-/* Copyright (c) 2009-2011. The SimGrid Team.
+/* Copyright (c) 2009-2013. The SimGrid Team.
* All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
#include "surf/surf_resource.h"
#include "maxmin_private.h"
#include "simgrid/sg_config.h"
+#include "cpu_cas01_private.h"
-surf_model_t *surf_cpu_model;
-
-#undef GENERIC_LMM_ACTION
-#undef GENERIC_ACTION
-#undef ACTION_GET_CPU
-#define GENERIC_LMM_ACTION(action) action->generic_lmm_action
-#define GENERIC_ACTION(action) GENERIC_LMM_ACTION(action).generic_action
-#define ACTION_GET_CPU(action) ((surf_action_cpu_Cas01_t) action)->cpu
-
-typedef struct surf_action_cpu_cas01 {
- s_surf_action_lmm_t generic_lmm_action;
-} s_surf_action_cpu_Cas01_t, *surf_action_cpu_Cas01_t;
-
-typedef struct cpu_Cas01 {
- s_surf_resource_t generic_resource;
- s_xbt_swag_hookup_t modified_cpu_hookup;
- double power_peak;
- double power_scale;
- tmgr_trace_event_t power_event;
- int core;
- e_surf_resource_state_t state_current;
- tmgr_trace_event_t state_event;
- lmm_constraint_t constraint;
-} s_cpu_Cas01_t, *cpu_Cas01_t;
+#include "string.h"
+#include "stdlib.h"
+
+/* the model objects for physical machines and virtual machines */
+surf_model_t surf_cpu_model_pm = NULL;
+surf_model_t surf_cpu_model_vm = NULL;
XBT_LOG_NEW_DEFAULT_SUBCATEGORY(surf_cpu, surf,
"Logging specific to the SURF CPU IMPROVED module");
static xbt_swag_t
cpu_running_action_set_that_does_not_need_being_checked = NULL;
+/* Additionnal callback function to cleanup some data, called from surf_resource_free */
+
+static void cpu_cas01_cleanup(void* r){
+ cpu_Cas01_t cpu = (cpu_Cas01_t)r;
+ unsigned int iter;
+ xbt_dynar_t power_tuple = NULL;
+ xbt_dynar_foreach(cpu->energy->power_range_watts_list, iter, power_tuple)
+ xbt_dynar_free(&power_tuple);
+ xbt_dynar_free(&cpu->energy->power_range_watts_list);
+ xbt_dynar_free(&cpu->power_peak_list);
+ xbt_free(cpu->energy);
+ return;
+}
/* This function is registered as a callback to sg_platf_new_host() and never called directly */
-static void *cpu_create_resource(const char *name, double power_peak,
+void *cpu_cas01_create_resource(const char *name, xbt_dynar_t power_peak,
+ int pstate,
double power_scale,
tmgr_trace_t power_trace,
int core,
e_surf_resource_state_t state_initial,
tmgr_trace_t state_trace,
- xbt_dict_t cpu_properties)
+ xbt_dict_t cpu_properties,
+ surf_model_t cpu_model)
{
cpu_Cas01_t cpu = NULL;
"Host '%s' declared several times in the platform file",
name);
cpu = (cpu_Cas01_t) surf_resource_new(sizeof(s_cpu_Cas01_t),
- surf_cpu_model, name,
- cpu_properties);
- cpu->power_peak = power_peak;
+ cpu_model, name,
+ cpu_properties, &cpu_cas01_cleanup);
+ cpu->power_peak = xbt_dynar_get_as(power_peak, pstate, double);
+ cpu->power_peak_list = power_peak;
+ cpu->pstate = pstate;
+
+ cpu->energy = xbt_new(s_energy_cpu_cas01_t, 1);
+ cpu->energy->total_energy = 0;
+ cpu->energy->power_range_watts_list = cpu_get_watts_range_list(cpu);
+ cpu->energy->last_updated = surf_get_clock();
+
+ XBT_DEBUG("CPU create: peak=%f, pstate=%d",cpu->power_peak, cpu->pstate);
+
xbt_assert(cpu->power_peak > 0, "Power has to be >0");
cpu->power_scale = power_scale;
cpu->core = core;
tmgr_history_add_trace(history, state_trace, 0.0, 0, cpu);
cpu->constraint =
- lmm_constraint_new(surf_cpu_model->model_private->maxmin_system, cpu,
+ lmm_constraint_new(cpu_model->model_private->maxmin_system, cpu,
cpu->core * cpu->power_scale * cpu->power_peak);
+ /* Note (hypervisor): we create a constraint object for each CPU core, which
+ * is used for making a contraint problem of CPU affinity.
+ **/
+ {
+ /* At now, we assume that a VM does not have a multicore CPU. */
+ if (core > 1)
+ xbt_assert(cpu_model == surf_cpu_model_pm);
+
+ cpu->constraint_core = xbt_new(lmm_constraint_t, core);
+
+ unsigned long i;
+ for (i = 0; i < core; i++) {
+ /* just for a unique id, never used as a string. */
+ void *cnst_id = bprintf("%s:%lu", name, i);
+ cpu->constraint_core[i] =
+ lmm_constraint_new(cpu_model->model_private->maxmin_system, cnst_id,
+ cpu->power_scale * cpu->power_peak);
+ }
+ }
+
xbt_lib_set(host_lib, name, SURF_CPU_LEVEL, cpu);
return xbt_lib_get_elm_or_null(host_lib, name);;
static void parse_cpu_init(sg_platf_host_cbarg_t host)
{
- cpu_create_resource(host->id,
+ /* This function is called when a platform file is parsed. Physical machines
+ * are defined there. Thus, we use the cpu model object for the physical
+ * machine layer. */
+ cpu_cas01_create_resource(host->id,
host->power_peak,
+ host->pstate,
host->power_scale,
host->power_trace,
host->core_amount,
host->initial_state,
- host->state_trace, host->properties);
+ host->state_trace, host->properties,
+ surf_cpu_model_pm);
}
static void cpu_add_traces_cpu(void)
}
}
-static void cpu_define_callbacks()
+static void cpu_define_callbacks_cas01()
{
sg_platf_host_add_cb(parse_cpu_init);
sg_platf_postparse_add_cb(cpu_add_traces_cpu);
static int cpu_resource_used(void *resource)
{
- return lmm_constraint_used(surf_cpu_model->model_private->maxmin_system,
+ surf_model_t cpu_model = ((surf_resource_t) resource)->model;
+
+ /* Note (hypervisor): we do not need to look up constraint_core[i] here. Even
+ * when a task is pinned or not, its variable object is always linked to the
+ * basic contraint object.
+ **/
+
+ return lmm_constraint_used(cpu_model->model_private->maxmin_system,
((cpu_Cas01_t) resource)->constraint);
}
-static double cpu_share_resources_lazy(double now)
+static double cpu_share_resources_lazy(surf_model_t cpu_model, double now)
{
- return generic_share_resources_lazy(now, surf_cpu_model);
+ return generic_share_resources_lazy(now, cpu_model);
}
-static double cpu_share_resources_full(double now)
+static double cpu_share_resources_full(surf_model_t cpu_model, double now)
{
s_surf_action_cpu_Cas01_t action;
- return generic_maxmin_share_resources(surf_cpu_model->states.
+ return generic_maxmin_share_resources(cpu_model->states.
running_action_set,
xbt_swag_offset(action,
generic_lmm_action.
variable),
- surf_cpu_model->model_private->maxmin_system, lmm_solve);
+ cpu_model->model_private->maxmin_system, lmm_solve);
+}
+
+static void cpu_update_actions_state_lazy(surf_model_t cpu_model, double now, double delta)
+{
+ generic_update_actions_state_lazy(now, delta, cpu_model);
+}
+
+static void cpu_update_actions_state_full(surf_model_t cpu_model, double now, double delta)
+{
+ generic_update_actions_state_full(now, delta, cpu_model);
+}
+
+xbt_dynar_t cpu_get_watts_range_list(cpu_Cas01_t cpu_model)
+{
+ xbt_dynar_t power_range_list;
+ xbt_dynar_t power_tuple;
+ int i = 0, pstate_nb=0;
+ xbt_dynar_t current_power_values;
+ double min_power, max_power;
+ xbt_dict_t props = cpu_model->generic_resource.properties;
+
+ if (props == NULL)
+ return NULL;
+
+ char* all_power_values_str = xbt_dict_get_or_null(props, "power_per_state");
+
+ if (all_power_values_str == NULL)
+ return NULL;
+
+
+ power_range_list = xbt_dynar_new(sizeof(xbt_dynar_t), NULL);
+ xbt_dynar_t all_power_values = xbt_str_split(all_power_values_str, ",");
+
+ pstate_nb = xbt_dynar_length(all_power_values);
+ for (i=0; i< pstate_nb; i++)
+ {
+ /* retrieve the power values associated with the current pstate */
+ current_power_values = xbt_str_split(xbt_dynar_get_as(all_power_values, i, char*), ":");
+ xbt_assert(xbt_dynar_length(current_power_values) > 1,
+ "Power properties incorrectly defined - could not retrieve min and max power values for host %s",
+ cpu_model->generic_resource.name);
+
+ /* min_power corresponds to the idle power (cpu load = 0) */
+ /* max_power is the power consumed at 100% cpu load */
+ min_power = atof(xbt_dynar_get_as(current_power_values, 0, char*));
+ max_power = atof(xbt_dynar_get_as(current_power_values, 1, char*));
+
+ power_tuple = xbt_dynar_new(sizeof(double), NULL);
+ xbt_dynar_push_as(power_tuple, double, min_power);
+ xbt_dynar_push_as(power_tuple, double, max_power);
+
+ xbt_dynar_push_as(power_range_list, xbt_dynar_t, power_tuple);
+ xbt_dynar_free(¤t_power_values);
+ }
+ xbt_dynar_free(&all_power_values);
+ return power_range_list;
+
}
-static void cpu_update_actions_state_lazy(double now, double delta)
+/**
+ * Computes the power consumed by the host according to the current pstate and processor load
+ *
+ */
+static double cpu_get_current_watts_value(cpu_Cas01_t cpu_model, double cpu_load)
{
- generic_update_actions_state_lazy(now, delta, surf_cpu_model);
+ xbt_dynar_t power_range_list = cpu_model->energy->power_range_watts_list;
+
+ if (power_range_list == NULL)
+ {
+ XBT_DEBUG("No power range properties specified for host %s", cpu_model->generic_resource.name);
+ return 0;
+ }
+ xbt_assert(xbt_dynar_length(power_range_list) == xbt_dynar_length(cpu_model->power_peak_list),
+ "The number of power ranges in the properties does not match the number of pstates for host %s",
+ cpu_model->generic_resource.name);
+
+ /* retrieve the power values associated with the current pstate */
+ xbt_dynar_t current_power_values = xbt_dynar_get_as(power_range_list, cpu_model->pstate, xbt_dynar_t);
+
+ /* min_power corresponds to the idle power (cpu load = 0) */
+ /* max_power is the power consumed at 100% cpu load */
+ double min_power = xbt_dynar_get_as(current_power_values, 0, double);
+ double max_power = xbt_dynar_get_as(current_power_values, 1, double);
+ double power_slope = max_power - min_power;
+
+ double current_power = min_power + cpu_load * power_slope;
+
+ XBT_DEBUG("[get_current_watts] min_power=%f, max_power=%f, slope=%f", min_power, max_power, power_slope);
+ XBT_DEBUG("[get_current_watts] Current power (watts) = %f, load = %f", current_power, cpu_load);
+
+ return current_power;
+
}
-static void cpu_update_actions_state_full(double now, double delta)
+/**
+ * Updates the total energy consumed as the sum of the current energy and
+ * the energy consumed by the current action
+ */
+void cpu_update_energy(cpu_Cas01_t cpu_model, double cpu_load)
{
- generic_update_actions_state_full(now, delta, surf_cpu_model);
+
+ double start_time = cpu_model->energy->last_updated;
+ double finish_time = surf_get_clock();
+
+ XBT_DEBUG("[cpu_update_energy] action time interval=(%f-%f), current power peak=%f, current pstate=%d",
+ start_time, finish_time, cpu_model->power_peak, cpu_model->pstate);
+ double current_energy = cpu_model->energy->total_energy;
+ double action_energy = cpu_get_current_watts_value(cpu_model, cpu_load)*(finish_time-start_time);
+
+ cpu_model->energy->total_energy = current_energy + action_energy;
+ cpu_model->energy->last_updated = finish_time;
+
+ XBT_DEBUG("[cpu_update_energy] old_energy_value=%f, action_energy_value=%f", current_energy, action_energy);
+
}
static void cpu_update_resource_state(void *id,
cpu_Cas01_t cpu = id;
lmm_variable_t var = NULL;
lmm_element_t elem = NULL;
-
- surf_watched_hosts();
+ surf_model_t cpu_model = ((surf_resource_t) cpu)->model;
if (event_type == cpu->power_event) {
+ /* TODO (Hypervisor): do the same thing for constraint_core[i] */
+ xbt_assert(cpu->core == 1, "FIXME: add power scaling code also for constraint_core[i]");
+
cpu->power_scale = value;
- lmm_update_constraint_bound(surf_cpu_model->model_private->maxmin_system, cpu->constraint,
+ lmm_update_constraint_bound(cpu_model->model_private->maxmin_system, cpu->constraint,
cpu->core * cpu->power_scale *
cpu->power_peak);
#ifdef HAVE_TRACING
cpu->power_peak);
#endif
while ((var = lmm_get_var_from_cnst
- (surf_cpu_model->model_private->maxmin_system, cpu->constraint, &elem))) {
+ (cpu_model->model_private->maxmin_system, cpu->constraint, &elem))) {
surf_action_cpu_Cas01_t action = lmm_variable_id(var);
- lmm_update_variable_bound(surf_cpu_model->model_private->maxmin_system,
+ lmm_update_variable_bound(cpu_model->model_private->maxmin_system,
GENERIC_LMM_ACTION(action).variable,
cpu->power_scale * cpu->power_peak);
}
if (tmgr_trace_event_free(event_type))
cpu->power_event = NULL;
} else if (event_type == cpu->state_event) {
- if (value > 0)
+ /* TODO (Hypervisor): do the same thing for constraint_core[i] */
+ xbt_assert(cpu->core == 1, "FIXME: add state change code also for constraint_core[i]");
+
+ if (value > 0) {
+ if(cpu->state_current == SURF_RESOURCE_OFF)
+ xbt_dynar_push_as(host_that_restart, char*, (cpu->generic_resource.name));
cpu->state_current = SURF_RESOURCE_ON;
- else {
+ } else {
lmm_constraint_t cnst = cpu->constraint;
cpu->state_current = SURF_RESOURCE_OFF;
- while ((var = lmm_get_var_from_cnst(surf_cpu_model->model_private->maxmin_system, cnst, &elem))) {
+ while ((var = lmm_get_var_from_cnst(cpu_model->model_private->maxmin_system, cnst, &elem))) {
surf_action_t action = lmm_variable_id(var);
if (surf_action_state_get(action) == SURF_ACTION_RUNNING ||
return;
}
+
+/*
+ *
+ * This function formulates a constraint problem that pins a given task to
+ * particular cores. Currently, it is possible to pin a task to an exactly one
+ * specific core. The system links the variable object of the task to the
+ * per-core constraint object.
+ *
+ * But, the taskset command on Linux takes a mask value specifying a CPU
+ * affinity setting of a given task. If the mask value is 0x03, the given task
+ * will be executed on the first core (CPU0) or the second core (CPU1) on the
+ * given PM. The schedular will determine appropriate placements of tasks,
+ * considering given CPU affinities and task activities.
+ *
+ * How should the system formulate constraint problems for an affinity to
+ * multiple cores?
+ *
+ * The cpu argument must be the host where the task is being executed. The
+ * action object does not have the information about the location where the
+ * action is being executed.
+ */
+static void cpu_action_set_affinity(surf_action_t action, void *cpu, unsigned long mask)
+{
+ lmm_variable_t var_obj = ((surf_action_lmm_t) action)->variable;
+
+ surf_model_t cpu_model = action->model_obj;
+ xbt_assert(cpu_model->type == SURF_MODEL_TYPE_CPU);
+ cpu_Cas01_t CPU = surf_cpu_resource_priv(cpu);
+
+ XBT_IN("(%p,%lx)", action, mask);
+
+ {
+ unsigned long nbits = 0;
+
+ /* FIXME: There is much faster algorithms doing this. */
+ unsigned long i;
+ for (i = 0; i < CPU->core; i++) {
+ unsigned long has_affinity = (1UL << i) & mask;
+ if (has_affinity)
+ nbits += 1;
+ }
+
+ if (nbits > 1) {
+ XBT_CRITICAL("Do not specify multiple cores for an affinity mask.");
+ XBT_CRITICAL("See the comment in cpu_action_set_affinity().");
+ DIE_IMPOSSIBLE;
+ }
+ }
+
+
+
+ unsigned long i;
+ for (i = 0; i < CPU->core; i++) {
+ XBT_DEBUG("clear affinity %p to cpu-%lu@%s", action, i, CPU->generic_resource.name);
+ lmm_shrink(cpu_model->model_private->maxmin_system, CPU->constraint_core[i], var_obj);
+
+ unsigned long has_affinity = (1UL << i) & mask;
+ if (has_affinity) {
+ /* This function only accepts an affinity setting on the host where the
+ * task is now running. In future, a task might move to another host.
+ * But, at this moment, this function cannot take an affinity setting on
+ * that future host.
+ *
+ * It might be possible to extend the code to allow this function to
+ * accept affinity settings on a future host. We might be able to assign
+ * zero to elem->value to maintain such inactive affinity settings in the
+ * system. But, this will make the system complex. */
+ XBT_DEBUG("set affinity %p to cpu-%lu@%s", action, i, CPU->generic_resource.name);
+ lmm_expand(cpu_model->model_private->maxmin_system, CPU->constraint_core[i], var_obj, 1.0);
+ }
+ }
+
+ if (cpu_model->model_private->update_mechanism == UM_LAZY) {
+ /* FIXME (hypervisor): Do we need to do something for the LAZY mode? */
+ }
+
+ XBT_OUT();
+}
+
static surf_action_t cpu_execute(void *cpu, double size)
{
surf_action_cpu_Cas01_t action = NULL;
+ //xbt_dict_cursor_t cursor = NULL;
cpu_Cas01_t CPU = surf_cpu_resource_priv(cpu);
+ surf_model_t cpu_model = ((surf_resource_t) CPU)->model;
XBT_IN("(%s,%g)", surf_resource_name(CPU), size);
action =
surf_action_new(sizeof(s_surf_action_cpu_Cas01_t), size,
- surf_cpu_model,
+ cpu_model,
CPU->state_current != SURF_RESOURCE_ON);
GENERIC_LMM_ACTION(action).suspended = 0; /* Should be useless because of the
calloc but it seems to help valgrind... */
+ /* Note (hypervisor): here, the bound value of the variable is set to the
+ * capacity of a CPU core. But, after MSG_{task/vm}_set_bound() were added to
+ * the hypervisor branch, this bound value is overwritten in
+ * SIMIX_host_execute().
+ * TODO: cleanup this.
+ */
GENERIC_LMM_ACTION(action).variable =
- lmm_variable_new(surf_cpu_model->model_private->maxmin_system, action,
+ lmm_variable_new(cpu_model->model_private->maxmin_system, action,
GENERIC_ACTION(action).priority,
- CPU->power_scale * CPU->power_peak, 1);
- if (surf_cpu_model->model_private->update_mechanism == UM_LAZY) {
+ CPU->power_scale * CPU->power_peak, 1 + CPU->core); // the basic constraint plus core-specific constraints
+ if (cpu_model->model_private->update_mechanism == UM_LAZY) {
GENERIC_LMM_ACTION(action).index_heap = -1;
GENERIC_LMM_ACTION(action).last_update = surf_get_clock();
GENERIC_LMM_ACTION(action).last_value = 0.0;
}
- lmm_expand(surf_cpu_model->model_private->maxmin_system, CPU->constraint,
+ lmm_expand(cpu_model->model_private->maxmin_system, CPU->constraint,
GENERIC_LMM_ACTION(action).variable, 1.0);
XBT_OUT();
return (surf_action_t) action;
static surf_action_t cpu_action_sleep(void *cpu, double duration)
{
surf_action_cpu_Cas01_t action = NULL;
+ cpu_Cas01_t CPU = surf_cpu_resource_priv(cpu);
+ surf_model_t cpu_model = ((surf_resource_t) CPU)->model;
if (duration > 0)
duration = MAX(duration, MAXMIN_PRECISION);
xbt_swag_insert(action, ((surf_action_t) action)->state_set);
}
- lmm_update_variable_weight(surf_cpu_model->model_private->maxmin_system,
+ lmm_update_variable_weight(cpu_model->model_private->maxmin_system,
GENERIC_LMM_ACTION(action).variable, 0.0);
- if (surf_cpu_model->model_private->update_mechanism == UM_LAZY) { // remove action from the heap
- surf_action_lmm_heap_remove(surf_cpu_model->model_private->action_heap,(surf_action_lmm_t)action);
+ if (cpu_model->model_private->update_mechanism == UM_LAZY) { // remove action from the heap
+ surf_action_lmm_heap_remove(cpu_model->model_private->action_heap,(surf_action_lmm_t)action);
// this is necessary for a variable with weight 0 since such
// variables are ignored in lmm and we need to set its max_duration
// correctly at the next call to share_resources
- xbt_swag_insert_at_head(action,surf_cpu_model->model_private->modified_set);
+ xbt_swag_insert_at_head(action, cpu_model->model_private->modified_set);
}
XBT_OUT();
return ((cpu_Cas01_t)surf_cpu_resource_priv(cpu))->state_current;
}
+static void cpu_set_state(void *cpu, e_surf_resource_state_t state)
+{
+ ((cpu_Cas01_t)surf_cpu_resource_priv(cpu))->state_current = state;
+}
+
static double cpu_get_speed(void *cpu, double load)
{
return load * ((cpu_Cas01_t)surf_cpu_resource_priv(cpu))->power_peak;
}
+static int cpu_get_core(void *cpu)
+{
+ return ((cpu_Cas01_t)surf_cpu_resource_priv(cpu))->core;
+}
static double cpu_get_available_speed(void *cpu)
{
/* number between 0 and 1 */
return ((cpu_Cas01_t)surf_cpu_resource_priv(cpu))->power_scale;
}
-static void cpu_finalize(void)
+static double cpu_get_current_power_peak(void *cpu)
+{
+ return ((cpu_Cas01_t)surf_cpu_resource_priv(cpu))->power_peak;
+}
+
+static double cpu_get_power_peak_at(void *cpu, int pstate_index)
+{
+ xbt_dynar_t plist = ((cpu_Cas01_t)surf_cpu_resource_priv(cpu))->power_peak_list;
+ xbt_assert((pstate_index <= xbt_dynar_length(plist)), "Invalid parameters (pstate index out of bounds)");
+
+ return xbt_dynar_get_as(plist, pstate_index, double);
+}
+
+static int cpu_get_nb_pstates(void *cpu)
{
- lmm_system_free(surf_cpu_model->model_private->maxmin_system);
- surf_cpu_model->model_private->maxmin_system = NULL;
+ return xbt_dynar_length(((cpu_Cas01_t)surf_cpu_resource_priv(cpu))->power_peak_list);
+}
- if (surf_cpu_model->model_private->action_heap)
- xbt_heap_free(surf_cpu_model->model_private->action_heap);
- xbt_swag_free(surf_cpu_model->model_private->modified_set);
+static void cpu_set_power_peak_at(void *cpu, int pstate_index)
+{
+ cpu_Cas01_t cpu_implem = (cpu_Cas01_t)surf_cpu_resource_priv(cpu);
+ xbt_dynar_t plist = cpu_implem->power_peak_list;
+ xbt_assert((pstate_index <= xbt_dynar_length(plist)), "Invalid parameters (pstate index out of bounds)");
- surf_model_exit(surf_cpu_model);
- surf_cpu_model = NULL;
+ double new_power_peak = xbt_dynar_get_as(plist, pstate_index, double);
+ cpu_implem->pstate = pstate_index;
+ cpu_implem->power_peak = new_power_peak;
+}
+
+static double cpu_get_consumed_energy(void *cpu)
+{
+ return ((cpu_Cas01_t)surf_cpu_resource_priv(cpu))->energy->total_energy;
+}
+
+static void cpu_finalize(surf_model_t cpu_model)
+{
+ lmm_system_free(cpu_model->model_private->maxmin_system);
+ cpu_model->model_private->maxmin_system = NULL;
+
+ if (cpu_model->model_private->action_heap)
+ xbt_heap_free(cpu_model->model_private->action_heap);
+ xbt_swag_free(cpu_model->model_private->modified_set);
+
+ surf_model_exit(cpu_model);
+ cpu_model = NULL;
xbt_swag_free(cpu_running_action_set_that_does_not_need_being_checked);
cpu_running_action_set_that_does_not_need_being_checked = NULL;
}
-static void surf_cpu_model_init_internal()
+static surf_model_t surf_cpu_model_init_cas01(void)
{
s_surf_action_t action;
s_surf_action_cpu_Cas01_t comp;
char *optim = xbt_cfg_get_string(_sg_cfg_set, "cpu/optim");
int select =
- xbt_cfg_get_int(_sg_cfg_set, "cpu/maxmin_selective_update");
+ xbt_cfg_get_boolean(_sg_cfg_set, "cpu/maxmin_selective_update");
- surf_cpu_model = surf_model_init();
+ surf_model_t cpu_model = surf_model_init();
if (!strcmp(optim, "Full")) {
- surf_cpu_model->model_private->update_mechanism = UM_FULL;
- surf_cpu_model->model_private->selective_update = select;
+ cpu_model->model_private->update_mechanism = UM_FULL;
+ cpu_model->model_private->selective_update = select;
} else if (!strcmp(optim, "Lazy")) {
- surf_cpu_model->model_private->update_mechanism = UM_LAZY;
- surf_cpu_model->model_private->selective_update = 1;
+ cpu_model->model_private->update_mechanism = UM_LAZY;
+ cpu_model->model_private->selective_update = 1;
xbt_assert((select == 1)
||
(xbt_cfg_is_default_value
cpu_running_action_set_that_does_not_need_being_checked =
xbt_swag_new(xbt_swag_offset(action, state_hookup));
- surf_cpu_model->name = "cpu";
+ cpu_model->name = "cpu";
+ cpu_model->type = SURF_MODEL_TYPE_CPU;
- surf_cpu_model->action_unref = surf_action_unref;
- surf_cpu_model->action_cancel = surf_action_cancel;
- surf_cpu_model->action_state_set = surf_action_state_set;
+ cpu_model->action_unref = surf_action_unref;
+ cpu_model->action_cancel = surf_action_cancel;
+ cpu_model->action_state_set = surf_action_state_set;
- surf_cpu_model->model_private->resource_used = cpu_resource_used;
+ cpu_model->model_private->resource_used = cpu_resource_used;
- if (surf_cpu_model->model_private->update_mechanism == UM_LAZY) {
- surf_cpu_model->model_private->share_resources =
+ if (cpu_model->model_private->update_mechanism == UM_LAZY) {
+ cpu_model->model_private->share_resources =
cpu_share_resources_lazy;
- surf_cpu_model->model_private->update_actions_state =
+ cpu_model->model_private->update_actions_state =
cpu_update_actions_state_lazy;
- } else if (surf_cpu_model->model_private->update_mechanism == UM_FULL) {
- surf_cpu_model->model_private->share_resources =
+ } else if (cpu_model->model_private->update_mechanism == UM_FULL) {
+ cpu_model->model_private->share_resources =
cpu_share_resources_full;
- surf_cpu_model->model_private->update_actions_state =
+ cpu_model->model_private->update_actions_state =
cpu_update_actions_state_full;
} else
xbt_die("Invalid cpu update mechanism!");
- surf_cpu_model->model_private->update_resource_state =
+ cpu_model->model_private->update_resource_state =
cpu_update_resource_state;
- surf_cpu_model->model_private->finalize = cpu_finalize;
-
- surf_cpu_model->suspend = surf_action_suspend;
- surf_cpu_model->resume = surf_action_resume;
- surf_cpu_model->is_suspended = surf_action_is_suspended;
- surf_cpu_model->set_max_duration = surf_action_set_max_duration;
- surf_cpu_model->set_priority = surf_action_set_priority;
+ cpu_model->model_private->finalize = cpu_finalize;
+
+ cpu_model->suspend = surf_action_suspend;
+ cpu_model->resume = surf_action_resume;
+ cpu_model->is_suspended = surf_action_is_suspended;
+ cpu_model->set_max_duration = surf_action_set_max_duration;
+ cpu_model->set_priority = surf_action_set_priority;
+ cpu_model->set_bound = surf_action_set_bound;
+ cpu_model->set_affinity = cpu_action_set_affinity;
#ifdef HAVE_TRACING
- surf_cpu_model->set_category = surf_action_set_category;
+ cpu_model->set_category = surf_action_set_category;
#endif
- surf_cpu_model->get_remains = surf_action_get_remains;
+ cpu_model->get_remains = surf_action_get_remains;
- surf_cpu_model->extension.cpu.execute = cpu_execute;
- surf_cpu_model->extension.cpu.sleep = cpu_action_sleep;
+ cpu_model->extension.cpu.execute = cpu_execute;
+ cpu_model->extension.cpu.sleep = cpu_action_sleep;
- surf_cpu_model->extension.cpu.get_state = cpu_get_state;
- surf_cpu_model->extension.cpu.get_speed = cpu_get_speed;
- surf_cpu_model->extension.cpu.get_available_speed =
+ cpu_model->extension.cpu.get_state = cpu_get_state;
+ cpu_model->extension.cpu.set_state = cpu_set_state;
+ cpu_model->extension.cpu.get_core = cpu_get_core;
+ cpu_model->extension.cpu.get_speed = cpu_get_speed;
+ cpu_model->extension.cpu.get_available_speed =
cpu_get_available_speed;
- surf_cpu_model->extension.cpu.add_traces = cpu_add_traces_cpu;
+ cpu_model->extension.cpu.get_current_power_peak = cpu_get_current_power_peak;
+ cpu_model->extension.cpu.get_power_peak_at = cpu_get_power_peak_at;
+ cpu_model->extension.cpu.get_nb_pstates = cpu_get_nb_pstates;
+ cpu_model->extension.cpu.set_power_peak_at = cpu_set_power_peak_at;
+ cpu_model->extension.cpu.get_consumed_energy = cpu_get_consumed_energy;
- if (!surf_cpu_model->model_private->maxmin_system) {
- surf_cpu_model->model_private->maxmin_system = lmm_system_new(surf_cpu_model->model_private->selective_update);
+ cpu_model->extension.cpu.add_traces = cpu_add_traces_cpu;
+
+ if (!cpu_model->model_private->maxmin_system) {
+ cpu_model->model_private->maxmin_system = lmm_system_new(cpu_model->model_private->selective_update);
}
- if (surf_cpu_model->model_private->update_mechanism == UM_LAZY) {
- surf_cpu_model->model_private->action_heap = xbt_heap_new(8, NULL);
- xbt_heap_set_update_callback(surf_cpu_model->model_private->action_heap,
+ if (cpu_model->model_private->update_mechanism == UM_LAZY) {
+ cpu_model->model_private->action_heap = xbt_heap_new(8, NULL);
+ xbt_heap_set_update_callback(cpu_model->model_private->action_heap,
surf_action_lmm_update_index_heap);
- surf_cpu_model->model_private->modified_set =
+ cpu_model->model_private->modified_set =
xbt_swag_new(xbt_swag_offset(comp, generic_lmm_action.action_list_hookup));
- surf_cpu_model->model_private->maxmin_system->keep_track = surf_cpu_model->model_private->modified_set;
+ cpu_model->model_private->maxmin_system->keep_track = cpu_model->model_private->modified_set;
}
+
+ return cpu_model;
}
/*********************************************************************/
/* \url{http://grail.sdsc.edu/papers/simgrid_ccgrid01.ps.gz}." */
/* } */
-void surf_cpu_model_init_Cas01()
+
+void surf_cpu_model_init_Cas01(void)
{
char *optim = xbt_cfg_get_string(_sg_cfg_set, "cpu/optim");
- if (surf_cpu_model)
- return;
+ xbt_assert(!surf_cpu_model_pm);
+ xbt_assert(!surf_cpu_model_vm);
- if (!strcmp(optim, "TI")) {
- surf_cpu_model_init_ti();
- return;
- }
+ if (strcmp(optim, "TI") == 0) {
+ /* FIXME: do we have to supprot TI? for VM */
+ surf_cpu_model_pm = surf_cpu_model_init_ti();
+ XBT_INFO("TI model is used (it will crashed since this is the hypervisor branch)");
+ } else {
+ surf_cpu_model_pm = surf_cpu_model_init_cas01();
+ surf_cpu_model_vm = surf_cpu_model_init_cas01();
- surf_cpu_model_init_internal();
- cpu_define_callbacks();
- xbt_dynar_push(model_list, &surf_cpu_model);
+ /* cpu_model is registered only to model_list, and not to
+ * model_list_invoke. The shared_resource callback function will be called
+ * from that of the workstation model. */
+ xbt_dynar_push(model_list, &surf_cpu_model_pm);
+ xbt_dynar_push(model_list, &surf_cpu_model_vm);
+
+ cpu_define_callbacks_cas01();
+ }
}
+/* TODO: do we address nested virtualization later? */
+#if 0
surf_model_t cpu_model_cas01(int level){
// TODO this table should be allocated
if(!surf_cpu_model[level])
// allocate it
return surf_cpu_model[level];
}
-
-
-
+#endif