket.why.frameFinished.throw = createValueGrip(aCompletion.throw);
}
return aPacket;
});
};
},
_makeOnStep: function ({ thread, pauseAndRespond, startFrame,
startLocation, steppingType }) {
// Breaking in place: we should always pause.
if (steppingType === "break") {
return function () {
return pauseAndRespond(this);
};
}
// Otherwise take what a "step" means into consideration.
return function () {
// onStep is called with 'this' set to the current frame.
// Only allow stepping stops at entry points for the line, when
// the stepping occurs in a single frame. The "same frame"
// check makes it so a sequence of steps can step out of a frame
// and into subsequent calls in the outer frame. E.g., if there
// is a call "a(b())" and the user steps into b, then this
// condition makes it possible to step out of b and into a.
if (this === startFrame &&
!this.script.getOffsetLocation(this.offset).isEntryPoint) {
return undefined;
}
const generatedLocation = thread.sources.getFrameLocation(this);
const newLocation = thread.unsafeSynchronize(thread.sources.getOriginalLocation(
generatedLocation));
// Cases when we should pause because we have executed enough to consider
// a "step" to have occured:
//
// 1.1. We change frames.
// 1.2. We change URLs (can happen without changing frames thanks to
// source mapping).
// 1.3. We change lines.
//
// Cases when we should always continue execution, even if one of the
// above cases is true:
//
// 2.1. We are in a source mapped region, but inside a null mapping
// (doesn't correlate to any region of original source)
// 2.2. The source we are in is black boxed.
// Cases 2.1 and 2.2
if (newLocation.originalUrl == null
|| thread.sources.isBlackBoxed(newLocation.originalUrl)) {
return undefined;
}
// Cases 1.1, 1.2 and 1.3
if (this !== startFrame
|| startLocation.originalUrl !== newLocation.originalUrl
|| startLocation.originalLine !== newLocation.originalLine) {
return pauseAndRespond(this);
}
// Otherwise, let execution continue (we haven't executed enough code to
// consider this a "step" yet).
return undefined;
};
},
/**
* Define the JS hook functions for stepping.
*/
_makeSteppingHooks: function (aStartLocation, steppingType) {
// Bind these methods and state because some of the hooks are called
// with 'this' set to the current frame. Rather than repeating the
// binding in each _makeOnX method, just do it once here and pass it
// in to each function.
const steppingHookState = {
pauseAndRespond: (aFrame, onPacket=k=>k) => {
return this._pauseAndRespond(aFrame, { type: "resumeLimit" }, onPacket);
},
createValueGrip: v => createValueGrip(v, this._pausePool,
this.objectGrip),
thread: this,
startFrame: this.youngestFrame,
startLocation: aStartLocation,
steppingType: steppingType
};
return {
onEnterFrame: this._makeOnEnterFrame(steppingHookState),
onPop: this._makeOnPop(steppingHookState),
onStep: this._makeOnStep(steppingHookState)
};
},
/**
* Handle attaching the various stepping hooks we need to attach when we
* receive a resume request with a resumeLimit property.
*
* @param Object aRequest
* The request packet received over the RDP.
* @returns A promise that resolves to true once the hooks are attached, or is
* rejected with an error packet.
*/
_handleResumeLimit: function (aRequest) {
let steppingType = aRequest.resumeLimit.type;
if (["break", "step", "next", "finish"].indexOf(steppingType) == -1) {
return reject({ error: "badParameterType",
message: "Unknown resumeLimit type" });
}
const generatedLocation = this.sources.getFrameLocation(this.youngestFrame);
return this.sources.getOriginalLocation(generatedLocation)
.then(originalLocation => {
const { onEnterFrame, onPop, onStep } = this._makeSteppingHooks(originalLocation,
steppingType);
// Make sure there is still a frame on the stack if we are to continue
// stepping.
let stepFrame = this._getNextStepFrame(this.youngestFrame);
if (stepFrame) {
switch (steppingType) {
case "step":
this.dbg.onEnterFrame = onEnterFrame;
// Fall through.
case "break":
case "next":
if (stepFrame.script) {
stepFrame.onStep = onStep;
}
stepFrame.onPop = onPop;
break;
case "finish":
stepFrame.onPop = onPop;
}
}
return true;
});
},
/**
* Clear the onStep and onPop hooks from the given frame and all of the frames
* below it.
*
* @param Debugger.Frame aFrame
* The frame we want to clear the stepping hooks from.
*/
_clearSteppingHooks: function (aFrame) {
if (aFrame && aFrame.live) {
while (aFrame) {
aFrame.onStep = undefined;
aFrame.onPop = undefined;
aFrame = aFrame.older;
}
}
},
/**
* Listen to the debuggee's DOM events if we received a request to do so.
*
* @param Object aRequest
* The resume request packet received over the RDP.
*/
_maybeListenToEvents: function (aRequest) {
// Break-on-DOMEvents is only supported in content debugging.
let events = aRequest.pauseOnDOMEvents;
if (this.global && events &&
(events == "*" ||
(Array.isArray(events) && events.length))) {
this._pauseOnDOMEvents = events;
let els = Cc["@mozilla.org/eventlistenerservice;1"]
.getService(Ci.nsIEventListenerService);
els.addListenerForAllEvents(this.global, this._allEventsListener, true);
}
},
/**
* If we are tasked with breaking on the load event, we have to add the
* listener early enough.
*/
_onWindowReady: function () {
this._maybeListenToEvents({
pauseOnDOMEvents: this._pauseOnDOMEvents
});
},
/**
* Handle a protocol request to resume execution of the debuggee.
*/
onResume: function (aRequest) {
if (this._state !== "paused") {
return {
error: "wrongState",
message: "Can't resume when debuggee isn't paused. Current state is '"
+ this._state + "'"
};
}
// In case of multiple nested event loops (due to multiple debuggers open in
// different tabs or multiple debugger clients connected to the same tab)
// only allow resumption in a LIFO order.
if (this._nestedEventLoops.size && this._nestedEventLoops.lastPausedUrl
&& (this._nestedEventLoops.lastPausedUrl !== this._parent.url
|| this._nestedEventLoops.lastConnection !== this.conn)) {
return {
error: "wrongOrder",
message: "trying to resume in the wrong order.",
lastPausedUrl: this._nestedEventLoops.lastPausedUrl
};
}
let resumeLimitHandled;
if (aRequest && aRequest.resumeLimit) {
resumeLimitHandled = this._handleResumeLimit(aRequest)
} else {
this._clearSteppingHooks(this.youngestFrame);
resumeLimitHandled = resolve(true);
}
return resumeLimitHandled.then(() => {
if (aRequest) {
this._options.pauseOnExceptions = aRequest.pauseOnExceptions;
this._options.ignoreCaughtExceptions = aRequest.ignoreCaughtExceptions;
this.maybePauseOnExceptions();
this._maybeListenToEvents(aRequest);
}
let packet = this._resumed();
this._popThreadPause();
// Tell anyone who cares of the resume (as of now, that's the xpcshell
// harness)
if (Services.obs) {
Services.obs.notifyObservers(this, "devtools-thread-resumed", null);
}
return packet;
}, error => {
return error instanceof Error
? { error: "unknownError",
message: DevToolsUtils.safeErrorString(error) }
// It is a known error, and the promise was rejected with an error
// packet.
: error;
});
},
/**
* Spin up a nested event loop so we can synchronously resolve a promise.
*
* DON'T USE THIS UNLESS YOU ABSOLUTELY MUST! Nested event loops suck: the
* world's state can change out from underneath your feet because JS is no
* longer run-to-completion.
*
* @param aPromise
* The promise we want to resolve.
* @returns The promise's resolution.
*/
unsafeSynchronize: function(aPromise) {
let needNest = true;
let eventLoop;
let returnVal;
aPromise
.then((aResolvedVal) => {
needNest = false;
returnVal = aResolvedVal;
})
.then(null, (aError) => {
reportError(aError, "Error inside unsafeSynchronize:");
})
.then(() => {
if (eventLoop) {
eventLoop.resolve();
}
});
if (needNest) {
eventLoop = this._nestedEventLoops.push();
eventLoop.enter();
}
return returnVal;
},
/**
* Set the debugging hook to pause on exceptions if configured to do so.
*/
maybePauseOnExceptions: function() {
if (this._options.pauseOnExceptions) {
this.dbg.onExceptionUnwind = this.onExceptionUnwind.bind(this);
}
},
/**
* A listener that gets called for every event fired on the page, when a list
* of interesting events was provided with the pauseOnDOMEvents property. It
* is used to set server-managed breakpoints on any existing event listeners
* for those events.
*
* @param Event event
* The event that was fired.
*/
_allEventsListener: function(event) {
if (this._pauseOnDOMEvents == "*" ||
this._pauseOnDOMEvents.indexOf(event.type) != -1) {
for (let listener of this._getAllEventListeners(event.target)) {
if (event.type == listener.type || this._pauseOnDOMEvents == "*") {
this._breakOnEnter(listener.script);
}
}
}
},
/**
* Return an array containing all the event listeners attached to the
* specified event target and its ancestors in the event target chain.
*
* @param EventTarget eventTarget
* The target the event was dispatched on.
* @returns Array
*/
_getAllEventListeners: function(eventTarget) {
let els = Cc["@mozilla.org/eventlistenerservice;1"]
.getService(Ci.nsIEventListenerService);
let targets = els.getEventTargetChainFor(eventTarget);
let listeners = [];
for (let target of targets) {
let handlers = els.getListenerInfoFor(target);
for (let handler of handlers) {
// Null is returned for all-events handlers, and native event listeners
// don't provide any listenerObject, which makes them not that useful to
// a JS debugger.
if (!handler || !handler.listenerObject || !handler.type)
continue;
// Create a listener-like object suitable for our purposes.
let l = Object.create(null);
l.type = handler.type;
let listener = handler.listenerObject;
let listenerDO = this.globalDebugObject.makeDebuggeeValue(listener);
// If the listener is an object with a 'handleEvent' method, use that.
if (listenerDO.class == "Object" || listenerDO.class == "XULElement") {
// For some events we don't have permission to access the
// 'handleEvent' property when running in content scope.
if (!listenerDO.unwrap()) {
continue;
}
let heDesc;
while (!heDesc && listenerDO) {
heDesc = listenerDO.getOwnPropertyDescriptor("handleEvent");
listenerDO = listenerDO.proto;
}
if (heDesc && heDesc.value) {
listenerDO = heDesc.value;
}
}
// When the listener is a bound function, we are actually interested in
// the target function.
while (listenerDO.isBoundFunction) {
listenerDO = listenerDO.boundTargetFunction;
}
l.script = listenerDO.script;
// Chrome listeners won't be converted to debuggee values, since their
// compartment is not added as a debuggee.
if (!l.script)
continue;
listeners.push(l);
}
}
return listeners;
},
/**
* Set a breakpoint on the first line of the given script that has an entry
* point.
*/
_breakOnEnter: function(script) {
let offsets = script.getAllOffsets();
for (let line = 0, n = offsets.length; line < n; line++) {
if (offsets[line]) {
// N.B. Hidden breakpoints do not have an original location, and are not
// stored in the breakpoint actor map.
let actor = new BreakpointActor(this);
this.threadLifetimePool.addActor(actor);
let scripts = this.scripts.getScriptsBySourceAndLine(script.source, line);
let entryPoints = findEntryPointsForLine(scripts, line);
setBreakpointAtEntryPoints(actor, entryPoints);
this._hiddenBreakpoints.set(actor.actorID, actor);
break;
}
}
},
/**
* Helper method that returns the next frame when stepping.
*/
_getNextStepFrame: function (aFrame) {
let stepFrame = aFrame.reportedPop ? aFrame.older : aFrame;
if (!stepFrame || !stepFrame.script) {
stepFrame = null;
}
return stepFrame;
},
onClientEvaluate: function (aRequest) {
if (this.state !== "paused") {
return { error: "wrongState",
message: "Debuggee must be paused to evaluate code." };
}
let frame = this._requestFrame(aRequest.frame);
if (!frame) {
return { error: "unknownFrame",
message: "Evaluation frame not found" };
}
if (!frame.environment) {
return { error: "notDebuggee",
message: "cannot access the environment of this frame." };
}
let youngest = this.youngestFrame;
// Put ourselves back in the running state and inform the client.
let resumedPacket = this._resumed();
this.conn.send(resumedPacket);
// Run the expression.
// XXX: test syntax errors
let completion = frame.eval(aRequest.expression);
// Put ourselves back in the pause state.
let packet = this._paused(youngest);
packet.why = { type: "clientEvaluated",
frameFinished: this.createProtocolCompletionValue(completion) };
// Return back to our previous pause's event loop.
return packet;
},
onFrames: function (aRequest) {
if (this.state !== "paused") {
return { error: "wrongState",
message: "Stack frames are only available while the debuggee is paused."};
}
let start = aRequest.start ? aRequest.start : 0;
let count = aRequest.count;
// Find the starting frame...
let frame = this.youngestFrame;
let i = 0;
while (frame && (i < start)) {
frame = frame.older;
i++;
}
// Return request.count frames, or all remaining
// frames if count is not defined.
let frames = [];
let promises = [];
for (; frame && (!count || i < (start + count)); i++, frame=frame.older) {
let form = this._createFrameActor(frame).form();
form.depth = i;
frames.push(form);
let promise = this.sources.getOriginalLocation(new GeneratedLocation(
this.sources.createNonSourceMappedActor(frame.script.source),
form.where.line,
form.where.column
)).then((originalLocation) => {
let sourceForm = originalLocation.originalSourceActor.form();
form.where = {
source: sourceForm,
line: originalLocation.originalLine,
column: originalLocation.originalColumn
};
form.source = sourceForm;
});
promises.push(promise);
}
return all(promises).then(function () {
return { frames: frames };
});
},
onReleaseMany: function (aRequest) {
if (!aRequest.actors) {
return { error: "missingParameter",
message: "no actors were specified" };
}
let res;
for (let actorID of aRequest.actors) {
let actor = this.threadLifetimePool.get(actorID);
if (!actor) {
if (!res) {
res = { error: "notReleasable",
message: "Only thread-lifetime actors can be released." };
}
continue;
}
actor.onRelease();
}
return res ? res : {};
},
/**
* Get the script and source lists from the debugger.
*/
_discoverSources: function () {
// Only get one script per Debugger.Source.
const sourcesToScripts = new Map();
const scripts = this.scripts.getAllScripts();
for (let i = 0, len = scripts.length; i < len; i++) {
let s = scripts[i];
if (s.source) {
sourcesToScripts.set(s.source, s);
}
}
return all([...sourcesToScripts.values()].map(script => {
return this.sources.createSourceActors(script.source);
}));
},
onSources: function (aRequest) {
return this._discoverSources().then(() => {
// No need to flush the new source packets here, as we are sending the
// list of sources out immediately and we don't need to invoke the
// overhead of an RDP packet for every source right now. Let the default
// timeout flush the buffered packets.
return {
sources: this.sources.iter().map(s => s.form())
};
});
},
/**
* Disassociate all breakpoint actors from their scripts and clear the
* breakpoint handlers. This method can be used when the thread actor intends
* to keep the breakpoint store, but needs to clear any actual breakpoints,
* e.g. due to a page navigation. This way the breakpoint actors' script
* caches won't hold on to the Debugger.Script objects leaking memory.
*/
disableAllBreakpoints: function () {
for (let bpActor of this.breakpointActorMap.findActors()) {
bpActor.removeScripts();
}
},
/**
* Handle a protocol request to pause the debuggee.
*/
onInterrupt: function (aRequest) {
if (this.state == "exited") {
return { type: "exited" };
} else if (this.state == "paused") {
// TODO: return the actual reason for the existing pause.
return { type: "paused", why: { type: "alreadyPaused" } };
} else if (this.state != "running") {
return { error: "wrongState",
message: "Received interrupt request in " + this.state +
" state." };
}
try {
// If execution should pause just before the next JavaScript bytecode is
// executed, just set an onEnterFrame handler.
if (aRequest.when == "onNext") {
let onEnterFrame = (aFrame) => {
return this._pauseAndRespond(aFrame, { type: "interrupted", onNext: true });
};
this.dbg.onEnterFrame = onEnterFrame;
return { type: "willInterrupt" };
}
// If execution should pause immediately, just put ourselves in the paused
// state.
let packet = this._paused();
if (!packet) {
return { error: "notInterrupted" };
}
packet.why = { type: "interrupted" };
// Send the response to the interrupt request now (rather than
// returning it), because we're going to start a nested event loop
// here.
this.conn.send(packet);
// Start a nested event loop.
this._pushThreadPause();
// We already sent a response to this request, don't send one
// now.
return null;
} catch (e) {
reportError(e);
return { error: "notInterrupted", message: e.toString() };
}
},
/**
* Handle a protocol request to retrieve all the event listeners on the page.
*/
onEventListeners: function (aRequest) {
// This request is only supported in content debugging.
if (!this.global) {
return {
error: "notImplemented",
message: "eventListeners request is only supported in content debugging"
};
}
let els = Cc["@mozilla.org/eventlistenerservice;1"]
.getService(Ci.nsIEventListenerService);
let nodes = this.global.document.getElementsByTagName("*");
nodes = [this.global].concat([].slice.call(nodes));
let listeners = [];
for (let node of nodes) {
let handlers = els.getListenerInfoFor(node);
for (let handler of handlers) {
// Create a form object for serializing the listener via the protocol.
let listenerForm = Object.create(null);
let listener = handler.listenerObject;
// Native event listeners don't provide any listenerObject or type and
// are not that useful to a JS debugger.
if (!listener || !handler.type) {
continue;
}
// There will be no tagName if the event listener is set on the window.
let selector = node.tagName ? CssLogic.findCssSelector(node) : "window";
let nodeDO = this.globalDebugObject.makeDebuggeeValue(node);
listenerForm.node = {
selector: selector,
object: createValueGrip(nodeDO, this._pausePool, this.objectGrip)
};
listenerForm.type = handler.type;
listenerForm.capturing = handler.capturing;
listenerForm.allowsUntrusted = handler.allowsUntrusted;
listenerForm.inSystemEventGroup = handler.inSystemEventGroup;
let handlerName = "on" + listenerForm.type;
listenerForm.isEventHandler = false;
if (typeof node.hasAttribute !== "undefined") {
listenerForm.isEventHandler = !!node.hasAttribute(handlerName);
}
if (!!node[handlerName]) {
listenerForm.isEventHandler = !!node[handlerName];
}
// Get the Debugger.Object for the listener object.
let listenerDO = this.globalDebugObject.makeDebuggeeValue(listener);
// If the listener is an object with a 'handleEvent' method, use that.
if (listenerDO.class == "Object" || listenerDO.class == "XULElement") {
// For some events we don't have permission to access the
// 'handleEvent' property when running in content scope.
if (!listenerDO.unwrap()) {
continue;
}
let heDesc;
while (!heDesc && listenerDO) {
heDesc = listenerDO.getOwnPropertyDescriptor("handleEvent");
listenerDO = listenerDO.proto;
}
if (heDesc && heDesc.value) {
listenerDO = heDesc.value;
}
}
// When the listener is a bound function, we are actually interested in
// the target function.
while (listenerDO.isBoundFunction) {
listenerDO = listenerDO.boundTargetFunction;
}
listenerForm.function = createValueGrip(listenerDO, this._pausePool,
this.objectGrip);
listeners.push(listenerForm);
}
}
return { listeners: listeners };
},
/**
* Return the Debug.Frame for a frame mentioned by the protocol.
*/
_requestFrame: function (aFrameID) {
if (!aFrameID) {
return this.youngestFrame;
}
if (this._framePool.has(aFrameID)) {
return this._framePool.get(aFrameID).frame;
}
return undefined;
},
_paused: function (aFrame) {
// We don't handle nested pauses correctly. Don't try - if we're
// paused, just continue running whatever code triggered the pause.
// We don't want to actually have nested pauses (although we
// have nested event loops). If code runs in the debuggee during
// a pause, it should cause the actor to resume (dropping
// pause-lifetime actors etc) and then repause when complete.
if (this.state === "paused") {
return undefined;
}
// Clear stepping hooks.
this.dbg.onEnterFrame = undefined;
this.dbg.onExceptionUnwind = undefined;
if (aFrame) {
aFrame.onStep = undefined;
aFrame.onPop = undefined;
}
// Clear DOM event breakpoints.
// XPCShell tests don't use actual DOM windows for globals and cause
// removeListenerForAllEvents to throw.
if (!isWorker && this.global && !this.global.toString().includes("Sandbox")) {
let els = Cc["@mozilla.org/eventlistenerservice;1"]
.getService(Ci.nsIEventListenerService);
els.removeListenerForAllEvents(this.global, this._allEventsListener, true);
for (let [,bp] of this._hiddenBreakpoints) {
bp.onDelete();
}
this._hiddenBreakpoints.clear();
}
this._state = "paused";
// Create the actor pool that will hold the pause actor and its
// children.
assert(!this._pausePool, "No pause pool should exist yet");
this._pausePool = new ActorPool(this.conn);
this.conn.addActorPool(this._pausePool);
// Give children of the pause pool a quick link back to the
// thread...
this._pausePool.threadActor = this;
// Create the pause actor itself...
assert(!this._pauseActor, "No pause actor should exist yet");
this._pauseActor = new PauseActor(this._pausePool);
this._pausePool.addActor(this._pauseActor);
// Update the list of frames.
let poppedFrames = this._updateFrames();
// Send off the paused packet and spin an event loop.
let packet = { from: this.actorID,
type: "paused",
actor: this._pauseActor.actorID };
if (aFrame) {
packet.frame = this._createFrameActor(aFrame).form();
}
if (poppedFrames) {
packet.poppedFrames = poppedFrames;
}
return packet;
},
_resumed: function () {
this._state = "running";
// Drop the actors in the pause actor pool.
this.conn.removeActorPool(this._pausePool);
this._pausePool = null;
this._pauseActor = null;
return { from: this.actorID, type: "resumed" };
},
/**
* Expire frame actors for frames that have been popped.
*
* @returns A list of actor IDs whose frames have been popped.
*/
_updateFrames: function () {
let popped = [];
// Create the actor pool that will hold the still-living frames.
let framePool = new ActorPool(this.conn);
let frameList = [];
for (let frameActor of this._frameActors) {
if (frameActor.frame.live) {
framePool.addActor(frameActor);
frameList.push(frameActor);
} else {
popped.push(frameActor.actorID);
}
}
// Remove the old frame actor pool, this will expire
// any actors that weren't added to the new pool.
if (this._framePool) {
this.conn.removeActorPool(this._framePool);
}
this._frameActors = frameList;
this._framePool = framePool;
this.conn.addActorPool(framePool);
return popped;
},
_createFrameActor: function (aFrame) {
if (aFrame.actor) {
return aFrame.actor;
}
let actor = new FrameActor(aFrame, this);
this._frameActors.push(actor);
this._framePool.addActor(actor);
aFrame.actor = actor;
return actor;
},
/**
* Create and return an environment actor that corresponds to the provided
* Debugger.Environment.
* @param Debugger.Environment aEnvironment
* The lexical environment we want to extract.
* @param object aPool
* The pool where the newly-created actor will be placed.
* @return The EnvironmentActor for aEnvironment or undefined for host
* functions or functions scoped to a non-debuggee global.
*/
createEnvironmentActor: function (aEnvironment, aPool) {
if (!aEnvironment) {
return undefined;
}
if (aEnvironment.actor) {
return aEnvironment.actor;
}
let actor = new EnvironmentActor(aEnvironment, this);
aPool.addActor(actor);
aEnvironment.actor = actor;
return actor;
},
/**
* Return a protocol completion value representing the given
* Debugger-provided completion value.
*/
createProtocolCompletionValue: function (aCompletion) {
let protoValue = {};
if (aCompletion == null) {
protoValue.terminated = true;
} else if ("return" in aCompletion) {
protoValue.return = createValueGrip(aCompletion.return,
this._pausePool, this.objectGrip);
} else if ("throw" in aCompletion) {
protoValue.throw = createValueGrip(aCompletion.throw,
this._pausePool, this.objectGrip);
} else {
protoValue.return = createValueGrip(aCompletion.yield,
this._pausePool, this.objectGrip);
}
return protoValue;
},
/**
* Create a grip for the given debuggee object.
*
* @param aValue Debugger.Object
* The debuggee object value.
* @param aPool ActorPool
* The actor pool where the new object actor will be added.
*/
objectGrip: function (aValue, aPool) {
if (!aPool.objectActors) {
aPool.objectActors = new WeakMap();
}
if (aPool.objectActors.has(aValue)) {
return aPool.objectActors.get(aValue).grip();
} else if (this.threadLifetimePool.objectActors.has(aValue)) {
return this.threadLifetimePool.objectActors.get(aValue).grip();
}
let actor = new PauseScopedObjectActor(aValue, {
getGripDepth: () => this._gripDepth,
incrementGripDepth: () => this._gripDepth++,
decrementGripDepth: () => this._gripDepth--,
createValueGrip: v => createValueGrip(v, this._pausePool,
this.pauseObjectGrip),
sources: () => this.sources,
createEnvironmentActor: (env, pool) =>
this.createEnvironmentActor(env, pool),
promote: () => this.threadObjectGrip(actor),
isThreadLifetimePool: () =>
actor.registeredPool !== this.threadLifetimePool,
getGlobalDebugObject: () => this.globalDebugObject
});
aPool.addActor(actor);
aPool.objectActors.set(aValue, actor);
return actor.grip();
},
/**
* Create a grip for the given debuggee object with a pause lifetime.
*
* @param aValue Debugger.Object
* The debuggee object value.
*/
pauseObjectGrip: function (aValue) {
if (!this._pausePool) {
throw "Object grip requested while not paused.";
}
return this.objectGrip(aValue, this._pausePool);
},
/**
* Extend the lifetime of the provided object actor to thread lifetime.
*
* @param aActor object
* The object actor.
*/
threadObjectGrip: function (aActor) {
// We want to reuse the existing actor ID, so we just remove it from the
// current pool's weak map and then let pool.addActor do the rest.
aActor.registeredPool.objectActors.delete(aActor.obj);
this.threadLifetimePool.addActor(aActor);
this.threadLifetimePool.objectActors.set(aActor.obj, aActor);
},
/**
* Handle a protocol request to promote multiple pause-lifetime grips to
* thread-lifetime grips.
*
* @param aRequest object
* The protocol request object.
*/
onThreadGrips: function (aRequest) {
if (this.state != "paused") {
return { error: "wrongState" };
}
if (!aRequest.actors) {
return { error: "missingParameter",
message: "no actors were specified" };
}
for (let actorID of aRequest.actors) {
let actor = this._pausePool.get(actorID);
if (actor) {
this.threadObjectGrip(actor);
}
}
return {};
},
/**
* Create a long string grip that is scoped to a pause.
*
* @param aString String
* The string we are creating a grip for.
*/
pauseLongStringGrip: function (aString) {
return longStringGrip(aString, this._pausePool);
},
/**
* Create a long string grip that is scoped to a thread.
*
* @param aString String
* The string we are creating a grip for.
*/
threadLongStringGrip: function (aString) {
return longStringGrip(aString, this._threadLifetimePool);
},
// JS Debugger API hooks.
/**
* A function that the engine calls when a call to a debug event hook,
* breakpoint handler, watchpoint handler, or similar function throws some
* exception.
*
* @param aException exception
* The exception that was thrown in the debugger code.
*/
uncaughtExceptionHook: function (aException) {
dumpn("Got an exception: " + aException.message + "\n" + aException.stack);
},
/**
* A function that the engine calls when a debugger statement has been
* executed in the specified frame.
*
* @param aFrame Debugger.Frame
* The stack frame that contained the debugger statement.
*/
onDebuggerStatement: function (aFrame) {
// Don't pause if we are currently stepping (in or over) or the frame is
// black-boxed.
const generatedLocation = this.sources.getFrameLocation(aFrame);
const { originalSourceActor } = this.unsafeSynchronize(this.sources.getOriginalLocation(
generatedLocation));
const url = originalSourceActor ? originalSourceActor.url : null;
return this.sources.isBlackBoxed(url) || aFrame.onStep
? undefined
: this._pauseAndRespond(aFrame, { type: "debuggerStatement" });
},
/**
* A function that the engine calls when an exception has been thrown and has
* propagated to the specified frame.
*
* @param aFrame Debugger.Frame
* The youngest remaining stack frame.
* @param aValue object
* The exception that was thrown.
*/
onExceptionUnwind: function (aFrame, aValue) {
let willBeCaught = false;
for (let frame = aFrame; frame != null; frame = frame.older) {
if (frame.script.isInCatchScope(frame.offset)) {
willBeCaught = true;
break;
}
}
if (willBeCaught && this._options.ignoreCaughtExceptions) {
return undefined;
}
const generatedLocation = this.sources.getFrameLocation(aFrame);
const { sourceActor } = this.unsafeSynchronize(this.sources.getOriginalLocation(
generatedLocation));
const url = sourceActor ? sourceActor.url : null;
if (this.sources.isBlackBoxed(url)) {
return undefined;
}
try {
let packet = this._paused(aFrame);
if (!packet) {
return undefined;
}
packet.why = { type: "exception",
exception: createValueGrip(aValue, this._pausePool,
this.objectGrip)
};
this.conn.send(packet);
this._pushThreadPause();
} catch(e) {
reportError(e, "Got an exception during TA_onExceptionUnwind: ");
}
return undefined;
},
/**
* A function that the engine calls when a new script has been loaded into the
* scope of the specified debuggee global.
*
* @param aScript Debugger.Script
* The source script that has been loaded into a debuggee compartment.
* @param aGlobal Debugger.Object
* A Debugger.Object instance whose referent is the global object.
*/
onNewScript: function (aScript, aGlobal) {
this._addSource(aScript.source);
},
onNewSource: function (aSource) {
this.conn.send({
from: this.actorID,
type: "newSource",
source: aSource.form()
});
},
/**
* Restore any pre-existing breakpoints to the sources that we have access to.
*/
_restoreBreakpoints: function () {
if (this.breakpointActorMap.size === 0) {
return;
}
for (let s of this.scripts.getSources()) {
this._addSource(s);
}
},
/**
* Add the provided source to the server cache.
*
* @param aSource Debugger.Source
* The source that will be stored.
* @returns true, if the source was added; false otherwise.
*/
_addSource: function (aSource) {
if (!this.sources.allowSource(aSource) || this._debuggerSourcesSeen.has(aSource)) {
return false;
}
// The scripts must be added to the ScriptStore before restoring
// breakpoints. If we try to add them to the ScriptStore any later, we can
// accidentally set a breakpoint in a top level script as a "closest match"
// because we wouldn't have added the child scripts to the ScriptStore yet.
this.scripts.addScripts(this.dbg.findScripts({ source: aSource }));
let sourceActor = this.sources.createNonSourceMappedActor(aSource);
// Go ahead and establish the source actors for this script, which
// fetches sourcemaps if available and sends onNewSource
// notifications.
//
// We need to use unsafeSynchronize here because if the page is being reloaded,
// this call will replace the previous set of source actors for this source
// with a new one. If the source actors have not been replaced by the time
// we try to reset the breakpoints below, their location objects will still
// point to the old set of source actors, which point to different scripts.
this.unsafeSynchronize(this.sources.createSourceActors(aSource));
// Set any stored breakpoints.
let promises = [];
for (let _actor of this.breakpointActorMap.findActors()) {
// XXX bug 1142115: We do async work in here, so we need to create a fresh
// binding because for/of does not yet do that in SpiderMonkey.
let actor = _actor;
if (actor.isPending) {
promises.push(actor.originalLocation.originalSourceActor._setBreakpoint(actor));
} else {
promises.push(this.sources.getAllGeneratedLocations(actor.originalLocation)
.then((generatedLocations) => {
if (generatedLocations.length > 0 &&
generatedLocations[0].generatedSourceActor.actorID === sourceActor.actorID) {
sourceActor._setBreakpointAtAllGeneratedLocations(
actor,
generatedLocations
);
}
}));
}
}
if (promises.length > 0) {
this.unsafeSynchronize(promise.all(promises));
}
this._debuggerSourcesSeen.add(aSource);
return true;
},
/**
* Get prototypes and properties of multiple objects.
*/
onPrototypesAndProperties: function (aRequest) {
let result = {};
for (let actorID of aRequest.actors) {
// This code assumes that there are no lazily loaded actors returned
// by this call.
let actor = this.conn.getActor(actorID);
if (!actor) {
return { from: this.actorID,
error: "noSuchActor" };
}
let handler = actor.onPrototypeAndProperties;
if (!handler) {
return { from: this.actorID,
error: "unrecognizedPacketType",
message: ('Actor "' + actorID +
'" does not recognize the packet type ' +
'"prototypeAndProperties"') };
}
result[actorID] = handler.call(actor, {});
}
return { from: this.actorID,
actors: result };
}
};
ThreadActor.prototype.requestTypes = {
"attach": ThreadActor.prototype.onAttach,
"detach": ThreadActor.prototype.onDetach,
"reconfigure": ThreadActor.prototype.onReconfigure,
"resume": ThreadActor.prototype.onResume,
"clientEvaluate": ThreadActor.prototype.onClientEvaluate,
"frames": ThreadActor.prototype.onFrames,
"interrupt": ThreadActor.prototype.onInterrupt,
"eventListeners": ThreadActor.prototype.onEventListeners,
"releaseMany": ThreadActor.prototype.onReleaseMany,
"sources": ThreadActor.prototype.onSources,
"threadGrips": ThreadActor.prototype.onThreadGrips,
"prototypesAndProperties": ThreadActor.prototype.onPrototypesAndProperties
};
exports.ThreadActor = ThreadActor;
/**
* Creates a PauseActor.
*
* PauseActors exist for the lifetime of a given debuggee pause. Used to
* scope pause-lifetime grips.
*
* @param ActorPool aPool
* The actor pool created for this pause.
*/
function PauseActor(aPool)
{
this.pool = aPool;
}
PauseActor.prototype = {
actorPrefix: "pause"
};
/**
* A base actor for any actors that should only respond receive messages in the
* paused state. Subclasses may expose a `threadActor` which is used to help
* determine when we are in a paused state. Subclasses should set their own
* "constructor" property if they want better error messages. You should never
* instantiate a PauseScopedActor directly, only through subclasses.
*/
function PauseScopedActor()
{
}
/**
* A function decorator for creating methods to handle protocol messages that
* should only be received while in the paused state.
*
* @param aMethod Function
* The function we are decorating.
*/
PauseScopedActor.withPaused = function (aMethod) {
return function () {
if (this.isPaused()) {
return aMethod.apply(this, arguments);
} else {
return this._wrongState();
}
};
};
PauseScopedActor.prototype = {
/**
* Returns true if we are in the paused state.
*/
isPaused: function () {
// When there is not a ThreadActor available (like in the webconsole) we
// have to be optimistic and assume that we are paused so that we can
// respond to requests.
return this.threadActor ? this.threadActor.state === "paused" : true;
},
/**
* Returns the wrongState response packet for this actor.
*/
_wrongState: function () {
return {
error: "wrongState",
message: this.constructor.name +
" actors can only be accessed while the thread is paused."
};
}
};
/**
* Resolve a URI back to physical file.
*
* Of course, this works only for URIs pointing to local resources.
*
* @param aURI
* URI to resolve
* @return
* resolved nsIURI
*/
function resolveURIToLocalPath(aURI) {
let resolved;
switch (aURI.scheme) {
case "jar":
case "file":
return aURI;
case "chrome":
resolved = Cc["@mozilla.org/chrome/chrome-registry;1"].
getService(Ci.nsIChromeRegistry).convertChromeURL(aURI);
return resolveURIToLocalPath(resolved);
case "resource":
resolved = Cc["@mozilla.org/network/protocol;1?name=resource"].
getService(Ci.nsIResProtocolHandler).resolveURI(aURI);
aURI = Services.io.newURI(resolved, null, null);
return resolveURIToLocalPath(aURI);
default:
return null;
}
}
/**
* A SourceActor provides information about the source of a script. There
* are two kinds of source actors: ones that represent real source objects,
* and ones that represent non-existant "original" sources when the real
* sources are sourcemapped. When a source is sourcemapped, actors are
* created for both the "generated" and "original" sources, and the client will
* only see the original sources. We separate these because there isn't
* a 1:1 mapping of generated to original sources; one generated source
* may represent N original sources, so we need to create N + 1 separate
* actors.
*
* There are 4 different scenarios for sources that you should
* understand:
*
* - A single non-sourcemapped source that is not inlined in HTML
* (separate JS file, eval'ed code, etc)
* - A single sourcemapped source which creates N original sources
* - An HTML page with multiple inline scripts, which are distinct
* sources, but should be represented as a single source
* - A pretty-printed source (which may or may not be an original
* sourcemapped source), which generates a sourcemap for itself
*
* The complexity of `SourceActor` and `ThreadSources` are to handle
* all of thise cases and hopefully internalize the complexities.
*
* @param Debugger.Source source
* The source object we are representing.
* @param ThreadActor thread
* The current thread actor.
* @param String originalUrl
* Optional. For sourcemapped urls, the original url this is representing.
* @param Debugger.Source generatedSource
* Optional, passed in when aSourceMap is also passed in. The generated
* source object that introduced this source.
* @param String contentType
* Optional. The content type of this source, if immediately available.
*/
function SourceActor({ source, thread, originalUrl, generatedSource,
isInlineSource, contentType }) {
this._threadActor = thread;
this._originalUrl = originalUrl;
this._source = source;
this._generatedSource = generatedSource;
this._contentType = contentType;
this._isInlineSource = isInlineSource;
this.onSource = this.onSource.bind(this);
this._invertSourceMap = this._invertSourceMap.bind(this);
this._encodeAndSetSourceMapURL = this._encodeAndSetSourceMapURL.bind(this);
this._getSourceText = this._getSourceText.bind(this);
this._mapSourceToAddon();
if (this.threadActor.sources.isPrettyPrinted(this.url)) {
this._init = this.onPrettyPrint({
indent: this.threadActor.sources.prettyPrintIndent(this.url)
}).then(null, error => {
DevToolsUtils.reportException("SourceActor", error);
});
} else {
this._init = null;
}
}
SourceActor.prototype = {
constructor: SourceActor,
actorPrefix: "source",
_oldSourceMap: null,
_init: null,
_addonID: null,
_addonPath: null,
get isSourceMapped() {
return !this.isInlineSource && (
this._originalURL || this._generatedSource ||
this.threadActor.sources.isPrettyPrinted(this.url)
);
},
get isInlineSource() {
return this._isInlineSource;
},
get threadActor() { return this._threadActor; },
get sources() { return this._threadActor.sources; },
get dbg() { return this.threadActor.dbg; },
get scripts() { return this.threadActor.scripts; },
get source() { return this._source; },
get generatedSource() { return this._generatedSource; },
get breakpointActorMap() { return this.threadActor.breakpointActorMap; },
get url() {
if (this.source) {
return getSourceURL(this.source, this.threadActor._parent.window);
}
return this._originalUrl;
},
get addonID() { return this._addonID; },
get addonPath() { return this._addonPath; },
get prettyPrintWorker() {
return this.threadActor.prettyPrintWorker;
},
form: function () {
let source = this.source || this.generatedSource;
// This might not have a source or a generatedSource because we
// treat HTML pages with inline scripts as a special SourceActor
// that doesn't have either
let introductionUrl = null;
if (source && source.introductionScript) {
introductionUrl = source.introductionScript.source.url;
}
return {
actor: this.actorID,
url: this.url ? this.url.split(" -> ").pop() : null,
addonID: this._addonID,
addonPath: this._addonPath,
isBlackBoxed: this.threadActor.sources.isBlackBoxed(this.url),
isPrettyPrinted: this.threadActor.sources.isPrettyPrinted(this.url),
introductionUrl: introductionUrl ? introductionUrl.split(" -> ").pop() : null,
introductionType: source ? source.introductionType : null
};
},
disconnect: function () {
if (this.registeredPool && this.registeredPool.sourceActors) {
delete this.registeredPool.sourceActors[this.actorID];
}
},
_mapSourceToAddon: function() {
try {
var nsuri = Services.io.newURI(this.url.split(" -> ").pop(), null, null);
}
catch (e) {
// We can't do anything with an invalid URI
return;
}
let localURI = resolveURIToLocalPath(nsuri);
let id = {};
if (localURI && mapURIToAddonID(localURI, id)) {
this._addonID = id.value;
if (localURI instanceof Ci.nsIJARURI) {
// The path in the add-on is easy for jar: uris
this._addonPath = localURI.JAREntry;
}
else if (localURI instanceof Ci.nsIFileURL) {
// For file: uris walk up to find the last directory that is part of the
// add-on
let target = localURI.file;
let path = target.leafName;
// We can assume that the directory containing the source file is part
// of the add-on
let root = target.parent;
let file = root.parent;
while (file && mapURIToAddonID(Services.io.newFileURI(file), {})) {
path = root.leafName + "/" + path;
root = file;
file = file.parent;
}
if (!file) {
const error = new Error("Could not find the root of the add-on for " + this.url);
DevToolsUtils.reportException("SourceActor.prototype._mapSourceToAddon", error)
return;
}
this._addonPath = path;
}
}
},
_reportLoadSourceError: function (error, map=null) {
try {
DevToolsUtils.reportException("SourceActor", error);
JSON.stringify(this.form(), null, 4).split(/\n/g)
.forEach(line => console.error("\t", line));
if (!map) {
return;
}
console.error("\t", "source map's sourceRoot =", map.sourceRoot);
console.error("\t", "source map's sources =");
map.sources.forEach(s => {
let hasSourceContent = map.sourceContentFor(s, true);
console.error("\t\t", s, "\t",
hasSourceContent ? "has source content" : "no source content");
});
console.error("\t", "source map's sourcesContent =");
map.sourcesContent.forEach(c => {
if (c.length > 80) {
c = c.slice(0, 77) + "...";
}
c = c.replace(/\n/g, "\\n");
console.error("\t\t", c);
});
} catch (e) { }
},
_getSourceText: function () {
let toResolvedContent = t => ({
content: t,
contentType: this._contentType
});
let genSource = this.generatedSource || this.source;
return this.threadActor.sources.fetchSourceMap(genSource).then(map => {
if (map) {
try {
let sourceContent = map.sourceContentFor(this.url);
if (sourceContent) {
return toResolvedContent(sourceContent);
}
} catch (error) {
this._reportLoadSourceError(error, map);
throw error;
}
}
// Use `source.text` if it exists, is not the "no source"
// string, and the content type of the source is JavaScript. It
// will be "no source" if the Debugger API wasn't able to load
// the source because sources were discarded
// (javascript.options.discardSystemSource == true). Re-fetch
// non-JS sources to get the contentType from the headers.
if (this.source &&
this.source.text !== "[no source]" &&
this._contentType &&
this._contentType.indexOf('javascript') !== -1) {
return toResolvedContent(this.source.text);
}
else {
// Only load the HTML page source from cache (which exists when
// there are inline sources). Otherwise, we can't trust the
// cache because we are most likely here because we are
// fetching the original text for sourcemapped code, and the
// page hasn't requested it before (if it has, it was a
// previous debugging session).
let sourceFetched = fetch(this.url, { loadFromCache: this.isInlineSource });
// Record the contentType we just learned during fetching
return sourceFetched
.then(result => {
this._contentType = result.contentType;
return result;
}, error => {
this._reportLoadSourceError(error, map);
throw error;
});
}
});
},
/**
* Get all executable lines from the current source
* @return Array - Executable lines of the current script
**/
getExecutableLines: function () {
// Check if the original source is source mapped
let packet = {
from: this.actorID
};
function sortLines(lines) {
// Converting the Set into an array
lines = [...lines];
lines.sort((a, b) => {
return a - b;
});
return lines;
}
if (this.generatedSource) {
return this.threadActor.sources.getSourceMap(this.generatedSource).then(sm => {
let lines = new Set();
// Position of executable lines in the generated source
let offsets = this.getExecutableOffsets(this.generatedSource, false);
for (let offset of offsets) {
let {line, source: sourceUrl} = sm.originalPositionFor({
line: offset.lineNumber,
column: offset.columnNumber
});
if (sourceUrl === this.url) {
lines.add(line);
}
}
packet.lines = sortLines(lines);
return packet;
});
}
let lines = this.getExecutableOffsets(this.source, true);
packet.lines = sortLines(lines);
return packet;
},
/**
* Extract all executable offsets from the given script
* @param String url - extract offsets of the script with this url
* @param Boolean onlyLine - will return only the line number
* @return Set - Executable offsets/lines of the script
**/
getExecutableOffsets: function (source, onlyLine) {
let offsets = new Set();
for (let s of this.threadActor.scripts.getScriptsBySource(source)) {
for (let offset of s.getAllColumnOffsets()) {
offsets.add(onlyLine ? offset.lineNumber : offset);
}
}
return offsets;
},
/**
* Handler for the "source" packet.
*/
onSource: function () {
return resolve(this._init)
.then(this._getSourceText)
.then(({ content, contentType }) => {
return {
from: this.actorID,
source: createValueGrip(content, this.threadActor.threadLifetimePool,
this.threadActor.objectGrip),
contentType: contentType
};
})
.then(null, aError => {
reportError(aError, "Got an exception during SA_onSource: ");
return {
"from": this.actorID,
"error": this.url,
"message": "Could not load the source for " + this.url + ".\n"
+ DevToolsUtils.safeErrorString(aError)
};
});
},
/**
* Handler for the "prettyPrint" packet.
*/
onPrettyPrint: function ({ indent }) {
this.threadActor.sources.prettyPrint(this.url, indent);
return this._getSourceText()
.then(this._sendToPrettyPrintWorker(indent))
.then(this._invertSourceMap)
.then(this._encodeAndSetSourceMapURL)
.then(() => {
// We need to reset `_init` now because we have already done the work of
// pretty printing, and don't want onSource to wait forever for
// initialization to complete.
this._init = null;
})
.then(this.onSource)
.then(null, error => {
this.onDisablePrettyPrint();
return {
from: this.actorID,
error: "prettyPrintError",
message: DevToolsUtils.safeErrorString(error)
};
});
},
/**
* Return a function that sends a request to the pretty print worker, waits on
* the worker's response, and then returns the pretty printed code.
*
* @param Number aIndent
* The number of spaces to indent by the code by, when we send the
* request to the pretty print worker.
* @returns Function
* Returns a function which takes an AST, and returns a promise that
* is resolved with `{ code, mappings }` where `code` is the pretty
* printed code, and `mappings` is an array of source mappings.
*/
_sendToPrettyPrintWorker: function (aIndent) {
return ({ content }) => {
return this.prettyPrintWorker.performTask("pretty-print", {
url: this.url,
indent: aIndent,
source: content
})
};
},
/**
* Invert a source map. So if a source map maps from a to b, return a new
* source map from b to a. We need to do this because the source map we get
* from _generatePrettyCodeAndMap goes the opposite way we want it to for
* debugging.
*
* Note that the source map is modified in place.
*/
_invertSourceMap: function ({ code, mappings }) {
const generator = new SourceMapGenerator({ file: this.url });
return DevToolsUtils.yieldingEach(mappings._array, m => {
let mapping = {
generated: {
line: m.originalLine,
column: m.originalColumn
}
};
if (m.source) {
mapping.source = m.source;
mapping.original = {
line: m.generatedLine,
column: m.generatedColumn
};
mapping.name = m.name;
}
generator.addMapping(mapping);
}).then(() => {
generator.setSourceContent(this.url, code);
let consumer = SourceMapConsumer.fromSourceMap(generator);
return {
code: code,
map: consumer
};
});
},
/**
* Save the source map back to our thread's ThreadSources object so that
* stepping, breakpoints, debugger statements, etc can use it. If we are
* pretty printing a source mapped source, we need to compose the existing
* source map with our new one.
*/
_encodeAndSetSourceMapURL: function ({ map: sm }) {
let source = this.generatedSource || this.source;
let sources = this.threadActor.sources;
return sources.getSourceMap(source).then(prevMap => {
if (prevMap) {
// Compose the source maps
this._oldSourceMapping = {
url: source.sourceMapURL,
map: prevMap
};
prevMap = SourceMapGenerator.fromSourceMap(prevMap);
prevMap.applySourceMap(sm, this.url);
sm = SourceMapConsumer.fromSourceMap(prevMap);
}
let sources = this.threadActor.sources;
sources.clearSourceMapCache(source.sourceMapURL);
sources.setSourceMapHard(source, null, sm);
});
},
/**
* Handler for the "disablePrettyPrint" packet.
*/
onDisablePrettyPrint: function () {
let source = this.generatedSource || this.source;
let sources = this.threadActor.sources;
let sm = sources.getSourceMap(source);
sources.clearSourceMapCache(source.sourceMapURL, { hard: true });
if (this._oldSourceMapping) {
sources.setSourceMapHard(source,
this._oldSourceMapping.url,
this._oldSourceMapping.map);
this._oldSourceMapping = null;
}
this.threadActor.sources.disablePrettyPrint(this.url);
return this.onSource();
},
/**
* Handler for the "blackbox" packet.
*/
onBlackBox: function (aRequest) {
this.threadActor.sources.blackBox(this.url);
let packet = {
from: this.actorID
};
if (this.threadActor.state == "paused"
&& this.threadActor.youngestFrame
&& this.threadActor.youngestFrame.script.url == this.url) {
packet.pausedInSource = true;
}
return packet;
},
/**
* Handler for the "unblackbox" packet.
*/
onUnblackBox: function (aRequest) {
this.threadActor.sources.unblackBox(this.url);
return {
from: this.actorID
};
},
/**
* Handle a request to set a breakpoint.
*
* @param JSON request
* A JSON object representing the request.
*
* @returns Promise
* A promise that resolves to a JSON object representing the
* response.
*/
onSetBreakpoint: function (request) {
if (this.threadActor.state !== "paused") {
return {
error: "wrongState",
message: "Cannot set breakpoint while debuggee is running."
};
}
let { location: { line, column }, condition } = request;
let location = new OriginalLocation(this, line, column);
return this._getOrCreateBreakpointActor(
location,
condition
).then((actor) => {
let response = {
actor: actor.actorID,
isPending: actor.isPending
};
let actualLocation = actor.originalLocation;
if (!actualLocation.equals(location)) {
response.actualLocation = actualLocation.toJSON();
}
return response;
});
},
/**
* Get or create a BreakpointActor for the given location in the original
* source, and ensure it is set as a breakpoint handler on all scripts that
* match the given location.
*
* @param OriginalLocation originalLocation
* An OriginalLocation representing the location of the breakpoint in
* the original source.
* @param String condition
* A string that is evaluated whenever the breakpoint is hit. If the
* string evaluates to false, the breakpoint is ignored.
*
* @returns BreakpointActor
* A BreakpointActor representing the breakpoint.
*/
_getOrCreateBreakpointActor: function (originalLocation, condition) {
let actor = this.breakpointActorMap.getActor(originalLocation);
if (!actor) {
actor = new BreakpointActor(this.threadActor, originalLocation);
this.threadActor.threadLifetimePool.addActor(actor);
this.breakpointActorMap.setActor(originalLocation, actor);
}
actor.condition = condition;
return this._setBreakpoint(actor);
},
/*
* Ensure the given BreakpointActor is set as a breakpoint handler on all
* scripts that match its location in the original source.
*
* If there are no scripts that match the location of the BreakpointActor,
* we slide its location to the next closest line (for line breakpoints) or
* column (for column breakpoint) that does.
*
* If breakpoint sliding fails, then either there are no scripts that contain
* any code for the given location, or they were all garbage collected before
* the debugger started running. We cannot distinguish between these two
* cases, so we insert the BreakpointActor in the BreakpointActorMap as
* a pending breakpoint. Whenever a new script is introduced, this method is
* called again for each pending breakpoint.
*
* @param BreakpointActor actor
* The BreakpointActor to be set as a breakpoint handler.
*
* @returns A Promise that resolves to the given BreakpointActor.
*/
_setBreakpoint: function (actor) {
let { originalLocation } = actor;
let { originalSourceActor, originalLine, originalColumn } = originalLocation;
return this._setBreakpointAtOriginalLocation(actor, originalLocation)
.then((actualLocation) => {
if (actualLocation) {
return actualLocation;
}
// There were no scripts that matched the given location, so we need to
// perform breakpoint sliding. We try to slide the breakpoint by column
// first, and if that fails, by line instead.
if (!this.isSourceMapped) {
if (originalColumn !== undefined) {
// To perform breakpoint sliding for column breakpoints, we need to
// build a map from column numbers to a list of entry points for each
// column, implemented as a sparse array. An entry point is a (script,
// offsets) pair, and represents all offsets in that script that are
// entry points for the corresponding column.
let columnToEntryPointsMap = [];
// Iterate over all scripts that correspond to this source actor and
// line number.
let scripts = this.scripts.getScriptsBySourceActor(this, originalLine);
for (let script of scripts) {
let columnToOffsetMap = script.getAllColumnOffsets()
.filter(({ lineNumber }) => {
return lineNumber === originalLine;
})
// Iterate over each column, and add their list of offsets to the
// map from column numbers to entry points by forming a (script,
// offsets) pair, where script is the current script, and offsets is
// the list of offsets for the current column.
for (let { columnNumber: column, offset } of columnToOffsetMap) {
let entryPoints = columnToEntryPointsMap[column];
if (!entryPoints) {
// We dont have a list of entry points for the current column
// number yet, so create it and add it to the map.
entryPoints = [];
columnToEntryPointsMap[column] = entryPoints;
}
entryPoints.push({ script, offsets: [offset] });
}
}
// Now that we have a map from column numbers to a list of entry points
// for each column, we can use it to perform breakpoint sliding. Start
// at the original column of the breakpoint actor, and keep
// incrementing it by one, until either we find a line that has at
// least one entry point, or we go past the last column in the map.
//
// Note that by computing the entire map up front, and implementing it
// as a sparse array, we can easily tell when we went past the last
// column in the map.
let actualColumn = originalColumn + 1;
while (actualColumn < columnToEntryPointsMap.length) {
let entryPoints = columnToEntryPointsMap[actualColumn];
if (entryPoints) {
setBreakpointAtEntryPoints(actor, entryPoints);
return new OriginalLocation(
originalSourceActor,
originalLine,
actualColumn
);
}
++actualColumn;
}
return originalLocation;
} else {
// To perform breakpoint sliding for line breakpoints, we need to
// build a map from line numbers to a list of entry points for each
// line, implemented as a sparse array. An entry point is a (script,
// offsets) pair, and represents all offsets in that script that are
// entry points for the corresponding line.
let lineToEntryPointsMap = [];
// Iterate over all scripts that correspond to this source actor.
let scripts = this.scripts.getScriptsBySourceActor(this);
for (let script of scripts) {
// Get all offsets for each line in the current script. This returns
// a map from line numbers fo a list of offsets for each line,
// implemented as a sparse array.
let lineToOffsetsMap = script.getAllOffsets();
// Iterate over each line, and add their list of offsets to the map
// from line numbers to entry points by forming a (script, offsets)
// pair, where script is the current script, and offsets is the list
// of offsets for the current line.
for (let line = 0; line < lineToOffsetsMap.length; ++line) {
let offsets = lineToOffsetsMap[line];
if (offsets) {
let entryPoints = lineToEntryPointsMap[line];
if (!entryPoints) {
// We dont have a list of entry points for the current line
// number yet, so create it and add it to the map.
entryPoints = [];
lineToEntryPointsMap[line] = entryPoints;
}
entryPoints.push({ script, offsets });
}
}
}
// Now that we have a map from line numbers to a list of entry points
// for each line, we can use it to perform breakpoint sliding. Start
// at the original line of the breakpoint actor, and keep incrementing
// it by one, until either we find a line that has at least one entry
// point, or we go past the last line in the map.
//
// Note that by computing the entire map up front, and implementing it
// as a sparse array, we can easily tell when we went past the last
// line in the map.
let actualLine = originalLine + 1;
while (actualLine < lineToEntryPointsMap.length) {
let entryPoints = lineToEntryPointsMap[actualLine];
if (entryPoints) {
setBreakpointAtEntryPoints(actor, entryPoints);
break;
}
++actualLine;
}
if (actualLine >= lineToEntryPointsMap.length) {
// We went past the last line in the map, so breakpoint sliding
// failed. Keep the BreakpointActor in the BreakpointActorMap as a
// pending breakpoint, so we can try again whenever a new script is
// introduced.
return originalLocation;
}
return new OriginalLocation(
originalSourceActor,
actualLine
);
}
} else {
let slideByColumn = (actualColumn) => {
return this.sources.getAllGeneratedLocations(new OriginalLocation(
this,
originalLine,
actualColumn
)).then((generatedLocations) => {
// Because getAllGeneratedLocations will always return the list of
// generated locations for the closest column that is greater than
// the one we are searching for if no exact match can be found, if
// the list of generated locations is empty, we've reached the end
// of the original line, and sliding continues by line.
if (generatedLocations.length === 0) {
return slideByLine(originalLine + 1);
}
// If at least one script has an offset that matches one of the
// generated locations in the list, then breakpoint sliding
// succeeded.
if (this._setBreakpointAtAllGeneratedLocations(actor, generatedLocations)) {
return this.threadActor.sources.getOriginalLocation(generatedLocations[0]);
}
// Try the next column in the original source.
return slideByColumn(actualColumn + 1);
});
};
let slideByLine = (actualLine) => {
return this.sources.getAllGeneratedLocations(new OriginalLocation(
this,
actualLine
)).then((generatedLocations) => {
// Because getAllGeneratedLocations will always return the list of
// generated locations for the closest line that is greater than
// the one we are searching for if no exact match can be found, if
// the list of generated locations is empty, we've reached the end
// of the original source, and breakpoint sliding failed.
if (generatedLocations.length === 0) {
return originalLocation;
}
// If at least one script has an offset that matches one of the
// generated locations in the list, then breakpoint sliding
// succeeded.
if (this._setBreakpointAtAllGeneratedLocations(actor, generatedLocations)) {
return this.threadActor.sources.getOriginalLocation(generatedLocations[0]);
}
// Try the next line in the original source.
return slideByLine(actualLine + 1);
});
};
if (originalColumn !== undefined) {
return slideByColumn(originalColumn + 1);
} else {
return slideByLine(originalLine + 1);
}
}
}).then((actualLocation) => {
// If the actual location on which the BreakpointActor ended up being
// set differs from the original line that was requested, both the
// BreakpointActor and the BreakpointActorMap need to be updated
// accordingly.
if (!actualLocation.equals(originalLocation)) {
let existingActor = this.breakpointActorMap.getActor(actualLocation);
if (existingActor) {
actor.onDelete();
this.breakpointActorMap.deleteActor(originalLocation);
actor = existingActor;
} else {
this.breakpointActorMap.deleteActor(originalLocation);
actor.originalLocation = actualLocation;
this.breakpointActorMap.setActor(actualLocation, actor);
}
}
return actor;
});
},
_setBreakpointAtOriginalLocation: function (actor, originalLocation) {
if (!this.isSourceMapped) {
if (!this._setBreakpointAtGeneratedLocation(
actor,
GeneratedLocation.fromOriginalLocation(originalLocation)
)) {
return promise.resolve(null);
}
return promise.resolve(originalLocation);
} else {
return this.sources.getAllGeneratedLocations(originalLocation)
.then((generatedLocations) => {
if (!this._setBreakpointAtAllGeneratedLocations(
actor,
generatedLocations
)) {
return null;
}
return this.threadActor.sources.getOriginalLocation(generatedLocations[0]);
});
}
},
_setBreakpointAtAllGeneratedLocations: function (actor, generatedLocations) {
let success = false;
for (let generatedLocation of generatedLocations) {
if (this._setBreakpointAtGeneratedLocation(
actor,
generatedLocation
)) {
success = true;
}
}
return success;
},
/*
* Ensure the given BreakpointActor is set as breakpoint handler on all
* scripts that match the given location in the generated source.
*
* @param BreakpointActor actor
* The BreakpointActor to be set as a breakpoint handler.
* @param GeneratedLocation generatedLocation
* A GeneratedLocation representing the location in the generated
* source for which the given BreakpointActor is to be set as a
* breakpoint handler.
*
* @returns A Boolean that is true if the BreakpointActor was set as a
* breakpoint handler on at least one script, and false otherwise.
*/
_setBreakpointAtGeneratedLocation: function (actor, generatedLocation) {
let {
generatedSourceActor,
generatedLine,
generatedColumn,
generatedLastColumn
} = generatedLocation;
// Find all scripts that match the given source actor and line number.
let scripts = this.scripts.getScriptsBySourceActorAndLine(
generatedSourceActor,
generatedLine
);
scripts = scripts.filter((script) => !actor.hasScript(script));
// Find all entry points that correspond to the given location.
let entryPoints = [];
if (generatedColumn === undefined) {
// This is a line breakpoint, so we are interested in all offsets
// that correspond to the given line number.
for (let script of scripts) {
let offsets = script.getLineOffsets(generatedLine);
if (offsets.length > 0) {
entryPoints.push({ script, offsets });
}
}
} else {
// This is a column breakpoint, so we are interested in all column
// offsets that correspond to the given line *and* column number.
for (let script of scripts) {
let columnToOffsetMap = script.getAllColumnOffsets()
.filter(({ lineNumber }) => {
return lineNumber === generatedLine;
});
for (let { columnNumber: column, offset } of columnToOffsetMap) {
if (column >= generatedColumn && column <= generatedLastColumn) {
entryPoints.push({ script, offsets: [offset] });
}
}
}
}
if (entryPoints.length === 0) {
return false;
}
setBreakpointAtEntryPoints(actor, entryPoints);
return true;
}
};
SourceActor.prototype.requestTypes = {
"source": SourceActor.prototype.onSource,
"blackbox": SourceActor.prototype.onBlackBox,
"unblackbox": SourceActor.prototype.onUnblackBox,
"prettyPrint": SourceActor.prototype.onPrettyPrint,
"disablePrettyPrint": SourceActor.prototype.onDisablePrettyPrint,
"getExecutableLines": SourceActor.prototype.getExecutableLines,
"setBreakpoint": SourceActor.prototype.onSetBreakpoint
};
exports.SourceActor = SourceActor;
/**
* Creates a pause-scoped actor for the specified object.
* @see ObjectActor
*/
function PauseScopedObjectActor(obj, hooks) {
ObjectActor.call(this, obj, hooks);
this.hooks.promote = hooks.promote;
this.hooks.isThreadLifetimePool = hooks.isThreadLifetimePool;
}
PauseScopedObjectActor.prototype = Object.create(PauseScopedActor.prototype);
update(PauseScopedObjectActor.prototype, ObjectActor.prototype);
update(PauseScopedObjectActor.prototype, {
constructor: PauseScopedObjectActor,
actorPrefix: "pausedobj",
onOwnPropertyNames:
PauseScopedActor.withPaused(ObjectActor.prototype.onOwnPropertyNames),
onPrototypeAndProperties:
PauseScopedActor.withPaused(ObjectActor.prototype.onPrototypeAndProperties),
onPrototype: PauseScopedActor.withPaused(ObjectActor.prototype.onPrototype),
onProperty: PauseScopedActor.withPaused(ObjectActor.prototype.onProperty),
onDecompile: PauseScopedActor.withPaused(ObjectActor.prototype.onDecompile),
onDisplayString:
PauseScopedActor.withPaused(ObjectActor.prototype.onDisplayString),
onParameterNames:
PauseScopedActor.withPaused(ObjectActor.prototype.onParameterNames),
/**
* Handle a protocol request to promote a pause-lifetime grip to a
* thread-lifetime grip.
*
* @param aRequest object
* The protocol request object.
*/
onThreadGrip: PauseScopedActor.withPaused(function (aRequest) {
this.hooks.promote();
return {};
}),
/**
* Handle a protocol request to release a thread-lifetime grip.
*
* @param aRequest object
* The protocol request object.
*/
onRelease: PauseScopedActor.withPaused(function (aRequest) {
if (this.hooks.isThreadLifetimePool()) {
return { error: "notReleasable",
message: "Only thread-lifetime actors can be released." };
}
this.release();
return {};
}),
});
update(PauseScopedObjectActor.prototype.requestTypes, {
"threadGrip": PauseScopedObjectActor.prototype.onThreadGrip,
});
/**
* Creates an actor for the specified stack frame.
*
* @param aFrame Debugger.Frame
* The debuggee frame.
* @param aThreadActor ThreadActor
* The parent thread actor for this frame.
*/
function FrameActor(aFrame, aThreadActor)
{
this.frame = aFrame;
this.threadActor = aThreadActor;
}
FrameActor.prototype = {
actorPrefix: "frame",
/**
* A pool that contains frame-lifetime objects, like the environment.
*/
_frameLifetimePool: null,
get frameLifetimePool() {
if (!this._frameLifetimePool) {
this._frameLifetimePool = new ActorPool(this.conn);
this.conn.addActorPool(this._frameLifetimePool);
}
return this._frameLifetimePool;
},
/**
* Finalization handler that is called when the actor is being evicted from
* the pool.
*/
disconnect: function () {
this.conn.removeActorPool(this._frameLifetimePool);
this._frameLifetimePool = null;
},
/**
* Returns a frame form for use in a protocol message.
*/
form: function () {
let threadActor = this.threadActor;
let form = { actor: this.actorID,
type: this.frame.type };
if (this.frame.type === "call") {
form.callee = createValueGrip(this.frame.callee, threadActor._pausePool,
threadActor.objectGrip);
}
if (this.frame.environment) {
let envActor = threadActor.createEnvironmentActor(
this.frame.environment,
this.frameLifetimePool
);
form.environment = envActor.form();
}
form.this = createValueGrip(this.frame.this, threadActor._pausePool,
threadActor.objectGrip);
form.arguments = this._args();
if (this.frame.script) {
var generatedLocation = this.threadActor.sources.getFrameLocation(this.frame);
form.where = {
source: generatedLocation.generatedSourceActor.form(),
line: generatedLocation.generatedLine,
column: generatedLocation.generatedColumn
};
}
if (!this.frame.older) {
form.oldest = true;
}
return form;
},
_args: function () {
if (!this.frame.arguments) {
return [];
}
return this.frame.arguments.map(arg => createValueGrip(arg,
this.threadActor._pausePool, this.threadActor.objectGrip));
},
/**
* Handle a protocol request to pop this frame from the stack.
*
* @param aRequest object
* The protocol request object.
*/
onPop: function (aRequest) {
// TODO: remove this when Debugger.Frame.prototype.pop is implemented
if (typeof this.frame.pop != "function") {
return { error: "notImplemented",
message: "Popping frames is not yet implemented." };
}
while (this.frame != this.threadActor.dbg.getNewestFrame()) {
this.threadActor.dbg.getNewestFrame().pop();
}
this.frame.pop(aRequest.completionValue);
// TODO: return the watches property when frame pop watch actors are
// implemented.
return { from: this.actorID };
}
};
FrameActor.prototype.requestTypes = {
"pop": FrameActor.prototype.onPop,
};
/**
* Creates a BreakpointActor. BreakpointActors exist for the lifetime of their
* containing thread and are responsible for deleting breakpoints, handling
* breakpoint hits and associating breakpoints with scripts.
*
* @param ThreadActor aThreadActor
* The parent thread actor that contains this breakpoint.
* @param OriginalLocation aOriginalLocation
* The original location of the breakpoint.
*/
function BreakpointActor(aThreadActor, aOriginalLocation)
{
// The set of Debugger.Script instances that this breakpoint has been set
// upon.
this.scripts = new Set();
this.threadActor = aThreadActor;
this.originalLocation = aOriginalLocation;
this.condition = null;
this.isPending = true;
}
BreakpointActor.prototype = {
actorPrefix: "breakpoint",
condition: null,
disconnect: function () {
this.removeScripts();
},
hasScript: function (aScript) {
return this.scripts.has(aScript);
},
/**
* Called when this same breakpoint is added to another Debugger.Script
* instance.
*
* @param aScript Debugger.Script
* The new source script on which the breakpoint has been set.
* @param ThreadActor aThreadActor
* The parent thread actor that contains this breakpoint.
*/
addScript: function (aScript) {
this.scripts.add(aScript);
this.isPending = false;
},
/**
* Remove the breakpoints from associated scripts and clear the script cache.
*/
removeScripts: function () {
for (let script of this.scripts) {
script.clearBreakpoint(this);
}
this.scripts.clear();
},
/**
* Check if this breakpoint has a condition that doesn't error and
* evaluates to true in aFrame.
*
* @param aFrame Debugger.Frame
* The frame to evaluate the condition in
* @returns Object
* - result: boolean|undefined
* True when the conditional breakpoint should trigger a pause, false otherwise.
* If the condition evaluation failed/killed, `result` will be `undefined`.
* - message: string
* The thrown message converted to a string, when the condition throws.
*/
checkCondition: function(aFrame) {
let completion = aFrame.eval(this.condition);
if (completion) {
if (completion.throw) {
// The evaluation failed and threw
let message = "Unknown exception";
try {
if (completion.throw.getOwnPropertyDescriptor) {
message = completion.throw.getOwnPropertyDescriptor("message").value;
} else if (completion.toString) {
message = completion.toString();
}
} catch (ex) {}
return {
result: true,
message: message
};
} else if (completion.yield) {
assert(false, "Shouldn't ever get yield completions from an eval");
} else {
return { result: completion.return ? true : false };
}
} else {
// The evaluation was killed (possibly by the slow script dialog)
return { result: undefined };
}
},
/**
* A function that the engine calls when a breakpoint has been hit.
*
* @param aFrame Debugger.Frame
* The stack frame that contained the breakpoint.
*/
hit: function (aFrame) {
// Don't pause if we are currently stepping (in or over) or the frame is
// black-boxed.
let generatedLocation = this.threadActor.sources.getFrameLocation(aFrame);
let { originalSourceActor } = this.threadActor.unsafeSynchronize(
this.threadActor.sources.getOriginalLocation(generatedLocation));
let url = originalSourceActor.url;
if (this.threadActor.sources.isBlackBoxed(url)
|| aFrame.onStep) {
return undefined;
}
let reason = {};
if (this.threadActor._hiddenBreakpoints.has(this.actorID)) {
reason.type = "pauseOnDOMEvents";
} else if (!this.condition) {
reason.type = "breakpoint";
// TODO: add the rest of the breakpoints on that line (bug 676602).
reason.actors = [ this.actorID ];
} else {
let { result, message } = this.checkCondition(aFrame)
if (result) {
if (!message) {
reason.type = "breakpoint";
} else {
reason.type = "breakpointConditionThrown";
reason.message = message;
}
reason.actors = [ this.actorID ];
} else {
return undefined;
}
}
return this.threadActor._pauseAndRespond(aFrame, reason);
},
/**
* Handle a protocol request to remove this breakpoint.
*
* @param aRequest object
* The protocol request object.
*/
onDelete: function (aRequest) {
// Remove from the breakpoint store.
if (this.originalLocation) {
this.threadActor.breakpointActorMap.deleteActor(this.originalLocation);
}
this.threadActor.threadLifetimePool.removeActor(this);
// Remove the actual breakpoint from the associated scripts.
this.removeScripts();
return { from: this.actorID };
}
};
BreakpointActor.prototype.requestTypes = {
"delete": BreakpointActor.prototype.onDelete
};
/**
* Creates an EnvironmentActor. EnvironmentActors are responsible for listing
* the bindings introduced by a lexical environment and assigning new values to
* those identifier bindings.
*
* @param Debugger.Environment aEnvironment
* The lexical environment that will be used to create the actor.
* @param ThreadActor aThreadActor
* The parent thread actor that contains this environment.
*/
function EnvironmentActor(aEnvironment, aThreadActor)
{
this.obj = aEnvironment;
this.threadActor = aThreadActor;
}
EnvironmentActor.prototype = {
actorPrefix: "environment",
/**
* Return an environment form for use in a protocol message.
*/
form: function () {
let form = { actor: this.actorID };
// What is this environment's type?
if (this.obj.type == "declarative") {
form.type = this.obj.callee ? "function" : "block";
} else {
form.type = this.obj.type;
}
// Does this environment have a parent?
if (this.obj.parent) {
form.parent = (this.threadActor
.createEnvironmentActor(this.obj.parent,
this.registeredPool)
.form());
}
// Does this environment reflect the properties of an object as variables?
if (this.obj.type == "object" || this.obj.type == "with") {
form.object = createValueGrip(this.obj.object,
this.registeredPool, this.threadActor.objectGrip);
}
// Is this the environment created for a function call?
if (this.obj.callee) {
form.function = createValueGrip(this.obj.callee,
this.registeredPool, this.threadActor.objectGrip);
}
// Shall we list this environment's bindings?
if (this.obj.type == "declarative") {
form.bindings = this._bindings();
}
return form;
},
/**
* Return the identifier bindings object as required by the remote protocol
* specification.
*/
_bindings: function () {
let bindings = { arguments: [], variables: {} };
// TODO: this part should be removed in favor of the commented-out part
// below when getVariableDescriptor lands (bug 725815).
if (typeof this.obj.getVariable != "function") {
//if (typeof this.obj.getVariableDescriptor != "function") {
return bindings;
}
let parameterNames;
if (this.obj.callee) {
parameterNames = this.obj.callee.parameterNames;
} else {
parameterNames = [];
}
for (let name of parameterNames) {
let arg = {};
let value = this.obj.getVariable(name);
// TODO: this part should be removed in favor of the commented-out part
// below when getVariableDescriptor lands (bug 725815).
let desc = {
value: value,
configurable: false,
writable: !(value && value.optimizedOut),
enumerable: true
};
// let desc = this.obj.getVariableDescriptor(name);
let descForm = {
enumerable: true,
configurable: desc.configurable
};
if ("value" in desc) {
descForm.value = createValueGrip(desc.value,
this.registeredPool, this.threadActor.objectGrip);
descForm.writable = desc.writable;
} else {
descForm.get = createValueGrip(desc.get, this.registeredPool,
this.threadActor.objectGrip);
descForm.set = createValueGrip(desc.set, this.registeredPool,
this.threadActor.objectGrip);
}
arg[name] = descForm;
bindings.arguments.push(arg);
}
for (let name of this.obj.names()) {
if (bindings.arguments.some(function exists(element) {
return !!element[name];
})) {
continue;
}
let value = this.obj.getVariable(name);
// TODO: this part should be removed in favor of the commented-out part
// below when getVariableDescriptor lands.
let desc = {
value: value,
configurable: false,
writable: !(value &&
(value.optimizedOut ||
value.uninitialized ||
value.missingArguments)),
enumerable: true
};
//let desc = this.obj.getVariableDescriptor(name);
let descForm = {
enumerable: true,
configurable: desc.configurable
};
if ("value" in desc) {
descForm.value = createValueGrip(desc.value,
this.registeredPool, this.threadActor.objectGrip);
descForm.writable = desc.writable;
} else {
descForm.get = createValueGrip(desc.get || undefined,
this.registeredPool, this.threadActor.objectGrip);
descForm.set = createValueGrip(desc.set || undefined,
this.registeredPool, this.threadActor.objectGrip);
}
bindings.variables[name] = descForm;
}
return bindings;
},
/**
* Handle a protocol request to change the value of a variable bound in this
* lexical environment.
*
* @param aRequest object
* The protocol request object.
*/
onAssign: function (aRequest) {
// TODO: enable the commented-out part when getVariableDescriptor lands
// (bug 725815).
/*let desc = this.obj.getVariableDescriptor(aRequest.name);
if (!desc.writable) {
return { error: "immutableBinding",
message: "Changing the value of an immutable binding is not " +
"allowed" };
}*/
try {
this.obj.setVariable(aRequest.name, aRequest.value);
} catch (e) {
if (e instanceof Debugger.DebuggeeWouldRun) {
return { error: "threadWouldRun",
cause: e.cause ? e.cause : "setter",
message: "Assigning a value would cause the debuggee to run" };
} else {
throw e;
}
}
return { from: this.actorID };
},
/**
* Handle a protocol request to fully enumerate the bindings introduced by the
* lexical environment.
*
* @param aRequest object
* The protocol request object.
*/
onBindings: function (aRequest) {
return { from: this.actorID,
bindings: this._bindings() };
}
};
EnvironmentActor.prototype.requestTypes = {
"assign": EnvironmentActor.prototype.onAssign,
"bindings": EnvironmentActor.prototype.onBindings
};
exports.EnvironmentActor = EnvironmentActor;
function hackDebugger(Debugger) {
// TODO: Improve native code instead of hacking on top of it
/**
* Override the toString method in order to get more meaningful script output
* for debugging the debugger.
*/
Debugger.Script.prototype.toString = function() {
let output = "";
if (this.url) {
output += this.url;
}
if (typeof this.staticLevel != "undefined") {
output += ":L" + this.staticLevel;
}
if (typeof this.startLine != "undefined") {
output += ":" + this.startLine;
if (this.lineCount && this.lineCount > 1) {
output += "-" + (this.startLine + this.lineCount - 1);
}
}
if (typeof this.startLine != "undefined") {
output += ":" + this.startLine;
if (this.lineCount && this.lineCount > 1) {
output += "-" + (this.startLine + this.lineCount - 1);
}
}
if (this.strictMode) {
output += ":strict";
}
return output;
};
/**
* Helper property for quickly getting to the line number a stack frame is
* currently paused at.
*/
Object.defineProperty(Debugger.Frame.prototype, "line", {
configurable: true,
get: function() {
if (this.script) {
return this.script.getOffsetLocation(this.offset).lineNumber;
} else {
return null;
}
}
});
}
/**
* Creates an actor for handling chrome debugging. ChromeDebuggerActor is a
* thin wrapper over ThreadActor, slightly changing some of its behavior.
*
* @param aConnection object
* The DebuggerServerConnection with which this ChromeDebuggerActor
* is associated. (Currently unused, but required to make this
* constructor usable with addGlobalActor.)
*
* @param aParent object
* This actor's parent actor. See ThreadActor for a list of expected
* properties.
*/
function ChromeDebuggerActor(aConnection, aParent)
{
ThreadActor.call(this, aParent);
}
ChromeDebuggerActor.prototype = Object.create(ThreadActor.prototype);
update(ChromeDebuggerActor.prototype, {
constructor: ChromeDebuggerActor,
// A constant prefix that will be used to form the actor ID by the server.
actorPrefix: "chromeDebugger"
});
exports.ChromeDebuggerActor = ChromeDebuggerActor;
/**
* Creates an actor for handling add-on debugging. AddonThreadActor is
* a thin wrapper over ThreadActor.
*
* @param aConnection object
* The DebuggerServerConnection with which this AddonThreadActor
* is associated. (Currently unused, but required to make this
* constructor usable with addGlobalActor.)
*
* @param aParent object
* This actor's parent actor. See ThreadActor for a list of expected
* properties.
*/
function AddonThreadActor(aConnect, aParent) {
ThreadActor.call(this, aParent);
}
AddonThreadActor.prototype = Object.create(ThreadActor.prototype);
update(AddonThreadActor.prototype, {
constructor: AddonThreadActor,
// A constant prefix that will be used to form the actor ID by the server.
actorPrefix: "addonThread"
});
exports.AddonThreadActor = AddonThreadActor;
// Utility functions.
/**
* Report the given error in the error console and to stdout.
*
* @param Error aError
* The error object you wish to report.
* @param String aPrefix
* An optional prefix for the reported error message.
*/
var oldReportError = reportError;
reportError = function(aError, aPrefix="") {
assert(aError instanceof Error, "Must pass Error objects to reportError");
let msg = aPrefix + aError.message + ":\n" + aError.stack;
oldReportError(msg);
dumpn(msg);
}
function isEvalSource(source) {
let introType = source.introductionType;
// These are all the sources that are essentially eval-ed (either
// by calling eval or passing a string to one of these functions).
return (introType === 'eval' ||
introType === 'Function' ||
introType === 'eventHandler' ||
introType === 'setTimeout' ||
introType === 'setInterval');
}
exports.isEvalSource = isEvalSource;
function getSourceURL(source, window) {
if (isEvalSource(source)) {
// Eval sources have no urls, but they might have a `displayURL`
// created with the sourceURL pragma. If the introduction script
// is a non-eval script, generate an full absolute URL relative to it.
if (source.displayURL && source.introductionScript &&
!isEvalSource(source.introductionScript.source)) {
if (source.introductionScript.source.url === 'debugger eval code') {
if (window) {
// If this is a named eval script created from the console, make it
// relative to the current page. window is only available
// when we care about this.
return joinURI(window.location.href, source.displayURL);
}
}
else {
return joinURI(dirname(source.introductionScript.source.url),
source.displayURL);
}
}
return source.displayURL;
}
else if (source.url === 'debugger eval code') {
// Treat code evaluated by the console as unnamed eval scripts
return null;
}
return source.url;
}
exports.getSourceURL = getSourceURL;
/**
* Find the scripts which contain offsets that are an entry point to the given
* line.
*
* @param Array scripts
* The set of Debugger.Scripts to consider.
* @param Number line
* The line we are searching for entry points into.
* @returns Array of objects of the form { script, offsets } where:
* - script is a Debugger.Script
* - offsets is an array of offsets that are entry points into the
* given line.
*/
function findEntryPointsForLine(scripts, line) {
const entryPoints = [];
for (let script of scripts) {
const offsets = script.getLineOffsets(line);
if (offsets.length) {
entryPoints.push({ script, offsets });
}
}
return entryPoints;
}
/**
* Set breakpoints on all the given entry points with the given
* BreakpointActor as the handler.
*
* @param BreakpointActor actor
* The actor handling the breakpoint hits.
* @param Array entryPoints
* An array of objects of the form `{ script, offsets }`.
*/
function setBreakpointAtEntryPoints(actor, entryPoints) {
for (let { script, offsets } of entryPoints) {
actor.addScript(script);
for (let offset of offsets) {
script.setBreakpoint(offset, actor);
}
}
}
/**
* Unwrap a global that is wrapped in a |Debugger.Object|, or if the global has
* become a dead object, return |undefined|.
*
* @param Debugger.Object wrappedGlobal
* The |Debugger.Object| which wraps a global.
*
* @returns {Object|undefined}
* Returns the unwrapped global object or |undefined| if unwrapping
* failed.
*/
exports.unwrapDebuggerObjectGlobal = wrappedGlobal => {
try {
// Because of bug 991399 we sometimes get nuked window references here. We
// just bail out in that case.
//
// Note that addon sandboxes have a DOMWindow as their prototype. So make
// sure that we can touch the prototype too (whatever it is), in case _it_
// is it a nuked window reference. We force stringification to make sure
// that any dead object proxies make themselves known.
let global = wrappedGlobal.unsafeDereference();
Object.getPrototypeOf(global) + "";
return global;
}
catch (e) {
return undefined;
}
};
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