示例#1
0
static enum piglit_result
test(void)
{
	static const GLfloat dest_color[4] = { 0.75, 0.25, 0.25, 0.5 };
	static const GLfloat test_color[4] = { 1.0, 0.25, 0.75, 0.25 };
	static const GLfloat test_color1[4] = { 0.5, 0.5, 0.5, 0.5 };
	GLfloat expected[4];
	GLuint prog;
	GLuint vs;
	GLuint fs;
	int i, j, k, o;

	if (max_ds_buffers > 1) {
		printf("Test only supports 1 dual source blending color buffer\n");
		max_ds_buffers = 1;
	}

	prog = glCreateProgram();
	vs = piglit_compile_shader_text(GL_VERTEX_SHADER, vs_text);

	fs = piglit_compile_shader_text(GL_FRAGMENT_SHADER, fs_text);
	glAttachShader(prog, vs);
	glAttachShader(prog, fs);
	piglit_check_gl_error(GL_NO_ERROR);

	glBindFragDataLocationIndexed(prog, 0, 0, "col0");
	glBindFragDataLocationIndexed(prog, 0, 1, "col1");

	create_fbo();

	glDrawBuffer(GL_COLOR_ATTACHMENT0_EXT);

	glLinkProgram(prog);
	glUseProgram(prog);

	uniform_src0 = glGetUniformLocation(prog, "src0");
	uniform_src1 = glGetUniformLocation(prog, "src1");

	/* Setup blend modes and compute expected result color.
	 * We only test two simple blending modes.  A more elaborate
	 * test would exercise a much wider variety of modes.
	 */

	for (o = 0; o < ARRAY_SIZE(operators); o++) {
		for (i = 0; i < ARRAY_SIZE(srcFactors); i++) {
			for (j = 0; j < ARRAY_SIZE(dstFactors); j++) {
				blend_expected(expected, test_color, test_color1,
					       dest_color, srcFactors[i],
					       dstFactors[j], operators[o]);

				blend(test_color, test_color1, dest_color,
				      srcFactors[i], dstFactors[j],
				      operators[o]);
				for (k = 0; k < max_ds_buffers; k++) {
					glReadBuffer(GL_COLOR_ATTACHMENT0_EXT + k);
					check_error(__LINE__);

					if (!piglit_probe_pixel_rgba(5, 5, expected)) {
						printf("For src/dst %d %d %d\n", i, j, o);
						return PIGLIT_FAIL;
					}
				}
			}
		}
	}
	return PIGLIT_PASS;
}
示例#2
0
/* Monitor a pipe for input */
void read_pipe_poll (HANDLE hStop, void *_data)
{
  DWORD         res;
  DWORD         event;
  DWORD         n;
  LPSELECTQUERY iterQuery;
  LPSELECTDATA  lpSelectData;
  DWORD         i;
  DWORD         wait;

  /* Poll pipe */
  event = 0;
  n = 0;
  lpSelectData = (LPSELECTDATA)_data;
  wait = 1;

  DEBUG_PRINT("Checking data pipe");
  while (lpSelectData->EState == SELECT_STATE_NONE)
  {
    for (i = 0; i < lpSelectData->nQueriesCount; i++)
    {
      iterQuery = &(lpSelectData->aQueries[i]);
      res = PeekNamedPipe(
          iterQuery->hFileDescr,
          NULL,
          0,
          NULL,
          &n,
          NULL);
      if (check_error(lpSelectData,
            (res == 0) &&
            (GetLastError() != ERROR_BROKEN_PIPE)))
      {
        break;
      };

      if ((n > 0) || (res == 0))
      {
        lpSelectData->EState = SELECT_STATE_SIGNALED;
        select_data_result_add(lpSelectData, iterQuery->EMode, iterQuery->lpOrigIdx);
      };
    };

    /* Alas, nothing except polling seems to work for pipes.
       Check the state & stop_worker_event every 10 ms
     */
    if (lpSelectData->EState == SELECT_STATE_NONE)
    {
      event = WaitForSingleObject(hStop, wait);

      /* Fast start: begin to wait 1, 2, 4, 8 and then 10 ms.
       * If we are working with the output of a program there is
       * a chance that one of the 4 first calls succeed.
       */
      wait = 2 * wait;
      if (wait > 10)
      {
        wait = 10;
      };
      if (event == WAIT_OBJECT_0 || check_error(lpSelectData, event == WAIT_FAILED))
      {
        break;
      }
    }
  }
  DEBUG_PRINT("Finish checking data on pipe");
}
示例#3
0
void YCbCrInput::set_gl_state(GLuint glsl_program_num, const string& prefix, unsigned *sampler_num)
{
	for (unsigned channel = 0; channel < num_channels; ++channel) {
		glActiveTexture(GL_TEXTURE0 + *sampler_num + channel);
		check_error();

		if (texture_num[channel] == 0) {
			GLenum format, internal_format;
			if (channel == 1 && ycbcr_input_splitting == YCBCR_INPUT_SPLIT_Y_AND_CBCR) {
				format = GL_RG;
				internal_format = GL_RG8;
			} else {
				format = GL_RED;
				internal_format = GL_R8;
			}

			// (Re-)upload the texture.
			texture_num[channel] = resource_pool->create_2d_texture(internal_format, widths[channel], heights[channel]);
			glBindTexture(GL_TEXTURE_2D, texture_num[channel]);
			check_error();
			glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR);
			check_error();
			glBindBuffer(GL_PIXEL_UNPACK_BUFFER_ARB, pbos[channel]);
			check_error();
			glPixelStorei(GL_UNPACK_ALIGNMENT, 1);
			check_error();
			glPixelStorei(GL_UNPACK_ROW_LENGTH, pitch[channel]);
			check_error();
			glTexSubImage2D(GL_TEXTURE_2D, 0, 0, 0, widths[channel], heights[channel], format, GL_UNSIGNED_BYTE, pixel_data[channel]);
			check_error();
			glPixelStorei(GL_UNPACK_ROW_LENGTH, 0);
			check_error();
			glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE);
			check_error();
			glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE);
			check_error();
			owns_texture[channel] = true;
		} else {
			glBindTexture(GL_TEXTURE_2D, texture_num[channel]);
			check_error();
		}
	}

	glBindBuffer(GL_PIXEL_UNPACK_BUFFER_ARB, 0);
	check_error();

	// Bind samplers.
	uniform_tex_y = *sampler_num + 0;
	uniform_tex_cb = *sampler_num + 1;
	if (ycbcr_input_splitting == YCBCR_INPUT_PLANAR) {
		uniform_tex_cr = *sampler_num + 2;
	}

	*sampler_num += num_channels;
}
示例#4
0
// Initialize the connection to KWallet
static gboolean init_kwallet(backend_kwallet_context_t *context)
{
  GError* error = NULL;

  // Make a proxy to KWallet.
  if(context->proxy)
    g_object_unref(context->proxy);

  context->proxy = g_dbus_proxy_new_sync(context->connection,
                                         G_DBUS_PROXY_FLAGS_NONE,
                                         NULL,
                                         kwallet_service_name,
                                         kwallet_path,
                                         kwallet_interface,
                                         NULL,
                                         &error);

  if(check_error(error))
  {
    context->proxy = NULL;
    return FALSE;
  }

  // Check KWallet is enabled.
  GVariant *ret = g_dbus_proxy_call_sync(context->proxy,
                                         "isEnabled",
                                         NULL,
                                         G_DBUS_CALL_FLAGS_NONE,
                                         -1,
                                         NULL,
                                         &error);

  if(!ret)
    return FALSE;
  GVariant *child = g_variant_get_child_value(ret, 0);
  gboolean is_enabled = g_variant_get_boolean(child);
  g_variant_unref(child);
  g_variant_unref(ret);

  if(check_error(error) || !is_enabled)
    return FALSE;

  // Get the wallet name.
  if(context->wallet_name)
    g_free(context->wallet_name);

  ret = g_dbus_proxy_call_sync(context->proxy,
                               "networkWallet",
                               NULL,
                               G_DBUS_CALL_FLAGS_NONE,
                               -1,
                               NULL,
                               &error);

  child = g_variant_get_child_value(ret, 0);
  context->wallet_name = g_variant_dup_string(child, NULL);
  g_variant_unref(child);
  g_variant_unref(ret);

  if(check_error(error) || !context->wallet_name)
  {
    context->wallet_name = NULL; // yes, it's stupid. go figure.
    return FALSE;
  }

  return TRUE;
}
示例#5
0
// Store (key,value) pairs from a GHashTable in the kwallet.
// Every 'slot' has to take care of it's own data.
gboolean dt_pwstorage_kwallet_set(const backend_kwallet_context_t *context, const gchar* slot, GHashTable* table)
{
  printf("slot %s\n", slot);

  GArray* byte_array = g_array_new(FALSE, FALSE, sizeof(gchar));

  GHashTableIter iter;
  g_hash_table_iter_init (&iter, table);
  gpointer key, value;

  guint size = g_hash_table_size(table);

  size = GINT_TO_BE(size);

  g_array_append_vals(byte_array, &size, sizeof(guint)/sizeof(gchar));

  while (g_hash_table_iter_next (&iter, &key, &value))
  {
    dt_print(DT_DEBUG_PWSTORAGE,"[pwstorage_kwallet_set] storing (%s, %s)\n",(gchar*)key, (gchar*)value);
    gsize length;
    gchar* new_key = char2qstring(key, &length);
    if(new_key == NULL)
    {
      g_free(g_array_free(byte_array, FALSE));
      return FALSE;
    }
    g_array_append_vals(byte_array, new_key, length);
    g_free(new_key);

    gchar* new_value = char2qstring(value, &length);
    if(new_value == NULL)
    {
      g_free(g_array_free(byte_array, FALSE));
      return FALSE;
    }
    g_array_append_vals(byte_array, new_value, length);
    g_free(new_value);
  }

  int wallet_handle = get_wallet_handle(context);
  GError* error = NULL;

  /* signature:
   *
   * in  i handle,
   * in  s folder,
   * in  s key,
   * in  ay value,
   * in  s appid,
   *
   * out i arg_0
   */
  GVariant *ret = g_dbus_proxy_call_sync(context->proxy,
                                         "writeMap",
                                         g_variant_new("(iss@ays)", wallet_handle, kwallet_folder, slot,
                                             g_variant_new_from_data(G_VARIANT_TYPE_BYTESTRING,
                                                 byte_array->data,
                                                 byte_array->len,
                                                 TRUE,
                                                 g_free,
                                                 byte_array->data),
                                             app_id),
                                         G_DBUS_CALL_FLAGS_NONE,
                                         -1,
                                         NULL,
                                         &error);

  g_array_free(byte_array, FALSE);

  if(check_error(error))
  {
    g_variant_unref(ret);
    return FALSE;
  }

  GVariant *child = g_variant_get_child_value(ret, 0);
  int return_code = g_variant_get_int32(child);
  g_variant_unref(child);
  g_variant_unref(ret);

  if (return_code != 0)
    dt_print(DT_DEBUG_PWSTORAGE,"[pwstorage_kwallet_set] Warning: bad return code %d from kwallet\n", return_code);

  return return_code == 0;
}
示例#6
0
文件: cuda.c 项目: KaiqiZhang/darknet
void cuda_free(float *x_gpu)
{
    cudaError_t status = cudaFree(x_gpu);
    check_error(status);
}
示例#7
0
文件: cuda.c 项目: KaiqiZhang/darknet
void cuda_pull_array(float *x_gpu, float *x, size_t n)
{
    size_t size = sizeof(float)*n;
    cudaError_t status = cudaMemcpy(x, x_gpu, size, cudaMemcpyDeviceToHost);
    check_error(status);
}
示例#8
0
文件: JXM002_.C 项目: ataylorkt/noxDB
/* ------------------------------------------------------------- */
PJXNODE jx_sqlFormatRow  (PJXSQL pSQL)
{
   int i;
   PJXNODE pRow;

   if ( pSQL->rc == SQL_SUCCESS) {

      pRow = jx_NewObject(NULL);

      for (i = 0; i < pSQL->nresultcols; i++) {

         PJXCOL pCol = &pSQL->cols[i];

         if (pCol->outlen != SQL_NULL_DATA) {

            switch( pCol->coltype) {
               case SQL_WCHAR:
               case SQL_WVARCHAR:
               case SQL_GRAPHIC:
               case SQL_VARGRAPHIC: {
                  UCHAR temp [32768];
                  PUCHAR pInBuf = pCol->data;
                  size_t OutLen;
                  size_t inbytesleft;

                  for  (inbytesleft = pCol->collen; inbytesleft > 0 ; inbytesleft -= 2) {
                     if ( * (PSHORT) (pInBuf + inbytesleft - 2) > 0x0020) break;
                  }
                  OutLen = XlateXdBuf  (pConnection->pCd, temp , pInBuf, inbytesleft);
                  temp[OutLen] = '\0';

                  jx_NodeAdd (pRow , RL_LAST_CHILD, pCol->colname , temp,  pCol->nodeType );

                  break;
               }

               case SQL_NUMERIC:
               case SQL_DECIMAL:
               case SQL_FLOAT:
               case SQL_REAL:
               case SQL_DOUBLE: {
                  PUCHAR p = pCol->data;
                  int len = strTrimLen(p);
                  p[len] = '\0';

                  // Have to fix .00 numeric as 0.00
                  if (*p == '.') {
                     memmove (p+1 , p, len+1);
                     *p = '0';
                  }

                  jx_NodeAdd (pRow , RL_LAST_CHILD, pCol->colname , p,  pCol->nodeType );

                  break ;
               }

               default: {
                  PUCHAR p = pCol->data;
                  int len;

                  if (pCol->coltype != SQL_BLOB
                  &&  pCol->coltype != SQL_CLOB) {
                     len = strTrimLen(p);
                     p[len] = '\0';
                  }

                  // trigger new parsing of JSON-objects in columns:
                  // Predicts json data i columns
                  if (pConnection->options.autoParseContent == ON) {
                     if (*p == BraBeg || *p == CurBeg) {
                        PJXNODE pNode = jx_ParseString(p, NULL);
                        if (pNode) {
                           jx_NodeRename(pNode, pCol->colname);
                           jx_NodeAddChildTail (pRow, pNode);
                           break;
                        }
                     }
                  }

                  jx_NodeAdd (pRow , RL_LAST_CHILD, pCol->colname , p,  pCol->nodeType );
                  break;
               }
            }
         }
      }
      return pRow; // Found

   } else {
      if (pSQL->rc != SQL_NO_DATA_FOUND ) {
         check_error (pSQL);
      }
   }

   return NULL; // not found
}
示例#9
0
文件: JXM002_.C 项目: ataylorkt/noxDB
/* ------------------------------------------------------------- */
PJXNODE jx_buildMetaFields ( PJXSQL pSQL )
{

   LONG    attrParm;
   PJXNODE pFields  = jx_NewArray(NULL);
   int i;

   attrParm = SQL_TRUE;
   pSQL->rc = SQLSetStmtAttr  (pSQL->hstmt, SQL_ATTR_EXTENDED_COL_INFO , &attrParm  , 0);
   if (pSQL->rc != SQL_SUCCESS ) {
     check_error (pSQL);
     return NULL; // we have an error
   }

   for (i = 1; i <= pSQL->nresultcols; i++) {
      PJXNODE pField  = jx_NewObject (NULL);
      PJXCOL  pCol     = &pSQL->cols[i-1];
      PUCHAR  type = "string";
      UCHAR   temp [256];

      // Add name
      jx_NodeAdd (pField  , RL_LAST_CHILD, "name" , pCol->colname,  VALUE );

      // Add type
      switch( pCol->coltype) {
         case SQL_BLOB:        type = "blob"           ; break;
         case SQL_CLOB:        type = "clob"           ; break;
         case SQL_CHAR:        type = "char"           ; break;
         case SQL_VARCHAR:     type = "varchar"        ; break;
         case SQL_DATETIME:    type = "datetime"       ; break;
         case SQL_DATE:        type = "date"           ; break;
         case SQL_TIME:        type = "time"           ; break;
         case SQL_TIMESTAMP:   type = "timestamp"      ; break;

         case SQL_WCHAR:       type = "wchar"          ; break;
         case SQL_WVARCHAR:    type = "wvarchar"       ; break;
         case SQL_GRAPHIC:     type = "graphic"        ; break;
         case SQL_VARGRAPHIC:  type = "vargraphic"     ; break;
         default: {
            if (pCol->coltype >= SQL_NUMERIC && pCol->coltype <= SQL_DOUBLE ) {
               if (pCol->scale > 0) {
                  type = "dec"     ;
               } else {
                  type = "int"     ;
               }
            } else {
               sprintf(temp ,"unknown%d" , pCol->coltype);
               type = temp;
            }
         }
      }
      jx_NodeAdd (pField  , RL_LAST_CHILD, "datatype" , type,  VALUE );

      // Add size
      sprintf(temp , "%d" , pCol->displaysize);
      jx_NodeAdd (pField  , RL_LAST_CHILD, "size"     , temp,  LITERAL  );

      // Add decimal precission
      if  (pCol->coltype >= SQL_NUMERIC && pCol->coltype <= SQL_DOUBLE
      &&   pCol->scale > 0) {
         sprintf(temp , "%d" , pCol->scale);
         jx_NodeAdd (pField  , RL_LAST_CHILD, "prec"     , temp,  LITERAL  );
      }

      // Push to array
      jx_ArrayPush (pFields , pField, FALSE);
   }

   // jx_Debug ("Fields:", pFields);
   return  pFields;

}
示例#10
0
void do_clean_ups (MYSQL *mysql)
{
  MYSQL_RES *res;
  MYSQL_ROW row;

  debug (1, "do_clean_ups");

  /* auto logout */
  /* alt where planet.mode & 0x0F = 2 */

  res = do_query (mysql,"SELECT user.planet_id FROM user, planet " \
		  "WHERE planet.id=user.planet_id " \
		  "AND now() - INTERVAL 30 MINUTE > user.last "\
		  "AND (planet.mode = 0xF2 OR planet.mode = 2)");

  if (res && mysql_num_rows(res)) {

    while ((row = mysql_fetch_row (res))) {
      vx_query(mysql, "UPDATE user SET uptime=" \
             "SEC_TO_TIME(UNIX_TIMESTAMP(last) - UNIX_TIMESTAMP(login_date) + TIME_TO_SEC(uptime)) " \
             "WHERE planet_id='%s'", row[0]);

      vx_query (mysql, 
           "UPDATE planet SET mode=((mode & 0xF0) + 1) WHERE id=%s", row[0]);
      do_log_id (mysql, atoi(row[0]), C_LOGOUT, T_AUTO, "");
    }

  }
  check_error (mysql);
  mysql_free_result(res);

  /* protection */
  /* alt where planet.mode & 0xF0 */
  res = do_query (mysql,"SELECT user.planet_id FROM user,planet,general " \
		  "WHERE planet.id=user.planet_id " \
                  "AND planet.mode>127 " \
		  "AND general.tick>=user.first_tick+71");

  if (res && mysql_num_rows(res)) {
    while ((row = mysql_fetch_row (res))) {
      vx_query (mysql, "UPDATE planet SET mode=(mode & 0xF)  WHERE id=%s", row[0]);
    }

  }
  check_error (mysql);
  mysql_free_result(res);
  
  /* sleeping */
  /* alt where planet.mode & 0x0F = 3 */
  res = do_query (mysql,"SELECT user.planet_id FROM user,planet " \
		  "WHERE planet.id=user.planet_id " \
                  "AND (planet.mode = 0xF3 OR planet.mode = 3) " \
		  "AND user.last_sleep < now() - INTERVAL 6 HOUR");

  if (res && mysql_num_rows(res)) {
    while ((row = mysql_fetch_row (res))) {
      vx_query (mysql, "UPDATE planet SET mode=(mode & 0xF0)+1  WHERE id=%s", row[0]);
      do_log_id (mysql, atoi(row[0]), C_FLOW, T_SLEEP, "");
    }

  }
  check_error (mysql);
  mysql_free_result(res);
  
  /* clean politics */
  res = do_query (mysql,"SELECT id FROM politics "  \
                  "WHERE now() - INTERVAL 7 DAY > date");
  if (res && mysql_num_rows(res)) {
    while ((row = mysql_fetch_row (res))) {
      vx_query (mysql, "DELETE FROM politics WHERE id = %s", row[0]);
      vx_query (mysql, "DELETE FROM poltext WHERE thread_id = %s", row[0]);
    }
  }

  check_error (mysql);
  mysql_free_result(res);

  /* delete idle/old/test accounts */
  /* only if mytick > 24 hours = 120*24 = 1440 */
  if (mytick > 2880) {
    res = do_query (mysql, "SELECT planet.id FROM planet,user "\
                  "WHERE planet.id=user.planet_id "\
                  "AND planet.id>2 "\
                  "AND (metalroids+crystalroids+eoniumroids+uniniroids) < 4 " \
                  "AND (user.last < NOW() - INTERVAL 24 HOUR " \
		  "OR (user.last IS NULL "\
		  "AND user.signup < NOW() - INTERVAL 24 HOUR))");
    if (res && mysql_num_rows(res)) {
      while ((row = mysql_fetch_row (res)))
        delete_user(mysql, atoi(row[0]));
    }
  }

  /* delete deleted accounts */
  res = do_query (mysql, "SELECT planet_id FROM user "\
                  "WHERE delete_date !=0 AND delete_date > last " \
                  "AND delete_date < NOW() - INTERVAL 12 HOUR");
  if (res && mysql_num_rows(res)) {
    while ((row = mysql_fetch_row (res)))
      delete_user(mysql, atoi(row[0]));
  }

  check_error (mysql);
  mysql_free_result(res);

  /* delete banned accounts */

  res = do_query (mysql, "SELECT planet.id FROM planet,user "\
                  "WHERE planet.id=user.planet_id AND mode=0 AND " \
                  "user.last < NOW() - INTERVAL 36 HOUR");
  if (res && mysql_num_rows(res)) {
    while ((row = mysql_fetch_row (res)))
      delete_user(mysql, atoi(row[0]));
  }

  check_error (mysql);
  mysql_free_result(res);

  /* check for exiling */
  res = do_query (mysql,"SELECT id, x, y, exile_id "\
                 "FROM galaxy WHERE exile_id>0 AND exile_date<now()");
  if (res && mysql_num_rows(res)) {
    while ((row = mysql_fetch_row (res)))
      check_exile(mysql, atoi(row[0]), atoi(row[1]),atoi(row[2]),atoi(row[3]));
  }

  check_error (mysql);
  mysql_free_result(res);

  /* clean news */
  do_query (mysql, "DELETE FROM news WHERE date < now() - INTERVAL 48 HOUR");

  /* clean journal (1) */
  do_query (mysql, 
    "DELETE FROM journal WHERE hidden=1 AND date < NOW() - INTERVAL 10 MINUTE");

  /* clean journal (2) */
  do_query (mysql, 
    "DELETE FROM journal WHERE hidden=0 AND date < NOW() - INTERVAL 48 HOUR");

  /* fleet cleanup */
  do_query (mysql, "DELETE FROM units WHERE num=0");

  /* clear hostile */
}
示例#11
0
文件: JXM002_.C 项目: ataylorkt/noxDB
/* ------------------------------------------------------------- */
PJXSQL jx_sqlOpen(PUCHAR sqlstmt , PJXNODE pSqlParms)
{

   PNPMPARMLISTADDRP pParms = _NPMPARMLISTADDR();
   // LONG    format   =  (pParms->OpDescList->NbrOfParms >= 3) ? formatP : 0;  // Status & result object

   LONG   attrParm;
   LONG   i;
//   PJXSQL pSQL = jx_sqlNewStatement (pParms->OpDescList->NbrOfParms >= 2 ? pSqlParms  :NULL);
   PJXSQL pSQL = jx_sqlNewStatement (NULL);

   pSQL->rc = SQLAllocStmt(pConnection->hdbc, &pSQL->hstmt);
   if (pSQL->rc != SQL_SUCCESS ) {
     check_error (pSQL);
     return NULL; // we have an error
   }

   attrParm = SQL_TRUE;
   pSQL->rc = SQLSetStmtAttr  (pSQL->hstmt, SQL_ATTR_CURSOR_SCROLLABLE , &attrParm  , 0);
   if (pSQL->rc != SQL_SUCCESS ) {
     check_error (pSQL);
     return NULL; // we have an error
   }

   /*
   attrParm = SQL_TRUE;
   pSQL->rc = SQLSetStmtAttr  (pSQL->hstmt, SQL_ATTR_EXTENDED_COL_INFO , &attrParm  , 0);
   if (pSQL->rc != SQL_SUCCESS ) {
     check_error (pSQL);
     return NULL; // we have an error
   }
   */

   attrParm = SQL_CONCUR_READ_ONLY;
   pSQL->rc = SQLSetStmtAttr  (pSQL->hstmt, SQL_ATTR_CONCURRENCY , &attrParm  , 0);
   if (pSQL->rc != SQL_SUCCESS ) {
     check_error (pSQL);
     return NULL; // we have an error
   }

   // run  the  statement in "sqlstr"
   if (pParms->OpDescList->NbrOfParms >= 2 && pSqlParms ) {
      UCHAR sqlTempStmt[32766];
      strFormat(sqlTempStmt , sqlstmt , pSqlParms);
      pSQL->sqlstmt = strdup(sqlTempStmt);
   } else {
      pSQL->sqlstmt = strdup(sqlstmt);
   }

   pSQL->rc = SQLExecDirect (pSQL->hstmt, pSQL->sqlstmt, SQL_NTS);

   if (pSQL->rc != SQL_SUCCESS && pSQL->rc != SQL_NO_DATA_FOUND) {
     check_error (pSQL);
     return NULL; // we have an error
   }


   // Number of rows? .. No does not work :(
   /*
   SQLGetDiagField(SQL_HANDLE_STMT,pSQL->hstmt, 0 ,SQL_DIAG_ROW_COUNT,&pSQL->rowcount,0, NULL);
   */

   /*
   // Row count is only affected row in a "delete" or "update" ..TODO find a solution for select
   pSQL->rc = SQLRowCount (pSQL->hstmt, &pSQL->rowcount);
   if (pSQL->rc != SQL_SUCCESS ) {
     check_error (pSQL);
     return; // we have an error
   }
   */

   pSQL->rc = SQLNumResultCols (pSQL->hstmt, &pSQL->nresultcols);
   if (pSQL->rc != SQL_SUCCESS ) {
      check_error (pSQL);
      return NULL; // we have an error
   }

   for (i = 0; i < pSQL->nresultcols; i++) {
      PJXCOL pCol = &pSQL->cols[i];

      SQLDescribeCol (pSQL->hstmt, i+1, pCol->colname, sizeof (pCol->colname),
          &pCol->colnamelen, &pCol->coltype, &pCol->collen, &pCol->scale, &pCol->nullable);

      pCol->colname[pCol->colnamelen] = '\0';

      if (OFF == jx_IsTrue (pConnection->pOptions ,"uppercasecolname")) {
         str2lower  (pCol->colname , pCol->colname);
      }

      // get display label  for column
      /****************
      pSQL->rc = SQLColAttributes (hstmt, i+1, SQL_DESC_LABEL, Label , sizeof(Label)  , &len , NULL);
      if (pSQL->rc != SQL_SUCCESS ) {
        check_error (pSQL);
        return; // we have an error
      }
      ***********/


      // get display length for column
      SQLColAttributes (pSQL->hstmt, i+1, SQL_DESC_PRECISION, NULL, 0,NULL, &pCol->displaysize);

      // set column length to max of display length, and column name
      //   length.  Plus one byte for null terminator
      // collen[i] = max(displaysize, collen[i]);
      // collen[i] = max(collen[i], strlen((char *) colname) ) + 1;

      // printf ("%-*.*s", collen[i], collen[i], colname);

      // allocate memory to bind column

      // bind columns to program vars, converting all types to CHAR
      //*SQLBindCol (hstmt, i+1, SQL_C_CHAR, data[i], collen[i], &outlen[i]);
      switch( pCol->coltype) {
         case SQL_BLOB:
         case SQL_CLOB:
 //           pCol->collen = pCol->displaysize * 2;
 //           pCol->data = (SQLCHAR *) malloc (pCol->collen);
            pCol->collen = 1048576;  // 1MEGABYTES
            pCol->data = (SQLCHAR *) malloc (pCol->collen);  // 1MEGABYTES
            SQLBindCol (pSQL->hstmt, i+1, SQL_C_BINARY , pCol->data, pCol->collen, &pCol->outlen);
            break;

         case SQL_WCHAR:
         case SQL_WVARCHAR:
         case SQL_GRAPHIC:
         case SQL_VARGRAPHIC:
            pCol->collen = pCol->displaysize * 2;
            pCol->data = (SQLCHAR *) malloc (pCol->collen);
            SQLBindCol (pSQL->hstmt, i+1, pCol->coltype, pCol->data, pCol->collen, &pCol->outlen);
            break;

         default:
            pCol->collen = pCol->displaysize + 3; // + . and , and zero term
            pCol->data = (SQLCHAR *) malloc (pCol->collen);
            SQLBindCol (pSQL->hstmt, i+1, SQL_C_CHAR, pCol->data, pCol->collen, &pCol->outlen);
            break;
      }
      if (pCol->coltype >= SQL_NUMERIC && pCol->coltype <= SQL_DOUBLE) {
         pCol->nodeType = JX_LITERAL;
      } else {
         pCol->nodeType = JX_VALUE;
      }
   }


   return pSQL;

}
示例#12
0
/*
  res = do_query (mysql,"SELECT id, x, y, exile_id "\
        "FROM galaxy WHERE exile_id>0 AND exile_date<now()");
*/
void check_exile (MYSQL *mysql, int gid, int x, int y, int pid)
{
  static char c_fmt[] = "SELECT has_hostile, gal_hostile FROM planet WHERE id=%d";
  static char q_fmt[] = "SELECT exile_vote FROM planet, user " \
      "WHERE planet.x=%d AND planet.y=%d AND planet.id = user.planet_id " \
      "AND user.last > now() - interval 36 HOUR AND mode not in (0, 4)";

  MYSQL_RES *res;
  MYSQL_ROW row;

  int found=0, exile_cnt=0, active_cnt=0;

  debug (3, "check_exile");

  /* target still there ? */
  res = vx_query (mysql, c_fmt, pid);
  if (!res || mysql_num_rows(res)==0) {
    fprintf (logfile, "[Exile]: cancelled - planet gone [%d]\n", pid);
    fflush(logfile);
    remove_vote (mysql, gid, x, y, pid, -1);
    return;
  }

  row = mysql_fetch_row(res);
  if (atoi(row[0])!=0 || atoi(row[1])!=0) {
    /* under attack - wait a tick */
    fprintf (logfile, "[Exile]: planet [%d] - gal under attack; delayed\n", pid);
    mysql_free_result(res);
    return;
  }

  check_error (mysql);
  mysql_free_result(res);

  /* vote succesfull ? */
  res = vx_query (mysql, q_fmt, x, y);
  if (!res || mysql_num_rows(res)<1)
    return;

  while ((row = mysql_fetch_row (res))) {
    active_cnt++;
    if (atoi(row[0]) == 1) {
      exile_cnt++;
    }
  }
  check_error (mysql);
  mysql_free_result(res);

  fprintf (logfile, "[Exile]: (%d:%d) [%d], %d / %d\n", 
           x, y, pid, exile_cnt, active_cnt);

  /* exile or not */
  if ((exile_cnt*1.5) > active_cnt) {
    if (exile_planet (mysql, gid, pid)) {
      return;
    }
    found = 1;
  }

  /* remove_vote */
  remove_vote (mysql, gid, x, y, pid, found);
  check_error (mysql);
}
示例#13
0
int get_new_coords (MYSQL *mysql, int *x, int *y, int *z, int *gid)
{
  MYSQL_RES *res;
  MYSQL_ROW row;

  int low=1, high=1, max_high=0;
  int cnt=0, rval;

  debug (4, "get_new_coords");

  /* universe size */
  res = do_query (mysql, "SELECT x FROM galaxy ORDER BY x DESC LIMIT 1");
  row = mysql_fetch_row (res);
  max_high = atoi(row[0]);

  check_error (mysql);
  mysql_free_result(res);

  /* lowest cluster w free planets */
  res = vx_query (mysql, "SELECT x FROM galaxy WHERE members<%d AND !(x=1 AND y=1) "\
                         "ORDER BY x ASC LIMIT 1", GALAXY_SIZE);
  if (!res || mysql_num_rows(res)<1) {
    return 1;
  }
  row = mysql_fetch_row (res);
  low = atoi(row[0]);

  check_error (mysql);
  mysql_free_result(res);

  /* highest cluster w members */
  res = vx_query (mysql, "SELECT x FROM galaxy WHERE members>0 "\
                         "ORDER BY x DESC LIMIT 1"); 
  row = mysql_fetch_row (res);
  high = atoi(row[0]);

  check_error (mysql);
  mysql_free_result(res);

  if (high < low)
    high = low;

  /* check Open clusters */
  do {
    res = vx_query (mysql, "SELECT x,y,id FROM galaxy WHERE x>=%d AND x<=%d "\
                           "AND members<%d AND !(x=1 and y=1) GROUP BY x, y",
                           low, high, GALAXY_SIZE);
    if (!res) return 1;

    cnt = mysql_num_rows(res); 

    if (cnt==0) {
      /* next cluster */
      low = high + 1;
      if (low > max_high) return 1;
      high = low;
    }
  } while (cnt==0);

  if (cnt != 1) {
    /* generate random value */
    srand ((time(NULL) * (*gid + 1)));
    rval = 1 + (int) (((float)cnt - 1.) * rand()/(RAND_MAX+1.0));
  } else {
    rval = 1;
  }

  /* fetch bis zum nten */
  while (rval>1) {
    row = mysql_fetch_row(res);
    rval--;
  }
  row = mysql_fetch_row(res);
  *x = atoi(row[0]);
  *y = atoi(row[1]);
  *gid = atoi(row[2]);

  mysql_free_result(res);

  res = vx_query (mysql, "SELECT z FROM planet WHERE x=%d AND y=%d "\
                         "ORDER BY z DESC LIMIT 1", *x, *y);
  if (res && mysql_num_rows(res)) {
    row = mysql_fetch_row(res);
    *z = 1 + atoi(row[0]);
  } else 
    *z = 1;

  check_error (mysql);
  mysql_free_result(res);
  
  return 0;
}
/** \return GL_TRUE for pass, GL_FALSE for fail */
static bool
test_fbo(const struct format_info *info)
{
    const int comps = num_components(info->BaseFormat);
    const GLenum type = get_datatype(info);
    GLint f;
    GLuint fbo, texObj;
    GLenum status;
    GLboolean intMode;
    GLint buf;
    bool pass = true;

    if (0)
        fprintf(stderr, "============ Testing format = %s ========\n", info->Name);

    /* Create texture */
    glGenTextures(1, &texObj);
    glBindTexture(GL_TEXTURE_2D, texObj);
    glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_NEAREST);
    glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_NEAREST);

    glTexImage2D(GL_TEXTURE_2D, 0, info->IntFormat, TexWidth, TexHeight, 0,
                 info->BaseFormat, type, NULL);

    if (check_error(__FILE__, __LINE__))
        return GL_FALSE;

    glGetTexLevelParameteriv(GL_TEXTURE_2D, 0, GL_TEXTURE_INTERNAL_FORMAT, &f);
    assert(f == info->IntFormat);


    /* Create FBO to render to texture */
    glGenFramebuffers(1, &fbo);
    glBindFramebuffer(GL_FRAMEBUFFER, fbo);
    glFramebufferTexture2D(GL_FRAMEBUFFER_EXT, GL_COLOR_ATTACHMENT0_EXT,
                           GL_TEXTURE_2D, texObj, 0);

    if (check_error(__FILE__, __LINE__))
        return GL_FALSE;

    status = glCheckFramebufferStatus(GL_FRAMEBUFFER_EXT);
    if (status != GL_FRAMEBUFFER_COMPLETE_EXT) {
        fprintf(stderr, "%s: failure: framebuffer incomplete.\n", TestName);
        return GL_FALSE;
    }


    glGetBooleanv(GL_RGBA_INTEGER_MODE_EXT, &intMode);
    if (check_error(__FILE__, __LINE__))
        return GL_FALSE;
    if (!intMode) {
        fprintf(stderr, "%s: GL_RGBA_INTEGER_MODE_EXT return GL_FALSE\n",
                TestName);
        return GL_FALSE;
    }

    glGetIntegerv(GL_READ_BUFFER, &buf);
    assert(buf == GL_COLOR_ATTACHMENT0_EXT);
    glGetIntegerv(GL_DRAW_BUFFER, &buf);
    assert(buf == GL_COLOR_ATTACHMENT0_EXT);


    /* test clearing */
    if (1) {
        /* clear with an integer - exp unsigned int */
        static const GLint clr_i[4] = { 300000005, -7, 6, 5 };
        static const GLuint exp_ui[4] = { 300000005, 0, 6, 5 };
        /* clear with an unsigned integer - exp int */
        static const GLuint clr_ui[4] = { 300000005, 0x80000007, 6, 5 };
        static const GLint exp_i[4] = { 300000005, 0x7fffffff, 6, 5 };
        GLint pix[4], i;
        GLuint pix_ui[4];

        if (info->Signed)
            glClearColorIiEXT(clr_i[0], clr_i[1], clr_i[2], clr_i[3]);
        else
            glClearColorIuiEXT(clr_ui[0], clr_ui[1], clr_ui[2], clr_ui[3]);
        glClear(GL_COLOR_BUFFER_BIT);

        if (info->Signed)
            glReadPixels(5, 5, 1, 1, GL_RGBA_INTEGER_EXT, GL_UNSIGNED_INT, pix_ui);
        else
            glReadPixels(5, 5, 1, 1, GL_RGBA_INTEGER_EXT, GL_INT, pix);

        if (info->Signed) {
            for (i = 0; i < comps; i++) {
                if (pix_ui[i] != exp_ui[i]) {
                    fprintf(stderr, "%s: glClear failed\n", TestName);
                    fprintf(stderr, "  Texture format = %s\n", info->Name);
                    fprintf(stderr, "  Expected %u, %u, %u, %u\n",
                            exp_ui[0], exp_ui[1], exp_ui[2], exp_ui[3]);
                    fprintf(stderr, "  Found %u, %u, %u, %u\n",
                            pix_ui[0], pix_ui[1], pix_ui[2], pix_ui[3]);
                    pass = false;
                    break;
                }
            }
        } else {
            for (i = 0; i < comps; i++) {
                if (pix[i] != exp_i[i]) {
                    fprintf(stderr, "%s: glClear failed\n", TestName);
                    fprintf(stderr, "  Texture format = %s\n", info->Name);
                    fprintf(stderr, "  Expected %d, %d, %d, %d\n",
                            exp_i[0], exp_i[1], exp_i[2], exp_i[3]);
                    fprintf(stderr, "  Found %d, %d, %d, %d\n",
                            pix[0], pix[1], pix[2], pix[3]);
                    pass = false;
                    break;
                }
            }
        }
    }

    glutSwapBuffers();

    glDeleteTextures(1, &texObj);
    glDeleteFramebuffers(1, &fbo);

    return pass;
}
示例#15
0
enum piglit_result
piglit_display(void)
{
	GLuint tex;
	static const float red[] = { 1, 0, 0, 1 };
	static const float green[] = { 0, 1, 0, 1 };
	static const float blue[] = { 0, 0, 1, 1 };
	static const float cyan[] = { 0, 1, 1, 1 };

	pass = GL_TRUE;

	extension_supported =
		piglit_is_extension_supported("GL_EXT_unpack_subimage");

	if (!piglit_automatic) {
		if (extension_supported)
			printf("GL_EXT_unpack_subimage is supported\n");
		else
			printf("GL_EXT_unpack_subimage is not supported\n");
	}

	piglit_reset_gl_error();
	if (!piglit_automatic)
		printf("Trying GL_UNPACK_ROW_LENGTH\n");
	glPixelStorei(GL_UNPACK_ROW_LENGTH, 2);
	check_error();

	piglit_reset_gl_error();
	if (!piglit_automatic)
		printf("Trying GL_UNPACK_SKIP_PIXELS\n");
	glPixelStorei(GL_UNPACK_SKIP_PIXELS, 1);
	check_error();

	piglit_reset_gl_error();
	if (!piglit_automatic)
		printf("Trying GL_UNPACK_SKIP_ROWS\n");
	glPixelStorei(GL_UNPACK_SKIP_ROWS, 4);
	check_error();

	glClear(GL_COLOR_BUFFER_BIT);

	/* Try creating a texture with the unpacking parameters we've set */
	glGenTextures(1, &tex);
	glBindTexture(GL_TEXTURE_2D, tex);
	glTexImage2D(GL_TEXTURE_2D,
		     0, /* level */
		     GL_RGBA, /* internalFormat */
		     1, /* width */
		     2, /* height */
		     0, /* border */
		     GL_RGBA, /* format */
		     GL_UNSIGNED_BYTE, /* type */
		     tex_data);
	glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_NEAREST);
	glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_NEAREST);

	make_program(vertex_shader, fragment_shader);

	piglit_draw_rect_tex(-1, -1, 2, 2,
			     0, 0, 1, 1);

	if (extension_supported) {
		pass &= piglit_probe_pixel_rgba(piglit_width / 2,
						piglit_height / 4,
						blue);
		pass &= piglit_probe_pixel_rgba(piglit_width / 2,
						piglit_height * 3 / 4,
						cyan);
	} else {
		pass &= piglit_probe_pixel_rgba(piglit_width / 2,
						piglit_height / 4,
						red);
		pass &= piglit_probe_pixel_rgba(piglit_width / 2,
						piglit_height * 3 / 4,
						green);
	}

	return pass ? PIGLIT_PASS : PIGLIT_FAIL;
}
示例#16
0
文件: JXM002_.C 项目: ataylorkt/noxDB
/* ------------------------------------------------------------- */
static PJXSQLCONNECT jx_sqlNewConnection(void )
{
   // static SQLHSTMT      hstmt = 0 ;
   // SQLINTEGEREGER    len;
   // UCHAR Label [256];
   // LGL  err = ON;
   // LONG rows =0;

   PJXSQLCONNECT pConnection;
   LONG          attrParm;
   PUCHAR        server = "*LOCAL";
   int rc;
   PSQLOPTIONS po;

   pConnection = memAlloc(sizeof(JXSQLCONNECT));
   memset(pConnection , 0 , sizeof(JXSQLCONNECT));
   pConnection->pCd = XlateXdOpen (13488, 0);
   po = &pConnection->options;
   po->upperCaseColName = OFF;
   po->autoParseContent = ON;
   po->DecimalPoint     = '.';
   po->hexSort          = OFF;
   po->sqlNaming        = OFF;
   po->DateSep          = '-';
   po->DateFmt          = 'y';
   po->TimeSep          = ':';
   po->TimeFmt          = 'H';


   // allocate an environment handle
   rc = SQLAllocEnv (&pConnection->henv);
   if (rc != SQL_SUCCESS ) {
     check_error (NULL);
     jx_sqlDisconnect (pConnection);
     return NULL; // we have an error
   }

   // Note - this is invers: Default to IBMi naming
   attrParm = pConnection->options.sqlNaming == ON ? SQL_FALSE : SQL_TRUE;
   rc = SQLSetEnvAttr  (pConnection->henv, SQL_ATTR_SYS_NAMING, &attrParm  , 0);
   if (rc != SQL_SUCCESS ) {
     check_error (NULL);
     jx_sqlDisconnect (pConnection);
     return NULL; // we have an error
   }

   /*
   attrParm = SQL_TRUE;
   rc = SQLSetEnvAttr  (pConnection->henv, SQL_ATTR_UTF8 , &attrParm  , 0);
   if (pSQL->rc != SQL_SUCCESS ) {
     jx_sqlDisconnect (pConnection);
     return NULL; // we have an error
   }
   */

   rc = SQLAllocConnect (pConnection->henv, &pConnection->hdbc);  // allocate a connection handle
   if (rc != SQL_SUCCESS ) {
     check_error (NULL);
     jx_sqlDisconnect (pConnection);
     return NULL; // we have an error
   }

   attrParm = SQL_TXN_NO_COMMIT;
   rc = SQLSetConnectAttr (pConnection->hdbc, SQL_ATTR_COMMIT , &attrParm  , 0);
   if (rc != SQL_SUCCESS ) {
     check_error (NULL);
     jx_sqlDisconnect (pConnection);
     return NULL; // we have an error
   }

   rc = SQLConnect (pConnection->hdbc, server , SQL_NTS, NULL, SQL_NTS, NULL, SQL_NTS);
   if (rc != SQL_SUCCESS ) {
     check_error (NULL);
     jx_sqlDisconnect (pConnection);
     return NULL; // we have an error
   }

   return pConnection; // we are ok

}
示例#17
0
文件: cuda.c 项目: KaiqiZhang/darknet
void cuda_set_device(int n)
{
    gpu_index = n;
    cudaError_t status = cudaSetDevice(n);
    check_error(status);
}
示例#18
0
文件: JXM002_.C 项目: ataylorkt/noxDB
/* ------------------------------------------------------------- */
LGL jx_sqlUpsert (BOOL update, PUCHAR table  , PJXNODE pSqlParms , PUCHAR where)
{

   LONG   attrParm;
   LONG   i;
   UCHAR sqlTempStmt[32766];
   PUCHAR stmt = sqlTempStmt;
   PJXNODE pNode;
   PUCHAR comma = "";
   PUCHAR name, value;

   SQLSMALLINT   length;
   SQLHDBC       hdbctmp;
   SQLHSTMT      hstmttmp;
   SQLRETURN     rc;
   PJXSQL        pSQL = jx_sqlNewStatement (NULL);
   SQLCHUNK      sqlChunk[32];
   SHORT         sqlChunkIx =0;
   PUCHAR        sqlNullPtr = NULL;

   // First get the columen types - by now we use a select to mimic that
   // allocate a statement handle
   pSQL->rc = SQLAllocHandle(SQL_HANDLE_STMT, pConnection->hdbc , &hstmttmp);
   if (pSQL->rc != SQL_SUCCESS ) {
     SQLError(  pConnection->henv, pConnection->hdbc , hstmttmp, pConnection->sqlState ,
                      &pConnection->sqlCode, pConnection->sqlMsgDta ,
                      sizeof(pConnection->sqlMsgDta), &length);
     substr ( jxMessage , pConnection->sqlMsgDta , length);
     return ON; // we have an error
   }

   stmt = sqlTempStmt;
   stmt += sprintf (stmt , "select ");

   comma = "";
   pNode    =  jx_GetNode(pSqlParms, "/");
   while (pNode) {
      name  = jx_GetNodeNamePtr   (pNode);
      stmt += sprintf (stmt , "%s%s" , comma , name);
      comma = ",";
      pNode = jx_GetNodeNext(pNode);
   }

   stmt += sprintf (stmt , " from %s where 1=0" , table);


   // prepare the statement */
   pSQL->rc = SQLPrepare(hstmttmp , sqlTempStmt, SQL_NTS);
   if (pSQL->rc != SQL_SUCCESS ) {
     SQLError(  pConnection->henv, pConnection->hdbc , hstmttmp, pConnection->sqlState ,
                      &pConnection->sqlCode, pConnection->sqlMsgDta ,
                      sizeof(pConnection->sqlMsgDta), &length);
     substr ( jxMessage , pConnection->sqlMsgDta , length);
     SQLFreeStmt(hstmttmp, SQL_CLOSE);
     return ON; // we have an error
   }

   // Now we have the colume definitions - now build the update statement:

   // allocate a statement handle
   pSQL->rc = SQLAllocHandle(SQL_HANDLE_STMT, pConnection->hdbc , &pSQL->hstmt);
   if (pSQL->rc != SQL_SUCCESS ) {
     check_error (pSQL);
     SQLFreeStmt(hstmttmp, SQL_CLOSE);
     return ON; // we have an error
   }

   // This need to allow update
   attrParm = SQL_INSENSITIVE;
   pSQL->rc = SQLSetStmtAttr  (pSQL->hstmt, SQL_ATTR_CURSOR_SENSITIVITY , &attrParm  , 0);
   if (pSQL->rc != SQL_SUCCESS ) {
     check_error (pSQL);
     return ON; // we have an error
   }

   if (update) {
      buildUpdate (hstmttmp, sqlTempStmt , table, pSqlParms , where);
   } else {
      buildInsert (hstmttmp, sqlTempStmt , table, pSqlParms , where);
   }

   // prepare the statement that provides the coloumn types
   pSQL->rc = SQLPrepare(pSQL->hstmt , sqlTempStmt, SQL_NTS);
   if (pSQL->rc != SQL_SUCCESS ) {
     check_error (pSQL);
     SQLFreeStmt(hstmttmp, SQL_CLOSE);
     return ON; // we have an error
   }


   // Take the description from the "select" and use it on the "update"
   pNode    =  jx_GetNode(pSqlParms, "/");
   for (i=1; pNode; i++) {
      JXCOL Col;
      memset (&Col , 0 , sizeof(JXCOL));

      value = jx_GetNodeValuePtr  (pNode , NULL);

      pSQL->rc = SQLDescribeCol (
         hstmttmp,
         i,
         Col.colname,
         sizeof (Col.colname),
         &Col.colnamelen,
         &Col.coltype,
         &Col.collen,
         &Col.scale,
         &Col.nullable
      );

      if (pSQL->rc != SQL_SUCCESS ) {
         check_error (pSQL);
         return ON; // we have an error
      }

      // bind parameter to the statement
      if ( Col.coltype == SQL_BLOB
      ||   Col.coltype == SQL_CLOB ) {
         SQLINTEGER dataAtExec = SQL_DATA_AT_EXEC;
         // SQLLEN     dataAtExec = SQL_LEN_DATA_AT_EXEC ( 0 );

         PSQLCHUNK pSqlChunk  = &sqlChunk[sqlChunkIx++];
         pSqlChunk->actLen    = strlen(value);
         pSqlChunk->offset    = 0;
         pSqlChunk->chunkLen  = min(pSqlChunk->actLen,16384);
         pSqlChunk->value     = value;

         if (pSqlChunk->actLen == 0) {
            pSQL->rc = SQLBindParameter(pSQL->hstmt,
               i,
               SQL_PARAM_INPUT,
               SQL_C_BINARY, //SQL_C_CHAR,  // SQL_C_BINARY, ,           // SQL_C_BINARY, //SQL_C_CHAR,
               SQL_LONGVARBINARY,    //  SQL_VARBINARY, //  // SQL_LONGVARCHAR,
               0 , // Col.collen,  // pSqlChunk->actLen, pSqlChunk->chunkLen,  pSqlChunk->chunkLen,//Col.collen,
               0,                    // presition
               value,                // Parm value
               0 ,                   // Buffer len - Not used
               NULL                  // no-chunk just direct access to NULL
            );

         } else {

            pSQL->rc = SQLBindParameter(pSQL->hstmt,
               i,
               SQL_PARAM_INPUT,
               SQL_C_BINARY, //SQL_C_CHAR,  // SQL_C_BINARY, ,           // SQL_C_BINARY, //SQL_C_CHAR,
               SQL_LONGVARBINARY, //  SQL_VARBINARY, //  // SQL_LONGVARCHAR,
               pSqlChunk->actLen,// Col.collen pSqlChunk->chunkLen,  pSqlChunk->chunkLen,//Col.collen,//overall length
               0,                    // presition
               (SQLPOINTER) pSqlChunk,            // Parm value
               0 ,                   // Buffer len - Not used
               &dataAtExec           // chunk size
            );
         }
      } else {
         pSQL->rc = SQLBindParameter(pSQL->hstmt,
            i,
            SQL_PARAM_INPUT,
            SQL_C_CHAR,
            Col.coltype,
            Col.collen,   // length
            Col.scale,    // presition
            value,
            0,
            NULL // pointer to length variable
         );
      }

      if (pSQL->rc != SQL_SUCCESS ) {
         check_error (pSQL);
         return ON; // we have an error
      }

      pNode = jx_GetNodeNext(pNode);
   }

   // Now we are done with the select statement:
   rc = SQLFreeStmt(hstmttmp, SQL_CLOSE);

   // run  the  statement in "sqlstr"
   pSQL->rc = SQLExecute( pSQL->hstmt);

   // Has BLOB's ?
   while  (pSQL->rc == SQL_NEED_DATA) {
        SQLPOINTER parmNo;
        PSQLCHUNK  pSqlChunk;
        SHORT i;
        SQLINTEGER putLen;
        PUCHAR putBuf;


        pSQL->rc  = SQLParamData(pSQL->hstmt, (SQLPOINTER) &pSqlChunk);

        if (pSQL->rc == SQL_NEED_DATA) {

           // iterate for each buffer chunk
           while (pSqlChunk->actLen > 0) {
              putLen = min(pSqlChunk->actLen , pSqlChunk->chunkLen);
              putBuf = pSqlChunk->value + pSqlChunk->offset;
              rc = SQLPutData(pSQL->hstmt, putBuf , putLen);
              pSqlChunk->offset += putLen;
              pSqlChunk->actLen -= putLen;
           }
        }
   }

   if (pSQL->rc != SQL_SUCCESS && pSQL->rc != SQL_NO_DATA_FOUND) {
      check_error (pSQL);
      return ON; // we have an error
   }

   jx_sqlClose (&pSQL);

   return OFF;

}
示例#19
0
文件: cuda.c 项目: KaiqiZhang/darknet
void cuda_push_array(float *x_gpu, float *x, size_t n)
{
    size_t size = sizeof(float)*n;
    cudaError_t status = cudaMemcpy(x_gpu, x, size, cudaMemcpyHostToDevice);
    check_error(status);
}
示例#20
0
文件: Sound.cpp 项目: Vavassor/meteor
void Sound::Initialize()
{
    FMOD_RESULT result = FMOD_OK;

	result = FMOD_System_Create(&fmodSystem);
	check_error(result);

	unsigned int version;
	result = FMOD_System_GetVersion(fmodSystem, &version);
	check_error(result);
	if(version < FMOD_VERSION)
	{
		LOG_ISSUE("AUDIO ERROR: fmodex.dll is an older version than needed. "
			"FMOD version should be at least %u.", FMOD_VERSION);
	}

	int numDrivers;
	result = FMOD_System_GetNumDrivers(fmodSystem, &numDrivers);
	check_error(result);

	if(numDrivers == 0)
	{
		result = FMOD_System_SetOutput(fmodSystem, FMOD_OUTPUTTYPE_NOSOUND);
		check_error(result);
	}
	else
	{
		FMOD_CAPS capabilities;
		FMOD_SPEAKERMODE speakerMode;
		result = FMOD_System_GetDriverCaps(fmodSystem, 0, &capabilities, nullptr, &speakerMode);
		check_error(result);

		result = FMOD_System_SetSpeakerMode(fmodSystem, speakerMode);
		check_error(result);

		// if hardware acceleration is not available,
		// extend the buffer size to make sure there is enough room
		if(capabilities & FMOD_CAPS_HARDWARE_EMULATED)
		{
			result = FMOD_System_SetDSPBufferSize(fmodSystem, 1024, 10);
			check_error(result);
		}

		char name[256];
		result = FMOD_System_GetDriverInfo(fmodSystem, 0, name, 256, nullptr);
		check_error(result);

		// SigmaTel sound devices crackle when the sound format is PCM 16-bit
		// PCM Floating-Point seems to fix it
		if(strstr(name, "SigmaTel"))
		{
			result = FMOD_System_SetSoftwareFormat(fmodSystem, 48000, FMOD_SOUND_FORMAT_PCMFLOAT,
				0, 0, FMOD_DSP_RESAMPLER_LINEAR);
			check_error(result);
		}
	}

	result = FMOD_System_Init(fmodSystem, MAX_CHANNELS, FMOD_INIT_NORMAL, 0);
	check_error(result);

	result = FMOD_System_CreateSoundGroup(fmodSystem, "Music", &musicGroup);
	check_error(result);
	result = FMOD_System_CreateSoundGroup(fmodSystem, "Sound Effects", &noiseGroup);
	check_error(result);

	numSounds = 0;
	for(int i = 0; i < MAX_SOUNDS; i++)
		sounds[i] = nullptr;
}
示例#21
0
int scf_update_exp(SCF *scf, const double x[], const double y[],
      double z)
{     int n_max = scf->n_max;
      int n = scf->n;
      double *f = scf->f;
      double *u = scf->u;
      int *p = scf->p;
#if _GLPSCF_DEBUG
      double *c = scf->c;
#endif
      double *un = scf->w;
      int i, ij, in, j, k, nj, ret = 0;
      double t;
      /* check if the factorization can be expanded */
      if (n == n_max)
      {  /* there is not enough room */
         ret = SCF_ELIMIT;
         goto done;
      }
      /* increase the order of the factorization */
      scf->n = ++n;
      /* fill new zero column of matrix F */
      for (i = 1, in = f_loc(scf, i, n); i < n; i++, in += n_max)
         f[in] = 0.0;
      /* fill new zero row of matrix F */
      for (j = 1, nj = f_loc(scf, n, j); j < n; j++, nj++)
         f[nj] = 0.0;
      /* fill new unity diagonal element of matrix F */
      f[f_loc(scf, n, n)] = 1.0;
      /* compute new column of matrix U, which is (old F) * x */
      for (i = 1; i < n; i++)
      {  /* u[i,n] := (i-th row of old F) * x */
         t = 0.0;
         for (j = 1, ij = f_loc(scf, i, 1); j < n; j++, ij++)
            t += f[ij] * x[j];
         u[u_loc(scf, i, n)] = t;
      }
      /* compute new (spiked) row of matrix U, which is (old P) * y */
      for (j = 1; j < n; j++) un[j] = y[p[j]];
      /* store new diagonal element of matrix U, which is z */
      un[n] = z;
      /* expand matrix P */
      p[n] = n;
#if _GLPSCF_DEBUG
      /* expand matrix C */
      /* fill its new column, which is x */
      for (i = 1, in = f_loc(scf, i, n); i < n; i++, in += n_max)
         c[in] = x[i];
      /* fill its new row, which is y */
      for (j = 1, nj = f_loc(scf, n, j); j < n; j++, nj++)
         c[nj] = y[j];
      /* fill its new diagonal element, which is z */
      c[f_loc(scf, n, n)] = z;
#endif
      /* restore upper triangular structure of matrix U */
      for (k = 1; k < n; k++)
         if (un[k] != 0.0) break;
      transform(scf, k, un);
      /* estimate the rank of matrices C and U */
      scf->rank = estimate_rank(scf);
      if (scf->rank != n) ret = SCF_ESING;
#if _GLPSCF_DEBUG
      /* check that the factorization is accurate enough */
      check_error(scf, "scf_update_exp");
#endif
done: return ret;
}
示例#22
0
/**
 * @brief Receive data from a UDP/IP socket
 *
 * Receives data like `recvfrom(2)`. Pointers may be `NULL`, then the information (e.g. the source port) is lost (you may use
 * NULL pointers if you're not interested in some information)
 *
 * @param sfd The socket file descriptor.
 * @param buffer Where the data will be written
 * @param size The size of `buffer`
 * @param src_host Where the sending host's name/IP will be stored
 * @param src_host_len `src_host`'s length
 * @param src_service Where the port on remote side will be written to
 * @param src_service_len `src_service`'s length
 * @param recvfrom_flags Flags for `recvfrom(2)`
 * @param numeric `LIBSOCKET_NUMERIC` if you want the names to remain unresolved.
 *
 * @retval n *n* bytes of data were received.
 * @retval 0 Peer sent EOF.
 * @retval <0 An error occurred.
 */
ssize_t recvfrom_inet_dgram_socket(int sfd, void* buffer, size_t size, char* src_host, size_t src_host_len, char* src_service, size_t src_service_len, int recvfrom_flags, int numeric)
{
    struct sockaddr_storage client;

# ifdef _TRADITIONAL_RDNS
    struct sockaddr_storage oldsockaddr;
    socklen_t oldsockaddrlen = sizeof(struct sockaddr_storage);
    struct hostent* he;
    void* addrptr;
    size_t addrlen;
    uint16_t sport = 0;
# endif

    ssize_t bytes;

# ifndef _TRADITIONAL_RDNS
    int retval;
# endif

# ifdef VERBOSE
    const char* errstr;
# endif
    if ( sfd < 0 )
	return -1;

    if ( buffer == NULL || size == 0)
	return -1;
    else
	memset(buffer,0,size);

    if ( src_host )
	memset(src_host,0,src_host_len);
    if ( src_service )
	memset(src_service,0,src_service_len);

    socklen_t stor_addrlen = sizeof(struct sockaddr_storage);

    if ( -1 == check_error(bytes = recvfrom(sfd,buffer,size,recvfrom_flags,(struct sockaddr*)&client,&stor_addrlen)))
	return -1;

    if ( src_host_len > 0 || src_service_len > 0 ) // If one of the things is wanted. If you give a null pointer with a positive _len parameter, you won't get the address.
    {
	if ( numeric == LIBSOCKET_NUMERIC )
	{
	    numeric = NI_NUMERICHOST | NI_NUMERICSERV;
	}

	// getnameinfo() doesn't work on FreeBSD (here)
# ifndef _TRADITIONAL_RDNS
	if ( 0 != (retval = getnameinfo((struct sockaddr*)&client,sizeof(struct sockaddr_storage),src_host,src_host_len,src_service,src_service_len,numeric)) ) // Write information to the provided memory
	{
# ifdef VERBOSE
	    errstr = gai_strerror(retval);
	    debug_write(errstr);
# endif
	    return -1;
	}
# endif

	// so use traditional methods
# ifdef _TRADITIONAL_RDNS
	if ( -1 == check_error(getsockname(sfd,(struct sockaddr*)&oldsockaddr,&oldsockaddrlen)) )
	    return -1;

	if ( oldsockaddrlen > sizeof(struct sockaddr_storage) ) // If getsockname truncated the struct
	    return -1;

	if ( oldsockaddr.ss_family == AF_INET )
	{
	    addrptr = &(((struct sockaddr_in*)&client)->sin_addr);
	    addrlen = sizeof(struct in_addr);
	    sport = ntohs(((struct sockaddr_in*)&client)->sin_port);
	} else if ( oldsockaddr.ss_family == AF_INET6 )
	{
	    addrptr = &(((struct sockaddr_in6*)&client)->sin6_addr);
	    addrlen = sizeof(struct in6_addr);
	    sport = ntohs(((struct sockaddr_in6*)&client)->sin6_port);
	}

	if ( NULL == (he = gethostbyaddr(addrptr,addrlen,oldsockaddr.ss_family) ) )
	{
	    check_error(-1);
	    return -1;
	}

	strncpy(src_host,he->h_name,src_host_len);
	snprintf(src_service,src_service_len,"%u",sport);
# endif
    }

    return bytes;
}
示例#23
0
// get the handle for connections to KWallet
static int get_wallet_handle(const backend_kwallet_context_t *context)
{
  // Open the wallet.
  int handle = invalid_kwallet_handle;
  GError* error = NULL;

  /* signature:
   *
   * in  s wallet,
   * in  x wId,
   * in  s appid,
   *
   * out i arg_0
   */
  GVariant *ret = g_dbus_proxy_call_sync(context->proxy,
                                         "open",
                                         g_variant_new("(sxs)", context->wallet_name, 0LL, app_id),
                                         G_DBUS_CALL_FLAGS_NONE,
                                         -1,
                                         NULL,
                                         &error);

  if(check_error(error))
  {
    g_variant_unref(ret);
    return invalid_kwallet_handle;
  }

  GVariant *child = g_variant_get_child_value(ret, 0);
  handle = g_variant_get_int32(child);
  g_variant_unref(child);
  g_variant_unref(ret);

  // Check if our folder exists.
  gboolean has_folder = FALSE;

  /* signature:
   *
   * in  i handle,
   * in  s folder,
   * in  s appid,
   *
   * out b arg_0
   */
  ret = g_dbus_proxy_call_sync(context->proxy,
                               "hasFolder",
                               g_variant_new("(iss)", handle, kwallet_folder, app_id),
                               G_DBUS_CALL_FLAGS_NONE,
                               -1,
                               NULL,
                               &error);

  if(check_error(error))
  {
    g_variant_unref(ret);
    return invalid_kwallet_handle;
  }

  child = g_variant_get_child_value(ret, 0);
  has_folder = g_variant_get_boolean(child);
  g_variant_unref(child);
  g_variant_unref(ret);

  // Create it if it didn't.
  if (!has_folder)
  {

    gboolean success = FALSE;

    /* signature:
     *
     * in  i handle,
     * in  s folder,
     * in  s appid,
     *
     * out b arg_0
     */
    ret = g_dbus_proxy_call_sync(context->proxy,
                                 "createFolder",
                                 g_variant_new("(iss)", handle, kwallet_folder, app_id),
                                 G_DBUS_CALL_FLAGS_NONE,
                                 -1,
                                 NULL,
                                 &error);

    if(check_error(error))
    {
      g_variant_unref(ret);
      return invalid_kwallet_handle;
    }

    GVariant *child = g_variant_get_child_value(ret, 0);
    success = g_variant_get_boolean(child);
    g_variant_unref(child);
    g_variant_unref(ret);

    if(!success)
      return invalid_kwallet_handle;
  }

  return handle;
}
示例#24
0
/**
 * @brief Connect a UDP socket.
 *
 * If a datagram socket is connected, all data written to it (using `write(2)`) is sent to the peer
 * connected to and all data `read(2)` from it is data sent by the peer. Usually used by clients only.
 *
 * @param sfd The socket file descriptor
 * @param host The host to connect to
 * @param service The port/service specifier
 *
 * @retval 0 Success
 * @retval -1 Error.
 */
int connect_inet_dgram_socket(int sfd, const char* host, const char* service)
{
    struct addrinfo *result, *result_check, hint;
    struct sockaddr_storage oldsockaddr;
    struct sockaddr deconnect;
    socklen_t oldsockaddrlen = sizeof(struct sockaddr_storage);
    int return_value;
# ifdef VERBOSE
    const char* errstring;
# endif

    if ( sfd < 0 )
	return -1;

    if ( host == NULL )
    {
	// This does not work on FreeBSD systems. We pretend to disconnect the socket although we don't do so. This is not very severe for the application
# ifndef __FreeBSD__
	memset(&deconnect,0,sizeof(struct sockaddr));

	deconnect.sa_family = AF_UNSPEC;

	if ( check_error(connect(sfd,&deconnect,sizeof(struct sockaddr))) )
	    return -1;
# endif
	return 0;
    }

    if ( -1 == check_error(getsockname(sfd,(struct sockaddr*)&oldsockaddr,&oldsockaddrlen)) )
	return -1;

    if ( oldsockaddrlen > sizeof(struct sockaddr_storage) ) // If getsockname truncated the struct
	return -1;

    memset(&hint,0,sizeof(struct addrinfo));

    hint.ai_family = ((struct sockaddr_in*)&oldsockaddr)->sin_family; // AF_INET or AF_INET6 - offset is same at sockaddr_in and sockaddr_in6
    hint.ai_socktype = SOCK_DGRAM;

    if ( 0 != (return_value = getaddrinfo(host,service,&hint,&result)))
    {
# ifdef VERBOSE
	errstring = gai_strerror(return_value);
	debug_write(errstring);
# endif
	return -1;
    }

    // As described in "The Linux Programming Interface", Michael Kerrisk 2010, chapter 59.11 (p. 1220ff)

    for ( result_check = result; result_check != NULL; result_check = result_check->ai_next ) // go through the linked list of struct addrinfo elements
    {
	if ( -1 != (return_value = connect(sfd,result_check->ai_addr,result_check->ai_addrlen))) // connected without error
	{
	    break;
	} else
	{
	    check_error(return_value);
	}
    }

    // We do now have a working (updated) socket connection to our target

    if ( result_check == NULL ) // or not?
    {
# ifdef VERBOSE
	debug_write("connect_inet_dgram_socket: Could not connect to any address!\n");
# endif
	return -1;
    }

    freeaddrinfo(result);

    return 0;
}
示例#25
0
// Get the (key,value) pairs back from KWallet.
GHashTable* dt_pwstorage_kwallet_get(const backend_kwallet_context_t *context, const gchar* slot)
{
  GHashTable *table = g_hash_table_new(g_str_hash, g_str_equal);
  GError* error = NULL;

  // Is there an entry in the wallet?
  gboolean has_entry = FALSE;
  int wallet_handle = get_wallet_handle(context);

  /* signature:
   *
   * in  i handle,
   * in  s folder,
   * in  s key,
   * in  s appid,
   *
   * out b arg_0
   */
  GVariant *ret = g_dbus_proxy_call_sync(context->proxy,
                                         "hasEntry",
                                         g_variant_new("(isss)", wallet_handle, kwallet_folder, slot, app_id),
                                         G_DBUS_CALL_FLAGS_NONE,
                                         -1,
                                         NULL,
                                         &error);

  if(check_error(error))
  {
    g_variant_unref(ret);
    return table;
  }

  GVariant *child = g_variant_get_child_value(ret, 0);
  has_entry = g_variant_get_boolean(child);
  g_variant_unref(child);
  g_variant_unref(ret);

  if(!has_entry)
    return table;

  /* signature:
   *
   * in  i handle,
   * in  s folder,
   * in  s key,
   * in  s appid,
   *
   * out a{sv} arg_0)
   */
  ret = g_dbus_proxy_call_sync(context->proxy,
                               "readMapList",
                               g_variant_new("(isss)", wallet_handle, kwallet_folder, slot, app_id),
                               G_DBUS_CALL_FLAGS_NONE,
                               -1,
                               NULL,
                               &error);

  if(check_error(error))
  {
    g_variant_unref(ret);
    return table;
  }

  child = g_variant_get_child_value(ret, 0);

  // we are only interested in the first child. i am not even sure that there can legally be more than one
  if(g_variant_n_children(child)<1)
  {
    g_variant_unref(child);
    g_variant_unref(ret);
    return table;
  }

  GVariant *element = g_variant_get_child_value(child, 0);
  GVariant *v = NULL;
  g_variant_get(element, "{sv}", NULL, &v);

  const gchar *byte_array = g_variant_get_data(v);
  if(!byte_array)
  {
    g_variant_unref(v);
    g_variant_unref(element);
    g_variant_unref(child);
    g_variant_unref(ret);
    return table;
  }

  int entries = GINT_FROM_BE(*((int*)byte_array));
  byte_array += sizeof(gint);

  for(int i=0; i<entries; i++)
  {
    guint length;
    gchar* key = array2string(byte_array, &length);

    byte_array += length;

    gchar* value = array2string(byte_array, &length);

    byte_array += length;

    dt_print(DT_DEBUG_PWSTORAGE,"[pwstorage_kwallet_get] reading (%s, %s)\n",(gchar*)key, (gchar*)value);

    g_hash_table_insert(table, key, value);
  }

  g_variant_unref(v);
  g_variant_unref(element);
  g_variant_unref(child);
  g_variant_unref(ret);

  return table;
}
示例#26
0
//	 		       Socket    Src string      Src str len          Src service        Src service len         NUMERIC?
int accept_inet_stream_socket(int sfd, char* src_host, size_t src_host_len, char* src_service, size_t src_service_len, int flags, int accept_flags)
{
    struct sockaddr_storage client_info;
    int client_sfd;

# ifndef _TRADITIONAL_RDNS
    int retval;
# endif

# ifdef _TRADITIONAL_RDNS
    struct sockaddr_storage oldsockaddr;
    socklen_t oldsockaddrlen = sizeof(struct sockaddr_storage);
    struct hostent* he;
    void* addrptr;
    size_t in_addrlen;
    uint16_t sport = 0;
# endif

# ifdef VERBOSE
    const char* errstr;
# endif
    socklen_t addrlen = sizeof(struct sockaddr_storage);

    // Portable behavior
# if LIBSOCKET_LINUX
    if ( -1 == check_error((client_sfd = accept4(sfd,(struct sockaddr*)&client_info,&addrlen,accept_flags)))) // blocks
	return -1;
# else
    if ( -1 == check_error((client_sfd = accept(sfd,(struct sockaddr*)&client_info,&addrlen)))) // blocks
	return -1;
# endif

    if ( src_host_len > 0 || src_service_len > 0 ) // If one of the things is wanted. If you give a null pointer with a positive _len parameter, you won't get the address.
    {
	if ( flags == LIBSOCKET_NUMERIC )
	{
	    flags = NI_NUMERICHOST | NI_NUMERICSERV;
	} else
	{
	    flags = 0; // To prevent errors: Unknown flags are ignored
	}

# ifndef _TRADITIONAL_RDNS
	if ( 0 != (retval = getnameinfo((struct sockaddr*)&client_info,sizeof(struct sockaddr_storage),src_host,src_host_len,src_service,src_service_len,flags)) ) // Write information to the provided memory
	{
# ifdef VERBOSE
	    errstr = gai_strerror(retval);
	    debug_write(errstr);
# endif
	}
# endif

# ifdef _TRADITIONAL_RDNS
	if ( -1 == check_error(getsockname(sfd,(struct sockaddr*)&oldsockaddr,&oldsockaddrlen)) )
	    return -1;

	if ( oldsockaddrlen > sizeof(struct sockaddr_storage) ) // If getsockname truncated the struct
	    return -1;

	if ( oldsockaddr.ss_family == AF_INET )
	{
	    addrptr = &(((struct sockaddr_in*)&client_info)->sin_addr);
	    in_addrlen = sizeof(struct in_addr);
	    sport = ntohs(((struct sockaddr_in*)&client_info)->sin_port);
	} else if ( oldsockaddr.ss_family == AF_INET6 )
	{
	    addrptr = &(((struct sockaddr_in6*)&client_info)->sin6_addr);
	    in_addrlen = sizeof(struct in6_addr);
	    sport = ntohs(((struct sockaddr_in6*)&client_info)->sin6_port);
	}

	if ( NULL == (he = gethostbyaddr(addrptr,in_addrlen,oldsockaddr.ss_family) ) )
	{
	    check_error(-1);
            // Don't return with error on name resolution failure
	}

	strncpy(src_host,he->h_name,src_host_len);
	snprintf(src_service,src_service_len,"%u",sport);
# endif
    }

    return client_sfd;
}
示例#27
0
/* Monitor socket */
void socket_poll (HANDLE hStop, void *_data)
{
  LPSELECTDATA   lpSelectData;
  LPSELECTQUERY    iterQuery;
  HANDLE           aEvents[MAXIMUM_SELECT_OBJECTS];
  DWORD            nEvents;
  long             maskEvents;
  DWORD            i;
  u_long           iMode;
  SELECTMODE       mode;
  WSANETWORKEVENTS events;

  lpSelectData = (LPSELECTDATA)_data;

  DEBUG_PRINT("Worker has %d queries to service", lpSelectData->nQueriesCount);
  for (nEvents = 0; nEvents < lpSelectData->nQueriesCount; nEvents++)
  {
    iterQuery = &(lpSelectData->aQueries[nEvents]);
    aEvents[nEvents] = CreateEvent(NULL, TRUE, FALSE, NULL);
    maskEvents = 0;
    mode = iterQuery->EMode;
    if ((mode & SELECT_MODE_READ) != 0)
    {
      DEBUG_PRINT("Polling read for %d", iterQuery->hFileDescr);
      maskEvents |= FD_READ | FD_ACCEPT | FD_CLOSE;
    }
    if ((mode & SELECT_MODE_WRITE) != 0)
    {
      DEBUG_PRINT("Polling write for %d", iterQuery->hFileDescr);
      maskEvents |= FD_WRITE | FD_CONNECT | FD_CLOSE;
    }
    if ((mode & SELECT_MODE_EXCEPT) != 0)
    {
      DEBUG_PRINT("Polling exceptions for %d", iterQuery->hFileDescr);
      maskEvents |= FD_OOB;
    }

    check_error(lpSelectData,
        WSAEventSelect(
          (SOCKET)(iterQuery->hFileDescr),
          aEvents[nEvents],
          maskEvents) == SOCKET_ERROR);
  }

  /* Add stop event */
  aEvents[nEvents]  = hStop;
  nEvents++;

  if (lpSelectData->nError == 0)
  {
    check_error(lpSelectData,
        WaitForMultipleObjects(
          nEvents,
          aEvents,
          FALSE,
          INFINITE) == WAIT_FAILED);
  };

  if (lpSelectData->nError == 0)
  {
    for (i = 0; i < lpSelectData->nQueriesCount; i++)
    {
      iterQuery = &(lpSelectData->aQueries[i]);
      if (WaitForSingleObject(aEvents[i], 0) == WAIT_OBJECT_0)
      {
        DEBUG_PRINT("Socket %d has pending events", (i - 1));
        if (iterQuery != NULL)
        {
          /* Find out what kind of events were raised
           */
          if (WSAEnumNetworkEvents((SOCKET)(iterQuery->hFileDescr), aEvents[i], &events) == 0)
          {
            if ((iterQuery->EMode & SELECT_MODE_READ) != 0 && (events.lNetworkEvents & (FD_READ | FD_ACCEPT | FD_CLOSE)) != 0)
            {
              select_data_result_add(lpSelectData, SELECT_MODE_READ, iterQuery->lpOrigIdx);
            }
            if ((iterQuery->EMode & SELECT_MODE_WRITE) != 0 && (events.lNetworkEvents & (FD_WRITE | FD_CONNECT | FD_CLOSE)) != 0)
            {
              select_data_result_add(lpSelectData, SELECT_MODE_WRITE, iterQuery->lpOrigIdx);
            }
            if ((iterQuery->EMode & SELECT_MODE_EXCEPT) != 0 && (events.lNetworkEvents & FD_OOB) != 0)
            {
              select_data_result_add(lpSelectData, SELECT_MODE_EXCEPT, iterQuery->lpOrigIdx);
            }
          }
        }
      }
      /* WSAEventSelect() automatically sets socket to nonblocking mode.
         Restore the blocking one. */
      if (iterQuery->uFlagsFd & FLAGS_FD_IS_BLOCKING)
      {
        DEBUG_PRINT("Restore a blocking socket");
        iMode = 0;
        check_error(lpSelectData,
          WSAEventSelect((SOCKET)(iterQuery->hFileDescr), aEvents[i], 0) != 0 ||
          ioctlsocket((SOCKET)(iterQuery->hFileDescr), FIONBIO, &iMode) != 0);
      }
      else
      {
        check_error(lpSelectData,
          WSAEventSelect((SOCKET)(iterQuery->hFileDescr), aEvents[i], 0) != 0);
      };

      CloseHandle(aEvents[i]);
      aEvents[i] = INVALID_HANDLE_VALUE;
    }
  }
}
示例#28
0
int create_multicast_socket(const char* group, const char* port, const char* if_name)
{
    int sfd, return_value;
    struct sockaddr maddr, localif;
    struct addrinfo hints, *result;
    struct ip_mreqn mreq4;
    struct ipv6_mreq mreq6;
    struct in_addr any;
    struct ifreq interface;

    memset(&maddr,0,sizeof(maddr));
    memset(&localif,0,sizeof(localif));
    memset(&mreq4,0,sizeof(mreq4));
    memset(&mreq6,0,sizeof(mreq6));
    memset(&hints,0,sizeof(hints));
    memset(&interface,0,sizeof(interface));

    if ( -1 == check_error(sfd = create_inet_server_socket(group,port,LIBSOCKET_UDP,LIBSOCKET_BOTH,0)) )
    {
        return -1;
    }

    hints.ai_socktype = SOCK_DGRAM;
    hints.ai_family = AF_UNSPEC;

    if ( 0 != (return_value = getaddrinfo(group,port,&hints,&result)) )
    {
        int errno_saved = errno;
# ifdef VERBOSE
	const char* errstring = gai_strerror(return_value);
	debug_write(errstring);
# endif
        close(sfd);
        errno = errno_saved;

        return -1;
    }

    if ( result->ai_family == AF_INET )
    {
        // Result is IPv4 address.
        mreq4.imr_multiaddr = ((struct sockaddr_in*)result->ai_addr)->sin_addr;

        if ( if_name == NULL )
        {
            mreq4.imr_ifindex = 0;
            any.s_addr = INADDR_ANY;
            mreq4.imr_address = any;
        } else
        {
            memcpy(interface.ifr_name,if_name,strlen(if_name) > IFNAMSIZ ? IFNAMSIZ : strlen(if_name));

            if ( -1 == check_error(ioctl(sfd,SIOCGIFINDEX,&interface)) )
            {
                int errno_saved = errno;
                close(sfd);
                errno = errno_saved;
                return -1;
            }

            mreq4.imr_ifindex = interface.ifr_ifindex;
        }

        if ( -1 == check_error(setsockopt(sfd,IPPROTO_IP,IP_ADD_MEMBERSHIP,&mreq4,sizeof(struct ip_mreqn))) )
        {
            int errno_saved = errno;
            close(sfd);
            errno = errno_saved;
            return -1;
        }
        if ( -1 == check_error(setsockopt(sfd,IPPROTO_IP,IP_MULTICAST_IF,&mreq4,sizeof(struct ip_mreqn))) )
        {
            int errno_saved = errno;
            close(sfd);
            errno = errno_saved;
            return -1;
        }

        // Setup finished.
        //
    } else if ( result->ai_family == AF_INET6 )
    {

        mreq6.ipv6mr_multiaddr = ((struct sockaddr_in6*)result->ai_addr)->sin6_addr;
        mreq6.ipv6mr_interface = 0;

        if ( if_name == NULL )
            mreq6.ipv6mr_interface = 0;
        else
        {
            memcpy(interface.ifr_name,if_name,strlen(if_name) > IFNAMSIZ ? IFNAMSIZ : strlen(if_name));

            if ( -1 == check_error(ioctl(sfd,SIOCGIFINDEX,&interface)) )
            {
                int errno_saved = errno;
                close(sfd);
                errno = errno_saved;
                return -1;
            }

            mreq6.ipv6mr_interface = interface.ifr_ifindex;
        }

        if ( -1 == check_error(setsockopt(sfd,IPPROTO_IPV6,IPV6_ADD_MEMBERSHIP,&mreq6,sizeof(struct ipv6_mreq))) )
        {
            int errno_saved = errno;
            close(sfd);
            errno = errno_saved;
            return -1;
        }
        if ( -1 == check_error(setsockopt(sfd,IPPROTO_IPV6,IPV6_MULTICAST_IF,&mreq6.ipv6mr_interface,sizeof(mreq6.ipv6mr_interface))) )
        {
            int errno_saved = errno;
            close(sfd);
            errno = errno_saved;
            return -1;
        }

    }

    return sfd;
}
示例#29
0
void go_cl(config c)
{
    cl_int error;
    cl_platform_id platform;
    cl_device_id device;
    cl_context context;
    cl_command_queue commands;
    cl_program program;
    cl_kernel kernel;
    cl_event ev;
    cl_mem mem;
    float *result = NULL;
    char buf[256];
    int work_size[2] = { 128, 128 };
    int offset[2];
    int x, y;

    cl_float4 camera_pos = { c.camera_pos.x, c.camera_pos.y, c.camera_pos.z, 0 };
    cl_float4 camera_dir = { 
        c.camera_target.x - c.camera_pos.x, 
        c.camera_target.y - c.camera_pos.y, 
        c.camera_target.z - c.camera_pos.z, 
        0 };
    cl_float4 light_pos = { c.light_pos.x, c.light_pos.y, c.light_pos.z, 0 };
    cl_int2 image_size = { c.width, c.height };

    sprintf(buf, "-DBAILOUT=%d -DSCALE=%f -DFOV=%f", c.bailout, c.scale, c.fov);

    printf("Starting\n");

    init_cl(&platform, &device, &context, &commands);

    dump_info(platform, device);

    printf("Creating kernel\n");

    program = load_program_from_file("kernel.cl", context, device, buf);
    kernel = create_kernel(program, "test");

    printf("Setting memory\n");

    mem = clCreateBuffer(context, CL_MEM_WRITE_ONLY, sizeof(float) * c.width * c.height, NULL, &error);
    check_error(error, "Could not allocate buffer");
    error = clSetKernelArg(kernel, 0, sizeof(cl_mem), &mem);
    error = clSetKernelArg(kernel, 1, sizeof(cl_float4), &camera_pos);
    error = clSetKernelArg(kernel, 2, sizeof(cl_float4), &camera_dir);
    error = clSetKernelArg(kernel, 3, sizeof(cl_float4), &light_pos);
    error = clSetKernelArg(kernel, 4, sizeof(cl_int2), &image_size);

    clFinish(commands);

    printf("Running\n");

    for (x = 0; x < c.width; x += work_size[0])
    {
        for (y = 0; y < c.height; y += work_size[1])
        {
            offset[0] = x;
            offset[1] = y;
            error = clEnqueueNDRangeKernel(commands, kernel, 2, offset, work_size, NULL, 0, NULL, &ev);
            printf(".");
        }
    }

    clFinish(commands);

    printf("\nWriting image\n");

    result = malloc(sizeof(float) * c.width * c.height);
    error = clEnqueueReadBuffer(commands, mem, CL_TRUE, 0, sizeof(float) * c.width * c.height, result, 0, NULL, &ev);

    clFinish(commands);

    save(result, c, 0, 0);

    free(result);
    clReleaseMemObject(mem);
    release_cl(context, program, commands, kernel);
}
示例#30
0
/** \return GL_TRUE for pass, GL_FALSE for fail */
static GLboolean
test_fbo(const struct format_info *info)
{
   const int max = get_max_val(info);
   const int comps = num_components(info->BaseFormat);
   const GLenum type = get_datatype(info);
   GLint f;
   GLuint fbo, texObj;
   GLenum status;
   GLboolean intMode;
   GLint buf;

   if (0)
      fprintf(stderr, "============ Testing format = %s ========\n", info->Name);

   /* Create texture */
   glGenTextures(1, &texObj);
   glBindTexture(GL_TEXTURE_2D, texObj);
   glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_NEAREST);
   glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_NEAREST);

   glTexImage2D(GL_TEXTURE_2D, 0, info->IntFormat, TexWidth, TexHeight, 0,
                info->BaseFormat, type, NULL);

   if (check_error(__FILE__, __LINE__))
      return GL_FALSE;

   glGetTexLevelParameteriv(GL_TEXTURE_2D, 0, GL_TEXTURE_INTERNAL_FORMAT, &f);
   assert(f == info->IntFormat);


   /* Create FBO to render to texture */
   glGenFramebuffers(1, &fbo);
   glBindFramebuffer(GL_FRAMEBUFFER, fbo);
   glFramebufferTexture2D(GL_FRAMEBUFFER_EXT, GL_COLOR_ATTACHMENT0_EXT,
                          GL_TEXTURE_2D, texObj, 0);

   if (check_error(__FILE__, __LINE__))
      return GL_FALSE;

   status = glCheckFramebufferStatus(GL_FRAMEBUFFER_EXT);
   if (status != GL_FRAMEBUFFER_COMPLETE_EXT) {
      fprintf(stderr, "%s: failure: framebuffer incomplete.\n", TestName);
      return GL_FALSE;
   }


   glGetBooleanv(GL_RGBA_INTEGER_MODE_EXT, &intMode);
   if (check_error(__FILE__, __LINE__))
      return GL_FALSE;
   if (!intMode) {
      fprintf(stderr, "%s: GL_RGBA_INTEGER_MODE_EXT return GL_FALSE\n",
              TestName);
      return GL_FALSE;
   }

   glGetIntegerv(GL_READ_BUFFER, &buf);
   assert(buf == GL_COLOR_ATTACHMENT0_EXT);
   glGetIntegerv(GL_DRAW_BUFFER, &buf);
   assert(buf == GL_COLOR_ATTACHMENT0_EXT);


   /* test clearing */
   if (1) {
      static const GLint clr[4] = { 8, 7, 6, 5 };
      GLint pix[4], i;

      glClearColorIiEXT(clr[0], clr[1], clr[2], clr[3]);
      glClear(GL_COLOR_BUFFER_BIT);

      glReadPixels(5, 5, 1, 1, GL_RGBA_INTEGER_EXT, GL_INT, pix);

      for (i = 0; i < comps; i++) {
         if (pix[i] != clr[i]) {
            fprintf(stderr, "%s: glClear failed\n", TestName);
            fprintf(stderr, "  Texture format = %s\n", info->Name);
            fprintf(stderr, "  Expected %d, %d, %d, %d\n",
                    clr[0], clr[1], clr[2], clr[3]);
            fprintf(stderr, "  Found %d, %d, %d, %d\n",
                    pix[0], pix[1], pix[2], pix[3]);
            return GL_FALSE;
         }
      }
   }


   /* Do glDraw/ReadPixels test */
   if (1) {
#define W 15
#define H 10
      GLint image[H * W * 4], readback[H * W * 4];
      GLint i;

      if (info->Signed) {
         for (i = 0; i < W * H * 4; i++) {
            image[i] = (i - 10) % max;
            assert(image[i] < max);
         }
      }
      else {
         for (i = 0; i < W * H * 4; i++) {
            image[i] = (i + 3) % max;
            assert(image[i] < max);
         }
      }

      glUseProgram(PassthroughProgram);
      if(0)glUseProgram(SimpleProgram);

      glWindowPos2i(1, 1);
      glDrawPixels(W, H, GL_RGBA_INTEGER_EXT, GL_INT, image);

      if (check_error(__FILE__, __LINE__))
         return GL_FALSE;

      glReadPixels(1, 1, W, H, GL_RGBA_INTEGER_EXT, GL_INT, readback);

      if (check_error(__FILE__, __LINE__))
         return GL_FALSE;

      for (i = 0; i < W * H * 4; i++) {
         if (readback[i] != image[i]) {
            if (comps == 3 && i % 4 == 3 && readback[i] == 1)
               continue; /* alpha = 1 if base format == RGB */

            fprintf(stderr,
                 "%s: glDraw/ReadPixels failed at %d.  Expected %d, found %d\n",
                    TestName, i, image[i], readback[i]);
            fprintf(stderr, "Texture format = %s\n", info->Name);
            assert(0);
            return GL_FALSE;
         }
      }
#undef W
#undef H
   }

   /* Do rendering test */
   if (1) {
      GLint value[4], result[4], loc, w = piglit_width, h = piglit_height;
      GLint error = 1; /* XXX fix */

      /* choose random value/color for polygon */
      value[0] = rand() % 100;
      value[1] = rand() % 100;
      value[2] = rand() % 100;
      value[3] = rand() % 100;

      glUseProgram(SimpleProgram);
      check_error(__FILE__, __LINE__);

      loc = glGetUniformLocation(SimpleProgram, "value");
      assert(loc >= 0);
      glUniform4iv(loc, 1, value);
      check_error(__FILE__, __LINE__);

#if 0 /* allow testing on mesa until this is implemented */
      loc = glGetFragDataLocationEXT(SimpleProgram, "out_color");
      assert(loc >= 0);
#endif

      glBegin(GL_POLYGON);
      glVertex2f(0, 0);
      glVertex2f(w, 0);
      glVertex2f(w, h);
      glVertex2f(0, h);
      glEnd();
      check_error(__FILE__, __LINE__);

      glReadPixels(w/2, h/2, 1, 1, GL_RGBA_INTEGER, GL_INT, result);
      check_error(__FILE__, __LINE__);

      if (info->BaseFormat == GL_RGB_INTEGER_EXT) {
         value[3] = 1;
      }

      if (abs(result[0] - value[0]) > error ||
          abs(result[1] - value[1]) > error ||
          abs(result[2] - value[2]) > error ||
          abs(result[3] - value[3]) > error) {
         fprintf(stderr, "%s: failure with format %s:\n", TestName, info->Name);
         fprintf(stderr, "  input value = %d, %d, %d, %d\n",
                 value[0], value[1], value[2], value[3]);
         fprintf(stderr, "  result color = %d, %d, %d, %d\n",
                 result[0], result[1], result[2], result[3]);
         return GL_FALSE;
      }
   }

   piglit_present_results();

   glDeleteTextures(1, &texObj);
   glDeleteFramebuffers(1, &fbo);

   return GL_TRUE;
}