* TOOLS *
*********/
-static CpuPtr get_casted_cpu(surf_resource_t resource){
- return static_cast<CpuPtr>(surf_cpu_resource_priv(resource));
+static Host *get_casted_host(surf_resource_t resource){
+ return static_cast<Host*>(surf_host_resource_priv(resource));
}
-static HostPtr get_casted_host(surf_resource_t resource){
- return static_cast<HostPtr>(surf_host_resource_priv(resource));
-}
-
-static RoutingEdgePtr get_casted_routing(surf_resource_t resource){
- return static_cast<RoutingEdgePtr>(surf_routing_resource_priv(resource));
-}
-
-static VMPtr get_casted_vm(surf_resource_t resource){
- return static_cast<VMPtr>(surf_host_resource_priv(resource));
+static VM *get_casted_vm(surf_resource_t resource){
+ return static_cast<VM*>(surf_host_resource_priv(resource));
}
char *surf_routing_edge_name(sg_routing_edge_t edge){
double next_event_date = -1.0;
tmgr_trace_event_t event = NULL;
double value = -1.0;
- ResourcePtr resource = NULL;
- ModelPtr model = NULL;
+ Resource *resource = NULL;
+ Model *model = NULL;
unsigned int iter;
XBT_DEBUG
model->updateActionsState(NOW, 0.0);
}
-/**
- * Computes when the next action executed in a
- * specific model terminates; this is important,
- * because we can safely skip the amount of time
- * in which no model (read: not even a single one)
- * changes its state; so, if for instance network,
- * cpu, storage don't change (and if we assume they're
- * the only models we use... simple example here :) )
- * for 2s, 1s, 3s then we can skip 1s as after this
- * amount of time the new state needs to be considered.
- *
- */
-static void surf_share_resources(surf_model_t model)
-{
- double next_action_end = -1.0;
- int i = __sync_fetch_and_add(&surf_min_index, 1);
- if (strcmp(model->getName(), "network NS3")) {
- XBT_DEBUG("Running for Resource [%s]", model->getName());
- next_action_end = model->shareResources(NOW);
- XBT_DEBUG("Resource [%s] : next action end = %f",
- model->getName(), next_action_end);
- }
- surf_mins[i] = next_action_end;
-}
-
-static void surf_update_actions_state(surf_model_t model)
-{
- model->updateActionsState(NOW, surf_min);
-}
-
double surf_solve(double max_date)
{
surf_min = -1.0; /* duration */
double next_event_date = -1.0;
double model_next_action_end = -1.0;
double value = -1.0;
- ResourcePtr resource = NULL;
- ModelPtr model = NULL;
+ Resource *resource = NULL;
+ Model *model = NULL;
tmgr_trace_event_t event = NULL;
unsigned int iter;
/* sequential version */
xbt_dynar_foreach(model_list_invoke, iter, model) {
- surf_share_resources(static_cast<ModelPtr>(model));
+ double next_action_end = -1.0;
+ int i = __sync_fetch_and_add(&surf_min_index, 1);
+ if (strcmp(model->getName(), "network NS3")) {
+ XBT_DEBUG("Running for Resource [%s]", model->getName());
+ next_action_end = model->shareResources(NOW);
+ XBT_DEBUG("Resource [%s] : next action end = %f",
+ model->getName(), next_action_end);
+ }
+ surf_mins[i] = next_action_end;
}
unsigned i;
/* FIXME: model_list or model_list_invoke? revisit here later */
/* sequential version */
xbt_dynar_foreach(model_list, iter, model) {
- surf_update_actions_state(model);
+ model->updateActionsState(NOW, surf_min);
}
TRACE_paje_dump_buffer (0);
surf_model_t surf_resource_model(const void *host, int level) {
/* If level is SURF_WKS_LEVEL, ws is a host_CLM03 object. It has
* surf_resource at the generic_resource field. */
- ResourcePtr ws = static_cast<ResourcePtr>(xbt_lib_get_level((xbt_dictelm_t) host, level));
+ Resource *ws = static_cast<Resource*>(xbt_lib_get_level((xbt_dictelm_t) host, level));
return ws->getModel();
}
void *surf_as_cluster_get_backbone(AS_t as){
- return static_cast<AsClusterPtr>(as)->p_backbone;
+ return static_cast<AsCluster*>(as)->p_backbone;
}
void surf_as_cluster_set_backbone(AS_t as, void* backbone){
- static_cast<AsClusterPtr>(as)->p_backbone = static_cast<NetworkLinkPtr>(backbone);
+ static_cast<AsCluster*>(as)->p_backbone = static_cast<Link*>(backbone);
}
const char *surf_model_name(surf_model_t model){
double *flops_amount,
double *bytes_amount,
double rate){
- return static_cast<ActionPtr>(model->executeParallelTask(host_nb, host_list, flops_amount, bytes_amount, rate));
+ return static_cast<Action*>(model->executeParallelTask(host_nb, host_list, flops_amount, bytes_amount, rate));
}
surf_action_t surf_host_model_communicate(surf_host_model_t model, surf_resource_t src, surf_resource_t dst, double size, double rate){
}
double surf_host_get_wattmin_at(surf_resource_t resource, int pstate){
xbt_assert(surf_energy!=NULL, "The Energy plugin is not active. Please call sg_energy_plugin_init() during initialization.");
- std::map<CpuPtr, CpuEnergyPtr>::iterator cpuIt = surf_energy->find(get_casted_host(resource)->p_cpu);
+ std::map<Cpu*, CpuEnergy*>::iterator cpuIt = surf_energy->find(get_casted_host(resource)->p_cpu);
return cpuIt->second->getWattMinAt(pstate);
}
double surf_host_get_wattmax_at(surf_resource_t resource, int pstate){
xbt_assert(surf_energy!=NULL, "The Energy plugin is not active. Please call sg_energy_plugin_init() during initialization.");
- std::map<CpuPtr, CpuEnergyPtr>::iterator cpuIt = surf_energy->find(get_casted_host(resource)->p_cpu);
+ std::map<Cpu*, CpuEnergy*>::iterator cpuIt = surf_energy->find(get_casted_host(resource)->p_cpu);
return cpuIt->second->getWattMaxAt(pstate);
}
double surf_host_get_consumed_energy(surf_resource_t resource){
xbt_assert(surf_energy!=NULL, "The Energy plugin is not active. Please call sg_energy_plugin_init() during initialization.");
- std::map<CpuPtr, CpuEnergyPtr>::iterator cpuIt = surf_energy->find(get_casted_host(resource)->p_cpu);
+ std::map<Cpu*, CpuEnergy*>::iterator cpuIt = surf_energy->find(get_casted_host(resource)->p_cpu);
return cpuIt->second->getConsumedEnergy();
}
xbt_dynar_t vms = get_casted_host(host)->getVms();
xbt_dynar_t vms_ = xbt_dynar_new(sizeof(sg_host_t), NULL);
unsigned int cpt;
- VMPtr vm;
+ VM *vm;
xbt_dynar_foreach(vms, cpt, vm) {
sg_host_t vm_ = xbt_lib_get_elm_or_null(host_lib, vm->getName());
xbt_dynar_push(vms_, &vm_);
void surf_vm_destroy(surf_resource_t resource){
/* Before clearing the entries in host_lib, we have to pick up resources. */
- CpuPtr cpu = get_casted_cpu(resource);
- VMPtr vm = get_casted_vm(resource);
- RoutingEdgePtr routing = get_casted_routing(resource);
+ VM *vm = get_casted_vm(resource);
char* name = xbt_dict_get_elm_key(resource);
/* We deregister objects from host_lib, without invoking the freeing callback
* of each level.
* Do not call xbt_lib_remove() here. It deletes all levels of the key,
* including MSG_HOST_LEVEL and others. We should unregister only what we know.
*/
- xbt_lib_unset(host_lib, name, SURF_CPU_LEVEL, 0);
- xbt_lib_unset(host_lib, name, ROUTING_HOST_LEVEL, 0);
+ sg_host_surfcpu_destroy((sg_host_t)resource);
+ sg_host_edge_destroy((sg_host_t)resource,1);
xbt_lib_unset(host_lib, name, SURF_HOST_LEVEL, 0);
/* TODO: comment out when VM storage is implemented. */
// xbt_lib_unset(host_lib, name, SURF_STORAGE_LEVEL, 0);
- delete cpu;
delete vm;
- delete routing;
}
void surf_vm_suspend(surf_resource_t vm){
}
void surf_vm_set_affinity(surf_resource_t vm, surf_resource_t cpu, unsigned long mask){
- return get_casted_vm(vm)->setAffinity(get_casted_cpu(cpu), mask);
-}
-
-int surf_network_link_is_shared(surf_cpp_resource_t link){
- return static_cast<NetworkLinkPtr>(link)->isShared();
-}
-
-double surf_network_link_get_bandwidth(surf_cpp_resource_t link){
- return static_cast<NetworkLinkPtr>(link)->getBandwidth();
-}
-
-double surf_network_link_get_latency(surf_cpp_resource_t link){
- return static_cast<NetworkLinkPtr>(link)->getLatency();
+ return get_casted_vm(vm)->setAffinity(sg_host_surfcpu(cpu), mask);
}
xbt_dict_t surf_storage_get_content(surf_resource_t resource){
- return static_cast<StoragePtr>(surf_storage_resource_priv(resource))->getContent();
+ return static_cast<Storage*>(surf_storage_resource_priv(resource))->getContent();
}
sg_size_t surf_storage_get_size(surf_resource_t resource){
- return static_cast<StoragePtr>(surf_storage_resource_priv(resource))->getSize();
+ return static_cast<Storage*>(surf_storage_resource_priv(resource))->getSize();
}
sg_size_t surf_storage_get_free_size(surf_resource_t resource){
- return static_cast<StoragePtr>(surf_storage_resource_priv(resource))->getFreeSize();
+ return static_cast<Storage*>(surf_storage_resource_priv(resource))->getFreeSize();
}
sg_size_t surf_storage_get_used_size(surf_resource_t resource){
- return static_cast<StoragePtr>(surf_storage_resource_priv(resource))->getUsedSize();
+ return static_cast<Storage*>(surf_storage_resource_priv(resource))->getUsedSize();
}
const char* surf_storage_get_host(surf_resource_t resource){
- return static_cast<StoragePtr>(surf_storage_resource_priv(resource))->p_attach;
+ return static_cast<Storage*>(surf_storage_resource_priv(resource))->p_attach;
}
surf_action_t surf_cpu_execute(surf_resource_t cpu, double size){
- return get_casted_cpu(cpu)->execute(size);
+ return sg_host_surfcpu(cpu)->execute(size);
}
surf_action_t surf_cpu_sleep(surf_resource_t cpu, double duration){
- return get_casted_cpu(cpu)->sleep(duration);
+ return sg_host_surfcpu(cpu)->sleep(duration);
}
double surf_action_get_start_time(surf_action_t action){
}
void surf_cpu_action_set_affinity(surf_action_t action, surf_resource_t cpu, unsigned long mask) {
- static_cast<CpuActionPtr>(action)->setAffinity(get_casted_cpu(cpu), mask);
+ static_cast<CpuAction*>(action)->setAffinity(sg_host_surfcpu(cpu), mask);
}
void surf_cpu_action_set_bound(surf_action_t action, double bound) {
- static_cast<CpuActionPtr>(action)->setBound(bound);
+ static_cast<CpuAction*>(action)->setBound(bound);
}
#ifdef HAVE_LATENCY_BOUND_TRACKING
#endif
surf_file_t surf_storage_action_get_file(surf_action_t action){
- return static_cast<StorageActionPtr>(action)->p_file;
+ return static_cast<StorageAction*>(action)->p_file;
}