rt-thread/bsp/phytium/libraries/standalone/drivers/timer/ftimer_tacho/ftimer.c

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/*
* Copyright : (C) 2022 Phytium Information Technology, Inc.
* All Rights Reserved.
*
* This program is OPEN SOURCE software: you can redistribute it and/or modify it
* under the terms of the Phytium Public License as published by the Phytium Technology Co.,Ltd,
* either version 1.0 of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,but WITHOUT ANY WARRANTY;
* without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See the Phytium Public License for more details.
*
*
* FilePath: ftimer.c
* Date: 2022-02-10 14:53:42
* LastEditTime: 2022-02-18 09:09:49
* Description:  This files is for
*
* Modify History:
* Ver   Who        Date         Changes
* ----- ------     --------    --------------------------------------
*/
/***************************** Include Files *********************************/
#include <string.h>
#include "fassert.h"
#include "ftimer_tacho_hw.h"
#include "ftimer_tacho.h"
/************************** Function Prototypes ******************************/
/**
* @name: FTimerSoftwareReset
* @msg: 将控制器复位
* @return {FError} 驱动初始化的错误码信息FTIMER_TACHO_SUCCESS 表示初始化成功,其它返回值表示初始化失败
* @param {FTimerTachoCtrl} *instance_p 驱动控制数据结构
*/
FError FTimerSoftwareReset(FTimerTachoCtrl *instance_p)
{
FASSERT(instance_p);
if (instance_p->isready != FT_COMPONENT_IS_READY)
{
FTIMER_ERROR("device is not already!!!");
return FTIMER_TACHO_ERR_NOT_READY;
}
u32 reg_val = FTIMER_CTRL_READ(instance_p);
u32 Timeout = 0;
reg_val |= FTIMER_REG_TACHO_RESET;
FTIMER_CTRL_WRITE(instance_p, reg_val);
do
{
reg_val = FTIMER_CTRL_READ(instance_p);
Timeout++;
}
while ((reg_val & FTIMER_REG_TACHO_RESET) && (Timeout < FTIMER_TIMEOUT));
if (Timeout >= FTIMER_TIMEOUT)
{
FTIMER_ERROR("Software Reset Failed!!!");
return FTIMER_TACHO_ERR_FAILED;
}
return FTIMER_TACHO_SUCCESS;
}
/**
* @name: FTimerStart
* @msg: 启动timer_tacho外设,根据不同的功能,开启使能位
* @return {FError} 驱动初始化的错误码信息FTIMER_TACHO_SUCCESS 表示初始化成功,其它返回值表示初始化失败
* @param {FTimerTachoCtrl} *instance_p 驱动控制数据结构
*/
FError FTimerStart(FTimerTachoCtrl *instance_p)
{
FASSERT(instance_p);
FASSERT(FT_COMPONENT_IS_READY == instance_p->isready);
u32 reg_val;
reg_val = FTIMER_CTRL_READ(instance_p);
if (FTIMER_WORK_MODE_TIMER == instance_p->config.work_mode)
{
reg_val |= FTIMER_REG_ENABLE;
}
else
{
/* for tacho mode and capture mode */
reg_val |= FTIMER_REG_ENABLE | FTACHO_REG_CAP_IN_ENABLE;
}
FTIMER_CTRL_WRITE(instance_p, reg_val);
return FTIMER_TACHO_SUCCESS;
}
/**
* @name: FTimerStop
* @msg: 停止timer外设根据不同的功能关闭使能位计数值停止并冻结
* @return {FError} 驱动初始化的错误码信息FTIMER_TACHO_SUCCESS 表示初始化成功,其它返回值表示初始化失败
* @param {FTimerTachoCtrl} *instance_p 驱动控制数据结构
*/
FError FTimerStop(FTimerTachoCtrl *instance_p)
{
FASSERT(instance_p);
FASSERT(FT_COMPONENT_IS_READY == instance_p->isready);
u32 reg_val = FTIMER_CTRL_READ(instance_p);
if (FTIMER_WORK_MODE_TIMER == instance_p->config.work_mode)
{
reg_val &= (~FTIMER_REG_ENABLE);
}
else
{
/* for tacho mode and capture mode */
reg_val &= (~FTIMER_REG_ENABLE) & (~FTACHO_REG_CAP_IN_ENABLE);
}
FTIMER_CTRL_WRITE(instance_p, reg_val);
return FTIMER_TACHO_SUCCESS;
}
/**
* @name: TimerSwithBits
* @msg: 计数器32/64切换
* @return {FError} 驱动初始化的错误码信息FTIMER_TACHO_SUCCESS 表示初始化成功,其它返回值表示初始化失败
* @param {FTimerTachoCtrl} *instance_p 驱动控制数据结构
*/
static FError TimerSwithBits(FTimerTachoCtrl *instance_p)
{
u32 reg_val;
FASSERT(instance_p);
FASSERT(FT_COMPONENT_IS_READY == instance_p->isready);
reg_val = FTIMER_CTRL_READ(instance_p);
if (FTIMER_32_BITS == instance_p->config.timer_bits)
{
reg_val &= (~FTIMER_REG_CNT_SERIES_64BIT);
}
else if (FTIMER_64_BITS == instance_p->config.timer_bits)
{
reg_val |= FTIMER_REG_CNT_SERIES_64BIT;
}
else
{
FTIMER_ERROR("invalid input");
return FTIMER_TACHO_ERR_INVAL_PARM;
}
FTIMER_CTRL_WRITE(instance_p, reg_val);
return FTIMER_TACHO_SUCCESS;
}
/**
* @name: TimerForceLoad
* @msg: 强制更新位置位
* @return {void} 无
* @param {FTimerTachoCtrl} *instance_p 驱动控制数据结构
*/
static void TimerForceLoad(FTimerTachoCtrl *instance_p)
{
u32 reg_val;
FASSERT(instance_p);
FASSERT(FT_COMPONENT_IS_READY == instance_p->isready);
reg_val = FTIMER_CTRL_READ(instance_p);
reg_val |= FTIMER_REG_TACHO_FORCE_LOAD;
FTIMER_CTRL_WRITE(instance_p, reg_val);
return;
}
/**
* @name: FTimerSetPeriod32
* @msg: 设置32位计数模式下计数器的compare的值达到此值如果开启中断则开启中断
* @return {FError} 驱动初始化的错误码信息FTIMER_TACHO_SUCCESS 表示初始化成功,其它返回值表示初始化失败
* @param {FTimerTachoCtrl} *instance_p 驱动控制数据结构
* @param {u32}NewCmpL
*/
FError FTimerSetPeriod32(FTimerTachoCtrl *instance_p, u32 new_cmp_l)
{
FASSERT(instance_p);
FASSERT(FT_COMPONENT_IS_READY == instance_p->isready);
if (FTIMER_64_BITS == instance_p->config.timer_bits)
{
return FTIMER_TACHO_ERR_INVAL_PARM;
}
/* update cmp val */
FTIMER_CMPL_WRITE(instance_p, new_cmp_l);
return FTIMER_TACHO_SUCCESS;
}
/**
* @name: FTimerSetPeriod64
* @msg: 设置64位计数模式下计数器的compare的值达到此值如果开启中断则开启中断
* @return {FError} 驱动初始化的错误码信息FTIMER_TACHO_SUCCESS 表示初始化成功,其它返回值表示初始化失败
* @param {FTimerTachoCtrl} *instance_p 驱动控制数据结构
* @param {u64}ticks
*/
FError FTimerSetPeriod64(FTimerTachoCtrl *instance_p, u64 ticks)
{
u32 low_cmp;
u32 up_cmp;
FASSERT(instance_p);
FASSERT(FT_COMPONENT_IS_READY == instance_p->isready);
if (FTIMER_32_BITS == instance_p->config.timer_bits)
{
return FTIMER_TACHO_ERR_INVAL_PARM;
}
low_cmp = (u32)(GENMASK_ULL(31, 0) & ticks);
up_cmp = (u32)((GENMASK_ULL(63, 32) & ticks) >> 32);
/* MUST write low 32 bit first !!! */
FTIMER_CMPL_WRITE(instance_p, low_cmp);
FTIMER_CMPU_WRITE(instance_p, up_cmp);
return FTIMER_TACHO_SUCCESS;
}
/**
* @name: FTimerSetStartVal
* @msg: 设置计数器初始值
* @return {FError} 驱动初始化的错误码信息FTIMER_TACHO_SUCCESS 表示初始化成功,其它返回值表示初始化失败
* @param {FTimerTachoCtrl} *instance_p 驱动控制数据结构
* @param {u32} cnt
*/
inline FError FTimerSetStartVal(FTimerTachoCtrl *instance_p, u32 cnt)
{
u32 ret = FTIMER_TACHO_SUCCESS;
FASSERT(instance_p);
FASSERT(FT_COMPONENT_IS_READY == instance_p->isready);
ret = TimerSwithBits(instance_p);
if (FTIMER_TACHO_SUCCESS != ret)
{
return ret;
}
FTIMER_STAR_WRITE(instance_p, cnt);
/* set force_load=1invalid previous cmp val,
otherwise the previous cmp val still work */
TimerForceLoad(instance_p);
FTIMER_INFO("set start val 0x%x", FTIMER_STAR_READ(instance_p));
return ret;
}
/**
* @name: FTimerGetCurCnt32
* @msg: 32位模式下获取计数器当前计数值
* @return {u32}返回当前计数器的值
* @param {FTimerTachoCtrl} *instance_p 驱动控制数据结构
*/
u32 FTimerGetCurCnt32(FTimerTachoCtrl *instance_p)
{
FASSERT(instance_p);
FASSERT(FT_COMPONENT_IS_READY == instance_p->isready);
return FTIMER_CNTL_READ(instance_p);
}
/**
* @name: FTimerGetCurCnt64
* @msg: 64位模式下获取计数器当前计数值
* @return {u64}返回当前计数器的值
* @param {FTimerTachoCtrl} *instance_p 驱动控制数据结构
*/
inline u64 FTimerGetCurCnt64(FTimerTachoCtrl *instance_p)
{
u64 cnt = 0;
FASSERT(instance_p);
FASSERT(FT_COMPONENT_IS_READY == instance_p->isready);
/* must read lower 32 bits first */
cnt |= (u64)FTIMER_CNTL_READ(instance_p);
cnt |= (u64)(((u64)FTIMER_CNTU_READ(instance_p)) << 32);
return cnt;
}
/**
* @name: FTimerInit
* @msg: 完成TimerTacho驱动实例的初始化使之在就绪状态
* @return {FError} 驱动初始化的错误码信息FTIMER_TACHO_SUCCESS 表示初始化成功,其它返回值表示初始化失败
* @param {FTimerTachoCtrl} *instance_p 驱动控制数据结构
* @param {FTimerTachoConfig} *config_p 驱动配置数据结构
*/
FError FTimerInit(FTimerTachoCtrl *instance_p, const FTimerTachoConfig *config_p)
{
FASSERT(instance_p && config_p);
u32 reg_val = 0;
u32 Ret = FTIMER_TACHO_SUCCESS;
if ((FTIMER_ONCE_CMP == config_p->cmp_type) &&
(FTIMER_FREE_RUN != config_p->timer_mode))
{
FTIMER_ERROR("time mode shall be free-run when use once timer!!");
return FTIMER_TACHO_ERR_INVAL_PARM;
}
if (instance_p->isready == FT_COMPONENT_IS_READY)
{
FTIMER_INFO("device is already initialized.!!!\r\n");
return FTIMER_TACHO_ERR_IS_READ;
}
if (FTIMER_WORK_MODE_TIMER == config_p->work_mode)
{
reg_val |= FTIMER_REG_TACHO_MODE_TIMER;
}
else
{
FTIMER_ERROR("not support");
return FTIMER_TACHO_ERR_INVAL_PARM;
}
if (FTIMER_FREE_RUN == config_p->timer_mode)
{
reg_val &= (~FTIMER_REG_CNT_RESTART);
}
else if (FTIMER_RESTART == config_p->timer_mode)
{
reg_val |= FTIMER_REG_CNT_RESTART;
}
else
{
FTIMER_ERROR("invalid input");
return FTIMER_TACHO_ERR_INVAL_PARM;
}
if (FTIMER_32_BITS == config_p->timer_bits)
{
reg_val &= (~FTIMER_REG_CNT_SERIES_64BIT);
}
else if (FTIMER_64_BITS == config_p->timer_bits)
{
reg_val |= FTIMER_REG_CNT_SERIES_64BIT;
}
else
{
FTIMER_ERROR("invalid input");
return FTIMER_TACHO_ERR_INVAL_PARM;
}
if (FTIMER_ONCE_CMP == config_p->cmp_type)
{
reg_val |= FTIMER_REG_MODE_ONCE;
}
else if (FTIMER_CYC_CMP == config_p->cmp_type)
{
reg_val &= (~FTIMER_REG_MODE_ONCE);
}
else
{
FTIMER_ERROR("invalid input");
return FTIMER_TACHO_ERR_INVAL_PARM;
}
if (TRUE == config_p->force_load)
{
reg_val |= FTIMER_REG_TACHO_FORCE_LOAD;
}
if (TRUE == config_p->clear_cnt)
{
reg_val |= FTIMER_REG_CNT_CLR;
}
/*use input config*/
if (config_p != &instance_p->config)
{
instance_p->config = *config_p;
}
FTIMER_CTRL_WRITE(instance_p, reg_val);
instance_p->isready = FT_COMPONENT_IS_READY;
return FTIMER_TACHO_SUCCESS;
}
void FTimerDeInit(FTimerTachoCtrl *instance_p)
{
FASSERT(instance_p);
/* stop timer first */
FTimerStop(instance_p);
/* reset reg*/
FTimerSoftwareReset(instance_p);
instance_p->isready = 0;
memset(instance_p, 0, sizeof(*instance_p));
return;
}
/**
* @name: FTimeSettingDump
* @msg: 打印寄存器信息
* @return {FError} 驱动初始化的错误码信息FTIMER_TACHO_SUCCESS 表示初始化成功,其它返回值表示初始化失败
* @param {FTimerTachoCtrl} *instance_p 驱动控制数据结构
*/
FError FTimeSettingDump(const FTimerTachoCtrl *instance_p)
{
FASSERT(instance_p);
u32 CtrlReg = FTIMER_CTRL_READ(instance_p);
boolean is64Bit = ((CtrlReg & FTIMER_REG_CNT_SERIES_64BIT) != 0);
FASSERT(FT_COMPONENT_IS_READY == instance_p->isready);
printf("ctrl: \r\n");
printf("===%d-bit timer\r\n", is64Bit ? 64 : 32);
printf("===timer enabled: %d\r\n", (CtrlReg & FTIMER_REG_ENABLE) ? 1 : 0);
printf("===timer mode: %d\r\n", (CtrlReg & FTIMER_REG_TACHO_MODE_TIMER) ? 1 : 0);
printf("===once timer: %d\r\n", (CtrlReg & FTIMER_REG_MODE_ONCE) ? 1 : 0);
printf("===restart mode: %d\r\n", (CtrlReg & FTIMER_REG_CNT_RESTART) ? 1 : 0);
printf("===in reset: %d\r\n", (CtrlReg & FTIMER_REG_TACHO_RESET) ? 1 : 0);
printf("===force load: %d\r\n", (CtrlReg & FTIMER_REG_TACHO_FORCE_LOAD) ? 1 : 0);
printf("===clear cnt: %d\r\n", (CtrlReg & FTIMER_REG_CNT_CLR) ? 1 : 0);
printf("start cnt: 0x%08x\r\n", FTIMER_STAR_READ(instance_p));
if (is64Bit)
{
printf("cmp low: 0x%08x", FTIMER_CMPL_READ(instance_p));
printf("high: 0x%08x\r\n", FTIMER_CMPU_READ(instance_p));
printf("cur cnt: low: 0x%08x", FTIMER_CNTL_READ(instance_p));
printf("high: 0x%08x\r\n", FTIMER_CNTU_READ(instance_p));
}
else
{
printf("cmp low: 0x%08x\r\n", FTIMER_CMPL_READ(instance_p));
printf("cur cnt: low: 0x%08x", FTIMER_CNTL_READ(instance_p));
}
printf("intr mask: 0x%08x\r\n", FTIMER_INTR_M_READ(instance_p));
printf("intr status: 0x%08x\r\n", FTIMER_INTR_S_READ(instance_p));
return FTIMER_TACHO_SUCCESS;
}