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MNRS-BM-BSP/include/ehrenberg/devices/gen/timercounter.h

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updates Ehrenberg register description
2024-05-30 18:32:23 +02:00
/*
* Copyright (c) 2023 - 2024 MINRES Technologies GmbH
*
* SPDX-License-Identifier: Apache-2.0
*
Ehrenberg firmware headers generated with peakrdl 1.2.8
2024-08-02 09:55:38 +02:00
* Generated at 2024-08-02 08:46:07 UTC
* by peakrdl_mnrs version 1.2.7
updates Ehrenberg register description
2024-05-30 18:32:23 +02:00
*/
#ifndef _BSP_TIMERCOUNTER_H
#define _BSP_TIMERCOUNTER_H
#include <stdint.h>
typedef struct __attribute((__packed__)) {
volatile uint32_t PRESCALER;
volatile uint32_t T0_CTRL;
volatile uint32_t T0_OVERFLOW;
volatile uint32_t T0_VALUE;
volatile uint32_t T1_CTRL;
volatile uint32_t T1_OVERFLOW;
volatile uint32_t T1_VALUE;
}timercounter_t;
#define TIMERCOUNTER_PRESCALER_OFFS 0
#define TIMERCOUNTER_PRESCALER_MASK 0xffff
#define TIMERCOUNTER_PRESCALER(V) ((V & TIMERCOUNTER_PRESCALER_MASK) << TIMERCOUNTER_PRESCALER_OFFS)
#define TIMERCOUNTER_T0_CTRL_ENABLE_OFFS 0
#define TIMERCOUNTER_T0_CTRL_ENABLE_MASK 0x7
#define TIMERCOUNTER_T0_CTRL_ENABLE(V) ((V & TIMERCOUNTER_T0_CTRL_ENABLE_MASK) << TIMERCOUNTER_T0_CTRL_ENABLE_OFFS)
#define TIMERCOUNTER_T0_CTRL_CLEAR_OFFS 3
#define TIMERCOUNTER_T0_CTRL_CLEAR_MASK 0x3
#define TIMERCOUNTER_T0_CTRL_CLEAR(V) ((V & TIMERCOUNTER_T0_CTRL_CLEAR_MASK) << TIMERCOUNTER_T0_CTRL_CLEAR_OFFS)
#define TIMERCOUNTER_T0_OVERFLOW_OFFS 0
#define TIMERCOUNTER_T0_OVERFLOW_MASK 0xffffffff
#define TIMERCOUNTER_T0_OVERFLOW(V) ((V & TIMERCOUNTER_T0_OVERFLOW_MASK) << TIMERCOUNTER_T0_OVERFLOW_OFFS)
#define TIMERCOUNTER_T0_VALUE_OFFS 0
#define TIMERCOUNTER_T0_VALUE_MASK 0xffffffff
#define TIMERCOUNTER_T0_VALUE(V) ((V & TIMERCOUNTER_T0_VALUE_MASK) << TIMERCOUNTER_T0_VALUE_OFFS)
#define TIMERCOUNTER_T1_CTRL_ENABLE_OFFS 0
#define TIMERCOUNTER_T1_CTRL_ENABLE_MASK 0x7
#define TIMERCOUNTER_T1_CTRL_ENABLE(V) ((V & TIMERCOUNTER_T1_CTRL_ENABLE_MASK) << TIMERCOUNTER_T1_CTRL_ENABLE_OFFS)
#define TIMERCOUNTER_T1_CTRL_CLEAR_OFFS 3
#define TIMERCOUNTER_T1_CTRL_CLEAR_MASK 0x3
#define TIMERCOUNTER_T1_CTRL_CLEAR(V) ((V & TIMERCOUNTER_T1_CTRL_CLEAR_MASK) << TIMERCOUNTER_T1_CTRL_CLEAR_OFFS)
#define TIMERCOUNTER_T1_OVERFLOW_OFFS 0
#define TIMERCOUNTER_T1_OVERFLOW_MASK 0xffffffff
#define TIMERCOUNTER_T1_OVERFLOW(V) ((V & TIMERCOUNTER_T1_OVERFLOW_MASK) << TIMERCOUNTER_T1_OVERFLOW_OFFS)
#define TIMERCOUNTER_T1_VALUE_OFFS 0
#define TIMERCOUNTER_T1_VALUE_MASK 0xffffffff
#define TIMERCOUNTER_T1_VALUE(V) ((V & TIMERCOUNTER_T1_VALUE_MASK) << TIMERCOUNTER_T1_VALUE_OFFS)
//TIMERCOUNTER_PRESCALER
inline uint32_t get_timercounter_prescaler(volatile timercounter_t* reg){
Ehrenberg firmware headers generated with peakrdl 1.2.8
2024-08-02 09:55:38 +02:00
return reg->PRESCALER;
}
inline void set_timercounter_prescaler(volatile timercounter_t* reg, uint32_t value){
reg->PRESCALER = value;
}
inline uint32_t get_timercounter_prescaler_limit(volatile timercounter_t* reg){
updates Ehrenberg register description
2024-05-30 18:32:23 +02:00
return (reg->PRESCALER >> 0) & 0xffff;
}
Ehrenberg firmware headers generated with peakrdl 1.2.8
2024-08-02 09:55:38 +02:00
inline void set_timercounter_prescaler_limit(volatile timercounter_t* reg, uint16_t value){
updates Ehrenberg register description
2024-05-30 18:32:23 +02:00
reg->PRESCALER = (reg->PRESCALER & ~(0xffffU << 0)) | (value << 0);
}
//TIMERCOUNTER_T0_CTRL
inline uint32_t get_timercounter_t0_ctrl(volatile timercounter_t* reg){
return reg->T0_CTRL;
}
inline void set_timercounter_t0_ctrl(volatile timercounter_t* reg, uint32_t value){
reg->T0_CTRL = value;
}
inline uint32_t get_timercounter_t0_ctrl_enable(volatile timercounter_t* reg){
return (reg->T0_CTRL >> 0) & 0x7;
}
inline void set_timercounter_t0_ctrl_enable(volatile timercounter_t* reg, uint8_t value){
reg->T0_CTRL = (reg->T0_CTRL & ~(0x7U << 0)) | (value << 0);
}
inline uint32_t get_timercounter_t0_ctrl_clear(volatile timercounter_t* reg){
return (reg->T0_CTRL >> 3) & 0x3;
}
inline void set_timercounter_t0_ctrl_clear(volatile timercounter_t* reg, uint8_t value){
reg->T0_CTRL = (reg->T0_CTRL & ~(0x3U << 3)) | (value << 3);
}
//TIMERCOUNTER_T0_OVERFLOW
inline uint32_t get_timercounter_t0_overflow(volatile timercounter_t* reg){
return (reg->T0_OVERFLOW >> 0) & 0xffffffff;
}
inline void set_timercounter_t0_overflow(volatile timercounter_t* reg, uint32_t value){
reg->T0_OVERFLOW = (reg->T0_OVERFLOW & ~(0xffffffffU << 0)) | (value << 0);
}
//TIMERCOUNTER_T0_VALUE
inline uint32_t get_timercounter_t0_value(volatile timercounter_t* reg){
return (reg->T0_VALUE >> 0) & 0xffffffff;
}
//TIMERCOUNTER_T1_CTRL
inline uint32_t get_timercounter_t1_ctrl(volatile timercounter_t* reg){
return reg->T1_CTRL;
}
inline void set_timercounter_t1_ctrl(volatile timercounter_t* reg, uint32_t value){
reg->T1_CTRL = value;
}
inline uint32_t get_timercounter_t1_ctrl_enable(volatile timercounter_t* reg){
return (reg->T1_CTRL >> 0) & 0x7;
}
inline void set_timercounter_t1_ctrl_enable(volatile timercounter_t* reg, uint8_t value){
reg->T1_CTRL = (reg->T1_CTRL & ~(0x7U << 0)) | (value << 0);
}
inline uint32_t get_timercounter_t1_ctrl_clear(volatile timercounter_t* reg){
return (reg->T1_CTRL >> 3) & 0x3;
}
inline void set_timercounter_t1_ctrl_clear(volatile timercounter_t* reg, uint8_t value){
reg->T1_CTRL = (reg->T1_CTRL & ~(0x3U << 3)) | (value << 3);
}
//TIMERCOUNTER_T1_OVERFLOW
inline uint32_t get_timercounter_t1_overflow(volatile timercounter_t* reg){
return (reg->T1_OVERFLOW >> 0) & 0xffffffff;
}
inline void set_timercounter_t1_overflow(volatile timercounter_t* reg, uint32_t value){
reg->T1_OVERFLOW = (reg->T1_OVERFLOW & ~(0xffffffffU << 0)) | (value << 0);
}
//TIMERCOUNTER_T1_VALUE
inline uint32_t get_timercounter_t1_value(volatile timercounter_t* reg){
return (reg->T1_VALUE >> 0) & 0xffffffff;
}
#endif /* _BSP_TIMERCOUNTER_H */