OpenModem/bertos/drv/timer.c
2014-04-03 22:21:37 +02:00

419 lines
10 KiB
C

/**
* \file
* <!--
* This file is part of BeRTOS.
*
* Bertos is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*
* As a special exception, you may use this file as part of a free software
* library without restriction. Specifically, if other files instantiate
* templates or use macros or inline functions from this file, or you compile
* this file and link it with other files to produce an executable, this
* file does not by itself cause the resulting executable to be covered by
* the GNU General Public License. This exception does not however
* invalidate any other reasons why the executable file might be covered by
* the GNU General Public License.
*
* Copyright 2003, 2004, 2005, 2006 Develer S.r.l. (http://www.develer.com/)
* Copyright 2000, 2008 Bernie Innocenti <bernie@codewiz.org>
* -->
*
* \brief Hardware independent timer driver (implementation)
*
* \author Bernie Innocenti <bernie@codewiz.org>
* \author Francesco Sacchi <batt@develer.com>
*/
#include "timer.h"
#include "hw/hw_timer.h"
#include "cfg/cfg_timer.h"
#include "cfg/cfg_wdt.h"
#include "cfg/cfg_proc.h"
#include "cfg/cfg_signal.h"
#include <cfg/os.h>
#include <cfg/debug.h>
#include <cfg/module.h>
#include <cpu/attr.h>
#include <cpu/types.h>
#include <cpu/irq.h>
#include <cpu/power.h> // cpu_relax()
#include <kern/proc_p.h> // proc_decQuantun()
/*
* Include platform-specific binding code if we're hosted.
* Try the CPU specific one for bare-metal environments.
*/
#if OS_HOSTED
//#include OS_CSOURCE(timer)
#include <emul/timer_posix.c>
#else
#ifndef WIZ_AUTOGEN
#warning Deprecated: now you should include timer_<cpu> directly in the makefile. Remove this line and the following once done.
#include CPU_CSOURCE(timer)
#endif
#endif
/*
* Sanity check for config parameters required by this module.
*/
#if !defined(CONFIG_KERN) || ((CONFIG_KERN != 0) && CONFIG_KERN != 1)
#error CONFIG_KERN must be set to either 0 or 1 in config.h
#endif
#if !defined(CONFIG_WATCHDOG) || ((CONFIG_WATCHDOG != 0) && CONFIG_WATCHDOG != 1)
#error CONFIG_WATCHDOG must be set to either 0 or 1 in config.h
#endif
#if CONFIG_WATCHDOG
#include <drv/wdt.h>
#endif
#if defined (CONFIG_KERN_SIGNALS) && CONFIG_KERN_SIGNALS
#include <kern/signal.h> /* sig_wait(), sig_check() */
#include <kern/proc.h> /* proc_current() */
#include <cfg/macros.h> /* BV() */
#endif
/**
* \def CONFIG_TIMER_STROBE
*
* This is a debug facility that can be used to
* monitor timer interrupt activity on an external pin.
*
* To use strobes, redefine the macros TIMER_STROBE_ON,
* TIMER_STROBE_OFF and TIMER_STROBE_INIT and set
* CONFIG_TIMER_STROBE to 1.
*/
#if !defined(CONFIG_TIMER_STROBE) || !CONFIG_TIMER_STROBE
#define TIMER_STROBE_ON do {/*nop*/} while(0)
#define TIMER_STROBE_OFF do {/*nop*/} while(0)
#define TIMER_STROBE_INIT do {/*nop*/} while(0)
#endif
/// Master system clock (1 tick accuracy)
volatile ticks_t _clock;
#if CONFIG_TIMER_EVENTS
/**
* List of active asynchronous timers.
*/
REGISTER static List timers_queue;
/**
* This function really does the job. It adds \a timer to \a queue.
* \see timer_add for details.
*/
INLINE void timer_addToList(Timer *timer, List *queue)
{
/* Inserting timers twice causes mayhem. */
ASSERT(timer->magic != TIMER_MAGIC_ACTIVE);
DB(timer->magic = TIMER_MAGIC_ACTIVE;)
/* Calculate expiration time for this timer */
timer->tick = _clock + timer->_delay;
/*
* Search for the first node whose expiration time is
* greater than the timer we want to add.
*/
Timer *node = (Timer *)LIST_HEAD(queue);
while (node->link.succ)
{
/*
* Stop just after the insertion point.
* (this fancy compare takes care of wrap-arounds).
*/
if (node->tick - timer->tick > 0)
break;
/* Go to next node */
node = (Timer *)node->link.succ;
}
/* Enqueue timer request into the list */
INSERT_BEFORE(&timer->link, &node->link);
}
/**
* Add the specified timer to the software timer service queue.
* When the delay indicated by the timer expires, the timer
* device will execute the event associated with it.
*
* You should not call this function on an already running timer.
*
* \note Interrupt safe
*/
void timer_add(Timer *timer)
{
ATOMIC(timer_addToList(timer, &timers_queue));
}
/**
* Remove a timer from the timers queue before it has expired.
*
* \note Attempting to remove a timer already expired cause
* undefined behaviour.
*/
Timer *timer_abort(Timer *timer)
{
ATOMIC(REMOVE(&timer->link));
DB(timer->magic = TIMER_MAGIC_INACTIVE;)
return timer;
}
INLINE void timer_poll(List *queue)
{
Timer *timer;
/*
* Check the first timer request in the list and process
* it when it has expired. Repeat this check until the
* first node has not yet expired. Since the list is sorted
* by expiry time, all the following requests are guaranteed
* to expire later.
*/
while ((timer = (Timer *)LIST_HEAD(queue))->link.succ)
{
/* This request in list has not yet expired? */
if (timer_clock() - timer->tick < 0)
break;
/* Retreat the expired timer */
REMOVE(&timer->link);
DB(timer->magic = TIMER_MAGIC_INACTIVE;)
/* Execute the associated event */
event_do(&timer->expire);
}
}
/**
* Add \a timer to \a queue.
* \see synctimer_poll() for details.
*/
void synctimer_add(Timer *timer, List *queue)
{
timer_addToList(timer, queue);
}
/**
* Simple synchronous timer based scheduler polling routine.
*
* Sometimes you would like to have a proper scheduler,
* but you can't afford it due to memory constraints.
*
* This is a simple replacement: you can create events and call
* them periodically at specific time intervals.
* All you have to do is to set up normal timers, and call synctimer_add()
* instead of timer_add() to add the events to your specific queue.
* Then, in the main loop or wherever you want, you can call
* synctimer_poll() to process expired events. The associated callbacks will be
* executed.
* As this is done synchronously you don't have to worry about race conditions.
* You can kill an event by simply calling synctimer_abort().
*
*/
void synctimer_poll(List *queue)
{
timer_poll(queue);
}
#endif /* CONFIG_TIMER_EVENTS */
/**
* Wait for the specified amount of timer ticks.
*
* \note Sleeping while preemption is disabled fallbacks to a busy wait sleep.
*/
void timer_delayTicks(ticks_t delay)
{
/* We shouldn't sleep with interrupts disabled */
IRQ_ASSERT_ENABLED();
#if CONFIG_KERN_SIGNALS
Timer t;
DB(t.magic = TIMER_MAGIC_INACTIVE;)
if (proc_preemptAllowed())
{
timer_setEvent(&t);
timer_setDelay(&t, delay);
timer_add(&t);
timer_waitEvent(&t);
}
else
#endif /* !CONFIG_KERN_SIGNALS */
{
ticks_t start = timer_clock();
/* Busy wait */
while (timer_clock() - start < delay)
cpu_relax();
}
}
#if CONFIG_TIMER_UDELAY
/**
* Busy wait until the specified amount of high-precision ticks have elapsed.
*
* \note This function is interrupt safe, the only
* requirement is a running hardware timer.
*/
void timer_busyWait(hptime_t delay)
{
hptime_t now, prev = timer_hw_hpread();
hptime_t delta;
for (;;)
{
now = timer_hw_hpread();
/*
* The timer counter may wrap here and "prev" can become
* greater than "now". So, be sure to always evaluate a
* coherent timer difference:
*
* 0 prev now TIMER_HW_CNT
* |_____|_______________|_____|
* ^^^^^^^^^^^^^^^
* delta = now - prev
*
* 0 now prev TIMER_HW_CNT
* |_____|_______________|_____|
* ^^^^^ ^^^^^
* delta = (TIMER_HW_CNT - prev) + now
*
* NOTE: TIMER_HW_CNT can be any value, not necessarily a power
* of 2. For this reason the "%" operator is not suitable for
* the generic case.
*/
delta = (now < prev) ? ((hptime_t)TIMER_HW_CNT - prev + now) :
(now - prev);
if (delta >= delay)
break;
delay -= delta;
prev = now;
}
}
/**
* Wait for the specified amount of time (expressed in microseconds).
*
* \bug In AVR arch the maximum amount of time that can be used as
* delay could be very limited, depending on the hardware timer
* used. Check timer_avr.h, and what register is used as hptime_t.
*/
void timer_delayHp(hptime_t delay)
{
if (UNLIKELY(delay > us_to_hptime(1000)))
{
timer_delayTicks(delay / (TIMER_HW_HPTICKS_PER_SEC / TIMER_TICKS_PER_SEC));
delay %= (TIMER_HW_HPTICKS_PER_SEC / TIMER_TICKS_PER_SEC);
}
timer_busyWait(delay);
}
#endif /* CONFIG_TIMER_UDELAY */
/**
* Timer interrupt handler. Find soft timers expired and
* trigger corresponding events.
*/
DEFINE_TIMER_ISR
{
/*
* With the Metrowerks compiler, the only way to force the compiler generate
* an interrupt service routine is to put a pragma directive within the function
* body.
*/
#ifdef __MWERKS__
#pragma interrupt saveall
#endif
/*
* On systems sharing IRQ line and vector, this check is needed
* to ensure that IRQ is generated by timer source.
*/
if (!timer_hw_triggered())
return;
TIMER_STROBE_ON;
/* Update the master ms counter */
++_clock;
/* Update the current task's quantum (if enabled). */
proc_decQuantum();
#if CONFIG_TIMER_EVENTS
timer_poll(&timers_queue);
#endif
/* Perform hw IRQ handling */
timer_hw_irq();
TIMER_STROBE_OFF;
}
MOD_DEFINE(timer)
/**
* Initialize timer
*/
void timer_init(void)
{
#if CONFIG_KERN_IRQ
MOD_CHECK(irq);
#endif
#if CONFIG_TIMER_EVENTS
LIST_INIT(&timers_queue);
#endif
TIMER_STROBE_INIT;
_clock = 0;
timer_hw_init();
MOD_INIT(timer);
}
#if (ARCH & ARCH_EMUL)
/**
* Stop timer (only used by emulator)
*/
void timer_cleanup(void)
{
MOD_CLEANUP(timer);
timer_hw_cleanup();
// Hmmm... apparently, the demo app does not cleanup properly
//ASSERT(LIST_EMPTY(&timers_queue));
}
#endif /* ARCH_EMUL */