1 /* Copyright (c) 2007-2015. The SimGrid Team.
2 * All rights reserved. */
4 /* This program is free software; you can redistribute it and/or modify it
5 * under the terms of the license (GNU LGPL) which comes with this package. */
7 #include <xbt/config.hpp>
11 #include "xbt/replay.h"
13 #include "src/mc/mc_replay.h"
14 #include "src/simix/smx_private.h"
15 #include "simgrid/sg_config.h"
16 #include "smpi/smpi_utils.hpp"
17 #include <simgrid/s4u/host.hpp>
19 #include "src/kernel/activity/SynchroComm.hpp"
21 XBT_LOG_NEW_DEFAULT_SUBCATEGORY(smpi_request, smpi, "Logging specific to SMPI (reques)");
23 static simgrid::config::Flag<double> smpi_iprobe_sleep(
24 "smpi/iprobe", "Minimum time to inject inside a call to MPI_Iprobe", 1e-4);
25 static simgrid::config::Flag<double> smpi_test_sleep(
26 "smpi/test", "Minimum time to inject inside a call to MPI_Test", 1e-4);
28 std::vector<s_smpi_factor_t> smpi_os_values;
29 std::vector<s_smpi_factor_t> smpi_or_values;
30 std::vector<s_smpi_factor_t> smpi_ois_values;
32 extern void (*smpi_comm_copy_data_callback) (smx_activity_t, void*, size_t);
34 static double smpi_os(size_t size)
36 if (smpi_os_values.empty()) {
37 smpi_os_values = parse_factor(xbt_cfg_get_string("smpi/os"));
39 double current=smpi_os_values.empty()?0.0:smpi_os_values[0].values[0]+smpi_os_values[0].values[1]*size;
40 // Iterate over all the sections that were specified and find the right
41 // value. (fact.factor represents the interval sizes; we want to find the
42 // section that has fact.factor <= size and no other such fact.factor <= size)
43 // Note: parse_factor() (used before) already sorts the vector we iterate over!
44 for (auto& fact : smpi_os_values) {
45 if (size <= fact.factor) { // Values already too large, use the previously computed value of current!
46 XBT_DEBUG("os : %zu <= %zu return %.10f", size, fact.factor, current);
49 // If the next section is too large, the current section must be used.
50 // Hence, save the cost, as we might have to use it.
51 current = fact.values[0]+fact.values[1]*size;
54 XBT_DEBUG("Searching for smpi/os: %zu is larger than the largest boundary, return %.10f", size, current);
59 static double smpi_ois(size_t size)
61 if (smpi_ois_values.empty()) {
62 smpi_ois_values = parse_factor(xbt_cfg_get_string("smpi/ois"));
64 double current=smpi_ois_values.empty()?0.0:smpi_ois_values[0].values[0]+smpi_ois_values[0].values[1]*size;
65 // Iterate over all the sections that were specified and find the right value. (fact.factor represents the interval
66 // sizes; we want to find the section that has fact.factor <= size and no other such fact.factor <= size)
67 // Note: parse_factor() (used before) already sorts the vector we iterate over!
68 for (auto& fact : smpi_ois_values) {
69 if (size <= fact.factor) { // Values already too large, use the previously computed value of current!
70 XBT_DEBUG("ois : %zu <= %zu return %.10f", size, fact.factor, current);
73 // If the next section is too large, the current section must be used.
74 // Hence, save the cost, as we might have to use it.
75 current = fact.values[0]+fact.values[1]*size;
78 XBT_DEBUG("Searching for smpi/ois: %zu is larger than the largest boundary, return %.10f", size, current);
83 static double smpi_or(size_t size)
85 if (smpi_or_values.empty()) {
86 smpi_or_values = parse_factor(xbt_cfg_get_string("smpi/or"));
89 double current=smpi_or_values.empty()?0.0:smpi_or_values.front().values[0]+smpi_or_values.front().values[1]*size;
91 // Iterate over all the sections that were specified and find the right value. (fact.factor represents the interval
92 // sizes; we want to find the section that has fact.factor <= size and no other such fact.factor <= size)
93 // Note: parse_factor() (used before) already sorts the vector we iterate over!
94 for (auto fact : smpi_or_values) {
95 if (size <= fact.factor) { // Values already too large, use the previously computed value of current!
96 XBT_DEBUG("or : %zu <= %zu return %.10f", size, fact.factor, current);
99 // If the next section is too large, the current section must be used.
100 // Hence, save the cost, as we might have to use it.
101 current=fact.values[0]+fact.values[1]*size;
104 XBT_DEBUG("smpi_or: %zu is larger than largest boundary, return %.10f", size, current);
113 Request::Request(void *buf, int count, MPI_Datatype datatype, int src, int dst, int tag, MPI_Comm comm, unsigned flags) : src_(src), dst_(dst), tag_(tag), comm_(comm), flags_(flags)
115 void *old_buf = nullptr;
116 s_smpi_subtype_t *subtype = static_cast<s_smpi_subtype_t*>(datatype->substruct);
118 if((((flags & RECV) != 0) && ((flags & ACCUMULATE) !=0)) || (datatype->sizeof_substruct != 0)){
119 // This part handles the problem of non-contiguous memory
121 buf = count==0 ? nullptr : xbt_malloc(count*smpi_datatype_size(datatype));
122 if ((datatype->sizeof_substruct != 0) && ((flags & SEND) != 0)) {
123 subtype->serialize(old_buf, buf, count, datatype->substruct);
127 // This part handles the problem of non-contiguous memory (for the unserialisation at the reception)
129 old_type_ = datatype;
130 size_ = smpi_datatype_size(datatype) * count;
131 smpi_datatype_use(datatype);
135 detached_sender_ = nullptr;
140 if (flags & PERSISTENT)
148 //Request::destroy(void* request)
150 // MPI_Request req = static_cast<MPI_Request>(request);
154 MPI_Comm Request::comm(){
170 int Request::flags(){
174 int Request::detached(){
179 void Request::unuse(MPI_Request* request)
181 if((*request) != MPI_REQUEST_NULL){
182 (*request)->refcount_--;
183 if((*request)->refcount_<0) xbt_die("wrong refcount");
185 if((*request)->refcount_==0){
186 smpi_datatype_unuse((*request)->old_type_);
187 (*request)->comm_->unuse();
188 (*request)->print_request("Destroying");
190 *request = MPI_REQUEST_NULL;
192 (*request)->print_request("Decrementing");
195 xbt_die("freeing an already free request");
200 int Request::match_recv(void* a, void* b, smx_activity_t ignored) {
201 MPI_Request ref = static_cast<MPI_Request>(a);
202 MPI_Request req = static_cast<MPI_Request>(b);
203 XBT_DEBUG("Trying to match a recv of src %d against %d, tag %d against %d",ref->src_,req->src_, ref->tag_, req->tag_);
205 xbt_assert(ref, "Cannot match recv against null reference");
206 xbt_assert(req, "Cannot match recv against null request");
207 if((ref->src_ == MPI_ANY_SOURCE || req->src_ == ref->src_)
208 && ((ref->tag_ == MPI_ANY_TAG && req->tag_ >=0) || req->tag_ == ref->tag_)){
209 //we match, we can transfer some values
210 if(ref->src_ == MPI_ANY_SOURCE)
211 ref->real_src_ = req->src_;
212 if(ref->tag_ == MPI_ANY_TAG)
213 ref->real_tag_ = req->tag_;
214 if(ref->real_size_ < req->real_size_)
216 if(req->detached_==1)
217 ref->detached_sender_=req; //tie the sender to the receiver, as it is detached and has to be freed in the receiver
218 XBT_DEBUG("match succeeded");
223 int Request::match_send(void* a, void* b,smx_activity_t ignored) {
224 MPI_Request ref = static_cast<MPI_Request>(a);
225 MPI_Request req = static_cast<MPI_Request>(b);
226 XBT_DEBUG("Trying to match a send of src %d against %d, tag %d against %d",ref->src_,req->src_, ref->tag_, req->tag_);
227 xbt_assert(ref, "Cannot match send against null reference");
228 xbt_assert(req, "Cannot match send against null request");
230 if((req->src_ == MPI_ANY_SOURCE || req->src_ == ref->src_)
231 && ((req->tag_ == MPI_ANY_TAG && ref->tag_ >=0)|| req->tag_ == ref->tag_)){
232 if(req->src_ == MPI_ANY_SOURCE)
233 req->real_src_ = ref->src_;
234 if(req->tag_ == MPI_ANY_TAG)
235 req->real_tag_ = ref->tag_;
236 if(req->real_size_ < ref->real_size_)
238 if(ref->detached_==1)
239 req->detached_sender_=ref; //tie the sender to the receiver, as it is detached and has to be freed in the receiver
240 XBT_DEBUG("match succeeded");
246 void Request::print_request(const char *message)
248 XBT_VERB("%s request %p [buf = %p, size = %zu, src = %d, dst = %d, tag = %d, flags = %x]",
249 message, this, buf_, size_, src_, dst_, tag_, flags_);
253 /* factories, to hide the internal flags from the caller */
254 MPI_Request Request::send_init(void *buf, int count, MPI_Datatype datatype, int dst, int tag, MPI_Comm comm)
256 MPI_Request request = nullptr; /* MC needs the comm to be set to nullptr during the call */
257 request = new Request(buf==MPI_BOTTOM ? nullptr : buf, count, datatype, smpi_process_index(),
258 comm->group()->index(dst), tag, comm, PERSISTENT | SEND | PREPARED);
262 MPI_Request Request::ssend_init(void *buf, int count, MPI_Datatype datatype, int dst, int tag, MPI_Comm comm)
264 MPI_Request request = nullptr; /* MC needs the comm to be set to nullptr during the call */
265 request = new Request(buf==MPI_BOTTOM ? nullptr : buf, count, datatype, smpi_process_index(),
266 comm->group()->index(dst), tag, comm, PERSISTENT | SSEND | SEND | PREPARED);
270 MPI_Request Request::isend_init(void *buf, int count, MPI_Datatype datatype, int dst, int tag, MPI_Comm comm)
272 MPI_Request request = nullptr; /* MC needs the comm to be set to nullptr during the call */
273 request = new Request(buf==MPI_BOTTOM ? nullptr : buf , count, datatype, smpi_process_index(),
274 comm->group()->index(dst), tag,comm, PERSISTENT | ISEND | SEND | PREPARED);
279 MPI_Request Request::rma_send_init(void *buf, int count, MPI_Datatype datatype, int src, int dst, int tag, MPI_Comm comm,
282 MPI_Request request = nullptr; /* MC needs the comm to be set to nullptr during the call */
284 request = new Request(buf==MPI_BOTTOM ? nullptr : buf , count, datatype, src, dst, tag,
285 comm, RMA | NON_PERSISTENT | ISEND | SEND | PREPARED);
287 request = new Request(buf==MPI_BOTTOM ? nullptr : buf, count, datatype, src, dst, tag,
288 comm, RMA | NON_PERSISTENT | ISEND | SEND | PREPARED | ACCUMULATE);
294 MPI_Request Request::recv_init(void *buf, int count, MPI_Datatype datatype, int src, int tag, MPI_Comm comm)
296 MPI_Request request = nullptr; /* MC needs the comm to be set to nullptr during the call */
297 request = new Request(buf==MPI_BOTTOM ? nullptr : buf, count, datatype,
298 src == MPI_ANY_SOURCE ? MPI_ANY_SOURCE : comm->group()->index(src),
299 smpi_process_index(), tag, comm, PERSISTENT | RECV | PREPARED);
303 MPI_Request Request::rma_recv_init(void *buf, int count, MPI_Datatype datatype, int src, int dst, int tag, MPI_Comm comm,
306 MPI_Request request = nullptr; /* MC needs the comm to be set to nullptr during the call */
308 request = new Request(buf==MPI_BOTTOM ? nullptr : buf, count, datatype, src, dst, tag,
309 comm, RMA | NON_PERSISTENT | RECV | PREPARED);
311 request = new Request(buf==MPI_BOTTOM ? nullptr : buf, count, datatype, src, dst, tag,
312 comm, RMA | NON_PERSISTENT | RECV | PREPARED | ACCUMULATE);
318 MPI_Request Request::irecv_init(void *buf, int count, MPI_Datatype datatype, int src, int tag, MPI_Comm comm)
320 MPI_Request request = nullptr; /* MC needs the comm to be set to nullptr during the call */
321 request = new Request(buf==MPI_BOTTOM ? nullptr : buf, count, datatype, src == MPI_ANY_SOURCE ? MPI_ANY_SOURCE :
322 comm->group()->index(src), smpi_process_index(), tag,
323 comm, PERSISTENT | RECV | PREPARED);
327 MPI_Request Request::isend(void *buf, int count, MPI_Datatype datatype, int dst, int tag, MPI_Comm comm)
329 MPI_Request request = nullptr; /* MC needs the comm to be set to nullptr during the call */
330 request = new Request(buf==MPI_BOTTOM ? nullptr : buf, count, datatype, smpi_process_index(),
331 comm->group()->index(dst), tag, comm, NON_PERSISTENT | ISEND | SEND);
336 MPI_Request Request::issend(void *buf, int count, MPI_Datatype datatype, int dst, int tag, MPI_Comm comm)
338 MPI_Request request = nullptr; /* MC needs the comm to be set to nullptr during the call */
339 request = new Request(buf==MPI_BOTTOM ? nullptr : buf, count, datatype, smpi_process_index(),
340 comm->group()->index(dst), tag,comm, NON_PERSISTENT | ISEND | SSEND | SEND);
346 MPI_Request Request::irecv(void *buf, int count, MPI_Datatype datatype, int src, int tag, MPI_Comm comm)
348 MPI_Request request = nullptr; /* MC needs the comm to be set to nullptr during the call */
349 request = new Request(buf==MPI_BOTTOM ? nullptr : buf, count, datatype, src == MPI_ANY_SOURCE ? MPI_ANY_SOURCE :
350 comm->group()->index(src), smpi_process_index(), tag, comm,
351 NON_PERSISTENT | RECV);
356 void Request::recv(void *buf, int count, MPI_Datatype datatype, int src, int tag, MPI_Comm comm, MPI_Status * status)
358 MPI_Request request = nullptr; /* MC needs the comm to be set to nullptr during the call */
359 request = irecv(buf, count, datatype, src, tag, comm);
360 wait(&request,status);
364 void Request::send(void *buf, int count, MPI_Datatype datatype, int dst, int tag, MPI_Comm comm)
366 MPI_Request request = nullptr; /* MC needs the comm to be set to nullptr during the call */
367 request = new Request(buf==MPI_BOTTOM ? nullptr : buf, count, datatype, smpi_process_index(),
368 comm->group()->index(dst), tag, comm, NON_PERSISTENT | SEND);
371 wait(&request, MPI_STATUS_IGNORE);
375 void Request::ssend(void *buf, int count, MPI_Datatype datatype, int dst, int tag, MPI_Comm comm)
377 MPI_Request request = nullptr; /* MC needs the comm to be set to nullptr during the call */
378 request = new Request(buf==MPI_BOTTOM ? nullptr : buf, count, datatype, smpi_process_index(),
379 comm->group()->index(dst), tag, comm, NON_PERSISTENT | SSEND | SEND);
382 wait(&request,MPI_STATUS_IGNORE);
388 void Request::sendrecv(void *sendbuf, int sendcount, MPI_Datatype sendtype,int dst, int sendtag,
389 void *recvbuf, int recvcount, MPI_Datatype recvtype, int src, int recvtag,
390 MPI_Comm comm, MPI_Status * status)
392 MPI_Request requests[2];
394 int myid=smpi_process_index();
395 if ((comm->group()->index(dst) == myid) && (comm->group()->index(src) == myid)){
396 smpi_datatype_copy(sendbuf, sendcount, sendtype, recvbuf, recvcount, recvtype);
399 requests[0] = isend_init(sendbuf, sendcount, sendtype, dst, sendtag, comm);
400 requests[1] = irecv_init(recvbuf, recvcount, recvtype, src, recvtag, comm);
401 startall(2, requests);
402 waitall(2, requests, stats);
405 if(status != MPI_STATUS_IGNORE) {
406 // Copy receive status
413 void Request::start()
415 smx_mailbox_t mailbox;
417 xbt_assert(action_ == nullptr, "Cannot (re-)start unfinished communication");
422 if ((flags_ & RECV) != 0) {
423 this->print_request("New recv");
425 int async_small_thresh = xbt_cfg_get_int("smpi/async-small-thresh");
427 xbt_mutex_t mut = smpi_process_mailboxes_mutex();
428 if (async_small_thresh != 0 || (flags_ & RMA) != 0)
429 xbt_mutex_acquire(mut);
431 if (async_small_thresh == 0 && (flags_ & RMA) == 0 ) {
432 mailbox = smpi_process_mailbox();
434 else if (((flags_ & RMA) != 0) || static_cast<int>(size_) < async_small_thresh) {
435 //We have to check both mailboxes (because SSEND messages are sent to the large mbox).
436 //begin with the more appropriate one : the small one.
437 mailbox = smpi_process_mailbox_small();
438 XBT_DEBUG("Is there a corresponding send already posted in the small mailbox %p (in case of SSEND)?", mailbox);
439 smx_activity_t action = simcall_comm_iprobe(mailbox, 0, src_,tag_, &match_recv,
440 static_cast<void*>(this));
442 if (action == nullptr) {
443 mailbox = smpi_process_mailbox();
444 XBT_DEBUG("No, nothing in the small mailbox test the other one : %p", mailbox);
445 action = simcall_comm_iprobe(mailbox, 0, src_,tag_, &match_recv, static_cast<void*>(this));
446 if (action == nullptr) {
447 XBT_DEBUG("Still nothing, switch back to the small mailbox : %p", mailbox);
448 mailbox = smpi_process_mailbox_small();
451 XBT_DEBUG("yes there was something for us in the large mailbox");
454 mailbox = smpi_process_mailbox_small();
455 XBT_DEBUG("Is there a corresponding send already posted the small mailbox?");
456 smx_activity_t action = simcall_comm_iprobe(mailbox, 0, src_,tag_, &match_recv, static_cast<void*>(this));
458 if (action == nullptr) {
459 XBT_DEBUG("No, nothing in the permanent receive mailbox");
460 mailbox = smpi_process_mailbox();
462 XBT_DEBUG("yes there was something for us in the small mailbox");
466 // we make a copy here, as the size is modified by simix, and we may reuse the request in another receive later
468 action_ = simcall_comm_irecv(SIMIX_process_self(), mailbox, buf_, &real_size_, &match_recv,
469 ! smpi_process_get_replaying()? smpi_comm_copy_data_callback
470 : &smpi_comm_null_copy_buffer_callback, this, -1.0);
471 XBT_DEBUG("recv simcall posted");
473 if (async_small_thresh != 0 || (flags_ & RMA) != 0 )
474 xbt_mutex_release(mut);
475 } else { /* the RECV flag was not set, so this is a send */
479 if (TRACE_smpi_view_internals()) {
480 TRACE_smpi_send(rank, rank, receiver, tag_, size_);
482 this->print_request("New send");
485 if ((flags_ & SSEND) == 0 && ( (flags_ & RMA) != 0
486 || static_cast<int>(size_) < xbt_cfg_get_int("smpi/send-is-detached-thresh") ) ) {
487 void *oldbuf = nullptr;
489 XBT_DEBUG("Send request %p is detached", this);
491 if(old_type_->sizeof_substruct == 0){
493 if (!smpi_process_get_replaying() && oldbuf != nullptr && size_!=0){
494 if((smpi_privatize_global_variables != 0)
495 && (static_cast<char*>(buf_) >= smpi_start_data_exe)
496 && (static_cast<char*>(buf_) < smpi_start_data_exe + smpi_size_data_exe )){
497 XBT_DEBUG("Privatization : We are sending from a zone inside global memory. Switch data segment ");
498 smpi_switch_data_segment(src_);
500 buf = xbt_malloc(size_);
501 memcpy(buf,oldbuf,size_);
502 XBT_DEBUG("buf %p copied into %p",oldbuf,buf);
507 //if we are giving back the control to the user without waiting for completion, we have to inject timings
508 double sleeptime = 0.0;
509 if(detached_ != 0 || ((flags_ & (ISEND|SSEND)) != 0)){// issend should be treated as isend
510 //isend and send timings may be different
511 sleeptime = ((flags_ & ISEND) != 0) ? smpi_ois(size_) : smpi_os(size_);
515 simcall_process_sleep(sleeptime);
516 XBT_DEBUG("sending size of %zu : sleep %f ", size_, sleeptime);
519 int async_small_thresh = xbt_cfg_get_int("smpi/async-small-thresh");
521 xbt_mutex_t mut=smpi_process_remote_mailboxes_mutex(receiver);
523 if (async_small_thresh != 0 || (flags_ & RMA) != 0)
524 xbt_mutex_acquire(mut);
526 if (!(async_small_thresh != 0 || (flags_ & RMA) !=0)) {
527 mailbox = smpi_process_remote_mailbox(receiver);
528 } else if (((flags_ & RMA) != 0) || static_cast<int>(size_) < async_small_thresh) { // eager mode
529 mailbox = smpi_process_remote_mailbox(receiver);
530 XBT_DEBUG("Is there a corresponding recv already posted in the large mailbox %p?", mailbox);
531 smx_activity_t action = simcall_comm_iprobe(mailbox, 1,dst_, tag_, &match_send,
532 static_cast<void*>(this));
533 if (action == nullptr) {
534 if ((flags_ & SSEND) == 0){
535 mailbox = smpi_process_remote_mailbox_small(receiver);
536 XBT_DEBUG("No, nothing in the large mailbox, message is to be sent on the small one %p", mailbox);
538 mailbox = smpi_process_remote_mailbox_small(receiver);
539 XBT_DEBUG("SSEND : Is there a corresponding recv already posted in the small mailbox %p?", mailbox);
540 action = simcall_comm_iprobe(mailbox, 1,dst_, tag_, &match_send, static_cast<void*>(this));
541 if (action == nullptr) {
542 XBT_DEBUG("No, we are first, send to large mailbox");
543 mailbox = smpi_process_remote_mailbox(receiver);
547 XBT_DEBUG("Yes there was something for us in the large mailbox");
550 mailbox = smpi_process_remote_mailbox(receiver);
551 XBT_DEBUG("Send request %p is in the large mailbox %p (buf: %p)",mailbox, this,buf_);
554 // we make a copy here, as the size is modified by simix, and we may reuse the request in another receive later
556 action_ = simcall_comm_isend(SIMIX_process_from_PID(src_+1), mailbox, size_, -1.0,
557 buf, real_size_, &match_send,
558 &xbt_free_f, // how to free the userdata if a detached send fails
559 !smpi_process_get_replaying() ? smpi_comm_copy_data_callback
560 : &smpi_comm_null_copy_buffer_callback, this,
561 // detach if msg size < eager/rdv switch limit
563 XBT_DEBUG("send simcall posted");
565 /* FIXME: detached sends are not traceable (action_ == nullptr) */
566 if (action_ != nullptr)
567 simcall_set_category(action_, TRACE_internal_smpi_get_category());
569 if (async_small_thresh != 0 || ((flags_ & RMA)!=0))
570 xbt_mutex_release(mut);
575 void Request::startall(int count, MPI_Request * requests)
577 if(requests== nullptr)
580 for(int i = 0; i < count; i++) {
581 requests[i]->start();
585 int Request::test(MPI_Request * request, MPI_Status * status) {
586 //assume that request is not MPI_REQUEST_NULL (filtered in PMPI_Test or testall before)
588 // to avoid deadlocks if used as a break condition, such as
589 // while (MPI_Test(request, flag, status) && flag) {
591 // because the time will not normally advance when only calls to MPI_Test are made -> deadlock
592 // multiplier to the sleeptime, to increase speed of execution, each failed test will increase it
593 static int nsleeps = 1;
594 if(smpi_test_sleep > 0)
595 simcall_process_sleep(nsleeps*smpi_test_sleep);
597 smpi_empty_status(status);
599 if (((*request)->flags_ & PREPARED) == 0) {
600 if ((*request)->action_ != nullptr)
601 flag = simcall_comm_test((*request)->action_);
603 finish_wait(request,status);
604 nsleeps=1;//reset the number of sleeps we will do next time
605 if (*request != MPI_REQUEST_NULL && ((*request)->flags_ & PERSISTENT)==0)
606 *request = MPI_REQUEST_NULL;
607 } else if (xbt_cfg_get_boolean("smpi/grow-injected-times")){
615 int Request::testsome(int incount, MPI_Request requests[], int *indices, MPI_Status status[])
621 MPI_Status *pstat = status == MPI_STATUSES_IGNORE ? MPI_STATUS_IGNORE : &stat;
623 for(i = 0; i < incount; i++) {
624 if((requests[i] != MPI_REQUEST_NULL)) {
625 if(test(&requests[i], pstat)) {
628 if(status != MPI_STATUSES_IGNORE) {
631 if ((requests[i] != MPI_REQUEST_NULL) && requests[i]->flags_ & NON_PERSISTENT)
632 requests[i]=MPI_REQUEST_NULL;
638 if(count_dead==incount)
639 return MPI_UNDEFINED;
644 int Request::testany(int count, MPI_Request requests[], int *index, MPI_Status * status)
646 std::vector<simgrid::kernel::activity::ActivityImpl*> comms;
647 comms.reserve(count);
652 *index = MPI_UNDEFINED;
654 std::vector<int> map; /** Maps all matching comms back to their location in requests **/
655 for(i = 0; i < count; i++) {
656 if ((requests[i] != MPI_REQUEST_NULL) && requests[i]->action_ && !(requests[i]->flags_ & PREPARED)) {
657 comms.push_back(requests[i]->action_);
662 //multiplier to the sleeptime, to increase speed of execution, each failed testany will increase it
663 static int nsleeps = 1;
664 if(smpi_test_sleep > 0)
665 simcall_process_sleep(nsleeps*smpi_test_sleep);
667 i = simcall_comm_testany(comms.data(), comms.size()); // The i-th element in comms matches!
668 if (i != -1) { // -1 is not MPI_UNDEFINED but a SIMIX return code. (nothing matches)
670 finish_wait(&requests[*index],status);
673 if (requests[*index] != MPI_REQUEST_NULL && (requests[*index]->flags_ & NON_PERSISTENT)) {
674 requests[*index] = MPI_REQUEST_NULL;
680 //all requests are null or inactive, return true
682 smpi_empty_status(status);
689 int Request::testall(int count, MPI_Request requests[], MPI_Status status[])
692 MPI_Status *pstat = status == MPI_STATUSES_IGNORE ? MPI_STATUS_IGNORE : &stat;
694 for(int i=0; i<count; i++){
695 if (requests[i] != MPI_REQUEST_NULL && !(requests[i]->flags_ & PREPARED)) {
696 if (test(&requests[i], pstat)!=1){
699 requests[i]=MPI_REQUEST_NULL;
702 smpi_empty_status(pstat);
704 if(status != MPI_STATUSES_IGNORE) {
714 void Request::probe(int source, int tag, MPI_Comm comm, MPI_Status* status){
716 //FIXME find another way to avoid busy waiting ?
717 // the issue here is that we have to wait on a nonexistent comm
719 iprobe(source, tag, comm, &flag, status);
720 XBT_DEBUG("Busy Waiting on probing : %d", flag);
724 void Request::iprobe(int source, int tag, MPI_Comm comm, int* flag, MPI_Status* status){
725 MPI_Request request = new Request(nullptr, 0, MPI_CHAR, source == MPI_ANY_SOURCE ? MPI_ANY_SOURCE :
726 comm->group()->index(source), comm->rank(), tag, comm, PERSISTENT | RECV);
728 // to avoid deadlock, we have to sleep some time here, or the timer won't advance and we will only do iprobe simcalls
729 // (especially when used as a break condition, such as while(MPI_Iprobe(...)) ... )
730 // nsleeps is a multiplier to the sleeptime, to increase speed of execution, each failed iprobe will increase it
731 // (This can speed up the execution of certain applications by an order of magnitude, such as HPL)
732 static int nsleeps = 1;
733 double speed = simgrid::s4u::Actor::self()->host()->speed();
734 double maxrate = xbt_cfg_get_double("smpi/iprobe-cpu-usage");
735 if (smpi_iprobe_sleep > 0) {
736 smx_activity_t iprobe_sleep = simcall_execution_start("iprobe", /* flops to executek*/nsleeps*smpi_iprobe_sleep*speed*maxrate, /* priority */1.0, /* performance bound */maxrate*speed);
737 simcall_execution_wait(iprobe_sleep);
739 // behave like a receive, but don't do it
740 smx_mailbox_t mailbox;
742 request->print_request("New iprobe");
743 // We have to test both mailboxes as we don't know if we will receive one one or another
744 if (xbt_cfg_get_int("smpi/async-small-thresh") > 0){
745 mailbox = smpi_process_mailbox_small();
746 XBT_DEBUG("Trying to probe the perm recv mailbox");
747 request->action_ = simcall_comm_iprobe(mailbox, 0, request->src_, request->tag_, &match_recv,
748 static_cast<void*>(request));
751 if (request->action_ == nullptr){
752 mailbox = smpi_process_mailbox();
753 XBT_DEBUG("trying to probe the other mailbox");
754 request->action_ = simcall_comm_iprobe(mailbox, 0, request->src_,request->tag_, &match_recv,
755 static_cast<void*>(request));
758 if (request->action_ != nullptr){
759 simgrid::kernel::activity::Comm *sync_comm = static_cast<simgrid::kernel::activity::Comm*>(request->action_);
760 MPI_Request req = static_cast<MPI_Request>(sync_comm->src_data);
762 if(status != MPI_STATUS_IGNORE && (req->flags_ & PREPARED) == 0) {
763 status->MPI_SOURCE = comm->group()->rank(req->src_);
764 status->MPI_TAG = req->tag_;
765 status->MPI_ERROR = MPI_SUCCESS;
766 status->count = req->real_size_;
768 nsleeps = 1;//reset the number of sleeps we will do next time
772 if (xbt_cfg_get_boolean("smpi/grow-injected-times"))
779 void Request::finish_wait(MPI_Request* request, MPI_Status * status)
781 MPI_Request req = *request;
782 smpi_empty_status(status);
784 if(!((req->detached_ != 0) && ((req->flags_ & SEND) != 0)) && ((req->flags_ & PREPARED) == 0)){
785 if(status != MPI_STATUS_IGNORE) {
786 int src = req->src_ == MPI_ANY_SOURCE ? req->real_src_ : req->src_;
787 status->MPI_SOURCE = req->comm_->group()->rank(src);
788 status->MPI_TAG = req->tag_ == MPI_ANY_TAG ? req->real_tag_ : req->tag_;
789 status->MPI_ERROR = req->truncated_ != 0 ? MPI_ERR_TRUNCATE : MPI_SUCCESS;
790 // this handles the case were size in receive differs from size in send
791 status->count = req->real_size_;
794 req->print_request("Finishing");
795 MPI_Datatype datatype = req->old_type_;
797 if(((req->flags_ & ACCUMULATE) != 0) || (datatype->sizeof_substruct != 0)){
798 if (!smpi_process_get_replaying()){
799 if( smpi_privatize_global_variables != 0 && (static_cast<char*>(req->old_buf_) >= smpi_start_data_exe)
800 && ((char*)req->old_buf_ < smpi_start_data_exe + smpi_size_data_exe )){
801 XBT_VERB("Privatization : We are unserializing to a zone in global memory Switch data segment ");
802 smpi_switch_data_segment(smpi_process_index());
806 if(datatype->sizeof_substruct != 0){
807 // This part handles the problem of non-contignous memory the unserialization at the reception
808 s_smpi_subtype_t *subtype = static_cast<s_smpi_subtype_t*>(datatype->substruct);
809 if(req->flags_ & RECV)
810 subtype->unserialize(req->buf_, req->old_buf_, req->real_size_/smpi_datatype_size(datatype) ,
811 datatype->substruct, req->op_);
813 }else if(req->flags_ & RECV){//apply op on contiguous buffer for accumulate
814 int n =req->real_size_/smpi_datatype_size(datatype);
815 smpi_op_apply(req->op_, req->buf_, req->old_buf_, &n, &datatype);
821 if (TRACE_smpi_view_internals() && ((req->flags_ & RECV) != 0)){
822 int rank = smpi_process_index();
823 int src_traced = (req->src_ == MPI_ANY_SOURCE ? req->real_src_ : req->src_);
824 TRACE_smpi_recv(rank, src_traced, rank,req->tag_);
826 if(req->detached_sender_ != nullptr){
827 //integrate pseudo-timing for buffering of small messages, do not bother to execute the simcall if 0
828 double sleeptime = smpi_or(req->real_size_);
830 simcall_process_sleep(sleeptime);
831 XBT_DEBUG("receiving size of %zu : sleep %f ", req->real_size_, sleeptime);
833 unuse(&(req->detached_sender_));
835 if(req->flags_ & PERSISTENT)
836 req->action_ = nullptr;
837 req->flags_ |= FINISHED;
842 void Request::wait(MPI_Request * request, MPI_Status * status)
844 (*request)->print_request("Waiting");
845 if ((*request)->flags_ & PREPARED) {
846 smpi_empty_status(status);
850 if ((*request)->action_ != nullptr)
851 // this is not a detached send
852 simcall_comm_wait((*request)->action_, -1.0);
854 finish_wait(request,status);
855 if (*request != MPI_REQUEST_NULL && (((*request)->flags_ & NON_PERSISTENT)!=0))
856 *request = MPI_REQUEST_NULL;
859 int Request::waitany(int count, MPI_Request requests[], MPI_Status * status)
861 s_xbt_dynar_t comms; // Keep it on stack to save some extra mallocs
864 int index = MPI_UNDEFINED;
868 // Wait for a request to complete
869 xbt_dynar_init(&comms, sizeof(smx_activity_t), nullptr);
870 map = xbt_new(int, count);
871 XBT_DEBUG("Wait for one of %d", count);
872 for(i = 0; i < count; i++) {
873 if (requests[i] != MPI_REQUEST_NULL && !(requests[i]->flags_ & PREPARED) && !(requests[i]->flags_ & FINISHED)) {
874 if (requests[i]->action_ != nullptr) {
875 XBT_DEBUG("Waiting any %p ", requests[i]);
876 xbt_dynar_push(&comms, &requests[i]->action_);
880 // This is a finished detached request, let's return this one
881 size = 0; // so we free the dynar but don't do the waitany call
883 finish_wait(&requests[i], status); // cleanup if refcount = 0
884 if (requests[i] != MPI_REQUEST_NULL && (requests[i]->flags_ & NON_PERSISTENT))
885 requests[i] = MPI_REQUEST_NULL; // set to null
891 i = simcall_comm_waitany(&comms, -1);
893 // not MPI_UNDEFINED, as this is a simix return code
896 //in case of an accumulate, we have to wait the end of all requests to apply the operation, ordered correctly.
897 if ((requests[index] == MPI_REQUEST_NULL)
898 || (!((requests[index]->flags_ & ACCUMULATE) && (requests[index]->flags_ & RECV)))){
899 finish_wait(&requests[index],status);
900 if (requests[i] != MPI_REQUEST_NULL && (requests[i]->flags_ & NON_PERSISTENT))
901 requests[index] = MPI_REQUEST_NULL;
908 xbt_dynar_free_data(&comms);
912 if (index==MPI_UNDEFINED)
913 smpi_empty_status(status);
918 static int sort_accumulates(MPI_Request a, MPI_Request b)
920 return (a->tag() < b->tag());
923 int Request::waitall(int count, MPI_Request requests[], MPI_Status status[])
925 std::vector<MPI_Request> accumulates;
928 MPI_Status *pstat = status == MPI_STATUSES_IGNORE ? MPI_STATUS_IGNORE : &stat;
929 int retvalue = MPI_SUCCESS;
930 //tag invalid requests in the set
931 if (status != MPI_STATUSES_IGNORE) {
932 for (int c = 0; c < count; c++) {
933 if (requests[c] == MPI_REQUEST_NULL || requests[c]->dst_ == MPI_PROC_NULL || (requests[c]->flags_ & PREPARED)) {
934 smpi_empty_status(&status[c]);
935 } else if (requests[c]->src_ == MPI_PROC_NULL) {
936 smpi_empty_status(&status[c]);
937 status[c].MPI_SOURCE = MPI_PROC_NULL;
941 for (int c = 0; c < count; c++) {
942 if (MC_is_active() || MC_record_replay_is_active()) {
943 wait(&requests[c],pstat);
946 index = waitany(count, requests, pstat);
947 if (index == MPI_UNDEFINED)
950 if (requests[index] != MPI_REQUEST_NULL
951 && (requests[index]->flags_ & RECV)
952 && (requests[index]->flags_ & ACCUMULATE))
953 accumulates.push_back(requests[index]);
954 if (requests[index] != MPI_REQUEST_NULL && (requests[index]->flags_ & NON_PERSISTENT))
955 requests[index] = MPI_REQUEST_NULL;
957 if (status != MPI_STATUSES_IGNORE) {
958 status[index] = *pstat;
959 if (status[index].MPI_ERROR == MPI_ERR_TRUNCATE)
960 retvalue = MPI_ERR_IN_STATUS;
964 if (!accumulates.empty()) {
965 std::sort(accumulates.begin(), accumulates.end(), sort_accumulates);
966 for (auto req : accumulates) {
967 finish_wait(&req, status);
974 int Request::waitsome(int incount, MPI_Request requests[], int *indices, MPI_Status status[])
980 MPI_Status *pstat = status == MPI_STATUSES_IGNORE ? MPI_STATUS_IGNORE : &stat;
982 for(i = 0; i < incount; i++)
984 index=waitany(incount, requests, pstat);
985 if(index!=MPI_UNDEFINED){
986 indices[count] = index;
988 if(status != MPI_STATUSES_IGNORE) {
989 status[index] = *pstat;
991 if (requests[index] != MPI_REQUEST_NULL && (requests[index]->flags_ & NON_PERSISTENT))
992 requests[index]=MPI_REQUEST_NULL;
994 return MPI_UNDEFINED;