static int surf_parse_models_setup_already_called = 0;
-/* Build the list of hostnames in a cluster or in a cabinet */
-static std::vector<char*> *makeHostnames(const char*prefix, const char*radicals, const char *suffix){
- std::vector<char*> *hostnames = new std::vector<char*>();
+/* Turn something like "1-4,6,9-11" into the vector {1,2,3,4,6,9,10,11} */
+static std::vector<int> *explodesRadical(const char*radicals){
+ std::vector<int> *exploded = new std::vector<int>();
char *groups;
unsigned int iter;
}
for (int i = start; i <= end; i++)
- hostnames->push_back( bprintf("%s%d%s",prefix,i,suffix) );
+ exploded->push_back( i );
xbt_dynar_free(&radical_ends);
}
xbt_dynar_free(&radical_elements);
- return hostnames;
+ return exploded;
}
cpu->setStateTrace(host->state_trace);
if (host->speed_trace)
cpu->setSpeedTrace(host->speed_trace);
- surf_host_model->createHost(host->id, netcard, cpu, host->properties)->attach(h);
+ surf_host_model->createHost(host->id, netcard, cpu)->attach(h);
+
+ if (host->properties) {
+ xbt_dict_cursor_t cursor=NULL;
+ char *key,*data;
+ xbt_dict_foreach(host->properties,cursor,key,data)
+ h->setProperty(key,data);
+ xbt_dict_free(&host->properties);
+ }
if (host->pstate != 0)
cpu->setPState(host->pstate);
using simgrid::surf::AsClusterTorus;
using simgrid::surf::AsClusterFatTree;
- char *host_id, *groups, *link_id = NULL;
- xbt_dict_t patterns = NULL;
int rankId=0;
s_sg_platf_link_cbarg_t link;
- unsigned int iter;
-
- if ((cluster->availability_trace && strcmp(cluster->availability_trace, ""))
- || (cluster->state_trace && strcmp(cluster->state_trace, ""))) {
- patterns = xbt_dict_new_homogeneous(xbt_free_f);
- xbt_dict_set(patterns, "id", xbt_strdup(cluster->id), NULL);
- xbt_dict_set(patterns, "prefix", xbt_strdup(cluster->prefix), NULL);
- xbt_dict_set(patterns, "suffix", xbt_strdup(cluster->suffix), NULL);
- }
-
- /* Parse the topology attributes.
- * Nothing to do in a vanilla cluster, but that's another story for torus and flat_trees */
+ // What an inventive way of initializing the AS that I have as ancestor :-(
s_sg_platf_AS_cbarg_t AS;
AS.id = cluster->id;
-
switch (cluster->topology) {
case SURF_CLUSTER_TORUS:
AS.routing = A_surfxml_AS_routing_ClusterTorus;
AS.routing = A_surfxml_AS_routing_Cluster;
break;
}
-
- // What an inventive way of initializing the AS that I have as ancestor :-(
sg_platf_new_AS_begin(&AS);
simgrid::surf::AsCluster *current_as = static_cast<AsCluster*>(routing_get_current());
current_as->parse_specific_arguments(cluster);
current_as->has_limiter_ = 1;
}
- //Make all hosts
- xbt_dynar_t radical_elements = xbt_str_split(cluster->radical, ",");
- xbt_dynar_foreach(radical_elements, iter, groups) {
+ std::vector<int> *radicals = explodesRadical(cluster->radical);
+ for (int i : *radicals) {
+ char * host_id = bprintf("%s%d%s", cluster->prefix, i, cluster->suffix);
+ char * link_id = bprintf("%s_link_%d", cluster->id, i);
- xbt_dynar_t radical_ends = xbt_str_split(groups, "-");
- int start = surf_parse_get_int(xbt_dynar_get_as(radical_ends, 0, char *));
- int end;
+ XBT_DEBUG("<host\tid=\"%s\"\tpower=\"%f\">", host_id, cluster->speed);
- switch (xbt_dynar_length(radical_ends)) {
- case 1:
- end = start;
- break;
- case 2:
- end = surf_parse_get_int(xbt_dynar_get_as(radical_ends, 1, char *));
- break;
- default:
- surf_parse_error("Malformed radical");
- break;
- }
- for (int i = start; i <= end; i++) {
- host_id = bprintf("%s%d%s", cluster->prefix, i, cluster->suffix);
- link_id = bprintf("%s_link_%d", cluster->id, i);
-
- XBT_DEBUG("<host\tid=\"%s\"\tpower=\"%f\">", host_id, cluster->speed);
-
- s_sg_platf_host_cbarg_t host;
- memset(&host, 0, sizeof(host));
- host.id = host_id;
- if ((cluster->properties != NULL) && (!xbt_dict_is_empty(cluster->properties))) {
- xbt_dict_cursor_t cursor=NULL;
- char *key,*data;
- host.properties = xbt_dict_new();
-
- xbt_dict_foreach(cluster->properties,cursor,key,data) {
- xbt_dict_set(host.properties, key, xbt_strdup(data),free);
- }
- }
- if (cluster->availability_trace && strcmp(cluster->availability_trace, "")) {
- xbt_dict_set(patterns, "radical", bprintf("%d", i), NULL);
- char *avail_file = xbt_str_varsubst(cluster->availability_trace, patterns);
- XBT_DEBUG("\tavailability_file=\"%s\"", avail_file);
- if (avail_file && avail_file[0])
- host.speed_trace = tmgr_trace_new_from_file(avail_file);
- xbt_free(avail_file);
- } else {
- XBT_DEBUG("\tavailability_file=\"\"");
- }
-
- if (cluster->state_trace && strcmp(cluster->state_trace, "")) {
- char *avail_file = xbt_str_varsubst(cluster->state_trace, patterns);
- XBT_DEBUG("\tstate_file=\"%s\"", avail_file);
- if (avail_file && avail_file[0])
- host.state_trace = tmgr_trace_new_from_file(avail_file);
- xbt_free(avail_file);
- } else {
- XBT_DEBUG("\tstate_file=\"\"");
+ s_sg_platf_host_cbarg_t host;
+ memset(&host, 0, sizeof(host));
+ host.id = host_id;
+ if ((cluster->properties != NULL) && (!xbt_dict_is_empty(cluster->properties))) {
+ xbt_dict_cursor_t cursor=NULL;
+ char *key,*data;
+ host.properties = xbt_dict_new();
+
+ xbt_dict_foreach(cluster->properties,cursor,key,data) {
+ xbt_dict_set(host.properties, key, xbt_strdup(data),free);
}
+ }
- host.speed_per_pstate = xbt_dynar_new(sizeof(double), NULL);
- xbt_dynar_push(host.speed_per_pstate,&cluster->speed);
- host.pstate = 0;
-
- //host.power_peak = cluster->power;
- host.core_amount = cluster->core_amount;
- host.coord = "";
- sg_platf_new_host(&host);
- xbt_dynar_free(&host.speed_per_pstate);
- XBT_DEBUG("</host>");
-
- XBT_DEBUG("<link\tid=\"%s\"\tbw=\"%f\"\tlat=\"%f\"/>", link_id, cluster->bw, cluster->lat);
-
- s_surf_parsing_link_up_down_t info_lim, info_loop;
- // All links are saved in a matrix;
- // every row describes a single node; every node
- // may have multiple links.
- // the first column may store a link from x to x if p_has_loopback is set
- // the second column may store a limiter link if p_has_limiter is set
- // other columns are to store one or more link for the node
-
- //add a loopback link
- if(cluster->loopback_bw!=0 || cluster->loopback_lat!=0){
- char *tmp_link = bprintf("%s_loopback", link_id);
- XBT_DEBUG("<loopback\tid=\"%s\"\tbw=\"%f\"/>", tmp_link, cluster->limiter_link);
-
- memset(&link, 0, sizeof(link));
- link.id = tmp_link;
- link.bandwidth = cluster->loopback_bw;
- link.latency = cluster->loopback_lat;
- link.policy = SURF_LINK_FATPIPE;
- sg_platf_new_link(&link);
- info_loop.link_up = info_loop.link_down = Link::byName(tmp_link);
- free(tmp_link);
- auto as_cluster = static_cast<AsCluster*>(current_as);
- xbt_dynar_set(as_cluster->privateLinks_, rankId*as_cluster->nb_links_per_node_, &info_loop);
- }
+ host.speed_per_pstate = xbt_dynar_new(sizeof(double), NULL);
+ xbt_dynar_push(host.speed_per_pstate,&cluster->speed);
+ host.pstate = 0;
+ host.core_amount = cluster->core_amount;
+ host.coord = "";
+ sg_platf_new_host(&host);
+ xbt_dynar_free(&host.speed_per_pstate);
+ XBT_DEBUG("</host>");
+
+ XBT_DEBUG("<link\tid=\"%s\"\tbw=\"%f\"\tlat=\"%f\"/>", link_id, cluster->bw, cluster->lat);
+
+ s_surf_parsing_link_up_down_t info_lim, info_loop;
+ // All links are saved in a matrix;
+ // every row describes a single node; every node
+ // may have multiple links.
+ // the first column may store a link from x to x if p_has_loopback is set
+ // the second column may store a limiter link if p_has_limiter is set
+ // other columns are to store one or more link for the node
+
+ //add a loopback link
+ if(cluster->loopback_bw!=0 || cluster->loopback_lat!=0){
+ char *tmp_link = bprintf("%s_loopback", link_id);
+ XBT_DEBUG("<loopback\tid=\"%s\"\tbw=\"%f\"/>", tmp_link, cluster->limiter_link);
+
+ memset(&link, 0, sizeof(link));
+ link.id = tmp_link;
+ link.bandwidth = cluster->loopback_bw;
+ link.latency = cluster->loopback_lat;
+ link.policy = SURF_LINK_FATPIPE;
+ sg_platf_new_link(&link);
+ info_loop.link_up = info_loop.link_down = Link::byName(tmp_link);
+ free(tmp_link);
+ auto as_cluster = static_cast<AsCluster*>(current_as);
+ xbt_dynar_set(as_cluster->privateLinks_, rankId*as_cluster->nb_links_per_node_, &info_loop);
+ }
- //add a limiter link (shared link to account for maximal bandwidth of the node)
- if(cluster->limiter_link!=0){
- char *tmp_link = bprintf("%s_limiter", link_id);
- XBT_DEBUG("<limiter\tid=\"%s\"\tbw=\"%f\"/>", tmp_link, cluster->limiter_link);
-
- memset(&link, 0, sizeof(link));
- link.id = tmp_link;
- link.bandwidth = cluster->limiter_link;
- link.latency = 0;
- link.policy = SURF_LINK_SHARED;
- sg_platf_new_link(&link);
- info_lim.link_up = info_lim.link_down = Link::byName(tmp_link);
- free(tmp_link);
- xbt_dynar_set(current_as->privateLinks_, rankId * current_as->nb_links_per_node_ + current_as->has_loopback_ , &info_lim);
- }
+ //add a limiter link (shared link to account for maximal bandwidth of the node)
+ if(cluster->limiter_link!=0){
+ char *tmp_link = bprintf("%s_limiter", link_id);
+ XBT_DEBUG("<limiter\tid=\"%s\"\tbw=\"%f\"/>", tmp_link, cluster->limiter_link);
+
+ memset(&link, 0, sizeof(link));
+ link.id = tmp_link;
+ link.bandwidth = cluster->limiter_link;
+ link.latency = 0;
+ link.policy = SURF_LINK_SHARED;
+ sg_platf_new_link(&link);
+ info_lim.link_up = info_lim.link_down = Link::byName(tmp_link);
+ free(tmp_link);
+ xbt_dynar_set(current_as->privateLinks_, rankId * current_as->nb_links_per_node_ + current_as->has_loopback_ , &info_lim);
+ }
- //call the cluster function that adds the others links
- if (cluster->topology == SURF_CLUSTER_FAT_TREE) {
- ((AsClusterFatTree*) current_as)->addProcessingNode(i);
- }
- else {
+ //call the cluster function that adds the others links
+ if (cluster->topology == SURF_CLUSTER_FAT_TREE) {
+ ((AsClusterFatTree*) current_as)->addProcessingNode(i);
+ }
+ else {
current_as->create_links_for_node(cluster, i, rankId,
rankId*current_as->nb_links_per_node_ + current_as->has_loopback_ + current_as->has_limiter_ );
- }
- xbt_free(link_id);
- xbt_free(host_id);
- rankId++;
}
-
- xbt_dynar_free(&radical_ends);
+ xbt_free(link_id);
+ xbt_free(host_id);
+ rankId++;
}
- xbt_dynar_free(&radical_elements);
+ delete radicals;
- // For fat trees, the links must be created once all nodes have been added
- if(cluster->topology == SURF_CLUSTER_FAT_TREE) {
- static_cast<simgrid::surf::AsClusterFatTree*>(current_as)->create_links();
- }
// Add a router. It is magically used thanks to the way in which surf_routing_cluster is written,
// and it's very useful to connect clusters together
XBT_DEBUG(" ");
s_sg_platf_router_cbarg_t router;
memset(&router, 0, sizeof(router));
router.id = cluster->router_id;
- router.coord = "";
if (!router.id || !strcmp(router.id, ""))
router.id = newid = bprintf("%s%s_router%s", cluster->prefix, cluster->id, cluster->suffix);
sg_platf_new_router(&router);
//Make the backbone
if ((cluster->bb_bw != 0) || (cluster->bb_lat != 0)) {
- char *link_backbone = bprintf("%s_backbone", cluster->id);
- XBT_DEBUG("<link\tid=\"%s\" bw=\"%f\" lat=\"%f\"/>", link_backbone, cluster->bb_bw, cluster->bb_lat);
memset(&link, 0, sizeof(link));
- link.id = link_backbone;
+ link.id = bprintf("%s_backbone", cluster->id);
link.bandwidth = cluster->bb_bw;
link.latency = cluster->bb_lat;
link.policy = cluster->bb_sharing_policy;
+ XBT_DEBUG("<link\tid=\"%s\" bw=\"%f\" lat=\"%f\"/>", link.id, cluster->bb_bw, cluster->bb_lat);
sg_platf_new_link(&link);
- routing_cluster_add_backbone(Link::byName(link_backbone));
-
- free(link_backbone);
+ routing_cluster_add_backbone(Link::byName(link.id));
+ free((char*)link.id);
}
XBT_DEBUG("</AS>");
- sg_platf_new_AS_end();
- XBT_DEBUG(" ");
- xbt_dict_free(&patterns); // no op if it were never set
+ sg_platf_new_AS_seal();
simgrid::surf::on_cluster(cluster);
}
void sg_platf_new_cabinet(sg_platf_cabinet_cbarg_t cabinet)
{
- std::vector<char*> *hostnames = makeHostnames(cabinet->prefix, cabinet->radical, cabinet->suffix);
+ std::vector<int> *radicals = explodesRadical(cabinet->radical);
- for (char* hostname : *hostnames) {
+ for (int radical : *radicals) {
+ char *hostname = bprintf("%s%d%s", cabinet->prefix, radical, cabinet->suffix);
s_sg_platf_host_cbarg_t host;
memset(&host, 0, sizeof(host));
host.pstate = 0;
free(hostname);
}
- delete(hostnames);
+ delete(radicals);
}
void sg_platf_new_storage(sg_platf_storage_cbarg_t storage)
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();
+ sg_platf_new_AS_seal();
XBT_DEBUG(" ");
free(router_id);
int storage_id = -1;
char *storage_model_name = NULL;
- host_model_name = xbt_cfg_get_string(_sg_cfg_set, "host/model");
- vm_model_name = xbt_cfg_get_string(_sg_cfg_set, "vm/model");
- network_model_name = xbt_cfg_get_string(_sg_cfg_set, "network/model");
- cpu_model_name = xbt_cfg_get_string(_sg_cfg_set, "cpu/model");
- storage_model_name = xbt_cfg_get_string(_sg_cfg_set, "storage/model");
+ host_model_name = xbt_cfg_get_string("host/model");
+ vm_model_name = xbt_cfg_get_string("vm/model");
+ network_model_name = xbt_cfg_get_string("network/model");
+ cpu_model_name = xbt_cfg_get_string("cpu/model");
+ storage_model_name = xbt_cfg_get_string("storage/model");
/* Check whether we use a net/cpu model differing from the default ones, in which case
* we should switch to the "compound" host model to correctly dispatch stuff to
* the right net/cpu models.
*/
- if ((!xbt_cfg_is_default_value(_sg_cfg_set, "network/model") ||
- !xbt_cfg_is_default_value(_sg_cfg_set, "cpu/model")) &&
- xbt_cfg_is_default_value(_sg_cfg_set, "host/model")) {
+ if ((!xbt_cfg_is_default_value("network/model") ||
+ !xbt_cfg_is_default_value("cpu/model")) &&
+ xbt_cfg_is_default_value("host/model")) {
host_model_name = "compound";
- xbt_cfg_set_string(_sg_cfg_set, "host/model", host_model_name);
+ xbt_cfg_set_string("host/model", host_model_name);
}
XBT_DEBUG("host model: %s", host_model_name);
*
* Add a new autonomous system to the platform. Any elements (such as host,
* router or sub-AS) added after this call and before the corresponding call
- * to sg_platf_new_AS_close() will be added to this AS.
+ * to sg_platf_new_AS_seal() will be added to this AS.
*
* Once this function was called, the configuration concerning the used
* models cannot be changed anymore.
* @param AS_id name of this autonomous system. Must be unique in the platform
* @param wanted_routing_type one of Full, Floyd, Dijkstra or similar. Full list in the variable routing_models, in src/surf/surf_routing.c
*/
-void sg_platf_new_AS_begin(sg_platf_AS_cbarg_t AS)
+simgrid::s4u::As * sg_platf_new_AS_begin(sg_platf_AS_cbarg_t AS)
{
if (!surf_parse_models_setup_already_called) {
/* Initialize the surf models. That must be done after we got all config, and before we need the models.
simgrid::surf::asCreatedCallbacks(new_as);
if (TRACE_is_enabled())
sg_instr_AS_begin(AS);
+
+ return new_as;
}
/**
- * \brief Specify that the current description of AS is finished
+ * \brief Specify that the description of the current AS is finished
*
- * Once you've declared all the content of your AS, you have to close
+ * Once you've declared all the content of your AS, you have to seal
* it with this call. Your AS is not usable until you call this function.
*/
-void sg_platf_new_AS_end()
+void sg_platf_new_AS_seal()
{
xbt_assert(current_routing, "Cannot seal the current AS: none under construction");
current_routing->seal();