rt-thread-official/bsp/wch/risc-v/Libraries/ch56x_drivers/ch56x_sys.c

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/*
* Copyright (c) 2006-2022, RT-Thread Development Team
*
* SPDX-License-Identifier: Apache-2.0
*
* Change Logs:
* Date Author Notes
* 2022-07-15 Emuzit first version
*/
#include <rthw.h>
#include <rtdebug.h>
#include "ch56x_sys.h"
static uint32_t hclk_freq;
rt_inline uint8_t _slp_clk_off0_irqn_bit(uint8_t irqn)
{
uint8_t bitpos;
switch (irqn)
{
case TMR0_IRQn: bitpos = RB_SLP_CLK_TMR0; break;
case TMR1_IRQn: bitpos = RB_SLP_CLK_TMR1; break;
case TMR2_IRQn: bitpos = RB_SLP_CLK_TMR2; break;
/* special case to control PWMX clock in irqn way */
case PWMX_OFFn: bitpos = RB_SLP_CLK_PWMX; break;
case UART0_IRQn: bitpos = RB_SLP_CLK_UART0; break;
case UART1_IRQn: bitpos = RB_SLP_CLK_UART1; break;
case UART2_IRQn: bitpos = RB_SLP_CLK_UART2; break;
case UART3_IRQn: bitpos = RB_SLP_CLK_UART3; break;
default:
bitpos = 0;
}
return bitpos;
}
rt_inline uint8_t _slp_clk_off1_irqn_bit(uint8_t irqn)
{
uint8_t bitpos;
switch (irqn)
{
case SPI0_IRQn: bitpos = RB_SLP_CLK_SPI0; break;
case SPI1_IRQn: bitpos = RB_SLP_CLK_SPI1; break;
#if defined(SOC_CH567)
case SDC_IRQn: bitpos = RB_SLP_CLK_SDC; break;
case LED_IRQn: bitpos = RB_SLP_CLK_LED; break;
case USB0_IRQn: bitpos = RB_SLP_CLK_USB0; break;
case USB1_IRQn: bitpos = RB_SLP_CLK_USB1; break;
case ECDC_IRQn: bitpos = RB_SLP_CLK_ECDC; break;
#elif defined(SOC_CH568)
case SDC_IRQn: bitpos = RB_SLP_CLK_SDC; break;
case LED_IRQn: bitpos = RB_SLP_CLK_LED; break;
case USB1_IRQn: bitpos = RB_SLP_CLK_USB1; break;
case USB0_IRQn: bitpos = RB_SLP_CLK_SATA; break;
case ECDC_IRQn: bitpos = RB_SLP_CLK_ECDC; break;
#else
case EMMC_IRQn: bitpos = RB_SLP_CLK_EMMC; break;
case HSPI_IRQn: bitpos = RB_SLP_CLK_HSPI; break;
case USBHS_IRQn: bitpos = RB_SLP_CLK_USBHS; break;
case USBSS_IRQn: bitpos = RB_SLP_CLK_USBSS; break;
case SerDes_IRQn: bitpos = RB_SLP_CLK_SERD; break;
case DVP_IRQn: bitpos = RB_SLP_CLK_DVP; break;
#endif
default:
bitpos = 0;
}
return bitpos;
}
#if defined(SOC_SERIES_CH569)
rt_inline uint8_t _wake_clk_off_irqn_bit(uint8_t irqn)
{
uint8_t bitpos;
switch (irqn)
{
case ETH_IRQn: bitpos = RB_SLP_CLK_ETH; break;
case ECDC_IRQn: bitpos = RB_SLP_CLK_ECDC; break;
default:
bitpos = 0;
}
return bitpos;
}
#endif
/**
* @brief Turn on/off device clock for group clk_off0.
*
* @param bits is a bit mask to select corresponding devices.
*
* @param off is to turn off the clock (1) or trun on (0).
*/
void sys_slp_clk_off0(uint8_t bits, int off)
{
volatile struct sys_registers *sys = (void *)SYS_REG_BASE;
rt_base_t level;
uint8_t u8v;
u8v = sys->SLP_CLK_OFF0.reg;
if ((u8v & bits) != (off ? bits : 0))
{
u8v = off ? (u8v | bits) : (u8v & ~bits);
level = rt_hw_interrupt_disable();
sys_safe_access_enter(sys);
sys->SLP_CLK_OFF0.reg = u8v;
sys_safe_access_leave(sys);
rt_hw_interrupt_enable(level);
}
}
/**
* @brief Turn on/off device clock for group clk_off1.
*
* @param bits is a bit mask to select corresponding devices.
*
* @param off is to turn off the clock (1) or trun on (0).
*/
void sys_slp_clk_off1(uint8_t bits, int off)
{
volatile struct sys_registers *sys = (void *)SYS_REG_BASE;
rt_base_t level;
uint8_t u8v;
u8v = sys->SLP_CLK_OFF1.reg;
if ((u8v & bits) != (off ? bits : 0))
{
u8v = off ? (u8v | bits) : (u8v & ~bits);
level = rt_hw_interrupt_disable();
sys_safe_access_enter(sys);
sys->SLP_CLK_OFF1.reg = u8v;
sys_safe_access_leave(sys);
rt_hw_interrupt_enable(level);
}
}
/**
* @brief Turn on/off device clock, specified by its irq number.
*
* @param irqn is the irq number of the target device.
* PWMX does not have irqn, use special PWMX_OFFn number.
*
* @param off is to turn off the clock (1) or trun on (0).
*
* @return Returns if irqn-device has corresponding clk off bit :
* 0 if device not found; otherwise bit position of off0/off1.
*/
int sys_clk_off_by_irqn(uint8_t irqn, int off)
{
volatile struct sys_registers *sys = (void *)SYS_REG_BASE;
uint8_t u8v;
size_t offset;
uint8_t bitpos = 0;
if (irqn < END_OF_IRQn)
{
if ((bitpos = _slp_clk_off0_irqn_bit(irqn)) != 0)
{
offset = offsetof(struct sys_registers, SLP_CLK_OFF0);
}
else if ((bitpos = _slp_clk_off1_irqn_bit(irqn)) != 0)
{
offset = offsetof(struct sys_registers, SLP_CLK_OFF1);
}
#if defined(SOC_SERIES_CH569)
else if ((bitpos = _wake_clk_off_irqn_bit(irqn)) != 0)
{
offset = offsetof(struct sys_registers, SLP_WAKE_CTRL);
}
#endif
if (bitpos)
{
volatile uint8_t *cxreg = (void *)sys;
rt_base_t level;
u8v = cxreg[offset];
if ((u8v & bitpos) != (off ? bitpos : 0))
{
u8v = off ? (u8v | bitpos) : (u8v & ~bitpos);
level = rt_hw_interrupt_disable();
sys_safe_access_enter(sys);
cxreg[offset] = u8v;
sys_safe_access_leave(sys);
rt_hw_interrupt_enable(level);
}
}
}
return bitpos;
}
/**
* @brief Setup HCLK frequency.
*
* @param freq is the desired hclk frequency.
* supported : 120/96/80/60/48/40/32/30/15/10/6/3/2 MHz
*
* @return Returns 0 if hclk is successfully set.
*/
int sys_hclk_set(uint32_t freq)
{
volatile struct sys_registers *sys = (void *)SYS_REG_BASE;
uint8_t plldiv;
int clksel = -1;
if (freq >= 30000000)
{
if (freq <= 120000000)
{
/* supported : 120/96/80/60/48/40/32/30 MHz */
plldiv = 480000000 / freq; // 30M => 16 & 0xf => 0
clksel = RB_CLK_SEL_PLL;
}
}
else if (freq >= 2000000)
{
/* supported : 15/10/6/3/2 MHz */
plldiv = 30000000 / freq;
clksel = 0;
}
if (clksel >= 0)
{
rt_base_t level = rt_hw_interrupt_disable();
sys_safe_access_enter(sys);
sys->CLK_PLL_DIV.reg = clk_pll_div_wdat(plldiv);
sys->CLK_CFG_CTRL.reg = clk_cfg_ctrl_wdat(clksel);
sys_safe_access_leave(sys);
rt_hw_interrupt_enable(level);
/* save to hclk_freq for quick report */
sys_hclk_calc();
clksel = 0;
}
return clksel;
}
/**
* @brief Get saved HCLK frequency.
*
* Valid only if HCLK is set strickly with sys_hclk_set().
* Use sys_hclk_calc() otherwise.
*
* @return Returns saved HCLK frequency (Hz, 0 if not set yet).
*/
uint32_t sys_hclk_get(void)
{
return hclk_freq;
}
/**
* @brief Get current HCLK frequency, calculated from hw setting.
*
* @return Returns current HCLK frequency (Hz).
*/
uint32_t sys_hclk_calc(void)
{
volatile struct sys_registers *sys = (void *)SYS_REG_BASE;
uint8_t plldiv = sys->CLK_PLL_DIV.pll_div;
if (sys->CLK_CFG_CTRL.sel_pll == CLK_SEL_PLL_USB_480M)
{
hclk_freq = plldiv ? 480000000 / plldiv : 30000000;
}
else
{
hclk_freq = plldiv ? 30000000 / plldiv : 2000000;
}
return hclk_freq;
}