213 lines
5.3 KiB
C
213 lines
5.3 KiB
C
/*
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* Copyright (c) 2018 Intel Corporation
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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#include <zephyr/device.h>
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#include <zephyr/devicetree.h>
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#include <zephyr/drivers/timer/system_timer.h>
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#include <zephyr/sys_clock.h>
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#include <zephyr/spinlock.h>
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/* andestech,machine-timer */
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#if DT_HAS_COMPAT_STATUS_OKAY(andestech_machine_timer)
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#define DT_DRV_COMPAT andestech_machine_timer
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#define MTIME_REG DT_INST_REG_ADDR(0)
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#define MTIMECMP_REG (DT_INST_REG_ADDR(0) + 8)
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#define TIMER_IRQN DT_INST_IRQN(0)
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/* neorv32-machine-timer */
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#elif DT_HAS_COMPAT_STATUS_OKAY(neorv32_machine_timer)
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#define DT_DRV_COMPAT neorv32_machine_timer
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#define MTIME_REG DT_INST_REG_ADDR(0)
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#define MTIMECMP_REG (DT_INST_REG_ADDR(0) + 8)
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#define TIMER_IRQN DT_INST_IRQN(0)
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/* nuclei,systimer */
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#elif DT_HAS_COMPAT_STATUS_OKAY(nuclei_systimer)
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#define DT_DRV_COMPAT nuclei_systimer
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#define MTIME_REG DT_INST_REG_ADDR(0)
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#define MTIMECMP_REG (DT_INST_REG_ADDR(0) + 8)
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#define TIMER_IRQN DT_INST_IRQ_BY_IDX(0, 1, irq)
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/* sifive,clint0 */
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#elif DT_HAS_COMPAT_STATUS_OKAY(sifive_clint0)
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#define DT_DRV_COMPAT sifive_clint0
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#define MTIME_REG (DT_INST_REG_ADDR(0) + 0xbff8U)
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#define MTIMECMP_REG (DT_INST_REG_ADDR(0) + 0x4000U)
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#define TIMER_IRQN DT_INST_IRQ_BY_IDX(0, 1, irq)
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/* telink,machine-timer */
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#elif DT_HAS_COMPAT_STATUS_OKAY(telink_machine_timer)
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#define DT_DRV_COMPAT telink_machine_timer
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#define MTIME_REG DT_INST_REG_ADDR(0)
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#define MTIMECMP_REG (DT_INST_REG_ADDR(0) + 8)
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#define TIMER_IRQN DT_INST_IRQN(0)
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#endif
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#define CYC_PER_TICK ((uint32_t)((uint64_t) (sys_clock_hw_cycles_per_sec() \
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>> CONFIG_RISCV_MACHINE_TIMER_SYSTEM_CLOCK_DIVIDER) \
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/ (uint64_t)CONFIG_SYS_CLOCK_TICKS_PER_SEC))
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#define MAX_CYC INT_MAX
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#define MAX_TICKS ((MAX_CYC - CYC_PER_TICK) / CYC_PER_TICK)
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#define MIN_DELAY CONFIG_RISCV_MACHINE_TIMER_MIN_DELAY
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#define TICKLESS IS_ENABLED(CONFIG_TICKLESS_KERNEL)
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static struct k_spinlock lock;
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static uint64_t last_count;
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#if defined(CONFIG_TEST)
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const int32_t z_sys_timer_irq_for_test = TIMER_IRQN;
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#endif
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static uint64_t get_hart_mtimecmp(void)
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{
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return MTIMECMP_REG + (_current_cpu->id * 8);
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}
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static void set_mtimecmp(uint64_t time)
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{
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#ifdef CONFIG_64BIT
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*(volatile uint64_t *)get_hart_mtimecmp() = time;
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#else
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volatile uint32_t *r = (uint32_t *)(uint32_t)get_hart_mtimecmp();
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/* Per spec, the RISC-V MTIME/MTIMECMP registers are 64 bit,
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* but are NOT internally latched for multiword transfers. So
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* we have to be careful about sequencing to avoid triggering
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* spurious interrupts: always set the high word to a max
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* value first.
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*/
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r[1] = 0xffffffff;
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r[0] = (uint32_t)time;
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r[1] = (uint32_t)(time >> 32);
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#endif
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}
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static uint64_t mtime(void)
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{
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#ifdef CONFIG_64BIT
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return *(volatile uint64_t *)MTIME_REG;
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#else
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volatile uint32_t *r = (uint32_t *)MTIME_REG;
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uint32_t lo, hi;
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/* Likewise, must guard against rollover when reading */
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do {
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hi = r[1];
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lo = r[0];
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} while (r[1] != hi);
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return (((uint64_t)hi) << 32) | lo;
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#endif
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}
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static void timer_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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uint64_t now = mtime();
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uint32_t dticks = (uint32_t)((now - last_count) / CYC_PER_TICK);
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last_count = now;
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if (!TICKLESS) {
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uint64_t next = last_count + CYC_PER_TICK;
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if ((int64_t)(next - now) < MIN_DELAY) {
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next += CYC_PER_TICK;
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}
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set_mtimecmp(next);
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}
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k_spin_unlock(&lock, key);
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sys_clock_announce(IS_ENABLED(CONFIG_TICKLESS_KERNEL) ? dticks : 1);
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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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ARG_UNUSED(idle);
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#if defined(CONFIG_TICKLESS_KERNEL)
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/* RISCV has no idle handler yet, so if we try to spin on the
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* logic below to reset the comparator, we'll always bump it
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* forward to the "next tick" due to MIN_DELAY handling and
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* the interrupt will never fire! Just rely on the fact that
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* the OS gave us the proper timeout already.
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*/
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if (idle) {
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return;
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}
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ticks = ticks == K_TICKS_FOREVER ? MAX_TICKS : ticks;
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ticks = CLAMP(ticks - 1, 0, (int32_t)MAX_TICKS);
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k_spinlock_key_t key = k_spin_lock(&lock);
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uint64_t now = mtime();
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uint32_t adj, cyc = ticks * CYC_PER_TICK;
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/* Round up to next tick boundary. */
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adj = (uint32_t)(now - last_count) + (CYC_PER_TICK - 1);
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if (cyc <= MAX_CYC - adj) {
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cyc += adj;
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} else {
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cyc = MAX_CYC;
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}
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cyc = (cyc / CYC_PER_TICK) * CYC_PER_TICK;
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if ((int32_t)(cyc + last_count - now) < MIN_DELAY) {
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cyc += CYC_PER_TICK;
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}
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set_mtimecmp(cyc + last_count);
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k_spin_unlock(&lock, key);
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#endif
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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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uint32_t ret = ((uint32_t)mtime() - (uint32_t)last_count) / CYC_PER_TICK;
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k_spin_unlock(&lock, key);
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return ret;
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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)(mtime() << CONFIG_RISCV_MACHINE_TIMER_SYSTEM_CLOCK_DIVIDER);
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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 (mtime() << CONFIG_RISCV_MACHINE_TIMER_SYSTEM_CLOCK_DIVIDER);
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}
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static int sys_clock_driver_init(const struct device *dev)
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{
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ARG_UNUSED(dev);
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IRQ_CONNECT(TIMER_IRQN, 0, timer_isr, NULL, 0);
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last_count = mtime();
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set_mtimecmp(last_count + CYC_PER_TICK);
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irq_enable(TIMER_IRQN);
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return 0;
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}
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#ifdef CONFIG_SMP
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void smp_timer_init(void)
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{
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set_mtimecmp(last_count + CYC_PER_TICK);
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irq_enable(TIMER_IRQN);
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}
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#endif
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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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