#include "src/surf/HostImpl.hpp"
#include "src/surf/cpu_interface.hpp"
#include "src/surf/network_interface.hpp"
-#include "src/surf/xml/platf_private.hpp"
#include "surf/surf.hpp"
XBT_LOG_EXTERNAL_DEFAULT_CATEGORY(surf_route);
xbt_assert(not cpu_model_name.empty(), "Set a cpu model to use with the 'compound' host model");
xbt_assert(not network_model_name.empty(), "Set a network model to use with the 'compound' host model");
- int cpu_id = find_model_description(surf_cpu_model_description, cpu_model_name);
- surf_cpu_model_description[cpu_id].model_init_preparse();
+ const auto* cpu_model = find_model_description(surf_cpu_model_description, cpu_model_name);
+ cpu_model->model_init_preparse();
- int network_id = find_model_description(surf_network_model_description, network_model_name);
- surf_network_model_description[network_id].model_init_preparse();
+ const auto* network_model = find_model_description(surf_network_model_description, network_model_name);
+ network_model->model_init_preparse();
}
XBT_DEBUG("Call host_model_init");
- int host_id = find_model_description(surf_host_model_description, host_model_name);
- surf_host_model_description[host_id].model_init_preparse();
+ const auto* host_model = find_model_description(surf_host_model_description, host_model_name);
+ host_model->model_init_preparse();
XBT_DEBUG("Call vm_model_init");
/* ideally we should get back the pointer to CpuModel from model_init_preparse(), but this
simgrid::s4u::Engine::get_instance()->get_netzone_root()->get_impl()->get_cpu_pm_model().get());
XBT_DEBUG("Call disk_model_init");
- int disk_id = find_model_description(surf_disk_model_description, disk_model_name);
- surf_disk_model_description[disk_id].model_init_preparse();
+ const auto* disk_model = find_model_description(surf_disk_model_description, disk_model_name);
+ disk_model->model_init_preparse();
}
NetZoneImpl::NetZoneImpl(const std::string& name) : piface_(this), name_(name)
* Without globals and with current surf_*_model_description init functions, we need
* the root netzone to exist when creating the models.
* This was usually done at sg_platf.cpp, during XML parsing */
- if (not s4u::Engine::get_instance()->get_netzone_root())
+ if (not s4u::Engine::get_instance()->get_netzone_root()) {
s4u::Engine::get_instance()->set_netzone_root(&piface_);
-
- static bool surf_parse_models_setup_already_called = false;
- if (not surf_parse_models_setup_already_called) {
+ /* root netzone set, initialize models */
simgrid::s4u::Engine::on_platform_creation();
/* Initialize the surf models. That must be done after we got all config, and before we need the models.
* (FIXME: check it out by creating a file beginning with one of these tags)
* but cluster and peer come down to zone creations, so putting this verification here is correct.
*/
- surf_parse_models_setup_already_called = true;
surf_config_models_setup();
}
"Refusing to create a second NetZone called '%s'.", get_cname());
netpoint_ = new NetPoint(name_, NetPoint::Type::NetZone);
XBT_DEBUG("NetZone '%s' created with the id '%u'", get_cname(), netpoint_->id());
+ _sg_cfg_init_status = 2; /* HACK: direct access to the global controlling the level of configuration to prevent
+ * any further config now that we created some real content */
+ simgrid::s4u::NetZone::on_creation(piface_); // notify the signal
}
NetZoneImpl::~NetZoneImpl()
void NetZoneImpl::add_child(NetZoneImpl* new_zone)
{
xbt_assert(not sealed_, "Cannot add a new child to the sealed zone %s", get_cname());
+ /* set the father behavior */
+ hierarchy_ = RoutingMode::recursive;
children_.push_back(new_zone);
}
return count;
}
-s4u::Disk* NetZoneImpl::create_disk(const std::string& name, double read_bandwidth, double write_bandwidth)
+s4u::Host* NetZoneImpl::create_host(const std::string& name, const std::vector<double>& speed_per_pstate)
{
- auto* l = disk_model_->create_disk(name, read_bandwidth, write_bandwidth);
+ xbt_assert(cpu_model_pm_,
+ "Impossible to create host: %s. Invalid CPU model: nullptr. Have you set the parent of this NetZone: %s?",
+ name.c_str(), get_cname());
+ auto* res = (new surf::HostImpl(name))->get_iface();
+ res->set_netpoint((new NetPoint(name, NetPoint::Type::Host))->set_englobing_zone(this));
- return l->get_iface();
+ cpu_model_pm_->create_cpu(res, speed_per_pstate);
+
+ return res;
}
-s4u::Link* NetZoneImpl::create_link(const std::string& name, const std::vector<double>& bandwidths,
- s4u::Link::SharingPolicy policy)
+s4u::Link* NetZoneImpl::create_link(const std::string& name, const std::vector<double>& bandwidths)
{
- auto* l = network_model_->create_link(name, bandwidths, policy);
-
- return l->get_iface();
+ xbt_assert(
+ network_model_,
+ "Impossible to create link: %s. Invalid network model: nullptr. Have you set the parent of this NetZone: %s?",
+ name.c_str(), get_cname());
+ return network_model_->create_link(name, bandwidths)->get_iface();
}
-s4u::Host* NetZoneImpl::create_host(const std::string& name, const std::vector<double>& speed_per_pstate)
+s4u::Disk* NetZoneImpl::create_disk(const std::string& name, double read_bandwidth, double write_bandwidth)
{
- if (hierarchy_ == RoutingMode::unset)
- hierarchy_ = RoutingMode::base;
+ xbt_assert(disk_model_,
+ "Impossible to create disk: %s. Invalid disk model: nullptr. Have you set the parent of this NetZone: %s?",
+ name.c_str(), get_cname());
+ auto* l = disk_model_->create_disk(name, read_bandwidth, write_bandwidth);
- auto* res = (new surf::HostImpl(name))->get_iface();
- res->set_netpoint((new NetPoint(name, NetPoint::Type::Host))->set_englobing_zone(this));
+ return l->get_iface();
+}
- cpu_model_pm_->create_cpu(res, speed_per_pstate);
+NetPoint* NetZoneImpl::create_router(const std::string& name)
+{
+ xbt_assert(nullptr == s4u::Engine::get_instance()->netpoint_by_name_or_null(name),
+ "Refusing to create a router named '%s': this name already describes a node.", name.c_str());
- return res;
+ return (new NetPoint(name, NetPoint::Type::Router))->set_englobing_zone(this);
}
-
int NetZoneImpl::add_component(NetPoint* elm)
{
vertices_.push_back(elm);
}
void NetZoneImpl::add_route(NetPoint* /*src*/, NetPoint* /*dst*/, NetPoint* /*gw_src*/, NetPoint* /*gw_dst*/,
- const std::vector<resource::LinkImpl*>& /*link_list*/, bool /*symmetrical*/)
+ const std::vector<resource::LinkImpl*>& /*link_list_*/, bool /*symmetrical*/)
{
xbt_die("NetZone '%s' does not accept new routes (wrong class).", get_cname());
}
void NetZoneImpl::add_bypass_route(NetPoint* src, NetPoint* dst, NetPoint* gw_src, NetPoint* gw_dst,
- std::vector<resource::LinkImpl*>& link_list, bool /* symmetrical */)
+ std::vector<resource::LinkImpl*>& link_list_, bool /* symmetrical */)
{
/* Argument validity checks */
if (gw_dst) {
XBT_DEBUG("Load bypassNetzoneRoute from %s@%s to %s@%s", src->get_cname(), gw_src->get_cname(), dst->get_cname(),
gw_dst->get_cname());
- xbt_assert(not link_list.empty(), "Bypass route between %s@%s and %s@%s cannot be empty.", src->get_cname(),
+ xbt_assert(not link_list_.empty(), "Bypass route between %s@%s and %s@%s cannot be empty.", src->get_cname(),
gw_src->get_cname(), dst->get_cname(), gw_dst->get_cname());
xbt_assert(bypass_routes_.find({src, dst}) == bypass_routes_.end(),
"The bypass route between %s@%s and %s@%s already exists.", src->get_cname(), gw_src->get_cname(),
dst->get_cname(), gw_dst->get_cname());
} else {
XBT_DEBUG("Load bypassRoute from %s to %s", src->get_cname(), dst->get_cname());
- xbt_assert(not link_list.empty(), "Bypass route between %s and %s cannot be empty.", src->get_cname(),
+ xbt_assert(not link_list_.empty(), "Bypass route between %s and %s cannot be empty.", src->get_cname(),
dst->get_cname());
xbt_assert(bypass_routes_.find({src, dst}) == bypass_routes_.end(),
"The bypass route between %s and %s already exists.", src->get_cname(), dst->get_cname());
/* Build a copy that will be stored in the dict */
auto* newRoute = new BypassRoute(gw_src, gw_dst);
- for (auto const& link : link_list)
- newRoute->links.push_back(link);
+ newRoute->links.insert(newRoute->links.end(), begin(link_list_), end(link_list_));
/* Store it */
bypass_routes_.insert({{src, dst}, newRoute});
* dst
* @endverbatim
*/
-static void find_common_ancestors(NetPoint* src, NetPoint* dst,
+static void find_common_ancestors(const NetPoint* src, const NetPoint* dst,
/* OUT */ NetZoneImpl** common_ancestor, NetZoneImpl** src_ancestor,
NetZoneImpl** dst_ancestor)
{
* This works because all SimGrid platform have a unique root element (that is the last element of both paths).
*/
NetZoneImpl* father = nullptr; // the netzone we dropped on the previous loop iteration
- while (path_src.size() > 1 && path_dst.size() > 1 &&
- path_src.at(path_src.size() - 1) == path_dst.at(path_dst.size() - 1)) {
- father = path_src.at(path_src.size() - 1);
+ while (path_src.size() > 1 && path_dst.size() > 1 && path_src.back() == path_dst.back()) {
+ father = path_src.back();
path_src.pop_back();
path_dst.pop_back();
}
/* (4) we found the difference at least. Finalize the returned values */
- *src_ancestor = path_src.at(path_src.size() - 1); /* the first different father of src */
- *dst_ancestor = path_dst.at(path_dst.size() - 1); /* the first different father of dst */
+ *src_ancestor = path_src.back(); /* the first different father of src */
+ *dst_ancestor = path_dst.back(); /* the first different father of dst */
if (*src_ancestor == *dst_ancestor) { // src is the ancestor of dst, or the contrary
*common_ancestor = *src_ancestor;
} else {
+ xbt_assert(father != nullptr);
*common_ancestor = father;
}
}
/* PRECONDITION: this is the common ancestor of src and dst */
-bool NetZoneImpl::get_bypass_route(NetPoint* src, NetPoint* dst,
- /* OUT */ std::vector<resource::LinkImpl*>& links, double* latency)
+bool NetZoneImpl::get_bypass_route(const NetPoint* src, const NetPoint* dst,
+ /* OUT */ std::vector<resource::LinkImpl*>& links, double* latency,
+ std::unordered_set<NetZoneImpl*>& netzones)
{
// If never set a bypass route return nullptr without any further computations
if (bypass_routes_.empty())
if (dst->get_englobing_zone() == this && src->get_englobing_zone() == this) {
if (bypass_routes_.find({src, dst}) != bypass_routes_.end()) {
const BypassRoute* bypassedRoute = bypass_routes_.at({src, dst});
- for (resource::LinkImpl* const& link : bypassedRoute->links) {
- links.push_back(link);
- if (latency)
- *latency += link->get_latency();
- }
+ add_link_latency(links, bypassedRoute->links, latency);
XBT_DEBUG("Found a bypass route from '%s' to '%s' with %zu links", src->get_cname(), dst->get_cname(),
bypassedRoute->links.size());
return true;
}
/* (2) find the common father */
- while (path_src.size() > 1 && path_dst.size() > 1 &&
- path_src.at(path_src.size() - 1) == path_dst.at(path_dst.size() - 1)) {
+ while (path_src.size() > 1 && path_dst.size() > 1 && path_src.back() == path_dst.back()) {
path_src.pop_back();
path_dst.pop_back();
}
- int max_index_src = path_src.size() - 1;
- int max_index_dst = path_dst.size() - 1;
-
- int max_index = std::max(max_index_src, max_index_dst);
-
/* (3) Search for a bypass making the path up to the ancestor useless */
const BypassRoute* bypassedRoute = nullptr;
std::pair<kernel::routing::NetPoint*, kernel::routing::NetPoint*> key;
- for (int max = 0; max <= max_index && not bypassedRoute; max++) {
- for (int i = 0; i < max && not bypassedRoute; i++) {
- if (i <= max_index_src && max <= max_index_dst) {
- key = {path_src.at(i)->netpoint_, path_dst.at(max)->netpoint_};
- auto bpr = bypass_routes_.find(key);
- if (bpr != bypass_routes_.end()) {
- bypassedRoute = bpr->second;
- }
- }
- if (not bypassedRoute && max <= max_index_src && i <= max_index_dst) {
- key = {path_src.at(max)->netpoint_, path_dst.at(i)->netpoint_};
- auto bpr = bypass_routes_.find(key);
- if (bpr != bypass_routes_.end()) {
- bypassedRoute = bpr->second;
- }
- }
- }
-
- if (not bypassedRoute && max <= max_index_src && max <= max_index_dst) {
- key = {path_src.at(max)->netpoint_, path_dst.at(max)->netpoint_};
+ // Search for a bypass with the given indices. Returns true if found. Initialize variables `bypassedRoute' and `key'.
+ auto lookup = [&bypassedRoute, &key, &path_src, &path_dst, this](unsigned src_index, unsigned dst_index) {
+ if (src_index < path_src.size() && dst_index < path_dst.size()) {
+ key = {path_src[src_index]->netpoint_, path_dst[dst_index]->netpoint_};
auto bpr = bypass_routes_.find(key);
if (bpr != bypass_routes_.end()) {
bypassedRoute = bpr->second;
+ return true;
}
}
+ return false;
+ };
+
+ for (unsigned max = 0, max_index = std::max(path_src.size(), path_dst.size()); max < max_index; max++) {
+ for (unsigned i = 0; i < max; i++) {
+ if (lookup(i, max) || lookup(max, i))
+ break;
+ }
+ if (bypassedRoute || lookup(max, max))
+ break;
}
/* (4) If we have the bypass, use it. If not, caller will do the Right Thing. */
"calls to getRoute",
src->get_cname(), dst->get_cname(), bypassedRoute->links.size());
if (src != key.first)
- get_global_route(src, bypassedRoute->gw_src, links, latency);
- for (resource::LinkImpl* const& link : bypassedRoute->links) {
- links.push_back(link);
- if (latency)
- *latency += link->get_latency();
- }
+ get_global_route_with_netzones(src, bypassedRoute->gw_src, links, latency, netzones);
+ add_link_latency(links, bypassedRoute->links, latency);
if (dst != key.second)
- get_global_route(bypassedRoute->gw_dst, dst, links, latency);
+ get_global_route_with_netzones(bypassedRoute->gw_dst, dst, links, latency, netzones);
return true;
}
XBT_DEBUG("No bypass route from '%s' to '%s'.", src->get_cname(), dst->get_cname());
return false;
}
-void NetZoneImpl::get_global_route(NetPoint* src, NetPoint* dst,
+void NetZoneImpl::get_global_route(const NetPoint* src, const NetPoint* dst,
/* OUT */ std::vector<resource::LinkImpl*>& links, double* latency)
{
- RouteCreationArgs route;
+ std::unordered_set<NetZoneImpl*> netzones;
+ get_global_route_with_netzones(src, dst, links, latency, netzones);
+}
+
+void NetZoneImpl::get_global_route_with_netzones(const NetPoint* src, const NetPoint* dst,
+ /* OUT */ std::vector<resource::LinkImpl*>& links, double* latency,
+ std::unordered_set<NetZoneImpl*>& netzones)
+{
+ Route route;
XBT_DEBUG("Resolve route from '%s' to '%s'", src->get_cname(), dst->get_cname());
XBT_DEBUG("elements_father: common ancestor '%s' src ancestor '%s' dst ancestor '%s'", common_ancestor->get_cname(),
src_ancestor->get_cname(), dst_ancestor->get_cname());
+ netzones.insert(src->get_englobing_zone());
+ netzones.insert(dst->get_englobing_zone());
+ netzones.insert(common_ancestor);
/* Check whether a direct bypass is defined. If so, use it and bail out */
- if (common_ancestor->get_bypass_route(src, dst, links, latency))
+ if (common_ancestor->get_bypass_route(src, dst, links, latency, netzones))
return;
/* If src and dst are in the same netzone, life is good */
if (src_ancestor == dst_ancestor) { /* SURF_ROUTING_BASE */
- route.link_list = std::move(links);
+ route.link_list_ = std::move(links);
common_ancestor->get_local_route(src, dst, &route, latency);
- links = std::move(route.link_list);
+ links = std::move(route.link_list_);
return;
}
/* Not in the same netzone, no bypass. We'll have to find our path between the netzones recursively */
-
common_ancestor->get_local_route(src_ancestor->netpoint_, dst_ancestor->netpoint_, &route, latency);
- xbt_assert((route.gw_src != nullptr) && (route.gw_dst != nullptr), "Bad gateways for route from '%s' to '%s'.",
+ xbt_assert((route.gw_src_ != nullptr) && (route.gw_dst_ != nullptr), "Bad gateways for route from '%s' to '%s'.",
src->get_cname(), dst->get_cname());
/* If source gateway is not our source, we have to recursively find our way up to this point */
- if (src != route.gw_src)
- get_global_route(src, route.gw_src, links, latency);
- for (auto const& link : route.link_list)
- links.push_back(link);
+ if (src != route.gw_src_)
+ get_global_route_with_netzones(src, route.gw_src_, links, latency, netzones);
+ links.insert(links.end(), begin(route.link_list_), end(route.link_list_));
/* If dest gateway is not our destination, we have to recursively find our way from this point */
- if (route.gw_dst != dst)
- get_global_route(route.gw_dst, dst, links, latency);
+ if (route.gw_dst_ != dst)
+ get_global_route_with_netzones(route.gw_dst_, dst, links, latency, netzones);
}
void NetZoneImpl::seal()
for (auto* host : get_all_hosts()) {
host->seal();
}
- for (auto* sub_net : *get_children()) {
+ for (auto* sub_net : get_children()) {
sub_net->seal();
}
sealed_ = true;
+ s4u::NetZone::on_seal(piface_);
}
void NetZoneImpl::set_parent(NetZoneImpl* parent)
{
- xbt_assert(sealed_ == false, "Impossible to set parent to an already sealed NetZone(%s)", this->get_cname());
+ xbt_assert(not sealed_, "Impossible to set parent to an already sealed NetZone(%s)", this->get_cname());
parent_ = parent;
netpoint_->set_englobing_zone(parent_);
+ if (parent) {
+ /* adding this class as child */
+ parent->add_child(this);
+ /* copying models from parent host, to be reviewed when we allow multi-models */
+ set_network_model(parent->get_network_model());
+ set_cpu_pm_model(parent->get_cpu_pm_model());
+ set_cpu_vm_model(parent->get_cpu_vm_model());
+ set_disk_model(parent->get_disk_model());
+ set_host_model(parent->get_host_model());
+ }
}
void NetZoneImpl::set_network_model(std::shared_ptr<resource::NetworkModel> netmodel)
{
- xbt_assert(sealed_ == false, "Impossible to set network model to an already sealed NetZone(%s)", this->get_cname());
+ xbt_assert(not sealed_, "Impossible to set network model to an already sealed NetZone(%s)", this->get_cname());
network_model_ = std::move(netmodel);
}
void NetZoneImpl::set_cpu_vm_model(std::shared_ptr<resource::CpuModel> cpu_model)
{
- xbt_assert(sealed_ == false, "Impossible to set CPU model to an already sealed NetZone(%s)", this->get_cname());
+ xbt_assert(not sealed_, "Impossible to set CPU model to an already sealed NetZone(%s)", this->get_cname());
cpu_model_vm_ = std::move(cpu_model);
}
void NetZoneImpl::set_cpu_pm_model(std::shared_ptr<resource::CpuModel> cpu_model)
{
- xbt_assert(sealed_ == false, "Impossible to set CPU model to an already sealed NetZone(%s)", this->get_cname());
+ xbt_assert(not sealed_, "Impossible to set CPU model to an already sealed NetZone(%s)", this->get_cname());
cpu_model_pm_ = std::move(cpu_model);
}
void NetZoneImpl::set_disk_model(std::shared_ptr<resource::DiskModel> disk_model)
{
- xbt_assert(sealed_ == false, "Impossible to set disk model to an already sealed NetZone(%s)", this->get_cname());
+ xbt_assert(not sealed_, "Impossible to set disk model to an already sealed NetZone(%s)", this->get_cname());
disk_model_ = std::move(disk_model);
}
void NetZoneImpl::set_host_model(std::shared_ptr<surf::HostModel> host_model)
{
- xbt_assert(sealed_ == false, "Impossible to set host model to an already sealed NetZone(%s)", this->get_cname());
+ xbt_assert(not sealed_, "Impossible to set host model to an already sealed NetZone(%s)", this->get_cname());
host_model_ = std::move(host_model);
}
+const NetZoneImpl* NetZoneImpl::get_netzone_recursive(const NetPoint* netpoint) const
+{
+ xbt_assert(netpoint && netpoint->is_netzone(), "Netpoint %s must be of the type NetZone",
+ netpoint ? netpoint->get_cname() : "nullptr");
+
+ if (netpoint == netpoint_)
+ return this;
+
+ for (const auto* children : children_) {
+ const NetZoneImpl* netzone = children->get_netzone_recursive(netpoint);
+ if (netzone)
+ return netzone;
+ }
+ return nullptr;
+}
+
+bool NetZoneImpl::is_component_recursive(const NetPoint* netpoint) const
+{
+ /* check direct components */
+ if (std::any_of(begin(vertices_), end(vertices_), [netpoint](const auto* elem) { return elem == netpoint; }))
+ return true;
+
+ /* check childrens */
+ return std::any_of(begin(children_), end(children_),
+ [netpoint](const auto* child) { return child->is_component_recursive(netpoint); });
+}
} // namespace routing
} // namespace kernel
} // namespace simgrid