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gerrit-public.fairphone.software / fp2-dev / platform / external / v8 / refs/tags/fp2-sibon-18.02.0 / . / src / debug / debug.js
blob: cbd4dd21c75bf0e59ba36f12b06a756e3c1e767e [file] [log] [blame]
// Copyright 2012 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
(function (global, utils) {
"use strict";
// ----------------------------------------------------------------------------
// Imports
var FrameMirror = global.FrameMirror;
var GlobalArray = global.Array;
var GlobalRegExp = global.RegExp;
var IsNaN = global.isNaN;
var JSONParse = global.JSON.parse;
var JSONStringify = global.JSON.stringify;
var LookupMirror = global.LookupMirror;
var MakeError;
var MakeTypeError;
var MakeMirror = global.MakeMirror;
var MakeMirrorSerializer = global.MakeMirrorSerializer;
var MathMin = global.Math.min;
var Mirror = global.Mirror;
var MirrorType;
var ParseInt = global.parseInt;
var ValueMirror = global.ValueMirror;
utils.Import(function(from) {
MakeError = from.MakeError;
MakeTypeError = from.MakeTypeError;
MirrorType = from.MirrorType;
});
//----------------------------------------------------------------------------
// Default number of frames to include in the response to backtrace request.
var kDefaultBacktraceLength = 10;
var Debug = {};
// Regular expression to skip "crud" at the beginning of a source line which is
// not really code. Currently the regular expression matches whitespace and
// comments.
var sourceLineBeginningSkip = /^(?:\s*(?:\/\*.*?\*\/)*)*/;
// Debug events which can occour in the V8 JavaScript engine. These originate
// from the API include file debug.h.
Debug.DebugEvent = { Break: 1,
Exception: 2,
NewFunction: 3,
BeforeCompile: 4,
AfterCompile: 5,
CompileError: 6,
AsyncTaskEvent: 7 };
// Types of exceptions that can be broken upon.
Debug.ExceptionBreak = { Caught : 0,
Uncaught: 1 };
// The different types of steps.
Debug.StepAction = { StepOut: 0,
StepNext: 1,
StepIn: 2,
StepFrame: 3 };
// The different types of scripts matching enum ScriptType in objects.h.
Debug.ScriptType = { Native: 0,
Extension: 1,
Normal: 2 };
// The different types of script compilations matching enum
// Script::CompilationType in objects.h.
Debug.ScriptCompilationType = { Host: 0,
Eval: 1,
JSON: 2 };
// The different script break point types.
Debug.ScriptBreakPointType = { ScriptId: 0,
ScriptName: 1,
ScriptRegExp: 2 };
// The different types of breakpoint position alignments.
// Must match BreakPositionAlignment in debug.h.
Debug.BreakPositionAlignment = {
Statement: 0,
BreakPosition: 1
};
function ScriptTypeFlag(type) {
return (1 << type);
}
// Globals.
var next_response_seq = 0;
var next_break_point_number = 1;
var break_points = [];
var script_break_points = [];
var debugger_flags = {
breakPointsActive: {
value: true,
getValue: function() { return this.value; },
setValue: function(value) {
this.value = !!value;
%SetBreakPointsActive(this.value);
}
},
breakOnCaughtException: {
getValue: function() { return Debug.isBreakOnException(); },
setValue: function(value) {
if (value) {
Debug.setBreakOnException();
} else {
Debug.clearBreakOnException();
}
}
},
breakOnUncaughtException: {
getValue: function() { return Debug.isBreakOnUncaughtException(); },
setValue: function(value) {
if (value) {
Debug.setBreakOnUncaughtException();
} else {
Debug.clearBreakOnUncaughtException();
}
}
},
};
// Create a new break point object and add it to the list of break points.
function MakeBreakPoint(source_position, opt_script_break_point) {
var break_point = new BreakPoint(source_position, opt_script_break_point);
break_points.push(break_point);
return break_point;
}
// Object representing a break point.
// NOTE: This object does not have a reference to the function having break
// point as this would cause function not to be garbage collected when it is
// not used any more. We do not want break points to keep functions alive.
function BreakPoint(source_position, opt_script_break_point) {
this.source_position_ = source_position;
if (opt_script_break_point) {
this.script_break_point_ = opt_script_break_point;
} else {
this.number_ = next_break_point_number++;
}
this.active_ = true;
this.condition_ = null;
}
BreakPoint.prototype.number = function() {
return this.number_;
};
BreakPoint.prototype.func = function() {
return this.func_;
};
BreakPoint.prototype.source_position = function() {
return this.source_position_;
};
BreakPoint.prototype.active = function() {
if (this.script_break_point()) {
return this.script_break_point().active();
}
return this.active_;
};
BreakPoint.prototype.condition = function() {
if (this.script_break_point() && this.script_break_point().condition()) {
return this.script_break_point().condition();
}
return this.condition_;
};
BreakPoint.prototype.script_break_point = function() {
return this.script_break_point_;
};
BreakPoint.prototype.enable = function() {
this.active_ = true;
};
BreakPoint.prototype.disable = function() {
this.active_ = false;
};
BreakPoint.prototype.setCondition = function(condition) {
this.condition_ = condition;
};
BreakPoint.prototype.isTriggered = function(exec_state) {
// Break point not active - not triggered.
if (!this.active()) return false;
// Check for conditional break point.
if (this.condition()) {
// If break point has condition try to evaluate it in the top frame.
try {
var mirror = exec_state.frame(0).evaluate(this.condition());
// If no sensible mirror or non true value break point not triggered.
if (!(mirror instanceof ValueMirror) || !mirror.value_) {
return false;
}
} catch (e) {
// Exception evaluating condition counts as not triggered.
return false;
}
}
// Break point triggered.
return true;
};
// Function called from the runtime when a break point is hit. Returns true if
// the break point is triggered and supposed to break execution.
function IsBreakPointTriggered(break_id, break_point) {
return break_point.isTriggered(MakeExecutionState(break_id));
}
// Object representing a script break point. The script is referenced by its
// script name or script id and the break point is represented as line and
// column.
function ScriptBreakPoint(type, script_id_or_name, opt_line, opt_column,
opt_groupId, opt_position_alignment) {
this.type_ = type;
if (type == Debug.ScriptBreakPointType.ScriptId) {
this.script_id_ = script_id_or_name;
} else if (type == Debug.ScriptBreakPointType.ScriptName) {
this.script_name_ = script_id_or_name;
} else if (type == Debug.ScriptBreakPointType.ScriptRegExp) {
this.script_regexp_object_ = new GlobalRegExp(script_id_or_name);
} else {
throw MakeError(kDebugger, "Unexpected breakpoint type " + type);
}
this.line_ = opt_line || 0;
this.column_ = opt_column;
this.groupId_ = opt_groupId;
this.position_alignment_ = IS_UNDEFINED(opt_position_alignment)
? Debug.BreakPositionAlignment.Statement : opt_position_alignment;
this.active_ = true;
this.condition_ = null;
this.break_points_ = [];
}
// Creates a clone of script breakpoint that is linked to another script.
ScriptBreakPoint.prototype.cloneForOtherScript = function (other_script) {
var copy = new ScriptBreakPoint(Debug.ScriptBreakPointType.ScriptId,
other_script.id, this.line_, this.column_, this.groupId_,
this.position_alignment_);
copy.number_ = next_break_point_number++;
script_break_points.push(copy);
copy.active_ = this.active_;
copy.condition_ = this.condition_;
return copy;
};
ScriptBreakPoint.prototype.number = function() {
return this.number_;
};
ScriptBreakPoint.prototype.groupId = function() {
return this.groupId_;
};
ScriptBreakPoint.prototype.type = function() {
return this.type_;
};
ScriptBreakPoint.prototype.script_id = function() {
return this.script_id_;
};
ScriptBreakPoint.prototype.script_name = function() {
return this.script_name_;
};
ScriptBreakPoint.prototype.script_regexp_object = function() {
return this.script_regexp_object_;
};
ScriptBreakPoint.prototype.line = function() {
return this.line_;
};
ScriptBreakPoint.prototype.column = function() {
return this.column_;
};
ScriptBreakPoint.prototype.actual_locations = function() {
var locations = [];
for (var i = 0; i < this.break_points_.length; i++) {
locations.push(this.break_points_[i].actual_location);
}
return locations;
};
ScriptBreakPoint.prototype.update_positions = function(line, column) {
this.line_ = line;
this.column_ = column;
};
ScriptBreakPoint.prototype.active = function() {
return this.active_;
};
ScriptBreakPoint.prototype.condition = function() {
return this.condition_;
};
ScriptBreakPoint.prototype.enable = function() {
this.active_ = true;
};
ScriptBreakPoint.prototype.disable = function() {
this.active_ = false;
};
ScriptBreakPoint.prototype.setCondition = function(condition) {
this.condition_ = condition;
};
// Check whether a script matches this script break point. Currently this is
// only based on script name.
ScriptBreakPoint.prototype.matchesScript = function(script) {
if (this.type_ == Debug.ScriptBreakPointType.ScriptId) {
return this.script_id_ == script.id;
} else {
// We might want to account columns here as well.
if (!(script.line_offset <= this.line_ &&
this.line_ < script.line_offset + %ScriptLineCount(script))) {
return false;
}
if (this.type_ == Debug.ScriptBreakPointType.ScriptName) {
return this.script_name_ == script.nameOrSourceURL();
} else if (this.type_ == Debug.ScriptBreakPointType.ScriptRegExp) {
return this.script_regexp_object_.test(script.nameOrSourceURL());
} else {
throw MakeError(kDebugger, "Unexpected breakpoint type " + this.type_);
}
}
};
// Set the script break point in a script.
ScriptBreakPoint.prototype.set = function (script) {
var column = this.column();
var line = this.line();
// If the column is undefined the break is on the line. To help locate the
// first piece of breakable code on the line try to find the column on the
// line which contains some source.
if (IS_UNDEFINED(column)) {
var source_line = %ScriptSourceLine(script, line || script.line_offset);
// Allocate array for caching the columns where the actual source starts.
if (!script.sourceColumnStart_) {
script.sourceColumnStart_ = new GlobalArray(%ScriptLineCount(script));
}
// Fill cache if needed and get column where the actual source starts.
if (IS_UNDEFINED(script.sourceColumnStart_[line])) {
script.sourceColumnStart_[line] =
source_line.match(sourceLineBeginningSkip)[0].length;
}
column = script.sourceColumnStart_[line];
}
// Convert the line and column into an absolute position within the script.
var position = Debug.findScriptSourcePosition(script, this.line(), column);
// If the position is not found in the script (the script might be shorter
// than it used to be) just ignore it.
if (IS_NULL(position)) return;
// Create a break point object and set the break point.
var break_point = MakeBreakPoint(position, this);
var actual_position = %SetScriptBreakPoint(script, position,
this.position_alignment_,
break_point);
if (IS_UNDEFINED(actual_position)) {
actual_position = position;
}
var actual_location = script.locationFromPosition(actual_position, true);
break_point.actual_location = { line: actual_location.line,
column: actual_location.column,
script_id: script.id };
this.break_points_.push(break_point);
return break_point;
};
// Clear all the break points created from this script break point
ScriptBreakPoint.prototype.clear = function () {
var remaining_break_points = [];
for (var i = 0; i < break_points.length; i++) {
if (break_points[i].script_break_point() &&
break_points[i].script_break_point() === this) {
%ClearBreakPoint(break_points[i]);
} else {
remaining_break_points.push(break_points[i]);
}
}
break_points = remaining_break_points;
this.break_points_ = [];
};
// Function called from runtime when a new script is compiled to set any script
// break points set in this script.
function UpdateScriptBreakPoints(script) {
for (var i = 0; i < script_break_points.length; i++) {
var break_point = script_break_points[i];
if ((break_point.type() == Debug.ScriptBreakPointType.ScriptName ||
break_point.type() == Debug.ScriptBreakPointType.ScriptRegExp) &&
break_point.matchesScript(script)) {
break_point.set(script);
}
}
}
function GetScriptBreakPoints(script) {
var result = [];
for (var i = 0; i < script_break_points.length; i++) {
if (script_break_points[i].matchesScript(script)) {
result.push(script_break_points[i]);
}
}
return result;
}
Debug.setListener = function(listener, opt_data) {
if (!IS_FUNCTION(listener) && !IS_UNDEFINED(listener) && !IS_NULL(listener)) {
throw MakeTypeError(kDebuggerType);
}
%SetDebugEventListener(listener, opt_data);
};
Debug.breakLocations = function(f, opt_position_aligment) {
if (!IS_FUNCTION(f)) throw MakeTypeError(kDebuggerType);
var position_aligment = IS_UNDEFINED(opt_position_aligment)
? Debug.BreakPositionAlignment.Statement : opt_position_aligment;
return %GetBreakLocations(f, position_aligment);
};
// Returns a Script object. If the parameter is a function the return value
// is the script in which the function is defined. If the parameter is a string
// the return value is the script for which the script name has that string
// value. If it is a regexp and there is a unique script whose name matches
// we return that, otherwise undefined.
Debug.findScript = function(func_or_script_name) {
if (IS_FUNCTION(func_or_script_name)) {
return %FunctionGetScript(func_or_script_name);
} else if (IS_REGEXP(func_or_script_name)) {
var scripts = Debug.scripts();
var last_result = null;
var result_count = 0;
for (var i in scripts) {
var script = scripts[i];
if (func_or_script_name.test(script.name)) {
last_result = script;
result_count++;
}
}
// Return the unique script matching the regexp. If there are more
// than one we don't return a value since there is no good way to
// decide which one to return. Returning a "random" one, say the
// first, would introduce nondeterminism (or something close to it)
// because the order is the heap iteration order.
if (result_count == 1) {
return last_result;
} else {
return UNDEFINED;
}
} else {
return %GetScript(func_or_script_name);
}
};
// Returns the script source. If the parameter is a function the return value
// is the script source for the script in which the function is defined. If the
// parameter is a string the return value is the script for which the script
// name has that string value.
Debug.scriptSource = function(func_or_script_name) {
return this.findScript(func_or_script_name).source;
};
Debug.source = function(f) {
if (!IS_FUNCTION(f)) throw MakeTypeError(kDebuggerType);
return %FunctionGetSourceCode(f);
};
Debug.sourcePosition = function(f) {
if (!IS_FUNCTION(f)) throw MakeTypeError(kDebuggerType);
return %FunctionGetScriptSourcePosition(f);
};
Debug.findFunctionSourceLocation = function(func, opt_line, opt_column) {
var script = %FunctionGetScript(func);
var script_offset = %FunctionGetScriptSourcePosition(func);
return %ScriptLocationFromLine(script, opt_line, opt_column, script_offset);
};
// Returns the character position in a script based on a line number and an
// optional position within that line.
Debug.findScriptSourcePosition = function(script, opt_line, opt_column) {
var location = %ScriptLocationFromLine(script, opt_line, opt_column, 0);
return location ? location.position : null;
};
Debug.findBreakPoint = function(break_point_number, remove) {
var break_point;
for (var i = 0; i < break_points.length; i++) {
if (break_points[i].number() == break_point_number) {
break_point = break_points[i];
// Remove the break point from the list if requested.
if (remove) {
break_points.splice(i, 1);
}
break;
}
}
if (break_point) {
return break_point;
} else {
return this.findScriptBreakPoint(break_point_number, remove);
}
};
Debug.findBreakPointActualLocations = function(break_point_number) {
for (var i = 0; i < script_break_points.length; i++) {
if (script_break_points[i].number() == break_point_number) {
return script_break_points[i].actual_locations();
}
}
for (var i = 0; i < break_points.length; i++) {
if (break_points[i].number() == break_point_number) {
return [break_points[i].actual_location];
}
}
return [];
};
Debug.setBreakPoint = function(func, opt_line, opt_column, opt_condition) {
if (!IS_FUNCTION(func)) throw MakeTypeError(kDebuggerType);
// Break points in API functions are not supported.
if (%FunctionIsAPIFunction(func)) {
throw MakeError(kDebugger, 'Cannot set break point in native code.');
}
// Find source position relative to start of the function
var break_position =
this.findFunctionSourceLocation(func, opt_line, opt_column).position;
var source_position = break_position - this.sourcePosition(func);
// Find the script for the function.
var script = %FunctionGetScript(func);
// Break in builtin JavaScript code is not supported.
if (script.type == Debug.ScriptType.Native) {
throw MakeError(kDebugger, 'Cannot set break point in native code.');
}
// If the script for the function has a name convert this to a script break
// point.
if (script && script.id) {
// Adjust the source position to be script relative.
source_position += %FunctionGetScriptSourcePosition(func);
// Find line and column for the position in the script and set a script
// break point from that.
var location = script.locationFromPosition(source_position, false);
return this.setScriptBreakPointById(script.id,
location.line, location.column,
opt_condition);
} else {
// Set a break point directly on the function.
var break_point = MakeBreakPoint(source_position);
var actual_position =
%SetFunctionBreakPoint(func, source_position, break_point);
actual_position += this.sourcePosition(func);
var actual_location = script.locationFromPosition(actual_position, true);
break_point.actual_location = { line: actual_location.line,
column: actual_location.column,
script_id: script.id };
break_point.setCondition(opt_condition);
return break_point.number();
}
};
Debug.setBreakPointByScriptIdAndPosition = function(script_id, position,
condition, enabled,
opt_position_alignment)
{
var break_point = MakeBreakPoint(position);
break_point.setCondition(condition);
if (!enabled) {
break_point.disable();
}
var scripts = this.scripts();
var position_alignment = IS_UNDEFINED(opt_position_alignment)
? Debug.BreakPositionAlignment.Statement : opt_position_alignment;
for (var i = 0; i < scripts.length; i++) {
if (script_id == scripts[i].id) {
break_point.actual_position = %SetScriptBreakPoint(scripts[i], position,
position_alignment, break_point);
break;
}
}
return break_point;
};
Debug.enableBreakPoint = function(break_point_number) {
var break_point = this.findBreakPoint(break_point_number, false);
// Only enable if the breakpoint hasn't been deleted:
if (break_point) {
break_point.enable();
}
};
Debug.disableBreakPoint = function(break_point_number) {
var break_point = this.findBreakPoint(break_point_number, false);
// Only enable if the breakpoint hasn't been deleted:
if (break_point) {
break_point.disable();
}
};
Debug.changeBreakPointCondition = function(break_point_number, condition) {
var break_point = this.findBreakPoint(break_point_number, false);
break_point.setCondition(condition);
};
Debug.clearBreakPoint = function(break_point_number) {
var break_point = this.findBreakPoint(break_point_number, true);
if (break_point) {
return %ClearBreakPoint(break_point);
} else {
break_point = this.findScriptBreakPoint(break_point_number, true);
if (!break_point) throw MakeError(kDebugger, 'Invalid breakpoint');
}
};
Debug.clearAllBreakPoints = function() {
for (var i = 0; i < break_points.length; i++) {
var break_point = break_points[i];
%ClearBreakPoint(break_point);
}
break_points = [];
};
Debug.disableAllBreakPoints = function() {
// Disable all user defined breakpoints:
for (var i = 1; i < next_break_point_number; i++) {
Debug.disableBreakPoint(i);
}
// Disable all exception breakpoints:
%ChangeBreakOnException(Debug.ExceptionBreak.Caught, false);
%ChangeBreakOnException(Debug.ExceptionBreak.Uncaught, false);
};
Debug.findScriptBreakPoint = function(break_point_number, remove) {
var script_break_point;
for (var i = 0; i < script_break_points.length; i++) {
if (script_break_points[i].number() == break_point_number) {
script_break_point = script_break_points[i];
// Remove the break point from the list if requested.
if (remove) {
script_break_point.clear();
script_break_points.splice(i,1);
}
break;
}
}
return script_break_point;
};
// Sets a breakpoint in a script identified through id or name at the
// specified source line and column within that line.
Debug.setScriptBreakPoint = function(type, script_id_or_name,
opt_line, opt_column, opt_condition,
opt_groupId, opt_position_alignment) {
// Create script break point object.
var script_break_point =
new ScriptBreakPoint(type, script_id_or_name, opt_line, opt_column,
opt_groupId, opt_position_alignment);
// Assign number to the new script break point and add it.
script_break_point.number_ = next_break_point_number++;
script_break_point.setCondition(opt_condition);
script_break_points.push(script_break_point);
// Run through all scripts to see if this script break point matches any
// loaded scripts.
var scripts = this.scripts();
for (var i = 0; i < scripts.length; i++) {
if (script_break_point.matchesScript(scripts[i])) {
script_break_point.set(scripts[i]);
}
}
return script_break_point.number();
};
Debug.setScriptBreakPointById = function(script_id,
opt_line, opt_column,
opt_condition, opt_groupId,
opt_position_alignment) {
return this.setScriptBreakPoint(Debug.ScriptBreakPointType.ScriptId,
script_id, opt_line, opt_column,
opt_condition, opt_groupId,
opt_position_alignment);
};
Debug.setScriptBreakPointByName = function(script_name,
opt_line, opt_column,
opt_condition, opt_groupId) {
return this.setScriptBreakPoint(Debug.ScriptBreakPointType.ScriptName,
script_name, opt_line, opt_column,
opt_condition, opt_groupId);
};
Debug.setScriptBreakPointByRegExp = function(script_regexp,
opt_line, opt_column,
opt_condition, opt_groupId) {
return this.setScriptBreakPoint(Debug.ScriptBreakPointType.ScriptRegExp,
script_regexp, opt_line, opt_column,
opt_condition, opt_groupId);
};
Debug.enableScriptBreakPoint = function(break_point_number) {
var script_break_point = this.findScriptBreakPoint(break_point_number, false);
script_break_point.enable();
};
Debug.disableScriptBreakPoint = function(break_point_number) {
var script_break_point = this.findScriptBreakPoint(break_point_number, false);
script_break_point.disable();
};
Debug.changeScriptBreakPointCondition = function(
break_point_number, condition) {
var script_break_point = this.findScriptBreakPoint(break_point_number, false);
script_break_point.setCondition(condition);
};
Debug.scriptBreakPoints = function() {
return script_break_points;
};
Debug.clearStepping = function() {
%ClearStepping();
};
Debug.setBreakOnException = function() {
return %ChangeBreakOnException(Debug.ExceptionBreak.Caught, true);
};
Debug.clearBreakOnException = function() {
return %ChangeBreakOnException(Debug.ExceptionBreak.Caught, false);
};
Debug.isBreakOnException = function() {
return !!%IsBreakOnException(Debug.ExceptionBreak.Caught);
};
Debug.setBreakOnUncaughtException = function() {
return %ChangeBreakOnException(Debug.ExceptionBreak.Uncaught, true);
};
Debug.clearBreakOnUncaughtException = function() {
return %ChangeBreakOnException(Debug.ExceptionBreak.Uncaught, false);
};
Debug.isBreakOnUncaughtException = function() {
return !!%IsBreakOnException(Debug.ExceptionBreak.Uncaught);
};
Debug.showBreakPoints = function(f, full, opt_position_alignment) {
if (!IS_FUNCTION(f)) throw MakeError(kDebuggerType);
var source = full ? this.scriptSource(f) : this.source(f);
var offset = full ? this.sourcePosition(f) : 0;
var locations = this.breakLocations(f, opt_position_alignment);
if (!locations) return source;
locations.sort(function(x, y) { return x - y; });
var result = "";
var prev_pos = 0;
var pos;
for (var i = 0; i < locations.length; i++) {
pos = locations[i] - offset;
result += source.slice(prev_pos, pos);
result += "[B" + i + "]";
prev_pos = pos;
}
pos = source.length;
result += source.substring(prev_pos, pos);
return result;
};
// Get all the scripts currently loaded. Locating all the scripts is based on
// scanning the heap.
Debug.scripts = function() {
// Collect all scripts in the heap.
return %DebugGetLoadedScripts();
};
Debug.debuggerFlags = function() {
return debugger_flags;
};
Debug.MakeMirror = MakeMirror;
function MakeExecutionState(break_id) {
return new ExecutionState(break_id);
}
function ExecutionState(break_id) {
this.break_id = break_id;
this.selected_frame = 0;
}
ExecutionState.prototype.prepareStep = function(action) {
if (action === Debug.StepAction.StepIn ||
action === Debug.StepAction.StepOut ||
action === Debug.StepAction.StepNext ||
action === Debug.StepAction.StepFrame) {
return %PrepareStep(this.break_id, action);
}
throw MakeTypeError(kDebuggerType);
};
ExecutionState.prototype.evaluateGlobal = function(source, disable_break,
opt_additional_context) {
return MakeMirror(%DebugEvaluateGlobal(this.break_id, source,
TO_BOOLEAN(disable_break),
opt_additional_context));
};
ExecutionState.prototype.frameCount = function() {
return %GetFrameCount(this.break_id);
};
ExecutionState.prototype.frame = function(opt_index) {
// If no index supplied return the selected frame.
if (opt_index == null) opt_index = this.selected_frame;
if (opt_index < 0 || opt_index >= this.frameCount()) {
throw MakeTypeError(kDebuggerFrame);
}
return new FrameMirror(this.break_id, opt_index);
};
ExecutionState.prototype.setSelectedFrame = function(index) {
var i = TO_NUMBER(index);
if (i < 0 || i >= this.frameCount()) {
throw MakeTypeError(kDebuggerFrame);
}
this.selected_frame = i;
};
ExecutionState.prototype.selectedFrame = function() {
return this.selected_frame;
};
ExecutionState.prototype.debugCommandProcessor = function(opt_is_running) {
return new DebugCommandProcessor(this, opt_is_running);
};
function MakeBreakEvent(break_id, break_points_hit) {
return new BreakEvent(break_id, break_points_hit);
}
function BreakEvent(break_id, break_points_hit) {
this.frame_ = new FrameMirror(break_id, 0);
this.break_points_hit_ = break_points_hit;
}
BreakEvent.prototype.eventType = function() {
return Debug.DebugEvent.Break;
};
BreakEvent.prototype.func = function() {
return this.frame_.func();
};
BreakEvent.prototype.sourceLine = function() {
return this.frame_.sourceLine();
};
BreakEvent.prototype.sourceColumn = function() {
return this.frame_.sourceColumn();
};
BreakEvent.prototype.sourceLineText = function() {
return this.frame_.sourceLineText();
};
BreakEvent.prototype.breakPointsHit = function() {
return this.break_points_hit_;
};
BreakEvent.prototype.toJSONProtocol = function() {
var o = { seq: next_response_seq++,
type: "event",
event: "break",
body: { invocationText: this.frame_.invocationText() }
};
// Add script related information to the event if available.
var script = this.func().script();
if (script) {
o.body.sourceLine = this.sourceLine(),
o.body.sourceColumn = this.sourceColumn(),
o.body.sourceLineText = this.sourceLineText(),
o.body.script = MakeScriptObject_(script, false);
}
// Add an Array of break points hit if any.
if (this.breakPointsHit()) {
o.body.breakpoints = [];
for (var i = 0; i < this.breakPointsHit().length; i++) {
// Find the break point number. For break points originating from a
// script break point supply the script break point number.
var breakpoint = this.breakPointsHit()[i];
var script_break_point = breakpoint.script_break_point();
var number;
if (script_break_point) {
number = script_break_point.number();
} else {
number = breakpoint.number();
}
o.body.breakpoints.push(number);
}
}
return JSONStringify(ObjectToProtocolObject_(o));
};
function MakeExceptionEvent(break_id, exception, uncaught, promise) {
return new ExceptionEvent(break_id, exception, uncaught, promise);
}
function ExceptionEvent(break_id, exception, uncaught, promise) {
this.exec_state_ = new ExecutionState(break_id);
this.exception_ = exception;
this.uncaught_ = uncaught;
this.promise_ = promise;
}
ExceptionEvent.prototype.eventType = function() {
return Debug.DebugEvent.Exception;
};
ExceptionEvent.prototype.exception = function() {
return this.exception_;
};
ExceptionEvent.prototype.uncaught = function() {
return this.uncaught_;
};
ExceptionEvent.prototype.promise = function() {
return this.promise_;
};
ExceptionEvent.prototype.func = function() {
return this.exec_state_.frame(0).func();
};
ExceptionEvent.prototype.sourceLine = function() {
return this.exec_state_.frame(0).sourceLine();
};
ExceptionEvent.prototype.sourceColumn = function() {
return this.exec_state_.frame(0).sourceColumn();
};
ExceptionEvent.prototype.sourceLineText = function() {
return this.exec_state_.frame(0).sourceLineText();
};
ExceptionEvent.prototype.toJSONProtocol = function() {
var o = new ProtocolMessage();
o.event = "exception";
o.body = { uncaught: this.uncaught_,
exception: MakeMirror(this.exception_)
};
// Exceptions might happen whithout any JavaScript frames.
if (this.exec_state_.frameCount() > 0) {
o.body.sourceLine = this.sourceLine();
o.body.sourceColumn = this.sourceColumn();
o.body.sourceLineText = this.sourceLineText();
// Add script information to the event if available.
var script = this.func().script();
if (script) {
o.body.script = MakeScriptObject_(script, false);
}
} else {
o.body.sourceLine = -1;
}
return o.toJSONProtocol();
};
function MakeCompileEvent(script, type) {
return new CompileEvent(script, type);
}
function CompileEvent(script, type) {
this.script_ = MakeMirror(script);
this.type_ = type;
}
CompileEvent.prototype.eventType = function() {
return this.type_;
};
CompileEvent.prototype.script = function() {
return this.script_;
};
CompileEvent.prototype.toJSONProtocol = function() {
var o = new ProtocolMessage();
o.running = true;
switch (this.type_) {
case Debug.DebugEvent.BeforeCompile:
o.event = "beforeCompile";
break;
case Debug.DebugEvent.AfterCompile:
o.event = "afterCompile";
break;
case Debug.DebugEvent.CompileError:
o.event = "compileError";
break;
}
o.body = {};
o.body.script = this.script_;
return o.toJSONProtocol();
};
function MakeScriptObject_(script, include_source) {
var o = { id: script.id(),
name: script.name(),
lineOffset: script.lineOffset(),
columnOffset: script.columnOffset(),
lineCount: script.lineCount(),
};
if (!IS_UNDEFINED(script.data())) {
o.data = script.data();
}
if (include_source) {
o.source = script.source();
}
return o;
}
function MakeAsyncTaskEvent(event_data) {
return new AsyncTaskEvent(event_data);
}
function AsyncTaskEvent(event_data) {
this.type_ = event_data.type;
this.name_ = event_data.name;
this.id_ = event_data.id;
}
AsyncTaskEvent.prototype.type = function() {
return this.type_;
}
AsyncTaskEvent.prototype.name = function() {
return this.name_;
}
AsyncTaskEvent.prototype.id = function() {
return this.id_;
}
function DebugCommandProcessor(exec_state, opt_is_running) {
this.exec_state_ = exec_state;
this.running_ = opt_is_running || false;
}
DebugCommandProcessor.prototype.processDebugRequest = function (request) {
return this.processDebugJSONRequest(request);
};
function ProtocolMessage(request) {
// Update sequence number.
this.seq = next_response_seq++;
if (request) {
// If message is based on a request this is a response. Fill the initial
// response from the request.
this.type = 'response';
this.request_seq = request.seq;
this.command = request.command;
} else {
// If message is not based on a request it is a dabugger generated event.
this.type = 'event';
}
this.success = true;
// Handler may set this field to control debugger state.
this.running = UNDEFINED;
}
ProtocolMessage.prototype.setOption = function(name, value) {
if (!this.options_) {
this.options_ = {};
}
this.options_[name] = value;
};
ProtocolMessage.prototype.failed = function(message, opt_details) {
this.success = false;
this.message = message;
if (IS_OBJECT(opt_details)) {
this.error_details = opt_details;
}
};
ProtocolMessage.prototype.toJSONProtocol = function() {
// Encode the protocol header.
var json = {};
json.seq= this.seq;
if (this.request_seq) {
json.request_seq = this.request_seq;
}
json.type = this.type;
if (this.event) {
json.event = this.event;
}
if (this.command) {
json.command = this.command;
}
if (this.success) {
json.success = this.success;
} else {
json.success = false;
}
if (this.body) {
// Encode the body part.
var bodyJson;
var serializer = MakeMirrorSerializer(true, this.options_);
if (this.body instanceof Mirror) {
bodyJson = serializer.serializeValue(this.body);
} else if (this.body instanceof GlobalArray) {
bodyJson = [];
for (var i = 0; i < this.body.length; i++) {
if (this.body[i] instanceof Mirror) {
bodyJson.push(serializer.serializeValue(this.body[i]));
} else {
bodyJson.push(ObjectToProtocolObject_(this.body[i], serializer));
}
}
} else {
bodyJson = ObjectToProtocolObject_(this.body, serializer);
}
json.body = bodyJson;
json.refs = serializer.serializeReferencedObjects();
}
if (this.message) {
json.message = this.message;
}
if (this.error_details) {
json.error_details = this.error_details;
}
json.running = this.running;
return JSONStringify(json);
};
DebugCommandProcessor.prototype.createResponse = function(request) {
return new ProtocolMessage(request);
};
DebugCommandProcessor.prototype.processDebugJSONRequest = function(
json_request) {
var request; // Current request.
var response; // Generated response.
try {
try {
// Convert the JSON string to an object.
request = JSONParse(json_request);
// Create an initial response.
response = this.createResponse(request);
if (!request.type) {
throw MakeError(kDebugger, 'Type not specified');
}
if (request.type != 'request') {
throw MakeError(kDebugger,
"Illegal type '" + request.type + "' in request");
}
if (!request.command) {
throw MakeError(kDebugger, 'Command not specified');
}
if (request.arguments) {
var args = request.arguments;
// TODO(yurys): remove request.arguments.compactFormat check once
// ChromeDevTools are switched to 'inlineRefs'
if (args.inlineRefs || args.compactFormat) {
response.setOption('inlineRefs', true);
}
if (!IS_UNDEFINED(args.maxStringLength)) {
response.setOption('maxStringLength', args.maxStringLength);
}
}
var key = request.command.toLowerCase();
var handler = DebugCommandProcessor.prototype.dispatch_[key];
if (IS_FUNCTION(handler)) {
%_Call(handler, this, request, response);
} else {
throw MakeError(kDebugger,
'Unknown command "' + request.command + '" in request');
}
} catch (e) {
// If there is no response object created one (without command).
if (!response) {
response = this.createResponse();
}
response.success = false;
response.message = TO_STRING(e);
}
// Return the response as a JSON encoded string.
try {
if (!IS_UNDEFINED(response.running)) {
// Response controls running state.
this.running_ = response.running;
}
response.running = this.running_;
return response.toJSONProtocol();
} catch (e) {
// Failed to generate response - return generic error.
return '{"seq":' + response.seq + ',' +
'"request_seq":' + request.seq + ',' +
'"type":"response",' +
'"success":false,' +
'"message":"Internal error: ' + TO_STRING(e) + '"}';
}
} catch (e) {
// Failed in one of the catch blocks above - most generic error.
return '{"seq":0,"type":"response","success":false,"message":"Internal error"}';
}
};
DebugCommandProcessor.prototype.continueRequest_ = function(request, response) {
// Check for arguments for continue.
if (request.arguments) {
var action = Debug.StepAction.StepIn;
// Pull out arguments.
var stepaction = request.arguments.stepaction;
// Get the stepaction argument.
if (stepaction) {
if (stepaction == 'in') {
action = Debug.StepAction.StepIn;
} else if (stepaction == 'next') {
action = Debug.StepAction.StepNext;
} else if (stepaction == 'out') {
action = Debug.StepAction.StepOut;
} else {
throw MakeError(kDebugger,
'Invalid stepaction argument "' + stepaction + '".');
}
}
// Set up the VM for stepping.
this.exec_state_.prepareStep(action);
}
// VM should be running after executing this request.
response.running = true;
};
DebugCommandProcessor.prototype.breakRequest_ = function(request, response) {
// Ignore as break command does not do anything when broken.
};
DebugCommandProcessor.prototype.setBreakPointRequest_ =
function(request, response) {
// Check for legal request.
if (!request.arguments) {
response.failed('Missing arguments');
return;
}
// Pull out arguments.
var type = request.arguments.type;
var target = request.arguments.target;
var line = request.arguments.line;
var column = request.arguments.column;
var enabled = IS_UNDEFINED(request.arguments.enabled) ?
true : request.arguments.enabled;
var condition = request.arguments.condition;
var groupId = request.arguments.groupId;
// Check for legal arguments.
if (!type || IS_UNDEFINED(target)) {
response.failed('Missing argument "type" or "target"');
return;
}
// Either function or script break point.
var break_point_number;
if (type == 'function') {
// Handle function break point.
if (!IS_STRING(target)) {
response.failed('Argument "target" is not a string value');
return;
}
var f;
try {
// Find the function through a global evaluate.
f = this.exec_state_.evaluateGlobal(target).value();
} catch (e) {
response.failed('Error: "' + TO_STRING(e) +
'" evaluating "' + target + '"');
return;
}
if (!IS_FUNCTION(f)) {
response.failed('"' + target + '" does not evaluate to a function');
return;
}
// Set function break point.
break_point_number = Debug.setBreakPoint(f, line, column, condition);
} else if (type == 'handle') {
// Find the object pointed by the specified handle.
var handle = ParseInt(target, 10);
var mirror = LookupMirror(handle);
if (!mirror) {
return response.failed('Object #' + handle + '# not found');
}
if (!mirror.isFunction()) {
return response.failed('Object #' + handle + '# is not a function');
}
// Set function break point.
break_point_number = Debug.setBreakPoint(mirror.value(),
line, column, condition);
} else if (type == 'script') {
// set script break point.
break_point_number =
Debug.setScriptBreakPointByName(target, line, column, condition,
groupId);
} else if (type == 'scriptId') {
break_point_number =
Debug.setScriptBreakPointById(target, line, column, condition, groupId);
} else if (type == 'scriptRegExp') {
break_point_number =
Debug.setScriptBreakPointByRegExp(target, line, column, condition,
groupId);
} else {
response.failed('Illegal type "' + type + '"');
return;
}
// Set additional break point properties.
var break_point = Debug.findBreakPoint(break_point_number);
if (!enabled) {
Debug.disableBreakPoint(break_point_number);
}
// Add the break point number to the response.
response.body = { type: type,
breakpoint: break_point_number };
// Add break point information to the response.
if (break_point instanceof ScriptBreakPoint) {
if (break_point.type() == Debug.ScriptBreakPointType.ScriptId) {
response.body.type = 'scriptId';
response.body.script_id = break_point.script_id();
} else if (break_point.type() == Debug.ScriptBreakPointType.ScriptName) {
response.body.type = 'scriptName';
response.body.script_name = break_point.script_name();
} else if (break_point.type() == Debug.ScriptBreakPointType.ScriptRegExp) {
response.body.type = 'scriptRegExp';
response.body.script_regexp = break_point.script_regexp_object().source;
} else {
throw MakeError(kDebugger,
"Unexpected breakpoint type: " + break_point.type());
}
response.body.line = break_point.line();
response.body.column = break_point.column();
response.body.actual_locations = break_point.actual_locations();
} else {
response.body.type = 'function';
response.body.actual_locations = [break_point.actual_location];
}
};
DebugCommandProcessor.prototype.changeBreakPointRequest_ = function(
request, response) {
// Check for legal request.
if (!request.arguments) {
response.failed('Missing arguments');
return;
}
// Pull out arguments.
var break_point = TO_NUMBER(request.arguments.breakpoint);
var enabled = request.arguments.enabled;
var condition = request.arguments.condition;
// Check for legal arguments.
if (!break_point) {
response.failed('Missing argument "breakpoint"');
return;
}
// Change enabled state if supplied.
if (!IS_UNDEFINED(enabled)) {
if (enabled) {
Debug.enableBreakPoint(break_point);
} else {
Debug.disableBreakPoint(break_point);
}
}
// Change condition if supplied
if (!IS_UNDEFINED(condition)) {
Debug.changeBreakPointCondition(break_point, condition);
}
};
DebugCommandProcessor.prototype.clearBreakPointGroupRequest_ = function(
request, response) {
// Check for legal request.
if (!request.arguments) {
response.failed('Missing arguments');
return;
}
// Pull out arguments.
var group_id = request.arguments.groupId;
// Check for legal arguments.
if (!group_id) {
response.failed('Missing argument "groupId"');
return;
}
var cleared_break_points = [];
var new_script_break_points = [];
for (var i = 0; i < script_break_points.length; i++) {
var next_break_point = script_break_points[i];
if (next_break_point.groupId() == group_id) {
cleared_break_points.push(next_break_point.number());
next_break_point.clear();
} else {
new_script_break_points.push(next_break_point);
}
}
script_break_points = new_script_break_points;
// Add the cleared break point numbers to the response.
response.body = { breakpoints: cleared_break_points };
};
DebugCommandProcessor.prototype.clearBreakPointRequest_ = function(
request, response) {
// Check for legal request.
if (!request.arguments) {
response.failed('Missing arguments');
return;
}
// Pull out arguments.
var break_point = TO_NUMBER(request.arguments.breakpoint);
// Check for legal arguments.
if (!break_point) {
response.failed('Missing argument "breakpoint"');
return;
}
// Clear break point.
Debug.clearBreakPoint(break_point);
// Add the cleared break point number to the response.
response.body = { breakpoint: break_point };
};
DebugCommandProcessor.prototype.listBreakpointsRequest_ = function(
request, response) {
var array = [];
for (var i = 0; i < script_break_points.length; i++) {
var break_point = script_break_points[i];
var description = {
number: break_point.number(),
line: break_point.line(),
column: break_point.column(),
groupId: break_point.groupId(),
active: break_point.active(),
condition: break_point.condition(),
actual_locations: break_point.actual_locations()
};
if (break_point.type() == Debug.ScriptBreakPointType.ScriptId) {
description.type = 'scriptId';
description.script_id = break_point.script_id();
} else if (break_point.type() == Debug.ScriptBreakPointType.ScriptName) {
description.type = 'scriptName';
description.script_name = break_point.script_name();
} else if (break_point.type() == Debug.ScriptBreakPointType.ScriptRegExp) {
description.type = 'scriptRegExp';
description.script_regexp = break_point.script_regexp_object().source;
} else {
throw MakeError(kDebugger,
"Unexpected breakpoint type: " + break_point.type());
}
array.push(description);
}
response.body = {
breakpoints: array,
breakOnExceptions: Debug.isBreakOnException(),
breakOnUncaughtExceptions: Debug.isBreakOnUncaughtException()
};
};
DebugCommandProcessor.prototype.disconnectRequest_ =
function(request, response) {
Debug.disableAllBreakPoints();
this.continueRequest_(request, response);
};
DebugCommandProcessor.prototype.setExceptionBreakRequest_ =
function(request, response) {
// Check for legal request.
if (!request.arguments) {
response.failed('Missing arguments');
return;
}
// Pull out and check the 'type' argument:
var type = request.arguments.type;
if (!type) {
response.failed('Missing argument "type"');
return;
}
// Initialize the default value of enable:
var enabled;
if (type == 'all') {
enabled = !Debug.isBreakOnException();
} else if (type == 'uncaught') {
enabled = !Debug.isBreakOnUncaughtException();
}
// Pull out and check the 'enabled' argument if present:
if (!IS_UNDEFINED(request.arguments.enabled)) {
enabled = request.arguments.enabled;
if ((enabled != true) && (enabled != false)) {
response.failed('Illegal value for "enabled":"' + enabled + '"');
}
}
// Now set the exception break state:
if (type == 'all') {
%ChangeBreakOnException(Debug.ExceptionBreak.Caught, enabled);
} else if (type == 'uncaught') {
%ChangeBreakOnException(Debug.ExceptionBreak.Uncaught, enabled);
} else {
response.failed('Unknown "type":"' + type + '"');
}
// Add the cleared break point number to the response.
response.body = { 'type': type, 'enabled': enabled };
};
DebugCommandProcessor.prototype.backtraceRequest_ = function(
request, response) {
// Get the number of frames.
var total_frames = this.exec_state_.frameCount();
// Create simple response if there are no frames.
if (total_frames == 0) {
response.body = {
totalFrames: total_frames
};
return;
}
// Default frame range to include in backtrace.
var from_index = 0;
var to_index = kDefaultBacktraceLength;
// Get the range from the arguments.
if (request.arguments) {
if (request.arguments.fromFrame) {
from_index = request.arguments.fromFrame;
}
if (request.arguments.toFrame) {
to_index = request.arguments.toFrame;
}
if (request.arguments.bottom) {
var tmp_index = total_frames - from_index;
from_index = total_frames - to_index;
to_index = tmp_index;
}
if (from_index < 0 || to_index < 0) {
return response.failed('Invalid frame number');
}
}
// Adjust the index.
to_index = MathMin(total_frames, to_index);
if (to_index <= from_index) {
var error = 'Invalid frame range';
return response.failed(error);
}
// Create the response body.
var frames = [];
for (var i = from_index; i < to_index; i++) {
frames.push(this.exec_state_.frame(i));
}
response.body = {
fromFrame: from_index,
toFrame: to_index,
totalFrames: total_frames,
frames: frames
};
};
DebugCommandProcessor.prototype.frameRequest_ = function(request, response) {
// No frames no source.
if (this.exec_state_.frameCount() == 0) {
return response.failed('No frames');
}
// With no arguments just keep the selected frame.
if (request.arguments) {
var index = request.arguments.number;
if (index < 0 || this.exec_state_.frameCount() <= index) {
return response.failed('Invalid frame number');
}
this.exec_state_.setSelectedFrame(request.arguments.number);
}
response.body = this.exec_state_.frame();
};
DebugCommandProcessor.prototype.resolveFrameFromScopeDescription_ =
function(scope_description) {
// Get the frame for which the scope or scopes are requested.
// With no frameNumber argument use the currently selected frame.
if (scope_description && !IS_UNDEFINED(scope_description.frameNumber)) {
var frame_index = scope_description.frameNumber;
if (frame_index < 0 || this.exec_state_.frameCount() <= frame_index) {
throw MakeTypeError(kDebuggerFrame);
}
return this.exec_state_.frame(frame_index);
} else {
return this.exec_state_.frame();
}
};
// Gets scope host object from request. It is either a function
// ('functionHandle' argument must be specified) or a stack frame
// ('frameNumber' may be specified and the current frame is taken by default).
DebugCommandProcessor.prototype.resolveScopeHolder_ =
function(scope_description) {
if (scope_description && "functionHandle" in scope_description) {
if (!IS_NUMBER(scope_description.functionHandle)) {
throw MakeError(kDebugger, 'Function handle must be a number');
}
var function_mirror = LookupMirror(scope_description.functionHandle);
if (!function_mirror) {
throw MakeError(kDebugger, 'Failed to find function object by handle');
}
if (!function_mirror.isFunction()) {
throw MakeError(kDebugger,
'Value of non-function type is found by handle');
}
return function_mirror;
} else {
// No frames no scopes.
if (this.exec_state_.frameCount() == 0) {
throw MakeError(kDebugger, 'No scopes');
}
// Get the frame for which the scopes are requested.
var frame = this.resolveFrameFromScopeDescription_(scope_description);
return frame;
}
}
DebugCommandProcessor.prototype.scopesRequest_ = function(request, response) {
var scope_holder = this.resolveScopeHolder_(request.arguments);
// Fill all scopes for this frame or function.
var total_scopes = scope_holder.scopeCount();
var scopes = [];
for (var i = 0; i < total_scopes; i++) {
scopes.push(scope_holder.scope(i));
}
response.body = {
fromScope: 0,
toScope: total_scopes,
totalScopes: total_scopes,
scopes: scopes
};
};
DebugCommandProcessor.prototype.scopeRequest_ = function(request, response) {
// Get the frame or function for which the scope is requested.
var scope_holder = this.resolveScopeHolder_(request.arguments);
// With no scope argument just return top scope.
var scope_index = 0;
if (request.arguments && !IS_UNDEFINED(request.arguments.number)) {
scope_index = TO_NUMBER(request.arguments.number);
if (scope_index < 0 || scope_holder.scopeCount() <= scope_index) {
return response.failed('Invalid scope number');
}
}
response.body = scope_holder.scope(scope_index);
};
// Reads value from protocol description. Description may be in form of type
// (for singletons), raw value (primitive types supported in JSON),
// string value description plus type (for primitive values) or handle id.
// Returns raw value or throws exception.
DebugCommandProcessor.resolveValue_ = function(value_description) {
if ("handle" in value_description) {
var value_mirror = LookupMirror(value_description.handle);
if (!value_mirror) {
throw MakeError(kDebugger, "Failed to resolve value by handle, ' #" +
value_description.handle + "# not found");
}
return value_mirror.value();
} else if ("stringDescription" in value_description) {
if (value_description.type == MirrorType.BOOLEAN_TYPE) {
return TO_BOOLEAN(value_description.stringDescription);
} else if (value_description.type == MirrorType.NUMBER_TYPE) {
return TO_NUMBER(value_description.stringDescription);
} if (value_description.type == MirrorType.STRING_TYPE) {
return TO_STRING(value_description.stringDescription);
} else {
throw MakeError(kDebugger, "Unknown type");
}
} else if ("value" in value_description) {
return value_description.value;
} else if (value_description.type == MirrorType.UNDEFINED_TYPE) {
return UNDEFINED;
} else if (value_description.type == MirrorType.NULL_TYPE) {
return null;
} else {
throw MakeError(kDebugger, "Failed to parse value description");
}
};
DebugCommandProcessor.prototype.setVariableValueRequest_ =
function(request, response) {
if (!request.arguments) {
response.failed('Missing arguments');
return;
}
if (IS_UNDEFINED(request.arguments.name)) {
response.failed('Missing variable name');
}
var variable_name = request.arguments.name;
var scope_description = request.arguments.scope;
// Get the frame or function for which the scope is requested.
var scope_holder = this.resolveScopeHolder_(scope_description);
if (IS_UNDEFINED(scope_description.number)) {
response.failed('Missing scope number');
}
var scope_index = TO_NUMBER(scope_description.number);
var scope = scope_holder.scope(scope_index);
var new_value =
DebugCommandProcessor.resolveValue_(request.arguments.newValue);
scope.setVariableValue(variable_name, new_value);
var new_value_mirror = MakeMirror(new_value);
response.body = {
newValue: new_value_mirror
};
};
DebugCommandProcessor.prototype.evaluateRequest_ = function(request, response) {
if (!request.arguments) {
return response.failed('Missing arguments');
}
// Pull out arguments.
var expression = request.arguments.expression;
var frame = request.arguments.frame;
var global = request.arguments.global;
var disable_break = request.arguments.disable_break;
var additional_context = request.arguments.additional_context;
// The expression argument could be an integer so we convert it to a
// string.
try {
expression = TO_STRING(expression);
} catch(e) {
return response.failed('Failed to convert expression argument to string');
}
// Check for legal arguments.
if (!IS_UNDEFINED(frame) && global) {
return response.failed('Arguments "frame" and "global" are exclusive');
}
var additional_context_object;
if (additional_context) {
additional_context_object = {};
for (var i = 0; i < additional_context.length; i++) {
var mapping = additional_context[i];
if (!IS_STRING(mapping.name)) {
return response.failed("Context element #" + i +
" doesn't contain name:string property");
}
var raw_value = DebugCommandProcessor.resolveValue_(mapping);
additional_context_object[mapping.name] = raw_value;
}
}
// Global evaluate.
if (global) {
// Evaluate in the native context.
response.body = this.exec_state_.evaluateGlobal(
expression, TO_BOOLEAN(disable_break), additional_context_object);
return;
}
// Default value for disable_break is true.
if (IS_UNDEFINED(disable_break)) {
disable_break = true;
}
// No frames no evaluate in frame.
if (this.exec_state_.frameCount() == 0) {
return response.failed('No frames');
}
// Check whether a frame was specified.
if (!IS_UNDEFINED(frame)) {
var frame_number = TO_NUMBER(frame);
if (frame_number < 0 || frame_number >= this.exec_state_.frameCount()) {
return response.failed('Invalid frame "' + frame + '"');
}
// Evaluate in the specified frame.
response.body = this.exec_state_.frame(frame_number).evaluate(
expression, TO_BOOLEAN(disable_break), additional_context_object);
return;
} else {
// Evaluate in the selected frame.
response.body = this.exec_state_.frame().evaluate(
expression, TO_BOOLEAN(disable_break), additional_context_object);
return;
}
};
DebugCommandProcessor.prototype.lookupRequest_ = function(request, response) {
if (!request.arguments) {
return response.failed('Missing arguments');
}
// Pull out arguments.
var handles = request.arguments.handles;
// Check for legal arguments.
if (IS_UNDEFINED(handles)) {
return response.failed('Argument "handles" missing');
}
// Set 'includeSource' option for script lookup.
if (!IS_UNDEFINED(request.arguments.includeSource)) {
var includeSource = TO_BOOLEAN(request.arguments.includeSource);
response.setOption('includeSource', includeSource);
}
// Lookup handles.
var mirrors = {};
for (var i = 0; i < handles.length; i++) {
var handle = handles[i];
var mirror = LookupMirror(handle);
if (!mirror) {
return response.failed('Object #' + handle + '# not found');
}
mirrors[handle] = mirror;
}
response.body = mirrors;
};
DebugCommandProcessor.prototype.referencesRequest_ =
function(request, response) {
if (!request.arguments) {
return response.failed('Missing arguments');
}
// Pull out arguments.
var type = request.arguments.type;
var handle = request.arguments.handle;
// Check for legal arguments.
if (IS_UNDEFINED(type)) {
return response.failed('Argument "type" missing');
}
if (IS_UNDEFINED(handle)) {
return response.failed('Argument "handle" missing');
}
if (type != 'referencedBy' && type != 'constructedBy') {
return response.failed('Invalid type "' + type + '"');
}
// Lookup handle and return objects with references the object.
var mirror = LookupMirror(handle);
if (mirror) {
if (type == 'referencedBy') {
response.body = mirror.referencedBy();
} else {
response.body = mirror.constructedBy();
}
} else {
return response.failed('Object #' + handle + '# not found');
}
};
DebugCommandProcessor.prototype.sourceRequest_ = function(request, response) {
// No frames no source.
if (this.exec_state_.frameCount() == 0) {
return response.failed('No source');
}
var from_line;
var to_line;
var frame = this.exec_state_.frame();
if (request.arguments) {
// Pull out arguments.
from_line = request.arguments.fromLine;
to_line = request.arguments.toLine;
if (!IS_UNDEFINED(request.arguments.frame)) {
var frame_number = TO_NUMBER(request.arguments.frame);
if (frame_number < 0 || frame_number >= this.exec_state_.frameCount()) {
return response.failed('Invalid frame "' + frame + '"');
}
frame = this.exec_state_.frame(frame_number);
}
}
// Get the script selected.
var script = frame.func().script();
if (!script) {
return response.failed('No source');
}
var raw_script = script.value();
// Sanitize arguments and remove line offset.
var line_offset = raw_script.line_offset;
var line_count = %ScriptLineCount(raw_script);
from_line = IS_UNDEFINED(from_line) ? 0 : from_line - line_offset;
to_line = IS_UNDEFINED(to_line) ? line_count : to_line - line_offset;
if (from_line < 0) from_line = 0;
if (to_line > line_count) to_line = line_count;
if (from_line >= line_count || to_line < 0 || from_line > to_line) {
return response.failed('Invalid line interval');
}
// Fill in the response.
response.body = {};
response.body.fromLine = from_line + line_offset;
response.body.toLine = to_line + line_offset;
response.body.fromPosition = %ScriptLineStartPosition(raw_script, from_line);
response.body.toPosition =
(to_line == 0) ? 0 : %ScriptLineEndPosition(raw_script, to_line - 1);
response.body.totalLines = %ScriptLineCount(raw_script);
response.body.source = %_SubString(raw_script.source,
response.body.fromPosition,
response.body.toPosition);
};
DebugCommandProcessor.prototype.scriptsRequest_ = function(request, response) {
var types = ScriptTypeFlag(Debug.ScriptType.Normal);
var includeSource = false;
var idsToInclude = null;
if (request.arguments) {
// Pull out arguments.
if (!IS_UNDEFINED(request.arguments.types)) {
types = TO_NUMBER(request.arguments.types);
if (IsNaN(types) || types < 0) {
return response.failed('Invalid types "' +
request.arguments.types + '"');
}
}
if (!IS_UNDEFINED(request.arguments.includeSource)) {
includeSource = TO_BOOLEAN(request.arguments.includeSource);
response.setOption('includeSource', includeSource);
}
if (IS_ARRAY(request.arguments.ids)) {
idsToInclude = {};
var ids = request.arguments.ids;
for (var i = 0; i < ids.length; i++) {
idsToInclude[ids[i]] = true;
}
}
var filterStr = null;
var filterNum = null;
if (!IS_UNDEFINED(request.arguments.filter)) {
var num = TO_NUMBER(request.arguments.filter);
if (!IsNaN(num)) {
filterNum = num;
}
filterStr = request.arguments.filter;
}
}
// Collect all scripts in the heap.
var scripts = %DebugGetLoadedScripts();
response.body = [];
for (var i = 0; i < scripts.length; i++) {
if (idsToInclude && !idsToInclude[scripts[i].id]) {
continue;
}
if (filterStr || filterNum) {
var script = scripts[i];
var found = false;
if (filterNum && !found) {
if (script.id && script.id === filterNum) {
found = true;
}
}
if (filterStr && !found) {
if (script.name && script.name.indexOf(filterStr) >= 0) {
found = true;
}
}
if (!found) continue;
}
if (types & ScriptTypeFlag(scripts[i].type)) {
response.body.push(MakeMirror(scripts[i]));
}
}
};
DebugCommandProcessor.prototype.suspendRequest_ = function(request, response) {
response.running = false;
};
DebugCommandProcessor.prototype.versionRequest_ = function(request, response) {
response.body = {
V8Version: %GetV8Version()
};
};
DebugCommandProcessor.prototype.changeLiveRequest_ = function(
request, response) {
if (!request.arguments) {
return response.failed('Missing arguments');
}
var script_id = request.arguments.script_id;
var preview_only = !!request.arguments.preview_only;
var scripts = %DebugGetLoadedScripts();
var the_script = null;
for (var i = 0; i < scripts.length; i++) {
if (scripts[i].id == script_id) {
the_script = scripts[i];
}
}
if (!the_script) {
response.failed('Script not found');
return;
}
var change_log = new GlobalArray();
if (!IS_STRING(request.arguments.new_source)) {
throw "new_source argument expected";
}
var new_source = request.arguments.new_source;
var result_description;
try {
result_description = Debug.LiveEdit.SetScriptSource(the_script,
new_source, preview_only, change_log);
} catch (e) {
if (e instanceof Debug.LiveEdit.Failure && "details" in e) {
response.failed(e.message, e.details);
return;
}
throw e;
}
response.body = {change_log: change_log, result: result_description};
if (!preview_only && !this.running_ && result_description.stack_modified) {
response.body.stepin_recommended = true;
}
};
DebugCommandProcessor.prototype.restartFrameRequest_ = function(
request, response) {
if (!request.arguments) {
return response.failed('Missing arguments');
}
var frame = request.arguments.frame;
// No frames to evaluate in frame.
if (this.exec_state_.frameCount() == 0) {
return response.failed('No frames');
}
var frame_mirror;
// Check whether a frame was specified.
if (!IS_UNDEFINED(frame)) {
var frame_number = TO_NUMBER(frame);
if (frame_number < 0 || frame_number >= this.exec_state_.frameCount()) {
return response.failed('Invalid frame "' + frame + '"');
}
// Restart specified frame.
frame_mirror = this.exec_state_.frame(frame_number);
} else {
// Restart selected frame.
frame_mirror = this.exec_state_.frame();
}
var result_description = frame_mirror.restart();
response.body = {result: result_description};
};
DebugCommandProcessor.prototype.debuggerFlagsRequest_ = function(request,
response) {
// Check for legal request.
if (!request.arguments) {
response.failed('Missing arguments');
return;
}
// Pull out arguments.
var flags = request.arguments.flags;
response.body = { flags: [] };
if (!IS_UNDEFINED(flags)) {
for (var i = 0; i < flags.length; i++) {
var name = flags[i].name;
var debugger_flag = debugger_flags[name];
if (!debugger_flag) {
continue;
}
if ('value' in flags[i]) {
debugger_flag.setValue(flags[i].value);
}
response.body.flags.push({ name: name, value: debugger_flag.getValue() });
}
} else {
for (var name in debugger_flags) {
var value = debugger_flags[name].getValue();
response.body.flags.push({ name: name, value: value });
}
}
};
DebugCommandProcessor.prototype.v8FlagsRequest_ = function(request, response) {
var flags = request.arguments.flags;
if (!flags) flags = '';
%SetFlags(flags);
};
DebugCommandProcessor.prototype.gcRequest_ = function(request, response) {
var type = request.arguments.type;
if (!type) type = 'all';
var before = %GetHeapUsage();
%CollectGarbage(type);
var after = %GetHeapUsage();
response.body = { "before": before, "after": after };
};
DebugCommandProcessor.prototype.dispatch_ = (function() {
var proto = DebugCommandProcessor.prototype;
return {
"continue": proto.continueRequest_,
"break" : proto.breakRequest_,
"setbreakpoint" : proto.setBreakPointRequest_,
"changebreakpoint": proto.changeBreakPointRequest_,
"clearbreakpoint": proto.clearBreakPointRequest_,
"clearbreakpointgroup": proto.clearBreakPointGroupRequest_,
"disconnect": proto.disconnectRequest_,
"setexceptionbreak": proto.setExceptionBreakRequest_,
"listbreakpoints": proto.listBreakpointsRequest_,
"backtrace": proto.backtraceRequest_,
"frame": proto.frameRequest_,
"scopes": proto.scopesRequest_,
"scope": proto.scopeRequest_,
"setvariablevalue": proto.setVariableValueRequest_,
"evaluate": proto.evaluateRequest_,
"lookup": proto.lookupRequest_,
"references": proto.referencesRequest_,
"source": proto.sourceRequest_,
"scripts": proto.scriptsRequest_,
"suspend": proto.suspendRequest_,
"version": proto.versionRequest_,
"changelive": proto.changeLiveRequest_,
"restartframe": proto.restartFrameRequest_,
"flags": proto.debuggerFlagsRequest_,
"v8flag": proto.v8FlagsRequest_,
"gc": proto.gcRequest_,
};
})();
// Check whether the previously processed command caused the VM to become
// running.
DebugCommandProcessor.prototype.isRunning = function() {
return this.running_;
};
DebugCommandProcessor.prototype.systemBreak = function(cmd, args) {
return %SystemBreak();
};
/**
* Convert an Object to its debugger protocol representation. The representation
* may be serilized to a JSON object using JSON.stringify().
* This implementation simply runs through all string property names, converts
* each property value to a protocol value and adds the property to the result
* object. For type "object" the function will be called recursively. Note that
* circular structures will cause infinite recursion.
* @param {Object} object The object to format as protocol object.
* @param {MirrorSerializer} mirror_serializer The serializer to use if any
* mirror objects are encountered.
* @return {Object} Protocol object value.
*/
function ObjectToProtocolObject_(object, mirror_serializer) {
var content = {};
for (var key in object) {
// Only consider string keys.
if (typeof key == 'string') {
// Format the value based on its type.
var property_value_json = ValueToProtocolValue_(object[key],
mirror_serializer);
// Add the property if relevant.
if (!IS_UNDEFINED(property_value_json)) {
content[key] = property_value_json;
}
}
}
return content;
}
/**
* Convert an array to its debugger protocol representation. It will convert
* each array element to a protocol value.
* @param {Array} array The array to format as protocol array.
* @param {MirrorSerializer} mirror_serializer The serializer to use if any
* mirror objects are encountered.
* @return {Array} Protocol array value.
*/
function ArrayToProtocolArray_(array, mirror_serializer) {
var json = [];
for (var i = 0; i < array.length; i++) {
json.push(ValueToProtocolValue_(array[i], mirror_serializer));
}
return json;
}
/**
* Convert a value to its debugger protocol representation.
* @param {*} value The value to format as protocol value.
* @param {MirrorSerializer} mirror_serializer The serializer to use if any
* mirror objects are encountered.
* @return {*} Protocol value.
*/
function ValueToProtocolValue_(value, mirror_serializer) {
// Format the value based on its type.
var json;
switch (typeof value) {
case 'object':
if (value instanceof Mirror) {
json = mirror_serializer.serializeValue(value);
} else if (IS_ARRAY(value)){
json = ArrayToProtocolArray_(value, mirror_serializer);
} else {
json = ObjectToProtocolObject_(value, mirror_serializer);
}
break;
case 'boolean':
case 'string':
case 'number':
json = value;
break;
default:
json = null;
}
return json;
}
// -------------------------------------------------------------------
// Exports
utils.InstallConstants(global, [
"Debug", Debug,
"DebugCommandProcessor", DebugCommandProcessor,
"BreakEvent", BreakEvent,
"CompileEvent", CompileEvent,
"BreakPoint", BreakPoint,
]);
// Functions needed by the debugger runtime.
utils.InstallFunctions(utils, DONT_ENUM, [
"MakeExecutionState", MakeExecutionState,
"MakeExceptionEvent", MakeExceptionEvent,
"MakeBreakEvent", MakeBreakEvent,
"MakeCompileEvent", MakeCompileEvent,
"MakeAsyncTaskEvent", MakeAsyncTaskEvent,
"IsBreakPointTriggered", IsBreakPointTriggered,
"UpdateScriptBreakPoints", UpdateScriptBreakPoints,
]);
// Export to liveedit.js
utils.Export(function(to) {
to.GetScriptBreakPoints = GetScriptBreakPoints;
});
})