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-rw-r--r--target/linux/s3c24xx/patches-2.6.31/070-s3c24xx-time.patch499
1 files changed, 499 insertions, 0 deletions
diff --git a/target/linux/s3c24xx/patches-2.6.31/070-s3c24xx-time.patch b/target/linux/s3c24xx/patches-2.6.31/070-s3c24xx-time.patch
new file mode 100644
index 0000000000..2a147ce25d
--- /dev/null
+++ b/target/linux/s3c24xx/patches-2.6.31/070-s3c24xx-time.patch
@@ -0,0 +1,499 @@
+From 730b77ed17f637237c16579ad9849b2a994b61a3 Mon Sep 17 00:00:00 2001
+From: Lars-Peter Clausen <lars@metafoo.de>
+Date: Tue, 21 Jul 2009 12:50:43 +0200
+Subject: [PATCH] 070-s3c24xx-time.patch
+
+---
+ arch/arm/plat-s3c24xx/time.c | 480 ++++++++++++++++++++++++++++++++++++++++++
+ 1 files changed, 480 insertions(+), 0 deletions(-)
+ create mode 100644 arch/arm/plat-s3c24xx/time.c
+
+diff --git a/arch/arm/plat-s3c24xx/time.c b/arch/arm/plat-s3c24xx/time.c
+new file mode 100644
+index 0000000..713a6bc
+--- /dev/null
++++ b/arch/arm/plat-s3c24xx/time.c
+@@ -0,0 +1,480 @@
++/* linux/arch/arm/plat-s3c24xx/time.c
++ *
++ * Copyright (C) 2003-2005 Simtec Electronics
++ * Ben Dooks, <ben@simtec.co.uk>
++ *
++ * dyn_tick support by Andrzej Zaborowski based on omap_dyn_tick_timer.
++ *
++ * This program 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
++ */
++
++#include <linux/kernel.h>
++#include <linux/sched.h>
++#include <linux/init.h>
++#include <linux/interrupt.h>
++#include <linux/irq.h>
++#include <linux/err.h>
++#include <linux/clk.h>
++
++#include <asm/system.h>
++#include <asm/leds.h>
++#include <asm/mach-types.h>
++
++#include <asm/io.h>
++#include <asm/irq.h>
++#include <mach/map.h>
++#include <asm/plat-s3c/regs-timer.h>
++#include <mach/regs-irq.h>
++#include <asm/mach/time.h>
++
++#include <asm/plat-s3c24xx/clock.h>
++#include <asm/plat-s3c24xx/cpu.h>
++
++static unsigned long timer_startval;
++static unsigned long timer_usec_ticks;
++static struct work_struct resume_work;
++
++unsigned long pclk;
++struct clk *clk;
++
++#define TIMER_USEC_SHIFT 16
++
++/* we use the shifted arithmetic to work out the ratio of timer ticks
++ * to usecs, as often the peripheral clock is not a nice even multiple
++ * of 1MHz.
++ *
++ * shift of 14 and 15 are too low for the 12MHz, 16 seems to be ok
++ * for the current HZ value of 200 without producing overflows.
++ *
++ * Original patch by Dimitry Andric, updated by Ben Dooks
++*/
++
++
++/* timer_mask_usec_ticks
++ *
++ * given a clock and divisor, make the value to pass into timer_ticks_to_usec
++ * to scale the ticks into usecs
++*/
++
++static inline unsigned long
++timer_mask_usec_ticks(unsigned long scaler, unsigned long pclk)
++{
++ unsigned long den = pclk / 1000;
++
++ return ((1000 << TIMER_USEC_SHIFT) * scaler + (den >> 1)) / den;
++}
++
++/* timer_ticks_to_usec
++ *
++ * convert timer ticks to usec.
++*/
++
++static inline unsigned long timer_ticks_to_usec(unsigned long ticks)
++{
++ unsigned long res;
++
++ res = ticks * timer_usec_ticks;
++ res += 1 << (TIMER_USEC_SHIFT - 4); /* round up slightly */
++
++ return res >> TIMER_USEC_SHIFT;
++}
++
++/***
++ * Returns microsecond since last clock interrupt. Note that interrupts
++ * will have been disabled by do_gettimeoffset()
++ * IRQs are disabled before entering here from do_gettimeofday()
++ */
++
++#define SRCPND_TIMER4 (1<<(IRQ_TIMER4 - IRQ_EINT0))
++
++unsigned long s3c2410_gettimeoffset (void)
++{
++ unsigned long tdone;
++ unsigned long irqpend;
++ unsigned long tval;
++
++ /* work out how many ticks have gone since last timer interrupt */
++
++ tval = __raw_readl(S3C2410_TCNTO(4));
++ tdone = timer_startval - tval;
++
++ /* check to see if there is an interrupt pending */
++
++ irqpend = __raw_readl(S3C2410_SRCPND);
++ if (irqpend & SRCPND_TIMER4) {
++ /* re-read the timer, and try and fix up for the missed
++ * interrupt. Note, the interrupt may go off before the
++ * timer has re-loaded from wrapping.
++ */
++
++ tval = __raw_readl(S3C2410_TCNTO(4));
++ tdone = timer_startval - tval;
++
++ if (tval != 0)
++ tdone += timer_startval;
++ }
++
++ return timer_ticks_to_usec(tdone);
++}
++
++
++/*
++ * IRQ handler for the timer
++ */
++static irqreturn_t
++s3c2410_timer_interrupt(int irq, void *dev_id)
++{
++ timer_tick();
++ return IRQ_HANDLED;
++}
++
++static struct irqaction s3c2410_timer_irq = {
++ .name = "S3C2410 Timer Tick",
++ .flags = IRQF_DISABLED | IRQF_TIMER | IRQF_IRQPOLL,
++ .handler = s3c2410_timer_interrupt,
++};
++
++#define use_tclk1_12() ( \
++ machine_is_bast() || \
++ machine_is_vr1000() || \
++ machine_is_anubis() || \
++ machine_is_osiris() )
++
++/*
++ * Set up timer interrupt, and return the current time in seconds.
++ *
++ * Currently we only use timer4, as it is the only timer which has no
++ * other function that can be exploited externally
++ */
++static void s3c2410_timer_setup (void)
++{
++ unsigned long tcon;
++ unsigned long tcnt;
++ unsigned long tcfg1;
++ unsigned long tcfg0;
++
++ tcnt = 0xffff; /* default value for tcnt */
++
++ /* read the current timer configuration bits */
++
++ tcon = __raw_readl(S3C2410_TCON);
++ tcfg1 = __raw_readl(S3C2410_TCFG1);
++ tcfg0 = __raw_readl(S3C2410_TCFG0);
++
++ /* configure the system for whichever machine is in use */
++
++ if (use_tclk1_12()) {
++ /* timer is at 12MHz, scaler is 1 */
++ timer_usec_ticks = timer_mask_usec_ticks(1, 12000000);
++ tcnt = 12000000 / HZ;
++
++ tcfg1 &= ~S3C2410_TCFG1_MUX4_MASK;
++ tcfg1 |= S3C2410_TCFG1_MUX4_TCLK1;
++ } else {
++ /* since values around 50 to
++ * 70MHz are not values we can directly generate the timer
++ * value from, we need to pre-scale and divide before using it.
++ *
++ * for instance, using 50.7MHz and dividing by 6 gives 8.45MHz
++ * (8.45 ticks per usec)
++ */
++
++ /* configure clock tick */
++ timer_usec_ticks = timer_mask_usec_ticks(6, pclk);
++ printk("timer_usec_ticks = %lu\n", timer_usec_ticks);
++
++ tcfg1 &= ~S3C2410_TCFG1_MUX4_MASK;
++ tcfg1 |= S3C2410_TCFG1_MUX4_DIV2;
++
++ tcfg0 &= ~S3C2410_TCFG_PRESCALER1_MASK;
++ tcfg0 |= ((6 - 1) / 2) << S3C2410_TCFG_PRESCALER1_SHIFT;
++
++ tcnt = (pclk / 6) / HZ;
++ }
++
++ /* timers reload after counting zero, so reduce the count by 1 */
++
++ tcnt--;
++
++ printk("timer tcon=%08lx, tcnt %04lx, tcfg %08lx,%08lx, usec %08lx\n",
++ tcon, tcnt, tcfg0, tcfg1, timer_usec_ticks);
++
++ /* check to see if timer is within 16bit range... */
++ if (tcnt > 0xffff) {
++ panic("setup_timer: HZ is too small, cannot configure timer!");
++ return;
++ }
++
++ __raw_writel(tcfg1, S3C2410_TCFG1);
++ __raw_writel(tcfg0, S3C2410_TCFG0);
++
++ timer_startval = tcnt;
++ __raw_writel(tcnt, S3C2410_TCNTB(4));
++
++ /* ensure timer is stopped... */
++
++ tcon &= ~(7<<20);
++ tcon |= S3C2410_TCON_T4RELOAD;
++ tcon |= S3C2410_TCON_T4MANUALUPD;
++
++ __raw_writel(tcon, S3C2410_TCON);
++ __raw_writel(tcnt, S3C2410_TCNTB(4));
++ __raw_writel(tcnt, S3C2410_TCMPB(4));
++
++ /* start the timer running */
++ tcon |= S3C2410_TCON_T4START;
++ tcon &= ~S3C2410_TCON_T4MANUALUPD;
++ __raw_writel(tcon, S3C2410_TCON);
++
++ __raw_writel(__raw_readl(S3C2410_INTMSK) & (~(1UL << 14)),
++ S3C2410_INTMSK);
++
++}
++
++struct sys_timer s3c24xx_timer;
++static void timer_resume_work(struct work_struct *work)
++{
++ clk_enable(clk);
++
++#ifdef CONFIG_NO_IDLE_HZ
++ if (s3c24xx_timer.dyn_tick->state & DYN_TICK_ENABLED)
++ s3c24xx_timer.dyn_tick->enable();
++ else
++#endif
++ s3c2410_timer_setup();
++}
++
++static void __init s3c2410_timer_init (void)
++{
++ if (!use_tclk1_12()) {
++ /* for the h1940 (and others), we use the pclk from the core
++ * to generate the timer values.
++ */
++
++ /* this is used as default if no other timer can be found */
++ clk = clk_get(NULL, "timers");
++ if (IS_ERR(clk))
++ panic("failed to get clock for system timer");
++
++ clk_enable(clk);
++
++ pclk = clk_get_rate(clk);
++ printk("pclk = %lu\n", pclk);
++ }
++
++ INIT_WORK(&resume_work, timer_resume_work);
++ s3c2410_timer_setup();
++ setup_irq(IRQ_TIMER4, &s3c2410_timer_irq);
++}
++
++static void s3c2410_timer_resume_work(struct work_struct *work)
++{
++ s3c2410_timer_setup();
++}
++
++static void s3c2410_timer_resume(void)
++{
++ static DECLARE_WORK(work, s3c2410_timer_resume_work);
++ int res;
++
++ res = schedule_work(&work);
++ if (!res)
++ printk(KERN_ERR
++ "s3c2410_timer_resume_work already queued ???\n");
++}
++
++#ifdef CONFIG_NO_IDLE_HZ
++/*
++ * We'll set a constant prescaler so we don't have to bother setting it
++ * when reprogramming and so that we avoid costly divisions.
++ *
++ * (2 * HZ) << INPUT_FREQ_SHIFT is the desired frequency after prescaler.
++ * At HZ == 200, HZ * 1024 should work for PCLKs of up to ~53.5 MHz.
++ */
++#define INPUT_FREQ_SHIFT 9
++
++static int ticks_last;
++static int ticks_left;
++static uint32_t tcnto_last;
++
++static inline int s3c24xx_timer_read(void)
++{
++ uint32_t tcnto = __raw_readl(S3C2410_TCNTO(4));
++
++ /*
++ * WARNING: sometimes we get called before TCNTB has been
++ * loaded into the counter and TCNTO then returns its previous
++ * value and kill us, so don't do anything before counter is
++ * reloaded.
++ */
++ if (unlikely(tcnto == tcnto_last))
++ return ticks_last;
++
++ tcnto_last = -1;
++ return tcnto <<
++ ((__raw_readl(S3C2410_TCFG1) >> S3C2410_TCFG1_MUX4_SHIFT) & 3);
++}
++
++static inline void s3c24xx_timer_program(int ticks)
++{
++ uint32_t tcon = __raw_readl(S3C2410_TCON) & ~(7 << 20);
++ uint32_t tcfg1 = __raw_readl(S3C2410_TCFG1) & ~S3C2410_TCFG1_MUX4_MASK;
++
++ /* Just make sure the timer is stopped. */
++ __raw_writel(tcon, S3C2410_TCON);
++
++ /* TODO: add likely()ies / unlikely()ies */
++ if (ticks >> 18) {
++ ticks_last = min(ticks, 0xffff << 3);
++ ticks_left = ticks - ticks_last;
++ __raw_writel(tcfg1 | S3C2410_TCFG1_MUX4_DIV16, S3C2410_TCFG1);
++ __raw_writel(ticks_last >> 3, S3C2410_TCNTB(4));
++ } else if (ticks >> 17) {
++ ticks_last = ticks;
++ ticks_left = 0;
++ __raw_writel(tcfg1 | S3C2410_TCFG1_MUX4_DIV8, S3C2410_TCFG1);
++ __raw_writel(ticks_last >> 2, S3C2410_TCNTB(4));
++ } else if (ticks >> 16) {
++ ticks_last = ticks;
++ ticks_left = 0;
++ __raw_writel(tcfg1 | S3C2410_TCFG1_MUX4_DIV4, S3C2410_TCFG1);
++ __raw_writel(ticks_last >> 1, S3C2410_TCNTB(4));
++ } else {
++ ticks_last = ticks;
++ ticks_left = 0;
++ __raw_writel(tcfg1 | S3C2410_TCFG1_MUX4_DIV2, S3C2410_TCFG1);
++ __raw_writel(ticks_last >> 0, S3C2410_TCNTB(4));
++ }
++
++ tcnto_last = __raw_readl(S3C2410_TCNTO(4));
++ __raw_writel(tcon | S3C2410_TCON_T4MANUALUPD,
++ S3C2410_TCON);
++ __raw_writel(tcon | S3C2410_TCON_T4START,
++ S3C2410_TCON);
++}
++
++/*
++ * If we have already waited all the time we were supposed to wait,
++ * kick the timer, setting the longest allowed timeout value just
++ * for time-keeping.
++ */
++static inline void s3c24xx_timer_program_idle(void)
++{
++ s3c24xx_timer_program(0xffff << 3);
++}
++
++static inline void s3c24xx_timer_update(int restart)
++{
++ int ticks_cur = s3c24xx_timer_read();
++ int jiffies_elapsed = (ticks_last - ticks_cur) >> INPUT_FREQ_SHIFT;
++ int subjiffy = ticks_last - (jiffies_elapsed << INPUT_FREQ_SHIFT);
++
++ if (restart) {
++ if (ticks_left >= (1 << INPUT_FREQ_SHIFT))
++ s3c24xx_timer_program(ticks_left);
++ else
++ s3c24xx_timer_program_idle();
++ ticks_last += subjiffy;
++ } else
++ ticks_last = subjiffy;
++
++ while (jiffies_elapsed --)
++ timer_tick();
++}
++
++/* Called when the timer expires. */
++static irqreturn_t s3c24xx_timer_handler(int irq, void *dev_id)
++{
++ tcnto_last = -1;
++ s3c24xx_timer_update(1);
++
++ return IRQ_HANDLED;
++}
++
++/* Called to update jiffies with time elapsed. */
++static irqreturn_t s3c24xx_timer_handler_dyn_tick(int irq, void *dev_id)
++{
++ s3c24xx_timer_update(0);
++
++ return IRQ_HANDLED;
++}
++
++/*
++ * Programs the next timer interrupt needed. Called when dynamic tick is
++ * enabled, and to reprogram the ticks to skip from pm_idle. The CPU goes
++ * to sleep directly after this.
++ */
++static void s3c24xx_timer_reprogram_dyn_tick(unsigned long next_jiffies)
++{
++ int subjiffy_left = ticks_last - s3c24xx_timer_read();
++
++ s3c24xx_timer_program(max((int) next_jiffies, 1) << INPUT_FREQ_SHIFT);
++ ticks_last += subjiffy_left;
++}
++
++static unsigned long s3c24xx_timer_offset_dyn_tick(void)
++{
++ /* TODO */
++ return 0;
++}
++
++static int s3c24xx_timer_enable_dyn_tick(void)
++{
++ /* Set our constant prescaler. */
++ uint32_t tcfg0 = __raw_readl(S3C2410_TCFG0);
++ int prescaler =
++ max(min(256, (int) pclk / (HZ << (INPUT_FREQ_SHIFT + 1))), 1);
++
++ tcfg0 &= ~S3C2410_TCFG_PRESCALER1_MASK;
++ tcfg0 |= (prescaler - 1) << S3C2410_TCFG_PRESCALER1_SHIFT;
++ __raw_writel(tcfg0, S3C2410_TCFG0);
++
++ /* Override handlers. */
++ s3c2410_timer_irq.handler = s3c24xx_timer_handler;
++ s3c24xx_timer.offset = s3c24xx_timer_offset_dyn_tick;
++
++ printk(KERN_INFO "dyn_tick enabled on s3c24xx timer 4, "
++ "%li Hz pclk with prescaler %i\n", pclk, prescaler);
++
++ s3c24xx_timer_program_idle();
++
++ return 0;
++}
++
++static int s3c24xx_timer_disable_dyn_tick(void)
++{
++ s3c2410_timer_irq.handler = s3c2410_timer_interrupt;
++ s3c24xx_timer.offset = s3c2410_gettimeoffset;
++ s3c2410_timer_setup();
++
++ return 0;
++}
++
++static struct dyn_tick_timer s3c24xx_dyn_tick_timer = {
++ .enable = s3c24xx_timer_enable_dyn_tick,
++ .disable = s3c24xx_timer_disable_dyn_tick,
++ .reprogram = s3c24xx_timer_reprogram_dyn_tick,
++ .handler = s3c24xx_timer_handler_dyn_tick,
++};
++#endif /* CONFIG_NO_IDLE_HZ */
++
++struct sys_timer s3c24xx_timer = {
++ .init = s3c2410_timer_init,
++ .offset = s3c2410_gettimeoffset,
++ .resume = s3c2410_timer_resume,
++#ifdef CONFIG_NO_IDLE_HZ
++ .dyn_tick = &s3c24xx_dyn_tick_timer,
++#endif
++};
+--
+1.5.6.5
+