static int find_all_sockets_cores (resrc_api_ctx_t *rsapi, resrc_t *node, int *nsocks, int *ncs) { json_t *reqobj= NULL; resrc_reqst_t *req = NULL; resrc_tree_t *st = NULL; resrc_tree_t *ct = NULL; reqobj = Jnew (); create_req4allsocks (reqobj); req = resrc_reqst_from_json (rsapi, reqobj, NULL); *nsocks = resrc_tree_search (rsapi, node, req, &st, false); resrc_reqst_destroy (rsapi, req); resrc_tree_destroy (rsapi, st, false, false); Jput (reqobj); reqobj = Jnew (); create_req4allcores (reqobj); req = resrc_reqst_from_json (rsapi, reqobj, NULL); *ncs = resrc_tree_search (rsapi, node, req, &ct, false); resrc_reqst_destroy (rsapi, req); resrc_tree_destroy (rsapi, ct, false, false); Jput (reqobj); return (*nsocks > 0 && *ncs > 0) ? 0 : -1; }
void resrc_reqst_list_destroy (resrc_reqst_list_t *resrc_reqst_list) { if (resrc_reqst_list) { if (resrc_reqst_list_size (resrc_reqst_list)) { resrc_reqst_t *child = resrc_reqst_list_first (resrc_reqst_list); while (child) { resrc_reqst_destroy (child); child = resrc_reqst_list_next (resrc_reqst_list); } } zlist_destroy (&(resrc_reqst_list->list)); free (resrc_reqst_list); } }
static int find_all_nodes (resrc_api_ctx_t *rsapi, resrc_t *root, resrc_tree_t **ot) { json_t *reqobj = NULL; int64_t size = 0; resrc_reqst_t *req = NULL; reqobj = Jnew (); create_req4allnodes (reqobj); req = resrc_reqst_from_json (rsapi, reqobj, NULL); size = resrc_tree_search (rsapi, root, req, ot, false); resrc_reqst_destroy (rsapi, req); Jput (reqobj); return (size > 0) ? 0 : -1; }
static int test_a_resrc (resrc_t *resrc, bool rdl) { int found = 0; int rc = 0; int64_t nowtime = epochtime (); JSON o = NULL; JSON req_res = NULL; resrc_reqst_t *resrc_reqst = NULL; resrc_tree_t *deserialized_tree = NULL; resrc_tree_t *found_tree = NULL; resrc_tree_t *resrc_tree = NULL; resrc_tree_t *selected_tree = NULL; resrc_tree = resrc_phys_tree (resrc); ok ((resrc_tree != NULL), "resource tree valid"); if (!resrc_tree) goto ret; if (verbose) { printf ("Listing resource tree\n"); resrc_tree_print (resrc_tree); printf ("End of resource tree\n"); } /* * Build a resource composite to search for. Two variants are * constructed depending on whether the loaded resources came * from the sample RDL file or from the hwloc. The hwloc request * does not span multiple nodes or contain the localid property. */ req_res = Jnew (); if (rdl) { JSON bandwidth = Jnew (); JSON child_core = Jnew (); JSON child_sock = Jnew (); JSON graph_array = Jnew_ar (); JSON ja = Jnew_ar (); JSON jpropo = Jnew (); /* json property object */ JSON memory = Jnew (); JSON power = Jnew (); /* JSON jtago = Jnew (); /\* json tag object *\/ */ /* Jadd_bool (jtago, "maytag", true); */ /* Jadd_bool (jtago, "yourtag", true); */ Jadd_str (memory, "type", "memory"); Jadd_int (memory, "req_qty", 1); Jadd_int (memory, "size", 100); json_object_array_add (ja, memory); Jadd_str (child_core, "type", "core"); Jadd_int (child_core, "req_qty", 6); Jadd_bool (child_core, "exclusive", true); Jadd_int (jpropo, "localid", 1); json_object_object_add (child_core, "properties", jpropo); json_object_array_add (ja, child_core); Jadd_str (child_sock, "type", "socket"); Jadd_int (child_sock, "req_qty", 2); json_object_object_add (child_sock, "req_children", ja); Jadd_str (bandwidth, "type", "bandwidth"); Jadd_int (bandwidth, "size", 100); json_object_array_add (graph_array, bandwidth); Jadd_str (power, "type", "power"); Jadd_int (power, "size", 10); json_object_array_add (graph_array, power); Jadd_str (req_res, "type", "node"); Jadd_int (req_res, "req_qty", 2); Jadd_int64 (req_res, "starttime", nowtime); /* json_object_object_add (req_res, "tags", jtago); */ json_object_object_add (req_res, "req_child", child_sock); json_object_object_add (req_res, "graphs", graph_array); } else { Jadd_str (req_res, "type", "core"); Jadd_int (req_res, "req_qty", 2); Jadd_bool (req_res, "exclusive", true); } resrc_reqst = resrc_reqst_from_json (req_res, NULL); Jput (req_res); ok ((resrc_reqst != NULL), "resource request valid"); if (!resrc_reqst) goto ret; if (verbose) { printf ("Listing resource request tree\n"); resrc_reqst_print (resrc_reqst); printf ("End of resource request tree\n"); } init_time (); found = resrc_tree_search (resrc, resrc_reqst, &found_tree, true); ok (found, "found %d requested resources in %lf", found, ((double)get_time ())/1000000); if (!found) goto ret; if (verbose) { printf ("Listing found tree\n"); resrc_tree_print (found_tree); printf ("End of found tree\n"); } o = Jnew (); init_time (); rc = resrc_tree_serialize (o, found_tree); ok (!rc, "found resource serialization took: %lf", ((double)get_time ())/1000000); if (verbose) { printf ("The found resources serialized: %s\n", Jtostr (o)); } deserialized_tree = resrc_tree_deserialize (o, NULL); if (verbose) { printf ("Listing deserialized tree\n"); resrc_tree_print (deserialized_tree); printf ("End of deserialized tree\n"); } Jput (o); init_time (); /* * Exercise time-based allocations for the rdl case and * now-based allocations for the hwloc case */ selected_tree = test_select_resources (found_tree, NULL, 1); if (rdl) rc = resrc_tree_allocate (selected_tree, 1, nowtime, nowtime + 3600); else rc = resrc_tree_allocate (selected_tree, 1, 0, 0); ok (!rc, "successfully allocated resources for job 1"); resrc_tree_destroy (selected_tree, false); resrc_tree_unstage_resources (found_tree); selected_tree = test_select_resources (found_tree, NULL, 2); if (rdl) rc = resrc_tree_allocate (selected_tree, 2, nowtime, nowtime + 3600); else rc = resrc_tree_allocate (selected_tree, 2, 0, 0); ok (!rc, "successfully allocated resources for job 2"); resrc_tree_destroy (selected_tree, false); resrc_tree_unstage_resources (found_tree); selected_tree = test_select_resources (found_tree, NULL, 3); if (rdl) rc = resrc_tree_allocate (selected_tree, 3, nowtime, nowtime + 3600); else rc = resrc_tree_allocate (selected_tree, 3, 0, 0); ok (!rc, "successfully allocated resources for job 3"); resrc_tree_destroy (selected_tree, false); resrc_tree_unstage_resources (found_tree); selected_tree = test_select_resources (found_tree, NULL, 4); if (rdl) rc = resrc_tree_reserve (selected_tree, 4, nowtime, nowtime + 3600); else rc = resrc_tree_reserve (selected_tree, 4, 0, 0); ok (!rc, "successfully reserved resources for job 4"); resrc_tree_destroy (selected_tree, false); resrc_tree_unstage_resources (found_tree); printf (" allocate and reserve took: %lf\n", ((double)get_time ())/1000000); if (verbose) { printf ("Allocated and reserved resources\n"); resrc_tree_print (resrc_tree); } init_time (); rc = resrc_tree_release (found_tree, 1); ok (!rc, "resource release of job 1 took: %lf", ((double)get_time ())/1000000); if (verbose) { printf ("Same resources without job 1\n"); resrc_tree_print (resrc_tree); } init_time (); resrc_reqst_destroy (resrc_reqst); resrc_tree_destroy (deserialized_tree, true); resrc_tree_destroy (found_tree, false); printf (" destroy took: %lf\n", ((double)get_time ())/1000000); ret: return rc; }