/* * Copyright (c) 2016 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 */ #ifndef ZEPHYR_INCLUDE_ARCH_NIOS2_ASM_INLINE_GCC_H_ #define ZEPHYR_INCLUDE_ARCH_NIOS2_ASM_INLINE_GCC_H_ #ifdef __cplusplus extern "C" { #endif /* * The file must not be included directly * Include arch/cpu.h instead */ #ifndef _ASMLANGUAGE #include #include /** * * @brief find most significant bit set in a 32-bit word * * This routine finds the first bit set starting from the most significant bit * in the argument passed in and returns the index of that bit. Bits are * numbered starting at 1 from the least significant bit. A return value of * zero indicates that the value passed is zero. * * @return most significant bit set, 0 if @a op is 0 */ static ALWAYS_INLINE unsigned int find_msb_set(u32_t op) { if (!op) return 0; return 32 - __builtin_clz(op); } /** * * @brief find least significant bit set in a 32-bit word * * This routine finds the first bit set starting from the least significant bit * in the argument passed in and returns the index of that bit. Bits are * numbered starting at 1 from the least significant bit. A return value of * zero indicates that the value passed is zero. * * @return least significant bit set, 0 if @a op is 0 */ static ALWAYS_INLINE unsigned int find_lsb_set(u32_t op) { return __builtin_ffs(op); } /* Using the *io variants of these instructions to prevent issues on * devices that have an instruction/data cache */ static ALWAYS_INLINE void sys_write32(u32_t data, mm_reg_t addr) { __builtin_stwio((void *)addr, data); } static ALWAYS_INLINE u32_t sys_read32(mm_reg_t addr) { return __builtin_ldwio((void *)addr); } static ALWAYS_INLINE void sys_write8(u8_t data, mm_reg_t addr) { sys_write32(data, addr); } static ALWAYS_INLINE u8_t sys_read8(mm_reg_t addr) { return __builtin_ldbuio((void *)addr); } static ALWAYS_INLINE void sys_write16(u16_t data, mm_reg_t addr) { sys_write32(data, addr); } static ALWAYS_INLINE u16_t sys_read16(mm_reg_t addr) { return __builtin_ldhuio((void *)addr); } /* NIOS II does not have any special instructions for manipulating bits, * so just read, modify, write in C */ static ALWAYS_INLINE void sys_set_bit(mem_addr_t addr, unsigned int bit) { sys_write32(sys_read32(addr) | (1 << bit), addr); } static ALWAYS_INLINE void sys_clear_bit(mem_addr_t addr, unsigned int bit) { sys_write32(sys_read32(addr) & ~(1 << bit), addr); } static ALWAYS_INLINE int sys_test_bit(mem_addr_t addr, unsigned int bit) { return sys_read32(addr) & (1 << bit); } /* These are not required to be atomic, just do it in C */ static ALWAYS_INLINE int sys_test_and_set_bit(mem_addr_t addr, unsigned int bit) { int ret; ret = sys_test_bit(addr, bit); sys_set_bit(addr, bit); return ret; } static ALWAYS_INLINE int sys_test_and_clear_bit(mem_addr_t addr, unsigned int bit) { int ret; ret = sys_test_bit(addr, bit); sys_clear_bit(addr, bit); return ret; } static ALWAYS_INLINE void sys_bitfield_set_bit(mem_addr_t addr, unsigned int bit) { /* Doing memory offsets in terms of 32-bit values to prevent * alignment issues */ sys_set_bit(addr + ((bit >> 5) << 2), bit & 0x1F); } static ALWAYS_INLINE void sys_bitfield_clear_bit(mem_addr_t addr, unsigned int bit) { sys_clear_bit(addr + ((bit >> 5) << 2), bit & 0x1F); } static ALWAYS_INLINE int sys_bitfield_test_bit(mem_addr_t addr, unsigned int bit) { return sys_test_bit(addr + ((bit >> 5) << 2), bit & 0x1F); } static ALWAYS_INLINE int sys_bitfield_test_and_set_bit(mem_addr_t addr, unsigned int bit) { int ret; ret = sys_bitfield_test_bit(addr, bit); sys_bitfield_set_bit(addr, bit); return ret; } static ALWAYS_INLINE int sys_bitfield_test_and_clear_bit(mem_addr_t addr, unsigned int bit) { int ret; ret = sys_bitfield_test_bit(addr, bit); sys_bitfield_clear_bit(addr, bit); return ret; } #endif /* _ASMLANGUAGE */ #ifdef __cplusplus } #endif #endif /* _ASM_INLINE_GCC_PUBLIC_GCC_H */