* under the terms of the license (GNU LGPL) which comes with this package. */
#include "surf_routing.hpp"
-#include "surf_routing_private.hpp"
#include "surf_routing_cluster.hpp"
-#include "simgrid/platf_interface.h" // platform creation API internal interface
#include "simgrid/sg_config.h"
#include "storage_interface.hpp"
-#include "src/surf/platform.hpp"
-#include "surf/surfxml_parse_values.h"
#include "src/surf/surf_routing_cluster_torus.hpp"
#include "src/surf/surf_routing_cluster_fat_tree.hpp"
#include "src/surf/surf_routing_floyd.hpp"
#include "src/surf/surf_routing_full.hpp"
#include "src/surf/surf_routing_vivaldi.hpp"
+#include "src/surf/xml/platf.hpp" // FIXME: move that back to the parsing area
+
+#include <vector>
XBT_LOG_NEW_DEFAULT_SUBCATEGORY(surf_route, surf, "Routing part of surf");
{}
As::~As()
{
- xbt_dict_free(&sons_);
+ xbt_dict_cursor_t cursor = NULL;
+ char *key;
+ AS_t elem;
+ xbt_dict_foreach(children_, cursor, key, elem) {
+ delete (As*)elem;
+ }
+
+
+ xbt_dict_free(&children_);
xbt_dynar_free(&vertices_);
xbt_dynar_free(&upDownLinks);
+ for (auto &kv : bypassRoutes_)
+ delete kv.second;
xbt_free(name_);
- if (netcard_)
- delete netcard_;
+ delete netcard_;
+ }
+ void As::Seal()
+ {
+ sealed_ = true;
}
- sg_platf_route_cbarg_t As::getBypassRoute(NetCard * /*src*/, NetCard * /*dst*/, double * /*lat*/) {
+ xbt_dynar_t As::getOneLinkRoutes() {
return NULL;
}
-
int As::addComponent(NetCard *elm) {
XBT_DEBUG("Load component \"%s\"", elm->name());
xbt_dynar_push_as(vertices_, NetCard*, elm);
return xbt_dynar_length(vertices_)-1;
}
- void As::parseRoute(sg_platf_route_cbarg_t /*route*/){
- THROW_IMPOSSIBLE; /* No. */
+ void As::addRoute(sg_platf_route_cbarg_t /*route*/){
+ xbt_die("AS %s does not accept new routes (wrong class).",name_);
+ }
+
+ std::vector<Link*> *As::getBypassRoute(NetCard *src, NetCard *dst)
+ {
+ // If never set a bypass route return NULL without any further computations
+ XBT_DEBUG("generic_get_bypassroute from %s to %s", src->name(), dst->name());
+ if (bypassRoutes_.empty())
+ return nullptr;
+
+ std::vector<Link*> *bypassedRoute = nullptr;
+
+ if(dst->containingAS() == this && src->containingAS() == this ){
+ char *route_name = bprintf("%s#%s", src->name(), dst->name());
+ if (bypassRoutes_.find(route_name) != bypassRoutes_.end()) {
+ bypassedRoute = bypassRoutes_.at(route_name);
+ XBT_DEBUG("Found a bypass route with %zu links",bypassedRoute->size());
+ }
+ free(route_name);
+ return bypassedRoute;
+ }
+
+ int index_src, index_dst;
+ As **current_src = NULL;
+ As **current_dst = NULL;
+
+ As *src_as = src->containingAS();
+ As *dst_as = dst->containingAS();
+
+ /* (2) find the path to the root routing component */
+ xbt_dynar_t path_src = xbt_dynar_new(sizeof(As*), NULL);
+ As *current = src_as;
+ while (current != NULL) {
+ xbt_dynar_push(path_src, ¤t);
+ current = current->father_;
+ }
+ xbt_dynar_t path_dst = xbt_dynar_new(sizeof(As*), NULL);
+ current = dst_as;
+ while (current != NULL) {
+ xbt_dynar_push(path_dst, ¤t);
+ current = current->father_;
+ }
+
+ /* (3) find the common father */
+ index_src = path_src->used - 1;
+ index_dst = path_dst->used - 1;
+ current_src = (As **) xbt_dynar_get_ptr(path_src, index_src);
+ current_dst = (As **) xbt_dynar_get_ptr(path_dst, index_dst);
+ while (index_src >= 0 && index_dst >= 0 && *current_src == *current_dst) {
+ xbt_dynar_pop_ptr(path_src);
+ xbt_dynar_pop_ptr(path_dst);
+ index_src--;
+ index_dst--;
+ current_src = (As **) xbt_dynar_get_ptr(path_src, index_src);
+ current_dst = (As **) xbt_dynar_get_ptr(path_dst, index_dst);
+ }
+
+ int max_index_src = path_src->used - 1;
+ int max_index_dst = path_dst->used - 1;
+
+ int max_index = std::max(max_index_src, max_index_dst);
+
+ for (int max = 0; max <= max_index; max++) {
+ for (int i = 0; i < max; i++) {
+ if (i <= max_index_src && max <= max_index_dst) {
+ char *route_name = bprintf("%s#%s",
+ (*(As **) (xbt_dynar_get_ptr(path_src, i)))->name_,
+ (*(As **) (xbt_dynar_get_ptr(path_dst, max)))->name_);
+ if (bypassRoutes_.find(route_name) != bypassRoutes_.end())
+ bypassedRoute = bypassRoutes_.at(route_name);
+ xbt_free(route_name);
+ }
+ if (bypassedRoute)
+ break;
+ if (max <= max_index_src && i <= max_index_dst) {
+ char *route_name = bprintf("%s#%s",
+ (*(As **) (xbt_dynar_get_ptr(path_src, max)))->name_,
+ (*(As **) (xbt_dynar_get_ptr(path_dst, i)))->name_);
+ if (bypassRoutes_.find(route_name) != bypassRoutes_.end())
+ bypassedRoute = bypassRoutes_.at(route_name);
+ xbt_free(route_name);
+ }
+ if (bypassedRoute)
+ break;
+ }
+
+ if (bypassedRoute)
+ break;
+
+ if (max <= max_index_src && max <= max_index_dst) {
+ char *route_name = bprintf("%s#%s",
+ (*(As **) (xbt_dynar_get_ptr(path_src, max)))->name_,
+ (*(As **) (xbt_dynar_get_ptr(path_dst, max)))->name_);
+
+ if (bypassRoutes_.find(route_name) != bypassRoutes_.end())
+ bypassedRoute = bypassRoutes_.at(route_name);
+ xbt_free(route_name);
+ }
+ if (bypassedRoute)
+ break;
+ }
+
+ xbt_dynar_free(&path_src);
+ xbt_dynar_free(&path_dst);
+
+ return bypassedRoute;
}
- void As::parseBypassroute(sg_platf_route_cbarg_t /*e_route*/){
- THROW_IMPOSSIBLE;
+
+ void As::addBypassRoute(sg_platf_route_cbarg_t e_route){
+ const char *src = e_route->src;
+ const char *dst = e_route->dst;
+
+ char *route_name = bprintf("%s#%s", src, dst);
+
+ /* Argument validity checks */
+ if (e_route->gw_dst) {
+ XBT_DEBUG("Load bypassASroute from %s@%s to %s@%s",
+ src, e_route->gw_src->name(), dst, e_route->gw_dst->name());
+ xbt_assert(!e_route->link_list->empty(), "Bypass route between %s@%s and %s@%s cannot be empty.",
+ src, e_route->gw_src->name(), dst, e_route->gw_dst->name());
+ xbt_assert(bypassRoutes_.find(route_name) == bypassRoutes_.end(), "The bypass route between %s@%s and %s@%s already exists.",
+ src, e_route->gw_src->name(), dst, e_route->gw_dst->name());
+ } else {
+ XBT_DEBUG("Load bypassRoute from %s to %s", src, dst);
+ xbt_assert(!e_route->link_list->empty(), "Bypass route between %s and %s cannot be empty.", src, dst);
+ xbt_assert(bypassRoutes_.find(route_name) == bypassRoutes_.end(), "The bypass route between %s and %s already exists.", src, dst);
+ }
+
+ /* Build a copy that will be stored in the dict */
+ std::vector<Link*> *newRoute = new std::vector<Link*>();
+ for (auto link: *e_route->link_list)
+ newRoute->push_back(link);
+
+ /* Store it */
+ bypassRoutes_.insert({route_name, newRoute});
+ xbt_free(route_name);
}
}} // namespace simgrid::surf
simgrid::surf::NetCard *sg_netcard_by_name_or_null(const char *name)
{
sg_host_t h = sg_host_by_name(name);
- simgrid::surf::NetCard *net_elm = h==NULL?NULL: h->pimpl_netcard;
- if (!net_elm)
- net_elm = (simgrid::surf::NetCard*) xbt_lib_get_or_null(as_router_lib, name, ROUTING_ASR_LEVEL);
- return net_elm;
+ simgrid::surf::NetCard *netcard = h==NULL ? NULL: h->pimpl_netcard;
+ if (!netcard)
+ netcard = (simgrid::surf::NetCard*) xbt_lib_get_or_null(as_router_lib, name, ROUTING_ASR_LEVEL);
+ return netcard;
}
/* Global vars */
{
XBT_DEBUG("routing_AS_begin");
- xbt_assert(NULL == xbt_lib_get_or_null(as_router_lib, AS->id, ROUTING_ASR_LEVEL),
+ xbt_assert(nullptr == xbt_lib_get_or_null(as_router_lib, AS->id, ROUTING_ASR_LEVEL),
"Refusing to create a second AS called \"%s\".", AS->id);
_sg_cfg_init_status = 2; /* HACK: direct access to the global controlling the level of configuration to prevent
/* make a new routing component */
simgrid::surf::NetCard *netcard = new simgrid::surf::NetCardImpl(new_as->name_, SURF_NETWORK_ELEMENT_AS, current_routing);
- if (current_routing == NULL && routing_platf->p_root == NULL) {
+ if (current_routing == NULL && routing_platf->root_ == NULL) {
/* it is the first one */
new_as->father_ = NULL;
- routing_platf->p_root = new_as;
+ routing_platf->root_ = new_as;
netcard->setId(-1);
- } else if (current_routing != NULL && routing_platf->p_root != NULL) {
+ } else if (current_routing != NULL && routing_platf->root_ != NULL) {
- xbt_assert(!xbt_dict_get_or_null(current_routing->sons_, AS->id),
+ xbt_assert(!xbt_dict_get_or_null(current_routing->children_, AS->id),
"The AS \"%s\" already exists", AS->id);
/* it is a part of the tree */
new_as->father_ = current_routing;
if (current_routing->hierarchy_ == SURF_ROUTING_NULL)
current_routing->hierarchy_ = SURF_ROUTING_RECURSIVE;
/* add to the sons dictionary */
- xbt_dict_set(current_routing->sons_, AS->id,
- (void *) new_as, NULL);
+ xbt_dict_set(current_routing->children_, AS->id, (void *) new_as, NULL);
/* add to the father element list */
netcard->setId(current_routing->addComponent(netcard));
} else {
THROWF(arg_error, 0, "All defined components must belong to a AS");
}
- xbt_lib_set(as_router_lib, netcard->name(), ROUTING_ASR_LEVEL,
- (void *) netcard);
+ xbt_lib_set(as_router_lib, netcard->name(), ROUTING_ASR_LEVEL, (void *) netcard);
XBT_DEBUG("Having set name '%s' id '%d'", new_as->name_, netcard->id());
/* set the new current component of the tree */
*
* Once you've declared all the content of your AS, you have to close
* it with this call. Your AS is not usable until you call this function.
- *
- * @fixme: this call is not as robust as wanted: bad things WILL happen
- * if you call it twice for the same AS, or if you forget calling it, or
- * even if you add stuff to a closed AS
- *
*/
void routing_AS_end()
{
current_routing = current_routing->father_;
}
-/* Aux Business methods */
-
/**
* \brief Get the AS father and the first elements of the chain
*
* father in the chain
*/
static void elements_father(sg_netcard_t src, sg_netcard_t dst,
- AS_t * res_father,
- AS_t * res_src,
- AS_t * res_dst)
+ AS_t * res_father, AS_t * res_src, AS_t * res_dst)
{
xbt_assert(src && dst, "bad parameters for \"elements_father\" method");
-#define ELEMENTS_FATHER_MAXDEPTH 16 /* increase if it is not enough */
- simgrid::surf::As *src_as, *dst_as;
- simgrid::surf::As *path_src[ELEMENTS_FATHER_MAXDEPTH];
- simgrid::surf::As *path_dst[ELEMENTS_FATHER_MAXDEPTH];
+#define ROUTING_HIERARCHY_MAXDEPTH 16 /* increase if it is not enough */
+ simgrid::surf::As *path_src[ROUTING_HIERARCHY_MAXDEPTH];
+ simgrid::surf::As *path_dst[ROUTING_HIERARCHY_MAXDEPTH];
int index_src = 0;
int index_dst = 0;
- simgrid::surf::As *current;
simgrid::surf::As *current_src;
simgrid::surf::As *current_dst;
simgrid::surf::As *father;
- /* (1) find the as where the src and dst are located */
- sg_netcard_t src_data = src;
- sg_netcard_t dst_data = dst;
- src_as = src_data->containingAS();
- dst_as = dst_data->containingAS();
-#ifndef NDEBUG
- char* src_name = src_data->name();
- char* dst_name = dst_data->name();
-#endif
+ /* (1) find the path to root of src and dst*/
+ simgrid::surf::As *src_as = src->containingAS();
+ simgrid::surf::As *dst_as = dst->containingAS();
- xbt_assert(src_as && dst_as,
- "Ask for route \"from\"(%s) or \"to\"(%s) no found", src_name, dst_name);
+ xbt_assert(src_as, "Host %s must be in an AS", src->name());
+ xbt_assert(dst_as, "Host %s must be in an AS", dst->name());
/* (2) find the path to the root routing component */
- for (current = src_as; current != NULL; current = current->father_) {
- if (index_src >= ELEMENTS_FATHER_MAXDEPTH)
- xbt_die("ELEMENTS_FATHER_MAXDEPTH should be increased for path_src");
+ for (simgrid::surf::As *current = src_as; current != NULL; current = current->father_) {
+ if (index_src >= ROUTING_HIERARCHY_MAXDEPTH)
+ xbt_die("ROUTING_HIERARCHY_MAXDEPTH should be increased for element %s", src->name());
path_src[index_src++] = current;
}
- for (current = dst_as; current != NULL; current = current->father_) {
- if (index_dst >= ELEMENTS_FATHER_MAXDEPTH)
- xbt_die("ELEMENTS_FATHER_MAXDEPTH should be increased for path_dst");
+ for (simgrid::surf::As *current = dst_as; current != NULL; current = current->father_) {
+ if (index_dst >= ROUTING_HIERARCHY_MAXDEPTH)
+ xbt_die("ROUTING_HIERARCHY_MAXDEPTH should be increased for path_dst");
path_dst[index_dst++] = current;
}
*res_src = current_src; /* second the first different father of src */
*res_dst = current_dst; /* three the first different father of dst */
-#undef ELEMENTS_FATHER_MAXDEPTH
+#undef ROUTING_HIERARCHY_MAXDEPTH
}
-/* Global Business methods */
-
/**
- * \brief Recursive function for get_route_latency
+ * \brief Recursive function for get_route_and_latency
*
* \param src the source host name
* \param dst the destination host name
* \param *route the route where the links are stored. It is either NULL or a ready to use dynar
* \param *latency the latency, if needed
- *
- * This function is called by "get_route" and "get_latency". It allows to walk
- * recursively through the ASes tree.
*/
-static void _get_route_and_latency(
- simgrid::surf::NetCard *src, simgrid::surf::NetCard *dst,
- xbt_dynar_t * links, double *latency)
+static void _get_route_and_latency(simgrid::surf::NetCard *src, simgrid::surf::NetCard *dst,
+ std::vector<Link*> * links, double *latency)
{
s_sg_platf_route_cbarg_t route = SG_PLATF_ROUTE_INITIALIZER;
memset(&route,0,sizeof(route));
XBT_DEBUG("elements_father: common father '%s' src_father '%s' dst_father '%s'",
common_father->name_, src_father->name_, dst_father->name_);
- /* Check whether a direct bypass is defined */
- sg_platf_route_cbarg_t e_route_bypass = NULL;
- //FIXME:REMOVE:if (common_father->get_bypass_route)
-
- e_route_bypass = common_father->getBypassRoute(src, dst, latency);
-
- /* Common ancestor is kind enough to declare a bypass route from src to dst -- use it and bail out */
- if (e_route_bypass) {
- xbt_dynar_merge(links, &e_route_bypass->link_list);
- routing_route_free(e_route_bypass);
+ /* Check whether a direct bypass is defined. If so, use it and bail out */
+ std::vector<Link*> *bypassed_route = common_father->getBypassRoute(src, dst);
+ if (nullptr != bypassed_route) {
+ for (Link *link : *bypassed_route) {
+ links->push_back(link);
+ if (latency)
+ *latency += link->getLatency();
+ }
return;
}
/* If src and dst are in the same AS, life is good */
if (src_father == dst_father) { /* SURF_ROUTING_BASE */
- route.link_list = *links;
+ route.link_list = links;
common_father->getRouteAndLatency(src, dst, &route, latency);
- // if vivaldi latency+=vivaldi(src,dst)
return;
}
/* Not in the same AS, no bypass. We'll have to find our path between the ASes recursively*/
- route.link_list = xbt_dynar_new(sizeof(sg_routing_link_t), NULL);
- // Find the net_card corresponding to father
- simgrid::surf::NetCard *src_father_netcard = src_father->netcard_;
- simgrid::surf::NetCard *dst_father_netcard = dst_father->netcard_;
-
- common_father->getRouteAndLatency(src_father_netcard, dst_father_netcard,
- &route, latency);
+ route.link_list = new std::vector<Link*>();
+ common_father->getRouteAndLatency(src_father->netcard_, dst_father->netcard_, &route, latency);
xbt_assert((route.gw_src != NULL) && (route.gw_dst != NULL),
"bad gateways for route from \"%s\" to \"%s\"", src->name(), dst->name());
- sg_netcard_t src_gateway_net_elm = route.gw_src;
- sg_netcard_t dst_gateway_net_elm = route.gw_dst;
-
/* If source gateway is not our source, we have to recursively find our way up to this point */
- if (src != src_gateway_net_elm)
- _get_route_and_latency(src, src_gateway_net_elm, links, latency);
- xbt_dynar_merge(links, &route.link_list);
+ if (src != route.gw_src)
+ _get_route_and_latency(src, route.gw_src, links, latency);
+ for (auto link: *route.link_list)
+ links->push_back(link);
/* If dest gateway is not our destination, we have to recursively find our way from this point */
- if (dst_gateway_net_elm != dst)
- _get_route_and_latency(dst_gateway_net_elm, dst, links, latency);
-
-}
+ if (route.gw_dst != dst)
+ _get_route_and_latency(route.gw_dst, dst, links, latency);
-AS_t surf_platf_get_root(routing_platf_t platf){
- return platf->p_root;
-}
-
-e_surf_network_element_type_t surf_routing_edge_get_rc_type(sg_netcard_t netcard){
- return netcard->getRcType();
}
namespace simgrid {
* walk through the routing components tree and find a route between hosts
* by calling each "get_route" function in each routing component.
*/
-void RoutingPlatf::getRouteAndLatency(NetCard *src, NetCard *dst, xbt_dynar_t* route, double *latency)
+void RoutingPlatf::getRouteAndLatency(NetCard *src, NetCard *dst, std::vector<Link*> * route, double *latency)
{
XBT_DEBUG("getRouteAndLatency from %s to %s", src->name(), dst->name());
- if (NULL == *route) {
- xbt_dynar_reset(routing_platf->p_lastRoute);
- *route = routing_platf->p_lastRoute;
- }
_get_route_and_latency(src, dst, route, latency);
-
- xbt_assert(!latency || *latency >= 0.0,
- "negative latency on route between \"%s\" and \"%s\"", src->name(), dst->name());
-}
-
-xbt_dynar_t RoutingPlatf::getOneLinkRoutes(){
- return recursiveGetOneLinkRoutes(p_root);
}
-xbt_dynar_t RoutingPlatf::recursiveGetOneLinkRoutes(As *rc)
+static xbt_dynar_t _recursiveGetOneLinkRoutes(As *rc)
{
xbt_dynar_t ret = xbt_dynar_new(sizeof(Onelink*), xbt_free_f);
char *key;
xbt_dict_cursor_t cursor = NULL;
AS_t rc_child;
- xbt_dict_foreach(rc->sons_, cursor, key, rc_child) {
- xbt_dynar_t onelink_child = recursiveGetOneLinkRoutes(rc_child);
+ xbt_dict_foreach(rc->children_, cursor, key, rc_child) {
+ xbt_dynar_t onelink_child = _recursiveGetOneLinkRoutes(rc_child);
if (onelink_child)
xbt_dynar_merge(&ret,&onelink_child);
}
return ret;
}
-}
+xbt_dynar_t RoutingPlatf::getOneLinkRoutes(){
+ return _recursiveGetOneLinkRoutes(root_);
}
-e_surf_network_element_type_t routing_get_network_element_type(const char *name)
-{
- simgrid::surf::NetCard *rc = sg_netcard_by_name_or_null(name);
- if (rc)
- return rc->getRcType();
-
- return SURF_NETWORK_ELEMENT_NULL;
+}
}
/** @brief create the root AS */
-void routing_model_create( void *loopback)
+void routing_model_create(Link *loopback)
{
routing_platf = new simgrid::surf::RoutingPlatf(loopback);
}
simgrid::surf::AsCluster *cluster = dynamic_cast<simgrid::surf::AsCluster*>(current_routing);
xbt_assert(cluster, "Only hosts from Cluster can get a backbone.");
- xbt_assert(nullptr == cluster->p_backbone, "Cluster %s already has a backbone link!", cluster->name_);
+ xbt_assert(nullptr == cluster->backbone_, "Cluster %s already has a backbone link!", cluster->name_);
- cluster->p_backbone = bb;
+ cluster->backbone_ = bb;
XBT_DEBUG("Add a backbone to AS '%s'", current_routing->name_);
}
}
s_sg_platf_host_cbarg_t host = SG_PLATF_HOST_INITIALIZER;
memset(&host, 0, sizeof(host));
- host.initiallyOn = 1;
host.pstate = 0;
- host.speed_scale = 1.0;
host.core_amount = 1;
s_sg_platf_link_cbarg_t link = SG_PLATF_LINK_INITIALIZER;
memset(&link, 0, sizeof(link));
- link.initiallyOn = 1;
link.policy = SURF_LINK_FULLDUPLEX;
link.latency = cabinet->lat;
link.bandwidth = cabinet->bw;
char *router_id = NULL;
XBT_DEBUG(" ");
- host_id = HOST_PEER(peer->id);
- link_id = LINK_PEER(peer->id);
- router_id = ROUTER_PEER(peer->id);
+ host_id = bprintf("peer_%s", peer->id);
+ link_id = bprintf("link_%s", peer->id);
+ router_id = bprintf("router_%s", peer->id);
XBT_DEBUG("<AS id=\"%s\"\trouting=\"Cluster\">", peer->id);
s_sg_platf_AS_cbarg_t AS = SG_PLATF_AS_INITIALIZER;
XBT_DEBUG("<host\tid=\"%s\"\tpower=\"%f\"/>", host_id, peer->speed);
s_sg_platf_host_cbarg_t host = SG_PLATF_HOST_INITIALIZER;
memset(&host, 0, sizeof(host));
- host.initiallyOn = 1;
host.id = host_id;
host.speed_peak = xbt_dynar_new(sizeof(double), NULL);
xbt_dynar_push(host.speed_peak,&peer->speed);
host.pstate = 0;
//host.power_peak = peer->power;
- host.speed_scale = 1.0;
host.speed_trace = peer->availability_trace;
host.state_trace = peer->state_trace;
host.core_amount = 1;
s_sg_platf_link_cbarg_t link = SG_PLATF_LINK_INITIALIZER;
memset(&link, 0, sizeof(link));
- link.initiallyOn = 1;
link.policy = SURF_LINK_SHARED;
link.latency = peer->lat;
router.id = router_id;
router.coord = peer->coord;
sg_platf_new_router(&router);
- static_cast<AsCluster*>(current_routing)->p_router = static_cast<NetCard*>(xbt_lib_get_or_null(as_router_lib, router.id, ROUTING_ASR_LEVEL));
+ static_cast<AsCluster*>(current_routing)->router_ = static_cast<NetCard*>(xbt_lib_get_or_null(as_router_lib, router.id, ROUTING_ASR_LEVEL));
XBT_DEBUG("</AS>");
sg_platf_new_AS_end();
free(link_down);
}
-// static void routing_parse_Srandom(void)
-// {
-// double mean, std, min, max, seed;
-// char *random_id = A_surfxml_random_id;
-// char *random_radical = A_surfxml_random_radical;
-// char *rd_name = NULL;
-// char *rd_value;
-// mean = surf_parse_get_double(A_surfxml_random_mean);
-// std = surf_parse_get_double(A_surfxml_random_std___deviation);
-// min = surf_parse_get_double(A_surfxml_random_min);
-// max = surf_parse_get_double(A_surfxml_random_max);
-// seed = surf_parse_get_double(A_surfxml_random_seed);
-
-// double res = 0;
-// int i = 0;
-// random_data_t random = xbt_new0(s_random_data_t, 1);
-// char *tmpbuf;
-
-// xbt_dynar_t radical_elements;
-// unsigned int iter;
-// char *groups;
-// int start, end;
-// xbt_dynar_t radical_ends;
-
-// switch (A_surfxml_random_generator) {
-// case AU_surfxml_random_generator:
-// case A_surfxml_random_generator_NONE:
-// random->generator = NONE;
-// break;
-// case A_surfxml_random_generator_DRAND48:
-// random->generator = DRAND48;
-// break;
-// case A_surfxml_random_generator_RAND:
-// random->generator = RAND;
-// break;
-// case A_surfxml_random_generator_RNGSTREAM:
-// random->generator = RNGSTREAM;
-// break;
-// default:
-// surf_parse_error("Invalid random generator");
-// break;
-// }
-// random->seed = seed;
-// random->min = min;
-// random->max = max;
-
-// /* Check user stupidities */
-// if (max < min)
-// THROWF(arg_error, 0, "random->max < random->min (%f < %f)", max, min);
-// if (mean < min)
-// THROWF(arg_error, 0, "random->mean < random->min (%f < %f)", mean, min);
-// if (mean > max)
-// THROWF(arg_error, 0, "random->mean > random->max (%f > %f)", mean, max);
-
-// /* normalize the mean and standard deviation before storing */
-// random->mean = (mean - min) / (max - min);
-// random->std = std / (max - min);
-
-// if (random->mean * (1 - random->mean) < random->std * random->std)
-// THROWF(arg_error, 0, "Invalid mean and standard deviation (%f and %f)",
-// random->mean, random->std);
-
-// XBT_DEBUG
-// ("id = '%s' min = '%f' max = '%f' mean = '%f' std_deviatinon = '%f' generator = '%d' seed = '%ld' radical = '%s'",
-// random_id, random->min, random->max, random->mean, random->std,
-// (int)random->generator, random->seed, random_radical);
-
-// if (!random_value)
-// random_value = xbt_dict_new_homogeneous(free);
-
-// if (!strcmp(random_radical, "")) {
-// res = random_generate(random);
-// rd_value = bprintf("%f", res);
-// xbt_dict_set(random_value, random_id, rd_value, NULL);
-// } else {
-// radical_elements = xbt_str_split(random_radical, ",");
-// xbt_dynar_foreach(radical_elements, iter, groups) {
-// radical_ends = xbt_str_split(groups, "-");
-// switch (xbt_dynar_length(radical_ends)) {
-// case 1:
-// xbt_assert(!xbt_dict_get_or_null(random_value, random_id),
-// "Custom Random '%s' already exists !", random_id);
-// res = random_generate(random);
-// tmpbuf =
-// bprintf("%s%d", random_id,
-// atoi(xbt_dynar_getfirst_as(radical_ends, char *)));
-// xbt_dict_set(random_value, tmpbuf, bprintf("%f", res), NULL);
-// xbt_free(tmpbuf);
-// break;
-
-// case 2:
-// start = surf_parse_get_int(xbt_dynar_get_as(radical_ends, 0, char *));
-// end = surf_parse_get_int(xbt_dynar_get_as(radical_ends, 1, char *));
-// for (i = start; i <= end; i++) {
-// xbt_assert(!xbt_dict_get_or_null(random_value, random_id),
-// "Custom Random '%s' already exists !", bprintf("%s%d",
-// random_id,
-// i));
-// res = random_generate(random);
-// tmpbuf = bprintf("%s%d", random_id, i);
-// xbt_dict_set(random_value, tmpbuf, bprintf("%f", res), NULL);
-// xbt_free(tmpbuf);
-// }
-// break;
-// default:
-// XBT_CRITICAL("Malformed radical");
-// break;
-// }
-// res = random_generate(random);
-// rd_name = bprintf("%s_router", random_id);
-// rd_value = bprintf("%f", res);
-// xbt_dict_set(random_value, rd_name, rd_value, NULL);
-
-// xbt_dynar_free(&radical_ends);
-// }
-// free(rd_name);
-// xbt_dynar_free(&radical_elements);
-// }
-// }
-
static void check_disk_attachment()
{
xbt_lib_cursor_t cursor;
instr_routing_define_callbacks();
}
-/**
- * \brief Recursive function for finalize
- *
- * \param rc the source host name
- *
- * This fuction is call by "finalize". It allow to finalize the
- * AS or routing components. It delete all the structures.
- */
-static void finalize_rec(simgrid::surf::As *as) {
- xbt_dict_cursor_t cursor = NULL;
- char *key;
- AS_t elem;
-
- xbt_dict_foreach(as->sons_, cursor, key, elem) {
- finalize_rec(elem);
- }
-
- delete as;;
-}
-
/** \brief Frees all memory allocated by the routing module */
void routing_exit(void) {
delete routing_platf;
namespace simgrid {
namespace surf {
- RoutingPlatf::RoutingPlatf(void *loopback)
- : p_loopback(loopback)
+ RoutingPlatf::RoutingPlatf(Link *loopback)
+ : loopback_(loopback)
{
}
RoutingPlatf::~RoutingPlatf()
{
- xbt_dynar_free(&p_lastRoute);
- finalize_rec(p_root);
+ delete root_;
}
}
}
AS_t surf_AS_get_routing_root() {
- return routing_platf->p_root;
+ return routing_platf->root_;
}
const char *surf_AS_get_name(simgrid::surf::As *as) {
return as->name_;
}
-static simgrid::surf::As *surf_AS_recursive_get_by_name(
- simgrid::surf::As *current, const char * name)
+static simgrid::surf::As *surf_AS_recursive_get_by_name(simgrid::surf::As *current, const char * name)
{
xbt_dict_cursor_t cursor = NULL;
char *key;
if(!strcmp(current->name_, name))
return current;
- xbt_dict_foreach(current->sons_, cursor, key, elem) {
+ xbt_dict_foreach(current->children_, cursor, key, elem) {
tmp = surf_AS_recursive_get_by_name(elem, name);
if(tmp != NULL ) {
break;
simgrid::surf::As *surf_AS_get_by_name(const char * name)
{
- simgrid::surf::As *as = surf_AS_recursive_get_by_name(routing_platf->p_root, name);
+ simgrid::surf::As *as = surf_AS_recursive_get_by_name(routing_platf->root_, name);
if(as == NULL)
XBT_WARN("Impossible to find an AS with name %s, please check your input", name);
return as;
}
-xbt_dict_t surf_AS_get_routing_sons(simgrid::surf::As *as)
+xbt_dict_t surf_AS_get_children(simgrid::surf::As *as)
{
- return as->sons_;
+ return as->children_;
}
xbt_dynar_t surf_AS_get_hosts(simgrid::surf::As *as)