cregit-Linux how code gets into the kernel

Release 4.11 drivers/clocksource/tcb_clksrc.c

#include <linux/init.h>
#include <linux/clocksource.h>
#include <linux/clockchips.h>
#include <linux/interrupt.h>
#include <linux/irq.h>

#include <linux/clk.h>
#include <linux/err.h>
#include <linux/ioport.h>
#include <linux/io.h>
#include <linux/platform_device.h>
#include <linux/atmel_tc.h>


/*
 * We're configured to use a specific TC block, one that's not hooked
 * up to external hardware, to provide a time solution:
 *
 *   - Two channels combine to create a free-running 32 bit counter
 *     with a base rate of 5+ MHz, packaged as a clocksource (with
 *     resolution better than 200 nsec).
 *   - Some chips support 32 bit counter. A single channel is used for
 *     this 32 bit free-running counter. the second channel is not used.
 *
 *   - The third channel may be used to provide a 16-bit clockevent
 *     source, used in either periodic or oneshot mode.  This runs
 *     at 32 KiHZ, and can handle delays of up to two seconds.
 *
 * A boot clocksource and clockevent source are also currently needed,
 * unless the relevant platforms (ARM/AT91, AVR32/AT32) are changed so
 * this code can be used when init_timers() is called, well before most
 * devices are set up.  (Some low end AT91 parts, which can run uClinux,
 * have only the timers in one TC block... they currently don't support
 * the tclib code, because of that initialization issue.)
 *
 * REVISIT behavior during system suspend states... we should disable
 * all clocks and save the power.  Easily done for clockevent devices,
 * but clocksources won't necessarily get the needed notifications.
 * For deeper system sleep states, this will be mandatory...
 */


static void __iomem *tcaddr;


static u64 tc_get_cycles(struct clocksource *cs) { unsigned long flags; u32 lower, upper; raw_local_irq_save(flags); do { upper = __raw_readl(tcaddr + ATMEL_TC_REG(1, CV)); lower = __raw_readl(tcaddr + ATMEL_TC_REG(0, CV)); } while (upper != __raw_readl(tcaddr + ATMEL_TC_REG(1, CV))); raw_local_irq_restore(flags); return (upper << 16) | lower; }

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static u64 tc_get_cycles32(struct clocksource *cs) { return __raw_readl(tcaddr + ATMEL_TC_REG(0, CV)); }

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static struct clocksource clksrc = { .name = "tcb_clksrc", .rating = 200, .read = tc_get_cycles, .mask = CLOCKSOURCE_MASK(32), .flags = CLOCK_SOURCE_IS_CONTINUOUS, }; #ifdef CONFIG_GENERIC_CLOCKEVENTS struct tc_clkevt_device { struct clock_event_device clkevt; struct clk *clk; void __iomem *regs; };
static struct tc_clkevt_device *to_tc_clkevt(struct clock_event_device *clkevt) { return container_of(clkevt, struct tc_clkevt_device, clkevt); }

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/* For now, we always use the 32K clock ... this optimizes for NO_HZ, * because using one of the divided clocks would usually mean the * tick rate can never be less than several dozen Hz (vs 0.5 Hz). * * A divided clock could be good for high resolution timers, since * 30.5 usec resolution can seem "low". */ static u32 timer_clock;
static int tc_shutdown(struct clock_event_device *d) { struct tc_clkevt_device *tcd = to_tc_clkevt(d); void __iomem *regs = tcd->regs; __raw_writel(0xff, regs + ATMEL_TC_REG(2, IDR)); __raw_writel(ATMEL_TC_CLKDIS, regs + ATMEL_TC_REG(2, CCR)); if (!clockevent_state_detached(d)) clk_disable(tcd->clk); return 0; }

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static int tc_set_oneshot(struct clock_event_device *d) { struct tc_clkevt_device *tcd = to_tc_clkevt(d); void __iomem *regs = tcd->regs; if (clockevent_state_oneshot(d) || clockevent_state_periodic(d)) tc_shutdown(d); clk_enable(tcd->clk); /* slow clock, count up to RC, then irq and stop */ __raw_writel(timer_clock | ATMEL_TC_CPCSTOP | ATMEL_TC_WAVE | ATMEL_TC_WAVESEL_UP_AUTO, regs + ATMEL_TC_REG(2, CMR)); __raw_writel(ATMEL_TC_CPCS, regs + ATMEL_TC_REG(2, IER)); /* set_next_event() configures and starts the timer */ return 0; }

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static int tc_set_periodic(struct clock_event_device *d) { struct tc_clkevt_device *tcd = to_tc_clkevt(d); void __iomem *regs = tcd->regs; if (clockevent_state_oneshot(d) || clockevent_state_periodic(d)) tc_shutdown(d); /* By not making the gentime core emulate periodic mode on top * of oneshot, we get lower overhead and improved accuracy. */ clk_enable(tcd->clk); /* slow clock, count up to RC, then irq and restart */ __raw_writel(timer_clock | ATMEL_TC_WAVE | ATMEL_TC_WAVESEL_UP_AUTO, regs + ATMEL_TC_REG(2, CMR)); __raw_writel((32768 + HZ / 2) / HZ, tcaddr + ATMEL_TC_REG(2, RC)); /* Enable clock and interrupts on RC compare */ __raw_writel(ATMEL_TC_CPCS, regs + ATMEL_TC_REG(2, IER)); /* go go gadget! */ __raw_writel(ATMEL_TC_CLKEN | ATMEL_TC_SWTRG, regs + ATMEL_TC_REG(2, CCR)); return 0; }

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static int tc_next_event(unsigned long delta, struct clock_event_device *d) { __raw_writel(delta, tcaddr + ATMEL_TC_REG(2, RC)); /* go go gadget! */ __raw_writel(ATMEL_TC_CLKEN | ATMEL_TC_SWTRG, tcaddr + ATMEL_TC_REG(2, CCR)); return 0; }

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static struct tc_clkevt_device clkevt = { .clkevt = { .name = "tc_clkevt", .features = CLOCK_EVT_FEAT_PERIODIC | CLOCK_EVT_FEAT_ONESHOT, /* Should be lower than at91rm9200's system timer */ .rating = 125, .set_next_event = tc_next_event, .set_state_shutdown = tc_shutdown, .set_state_periodic = tc_set_periodic, .set_state_oneshot = tc_set_oneshot, }, };
static irqreturn_t ch2_irq(int irq, void *handle) { struct tc_clkevt_device *dev = handle; unsigned int sr; sr = __raw_readl(dev->regs + ATMEL_TC_REG(2, SR)); if (sr & ATMEL_TC_CPCS) { dev->clkevt.event_handler(&dev->clkevt); return IRQ_HANDLED; } return IRQ_NONE; }

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static int __init setup_clkevents(struct atmel_tc *tc, int clk32k_divisor_idx) { int ret; struct clk *t2_clk = tc->clk[2]; int irq = tc->irq[2]; ret = clk_prepare_enable(tc->slow_clk); if (ret) return ret; /* try to enable t2 clk to avoid future errors in mode change */ ret = clk_prepare_enable(t2_clk); if (ret) { clk_disable_unprepare(tc->slow_clk); return ret; } clk_disable(t2_clk); clkevt.regs = tc->regs; clkevt.clk = t2_clk; timer_clock = clk32k_divisor_idx; clkevt.clkevt.cpumask = cpumask_of(0); ret = request_irq(irq, ch2_irq, IRQF_TIMER, "tc_clkevt", &clkevt); if (ret) { clk_unprepare(t2_clk); clk_disable_unprepare(tc->slow_clk); return ret; } clockevents_config_and_register(&clkevt.clkevt, 32768, 1, 0xffff); return ret; }

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David Jander10.60%112.50%
Total168100.00%8100.00%

#else /* !CONFIG_GENERIC_CLOCKEVENTS */
static int __init setup_clkevents(struct atmel_tc *tc, int clk32k_divisor_idx) { /* NOTHING */ return 0; }

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#endif
static void __init tcb_setup_dual_chan(struct atmel_tc *tc, int mck_divisor_idx) { /* channel 0: waveform mode, input mclk/8, clock TIOA0 on overflow */ __raw_writel(mck_divisor_idx /* likely divide-by-8 */ | ATMEL_TC_WAVE | ATMEL_TC_WAVESEL_UP /* free-run */ | ATMEL_TC_ACPA_SET /* TIOA0 rises at 0 */ | ATMEL_TC_ACPC_CLEAR, /* (duty cycle 50%) */ tcaddr + ATMEL_TC_REG(0, CMR)); __raw_writel(0x0000, tcaddr + ATMEL_TC_REG(0, RA)); __raw_writel(0x8000, tcaddr + ATMEL_TC_REG(0, RC)); __raw_writel(0xff, tcaddr + ATMEL_TC_REG(0, IDR)); /* no irqs */ __raw_writel(ATMEL_TC_CLKEN, tcaddr + ATMEL_TC_REG(0, CCR)); /* channel 1: waveform mode, input TIOA0 */ __raw_writel(ATMEL_TC_XC1 /* input: TIOA0 */ | ATMEL_TC_WAVE | ATMEL_TC_WAVESEL_UP, /* free-run */ tcaddr + ATMEL_TC_REG(1, CMR)); __raw_writel(0xff, tcaddr + ATMEL_TC_REG(1, IDR)); /* no irqs */ __raw_writel(ATMEL_TC_CLKEN, tcaddr + ATMEL_TC_REG(1, CCR)); /* chain channel 0 to channel 1*/ __raw_writel(ATMEL_TC_TC1XC1S_TIOA0, tcaddr + ATMEL_TC_BMR); /* then reset all the timers */ __raw_writel(ATMEL_TC_SYNC, tcaddr + ATMEL_TC_BCR); }

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static void __init tcb_setup_single_chan(struct atmel_tc *tc, int mck_divisor_idx) { /* channel 0: waveform mode, input mclk/8 */ __raw_writel(mck_divisor_idx /* likely divide-by-8 */ | ATMEL_TC_WAVE | ATMEL_TC_WAVESEL_UP, /* free-run */ tcaddr + ATMEL_TC_REG(0, CMR)); __raw_writel(0xff, tcaddr + ATMEL_TC_REG(0, IDR)); /* no irqs */ __raw_writel(ATMEL_TC_CLKEN, tcaddr + ATMEL_TC_REG(0, CCR)); /* then reset all the timers */ __raw_writel(ATMEL_TC_SYNC, tcaddr + ATMEL_TC_BCR); }

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static int __init tcb_clksrc_init(void) { static char bootinfo[] __initdata = KERN_DEBUG "%s: tc%d at %d.%03d MHz\n"; struct platform_device *pdev; struct atmel_tc *tc; struct clk *t0_clk; u32 rate, divided_rate = 0; int best_divisor_idx = -1; int clk32k_divisor_idx = -1; int i; int ret; tc = atmel_tc_alloc(CONFIG_ATMEL_TCB_CLKSRC_BLOCK); if (!tc) { pr_debug("can't alloc TC for clocksource\n"); return -ENODEV; } tcaddr = tc->regs; pdev = tc->pdev; t0_clk = tc->clk[0]; ret = clk_prepare_enable(t0_clk); if (ret) { pr_debug("can't enable T0 clk\n"); goto err_free_tc; } /* How fast will we be counting? Pick something over 5 MHz. */ rate = (u32) clk_get_rate(t0_clk); for (i = 0; i < 5; i++) { unsigned divisor = atmel_tc_divisors[i]; unsigned tmp; /* remember 32 KiHz clock for later */ if (!divisor) { clk32k_divisor_idx = i; continue; } tmp = rate / divisor; pr_debug("TC: %u / %-3u [%d] --> %u\n", rate, divisor, i, tmp); if (best_divisor_idx > 0) { if (tmp < 5 * 1000 * 1000) continue; } divided_rate = tmp; best_divisor_idx = i; } printk(bootinfo, clksrc.name, CONFIG_ATMEL_TCB_CLKSRC_BLOCK, divided_rate / 1000000, ((divided_rate + 500000) % 1000000) / 1000); if (tc->tcb_config && tc->tcb_config->counter_width == 32) { /* use apropriate function to read 32 bit counter */ clksrc.read = tc_get_cycles32; /* setup ony channel 0 */ tcb_setup_single_chan(tc, best_divisor_idx); } else { /* tclib will give us three clocks no matter what the * underlying platform supports. */ ret = clk_prepare_enable(tc->clk[1]); if (ret) { pr_debug("can't enable T1 clk\n"); goto err_disable_t0; } /* setup both channel 0 & 1 */ tcb_setup_dual_chan(tc, best_divisor_idx); } /* and away we go! */ ret = clocksource_register_hz(&clksrc, divided_rate); if (ret) goto err_disable_t1; /* channel 2: periodic and oneshot timer support */ ret = setup_clkevents(tc, clk32k_divisor_idx); if (ret) goto err_unregister_clksrc; return 0; err_unregister_clksrc: clocksource_unregister(&clksrc); err_disable_t1: if (!tc->tcb_config || tc->tcb_config->counter_width != 32) clk_disable_unprepare(tc->clk[1]); err_disable_t0: clk_disable_unprepare(t0_clk); err_free_tc: atmel_tc_free(tc); return ret; }

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arch_initcall(tcb_clksrc_init);

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Gaël PORTAY140.90%16.25%
Alexandre Belloni80.52%16.25%
Rusty Russell70.45%16.25%
Shawn Guo70.45%16.25%
Romain Izard60.39%16.25%
Magnus Damm40.26%16.25%
David Jander40.26%16.25%
John Stultz30.19%16.25%
Thomas Gleixner10.06%16.25%
Total1548100.00%16100.00%
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