TOMOYO Linux Cross Reference
Linux/arch/arm/mach-ep93xx/timer-ep93xx.c

   // SPDX-License-Identifier: GPL-2.0
   #include <linux/kernel.h>
   #include <linux/init.h>
   #include <linux/clocksource.h>
   #include <linux/clockchips.h>
   #include <linux/sched_clock.h>
   #include <linux/interrupt.h>
   #include <linux/irq.h>
   #include <linux/io.h>
  #include <asm/mach/time.h>
  #include "soc.h"
  #include "platform.h"
  
  /*************************************************************************
   * Timer handling for EP93xx
   *************************************************************************
   * The ep93xx has four internal timers.  Timers 1, 2 (both 16 bit) and
   * 3 (32 bit) count down at 508 kHz, are self-reloading, and can generate
   * an interrupt on underflow.  Timer 4 (40 bit) counts down at 983.04 kHz,
   * is free-running, and can't generate interrupts.
   *
   * The 508 kHz timers are ideal for use for the timer interrupt, as the
   * most common values of HZ divide 508 kHz nicely.  We pick the 32 bit
   * timer (timer 3) to get as long sleep intervals as possible when using
   * CONFIG_NO_HZ.
   *
   * The higher clock rate of timer 4 makes it a better choice than the
   * other timers for use as clock source and for sched_clock(), providing
   * a stable 40 bit time base.
   *************************************************************************
   */
  #define EP93XX_TIMER_REG(x)             (EP93XX_TIMER_BASE + (x))
  #define EP93XX_TIMER1_LOAD              EP93XX_TIMER_REG(0x00)
  #define EP93XX_TIMER1_VALUE             EP93XX_TIMER_REG(0x04)
  #define EP93XX_TIMER1_CONTROL           EP93XX_TIMER_REG(0x08)
  #define EP93XX_TIMER123_CONTROL_ENABLE  (1 << 7)
  #define EP93XX_TIMER123_CONTROL_MODE    (1 << 6)
  #define EP93XX_TIMER123_CONTROL_CLKSEL  (1 << 3)
  #define EP93XX_TIMER1_CLEAR             EP93XX_TIMER_REG(0x0c)
  #define EP93XX_TIMER2_LOAD              EP93XX_TIMER_REG(0x20)
  #define EP93XX_TIMER2_VALUE             EP93XX_TIMER_REG(0x24)
  #define EP93XX_TIMER2_CONTROL           EP93XX_TIMER_REG(0x28)
  #define EP93XX_TIMER2_CLEAR             EP93XX_TIMER_REG(0x2c)
  #define EP93XX_TIMER4_VALUE_LOW         EP93XX_TIMER_REG(0x60)
  #define EP93XX_TIMER4_VALUE_HIGH        EP93XX_TIMER_REG(0x64)
  #define EP93XX_TIMER4_VALUE_HIGH_ENABLE (1 << 8)
  #define EP93XX_TIMER3_LOAD              EP93XX_TIMER_REG(0x80)
  #define EP93XX_TIMER3_VALUE             EP93XX_TIMER_REG(0x84)
  #define EP93XX_TIMER3_CONTROL           EP93XX_TIMER_REG(0x88)
  #define EP93XX_TIMER3_CLEAR             EP93XX_TIMER_REG(0x8c)
  
  #define EP93XX_TIMER123_RATE            508469
  #define EP93XX_TIMER4_RATE              983040
  
  static u64 notrace ep93xx_read_sched_clock(void)
  {
          u64 ret;
  
          ret = readl(EP93XX_TIMER4_VALUE_LOW);
          ret |= ((u64) (readl(EP93XX_TIMER4_VALUE_HIGH) & 0xff) << 32);
          return ret;
  }
  
  static u64 ep93xx_clocksource_read(struct clocksource *c)
  {
          u64 ret;
  
          ret = readl(EP93XX_TIMER4_VALUE_LOW);
          ret |= ((u64) (readl(EP93XX_TIMER4_VALUE_HIGH) & 0xff) << 32);
          return (u64) ret;
  }
  
  static int ep93xx_clkevt_set_next_event(unsigned long next,
                                          struct clock_event_device *evt)
  {
          /* Default mode: periodic, off, 508 kHz */
          u32 tmode = EP93XX_TIMER123_CONTROL_MODE |
                      EP93XX_TIMER123_CONTROL_CLKSEL;
  
          /* Clear timer */
          writel(tmode, EP93XX_TIMER3_CONTROL);
  
          /* Set next event */
          writel(next, EP93XX_TIMER3_LOAD);
          writel(tmode | EP93XX_TIMER123_CONTROL_ENABLE,
                 EP93XX_TIMER3_CONTROL);
          return 0;
  }
  
  
  static int ep93xx_clkevt_shutdown(struct clock_event_device *evt)
  {
          /* Disable timer */
          writel(0, EP93XX_TIMER3_CONTROL);
  
          return 0;
  }
  
  static struct clock_event_device ep93xx_clockevent = {
         .name                   = "timer1",
         .features               = CLOCK_EVT_FEAT_ONESHOT,
         .set_state_shutdown     = ep93xx_clkevt_shutdown,
         .set_state_oneshot      = ep93xx_clkevt_shutdown,
         .tick_resume            = ep93xx_clkevt_shutdown,
         .set_next_event         = ep93xx_clkevt_set_next_event,
         .rating                 = 300,
 };
 
 static irqreturn_t ep93xx_timer_interrupt(int irq, void *dev_id)
 {
         struct clock_event_device *evt = dev_id;
 
         /* Writing any value clears the timer interrupt */
         writel(1, EP93XX_TIMER3_CLEAR);
 
         evt->event_handler(evt);
 
         return IRQ_HANDLED;
 }
 
 void __init ep93xx_timer_init(void)
 {
         int irq = IRQ_EP93XX_TIMER3;
         unsigned long flags = IRQF_TIMER | IRQF_IRQPOLL;
 
         /* Enable and register clocksource and sched_clock on timer 4 */
         writel(EP93XX_TIMER4_VALUE_HIGH_ENABLE,
                EP93XX_TIMER4_VALUE_HIGH);
         clocksource_mmio_init(NULL, "timer4",
                               EP93XX_TIMER4_RATE, 200, 40,
                               ep93xx_clocksource_read);
         sched_clock_register(ep93xx_read_sched_clock, 40,
                              EP93XX_TIMER4_RATE);
 
         /* Set up clockevent on timer 3 */
         if (request_irq(irq, ep93xx_timer_interrupt, flags, "ep93xx timer",
                         &ep93xx_clockevent))
                 pr_err("Failed to request irq %d (ep93xx timer)\n", irq);
         clockevents_config_and_register(&ep93xx_clockevent,
                                         EP93XX_TIMER123_RATE,
                                         1,
                                         0xffffffffU);
 }
 

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