509 lines
14 KiB
C
509 lines
14 KiB
C
// SPDX-License-Identifier: GPL-2.0
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/*
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* 64-bit Periodic Interval Timer driver
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*
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* Copyright (C) 2019 Microchip Technology Inc. and its subsidiaries
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*
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* Author: Claudiu Beznea <claudiu.beznea@microchip.com>
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*/
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#include <linux/clk.h>
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#include <linux/clockchips.h>
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#include <linux/interrupt.h>
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#include <linux/of_address.h>
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#include <linux/of_irq.h>
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#include <linux/sched_clock.h>
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#include <linux/slab.h>
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#define MCHP_PIT64B_CR 0x00 /* Control Register */
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#define MCHP_PIT64B_CR_START BIT(0)
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#define MCHP_PIT64B_CR_SWRST BIT(8)
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#define MCHP_PIT64B_MR 0x04 /* Mode Register */
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#define MCHP_PIT64B_MR_CONT BIT(0)
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#define MCHP_PIT64B_MR_ONE_SHOT (0)
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#define MCHP_PIT64B_MR_SGCLK BIT(3)
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#define MCHP_PIT64B_MR_PRES GENMASK(11, 8)
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#define MCHP_PIT64B_LSB_PR 0x08 /* LSB Period Register */
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#define MCHP_PIT64B_MSB_PR 0x0C /* MSB Period Register */
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#define MCHP_PIT64B_IER 0x10 /* Interrupt Enable Register */
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#define MCHP_PIT64B_IER_PERIOD BIT(0)
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#define MCHP_PIT64B_ISR 0x1C /* Interrupt Status Register */
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#define MCHP_PIT64B_TLSBR 0x20 /* Timer LSB Register */
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#define MCHP_PIT64B_TMSBR 0x24 /* Timer MSB Register */
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#define MCHP_PIT64B_PRES_MAX 0x10
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#define MCHP_PIT64B_LSBMASK GENMASK_ULL(31, 0)
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#define MCHP_PIT64B_PRES_TO_MODE(p) (MCHP_PIT64B_MR_PRES & ((p) << 8))
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#define MCHP_PIT64B_MODE_TO_PRES(m) ((MCHP_PIT64B_MR_PRES & (m)) >> 8)
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#define MCHP_PIT64B_DEF_CS_FREQ 5000000UL /* 5 MHz */
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#define MCHP_PIT64B_DEF_CE_FREQ 32768 /* 32 KHz */
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#define MCHP_PIT64B_NAME "pit64b"
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/**
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* struct mchp_pit64b_timer - PIT64B timer data structure
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* @base: base address of PIT64B hardware block
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* @pclk: PIT64B's peripheral clock
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* @gclk: PIT64B's generic clock
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* @mode: precomputed value for mode register
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*/
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struct mchp_pit64b_timer {
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void __iomem *base;
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struct clk *pclk;
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struct clk *gclk;
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u32 mode;
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};
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/**
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* mchp_pit64b_clkevt - PIT64B clockevent data structure
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* @timer: PIT64B timer
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* @clkevt: clockevent
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*/
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struct mchp_pit64b_clkevt {
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struct mchp_pit64b_timer timer;
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struct clock_event_device clkevt;
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};
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#define clkevt_to_mchp_pit64b_timer(x) \
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((struct mchp_pit64b_timer *)container_of(x,\
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struct mchp_pit64b_clkevt, clkevt))
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/**
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* mchp_pit64b_clksrc - PIT64B clocksource data structure
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* @timer: PIT64B timer
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* @clksrc: clocksource
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*/
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struct mchp_pit64b_clksrc {
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struct mchp_pit64b_timer timer;
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struct clocksource clksrc;
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};
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#define clksrc_to_mchp_pit64b_timer(x) \
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((struct mchp_pit64b_timer *)container_of(x,\
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struct mchp_pit64b_clksrc, clksrc))
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/* Base address for clocksource timer. */
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static void __iomem *mchp_pit64b_cs_base;
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/* Default cycles for clockevent timer. */
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static u64 mchp_pit64b_ce_cycles;
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static inline u64 mchp_pit64b_cnt_read(void __iomem *base)
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{
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unsigned long flags;
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u32 low, high;
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raw_local_irq_save(flags);
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/*
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* When using a 64 bit period TLSB must be read first, followed by the
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* read of TMSB. This sequence generates an atomic read of the 64 bit
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* timer value whatever the lapse of time between the accesses.
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*/
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low = readl_relaxed(base + MCHP_PIT64B_TLSBR);
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high = readl_relaxed(base + MCHP_PIT64B_TMSBR);
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raw_local_irq_restore(flags);
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return (((u64)high << 32) | low);
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}
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static inline void mchp_pit64b_reset(struct mchp_pit64b_timer *timer,
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u64 cycles, u32 mode, u32 irqs)
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{
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u32 low, high;
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low = cycles & MCHP_PIT64B_LSBMASK;
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high = cycles >> 32;
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writel_relaxed(MCHP_PIT64B_CR_SWRST, timer->base + MCHP_PIT64B_CR);
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writel_relaxed(mode | timer->mode, timer->base + MCHP_PIT64B_MR);
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writel_relaxed(high, timer->base + MCHP_PIT64B_MSB_PR);
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writel_relaxed(low, timer->base + MCHP_PIT64B_LSB_PR);
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writel_relaxed(irqs, timer->base + MCHP_PIT64B_IER);
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writel_relaxed(MCHP_PIT64B_CR_START, timer->base + MCHP_PIT64B_CR);
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}
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static void mchp_pit64b_suspend(struct mchp_pit64b_timer *timer)
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{
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writel_relaxed(MCHP_PIT64B_CR_SWRST, timer->base + MCHP_PIT64B_CR);
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if (timer->mode & MCHP_PIT64B_MR_SGCLK)
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clk_disable_unprepare(timer->gclk);
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clk_disable_unprepare(timer->pclk);
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}
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static void mchp_pit64b_resume(struct mchp_pit64b_timer *timer)
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{
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clk_prepare_enable(timer->pclk);
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if (timer->mode & MCHP_PIT64B_MR_SGCLK)
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clk_prepare_enable(timer->gclk);
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}
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static void mchp_pit64b_clksrc_suspend(struct clocksource *cs)
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{
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struct mchp_pit64b_timer *timer = clksrc_to_mchp_pit64b_timer(cs);
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mchp_pit64b_suspend(timer);
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}
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static void mchp_pit64b_clksrc_resume(struct clocksource *cs)
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{
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struct mchp_pit64b_timer *timer = clksrc_to_mchp_pit64b_timer(cs);
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mchp_pit64b_resume(timer);
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mchp_pit64b_reset(timer, ULLONG_MAX, MCHP_PIT64B_MR_CONT, 0);
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}
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static u64 mchp_pit64b_clksrc_read(struct clocksource *cs)
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{
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return mchp_pit64b_cnt_read(mchp_pit64b_cs_base);
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}
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static u64 mchp_pit64b_sched_read_clk(void)
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{
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return mchp_pit64b_cnt_read(mchp_pit64b_cs_base);
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}
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static int mchp_pit64b_clkevt_shutdown(struct clock_event_device *cedev)
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{
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struct mchp_pit64b_timer *timer = clkevt_to_mchp_pit64b_timer(cedev);
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writel_relaxed(MCHP_PIT64B_CR_SWRST, timer->base + MCHP_PIT64B_CR);
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return 0;
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}
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static int mchp_pit64b_clkevt_set_periodic(struct clock_event_device *cedev)
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{
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struct mchp_pit64b_timer *timer = clkevt_to_mchp_pit64b_timer(cedev);
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mchp_pit64b_reset(timer, mchp_pit64b_ce_cycles, MCHP_PIT64B_MR_CONT,
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MCHP_PIT64B_IER_PERIOD);
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return 0;
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}
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static int mchp_pit64b_clkevt_set_next_event(unsigned long evt,
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struct clock_event_device *cedev)
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{
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struct mchp_pit64b_timer *timer = clkevt_to_mchp_pit64b_timer(cedev);
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mchp_pit64b_reset(timer, evt, MCHP_PIT64B_MR_ONE_SHOT,
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MCHP_PIT64B_IER_PERIOD);
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return 0;
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}
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static void mchp_pit64b_clkevt_suspend(struct clock_event_device *cedev)
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{
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struct mchp_pit64b_timer *timer = clkevt_to_mchp_pit64b_timer(cedev);
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mchp_pit64b_suspend(timer);
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}
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static void mchp_pit64b_clkevt_resume(struct clock_event_device *cedev)
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{
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struct mchp_pit64b_timer *timer = clkevt_to_mchp_pit64b_timer(cedev);
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mchp_pit64b_resume(timer);
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}
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static irqreturn_t mchp_pit64b_interrupt(int irq, void *dev_id)
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{
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struct mchp_pit64b_clkevt *irq_data = dev_id;
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/* Need to clear the interrupt. */
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readl_relaxed(irq_data->timer.base + MCHP_PIT64B_ISR);
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irq_data->clkevt.event_handler(&irq_data->clkevt);
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return IRQ_HANDLED;
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}
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static void __init mchp_pit64b_pres_compute(u32 *pres, u32 clk_rate,
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u32 max_rate)
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{
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u32 tmp;
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for (*pres = 0; *pres < MCHP_PIT64B_PRES_MAX; (*pres)++) {
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tmp = clk_rate / (*pres + 1);
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if (tmp <= max_rate)
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break;
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}
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/* Use the bigest prescaler if we didn't match one. */
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if (*pres == MCHP_PIT64B_PRES_MAX)
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*pres = MCHP_PIT64B_PRES_MAX - 1;
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}
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/**
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* mchp_pit64b_init_mode - prepare PIT64B mode register value to be used at
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* runtime; this includes prescaler and SGCLK bit
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*
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* PIT64B timer may be fed by gclk or pclk. When gclk is used its rate has to
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* be at least 3 times lower that pclk's rate. pclk rate is fixed, gclk rate
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* could be changed via clock APIs. The chosen clock (pclk or gclk) could be
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* divided by the internal PIT64B's divider.
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*
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* This function, first tries to use GCLK by requesting the desired rate from
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* PMC and then using the internal PIT64B prescaler, if any, to reach the
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* requested rate. If PCLK/GCLK < 3 (condition requested by PIT64B hardware)
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* then the function falls back on using PCLK as clock source for PIT64B timer
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* choosing the highest prescaler in case it doesn't locate one to match the
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* requested frequency.
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*
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* Below is presented the PIT64B block in relation with PMC:
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*
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* PIT64B
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* PMC +------------------------------------+
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* +----+ | +-----+ |
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* | |-->gclk -->|-->| | +---------+ +-----+ |
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* | | | | MUX |--->| Divider |->|timer| |
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* | |-->pclk -->|-->| | +---------+ +-----+ |
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* +----+ | +-----+ |
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* | ^ |
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* | sel |
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* +------------------------------------+
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*
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* Where:
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* - gclk rate <= pclk rate/3
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* - gclk rate could be requested from PMC
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* - pclk rate is fixed (cannot be requested from PMC)
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*/
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static int __init mchp_pit64b_init_mode(struct mchp_pit64b_timer *timer,
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unsigned long max_rate)
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{
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unsigned long pclk_rate, diff = 0, best_diff = ULONG_MAX;
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long gclk_round = 0;
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u32 pres, best_pres = 0;
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pclk_rate = clk_get_rate(timer->pclk);
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if (!pclk_rate)
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return -EINVAL;
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timer->mode = 0;
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/* Try using GCLK. */
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gclk_round = clk_round_rate(timer->gclk, max_rate);
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if (gclk_round < 0)
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goto pclk;
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if (pclk_rate / gclk_round < 3)
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goto pclk;
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mchp_pit64b_pres_compute(&pres, gclk_round, max_rate);
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best_diff = abs(gclk_round / (pres + 1) - max_rate);
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best_pres = pres;
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if (!best_diff) {
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timer->mode |= MCHP_PIT64B_MR_SGCLK;
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clk_set_rate(timer->gclk, gclk_round);
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goto done;
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}
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pclk:
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/* Check if requested rate could be obtained using PCLK. */
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mchp_pit64b_pres_compute(&pres, pclk_rate, max_rate);
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diff = abs(pclk_rate / (pres + 1) - max_rate);
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if (best_diff > diff) {
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/* Use PCLK. */
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best_pres = pres;
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} else {
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/* Use GCLK. */
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timer->mode |= MCHP_PIT64B_MR_SGCLK;
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clk_set_rate(timer->gclk, gclk_round);
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}
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done:
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timer->mode |= MCHP_PIT64B_PRES_TO_MODE(best_pres);
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pr_info("PIT64B: using clk=%s with prescaler %u, freq=%lu [Hz]\n",
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timer->mode & MCHP_PIT64B_MR_SGCLK ? "gclk" : "pclk", best_pres,
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timer->mode & MCHP_PIT64B_MR_SGCLK ?
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gclk_round / (best_pres + 1) : pclk_rate / (best_pres + 1));
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return 0;
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}
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static int __init mchp_pit64b_init_clksrc(struct mchp_pit64b_timer *timer,
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u32 clk_rate)
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{
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struct mchp_pit64b_clksrc *cs;
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int ret;
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cs = kzalloc(sizeof(*cs), GFP_KERNEL);
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if (!cs)
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return -ENOMEM;
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mchp_pit64b_reset(timer, ULLONG_MAX, MCHP_PIT64B_MR_CONT, 0);
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mchp_pit64b_cs_base = timer->base;
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cs->timer.base = timer->base;
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cs->timer.pclk = timer->pclk;
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cs->timer.gclk = timer->gclk;
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cs->timer.mode = timer->mode;
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cs->clksrc.name = MCHP_PIT64B_NAME;
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cs->clksrc.mask = CLOCKSOURCE_MASK(64);
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cs->clksrc.flags = CLOCK_SOURCE_IS_CONTINUOUS;
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cs->clksrc.rating = 210;
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cs->clksrc.read = mchp_pit64b_clksrc_read;
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cs->clksrc.suspend = mchp_pit64b_clksrc_suspend;
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cs->clksrc.resume = mchp_pit64b_clksrc_resume;
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ret = clocksource_register_hz(&cs->clksrc, clk_rate);
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if (ret) {
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pr_debug("clksrc: Failed to register PIT64B clocksource!\n");
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/* Stop timer. */
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writel_relaxed(MCHP_PIT64B_CR_SWRST,
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timer->base + MCHP_PIT64B_CR);
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kfree(cs);
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return ret;
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}
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sched_clock_register(mchp_pit64b_sched_read_clk, 64, clk_rate);
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return 0;
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}
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static int __init mchp_pit64b_init_clkevt(struct mchp_pit64b_timer *timer,
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u32 clk_rate, u32 irq)
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{
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struct mchp_pit64b_clkevt *ce;
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int ret;
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ce = kzalloc(sizeof(*ce), GFP_KERNEL);
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if (!ce)
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return -ENOMEM;
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mchp_pit64b_ce_cycles = DIV_ROUND_CLOSEST(clk_rate, HZ);
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ce->timer.base = timer->base;
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ce->timer.pclk = timer->pclk;
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ce->timer.gclk = timer->gclk;
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ce->timer.mode = timer->mode;
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ce->clkevt.name = MCHP_PIT64B_NAME;
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ce->clkevt.features = CLOCK_EVT_FEAT_ONESHOT | CLOCK_EVT_FEAT_PERIODIC;
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ce->clkevt.rating = 150;
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ce->clkevt.set_state_shutdown = mchp_pit64b_clkevt_shutdown;
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ce->clkevt.set_state_periodic = mchp_pit64b_clkevt_set_periodic;
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ce->clkevt.set_next_event = mchp_pit64b_clkevt_set_next_event;
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ce->clkevt.suspend = mchp_pit64b_clkevt_suspend;
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ce->clkevt.resume = mchp_pit64b_clkevt_resume;
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ce->clkevt.cpumask = cpumask_of(0);
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ce->clkevt.irq = irq;
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ret = request_irq(irq, mchp_pit64b_interrupt, IRQF_TIMER,
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"pit64b_tick", ce);
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if (ret) {
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pr_debug("clkevt: Failed to setup PIT64B IRQ\n");
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kfree(ce);
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return ret;
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}
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clockevents_config_and_register(&ce->clkevt, clk_rate, 1, ULONG_MAX);
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return 0;
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}
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static int __init mchp_pit64b_dt_init_timer(struct device_node *node,
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bool clkevt)
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{
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u32 freq = clkevt ? MCHP_PIT64B_DEF_CE_FREQ : MCHP_PIT64B_DEF_CS_FREQ;
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struct mchp_pit64b_timer timer;
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unsigned long clk_rate;
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u32 irq = 0;
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int ret;
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/* Parse DT node. */
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timer.pclk = of_clk_get_by_name(node, "pclk");
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if (IS_ERR(timer.pclk))
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return PTR_ERR(timer.pclk);
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timer.gclk = of_clk_get_by_name(node, "gclk");
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if (IS_ERR(timer.gclk))
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return PTR_ERR(timer.gclk);
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timer.base = of_iomap(node, 0);
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if (!timer.base)
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return -ENXIO;
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if (clkevt) {
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irq = irq_of_parse_and_map(node, 0);
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if (!irq) {
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ret = -ENODEV;
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goto io_unmap;
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}
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}
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/* Initialize mode (prescaler + SGCK bit). To be used at runtime. */
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ret = mchp_pit64b_init_mode(&timer, freq);
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if (ret)
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goto irq_unmap;
|
|
|
|
ret = clk_prepare_enable(timer.pclk);
|
|
if (ret)
|
|
goto irq_unmap;
|
|
|
|
if (timer.mode & MCHP_PIT64B_MR_SGCLK) {
|
|
ret = clk_prepare_enable(timer.gclk);
|
|
if (ret)
|
|
goto pclk_unprepare;
|
|
|
|
clk_rate = clk_get_rate(timer.gclk);
|
|
} else {
|
|
clk_rate = clk_get_rate(timer.pclk);
|
|
}
|
|
clk_rate = clk_rate / (MCHP_PIT64B_MODE_TO_PRES(timer.mode) + 1);
|
|
|
|
if (clkevt)
|
|
ret = mchp_pit64b_init_clkevt(&timer, clk_rate, irq);
|
|
else
|
|
ret = mchp_pit64b_init_clksrc(&timer, clk_rate);
|
|
|
|
if (ret)
|
|
goto gclk_unprepare;
|
|
|
|
return 0;
|
|
|
|
gclk_unprepare:
|
|
if (timer.mode & MCHP_PIT64B_MR_SGCLK)
|
|
clk_disable_unprepare(timer.gclk);
|
|
pclk_unprepare:
|
|
clk_disable_unprepare(timer.pclk);
|
|
irq_unmap:
|
|
irq_dispose_mapping(irq);
|
|
io_unmap:
|
|
iounmap(timer.base);
|
|
|
|
return ret;
|
|
}
|
|
|
|
static int __init mchp_pit64b_dt_init(struct device_node *node)
|
|
{
|
|
static int inits;
|
|
|
|
switch (inits++) {
|
|
case 0:
|
|
/* 1st request, register clockevent. */
|
|
return mchp_pit64b_dt_init_timer(node, true);
|
|
case 1:
|
|
/* 2nd request, register clocksource. */
|
|
return mchp_pit64b_dt_init_timer(node, false);
|
|
}
|
|
|
|
/* The rest, don't care. */
|
|
return -EINVAL;
|
|
}
|
|
|
|
TIMER_OF_DECLARE(mchp_pit64b, "microchip,sam9x60-pit64b", mchp_pit64b_dt_init);
|