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source: XIOS/dev/dev_olga/src/context_client.cpp @ 1634

Last change on this file since 1634 was 1634, checked in by oabramkina, 5 years ago
Backporting r1618 to dev before merging it to trunk.
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: 16.2 KB

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1	#include "xios_spl.hpp"
2	#include "context_client.hpp"
3	#include "context_server.hpp"
4	#include "event_client.hpp"
5	#include "buffer_out.hpp"
6	#include "buffer_client.hpp"
7	#include "type.hpp"
8	#include "event_client.hpp"
9	#include "context.hpp"
10	#include "mpi.hpp"
11	#include "timer.hpp"
12	#include "cxios.hpp"
13	#include "server.hpp"
14
15	namespace xios
16	{
17	/*!
18	\param [in] parent Pointer to context on client side
19	\param [in] intraComm_ communicator of group client
20	\param [in] interComm_ communicator of group server
21	\cxtSer [in] cxtSer Pointer to context of server side. (It is only used in case of attached mode).
22	*/
23	CContextClient::CContextClient(CContext* parent, MPI_Comm intraComm_, MPI_Comm interComm_, CContext* cxtSer)
24	: mapBufferSize_(), parentServer(cxtSer), maxBufferedEvents(4)
25	{
26	context = parent;
27	intraComm = intraComm_;
28	interComm = interComm_;
29	MPI_Comm_rank(intraComm, &clientRank);
30	MPI_Comm_size(intraComm, &clientSize);
31
32	int flag;
33	MPI_Comm_test_inter(interComm, &flag);
34	if (flag) MPI_Comm_remote_size(interComm, &serverSize);
35	else MPI_Comm_size(interComm, &serverSize);
36
37	computeLeader(clientRank, clientSize, serverSize, ranksServerLeader, ranksServerNotLeader);
38
39	timeLine = 0;
40	}
41
42	void CContextClient::computeLeader(int clientRank, int clientSize, int serverSize,
43	std::list<int>& rankRecvLeader,
44	std::list<int>& rankRecvNotLeader)
45	{
46	if ((0 == clientSize) \|\| (0 == serverSize)) return;
47
48	if (clientSize < serverSize)
49	{
50	int serverByClient = serverSize / clientSize;
51	int remain = serverSize % clientSize;
52	int rankStart = serverByClient * clientRank;
53
54	if (clientRank < remain)
55	{
56	serverByClient++;
57	rankStart += clientRank;
58	}
59	else
60	rankStart += remain;
61
62	for (int i = 0; i < serverByClient; i++)
63	rankRecvLeader.push_back(rankStart + i);
64
65	rankRecvNotLeader.resize(0);
66	}
67	else
68	{
69	int clientByServer = clientSize / serverSize;
70	int remain = clientSize % serverSize;
71
72	if (clientRank < (clientByServer + 1) * remain)
73	{
74	if (clientRank % (clientByServer + 1) == 0)
75	rankRecvLeader.push_back(clientRank / (clientByServer + 1));
76	else
77	rankRecvNotLeader.push_back(clientRank / (clientByServer + 1));
78	}
79	else
80	{
81	int rank = clientRank - (clientByServer + 1) * remain;
82	if (rank % clientByServer == 0)
83	rankRecvLeader.push_back(remain + rank / clientByServer);
84	else
85	rankRecvNotLeader.push_back(remain + rank / clientByServer);
86	}
87	}
88	}
89
90	/*!
91	In case of attached mode, the current context must be reset to context for client
92	\param [in] event Event sent to server
93	*/
94	void CContextClient::sendEvent(CEventClient& event)
95	{
96	list<int> ranks = event.getRanks();
97	info(100)<<"Event "<<timeLine<<" of context "<<context->getId()<<endl ;
98	if (CXios::checkEventSync)
99	{
100	int typeId, classId, typeId_in, classId_in, timeLine_out;
101	typeId_in=event.getTypeId() ;
102	classId_in=event.getClassId() ;
103	// MPI_Allreduce(&timeLine,&timeLine_out, 1, MPI_UINT64_T, MPI_SUM, intraComm) ; // MPI_UINT64_T standardized by MPI 3
104	MPI_Allreduce(&timeLine,&timeLine_out, 1, MPI_LONG_LONG_INT, MPI_SUM, intraComm) ;
105	MPI_Allreduce(&typeId_in,&typeId, 1, MPI_INT, MPI_SUM, intraComm) ;
106	MPI_Allreduce(&classId_in,&classId, 1, MPI_INT, MPI_SUM, intraComm) ;
107	if (typeId/clientSize!=event.getTypeId() \|\| classId/clientSize!=event.getClassId() \|\| timeLine_out/clientSize!=timeLine)
108	{
109	ERROR("void CContextClient::sendEvent(CEventClient& event)",
110	<< "Event are not coherent between client.");
111	}
112	}
113
114	if (!event.isEmpty())
115	{
116	list<int> sizes = event.getSizes();
117
118	// We force the getBuffers call to be non-blocking on classical servers
119	list<CBufferOut*> buffList;
120	bool couldBuffer = getBuffers(ranks, sizes, buffList, (!CXios::isClient && (CServer::serverLevel == 0) ));
121	// bool couldBuffer = getBuffers(ranks, sizes, buffList, CXios::isServer );
122
123	if (couldBuffer)
124	{
125	event.send(timeLine, sizes, buffList);
126	info(100)<<"Event "<<timeLine<<" of context "<<context->getId()<<" sent"<<endl ;
127
128	checkBuffers(ranks);
129
130	if (isAttachedModeEnabled()) // couldBuffer is always true in attached mode
131	{
132	waitEvent(ranks);
133	CContext::setCurrent(context->getId());
134	}
135	}
136	else
137	{
138	tmpBufferedEvent.ranks = ranks;
139	tmpBufferedEvent.sizes = sizes;
140
141	for (list<int>::const_iterator it = sizes.begin(); it != sizes.end(); it++)
142	tmpBufferedEvent.buffers.push_back(new CBufferOut(*it));
143	info(100)<<"DEBUG : temporaly event created : timeline "<<timeLine<<endl ;
144	event.send(timeLine, tmpBufferedEvent.sizes, tmpBufferedEvent.buffers);
145	info(100)<<"Event "<<timeLine<<" of context "<<context->getId()<<" sent"<<endl ;
146	}
147	}
148
149	timeLine++;
150	}
151
152	/*!
153	* Send the temporarily buffered event (if any).
154	*
155	* \return true if a temporarily buffered event could be sent, false otherwise
156	*/
157	bool CContextClient::sendTemporarilyBufferedEvent()
158	{
159	bool couldSendTmpBufferedEvent = false;
160
161	if (hasTemporarilyBufferedEvent())
162	{
163	list<CBufferOut*> buffList;
164	if (getBuffers(tmpBufferedEvent.ranks, tmpBufferedEvent.sizes, buffList, true)) // Non-blocking call
165	{
166	list<CBufferOut*>::iterator it, itBuffer;
167
168	for (it = tmpBufferedEvent.buffers.begin(), itBuffer = buffList.begin(); it != tmpBufferedEvent.buffers.end(); it++, itBuffer++)
169	(itBuffer)->put((char)(it)->start(), (it)->count());
170
171	info(100)<<"DEBUG : temporaly event sent "<<endl ;
172	checkBuffers(tmpBufferedEvent.ranks);
173
174	tmpBufferedEvent.clear();
175
176	couldSendTmpBufferedEvent = true;
177	}
178	}
179
180	return couldSendTmpBufferedEvent;
181	}
182
183	/*!
184	If client is also server (attached mode), after sending event, it should process right away
185	the incoming event.
186	\param [in] ranks list rank of server connected this client
187	*/
188	void CContextClient::waitEvent(list<int>& ranks)
189	{
190	parentServer->server->setPendingEvent();
191	while (checkBuffers(ranks))
192	{
193	parentServer->server->listen();
194	parentServer->server->checkPendingRequest();
195	}
196
197	while (parentServer->server->hasPendingEvent())
198	{
199	parentServer->server->eventLoop();
200	}
201	}
202
203	/*!
204	* Get buffers for each connection to the servers. This function blocks until there is enough room in the buffers unless
205	* it is explicitly requested to be non-blocking.
206	*
207	* \param [in] serverList list of rank of connected server
208	* \param [in] sizeList size of message corresponding to each connection
209	* \param [out] retBuffers list of buffers that can be used to store an event
210	* \param [in] nonBlocking whether this function should be non-blocking
211	* \return whether the already allocated buffers could be used
212	*/
213	bool CContextClient::getBuffers(const list<int>& serverList, const list<int>& sizeList, list<CBufferOut*>& retBuffers,
214	bool nonBlocking /= false/)
215	{
216	list<int>::const_iterator itServer, itSize;
217	list<CClientBuffer*> bufferList;
218	map<int,CClientBuffer*>::const_iterator it;
219	list<CClientBuffer*>::iterator itBuffer;
220	bool areBuffersFree;
221
222	for (itServer = serverList.begin(); itServer != serverList.end(); itServer++)
223	{
224	it = buffers.find(*itServer);
225	if (it == buffers.end())
226	{
227	newBuffer(*itServer);
228	it = buffers.find(*itServer);
229	}
230	bufferList.push_back(it->second);
231	}
232
233	CTimer::get("Blocking time").resume();
234	do
235	{
236	areBuffersFree = true;
237	for (itBuffer = bufferList.begin(), itSize = sizeList.begin(); itBuffer != bufferList.end(); itBuffer++, itSize++)
238	areBuffersFree &= (itBuffer)->isBufferFree(itSize);
239
240	if (!areBuffersFree)
241	{
242	checkBuffers();
243	if (CServer::serverLevel == 0)
244	context->server->listen();
245
246	else if (CServer::serverLevel == 1)
247	{
248	context->server->listen();
249	for (int i = 0; i < context->serverPrimServer.size(); ++i)
250	context->serverPrimServer[i]->listen();
251	CServer::contextEventLoop(false) ; // avoid dead-lock at finalize...
252	}
253
254	else if (CServer::serverLevel == 2)
255	context->server->listen();
256
257	}
258	} while (!areBuffersFree && !nonBlocking);
259
260	CTimer::get("Blocking time").suspend();
261
262	if (areBuffersFree)
263	{
264	for (itBuffer = bufferList.begin(), itSize = sizeList.begin(); itBuffer != bufferList.end(); itBuffer++, itSize++)
265	retBuffers.push_back((itBuffer)->getBuffer(itSize));
266	}
267
268	return areBuffersFree;
269	}
270
271	/*!
272	Make a new buffer for a certain connection to server with specific rank
273	\param [in] rank rank of connected server
274	*/
275	void CContextClient::newBuffer(int rank)
276	{
277	if (!mapBufferSize_.count(rank))
278	{
279	error(0) << "WARNING: Unexpected request for buffer to communicate with server " << rank << std::endl;
280	mapBufferSize_[rank] = CXios::minBufferSize;
281	maxEventSizes[rank] = CXios::minBufferSize;
282	}
283	CClientBuffer* buffer = buffers[rank] = new CClientBuffer(interComm, rank, mapBufferSize_[rank], maxEventSizes[rank], maxBufferedEvents);
284	// Notify the server
285	CBufferOut* bufOut = buffer->getBuffer(sizeof(StdSize));
286	bufOut->put(mapBufferSize_[rank]); // Stupid C++
287	buffer->checkBuffer();
288	}
289
290	/*!
291	Verify state of buffers. Buffer is under pending state if there is no message on it
292	\return state of buffers, pending(true), ready(false)
293	*/
294	bool CContextClient::checkBuffers(void)
295	{
296	map<int,CClientBuffer*>::iterator itBuff;
297	bool pending = false;
298	for (itBuff = buffers.begin(); itBuff != buffers.end(); itBuff++)
299	pending \|= itBuff->second->checkBuffer();
300	return pending;
301	}
302
303	//! Release all buffers
304	void CContextClient::releaseBuffers()
305	{
306	map<int,CClientBuffer*>::iterator itBuff;
307	for (itBuff = buffers.begin(); itBuff != buffers.end(); itBuff++)
308	{
309	delete itBuff->second;
310	}
311	buffers.clear();
312	}
313
314	/*!
315	Verify state of buffers corresponding to a connection
316	\param [in] ranks list rank of server to which client connects to
317	\return state of buffers, pending(true), ready(false)
318	*/
319	bool CContextClient::checkBuffers(list<int>& ranks)
320	{
321	list<int>::iterator it;
322	bool pending = false;
323	for (it = ranks.begin(); it != ranks.end(); it++) pending \|= buffers[*it]->checkBuffer();
324	return pending;
325	}
326
327	/*!
328	* Set the buffer size for each connection. Warning: This function is collective.
329	*
330	* \param [in] mapSize maps the rank of the connected servers to the size of the correspoinding buffer
331	* \param [in] maxEventSize maps the rank of the connected servers to the size of the biggest event
332	*/
333	void CContextClient::setBufferSize(const std::map<int,StdSize>& mapSize, const std::map<int,StdSize>& maxEventSize)
334	{
335	mapBufferSize_ = mapSize;
336	maxEventSizes = maxEventSize;
337
338	// Compute the maximum number of events that can be safely buffered.
339	double minBufferSizeEventSizeRatio = std::numeric_limits<double>::max();
340	for (std::map<int,StdSize>::const_iterator it = mapSize.begin(), ite = mapSize.end(); it != ite; ++it)
341	{
342	double ratio = double(it->second) / maxEventSizes[it->first];
343	if (ratio < minBufferSizeEventSizeRatio) minBufferSizeEventSizeRatio = ratio;
344	}
345	MPI_Allreduce(MPI_IN_PLACE, &minBufferSizeEventSizeRatio, 1, MPI_DOUBLE, MPI_MIN, intraComm);
346
347	if (minBufferSizeEventSizeRatio < 1.0)
348	{
349	ERROR("void CContextClient::setBufferSize(const std::map<int,StdSize>& mapSize, const std::map<int,StdSize>& maxEventSize)",
350	<< "The buffer sizes and the maximum events sizes are incoherent.");
351	}
352	else if (minBufferSizeEventSizeRatio == std::numeric_limits<double>::max())
353	minBufferSizeEventSizeRatio = 1.0; // In this case, maxBufferedEvents will never be used but we want to avoid any floating point exception
354
355	maxBufferedEvents = size_t(2 * minBufferSizeEventSizeRatio) // there is room for two local buffers on the server
356	+ size_t(minBufferSizeEventSizeRatio) // one local buffer can always be fully used
357	+ 1; // the other local buffer might contain only one event
358	}
359
360	/*!
361	Get leading server in the group of connected server
362	\return ranks of leading servers
363	*/
364	const std::list<int>& CContextClient::getRanksServerNotLeader(void) const
365	{
366	return ranksServerNotLeader;
367	}
368
369	/*!
370	Check if client connects to leading server
371	\return connected(true), not connected (false)
372	*/
373	bool CContextClient::isServerNotLeader(void) const
374	{
375	return !ranksServerNotLeader.empty();
376	}
377
378	/*!
379	Get leading server in the group of connected server
380	\return ranks of leading servers
381	*/
382	const std::list<int>& CContextClient::getRanksServerLeader(void) const
383	{
384	return ranksServerLeader;
385	}
386
387	/*!
388	Check if client connects to leading server
389	\return connected(true), not connected (false)
390	*/
391	bool CContextClient::isServerLeader(void) const
392	{
393	return !ranksServerLeader.empty();
394	}
395
396	/*!
397	* Check if the attached mode is used.
398	*
399	* \return true if and only if attached mode is used
400	*/
401	bool CContextClient::isAttachedModeEnabled() const
402	{
403	return (parentServer != 0);
404	}
405
406	/*!
407	* Finalize context client and do some reports. Function is non-blocking.
408	*/
409	void CContextClient::finalize(void)
410	{
411	map<int,CClientBuffer*>::iterator itBuff;
412	bool stop = false;
413
414	CTimer::get("Blocking time").resume();
415	while (hasTemporarilyBufferedEvent())
416	{
417	checkBuffers();
418	sendTemporarilyBufferedEvent();
419	}
420	CTimer::get("Blocking time").suspend();
421
422	CEventClient event(CContext::GetType(), CContext::EVENT_ID_CONTEXT_FINALIZE);
423	if (isServerLeader())
424	{
425	CMessage msg;
426	const std::list<int>& ranks = getRanksServerLeader();
427	for (std::list<int>::const_iterator itRank = ranks.begin(), itRankEnd = ranks.end(); itRank != itRankEnd; ++itRank)
428	{
429	info(100)<<"DEBUG : Sent context Finalize event to rank "<<*itRank<<endl ;
430	event.push(*itRank, 1, msg);
431	}
432	sendEvent(event);
433	}
434	else sendEvent(event);
435
436	CTimer::get("Blocking time").resume();
437	// while (!stop)
438	{
439	checkBuffers();
440	if (hasTemporarilyBufferedEvent())
441	sendTemporarilyBufferedEvent();
442
443	stop = true;
444	// for (itBuff = buffers.begin(); itBuff != buffers.end(); itBuff++) stop &= !itBuff->second->hasPendingRequest();
445	}
446	CTimer::get("Blocking time").suspend();
447
448	std::map<int,StdSize>::const_iterator itbMap = mapBufferSize_.begin(),
449	iteMap = mapBufferSize_.end(), itMap;
450
451	StdSize totalBuf = 0;
452	for (itMap = itbMap; itMap != iteMap; ++itMap)
453	{
454	report(10) << " Memory report : Context <" << context->getId() << "> : client side : memory used for buffer of each connection to server" << endl
455	<< " +) To server with rank " << itMap->first << " : " << itMap->second << " bytes " << endl;
456	totalBuf += itMap->second;
457	}
458	report(0) << " Memory report : Context <" << context->getId() << "> : client side : total memory used for buffer " << totalBuf << " bytes" << endl;
459
460	//releaseBuffers(); // moved to CContext::finalize()
461	}
462
463
464	/*!
465	*/
466	bool CContextClient::havePendingRequests(void)
467	{
468	bool pending = false;
469	map<int,CClientBuffer*>::iterator itBuff;
470	for (itBuff = buffers.begin(); itBuff != buffers.end(); itBuff++)
471	pending \|= itBuff->second->hasPendingRequest();
472	return pending;
473	}
474
475
476	}

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