#include "xbt/fifo.h"
#include "xbt/swag.h"
#include "xbt/dict.h"
-#include "xbt/context.h"
#include "xbt/config.h"
#include "xbt/function_types.h"
-/******************************* Datatypes **********************************/
+/******************************** Datatypes ***********************************/
-/********************************** Host ************************************/
+/*********************************** Host *************************************/
-typedef struct s_smx_simdata_host {
- void *host; /* SURF modeling */
+/** @brief Host datatype
+ @ingroup m_datatypes_management_details */
+typedef struct s_smx_host {
+ char *name; /**< @brief host name if any */
+ void *host; /* SURF modeling */
xbt_swag_t process_list;
-} s_smx_simdata_host_t;
+ void *data; /**< @brief user data */
+} s_smx_host_t;
-/********************************* Simix Global ******************************/
+/********************************** Simix Global ******************************/
+
+typedef struct s_smx_context_factory *smx_context_factory_t;
typedef struct SIMIX_Global {
- xbt_fifo_t host;
+ smx_context_factory_t context_factory;
+ xbt_dict_t host;
xbt_swag_t process_to_run;
xbt_swag_t process_list;
-
+ xbt_swag_t process_to_destroy;
smx_process_t current_process;
+ smx_process_t maestro_process;
xbt_dict_t registered_functions;
- smx_creation_func_t *create_process_function;
- void_f_pvoid_t* kill_process_function;
- void_f_pvoid_t* cleanup_process_function;
+ smx_creation_func_t create_process_function;
+ void_f_pvoid_t kill_process_function;
+ void_f_pvoid_t cleanup_process_function;
} s_SIMIX_Global_t, *SIMIX_Global_t;
extern SIMIX_Global_t simix_global;
-/******************************* Process *************************************/
-
-typedef struct s_smx_simdata_process {
- smx_host_t s_host; /* the host on which the process is running */
- xbt_context_t context; /* the context that executes the scheduler fonction */
- int blocked;
- int suspended;
- smx_mutex_t mutex; /* mutex on which the process is blocked */
- smx_cond_t cond; /* cond on which the process is blocked */
- int argc; /* arguments number if any */
- char **argv; /* arguments table if any */
-} s_smx_simdata_process_t;
+/******************************** Process *************************************/
+
+typedef struct s_smx_context *smx_context_t;
+
+/** @brief Process datatype
+ @ingroup m_datatypes_management_details @{ */
+ typedef struct s_smx_process {
+ s_xbt_swag_hookup_t process_hookup;
+ s_xbt_swag_hookup_t synchro_hookup;
+ s_xbt_swag_hookup_t host_proc_hookup;
+ s_xbt_swag_hookup_t destroy_hookup;
+
+ char *name; /**< @brief process name if any */
+ smx_host_t smx_host; /* the host on which the process is running */
+ smx_context_t context; /* the context that executes the scheduler function */
+ int argc; /* arguments number if any */
+ char **argv; /* arguments table if any */
+ int blocked : 1;
+ int suspended : 1;
+ int iwannadie : 1;
+ smx_mutex_t mutex; /* mutex on which the process is blocked */
+ smx_cond_t cond; /* cond on which the process is blocked */
+ xbt_dict_t properties;
+ void *data; /* kept for compatibility, it should be replaced with moddata */
+ void_f_pvoid_t cleanup_func;
+ void *cleanup_arg;
+
+ } s_smx_process_t;
+/** @} */
typedef struct s_smx_process_arg {
const char *name;
int argc;
char **argv;
double kill_time;
+ xbt_dict_t properties;
} s_smx_process_arg_t, *smx_process_arg_t;
-/********************************* Mutex and Conditional ****************************/
+void SIMIX_process_empty_trash(void);
+void __SIMIX_process_schedule(smx_process_t process);
+void __SIMIX_process_yield(void);
+
+/*************************** Mutex and Conditional ****************************/
typedef struct s_smx_mutex {
- /* KEEP IT IN SYNC WITH src/xbt_sg_thread.c::struct s_xbt_mutex */
- xbt_swag_t sleeping; /* list of sleeping process */
- int using;
- /* KEEP IT IN SYNC WITH src/xbt_sg_thread.c::struct s_xbt_mutex */
+ /* KEEP IT IN SYNC WITH src/xbt_sg_thread.c::struct s_xbt_mutex */
+ xbt_swag_t sleeping; /* list of sleeping process */
+ int refcount;
+ /* KEEP IT IN SYNC WITH src/xbt_sg_thread.c::struct s_xbt_mutex */
} s_smx_mutex_t;
typedef struct s_smx_cond {
-
- /* KEEP IT IN SYNC WITH src/xbt_sg_thread.c::struct s_xbt_cond */
- xbt_swag_t sleeping; /* list of sleeping process */
- smx_mutex_t mutex;
- xbt_fifo_t actions; /* list of actions */
- /* KEEP IT IN SYNC WITH src/xbt_sg_thread.c::struct s_xbt_cond */
-
-} s_smx_cond_t;
-/********************************* Action **************************************/
-
-typedef struct s_smx_simdata_action {
- surf_action_t surf_action; /* SURF modeling of computation */
-
- smx_host_t source;
-
-} s_smx_simdata_action_t;
+ /* KEEP IT IN SYNC WITH src/xbt_sg_thread.c::struct s_xbt_cond */
+ xbt_swag_t sleeping; /* list of sleeping process */
+ smx_mutex_t mutex;
+ xbt_fifo_t actions; /* list of actions */
+ /* KEEP IT IN SYNC WITH src/xbt_sg_thread.c::struct s_xbt_cond */
+} s_smx_cond_t;
+/********************************* Action *************************************/
-/******************************* Configuration support **********************************/
+/** @brief Action datatype
+ @ingroup m_datatypes_management_details */
+typedef struct s_smx_action {
+ char *name; /**< @brief action name if any */
+ xbt_fifo_t cond_list; /*< conditional variables that must be signaled when the action finish. */
+ void *data; /**< @brief user data */
+ int refcount; /**< @brief reference counter */
+ surf_action_t surf_action; /* SURF modeling of computation */
+ smx_host_t source;
+} s_smx_action_t;
-void simix_config_init(void); /* create the config set, call this before use! */
-void simix_config_finalize(void); /* destroy the config set, call this at cleanup. */
-extern int _simix_init_status; /* 0: beginning of time;
- 1: pre-inited (cfg_set created);
- 2: inited (running) */
-extern xbt_cfg_t _simix_cfg_set;
+/************************** Configuration support *****************************/
+extern int _simix_init_status; /* 0: beginning of time; FIXME: KILLME ?
+ 1: pre-inited (cfg_set created);
+ 2: inited (running) */
-#define SIMIX_CHECK_HOST() xbt_assert0(surf_workstation_resource->extension_public-> \
- get_state(SIMIX_host_self()->simdata->host)==SURF_CPU_ON,\
+#define SIMIX_CHECK_HOST() xbt_assert0(surf_workstation_model->extension.workstation. \
+ get_state(SIMIX_host_self()->host)==SURF_RESOURCE_ON,\
"Host failed, you cannot call this function.")
smx_host_t __SIMIX_host_create(const char *name, void *workstation, void *data);
-void __SIMIX_host_destroy(smx_host_t host);
-
+void __SIMIX_host_destroy(void *host);
void __SIMIX_cond_wait(smx_cond_t cond);
+void __SIMIX_cond_display_actions(smx_cond_t cond);
+void __SIMIX_action_display_conditions(smx_action_t action);
+void __SIMIX_create_maestro_process(void);
+
+/******************************** Context *************************************/
+
+void SIMIX_context_mod_init(void);
+
+void SIMIX_context_mod_exit(void);
+
+/* *********************** */
+/* Context type definition */
+/* *********************** */
+/* the following function pointers types describe the interface that all context
+ concepts must implement */
+
+/* each context type must contain this macro at its begining -- OOP in C :/ */
+#define SMX_CTX_BASE_T \
+ s_xbt_swag_hookup_t hookup; \
+ ex_ctx_t *exception; \
+ xbt_main_func_t code; \
+
+/* all other context types derive from this structure */
+typedef struct s_smx_context {
+ SMX_CTX_BASE_T;
+} s_smx_context_t;
+
+/* *********************** */
+/* factory type definition */
+/* *********************** */
+
+/* Each context implementation define its own context factory
+ * A context factory is responsable of the creation and manipulation of the
+ * execution context of all the simulated processes (and maestro) using the
+ * selected implementation.
+ *
+ * For example, the context switch based on java thread use the
+ * java implementation of the context and the java factory to build and control
+ * the contexts depending on this implementation.
+
+ * The following function pointer types describe the interface that any context
+ * factory should implement.
+ */
+
+/* function used to create a new context */
+typedef int (*smx_pfn_context_factory_create_context_t) (smx_process_t *, xbt_main_func_t);
+
+/* function used to create the context for the maestro process */
+typedef int (*smx_pfn_context_factory_create_maestro_context_t) (smx_process_t*);
+
+/* this function finalize the specified context factory */
+typedef int (*smx_pfn_context_factory_finalize_t) (smx_context_factory_t*);
+
+/* function used to destroy the specified context */
+typedef void (*smx_pfn_context_free_t) (smx_process_t);
+
+/* function used to kill the specified context */
+typedef void (*smx_pfn_context_kill_t) (smx_process_t);
+
+/* function used to resume the specified context */
+typedef void (*smx_pfn_context_schedule_t) (smx_process_t);
+
+/* function used to yield the specified context */
+typedef void (*smx_pfn_context_yield_t) (void);
+
+/* function used to start the specified context */
+typedef void (*smx_pfn_context_start_t) (smx_process_t);
+
+/* function used to stop the current context */
+typedef void (*smx_pfn_context_stop_t) (int);
+
+/* interface of the context factories */
+typedef struct s_smx_context_factory {
+ smx_pfn_context_factory_create_maestro_context_t create_maestro_context;
+ smx_pfn_context_factory_create_context_t create_context;
+ smx_pfn_context_factory_finalize_t finalize;
+ smx_pfn_context_free_t free;
+ smx_pfn_context_kill_t kill;
+ smx_pfn_context_schedule_t schedule;
+ smx_pfn_context_yield_t yield;
+ smx_pfn_context_start_t start;
+ smx_pfn_context_stop_t stop;
+ const char *name;
+} s_smx_context_factory_t;
+
+/* Selects a context factory associated with the name specified by the parameter name.
+ * If successful the function returns 0. Otherwise the function returns the error code.
+ */
+int SIMIX_context_select_factory(const char *name);
+
+/* Initializes a context factory from the name specified by the parameter name.
+ * If the factory cannot be found, an exception is raised.
+ */
+void SIMIX_context_init_factory_by_name(smx_context_factory_t * factory, const char *name);
+
+/* All factories init */
+void SIMIX_ctx_thread_factory_init(smx_context_factory_t * factory);
+
+void SIMIX_ctx_sysv_factory_init(smx_context_factory_t * factory);
+
+void SIMIX_ctx_java_factory_init(smx_context_factory_t * factory);
+
+/* ******************************* */
+/* contexts manipulation functions */
+/* ******************************* */
+
+/**
+ * \param smx_process the simix maestro process that contains this context
+ */
+static inline int SIMIX_context_create_maestro(smx_process_t *process)
+{
+ return (*(simix_global->context_factory->create_maestro_context)) (process);
+}
+
+/**
+ * \param smx_process the simix process that contains this context
+ * \param code a main function
+ */
+static inline int SIMIX_context_new(smx_process_t *process, xbt_main_func_t code)
+{
+ return (*(simix_global->context_factory->create_context)) (process, code);
+}
+
+/* Scenario for the end of a context:
+ *
+ * CASE 1: death after end of function
+ * __context_wrapper, called by os thread, calls smx_context_stop after user code stops
+ * smx_context_stop calls user cleanup_func if any (in context settings),
+ * add current to trashbin
+ * yields back to maestro (destroy os thread on need)
+ * From time to time, maestro calls smx_context_empty_trash,
+ * which maps smx_context_free on the content
+ * smx_context_free frees some more memory,
+ * joins os thread
+ *
+ * CASE 2: brutal death
+ * smx_context_kill (from any context)
+ * set context->wannadie to 1
+ * yields to the context
+ * the context is awaken in the middle of __yield.
+ * At the end of it, it checks that wannadie == 1, and call smx_context_stop
+ * (same than first case afterward)
+ */
+static inline void SIMIX_context_kill(smx_process_t process)
+{
+ (*(simix_global->context_factory->kill)) (process);
+}
+
+/* Argument must be stopped first -- runs in maestro context */
+static inline void SIMIX_context_free(smx_process_t process)
+{
+ (*(simix_global->context_factory->free)) (process);
+}
+
+/**
+ * \param context the context to start
+ *
+ * Calling this function prepares \a process to be run. It will
+ however run effectively only when calling #SIMIX_context_schedule
+ */
+static inline void SIMIX_context_start(smx_process_t process)
+{
+ (*(simix_global->context_factory->start)) (process);
+}
+
+/**
+ * Calling this function makes the current process yield. The process
+ * that scheduled it returns from SIMIX_context_schedule as if nothing
+ * had happened.
+ *
+ * Only the processes can call this function, giving back the control
+ * to the maestro
+ */
+static inline void SIMIX_context_yield(void)
+{
+ (*(simix_global->context_factory->yield)) ();
+}
+
+/**
+ * \param process to be scheduled
+ *
+ * Calling this function blocks the current process and schedule \a process.
+ * When \a process would call SIMIX_context_yield, it will return
+ * to this function as if nothing had happened.
+ *
+ * Only the maestro can call this function to run a given process.
+ */
+static inline void SIMIX_context_schedule(smx_process_t process)
+{
+ (*(simix_global->context_factory->schedule)) (process);
+}
+
+static inline void SIMIX_context_stop(int exit_code)
+{
+ (*(simix_global->context_factory->stop)) (exit_code);
+}
#endif