1 /* Copyright (c) 2008-2015. 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. */
10 #include <xbt/dynar.hpp>
13 #include <xbt/sysdep.h>
15 #include "src/mc/mc_state.h"
16 #include "src/mc/mc_comm_pattern.h"
17 #include "src/mc/mc_request.h"
18 #include "src/mc/mc_safety.h"
19 #include "src/mc/mc_private.h"
20 #include "src/mc/mc_record.h"
21 #include "src/mc/mc_smx.h"
22 #include "src/mc/Client.hpp"
23 #include "src/mc/CommunicationDeterminismChecker.hpp"
24 #include "src/mc/mc_exit.h"
26 using simgrid::mc::remote;
28 XBT_LOG_NEW_DEFAULT_SUBCATEGORY(mc_comm_determinism, mc,
29 "Logging specific to MC communication determinism detection");
31 /********** Global variables **********/
33 xbt_dynar_t initial_communications_pattern;
34 xbt_dynar_t incomplete_communications_pattern;
36 /********** Static functions ***********/
38 static e_mc_comm_pattern_difference_t compare_comm_pattern(mc_comm_pattern_t comm1, mc_comm_pattern_t comm2) {
39 if(comm1->type != comm2->type)
41 if (strcmp(comm1->rdv, comm2->rdv) != 0)
43 if (comm1->src_proc != comm2->src_proc)
45 if (comm1->dst_proc != comm2->dst_proc)
47 if (comm1->tag != comm2->tag)
49 if (comm1->data_size != comm2->data_size)
50 return DATA_SIZE_DIFF;
51 if(comm1->data == nullptr && comm2->data == NULL)
53 if(comm1->data != nullptr && comm2->data !=NULL) {
54 if (!memcmp(comm1->data, comm2->data, comm1->data_size))
62 static char* print_determinism_result(e_mc_comm_pattern_difference_t diff, int process, mc_comm_pattern_t comm, unsigned int cursor) {
65 if(comm->type == SIMIX_COMM_SEND)
66 type = bprintf("The send communications pattern of the process %d is different!", process - 1);
68 type = bprintf("The recv communications pattern of the process %d is different!", process - 1);
72 res = bprintf("%s Different type for communication #%d", type, cursor);
75 res = bprintf("%s Different rdv for communication #%d", type, cursor);
78 res = bprintf("%s Different tag for communication #%d", type, cursor);
81 res = bprintf("%s Different source for communication #%d", type, cursor);
84 res = bprintf("%s Different destination for communication #%d", type, cursor);
87 res = bprintf("%s\n Different data size for communication #%d", type, cursor);
90 res = bprintf("%s\n Different data for communication #%d", type, cursor);
100 static void update_comm_pattern(mc_comm_pattern_t comm_pattern, smx_synchro_t comm_addr)
102 s_smx_synchro_t comm;
103 mc_model_checker->process().read(&comm, remote(comm_addr));
105 smx_process_t src_proc = MC_smx_resolve_process(comm.comm.src_proc);
106 smx_process_t dst_proc = MC_smx_resolve_process(comm.comm.dst_proc);
107 comm_pattern->src_proc = src_proc->pid;
108 comm_pattern->dst_proc = dst_proc->pid;
109 comm_pattern->src_host = MC_smx_process_get_host_name(src_proc);
110 comm_pattern->dst_host = MC_smx_process_get_host_name(dst_proc);
111 if (comm_pattern->data_size == -1 && comm.comm.src_buff != nullptr) {
113 mc_model_checker->process().read(
114 &buff_size, remote(comm.comm.dst_buff_size));
115 comm_pattern->data_size = buff_size;
116 comm_pattern->data = xbt_malloc0(comm_pattern->data_size);
117 mc_model_checker->process().read_bytes(
118 comm_pattern->data, comm_pattern->data_size,
119 remote(comm.comm.src_buff));
123 static void deterministic_comm_pattern(int process, mc_comm_pattern_t comm, int backtracking) {
125 mc_list_comm_pattern_t list =
126 xbt_dynar_get_as(initial_communications_pattern, process, mc_list_comm_pattern_t);
129 mc_comm_pattern_t initial_comm =
130 xbt_dynar_get_as(list->list, list->index_comm, mc_comm_pattern_t);
131 e_mc_comm_pattern_difference_t diff =
132 compare_comm_pattern(initial_comm, comm);
134 if (diff != NONE_DIFF) {
135 if (comm->type == SIMIX_COMM_SEND){
136 initial_global_state->send_deterministic = 0;
137 if(initial_global_state->send_diff != nullptr)
138 xbt_free(initial_global_state->send_diff);
139 initial_global_state->send_diff = print_determinism_result(diff, process, comm, list->index_comm + 1);
141 initial_global_state->recv_deterministic = 0;
142 if(initial_global_state->recv_diff != nullptr)
143 xbt_free(initial_global_state->recv_diff);
144 initial_global_state->recv_diff = print_determinism_result(diff, process, comm, list->index_comm + 1);
146 if(_sg_mc_send_determinism && !initial_global_state->send_deterministic){
147 XBT_INFO("*********************************************************");
148 XBT_INFO("***** Non-send-deterministic communications pattern *****");
149 XBT_INFO("*********************************************************");
150 XBT_INFO("%s", initial_global_state->send_diff);
151 xbt_free(initial_global_state->send_diff);
152 initial_global_state->send_diff = nullptr;
153 MC_print_statistics(mc_stats);
154 mc_model_checker->exit(SIMGRID_MC_EXIT_NON_DETERMINISM);
155 }else if(_sg_mc_comms_determinism && (!initial_global_state->send_deterministic && !initial_global_state->recv_deterministic)) {
156 XBT_INFO("****************************************************");
157 XBT_INFO("***** Non-deterministic communications pattern *****");
158 XBT_INFO("****************************************************");
159 XBT_INFO("%s", initial_global_state->send_diff);
160 XBT_INFO("%s", initial_global_state->recv_diff);
161 xbt_free(initial_global_state->send_diff);
162 initial_global_state->send_diff = nullptr;
163 xbt_free(initial_global_state->recv_diff);
164 initial_global_state->recv_diff = nullptr;
165 MC_print_statistics(mc_stats);
166 mc_model_checker->exit(SIMGRID_MC_EXIT_NON_DETERMINISM);
171 MC_comm_pattern_free(comm);
175 /********** Non Static functions ***********/
177 void MC_get_comm_pattern(xbt_dynar_t list, smx_simcall_t request, e_mc_call_type_t call_type, int backtracking)
179 const smx_process_t issuer = MC_smx_simcall_get_issuer(request);
180 mc_list_comm_pattern_t initial_pattern = xbt_dynar_get_as(
181 initial_communications_pattern, issuer->pid, mc_list_comm_pattern_t);
182 xbt_dynar_t incomplete_pattern = xbt_dynar_get_as(
183 incomplete_communications_pattern, issuer->pid, xbt_dynar_t);
185 mc_comm_pattern_t pattern = xbt_new0(s_mc_comm_pattern_t, 1);
186 pattern->data_size = -1;
187 pattern->data = nullptr;
189 initial_pattern->index_comm + xbt_dynar_length(incomplete_pattern);
191 if (call_type == MC_CALL_TYPE_SEND) {
192 /* Create comm pattern */
193 pattern->type = SIMIX_COMM_SEND;
194 pattern->comm_addr = simcall_comm_isend__get__result(request);
196 s_smx_synchro_t synchro = mc_model_checker->process().read<s_smx_synchro_t>(
197 (std::uint64_t) pattern->comm_addr);
199 char* remote_name = mc_model_checker->process().read<char*>(
200 (std::uint64_t)(synchro.comm.rdv ? &synchro.comm.rdv->name : &synchro.comm.rdv_cpy->name));
201 pattern->rdv = mc_model_checker->process().read_string(remote_name);
202 pattern->src_proc = MC_smx_resolve_process(synchro.comm.src_proc)->pid;
203 pattern->src_host = MC_smx_process_get_host_name(issuer);
205 struct s_smpi_mpi_request mpi_request =
206 mc_model_checker->process().read<s_smpi_mpi_request>(
207 (std::uint64_t) simcall_comm_isend__get__data(request));
208 pattern->tag = mpi_request.tag;
210 if(synchro.comm.src_buff != nullptr){
211 pattern->data_size = synchro.comm.src_buff_size;
212 pattern->data = xbt_malloc0(pattern->data_size);
213 mc_model_checker->process().read_bytes(
214 pattern->data, pattern->data_size, remote(synchro.comm.src_buff));
216 if(mpi_request.detached){
217 if (!initial_global_state->initial_communications_pattern_done) {
218 /* Store comm pattern */
221 initial_communications_pattern, pattern->src_proc, mc_list_comm_pattern_t
225 /* Evaluate comm determinism */
226 deterministic_comm_pattern(pattern->src_proc, pattern, backtracking);
228 initial_communications_pattern, pattern->src_proc, mc_list_comm_pattern_t
233 } else if (call_type == MC_CALL_TYPE_RECV) {
234 pattern->type = SIMIX_COMM_RECEIVE;
235 pattern->comm_addr = simcall_comm_irecv__get__result(request);
237 struct s_smpi_mpi_request mpi_request;
238 mc_model_checker->process().read(
239 &mpi_request, remote((struct s_smpi_mpi_request*)simcall_comm_irecv__get__data(request)));
240 pattern->tag = mpi_request.tag;
242 s_smx_synchro_t synchro;
243 mc_model_checker->process().read(&synchro, remote(pattern->comm_addr));
246 mc_model_checker->process().read(&remote_name,
247 remote(synchro.comm.rdv ? &synchro.comm.rdv->name : &synchro.comm.rdv_cpy->name));
248 pattern->rdv = mc_model_checker->process().read_string(remote_name);
249 pattern->dst_proc = MC_smx_resolve_process(synchro.comm.dst_proc)->pid;
250 pattern->dst_host = MC_smx_process_get_host_name(issuer);
252 xbt_die("Unexpected call_type %i", (int) call_type);
255 xbt_dynar_get_as(incomplete_communications_pattern, issuer->pid, xbt_dynar_t),
258 XBT_DEBUG("Insert incomplete comm pattern %p for process %lu", pattern, issuer->pid);
261 void MC_complete_comm_pattern(xbt_dynar_t list, smx_synchro_t comm_addr, unsigned int issuer, int backtracking) {
262 mc_comm_pattern_t current_comm_pattern;
263 unsigned int cursor = 0;
264 mc_comm_pattern_t comm_pattern;
267 /* Complete comm pattern */
268 xbt_dynar_foreach(xbt_dynar_get_as(incomplete_communications_pattern, issuer, xbt_dynar_t), cursor, current_comm_pattern)
269 if (current_comm_pattern->comm_addr == comm_addr) {
270 update_comm_pattern(current_comm_pattern, comm_addr);
273 xbt_dynar_get_as(incomplete_communications_pattern, issuer, xbt_dynar_t),
274 cursor, &comm_pattern);
275 XBT_DEBUG("Remove incomplete comm pattern for process %u at cursor %u", issuer, cursor);
280 xbt_die("Corresponding communication not found!");
282 mc_list_comm_pattern_t pattern = xbt_dynar_get_as(
283 initial_communications_pattern, issuer, mc_list_comm_pattern_t);
285 if (!initial_global_state->initial_communications_pattern_done)
286 /* Store comm pattern */
287 xbt_dynar_push(pattern->list, &comm_pattern);
289 /* Evaluate comm determinism */
290 deterministic_comm_pattern(issuer, comm_pattern, backtracking);
291 pattern->index_comm++;
296 /************************ Main algorithm ************************/
301 CommunicationDeterminismChecker::CommunicationDeterminismChecker(Session& session)
307 CommunicationDeterminismChecker::~CommunicationDeterminismChecker()
312 void CommunicationDeterminismChecker::prepare()
314 mc_state_t initial_state = nullptr;
316 const int maxpid = MC_smx_get_maxpid();
318 simgrid::mc::visited_states.clear();
320 // Create initial_communications_pattern elements:
321 initial_communications_pattern = xbt_dynar_new(sizeof(mc_list_comm_pattern_t), MC_list_comm_pattern_free_voidp);
322 for (i=0; i < maxpid; i++){
323 mc_list_comm_pattern_t process_list_pattern = xbt_new0(s_mc_list_comm_pattern_t, 1);
324 process_list_pattern->list = xbt_dynar_new(sizeof(mc_comm_pattern_t), MC_comm_pattern_free_voidp);
325 process_list_pattern->index_comm = 0;
326 xbt_dynar_insert_at(initial_communications_pattern, i, &process_list_pattern);
329 // Create incomplete_communications_pattern elements:
330 incomplete_communications_pattern = xbt_dynar_new(sizeof(xbt_dynar_t), xbt_dynar_free_voidp);
331 for (i=0; i < maxpid; i++){
332 xbt_dynar_t process_pattern = xbt_dynar_new(sizeof(mc_comm_pattern_t), nullptr);
333 xbt_dynar_insert_at(incomplete_communications_pattern, i, &process_pattern);
336 initial_state = MC_state_new();
338 XBT_DEBUG("********* Start communication determinism verification *********");
340 /* Wait for requests (schedules processes) */
341 mc_model_checker->wait_for_requests();
343 /* Get an enabled process and insert it in the interleave set of the initial state */
344 for (auto& p : mc_model_checker->process().simix_processes())
345 if (simgrid::mc::process_is_enabled(&p.copy))
346 MC_state_interleave_process(initial_state, &p.copy);
348 xbt_fifo_unshift(mc_stack, initial_state);
352 bool all_communications_are_finished()
354 for (size_t current_process = 1; current_process < MC_smx_get_maxpid(); current_process++) {
355 xbt_dynar_t pattern = xbt_dynar_get_as(
356 incomplete_communications_pattern, current_process, xbt_dynar_t);
357 if (!xbt_dynar_is_empty(pattern)) {
358 XBT_DEBUG("Some communications are not finished, cannot stop the exploration ! State not visited.");
365 int CommunicationDeterminismChecker::main(void)
368 char *req_str = nullptr;
370 std::unique_ptr<simgrid::mc::VisitedState> visited_state = nullptr;
371 smx_simcall_t req = nullptr;
372 mc_state_t state = nullptr, next_state = NULL;
374 while (xbt_fifo_size(mc_stack) > 0) {
376 /* Get current state */
377 state = (mc_state_t) xbt_fifo_get_item_content(xbt_fifo_get_first_item(mc_stack));
379 XBT_DEBUG("**************************************************");
380 XBT_DEBUG("Exploration depth = %d (state = %d, interleaved processes = %d)",
381 xbt_fifo_size(mc_stack), state->num,
382 MC_state_interleave_size(state));
384 /* Update statistics */
385 mc_stats->visited_states++;
387 if ((xbt_fifo_size(mc_stack) <= _sg_mc_max_depth)
388 && (req = MC_state_get_request(state, &value))
389 && (visited_state == nullptr)) {
391 req_str = simgrid::mc::request_to_string(req, value, simgrid::mc::RequestType::simix);
392 XBT_DEBUG("Execute: %s", req_str);
395 if (dot_output != nullptr)
396 req_str = simgrid::mc::request_get_dot_output(req, value);
398 MC_state_set_executed_request(state, req, value);
399 mc_stats->executed_transitions++;
401 /* TODO : handle test and testany simcalls */
402 e_mc_call_type_t call = MC_CALL_TYPE_NONE;
403 if (_sg_mc_comms_determinism || _sg_mc_send_determinism)
404 call = MC_get_call_type(req);
406 /* Answer the request */
407 simgrid::mc::handle_simcall(req, value); /* After this call req is no longer useful */
409 if(!initial_global_state->initial_communications_pattern_done)
410 MC_handle_comm_pattern(call, req, value, initial_communications_pattern, 0);
412 MC_handle_comm_pattern(call, req, value, nullptr, 0);
414 /* Wait for requests (schedules processes) */
415 mc_model_checker->wait_for_requests();
417 /* Create the new expanded state */
418 next_state = MC_state_new();
420 /* If comm determinism verification, we cannot stop the exploration if
421 some communications are not finished (at least, data are transfered).
422 These communications are incomplete and they cannot be analyzed and
423 compared with the initial pattern. */
424 bool compare_snapshots = all_communications_are_finished()
425 && initial_global_state->initial_communications_pattern_done;
427 if (_sg_mc_visited == 0 || (visited_state = simgrid::mc::is_visited_state(next_state, compare_snapshots)) == nullptr) {
429 /* Get enabled processes and insert them in the interleave set of the next state */
430 for (auto& p : mc_model_checker->process().simix_processes())
431 if (simgrid::mc::process_is_enabled(&p.copy))
432 MC_state_interleave_process(next_state, &p.copy);
434 if (dot_output != nullptr)
435 fprintf(dot_output, "\"%d\" -> \"%d\" [%s];\n", state->num, next_state->num, req_str);
437 } else if (dot_output != nullptr)
438 fprintf(dot_output, "\"%d\" -> \"%d\" [%s];\n",
439 state->num, visited_state->other_num == -1 ? visited_state->num : visited_state->other_num, req_str);
441 xbt_fifo_unshift(mc_stack, next_state);
443 if (dot_output != nullptr)
448 if (xbt_fifo_size(mc_stack) > _sg_mc_max_depth)
449 XBT_WARN("/!\\ Max depth reached ! /!\\ ");
450 else if (visited_state != nullptr)
451 XBT_DEBUG("State already visited (equal to state %d), exploration stopped on this path.", visited_state->other_num == -1 ? visited_state->num : visited_state->other_num);
453 XBT_DEBUG("There are no more processes to interleave. (depth %d)", xbt_fifo_size(mc_stack));
455 if (!initial_global_state->initial_communications_pattern_done)
456 initial_global_state->initial_communications_pattern_done = 1;
458 /* Trash the current state, no longer needed */
459 xbt_fifo_shift(mc_stack);
460 MC_state_delete(state, !state->in_visited_states ? 1 : 0);
461 XBT_DEBUG("Delete state %d at depth %d", state->num, xbt_fifo_size(mc_stack) + 1);
463 visited_state = nullptr;
465 /* Check for deadlocks */
466 if (mc_model_checker->checkDeadlock()) {
468 return SIMGRID_MC_EXIT_DEADLOCK;
471 while ((state = (mc_state_t) xbt_fifo_shift(mc_stack)) != nullptr)
472 if (MC_state_interleave_size(state) && xbt_fifo_size(mc_stack) < _sg_mc_max_depth) {
473 /* We found a back-tracking point, let's loop */
474 XBT_DEBUG("Back-tracking to state %d at depth %d", state->num, xbt_fifo_size(mc_stack) + 1);
475 xbt_fifo_unshift(mc_stack, state);
479 XBT_DEBUG("Back-tracking to state %d at depth %d done", state->num, xbt_fifo_size(mc_stack));
483 XBT_DEBUG("Delete state %d at depth %d", state->num, xbt_fifo_size(mc_stack) + 1);
484 MC_state_delete(state, !state->in_visited_states ? 1 : 0);
490 MC_print_statistics(mc_stats);
491 return SIMGRID_MC_EXIT_SUCCESS;
494 int CommunicationDeterminismChecker::run()
496 XBT_INFO("Check communication determinism");
497 mc_model_checker->wait_for_requests();
499 if (mc_mode == MC_MODE_CLIENT)
500 // This will move somehwere else:
501 simgrid::mc::Client::get()->handleMessages();
503 /* Create exploration stack */
504 mc_stack = xbt_fifo_new();
508 initial_global_state = xbt_new0(s_mc_global_t, 1);
509 initial_global_state->snapshot = simgrid::mc::take_snapshot(0);
510 initial_global_state->initial_communications_pattern_done = 0;
511 initial_global_state->recv_deterministic = 1;
512 initial_global_state->send_deterministic = 1;
513 initial_global_state->recv_diff = nullptr;
514 initial_global_state->send_diff = nullptr;