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When 32 kHz timer is used the min_delta_ns should be initialized so that it reflects the timer programming cost. A write to the timer device will be usually posted, but it takes roughly 3 cycles before it is effective. If the timer is reprogrammed before that, the CPU will stall until the previous write completes. This was pointed out by Richard Woodruff. Since the lower bound for min_delta_ns is 1000, the change is visible only with tick rates less than 3 MHz. Also note that the old value is incorrect for 32 kHz also due to a rounding error, and it can cause the timer queue to hang (due to clockevent code trying to program the timer with zero ticks). Signed-off-by: Aaro Koskinen <Aaro.Koskinen@nokia.com> Reviewed-by: Richard Woodruff <r-woodruff2@ti.com> Signed-off-by: Tony Lindgren <tony@atomide.com>
194 lines
5.0 KiB
C
194 lines
5.0 KiB
C
/*
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* linux/arch/arm/mach-omap2/timer-gp.c
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*
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* OMAP2 GP timer support.
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*
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* Update to use new clocksource/clockevent layers
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* Author: Kevin Hilman, MontaVista Software, Inc. <source@mvista.com>
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* Copyright (C) 2007 MontaVista Software, Inc.
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*
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* Original driver:
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* Copyright (C) 2005 Nokia Corporation
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* Author: Paul Mundt <paul.mundt@nokia.com>
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* Juha Yrjölä <juha.yrjola@nokia.com>
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* OMAP Dual-mode timer framework support by Timo Teras
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*
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* Some parts based off of TI's 24xx code:
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*
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* Copyright (C) 2004 Texas Instruments, Inc.
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*
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* Roughly modelled after the OMAP1 MPU timer code.
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*
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* This file is subject to the terms and conditions of the GNU General Public
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* License. See the file "COPYING" in the main directory of this archive
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* for more details.
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*/
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#include <linux/init.h>
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#include <linux/time.h>
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#include <linux/interrupt.h>
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#include <linux/err.h>
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#include <linux/clk.h>
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#include <linux/delay.h>
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#include <linux/irq.h>
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#include <linux/clocksource.h>
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#include <linux/clockchips.h>
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#include <asm/mach/time.h>
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#include <mach/dmtimer.h>
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static struct omap_dm_timer *gptimer;
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static struct clock_event_device clockevent_gpt;
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static irqreturn_t omap2_gp_timer_interrupt(int irq, void *dev_id)
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{
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struct omap_dm_timer *gpt = (struct omap_dm_timer *)dev_id;
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struct clock_event_device *evt = &clockevent_gpt;
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omap_dm_timer_write_status(gpt, OMAP_TIMER_INT_OVERFLOW);
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evt->event_handler(evt);
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return IRQ_HANDLED;
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}
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static struct irqaction omap2_gp_timer_irq = {
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.name = "gp timer",
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.flags = IRQF_DISABLED | IRQF_TIMER | IRQF_IRQPOLL,
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.handler = omap2_gp_timer_interrupt,
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};
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static int omap2_gp_timer_set_next_event(unsigned long cycles,
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struct clock_event_device *evt)
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{
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omap_dm_timer_set_load_start(gptimer, 0, 0xffffffff - cycles);
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return 0;
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}
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static void omap2_gp_timer_set_mode(enum clock_event_mode mode,
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struct clock_event_device *evt)
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{
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u32 period;
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omap_dm_timer_stop(gptimer);
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switch (mode) {
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case CLOCK_EVT_MODE_PERIODIC:
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period = clk_get_rate(omap_dm_timer_get_fclk(gptimer)) / HZ;
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period -= 1;
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omap_dm_timer_set_load_start(gptimer, 1, 0xffffffff - period);
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break;
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case CLOCK_EVT_MODE_ONESHOT:
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break;
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case CLOCK_EVT_MODE_UNUSED:
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case CLOCK_EVT_MODE_SHUTDOWN:
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case CLOCK_EVT_MODE_RESUME:
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break;
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}
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}
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static struct clock_event_device clockevent_gpt = {
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.name = "gp timer",
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.features = CLOCK_EVT_FEAT_PERIODIC | CLOCK_EVT_FEAT_ONESHOT,
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.shift = 32,
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.set_next_event = omap2_gp_timer_set_next_event,
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.set_mode = omap2_gp_timer_set_mode,
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};
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static void __init omap2_gp_clockevent_init(void)
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{
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u32 tick_rate;
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gptimer = omap_dm_timer_request_specific(1);
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BUG_ON(gptimer == NULL);
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#if defined(CONFIG_OMAP_32K_TIMER)
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omap_dm_timer_set_source(gptimer, OMAP_TIMER_SRC_32_KHZ);
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#else
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omap_dm_timer_set_source(gptimer, OMAP_TIMER_SRC_SYS_CLK);
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#endif
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tick_rate = clk_get_rate(omap_dm_timer_get_fclk(gptimer));
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omap2_gp_timer_irq.dev_id = (void *)gptimer;
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setup_irq(omap_dm_timer_get_irq(gptimer), &omap2_gp_timer_irq);
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omap_dm_timer_set_int_enable(gptimer, OMAP_TIMER_INT_OVERFLOW);
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clockevent_gpt.mult = div_sc(tick_rate, NSEC_PER_SEC,
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clockevent_gpt.shift);
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clockevent_gpt.max_delta_ns =
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clockevent_delta2ns(0xffffffff, &clockevent_gpt);
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clockevent_gpt.min_delta_ns =
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clockevent_delta2ns(3, &clockevent_gpt);
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/* Timer internal resynch latency. */
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clockevent_gpt.cpumask = cpumask_of(0);
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clockevents_register_device(&clockevent_gpt);
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}
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#ifdef CONFIG_OMAP_32K_TIMER
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/*
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* When 32k-timer is enabled, don't use GPTimer for clocksource
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* instead, just leave default clocksource which uses the 32k
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* sync counter. See clocksource setup in see plat-omap/common.c.
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*/
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static inline void __init omap2_gp_clocksource_init(void) {}
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#else
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/*
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* clocksource
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*/
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static struct omap_dm_timer *gpt_clocksource;
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static cycle_t clocksource_read_cycles(void)
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{
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return (cycle_t)omap_dm_timer_read_counter(gpt_clocksource);
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}
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static struct clocksource clocksource_gpt = {
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.name = "gp timer",
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.rating = 300,
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.read = clocksource_read_cycles,
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.mask = CLOCKSOURCE_MASK(32),
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.shift = 24,
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.flags = CLOCK_SOURCE_IS_CONTINUOUS,
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};
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/* Setup free-running counter for clocksource */
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static void __init omap2_gp_clocksource_init(void)
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{
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static struct omap_dm_timer *gpt;
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u32 tick_rate, tick_period;
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static char err1[] __initdata = KERN_ERR
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"%s: failed to request dm-timer\n";
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static char err2[] __initdata = KERN_ERR
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"%s: can't register clocksource!\n";
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gpt = omap_dm_timer_request();
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if (!gpt)
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printk(err1, clocksource_gpt.name);
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gpt_clocksource = gpt;
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omap_dm_timer_set_source(gpt, OMAP_TIMER_SRC_SYS_CLK);
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tick_rate = clk_get_rate(omap_dm_timer_get_fclk(gpt));
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tick_period = (tick_rate / HZ) - 1;
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omap_dm_timer_set_load_start(gpt, 1, 0);
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clocksource_gpt.mult =
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clocksource_khz2mult(tick_rate/1000, clocksource_gpt.shift);
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if (clocksource_register(&clocksource_gpt))
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printk(err2, clocksource_gpt.name);
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}
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#endif
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static void __init omap2_gp_timer_init(void)
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{
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omap_dm_timer_init();
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omap2_gp_clockevent_init();
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omap2_gp_clocksource_init();
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}
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struct sys_timer omap_timer = {
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.init = omap2_gp_timer_init,
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};
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