/** * \file * * \brief SAM DMAC * * Copyright (c) 2016-2018 Microchip Technology Inc. and its subsidiaries. * * \asf_license_start * * \page License * * Subject to your compliance with these terms, you may use Microchip * software and any derivatives exclusively with Microchip products. * It is your responsibility to comply with third party license terms applicable * to your use of third party software (including open source software) that * may accompany Microchip software. * * THIS SOFTWARE IS SUPPLIED BY MICROCHIP "AS IS". NO WARRANTIES, * WHETHER EXPRESS, IMPLIED OR STATUTORY, APPLY TO THIS SOFTWARE, * INCLUDING ANY IMPLIED WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY, * AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT WILL MICROCHIP BE * LIABLE FOR ANY INDIRECT, SPECIAL, PUNITIVE, INCIDENTAL OR CONSEQUENTIAL * LOSS, DAMAGE, COST OR EXPENSE OF ANY KIND WHATSOEVER RELATED TO THE * SOFTWARE, HOWEVER CAUSED, EVEN IF MICROCHIP HAS BEEN ADVISED OF THE * POSSIBILITY OR THE DAMAGES ARE FORESEEABLE. TO THE FULLEST EXTENT * ALLOWED BY LAW, MICROCHIP'S TOTAL LIABILITY ON ALL CLAIMS IN ANY WAY * RELATED TO THIS SOFTWARE WILL NOT EXCEED THE AMOUNT OF FEES, IF ANY, * THAT YOU HAVE PAID DIRECTLY TO MICROCHIP FOR THIS SOFTWARE. * * \asf_license_stop * */ #ifdef _SAME54_DMAC_COMPONENT_ #ifndef _HRI_DMAC_E54_H_INCLUDED_ #define _HRI_DMAC_E54_H_INCLUDED_ #ifdef __cplusplus extern "C" { #endif #include #include #if defined(ENABLE_DMAC_CRITICAL_SECTIONS) #define DMAC_CRITICAL_SECTION_ENTER() CRITICAL_SECTION_ENTER() #define DMAC_CRITICAL_SECTION_LEAVE() CRITICAL_SECTION_LEAVE() #else #define DMAC_CRITICAL_SECTION_ENTER() #define DMAC_CRITICAL_SECTION_LEAVE() #endif typedef uint16_t hri_dmac_crcctrl_reg_t; typedef uint16_t hri_dmac_ctrl_reg_t; typedef uint16_t hri_dmac_intpend_reg_t; typedef uint16_t hri_dmacdescriptor_btcnt_reg_t; typedef uint16_t hri_dmacdescriptor_btctrl_reg_t; typedef uint32_t hri_dmac_active_reg_t; typedef uint32_t hri_dmac_baseaddr_reg_t; typedef uint32_t hri_dmac_busych_reg_t; typedef uint32_t hri_dmac_chctrla_reg_t; typedef uint32_t hri_dmac_crcchksum_reg_t; typedef uint32_t hri_dmac_crcdatain_reg_t; typedef uint32_t hri_dmac_intstatus_reg_t; typedef uint32_t hri_dmac_pendch_reg_t; typedef uint32_t hri_dmac_prictrl0_reg_t; typedef uint32_t hri_dmac_swtrigctrl_reg_t; typedef uint32_t hri_dmac_wrbaddr_reg_t; typedef uint32_t hri_dmacchannel_chctrla_reg_t; typedef uint32_t hri_dmacdescriptor_descaddr_reg_t; typedef uint32_t hri_dmacdescriptor_dstaddr_reg_t; typedef uint32_t hri_dmacdescriptor_srcaddr_reg_t; typedef uint8_t hri_dmac_chctrlb_reg_t; typedef uint8_t hri_dmac_chevctrl_reg_t; typedef uint8_t hri_dmac_chintenset_reg_t; typedef uint8_t hri_dmac_chintflag_reg_t; typedef uint8_t hri_dmac_chprilvl_reg_t; typedef uint8_t hri_dmac_chstatus_reg_t; typedef uint8_t hri_dmac_crcstatus_reg_t; typedef uint8_t hri_dmac_dbgctrl_reg_t; typedef uint8_t hri_dmacchannel_chctrlb_reg_t; typedef uint8_t hri_dmacchannel_chevctrl_reg_t; typedef uint8_t hri_dmacchannel_chintenset_reg_t; typedef uint8_t hri_dmacchannel_chintflag_reg_t; typedef uint8_t hri_dmacchannel_chprilvl_reg_t; typedef uint8_t hri_dmacchannel_chstatus_reg_t; static inline bool hri_dmac_get_INTSTATUS_CHINT0_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT0) >> DMAC_INTSTATUS_CHINT0_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT1_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT1) >> DMAC_INTSTATUS_CHINT1_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT2_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT2) >> DMAC_INTSTATUS_CHINT2_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT3_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT3) >> DMAC_INTSTATUS_CHINT3_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT4_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT4) >> DMAC_INTSTATUS_CHINT4_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT5_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT5) >> DMAC_INTSTATUS_CHINT5_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT6_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT6) >> DMAC_INTSTATUS_CHINT6_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT7_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT7) >> DMAC_INTSTATUS_CHINT7_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT8_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT8) >> DMAC_INTSTATUS_CHINT8_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT9_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT9) >> DMAC_INTSTATUS_CHINT9_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT10_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT10) >> DMAC_INTSTATUS_CHINT10_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT11_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT11) >> DMAC_INTSTATUS_CHINT11_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT12_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT12) >> DMAC_INTSTATUS_CHINT12_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT13_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT13) >> DMAC_INTSTATUS_CHINT13_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT14_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT14) >> DMAC_INTSTATUS_CHINT14_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT15_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT15) >> DMAC_INTSTATUS_CHINT15_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT16_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT16) >> DMAC_INTSTATUS_CHINT16_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT17_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT17) >> DMAC_INTSTATUS_CHINT17_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT18_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT18) >> DMAC_INTSTATUS_CHINT18_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT19_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT19) >> DMAC_INTSTATUS_CHINT19_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT20_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT20) >> DMAC_INTSTATUS_CHINT20_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT21_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT21) >> DMAC_INTSTATUS_CHINT21_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT22_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT22) >> DMAC_INTSTATUS_CHINT22_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT23_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT23) >> DMAC_INTSTATUS_CHINT23_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT24_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT24) >> DMAC_INTSTATUS_CHINT24_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT25_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT25) >> DMAC_INTSTATUS_CHINT25_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT26_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT26) >> DMAC_INTSTATUS_CHINT26_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT27_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT27) >> DMAC_INTSTATUS_CHINT27_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT28_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT28) >> DMAC_INTSTATUS_CHINT28_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT29_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT29) >> DMAC_INTSTATUS_CHINT29_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT30_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT30) >> DMAC_INTSTATUS_CHINT30_Pos; } static inline bool hri_dmac_get_INTSTATUS_CHINT31_bit(const void *const hw) { return (((Dmac *)hw)->INTSTATUS.reg & DMAC_INTSTATUS_CHINT31) >> DMAC_INTSTATUS_CHINT31_Pos; } static inline hri_dmac_intstatus_reg_t hri_dmac_get_INTSTATUS_reg(const void *const hw, hri_dmac_intstatus_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->INTSTATUS.reg; tmp &= mask; return tmp; } static inline hri_dmac_intstatus_reg_t hri_dmac_read_INTSTATUS_reg(const void *const hw) { return ((Dmac *)hw)->INTSTATUS.reg; } static inline bool hri_dmac_get_BUSYCH_BUSYCH0_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH0) >> DMAC_BUSYCH_BUSYCH0_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH1_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH1) >> DMAC_BUSYCH_BUSYCH1_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH2_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH2) >> DMAC_BUSYCH_BUSYCH2_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH3_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH3) >> DMAC_BUSYCH_BUSYCH3_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH4_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH4) >> DMAC_BUSYCH_BUSYCH4_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH5_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH5) >> DMAC_BUSYCH_BUSYCH5_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH6_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH6) >> DMAC_BUSYCH_BUSYCH6_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH7_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH7) >> DMAC_BUSYCH_BUSYCH7_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH8_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH8) >> DMAC_BUSYCH_BUSYCH8_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH9_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH9) >> DMAC_BUSYCH_BUSYCH9_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH10_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH10) >> DMAC_BUSYCH_BUSYCH10_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH11_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH11) >> DMAC_BUSYCH_BUSYCH11_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH12_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH12) >> DMAC_BUSYCH_BUSYCH12_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH13_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH13) >> DMAC_BUSYCH_BUSYCH13_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH14_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH14) >> DMAC_BUSYCH_BUSYCH14_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH15_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH15) >> DMAC_BUSYCH_BUSYCH15_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH16_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH16) >> DMAC_BUSYCH_BUSYCH16_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH17_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH17) >> DMAC_BUSYCH_BUSYCH17_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH18_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH18) >> DMAC_BUSYCH_BUSYCH18_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH19_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH19) >> DMAC_BUSYCH_BUSYCH19_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH20_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH20) >> DMAC_BUSYCH_BUSYCH20_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH21_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH21) >> DMAC_BUSYCH_BUSYCH21_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH22_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH22) >> DMAC_BUSYCH_BUSYCH22_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH23_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH23) >> DMAC_BUSYCH_BUSYCH23_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH24_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH24) >> DMAC_BUSYCH_BUSYCH24_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH25_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH25) >> DMAC_BUSYCH_BUSYCH25_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH26_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH26) >> DMAC_BUSYCH_BUSYCH26_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH27_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH27) >> DMAC_BUSYCH_BUSYCH27_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH28_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH28) >> DMAC_BUSYCH_BUSYCH28_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH29_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH29) >> DMAC_BUSYCH_BUSYCH29_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH30_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH30) >> DMAC_BUSYCH_BUSYCH30_Pos; } static inline bool hri_dmac_get_BUSYCH_BUSYCH31_bit(const void *const hw) { return (((Dmac *)hw)->BUSYCH.reg & DMAC_BUSYCH_BUSYCH31) >> DMAC_BUSYCH_BUSYCH31_Pos; } static inline hri_dmac_busych_reg_t hri_dmac_get_BUSYCH_reg(const void *const hw, hri_dmac_busych_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->BUSYCH.reg; tmp &= mask; return tmp; } static inline hri_dmac_busych_reg_t hri_dmac_read_BUSYCH_reg(const void *const hw) { return ((Dmac *)hw)->BUSYCH.reg; } static inline bool hri_dmac_get_PENDCH_PENDCH0_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH0) >> DMAC_PENDCH_PENDCH0_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH1_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH1) >> DMAC_PENDCH_PENDCH1_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH2_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH2) >> DMAC_PENDCH_PENDCH2_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH3_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH3) >> DMAC_PENDCH_PENDCH3_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH4_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH4) >> DMAC_PENDCH_PENDCH4_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH5_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH5) >> DMAC_PENDCH_PENDCH5_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH6_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH6) >> DMAC_PENDCH_PENDCH6_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH7_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH7) >> DMAC_PENDCH_PENDCH7_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH8_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH8) >> DMAC_PENDCH_PENDCH8_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH9_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH9) >> DMAC_PENDCH_PENDCH9_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH10_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH10) >> DMAC_PENDCH_PENDCH10_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH11_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH11) >> DMAC_PENDCH_PENDCH11_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH12_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH12) >> DMAC_PENDCH_PENDCH12_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH13_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH13) >> DMAC_PENDCH_PENDCH13_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH14_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH14) >> DMAC_PENDCH_PENDCH14_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH15_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH15) >> DMAC_PENDCH_PENDCH15_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH16_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH16) >> DMAC_PENDCH_PENDCH16_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH17_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH17) >> DMAC_PENDCH_PENDCH17_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH18_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH18) >> DMAC_PENDCH_PENDCH18_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH19_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH19) >> DMAC_PENDCH_PENDCH19_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH20_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH20) >> DMAC_PENDCH_PENDCH20_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH21_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH21) >> DMAC_PENDCH_PENDCH21_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH22_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH22) >> DMAC_PENDCH_PENDCH22_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH23_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH23) >> DMAC_PENDCH_PENDCH23_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH24_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH24) >> DMAC_PENDCH_PENDCH24_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH25_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH25) >> DMAC_PENDCH_PENDCH25_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH26_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH26) >> DMAC_PENDCH_PENDCH26_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH27_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH27) >> DMAC_PENDCH_PENDCH27_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH28_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH28) >> DMAC_PENDCH_PENDCH28_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH29_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH29) >> DMAC_PENDCH_PENDCH29_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH30_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH30) >> DMAC_PENDCH_PENDCH30_Pos; } static inline bool hri_dmac_get_PENDCH_PENDCH31_bit(const void *const hw) { return (((Dmac *)hw)->PENDCH.reg & DMAC_PENDCH_PENDCH31) >> DMAC_PENDCH_PENDCH31_Pos; } static inline hri_dmac_pendch_reg_t hri_dmac_get_PENDCH_reg(const void *const hw, hri_dmac_pendch_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->PENDCH.reg; tmp &= mask; return tmp; } static inline hri_dmac_pendch_reg_t hri_dmac_read_PENDCH_reg(const void *const hw) { return ((Dmac *)hw)->PENDCH.reg; } static inline bool hri_dmac_get_ACTIVE_LVLEX0_bit(const void *const hw) { return (((Dmac *)hw)->ACTIVE.reg & DMAC_ACTIVE_LVLEX0) >> DMAC_ACTIVE_LVLEX0_Pos; } static inline bool hri_dmac_get_ACTIVE_LVLEX1_bit(const void *const hw) { return (((Dmac *)hw)->ACTIVE.reg & DMAC_ACTIVE_LVLEX1) >> DMAC_ACTIVE_LVLEX1_Pos; } static inline bool hri_dmac_get_ACTIVE_LVLEX2_bit(const void *const hw) { return (((Dmac *)hw)->ACTIVE.reg & DMAC_ACTIVE_LVLEX2) >> DMAC_ACTIVE_LVLEX2_Pos; } static inline bool hri_dmac_get_ACTIVE_LVLEX3_bit(const void *const hw) { return (((Dmac *)hw)->ACTIVE.reg & DMAC_ACTIVE_LVLEX3) >> DMAC_ACTIVE_LVLEX3_Pos; } static inline bool hri_dmac_get_ACTIVE_ABUSY_bit(const void *const hw) { return (((Dmac *)hw)->ACTIVE.reg & DMAC_ACTIVE_ABUSY) >> DMAC_ACTIVE_ABUSY_Pos; } static inline hri_dmac_active_reg_t hri_dmac_get_ACTIVE_ID_bf(const void *const hw, hri_dmac_active_reg_t mask) { return (((Dmac *)hw)->ACTIVE.reg & DMAC_ACTIVE_ID(mask)) >> DMAC_ACTIVE_ID_Pos; } static inline hri_dmac_active_reg_t hri_dmac_read_ACTIVE_ID_bf(const void *const hw) { return (((Dmac *)hw)->ACTIVE.reg & DMAC_ACTIVE_ID_Msk) >> DMAC_ACTIVE_ID_Pos; } static inline hri_dmac_active_reg_t hri_dmac_get_ACTIVE_BTCNT_bf(const void *const hw, hri_dmac_active_reg_t mask) { return (((Dmac *)hw)->ACTIVE.reg & DMAC_ACTIVE_BTCNT(mask)) >> DMAC_ACTIVE_BTCNT_Pos; } static inline hri_dmac_active_reg_t hri_dmac_read_ACTIVE_BTCNT_bf(const void *const hw) { return (((Dmac *)hw)->ACTIVE.reg & DMAC_ACTIVE_BTCNT_Msk) >> DMAC_ACTIVE_BTCNT_Pos; } static inline hri_dmac_active_reg_t hri_dmac_get_ACTIVE_reg(const void *const hw, hri_dmac_active_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->ACTIVE.reg; tmp &= mask; return tmp; } static inline hri_dmac_active_reg_t hri_dmac_read_ACTIVE_reg(const void *const hw) { return ((Dmac *)hw)->ACTIVE.reg; } static inline void hri_dmac_set_CTRL_SWRST_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CTRL.reg |= DMAC_CTRL_SWRST; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_CTRL_SWRST_bit(const void *const hw) { uint16_t tmp; tmp = ((Dmac *)hw)->CTRL.reg; tmp = (tmp & DMAC_CTRL_SWRST) >> DMAC_CTRL_SWRST_Pos; return (bool)tmp; } static inline void hri_dmac_set_CTRL_DMAENABLE_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CTRL.reg |= DMAC_CTRL_DMAENABLE; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_CTRL_DMAENABLE_bit(const void *const hw) { uint16_t tmp; tmp = ((Dmac *)hw)->CTRL.reg; tmp = (tmp & DMAC_CTRL_DMAENABLE) >> DMAC_CTRL_DMAENABLE_Pos; return (bool)tmp; } static inline void hri_dmac_write_CTRL_DMAENABLE_bit(const void *const hw, bool value) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->CTRL.reg; tmp &= ~DMAC_CTRL_DMAENABLE; tmp |= value << DMAC_CTRL_DMAENABLE_Pos; ((Dmac *)hw)->CTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CTRL_DMAENABLE_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CTRL.reg &= ~DMAC_CTRL_DMAENABLE; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CTRL_DMAENABLE_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CTRL.reg ^= DMAC_CTRL_DMAENABLE; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_CTRL_LVLEN0_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CTRL.reg |= DMAC_CTRL_LVLEN0; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_CTRL_LVLEN0_bit(const void *const hw) { uint16_t tmp; tmp = ((Dmac *)hw)->CTRL.reg; tmp = (tmp & DMAC_CTRL_LVLEN0) >> DMAC_CTRL_LVLEN0_Pos; return (bool)tmp; } static inline void hri_dmac_write_CTRL_LVLEN0_bit(const void *const hw, bool value) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->CTRL.reg; tmp &= ~DMAC_CTRL_LVLEN0; tmp |= value << DMAC_CTRL_LVLEN0_Pos; ((Dmac *)hw)->CTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CTRL_LVLEN0_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CTRL.reg &= ~DMAC_CTRL_LVLEN0; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CTRL_LVLEN0_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CTRL.reg ^= DMAC_CTRL_LVLEN0; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_CTRL_LVLEN1_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CTRL.reg |= DMAC_CTRL_LVLEN1; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_CTRL_LVLEN1_bit(const void *const hw) { uint16_t tmp; tmp = ((Dmac *)hw)->CTRL.reg; tmp = (tmp & DMAC_CTRL_LVLEN1) >> DMAC_CTRL_LVLEN1_Pos; return (bool)tmp; } static inline void hri_dmac_write_CTRL_LVLEN1_bit(const void *const hw, bool value) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->CTRL.reg; tmp &= ~DMAC_CTRL_LVLEN1; tmp |= value << DMAC_CTRL_LVLEN1_Pos; ((Dmac *)hw)->CTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CTRL_LVLEN1_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CTRL.reg &= ~DMAC_CTRL_LVLEN1; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CTRL_LVLEN1_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CTRL.reg ^= DMAC_CTRL_LVLEN1; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_CTRL_LVLEN2_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CTRL.reg |= DMAC_CTRL_LVLEN2; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_CTRL_LVLEN2_bit(const void *const hw) { uint16_t tmp; tmp = ((Dmac *)hw)->CTRL.reg; tmp = (tmp & DMAC_CTRL_LVLEN2) >> DMAC_CTRL_LVLEN2_Pos; return (bool)tmp; } static inline void hri_dmac_write_CTRL_LVLEN2_bit(const void *const hw, bool value) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->CTRL.reg; tmp &= ~DMAC_CTRL_LVLEN2; tmp |= value << DMAC_CTRL_LVLEN2_Pos; ((Dmac *)hw)->CTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CTRL_LVLEN2_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CTRL.reg &= ~DMAC_CTRL_LVLEN2; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CTRL_LVLEN2_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CTRL.reg ^= DMAC_CTRL_LVLEN2; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_CTRL_LVLEN3_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CTRL.reg |= DMAC_CTRL_LVLEN3; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_CTRL_LVLEN3_bit(const void *const hw) { uint16_t tmp; tmp = ((Dmac *)hw)->CTRL.reg; tmp = (tmp & DMAC_CTRL_LVLEN3) >> DMAC_CTRL_LVLEN3_Pos; return (bool)tmp; } static inline void hri_dmac_write_CTRL_LVLEN3_bit(const void *const hw, bool value) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->CTRL.reg; tmp &= ~DMAC_CTRL_LVLEN3; tmp |= value << DMAC_CTRL_LVLEN3_Pos; ((Dmac *)hw)->CTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CTRL_LVLEN3_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CTRL.reg &= ~DMAC_CTRL_LVLEN3; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CTRL_LVLEN3_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CTRL.reg ^= DMAC_CTRL_LVLEN3; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_CTRL_reg(const void *const hw, hri_dmac_ctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CTRL.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_ctrl_reg_t hri_dmac_get_CTRL_reg(const void *const hw, hri_dmac_ctrl_reg_t mask) { uint16_t tmp; tmp = ((Dmac *)hw)->CTRL.reg; tmp &= mask; return tmp; } static inline void hri_dmac_write_CTRL_reg(const void *const hw, hri_dmac_ctrl_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CTRL.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CTRL_reg(const void *const hw, hri_dmac_ctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CTRL.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CTRL_reg(const void *const hw, hri_dmac_ctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CTRL.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_ctrl_reg_t hri_dmac_read_CTRL_reg(const void *const hw) { return ((Dmac *)hw)->CTRL.reg; } static inline void hri_dmac_set_CRCCTRL_CRCBEATSIZE_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCTRL.reg |= DMAC_CRCCTRL_CRCBEATSIZE(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_crcctrl_reg_t hri_dmac_get_CRCCTRL_CRCBEATSIZE_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask) { uint16_t tmp; tmp = ((Dmac *)hw)->CRCCTRL.reg; tmp = (tmp & DMAC_CRCCTRL_CRCBEATSIZE(mask)) >> DMAC_CRCCTRL_CRCBEATSIZE_Pos; return tmp; } static inline void hri_dmac_write_CRCCTRL_CRCBEATSIZE_bf(const void *const hw, hri_dmac_crcctrl_reg_t data) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->CRCCTRL.reg; tmp &= ~DMAC_CRCCTRL_CRCBEATSIZE_Msk; tmp |= DMAC_CRCCTRL_CRCBEATSIZE(data); ((Dmac *)hw)->CRCCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CRCCTRL_CRCBEATSIZE_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCTRL.reg &= ~DMAC_CRCCTRL_CRCBEATSIZE(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CRCCTRL_CRCBEATSIZE_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCTRL.reg ^= DMAC_CRCCTRL_CRCBEATSIZE(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_crcctrl_reg_t hri_dmac_read_CRCCTRL_CRCBEATSIZE_bf(const void *const hw) { uint16_t tmp; tmp = ((Dmac *)hw)->CRCCTRL.reg; tmp = (tmp & DMAC_CRCCTRL_CRCBEATSIZE_Msk) >> DMAC_CRCCTRL_CRCBEATSIZE_Pos; return tmp; } static inline void hri_dmac_set_CRCCTRL_CRCPOLY_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCTRL.reg |= DMAC_CRCCTRL_CRCPOLY(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_crcctrl_reg_t hri_dmac_get_CRCCTRL_CRCPOLY_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask) { uint16_t tmp; tmp = ((Dmac *)hw)->CRCCTRL.reg; tmp = (tmp & DMAC_CRCCTRL_CRCPOLY(mask)) >> DMAC_CRCCTRL_CRCPOLY_Pos; return tmp; } static inline void hri_dmac_write_CRCCTRL_CRCPOLY_bf(const void *const hw, hri_dmac_crcctrl_reg_t data) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->CRCCTRL.reg; tmp &= ~DMAC_CRCCTRL_CRCPOLY_Msk; tmp |= DMAC_CRCCTRL_CRCPOLY(data); ((Dmac *)hw)->CRCCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CRCCTRL_CRCPOLY_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCTRL.reg &= ~DMAC_CRCCTRL_CRCPOLY(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CRCCTRL_CRCPOLY_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCTRL.reg ^= DMAC_CRCCTRL_CRCPOLY(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_crcctrl_reg_t hri_dmac_read_CRCCTRL_CRCPOLY_bf(const void *const hw) { uint16_t tmp; tmp = ((Dmac *)hw)->CRCCTRL.reg; tmp = (tmp & DMAC_CRCCTRL_CRCPOLY_Msk) >> DMAC_CRCCTRL_CRCPOLY_Pos; return tmp; } static inline void hri_dmac_set_CRCCTRL_CRCSRC_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCTRL.reg |= DMAC_CRCCTRL_CRCSRC(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_crcctrl_reg_t hri_dmac_get_CRCCTRL_CRCSRC_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask) { uint16_t tmp; tmp = ((Dmac *)hw)->CRCCTRL.reg; tmp = (tmp & DMAC_CRCCTRL_CRCSRC(mask)) >> DMAC_CRCCTRL_CRCSRC_Pos; return tmp; } static inline void hri_dmac_write_CRCCTRL_CRCSRC_bf(const void *const hw, hri_dmac_crcctrl_reg_t data) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->CRCCTRL.reg; tmp &= ~DMAC_CRCCTRL_CRCSRC_Msk; tmp |= DMAC_CRCCTRL_CRCSRC(data); ((Dmac *)hw)->CRCCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CRCCTRL_CRCSRC_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCTRL.reg &= ~DMAC_CRCCTRL_CRCSRC(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CRCCTRL_CRCSRC_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCTRL.reg ^= DMAC_CRCCTRL_CRCSRC(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_crcctrl_reg_t hri_dmac_read_CRCCTRL_CRCSRC_bf(const void *const hw) { uint16_t tmp; tmp = ((Dmac *)hw)->CRCCTRL.reg; tmp = (tmp & DMAC_CRCCTRL_CRCSRC_Msk) >> DMAC_CRCCTRL_CRCSRC_Pos; return tmp; } static inline void hri_dmac_set_CRCCTRL_CRCMODE_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCTRL.reg |= DMAC_CRCCTRL_CRCMODE(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_crcctrl_reg_t hri_dmac_get_CRCCTRL_CRCMODE_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask) { uint16_t tmp; tmp = ((Dmac *)hw)->CRCCTRL.reg; tmp = (tmp & DMAC_CRCCTRL_CRCMODE(mask)) >> DMAC_CRCCTRL_CRCMODE_Pos; return tmp; } static inline void hri_dmac_write_CRCCTRL_CRCMODE_bf(const void *const hw, hri_dmac_crcctrl_reg_t data) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->CRCCTRL.reg; tmp &= ~DMAC_CRCCTRL_CRCMODE_Msk; tmp |= DMAC_CRCCTRL_CRCMODE(data); ((Dmac *)hw)->CRCCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CRCCTRL_CRCMODE_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCTRL.reg &= ~DMAC_CRCCTRL_CRCMODE(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CRCCTRL_CRCMODE_bf(const void *const hw, hri_dmac_crcctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCTRL.reg ^= DMAC_CRCCTRL_CRCMODE(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_crcctrl_reg_t hri_dmac_read_CRCCTRL_CRCMODE_bf(const void *const hw) { uint16_t tmp; tmp = ((Dmac *)hw)->CRCCTRL.reg; tmp = (tmp & DMAC_CRCCTRL_CRCMODE_Msk) >> DMAC_CRCCTRL_CRCMODE_Pos; return tmp; } static inline void hri_dmac_set_CRCCTRL_reg(const void *const hw, hri_dmac_crcctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCTRL.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_crcctrl_reg_t hri_dmac_get_CRCCTRL_reg(const void *const hw, hri_dmac_crcctrl_reg_t mask) { uint16_t tmp; tmp = ((Dmac *)hw)->CRCCTRL.reg; tmp &= mask; return tmp; } static inline void hri_dmac_write_CRCCTRL_reg(const void *const hw, hri_dmac_crcctrl_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCTRL.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CRCCTRL_reg(const void *const hw, hri_dmac_crcctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCTRL.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CRCCTRL_reg(const void *const hw, hri_dmac_crcctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCTRL.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_crcctrl_reg_t hri_dmac_read_CRCCTRL_reg(const void *const hw) { return ((Dmac *)hw)->CRCCTRL.reg; } static inline void hri_dmac_set_CRCDATAIN_CRCDATAIN_bf(const void *const hw, hri_dmac_crcdatain_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCDATAIN.reg |= DMAC_CRCDATAIN_CRCDATAIN(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_crcdatain_reg_t hri_dmac_get_CRCDATAIN_CRCDATAIN_bf(const void *const hw, hri_dmac_crcdatain_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->CRCDATAIN.reg; tmp = (tmp & DMAC_CRCDATAIN_CRCDATAIN(mask)) >> DMAC_CRCDATAIN_CRCDATAIN_Pos; return tmp; } static inline void hri_dmac_write_CRCDATAIN_CRCDATAIN_bf(const void *const hw, hri_dmac_crcdatain_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->CRCDATAIN.reg; tmp &= ~DMAC_CRCDATAIN_CRCDATAIN_Msk; tmp |= DMAC_CRCDATAIN_CRCDATAIN(data); ((Dmac *)hw)->CRCDATAIN.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CRCDATAIN_CRCDATAIN_bf(const void *const hw, hri_dmac_crcdatain_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCDATAIN.reg &= ~DMAC_CRCDATAIN_CRCDATAIN(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CRCDATAIN_CRCDATAIN_bf(const void *const hw, hri_dmac_crcdatain_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCDATAIN.reg ^= DMAC_CRCDATAIN_CRCDATAIN(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_crcdatain_reg_t hri_dmac_read_CRCDATAIN_CRCDATAIN_bf(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->CRCDATAIN.reg; tmp = (tmp & DMAC_CRCDATAIN_CRCDATAIN_Msk) >> DMAC_CRCDATAIN_CRCDATAIN_Pos; return tmp; } static inline void hri_dmac_set_CRCDATAIN_reg(const void *const hw, hri_dmac_crcdatain_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCDATAIN.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_crcdatain_reg_t hri_dmac_get_CRCDATAIN_reg(const void *const hw, hri_dmac_crcdatain_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->CRCDATAIN.reg; tmp &= mask; return tmp; } static inline void hri_dmac_write_CRCDATAIN_reg(const void *const hw, hri_dmac_crcdatain_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCDATAIN.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CRCDATAIN_reg(const void *const hw, hri_dmac_crcdatain_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCDATAIN.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CRCDATAIN_reg(const void *const hw, hri_dmac_crcdatain_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCDATAIN.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_crcdatain_reg_t hri_dmac_read_CRCDATAIN_reg(const void *const hw) { return ((Dmac *)hw)->CRCDATAIN.reg; } static inline void hri_dmac_set_CRCCHKSUM_CRCCHKSUM_bf(const void *const hw, hri_dmac_crcchksum_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCHKSUM.reg |= DMAC_CRCCHKSUM_CRCCHKSUM(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_crcchksum_reg_t hri_dmac_get_CRCCHKSUM_CRCCHKSUM_bf(const void *const hw, hri_dmac_crcchksum_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->CRCCHKSUM.reg; tmp = (tmp & DMAC_CRCCHKSUM_CRCCHKSUM(mask)) >> DMAC_CRCCHKSUM_CRCCHKSUM_Pos; return tmp; } static inline void hri_dmac_write_CRCCHKSUM_CRCCHKSUM_bf(const void *const hw, hri_dmac_crcchksum_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->CRCCHKSUM.reg; tmp &= ~DMAC_CRCCHKSUM_CRCCHKSUM_Msk; tmp |= DMAC_CRCCHKSUM_CRCCHKSUM(data); ((Dmac *)hw)->CRCCHKSUM.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CRCCHKSUM_CRCCHKSUM_bf(const void *const hw, hri_dmac_crcchksum_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCHKSUM.reg &= ~DMAC_CRCCHKSUM_CRCCHKSUM(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CRCCHKSUM_CRCCHKSUM_bf(const void *const hw, hri_dmac_crcchksum_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCHKSUM.reg ^= DMAC_CRCCHKSUM_CRCCHKSUM(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_crcchksum_reg_t hri_dmac_read_CRCCHKSUM_CRCCHKSUM_bf(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->CRCCHKSUM.reg; tmp = (tmp & DMAC_CRCCHKSUM_CRCCHKSUM_Msk) >> DMAC_CRCCHKSUM_CRCCHKSUM_Pos; return tmp; } static inline void hri_dmac_set_CRCCHKSUM_reg(const void *const hw, hri_dmac_crcchksum_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCHKSUM.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_crcchksum_reg_t hri_dmac_get_CRCCHKSUM_reg(const void *const hw, hri_dmac_crcchksum_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->CRCCHKSUM.reg; tmp &= mask; return tmp; } static inline void hri_dmac_write_CRCCHKSUM_reg(const void *const hw, hri_dmac_crcchksum_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCHKSUM.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CRCCHKSUM_reg(const void *const hw, hri_dmac_crcchksum_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCHKSUM.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CRCCHKSUM_reg(const void *const hw, hri_dmac_crcchksum_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCCHKSUM.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_crcchksum_reg_t hri_dmac_read_CRCCHKSUM_reg(const void *const hw) { return ((Dmac *)hw)->CRCCHKSUM.reg; } static inline void hri_dmac_set_DBGCTRL_DBGRUN_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->DBGCTRL.reg |= DMAC_DBGCTRL_DBGRUN; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_DBGCTRL_DBGRUN_bit(const void *const hw) { uint8_t tmp; tmp = ((Dmac *)hw)->DBGCTRL.reg; tmp = (tmp & DMAC_DBGCTRL_DBGRUN) >> DMAC_DBGCTRL_DBGRUN_Pos; return (bool)tmp; } static inline void hri_dmac_write_DBGCTRL_DBGRUN_bit(const void *const hw, bool value) { uint8_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->DBGCTRL.reg; tmp &= ~DMAC_DBGCTRL_DBGRUN; tmp |= value << DMAC_DBGCTRL_DBGRUN_Pos; ((Dmac *)hw)->DBGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_DBGCTRL_DBGRUN_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->DBGCTRL.reg &= ~DMAC_DBGCTRL_DBGRUN; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_DBGCTRL_DBGRUN_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->DBGCTRL.reg ^= DMAC_DBGCTRL_DBGRUN; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_DBGCTRL_reg(const void *const hw, hri_dmac_dbgctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->DBGCTRL.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_dbgctrl_reg_t hri_dmac_get_DBGCTRL_reg(const void *const hw, hri_dmac_dbgctrl_reg_t mask) { uint8_t tmp; tmp = ((Dmac *)hw)->DBGCTRL.reg; tmp &= mask; return tmp; } static inline void hri_dmac_write_DBGCTRL_reg(const void *const hw, hri_dmac_dbgctrl_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->DBGCTRL.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_DBGCTRL_reg(const void *const hw, hri_dmac_dbgctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->DBGCTRL.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_DBGCTRL_reg(const void *const hw, hri_dmac_dbgctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->DBGCTRL.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_dbgctrl_reg_t hri_dmac_read_DBGCTRL_reg(const void *const hw) { return ((Dmac *)hw)->DBGCTRL.reg; } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG0_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG0; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG0_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG0) >> DMAC_SWTRIGCTRL_SWTRIG0_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG0_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG0; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG0_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG0_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG0; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG0_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG0; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG1_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG1; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG1_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG1) >> DMAC_SWTRIGCTRL_SWTRIG1_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG1_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG1; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG1_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG1_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG1; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG1_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG1; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG2_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG2; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG2_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG2) >> DMAC_SWTRIGCTRL_SWTRIG2_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG2_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG2; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG2_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG2_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG2; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG2_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG2; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG3_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG3; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG3_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG3) >> DMAC_SWTRIGCTRL_SWTRIG3_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG3_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG3; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG3_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG3_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG3; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG3_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG3; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG4_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG4; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG4_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG4) >> DMAC_SWTRIGCTRL_SWTRIG4_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG4_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG4; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG4_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG4_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG4; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG4_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG4; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG5_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG5; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG5_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG5) >> DMAC_SWTRIGCTRL_SWTRIG5_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG5_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG5; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG5_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG5_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG5; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG5_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG5; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG6_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG6; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG6_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG6) >> DMAC_SWTRIGCTRL_SWTRIG6_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG6_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG6; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG6_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG6_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG6; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG6_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG6; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG7_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG7; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG7_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG7) >> DMAC_SWTRIGCTRL_SWTRIG7_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG7_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG7; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG7_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG7_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG7; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG7_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG7; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG8_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG8; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG8_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG8) >> DMAC_SWTRIGCTRL_SWTRIG8_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG8_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG8; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG8_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG8_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG8; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG8_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG8; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG9_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG9; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG9_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG9) >> DMAC_SWTRIGCTRL_SWTRIG9_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG9_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG9; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG9_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG9_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG9; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG9_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG9; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG10_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG10; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG10_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG10) >> DMAC_SWTRIGCTRL_SWTRIG10_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG10_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG10; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG10_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG10_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG10; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG10_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG10; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG11_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG11; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG11_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG11) >> DMAC_SWTRIGCTRL_SWTRIG11_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG11_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG11; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG11_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG11_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG11; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG11_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG11; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG12_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG12; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG12_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG12) >> DMAC_SWTRIGCTRL_SWTRIG12_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG12_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG12; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG12_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG12_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG12; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG12_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG12; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG13_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG13; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG13_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG13) >> DMAC_SWTRIGCTRL_SWTRIG13_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG13_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG13; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG13_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG13_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG13; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG13_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG13; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG14_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG14; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG14_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG14) >> DMAC_SWTRIGCTRL_SWTRIG14_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG14_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG14; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG14_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG14_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG14; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG14_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG14; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG15_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG15; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG15_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG15) >> DMAC_SWTRIGCTRL_SWTRIG15_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG15_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG15; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG15_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG15_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG15; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG15_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG15; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG16_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG16; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG16_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG16) >> DMAC_SWTRIGCTRL_SWTRIG16_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG16_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG16; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG16_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG16_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG16; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG16_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG16; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG17_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG17; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG17_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG17) >> DMAC_SWTRIGCTRL_SWTRIG17_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG17_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG17; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG17_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG17_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG17; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG17_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG17; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG18_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG18; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG18_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG18) >> DMAC_SWTRIGCTRL_SWTRIG18_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG18_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG18; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG18_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG18_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG18; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG18_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG18; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG19_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG19; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG19_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG19) >> DMAC_SWTRIGCTRL_SWTRIG19_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG19_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG19; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG19_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG19_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG19; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG19_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG19; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG20_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG20; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG20_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG20) >> DMAC_SWTRIGCTRL_SWTRIG20_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG20_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG20; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG20_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG20_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG20; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG20_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG20; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG21_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG21; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG21_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG21) >> DMAC_SWTRIGCTRL_SWTRIG21_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG21_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG21; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG21_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG21_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG21; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG21_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG21; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG22_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG22; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG22_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG22) >> DMAC_SWTRIGCTRL_SWTRIG22_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG22_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG22; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG22_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG22_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG22; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG22_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG22; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG23_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG23; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG23_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG23) >> DMAC_SWTRIGCTRL_SWTRIG23_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG23_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG23; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG23_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG23_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG23; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG23_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG23; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG24_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG24; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG24_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG24) >> DMAC_SWTRIGCTRL_SWTRIG24_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG24_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG24; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG24_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG24_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG24; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG24_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG24; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG25_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG25; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG25_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG25) >> DMAC_SWTRIGCTRL_SWTRIG25_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG25_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG25; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG25_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG25_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG25; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG25_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG25; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG26_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG26; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG26_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG26) >> DMAC_SWTRIGCTRL_SWTRIG26_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG26_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG26; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG26_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG26_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG26; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG26_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG26; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG27_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG27; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG27_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG27) >> DMAC_SWTRIGCTRL_SWTRIG27_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG27_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG27; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG27_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG27_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG27; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG27_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG27; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG28_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG28; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG28_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG28) >> DMAC_SWTRIGCTRL_SWTRIG28_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG28_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG28; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG28_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG28_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG28; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG28_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG28; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG29_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG29; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG29_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG29) >> DMAC_SWTRIGCTRL_SWTRIG29_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG29_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG29; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG29_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG29_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG29; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG29_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG29; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG30_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG30; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG30_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG30) >> DMAC_SWTRIGCTRL_SWTRIG30_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG30_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG30; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG30_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG30_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG30; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG30_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG30; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_SWTRIG31_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= DMAC_SWTRIGCTRL_SWTRIG31; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_SWTRIGCTRL_SWTRIG31_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp = (tmp & DMAC_SWTRIGCTRL_SWTRIG31) >> DMAC_SWTRIGCTRL_SWTRIG31_Pos; return (bool)tmp; } static inline void hri_dmac_write_SWTRIGCTRL_SWTRIG31_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= ~DMAC_SWTRIGCTRL_SWTRIG31; tmp |= value << DMAC_SWTRIGCTRL_SWTRIG31_Pos; ((Dmac *)hw)->SWTRIGCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_SWTRIG31_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~DMAC_SWTRIGCTRL_SWTRIG31; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_SWTRIG31_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= DMAC_SWTRIGCTRL_SWTRIG31; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_SWTRIGCTRL_reg(const void *const hw, hri_dmac_swtrigctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_swtrigctrl_reg_t hri_dmac_get_SWTRIGCTRL_reg(const void *const hw, hri_dmac_swtrigctrl_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->SWTRIGCTRL.reg; tmp &= mask; return tmp; } static inline void hri_dmac_write_SWTRIGCTRL_reg(const void *const hw, hri_dmac_swtrigctrl_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_SWTRIGCTRL_reg(const void *const hw, hri_dmac_swtrigctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_SWTRIGCTRL_reg(const void *const hw, hri_dmac_swtrigctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->SWTRIGCTRL.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_swtrigctrl_reg_t hri_dmac_read_SWTRIGCTRL_reg(const void *const hw) { return ((Dmac *)hw)->SWTRIGCTRL.reg; } static inline void hri_dmac_set_PRICTRL0_RRLVLEN0_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg |= DMAC_PRICTRL0_RRLVLEN0; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_PRICTRL0_RRLVLEN0_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp = (tmp & DMAC_PRICTRL0_RRLVLEN0) >> DMAC_PRICTRL0_RRLVLEN0_Pos; return (bool)tmp; } static inline void hri_dmac_write_PRICTRL0_RRLVLEN0_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp &= ~DMAC_PRICTRL0_RRLVLEN0; tmp |= value << DMAC_PRICTRL0_RRLVLEN0_Pos; ((Dmac *)hw)->PRICTRL0.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_PRICTRL0_RRLVLEN0_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg &= ~DMAC_PRICTRL0_RRLVLEN0; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_PRICTRL0_RRLVLEN0_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg ^= DMAC_PRICTRL0_RRLVLEN0; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_PRICTRL0_RRLVLEN1_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg |= DMAC_PRICTRL0_RRLVLEN1; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_PRICTRL0_RRLVLEN1_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp = (tmp & DMAC_PRICTRL0_RRLVLEN1) >> DMAC_PRICTRL0_RRLVLEN1_Pos; return (bool)tmp; } static inline void hri_dmac_write_PRICTRL0_RRLVLEN1_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp &= ~DMAC_PRICTRL0_RRLVLEN1; tmp |= value << DMAC_PRICTRL0_RRLVLEN1_Pos; ((Dmac *)hw)->PRICTRL0.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_PRICTRL0_RRLVLEN1_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg &= ~DMAC_PRICTRL0_RRLVLEN1; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_PRICTRL0_RRLVLEN1_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg ^= DMAC_PRICTRL0_RRLVLEN1; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_PRICTRL0_RRLVLEN2_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg |= DMAC_PRICTRL0_RRLVLEN2; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_PRICTRL0_RRLVLEN2_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp = (tmp & DMAC_PRICTRL0_RRLVLEN2) >> DMAC_PRICTRL0_RRLVLEN2_Pos; return (bool)tmp; } static inline void hri_dmac_write_PRICTRL0_RRLVLEN2_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp &= ~DMAC_PRICTRL0_RRLVLEN2; tmp |= value << DMAC_PRICTRL0_RRLVLEN2_Pos; ((Dmac *)hw)->PRICTRL0.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_PRICTRL0_RRLVLEN2_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg &= ~DMAC_PRICTRL0_RRLVLEN2; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_PRICTRL0_RRLVLEN2_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg ^= DMAC_PRICTRL0_RRLVLEN2; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_PRICTRL0_RRLVLEN3_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg |= DMAC_PRICTRL0_RRLVLEN3; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_PRICTRL0_RRLVLEN3_bit(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp = (tmp & DMAC_PRICTRL0_RRLVLEN3) >> DMAC_PRICTRL0_RRLVLEN3_Pos; return (bool)tmp; } static inline void hri_dmac_write_PRICTRL0_RRLVLEN3_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp &= ~DMAC_PRICTRL0_RRLVLEN3; tmp |= value << DMAC_PRICTRL0_RRLVLEN3_Pos; ((Dmac *)hw)->PRICTRL0.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_PRICTRL0_RRLVLEN3_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg &= ~DMAC_PRICTRL0_RRLVLEN3; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_PRICTRL0_RRLVLEN3_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg ^= DMAC_PRICTRL0_RRLVLEN3; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_PRICTRL0_LVLPRI0_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg |= DMAC_PRICTRL0_LVLPRI0(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_prictrl0_reg_t hri_dmac_get_PRICTRL0_LVLPRI0_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp = (tmp & DMAC_PRICTRL0_LVLPRI0(mask)) >> DMAC_PRICTRL0_LVLPRI0_Pos; return tmp; } static inline void hri_dmac_write_PRICTRL0_LVLPRI0_bf(const void *const hw, hri_dmac_prictrl0_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp &= ~DMAC_PRICTRL0_LVLPRI0_Msk; tmp |= DMAC_PRICTRL0_LVLPRI0(data); ((Dmac *)hw)->PRICTRL0.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_PRICTRL0_LVLPRI0_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg &= ~DMAC_PRICTRL0_LVLPRI0(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_PRICTRL0_LVLPRI0_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg ^= DMAC_PRICTRL0_LVLPRI0(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_prictrl0_reg_t hri_dmac_read_PRICTRL0_LVLPRI0_bf(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp = (tmp & DMAC_PRICTRL0_LVLPRI0_Msk) >> DMAC_PRICTRL0_LVLPRI0_Pos; return tmp; } static inline void hri_dmac_set_PRICTRL0_QOS0_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg |= DMAC_PRICTRL0_QOS0(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_prictrl0_reg_t hri_dmac_get_PRICTRL0_QOS0_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp = (tmp & DMAC_PRICTRL0_QOS0(mask)) >> DMAC_PRICTRL0_QOS0_Pos; return tmp; } static inline void hri_dmac_write_PRICTRL0_QOS0_bf(const void *const hw, hri_dmac_prictrl0_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp &= ~DMAC_PRICTRL0_QOS0_Msk; tmp |= DMAC_PRICTRL0_QOS0(data); ((Dmac *)hw)->PRICTRL0.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_PRICTRL0_QOS0_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg &= ~DMAC_PRICTRL0_QOS0(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_PRICTRL0_QOS0_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg ^= DMAC_PRICTRL0_QOS0(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_prictrl0_reg_t hri_dmac_read_PRICTRL0_QOS0_bf(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp = (tmp & DMAC_PRICTRL0_QOS0_Msk) >> DMAC_PRICTRL0_QOS0_Pos; return tmp; } static inline void hri_dmac_set_PRICTRL0_LVLPRI1_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg |= DMAC_PRICTRL0_LVLPRI1(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_prictrl0_reg_t hri_dmac_get_PRICTRL0_LVLPRI1_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp = (tmp & DMAC_PRICTRL0_LVLPRI1(mask)) >> DMAC_PRICTRL0_LVLPRI1_Pos; return tmp; } static inline void hri_dmac_write_PRICTRL0_LVLPRI1_bf(const void *const hw, hri_dmac_prictrl0_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp &= ~DMAC_PRICTRL0_LVLPRI1_Msk; tmp |= DMAC_PRICTRL0_LVLPRI1(data); ((Dmac *)hw)->PRICTRL0.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_PRICTRL0_LVLPRI1_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg &= ~DMAC_PRICTRL0_LVLPRI1(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_PRICTRL0_LVLPRI1_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg ^= DMAC_PRICTRL0_LVLPRI1(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_prictrl0_reg_t hri_dmac_read_PRICTRL0_LVLPRI1_bf(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp = (tmp & DMAC_PRICTRL0_LVLPRI1_Msk) >> DMAC_PRICTRL0_LVLPRI1_Pos; return tmp; } static inline void hri_dmac_set_PRICTRL0_QOS1_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg |= DMAC_PRICTRL0_QOS1(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_prictrl0_reg_t hri_dmac_get_PRICTRL0_QOS1_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp = (tmp & DMAC_PRICTRL0_QOS1(mask)) >> DMAC_PRICTRL0_QOS1_Pos; return tmp; } static inline void hri_dmac_write_PRICTRL0_QOS1_bf(const void *const hw, hri_dmac_prictrl0_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp &= ~DMAC_PRICTRL0_QOS1_Msk; tmp |= DMAC_PRICTRL0_QOS1(data); ((Dmac *)hw)->PRICTRL0.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_PRICTRL0_QOS1_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg &= ~DMAC_PRICTRL0_QOS1(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_PRICTRL0_QOS1_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg ^= DMAC_PRICTRL0_QOS1(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_prictrl0_reg_t hri_dmac_read_PRICTRL0_QOS1_bf(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp = (tmp & DMAC_PRICTRL0_QOS1_Msk) >> DMAC_PRICTRL0_QOS1_Pos; return tmp; } static inline void hri_dmac_set_PRICTRL0_LVLPRI2_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg |= DMAC_PRICTRL0_LVLPRI2(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_prictrl0_reg_t hri_dmac_get_PRICTRL0_LVLPRI2_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp = (tmp & DMAC_PRICTRL0_LVLPRI2(mask)) >> DMAC_PRICTRL0_LVLPRI2_Pos; return tmp; } static inline void hri_dmac_write_PRICTRL0_LVLPRI2_bf(const void *const hw, hri_dmac_prictrl0_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp &= ~DMAC_PRICTRL0_LVLPRI2_Msk; tmp |= DMAC_PRICTRL0_LVLPRI2(data); ((Dmac *)hw)->PRICTRL0.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_PRICTRL0_LVLPRI2_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg &= ~DMAC_PRICTRL0_LVLPRI2(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_PRICTRL0_LVLPRI2_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg ^= DMAC_PRICTRL0_LVLPRI2(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_prictrl0_reg_t hri_dmac_read_PRICTRL0_LVLPRI2_bf(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp = (tmp & DMAC_PRICTRL0_LVLPRI2_Msk) >> DMAC_PRICTRL0_LVLPRI2_Pos; return tmp; } static inline void hri_dmac_set_PRICTRL0_QOS2_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg |= DMAC_PRICTRL0_QOS2(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_prictrl0_reg_t hri_dmac_get_PRICTRL0_QOS2_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp = (tmp & DMAC_PRICTRL0_QOS2(mask)) >> DMAC_PRICTRL0_QOS2_Pos; return tmp; } static inline void hri_dmac_write_PRICTRL0_QOS2_bf(const void *const hw, hri_dmac_prictrl0_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp &= ~DMAC_PRICTRL0_QOS2_Msk; tmp |= DMAC_PRICTRL0_QOS2(data); ((Dmac *)hw)->PRICTRL0.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_PRICTRL0_QOS2_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg &= ~DMAC_PRICTRL0_QOS2(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_PRICTRL0_QOS2_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg ^= DMAC_PRICTRL0_QOS2(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_prictrl0_reg_t hri_dmac_read_PRICTRL0_QOS2_bf(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp = (tmp & DMAC_PRICTRL0_QOS2_Msk) >> DMAC_PRICTRL0_QOS2_Pos; return tmp; } static inline void hri_dmac_set_PRICTRL0_LVLPRI3_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg |= DMAC_PRICTRL0_LVLPRI3(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_prictrl0_reg_t hri_dmac_get_PRICTRL0_LVLPRI3_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp = (tmp & DMAC_PRICTRL0_LVLPRI3(mask)) >> DMAC_PRICTRL0_LVLPRI3_Pos; return tmp; } static inline void hri_dmac_write_PRICTRL0_LVLPRI3_bf(const void *const hw, hri_dmac_prictrl0_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp &= ~DMAC_PRICTRL0_LVLPRI3_Msk; tmp |= DMAC_PRICTRL0_LVLPRI3(data); ((Dmac *)hw)->PRICTRL0.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_PRICTRL0_LVLPRI3_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg &= ~DMAC_PRICTRL0_LVLPRI3(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_PRICTRL0_LVLPRI3_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg ^= DMAC_PRICTRL0_LVLPRI3(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_prictrl0_reg_t hri_dmac_read_PRICTRL0_LVLPRI3_bf(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp = (tmp & DMAC_PRICTRL0_LVLPRI3_Msk) >> DMAC_PRICTRL0_LVLPRI3_Pos; return tmp; } static inline void hri_dmac_set_PRICTRL0_QOS3_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg |= DMAC_PRICTRL0_QOS3(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_prictrl0_reg_t hri_dmac_get_PRICTRL0_QOS3_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp = (tmp & DMAC_PRICTRL0_QOS3(mask)) >> DMAC_PRICTRL0_QOS3_Pos; return tmp; } static inline void hri_dmac_write_PRICTRL0_QOS3_bf(const void *const hw, hri_dmac_prictrl0_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp &= ~DMAC_PRICTRL0_QOS3_Msk; tmp |= DMAC_PRICTRL0_QOS3(data); ((Dmac *)hw)->PRICTRL0.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_PRICTRL0_QOS3_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg &= ~DMAC_PRICTRL0_QOS3(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_PRICTRL0_QOS3_bf(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg ^= DMAC_PRICTRL0_QOS3(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_prictrl0_reg_t hri_dmac_read_PRICTRL0_QOS3_bf(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp = (tmp & DMAC_PRICTRL0_QOS3_Msk) >> DMAC_PRICTRL0_QOS3_Pos; return tmp; } static inline void hri_dmac_set_PRICTRL0_reg(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_prictrl0_reg_t hri_dmac_get_PRICTRL0_reg(const void *const hw, hri_dmac_prictrl0_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->PRICTRL0.reg; tmp &= mask; return tmp; } static inline void hri_dmac_write_PRICTRL0_reg(const void *const hw, hri_dmac_prictrl0_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_PRICTRL0_reg(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_PRICTRL0_reg(const void *const hw, hri_dmac_prictrl0_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->PRICTRL0.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_prictrl0_reg_t hri_dmac_read_PRICTRL0_reg(const void *const hw) { return ((Dmac *)hw)->PRICTRL0.reg; } static inline void hri_dmac_set_INTPEND_TERR_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg |= DMAC_INTPEND_TERR; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_INTPEND_TERR_bit(const void *const hw) { uint16_t tmp; tmp = ((Dmac *)hw)->INTPEND.reg; tmp = (tmp & DMAC_INTPEND_TERR) >> DMAC_INTPEND_TERR_Pos; return (bool)tmp; } static inline void hri_dmac_write_INTPEND_TERR_bit(const void *const hw, bool value) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->INTPEND.reg; tmp &= ~DMAC_INTPEND_TERR; tmp |= value << DMAC_INTPEND_TERR_Pos; ((Dmac *)hw)->INTPEND.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_INTPEND_TERR_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg &= ~DMAC_INTPEND_TERR; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_INTPEND_TERR_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg ^= DMAC_INTPEND_TERR; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_INTPEND_TCMPL_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg |= DMAC_INTPEND_TCMPL; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_INTPEND_TCMPL_bit(const void *const hw) { uint16_t tmp; tmp = ((Dmac *)hw)->INTPEND.reg; tmp = (tmp & DMAC_INTPEND_TCMPL) >> DMAC_INTPEND_TCMPL_Pos; return (bool)tmp; } static inline void hri_dmac_write_INTPEND_TCMPL_bit(const void *const hw, bool value) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->INTPEND.reg; tmp &= ~DMAC_INTPEND_TCMPL; tmp |= value << DMAC_INTPEND_TCMPL_Pos; ((Dmac *)hw)->INTPEND.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_INTPEND_TCMPL_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg &= ~DMAC_INTPEND_TCMPL; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_INTPEND_TCMPL_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg ^= DMAC_INTPEND_TCMPL; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_INTPEND_SUSP_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg |= DMAC_INTPEND_SUSP; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_INTPEND_SUSP_bit(const void *const hw) { uint16_t tmp; tmp = ((Dmac *)hw)->INTPEND.reg; tmp = (tmp & DMAC_INTPEND_SUSP) >> DMAC_INTPEND_SUSP_Pos; return (bool)tmp; } static inline void hri_dmac_write_INTPEND_SUSP_bit(const void *const hw, bool value) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->INTPEND.reg; tmp &= ~DMAC_INTPEND_SUSP; tmp |= value << DMAC_INTPEND_SUSP_Pos; ((Dmac *)hw)->INTPEND.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_INTPEND_SUSP_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg &= ~DMAC_INTPEND_SUSP; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_INTPEND_SUSP_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg ^= DMAC_INTPEND_SUSP; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_INTPEND_CRCERR_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg |= DMAC_INTPEND_CRCERR; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_INTPEND_CRCERR_bit(const void *const hw) { uint16_t tmp; tmp = ((Dmac *)hw)->INTPEND.reg; tmp = (tmp & DMAC_INTPEND_CRCERR) >> DMAC_INTPEND_CRCERR_Pos; return (bool)tmp; } static inline void hri_dmac_write_INTPEND_CRCERR_bit(const void *const hw, bool value) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->INTPEND.reg; tmp &= ~DMAC_INTPEND_CRCERR; tmp |= value << DMAC_INTPEND_CRCERR_Pos; ((Dmac *)hw)->INTPEND.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_INTPEND_CRCERR_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg &= ~DMAC_INTPEND_CRCERR; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_INTPEND_CRCERR_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg ^= DMAC_INTPEND_CRCERR; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_INTPEND_FERR_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg |= DMAC_INTPEND_FERR; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_INTPEND_FERR_bit(const void *const hw) { uint16_t tmp; tmp = ((Dmac *)hw)->INTPEND.reg; tmp = (tmp & DMAC_INTPEND_FERR) >> DMAC_INTPEND_FERR_Pos; return (bool)tmp; } static inline void hri_dmac_write_INTPEND_FERR_bit(const void *const hw, bool value) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->INTPEND.reg; tmp &= ~DMAC_INTPEND_FERR; tmp |= value << DMAC_INTPEND_FERR_Pos; ((Dmac *)hw)->INTPEND.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_INTPEND_FERR_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg &= ~DMAC_INTPEND_FERR; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_INTPEND_FERR_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg ^= DMAC_INTPEND_FERR; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_INTPEND_BUSY_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg |= DMAC_INTPEND_BUSY; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_INTPEND_BUSY_bit(const void *const hw) { uint16_t tmp; tmp = ((Dmac *)hw)->INTPEND.reg; tmp = (tmp & DMAC_INTPEND_BUSY) >> DMAC_INTPEND_BUSY_Pos; return (bool)tmp; } static inline void hri_dmac_write_INTPEND_BUSY_bit(const void *const hw, bool value) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->INTPEND.reg; tmp &= ~DMAC_INTPEND_BUSY; tmp |= value << DMAC_INTPEND_BUSY_Pos; ((Dmac *)hw)->INTPEND.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_INTPEND_BUSY_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg &= ~DMAC_INTPEND_BUSY; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_INTPEND_BUSY_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg ^= DMAC_INTPEND_BUSY; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_INTPEND_PEND_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg |= DMAC_INTPEND_PEND; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_INTPEND_PEND_bit(const void *const hw) { uint16_t tmp; tmp = ((Dmac *)hw)->INTPEND.reg; tmp = (tmp & DMAC_INTPEND_PEND) >> DMAC_INTPEND_PEND_Pos; return (bool)tmp; } static inline void hri_dmac_write_INTPEND_PEND_bit(const void *const hw, bool value) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->INTPEND.reg; tmp &= ~DMAC_INTPEND_PEND; tmp |= value << DMAC_INTPEND_PEND_Pos; ((Dmac *)hw)->INTPEND.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_INTPEND_PEND_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg &= ~DMAC_INTPEND_PEND; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_INTPEND_PEND_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg ^= DMAC_INTPEND_PEND; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_INTPEND_ID_bf(const void *const hw, hri_dmac_intpend_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg |= DMAC_INTPEND_ID(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_intpend_reg_t hri_dmac_get_INTPEND_ID_bf(const void *const hw, hri_dmac_intpend_reg_t mask) { uint16_t tmp; tmp = ((Dmac *)hw)->INTPEND.reg; tmp = (tmp & DMAC_INTPEND_ID(mask)) >> DMAC_INTPEND_ID_Pos; return tmp; } static inline void hri_dmac_write_INTPEND_ID_bf(const void *const hw, hri_dmac_intpend_reg_t data) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->INTPEND.reg; tmp &= ~DMAC_INTPEND_ID_Msk; tmp |= DMAC_INTPEND_ID(data); ((Dmac *)hw)->INTPEND.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_INTPEND_ID_bf(const void *const hw, hri_dmac_intpend_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg &= ~DMAC_INTPEND_ID(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_INTPEND_ID_bf(const void *const hw, hri_dmac_intpend_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg ^= DMAC_INTPEND_ID(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_intpend_reg_t hri_dmac_read_INTPEND_ID_bf(const void *const hw) { uint16_t tmp; tmp = ((Dmac *)hw)->INTPEND.reg; tmp = (tmp & DMAC_INTPEND_ID_Msk) >> DMAC_INTPEND_ID_Pos; return tmp; } static inline void hri_dmac_set_INTPEND_reg(const void *const hw, hri_dmac_intpend_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_intpend_reg_t hri_dmac_get_INTPEND_reg(const void *const hw, hri_dmac_intpend_reg_t mask) { uint16_t tmp; tmp = ((Dmac *)hw)->INTPEND.reg; tmp &= mask; return tmp; } static inline void hri_dmac_write_INTPEND_reg(const void *const hw, hri_dmac_intpend_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_INTPEND_reg(const void *const hw, hri_dmac_intpend_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_INTPEND_reg(const void *const hw, hri_dmac_intpend_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->INTPEND.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_intpend_reg_t hri_dmac_read_INTPEND_reg(const void *const hw) { return ((Dmac *)hw)->INTPEND.reg; } static inline void hri_dmac_set_BASEADDR_BASEADDR_bf(const void *const hw, hri_dmac_baseaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->BASEADDR.reg |= DMAC_BASEADDR_BASEADDR(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_baseaddr_reg_t hri_dmac_get_BASEADDR_BASEADDR_bf(const void *const hw, hri_dmac_baseaddr_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->BASEADDR.reg; tmp = (tmp & DMAC_BASEADDR_BASEADDR(mask)) >> DMAC_BASEADDR_BASEADDR_Pos; return tmp; } static inline void hri_dmac_write_BASEADDR_BASEADDR_bf(const void *const hw, hri_dmac_baseaddr_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->BASEADDR.reg; tmp &= ~DMAC_BASEADDR_BASEADDR_Msk; tmp |= DMAC_BASEADDR_BASEADDR(data); ((Dmac *)hw)->BASEADDR.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_BASEADDR_BASEADDR_bf(const void *const hw, hri_dmac_baseaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->BASEADDR.reg &= ~DMAC_BASEADDR_BASEADDR(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_BASEADDR_BASEADDR_bf(const void *const hw, hri_dmac_baseaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->BASEADDR.reg ^= DMAC_BASEADDR_BASEADDR(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_baseaddr_reg_t hri_dmac_read_BASEADDR_BASEADDR_bf(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->BASEADDR.reg; tmp = (tmp & DMAC_BASEADDR_BASEADDR_Msk) >> DMAC_BASEADDR_BASEADDR_Pos; return tmp; } static inline void hri_dmac_set_BASEADDR_reg(const void *const hw, hri_dmac_baseaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->BASEADDR.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_baseaddr_reg_t hri_dmac_get_BASEADDR_reg(const void *const hw, hri_dmac_baseaddr_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->BASEADDR.reg; tmp &= mask; return tmp; } static inline void hri_dmac_write_BASEADDR_reg(const void *const hw, hri_dmac_baseaddr_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->BASEADDR.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_BASEADDR_reg(const void *const hw, hri_dmac_baseaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->BASEADDR.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_BASEADDR_reg(const void *const hw, hri_dmac_baseaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->BASEADDR.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_baseaddr_reg_t hri_dmac_read_BASEADDR_reg(const void *const hw) { return ((Dmac *)hw)->BASEADDR.reg; } static inline void hri_dmac_set_WRBADDR_WRBADDR_bf(const void *const hw, hri_dmac_wrbaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->WRBADDR.reg |= DMAC_WRBADDR_WRBADDR(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_wrbaddr_reg_t hri_dmac_get_WRBADDR_WRBADDR_bf(const void *const hw, hri_dmac_wrbaddr_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->WRBADDR.reg; tmp = (tmp & DMAC_WRBADDR_WRBADDR(mask)) >> DMAC_WRBADDR_WRBADDR_Pos; return tmp; } static inline void hri_dmac_write_WRBADDR_WRBADDR_bf(const void *const hw, hri_dmac_wrbaddr_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->WRBADDR.reg; tmp &= ~DMAC_WRBADDR_WRBADDR_Msk; tmp |= DMAC_WRBADDR_WRBADDR(data); ((Dmac *)hw)->WRBADDR.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_WRBADDR_WRBADDR_bf(const void *const hw, hri_dmac_wrbaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->WRBADDR.reg &= ~DMAC_WRBADDR_WRBADDR(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_WRBADDR_WRBADDR_bf(const void *const hw, hri_dmac_wrbaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->WRBADDR.reg ^= DMAC_WRBADDR_WRBADDR(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_wrbaddr_reg_t hri_dmac_read_WRBADDR_WRBADDR_bf(const void *const hw) { uint32_t tmp; tmp = ((Dmac *)hw)->WRBADDR.reg; tmp = (tmp & DMAC_WRBADDR_WRBADDR_Msk) >> DMAC_WRBADDR_WRBADDR_Pos; return tmp; } static inline void hri_dmac_set_WRBADDR_reg(const void *const hw, hri_dmac_wrbaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->WRBADDR.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_wrbaddr_reg_t hri_dmac_get_WRBADDR_reg(const void *const hw, hri_dmac_wrbaddr_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->WRBADDR.reg; tmp &= mask; return tmp; } static inline void hri_dmac_write_WRBADDR_reg(const void *const hw, hri_dmac_wrbaddr_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->WRBADDR.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_WRBADDR_reg(const void *const hw, hri_dmac_wrbaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->WRBADDR.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_WRBADDR_reg(const void *const hw, hri_dmac_wrbaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->WRBADDR.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_wrbaddr_reg_t hri_dmac_read_WRBADDR_reg(const void *const hw) { return ((Dmac *)hw)->WRBADDR.reg; } static inline bool hri_dmac_get_CRCSTATUS_CRCBUSY_bit(const void *const hw) { return (((Dmac *)hw)->CRCSTATUS.reg & DMAC_CRCSTATUS_CRCBUSY) >> DMAC_CRCSTATUS_CRCBUSY_Pos; } static inline void hri_dmac_clear_CRCSTATUS_CRCBUSY_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCSTATUS.reg = DMAC_CRCSTATUS_CRCBUSY; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_CRCSTATUS_CRCZERO_bit(const void *const hw) { return (((Dmac *)hw)->CRCSTATUS.reg & DMAC_CRCSTATUS_CRCZERO) >> DMAC_CRCSTATUS_CRCZERO_Pos; } static inline void hri_dmac_clear_CRCSTATUS_CRCZERO_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCSTATUS.reg = DMAC_CRCSTATUS_CRCZERO; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_CRCSTATUS_CRCERR_bit(const void *const hw) { return (((Dmac *)hw)->CRCSTATUS.reg & DMAC_CRCSTATUS_CRCERR) >> DMAC_CRCSTATUS_CRCERR_Pos; } static inline void hri_dmac_clear_CRCSTATUS_CRCERR_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCSTATUS.reg = DMAC_CRCSTATUS_CRCERR; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_crcstatus_reg_t hri_dmac_get_CRCSTATUS_reg(const void *const hw, hri_dmac_crcstatus_reg_t mask) { uint8_t tmp; tmp = ((Dmac *)hw)->CRCSTATUS.reg; tmp &= mask; return tmp; } static inline void hri_dmac_clear_CRCSTATUS_reg(const void *const hw, hri_dmac_crcstatus_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->CRCSTATUS.reg = mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_crcstatus_reg_t hri_dmac_read_CRCSTATUS_reg(const void *const hw) { return ((Dmac *)hw)->CRCSTATUS.reg; } static inline void hri_dmacdescriptor_set_BTCTRL_VALID_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg |= DMAC_BTCTRL_VALID; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmacdescriptor_get_BTCTRL_VALID_bit(const void *const hw) { uint16_t tmp; tmp = ((DmacDescriptor *)hw)->BTCTRL.reg; tmp = (tmp & DMAC_BTCTRL_VALID) >> DMAC_BTCTRL_VALID_Pos; return (bool)tmp; } static inline void hri_dmacdescriptor_write_BTCTRL_VALID_bit(const void *const hw, bool value) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacDescriptor *)hw)->BTCTRL.reg; tmp &= ~DMAC_BTCTRL_VALID; tmp |= value << DMAC_BTCTRL_VALID_Pos; ((DmacDescriptor *)hw)->BTCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_clear_BTCTRL_VALID_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg &= ~DMAC_BTCTRL_VALID; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_toggle_BTCTRL_VALID_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg ^= DMAC_BTCTRL_VALID; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_set_BTCTRL_SRCINC_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg |= DMAC_BTCTRL_SRCINC; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmacdescriptor_get_BTCTRL_SRCINC_bit(const void *const hw) { uint16_t tmp; tmp = ((DmacDescriptor *)hw)->BTCTRL.reg; tmp = (tmp & DMAC_BTCTRL_SRCINC) >> DMAC_BTCTRL_SRCINC_Pos; return (bool)tmp; } static inline void hri_dmacdescriptor_write_BTCTRL_SRCINC_bit(const void *const hw, bool value) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacDescriptor *)hw)->BTCTRL.reg; tmp &= ~DMAC_BTCTRL_SRCINC; tmp |= value << DMAC_BTCTRL_SRCINC_Pos; ((DmacDescriptor *)hw)->BTCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_clear_BTCTRL_SRCINC_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg &= ~DMAC_BTCTRL_SRCINC; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_toggle_BTCTRL_SRCINC_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg ^= DMAC_BTCTRL_SRCINC; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_set_BTCTRL_DSTINC_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg |= DMAC_BTCTRL_DSTINC; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmacdescriptor_get_BTCTRL_DSTINC_bit(const void *const hw) { uint16_t tmp; tmp = ((DmacDescriptor *)hw)->BTCTRL.reg; tmp = (tmp & DMAC_BTCTRL_DSTINC) >> DMAC_BTCTRL_DSTINC_Pos; return (bool)tmp; } static inline void hri_dmacdescriptor_write_BTCTRL_DSTINC_bit(const void *const hw, bool value) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacDescriptor *)hw)->BTCTRL.reg; tmp &= ~DMAC_BTCTRL_DSTINC; tmp |= value << DMAC_BTCTRL_DSTINC_Pos; ((DmacDescriptor *)hw)->BTCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_clear_BTCTRL_DSTINC_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg &= ~DMAC_BTCTRL_DSTINC; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_toggle_BTCTRL_DSTINC_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg ^= DMAC_BTCTRL_DSTINC; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_set_BTCTRL_STEPSEL_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg |= DMAC_BTCTRL_STEPSEL; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmacdescriptor_get_BTCTRL_STEPSEL_bit(const void *const hw) { uint16_t tmp; tmp = ((DmacDescriptor *)hw)->BTCTRL.reg; tmp = (tmp & DMAC_BTCTRL_STEPSEL) >> DMAC_BTCTRL_STEPSEL_Pos; return (bool)tmp; } static inline void hri_dmacdescriptor_write_BTCTRL_STEPSEL_bit(const void *const hw, bool value) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacDescriptor *)hw)->BTCTRL.reg; tmp &= ~DMAC_BTCTRL_STEPSEL; tmp |= value << DMAC_BTCTRL_STEPSEL_Pos; ((DmacDescriptor *)hw)->BTCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_clear_BTCTRL_STEPSEL_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg &= ~DMAC_BTCTRL_STEPSEL; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_toggle_BTCTRL_STEPSEL_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg ^= DMAC_BTCTRL_STEPSEL; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_set_BTCTRL_EVOSEL_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg |= DMAC_BTCTRL_EVOSEL(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_btctrl_reg_t hri_dmacdescriptor_get_BTCTRL_EVOSEL_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask) { uint16_t tmp; tmp = ((DmacDescriptor *)hw)->BTCTRL.reg; tmp = (tmp & DMAC_BTCTRL_EVOSEL(mask)) >> DMAC_BTCTRL_EVOSEL_Pos; return tmp; } static inline void hri_dmacdescriptor_write_BTCTRL_EVOSEL_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t data) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacDescriptor *)hw)->BTCTRL.reg; tmp &= ~DMAC_BTCTRL_EVOSEL_Msk; tmp |= DMAC_BTCTRL_EVOSEL(data); ((DmacDescriptor *)hw)->BTCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_clear_BTCTRL_EVOSEL_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg &= ~DMAC_BTCTRL_EVOSEL(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_toggle_BTCTRL_EVOSEL_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg ^= DMAC_BTCTRL_EVOSEL(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_btctrl_reg_t hri_dmacdescriptor_read_BTCTRL_EVOSEL_bf(const void *const hw) { uint16_t tmp; tmp = ((DmacDescriptor *)hw)->BTCTRL.reg; tmp = (tmp & DMAC_BTCTRL_EVOSEL_Msk) >> DMAC_BTCTRL_EVOSEL_Pos; return tmp; } static inline void hri_dmacdescriptor_set_BTCTRL_BLOCKACT_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg |= DMAC_BTCTRL_BLOCKACT(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_btctrl_reg_t hri_dmacdescriptor_get_BTCTRL_BLOCKACT_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask) { uint16_t tmp; tmp = ((DmacDescriptor *)hw)->BTCTRL.reg; tmp = (tmp & DMAC_BTCTRL_BLOCKACT(mask)) >> DMAC_BTCTRL_BLOCKACT_Pos; return tmp; } static inline void hri_dmacdescriptor_write_BTCTRL_BLOCKACT_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t data) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacDescriptor *)hw)->BTCTRL.reg; tmp &= ~DMAC_BTCTRL_BLOCKACT_Msk; tmp |= DMAC_BTCTRL_BLOCKACT(data); ((DmacDescriptor *)hw)->BTCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_clear_BTCTRL_BLOCKACT_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg &= ~DMAC_BTCTRL_BLOCKACT(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_toggle_BTCTRL_BLOCKACT_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg ^= DMAC_BTCTRL_BLOCKACT(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_btctrl_reg_t hri_dmacdescriptor_read_BTCTRL_BLOCKACT_bf(const void *const hw) { uint16_t tmp; tmp = ((DmacDescriptor *)hw)->BTCTRL.reg; tmp = (tmp & DMAC_BTCTRL_BLOCKACT_Msk) >> DMAC_BTCTRL_BLOCKACT_Pos; return tmp; } static inline void hri_dmacdescriptor_set_BTCTRL_BEATSIZE_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg |= DMAC_BTCTRL_BEATSIZE(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_btctrl_reg_t hri_dmacdescriptor_get_BTCTRL_BEATSIZE_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask) { uint16_t tmp; tmp = ((DmacDescriptor *)hw)->BTCTRL.reg; tmp = (tmp & DMAC_BTCTRL_BEATSIZE(mask)) >> DMAC_BTCTRL_BEATSIZE_Pos; return tmp; } static inline void hri_dmacdescriptor_write_BTCTRL_BEATSIZE_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t data) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacDescriptor *)hw)->BTCTRL.reg; tmp &= ~DMAC_BTCTRL_BEATSIZE_Msk; tmp |= DMAC_BTCTRL_BEATSIZE(data); ((DmacDescriptor *)hw)->BTCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_clear_BTCTRL_BEATSIZE_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg &= ~DMAC_BTCTRL_BEATSIZE(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_toggle_BTCTRL_BEATSIZE_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg ^= DMAC_BTCTRL_BEATSIZE(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_btctrl_reg_t hri_dmacdescriptor_read_BTCTRL_BEATSIZE_bf(const void *const hw) { uint16_t tmp; tmp = ((DmacDescriptor *)hw)->BTCTRL.reg; tmp = (tmp & DMAC_BTCTRL_BEATSIZE_Msk) >> DMAC_BTCTRL_BEATSIZE_Pos; return tmp; } static inline void hri_dmacdescriptor_set_BTCTRL_STEPSIZE_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg |= DMAC_BTCTRL_STEPSIZE(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_btctrl_reg_t hri_dmacdescriptor_get_BTCTRL_STEPSIZE_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask) { uint16_t tmp; tmp = ((DmacDescriptor *)hw)->BTCTRL.reg; tmp = (tmp & DMAC_BTCTRL_STEPSIZE(mask)) >> DMAC_BTCTRL_STEPSIZE_Pos; return tmp; } static inline void hri_dmacdescriptor_write_BTCTRL_STEPSIZE_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t data) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacDescriptor *)hw)->BTCTRL.reg; tmp &= ~DMAC_BTCTRL_STEPSIZE_Msk; tmp |= DMAC_BTCTRL_STEPSIZE(data); ((DmacDescriptor *)hw)->BTCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_clear_BTCTRL_STEPSIZE_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg &= ~DMAC_BTCTRL_STEPSIZE(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_toggle_BTCTRL_STEPSIZE_bf(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg ^= DMAC_BTCTRL_STEPSIZE(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_btctrl_reg_t hri_dmacdescriptor_read_BTCTRL_STEPSIZE_bf(const void *const hw) { uint16_t tmp; tmp = ((DmacDescriptor *)hw)->BTCTRL.reg; tmp = (tmp & DMAC_BTCTRL_STEPSIZE_Msk) >> DMAC_BTCTRL_STEPSIZE_Pos; return tmp; } static inline void hri_dmacdescriptor_set_BTCTRL_reg(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_btctrl_reg_t hri_dmacdescriptor_get_BTCTRL_reg(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask) { uint16_t tmp; tmp = ((DmacDescriptor *)hw)->BTCTRL.reg; tmp &= mask; return tmp; } static inline void hri_dmacdescriptor_write_BTCTRL_reg(const void *const hw, hri_dmacdescriptor_btctrl_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_clear_BTCTRL_reg(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_toggle_BTCTRL_reg(const void *const hw, hri_dmacdescriptor_btctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCTRL.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_btctrl_reg_t hri_dmacdescriptor_read_BTCTRL_reg(const void *const hw) { return ((DmacDescriptor *)hw)->BTCTRL.reg; } static inline void hri_dmacdescriptor_set_BTCNT_BTCNT_bf(const void *const hw, hri_dmacdescriptor_btcnt_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCNT.reg |= DMAC_BTCNT_BTCNT(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_btcnt_reg_t hri_dmacdescriptor_get_BTCNT_BTCNT_bf(const void *const hw, hri_dmacdescriptor_btcnt_reg_t mask) { uint16_t tmp; tmp = ((DmacDescriptor *)hw)->BTCNT.reg; tmp = (tmp & DMAC_BTCNT_BTCNT(mask)) >> DMAC_BTCNT_BTCNT_Pos; return tmp; } static inline void hri_dmacdescriptor_write_BTCNT_BTCNT_bf(const void *const hw, hri_dmacdescriptor_btcnt_reg_t data) { uint16_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacDescriptor *)hw)->BTCNT.reg; tmp &= ~DMAC_BTCNT_BTCNT_Msk; tmp |= DMAC_BTCNT_BTCNT(data); ((DmacDescriptor *)hw)->BTCNT.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_clear_BTCNT_BTCNT_bf(const void *const hw, hri_dmacdescriptor_btcnt_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCNT.reg &= ~DMAC_BTCNT_BTCNT(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_toggle_BTCNT_BTCNT_bf(const void *const hw, hri_dmacdescriptor_btcnt_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCNT.reg ^= DMAC_BTCNT_BTCNT(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_btcnt_reg_t hri_dmacdescriptor_read_BTCNT_BTCNT_bf(const void *const hw) { uint16_t tmp; tmp = ((DmacDescriptor *)hw)->BTCNT.reg; tmp = (tmp & DMAC_BTCNT_BTCNT_Msk) >> DMAC_BTCNT_BTCNT_Pos; return tmp; } static inline void hri_dmacdescriptor_set_BTCNT_reg(const void *const hw, hri_dmacdescriptor_btcnt_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCNT.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_btcnt_reg_t hri_dmacdescriptor_get_BTCNT_reg(const void *const hw, hri_dmacdescriptor_btcnt_reg_t mask) { uint16_t tmp; tmp = ((DmacDescriptor *)hw)->BTCNT.reg; tmp &= mask; return tmp; } static inline void hri_dmacdescriptor_write_BTCNT_reg(const void *const hw, hri_dmacdescriptor_btcnt_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCNT.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_clear_BTCNT_reg(const void *const hw, hri_dmacdescriptor_btcnt_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCNT.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_toggle_BTCNT_reg(const void *const hw, hri_dmacdescriptor_btcnt_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->BTCNT.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_btcnt_reg_t hri_dmacdescriptor_read_BTCNT_reg(const void *const hw) { return ((DmacDescriptor *)hw)->BTCNT.reg; } static inline void hri_dmacdescriptor_set_SRCADDR_SRCADDR_bf(const void *const hw, hri_dmacdescriptor_srcaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->SRCADDR.reg |= DMAC_SRCADDR_SRCADDR(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_srcaddr_reg_t hri_dmacdescriptor_get_SRCADDR_SRCADDR_bf(const void *const hw, hri_dmacdescriptor_srcaddr_reg_t mask) { uint32_t tmp; tmp = ((DmacDescriptor *)hw)->SRCADDR.reg; tmp = (tmp & DMAC_SRCADDR_SRCADDR(mask)) >> DMAC_SRCADDR_SRCADDR_Pos; return tmp; } static inline void hri_dmacdescriptor_write_SRCADDR_SRCADDR_bf(const void *const hw, hri_dmacdescriptor_srcaddr_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacDescriptor *)hw)->SRCADDR.reg; tmp &= ~DMAC_SRCADDR_SRCADDR_Msk; tmp |= DMAC_SRCADDR_SRCADDR(data); ((DmacDescriptor *)hw)->SRCADDR.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_clear_SRCADDR_SRCADDR_bf(const void *const hw, hri_dmacdescriptor_srcaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->SRCADDR.reg &= ~DMAC_SRCADDR_SRCADDR(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_toggle_SRCADDR_SRCADDR_bf(const void *const hw, hri_dmacdescriptor_srcaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->SRCADDR.reg ^= DMAC_SRCADDR_SRCADDR(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_srcaddr_reg_t hri_dmacdescriptor_read_SRCADDR_SRCADDR_bf(const void *const hw) { uint32_t tmp; tmp = ((DmacDescriptor *)hw)->SRCADDR.reg; tmp = (tmp & DMAC_SRCADDR_SRCADDR_Msk) >> DMAC_SRCADDR_SRCADDR_Pos; return tmp; } static inline void hri_dmacdescriptor_set_SRCADDR_reg(const void *const hw, hri_dmacdescriptor_srcaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->SRCADDR.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_srcaddr_reg_t hri_dmacdescriptor_get_SRCADDR_reg(const void *const hw, hri_dmacdescriptor_srcaddr_reg_t mask) { uint32_t tmp; tmp = ((DmacDescriptor *)hw)->SRCADDR.reg; tmp &= mask; return tmp; } static inline void hri_dmacdescriptor_write_SRCADDR_reg(const void *const hw, hri_dmacdescriptor_srcaddr_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->SRCADDR.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_clear_SRCADDR_reg(const void *const hw, hri_dmacdescriptor_srcaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->SRCADDR.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_toggle_SRCADDR_reg(const void *const hw, hri_dmacdescriptor_srcaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->SRCADDR.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_srcaddr_reg_t hri_dmacdescriptor_read_SRCADDR_reg(const void *const hw) { return ((DmacDescriptor *)hw)->SRCADDR.reg; } static inline void hri_dmacdescriptor_set_DSTADDR_CRC_CHKINIT_bf(const void *const hw, hri_dmacdescriptor_dstaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->DSTADDR.reg |= DMAC_DSTADDR_CRC_CHKINIT(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_dstaddr_reg_t hri_dmacdescriptor_get_DSTADDR_CRC_CHKINIT_bf(const void *const hw, hri_dmacdescriptor_dstaddr_reg_t mask) { uint32_t tmp; tmp = ((DmacDescriptor *)hw)->DSTADDR.reg; tmp = (tmp & DMAC_DSTADDR_CRC_CHKINIT(mask)) >> DMAC_DSTADDR_CRC_CHKINIT_Pos; return tmp; } static inline void hri_dmacdescriptor_write_DSTADDR_CRC_CHKINIT_bf(const void *const hw, hri_dmacdescriptor_dstaddr_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacDescriptor *)hw)->DSTADDR.reg; tmp &= ~DMAC_DSTADDR_CRC_CHKINIT_Msk; tmp |= DMAC_DSTADDR_CRC_CHKINIT(data); ((DmacDescriptor *)hw)->DSTADDR.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_clear_DSTADDR_CRC_CHKINIT_bf(const void *const hw, hri_dmacdescriptor_dstaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->DSTADDR.reg &= ~DMAC_DSTADDR_CRC_CHKINIT(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_toggle_DSTADDR_CRC_CHKINIT_bf(const void *const hw, hri_dmacdescriptor_dstaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->DSTADDR.reg ^= DMAC_DSTADDR_CRC_CHKINIT(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_dstaddr_reg_t hri_dmacdescriptor_read_DSTADDR_CRC_CHKINIT_bf(const void *const hw) { uint32_t tmp; tmp = ((DmacDescriptor *)hw)->DSTADDR.reg; tmp = (tmp & DMAC_DSTADDR_CRC_CHKINIT_Msk) >> DMAC_DSTADDR_CRC_CHKINIT_Pos; return tmp; } static inline void hri_dmacdescriptor_set_DSTADDR_DSTADDR_bf(const void *const hw, hri_dmacdescriptor_dstaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->DSTADDR.reg |= DMAC_DSTADDR_DSTADDR(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_dstaddr_reg_t hri_dmacdescriptor_get_DSTADDR_DSTADDR_bf(const void *const hw, hri_dmacdescriptor_dstaddr_reg_t mask) { uint32_t tmp; tmp = ((DmacDescriptor *)hw)->DSTADDR.reg; tmp = (tmp & DMAC_DSTADDR_DSTADDR(mask)) >> DMAC_DSTADDR_DSTADDR_Pos; return tmp; } static inline void hri_dmacdescriptor_write_DSTADDR_DSTADDR_bf(const void *const hw, hri_dmacdescriptor_dstaddr_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacDescriptor *)hw)->DSTADDR.reg; tmp &= ~DMAC_DSTADDR_DSTADDR_Msk; tmp |= DMAC_DSTADDR_DSTADDR(data); ((DmacDescriptor *)hw)->DSTADDR.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_clear_DSTADDR_DSTADDR_bf(const void *const hw, hri_dmacdescriptor_dstaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->DSTADDR.reg &= ~DMAC_DSTADDR_DSTADDR(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_toggle_DSTADDR_DSTADDR_bf(const void *const hw, hri_dmacdescriptor_dstaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->DSTADDR.reg ^= DMAC_DSTADDR_DSTADDR(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_dstaddr_reg_t hri_dmacdescriptor_read_DSTADDR_DSTADDR_bf(const void *const hw) { uint32_t tmp; tmp = ((DmacDescriptor *)hw)->DSTADDR.reg; tmp = (tmp & DMAC_DSTADDR_DSTADDR_Msk) >> DMAC_DSTADDR_DSTADDR_Pos; return tmp; } static inline void hri_dmacdescriptor_set_DSTADDR_reg(const void *const hw, hri_dmacdescriptor_dstaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->DSTADDR.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_dstaddr_reg_t hri_dmacdescriptor_get_DSTADDR_reg(const void *const hw, hri_dmacdescriptor_dstaddr_reg_t mask) { uint32_t tmp; tmp = ((DmacDescriptor *)hw)->DSTADDR.reg; tmp &= mask; return tmp; } static inline void hri_dmacdescriptor_write_DSTADDR_reg(const void *const hw, hri_dmacdescriptor_dstaddr_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->DSTADDR.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_clear_DSTADDR_reg(const void *const hw, hri_dmacdescriptor_dstaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->DSTADDR.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_toggle_DSTADDR_reg(const void *const hw, hri_dmacdescriptor_dstaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->DSTADDR.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_dstaddr_reg_t hri_dmacdescriptor_read_DSTADDR_reg(const void *const hw) { return ((DmacDescriptor *)hw)->DSTADDR.reg; } static inline void hri_dmacdescriptor_set_DESCADDR_DESCADDR_bf(const void *const hw, hri_dmacdescriptor_descaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->DESCADDR.reg |= DMAC_DESCADDR_DESCADDR(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_descaddr_reg_t hri_dmacdescriptor_get_DESCADDR_DESCADDR_bf(const void *const hw, hri_dmacdescriptor_descaddr_reg_t mask) { uint32_t tmp; tmp = ((DmacDescriptor *)hw)->DESCADDR.reg; tmp = (tmp & DMAC_DESCADDR_DESCADDR(mask)) >> DMAC_DESCADDR_DESCADDR_Pos; return tmp; } static inline void hri_dmacdescriptor_write_DESCADDR_DESCADDR_bf(const void *const hw, hri_dmacdescriptor_descaddr_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacDescriptor *)hw)->DESCADDR.reg; tmp &= ~DMAC_DESCADDR_DESCADDR_Msk; tmp |= DMAC_DESCADDR_DESCADDR(data); ((DmacDescriptor *)hw)->DESCADDR.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_clear_DESCADDR_DESCADDR_bf(const void *const hw, hri_dmacdescriptor_descaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->DESCADDR.reg &= ~DMAC_DESCADDR_DESCADDR(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_toggle_DESCADDR_DESCADDR_bf(const void *const hw, hri_dmacdescriptor_descaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->DESCADDR.reg ^= DMAC_DESCADDR_DESCADDR(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_descaddr_reg_t hri_dmacdescriptor_read_DESCADDR_DESCADDR_bf(const void *const hw) { uint32_t tmp; tmp = ((DmacDescriptor *)hw)->DESCADDR.reg; tmp = (tmp & DMAC_DESCADDR_DESCADDR_Msk) >> DMAC_DESCADDR_DESCADDR_Pos; return tmp; } static inline void hri_dmacdescriptor_set_DESCADDR_reg(const void *const hw, hri_dmacdescriptor_descaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->DESCADDR.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_descaddr_reg_t hri_dmacdescriptor_get_DESCADDR_reg(const void *const hw, hri_dmacdescriptor_descaddr_reg_t mask) { uint32_t tmp; tmp = ((DmacDescriptor *)hw)->DESCADDR.reg; tmp &= mask; return tmp; } static inline void hri_dmacdescriptor_write_DESCADDR_reg(const void *const hw, hri_dmacdescriptor_descaddr_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->DESCADDR.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_clear_DESCADDR_reg(const void *const hw, hri_dmacdescriptor_descaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->DESCADDR.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacdescriptor_toggle_DESCADDR_reg(const void *const hw, hri_dmacdescriptor_descaddr_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacDescriptor *)hw)->DESCADDR.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmacdescriptor_descaddr_reg_t hri_dmacdescriptor_read_DESCADDR_reg(const void *const hw) { return ((DmacDescriptor *)hw)->DESCADDR.reg; } static inline bool hri_dmacchannel_get_CHINTFLAG_TERR_bit(const void *const hw) { return (((DmacChannel *)hw)->CHINTFLAG.reg & DMAC_CHINTFLAG_TERR) >> DMAC_CHINTFLAG_TERR_Pos; } static inline void hri_dmacchannel_clear_CHINTFLAG_TERR_bit(const void *const hw) { ((DmacChannel *)hw)->CHINTFLAG.reg = DMAC_CHINTFLAG_TERR; } static inline bool hri_dmacchannel_get_CHINTFLAG_TCMPL_bit(const void *const hw) { return (((DmacChannel *)hw)->CHINTFLAG.reg & DMAC_CHINTFLAG_TCMPL) >> DMAC_CHINTFLAG_TCMPL_Pos; } static inline void hri_dmacchannel_clear_CHINTFLAG_TCMPL_bit(const void *const hw) { ((DmacChannel *)hw)->CHINTFLAG.reg = DMAC_CHINTFLAG_TCMPL; } static inline bool hri_dmacchannel_get_CHINTFLAG_SUSP_bit(const void *const hw) { return (((DmacChannel *)hw)->CHINTFLAG.reg & DMAC_CHINTFLAG_SUSP) >> DMAC_CHINTFLAG_SUSP_Pos; } static inline void hri_dmacchannel_clear_CHINTFLAG_SUSP_bit(const void *const hw) { ((DmacChannel *)hw)->CHINTFLAG.reg = DMAC_CHINTFLAG_SUSP; } static inline bool hri_dmacchannel_get_interrupt_TERR_bit(const void *const hw) { return (((DmacChannel *)hw)->CHINTFLAG.reg & DMAC_CHINTFLAG_TERR) >> DMAC_CHINTFLAG_TERR_Pos; } static inline void hri_dmacchannel_clear_interrupt_TERR_bit(const void *const hw) { ((DmacChannel *)hw)->CHINTFLAG.reg = DMAC_CHINTFLAG_TERR; } static inline bool hri_dmacchannel_get_interrupt_TCMPL_bit(const void *const hw) { return (((DmacChannel *)hw)->CHINTFLAG.reg & DMAC_CHINTFLAG_TCMPL) >> DMAC_CHINTFLAG_TCMPL_Pos; } static inline void hri_dmacchannel_clear_interrupt_TCMPL_bit(const void *const hw) { ((DmacChannel *)hw)->CHINTFLAG.reg = DMAC_CHINTFLAG_TCMPL; } static inline bool hri_dmacchannel_get_interrupt_SUSP_bit(const void *const hw) { return (((DmacChannel *)hw)->CHINTFLAG.reg & DMAC_CHINTFLAG_SUSP) >> DMAC_CHINTFLAG_SUSP_Pos; } static inline void hri_dmacchannel_clear_interrupt_SUSP_bit(const void *const hw) { ((DmacChannel *)hw)->CHINTFLAG.reg = DMAC_CHINTFLAG_SUSP; } static inline hri_dmac_chintflag_reg_t hri_dmacchannel_get_CHINTFLAG_reg(const void *const hw, hri_dmac_chintflag_reg_t mask) { uint8_t tmp; tmp = ((DmacChannel *)hw)->CHINTFLAG.reg; tmp &= mask; return tmp; } static inline hri_dmac_chintflag_reg_t hri_dmacchannel_read_CHINTFLAG_reg(const void *const hw) { return ((DmacChannel *)hw)->CHINTFLAG.reg; } static inline void hri_dmacchannel_clear_CHINTFLAG_reg(const void *const hw, hri_dmac_chintflag_reg_t mask) { ((DmacChannel *)hw)->CHINTFLAG.reg = mask; } static inline void hri_dmacchannel_set_CHINTEN_TERR_bit(const void *const hw) { ((DmacChannel *)hw)->CHINTENSET.reg = DMAC_CHINTENSET_TERR; } static inline bool hri_dmacchannel_get_CHINTEN_TERR_bit(const void *const hw) { return (((DmacChannel *)hw)->CHINTENSET.reg & DMAC_CHINTENSET_TERR) >> DMAC_CHINTENSET_TERR_Pos; } static inline void hri_dmacchannel_write_CHINTEN_TERR_bit(const void *const hw, bool value) { if (value == 0x0) { ((DmacChannel *)hw)->CHINTENCLR.reg = DMAC_CHINTENSET_TERR; } else { ((DmacChannel *)hw)->CHINTENSET.reg = DMAC_CHINTENSET_TERR; } } static inline void hri_dmacchannel_clear_CHINTEN_TERR_bit(const void *const hw) { ((DmacChannel *)hw)->CHINTENCLR.reg = DMAC_CHINTENSET_TERR; } static inline void hri_dmacchannel_set_CHINTEN_TCMPL_bit(const void *const hw) { ((DmacChannel *)hw)->CHINTENSET.reg = DMAC_CHINTENSET_TCMPL; } static inline bool hri_dmacchannel_get_CHINTEN_TCMPL_bit(const void *const hw) { return (((DmacChannel *)hw)->CHINTENSET.reg & DMAC_CHINTENSET_TCMPL) >> DMAC_CHINTENSET_TCMPL_Pos; } static inline void hri_dmacchannel_write_CHINTEN_TCMPL_bit(const void *const hw, bool value) { if (value == 0x0) { ((DmacChannel *)hw)->CHINTENCLR.reg = DMAC_CHINTENSET_TCMPL; } else { ((DmacChannel *)hw)->CHINTENSET.reg = DMAC_CHINTENSET_TCMPL; } } static inline void hri_dmacchannel_clear_CHINTEN_TCMPL_bit(const void *const hw) { ((DmacChannel *)hw)->CHINTENCLR.reg = DMAC_CHINTENSET_TCMPL; } static inline void hri_dmacchannel_set_CHINTEN_SUSP_bit(const void *const hw) { ((DmacChannel *)hw)->CHINTENSET.reg = DMAC_CHINTENSET_SUSP; } static inline bool hri_dmacchannel_get_CHINTEN_SUSP_bit(const void *const hw) { return (((DmacChannel *)hw)->CHINTENSET.reg & DMAC_CHINTENSET_SUSP) >> DMAC_CHINTENSET_SUSP_Pos; } static inline void hri_dmacchannel_write_CHINTEN_SUSP_bit(const void *const hw, bool value) { if (value == 0x0) { ((DmacChannel *)hw)->CHINTENCLR.reg = DMAC_CHINTENSET_SUSP; } else { ((DmacChannel *)hw)->CHINTENSET.reg = DMAC_CHINTENSET_SUSP; } } static inline void hri_dmacchannel_clear_CHINTEN_SUSP_bit(const void *const hw) { ((DmacChannel *)hw)->CHINTENCLR.reg = DMAC_CHINTENSET_SUSP; } static inline void hri_dmacchannel_set_CHINTEN_reg(const void *const hw, hri_dmac_chintenset_reg_t mask) { ((DmacChannel *)hw)->CHINTENSET.reg = mask; } static inline hri_dmac_chintenset_reg_t hri_dmacchannel_get_CHINTEN_reg(const void *const hw, hri_dmac_chintenset_reg_t mask) { uint8_t tmp; tmp = ((DmacChannel *)hw)->CHINTENSET.reg; tmp &= mask; return tmp; } static inline hri_dmac_chintenset_reg_t hri_dmacchannel_read_CHINTEN_reg(const void *const hw) { return ((DmacChannel *)hw)->CHINTENSET.reg; } static inline void hri_dmacchannel_write_CHINTEN_reg(const void *const hw, hri_dmac_chintenset_reg_t data) { ((DmacChannel *)hw)->CHINTENSET.reg = data; ((DmacChannel *)hw)->CHINTENCLR.reg = ~data; } static inline void hri_dmacchannel_clear_CHINTEN_reg(const void *const hw, hri_dmac_chintenset_reg_t mask) { ((DmacChannel *)hw)->CHINTENCLR.reg = mask; } static inline void hri_dmacchannel_set_CHCTRLA_SWRST_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg |= DMAC_CHCTRLA_SWRST; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmacchannel_get_CHCTRLA_SWRST_bit(const void *const hw) { uint32_t tmp; tmp = ((DmacChannel *)hw)->CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_SWRST) >> DMAC_CHCTRLA_SWRST_Pos; return (bool)tmp; } static inline void hri_dmacchannel_set_CHCTRLA_ENABLE_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg |= DMAC_CHCTRLA_ENABLE; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmacchannel_get_CHCTRLA_ENABLE_bit(const void *const hw) { uint32_t tmp; tmp = ((DmacChannel *)hw)->CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_ENABLE) >> DMAC_CHCTRLA_ENABLE_Pos; return (bool)tmp; } static inline void hri_dmacchannel_write_CHCTRLA_ENABLE_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacChannel *)hw)->CHCTRLA.reg; tmp &= ~DMAC_CHCTRLA_ENABLE; tmp |= value << DMAC_CHCTRLA_ENABLE_Pos; ((DmacChannel *)hw)->CHCTRLA.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_clear_CHCTRLA_ENABLE_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg &= ~DMAC_CHCTRLA_ENABLE; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_toggle_CHCTRLA_ENABLE_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg ^= DMAC_CHCTRLA_ENABLE; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_set_CHCTRLA_RUNSTDBY_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg |= DMAC_CHCTRLA_RUNSTDBY; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmacchannel_get_CHCTRLA_RUNSTDBY_bit(const void *const hw) { uint32_t tmp; tmp = ((DmacChannel *)hw)->CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_RUNSTDBY) >> DMAC_CHCTRLA_RUNSTDBY_Pos; return (bool)tmp; } static inline void hri_dmacchannel_write_CHCTRLA_RUNSTDBY_bit(const void *const hw, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacChannel *)hw)->CHCTRLA.reg; tmp &= ~DMAC_CHCTRLA_RUNSTDBY; tmp |= value << DMAC_CHCTRLA_RUNSTDBY_Pos; ((DmacChannel *)hw)->CHCTRLA.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_clear_CHCTRLA_RUNSTDBY_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg &= ~DMAC_CHCTRLA_RUNSTDBY; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_toggle_CHCTRLA_RUNSTDBY_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg ^= DMAC_CHCTRLA_RUNSTDBY; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_set_CHCTRLA_TRIGSRC_bf(const void *const hw, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg |= DMAC_CHCTRLA_TRIGSRC(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrla_reg_t hri_dmacchannel_get_CHCTRLA_TRIGSRC_bf(const void *const hw, hri_dmac_chctrla_reg_t mask) { uint32_t tmp; tmp = ((DmacChannel *)hw)->CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_TRIGSRC(mask)) >> DMAC_CHCTRLA_TRIGSRC_Pos; return tmp; } static inline void hri_dmacchannel_write_CHCTRLA_TRIGSRC_bf(const void *const hw, hri_dmac_chctrla_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacChannel *)hw)->CHCTRLA.reg; tmp &= ~DMAC_CHCTRLA_TRIGSRC_Msk; tmp |= DMAC_CHCTRLA_TRIGSRC(data); ((DmacChannel *)hw)->CHCTRLA.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_clear_CHCTRLA_TRIGSRC_bf(const void *const hw, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg &= ~DMAC_CHCTRLA_TRIGSRC(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_toggle_CHCTRLA_TRIGSRC_bf(const void *const hw, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg ^= DMAC_CHCTRLA_TRIGSRC(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrla_reg_t hri_dmacchannel_read_CHCTRLA_TRIGSRC_bf(const void *const hw) { uint32_t tmp; tmp = ((DmacChannel *)hw)->CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_TRIGSRC_Msk) >> DMAC_CHCTRLA_TRIGSRC_Pos; return tmp; } static inline void hri_dmacchannel_set_CHCTRLA_TRIGACT_bf(const void *const hw, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg |= DMAC_CHCTRLA_TRIGACT(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrla_reg_t hri_dmacchannel_get_CHCTRLA_TRIGACT_bf(const void *const hw, hri_dmac_chctrla_reg_t mask) { uint32_t tmp; tmp = ((DmacChannel *)hw)->CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_TRIGACT(mask)) >> DMAC_CHCTRLA_TRIGACT_Pos; return tmp; } static inline void hri_dmacchannel_write_CHCTRLA_TRIGACT_bf(const void *const hw, hri_dmac_chctrla_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacChannel *)hw)->CHCTRLA.reg; tmp &= ~DMAC_CHCTRLA_TRIGACT_Msk; tmp |= DMAC_CHCTRLA_TRIGACT(data); ((DmacChannel *)hw)->CHCTRLA.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_clear_CHCTRLA_TRIGACT_bf(const void *const hw, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg &= ~DMAC_CHCTRLA_TRIGACT(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_toggle_CHCTRLA_TRIGACT_bf(const void *const hw, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg ^= DMAC_CHCTRLA_TRIGACT(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrla_reg_t hri_dmacchannel_read_CHCTRLA_TRIGACT_bf(const void *const hw) { uint32_t tmp; tmp = ((DmacChannel *)hw)->CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_TRIGACT_Msk) >> DMAC_CHCTRLA_TRIGACT_Pos; return tmp; } static inline void hri_dmacchannel_set_CHCTRLA_BURSTLEN_bf(const void *const hw, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg |= DMAC_CHCTRLA_BURSTLEN(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrla_reg_t hri_dmacchannel_get_CHCTRLA_BURSTLEN_bf(const void *const hw, hri_dmac_chctrla_reg_t mask) { uint32_t tmp; tmp = ((DmacChannel *)hw)->CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_BURSTLEN(mask)) >> DMAC_CHCTRLA_BURSTLEN_Pos; return tmp; } static inline void hri_dmacchannel_write_CHCTRLA_BURSTLEN_bf(const void *const hw, hri_dmac_chctrla_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacChannel *)hw)->CHCTRLA.reg; tmp &= ~DMAC_CHCTRLA_BURSTLEN_Msk; tmp |= DMAC_CHCTRLA_BURSTLEN(data); ((DmacChannel *)hw)->CHCTRLA.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_clear_CHCTRLA_BURSTLEN_bf(const void *const hw, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg &= ~DMAC_CHCTRLA_BURSTLEN(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_toggle_CHCTRLA_BURSTLEN_bf(const void *const hw, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg ^= DMAC_CHCTRLA_BURSTLEN(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrla_reg_t hri_dmacchannel_read_CHCTRLA_BURSTLEN_bf(const void *const hw) { uint32_t tmp; tmp = ((DmacChannel *)hw)->CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_BURSTLEN_Msk) >> DMAC_CHCTRLA_BURSTLEN_Pos; return tmp; } static inline void hri_dmacchannel_set_CHCTRLA_THRESHOLD_bf(const void *const hw, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg |= DMAC_CHCTRLA_THRESHOLD(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrla_reg_t hri_dmacchannel_get_CHCTRLA_THRESHOLD_bf(const void *const hw, hri_dmac_chctrla_reg_t mask) { uint32_t tmp; tmp = ((DmacChannel *)hw)->CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_THRESHOLD(mask)) >> DMAC_CHCTRLA_THRESHOLD_Pos; return tmp; } static inline void hri_dmacchannel_write_CHCTRLA_THRESHOLD_bf(const void *const hw, hri_dmac_chctrla_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacChannel *)hw)->CHCTRLA.reg; tmp &= ~DMAC_CHCTRLA_THRESHOLD_Msk; tmp |= DMAC_CHCTRLA_THRESHOLD(data); ((DmacChannel *)hw)->CHCTRLA.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_clear_CHCTRLA_THRESHOLD_bf(const void *const hw, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg &= ~DMAC_CHCTRLA_THRESHOLD(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_toggle_CHCTRLA_THRESHOLD_bf(const void *const hw, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg ^= DMAC_CHCTRLA_THRESHOLD(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrla_reg_t hri_dmacchannel_read_CHCTRLA_THRESHOLD_bf(const void *const hw) { uint32_t tmp; tmp = ((DmacChannel *)hw)->CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_THRESHOLD_Msk) >> DMAC_CHCTRLA_THRESHOLD_Pos; return tmp; } static inline void hri_dmacchannel_set_CHCTRLA_reg(const void *const hw, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrla_reg_t hri_dmacchannel_get_CHCTRLA_reg(const void *const hw, hri_dmac_chctrla_reg_t mask) { uint32_t tmp; tmp = ((DmacChannel *)hw)->CHCTRLA.reg; tmp &= mask; return tmp; } static inline void hri_dmacchannel_write_CHCTRLA_reg(const void *const hw, hri_dmac_chctrla_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_clear_CHCTRLA_reg(const void *const hw, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_toggle_CHCTRLA_reg(const void *const hw, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLA.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrla_reg_t hri_dmacchannel_read_CHCTRLA_reg(const void *const hw) { return ((DmacChannel *)hw)->CHCTRLA.reg; } static inline void hri_dmacchannel_set_CHCTRLB_CMD_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLB.reg |= DMAC_CHCTRLB_CMD(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrlb_reg_t hri_dmacchannel_get_CHCTRLB_CMD_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask) { uint8_t tmp; tmp = ((DmacChannel *)hw)->CHCTRLB.reg; tmp = (tmp & DMAC_CHCTRLB_CMD(mask)) >> DMAC_CHCTRLB_CMD_Pos; return tmp; } static inline void hri_dmacchannel_write_CHCTRLB_CMD_bf(const void *const hw, hri_dmac_chctrlb_reg_t data) { uint8_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacChannel *)hw)->CHCTRLB.reg; tmp &= ~DMAC_CHCTRLB_CMD_Msk; tmp |= DMAC_CHCTRLB_CMD(data); ((DmacChannel *)hw)->CHCTRLB.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_clear_CHCTRLB_CMD_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLB.reg &= ~DMAC_CHCTRLB_CMD(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_toggle_CHCTRLB_CMD_bf(const void *const hw, hri_dmac_chctrlb_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLB.reg ^= DMAC_CHCTRLB_CMD(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrlb_reg_t hri_dmacchannel_read_CHCTRLB_CMD_bf(const void *const hw) { uint8_t tmp; tmp = ((DmacChannel *)hw)->CHCTRLB.reg; tmp = (tmp & DMAC_CHCTRLB_CMD_Msk) >> DMAC_CHCTRLB_CMD_Pos; return tmp; } static inline void hri_dmacchannel_set_CHCTRLB_reg(const void *const hw, hri_dmac_chctrlb_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLB.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrlb_reg_t hri_dmacchannel_get_CHCTRLB_reg(const void *const hw, hri_dmac_chctrlb_reg_t mask) { uint8_t tmp; tmp = ((DmacChannel *)hw)->CHCTRLB.reg; tmp &= mask; return tmp; } static inline void hri_dmacchannel_write_CHCTRLB_reg(const void *const hw, hri_dmac_chctrlb_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLB.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_clear_CHCTRLB_reg(const void *const hw, hri_dmac_chctrlb_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLB.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_toggle_CHCTRLB_reg(const void *const hw, hri_dmac_chctrlb_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHCTRLB.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrlb_reg_t hri_dmacchannel_read_CHCTRLB_reg(const void *const hw) { return ((DmacChannel *)hw)->CHCTRLB.reg; } static inline void hri_dmacchannel_set_CHPRILVL_PRILVL_bf(const void *const hw, hri_dmac_chprilvl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHPRILVL.reg |= DMAC_CHPRILVL_PRILVL(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chprilvl_reg_t hri_dmacchannel_get_CHPRILVL_PRILVL_bf(const void *const hw, hri_dmac_chprilvl_reg_t mask) { uint8_t tmp; tmp = ((DmacChannel *)hw)->CHPRILVL.reg; tmp = (tmp & DMAC_CHPRILVL_PRILVL(mask)) >> DMAC_CHPRILVL_PRILVL_Pos; return tmp; } static inline void hri_dmacchannel_write_CHPRILVL_PRILVL_bf(const void *const hw, hri_dmac_chprilvl_reg_t data) { uint8_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacChannel *)hw)->CHPRILVL.reg; tmp &= ~DMAC_CHPRILVL_PRILVL_Msk; tmp |= DMAC_CHPRILVL_PRILVL(data); ((DmacChannel *)hw)->CHPRILVL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_clear_CHPRILVL_PRILVL_bf(const void *const hw, hri_dmac_chprilvl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHPRILVL.reg &= ~DMAC_CHPRILVL_PRILVL(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_toggle_CHPRILVL_PRILVL_bf(const void *const hw, hri_dmac_chprilvl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHPRILVL.reg ^= DMAC_CHPRILVL_PRILVL(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chprilvl_reg_t hri_dmacchannel_read_CHPRILVL_PRILVL_bf(const void *const hw) { uint8_t tmp; tmp = ((DmacChannel *)hw)->CHPRILVL.reg; tmp = (tmp & DMAC_CHPRILVL_PRILVL_Msk) >> DMAC_CHPRILVL_PRILVL_Pos; return tmp; } static inline void hri_dmacchannel_set_CHPRILVL_reg(const void *const hw, hri_dmac_chprilvl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHPRILVL.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chprilvl_reg_t hri_dmacchannel_get_CHPRILVL_reg(const void *const hw, hri_dmac_chprilvl_reg_t mask) { uint8_t tmp; tmp = ((DmacChannel *)hw)->CHPRILVL.reg; tmp &= mask; return tmp; } static inline void hri_dmacchannel_write_CHPRILVL_reg(const void *const hw, hri_dmac_chprilvl_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHPRILVL.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_clear_CHPRILVL_reg(const void *const hw, hri_dmac_chprilvl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHPRILVL.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_toggle_CHPRILVL_reg(const void *const hw, hri_dmac_chprilvl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHPRILVL.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chprilvl_reg_t hri_dmacchannel_read_CHPRILVL_reg(const void *const hw) { return ((DmacChannel *)hw)->CHPRILVL.reg; } static inline void hri_dmacchannel_set_CHEVCTRL_EVIE_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHEVCTRL.reg |= DMAC_CHEVCTRL_EVIE; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmacchannel_get_CHEVCTRL_EVIE_bit(const void *const hw) { uint8_t tmp; tmp = ((DmacChannel *)hw)->CHEVCTRL.reg; tmp = (tmp & DMAC_CHEVCTRL_EVIE) >> DMAC_CHEVCTRL_EVIE_Pos; return (bool)tmp; } static inline void hri_dmacchannel_write_CHEVCTRL_EVIE_bit(const void *const hw, bool value) { uint8_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacChannel *)hw)->CHEVCTRL.reg; tmp &= ~DMAC_CHEVCTRL_EVIE; tmp |= value << DMAC_CHEVCTRL_EVIE_Pos; ((DmacChannel *)hw)->CHEVCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_clear_CHEVCTRL_EVIE_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHEVCTRL.reg &= ~DMAC_CHEVCTRL_EVIE; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_toggle_CHEVCTRL_EVIE_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHEVCTRL.reg ^= DMAC_CHEVCTRL_EVIE; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_set_CHEVCTRL_EVOE_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHEVCTRL.reg |= DMAC_CHEVCTRL_EVOE; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmacchannel_get_CHEVCTRL_EVOE_bit(const void *const hw) { uint8_t tmp; tmp = ((DmacChannel *)hw)->CHEVCTRL.reg; tmp = (tmp & DMAC_CHEVCTRL_EVOE) >> DMAC_CHEVCTRL_EVOE_Pos; return (bool)tmp; } static inline void hri_dmacchannel_write_CHEVCTRL_EVOE_bit(const void *const hw, bool value) { uint8_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacChannel *)hw)->CHEVCTRL.reg; tmp &= ~DMAC_CHEVCTRL_EVOE; tmp |= value << DMAC_CHEVCTRL_EVOE_Pos; ((DmacChannel *)hw)->CHEVCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_clear_CHEVCTRL_EVOE_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHEVCTRL.reg &= ~DMAC_CHEVCTRL_EVOE; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_toggle_CHEVCTRL_EVOE_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHEVCTRL.reg ^= DMAC_CHEVCTRL_EVOE; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_set_CHEVCTRL_EVACT_bf(const void *const hw, hri_dmac_chevctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHEVCTRL.reg |= DMAC_CHEVCTRL_EVACT(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chevctrl_reg_t hri_dmacchannel_get_CHEVCTRL_EVACT_bf(const void *const hw, hri_dmac_chevctrl_reg_t mask) { uint8_t tmp; tmp = ((DmacChannel *)hw)->CHEVCTRL.reg; tmp = (tmp & DMAC_CHEVCTRL_EVACT(mask)) >> DMAC_CHEVCTRL_EVACT_Pos; return tmp; } static inline void hri_dmacchannel_write_CHEVCTRL_EVACT_bf(const void *const hw, hri_dmac_chevctrl_reg_t data) { uint8_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacChannel *)hw)->CHEVCTRL.reg; tmp &= ~DMAC_CHEVCTRL_EVACT_Msk; tmp |= DMAC_CHEVCTRL_EVACT(data); ((DmacChannel *)hw)->CHEVCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_clear_CHEVCTRL_EVACT_bf(const void *const hw, hri_dmac_chevctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHEVCTRL.reg &= ~DMAC_CHEVCTRL_EVACT(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_toggle_CHEVCTRL_EVACT_bf(const void *const hw, hri_dmac_chevctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHEVCTRL.reg ^= DMAC_CHEVCTRL_EVACT(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chevctrl_reg_t hri_dmacchannel_read_CHEVCTRL_EVACT_bf(const void *const hw) { uint8_t tmp; tmp = ((DmacChannel *)hw)->CHEVCTRL.reg; tmp = (tmp & DMAC_CHEVCTRL_EVACT_Msk) >> DMAC_CHEVCTRL_EVACT_Pos; return tmp; } static inline void hri_dmacchannel_set_CHEVCTRL_EVOMODE_bf(const void *const hw, hri_dmac_chevctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHEVCTRL.reg |= DMAC_CHEVCTRL_EVOMODE(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chevctrl_reg_t hri_dmacchannel_get_CHEVCTRL_EVOMODE_bf(const void *const hw, hri_dmac_chevctrl_reg_t mask) { uint8_t tmp; tmp = ((DmacChannel *)hw)->CHEVCTRL.reg; tmp = (tmp & DMAC_CHEVCTRL_EVOMODE(mask)) >> DMAC_CHEVCTRL_EVOMODE_Pos; return tmp; } static inline void hri_dmacchannel_write_CHEVCTRL_EVOMODE_bf(const void *const hw, hri_dmac_chevctrl_reg_t data) { uint8_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((DmacChannel *)hw)->CHEVCTRL.reg; tmp &= ~DMAC_CHEVCTRL_EVOMODE_Msk; tmp |= DMAC_CHEVCTRL_EVOMODE(data); ((DmacChannel *)hw)->CHEVCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_clear_CHEVCTRL_EVOMODE_bf(const void *const hw, hri_dmac_chevctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHEVCTRL.reg &= ~DMAC_CHEVCTRL_EVOMODE(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_toggle_CHEVCTRL_EVOMODE_bf(const void *const hw, hri_dmac_chevctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHEVCTRL.reg ^= DMAC_CHEVCTRL_EVOMODE(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chevctrl_reg_t hri_dmacchannel_read_CHEVCTRL_EVOMODE_bf(const void *const hw) { uint8_t tmp; tmp = ((DmacChannel *)hw)->CHEVCTRL.reg; tmp = (tmp & DMAC_CHEVCTRL_EVOMODE_Msk) >> DMAC_CHEVCTRL_EVOMODE_Pos; return tmp; } static inline void hri_dmacchannel_set_CHEVCTRL_reg(const void *const hw, hri_dmac_chevctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHEVCTRL.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chevctrl_reg_t hri_dmacchannel_get_CHEVCTRL_reg(const void *const hw, hri_dmac_chevctrl_reg_t mask) { uint8_t tmp; tmp = ((DmacChannel *)hw)->CHEVCTRL.reg; tmp &= mask; return tmp; } static inline void hri_dmacchannel_write_CHEVCTRL_reg(const void *const hw, hri_dmac_chevctrl_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHEVCTRL.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_clear_CHEVCTRL_reg(const void *const hw, hri_dmac_chevctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHEVCTRL.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmacchannel_toggle_CHEVCTRL_reg(const void *const hw, hri_dmac_chevctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHEVCTRL.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chevctrl_reg_t hri_dmacchannel_read_CHEVCTRL_reg(const void *const hw) { return ((DmacChannel *)hw)->CHEVCTRL.reg; } static inline bool hri_dmacchannel_get_CHSTATUS_PEND_bit(const void *const hw) { return (((DmacChannel *)hw)->CHSTATUS.reg & DMAC_CHSTATUS_PEND) >> DMAC_CHSTATUS_PEND_Pos; } static inline void hri_dmacchannel_clear_CHSTATUS_PEND_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHSTATUS.reg = DMAC_CHSTATUS_PEND; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmacchannel_get_CHSTATUS_BUSY_bit(const void *const hw) { return (((DmacChannel *)hw)->CHSTATUS.reg & DMAC_CHSTATUS_BUSY) >> DMAC_CHSTATUS_BUSY_Pos; } static inline void hri_dmacchannel_clear_CHSTATUS_BUSY_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHSTATUS.reg = DMAC_CHSTATUS_BUSY; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmacchannel_get_CHSTATUS_FERR_bit(const void *const hw) { return (((DmacChannel *)hw)->CHSTATUS.reg & DMAC_CHSTATUS_FERR) >> DMAC_CHSTATUS_FERR_Pos; } static inline void hri_dmacchannel_clear_CHSTATUS_FERR_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHSTATUS.reg = DMAC_CHSTATUS_FERR; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmacchannel_get_CHSTATUS_CRCERR_bit(const void *const hw) { return (((DmacChannel *)hw)->CHSTATUS.reg & DMAC_CHSTATUS_CRCERR) >> DMAC_CHSTATUS_CRCERR_Pos; } static inline void hri_dmacchannel_clear_CHSTATUS_CRCERR_bit(const void *const hw) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHSTATUS.reg = DMAC_CHSTATUS_CRCERR; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chstatus_reg_t hri_dmacchannel_get_CHSTATUS_reg(const void *const hw, hri_dmac_chstatus_reg_t mask) { uint8_t tmp; tmp = ((DmacChannel *)hw)->CHSTATUS.reg; tmp &= mask; return tmp; } static inline void hri_dmacchannel_clear_CHSTATUS_reg(const void *const hw, hri_dmac_chstatus_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((DmacChannel *)hw)->CHSTATUS.reg = mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chstatus_reg_t hri_dmacchannel_read_CHSTATUS_reg(const void *const hw) { return ((DmacChannel *)hw)->CHSTATUS.reg; } static inline bool hri_dmac_get_CHINTFLAG_TERR_bit(const void *const hw, uint8_t submodule_index) { return (((Dmac *)hw)->Channel[submodule_index].CHINTFLAG.reg & DMAC_CHINTFLAG_TERR) >> DMAC_CHINTFLAG_TERR_Pos; } static inline void hri_dmac_clear_CHINTFLAG_TERR_bit(const void *const hw, uint8_t submodule_index) { ((Dmac *)hw)->Channel[submodule_index].CHINTFLAG.reg = DMAC_CHINTFLAG_TERR; } static inline bool hri_dmac_get_CHINTFLAG_TCMPL_bit(const void *const hw, uint8_t submodule_index) { return (((Dmac *)hw)->Channel[submodule_index].CHINTFLAG.reg & DMAC_CHINTFLAG_TCMPL) >> DMAC_CHINTFLAG_TCMPL_Pos; } static inline void hri_dmac_clear_CHINTFLAG_TCMPL_bit(const void *const hw, uint8_t submodule_index) { ((Dmac *)hw)->Channel[submodule_index].CHINTFLAG.reg = DMAC_CHINTFLAG_TCMPL; } static inline bool hri_dmac_get_CHINTFLAG_SUSP_bit(const void *const hw, uint8_t submodule_index) { return (((Dmac *)hw)->Channel[submodule_index].CHINTFLAG.reg & DMAC_CHINTFLAG_SUSP) >> DMAC_CHINTFLAG_SUSP_Pos; } static inline void hri_dmac_clear_CHINTFLAG_SUSP_bit(const void *const hw, uint8_t submodule_index) { ((Dmac *)hw)->Channel[submodule_index].CHINTFLAG.reg = DMAC_CHINTFLAG_SUSP; } static inline bool hri_dmac_get_interrupt_TERR_bit(const void *const hw, uint8_t submodule_index) { return (((Dmac *)hw)->Channel[submodule_index].CHINTFLAG.reg & DMAC_CHINTFLAG_TERR) >> DMAC_CHINTFLAG_TERR_Pos; } static inline void hri_dmac_clear_interrupt_TERR_bit(const void *const hw, uint8_t submodule_index) { ((Dmac *)hw)->Channel[submodule_index].CHINTFLAG.reg = DMAC_CHINTFLAG_TERR; } static inline bool hri_dmac_get_interrupt_TCMPL_bit(const void *const hw, uint8_t submodule_index) { return (((Dmac *)hw)->Channel[submodule_index].CHINTFLAG.reg & DMAC_CHINTFLAG_TCMPL) >> DMAC_CHINTFLAG_TCMPL_Pos; } static inline void hri_dmac_clear_interrupt_TCMPL_bit(const void *const hw, uint8_t submodule_index) { ((Dmac *)hw)->Channel[submodule_index].CHINTFLAG.reg = DMAC_CHINTFLAG_TCMPL; } static inline bool hri_dmac_get_interrupt_SUSP_bit(const void *const hw, uint8_t submodule_index) { return (((Dmac *)hw)->Channel[submodule_index].CHINTFLAG.reg & DMAC_CHINTFLAG_SUSP) >> DMAC_CHINTFLAG_SUSP_Pos; } static inline void hri_dmac_clear_interrupt_SUSP_bit(const void *const hw, uint8_t submodule_index) { ((Dmac *)hw)->Channel[submodule_index].CHINTFLAG.reg = DMAC_CHINTFLAG_SUSP; } static inline hri_dmac_chintflag_reg_t hri_dmac_get_CHINTFLAG_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chintflag_reg_t mask) { uint8_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHINTFLAG.reg; tmp &= mask; return tmp; } static inline hri_dmac_chintflag_reg_t hri_dmac_read_CHINTFLAG_reg(const void *const hw, uint8_t submodule_index) { return ((Dmac *)hw)->Channel[submodule_index].CHINTFLAG.reg; } static inline void hri_dmac_clear_CHINTFLAG_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chintflag_reg_t mask) { ((Dmac *)hw)->Channel[submodule_index].CHINTFLAG.reg = mask; } static inline void hri_dmac_set_CHINTEN_TERR_bit(const void *const hw, uint8_t submodule_index) { ((Dmac *)hw)->Channel[submodule_index].CHINTENSET.reg = DMAC_CHINTENSET_TERR; } static inline bool hri_dmac_get_CHINTEN_TERR_bit(const void *const hw, uint8_t submodule_index) { return (((Dmac *)hw)->Channel[submodule_index].CHINTENSET.reg & DMAC_CHINTENSET_TERR) >> DMAC_CHINTENSET_TERR_Pos; } static inline void hri_dmac_write_CHINTEN_TERR_bit(const void *const hw, uint8_t submodule_index, bool value) { if (value == 0x0) { ((Dmac *)hw)->Channel[submodule_index].CHINTENCLR.reg = DMAC_CHINTENSET_TERR; } else { ((Dmac *)hw)->Channel[submodule_index].CHINTENSET.reg = DMAC_CHINTENSET_TERR; } } static inline void hri_dmac_clear_CHINTEN_TERR_bit(const void *const hw, uint8_t submodule_index) { ((Dmac *)hw)->Channel[submodule_index].CHINTENCLR.reg = DMAC_CHINTENSET_TERR; } static inline void hri_dmac_set_CHINTEN_TCMPL_bit(const void *const hw, uint8_t submodule_index) { ((Dmac *)hw)->Channel[submodule_index].CHINTENSET.reg = DMAC_CHINTENSET_TCMPL; } static inline bool hri_dmac_get_CHINTEN_TCMPL_bit(const void *const hw, uint8_t submodule_index) { return (((Dmac *)hw)->Channel[submodule_index].CHINTENSET.reg & DMAC_CHINTENSET_TCMPL) >> DMAC_CHINTENSET_TCMPL_Pos; } static inline void hri_dmac_write_CHINTEN_TCMPL_bit(const void *const hw, uint8_t submodule_index, bool value) { if (value == 0x0) { ((Dmac *)hw)->Channel[submodule_index].CHINTENCLR.reg = DMAC_CHINTENSET_TCMPL; } else { ((Dmac *)hw)->Channel[submodule_index].CHINTENSET.reg = DMAC_CHINTENSET_TCMPL; } } static inline void hri_dmac_clear_CHINTEN_TCMPL_bit(const void *const hw, uint8_t submodule_index) { ((Dmac *)hw)->Channel[submodule_index].CHINTENCLR.reg = DMAC_CHINTENSET_TCMPL; } static inline void hri_dmac_set_CHINTEN_SUSP_bit(const void *const hw, uint8_t submodule_index) { ((Dmac *)hw)->Channel[submodule_index].CHINTENSET.reg = DMAC_CHINTENSET_SUSP; } static inline bool hri_dmac_get_CHINTEN_SUSP_bit(const void *const hw, uint8_t submodule_index) { return (((Dmac *)hw)->Channel[submodule_index].CHINTENSET.reg & DMAC_CHINTENSET_SUSP) >> DMAC_CHINTENSET_SUSP_Pos; } static inline void hri_dmac_write_CHINTEN_SUSP_bit(const void *const hw, uint8_t submodule_index, bool value) { if (value == 0x0) { ((Dmac *)hw)->Channel[submodule_index].CHINTENCLR.reg = DMAC_CHINTENSET_SUSP; } else { ((Dmac *)hw)->Channel[submodule_index].CHINTENSET.reg = DMAC_CHINTENSET_SUSP; } } static inline void hri_dmac_clear_CHINTEN_SUSP_bit(const void *const hw, uint8_t submodule_index) { ((Dmac *)hw)->Channel[submodule_index].CHINTENCLR.reg = DMAC_CHINTENSET_SUSP; } static inline void hri_dmac_set_CHINTEN_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chintenset_reg_t mask) { ((Dmac *)hw)->Channel[submodule_index].CHINTENSET.reg = mask; } static inline hri_dmac_chintenset_reg_t hri_dmac_get_CHINTEN_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chintenset_reg_t mask) { uint8_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHINTENSET.reg; tmp &= mask; return tmp; } static inline hri_dmac_chintenset_reg_t hri_dmac_read_CHINTEN_reg(const void *const hw, uint8_t submodule_index) { return ((Dmac *)hw)->Channel[submodule_index].CHINTENSET.reg; } static inline void hri_dmac_write_CHINTEN_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chintenset_reg_t data) { ((Dmac *)hw)->Channel[submodule_index].CHINTENSET.reg = data; ((Dmac *)hw)->Channel[submodule_index].CHINTENCLR.reg = ~data; } static inline void hri_dmac_clear_CHINTEN_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chintenset_reg_t mask) { ((Dmac *)hw)->Channel[submodule_index].CHINTENCLR.reg = mask; } static inline void hri_dmac_set_CHCTRLA_SWRST_bit(const void *const hw, uint8_t submodule_index) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg |= DMAC_CHCTRLA_SWRST; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_CHCTRLA_SWRST_bit(const void *const hw, uint8_t submodule_index) { uint32_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_SWRST) >> DMAC_CHCTRLA_SWRST_Pos; return (bool)tmp; } static inline void hri_dmac_set_CHCTRLA_ENABLE_bit(const void *const hw, uint8_t submodule_index) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg |= DMAC_CHCTRLA_ENABLE; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_CHCTRLA_ENABLE_bit(const void *const hw, uint8_t submodule_index) { uint32_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_ENABLE) >> DMAC_CHCTRLA_ENABLE_Pos; return (bool)tmp; } static inline void hri_dmac_write_CHCTRLA_ENABLE_bit(const void *const hw, uint8_t submodule_index, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg; tmp &= ~DMAC_CHCTRLA_ENABLE; tmp |= value << DMAC_CHCTRLA_ENABLE_Pos; ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CHCTRLA_ENABLE_bit(const void *const hw, uint8_t submodule_index) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg &= ~DMAC_CHCTRLA_ENABLE; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CHCTRLA_ENABLE_bit(const void *const hw, uint8_t submodule_index) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg ^= DMAC_CHCTRLA_ENABLE; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_CHCTRLA_RUNSTDBY_bit(const void *const hw, uint8_t submodule_index) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg |= DMAC_CHCTRLA_RUNSTDBY; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_CHCTRLA_RUNSTDBY_bit(const void *const hw, uint8_t submodule_index) { uint32_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_RUNSTDBY) >> DMAC_CHCTRLA_RUNSTDBY_Pos; return (bool)tmp; } static inline void hri_dmac_write_CHCTRLA_RUNSTDBY_bit(const void *const hw, uint8_t submodule_index, bool value) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg; tmp &= ~DMAC_CHCTRLA_RUNSTDBY; tmp |= value << DMAC_CHCTRLA_RUNSTDBY_Pos; ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CHCTRLA_RUNSTDBY_bit(const void *const hw, uint8_t submodule_index) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg &= ~DMAC_CHCTRLA_RUNSTDBY; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CHCTRLA_RUNSTDBY_bit(const void *const hw, uint8_t submodule_index) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg ^= DMAC_CHCTRLA_RUNSTDBY; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_CHCTRLA_TRIGSRC_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg |= DMAC_CHCTRLA_TRIGSRC(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrla_reg_t hri_dmac_get_CHCTRLA_TRIGSRC_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_TRIGSRC(mask)) >> DMAC_CHCTRLA_TRIGSRC_Pos; return tmp; } static inline void hri_dmac_write_CHCTRLA_TRIGSRC_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg; tmp &= ~DMAC_CHCTRLA_TRIGSRC_Msk; tmp |= DMAC_CHCTRLA_TRIGSRC(data); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CHCTRLA_TRIGSRC_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg &= ~DMAC_CHCTRLA_TRIGSRC(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CHCTRLA_TRIGSRC_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg ^= DMAC_CHCTRLA_TRIGSRC(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrla_reg_t hri_dmac_read_CHCTRLA_TRIGSRC_bf(const void *const hw, uint8_t submodule_index) { uint32_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_TRIGSRC_Msk) >> DMAC_CHCTRLA_TRIGSRC_Pos; return tmp; } static inline void hri_dmac_set_CHCTRLA_TRIGACT_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg |= DMAC_CHCTRLA_TRIGACT(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrla_reg_t hri_dmac_get_CHCTRLA_TRIGACT_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_TRIGACT(mask)) >> DMAC_CHCTRLA_TRIGACT_Pos; return tmp; } static inline void hri_dmac_write_CHCTRLA_TRIGACT_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg; tmp &= ~DMAC_CHCTRLA_TRIGACT_Msk; tmp |= DMAC_CHCTRLA_TRIGACT(data); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CHCTRLA_TRIGACT_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg &= ~DMAC_CHCTRLA_TRIGACT(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CHCTRLA_TRIGACT_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg ^= DMAC_CHCTRLA_TRIGACT(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrla_reg_t hri_dmac_read_CHCTRLA_TRIGACT_bf(const void *const hw, uint8_t submodule_index) { uint32_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_TRIGACT_Msk) >> DMAC_CHCTRLA_TRIGACT_Pos; return tmp; } static inline void hri_dmac_set_CHCTRLA_BURSTLEN_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg |= DMAC_CHCTRLA_BURSTLEN(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrla_reg_t hri_dmac_get_CHCTRLA_BURSTLEN_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_BURSTLEN(mask)) >> DMAC_CHCTRLA_BURSTLEN_Pos; return tmp; } static inline void hri_dmac_write_CHCTRLA_BURSTLEN_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg; tmp &= ~DMAC_CHCTRLA_BURSTLEN_Msk; tmp |= DMAC_CHCTRLA_BURSTLEN(data); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CHCTRLA_BURSTLEN_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg &= ~DMAC_CHCTRLA_BURSTLEN(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CHCTRLA_BURSTLEN_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg ^= DMAC_CHCTRLA_BURSTLEN(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrla_reg_t hri_dmac_read_CHCTRLA_BURSTLEN_bf(const void *const hw, uint8_t submodule_index) { uint32_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_BURSTLEN_Msk) >> DMAC_CHCTRLA_BURSTLEN_Pos; return tmp; } static inline void hri_dmac_set_CHCTRLA_THRESHOLD_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg |= DMAC_CHCTRLA_THRESHOLD(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrla_reg_t hri_dmac_get_CHCTRLA_THRESHOLD_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_THRESHOLD(mask)) >> DMAC_CHCTRLA_THRESHOLD_Pos; return tmp; } static inline void hri_dmac_write_CHCTRLA_THRESHOLD_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t data) { uint32_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg; tmp &= ~DMAC_CHCTRLA_THRESHOLD_Msk; tmp |= DMAC_CHCTRLA_THRESHOLD(data); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CHCTRLA_THRESHOLD_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg &= ~DMAC_CHCTRLA_THRESHOLD(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CHCTRLA_THRESHOLD_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg ^= DMAC_CHCTRLA_THRESHOLD(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrla_reg_t hri_dmac_read_CHCTRLA_THRESHOLD_bf(const void *const hw, uint8_t submodule_index) { uint32_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg; tmp = (tmp & DMAC_CHCTRLA_THRESHOLD_Msk) >> DMAC_CHCTRLA_THRESHOLD_Pos; return tmp; } static inline void hri_dmac_set_CHCTRLA_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrla_reg_t hri_dmac_get_CHCTRLA_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t mask) { uint32_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg; tmp &= mask; return tmp; } static inline void hri_dmac_write_CHCTRLA_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CHCTRLA_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CHCTRLA_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chctrla_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrla_reg_t hri_dmac_read_CHCTRLA_reg(const void *const hw, uint8_t submodule_index) { return ((Dmac *)hw)->Channel[submodule_index].CHCTRLA.reg; } static inline void hri_dmac_set_CHCTRLB_CMD_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrlb_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLB.reg |= DMAC_CHCTRLB_CMD(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrlb_reg_t hri_dmac_get_CHCTRLB_CMD_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrlb_reg_t mask) { uint8_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLB.reg; tmp = (tmp & DMAC_CHCTRLB_CMD(mask)) >> DMAC_CHCTRLB_CMD_Pos; return tmp; } static inline void hri_dmac_write_CHCTRLB_CMD_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrlb_reg_t data) { uint8_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLB.reg; tmp &= ~DMAC_CHCTRLB_CMD_Msk; tmp |= DMAC_CHCTRLB_CMD(data); ((Dmac *)hw)->Channel[submodule_index].CHCTRLB.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CHCTRLB_CMD_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrlb_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLB.reg &= ~DMAC_CHCTRLB_CMD(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CHCTRLB_CMD_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chctrlb_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLB.reg ^= DMAC_CHCTRLB_CMD(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrlb_reg_t hri_dmac_read_CHCTRLB_CMD_bf(const void *const hw, uint8_t submodule_index) { uint8_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLB.reg; tmp = (tmp & DMAC_CHCTRLB_CMD_Msk) >> DMAC_CHCTRLB_CMD_Pos; return tmp; } static inline void hri_dmac_set_CHCTRLB_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chctrlb_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLB.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrlb_reg_t hri_dmac_get_CHCTRLB_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chctrlb_reg_t mask) { uint8_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHCTRLB.reg; tmp &= mask; return tmp; } static inline void hri_dmac_write_CHCTRLB_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chctrlb_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLB.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CHCTRLB_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chctrlb_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLB.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CHCTRLB_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chctrlb_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHCTRLB.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chctrlb_reg_t hri_dmac_read_CHCTRLB_reg(const void *const hw, uint8_t submodule_index) { return ((Dmac *)hw)->Channel[submodule_index].CHCTRLB.reg; } static inline void hri_dmac_set_CHPRILVL_PRILVL_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chprilvl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHPRILVL.reg |= DMAC_CHPRILVL_PRILVL(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chprilvl_reg_t hri_dmac_get_CHPRILVL_PRILVL_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chprilvl_reg_t mask) { uint8_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHPRILVL.reg; tmp = (tmp & DMAC_CHPRILVL_PRILVL(mask)) >> DMAC_CHPRILVL_PRILVL_Pos; return tmp; } static inline void hri_dmac_write_CHPRILVL_PRILVL_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chprilvl_reg_t data) { uint8_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->Channel[submodule_index].CHPRILVL.reg; tmp &= ~DMAC_CHPRILVL_PRILVL_Msk; tmp |= DMAC_CHPRILVL_PRILVL(data); ((Dmac *)hw)->Channel[submodule_index].CHPRILVL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CHPRILVL_PRILVL_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chprilvl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHPRILVL.reg &= ~DMAC_CHPRILVL_PRILVL(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CHPRILVL_PRILVL_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chprilvl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHPRILVL.reg ^= DMAC_CHPRILVL_PRILVL(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chprilvl_reg_t hri_dmac_read_CHPRILVL_PRILVL_bf(const void *const hw, uint8_t submodule_index) { uint8_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHPRILVL.reg; tmp = (tmp & DMAC_CHPRILVL_PRILVL_Msk) >> DMAC_CHPRILVL_PRILVL_Pos; return tmp; } static inline void hri_dmac_set_CHPRILVL_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chprilvl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHPRILVL.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chprilvl_reg_t hri_dmac_get_CHPRILVL_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chprilvl_reg_t mask) { uint8_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHPRILVL.reg; tmp &= mask; return tmp; } static inline void hri_dmac_write_CHPRILVL_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chprilvl_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHPRILVL.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CHPRILVL_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chprilvl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHPRILVL.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CHPRILVL_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chprilvl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHPRILVL.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chprilvl_reg_t hri_dmac_read_CHPRILVL_reg(const void *const hw, uint8_t submodule_index) { return ((Dmac *)hw)->Channel[submodule_index].CHPRILVL.reg; } static inline void hri_dmac_set_CHEVCTRL_EVIE_bit(const void *const hw, uint8_t submodule_index) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg |= DMAC_CHEVCTRL_EVIE; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_CHEVCTRL_EVIE_bit(const void *const hw, uint8_t submodule_index) { uint8_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg; tmp = (tmp & DMAC_CHEVCTRL_EVIE) >> DMAC_CHEVCTRL_EVIE_Pos; return (bool)tmp; } static inline void hri_dmac_write_CHEVCTRL_EVIE_bit(const void *const hw, uint8_t submodule_index, bool value) { uint8_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg; tmp &= ~DMAC_CHEVCTRL_EVIE; tmp |= value << DMAC_CHEVCTRL_EVIE_Pos; ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CHEVCTRL_EVIE_bit(const void *const hw, uint8_t submodule_index) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg &= ~DMAC_CHEVCTRL_EVIE; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CHEVCTRL_EVIE_bit(const void *const hw, uint8_t submodule_index) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg ^= DMAC_CHEVCTRL_EVIE; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_CHEVCTRL_EVOE_bit(const void *const hw, uint8_t submodule_index) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg |= DMAC_CHEVCTRL_EVOE; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_CHEVCTRL_EVOE_bit(const void *const hw, uint8_t submodule_index) { uint8_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg; tmp = (tmp & DMAC_CHEVCTRL_EVOE) >> DMAC_CHEVCTRL_EVOE_Pos; return (bool)tmp; } static inline void hri_dmac_write_CHEVCTRL_EVOE_bit(const void *const hw, uint8_t submodule_index, bool value) { uint8_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg; tmp &= ~DMAC_CHEVCTRL_EVOE; tmp |= value << DMAC_CHEVCTRL_EVOE_Pos; ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CHEVCTRL_EVOE_bit(const void *const hw, uint8_t submodule_index) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg &= ~DMAC_CHEVCTRL_EVOE; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CHEVCTRL_EVOE_bit(const void *const hw, uint8_t submodule_index) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg ^= DMAC_CHEVCTRL_EVOE; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_set_CHEVCTRL_EVACT_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chevctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg |= DMAC_CHEVCTRL_EVACT(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chevctrl_reg_t hri_dmac_get_CHEVCTRL_EVACT_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chevctrl_reg_t mask) { uint8_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg; tmp = (tmp & DMAC_CHEVCTRL_EVACT(mask)) >> DMAC_CHEVCTRL_EVACT_Pos; return tmp; } static inline void hri_dmac_write_CHEVCTRL_EVACT_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chevctrl_reg_t data) { uint8_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg; tmp &= ~DMAC_CHEVCTRL_EVACT_Msk; tmp |= DMAC_CHEVCTRL_EVACT(data); ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CHEVCTRL_EVACT_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chevctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg &= ~DMAC_CHEVCTRL_EVACT(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CHEVCTRL_EVACT_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chevctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg ^= DMAC_CHEVCTRL_EVACT(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chevctrl_reg_t hri_dmac_read_CHEVCTRL_EVACT_bf(const void *const hw, uint8_t submodule_index) { uint8_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg; tmp = (tmp & DMAC_CHEVCTRL_EVACT_Msk) >> DMAC_CHEVCTRL_EVACT_Pos; return tmp; } static inline void hri_dmac_set_CHEVCTRL_EVOMODE_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chevctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg |= DMAC_CHEVCTRL_EVOMODE(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chevctrl_reg_t hri_dmac_get_CHEVCTRL_EVOMODE_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chevctrl_reg_t mask) { uint8_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg; tmp = (tmp & DMAC_CHEVCTRL_EVOMODE(mask)) >> DMAC_CHEVCTRL_EVOMODE_Pos; return tmp; } static inline void hri_dmac_write_CHEVCTRL_EVOMODE_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chevctrl_reg_t data) { uint8_t tmp; DMAC_CRITICAL_SECTION_ENTER(); tmp = ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg; tmp &= ~DMAC_CHEVCTRL_EVOMODE_Msk; tmp |= DMAC_CHEVCTRL_EVOMODE(data); ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg = tmp; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CHEVCTRL_EVOMODE_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chevctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg &= ~DMAC_CHEVCTRL_EVOMODE(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CHEVCTRL_EVOMODE_bf(const void *const hw, uint8_t submodule_index, hri_dmac_chevctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg ^= DMAC_CHEVCTRL_EVOMODE(mask); DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chevctrl_reg_t hri_dmac_read_CHEVCTRL_EVOMODE_bf(const void *const hw, uint8_t submodule_index) { uint8_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg; tmp = (tmp & DMAC_CHEVCTRL_EVOMODE_Msk) >> DMAC_CHEVCTRL_EVOMODE_Pos; return tmp; } static inline void hri_dmac_set_CHEVCTRL_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chevctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg |= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chevctrl_reg_t hri_dmac_get_CHEVCTRL_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chevctrl_reg_t mask) { uint8_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg; tmp &= mask; return tmp; } static inline void hri_dmac_write_CHEVCTRL_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chevctrl_reg_t data) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg = data; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_clear_CHEVCTRL_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chevctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg &= ~mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline void hri_dmac_toggle_CHEVCTRL_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chevctrl_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg ^= mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chevctrl_reg_t hri_dmac_read_CHEVCTRL_reg(const void *const hw, uint8_t submodule_index) { return ((Dmac *)hw)->Channel[submodule_index].CHEVCTRL.reg; } static inline bool hri_dmac_get_CHSTATUS_PEND_bit(const void *const hw, uint8_t submodule_index) { return (((Dmac *)hw)->Channel[submodule_index].CHSTATUS.reg & DMAC_CHSTATUS_PEND) >> DMAC_CHSTATUS_PEND_Pos; } static inline void hri_dmac_clear_CHSTATUS_PEND_bit(const void *const hw, uint8_t submodule_index) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHSTATUS.reg = DMAC_CHSTATUS_PEND; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_CHSTATUS_BUSY_bit(const void *const hw, uint8_t submodule_index) { return (((Dmac *)hw)->Channel[submodule_index].CHSTATUS.reg & DMAC_CHSTATUS_BUSY) >> DMAC_CHSTATUS_BUSY_Pos; } static inline void hri_dmac_clear_CHSTATUS_BUSY_bit(const void *const hw, uint8_t submodule_index) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHSTATUS.reg = DMAC_CHSTATUS_BUSY; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_CHSTATUS_FERR_bit(const void *const hw, uint8_t submodule_index) { return (((Dmac *)hw)->Channel[submodule_index].CHSTATUS.reg & DMAC_CHSTATUS_FERR) >> DMAC_CHSTATUS_FERR_Pos; } static inline void hri_dmac_clear_CHSTATUS_FERR_bit(const void *const hw, uint8_t submodule_index) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHSTATUS.reg = DMAC_CHSTATUS_FERR; DMAC_CRITICAL_SECTION_LEAVE(); } static inline bool hri_dmac_get_CHSTATUS_CRCERR_bit(const void *const hw, uint8_t submodule_index) { return (((Dmac *)hw)->Channel[submodule_index].CHSTATUS.reg & DMAC_CHSTATUS_CRCERR) >> DMAC_CHSTATUS_CRCERR_Pos; } static inline void hri_dmac_clear_CHSTATUS_CRCERR_bit(const void *const hw, uint8_t submodule_index) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHSTATUS.reg = DMAC_CHSTATUS_CRCERR; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chstatus_reg_t hri_dmac_get_CHSTATUS_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chstatus_reg_t mask) { uint8_t tmp; tmp = ((Dmac *)hw)->Channel[submodule_index].CHSTATUS.reg; tmp &= mask; return tmp; } static inline void hri_dmac_clear_CHSTATUS_reg(const void *const hw, uint8_t submodule_index, hri_dmac_chstatus_reg_t mask) { DMAC_CRITICAL_SECTION_ENTER(); ((Dmac *)hw)->Channel[submodule_index].CHSTATUS.reg = mask; DMAC_CRITICAL_SECTION_LEAVE(); } static inline hri_dmac_chstatus_reg_t hri_dmac_read_CHSTATUS_reg(const void *const hw, uint8_t submodule_index) { return ((Dmac *)hw)->Channel[submodule_index].CHSTATUS.reg; } /* Below section is for legacy hri apis name, not recommended to use below left side apis in application */ #define hri_dmacdescriptor_set_DSTADDR_CRC_reg(a, b) hri_dmacdescriptor_set_DSTADDR_reg(a, b) #define hri_dmacdescriptor_get_DSTADDR_CRC_reg(a, b) hri_dmacdescriptor_get_DSTADDR_reg(a, b) #define hri_dmacdescriptor_write_DSTADDR_CRC_reg(a, b) hri_dmacdescriptor_write_DSTADDR_reg(a, b) #define hri_dmacdescriptor_clear_DSTADDR_CRC_reg(a, b) hri_dmacdescriptor_clear_DSTADDR_reg(a, b) #define hri_dmacdescriptor_toggle_DSTADDR_CRC_reg(a, b) hri_dmacdescriptor_toggle_DSTADDR_reg(a, b) #define hri_dmacdescriptor_read_DSTADDR_CRC_reg(a) hri_dmacdescriptor_read_DSTADDR_reg(a) #ifdef __cplusplus } #endif #endif /* _HRI_DMAC_E54_H_INCLUDED */ #endif /* _SAME54_DMAC_COMPONENT_ */