/* * Copyright (c) 2006-2022, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2021-08-25 AisinoChip First Version */ #include #include #include #ifdef RT_USING_WDT #include "board.h" struct acm32_wdt_obj { union { WDT_HandleTypeDef wdt; IWDT_HandleTypeDef iwdt; } handle; rt_uint16_t is_start; rt_uint16_t type; rt_watchdog_t watchdog; }; #define TYPE_WDT 0 #define TYPE_IWDT 1 #define IWDT_FREQ (32000) #ifdef BSP_USING_WDT #define WDT_NAME "wdt" static struct acm32_wdt_obj acm32_wdt; #endif #ifdef BSP_USING_IWDT #define IWDT_NAME "iwdt" static struct acm32_wdt_obj acm32_iwdt; #endif static struct rt_watchdog_ops ops; rt_inline rt_base_t calc_wdt_divisor_load(rt_uint32_t freq, rt_uint32_t sec, rt_uint32_t *divisor, rt_uint32_t *load) { rt_uint32_t freqMaxSec = 0; rt_uint32_t minFreqDiv = WDT_DIVISOR_NONE; freqMaxSec = RT_UINT32_MAX / freq; while (minFreqDiv <= WDT_DIVISOR_128) { if (sec < freqMaxSec) { break; } minFreqDiv ++; freqMaxSec = RT_UINT32_MAX / freq * (1 << minFreqDiv); } if (minFreqDiv > WDT_DIVISOR_128) { return -1; } *divisor = minFreqDiv; *load = sec * (freq >> minFreqDiv); return 0; } rt_inline rt_base_t calc_iwdt_divisor_load(rt_uint32_t freq, rt_uint32_t sec, rt_uint32_t *divisor, rt_uint32_t *load) { rt_uint32_t minFreqDiv = IWDT_CLOCK_PRESCALER_4; rt_uint32_t freqMaxMs = 0; freqMaxMs = IWDT_RELOAD_MAX_VALUE * 1000 / (freq >> (2 + minFreqDiv)); while (minFreqDiv <= IWDT_CLOCK_PRESCALER_256) { if (sec * 1000 < freqMaxMs) { break; } minFreqDiv ++; freqMaxMs = IWDT_RELOAD_MAX_VALUE * 1000 / (freq >> (2 + minFreqDiv)); } if (minFreqDiv > IWDT_CLOCK_PRESCALER_256) { return -1; } *divisor = minFreqDiv; if (sec < 1000) { *load = (sec * 1000) * IWDT_RELOAD_MAX_VALUE / freqMaxMs; } else { *load = (sec) * IWDT_RELOAD_MAX_VALUE / freqMaxMs / 1000; } return 0; } rt_inline rt_uint32_t calc_wdt_timeout(rt_uint32_t freq, rt_uint32_t divisor, rt_uint32_t count) { /* 1 / ( freq / (1<> (2+divisor)) / IWDT_RELOAD_MAX_VALUE * count */ return count / (freq >> (2 + divisor)); } static rt_err_t wdt_init(rt_watchdog_t *wdt) { return RT_EOK; } static rt_err_t wdt_control(rt_watchdog_t *wdt, int cmd, void *arg) { struct acm32_wdt_obj *wdtObj = NULL; rt_uint32_t timer_clk_hz; rt_uint32_t divisor, load; RT_ASSERT(wdt != RT_NULL); wdtObj = rt_container_of(wdt, struct acm32_wdt_obj, watchdog); timer_clk_hz = System_Get_APBClock(); switch (cmd) { /* feed the watchdog */ case RT_DEVICE_CTRL_WDT_KEEPALIVE: if (TYPE_WDT == wdtObj->type) { HAL_WDT_Feed(&wdtObj->handle.wdt); } else { HAL_IWDT_Kick_Watchdog_Wait_For_Done(&wdtObj->handle.iwdt); } break; /* set watchdog timeout, seconds */ case RT_DEVICE_CTRL_WDT_SET_TIMEOUT: if (TYPE_WDT == wdtObj->type) { if (calc_wdt_divisor_load(timer_clk_hz, (*((rt_uint32_t *)arg)), &divisor, &load)) { return -RT_ERROR; } wdtObj->handle.wdt.Init.WDTDivisor = (WDT_DIVISOR)divisor; wdtObj->handle.wdt.Init.WDTLoad = load; HAL_WDT_Init(&wdtObj->handle.wdt); } else { if (calc_iwdt_divisor_load(IWDT_FREQ, (*((rt_uint32_t *)arg)), &divisor, &load)) { return -RT_ERROR; } wdtObj->handle.iwdt.Instance = IWDT; wdtObj->handle.iwdt.Init.Prescaler = divisor; wdtObj->handle.iwdt.Init.Reload = load; } if (wdtObj->is_start) { if (TYPE_WDT == wdtObj->type) { HAL_WDT_Init(&wdtObj->handle.wdt); } else { HAL_IWDT_Init(&wdtObj->handle.iwdt); } } break; case RT_DEVICE_CTRL_WDT_GET_TIMELEFT: if (TYPE_WDT == wdtObj->type) { (*((rt_uint32_t *)arg)) = calc_wdt_timeout(timer_clk_hz, wdtObj->handle.wdt.Init.WDTDivisor, wdtObj->handle.wdt.Instance->COUNT); } else { return -RT_EINVAL; } break; case RT_DEVICE_CTRL_WDT_GET_TIMEOUT: if (TYPE_WDT == wdtObj->type) { (*((rt_uint32_t *)arg)) = calc_wdt_timeout(timer_clk_hz, wdtObj->handle.wdt.Init.WDTDivisor, wdtObj->handle.wdt.Init.WDTLoad); } else { (*((rt_uint32_t *)arg)) = calc_iwdt_timeout(IWDT_FREQ, wdtObj->handle.iwdt.Init.Prescaler, wdtObj->handle.iwdt.Init.Reload); } break; case RT_DEVICE_CTRL_WDT_START: if (TYPE_WDT == wdtObj->type) { wdtObj->handle.wdt.Instance = WDT; wdtObj->handle.wdt.Init.WDTMode = WDT_MODE_RST; wdtObj->handle.wdt.Init.WDTINTCLRTIME = 0xffff; HAL_WDT_Init(&wdtObj->handle.wdt); HAL_WDT_Start(&wdtObj->handle.wdt); } else { wdtObj->handle.iwdt.Instance->CMDR = IWDT_ENABLE_COMMAND; wdtObj->handle.iwdt.Init.Window = IWDT_RELOAD_MAX_VALUE; /* window function disabled when window >= reload */ wdtObj->handle.iwdt.Init.Wakeup = IWDT_RELOAD_MAX_VALUE; /* wakeup function disabled when wakeup >= reload */ HAL_IWDT_Init(&wdtObj->handle.iwdt); } wdtObj->is_start = 1; break; case RT_DEVICE_CTRL_WDT_STOP: if (TYPE_WDT == wdtObj->type) { HAL_WDT_Stop(&wdtObj->handle.wdt); } else { wdtObj->handle.iwdt.Instance->CMDR = IWDT_DISABLE_COMMAND; } wdtObj->is_start = 0; break; default: return -RT_ERROR; } return RT_EOK; } int rt_wdt_init(void) { ops.init = &wdt_init; ops.control = &wdt_control; #ifdef BSP_USING_WDT acm32_wdt.type = TYPE_WDT; acm32_wdt.is_start = 0; acm32_wdt.watchdog.ops = &ops; if (rt_hw_watchdog_register(&acm32_wdt.watchdog, WDT_NAME, RT_DEVICE_FLAG_DEACTIVATE, RT_NULL) != RT_EOK) { return -RT_ERROR; } #endif #ifdef BSP_USING_IWDT acm32_iwdt.type = TYPE_IWDT; acm32_iwdt.is_start = 0; acm32_iwdt.watchdog.ops = &ops; if (rt_hw_watchdog_register(&acm32_iwdt.watchdog, IWDT_NAME, RT_DEVICE_FLAG_DEACTIVATE, RT_NULL) != RT_EOK) { return -RT_ERROR; } #endif return RT_EOK; } INIT_BOARD_EXPORT(rt_wdt_init); #endif /* RT_USING_WDT */