/* * SPDX-FileCopyrightText: 2010-2022 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #pragma once #define ULP_RISCV_REGISTER_OPS #ifdef __cplusplus extern "C" { #endif //Registers Operation {{ /* * When COCPU accesses the RTC register, it needs to convert the access address. * When COCPU accesses the RTC memory, dont need to convert the access address. */ #define WRITE_RTC_MEM(addr, val) (*((volatile int*)(addr))) = (int) (val) #define READ_RTC_MEM(addr) (*(volatile int*)(addr)) /* * When COCPU accesses the RTC register, it needs to convert the access address. * When COCPU accesses the RTC memory, dont need to convert the access address. */ #define RISCV_REG_CONV(addr) (((addr&0xffff)<<3 & 0xe000) | (addr & 0x1fff) | 0x8000) #define ETS_UNCACHED_ADDR(addr) (RISCV_REG_CONV(addr)) #ifndef __ASSEMBLER__ #define BIT(nr) (1UL << (nr)) #else #define BIT(nr) (1 << (nr)) #endif //write value to register #define REG_WRITE(_r, _v) ({ \ (*(volatile uint32_t *)RISCV_REG_CONV(_r)) = (_v); \ }) //read value from register #define REG_READ(_r) ({ \ (*(volatile uint32_t *)RISCV_REG_CONV(_r)); \ }) //get bit or get bits from register #define REG_GET_BIT(_r, _b) ({ \ (*(volatile uint32_t*)RISCV_REG_CONV(_r) & (_b)); \ }) //set bit or set bits to register #define REG_SET_BIT(_r, _b) ({ \ (*(volatile uint32_t*)RISCV_REG_CONV(_r) |= (_b)); \ }) //clear bit or clear bits of register #define REG_CLR_BIT(_r, _b) ({ \ (*(volatile uint32_t*)RISCV_REG_CONV(_r) &= ~(_b)); \ }) //set bits of register controlled by mask #define REG_SET_BITS(_r, _b, _m) ({ \ (*(volatile uint32_t*)RISCV_REG_CONV(_r) = (*(volatile uint32_t*)RISCV_REG_CONV(_r) & ~(_m)) | ((_b) & (_m))); \ }) //get field from register, uses field _S & _V to determine mask #define REG_GET_FIELD(_r, _f) ({ \ ((REG_READ(_r) >> (_f##_S)) & (_f##_V)); \ }) //set field of a register from variable, uses field _S & _V to determine mask #define REG_SET_FIELD(_r, _f, _v) ({ \ (REG_WRITE((_r),((REG_READ(_r) & ~((_f##_V) << (_f##_S)))|(((_v) & (_f##_V))<<(_f##_S))))); \ }) //get field value from a variable, used when _f is not left shifted by _f##_S #define VALUE_GET_FIELD(_r, _f) (((_r) >> (_f##_S)) & (_f)) //get field value from a variable, used when _f is left shifted by _f##_S #define VALUE_GET_FIELD2(_r, _f) (((_r) & (_f))>> (_f##_S)) //set field value to a variable, used when _f is not left shifted by _f##_S #define VALUE_SET_FIELD(_r, _f, _v) ((_r)=(((_r) & ~((_f) << (_f##_S)))|((_v)<<(_f##_S)))) //set field value to a variable, used when _f is left shifted by _f##_S #define VALUE_SET_FIELD2(_r, _f, _v) ((_r)=(((_r) & ~(_f))|((_v)<<(_f##_S)))) //generate a value from a field value, used when _f is not left shifted by _f##_S #define FIELD_TO_VALUE(_f, _v) (((_v)&(_f))<<_f##_S) //generate a value from a field value, used when _f is left shifted by _f##_S #define FIELD_TO_VALUE2(_f, _v) (((_v)<<_f##_S) & (_f)) //read value from register #define READ_PERI_REG(addr) ({ \ (*((volatile uint32_t *)ETS_UNCACHED_ADDR(addr))); \ }) //write value to register #define WRITE_PERI_REG(addr, val) ({ \ (*((volatile uint32_t *)ETS_UNCACHED_ADDR(addr))) = (uint32_t)(val); \ }) //clear bits of register controlled by mask #define CLEAR_PERI_REG_MASK(reg, mask) ({ \ WRITE_PERI_REG((reg), (READ_PERI_REG(reg)&(~(mask)))); \ }) //set bits of register controlled by mask #define SET_PERI_REG_MASK(reg, mask) ({ \ WRITE_PERI_REG((reg), (READ_PERI_REG(reg)|(mask))); \ }) //get bits of register controlled by mask #define GET_PERI_REG_MASK(reg, mask) ({ \ (READ_PERI_REG(reg) & (mask)); \ }) //get bits of register controlled by highest bit and lowest bit // #define GET_PERI_REG_BITS(reg, hipos,lowpos) ({ // ASSERT_IF_DPORT_REG((reg), GET_PERI_REG_BITS); // ((READ_PERI_REG(reg)>>(lowpos))&((1UL<<((hipos)-(lowpos)+1))-1)); // }) #define GET_PERI_REG_BITS(reg, bit_map, shift) ((READ_PERI_REG(reg))&((bit_map)<<(shift)))>>shift //set bits of register controlled by mask and shift #define SET_PERI_REG_BITS(reg,bit_map,value,shift) ({ \ (WRITE_PERI_REG((reg),(READ_PERI_REG(reg)&(~((bit_map)<<(shift))))|(((value) & bit_map)<<(shift)) )); \ }) //get field of register #define GET_PERI_REG_BITS2(reg, mask,shift) ({ \ ((READ_PERI_REG(reg)>>(shift))&(mask)); \ }) //}} #ifdef __cplusplus } #endif