mirror of
https://github.com/mozilla/gecko-dev.git
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554 lines
16 KiB
C++
554 lines
16 KiB
C++
/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#include <ostream>
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#include <sstream>
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#include "platform.h"
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#include "nsThreadUtils.h"
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#include "nsXULAppAPI.h"
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#include "jsapi.h"
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// JSON
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#include "JSStreamWriter.h"
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// Self
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#include "ProfileEntry.h"
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#if _MSC_VER
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#define snprintf _snprintf
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#endif
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////////////////////////////////////////////////////////////////////////
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// BEGIN ProfileEntry
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ProfileEntry::ProfileEntry()
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: mTagData(nullptr)
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, mTagName(0)
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{ }
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// aTagData must not need release (i.e. be a string from the text segment)
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ProfileEntry::ProfileEntry(char aTagName, const char *aTagData)
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: mTagData(aTagData)
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, mTagName(aTagName)
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{ }
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ProfileEntry::ProfileEntry(char aTagName, ProfilerMarker *aTagMarker)
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: mTagMarker(aTagMarker)
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, mTagName(aTagName)
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{ }
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ProfileEntry::ProfileEntry(char aTagName, void *aTagPtr)
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: mTagPtr(aTagPtr)
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, mTagName(aTagName)
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{ }
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ProfileEntry::ProfileEntry(char aTagName, float aTagFloat)
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: mTagFloat(aTagFloat)
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, mTagName(aTagName)
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{ }
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ProfileEntry::ProfileEntry(char aTagName, uintptr_t aTagOffset)
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: mTagOffset(aTagOffset)
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, mTagName(aTagName)
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{ }
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ProfileEntry::ProfileEntry(char aTagName, Address aTagAddress)
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: mTagAddress(aTagAddress)
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, mTagName(aTagName)
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{ }
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ProfileEntry::ProfileEntry(char aTagName, int aTagInt)
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: mTagInt(aTagInt)
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, mTagName(aTagName)
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{ }
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ProfileEntry::ProfileEntry(char aTagName, char aTagChar)
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: mTagChar(aTagChar)
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, mTagName(aTagName)
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{ }
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bool ProfileEntry::is_ent_hint(char hintChar) {
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return mTagName == 'h' && mTagChar == hintChar;
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}
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bool ProfileEntry::is_ent_hint() {
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return mTagName == 'h';
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}
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bool ProfileEntry::is_ent(char tagChar) {
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return mTagName == tagChar;
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}
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void* ProfileEntry::get_tagPtr() {
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// No consistency checking. Oh well.
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return mTagPtr;
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}
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void ProfileEntry::log()
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{
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// There is no compiler enforced mapping between tag chars
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// and union variant fields, so the following was derived
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// by looking through all the use points of TableTicker.cpp.
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// mTagMarker (ProfilerMarker*) m
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// mTagData (const char*) c,s
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// mTagPtr (void*) d,l,L,B (immediate backtrace), S(start-of-stack)
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// mTagInt (int) n,f,y
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// mTagChar (char) h
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// mTagFloat (double) r,t,p,R (resident memory), U (unshared memory)
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switch (mTagName) {
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case 'm':
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LOGF("%c \"%s\"", mTagName, mTagMarker->GetMarkerName()); break;
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case 'c': case 's':
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LOGF("%c \"%s\"", mTagName, mTagData); break;
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case 'd': case 'l': case 'L': case 'B': case 'S':
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LOGF("%c %p", mTagName, mTagPtr); break;
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case 'n': case 'f': case 'y':
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LOGF("%c %d", mTagName, mTagInt); break;
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case 'h':
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LOGF("%c \'%c\'", mTagName, mTagChar); break;
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case 'r': case 't': case 'p': case 'R': case 'U':
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LOGF("%c %f", mTagName, mTagFloat); break;
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default:
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LOGF("'%c' unknown_tag", mTagName); break;
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}
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}
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std::ostream& operator<<(std::ostream& stream, const ProfileEntry& entry)
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{
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if (entry.mTagName == 'r' || entry.mTagName == 't') {
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stream << entry.mTagName << "-" << std::fixed << entry.mTagFloat << "\n";
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} else if (entry.mTagName == 'l' || entry.mTagName == 'L') {
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// Bug 739800 - Force l-tag addresses to have a "0x" prefix on all platforms
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// Additionally, stringstream seemed to be ignoring formatter flags.
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char tagBuff[1024];
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unsigned long long pc = (unsigned long long)(uintptr_t)entry.mTagPtr;
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snprintf(tagBuff, 1024, "%c-%#llx\n", entry.mTagName, pc);
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stream << tagBuff;
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} else if (entry.mTagName == 'd') {
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// TODO implement 'd' tag for text profile
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} else {
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stream << entry.mTagName << "-" << entry.mTagData << "\n";
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}
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return stream;
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}
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// END ProfileEntry
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////////////////////////////////////////////////////////////////////////
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////////////////////////////////////////////////////////////////////////
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// BEGIN ThreadProfile
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#define DYNAMIC_MAX_STRING 512
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ThreadProfile::ThreadProfile(ThreadInfo* aInfo, int aEntrySize)
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: mThreadInfo(aInfo)
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, mWritePos(0)
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, mLastFlushPos(0)
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, mReadPos(0)
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, mEntrySize(aEntrySize)
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, mPseudoStack(aInfo->Stack())
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, mMutex("ThreadProfile::mMutex")
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, mThreadId(aInfo->ThreadId())
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, mIsMainThread(aInfo->IsMainThread())
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, mPlatformData(aInfo->GetPlatformData())
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, mGeneration(0)
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, mPendingGenerationFlush(0)
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, mStackTop(aInfo->StackTop())
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, mRespInfo(MOZ_THIS_IN_INITIALIZER_LIST())
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#ifdef XP_LINUX
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, mRssMemory(0)
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, mUssMemory(0)
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#endif
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{
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MOZ_COUNT_CTOR(ThreadProfile);
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mEntries = new ProfileEntry[mEntrySize];
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}
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ThreadProfile::~ThreadProfile()
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{
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MOZ_COUNT_DTOR(ThreadProfile);
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delete[] mEntries;
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}
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void ThreadProfile::addTag(ProfileEntry aTag)
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{
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// Called from signal, call only reentrant functions
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mEntries[mWritePos] = aTag;
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mWritePos = mWritePos + 1;
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if (mWritePos >= mEntrySize) {
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mPendingGenerationFlush++;
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mWritePos = mWritePos % mEntrySize;
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}
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if (mWritePos == mReadPos) {
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// Keep one slot open
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mEntries[mReadPos] = ProfileEntry();
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mReadPos = (mReadPos + 1) % mEntrySize;
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}
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// we also need to move the flush pos to ensure we
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// do not pass it
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if (mWritePos == mLastFlushPos) {
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mLastFlushPos = (mLastFlushPos + 1) % mEntrySize;
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}
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}
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// flush the new entries
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void ThreadProfile::flush()
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{
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mLastFlushPos = mWritePos;
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mGeneration += mPendingGenerationFlush;
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mPendingGenerationFlush = 0;
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}
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// discards all of the entries since the last flush()
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// NOTE: that if mWritePos happens to wrap around past
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// mLastFlushPos we actually only discard mWritePos - mLastFlushPos entries
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//
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// r = mReadPos
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// w = mWritePos
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// f = mLastFlushPos
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//
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// r f w
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// |-----------------------------|
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// | abcdefghijklmnopq | -> 'abcdefghijklmnopq'
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// |-----------------------------|
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//
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//
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// mWritePos and mReadPos have passed mLastFlushPos
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// f
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// w r
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// |-----------------------------|
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// |ABCDEFGHIJKLMNOPQRSqrstuvwxyz|
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// |-----------------------------|
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// w
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// r
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// |-----------------------------|
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// |ABCDEFGHIJKLMNOPQRSqrstuvwxyz| -> ''
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// |-----------------------------|
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//
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//
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// mWritePos will end up the same as mReadPos
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// r
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// w f
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// |-----------------------------|
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// |ABCDEFGHIJKLMklmnopqrstuvwxyz|
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// |-----------------------------|
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// r
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// w
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// |-----------------------------|
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// |ABCDEFGHIJKLMklmnopqrstuvwxyz| -> ''
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// |-----------------------------|
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//
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//
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// mWritePos has moved past mReadPos
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// w r f
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// |-----------------------------|
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// |ABCDEFdefghijklmnopqrstuvwxyz|
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// |-----------------------------|
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// r w
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// |-----------------------------|
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// |ABCDEFdefghijklmnopqrstuvwxyz| -> 'defghijkl'
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// |-----------------------------|
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void ThreadProfile::erase()
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{
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mWritePos = mLastFlushPos;
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mPendingGenerationFlush = 0;
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}
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char* ThreadProfile::processDynamicTag(int readPos,
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int* tagsConsumed, char* tagBuff)
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{
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int readAheadPos = (readPos + 1) % mEntrySize;
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int tagBuffPos = 0;
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// Read the string stored in mTagData until the null character is seen
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bool seenNullByte = false;
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while (readAheadPos != mLastFlushPos && !seenNullByte) {
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(*tagsConsumed)++;
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ProfileEntry readAheadEntry = mEntries[readAheadPos];
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for (size_t pos = 0; pos < sizeof(void*); pos++) {
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tagBuff[tagBuffPos] = readAheadEntry.mTagChars[pos];
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if (tagBuff[tagBuffPos] == '\0' || tagBuffPos == DYNAMIC_MAX_STRING-2) {
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seenNullByte = true;
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break;
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}
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tagBuffPos++;
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}
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if (!seenNullByte)
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readAheadPos = (readAheadPos + 1) % mEntrySize;
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}
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return tagBuff;
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}
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void ThreadProfile::IterateTags(IterateTagsCallback aCallback)
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{
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MOZ_ASSERT(aCallback);
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int readPos = mReadPos;
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while (readPos != mLastFlushPos) {
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// Number of tag consumed
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int incBy = 1;
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const ProfileEntry& entry = mEntries[readPos];
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// Read ahead to the next tag, if it's a 'd' tag process it now
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const char* tagStringData = entry.mTagData;
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int readAheadPos = (readPos + 1) % mEntrySize;
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char tagBuff[DYNAMIC_MAX_STRING];
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// Make sure the string is always null terminated if it fills up DYNAMIC_MAX_STRING-2
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tagBuff[DYNAMIC_MAX_STRING-1] = '\0';
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if (readAheadPos != mLastFlushPos && mEntries[readAheadPos].mTagName == 'd') {
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tagStringData = processDynamicTag(readPos, &incBy, tagBuff);
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}
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aCallback(entry, tagStringData);
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readPos = (readPos + incBy) % mEntrySize;
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}
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}
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void ThreadProfile::ToStreamAsJSON(std::ostream& stream)
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{
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JSStreamWriter b(stream);
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StreamJSObject(b);
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}
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void ThreadProfile::StreamJSObject(JSStreamWriter& b)
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{
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b.BeginObject();
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// Thread meta data
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if (XRE_GetProcessType() == GeckoProcessType_Plugin) {
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// TODO Add the proper plugin name
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b.NameValue("name", "Plugin");
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} else {
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b.NameValue("name", Name());
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}
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b.NameValue("tid", static_cast<int>(mThreadId));
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b.Name("samples");
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b.BeginArray();
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bool sample = false;
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int readPos = mReadPos;
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while (readPos != mLastFlushPos) {
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// Number of tag consumed
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ProfileEntry entry = mEntries[readPos];
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switch (entry.mTagName) {
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case 'r':
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{
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if (sample) {
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b.NameValue("responsiveness", entry.mTagFloat);
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}
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}
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break;
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case 'p':
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{
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if (sample) {
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b.NameValue("power", entry.mTagFloat);
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}
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}
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break;
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case 'R':
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{
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if (sample) {
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b.NameValue("rss", entry.mTagFloat);
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}
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}
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break;
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case 'U':
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{
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if (sample) {
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b.NameValue("uss", entry.mTagFloat);
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}
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}
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break;
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case 'f':
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{
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if (sample) {
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b.NameValue("frameNumber", entry.mTagInt);
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}
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}
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break;
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case 't':
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{
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if (sample) {
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b.NameValue("time", entry.mTagFloat);
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}
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}
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break;
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case 's':
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{
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// end the previous sample if there was one
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if (sample) {
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b.EndObject();
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}
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// begin the next sample
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b.BeginObject();
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sample = true;
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// Seek forward through the entire sample, looking for frames
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// this is an easier approach to reason about than adding more
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// control variables and cases to the loop that goes through the buffer once
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b.Name("frames");
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b.BeginArray();
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b.BeginObject();
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b.NameValue("location", "(root)");
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b.EndObject();
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int framePos = (readPos + 1) % mEntrySize;
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ProfileEntry frame = mEntries[framePos];
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while (framePos != mLastFlushPos && frame.mTagName != 's') {
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int incBy = 1;
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frame = mEntries[framePos];
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// Read ahead to the next tag, if it's a 'd' tag process it now
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const char* tagStringData = frame.mTagData;
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int readAheadPos = (framePos + 1) % mEntrySize;
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char tagBuff[DYNAMIC_MAX_STRING];
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// Make sure the string is always null terminated if it fills up
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// DYNAMIC_MAX_STRING-2
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tagBuff[DYNAMIC_MAX_STRING-1] = '\0';
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if (readAheadPos != mLastFlushPos && mEntries[readAheadPos].mTagName == 'd') {
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tagStringData = processDynamicTag(framePos, &incBy, tagBuff);
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}
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// Write one frame. It can have either
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// 1. only location - 'l' containing a memory address
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// 2. location and line number - 'c' followed by 'd's,
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// an optional 'n' and an optional 'y'
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if (frame.mTagName == 'l') {
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b.BeginObject();
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// Bug 753041
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// We need a double cast here to tell GCC that we don't want to sign
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// extend 32-bit addresses starting with 0xFXXXXXX.
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unsigned long long pc = (unsigned long long)(uintptr_t)frame.mTagPtr;
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snprintf(tagBuff, DYNAMIC_MAX_STRING, "%#llx", pc);
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b.NameValue("location", tagBuff);
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b.EndObject();
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} else if (frame.mTagName == 'c') {
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b.BeginObject();
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b.NameValue("location", tagStringData);
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readAheadPos = (framePos + incBy) % mEntrySize;
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if (readAheadPos != mLastFlushPos &&
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mEntries[readAheadPos].mTagName == 'n') {
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b.NameValue("line", mEntries[readAheadPos].mTagInt);
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incBy++;
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}
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readAheadPos = (framePos + incBy) % mEntrySize;
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if (readAheadPos != mLastFlushPos &&
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mEntries[readAheadPos].mTagName == 'y') {
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b.NameValue("category", mEntries[readAheadPos].mTagInt);
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incBy++;
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}
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b.EndObject();
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}
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framePos = (framePos + incBy) % mEntrySize;
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}
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b.EndArray();
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}
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break;
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}
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readPos = (readPos + 1) % mEntrySize;
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}
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if (sample) {
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b.EndObject();
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}
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b.EndArray();
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b.Name("markers");
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b.BeginArray();
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readPos = mReadPos;
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while (readPos != mLastFlushPos) {
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ProfileEntry entry = mEntries[readPos];
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if (entry.mTagName == 'm') {
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entry.getMarker()->StreamJSObject(b);
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}
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readPos = (readPos + 1) % mEntrySize;
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}
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b.EndArray();
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b.EndObject();
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}
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JSObject* ThreadProfile::ToJSObject(JSContext *aCx)
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{
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JS::RootedValue val(aCx);
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std::stringstream ss;
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JSStreamWriter b(ss);
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StreamJSObject(b);
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NS_ConvertUTF8toUTF16 js_string(nsDependentCString(ss.str().c_str()));
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JS_ParseJSON(aCx, static_cast<const jschar*>(js_string.get()), js_string.Length(), &val);
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return &val.toObject();
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}
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PseudoStack* ThreadProfile::GetPseudoStack()
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{
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return mPseudoStack;
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}
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void ThreadProfile::BeginUnwind()
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{
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mMutex.Lock();
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}
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void ThreadProfile::EndUnwind()
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{
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mMutex.Unlock();
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}
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mozilla::Mutex* ThreadProfile::GetMutex()
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{
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return &mMutex;
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}
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void ThreadProfile::DuplicateLastSample() {
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// Scan the whole buffer (even unflushed parts)
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// Adding mEntrySize makes the result of the modulus positive
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// We search backwards from mWritePos-1 to mReadPos
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for (int readPos = (mWritePos + mEntrySize - 1) % mEntrySize;
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readPos != (mReadPos + mEntrySize - 1) % mEntrySize;
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readPos = (readPos + mEntrySize - 1) % mEntrySize) {
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if (mEntries[readPos].mTagName == 's') {
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// Found the start of the last entry at position readPos
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int copyEndIdx = mWritePos;
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// Go through the whole entry and duplicate it
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for (;readPos != copyEndIdx; readPos = (readPos + 1) % mEntrySize) {
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switch (mEntries[readPos].mTagName) {
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// Copy with new time
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case 't':
|
|
addTag(ProfileEntry('t', static_cast<float>((mozilla::TimeStamp::Now() - sStartTime).ToMilliseconds())));
|
|
break;
|
|
// Don't copy markers
|
|
case 'm':
|
|
break;
|
|
// Copy anything else we don't know about
|
|
// L, B, S, c, s, d, l, f, h, r, t, p
|
|
default:
|
|
addTag(mEntries[readPos]);
|
|
break;
|
|
}
|
|
}
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
|
|
std::ostream& operator<<(std::ostream& stream, const ThreadProfile& profile)
|
|
{
|
|
int readPos = profile.mReadPos;
|
|
while (readPos != profile.mLastFlushPos) {
|
|
stream << profile.mEntries[readPos];
|
|
readPos = (readPos + 1) % profile.mEntrySize;
|
|
}
|
|
return stream;
|
|
}
|
|
|
|
// END ThreadProfile
|
|
////////////////////////////////////////////////////////////////////////
|