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/**
* @file lltracethreadrecorder.cpp
*
* $LicenseInfo:firstyear=2001&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2012, Linden Research, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation;
* version 2.1 of the License only.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
* $/LicenseInfo$
*/
#include "linden_common.h"
#include "lltracethreadrecorder.h"
#include "llfasttimer.h"
namespace LLTrace
{
static ThreadRecorder* sMasterThreadRecorder = NULL;
///////////////////////////////////////////////////////////////////////
// ThreadRecorder
///////////////////////////////////////////////////////////////////////
ThreadRecorder::ThreadRecorder()
: mMasterRecorder(NULL)
{
init();
}
void ThreadRecorder::init()
{
LLThreadLocalSingletonPointer<BlockTimerStackRecord>::setInstance(&mBlockTimerStackRecord);
//NB: the ordering of initialization in this function is very fragile due to a large number of implicit dependencies
set_thread_recorder(this);
TimeBlock& root_time_block = TimeBlock::getRootTimeBlock();
BlockTimerStackRecord* timer_stack = LLThreadLocalSingletonPointer<BlockTimerStackRecord>::getInstance();
timer_stack->mTimeBlock = &root_time_block;
timer_stack->mActiveTimer = NULL;
mNumTimeBlockTreeNodes = AccumulatorBuffer<TimeBlockAccumulator>::getDefaultBuffer()->size();
mTimeBlockTreeNodes = new TimeBlockTreeNode[mNumTimeBlockTreeNodes];
activate(&mThreadRecordingBuffers);
// initialize time block parent pointers
for (LLInstanceTracker<TimeBlock>::instance_iter it = LLInstanceTracker<TimeBlock>::beginInstances(), end_it = LLInstanceTracker<TimeBlock>::endInstances();
it != end_it;
++it)
{
TimeBlock& time_block = *it;
TimeBlockTreeNode& tree_node = mTimeBlockTreeNodes[it->getIndex()];
tree_node.mBlock = &time_block;
tree_node.mParent = &root_time_block;
it->getPrimaryAccumulator()->mParent = &root_time_block;
}
mRootTimer = new BlockTimer(root_time_block);
timer_stack->mActiveTimer = mRootTimer;
TimeBlock::getRootTimeBlock().getPrimaryAccumulator()->mActiveCount = 1;
}
ThreadRecorder::ThreadRecorder(ThreadRecorder& master)
: mMasterRecorder(&master)
{
init();
mMasterRecorder->addChildRecorder(this);
}
ThreadRecorder::~ThreadRecorder()
{
LLThreadLocalSingletonPointer<BlockTimerStackRecord>::setInstance(NULL);
deactivate(&mThreadRecordingBuffers);
delete mRootTimer;
if (!mActiveRecordings.empty())
{
std::for_each(mActiveRecordings.begin(), mActiveRecordings.end(), DeletePointer());
mActiveRecordings.clear();
}
set_thread_recorder(NULL);
delete[] mTimeBlockTreeNodes;
if (mMasterRecorder)
{
mMasterRecorder->removeChildRecorder(this);
}
}
TimeBlockTreeNode* ThreadRecorder::getTimeBlockTreeNode( S32 index )
{
if (0 <= index && index < mNumTimeBlockTreeNodes)
{
return &mTimeBlockTreeNodes[index];
}
return NULL;
}
void ThreadRecorder::activate( AccumulatorBufferGroup* recording, bool from_handoff )
{
ActiveRecording* active_recording = new ActiveRecording(recording);
if (!mActiveRecordings.empty())
{
AccumulatorBufferGroup& prev_active_recording = mActiveRecordings.back()->mPartialRecording;
prev_active_recording.sync();
if (!from_handoff)
{
TimeBlock::updateTimes();
}
prev_active_recording.handOffTo(active_recording->mPartialRecording);
}
mActiveRecordings.push_back(active_recording);
mActiveRecordings.back()->mPartialRecording.makePrimary();
}
ThreadRecorder::active_recording_list_t::reverse_iterator ThreadRecorder::bringUpToDate( AccumulatorBufferGroup* recording )
{
if (mActiveRecordings.empty()) return mActiveRecordings.rend();
mActiveRecordings.back()->mPartialRecording.sync();
TimeBlock::updateTimes();
active_recording_list_t::reverse_iterator it, end_it;
for (it = mActiveRecordings.rbegin(), end_it = mActiveRecordings.rend();
it != end_it;
++it)
{
ActiveRecording* cur_recording = *it;
active_recording_list_t::reverse_iterator next_it = it;
++next_it;
// if we have another recording further down in the stack...
if (next_it != mActiveRecordings.rend())
{
// ...push our gathered data down to it
(*next_it)->mPartialRecording.append(cur_recording->mPartialRecording);
}
// copy accumulated measurements into result buffer and clear accumulator (mPartialRecording)
cur_recording->movePartialToTarget();
if (cur_recording->mTargetRecording == recording)
{
// found the recording, so return it
break;
}
}
if (it == end_it)
{
llwarns << "Recording not active on this thread" << llendl;
}
return it;
}
void ThreadRecorder::deactivate( AccumulatorBufferGroup* recording )
{
active_recording_list_t::reverse_iterator it = bringUpToDate(recording);
if (it != mActiveRecordings.rend())
{
active_recording_list_t::iterator recording_to_remove = (++it).base();
bool was_primary = (*recording_to_remove)->mPartialRecording.isPrimary();
llassert((*recording_to_remove)->mTargetRecording == recording);
delete *recording_to_remove;
mActiveRecordings.erase(recording_to_remove);
if (was_primary)
{
if (mActiveRecordings.empty())
{
AccumulatorBufferGroup::clearPrimary();
}
else
{
mActiveRecordings.back()->mPartialRecording.makePrimary();
}
}
}
}
ThreadRecorder::ActiveRecording::ActiveRecording( AccumulatorBufferGroup* target )
: mTargetRecording(target)
{
}
void ThreadRecorder::ActiveRecording::movePartialToTarget()
{
mTargetRecording->append(mPartialRecording);
// reset based on self to keep history
mPartialRecording.reset(&mPartialRecording);
}
// called by child thread
void ThreadRecorder::addChildRecorder( class ThreadRecorder* child )
{ LLMutexLock lock(&mChildListMutex);
mChildThreadRecorders.push_back(child);
}
// called by child thread
void ThreadRecorder::removeChildRecorder( class ThreadRecorder* child )
{ LLMutexLock lock(&mChildListMutex);
for (child_thread_recorder_list_t::iterator it = mChildThreadRecorders.begin(), end_it = mChildThreadRecorders.end();
it != end_it;
++it)
{
if ((*it) == child)
{
mChildThreadRecorders.erase(it);
break;
}
}
}
void ThreadRecorder::pushToParent()
{
{ LLMutexLock lock(&mSharedRecordingMutex);
LLTrace::get_thread_recorder()->bringUpToDate(&mThreadRecordingBuffers);
mSharedRecordingBuffers.append(mThreadRecordingBuffers);
mThreadRecordingBuffers.reset();
}
}
static LLFastTimer::DeclareTimer FTM_PULL_TRACE_DATA_FROM_CHILDREN("Pull child thread trace data");
void ThreadRecorder::pullFromChildren()
{
LLFastTimer _(FTM_PULL_TRACE_DATA_FROM_CHILDREN);
if (mActiveRecordings.empty()) return;
{ LLMutexLock lock(&mChildListMutex);
AccumulatorBufferGroup& target_recording_buffers = mActiveRecordings.back()->mPartialRecording;
target_recording_buffers.sync();
for (child_thread_recorder_list_t::iterator it = mChildThreadRecorders.begin(), end_it = mChildThreadRecorders.end();
it != end_it;
++it)
{ LLMutexLock lock(&(*it)->mSharedRecordingMutex);
target_recording_buffers.merge((*it)->mSharedRecordingBuffers);
(*it)->mSharedRecordingBuffers.reset();
}
}
}
void set_master_thread_recorder(ThreadRecorder* recorder)
{
sMasterThreadRecorder = recorder;
}
ThreadRecorder* get_master_thread_recorder()
{
return sMasterThreadRecorder;
}
LLThreadLocalPointer<ThreadRecorder>& get_thread_recorder_ptr()
{
static LLThreadLocalPointer<ThreadRecorder> s_thread_recorder;
return s_thread_recorder;
}
const LLThreadLocalPointer<ThreadRecorder>& get_thread_recorder()
{
return get_thread_recorder_ptr();
}
void set_thread_recorder(ThreadRecorder* recorder)
{
get_thread_recorder_ptr() = recorder;
}
}
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