static void sco_sock_clear_timer(struct sock *sk)
{
BT_DBG("sock %p state %d", sk, sk->state);
cyg_alarm_disable(sk->timeout_alarm_handle);
cyg_alarm_delete(sk->timeout_alarm_handle);
// if (timer_pending(&sk->timer) && del_timer(&sk->timer))
__sock_put(sk);
}
static void sco_sock_set_timer(struct sock *sk, long timeout)
{
BT_DBG("sock %p state %d timeout %ld", sk, sk->state, timeout);
// if (!mod_timer(&sk->timer, jiffies + timeout))
// sock_hold(sk);
cyg_alarm_disable(sk->timeout_alarm_handle);
cyg_alarm_initialize(sk->timeout_alarm_handle, cyg_current_time()+timeout, 0);
cyg_alarm_enable(sk->timeout_alarm_handle);
sock_hold(sk);
}
void CECOSTimerHandler::disableHandler(void){
cyg_alarm_disable(m_stAlarmHandle);
}
void kclock0_main(void)
{
CYG_TEST_INIT();
CHECK(flash());
CHECK(flash());
cyg_counter_create( &counter0, &counter0o);
CHECK( 0 == cyg_counter_current_value( counter0 ) );
cyg_counter_tick(counter0);
CHECK( 1 == cyg_counter_current_value(counter0) );
cyg_counter_tick(counter0);
CHECK( 2 == cyg_counter_current_value(counter0) );
cyg_counter_set_value( counter0, 0xffffffff );
CHECK( 0xffffffff == cyg_counter_current_value(counter0) );
cyg_counter_tick(counter0); // Overflows 32 bits
CHECK( 0x100000000ULL == cyg_counter_current_value(counter0) );
cyg_counter_set_value(counter0, 11);
CHECK( 11 == cyg_counter_current_value(counter0) );
/* the call_me functions cause the "called" bits to toggle
// checking the value of called checks the parity of # of calls
// made by each alarm.
*/
cyg_alarm_create(counter0,
call_me, (cyg_addrword_t)0x1, &alarm0, &alarmo[0]);
cyg_alarm_create(counter0,
call_me, (cyg_addrword_t)0x2, &alarm1, &alarmo[1]);
cyg_alarm_create(counter0,
call_me2, (cyg_addrword_t)0x4, &alarm2, &alarmo[2]);
CHECK( 0x00 == called );
cyg_alarm_initialize(alarm0, 12,3);
cyg_alarm_initialize(alarm2, 21,2);
CHECK( 0x00 == called );
cyg_counter_tick(counter0); /* 12 a0 */
CHECK( 0x01 == called );
cyg_alarm_initialize(alarm1, 13,0);
cyg_counter_tick(counter0); /* 13 a1 */
CHECK( 0x03 == called );
cyg_alarm_initialize(alarm1, 17,0);
cyg_counter_tick(counter0); /* 14 */
CHECK( 0x03 == called );
cyg_counter_tick(counter0); /* 15 a0 */
CHECK( 0x02 == called );
cyg_counter_tick(counter0); /* 16 */
cyg_counter_tick(counter0); /* 17 a1 */
CHECK( 0x00 == called );
cyg_counter_tick(counter0); /* 18 a0 */
CHECK( 0x01 == called );
cyg_counter_tick(counter0); /* 19 */
cyg_counter_tick(counter0); /* 20 */
cyg_counter_tick(counter0); /* 21 a0 a2 */
CHECK( 0x14 == called );
cyg_counter_tick(counter0); /* 22 */
cyg_counter_tick(counter0); /* 23 a2 */
CHECK( 0x00 == called );
cyg_alarm_disable(alarm2);
cyg_counter_tick(counter0); /* 24 a0 */
cyg_counter_tick(counter0); /* 25 */
CHECK( 0x01 == called );
cyg_alarm_enable(alarm2); /* a2 (enabled at 25) */
CHECK( 0x15 == called );
cyg_counter_tick(counter0); /* 26 */
CHECK( 0x15 == called );
cyg_counter_tick(counter0); /* 27 a0 a2 */
cyg_counter_tick(counter0); /* 28 */
CHECK( 0x00 == called );
cyg_counter_tick(counter0); /* 29 a2 */
cyg_counter_tick(counter0); /* 30 a0 */
cyg_counter_tick(counter0); /* 31 a2 */
CHECK( 0x01 == called );
res0.dividend = 100;
res0.divisor = 3;
cyg_clock_create( res0, &clock0, &clock0o );
res1 = cyg_clock_get_resolution(clock0);
CHECK( res0.dividend == res1.dividend );
CHECK( res0.divisor == res1.divisor );
res1.dividend = 12;
res1.divisor = 25;
cyg_clock_set_resolution(clock0, res1);
res0 = cyg_clock_get_resolution(clock0);
CHECK( res0.dividend == res1.dividend );
CHECK( res0.divisor == res1.divisor );
cyg_clock_to_counter(clock0, &counter1);
CHECK( 0 == cyg_counter_current_value( counter1 ) );
CHECK( 0 == cyg_current_time() );
cyg_counter_tick(counter1);
CHECK( 1 == cyg_counter_current_value(counter1) );
res0 = cyg_clock_get_resolution(cyg_real_time_clock());
/* Current time should be 0 as interrupts will still be disabled */
CHECK( 0 == cyg_current_time() );
CYG_TEST_PASS_FINISH("Kernel C API Clock 0 OK");
}
