v8/tools/tickprocessor.js
jkummerow@chromium.org 43bf8f9754 Add source map support to tick processor.
Added a console parameter for source map to the tick processor.
The tickprocesspor reads in the source maps and uses it to output the original filename, line number and column in the profile.
Modified d8 to output column numbers into the log, since this is needed to do source mapping.

R=jkummerow@chromium.org

Review URL: https://codereview.chromium.org/22897021

Patch from Daniel Kurka <dankurka@google.com>.

git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@16307 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
2013-08-23 17:20:54 +00:00

954 lines
29 KiB
JavaScript

// Copyright 2012 the V8 project authors. All rights reserved.
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following
// disclaimer in the documentation and/or other materials provided
// with the distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived
// from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
function inherits(childCtor, parentCtor) {
childCtor.prototype.__proto__ = parentCtor.prototype;
};
function V8Profile(separateIc) {
Profile.call(this);
if (!separateIc) {
this.skipThisFunction = function(name) { return V8Profile.IC_RE.test(name); };
}
};
inherits(V8Profile, Profile);
V8Profile.IC_RE =
/^(?:CallIC|LoadIC|StoreIC)|(?:Builtin: (?:Keyed)?(?:Call|Load|Store)IC_)/;
/**
* A thin wrapper around shell's 'read' function showing a file name on error.
*/
function readFile(fileName) {
try {
return read(fileName);
} catch (e) {
print(fileName + ': ' + (e.message || e));
throw e;
}
}
/**
* Parser for dynamic code optimization state.
*/
function parseState(s) {
switch (s) {
case "": return Profile.CodeState.COMPILED;
case "~": return Profile.CodeState.OPTIMIZABLE;
case "*": return Profile.CodeState.OPTIMIZED;
}
throw new Error("unknown code state: " + s);
}
function SnapshotLogProcessor() {
LogReader.call(this, {
'code-creation': {
parsers: [null, parseInt, parseInt, parseInt, null, 'var-args'],
processor: this.processCodeCreation },
'code-move': { parsers: [parseInt, parseInt],
processor: this.processCodeMove },
'code-delete': { parsers: [parseInt],
processor: this.processCodeDelete },
'function-creation': null,
'function-move': null,
'function-delete': null,
'sfi-move': null,
'snapshot-pos': { parsers: [parseInt, parseInt],
processor: this.processSnapshotPosition }});
V8Profile.prototype.handleUnknownCode = function(operation, addr) {
var op = Profile.Operation;
switch (operation) {
case op.MOVE:
print('Snapshot: Code move event for unknown code: 0x' +
addr.toString(16));
break;
case op.DELETE:
print('Snapshot: Code delete event for unknown code: 0x' +
addr.toString(16));
break;
}
};
this.profile_ = new V8Profile();
this.serializedEntries_ = [];
}
inherits(SnapshotLogProcessor, LogReader);
SnapshotLogProcessor.prototype.processCodeCreation = function(
type, kind, start, size, name, maybe_func) {
if (maybe_func.length) {
var funcAddr = parseInt(maybe_func[0]);
var state = parseState(maybe_func[1]);
this.profile_.addFuncCode(type, name, start, size, funcAddr, state);
} else {
this.profile_.addCode(type, name, start, size);
}
};
SnapshotLogProcessor.prototype.processCodeMove = function(from, to) {
this.profile_.moveCode(from, to);
};
SnapshotLogProcessor.prototype.processCodeDelete = function(start) {
this.profile_.deleteCode(start);
};
SnapshotLogProcessor.prototype.processSnapshotPosition = function(addr, pos) {
this.serializedEntries_[pos] = this.profile_.findEntry(addr);
};
SnapshotLogProcessor.prototype.processLogFile = function(fileName) {
var contents = readFile(fileName);
this.processLogChunk(contents);
};
SnapshotLogProcessor.prototype.getSerializedEntryName = function(pos) {
var entry = this.serializedEntries_[pos];
return entry ? entry.getRawName() : null;
};
function TickProcessor(
cppEntriesProvider,
separateIc,
callGraphSize,
ignoreUnknown,
stateFilter,
snapshotLogProcessor,
distortion,
range,
sourceMap) {
LogReader.call(this, {
'shared-library': { parsers: [null, parseInt, parseInt],
processor: this.processSharedLibrary },
'code-creation': {
parsers: [null, parseInt, parseInt, parseInt, null, 'var-args'],
processor: this.processCodeCreation },
'code-move': { parsers: [parseInt, parseInt],
processor: this.processCodeMove },
'code-delete': { parsers: [parseInt],
processor: this.processCodeDelete },
'sfi-move': { parsers: [parseInt, parseInt],
processor: this.processFunctionMove },
'snapshot-pos': { parsers: [parseInt, parseInt],
processor: this.processSnapshotPosition },
'tick': {
parsers: [parseInt, parseInt, parseInt,
parseInt, parseInt, 'var-args'],
processor: this.processTick },
'heap-sample-begin': { parsers: [null, null, parseInt],
processor: this.processHeapSampleBegin },
'heap-sample-end': { parsers: [null, null],
processor: this.processHeapSampleEnd },
'timer-event-start' : { parsers: [null, null, null],
processor: this.advanceDistortion },
'timer-event-end' : { parsers: [null, null, null],
processor: this.advanceDistortion },
// Ignored events.
'profiler': null,
'function-creation': null,
'function-move': null,
'function-delete': null,
'heap-sample-item': null,
// Obsolete row types.
'code-allocate': null,
'begin-code-region': null,
'end-code-region': null });
this.cppEntriesProvider_ = cppEntriesProvider;
this.callGraphSize_ = callGraphSize;
this.ignoreUnknown_ = ignoreUnknown;
this.stateFilter_ = stateFilter;
this.snapshotLogProcessor_ = snapshotLogProcessor;
this.sourceMap = sourceMap;
this.deserializedEntriesNames_ = [];
var ticks = this.ticks_ =
{ total: 0, unaccounted: 0, excluded: 0, gc: 0 };
distortion = parseInt(distortion);
// Convert picoseconds to nanoseconds.
this.distortion_per_entry = isNaN(distortion) ? 0 : (distortion / 1000);
this.distortion = 0;
var rangelimits = range ? range.split(",") : [];
var range_start = parseInt(rangelimits[0]);
var range_end = parseInt(rangelimits[1]);
// Convert milliseconds to nanoseconds.
this.range_start = isNaN(range_start) ? -Infinity : (range_start * 1000);
this.range_end = isNaN(range_end) ? Infinity : (range_end * 1000)
V8Profile.prototype.handleUnknownCode = function(
operation, addr, opt_stackPos) {
var op = Profile.Operation;
switch (operation) {
case op.MOVE:
print('Code move event for unknown code: 0x' + addr.toString(16));
break;
case op.DELETE:
print('Code delete event for unknown code: 0x' + addr.toString(16));
break;
case op.TICK:
// Only unknown PCs (the first frame) are reported as unaccounted,
// otherwise tick balance will be corrupted (this behavior is compatible
// with the original tickprocessor.py script.)
if (opt_stackPos == 0) {
ticks.unaccounted++;
}
break;
}
};
this.profile_ = new V8Profile(separateIc);
this.codeTypes_ = {};
// Count each tick as a time unit.
this.viewBuilder_ = new ViewBuilder(1);
this.lastLogFileName_ = null;
this.generation_ = 1;
this.currentProducerProfile_ = null;
};
inherits(TickProcessor, LogReader);
TickProcessor.VmStates = {
JS: 0,
GC: 1,
COMPILER: 2,
OTHER: 3,
EXTERNAL: 4,
IDLE: 5
};
TickProcessor.CodeTypes = {
CPP: 0,
SHARED_LIB: 1
};
// Otherwise, this is JS-related code. We are not adding it to
// codeTypes_ map because there can be zillions of them.
TickProcessor.CALL_PROFILE_CUTOFF_PCT = 2.0;
TickProcessor.CALL_GRAPH_SIZE = 5;
/**
* @override
*/
TickProcessor.prototype.printError = function(str) {
print(str);
};
TickProcessor.prototype.setCodeType = function(name, type) {
this.codeTypes_[name] = TickProcessor.CodeTypes[type];
};
TickProcessor.prototype.isSharedLibrary = function(name) {
return this.codeTypes_[name] == TickProcessor.CodeTypes.SHARED_LIB;
};
TickProcessor.prototype.isCppCode = function(name) {
return this.codeTypes_[name] == TickProcessor.CodeTypes.CPP;
};
TickProcessor.prototype.isJsCode = function(name) {
return !(name in this.codeTypes_);
};
TickProcessor.prototype.processLogFile = function(fileName) {
this.lastLogFileName_ = fileName;
var line;
while (line = readline()) {
this.processLogLine(line);
}
};
TickProcessor.prototype.processLogFileInTest = function(fileName) {
// Hack file name to avoid dealing with platform specifics.
this.lastLogFileName_ = 'v8.log';
var contents = readFile(fileName);
this.processLogChunk(contents);
};
TickProcessor.prototype.processSharedLibrary = function(
name, startAddr, endAddr) {
var entry = this.profile_.addLibrary(name, startAddr, endAddr);
this.setCodeType(entry.getName(), 'SHARED_LIB');
var self = this;
var libFuncs = this.cppEntriesProvider_.parseVmSymbols(
name, startAddr, endAddr, function(fName, fStart, fEnd) {
self.profile_.addStaticCode(fName, fStart, fEnd);
self.setCodeType(fName, 'CPP');
});
};
TickProcessor.prototype.processCodeCreation = function(
type, kind, start, size, name, maybe_func) {
name = this.deserializedEntriesNames_[start] || name;
if (maybe_func.length) {
var funcAddr = parseInt(maybe_func[0]);
var state = parseState(maybe_func[1]);
this.profile_.addFuncCode(type, name, start, size, funcAddr, state);
} else {
this.profile_.addCode(type, name, start, size);
}
};
TickProcessor.prototype.processCodeMove = function(from, to) {
this.profile_.moveCode(from, to);
};
TickProcessor.prototype.processCodeDelete = function(start) {
this.profile_.deleteCode(start);
};
TickProcessor.prototype.processFunctionMove = function(from, to) {
this.profile_.moveFunc(from, to);
};
TickProcessor.prototype.processSnapshotPosition = function(addr, pos) {
if (this.snapshotLogProcessor_) {
this.deserializedEntriesNames_[addr] =
this.snapshotLogProcessor_.getSerializedEntryName(pos);
}
};
TickProcessor.prototype.includeTick = function(vmState) {
return this.stateFilter_ == null || this.stateFilter_ == vmState;
};
TickProcessor.prototype.processTick = function(pc,
ns_since_start,
is_external_callback,
tos_or_external_callback,
vmState,
stack) {
this.distortion += this.distortion_per_entry;
ns_since_start -= this.distortion;
if (ns_since_start < this.range_start || ns_since_start > this.range_end) {
return;
}
this.ticks_.total++;
if (vmState == TickProcessor.VmStates.GC) this.ticks_.gc++;
if (!this.includeTick(vmState)) {
this.ticks_.excluded++;
return;
}
if (is_external_callback) {
// Don't use PC when in external callback code, as it can point
// inside callback's code, and we will erroneously report
// that a callback calls itself. Instead we use tos_or_external_callback,
// as simply resetting PC will produce unaccounted ticks.
pc = tos_or_external_callback;
tos_or_external_callback = 0;
} else if (tos_or_external_callback) {
// Find out, if top of stack was pointing inside a JS function
// meaning that we have encountered a frameless invocation.
var funcEntry = this.profile_.findEntry(tos_or_external_callback);
if (!funcEntry || !funcEntry.isJSFunction || !funcEntry.isJSFunction()) {
tos_or_external_callback = 0;
}
}
this.profile_.recordTick(this.processStack(pc, tos_or_external_callback, stack));
};
TickProcessor.prototype.advanceDistortion = function() {
this.distortion += this.distortion_per_entry;
}
TickProcessor.prototype.processHeapSampleBegin = function(space, state, ticks) {
if (space != 'Heap') return;
this.currentProducerProfile_ = new CallTree();
};
TickProcessor.prototype.processHeapSampleEnd = function(space, state) {
if (space != 'Heap' || !this.currentProducerProfile_) return;
print('Generation ' + this.generation_ + ':');
var tree = this.currentProducerProfile_;
tree.computeTotalWeights();
var producersView = this.viewBuilder_.buildView(tree);
// Sort by total time, desc, then by name, desc.
producersView.sort(function(rec1, rec2) {
return rec2.totalTime - rec1.totalTime ||
(rec2.internalFuncName < rec1.internalFuncName ? -1 : 1); });
this.printHeavyProfile(producersView.head.children);
this.currentProducerProfile_ = null;
this.generation_++;
};
TickProcessor.prototype.printStatistics = function() {
print('Statistical profiling result from ' + this.lastLogFileName_ +
', (' + this.ticks_.total +
' ticks, ' + this.ticks_.unaccounted + ' unaccounted, ' +
this.ticks_.excluded + ' excluded).');
if (this.ticks_.total == 0) return;
// Print the unknown ticks percentage if they are not ignored.
if (!this.ignoreUnknown_ && this.ticks_.unaccounted > 0) {
this.printHeader('Unknown');
this.printCounter(this.ticks_.unaccounted, this.ticks_.total);
}
var flatProfile = this.profile_.getFlatProfile();
var flatView = this.viewBuilder_.buildView(flatProfile);
// Sort by self time, desc, then by name, desc.
flatView.sort(function(rec1, rec2) {
return rec2.selfTime - rec1.selfTime ||
(rec2.internalFuncName < rec1.internalFuncName ? -1 : 1); });
var totalTicks = this.ticks_.total;
if (this.ignoreUnknown_) {
totalTicks -= this.ticks_.unaccounted;
}
// Our total time contains all the ticks encountered,
// while profile only knows about the filtered ticks.
flatView.head.totalTime = totalTicks;
// Count library ticks
var flatViewNodes = flatView.head.children;
var self = this;
var libraryTicks = 0;
this.processProfile(flatViewNodes,
function(name) { return self.isSharedLibrary(name); },
function(rec) { libraryTicks += rec.selfTime; });
var nonLibraryTicks = totalTicks - libraryTicks;
this.printHeader('Shared libraries');
this.printEntries(flatViewNodes, null,
function(name) { return self.isSharedLibrary(name); });
this.printHeader('JavaScript');
this.printEntries(flatViewNodes, nonLibraryTicks,
function(name) { return self.isJsCode(name); });
this.printHeader('C++');
this.printEntries(flatViewNodes, nonLibraryTicks,
function(name) { return self.isCppCode(name); });
this.printHeader('GC');
this.printCounter(this.ticks_.gc, totalTicks);
this.printHeavyProfHeader();
var heavyProfile = this.profile_.getBottomUpProfile();
var heavyView = this.viewBuilder_.buildView(heavyProfile);
// To show the same percentages as in the flat profile.
heavyView.head.totalTime = totalTicks;
// Sort by total time, desc, then by name, desc.
heavyView.sort(function(rec1, rec2) {
return rec2.totalTime - rec1.totalTime ||
(rec2.internalFuncName < rec1.internalFuncName ? -1 : 1); });
this.printHeavyProfile(heavyView.head.children);
};
function padLeft(s, len) {
s = s.toString();
if (s.length < len) {
var padLength = len - s.length;
if (!(padLength in padLeft)) {
padLeft[padLength] = new Array(padLength + 1).join(' ');
}
s = padLeft[padLength] + s;
}
return s;
};
TickProcessor.prototype.printHeader = function(headerTitle) {
print('\n [' + headerTitle + ']:');
print(' ticks total nonlib name');
};
TickProcessor.prototype.printHeavyProfHeader = function() {
print('\n [Bottom up (heavy) profile]:');
print(' Note: percentage shows a share of a particular caller in the ' +
'total\n' +
' amount of its parent calls.');
print(' Callers occupying less than ' +
TickProcessor.CALL_PROFILE_CUTOFF_PCT.toFixed(1) +
'% are not shown.\n');
print(' ticks parent name');
};
TickProcessor.prototype.printCounter = function(ticksCount, totalTicksCount) {
var pct = ticksCount * 100.0 / totalTicksCount;
print(' ' + padLeft(ticksCount, 5) + ' ' + padLeft(pct.toFixed(1), 5) + '%');
};
TickProcessor.prototype.processProfile = function(
profile, filterP, func) {
for (var i = 0, n = profile.length; i < n; ++i) {
var rec = profile[i];
if (!filterP(rec.internalFuncName)) {
continue;
}
func(rec);
}
};
TickProcessor.prototype.getLineAndColumn = function(name) {
var re = /:([0-9]+):([0-9]+)$/;
var array = re.exec(name);
if (!array) {
return null;
}
return {line: array[1], column: array[2]};
}
TickProcessor.prototype.hasSourceMap = function() {
return this.sourceMap != null;
};
TickProcessor.prototype.formatFunctionName = function(funcName) {
if (!this.hasSourceMap()) {
return funcName;
}
var lc = this.getLineAndColumn(funcName);
if (lc == null) {
return funcName;
}
// in source maps lines and columns are zero based
var lineNumber = lc.line - 1;
var column = lc.column - 1;
var entry = this.sourceMap.findEntry(lineNumber, column);
var sourceFile = entry[2];
var sourceLine = entry[3] + 1;
var sourceColumn = entry[4] + 1;
return sourceFile + ':' + sourceLine + ':' + sourceColumn + ' -> ' + funcName;
};
TickProcessor.prototype.printEntries = function(
profile, nonLibTicks, filterP) {
var that = this;
this.processProfile(profile, filterP, function (rec) {
if (rec.selfTime == 0) return;
var nonLibPct = nonLibTicks != null ?
rec.selfTime * 100.0 / nonLibTicks : 0.0;
var funcName = that.formatFunctionName(rec.internalFuncName);
print(' ' + padLeft(rec.selfTime, 5) + ' ' +
padLeft(rec.selfPercent.toFixed(1), 5) + '% ' +
padLeft(nonLibPct.toFixed(1), 5) + '% ' +
funcName);
});
};
TickProcessor.prototype.printHeavyProfile = function(profile, opt_indent) {
var self = this;
var indent = opt_indent || 0;
var indentStr = padLeft('', indent);
this.processProfile(profile, function() { return true; }, function (rec) {
// Cut off too infrequent callers.
if (rec.parentTotalPercent < TickProcessor.CALL_PROFILE_CUTOFF_PCT) return;
var funcName = self.formatFunctionName(rec.internalFuncName);
print(' ' + padLeft(rec.totalTime, 5) + ' ' +
padLeft(rec.parentTotalPercent.toFixed(1), 5) + '% ' +
indentStr + funcName);
// Limit backtrace depth.
if (indent < 2 * self.callGraphSize_) {
self.printHeavyProfile(rec.children, indent + 2);
}
// Delimit top-level functions.
if (indent == 0) {
print('');
}
});
};
function CppEntriesProvider() {
};
CppEntriesProvider.prototype.parseVmSymbols = function(
libName, libStart, libEnd, processorFunc) {
this.loadSymbols(libName);
var prevEntry;
function addEntry(funcInfo) {
// Several functions can be mapped onto the same address. To avoid
// creating zero-sized entries, skip such duplicates.
// Also double-check that function belongs to the library address space.
if (prevEntry && !prevEntry.end &&
prevEntry.start < funcInfo.start &&
prevEntry.start >= libStart && funcInfo.start <= libEnd) {
processorFunc(prevEntry.name, prevEntry.start, funcInfo.start);
}
if (funcInfo.end &&
(!prevEntry || prevEntry.start != funcInfo.start) &&
funcInfo.start >= libStart && funcInfo.end <= libEnd) {
processorFunc(funcInfo.name, funcInfo.start, funcInfo.end);
}
prevEntry = funcInfo;
}
while (true) {
var funcInfo = this.parseNextLine();
if (funcInfo === null) {
continue;
} else if (funcInfo === false) {
break;
}
if (funcInfo.start < libStart && funcInfo.start < libEnd - libStart) {
funcInfo.start += libStart;
}
if (funcInfo.size) {
funcInfo.end = funcInfo.start + funcInfo.size;
}
addEntry(funcInfo);
}
addEntry({name: '', start: libEnd});
};
CppEntriesProvider.prototype.loadSymbols = function(libName) {
};
CppEntriesProvider.prototype.parseNextLine = function() {
return false;
};
function UnixCppEntriesProvider(nmExec, targetRootFS) {
this.symbols = [];
this.parsePos = 0;
this.nmExec = nmExec;
this.targetRootFS = targetRootFS;
this.FUNC_RE = /^([0-9a-fA-F]{8,16}) ([0-9a-fA-F]{8,16} )?[tTwW] (.*)$/;
};
inherits(UnixCppEntriesProvider, CppEntriesProvider);
UnixCppEntriesProvider.prototype.loadSymbols = function(libName) {
this.parsePos = 0;
libName = this.targetRootFS + libName;
try {
this.symbols = [
os.system(this.nmExec, ['-C', '-n', '-S', libName], -1, -1),
os.system(this.nmExec, ['-C', '-n', '-S', '-D', libName], -1, -1)
];
} catch (e) {
// If the library cannot be found on this system let's not panic.
this.symbols = ['', ''];
}
};
UnixCppEntriesProvider.prototype.parseNextLine = function() {
if (this.symbols.length == 0) {
return false;
}
var lineEndPos = this.symbols[0].indexOf('\n', this.parsePos);
if (lineEndPos == -1) {
this.symbols.shift();
this.parsePos = 0;
return this.parseNextLine();
}
var line = this.symbols[0].substring(this.parsePos, lineEndPos);
this.parsePos = lineEndPos + 1;
var fields = line.match(this.FUNC_RE);
var funcInfo = null;
if (fields) {
funcInfo = { name: fields[3], start: parseInt(fields[1], 16) };
if (fields[2]) {
funcInfo.size = parseInt(fields[2], 16);
}
}
return funcInfo;
};
function MacCppEntriesProvider(nmExec, targetRootFS) {
UnixCppEntriesProvider.call(this, nmExec, targetRootFS);
// Note an empty group. It is required, as UnixCppEntriesProvider expects 3 groups.
this.FUNC_RE = /^([0-9a-fA-F]{8,16}) ()[iItT] (.*)$/;
};
inherits(MacCppEntriesProvider, UnixCppEntriesProvider);
MacCppEntriesProvider.prototype.loadSymbols = function(libName) {
this.parsePos = 0;
libName = this.targetRootFS + libName;
try {
this.symbols = [os.system(this.nmExec, ['-n', '-f', libName], -1, -1), ''];
} catch (e) {
// If the library cannot be found on this system let's not panic.
this.symbols = '';
}
};
function WindowsCppEntriesProvider(_ignored_nmExec, targetRootFS) {
this.targetRootFS = targetRootFS;
this.symbols = '';
this.parsePos = 0;
};
inherits(WindowsCppEntriesProvider, CppEntriesProvider);
WindowsCppEntriesProvider.FILENAME_RE = /^(.*)\.([^.]+)$/;
WindowsCppEntriesProvider.FUNC_RE =
/^\s+0001:[0-9a-fA-F]{8}\s+([_\?@$0-9a-zA-Z]+)\s+([0-9a-fA-F]{8}).*$/;
WindowsCppEntriesProvider.IMAGE_BASE_RE =
/^\s+0000:00000000\s+___ImageBase\s+([0-9a-fA-F]{8}).*$/;
// This is almost a constant on Windows.
WindowsCppEntriesProvider.EXE_IMAGE_BASE = 0x00400000;
WindowsCppEntriesProvider.prototype.loadSymbols = function(libName) {
libName = this.targetRootFS + libName;
var fileNameFields = libName.match(WindowsCppEntriesProvider.FILENAME_RE);
if (!fileNameFields) return;
var mapFileName = fileNameFields[1] + '.map';
this.moduleType_ = fileNameFields[2].toLowerCase();
try {
this.symbols = read(mapFileName);
} catch (e) {
// If .map file cannot be found let's not panic.
this.symbols = '';
}
};
WindowsCppEntriesProvider.prototype.parseNextLine = function() {
var lineEndPos = this.symbols.indexOf('\r\n', this.parsePos);
if (lineEndPos == -1) {
return false;
}
var line = this.symbols.substring(this.parsePos, lineEndPos);
this.parsePos = lineEndPos + 2;
// Image base entry is above all other symbols, so we can just
// terminate parsing.
var imageBaseFields = line.match(WindowsCppEntriesProvider.IMAGE_BASE_RE);
if (imageBaseFields) {
var imageBase = parseInt(imageBaseFields[1], 16);
if ((this.moduleType_ == 'exe') !=
(imageBase == WindowsCppEntriesProvider.EXE_IMAGE_BASE)) {
return false;
}
}
var fields = line.match(WindowsCppEntriesProvider.FUNC_RE);
return fields ?
{ name: this.unmangleName(fields[1]), start: parseInt(fields[2], 16) } :
null;
};
/**
* Performs very simple unmangling of C++ names.
*
* Does not handle arguments and template arguments. The mangled names have
* the form:
*
* ?LookupInDescriptor@JSObject@internal@v8@@...arguments info...
*/
WindowsCppEntriesProvider.prototype.unmangleName = function(name) {
// Empty or non-mangled name.
if (name.length < 1 || name.charAt(0) != '?') return name;
var nameEndPos = name.indexOf('@@');
var components = name.substring(1, nameEndPos).split('@');
components.reverse();
return components.join('::');
};
function ArgumentsProcessor(args) {
this.args_ = args;
this.result_ = ArgumentsProcessor.DEFAULTS;
this.argsDispatch_ = {
'-j': ['stateFilter', TickProcessor.VmStates.JS,
'Show only ticks from JS VM state'],
'-g': ['stateFilter', TickProcessor.VmStates.GC,
'Show only ticks from GC VM state'],
'-c': ['stateFilter', TickProcessor.VmStates.COMPILER,
'Show only ticks from COMPILER VM state'],
'-o': ['stateFilter', TickProcessor.VmStates.OTHER,
'Show only ticks from OTHER VM state'],
'-e': ['stateFilter', TickProcessor.VmStates.EXTERNAL,
'Show only ticks from EXTERNAL VM state'],
'--call-graph-size': ['callGraphSize', TickProcessor.CALL_GRAPH_SIZE,
'Set the call graph size'],
'--ignore-unknown': ['ignoreUnknown', true,
'Exclude ticks of unknown code entries from processing'],
'--separate-ic': ['separateIc', true,
'Separate IC entries'],
'--unix': ['platform', 'unix',
'Specify that we are running on *nix platform'],
'--windows': ['platform', 'windows',
'Specify that we are running on Windows platform'],
'--mac': ['platform', 'mac',
'Specify that we are running on Mac OS X platform'],
'--nm': ['nm', 'nm',
'Specify the \'nm\' executable to use (e.g. --nm=/my_dir/nm)'],
'--target': ['targetRootFS', '',
'Specify the target root directory for cross environment'],
'--snapshot-log': ['snapshotLogFileName', 'snapshot.log',
'Specify snapshot log file to use (e.g. --snapshot-log=snapshot.log)'],
'--range': ['range', 'auto,auto',
'Specify the range limit as [start],[end]'],
'--distortion': ['distortion', 0,
'Specify the logging overhead in picoseconds'],
'--source-map': ['sourceMap', null,
'Specify the source map that should be used for output']
};
this.argsDispatch_['--js'] = this.argsDispatch_['-j'];
this.argsDispatch_['--gc'] = this.argsDispatch_['-g'];
this.argsDispatch_['--compiler'] = this.argsDispatch_['-c'];
this.argsDispatch_['--other'] = this.argsDispatch_['-o'];
this.argsDispatch_['--external'] = this.argsDispatch_['-e'];
};
ArgumentsProcessor.DEFAULTS = {
logFileName: 'v8.log',
snapshotLogFileName: null,
platform: 'unix',
stateFilter: null,
callGraphSize: 5,
ignoreUnknown: false,
separateIc: false,
targetRootFS: '',
nm: 'nm',
range: 'auto,auto',
distortion: 0
};
ArgumentsProcessor.prototype.parse = function() {
while (this.args_.length) {
var arg = this.args_[0];
if (arg.charAt(0) != '-') {
break;
}
this.args_.shift();
var userValue = null;
var eqPos = arg.indexOf('=');
if (eqPos != -1) {
userValue = arg.substr(eqPos + 1);
arg = arg.substr(0, eqPos);
}
if (arg in this.argsDispatch_) {
var dispatch = this.argsDispatch_[arg];
this.result_[dispatch[0]] = userValue == null ? dispatch[1] : userValue;
} else {
return false;
}
}
if (this.args_.length >= 1) {
this.result_.logFileName = this.args_.shift();
}
return true;
};
ArgumentsProcessor.prototype.result = function() {
return this.result_;
};
ArgumentsProcessor.prototype.printUsageAndExit = function() {
function padRight(s, len) {
s = s.toString();
if (s.length < len) {
s = s + (new Array(len - s.length + 1).join(' '));
}
return s;
}
print('Cmdline args: [options] [log-file-name]\n' +
'Default log file name is "' +
ArgumentsProcessor.DEFAULTS.logFileName + '".\n');
print('Options:');
for (var arg in this.argsDispatch_) {
var synonims = [arg];
var dispatch = this.argsDispatch_[arg];
for (var synArg in this.argsDispatch_) {
if (arg !== synArg && dispatch === this.argsDispatch_[synArg]) {
synonims.push(synArg);
delete this.argsDispatch_[synArg];
}
}
print(' ' + padRight(synonims.join(', '), 20) + dispatch[2]);
}
quit(2);
};