2022-07-30 14:10:51 +08:00
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/*
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2023-02-09 12:01:20 +08:00
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* Copyright (c) 2006-2023, RT-Thread Development Team
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2022-07-30 14:10:51 +08:00
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*
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* SPDX-License-Identifier: Apache-2.0
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*
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* Change Logs:
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* Date Author Notes
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* 2022-07-15 Emuzit first version
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*/
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#include <rthw.h>
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#include <drivers/hwtimer.h>
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#include "ch56x_sys.h"
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#include "ch56x_timer.h"
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#include "isr_sp.h"
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2022-08-02 10:36:49 +08:00
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#if !defined(BSP_USING_TMR0) && !defined(BSP_USING_TMR1) && !defined(BSP_USING_TMR2)
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#error "Please define at least one TMRx"
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#endif
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2022-07-30 14:10:51 +08:00
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struct hwtimer_device
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{
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struct rt_hwtimer_device parent;
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struct rt_hwtimer_info hwtimer_info;
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volatile struct timer_registers *reg_base;
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rt_hwtimer_mode_t tmode;
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irq_number_t irqn;
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char *name;
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};
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#ifdef BSP_USING_TMR0
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static struct hwtimer_device hwtimer_device_0 =
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{
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.hwtimer_info =
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{
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.maxfreq = 80000000,
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.minfreq = 80000000,
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.maxcnt = 0x3ffffff,
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.cntmode = HWTIMER_CNTMODE_UP,
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},
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.reg_base = (struct timer_registers *)TMR0_REG_BASE,
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.tmode = HWTIMER_MODE_PERIOD,
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.irqn = TMR0_IRQn,
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.name = "timer0",
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};
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#endif
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#ifdef BSP_USING_TMR1
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static struct hwtimer_device hwtimer_device_1 =
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{
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.hwtimer_info =
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{
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.maxfreq = 80000000,
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.minfreq = 80000000,
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.maxcnt = 0x3ffffff,
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.cntmode = HWTIMER_CNTMODE_UP,
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},
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.reg_base = (struct timer_registers *)TMR1_REG_BASE,
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.tmode = HWTIMER_MODE_PERIOD,
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.irqn = TMR1_IRQn,
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.name = "timer1",
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};
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#endif
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#ifdef BSP_USING_TMR2
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static struct hwtimer_device hwtimer_device_2 =
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{
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.hwtimer_info =
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{
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.maxfreq = 80000000,
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.minfreq = 80000000,
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.maxcnt = 0x3ffffff,
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.cntmode = HWTIMER_CNTMODE_UP,
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},
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.reg_base = (struct timer_registers *)TMR2_REG_BASE,
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.tmode = HWTIMER_MODE_PERIOD,
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.irqn = TMR2_IRQn,
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.name = "timer2",
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};
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#endif
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static void hwtimer_stop(struct rt_hwtimer_device *timer);
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static void hwtimer_init(struct rt_hwtimer_device *timer, uint32_t state)
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{
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struct hwtimer_device *hwtimer_device = (void *)timer;
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RT_ASSERT(hwtimer_device != RT_NULL);
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/* no resource processing, `state` ignored */
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hwtimer_stop(timer);
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if (hwtimer_device->irqn != TMR0_IRQn)
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{
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hwtimer_device->reg_base->CTRL_DMA.reg = 0;
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}
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}
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static rt_err_t hwtimer_start(struct rt_hwtimer_device *timer, uint32_t cnt, rt_hwtimer_mode_t mode)
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{
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struct hwtimer_device *hwtimer_device = (void *)timer;
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volatile struct timer_registers *txreg;
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RT_ASSERT(hwtimer_device != RT_NULL);
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/* hwtimer_device->tmode may be different from timer->mode.
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* For multi-cycle ONESHOT, tmode is set to PERIOD at hwtimer_start.
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*/
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hwtimer_device->tmode = mode;
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sys_clk_off_by_irqn(hwtimer_device->irqn, SYS_SLP_CLK_ON);
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txreg = hwtimer_device->reg_base;
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txreg->CNT_END = cnt;
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txreg->CTRL_MOD.reg = RB_TMR_ALL_CLEAR;
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txreg->CTRL_MOD.reg = RB_TMR_COUNT_EN;
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txreg->INTER_EN.cyc_end = 1;
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rt_hw_interrupt_umask(hwtimer_device->irqn);
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return RT_EOK;
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}
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static void hwtimer_stop(struct rt_hwtimer_device *timer)
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{
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struct hwtimer_device *hwtimer_device = (void *)timer;
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volatile struct timer_registers *txreg;
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RT_ASSERT(hwtimer_device != RT_NULL);
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rt_hw_interrupt_mask(hwtimer_device->irqn);
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/* note: RB_TMR_COUNT_EN cleared */
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txreg = hwtimer_device->reg_base;
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txreg->CTRL_MOD.reg = RB_TMR_ALL_CLEAR;
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txreg->INTER_EN.reg = 0;
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sys_clk_off_by_irqn(hwtimer_device->irqn, SYS_SLP_CLK_OFF);
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}
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static uint32_t hwtimer_count_get(struct rt_hwtimer_device *timer)
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{
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struct hwtimer_device *hwtimer_device = (void *)timer;
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RT_ASSERT(hwtimer_device != RT_NULL);
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return hwtimer_device->reg_base->COUNT;
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}
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static rt_err_t hwtimer_control(
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struct rt_hwtimer_device *timer, uint32_t cmd, void *args)
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{
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struct hwtimer_device *hwtimer_device = (void *)timer;
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rt_err_t result = RT_EOK;
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RT_ASSERT(hwtimer_device != RT_NULL);
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switch (cmd)
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{
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case HWTIMER_CTRL_FREQ_SET:
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/* clocking for ch56x timers are fixed to Fsys */
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if (args == RT_NULL || *(uint32_t *)args != timer->info->minfreq)
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{
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result = -RT_EINVAL;
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}
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break;
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case HWTIMER_CTRL_STOP:
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case HWTIMER_CTRL_INFO_GET:
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case HWTIMER_CTRL_MODE_SET:
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default:
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result = -RT_ENOSYS;
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}
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return result;
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}
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static const struct rt_hwtimer_ops hwtimer_ops =
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{
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.init = hwtimer_init,
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.start = hwtimer_start,
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.stop = hwtimer_stop,
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.count_get = hwtimer_count_get,
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.control = hwtimer_control,
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};
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static int rt_hw_hwtimer_init(void)
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{
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struct hwtimer_device *devices[3];
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uint32_t Fsys = sys_hclk_get();
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int n = 0;
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#ifdef BSP_USING_TMR2
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devices[n++] = &hwtimer_device_2;
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#endif
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#ifdef BSP_USING_TMR1
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devices[n++] = &hwtimer_device_1;
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#endif
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#ifdef BSP_USING_TMR0
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devices[n++] = &hwtimer_device_0;
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#endif
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while (--n >= 0)
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{
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struct hwtimer_device *hwtimer_device = devices[n];
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/* counting frequency is fixed to Fsys */
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hwtimer_device->hwtimer_info.maxfreq = Fsys;
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hwtimer_device->hwtimer_info.minfreq = Fsys;
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hwtimer_device->parent.info = &hwtimer_device->hwtimer_info;
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hwtimer_device->parent.ops = &hwtimer_ops;
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rt_device_hwtimer_register(
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&hwtimer_device->parent, hwtimer_device->name, RT_NULL);
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}
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return RT_EOK;
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}
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INIT_DEVICE_EXPORT(rt_hw_hwtimer_init);
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static void _hwtimer_isr_common(struct hwtimer_device *hwtimer_device)
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{
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volatile struct timer_registers *txreg = hwtimer_device->reg_base;
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if (txreg->INT_FLAG.cyc_end)
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{
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if (hwtimer_device->tmode == HWTIMER_MODE_ONESHOT)
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{
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/* disable timer to emulate oneshot */
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txreg->CTRL_MOD.reg = 0;
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}
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rt_device_hwtimer_isr(&hwtimer_device->parent);
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txreg->INT_FLAG.cyc_end = 1;
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}
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}
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#ifdef BSP_USING_TMR0
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void tmr0_irq_handler(void) __attribute__((interrupt()));
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void tmr0_irq_handler(void)
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{
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isr_sp_enter();
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rt_interrupt_enter();
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_hwtimer_isr_common(&hwtimer_device_0);
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rt_interrupt_leave();
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isr_sp_leave();
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}
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#endif
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#ifdef BSP_USING_TMR1
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void tmr1_irq_handler(void) __attribute__((interrupt()));
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void tmr1_irq_handler(void)
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{
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isr_sp_enter();
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rt_interrupt_enter();
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_hwtimer_isr_common(&hwtimer_device_1);
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rt_interrupt_leave();
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isr_sp_leave();
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}
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#endif
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#ifdef BSP_USING_TMR2
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void tmr2_irq_handler(void) __attribute__((interrupt()));
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void tmr2_irq_handler(void)
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{
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isr_sp_enter();
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rt_interrupt_enter();
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_hwtimer_isr_common(&hwtimer_device_2);
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rt_interrupt_leave();
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isr_sp_leave();
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}
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#endif
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