-- -- TMTEST / BODY -- -- DESCRIPTION: -- -- This package is the implementation of Test 1 of the RTEMS -- Timing Test Suite. -- -- DEPENDENCIES: -- -- -- -- COPYRIGHT (c) 1989-1997. -- On-Line Applications Research Corporation (OAR). -- Copyright assigned to U.S. Government, 1994. -- -- The license and distribution terms for this file may in -- the file LICENSE in this distribution or at -- http://www.OARcorp.com/rtems/license.html. -- -- $Id$ -- with INTERFACES; use INTERFACES; with RTEMS; with RTEMS_CALLING_OVERHEAD; with TEST_SUPPORT; with TEXT_IO; with TIME_TEST_SUPPORT; with UNSIGNED32_IO; package body TMTEST is --PAGE -- -- INIT -- procedure INIT ( ARGUMENT : in RTEMS.TASK_ARGUMENT ) is STATUS : RTEMS.STATUS_CODES; begin TEXT_IO.NEW_LINE( 2 ); TEXT_IO.PUT_LINE( "*** TIME TEST 1 ***" ); TMTEST.TASK_NAME( 1 ) := RTEMS.BUILD_NAME( 'T', 'A', '1', ' ' ); TMTEST.TASK_NAME( 2 ) := RTEMS.BUILD_NAME( 'T', 'A', '2', ' ' ); TMTEST.TASK_NAME( 3 ) := RTEMS.BUILD_NAME( 'T', 'A', '3', ' ' ); RTEMS.TASK_CREATE( TMTEST.TASK_NAME( 1 ), 1, 2048, RTEMS.DEFAULT_MODES, RTEMS.DEFAULT_ATTRIBUTES, TMTEST.TASK_ID( 1 ), STATUS ); TEST_SUPPORT.DIRECTIVE_FAILED( STATUS, "TASK_CREATE OF TA1" ); RTEMS.TASK_START( TMTEST.TASK_ID( 1 ), TMTEST.TASK_1'ACCESS, 0, STATUS ); TEST_SUPPORT.DIRECTIVE_FAILED( STATUS, "TASK_START OF TA1" ); RTEMS.TASK_DELETE( RTEMS.SELF, STATUS ); TEST_SUPPORT.DIRECTIVE_FAILED( STATUS, "TASK_DELETE OF SELF" ); end INIT; --PAGE -- -- TASK_1 -- procedure TASK_1 ( ARGUMENT : in RTEMS.TASK_ARGUMENT ) is SEMAPHORE_OBTAIN_TIME : RTEMS.UNSIGNED32; SEMAPHORE_RELEASE_TIME : RTEMS.UNSIGNED32; SEMAPHORE_OBTAIN_NO_WAIT_TIME : RTEMS.UNSIGNED32; SEMAPHORE_OBTAIN_LOOP_TIME : RTEMS.UNSIGNED32; SEMAPHORE_RELEASE_LOOP_TIME : RTEMS.UNSIGNED32; INDEX : RTEMS.UNSIGNED32; ITERATIONS : RTEMS.UNSIGNED32; NAME : RTEMS.NAME; SMID : RTEMS.ID; STATUS : RTEMS.STATUS_CODES; begin NAME := RTEMS.BUILD_NAME( 'S', 'M', '1', ' ' ); SEMAPHORE_OBTAIN_TIME := 0; SEMAPHORE_RELEASE_TIME := 0; SEMAPHORE_OBTAIN_NO_WAIT_TIME := 0; SEMAPHORE_OBTAIN_LOOP_TIME := 0; SEMAPHORE_RELEASE_LOOP_TIME := 0; -- Time one invocation of SEMAPHORE_CREATE TIMER_DRIVER.INITIALIZE; RTEMS.SEMAPHORE_CREATE( NAME, TIME_TEST_SUPPORT.OPERATION_COUNT, RTEMS.DEFAULT_ATTRIBUTES, SMID, STATUS ); TMTEST.END_TIME := TIMER_DRIVER.READ_TIMER; TIME_TEST_SUPPORT.PUT_TIME( "SEMAPHORE_CREATE", TMTEST.END_TIME, 1, 0, RTEMS_CALLING_OVERHEAD.SEMAPHORE_CREATE ); -- Time one invocation of SEMAPHORE_DELETE TIMER_DRIVER.INITIALIZE; RTEMS.SEMAPHORE_DELETE( SMID, STATUS ); TMTEST.END_TIME := TIMER_DRIVER.READ_TIMER; TIME_TEST_SUPPORT.PUT_TIME( "SEMAPHORE_DELETE", TMTEST.END_TIME, 1, 0, RTEMS_CALLING_OVERHEAD.SEMAPHORE_DELETE ); -- Create semaphore for repeated operations. RTEMS.SEMAPHORE_CREATE( NAME, TIME_TEST_SUPPORT.OPERATION_COUNT, RTEMS.DEFAULT_ATTRIBUTES, SMID, STATUS ); TEST_SUPPORT.DIRECTIVE_FAILED( STATUS, "SEMAPHORE_CREATE" ); -- Perform repeated SEMAPHORE OBTAIN's and RELEASE's for ITERATIONS in 1 .. TIME_TEST_SUPPORT.OPERATION_COUNT loop TIMER_DRIVER.INITIALIZE; for INDEX in 1 .. TIME_TEST_SUPPORT.OPERATION_COUNT loop TIMER_DRIVER.EMPTY_FUNCTION; end loop; TMTEST.END_TIME := TIMER_DRIVER.READ_TIMER; SEMAPHORE_OBTAIN_LOOP_TIME := SEMAPHORE_OBTAIN_LOOP_TIME + TMTEST.END_TIME; SEMAPHORE_RELEASE_LOOP_TIME := SEMAPHORE_RELEASE_LOOP_TIME + TMTEST.END_TIME; -- Semaphore_obtain (available loop) TIMER_DRIVER.INITIALIZE; for INDEX in 1 .. TIME_TEST_SUPPORT.OPERATION_COUNT loop RTEMS.SEMAPHORE_OBTAIN( SMID, RTEMS.DEFAULT_OPTIONS, RTEMS.NO_TIMEOUT, STATUS ); end loop; TMTEST.END_TIME := TIMER_DRIVER.READ_TIMER; SEMAPHORE_OBTAIN_TIME := SEMAPHORE_OBTAIN_TIME + TMTEST.END_TIME; -- Semaphore_release TIMER_DRIVER.INITIALIZE; for INDEX in 1 .. TIME_TEST_SUPPORT.OPERATION_COUNT loop RTEMS.SEMAPHORE_RELEASE( SMID, STATUS ); end loop; TMTEST.END_TIME := TIMER_DRIVER.READ_TIMER; SEMAPHORE_RELEASE_TIME := SEMAPHORE_RELEASE_TIME + TMTEST.END_TIME; -- Semaphore_p (NO_WAIT) TIMER_DRIVER.INITIALIZE; for INDEX in 1 .. TIME_TEST_SUPPORT.OPERATION_COUNT loop RTEMS.SEMAPHORE_OBTAIN( SMID, RTEMS.NO_WAIT, RTEMS.NO_TIMEOUT, STATUS ); end loop; TMTEST.END_TIME := TIMER_DRIVER.READ_TIMER; SEMAPHORE_OBTAIN_NO_WAIT_TIME := SEMAPHORE_OBTAIN_NO_WAIT_TIME + TMTEST.END_TIME; -- Semaphore_v TIMER_DRIVER.INITIALIZE; for INDEX in 1 .. TIME_TEST_SUPPORT.OPERATION_COUNT loop RTEMS.SEMAPHORE_RELEASE( SMID, STATUS ); end loop; TMTEST.END_TIME := TIMER_DRIVER.READ_TIMER; SEMAPHORE_RELEASE_TIME := SEMAPHORE_RELEASE_TIME + TMTEST.END_TIME; end loop; TIME_TEST_SUPPORT.PUT_TIME( "SEMAPHORE_OBTAIN (semaphore available)", SEMAPHORE_OBTAIN_TIME, TIME_TEST_SUPPORT.OPERATION_COUNT * TIME_TEST_SUPPORT.OPERATION_COUNT, SEMAPHORE_OBTAIN_LOOP_TIME, RTEMS_CALLING_OVERHEAD.SEMAPHORE_OBTAIN ); TIME_TEST_SUPPORT.PUT_TIME( "SEMAPHORE_OBTAIN (NO_WAIT)", SEMAPHORE_OBTAIN_NO_WAIT_TIME, TIME_TEST_SUPPORT.OPERATION_COUNT * TIME_TEST_SUPPORT.OPERATION_COUNT, SEMAPHORE_OBTAIN_LOOP_TIME, RTEMS_CALLING_OVERHEAD.SEMAPHORE_OBTAIN ); TIME_TEST_SUPPORT.PUT_TIME( "SEMAPHORE_RELEASE (no task waiting)", SEMAPHORE_RELEASE_TIME, TIME_TEST_SUPPORT.OPERATION_COUNT * TIME_TEST_SUPPORT.OPERATION_COUNT * 2, SEMAPHORE_RELEASE_LOOP_TIME * 2, RTEMS_CALLING_OVERHEAD.SEMAPHORE_RELEASE ); RTEMS.SHUTDOWN_EXECUTIVE( 0 ); end TASK_1; end TMTEST;