Exemplo n.º 1
0
void factor_vm::init_factor(vm_parameters *p)
{
	/* Kilobytes */
	p->datastack_size = align_page(p->datastack_size << 10);
	p->retainstack_size = align_page(p->retainstack_size << 10);
	p->callstack_size = align_page(p->callstack_size << 10);
	p->callback_size = align_page(p->callback_size << 10);

	/* Megabytes */
	p->young_size <<= 20;
	p->aging_size <<= 20;
	p->tenured_size <<= 20;
	p->code_size <<= 20;

	/* Disable GC during init as a sanity check */
	gc_off = true;

	/* OS-specific initialization */
	early_init();

	const vm_char *executable_path = vm_executable_path();

	if(executable_path)
		p->executable_path = executable_path;

	if(p->image_path == NULL)
		p->image_path = default_image_path();

	srand((unsigned int)nano_count());
	init_ffi();
	init_contexts(p->datastack_size,p->retainstack_size,p->callstack_size);
	init_callbacks(p->callback_size);
	load_image(p);
	init_c_io();
	init_inline_caching((int)p->max_pic_size);
	if(p->signals)
		init_signals();

	if(p->console)
		open_console();

	init_profiler();

	special_objects[OBJ_CPU] = allot_alien(false_object,(cell)FACTOR_CPU_STRING);
	special_objects[OBJ_OS] = allot_alien(false_object,(cell)FACTOR_OS_STRING);
	special_objects[OBJ_CELL_SIZE] = tag_fixnum(sizeof(cell));
	special_objects[OBJ_EXECUTABLE] = allot_alien(false_object,(cell)p->executable_path);
	special_objects[OBJ_ARGS] = false_object;
	special_objects[OBJ_EMBEDDED] = false_object;
	special_objects[OBJ_VM_COMPILER] = allot_alien(false_object,(cell)FACTOR_COMPILER_VERSION);

	/* We can GC now */
	gc_off = false;

	if(!to_boolean(special_objects[OBJ_STAGE2]))
		prepare_boot_image();
}
Exemplo n.º 2
0
void factorvm::init_factor(vm_parameters *p)
{
	/* Kilobytes */
	p->ds_size = align_page(p->ds_size << 10);
	p->rs_size = align_page(p->rs_size << 10);

	/* Megabytes */
	p->young_size <<= 20;
	p->aging_size <<= 20;
	p->tenured_size <<= 20;
	p->code_size <<= 20;

	/* Disable GC during init as a sanity check */
	gc_off = true;

	/* OS-specific initialization */
	early_init();

	const vm_char *executable_path = vm_executable_path();

	if(executable_path)
		p->executable_path = executable_path;

	if(p->image_path == NULL)
		p->image_path = default_image_path();

	srand(current_micros());
	init_ffi();
	init_stacks(p->ds_size,p->rs_size);
	load_image(p);
	init_c_io();
	init_inline_caching(p->max_pic_size);
	init_signals();

	if(p->console)
		open_console();

	init_profiler();

	userenv[CPU_ENV] = allot_alien(F,(cell)FACTOR_CPU_STRING);
	userenv[OS_ENV] = allot_alien(F,(cell)FACTOR_OS_STRING);
	userenv[CELL_SIZE_ENV] = tag_fixnum(sizeof(cell));
	userenv[EXECUTABLE_ENV] = allot_alien(F,(cell)p->executable_path);
	userenv[ARGS_ENV] = F;
	userenv[EMBEDDED_ENV] = F;

	/* We can GC now */
	gc_off = false;

	if(userenv[STAGE2_ENV] == F)
	{
		userenv[STACK_TRACES_ENV] = tag_boolean(p->stack_traces);
		do_stage1_init();
	}
}
Exemplo n.º 3
0
int main(int argc, char const *argv[])
{
#ifdef _MEM_PROFILER
  uint8_t checkpoint_set = 0;
#endif
  fd_set rfds;
  char buffer[PIPE_BUFFER_SIZE];
  int i, n;
  Plugin plugins[MAX_PLUGINS];
  int plugins_count = 0;
  mrb_state *mrb;
  mrb_value r_output, r_plugins_list;
  mrb_sym output_gv_sym, plugins_to_load_gv_sym;
  
  printf("Version: %s\n", PROBE_VERSION);
  
  if( argc != 2 ){
    printf("Usage: %s <config_path>\n", argv[0]);
    exit(1);
  }
  
#ifdef _MEM_PROFILER
  init_profiler();
#endif
  
  config_path = argv[1];
  
  printf("Initializing core...\n");
  mrb = mrb_open_allocf(profiler_allocf, "main");
  output_gv_sym = mrb_intern_cstr(mrb, "$output");
  plugins_to_load_gv_sym = mrb_intern_cstr(mrb, "$plugins_to_load");
  setup_api(mrb);
  execute_file(mrb, "plugins/main.rb");
  execute_file(mrb, config_path);
  
  printf("Loading plugins...\n");
  r_plugins_list = mrb_gv_get(mrb, plugins_to_load_gv_sym);
  for(i = 0; i< mrb_ary_len(mrb, r_plugins_list); i++){
    char *path, tmp[100];
    int ssize;
    
    mrb_value r_plugin_name = mrb_ary_ref(mrb, r_plugins_list, i);
    const char *plugin_name = mrb_string_value_cstr(mrb, &r_plugin_name);
    
    snprintf(tmp, sizeof(tmp) - 1, "plugins/%s.rb", plugin_name);
    ssize = strlen(tmp);
    
    path = malloc(ssize + 1);
    strncpy(path, tmp, ssize);
    path[ssize] = '\0';
    
    if( access(path, F_OK) == -1 ){
      printf("cannot open plugin file \"%s\": %s\n", path, strerror(errno));
      exit(1);
    }
    
    init_plugin_from_file(&plugins[plugins_count], path, plugin_name); plugins_count++;
  }
  
  printf("Instanciating output class...\n");
  r_output = mrb_gv_get(mrb, output_gv_sym);
  interval = mrb_fixnum(mrb_funcall(mrb, r_output, "interval", 0));
  
  printf("Interval set to %dms\n", (int)interval);
  
  printf("Sending initial report...\n");
  mrb_funcall(mrb, r_output, "send_report", 0);
  
  if (mrb->exc) {
    mrb_print_error(mrb);
    
    exit(1);
  }

  
  // start all the threads
  for(i= 0; i< plugins_count; i++){
    // printf("== plugin %d\n", i);
    n = pthread_create(&plugins[i].thread, NULL, plugin_thread, (void *)&plugins[i]);
    if( n < 0 ){
      fprintf(stderr, "create failed\n");
    }
  }
  
  if( signal(SIGINT, clean_exit) == SIG_ERR){
    perror("signal");
    exit(1);
  }
  
  while(running){
    int fds[MAX_PLUGINS];
    int maxfd = 0, ai;
    struct timeval tv;
    mrb_value r_buffer;
    struct timeval cycle_started_at, cycle_completed_at;
    
    gettimeofday(&cycle_started_at, NULL);
    
    bzero(fds, sizeof(int) * MAX_PLUGINS);
    
    // ask every plugin to send their data
    for(i= 0; i< plugins_count; i++){
      strcpy(buffer, "request");
      if( send(plugins[i].host_pipe, buffer, strlen(buffer), 0) == -1 ){
        printf("send error when writing in pipe connected to plugin '%s'\n", plugins[i].name);
      }
      fds[i] = plugins[i].host_pipe;
      // printf("sent request to %d\n", i);
    }
    
    // printf("waiting answers...\n");
    // and now wait for each answer
    while(1){
      int left = 0;
      
      FD_ZERO(&rfds);
      
      for(i = 0; i< MAX_PLUGINS; i++){
        if( fds[i] != NOPLUGIN_VALUE ){
          FD_SET(fds[i], &rfds);
          left++;
          if( fds[i] > maxfd )
            maxfd = fds[i];
        }
      }
      
      // printf("left: %d %d\n", left, left <= 0);
      
      if( !running || (0 == left) )
        break;
      
      // substract 20ms to stay below the loop delay
      fill_timeout(&tv, cycle_started_at, interval - 20);
      // printf("before select\n");
      n = select(maxfd + 1, &rfds, NULL, NULL, &tv);
      // printf("after select: %d\n", n);
      if( n > 0 ){
        // find out which pipes have data
        for(i = 0; i< MAX_PLUGINS; i++){
          if( (fds[i] != NOPLUGIN_VALUE) && FD_ISSET(fds[i], &rfds) ){
            while (1){
              struct timeval answered_at;
              n = read(fds[i], buffer, sizeof(buffer));
              if( n == -1 ){
                if( errno != EAGAIN )
                  perror("read");
                break;
              }
              
              if( n == PIPE_BUFFER_SIZE ){
                printf("PIPE_BUFFER_SIZE is too small, increase it ! (value: %d)\n", PIPE_BUFFER_SIZE);
                continue;
              }
              
              gettimeofday(&answered_at, NULL);
              // printf("received answer from %s in %u ms\n", (const char *) plugins[i].mrb->ud,
              //     (uint32_t)((answered_at.tv_sec - cycle_started_at.tv_sec) * 1000 +
              //     (answered_at.tv_usec - cycle_started_at.tv_usec) / 1000)
              //   );
              
              buffer[n] = 0x00;
              
              ai = mrb_gc_arena_save(mrb);
              r_buffer = mrb_str_buf_new(mrb, n);
              mrb_str_buf_cat(mrb, r_buffer, buffer, n);
              
              // mrb_funcall(mrb, r_output, "tick", 0);
              mrb_funcall(mrb, r_output, "add", 1, r_buffer);
              check_exception("add", mrb);
              
              // pp(mrb, r_output, 0);
              
              mrb_gc_arena_restore(mrb, ai);
            }
            
            fds[i] = 0;
          }
        }
      }
      else if( n == 0 )  {
        printf("no responses received from %d plugins.\n", left);
        break;
        // timeout
      }
      else {
        perror("select");
      }
    }
    
    int idx = mrb_gc_arena_save(mrb);
    mrb_funcall(mrb, r_output, "flush", 0);
    check_exception("flush", mrb);
    mrb_gc_arena_restore(mrb, idx);
    
    // and now sleep until the next cycle
    gettimeofday(&cycle_completed_at, NULL);
    
  #ifdef _MEM_PROFILER
    if( checkpoint_set ){
      print_allocations();
    }
  #endif
    
    // force a gc run at the end of each cycle
    mrb_full_gc(mrb);
    // printf("[main] capa: %d / %d\n", mrb->arena_idx, mrb->arena_capa);
    // for(i= 0; i< plugins_count; i++){
    //   printf("[%s] capa: %d / %d\n", plugins[i].name, plugins[i].mrb->arena_idx, plugins[i].mrb->arena_capa);
    // }
  
  #ifdef _MEM_PROFILER
    checkpoint_set = 1;
    // and set starting point
    profiler_set_checkpoint();
  #endif

    
  #ifdef _MEM_PROFILER_RUBY
    // dump VMS state
    dump_state(mrb);
    for(i= 0; i< plugins_count; i++){
      dump_state(plugins[i].mrb);
    }
  #endif
    
    fflush(stdout);
    sleep_delay(&cycle_started_at, &cycle_completed_at, interval);
  }
  
  printf("Sending exit signal to all plugins...\n");
  strcpy(buffer, "exit");
  for(i= 0; i< plugins_count; i++){
    C_CHECK("send", send(plugins[i].host_pipe, buffer, strlen(buffer), 0) );
  }
  
  printf("Giving some time for threads to exit...\n\n");
  really_sleep(2000);
  
  
  for(i= 0; i< plugins_count; i++){
    int ret = pthread_kill(plugins[i].thread, 0);
    
    // if a success is returned then the thread is still alive
    // which means the thread did not acknoledged the exit message
    // kill it.
    if( ret == 0 ){
      printf("    - plugin \"%s\" failed to exit properly, killing it...\n", (const char *) plugins[i].mrb->ud);
      pthread_cancel(plugins[i].thread);
    }
    else {
      printf("    - plugin \"%s\" exited properly.\n", (const char *) plugins[i].mrb->allocf_ud);
    }
    
    if( pthread_join(plugins[i].thread, NULL) < 0){
      fprintf(stderr, "join failed\n");
    }
    
    mrb_close(plugins[i].mrb);
  }
  
  mrb_close(mrb);
  
  printf("Exited !\n");
  return 0;
}
Exemplo n.º 4
0
static void
fini_profiler(ClipMachine * ClipMachineMemory)
{
   Coll coll;

   int r, i;

   FILE *out;

   char path[256];

   struct timeval total;

   unsigned long ms, us;

   init_profiler(ClipMachineMemory);
   /* generate report here */

   init_Coll(&coll, 0, cmp_profile_out);

   snprintf(path, sizeof(path), "%s.pro", _clip_progname);
   out = fopen(path, "w");
   if (!out)
      out = stderr;

   for (r = HashTable_first(ClipMachineMemory->profiler); r; r = HashTable_next(ClipMachineMemory->profiler))
   {
      ProfileBucket *bp = (ProfileBucket *) HashTable_current(ClipMachineMemory->profiler);

      insert_Coll(&coll, bp);
   }

   total.tv_sec = 0;
   total.tv_usec = 0;
	for (i = 0; i < coll.count_of_Coll; i++)
   {
		ProfileBucket *bp = (ProfileBucket *) coll.items_of_Coll[i];

      struct timeval tv;

      if (!bp->procname_of_ProfileBucket[0] && !bp->filename_of_ProfileBucket[0])
	 continue;

      ms = bp->timeval_self_of_ProfileBucket.tv_sec * 1000 + bp->timeval_self_of_ProfileBucket.tv_usec / 1000;
      us = bp->timeval_self_of_ProfileBucket.tv_usec % 1000;

      tv = total;
      timer_add(&tv, &bp->timeval_self_of_ProfileBucket, &total);

      fprintf(out, "%18s %-13s %8ld calls %8lu.%03lu ms\n", bp->procname_of_ProfileBucket, bp->filename_of_ProfileBucket, bp->callno_of_ProfileBucket, ms, us);
   }

   ms = total.tv_sec * 1000 + total.tv_usec / 1000;
   us = total.tv_usec % 1000;
   fprintf(out, "---------------------------------\n");
   fprintf(out, "total registered %8lu.%03lu ms\n", ms, us);

   destroy_Coll(&coll);

   if (out != stderr)
      fclose(out);
}