1 /* Copyright (c) 2010, 2012-2015. The SimGrid Team.
2 * All rights reserved. */
4 /* This program is free software; you can redistribute it and/or modify it
5 * under the terms of the license (GNU LGPL) which comes with this package. */
7 #include "src/instr/instr_private.h"
9 #include "simgrid/s4u/engine.hpp"
10 #include "simgrid/s4u/host.hpp"
11 #include "src/kernel/routing/NetZoneImpl.hpp"
12 #include "src/surf/network_interface.hpp"
13 #include "src/surf/xml/platf_private.hpp"
14 #include "surf/surf.h"
15 #include "xbt/graph.h"
17 XBT_LOG_NEW_DEFAULT_SUBCATEGORY (instr_routing, instr, "Tracing platform hierarchy");
19 static int platform_created = 0; /* indicate whether the platform file has been traced */
20 static std::vector<container_t> currentContainer; /* push and pop, used only in creation */
22 static const char *instr_node_name (xbt_node_t node)
24 void *data = xbt_graph_node_get_data(node);
25 char *str = (char*)data;
29 static container_t lowestCommonAncestor (container_t a1, container_t a2)
31 //this is only an optimization (since most of a1 and a2 share the same parent)
32 if (a1->father == a2->father) return a1->father;
34 //create an array with all ancestors of a1
35 std::vector<container_t> ancestors_a1;
39 ancestors_a1.push_back(p);
43 //create an array with all ancestors of a2
44 std::vector<container_t> ancestors_a2;
47 ancestors_a2.push_back(p);
51 //find the lowest ancestor
53 int i = ancestors_a1.size() - 1;
54 int j = ancestors_a2.size() - 1;
55 while (i >= 0 && j >= 0){
56 container_t a1p = ancestors_a1.at(i);
57 container_t a2p = ancestors_a2.at(j);
69 static void linkContainers (container_t src, container_t dst, xbt_dict_t filter)
72 if (strcmp (src->name, "__loopback__") == 0 || strcmp (dst->name, "__loopback__") == 0){
73 XBT_DEBUG (" linkContainers: ignoring loopback link");
78 container_t father = lowestCommonAncestor (src, dst);
80 xbt_die ("common father unknown, this is a tracing problem");
83 if (filter != nullptr){
84 //check if we already register this pair (we only need one direction)
85 char aux1[INSTR_DEFAULT_STR_SIZE], aux2[INSTR_DEFAULT_STR_SIZE];
86 snprintf (aux1, INSTR_DEFAULT_STR_SIZE, "%s%s", src->name, dst->name);
87 snprintf (aux2, INSTR_DEFAULT_STR_SIZE, "%s%s", dst->name, src->name);
88 if (xbt_dict_get_or_null (filter, aux1)){
89 XBT_DEBUG (" linkContainers: already registered %s <-> %s (1)", src->name, dst->name);
92 if (xbt_dict_get_or_null (filter, aux2)){
93 XBT_DEBUG (" linkContainers: already registered %s <-> %s (2)", dst->name, src->name);
97 //ok, not found, register it
98 xbt_dict_set (filter, aux1, xbt_strdup ("1"), nullptr);
99 xbt_dict_set (filter, aux2, xbt_strdup ("1"), nullptr);
103 char link_typename[INSTR_DEFAULT_STR_SIZE];
104 snprintf (link_typename, INSTR_DEFAULT_STR_SIZE, "%s-%s%s-%s%s",
106 src->type->name, src->type->id,
107 dst->type->name, dst->type->id);
108 type_t link_type = PJ_type_get_or_null (link_typename, father->type);
109 if (link_type == nullptr){
110 link_type = PJ_type_link_new (link_typename, father->type, src->type, dst->type);
113 //register EDGE types for triva configuration
114 xbt_dict_set (trivaEdgeTypes, link_type->name, xbt_strdup("1"), nullptr);
117 static long long counter = 0;
119 char key[INSTR_DEFAULT_STR_SIZE];
120 snprintf (key, INSTR_DEFAULT_STR_SIZE, "%lld", counter++);
121 new_pajeStartLink(SIMIX_get_clock(), father, link_type, src, "topology", key);
122 new_pajeEndLink(SIMIX_get_clock(), father, link_type, dst, "topology", key);
124 XBT_DEBUG (" linkContainers %s <-> %s", src->name, dst->name);
127 static void recursiveGraphExtraction(simgrid::s4u::NetZone* netzone, container_t container, xbt_dict_t filter)
129 if (!TRACE_platform_topology()){
130 XBT_DEBUG("Graph extraction disabled by user.");
133 XBT_DEBUG("Graph extraction for NetZone = %s", netzone->name());
134 if (!xbt_dict_is_empty(netzone->children())) {
135 xbt_dict_cursor_t cursor = nullptr;
138 //bottom-up recursion
139 xbt_dict_foreach (netzone->children(), cursor, child_name, nz_son) {
140 container_t child_container = (container_t)xbt_dict_get(container->children, nz_son->name());
141 recursiveGraphExtraction(nz_son, child_container, filter);
146 xbt_graph_t graph = xbt_graph_new_graph (0, nullptr);
147 xbt_dict_t nodes = xbt_dict_new_homogeneous(nullptr);
148 xbt_dict_t edges = xbt_dict_new_homogeneous(nullptr);
149 xbt_edge_t edge = nullptr;
151 xbt_dict_cursor_t cursor = nullptr;
154 static_cast<simgrid::kernel::routing::NetZoneImpl*>(netzone)->getGraph(graph, nodes, edges);
155 xbt_dict_foreach(edges,cursor,edge_name,edge) {
157 PJ_container_get((const char*) edge->src->data),
158 PJ_container_get((const char*) edge->dst->data), filter);
160 xbt_dict_free (&nodes);
161 xbt_dict_free (&edges);
162 xbt_graph_free_graph(graph, xbt_free_f, xbt_free_f, nullptr);
169 void sg_instr_AS_begin(sg_platf_AS_cbarg_t AS)
171 const char*id = AS->id;
173 if (PJ_container_get_root() == nullptr){
174 PJ_container_alloc ();
176 container_t root = PJ_container_new (id, INSTR_AS, nullptr);
177 PJ_container_set_root (root);
179 if (TRACE_smpi_is_enabled()) {
180 type_t mpi = PJ_type_get_or_null ("MPI", root->type);
182 mpi = PJ_type_container_new("MPI", root->type);
183 if (!TRACE_smpi_is_grouped()) PJ_type_state_new ("MPI_STATE", mpi);
184 PJ_type_link_new ("MPI_LINK", PJ_type_get_root(), mpi, mpi);
188 if (TRACE_needs_platform()){
189 currentContainer.push_back(root);
194 if (TRACE_needs_platform()){
195 container_t father = currentContainer.back();
196 container_t container = PJ_container_new (id, INSTR_AS, father);
197 currentContainer.push_back(container);
201 void sg_instr_AS_end()
203 if (TRACE_needs_platform()){
204 currentContainer.pop_back();
208 static void instr_routing_parse_start_link(simgrid::surf::Link* link)
210 if (currentContainer.empty()) // No ongoing parsing. Are you creating the loopback?
212 container_t father = currentContainer.back();
214 double bandwidth_value = link->bandwidth();
215 double latency_value = link->latency();
217 container_t container = PJ_container_new(link->getName(), INSTR_LINK, father);
219 if ((TRACE_categorized() || TRACE_uncategorized() || TRACE_platform()) && (! TRACE_disable_link())) {
220 type_t bandwidth = PJ_type_get_or_null("bandwidth", container->type);
221 if (bandwidth == nullptr) {
222 bandwidth = PJ_type_variable_new("bandwidth", nullptr, container->type);
224 type_t latency = PJ_type_get_or_null("latency", container->type);
225 if (latency == nullptr) {
226 latency = PJ_type_variable_new("latency", nullptr, container->type);
228 new_pajeSetVariable(0, container, bandwidth, bandwidth_value);
229 new_pajeSetVariable(0, container, latency, latency_value);
231 if (TRACE_uncategorized()) {
232 type_t bandwidth_used = PJ_type_get_or_null("bandwidth_used", container->type);
233 if (bandwidth_used == nullptr) {
234 PJ_type_variable_new("bandwidth_used", "0.5 0.5 0.5", container->type);
239 void sg_instr_new_host(simgrid::s4u::Host& host)
241 container_t father = currentContainer.back();
242 container_t container = PJ_container_new(host.cname(), INSTR_HOST, father);
244 if ((TRACE_categorized() || TRACE_uncategorized() || TRACE_platform()) && (! TRACE_disable_speed())) {
245 type_t speed = PJ_type_get_or_null ("power", container->type);
246 if (speed == nullptr){
247 speed = PJ_type_variable_new ("power", nullptr, container->type);
250 double current_speed_state = host.getPstateSpeedCurrent();
251 new_pajeSetVariable (0, container, speed, current_speed_state);
253 if (TRACE_uncategorized()){
254 type_t speed_used = PJ_type_get_or_null ("power_used", container->type);
255 if (speed_used == nullptr){
256 PJ_type_variable_new ("power_used", "0.5 0.5 0.5", container->type);
260 if (TRACE_smpi_is_enabled() && TRACE_smpi_is_grouped()){
261 type_t mpi = PJ_type_get_or_null ("MPI", container->type);
263 mpi = PJ_type_container_new("MPI", container->type);
264 PJ_type_state_new ("MPI_STATE", mpi);
268 if (TRACE_msg_process_is_enabled()) {
269 type_t msg_process = PJ_type_get_or_null ("MSG_PROCESS", container->type);
270 if (msg_process == nullptr){
271 msg_process = PJ_type_container_new("MSG_PROCESS", container->type);
272 type_t state = PJ_type_state_new ("MSG_PROCESS_STATE", msg_process);
273 PJ_value_new ("suspend", "1 0 1", state);
274 PJ_value_new ("sleep", "1 1 0", state);
275 PJ_value_new ("receive", "1 0 0", state);
276 PJ_value_new ("send", "0 0 1", state);
277 PJ_value_new ("task_execute", "0 1 1", state);
278 PJ_type_link_new ("MSG_PROCESS_LINK", PJ_type_get_root(), msg_process, msg_process);
279 PJ_type_link_new ("MSG_PROCESS_TASK_LINK", PJ_type_get_root(), msg_process, msg_process);
283 if (TRACE_msg_vm_is_enabled()) {
284 type_t msg_vm = PJ_type_get_or_null ("MSG_VM", container->type);
285 if (msg_vm == nullptr){
286 msg_vm = PJ_type_container_new("MSG_VM", container->type);
287 type_t state = PJ_type_state_new ("MSG_VM_STATE", msg_vm);
288 PJ_value_new ("suspend", "1 0 1", state);
289 PJ_value_new ("sleep", "1 1 0", state);
290 PJ_value_new ("receive", "1 0 0", state);
291 PJ_value_new ("send", "0 0 1", state);
292 PJ_value_new ("task_execute", "0 1 1", state);
293 PJ_type_link_new ("MSG_VM_LINK", PJ_type_get_root(), msg_vm, msg_vm);
294 PJ_type_link_new ("MSG_VM_PROCESS_LINK", PJ_type_get_root(), msg_vm, msg_vm);
300 void sg_instr_new_router(sg_platf_router_cbarg_t router)
302 container_t father = currentContainer.back();
303 PJ_container_new (router->id, INSTR_ROUTER, father);
306 static void instr_routing_parse_end_platform ()
308 currentContainer.clear();
309 xbt_dict_t filter = xbt_dict_new_homogeneous(xbt_free_f);
310 XBT_DEBUG ("Starting graph extraction.");
311 recursiveGraphExtraction(simgrid::s4u::Engine::instance()->netRoot(), PJ_container_get_root(), filter);
312 XBT_DEBUG ("Graph extraction finished.");
313 xbt_dict_free(&filter);
314 platform_created = 1;
315 TRACE_paje_dump_buffer(1);
318 void instr_routing_define_callbacks ()
320 if (!TRACE_is_enabled()) return;
321 //always need the call backs to ASes (we need only the root AS),
322 //to create the rootContainer and the rootType properly
323 if (!TRACE_needs_platform()) return;
324 simgrid::surf::Link::onCreation.connect(instr_routing_parse_start_link);
325 simgrid::surf::on_postparse.connect(instr_routing_parse_end_platform);
329 * user categories support
331 static void recursiveNewVariableType (const char *new_typename, const char *color, type_t root)
333 if (!strcmp (root->name, "HOST")){
334 char tnstr[INSTR_DEFAULT_STR_SIZE];
335 snprintf (tnstr, INSTR_DEFAULT_STR_SIZE, "p%s", new_typename);
336 PJ_type_variable_new (tnstr, color, root);
338 if (!strcmp (root->name, "MSG_VM")){
339 char tnstr[INSTR_DEFAULT_STR_SIZE];
340 snprintf (tnstr, INSTR_DEFAULT_STR_SIZE, "p%s", new_typename);
341 PJ_type_variable_new (tnstr, color, root);
343 if (!strcmp (root->name, "LINK")){
344 char tnstr[INSTR_DEFAULT_STR_SIZE];
345 snprintf (tnstr, INSTR_DEFAULT_STR_SIZE, "b%s", new_typename);
346 PJ_type_variable_new (tnstr, color, root);
348 xbt_dict_cursor_t cursor = nullptr;
351 xbt_dict_foreach(root->children, cursor, name, child_type) {
352 recursiveNewVariableType (new_typename, color, child_type);
356 void instr_new_variable_type (const char *new_typename, const char *color)
358 recursiveNewVariableType (new_typename, color, PJ_type_get_root());
361 static void recursiveNewUserVariableType (const char *father_type, const char *new_typename, const char *color, type_t root)
363 if (!strcmp (root->name, father_type)){
364 PJ_type_variable_new (new_typename, color, root);
366 xbt_dict_cursor_t cursor = nullptr;
369 xbt_dict_foreach(root->children, cursor, name, child_type) {
370 recursiveNewUserVariableType (father_type, new_typename, color, child_type);
374 void instr_new_user_variable_type (const char *father_type, const char *new_typename, const char *color)
376 recursiveNewUserVariableType (father_type, new_typename, color, PJ_type_get_root());
379 static void recursiveNewUserStateType (const char *father_type, const char *new_typename, type_t root)
381 if (!strcmp (root->name, father_type)){
382 PJ_type_state_new (new_typename, root);
384 xbt_dict_cursor_t cursor = nullptr;
387 xbt_dict_foreach(root->children, cursor, name, child_type) {
388 recursiveNewUserStateType (father_type, new_typename, child_type);
392 void instr_new_user_state_type (const char *father_type, const char *new_typename)
394 recursiveNewUserStateType (father_type, new_typename, PJ_type_get_root());
397 static void recursiveNewValueForUserStateType (const char *type_name, const char *value, const char *color, type_t root)
399 if (!strcmp (root->name, type_name)){
400 PJ_value_new (value, color, root);
402 xbt_dict_cursor_t cursor = nullptr;
405 xbt_dict_foreach(root->children, cursor, name, child_type) {
406 recursiveNewValueForUserStateType (type_name, value, color, child_type);
410 void instr_new_value_for_user_state_type (const char *type_name, const char *value, const char *color)
412 recursiveNewValueForUserStateType (type_name, value, color, PJ_type_get_root());
415 int instr_platform_traced ()
417 return platform_created;
420 #define GRAPHICATOR_SUPPORT_FUNCTIONS
422 static void recursiveXBTGraphExtraction(xbt_graph_t graph, xbt_dict_t nodes, xbt_dict_t edges, NetZone_t netzone,
423 container_t container)
425 if (!xbt_dict_is_empty(netzone->children())) {
426 xbt_dict_cursor_t cursor = nullptr;
427 NetZone_t netzone_child;
429 //bottom-up recursion
430 xbt_dict_foreach (netzone->children(), cursor, child_name, netzone_child) {
431 container_t child_container = (container_t)xbt_dict_get(container->children, netzone_child->name());
432 recursiveXBTGraphExtraction(graph, nodes, edges, netzone_child, child_container);
436 static_cast<simgrid::kernel::routing::NetZoneImpl*>(netzone)->getGraph(graph, nodes, edges);
439 xbt_graph_t instr_routing_platform_graph ()
441 xbt_graph_t ret = xbt_graph_new_graph (0, nullptr);
442 xbt_dict_t nodes = xbt_dict_new_homogeneous(nullptr);
443 xbt_dict_t edges = xbt_dict_new_homogeneous(nullptr);
444 recursiveXBTGraphExtraction(ret, nodes, edges, simgrid::s4u::Engine::instance()->netRoot(), PJ_container_get_root());
445 xbt_dict_free (&nodes);
446 xbt_dict_free (&edges);
450 void instr_routing_platform_graph_export_graphviz (xbt_graph_t g, const char *filename)
452 unsigned int cursor = 0;
453 xbt_node_t node = nullptr;
454 xbt_edge_t edge = nullptr;
455 FILE *file = nullptr;
457 file = fopen(filename, "w");
458 xbt_assert(file, "Failed to open %s \n", filename);
461 fprintf(file, "digraph test {\n");
463 fprintf(file, "graph test {\n");
465 fprintf(file, " graph [overlap=scale]\n");
467 fprintf(file, " node [shape=box, style=filled]\n");
469 " node [width=.3, height=.3, style=filled, color=skyblue]\n\n");
471 xbt_dynar_foreach(g->nodes, cursor, node) {
472 fprintf(file, " \"%s\";\n", instr_node_name(node));
474 xbt_dynar_foreach(g->edges, cursor, edge) {
475 const char *src_s = instr_node_name (edge->src);
476 const char *dst_s = instr_node_name (edge->dst);
478 fprintf(file, " \"%s\" -> \"%s\";\n", src_s, dst_s);
480 fprintf(file, " \"%s\" -- \"%s\";\n", src_s, dst_s);
482 fprintf(file, "}\n");