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source: XIOS/dev/dev_ym/XIOS_COUPLING/src/context_server.cpp @ 2338

Last change on this file since 2338 was 2326, checked in by ymipsl, 2 years ago
Fix Deadlock from reading phase. YM
Property copyright set to Software name : XIOS (Xml I/O Server) http://forge.ipsl.jussieu.fr/ioserver Creation date : January 2009 Licence : CeCCIL version2 see license file in root directory : Licence_CeCILL_V2-en.txt or http://www.cecill.info/licences/Licence_CeCILL_V2-en.html Holder : CEA/LSCE (Laboratoire des Sciences du CLimat et de l'Environnement) CNRS/IPSL (Institut Pierre Simon Laplace) Project Manager : Yann Meurdesoif yann.meurdesoif@cea.fr Property svn:eol-style set to `native`
File size: 17.3 KB

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1	#include "context_server.hpp"
2	#include "buffer_in.hpp"
3	#include "type.hpp"
4	#include "context.hpp"
5	#include "object_template.hpp"
6	#include "group_template.hpp"
7	#include "attribute_template.hpp"
8	#include "domain.hpp"
9	#include "field.hpp"
10	#include "file.hpp"
11	#include "grid.hpp"
12	#include "mpi.hpp"
13	#include "tracer.hpp"
14	#include "timer.hpp"
15	#include "cxios.hpp"
16	#include "event_scheduler.hpp"
17	#include "server.hpp"
18	#include "servers_ressource.hpp"
19	#include "pool_ressource.hpp"
20	#include "services.hpp"
21	#include "contexts_manager.hpp"
22	#include "timeline_events.hpp"
23
24	#include <boost/functional/hash.hpp>
25	#include <random>
26	#include <chrono>
27
28
29	namespace xios
30	{
31	using namespace std ;
32
33	CContextServer::CContextServer(CContext* parent,MPI_Comm intraComm_,MPI_Comm interComm_)
34	: eventScheduler_(nullptr), isProcessingEvent_(false), associatedClient_(nullptr)
35	{
36	context=parent;
37	intraComm=intraComm_;
38	MPI_Comm_size(intraComm,&intraCommSize);
39	MPI_Comm_rank(intraComm,&intraCommRank);
40
41	interComm=interComm_;
42	int flag;
43	MPI_Comm_test_inter(interComm,&flag);
44
45	if (flag) attachedMode=false ;
46	else attachedMode=true ;
47
48	if (flag) MPI_Comm_remote_size(interComm,&clientSize_);
49	else MPI_Comm_size(interComm,&clientSize_);
50
51
52	SRegisterContextInfo contextInfo ;
53	CXios::getContextsManager()->getContextInfo(context->getId(), contextInfo, intraComm) ;
54
55	// if (contextInfo.serviceType != CServicesManager::CLIENT) // we must have an event scheduler => to be retrieve from the associated services
56	// {
57	//if (!isAttachedModeEnabled()) eventScheduler_=CXios::getPoolRessource()->getService(contextInfo.serviceId,contextInfo.partitionId)->getEventScheduler() ;
58	eventScheduler_=CXios::getPoolRessource()->getService(contextInfo.serviceId,contextInfo.partitionId)->getEventScheduler() ;
59	MPI_Comm_dup(intraComm, &processEventBarrier_) ;
60	// }
61
62
63	currentTimeLine=1;
64	scheduled=false;
65	finished=false;
66
67	// generate unique hash for server
68	auto time=chrono::system_clock::now().time_since_epoch().count() ;
69	std::default_random_engine rd(time); // not reproducible from a run to another
70	std::uniform_int_distribution<size_t> dist;
71	hashId=dist(rd) ;
72	MPI_Bcast(&hashId,1,MPI_SIZE_T,0,intraComm) ; // Bcast to all server of the context
73
74
75	if (!isAttachedModeEnabled()) MPI_Intercomm_merge(interComm_,true,&interCommMerged_) ;
76	MPI_Comm_split(intraComm_, intraCommRank, intraCommRank, &commSelf_) ; // for windows
77
78	itLastTimeLine=lastTimeLine.begin() ;
79
80	pureOneSided=CXios::getin<bool>("pure_one_sided",false); // pure one sided communication (for test)
81	if (isAttachedModeEnabled()) pureOneSided=false ; // no one sided in attach mode
82
83	}
84
85	//! Attached mode is used ?
86	//! \return true if attached mode is used, false otherwise
87	bool CContextServer::isAttachedModeEnabled() const
88	{
89	return attachedMode ;
90	}
91
92	void CContextServer::setPendingEvent(void)
93	{
94	pendingEvent=true;
95	}
96
97	bool CContextServer::hasPendingEvent(void)
98	{
99	return pendingEvent;
100	}
101
102	bool CContextServer::hasFinished(void)
103	{
104	return finished;
105	}
106
107	bool CContextServer::eventLoop(bool enableEventsProcessing /= true/)
108	{
109	CTimer::get("listen request").resume();
110	listen();
111	CTimer::get("listen request").suspend();
112	CTimer::get("check pending request").resume();
113	checkPendingRequest();
114	checkPendingProbe() ;
115	CTimer::get("check pending request").suspend();
116	CTimer::get("check event process").resume();
117	processEvents(enableEventsProcessing);
118	CTimer::get("check event process").suspend();
119	return finished;
120	}
121
122	void CContextServer::listen(void)
123	{
124	int rank;
125	int flag;
126	int count;
127	char * addr;
128	MPI_Status status;
129	MPI_Message message ;
130	map<int,CServerBuffer*>::iterator it;
131	bool okLoop;
132
133	traceOff();
134	MPI_Improbe(MPI_ANY_SOURCE, 20,interComm,&flag,&message, &status);
135	traceOn();
136	if (flag==true) listenPendingRequest(message, status) ;
137	}
138
139	bool CContextServer::listenPendingRequest( MPI_Message &message, MPI_Status& status)
140	{
141	int count;
142	char * addr;
143	map<int,CServerBuffer*>::iterator it;
144	int rank=status.MPI_SOURCE ;
145
146	it=buffers.find(rank);
147	if (it==buffers.end()) // Receive the buffer size and allocate the buffer
148	{
149	MPI_Aint recvBuff[4] ;
150	MPI_Mrecv(recvBuff, 4, MPI_AINT, &message, &status);
151	remoteHashId_ = recvBuff[0] ;
152	StdSize buffSize = recvBuff[1];
153	vector<MPI_Aint> winAdress(2) ;
154	winAdress[0]=recvBuff[2] ; winAdress[1]=recvBuff[3] ;
155	mapBufferSize_.insert(std::make_pair(rank, buffSize));
156
157	// create windows dynamically for one-sided
158	if (!isAttachedModeEnabled())
159	{
160	CTimer::get("create Windows").resume() ;
161	MPI_Comm interComm ;
162	MPI_Intercomm_create(commSelf_, 0, interCommMerged_, rank, 0 , &interComm) ;
163	MPI_Intercomm_merge(interComm, true, &winComm_[rank]) ;
164	CXios::getMpiGarbageCollector().registerCommunicator(winComm_[rank]) ;
165	MPI_Comm_free(&interComm) ;
166	windows_[rank].resize(2) ;
167	MPI_Win_create_dynamic(MPI_INFO_NULL, winComm_[rank], &windows_[rank][0]);
168	CXios::getMpiGarbageCollector().registerWindow(windows_[rank][0]) ;
169	MPI_Win_create_dynamic(MPI_INFO_NULL, winComm_[rank], &windows_[rank][1]);
170	CXios::getMpiGarbageCollector().registerWindow(windows_[rank][1]) ;
171	CTimer::get("create Windows").suspend() ;
172	MPI_Barrier(winComm_[rank]) ;
173	}
174	else
175	{
176	winComm_[rank] = MPI_COMM_NULL ;
177	windows_[rank].resize(2) ;
178	windows_[rank][0] = MPI_WIN_NULL ;
179	windows_[rank][1] = MPI_WIN_NULL ;
180	}
181
182	it=(buffers.insert(pair<int,CServerBuffer*>(rank,new CServerBuffer(windows_[rank], winAdress, 0, buffSize)))).first;
183	lastTimeLine[rank]=0 ;
184	itLastTimeLine=lastTimeLine.begin() ;
185
186	return true;
187	}
188	else
189	{
190	std::pair<MPI_Message,MPI_Status> mypair(message,status) ;
191	pendingProbe[rank].push_back(mypair) ;
192	return false;
193	}
194	}
195
196	void CContextServer::checkPendingProbe(void)
197	{
198
199	list<int> recvProbe ;
200	list<int>::iterator itRecv ;
201	map<int, list<std::pair<MPI_Message,MPI_Status> > >::iterator itProbe;
202
203	for(itProbe=pendingProbe.begin();itProbe!=pendingProbe.end();itProbe++)
204	{
205	int rank=itProbe->first ;
206	if (pendingRequest.count(rank)==0)
207	{
208	MPI_Message& message = itProbe->second.front().first ;
209	MPI_Status& status = itProbe->second.front().second ;
210	int count ;
211	MPI_Get_count(&status,MPI_CHAR,&count);
212	map<int,CServerBuffer*>::iterator it = buffers.find(rank);
213	if ( (it->second->isBufferFree(count) && !it->second->isResizing()) // accept new request if buffer is free
214	\|\| (it->second->isResizing() && it->second->isBufferEmpty()) ) // or if resizing wait for buffer is empty
215	{
216	char * addr;
217	addr=(char*)it->second->getBuffer(count);
218	MPI_Imrecv(addr,count,MPI_CHAR, &message, &pendingRequest[rank]);
219	bufferRequest[rank]=addr;
220	recvProbe.push_back(rank) ;
221	itProbe->second.pop_front() ;
222	}
223	}
224	}
225
226	for(itRecv=recvProbe.begin(); itRecv!=recvProbe.end(); itRecv++) if (pendingProbe[itRecv].empty()) pendingProbe.erase(itRecv) ;
227	}
228
229
230	void CContextServer::checkPendingRequest(void)
231	{
232	map<int,MPI_Request>::iterator it;
233	list<int> recvRequest;
234	list<int>::iterator itRecv;
235	int rank;
236	int flag;
237	int count;
238	MPI_Status status;
239
240	if (!pendingRequest.empty()) CTimer::get("receiving requests").resume();
241	else CTimer::get("receiving requests").suspend();
242
243	for(it=pendingRequest.begin();it!=pendingRequest.end();it++)
244	{
245	rank=it->first;
246	traceOff();
247	MPI_Test(& it->second, &flag, &status);
248	traceOn();
249	if (flag==true)
250	{
251	buffers[rank]->updateCurrentWindows() ;
252	recvRequest.push_back(rank);
253	MPI_Get_count(&status,MPI_CHAR,&count);
254	processRequest(rank,bufferRequest[rank],count);
255	}
256	}
257
258	for(itRecv=recvRequest.begin();itRecv!=recvRequest.end();itRecv++)
259	{
260	pendingRequest.erase(*itRecv);
261	bufferRequest.erase(*itRecv);
262	}
263	}
264
265	void CContextServer::getBufferFromClient(size_t timeLine)
266	{
267	CTimer::get("CContextServer::getBufferFromClient").resume() ;
268	if (!isAttachedModeEnabled()) // one sided desactivated in attached mode
269	{
270	int rank ;
271	char *buffer ;
272	size_t count ;
273
274	if (itLastTimeLine==lastTimeLine.end()) itLastTimeLine=lastTimeLine.begin() ;
275	for(;itLastTimeLine!=lastTimeLine.end();++itLastTimeLine)
276	{
277	rank=itLastTimeLine->first ;
278	if (itLastTimeLine->second < timeLine && pendingRequest.count(rank)==0 && buffers[rank]->isBufferEmpty())
279	{
280	if (buffers[rank]->getBufferFromClient(timeLine, buffer, count)) processRequest(rank, buffer, count);
281	if (count >= 0) ++itLastTimeLine ;
282	break ;
283	}
284	}
285	}
286	CTimer::get("CContextServer::getBufferFromClient").suspend() ;
287	}
288
289
290	void CContextServer::processRequest(int rank, char* buff,int count)
291	{
292
293	CBufferIn buffer(buff,count);
294	char* startBuffer,endBuffer;
295	int size, offset;
296	size_t timeLine=0;
297	map<size_t,CEventServer*>::iterator it;
298
299
300	CTimer::get("Process request").resume();
301	while(count>0)
302	{
303	char* startBuffer=(char*)buffer.ptr();
304	CBufferIn newBuffer(startBuffer,buffer.remain());
305	newBuffer>>size>>timeLine;
306
307	if (timeLine==timelineEventNotifyChangeBufferSize)
308	{
309	buffers[rank]->notifyBufferResizing() ;
310	buffers[rank]->updateCurrentWindows() ;
311	buffers[rank]->popBuffer(count) ;
312	info(100)<<"Context id "<<context->getId()<<" : Receive NotifyChangeBufferSize from client rank "<<rank<<endl
313	<<"isBufferEmpty ? "<<buffers[rank]->isBufferEmpty()<<" remaining count : "<<buffers[rank]->getUsed()<<endl;
314	}
315	else if (timeLine==timelineEventChangeBufferSize)
316	{
317	size_t newSize ;
318	vector<MPI_Aint> winAdress(2) ;
319	newBuffer>>newSize>>winAdress[0]>>winAdress[1] ;
320	buffers[rank]->freeBuffer(count) ;
321	delete buffers[rank] ;
322	buffers[rank] = new CServerBuffer(windows_[rank], winAdress, 0, 2*newSize) ;
323	info(100)<<"Context id "<<context->getId()<<" : Receive ChangeBufferSize from client rank "<<rank
324	<<" newSize : "<<newSize<<" Address : "<<winAdress[0]<<" & "<<winAdress[1]<<endl ;
325	}
326	else
327	{
328	info(100)<<"Context id "<<context->getId()<<" : Receive standard event from client rank "<<rank<<" with timeLine : "<<timeLine<<endl ;
329	it=events.find(timeLine);
330	if (it==events.end()) it=events.insert(pair<int,CEventServer*>(timeLine,new CEventServer(this))).first;
331	it->second->push(rank,buffers[rank],startBuffer,size);
332	if (timeLine>0) lastTimeLine[rank]=timeLine ;
333	}
334	buffer.advance(size);
335	count=buffer.remain();
336	}
337
338	CTimer::get("Process request").suspend();
339	}
340
341	void CContextServer::processEvents(bool enableEventsProcessing)
342	{
343	map<size_t,CEventServer*>::iterator it;
344	CEventServer* event;
345
346	// if (context->isProcessingEvent()) return ;
347	if (isProcessingEvent_) return ;
348	if (isAttachedModeEnabled())
349	if (!CXios::getDaemonsManager()->isScheduledContext(remoteHashId_)) return ;
350
351	it=events.find(currentTimeLine);
352	if (it!=events.end())
353	{
354	event=it->second;
355
356	if (event->isFull())
357	{
358	if (!scheduled && !isAttachedModeEnabled()) // Skip event scheduling for attached mode and reception on client side
359	{
360	eventScheduler_->registerEvent(currentTimeLine,hashId);
361	scheduled=true;
362	}
363	else if (isAttachedModeEnabled() \|\| eventScheduler_->queryEvent(currentTimeLine,hashId) )
364	{
365	if (!enableEventsProcessing && isCollectiveEvent(*event)) return ;
366
367	if (!eventScheduled_)
368	{
369	MPI_Ibarrier(processEventBarrier_,&processEventRequest_) ;
370	eventScheduled_=true ;
371	return ;
372	}
373	else
374	{
375	MPI_Status status ;
376	int flag ;
377	MPI_Test(&processEventRequest_, &flag, &status) ;
378	if (!flag) return ;
379	eventScheduled_=false ;
380	}
381
382	if (!isAttachedModeEnabled()) eventScheduler_->popEvent() ;
383	//MPI_Barrier(intraComm) ;
384	// When using attached mode, synchronise the processes to avoid that differents event be scheduled by differents processes
385	// The best way to properly solve this problem will be to use the event scheduler also in attached mode
386	// for now just set up a MPI barrier
387	//ym to be check later
388	// if (!eventScheduler_ && CXios::isServer) MPI_Barrier(intraComm) ;
389
390	// context->setProcessingEvent() ;
391	isProcessingEvent_=true ;
392	CTimer::get("Process events").resume();
393	info(100)<<"Context id "<<context->getId()<<" : Process Event "<<currentTimeLine<<" of class "<<event->classId<<" of type "<<event->type<<endl ;
394	dispatchEvent(*event);
395	CTimer::get("Process events").suspend();
396	isProcessingEvent_=false ;
397	// context->unsetProcessingEvent() ;
398	pendingEvent=false;
399	delete event;
400	events.erase(it);
401	currentTimeLine++;
402	scheduled = false;
403	if (isAttachedModeEnabled()) CXios::getDaemonsManager()->unscheduleContext() ;
404	}
405	}
406	else if (pendingRequest.empty()) getBufferFromClient(currentTimeLine) ;
407	}
408	else if (pendingRequest.empty()) getBufferFromClient(currentTimeLine) ; // if pure one sided check buffer even if no event recorded at current time line
409	}
410
411	CContextServer::~CContextServer()
412	{
413	map<int,CServerBuffer*>::iterator it;
414	for(it=buffers.begin();it!=buffers.end();++it) delete it->second;
415	buffers.clear() ;
416	}
417
418	void CContextServer::releaseBuffers()
419	{
420	//for(auto it=buffers.begin();it!=buffers.end();++it) delete it->second ;
421	//buffers.clear() ;
422	freeWindows() ;
423	}
424
425	void CContextServer::freeWindows()
426	{
427	//if (!isAttachedModeEnabled())
428	//{
429	// for(auto& it : winComm_)
430	// {
431	// int rank = it.first ;
432	// MPI_Win_free(&windows_[rank][0]);
433	// MPI_Win_free(&windows_[rank][1]);
434	// MPI_Comm_free(&winComm_[rank]) ;
435	// }
436	//}
437	}
438
439	void CContextServer::notifyClientsFinalize(void)
440	{
441	for(auto it=buffers.begin();it!=buffers.end();++it)
442	{
443	it->second->notifyClientFinalize() ;
444	}
445	}
446
447	void CContextServer::dispatchEvent(CEventServer& event)
448	{
449	string contextName;
450	string buff;
451	int MsgSize;
452	int rank;
453	list<CEventServer::SSubEvent>::iterator it;
454	StdString ctxId = context->getId();
455	CContext::setCurrent(ctxId);
456	StdSize totalBuf = 0;
457
458	if (event.classId==CContext::GetType() && event.type==CContext::EVENT_ID_CONTEXT_FINALIZE)
459	{
460	finished=true;
461	info(20)<<" CContextServer: Receive context <"<<context->getId()<<"> finalize."<<endl;
462	notifyClientsFinalize() ;
463	CTimer::get("receiving requests").suspend();
464	context->finalize();
465
466	std::map<int, StdSize>::const_iterator itbMap = mapBufferSize_.begin(),
467	iteMap = mapBufferSize_.end(), itMap;
468	for (itMap = itbMap; itMap != iteMap; ++itMap)
469	{
470	rank = itMap->first;
471	report(10)<< " Memory report : Context <"<<ctxId<<"> : server side : memory used for buffer of each connection to client" << endl
472	<< " +) With client of rank " << rank << " : " << itMap->second << " bytes " << endl;
473	totalBuf += itMap->second;
474	}
475	report(0)<< " Memory report : Context <"<<ctxId<<"> : server side : total memory used for buffer "<<totalBuf<<" bytes"<<endl;
476	}
477	else if (event.classId==CContext::GetType()) CContext::dispatchEvent(event);
478	else if (event.classId==CContextGroup::GetType()) CContextGroup::dispatchEvent(event);
479	else if (event.classId==CCalendarWrapper::GetType()) CCalendarWrapper::dispatchEvent(event);
480	else if (event.classId==CDomain::GetType()) CDomain::dispatchEvent(event);
481	else if (event.classId==CDomainGroup::GetType()) CDomainGroup::dispatchEvent(event);
482	else if (event.classId==CAxis::GetType()) CAxis::dispatchEvent(event);
483	else if (event.classId==CAxisGroup::GetType()) CAxisGroup::dispatchEvent(event);
484	else if (event.classId==CScalar::GetType()) CScalar::dispatchEvent(event);
485	else if (event.classId==CScalarGroup::GetType()) CScalarGroup::dispatchEvent(event);
486	else if (event.classId==CGrid::GetType()) CGrid::dispatchEvent(event);
487	else if (event.classId==CGridGroup::GetType()) CGridGroup::dispatchEvent(event);
488	else if (event.classId==CField::GetType()) CField::dispatchEvent(event);
489	else if (event.classId==CFieldGroup::GetType()) CFieldGroup::dispatchEvent(event);
490	else if (event.classId==CFile::GetType()) CFile::dispatchEvent(event);
491	else if (event.classId==CFileGroup::GetType()) CFileGroup::dispatchEvent(event);
492	else if (event.classId==CVariable::GetType()) CVariable::dispatchEvent(event);
493	else
494	{
495	ERROR("void CContextServer::dispatchEvent(CEventServer& event)",<<" Bad event class Id"<<endl);
496	}
497	}
498
499	bool CContextServer::isCollectiveEvent(CEventServer& event)
500	{
501	if (event.type>1000) return false ;
502	else return true ;
503	}
504	}

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