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250 lines
6.8 KiB
250 lines
6.8 KiB
/* |
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* Copyright (c) 2019 Carlo Caione <ccaione@baylibre.com> |
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* |
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* SPDX-License-Identifier: Apache-2.0 |
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*/ |
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#include <zephyr/init.h> |
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#include <zephyr/drivers/timer/arm_arch_timer.h> |
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#include <zephyr/drivers/timer/system_timer.h> |
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#include <zephyr/irq.h> |
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#include <zephyr/sys_clock.h> |
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#include <zephyr/spinlock.h> |
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#include <zephyr/arch/cpu.h> |
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#ifdef CONFIG_TIMER_READS_ITS_FREQUENCY_AT_RUNTIME |
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/* precompute CYC_PER_TICK at driver init to avoid runtime double divisions */ |
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static uint32_t cyc_per_tick; |
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#define CYC_PER_TICK cyc_per_tick |
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#else |
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#define CYC_PER_TICK (uint32_t)(sys_clock_hw_cycles_per_sec() \ |
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/ CONFIG_SYS_CLOCK_TICKS_PER_SEC) |
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#endif |
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#if defined(CONFIG_GDBSTUB) |
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/* When interactively debugging, the cycle diff can overflow 32-bit variable */ |
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#define cycle_diff_t uint64_t |
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#else |
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/* the unsigned long cast limits divisors to native CPU register width */ |
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#define cycle_diff_t unsigned long |
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#endif |
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#define CYCLE_DIFF_MAX (~(cycle_diff_t)0) |
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/* |
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* We have two constraints on the maximum number of cycles we can wait for. |
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* |
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* 1) sys_clock_announce() accepts at most INT32_MAX ticks. |
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* |
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* 2) The number of cycles between two reports must fit in a cycle_diff_t |
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* variable before converting it to ticks. |
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* |
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* Then: |
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* |
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* 3) Pick the smallest between (1) and (2). |
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* |
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* 4) Take into account some room for the unavoidable IRQ servicing latency. |
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* Let's use 3/4 of the max range. |
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* |
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* Finally let's add the LSB value to the result so to clear out a bunch of |
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* consecutive set bits coming from the original max values to produce a |
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* nicer literal for assembly generation. |
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*/ |
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#define CYCLES_MAX_1 ((uint64_t)INT32_MAX * (uint64_t)CYC_PER_TICK) |
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#define CYCLES_MAX_2 ((uint64_t)CYCLE_DIFF_MAX) |
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#define CYCLES_MAX_3 MIN(CYCLES_MAX_1, CYCLES_MAX_2) |
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#define CYCLES_MAX_4 (CYCLES_MAX_3 / 2 + CYCLES_MAX_3 / 4) |
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#define CYCLES_MAX_5 (CYCLES_MAX_4 + LSB_GET(CYCLES_MAX_4)) |
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#ifdef CONFIG_TIMER_READS_ITS_FREQUENCY_AT_RUNTIME |
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/* precompute CYCLES_MAX at driver init to avoid runtime double divisions */ |
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static uint64_t cycles_max; |
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#define CYCLES_MAX cycles_max |
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#else |
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#define CYCLES_MAX CYCLES_MAX_5 |
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#endif |
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static struct k_spinlock lock; |
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static uint64_t last_cycle; |
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static uint64_t last_tick; |
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static uint32_t last_elapsed; |
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#if defined(CONFIG_TEST) |
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const int32_t z_sys_timer_irq_for_test = ARM_ARCH_TIMER_IRQ; |
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#endif |
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static void arm_arch_timer_compare_isr(const void *arg) |
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{ |
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ARG_UNUSED(arg); |
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k_spinlock_key_t key = k_spin_lock(&lock); |
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#ifdef CONFIG_ARM_ARCH_TIMER_ERRATUM_740657 |
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/* |
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* Workaround required for Cortex-A9 MPCore erratum 740657 |
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* comp. ARM Cortex-A9 processors Software Developers Errata Notice, |
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* ARM document ID032315. |
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*/ |
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if (!arm_arch_timer_get_int_status()) { |
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/* |
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* If the event flag is not set, this is a spurious interrupt. |
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* DO NOT modify the compare register's value, DO NOT announce |
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* elapsed ticks! |
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*/ |
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k_spin_unlock(&lock, key); |
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return; |
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} |
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#endif /* CONFIG_ARM_ARCH_TIMER_ERRATUM_740657 */ |
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uint64_t curr_cycle = arm_arch_timer_count(); |
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uint64_t delta_cycles = curr_cycle - last_cycle; |
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uint32_t delta_ticks = (cycle_diff_t)delta_cycles / CYC_PER_TICK; |
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last_cycle += (cycle_diff_t)delta_ticks * CYC_PER_TICK; |
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last_tick += delta_ticks; |
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last_elapsed = 0; |
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if (!IS_ENABLED(CONFIG_TICKLESS_KERNEL)) { |
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uint64_t next_cycle = last_cycle + CYC_PER_TICK; |
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arm_arch_timer_set_compare(next_cycle); |
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arm_arch_timer_set_irq_mask(false); |
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} else { |
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arm_arch_timer_set_irq_mask(true); |
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#ifdef CONFIG_ARM_ARCH_TIMER_ERRATUM_740657 |
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/* |
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* In tickless mode, the compare register is normally not |
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* updated from within the ISR. Yet, to work around the timer's |
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* erratum, a new value *must* be written while the interrupt |
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* is being processed before the interrupt is acknowledged |
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* by the handling interrupt controller. |
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*/ |
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arm_arch_timer_set_compare(~0ULL); |
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} |
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/* |
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* Clear the event flag so that in case the erratum strikes (the timer's |
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* vector will still be indicated as pending by the GIC's pending register |
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* after this ISR has been executed) the error will be detected by the |
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* check performed upon entry of the ISR -> the event flag is not set, |
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* therefore, no actual hardware interrupt has occurred. |
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*/ |
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arm_arch_timer_clear_int_status(); |
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#else |
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} |
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#endif /* CONFIG_ARM_ARCH_TIMER_ERRATUM_740657 */ |
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k_spin_unlock(&lock, key); |
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sys_clock_announce(delta_ticks); |
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} |
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void sys_clock_set_timeout(int32_t ticks, bool idle) |
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{ |
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if (!IS_ENABLED(CONFIG_TICKLESS_KERNEL)) { |
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return; |
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} |
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if (idle && ticks == K_TICKS_FOREVER) { |
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return; |
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} |
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k_spinlock_key_t key = k_spin_lock(&lock); |
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uint64_t next_cycle; |
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if (ticks == K_TICKS_FOREVER) { |
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next_cycle = last_cycle + CYCLES_MAX; |
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} else { |
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next_cycle = (last_tick + last_elapsed + ticks) * CYC_PER_TICK; |
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if ((next_cycle - last_cycle) > CYCLES_MAX) { |
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next_cycle = last_cycle + CYCLES_MAX; |
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} |
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} |
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arm_arch_timer_set_compare(next_cycle); |
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arm_arch_timer_set_irq_mask(false); |
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k_spin_unlock(&lock, key); |
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} |
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uint32_t sys_clock_elapsed(void) |
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{ |
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if (!IS_ENABLED(CONFIG_TICKLESS_KERNEL)) { |
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return 0; |
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} |
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k_spinlock_key_t key = k_spin_lock(&lock); |
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uint64_t curr_cycle = arm_arch_timer_count(); |
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uint64_t delta_cycles = curr_cycle - last_cycle; |
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uint32_t delta_ticks = (cycle_diff_t)delta_cycles / CYC_PER_TICK; |
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last_elapsed = delta_ticks; |
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k_spin_unlock(&lock, key); |
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return delta_ticks; |
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} |
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uint32_t sys_clock_cycle_get_32(void) |
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{ |
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return (uint32_t)arm_arch_timer_count(); |
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} |
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uint64_t sys_clock_cycle_get_64(void) |
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{ |
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return arm_arch_timer_count(); |
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} |
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#ifdef CONFIG_ARCH_HAS_CUSTOM_BUSY_WAIT |
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void arch_busy_wait(uint32_t usec_to_wait) |
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{ |
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if (usec_to_wait == 0) { |
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return; |
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} |
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uint64_t start_cycles = arm_arch_timer_count(); |
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uint64_t cycles_to_wait = sys_clock_hw_cycles_per_sec() / USEC_PER_SEC * usec_to_wait; |
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for (;;) { |
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uint64_t current_cycles = arm_arch_timer_count(); |
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/* this handles the rollover on an unsigned 32-bit value */ |
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if ((current_cycles - start_cycles) >= cycles_to_wait) { |
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break; |
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} |
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} |
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} |
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#endif |
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#ifdef CONFIG_SMP |
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void smp_timer_init(void) |
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{ |
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/* |
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* set the initial status of timer0 of each secondary core |
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*/ |
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arm_arch_timer_set_compare(last_cycle + CYC_PER_TICK); |
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arm_arch_timer_enable(true); |
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irq_enable(ARM_ARCH_TIMER_IRQ); |
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arm_arch_timer_set_irq_mask(false); |
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} |
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#endif |
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static int sys_clock_driver_init(void) |
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{ |
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IRQ_CONNECT(ARM_ARCH_TIMER_IRQ, ARM_ARCH_TIMER_PRIO, |
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arm_arch_timer_compare_isr, NULL, ARM_ARCH_TIMER_FLAGS); |
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arm_arch_timer_init(); |
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#ifdef CONFIG_TIMER_READS_ITS_FREQUENCY_AT_RUNTIME |
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cyc_per_tick = sys_clock_hw_cycles_per_sec() / CONFIG_SYS_CLOCK_TICKS_PER_SEC; |
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cycles_max = CYCLES_MAX_5; |
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#endif |
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arm_arch_timer_enable(true); |
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last_tick = arm_arch_timer_count() / CYC_PER_TICK; |
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last_cycle = last_tick * CYC_PER_TICK; |
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arm_arch_timer_set_compare(last_cycle + CYC_PER_TICK); |
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irq_enable(ARM_ARCH_TIMER_IRQ); |
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arm_arch_timer_set_irq_mask(false); |
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return 0; |
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} |
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SYS_INIT(sys_clock_driver_init, PRE_KERNEL_2, |
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CONFIG_SYSTEM_CLOCK_INIT_PRIORITY);
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