1 /* Copyright (c) 2007-2012 Da SimGrid Team. All rights reserved. */
3 /* This program is free software; you can redistribute it and/or modify it
4 * under the terms of the license (GNU LGPL) which comes with this package. */
12 #include "mc/datatypes.h"
14 #include "xbt/config.h"
15 #include "xbt/function_types.h"
16 #include "xbt/mmalloc.h"
17 #include "../simix/smx_private.h"
18 #include "xbt/automaton.h"
21 #include "msg/datatypes.h"
22 #include "simix/datatypes.h"
24 /****************************** Snapshots ***********************************/
26 typedef struct s_mc_mem_region{
31 } s_mc_mem_region_t, *mc_mem_region_t;
33 typedef struct s_mc_snapshot{
35 mc_mem_region_t *regions;
36 } s_mc_snapshot_t, *mc_snapshot_t;
38 extern char *prog_name;
40 void MC_take_snapshot(mc_snapshot_t);
41 void MC_take_snapshot_liveness(mc_snapshot_t s);
42 void MC_restore_snapshot(mc_snapshot_t);
43 void MC_free_snapshot(mc_snapshot_t);
45 /********************************* MC Global **********************************/
46 extern double *mc_time;
48 /* Bound of the MC depth-first search algorithm */
49 #define MAX_DEPTH 1000
50 #define MAX_DEPTH_LIVENESS 500
52 int MC_deadlock_check(void);
53 void MC_replay(xbt_fifo_t stack);
54 void MC_replay_liveness(xbt_fifo_t stack, int all_stack);
55 void MC_wait_for_requests(void);
56 void MC_get_enabled_processes();
57 void MC_show_deadlock(smx_simcall_t req);
58 void MC_show_deadlock_stateful(smx_simcall_t req);
59 void MC_show_stack_safety_stateless(xbt_fifo_t stack);
60 void MC_dump_stack_safety_stateless(xbt_fifo_t stack);
61 void MC_show_stack_safety_stateful(xbt_fifo_t stack);
62 void MC_dump_stack_safety_stateful(xbt_fifo_t stack);
64 /********************************* Requests ***********************************/
65 int MC_request_depend(smx_simcall_t req1, smx_simcall_t req2);
66 char* MC_request_to_string(smx_simcall_t req, int value);
67 unsigned int MC_request_testany_fail(smx_simcall_t req);
68 /*int MC_waitany_is_enabled_by_comm(smx_req_t req, unsigned int comm);*/
69 int MC_request_is_visible(smx_simcall_t req);
70 int MC_request_is_enabled(smx_simcall_t req);
71 int MC_request_is_enabled_by_idx(smx_simcall_t req, unsigned int idx);
72 int MC_process_is_enabled(smx_process_t process);
75 /******************************** States **************************************/
76 /* Possible exploration status of a process in a state */
78 MC_NOT_INTERLEAVE=0, /* Do not interleave (do not execute) */
79 MC_INTERLEAVE, /* Interleave the process (one or more request) */
80 MC_DONE /* Already interleaved */
81 } e_mc_process_state_t;
83 /* On every state, each process has an entry of the following type */
84 typedef struct mc_procstate{
85 e_mc_process_state_t state; /* Exploration control information */
86 unsigned int interleave_count; /* Number of times that the process was
88 } s_mc_procstate_t, *mc_procstate_t;
90 /* An exploration state is composed of: */
91 typedef struct mc_state {
92 unsigned long max_pid; /* Maximum pid at state's creation time */
93 mc_procstate_t proc_status; /* State's exploration status by process */
94 s_smx_action_t internal_comm; /* To be referenced by the internal_req */
95 s_smx_simcall_t internal_req; /* Internal translation of request */
96 s_smx_simcall_t executed_req; /* The executed request of the state */
97 int req_num; /* The request number (in the case of a
98 multi-request like waitany ) */
99 } s_mc_state_t, *mc_state_t;
101 extern xbt_fifo_t mc_stack_safety_stateless;
103 mc_state_t MC_state_new(void);
104 void MC_state_delete(mc_state_t state);
105 void MC_state_interleave_process(mc_state_t state, smx_process_t process);
106 unsigned int MC_state_interleave_size(mc_state_t state);
107 int MC_state_process_is_done(mc_state_t state, smx_process_t process);
108 void MC_state_set_executed_request(mc_state_t state, smx_simcall_t req, int value);
109 smx_simcall_t MC_state_get_executed_request(mc_state_t state, int *value);
110 smx_simcall_t MC_state_get_internal_request(mc_state_t state);
111 smx_simcall_t MC_state_get_request(mc_state_t state, int *value);
113 /****************************** Statistics ************************************/
114 typedef struct mc_stats {
115 unsigned long state_size;
116 unsigned long visited_states;
117 unsigned long expanded_states;
118 unsigned long executed_transitions;
119 } s_mc_stats_t, *mc_stats_t;
121 typedef struct mc_stats_pair {
122 //unsigned long pair_size;
123 unsigned long visited_pairs;
124 unsigned long expanded_pairs;
125 unsigned long executed_transitions;
126 } s_mc_stats_pair_t, *mc_stats_pair_t;
128 extern mc_stats_t mc_stats;
129 extern mc_stats_pair_t mc_stats_pair;
131 void MC_print_statistics(mc_stats_t);
132 void MC_print_statistics_pairs(mc_stats_pair_t);
134 /********************************** MEMORY ******************************/
135 /* The possible memory modes for the modelchecker are standard and raw. */
136 /* Normally the system should operate in std, for switching to raw mode */
137 /* you must wrap the code between MC_SET_RAW_MODE and MC_UNSET_RAW_MODE */
139 extern void *std_heap;
140 extern void *raw_heap;
141 #define STD_HEAP_SIZE 20480000 /* Maximum size of the system's heap */
143 /* FIXME: Horrible hack! because the mmalloc library doesn't provide yet of */
144 /* an API to query about the status of a heap, we simply call mmstats and */
145 /* because I now how does structure looks like, then I redefine it here */
148 size_t bytes_total; /* Total size of the heap. */
149 size_t chunks_used; /* Chunks allocated by the user. */
150 size_t bytes_used; /* Byte total of user-allocated chunks. */
151 size_t chunks_free; /* Chunks in the free list. */
152 size_t bytes_free; /* Byte total of chunks in the free list. */
155 #define MC_SET_RAW_MEM mmalloc_set_current_heap(raw_heap)
156 #define MC_UNSET_RAW_MEM mmalloc_set_current_heap(std_heap)
158 /******************************* MEMORY MAPPINGS ***************************/
159 /* These functions and data structures implements a binary interface for */
160 /* the proc maps ascii interface */
162 /* Each field is defined as documented in proc's manual page */
163 typedef struct s_map_region {
165 void *start_addr; /* Start address of the map */
166 void *end_addr; /* End address of the map */
167 int prot; /* Memory protection */
168 int flags; /* Aditional memory flags */
169 void *offset; /* Offset in the file/whatever */
170 char dev_major; /* Major of the device */
171 char dev_minor; /* Minor of the device */
172 unsigned long inode; /* Inode in the device */
173 char *pathname; /* Path name of the mapped file */
177 typedef struct s_memory_map {
179 s_map_region_t *regions; /* Pointer to an array of regions */
180 int mapsize; /* Number of regions in the memory */
182 } s_memory_map_t, *memory_map_t;
184 memory_map_t get_memory_map(void);
187 /********************************** DPOR for safety (stateless) **************************************/
188 void MC_dpor_init(void);
190 void MC_dpor_exit(void);
192 /***** DPOR for safety (stateful) **** */
194 typedef struct s_mc_state_with_snapshot{
195 mc_snapshot_t system_state;
196 mc_state_t graph_state;
197 }s_mc_state_ws_t, *mc_state_ws_t;
199 extern xbt_fifo_t mc_stack_safety_stateful;
201 void MC_init_stateful(void);
202 void MC_modelcheck_stateful(void);
203 mc_state_ws_t new_state_ws(mc_snapshot_t s, mc_state_t gs);
204 void MC_dpor_stateful_init(void);
205 void MC_dpor_stateful(void);
206 void MC_exit_stateful(void);
209 /********************************** Double-DFS for liveness property**************************************/
211 extern mc_snapshot_t initial_snapshot_liveness;
212 extern xbt_automaton_t automaton;
214 typedef struct s_mc_pair{
215 mc_snapshot_t system_state;
216 mc_state_t graph_state;
217 xbt_state_t automaton_state;
218 }s_mc_pair_t, *mc_pair_t;
220 typedef struct s_mc_pair_reached{
221 xbt_state_t automaton_state;
222 xbt_dynar_t prop_ato;
223 mc_snapshot_t system_state;
224 //xbt_dict_t rdv_points;
225 }s_mc_pair_reached_t, *mc_pair_reached_t;
227 typedef struct s_mc_pair_visited{
228 xbt_state_t automaton_state;
229 xbt_dynar_t prop_ato;
230 mc_snapshot_t system_state;
232 }s_mc_pair_visited_t, *mc_pair_visited_t;
234 typedef struct s_mc_pair_visited_hash{
235 xbt_state_t automaton_state;
236 xbt_dynar_t prop_ato;
237 unsigned int *hash_regions;
239 }s_mc_pair_visited_hash_t, *mc_pair_visited_hash_t;
241 typedef struct s_mc_pair_reached_hash{
242 xbt_state_t automaton_state;
243 xbt_dynar_t prop_ato;
244 unsigned int *hash_regions;
245 }s_mc_pair_reached_hash_t, *mc_pair_reached_hash_t;
249 int MC_automaton_evaluate_label(xbt_exp_label_t l);
250 mc_pair_t new_pair(mc_snapshot_t sn, mc_state_t sg, xbt_state_t st);
252 int reached(xbt_state_t st);
253 void set_pair_reached(xbt_state_t st);
254 int reached_hash(xbt_state_t st);
255 void set_pair_reached_hash(xbt_state_t st);
256 int snapshot_compare(mc_snapshot_t s1, mc_snapshot_t s2);
257 void MC_pair_delete(mc_pair_t pair);
258 void MC_exit_liveness(void);
259 mc_state_t MC_state_pair_new(void);
260 int visited(xbt_state_t st, int search_cycle);
261 void set_pair_visited(xbt_state_t st, int search_cycle);
262 int visited_hash(xbt_state_t st, int search_cycle);
263 void set_pair_visited_hash(xbt_state_t st, int search_cycle);
264 unsigned int hash_region(char *str, int str_len);
265 int rdv_points_compare(xbt_dict_t d1, xbt_dict_t d2);
268 /* **** Double-DFS stateless **** */
270 typedef struct s_mc_pair_stateless{
271 mc_state_t graph_state;
272 xbt_state_t automaton_state;
274 }s_mc_pair_stateless_t, *mc_pair_stateless_t;
276 extern xbt_fifo_t mc_stack_liveness;
278 mc_pair_stateless_t new_pair_stateless(mc_state_t sg, xbt_state_t st, int r);
279 void MC_ddfs_init(void);
280 void MC_ddfs(int search_cycle);
281 void MC_show_stack_liveness(xbt_fifo_t stack);
282 void MC_dump_stack_liveness(xbt_fifo_t stack);
283 void MC_pair_stateless_delete(mc_pair_stateless_t pair);