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path: root/src/lib/ecore/ecore.c
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#ifdef HAVE_CONFIG_H
# include <config.h>
#endif

#include <locale.h>
#include <stdlib.h>
#include <stdio.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <unistd.h>
#include <fcntl.h>
#include <errno.h>

#ifdef HAVE_LANGINFO_H
# include <langinfo.h>
#endif

#if defined(HAVE_SYS_MMAN_H) || defined(HAVE_EVIL)
# include <sys/mman.h>
#endif

#ifdef HAVE_SYSTEMD
# include <systemd/sd-daemon.h>
#endif

#ifdef HAVE_EVIL
# include <Evil.h>
#endif
#include <Eina.h>

#include "Ecore.h"
#include "ecore_private.h"

#if defined(HAVE_MALLINFO) || defined(HAVE_MALLOC_INFO)
#include <malloc.h>
#endif

static Ecore_Version _version = { VMAJ, VMIN, VMIC, VREV };
EAPI Ecore_Version *ecore_version = &_version;

#if defined(HAVE_MALLINFO) || defined(HAVE_MALLOC_INFO)
#define KEEP_MAX(Global, Local) \
  if (Global < (Local))         \
    Global = Local;

static Eina_Bool _ecore_memory_statistic(void *data);
static int _ecore_memory_max_total = 0;
static int _ecore_memory_max_free = 0;
static pid_t _ecore_memory_pid = 0;
#ifdef HAVE_MALLOC_INFO
static FILE *_ecore_memory_statistic_file = NULL;
#endif
#endif

static Eina_Bool _no_system_modules = EINA_FALSE;

Eo *_ecore_parent = NULL;

static const char *_ecore_magic_string_get(Ecore_Magic m);
static int _ecore_init_count = 0;
static int _ecore_init_count_threshold = 0;
int _ecore_log_dom = -1;
int _ecore_fps_debug = 0;

typedef struct _Ecore_Safe_Call Ecore_Safe_Call;
struct _Ecore_Safe_Call
{
   union {
      Ecore_Cb      async;
      Ecore_Data_Cb sync;
   } cb;
   void          *data;

   Eina_Lock      m;
   Eina_Condition c;

   int            current_id;

   Eina_Bool      sync : 1;
   Eina_Bool      suspend : 1;
};

#ifdef HAVE_SYSTEMD
static Eina_Bool _systemd_watchdog_cb(void *data);
#endif

static void _ecore_main_loop_thread_safe_call(Ecore_Safe_Call *order);
static void _thread_safe_cleanup(void *data);
static void _thread_callback(void        *data,
                             void        *buffer,
                             unsigned int nbyte);
static Eina_List *_thread_cb = NULL;
static Ecore_Pipe *_thread_call = NULL;
static Eina_Lock _thread_safety;
static const int wakeup = 42;

static int _thread_loop = 0;
static Eina_Lock _thread_mutex;
static Eina_Condition _thread_cond;
static Eina_Lock _thread_feedback_mutex;
static Eina_Condition _thread_feedback_cond;

static Eina_Lock _thread_id_lock;
static int _thread_id = -1;
static int _thread_id_max = 0;
static int _thread_id_update = 0;

static Ecore_Power_State _ecore_power_state = ECORE_POWER_STATE_MAINS;
static Ecore_Memory_State _ecore_memory_state = ECORE_MEMORY_STATE_NORMAL;

#ifdef HAVE_SYSTEMD
static Ecore_Timer *_systemd_watchdog = NULL;
#endif

Eina_Lock _ecore_main_loop_lock;
int _ecore_main_lock_count;

/* OpenBSD does not define CODESET
 * FIXME ??
 */

#ifndef CODESET
# define CODESET "INVALID"
#endif

static Eina_Prefix *_ecore_pfx = NULL;
static Eina_Array *module_list = NULL;

static void
ecore_system_modules_load(void)
{
   char buf[PATH_MAX] = "";

#if defined(HAVE_GETUID) && defined(HAVE_GETEUID)
   if (getuid() == geteuid())
#endif
     {
        if (getenv("EFL_RUN_IN_TREE"))
          {
             struct stat st;
             snprintf(buf, sizeof(buf), "%s/src/modules/ecore/system",
                      PACKAGE_BUILD_DIR);
             if (stat(buf, &st) == 0)
               {
                  const char *built_modules[] = {
#ifdef HAVE_SYSTEMD
                     "systemd",
#endif
#ifdef HAVE_TIZEN_CONFIGURATION_MANAGER
                     "tizen",
#endif
                     NULL
                  };
                  const char **itr;
                  for (itr = built_modules; *itr != NULL; itr++)
                    {
                       snprintf(buf, sizeof(buf),
                                "%s/src/modules/ecore/system/%s/.libs",
                                PACKAGE_BUILD_DIR, *itr);
                       module_list = eina_module_list_get(module_list, buf,
                                                          EINA_FALSE, NULL, NULL);
                    }

                  if (module_list)
                    eina_module_list_load(module_list);
                  return;
               }
          }
     }

   snprintf(buf, sizeof(buf), "%s/ecore/system",
            eina_prefix_lib_get(_ecore_pfx));
   module_list = eina_module_arch_list_get(module_list, buf, MODULE_ARCH);

   // XXX: MODFIX: do not list ALL modules and load them ALL! this is
   // just polluting memory pages and I/O with modules and code that
   // is then never used. detetc the module we need to use them use
   // that. if anything load each module, have it do a detect and if
   // it fails UNLOAD and try the next one.
   eina_module_list_load(module_list);
}

static void
ecore_system_modules_unload(void)
{
   if (module_list)
     {
        eina_module_list_free(module_list);
        eina_array_free(module_list);
        module_list = NULL;
     }
}

EAPI void
ecore_app_no_system_modules(void)
{
   _no_system_modules = EINA_TRUE;
}

EAPI int
ecore_init(void)
{
   if (++_ecore_init_count != 1)
     return _ecore_init_count;

   setlocale(LC_CTYPE, "");
   /*
      if (strcmp(nl_langinfo(CODESET), "UTF-8"))
      {
        WRN("Not a utf8 locale!");
      }
    */
#ifdef HAVE_EVIL
   if (!evil_init())
     return --_ecore_init_count;
#endif
   if (!eina_init())
     goto shutdown_evil;
   _ecore_log_dom = eina_log_domain_register("ecore", ECORE_DEFAULT_LOG_COLOR);
   if (_ecore_log_dom < 0)
     {
        EINA_LOG_ERR("Ecore was unable to create a log domain.");
        goto shutdown_log_dom;
     }

   _ecore_pfx = eina_prefix_new(NULL, ecore_init,
                                "ECORE", "ecore", "checkme",
                                PACKAGE_BIN_DIR, PACKAGE_LIB_DIR,
                                PACKAGE_DATA_DIR, PACKAGE_DATA_DIR);
   if (!_ecore_pfx)
     {
        ERR("Could not get ecore installation prefix");
        goto shutdown_log_dom;
     }

   eo_init();

   if (getenv("ECORE_FPS_DEBUG")) _ecore_fps_debug = 1;
   if (_ecore_fps_debug) _ecore_fps_debug_init();
   if (!ecore_mempool_init()) goto shutdown_mempool;
   _ecore_main_loop_init();
   _ecore_signal_init();
#ifndef HAVE_EXOTIC
   _ecore_exe_init();
#endif
   _ecore_thread_init();
   _ecore_glib_init();
   _ecore_job_init();
   _ecore_time_init();

   eina_lock_new(&_thread_mutex);
   eina_condition_new(&_thread_cond, &_thread_mutex);
   eina_lock_new(&_thread_feedback_mutex);
   eina_condition_new(&_thread_feedback_cond, &_thread_feedback_mutex);
   _thread_call = _ecore_pipe_add(_thread_callback, NULL);
   eina_lock_new(&_thread_safety);

   eina_lock_new(&_thread_id_lock);

   eina_lock_new(&_ecore_main_loop_lock);

#if defined(GLIB_INTEGRATION_ALWAYS)
   if (_ecore_glib_always_integrate) ecore_main_loop_glib_integrate();
#endif
   eo_add(_ecore_parent, ECORE_PARENT_CLASS, NULL);

#if defined(HAVE_MALLINFO) || defined(HAVE_MALLOC_INFO)
   if (getenv("ECORE_MEM_STAT"))
     {
#ifdef HAVE_MALLOC_INFO
       char tmp[1024];

       snprintf(tmp, sizeof(tmp), "ecore_mem_stat.%i", getpid());
       _ecore_memory_statistic_file = fopen(tmp, "w");
#endif
        _ecore_memory_pid = getpid();
        ecore_animator_add(_ecore_memory_statistic, NULL);
        _ecore_memory_statistic(NULL);
     }
#endif

#ifdef HAVE_SYSTEMD
   if (getenv("WATCHDOG_USEC"))
     {
        double sec;

        sec = ((double) atoi(getenv("WATCHDOG_USEC"))) / 1000 / 1000;

        _systemd_watchdog = ecore_timer_add(sec / 2, _systemd_watchdog_cb, NULL);
        unsetenv("WATCHDOG_USEC");

        INF("Setup systemd watchdog to : %f", sec);

        _systemd_watchdog_cb(NULL);
     }
#endif

   if (!_no_system_modules)
     ecore_system_modules_load();

   _ecore_init_count_threshold = _ecore_init_count;

   eina_log_timing(_ecore_log_dom,
                   EINA_LOG_STATE_STOP,
                   EINA_LOG_STATE_INIT);

   return _ecore_init_count;

shutdown_mempool:
   ecore_mempool_shutdown();
   eo_shutdown();
shutdown_log_dom:
   eina_shutdown();
shutdown_evil:
#ifdef HAVE_EVIL
   evil_shutdown();
#endif

   return --_ecore_init_count;
}

EAPI int
ecore_shutdown(void)
{
     Ecore_Pipe *p;
   /*
    * take a lock here because _ecore_event_shutdown() does callbacks
    */
     _ecore_lock();
     if (_ecore_init_count <= 0)
       {
          ERR("Init count not greater than 0 in shutdown.");
          _ecore_unlock();
          return 0;
       }
     if (_ecore_init_count-- != _ecore_init_count_threshold)
       goto unlock;

     ecore_system_modules_unload();

     eina_log_timing(_ecore_log_dom,
                     EINA_LOG_STATE_START,
                     EINA_LOG_STATE_SHUTDOWN);

#ifdef HAVE_SYSTEMD
     if (_systemd_watchdog)
       {
          ecore_timer_del(_systemd_watchdog);
          _systemd_watchdog = NULL;
       }
#endif

     if (_ecore_fps_debug) _ecore_fps_debug_shutdown();
     _ecore_poller_shutdown();
     _ecore_animator_shutdown();
     _ecore_glib_shutdown();
     _ecore_job_shutdown();
     _ecore_thread_shutdown();

   /* this looks horrible - a hack for now, but something to note. as
    * we delete the _thread_call pipe a thread COULD be doing
    * ecore_pipe_write() or what not to it at the same time - we
    * must ensure all possible users of this _thread_call are finished
    * and exited before we delete it here */
   /*
    * ok - this causes other valgrind complaints regarding glib aquiring
    * locks internally. so fix bug a or bug b. let's leave the original
    * bug in then and leave this as a note for now
    */
   /*
    * It should be fine now as we do wait for thread to shutdown before
    * we try to destroy the pipe.
    */
     p = _thread_call;
     _thread_call = NULL;
     _ecore_pipe_wait(p, 1, 0.1);
     _ecore_pipe_del(p);
     eina_lock_free(&_thread_safety);
     eina_condition_free(&_thread_cond);
     eina_lock_free(&_thread_mutex);
     eina_condition_free(&_thread_feedback_cond);
     eina_lock_free(&_thread_feedback_mutex);
     eina_lock_free(&_thread_id_lock);


#ifndef HAVE_EXOTIC
     _ecore_exe_shutdown();
#endif
     _ecore_idle_enterer_shutdown();
     _ecore_idle_exiter_shutdown();
     _ecore_idler_shutdown();
     _ecore_timer_shutdown();
     _ecore_event_shutdown();
     _ecore_main_shutdown();
     _ecore_signal_shutdown();
     _ecore_main_loop_shutdown();

#if defined(HAVE_MALLINFO) || defined(HAVE_MALLOC_INFO)
     if (getenv("ECORE_MEM_STAT"))
       {
          _ecore_memory_statistic(NULL);

          ERR("[%i] Memory MAX total: %i, free: %i",
              _ecore_memory_pid,
              _ecore_memory_max_total,
              _ecore_memory_max_free);


#ifdef HAVE_MALLOC_INFO
          fclose(_ecore_memory_statistic_file);
          _ecore_memory_statistic_file = NULL;
#endif
       }
#endif
     ecore_mempool_shutdown();
     eina_log_domain_unregister(_ecore_log_dom);
     _ecore_log_dom = -1;

     eina_prefix_free(_ecore_pfx);
     _ecore_pfx = NULL;

     eina_shutdown();
#ifdef HAVE_EVIL
     evil_shutdown();
#endif

     eo_unref(_ecore_parent);
     eo_shutdown();
unlock:
     _ecore_unlock();

     return _ecore_init_count;
}

struct _Ecore_Fork_Cb
{
   Ecore_Cb func;
   void *data;
   Eina_Bool delete_me : 1;
};

typedef struct _Ecore_Fork_Cb Ecore_Fork_Cb;

static int fork_cbs_walking = 0;
static Eina_List *fork_cbs = NULL;

EAPI Eina_Bool
ecore_fork_reset_callback_add(Ecore_Cb func, const void *data)
{
   Ecore_Fork_Cb *fcb;

   if (!func) return EINA_FALSE;
   fcb = calloc(1, sizeof(Ecore_Fork_Cb));
   if (!fcb) return EINA_FALSE;
   fcb->func = func;
   fcb->data = (void *)data;
   fork_cbs = eina_list_append(fork_cbs, fcb);
   return EINA_TRUE;
}

EAPI Eina_Bool
ecore_fork_reset_callback_del(Ecore_Cb func, const void *data)
{
   Eina_List *l;
   Ecore_Fork_Cb *fcb;

   EINA_LIST_FOREACH(fork_cbs, l, fcb)
     {
        if ((fcb->func == func) && (fcb->data == data))
          {
             if (!fork_cbs_walking)
               {
                  fork_cbs = eina_list_remove_list(fork_cbs, l);
                  free(fcb);
               }
             else
               fcb->delete_me = EINA_TRUE;
             return EINA_TRUE;
          }
     }
   return EINA_FALSE;
}

EAPI void
ecore_fork_reset(void)
{
   Eina_List *l, *ln;
   Ecore_Fork_Cb *fcb;
   
   eina_main_loop_define();
   eina_lock_take(&_thread_safety);

   ecore_pipe_del(_thread_call);
   _thread_call = ecore_pipe_add(_thread_callback, NULL);
   /* If there was something in the pipe, trigger a wakeup again */
   if (_thread_cb) ecore_pipe_write(_thread_call, &wakeup, sizeof (int));

   eina_lock_release(&_thread_safety);

   // should this be done withing the eina lock stuff?
   
   fork_cbs_walking++;
   EINA_LIST_FOREACH(fork_cbs, l, fcb)
     {
        fcb->func(fcb->data);
     }
   fork_cbs_walking--;
   
   EINA_LIST_FOREACH_SAFE(fork_cbs, l, ln, fcb)
     {
        if (fcb->delete_me)
          {
             fork_cbs = eina_list_remove_list(fork_cbs, l);
             free(fcb);
          }
     }

#ifdef HAVE_SYSTEMD
   unsetenv("NOTIFY_SOCKET");
#endif
}

EAPI void
ecore_main_loop_thread_safe_call_async(Ecore_Cb callback,
                                       void    *data)
{
   Ecore_Safe_Call *order;

   if (!callback) return;

   if (eina_main_loop_is())
     {
        callback(data);
        return;
     }

   order = malloc(sizeof (Ecore_Safe_Call));
   if (!order) return;

   order->cb.async = callback;
   order->data = data;
   order->sync = EINA_FALSE;
   order->suspend = EINA_FALSE;

   _ecore_main_loop_thread_safe_call(order);
}

EAPI void *
ecore_main_loop_thread_safe_call_sync(Ecore_Data_Cb callback,
                                      void         *data)
{
   Ecore_Safe_Call *order;
   void *ret;

   if (!callback) return NULL;

   if (eina_main_loop_is())
     {
        return callback(data);
     }

   order = malloc(sizeof (Ecore_Safe_Call));
   if (!order) return NULL;

   order->cb.sync = callback;
   order->data = data;
   eina_lock_new(&order->m);
   eina_condition_new(&order->c, &order->m);
   order->sync = EINA_TRUE;
   order->suspend = EINA_FALSE;

   eina_lock_take(&order->m);
   _ecore_main_loop_thread_safe_call(order);
   eina_condition_wait(&order->c);
   eina_lock_release(&order->m);

   ret = order->data;

   order->sync = EINA_FALSE;
   order->cb.async = _thread_safe_cleanup;
   order->data = order;

   _ecore_main_loop_thread_safe_call(order);

   return ret;
}

EAPI void
ecore_main_loop_thread_safe_call_wait(double wait)
{
   ecore_pipe_wait(_thread_call, 1, wait);
}

EAPI int
ecore_thread_main_loop_begin(void)
{
   Ecore_Safe_Call *order;

   if (eina_main_loop_is())
     {
        return ++_thread_loop;
     }

   order = malloc(sizeof (Ecore_Safe_Call));
   if (!order) return -1;

   eina_lock_take(&_thread_id_lock);
   order->current_id = ++_thread_id_max;
   if (order->current_id < 0)
     {
        _thread_id_max = 0;
        order->current_id = ++_thread_id_max;
     }
   eina_lock_release(&_thread_id_lock);

   eina_lock_new(&order->m);
   eina_condition_new(&order->c, &order->m);
   order->suspend = EINA_TRUE;

   _ecore_main_loop_thread_safe_call(order);

   eina_lock_take(&order->m);
   while (order->current_id != _thread_id)
     eina_condition_wait(&order->c);
   eina_lock_release(&order->m);

   eina_main_loop_define();

   _thread_loop = 1;

   return _thread_loop;
}

EAPI int
ecore_thread_main_loop_end(void)
{
   int current_id;

   if (_thread_loop == 0)
     {
        ERR("the main loop is not locked ! No matching call to ecore_thread_main_loop_begin().");
        return -1;
     }

   /* until we unlock the main loop, this thread has the main loop id */
   if (!eina_main_loop_is())
     {
        ERR("Not in a locked thread !");
        return -1;
     }

   _thread_loop--;
   if (_thread_loop > 0)
     return _thread_loop;

   current_id = _thread_id;

   eina_lock_take(&_thread_mutex);
   _thread_id_update = _thread_id;
   eina_condition_broadcast(&_thread_cond);
   eina_lock_release(&_thread_mutex);

   eina_lock_take(&_thread_feedback_mutex);
   while (current_id == _thread_id && _thread_id != -1)
     eina_condition_wait(&_thread_feedback_cond);
   eina_lock_release(&_thread_feedback_mutex);

   return 0;
}

EAPI void
ecore_print_warning(const char *function EINA_UNUSED,
                    const char *sparam EINA_UNUSED)
{
   WRN("***** Developer Warning ***** :\n"
       "\tThis program is calling:\n\n"
       "\t%s();\n\n"
       "\tWith the parameter:\n\n"
       "\t%s\n\n"
       "\tbeing NULL. Please fix your program.", function, sparam);
   if (getenv("ECORE_ERROR_ABORT")) abort();
}

EAPI void
_ecore_magic_fail(const void *d,
                  Ecore_Magic m,
                  Ecore_Magic req_m,
                  const char *fname EINA_UNUSED)
{
   ERR("\n"
       "*** ECORE ERROR: Ecore Magic Check Failed!!!\n"
       "*** IN FUNCTION: %s()", fname);
   if (!d)
     ERR("  Input handle pointer is NULL!");
   else if (m == ECORE_MAGIC_NONE)
     ERR("  Input handle has already been freed!");
   else if (m != req_m)
     ERR("  Input handle is wrong type\n"
         "    Expected: %08x - %s\n"
         "    Supplied: %08x - %s",
         (unsigned int)req_m, _ecore_magic_string_get(req_m),
         (unsigned int)m, _ecore_magic_string_get(m));
   ERR("*** NAUGHTY PROGRAMMER!!!\n"
       "*** SPANK SPANK SPANK!!!\n"
       "*** Now go fix your code. Tut tut tut!");
   if (getenv("ECORE_ERROR_ABORT")) abort();
}

static const char *
_ecore_magic_string_get(Ecore_Magic m)
{
   switch (m)
     {
      case ECORE_MAGIC_NONE:
        return "None (Freed Object)";
        break;

      case ECORE_MAGIC_EXE:
        return "Ecore_Exe (Executable)";
        break;

      case ECORE_MAGIC_TIMER:
        return "Ecore_Timer (Timer)";
        break;

      case ECORE_MAGIC_IDLER:
        return "Ecore_Idler (Idler)";
        break;

      case ECORE_MAGIC_IDLE_ENTERER:
        return "Ecore_Idle_Enterer (Idler Enterer)";
        break;

      case ECORE_MAGIC_IDLE_EXITER:
        return "Ecore_Idle_Exiter (Idler Exiter)";
        break;

      case ECORE_MAGIC_FD_HANDLER:
        return "Ecore_Fd_Handler (Fd Handler)";
        break;

      case ECORE_MAGIC_WIN32_HANDLER:
        return "Ecore_Win32_Handler (Win32 Handler)";
        break;

      case ECORE_MAGIC_EVENT_HANDLER:
        return "Ecore_Event_Handler (Event Handler)";
        break;

      case ECORE_MAGIC_EVENT:
        return "Ecore_Event (Event)";
        break;

      default:
        return "<UNKNOWN>";
     }
}

/* fps debug calls - for debugging how much time your app actually spends */
/* "running" (and the inverse being time spent running)... this does not */
/* account for other apps and multitasking... */

static int _ecore_fps_debug_init_count = 0;
static int _ecore_fps_debug_fd = -1;
unsigned int *_ecore_fps_runtime_mmap = NULL;

void
_ecore_fps_debug_init(void)
{
   char buf[PATH_MAX];
   const char *tmp;
   int pid;

   _ecore_fps_debug_init_count++;
   if (_ecore_fps_debug_init_count > 1) return;

   tmp = eina_environment_tmp_get();
   pid = (int)getpid();
   snprintf(buf, sizeof(buf), "%s/.ecore_fps_debug-%i", tmp, pid);
   _ecore_fps_debug_fd = open(buf, O_CREAT | O_TRUNC | O_RDWR, 0644);
   if (_ecore_fps_debug_fd < 0)
     {
        unlink(buf);
        _ecore_fps_debug_fd = open(buf, O_CREAT | O_TRUNC | O_RDWR, 0644);
     }
   if (_ecore_fps_debug_fd >= 0)
     {
        unsigned int zero = 0;
        char *buf2 = (char *)&zero;
        ssize_t todo = sizeof(unsigned int);

        while (todo > 0)
          {
             ssize_t r = write(_ecore_fps_debug_fd, buf2, todo);
             if (r > 0)
               {
                  todo -= r;
                  buf2 += r;
               }
             else if ((r < 0) && (errno == EINTR))
               continue;
             else
               {
                  ERR("could not write to file '%s' fd %d: %s",
                      tmp, _ecore_fps_debug_fd, strerror(errno));
                  close(_ecore_fps_debug_fd);
                  _ecore_fps_debug_fd = -1;
                  return;
               }
          }
        _ecore_fps_runtime_mmap = mmap(NULL, sizeof(unsigned int),
                                       PROT_READ | PROT_WRITE,
                                       MAP_SHARED,
                                       _ecore_fps_debug_fd, 0);
        if (_ecore_fps_runtime_mmap == MAP_FAILED)
          _ecore_fps_runtime_mmap = NULL;
     }
}

void
_ecore_fps_debug_shutdown(void)
{
   _ecore_fps_debug_init_count--;
   if (_ecore_fps_debug_init_count > 0) return;
   if (_ecore_fps_debug_fd >= 0)
     {
        char buf[4096];
        int pid;

        pid = (int)getpid();
        snprintf(buf, sizeof(buf), "%s/.ecore_fps_debug-%i",
                 eina_environment_tmp_get(), pid);
        unlink(buf);
        if (_ecore_fps_runtime_mmap)
          {
             munmap(_ecore_fps_runtime_mmap, sizeof(int));
             _ecore_fps_runtime_mmap = NULL;
          }
        close(_ecore_fps_debug_fd);
        _ecore_fps_debug_fd = -1;
     }
}

void
_ecore_fps_debug_runtime_add(double t)
{
   if ((_ecore_fps_debug_fd >= 0) &&
       (_ecore_fps_runtime_mmap))
     {
        unsigned int tm;

        tm = (unsigned int)(t * 1000000.0);
        /* i know its not 100% theoretically guaranteed, but i'd say a write */
        /* of an int could be considered atomic for all practical purposes */
        /* oh and since this is cumulative, 1 second = 1,000,000 ticks, so */
        /* this can run for about 4294 seconds becore looping. if you are */
        /* doing performance testing in one run for over an hour... well */
        /* time to restart or handle a loop condition :) */
        *(_ecore_fps_runtime_mmap) += tm;
     }
}

#ifdef HAVE_SYSTEMD
static Eina_Bool
_systemd_watchdog_cb(EINA_UNUSED void *data)
{
   sd_notify(0, "WATCHDOG=1");
   return ECORE_CALLBACK_RENEW;
}
#endif

#if defined(HAVE_MALLINFO) || defined(HAVE_MALLOC_INFO)
static Eina_Bool
_ecore_memory_statistic(EINA_UNUSED void *data)
{
#ifdef HAVE_MALLOC_INFO
   static int frame = 0;
#endif
#ifdef HAVE_MALLINFO
   struct mallinfo mi;
   static int uordblks = 0;
   static int fordblks = 0;
   Eina_Bool changed = EINA_FALSE;

   mi = mallinfo();

#define HAS_CHANGED(Global, Local) \
  if (Global != Local)             \
    {                              \
       Global = Local;             \
       changed = EINA_TRUE;        \
    }

   HAS_CHANGED(uordblks, mi.uordblks);
   HAS_CHANGED(fordblks, mi.fordblks);

   if (changed)
     ERR("[%i] Memory total: %i, free: %i",
         _ecore_memory_pid,
         mi.uordblks,
         mi.fordblks);

   KEEP_MAX(_ecore_memory_max_total, mi.uordblks);
   KEEP_MAX(_ecore_memory_max_free, mi.fordblks);
#endif
#ifdef HAVE_MALLOC_INFO
   if (frame) fputs("\n", _ecore_memory_statistic_file);
   fprintf(_ecore_memory_statistic_file, "=== Frame %i ===\n\n", frame++);
   malloc_info(0, _ecore_memory_statistic_file);
#endif

   return ECORE_CALLBACK_RENEW;
}

#endif

static void
_ecore_main_loop_thread_safe_call(Ecore_Safe_Call *order)
{
   Eina_Bool count;

   eina_lock_take(&_thread_safety);

   count = _thread_cb ? 0 : 1;
   _thread_cb = eina_list_append(_thread_cb, order);
   if (count) ecore_pipe_write(_thread_call, &wakeup, sizeof (int));

   eina_lock_release(&_thread_safety);
}

static void
_thread_safe_cleanup(void *data)
{
   Ecore_Safe_Call *call = data;

   eina_condition_free(&call->c);
   eina_lock_free(&call->m);
}

void
_ecore_main_call_flush(void)
{
   Ecore_Safe_Call *call;
   Eina_List *callback;

   eina_lock_take(&_thread_safety);
   callback = _thread_cb;
   _thread_cb = NULL;
   eina_lock_release(&_thread_safety);

   EINA_LIST_FREE(callback, call)
     {
        if (call->suspend)
          {
             eina_lock_take(&_thread_mutex);

             eina_lock_take(&call->m);
             _thread_id = call->current_id;
             eina_condition_broadcast(&call->c);
             eina_lock_release(&call->m);

             while (_thread_id_update != _thread_id)
               eina_condition_wait(&_thread_cond);
             eina_lock_release(&_thread_mutex);

             eina_main_loop_define();

             eina_lock_take(&_thread_feedback_mutex);

             _thread_id = -1;

             eina_condition_broadcast(&_thread_feedback_cond);
             eina_lock_release(&_thread_feedback_mutex);

             _thread_safe_cleanup(call);
             free(call);
          }
        else if (call->sync)
          {
             call->data = call->cb.sync(call->data);
             eina_lock_take(&call->m);
             eina_condition_broadcast(&call->c);
             eina_lock_release(&call->m);
          }
        else
          {
             call->cb.async(call->data);
             free(call);
          }
     }
}

static void
_thread_callback(void        *data EINA_UNUSED,
                 void        *buffer EINA_UNUSED,
                 unsigned int nbyte EINA_UNUSED)
{
   _ecore_main_call_flush();
}

EAPI Ecore_Power_State
ecore_power_state_get(void)
{
   return _ecore_power_state;
}

EAPI void
ecore_power_state_set(Ecore_Power_State state)
{
   if (_ecore_power_state == state) return;
   _ecore_power_state = state;
   ecore_event_add(ECORE_EVENT_POWER_STATE, NULL, NULL, NULL);
}

EAPI Ecore_Memory_State
ecore_memory_state_get(void)
{
   return _ecore_memory_state;
}

EAPI void
ecore_memory_state_set(Ecore_Memory_State state)
{
   if (_ecore_memory_state == state) return;
   _ecore_memory_state = state;
   ecore_event_add(ECORE_EVENT_MEMORY_STATE, NULL, NULL, NULL);
}

#include "ecore_parent.eo.c"