NOTSET
};
+
+typedef struct surf_resource {
+ surf_model_t model;
+ char *name;
+ xbt_dict_t properties;
+} s_surf_resource_t, *surf_resource_t;
+
/** \ingroup SURF_actions
* \brief Action structure
*
xbt_swag_t state_set;
double cost; /**< cost */
double priority; /**< priority (1.0 by default) */
+ double bound; /**< the capping of the CPU use */
double max_duration; /**< max_duration (may fluctuate until
the task is completed) */
double remains; /**< How much of that cost remains to
* and fluctuates until the task is completed */
void *data; /**< for your convenience */
int refcount;
- surf_model_t model_type;
+
+ /* The previous name was model_type. For VM support, we have to distinguish a
+ * model type and its model object. Thus, we use model_obj here. The type of
+ * a model object is available by looking at the inside of the model object. */
+ surf_model_t model_obj; /**< the surf model object */
+
#ifdef HAVE_TRACING
char *category; /**< tracing category for categorized resource utilization monitoring */
#endif
surf_action_t(*execute) (void *cpu, double size);
surf_action_t(*sleep) (void *cpu, double duration);
e_surf_resource_state_t(*get_state) (void *cpu);
+ void(*set_state) (void *cpu, e_surf_resource_state_t state);
+
+ int (*get_core) (void *cpu);
double (*get_speed) (void *cpu, double load);
double (*get_available_speed) (void *cpu);
void (*add_traces) (void);
surf_action_t(*ls) (void *storage, const char *path);
} s_surf_model_extension_storage_t;
- /** \ingroup SURF_models
- * \brief Workstation model extension public
- *
- * Public functions specific to the workstation model.
- */
+/** \ingroup SURF_models
+ * \brief Workstation model extension public
+ *
+ * Public functions specific to the workstation model.
+ */
typedef struct surf_workstation_model_extension_public {
+ /* This points to the surf cpu model object bound to the workstation model. */
+ surf_model_t cpu_model;
+
surf_action_t(*execute) (void *workstation, double size); /**< Execute a computation amount on a workstation
and create the corresponding action */
surf_action_t(*sleep) (void *workstation, double duration); /**< Make a workstation sleep during a given duration */
e_surf_resource_state_t(*get_state) (void *workstation); /**< Return the CPU state of a workstation */
+ void(*set_state) (void *workstation, e_surf_resource_state_t state);
+ int (*get_core) (void *workstation);
double (*get_speed) (void *workstation, double load); /**< Return the speed of a workstation */
double (*get_available_speed) (void *workstation); /**< Return tha available speed of a workstation */
surf_action_t(*communicate) (void *workstation_src, /**< Execute a communication amount between two workstations */
xbt_dict_t(*get_properties) (const void *resource);
void (*add_traces) (void);
+ void (*get_params) (void *ind_vm_ws, ws_params_t param);
+ void (*set_params) (void *ind_vm_ws, ws_params_t param);
+ xbt_dynar_t (*get_vms) (void *ind_vm_ws);
+
} s_surf_model_extension_workstation_t;
+typedef struct surf_vm_workstation_model_extension_public {
+ /* The vm workstation model object has all members of the physical machine
+ * workstation model object. If these members are correctly initialized also
+ * in the vm workstation model object, we can access the vm workstation model
+ * object as if it is the pm workstatoin model object.
+ *
+ * But, it's not so clean. Think it again later.
+ * */
+ s_surf_model_extension_workstation_t basic;
+
+ // start does not appear here as it corresponds to turn the state from created to running (see smx_vm.c)
+
+ void (*create) (const char *name, void *ind_phys_workstation); // First operation of the VM model
+ void (*destroy) (void *ind_vm_ws); // will be vm_ws_destroy(), which destroies the vm-workstation-specific data
+
+ void (*suspend) (void *ind_vm_ws);
+ void (*resume) (void *ind_vm_ws);
+
+ void (*save) (void *ind_vm_ws);
+ void (*restore) (void *ind_vm_ws);
+
+ void (*migrate) (void *ind_vm_ws, void *ind_vm_ws_dest); // will be vm_ws_migrate()
+
+ int (*get_state) (void *ind_vm_ws);
+ void (*set_state) (void *ind_vm_ws, int state);
+
+ void * (*get_pm) (void *ind_vm_ws); // will be vm_ws_get_pm()
+ void (*set_vm_bound) (void *ind_vm_ws, double bound); // will be vm_ws_set_vm_bound()
+} s_surf_model_extension_vm_workstation_t;
+
+/** \ingroup SURF_models
+ * \brief Model types
+ *
+ * The type of the model object. For example, we will have two model objects
+ * of the surf cpu model. One is for physical machines, and the other is for
+ * virtual machines.
+ *
+ */
+typedef enum {
+ SURF_MODEL_TYPE_CPU = 0,
+ SURF_MODEL_TYPE_NETWORK,
+ SURF_MODEL_TYPE_STORAGE,
+ SURF_MODEL_TYPE_WORKSTATION,
+ SURF_MODEL_TYPE_VM_WORKSTATION,
+ SURF_MODEL_TYPE_NEW_MODEL
+} e_surf_model_type_t;
/** \ingroup SURF_models
* \brief Model datatype
const char *name; /**< Name of this model */
s_surf_action_state_t states; /**< Any living action on this model */
- e_surf_action_state_t(*action_state_get) (surf_action_t action);
+ e_surf_model_type_t type; /**< See e_surf_model_type_t */
+
+ e_surf_action_state_t(*action_state_get) (surf_action_t action);
/**< Return the state of an action */
void (*action_state_set) (surf_action_t action,
e_surf_action_state_t state);
int (*is_suspended) (surf_action_t action); /**< Return whether an action is suspended */
void (*set_max_duration) (surf_action_t action, double duration); /**< Set the max duration of an action*/
void (*set_priority) (surf_action_t action, double priority); /**< Set the priority of an action */
+ void (*set_bound) (surf_action_t action, double bound); /**< Set the bound (the maximum CPU utilization) of an action */
#ifdef HAVE_TRACING
void (*set_category) (surf_action_t action, const char *category); /**< Set the category of an action */
#endif
s_surf_model_extension_network_t network;
s_surf_model_extension_storage_t storage;
s_surf_model_extension_workstation_t workstation;
+ // TODO Implement the corresponding model
+ s_surf_model_extension_vm_workstation_t vm_workstation;
/*******************************************/
/* TUTORIAL: New model */
s_surf_model_extension_new_model_t new_model;
return xbt_lib_get_elm_or_null(storage_lib, name);
}
-typedef struct surf_resource {
- surf_model_t model;
- char *name;
- xbt_dict_t properties;
-} s_surf_resource_t, *surf_resource_t;
+static inline surf_model_t surf_resource_model(const void *host, int level) {
+ /* If level is SURF_WKS_LEVEL, ws is a workstation_CLM03 object. It has
+ * surf_resource at the generic_resource field. */
+ surf_resource_t ws = xbt_lib_get_level((void *) host, level);
+ return ws->model;
+}
+
+
/**
* Resource which have a metric handled by a maxmin system
/** \ingroup SURF_models
- * \brief The CPU model
+ * \brief The CPU model object for the physical machine layer
+ */
+XBT_PUBLIC_DATA(surf_model_t) surf_cpu_model_pm;
+
+/** \ingroup SURF_models
+ * \brief The CPU model object for the virtual machine layer
*/
-XBT_PUBLIC_DATA(surf_model_t) surf_cpu_model;
+XBT_PUBLIC_DATA(surf_model_t) surf_cpu_model_vm;
/** \ingroup SURF_models
* \brief Initializes the CPU model with the model Cas01
*
* You shouldn't have to call it by yourself.
*/
-XBT_PUBLIC(void) surf_cpu_model_init_ti(void);
+XBT_PUBLIC(surf_model_t) surf_cpu_model_init_ti(void);
/** \ingroup SURF_models
* \brief The list of all available optimization modes (both for cpu and networks).
*/
XBT_PUBLIC_DATA(surf_model_t) surf_workstation_model;
+/** \ingroup SURF_models
+ * \brief The vm_workstation model
+ *
+ * Note that when you create an API on top of SURF,
+ * the vm_workstation model should be the only one you use
+ * because depending on the platform model, the network model and the CPU model
+ * may not exist.
+ */
+XBT_PUBLIC_DATA(surf_model_t) surf_vm_workstation_model;
+
/** \ingroup SURF_models
* \brief Initializes the platform with a compound workstation model
*
* \brief List of initialized models
*/
XBT_PUBLIC_DATA(xbt_dynar_t) model_list;
+XBT_PUBLIC_DATA(xbt_dynar_t) model_list_invoke;
/*******************************************/
/*** SURF Platform *************************/