tests/slice-concurrent.c

   1 /* test for gslice cross thread allocation/free
   2  * Copyright (C) 2006 Stefan Westerfeld
   3  * Copyright (C) 2007 Tim Janik
   4  *
   5  * This library is free software; you can redistribute it and/or
   6  * modify it under the terms of the GNU Lesser General Public
   7  * License as published by the Free Software Foundation; either
   8  * version 2.1 of the License, or (at your option) any later version.
   9  *
  10  * This library is distributed in the hope that it will be useful,
  11  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  12  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  13  * Lesser General Public License for more details.
  14  *
  15  * You should have received a copy of the GNU Lesser General Public
  16  * License along with this library; if not, see <http://www.gnu.org/licenses/>.
  17  */
  18 #include <glib.h>
  19 #include <stdlib.h>
  20 #ifdef G_OS_UNIX
  21 #include <unistd.h>
  22 #endif
  23
  24 #define N_THREADS       8
  25 #define N_ALLOCS        50000
  26 #define MAX_BLOCK_SIZE  64
  27
  28 struct ThreadData
  29 {
  30   int      thread_id;
  31   GThread* gthread;
  32
  33   GMutex   to_free_mutex;
  34   void*    to_free [N_THREADS * N_ALLOCS];
  35   int      bytes_to_free [N_THREADS * N_ALLOCS];
  36   int      n_to_free;
  37   int      n_freed;
  38 } tdata[N_THREADS];
  39
  40 static void *
  41 thread_func (void *arg)
  42 {
  43   struct ThreadData *td = arg;
  44   int i;
  45 /*   g_print ("Thread %d starting\n", td->thread_id); */
  46   for (i = 0; i < N_ALLOCS; i++)
  47     {
  48       int bytes;
  49       char *mem;
  50       int f;
  51       int t;
  52
  53       if (rand() % (N_ALLOCS / 20) == 0)
  54         g_print ("%c", 'a' - 1 + td->thread_id);
  55
  56       /* allocate block of random size and randomly fill */
  57       bytes = rand() % MAX_BLOCK_SIZE + 1;
  58       mem = g_slice_alloc (bytes);
  59
  60       for (f = 0; f < bytes; f++)
  61         mem[f] = rand();
  62
  63       /* associate block with random thread */
  64       t = rand() % N_THREADS;
  65       g_mutex_lock (&tdata[t].to_free_mutex);
  66       tdata[t].to_free[tdata[t].n_to_free] = mem;
  67       tdata[t].bytes_to_free[tdata[t].n_to_free] = bytes;
  68       tdata[t].n_to_free++;
  69       g_mutex_unlock (&tdata[t].to_free_mutex);
  70
  71       /* shuffle thread execution order every once in a while */
  72       if (rand() % 97 == 0)
  73         {
  74           if (rand() % 2)
  75             g_thread_yield();   /* concurrent shuffling for single core */
  76           else
  77             g_usleep (1000);    /* concurrent shuffling for multi core */
  78         }
  79
  80       /* free a block associated with this thread */
  81       g_mutex_lock (&td->to_free_mutex);
  82       if (td->n_to_free > 0)
  83         {
  84           td->n_to_free--;
  85           g_slice_free1 (td->bytes_to_free[td->n_to_free], td->to_free[td->n_to_free]);
  86           td->n_freed++;
  87         }
  88       g_mutex_unlock (&td->to_free_mutex);
  89     }
  90
  91   return NULL;
  92 }
  93
  94 int
  95 main (void)
  96 {
  97   int t;
  98
  99   for (t = 0; t < N_THREADS; t++)
 100     {
 101       tdata[t].thread_id = t + 1;
 102       tdata[t].n_to_free = 0;
 103       tdata[t].n_freed = 0;
 104     }
 105   g_print ("Starting %d threads for concurrent GSlice usage...\n", N_THREADS);
 106   for (t = 0; t < N_THREADS; t++)
 107     {
 108       tdata[t].gthread   = g_thread_create (thread_func, &tdata[t], TRUE, NULL);
 109       g_assert (tdata[t].gthread != NULL);
 110     }
 111   for (t = 0; t < N_THREADS; t++)
 112     {
 113       g_thread_join (tdata[t].gthread);
 114     }
 115   g_print ("\n");
 116   for (t = 0; t < N_THREADS; t++)
 117     {
 118       g_print ("Thread %d: %d blocks freed, %d blocks not freed\n",
 119                     tdata[t].thread_id, tdata[t].n_freed, tdata[t].n_to_free);
 120     }
 121   return 0;
 122 }