1 /* Copyright (c) 2007-2010, 2012-2014. 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 #ifndef _SIMIX_PRIVATE_H
8 #define _SIMIX_PRIVATE_H
10 #include "simgrid/simix.h"
11 #include "surf/surf.h"
15 #include "xbt/mallocator.h"
16 #include "xbt/config.h"
17 #include "xbt/xbt_os_time.h"
18 #include "xbt/function_types.h"
19 #include "xbt/ex_interface.h"
20 #include "instr/instr_private.h"
21 #include "smx_process_private.h"
22 #include "smx_host_private.h"
23 #include "smx_io_private.h"
24 #include "smx_network_private.h"
25 #include "smx_smurf_private.h"
26 #include "smx_synchro_private.h"
27 /* ****************************************************************************************** */
28 /* TUTORIAL: New API */
29 /* ****************************************************************************************** */
30 #include "smx_new_api_private.h"
32 /* Define only for SimGrid benchmarking purposes */
33 //#define TIME_BENCH_PER_SR /* this aims at measuring the time spent in each scheduling round per each thread. The code is thus run in sequential to bench separately each SSR */
34 //#define TIME_BENCH_AMDAHL /* this aims at measuring the porting of time that could be parallelized at maximum (to get the optimal speedup by applying the amdahl law). */
36 /********************************** Simix Global ******************************/
37 typedef struct s_smx_global {
38 smx_context_factory_t context_factory;
39 xbt_dynar_t process_to_run;
40 xbt_dynar_t process_that_ran;
41 xbt_swag_t process_list;
42 xbt_swag_t process_to_destroy;
43 smx_process_t maestro_process;
44 xbt_dict_t registered_functions;
45 smx_creation_func_t create_process_function;
46 void_pfn_smxprocess_t_smxprocess_t kill_process_function;
47 void_pfn_smxprocess_t cleanup_process_function;
48 xbt_mallocator_t action_mallocator;
49 void_pfn_smxhost_t autorestart;
51 #ifdef TIME_BENCH_AMDAHL
52 xbt_os_timer_t timer_seq; /* used to bench the sequential and parallel parts of the simulation, if requested to */
53 xbt_os_timer_t timer_par;
55 } s_smx_global_t, *smx_global_t;
57 extern smx_global_t simix_global;
58 extern unsigned long simix_process_maxpid;
60 extern xbt_dict_t watched_hosts_lib;
62 /******************************** Exceptions *********************************/
64 #define SMX_EXCEPTION(issuer, c, v, m) \
66 smx_process_t _smx_throw_issuer = (issuer); \
67 THROW_PREPARE(_smx_throw_issuer->running_ctx, (c), (v), xbt_strdup(m)); \
68 _smx_throw_issuer->doexception = 1; \
71 #define SMX_THROW() RETHROW
73 /* ******************************** File ************************************ */
74 typedef struct s_smx_file {
75 surf_file_t surf_file;
76 void* data; /**< @brief user data */
79 /*********************************** Time ************************************/
81 /** @brief Timer datatype */
82 typedef struct s_smx_timer {
88 /********************************* Action *************************************/
92 SIMIX_ACTION_PARALLEL_EXECUTE,
93 SIMIX_ACTION_COMMUNICATE,
97 /* ****************************************************************************************** */
98 /* TUTORIAL: New API */
99 /* ****************************************************************************************** */
101 } e_smx_action_type_t;
117 /** @brief Action datatype */
118 typedef struct s_smx_action {
120 e_smx_action_type_t type; /* Type of SIMIX action*/
121 e_smx_state_t state; /* State of the action */
122 char *name; /* Action name if any */
123 xbt_fifo_t simcalls; /* List of simcalls waiting for this action */
125 /* Data specific to each action type */
129 smx_host_t host; /* The host where the execution takes place */
130 surf_action_t surf_exec; /* The Surf execution action encapsulated */
131 } execution; /* Possibly parallel execution */
134 e_smx_comm_type_t type; /* Type of the communication (SIMIX_COMM_SEND or SIMIX_COMM_RECEIVE) */
135 smx_rdv_t rdv; /* Rendez-vous where the comm is queued */
138 smx_rdv_t rdv_cpy; /* Copy of the rendez-vous where the comm is queued, MC needs it for DPOR
139 (comm.rdv set to NULL when the communication is removed from the mailbox
140 (used as garbage collector)) */
142 int refcount; /* Number of processes involved in the cond */
143 int detached; /* If detached or not */
145 void (*clean_fun)(void*); /* Function to clean the detached src_buf if something goes wrong */
146 int (*match_fun)(void*,void*,smx_action_t); /* Filter function used by the other side. It is used when
147 looking if a given communication matches my needs. For that, myself must match the
148 expectations of the other side, too. See */
150 /* Surf action data */
151 surf_action_t surf_comm; /* The Surf communication action encapsulated */
152 surf_action_t src_timeout; /* Surf's actions to instrument the timeouts */
153 surf_action_t dst_timeout; /* Surf's actions to instrument the timeouts */
154 smx_process_t src_proc;
155 smx_process_t dst_proc;
159 /* Data to be transfered */
162 size_t src_buff_size;
163 size_t *dst_buff_size;
164 unsigned copied:1; /* whether the data were already copied */
166 void* src_data; /* User data associated to communication */
171 smx_host_t host; /* The host that is sleeping */
172 surf_action_t surf_sleep; /* The Surf sleeping action encapsulated */
181 surf_action_t surf_io;
184 /* ****************************************************************************************** */
185 /* TUTORIAL: New API */
186 /* ****************************************************************************************** */
188 surf_action_t surf_new_api;
192 #ifdef HAVE_LATENCY_BOUND_TRACKING
197 char *category; /* simix action category for instrumentation */
201 /* FIXME: check if we can delete this function */
202 static XBT_INLINE e_smx_state_t SIMIX_action_map_state(e_surf_action_state_t state)
205 case SURF_ACTION_READY:
207 case SURF_ACTION_RUNNING:
208 return SIMIX_RUNNING;
209 case SURF_ACTION_FAILED:
211 case SURF_ACTION_DONE:
214 xbt_die("Unexpected SURF action state");
218 void SIMIX_context_mod_init(void);
219 void SIMIX_context_mod_exit(void);
221 void SIMIX_context_set_current(smx_context_t context);
222 smx_context_t SIMIX_context_get_current(void);
224 /* All factories init */
226 void SIMIX_ctx_thread_factory_init(smx_context_factory_t *factory);
227 void SIMIX_ctx_sysv_factory_init(smx_context_factory_t *factory);
228 void SIMIX_ctx_raw_factory_init(smx_context_factory_t *factory);
230 /* ****************************** */
231 /* context manipulation functions */
232 /* ****************************** */
234 /* Scenario for the end of a context:
236 * CASE 1: death after end of the main function
237 * the context_wrapper, called internally by the context module, calls
238 * SIMIX_context_stop after user code stops, smx_context_stop calls user
239 * cleanup_func if any (in context settings), add current process to trashbin
240 * and yields back to maestro.
241 * From time to time, maestro calls SIMIX_context_empty_trash, which destroy
242 * all the process and context data structures, and frees the memory
244 * CASE 2: brutal death
245 * SIMIX_process_kill (from any process) set process->iwannadie = 1 and then
246 * schedules the process. Then the process is awaken in the middle of the
247 * SIMIX_process_yield function, and at the end of it, it checks that
248 * iwannadie == 1, and call SIMIX_context_stop(same than first case afterward)
252 * \brief creates a new context for a user level process
253 * \param code a main function
254 * \param argc the number of arguments of the main function
255 * \param argv the vector of arguments of the main function
256 * \param cleanup_func the function to call when the context stops
257 * \param cleanup_arg the argument of the cleanup_func function
259 static XBT_INLINE smx_context_t SIMIX_context_new(xbt_main_func_t code,
260 int argc, char **argv,
261 void_pfn_smxprocess_t cleanup_func,
262 smx_process_t simix_process)
265 xbt_die("simix is not initialized, please call MSG_init first");
266 return simix_global->context_factory->create_context(code,
273 * \brief destroy a context
274 * \param context the context to destroy
275 * Argument must be stopped first -- runs in maestro context
277 static XBT_INLINE void SIMIX_context_free(smx_context_t context)
279 simix_global->context_factory->free(context);
283 * \brief stops the execution of a context
284 * \param context to stop
286 static XBT_INLINE void SIMIX_context_stop(smx_context_t context)
288 simix_global->context_factory->stop(context);
292 \brief suspends a context and return the control back to the one which
294 \param context the context to be suspended (it must be the running one)
296 static XBT_INLINE void SIMIX_context_suspend(smx_context_t context)
298 simix_global->context_factory->suspend(context);
302 \brief Executes all the processes to run (in parallel if possible).
304 static XBT_INLINE void SIMIX_context_runall(void)
306 if (!xbt_dynar_is_empty(simix_global->process_to_run)) {
307 simix_global->context_factory->runall();
312 \brief returns the current running context
314 static XBT_INLINE smx_context_t SIMIX_context_self(void)
316 if (simix_global && simix_global->context_factory) {
317 return simix_global->context_factory->self();
323 \brief returns the SIMIX process associated to a context
324 \param context The context
325 \return The SIMIX process
327 static XBT_INLINE smx_process_t SIMIX_context_get_process(smx_context_t context)
329 return simix_global->context_factory->get_process(context);
332 XBT_PUBLIC(int) SIMIX_process_get_maxpid(void);
334 void SIMIX_post_create_environment(void);