pinebuds/platform/hal/hal_wdt.c

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/***************************************************************************
*
* Copyright 2015-2019 BES.
* All rights reserved. All unpublished rights reserved.
*
* No part of this work may be used or reproduced in any form or by any
* means, or stored in a database or retrieval system, without prior written
* permission of BES.
*
* Use of this work is governed by a license granted by BES.
* This work contains confidential and proprietary information of
* BES. which is protected by copyright, trade secret,
* trademark and other intellectual property rights.
*
****************************************************************************/
#include "hal_wdt.h"
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#include "cmsis.h"
#include "cmsis_nvic.h"
#include "hal_timer.h"
#include "hal_trace.h"
#include "hal_uart.h"
#include "plat_addr_map.h"
#include "plat_types.h"
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#if defined(CHIP_BEST3001) || defined(CHIP_BEST3003) || \
defined(CHIP_BEST3005) || defined(CHIP_BEST1400) || defined(CHIP_BEST1402)
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#define CLOCK_SYNC_WORKAROUND
#endif
#define SLOW_TIMER_VAL_DELTA 1
#define FAST_TIMER_VAL_DELTA 20
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/* wdt controller */
/* reg address */
/* default timeout in seconds */
#define DEFAULT_TIMEOUT 60
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#define WDT_RATE CONFIG_SYSTICK_HZ
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/* watchdog register offsets and masks */
#define WDTLOAD_REG_OFFSET 0x000
#define WDTLOAD_LOAD_MIN 0x00000001
#define WDTLOAD_LOAD_MAX 0xFFFFFFFF
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#define WDTVALUE_REG_OFFSET 0x004
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#define WDTCONTROL_REG_OFFSET 0x008
#define WDTCONTROL_REG_INT_ENABLE (1 << 0)
#define WDTCONTROL_REG_RESET_ENABLE (1 << 1)
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#define WDTINTCLR_REG_OFFSET 0x00C
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#define WDTRIS_REG_OFFSET 0x010
#define WDTRIS_REG_INT_MASK (1 << 0)
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#define WDTMIS_REG_OFFSET 0x014
#define WDTMIS_REG_INT_MASK (1 << 0)
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#define WDTLOCK_REG_OFFSET 0xC00
#define WDTLOCK_REG_UNLOCK 0x1ACCE551
#define WDTLOCK_REG_LOCK 0x00000001
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/* read write */
#define wdtip_write32(v, b, a) (*((volatile unsigned int *)(b + a)) = v)
#define wdtip_read32(b, a) (*((volatile unsigned int *)(b + a)))
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#if 1
typedef void (*HAL_WDT_IRQ_HANDLER)(void);
struct HAL_WDT_CTX {
unsigned int load_val;
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};
struct HAL_WDT_CTX hal_wdt_ctx[HAL_WDT_ID_NUM];
static void _wdt1_irq_handler(void);
HAL_WDT_IRQ_HANDLER hal_wdt_irq_handler[HAL_WDT_ID_NUM] = {
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_wdt1_irq_handler,
};
HAL_WDT_IRQ_CALLBACK hal_wdt_irq_callback[HAL_WDT_ID_NUM];
static void _wdt1_irq_handler(void) {
if (hal_wdt_irq_callback[HAL_WDT_ID_0] != 0) {
hal_wdt_irq_callback[HAL_WDT_ID_0](HAL_WDT_ID_0, HAL_WDT_EVENT_FIRE);
}
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}
static unsigned int _wdt_get_base(enum HAL_WDT_ID_T id) {
switch (id) {
default:
case HAL_WDT_ID_0:
return WDT_BASE;
break;
}
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return 0;
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}
static void _wdt_load(enum HAL_WDT_ID_T id) {
unsigned int reg_base = 0;
struct HAL_WDT_CTX *wdt = &hal_wdt_ctx[id];
uint32_t lock;
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reg_base = _wdt_get_base(id);
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lock = int_lock();
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wdtip_write32(WDTLOCK_REG_UNLOCK, reg_base, WDTLOCK_REG_OFFSET);
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#ifdef CLOCK_SYNC_WORKAROUND
uint32_t val;
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do {
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wdtip_write32(wdt->load_val, reg_base, WDTLOAD_REG_OFFSET);
val = wdtip_read32(reg_base, WDTVALUE_REG_OFFSET);
} while ((wdt->load_val < val) ||
(wdt->load_val > val + SLOW_TIMER_VAL_DELTA));
#else
wdtip_write32(wdt->load_val, reg_base, WDTLOAD_REG_OFFSET);
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#endif
wdtip_write32(WDTLOCK_REG_LOCK, reg_base, WDTLOCK_REG_OFFSET);
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int_unlock(lock);
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/* Flush posted writes. */
wdtip_read32(reg_base, WDTLOCK_REG_OFFSET);
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}
static void _wdt_config(enum HAL_WDT_ID_T id) {
unsigned int reg_base = 0;
uint32_t lock;
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reg_base = _wdt_get_base(id);
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lock = int_lock();
wdtip_write32(WDTLOCK_REG_UNLOCK, reg_base, WDTLOCK_REG_OFFSET);
wdtip_write32(WDTRIS_REG_INT_MASK, reg_base, WDTINTCLR_REG_OFFSET);
wdtip_write32(WDTCONTROL_REG_INT_ENABLE | WDTCONTROL_REG_RESET_ENABLE,
reg_base, WDTCONTROL_REG_OFFSET);
wdtip_write32(WDTLOCK_REG_LOCK, reg_base, WDTLOCK_REG_OFFSET);
int_unlock(lock);
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/* Flush posted writes. */
wdtip_read32(reg_base, WDTLOCK_REG_OFFSET);
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}
static int wdt_start;
/* mandatory operations */
int hal_wdt_start(enum HAL_WDT_ID_T id) {
_wdt_load(id);
_wdt_config(id);
wdt_start = 1;
return 0;
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}
int hal_wdt_stop(enum HAL_WDT_ID_T id) {
unsigned int reg_base = 0;
uint32_t lock;
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reg_base = _wdt_get_base(id);
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lock = int_lock();
wdtip_write32(WDTLOCK_REG_UNLOCK, reg_base, WDTLOCK_REG_OFFSET);
wdtip_write32(0, reg_base, WDTCONTROL_REG_OFFSET);
wdtip_write32(WDTLOCK_REG_LOCK, reg_base, WDTLOCK_REG_OFFSET);
int_unlock(lock);
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/* Flush posted writes. */
wdtip_read32(reg_base, WDTLOCK_REG_OFFSET);
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wdt_start = 0;
return 0;
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}
/* optional operations */
int hal_wdt_ping(enum HAL_WDT_ID_T id) {
if (wdt_start) {
_wdt_load(id);
}
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return 0;
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}
int hal_wdt_set_timeout(enum HAL_WDT_ID_T id, unsigned int timeout) {
uint64_t load;
struct HAL_WDT_CTX *wdt = &hal_wdt_ctx[id];
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/*
* sp805 runs counter with given value twice, after the end of first
* counter it gives an interrupt and then starts counter again. If
* interrupt already occurred then it resets the system. This is why
* load is half of what should be required.
*/
load = WDT_RATE * timeout - 1;
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load = (load > WDTLOAD_LOAD_MAX) ? WDTLOAD_LOAD_MAX : load;
load = (load < WDTLOAD_LOAD_MIN) ? WDTLOAD_LOAD_MIN : load;
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wdt->load_val = load;
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return 0;
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}
unsigned int hal_wdt_get_timeleft(enum HAL_WDT_ID_T id) {
uint64_t load;
unsigned int reg_base = 0;
struct HAL_WDT_CTX *wdt = &hal_wdt_ctx[id];
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reg_base = _wdt_get_base(id);
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load = wdtip_read32(reg_base, WDTVALUE_REG_OFFSET);
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/*If the interrupt is inactive then time left is WDTValue + WDTLoad. */
if (!(wdtip_read32(reg_base, WDTRIS_REG_OFFSET) & WDTRIS_REG_INT_MASK))
load += wdt->load_val + 1;
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return load / WDT_RATE;
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}
void hal_wdt_set_irq_callback(enum HAL_WDT_ID_T id, HAL_WDT_IRQ_CALLBACK cb) {
switch (id) {
default:
case HAL_WDT_ID_0:
NVIC_SetVector(WDT_IRQn, (uint32_t)hal_wdt_irq_handler[id]);
NVIC_SetPriority(WDT_IRQn, IRQ_PRIORITY_NORMAL);
NVIC_ClearPendingIRQ(WDT_IRQn);
NVIC_EnableIRQ(WDT_IRQn);
break;
}
hal_wdt_irq_callback[id] = cb;
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}
#endif