rt-thread/bsp/maxim/libraries/MAX32660PeriphDriver/Include/mxc_sys.h

451 lines
15 KiB
C

/**
* @file
* @brief System level header file.
*/
/*******************************************************************************
* Copyright (C) 2015 Maxim Integrated Products, Inc., All Rights Reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included
* in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
* IN NO EVENT SHALL MAXIM INTEGRATED BE LIABLE FOR ANY CLAIM, DAMAGES
* OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*
* Except as contained in this notice, the name of Maxim Integrated
* Products, Inc. shall not be used except as stated in the Maxim Integrated
* Products, Inc. Branding Policy.
*
* The mere transfer of this software does not imply any licenses
* of trade secrets, proprietary technology, copyrights, patents,
* trademarks, maskwork rights, or any other form of intellectual
* property whatsoever. Maxim Integrated Products, Inc. retains all
* ownership rights.
*
* $Date: 2019-04-15 09:35:40 -0500 (Mon, 15 Apr 2019) $
* $Revision: 42499 $
*
******************************************************************************/
#ifndef _MXC_SYS_H_
#define _MXC_SYS_H_
#include "mxc_config.h"
#include "uart_regs.h"
#include "i2c_regs.h"
#include "gcr_regs.h"
#include "tmr_regs.h"
#include "icc_regs.h"
#include "spi17y_regs.h"
#include "spimss_regs.h"
#include "gpio.h"
#include "flc_regs.h"
#include "dma.h"
#include "wdt_regs.h"
#ifdef __cplusplus
extern "C" {
#endif
#if defined ( __CC_ARM ) /* Suppressing the warning: "enum value is out of range of int" for Keil */
#pragma push
#pragma diag_suppress 66
#endif /* __CC_ARM */
/** @brief System reset0 enumeration. Used in SYS_PeriphReset0 function */
typedef enum {
SYS_RESET0_DMA = MXC_F_GCR_RSTR0_DMA, /**< Reset DMA */
SYS_RESET0_WDT = MXC_F_GCR_RSTR0_WDT, /**< Reset WDT */
SYS_RESET0_GPIO0 = MXC_F_GCR_RSTR0_GPIO0, /**< Reset GPIO0 */
SYS_RESET0_TIMER0 = MXC_F_GCR_RSTR0_TIMER0, /**< Reset TIMER0 */
SYS_RESET0_TIMER1 = MXC_F_GCR_RSTR0_TIMER1, /**< Reset TIMER1 */
SYS_RESET0_TIMER2 = MXC_F_GCR_RSTR0_TIMER2, /**< Reset TIMER2 */
SYS_RESET0_UART0 = MXC_F_GCR_RSTR0_UART0, /**< Reset UART0 */
SYS_RESET0_UART1 = MXC_F_GCR_RSTR0_UART1, /**< Reset UART1 */
SYS_RESET0_SPI0 = MXC_F_GCR_RSTR0_SPI0, /**< Reset SPI0 */
SYS_RESET0_SPI1 = MXC_F_GCR_RSTR0_SPI1, /**< Reset SPI1 */
SYS_RESET0_I2C0 = MXC_F_GCR_RSTR0_I2C0, /**< Reset I2C0 */
SYS_RESET0_RTC = MXC_F_GCR_RSTR0_RTC, /**< Reset RTC */
SYS_RESET0_SRST = MXC_F_GCR_RSTR0_SRST, /**< Soft reset */
SYS_RESET0_PRST = MXC_F_GCR_RSTR0_PRST, /**< Peripheral reset */
SYS_RESET0_SYSTEM = MXC_F_GCR_RSTR0_SYSTEM, /**< System reset */
} sys_reset0_t;
/** @brief System reset1 enumeration. Used in SYS_PeriphReset1 function */
typedef enum {
SYS_RESET1_I2C1 = MXC_F_GCR_RSTR1_I2C1, /**< Reset I2C1 */
} sys_reset1_t;
/** @brief System clock disable enumeration. Used in SYS_ClockDisable and SYS_ClockEnable functions */
typedef enum {
SYS_PERIPH_CLOCK_GPIO0 = MXC_F_GCR_PERCKCN0_GPIO0D, /**< Disable MXC_F_GCR_PERCKCN0_GPIO0D clock */
SYS_PERIPH_CLOCK_DMA = MXC_F_GCR_PERCKCN0_DMAD, /**< Disable MXC_F_GCR_PERCKCN0_DMAD clock */
SYS_PERIPH_CLOCK_SPI17Y = MXC_F_GCR_PERCKCN0_SPI0D, /**< Disable MXC_F_GCR_PERCKCN0_SPI0D clock */
SYS_PERIPH_CLOCK_SPIMSS = MXC_F_GCR_PERCKCN0_SPI1D, /**< Disable MXC_F_GCR_PERCKCN0_SPI1D clock */
SYS_PERIPH_CLOCK_UART0 = MXC_F_GCR_PERCKCN0_UART0D, /**< Disable MXC_F_GCR_PERCKCN0_UART0D clock */
SYS_PERIPH_CLOCK_UART1 = MXC_F_GCR_PERCKCN0_UART1D, /**< Disable MXC_F_GCR_PERCKCN0_UART1D clock */
SYS_PERIPH_CLOCK_I2C0 = MXC_F_GCR_PERCKCN0_I2C0D, /**< Disable MXC_F_GCR_PERCKCN0_I2C0D clock */
SYS_PERIPH_CLOCK_T0 = MXC_F_GCR_PERCKCN0_T0D, /**< Disable MXC_F_GCR_PERCKCN0_T0D clock */
SYS_PERIPH_CLOCK_T1 = MXC_F_GCR_PERCKCN0_T1D, /**< Disable MXC_F_GCR_PERCKCN0_T1D clock */
SYS_PERIPH_CLOCK_T2 = MXC_F_GCR_PERCKCN0_T2D, /**< Disable MXC_F_GCR_PERCKCN0_T2D clock */
SYS_PERIPH_CLOCK_I2C1 = MXC_F_GCR_PERCKCN0_I2C1D, /**< Disable MXC_F_GCR_PERCKCN0_I2C1D clock */
} sys_periph_clock_t;
/** @brief Clock source */
typedef enum {
SYS_CLOCK_NANORING = MXC_V_GCR_CLKCN_CLKSEL_NANORING, /**< 8KHz nanoring on MAX32660 */
SYS_CLOCK_HFXIN = MXC_V_GCR_CLKCN_CLKSEL_HFXIN, /**< 32KHz on MAX32660 */
SYS_CLOCK_HFXIN_DIGITAL = 0x9, /**< External Clock Input*/
SYS_CLOCK_HIRC = MXC_V_GCR_CLKCN_CLKSEL_HIRC, /**< High Frequency Internal Oscillator */
} sys_system_clock_t;
typedef void* sys_cfg_t;
typedef sys_cfg_t sys_cfg_i2c_t;
typedef sys_cfg_t sys_cfg_flc_t;
typedef sys_cfg_t sys_cfg_wdt_t;
/** @brief Map control */
typedef enum {
MAP_A,
MAP_B,
MAP_C,
} sys_map_t;
/** @brief UART Flow control */
typedef enum {
UART_FLOW_DISABLE,
UART_FLOW_ENABLE,
} sys_uart_flow_t;
/** @brief UART system configuration object */
typedef struct {
sys_map_t map;
sys_uart_flow_t flow_flag;
} sys_cfg_uart_t;
/** @brief SPI17Y system configuration object */
typedef struct {
sys_map_t map;
} sys_cfg_spi17y_t;
/** @brief SPIMSS system configuration object */
typedef struct {
sys_map_t map;
} sys_cfg_spimss_t;
/** @brief I2S system configuration object */
typedef struct {
sys_map_t map;
dma_reqsel_t dma_reqsel_tx;
dma_reqsel_t dma_reqsel_rx;
} sys_cfg_i2s_t;
/** @brief TIMER system configuration object */
typedef struct {
int out_en;
} sys_cfg_tmr_t;
/** @brief Real Time Clock system configuration object */
typedef struct {
mxc_tmr_regs_t* tmr;
} sys_cfg_rtc_t;
/** @brief Pulse Train System Configuration Object */
typedef gpio_cfg_t sys_cfg_pt_t;
#if defined ( __CC_ARM ) /* Restore the warning: "enum is out of int range" for Keil */
#pragma pop
#endif /* __CC_ARM */
/***** Function Prototypes *****/
/**
* @brief Selects the system clock and enables it once ready
* @param clock Enumeration for desired clock.
* @param tmr Optional tmr pointer for timeout. NULL if undesired.
*
* @returns #E_NO_ERROR is clock is succesfully selected
*/
int SYS_Clock_Select(sys_system_clock_t clock, mxc_tmr_regs_t* tmr);
/**
* @brief Enables the selected peripheral clock.
* @param clock Enumeration for desired clock.
*/
void SYS_ClockEnable(sys_periph_clock_t clock);
/**
* @brief Disables the selected peripheral clock.
* @param clock Enumeration for desired clock.
*/
void SYS_ClockDisable(sys_periph_clock_t clock);
/**
* @brief Enables the external 32k oscillator.
* @param sys_cfg system configuration object
*
* @returns #E_NO_ERROR is successful, appropriate error otherwise
*/
int SYS_ClockEnable_X32K(sys_cfg_rtc_t *sys_cfg);
/**
* @brief Disables the external 32k oscillator.
*
* @returns #E_NO_ERROR is successful, appropriate error otherwise
*/
int SYS_ClockDisable_X32K(void);
/**
* @brief System level initialization for UART module.
* @param uart Pointer to UART module registers
* @param sys_cfg System configuration object
*
* @returns #E_NO_ERROR if successful, appropriate error otherwise
*/
int SYS_UART_Init(mxc_uart_regs_t *uart, const sys_cfg_uart_t* sys_cfg);
/**
* @brief System level shutdown for UART module
* @param uart Pointer to UART module registers
*
* @return #E_NO_ERROR if successful, appropriate error otherwise
*/
int SYS_UART_Shutdown(mxc_uart_regs_t *uart);
/**
* @brief System level initialization for I2C module.
* @param i2c Pointer to I2C module registers
* @param sys_cfg System configuration object
*
* @returns #E_NO_ERROR if successful, appropriate error otherwise
*/
int SYS_I2C_Init(mxc_i2c_regs_t *i2c, const sys_cfg_i2c_t* sys_cfg);
/**
* @brief System level Shutdown for I2C module.
* @param i2c Pointer to I2C module registers
*
* @returns #E_NO_ERROR if successful, appropriate error otherwise
*/
int SYS_I2C_Shutdown(mxc_i2c_regs_t *i2c);
/**
* @brief Init DMA system settings
*
* @returns #E_NO_ERROR if successful, appropriate error otherwise
*/
int SYS_DMA_Init(void);
/**
* @brief Shutdown DMA system specific settings
*
* @returns #E_NO_ERROR if successful, appropriate error otherwise
*/
int SYS_DMA_Shutdown(void);
/**
* @brief Get the frequency of the I2C module source clock
* @param spim Unused, pointer to I2C module registers
*
* @returns frequency in Hz
*/
unsigned SYS_I2C_GetFreq(mxc_i2c_regs_t *i2c);
/**
* @brief Get the frequency of the Timer module source clock.
* @params tmr Unused, pointer to timer module registers
*
* @returns frequency in Hz
*/
unsigned SYS_TMR_GetFreq(mxc_tmr_regs_t *tmr);
/**
* @brief Reset the peripherals and/or CPU in the rstr0 register.
* @param Enumeration for what to reset. Can reset multiple items at once.
*/
void SYS_Reset0(sys_reset0_t reset);
/**
* @brief Reset the peripherals and/or CPU in the rstr1 register.
* @param Enumeration for what to reset. Can reset multiple items at once.
*/
void SYS_Reset1(sys_reset1_t reset);
/**
* @brief Clear Cache and Line buffer.
*/
void SYS_Flash_Operation(void);
/**
* @brief Init TMR system settings
* @param tmr Pointer to timer module registers
* @param sys_cfg System configuration object
*
* @returns #E_NO_ERROR if successful, appropriate error otherwise
*/
int SYS_TMR_Init(mxc_tmr_regs_t *tmr, const sys_cfg_tmr_t* sys_cfg);
/**
* @brief Init flash system settings
* @param sys_cfg System configuration object
*
* @returns #E_NO_ERROR if successful, appropriate error otherwise
*/
int SYS_FLC_Init(const sys_cfg_flc_t* sys_cfg);
/**
* @brief Shutdown flash system specific settings
*
* @returns #E_NO_ERROR if successful, appropriate error otherwise
*/
int SYS_FLC_Shutdown(void);
/**
* @brief System level initialization for SPI17Y module.
* @param spi pointer to spi module registers
* @param sys_cfg System configuration object
*
* @returns E_NO_ERROR if successful, appropriate error otherwise
*/
int SYS_SPI17Y_Init( mxc_spi17y_regs_t *spi, const sys_cfg_spi17y_t* sys_cfg);
/**
* @brief System level shutdown for SPI17Y module
* @param pointer to spi module registers
*
* @returns E_NO_ERROR if successful, appropriate error otherwise
*/
int SYS_SPI17Y_Shutdown(mxc_spi17y_regs_t *spi);
/**
* @brief System level initialization for SPIMSS module.
* @param spi pointer to spi module registers
* @param sys_cfg System configuration object
*
* @returns E_NO_ERROR if successful, appropriate error otherwise
*/
int SYS_SPIMSS_Init(mxc_spimss_regs_t *spi, const sys_cfg_spimss_t* sys_cfg);
/**
* @brief System level shutdown for SPIMSS module
* @param pointer to spi module registers
*
* @returns E_NO_ERROR if everything is successful
*/
int SYS_SPIMSS_Shutdown(mxc_spimss_regs_t *spi);
/**
* @brief Shutdown Timer system specific settings
* @param tmr pointer to timer module registers
*
* @returns #E_NO_ERROR if successful, appropriate error otherwise
*/
int SYS_TMR_Shutdown(mxc_tmr_regs_t *tmr);
/**
* @brief System level initialization for I2S Module
* @param sys_cfg System configuration object
*
* @returns #E_NO_ERROR if successful, appropriate error otherwise
*/
int SYS_I2S_Init(const sys_cfg_i2s_t* sys_cfg);
/**
* @brief System level shutdown of I2S module
*
* @returns #E_NO_ERROR if everything is successful
*/
int SYS_I2S_Shutdown(void);
/**
* @brief Get the frequency of the I2S module source clock
* @param spimss Pointer to I2S module registers
*
* @returns frequency in Hz
*/
int SYS_I2S_GetFreq(mxc_spimss_regs_t *spimss);
/**
* @brief Init system settings for RTC square wave output.
* @param sys_cfg System configuration object
*
* @returns #E_NO_ERROR if successful, appropriate error otherwise
*/
int SYS_RTC_SqwavInit(const sys_cfg_rtc_t* sys_cfg);
/**
* @brief System Tick Configuration Helper
*
* The function enables selection of the external clock source for
* the System Tick Timer. It initializes the System Timer and its
* interrupt, and starts the System Tick Timer. Counter is in free
* running mode to generate periodic interrupts.
*
* @param ticks Number of ticks between two interrupts.
* @param clk_src Selects between default SystemClock or External Clock.
* - 0 Use external clock source
* @param tmr Optional tmr pointer for timeout. NULL if undesired.
* - 1 SystemClock
*
* @return #E_NO_ERROR Function succeeded, of #E_INVALID if an invalid value is requested
*/
int SYS_SysTick_Config(uint32_t ticks, int clk_src, mxc_tmr_regs_t* tmr);
/**
* @brief Disable System Tick timer
*/
void SYS_SysTick_Disable(void);
/**
* @brief Delay a requested number of SysTick Timer Ticks.
* @param ticks Number of System Ticks to delay.
* @note This delay function is based on the clock used for the SysTick
* timer if the SysTick timer is enabled. If the SysTick timer is
* not enabled, the current SysTick registers are saved and the
* timer will use the SystemClock as the source for the delay. The
* delay is measured in clock ticks and is not based on the SysTick
* interval.
*
* @return #E_NO_ERROR if everything is successful
*/
int SYS_SysTick_Delay(uint32_t ticks);
/**
* @brief Get the frequency of the SysTick Timer
*
* @return frequency in Hz
*/
uint32_t SYS_SysTick_GetFreq(void);
/**
* @brief Delay a requested number of microseconds.
* @param us Number of microseconds to delay.
* @note Calls SYS_SysTick_Delay().
*/
void SYS_SysTick_DelayUs(uint32_t us);
/**
* @brief Init WDT system settings
* @param wdt watchdog registers
* @param sys_cfg System configuration object
*/
int SYS_WDT_Init(mxc_wdt_regs_t* wdt, const sys_cfg_wdt_t* sys_cfg);
#ifdef __cplusplus
}
#endif
#endif /* _MXC_SYS_H_*/