/* * SPDX-FileCopyrightText: 2015-2021 Espressif Systems (Shanghai) CO LTD * * SPDX-License-Identifier: Apache-2.0 */ #ifndef _SOC_RTC_CNTL_STRUCT_H_ #define _SOC_RTC_CNTL_STRUCT_H_ #include #ifdef __cplusplus extern "C" { #endif typedef volatile struct rtc_cntl_dev_s { union { struct { uint32_t sw_stall_appcpu_c0 : 2; /*{reg_sw_stall_appcpu_c1[5:0], reg_sw_stall_appcpu_c0[1:0]} == 0x86 will stall APP CPU*/ uint32_t sw_stall_procpu_c0 : 2; /*{reg_sw_stall_procpu_c1[5:0], reg_sw_stall_procpu_c0[1:0]} == 0x86 will stall PRO CPU*/ uint32_t sw_appcpu_rst : 1; /*APP CPU SW reset*/ uint32_t sw_procpu_rst : 1; /*PRO CPU SW reset*/ uint32_t bb_i2c_force_pd : 1; /*BB_I2C force power down*/ uint32_t bb_i2c_force_pu : 1; /*BB_I2C force power up*/ uint32_t bbpll_i2c_force_pd : 1; /*BB_PLL _I2C force power down*/ uint32_t bbpll_i2c_force_pu : 1; /*BB_PLL_I2C force power up*/ uint32_t bbpll_force_pd : 1; /*BB_PLL force power down*/ uint32_t bbpll_force_pu : 1; /*BB_PLL force power up*/ uint32_t xtl_force_pd : 1; /*crystall force power down*/ uint32_t xtl_force_pu : 1; /*crystall force power up*/ uint32_t xtl_en_wait : 4; /*wait bias_sleep and current source wakeup*/ uint32_t reserved18 : 5; uint32_t xtl_force_iso : 1; uint32_t pll_force_iso : 1; uint32_t analog_force_iso : 1; uint32_t xtl_force_noiso : 1; uint32_t pll_force_noiso : 1; uint32_t analog_force_noiso : 1; uint32_t dg_wrap_force_rst : 1; /*digital wrap force reset in deep sleep*/ uint32_t dg_wrap_force_norst : 1; /*digital core force no reset in deep sleep*/ uint32_t sw_sys_rst : 1; /*SW system reset*/ }; uint32_t val; } options0; uint32_t slp_timer0; union { struct { uint32_t slp_val_hi : 16; /*RTC sleep timer high 16 bits*/ uint32_t main_timer_alarm_en : 1; /*timer alarm enable bit*/ uint32_t reserved17 : 15; }; uint32_t val; } slp_timer1; union { struct { uint32_t reserved0 : 27; uint32_t timer_sys_stall : 1; /*Enable to record system stall time*/ uint32_t timer_xtl_off : 1; /*Enable to record 40M XTAL OFF time*/ uint32_t timer_sys_rst : 1; /*enable to record system reset time*/ uint32_t reserved30 : 1; uint32_t update : 1; /*Set 1: to update register with RTC timer*/ }; uint32_t val; } time_update; uint32_t time_low0; union { struct { uint32_t rtc_timer_value0_high : 16; /*RTC timer high 16 bits*/ uint32_t reserved16 : 16; }; uint32_t val; } time_high0; union { struct { uint32_t rtc_sw_cpu_int : 1; /*rtc software interrupt to main cpu*/ uint32_t rtc_slp_reject_cause_clr : 1; /*clear rtc sleep reject cause*/ uint32_t reserved2 : 20; uint32_t apb2rtc_bridge_sel : 1; /*1: APB to RTC using bridge*/ uint32_t reserved23 : 5; uint32_t sdio_active_ind : 1; /*SDIO active indication*/ uint32_t slp_wakeup : 1; /*leep wakeup bit*/ uint32_t slp_reject : 1; /*leep reject bit*/ uint32_t sleep_en : 1; /*sleep enable bit*/ }; uint32_t val; } state0; union { struct { uint32_t cpu_stall_en : 1; /*CPU stall enable bit*/ uint32_t cpu_stall_wait : 5; /*CPU stall wait cycles in fast_clk_rtc*/ uint32_t ck8m_wait : 8; /*CK8M wait cycles in slow_clk_rtc*/ uint32_t xtl_buf_wait : 10; /*XTAL wait cycles in slow_clk_rtc*/ uint32_t pll_buf_wait : 8; /*PLL wait cycles in slow_clk_rtc*/ }; uint32_t val; } timer1; union { struct { uint32_t reserved0 : 15; uint32_t ulpcp_touch_start_wait : 9; /*wait cycles in slow_clk_rtc before ULP-coprocessor / touch controller start to work*/ uint32_t min_time_ck8m_off : 8; /*minimal cycles in slow_clk_rtc for CK8M in power down state*/ }; uint32_t val; } timer2; union { struct { uint32_t wifi_wait_timer : 9; uint32_t wifi_powerup_timer : 7; uint32_t bt_wait_timer : 9; uint32_t bt_powerup_timer : 7; }; uint32_t val; } timer3; union { struct { uint32_t rtc_wait_timer : 9; uint32_t rtc_powerup_timer : 7; uint32_t dg_wrap_wait_timer : 9; uint32_t dg_wrap_powerup_timer : 7; }; uint32_t val; } timer4; union { struct { uint32_t reserved0 : 8; uint32_t min_slp_val : 8; /*minimal sleep cycles in slow_clk_rtc*/ uint32_t reserved16 : 16; }; uint32_t val; } timer5; union { struct { uint32_t cpu_top_wait_timer : 9; uint32_t cpu_top_powerup_timer : 7; uint32_t dg_peri_wait_timer : 9; uint32_t dg_peri_powerup_timer : 7; }; uint32_t val; } timer6; union { struct { uint32_t reserved0 : 18; uint32_t i2c_reset_por_force_pd : 1; uint32_t i2c_reset_por_force_pu : 1; uint32_t glitch_rst_en : 1; uint32_t reserved21 : 1; /*PLLA force power down*/ uint32_t sar_i2c_pu : 1; /*PLLA force power up*/ uint32_t analog_top_iso_sleep : 1; /*PLLA force power down*/ uint32_t analog_top_iso_monitor : 1; /*PLLA force power up*/ uint32_t bbpll_cal_slp_start : 1; /*start BBPLL calibration during sleep*/ uint32_t pvtmon_pu : 1; /*1: PVTMON power up*/ uint32_t txrf_i2c_pu : 1; /*1: TXRF_I2C power up*/ uint32_t rfrx_pbus_pu : 1; /*1: RFRX_PBUS power up*/ uint32_t reserved29 : 1; uint32_t ckgen_i2c_pu : 1; /*1: CKGEN_I2C power up*/ uint32_t pll_i2c_pu : 1; }; uint32_t val; } ana_conf; union { struct { uint32_t reset_cause_procpu : 6; /*reset cause of PRO CPU*/ uint32_t reset_cause_appcpu : 6; /*reset cause of APP CPU*/ uint32_t appcpu_stat_vector_sel : 1; /*APP CPU state vector sel*/ uint32_t procpu_stat_vector_sel : 1; /*PRO CPU state vector sel*/ uint32_t reset_flag_procpu : 1; /*PRO CPU reset_flag*/ uint32_t reset_flag_appcpu : 1; /*APP CPU reset flag*/ uint32_t reset_flag_procpu_clr : 1; /*clear PRO CPU reset_flag*/ uint32_t reset_flag_appcpu_clr : 1; /*clear APP CPU reset flag*/ uint32_t appcpu_ocd_halt_on_reset : 1; /*APPCPU OcdHaltOnReset*/ uint32_t procpu_ocd_halt_on_reset : 1; /*PROCPU OcdHaltOnReset*/ uint32_t reset_flag_jtag_procpu : 1; uint32_t reset_flag_jtag_appcpu : 1; uint32_t reset_flag_jtag_procpu_clr : 1; uint32_t reset_flag_jtag_appcpu_clr : 1; uint32_t rtc_app_dreset_mask : 1; uint32_t rtc_pro_dreset_mask : 1; uint32_t reserved26 : 6; }; uint32_t val; } reset_state; union { struct { uint32_t reserved0 : 15; uint32_t rtc_wakeup_ena : 17; /*wakeup enable bitmap*/ }; uint32_t val; } wakeup_state; union { struct { uint32_t slp_wakeup : 1; /*enable sleep wakeup interrupt*/ uint32_t slp_reject : 1; /*enable sleep reject interrupt*/ uint32_t sdio_idle : 1; /*enable SDIO idle interrupt*/ uint32_t rtc_wdt : 1; /*enable RTC WDT interrupt*/ uint32_t rtc_touch_scan_done : 1; /*enable touch scan done interrupt*/ uint32_t rtc_ulp_cp : 1; /*enable ULP-coprocessor interrupt*/ uint32_t rtc_touch_done : 1; /*enable touch done interrupt*/ uint32_t rtc_touch_active : 1; /*enable touch active interrupt*/ uint32_t rtc_touch_inactive : 1; /*enable touch inactive interrupt*/ uint32_t rtc_brown_out : 1; /*enable brown out interrupt*/ uint32_t rtc_main_timer : 1; /*enable RTC main timer interrupt*/ uint32_t rtc_saradc1 : 1; /*enable saradc1 interrupt*/ uint32_t rtc_tsens : 1; /*enable tsens interrupt*/ uint32_t rtc_cocpu : 1; /*enable riscV cocpu interrupt*/ uint32_t rtc_saradc2 : 1; /*enable saradc2 interrupt*/ uint32_t rtc_swd : 1; /*enable super watch dog interrupt*/ uint32_t rtc_xtal32k_dead : 1; /*enable xtal32k_dead interrupt*/ uint32_t rtc_cocpu_trap : 1; /*enable cocpu trap interrupt*/ uint32_t rtc_touch_timeout : 1; /*enable touch timeout interrupt*/ uint32_t rtc_glitch_det : 1; /*enbale gitch det interrupt*/ uint32_t rtc_touch_approach_loop_done : 1; uint32_t reserved21 : 11; }; uint32_t val; } int_ena; union { struct { uint32_t slp_wakeup : 1; /*sleep wakeup interrupt raw*/ uint32_t slp_reject : 1; /*sleep reject interrupt raw*/ uint32_t sdio_idle : 1; /*SDIO idle interrupt raw*/ uint32_t rtc_wdt : 1; /*RTC WDT interrupt raw*/ uint32_t rtc_touch_scan_done : 1; uint32_t rtc_ulp_cp : 1; /*ULP-coprocessor interrupt raw*/ uint32_t rtc_touch_done : 1; /*touch interrupt raw*/ uint32_t rtc_touch_active : 1; /*touch active interrupt raw*/ uint32_t rtc_touch_inactive : 1; /*touch inactive interrupt raw*/ uint32_t rtc_brown_out : 1; /*brown out interrupt raw*/ uint32_t rtc_main_timer : 1; /*RTC main timer interrupt raw*/ uint32_t rtc_saradc1 : 1; /*saradc1 interrupt raw*/ uint32_t rtc_tsens : 1; /*tsens interrupt raw*/ uint32_t rtc_cocpu : 1; /*riscV cocpu interrupt raw*/ uint32_t rtc_saradc2 : 1; /*saradc2 interrupt raw*/ uint32_t rtc_swd : 1; /*super watch dog interrupt raw*/ uint32_t rtc_xtal32k_dead : 1; /*xtal32k dead detection interrupt raw*/ uint32_t rtc_cocpu_trap : 1; /*cocpu trap interrupt raw*/ uint32_t rtc_touch_timeout : 1; /*touch timeout interrupt raw*/ uint32_t rtc_glitch_det : 1; /*glitch_det_interrupt_raw*/ uint32_t rtc_touch_approach_loop_done : 1; uint32_t reserved21 : 11; }; uint32_t val; } int_raw; union { struct { uint32_t slp_wakeup : 1; /*sleep wakeup interrupt state*/ uint32_t slp_reject : 1; /*sleep reject interrupt state*/ uint32_t sdio_idle : 1; /*SDIO idle interrupt state*/ uint32_t rtc_wdt : 1; /*RTC WDT interrupt state*/ uint32_t rtc_touch_scan_done : 1; uint32_t rtc_ulp_cp : 1; /*ULP-coprocessor interrupt state*/ uint32_t rtc_touch_done : 1; /*touch done interrupt state*/ uint32_t rtc_touch_active : 1; /*touch active interrupt state*/ uint32_t rtc_touch_inactive : 1; /*touch inactive interrupt state*/ uint32_t rtc_brown_out : 1; /*brown out interrupt state*/ uint32_t rtc_main_timer : 1; /*RTC main timer interrupt state*/ uint32_t rtc_saradc1 : 1; /*saradc1 interrupt state*/ uint32_t rtc_tsens : 1; /*tsens interrupt state*/ uint32_t rtc_cocpu : 1; /*riscV cocpu interrupt state*/ uint32_t rtc_saradc2 : 1; /*saradc2 interrupt state*/ uint32_t rtc_swd : 1; /*super watch dog interrupt state*/ uint32_t rtc_xtal32k_dead : 1; /*xtal32k dead detection interrupt state*/ uint32_t rtc_cocpu_trap : 1; /*cocpu trap interrupt state*/ uint32_t rtc_touch_timeout : 1; /*Touch timeout interrupt state*/ uint32_t rtc_glitch_det : 1; /*glitch_det_interrupt state*/ uint32_t rtc_touch_approach_loop_done : 1; uint32_t reserved21 : 11; }; uint32_t val; } int_st; union { struct { uint32_t slp_wakeup : 1; /*Clear sleep wakeup interrupt state*/ uint32_t slp_reject : 1; /*Clear sleep reject interrupt state*/ uint32_t sdio_idle : 1; /*Clear SDIO idle interrupt state*/ uint32_t rtc_wdt : 1; /*Clear RTC WDT interrupt state*/ uint32_t rtc_touch_scan_done : 1; uint32_t rtc_ulp_cp : 1; /*Clear ULP-coprocessor interrupt state*/ uint32_t rtc_touch_done : 1; /*Clear touch done interrupt state*/ uint32_t rtc_touch_active : 1; /*Clear touch active interrupt state*/ uint32_t rtc_touch_inactive : 1; /*Clear touch inactive interrupt state*/ uint32_t rtc_brown_out : 1; /*Clear brown out interrupt state*/ uint32_t rtc_main_timer : 1; /*Clear RTC main timer interrupt state*/ uint32_t rtc_saradc1 : 1; /*Clear saradc1 interrupt state*/ uint32_t rtc_tsens : 1; /*Clear tsens interrupt state*/ uint32_t rtc_cocpu : 1; /*Clear riscV cocpu interrupt state*/ uint32_t rtc_saradc2 : 1; /*Clear saradc2 interrupt state*/ uint32_t rtc_swd : 1; /*Clear super watch dog interrupt state*/ uint32_t rtc_xtal32k_dead : 1; /*Clear RTC WDT interrupt state*/ uint32_t rtc_cocpu_trap : 1; /*Clear cocpu trap interrupt state*/ uint32_t rtc_touch_timeout : 1; /*Clear touch timeout interrupt state*/ uint32_t rtc_glitch_det : 1; /*Clear glitch det interrupt state*/ uint32_t rtc_touch_approach_loop_done : 1; uint32_t reserved21 : 11; }; uint32_t val; } int_clr; uint32_t store[4]; union { struct { uint32_t xtal32k_wdt_en : 1; /*xtal 32k watch dog enable*/ uint32_t xtal32k_wdt_clk_fo : 1; /*xtal 32k watch dog clock force on*/ uint32_t xtal32k_wdt_reset : 1; /*xtal 32k watch dog sw reset*/ uint32_t xtal32k_ext_clk_fo : 1; /*xtal 32k external xtal clock force on*/ uint32_t xtal32k_auto_backup : 1; /*xtal 32k switch to back up clock when xtal is dead*/ uint32_t xtal32k_auto_restart : 1; /*xtal 32k restart xtal when xtal is dead*/ uint32_t xtal32k_auto_return : 1; /*xtal 32k switch back xtal when xtal is restarted*/ uint32_t xtal32k_xpd_force : 1; /*Xtal 32k xpd control by sw or fsm*/ uint32_t enckinit_xtal_32k : 1; /*apply an internal clock to help xtal 32k to start*/ uint32_t dbuf_xtal_32k : 1; /*0: single-end buffer 1: differential buffer*/ uint32_t dgm_xtal_32k : 3; /*xtal_32k gm control*/ uint32_t dres_xtal_32k : 3; /*DRES_XTAL_32K*/ uint32_t xpd_xtal_32k : 1; /*XPD_XTAL_32K*/ uint32_t dac_xtal_32k : 3; /*DAC_XTAL_32K*/ uint32_t rtc_wdt_state : 3; /*state of 32k_wdt*/ uint32_t rtc_xtal32k_gpio_sel : 1; /*XTAL_32K sel. 0: external XTAL_32K*/ uint32_t reserved24 : 6; uint32_t ctr_lv : 1; /*0: power down XTAL at high level*/ uint32_t ctr_en : 1; }; uint32_t val; } ext_xtl_conf; union { struct { uint32_t reserved0 : 29; uint32_t gpio_wakeup_filter : 1; /*enable filter for gpio wakeup event*/ uint32_t ext_wakeup0_lv : 1; /*0: external wakeup at low level*/ uint32_t ext_wakeup1_lv : 1; }; uint32_t val; } ext_wakeup_conf; union { struct { uint32_t reserved0 : 12; uint32_t rtc_sleep_reject_ena : 18; /*sleep reject enable*/ uint32_t light_slp_reject_en : 1; /*enable reject for light sleep*/ uint32_t deep_slp_reject_en : 1; /*enable reject for deep sleep*/ }; uint32_t val; } slp_reject_conf; union { struct { uint32_t reserved0 : 29; uint32_t cpusel_conf : 1; /*CPU sel option*/ uint32_t cpuperiod_sel : 2; }; uint32_t val; } cpu_period_conf; union { struct { uint32_t reserved0 : 22; uint32_t sdio_act_dnum : 10; }; uint32_t val; } sdio_act_conf; union { struct { uint32_t reserved0 : 1; uint32_t efuse_clk_force_gating : 1; uint32_t efuse_clk_force_nogating : 1; uint32_t ck8m_div_sel_vld : 1; /*used to sync reg_ck8m_div_sel bus. Clear vld before set reg_ck8m_div_sel*/ uint32_t ck8m_div : 2; /*CK8M_D256_OUT divider. 00: div128*/ uint32_t enb_ck8m : 1; /*disable CK8M and CK8M_D256_OUT*/ uint32_t enb_ck8m_div : 1; /*1: CK8M_D256_OUT is actually CK8M*/ uint32_t dig_xtal32k_en : 1; /*enable CK_XTAL_32K for digital core (no relationship with RTC core)*/ uint32_t dig_clk8m_d256_en : 1; /*enable CK8M_D256_OUT for digital core (no relationship with RTC core)*/ uint32_t dig_clk8m_en : 1; /*enable CK8M for digital core (no relationship with RTC core)*/ uint32_t reserved11 : 1; uint32_t ck8m_div_sel : 3; /*divider = reg_ck8m_div_sel + 1*/ uint32_t xtal_force_nogating : 1; /*XTAL force no gating during sleep*/ uint32_t ck8m_force_nogating : 1; /*CK8M force no gating during sleep*/ uint32_t ck8m_dfreq : 8; /*CK8M_DFREQ*/ uint32_t ck8m_force_pd : 1; /*CK8M force power down*/ uint32_t ck8m_force_pu : 1; /*CK8M force power up*/ uint32_t xtal_global_force_gating : 1; uint32_t xtal_global_force_nogating : 1; uint32_t fast_clk_rtc_sel : 1; /*fast_clk_rtc sel. 0: XTAL div 4*/ uint32_t ana_clk_rtc_sel : 2; }; uint32_t val; } clk_conf; union { struct { uint32_t reserved0 : 22; uint32_t rtc_ana_clk_div_vld : 1; /*used to sync div bus. clear vld before set reg_rtc_ana_clk_div*/ uint32_t rtc_ana_clk_div : 8; uint32_t slow_clk_next_edge : 1; }; uint32_t val; } slow_clk_conf; union { struct { uint32_t sdio_timer_target : 8; /*timer count to apply reg_sdio_dcap after sdio power on*/ uint32_t reserved8 : 1; uint32_t sdio_dthdrv : 2; /*Tieh = 1 mode drive ability. Initially set to 0 to limit charge current*/ uint32_t sdio_dcap : 2; /*ability to prevent LDO from overshoot*/ uint32_t sdio_initi : 2; /*add resistor from ldo output to ground. 0: no res*/ uint32_t sdio_en_initi : 1; /*0 to set init[1:0]=0*/ uint32_t sdio_dcurlim : 3; /*tune current limit threshold when tieh = 0. About 800mA/(8+d)*/ uint32_t sdio_modecurlim : 1; /*select current limit mode*/ uint32_t sdio_encurlim : 1; /*enable current limit*/ uint32_t sdio_pd_en : 1; /*power down SDIO_REG in sleep. Only active when reg_sdio_force = 0*/ uint32_t sdio_force : 1; /*1: use SW option to control SDIO_REG*/ uint32_t sdio_tieh : 1; /*SW option for SDIO_TIEH. Only active when reg_sdio_force = 1*/ uint32_t reg1p8_ready : 1; /*read only register for REG1P8_READY*/ uint32_t drefl_sdio : 2; /*SW option for DREFL_SDIO. Only active when reg_sdio_force = 1*/ uint32_t drefm_sdio : 2; /*SW option for DREFM_SDIO. Only active when reg_sdio_force = 1*/ uint32_t drefh_sdio : 2; /*SW option for DREFH_SDIO. Only active when reg_sdio_force = 1*/ uint32_t xpd_sdio : 1; }; uint32_t val; } sdio_conf; union { struct { uint32_t reserved0 : 10; uint32_t bias_buf_idle : 1; uint32_t bias_buf_wake : 1; uint32_t bias_buf_deep_slp : 1; uint32_t bias_buf_monitor : 1; uint32_t pd_cur_deep_slp : 1; /*xpd cur when rtc in sleep_state*/ uint32_t pd_cur_monitor : 1; /*xpd cur when rtc in monitor state*/ uint32_t bias_sleep_deep_slp : 1; /*bias_sleep when rtc in sleep_state*/ uint32_t bias_sleep_monitor : 1; /*bias_sleep when rtc in monitor state*/ uint32_t dbg_atten_deep_slp : 4; /*DBG_ATTEN when rtc in sleep state*/ uint32_t dbg_atten_monitor : 4; /*DBG_ATTEN when rtc in monitor state*/ uint32_t dbg_atten_wakeup : 4; uint32_t reserved30 : 2; }; uint32_t val; } bias_conf; union { struct { uint32_t reserved0 : 7; uint32_t dig_cal_en : 1; uint32_t reserved8 : 6; uint32_t sck_dcap : 8; /*SCK_DCAP*/ uint32_t reserved22 : 6; uint32_t rtc_dboost_force_pd : 1; /*RTC_DBOOST force power down*/ uint32_t rtc_dboost_force_pu : 1; /*RTC_DBOOST force power up*/ uint32_t rtculator_force_pd : 1; /*RTC_REG force power down (for RTC_REG power down means decrease the voltage to 0.8v or lower )*/ uint32_t rtculator_force_pu : 1; }; uint32_t val; } rtc; union { struct { uint32_t rtc_fastmem_force_noiso : 1; /*Fast RTC memory force no ISO*/ uint32_t rtc_fastmem_force_iso : 1; /*Fast RTC memory force ISO*/ uint32_t rtc_slowmem_force_noiso : 1; /*RTC memory force no ISO*/ uint32_t rtc_slowmem_force_iso : 1; /*RTC memory force ISO*/ uint32_t rtc_force_iso : 1; /*rtc_peri force ISO*/ uint32_t rtc_force_noiso : 1; /*rtc_peri force no ISO*/ uint32_t rtc_fastmem_folw_cpu : 1; /*1: Fast RTC memory PD following CPU*/ uint32_t fastmem_force_lpd : 1; /*Fast RTC memory force PD*/ uint32_t fastmem_force_lpu : 1; /*Fast RTC memory force no PD*/ uint32_t rtc_slowmem_folw_cpu : 1; /*1: RTC memory PD following CPU*/ uint32_t rtc_slowmem_force_lpd : 1; /*RTC memory force PD*/ uint32_t rtc_slowmem_force_lpu : 1; /*RTC memory force no PD*/ uint32_t reserved12 : 6; /*enable power down RTC memory in sleep*/ uint32_t rtc_force_pd : 1; /*rtc_peri force power down*/ uint32_t rtc_force_pu : 1; /*rtc_peri force power up*/ uint32_t rtc_pd_en : 1; /*enable power down rtc_peri in sleep */ uint32_t rtc_pad_force_hold : 1; /*rtc pad force hold*/ uint32_t reserved22 : 10; }; uint32_t val; } pwc; union { struct { uint32_t rtculator_drv_b_monitor : 6; uint32_t rtculator_drv_b_slp : 6; uint32_t dg_vdd_drv_b_slp : 8; uint32_t dg_vdd_drv_b_monitor : 8; uint32_t reserved28 : 4; }; uint32_t val; } regulator_drv_ctrl; union { struct { uint32_t reserved0 : 3; uint32_t lslp_mem_force_pd : 1; /*memories in digital core force PD in sleep*/ uint32_t lslp_mem_force_pu : 1; /*memories in digital core force no PD in sleep*/ uint32_t reserved5 : 6; /*internal SRAM 1 force power up*/ uint32_t bt_force_pd : 1; /*internal SRAM 2 force power down*/ uint32_t bt_force_pu : 1; /*internal SRAM 2 force power up*/ uint32_t dg_peri_force_pd : 1; /*internal SRAM 3 force power down*/ uint32_t dg_peri_force_pu : 1; /*internal SRAM 3 force power up*/ uint32_t reserved15 : 2; /*internal SRAM 4 force power up*/ uint32_t wifi_force_pd : 1; /*wifi force power down*/ uint32_t wifi_force_pu : 1; /*wifi force power up*/ uint32_t dg_wrap_force_pd : 1; /*digital core force power down*/ uint32_t dg_wrap_force_pu : 1; /*digital core force power up*/ uint32_t cpu_top_force_pd : 1; /*digital dcdc force power down*/ uint32_t cpu_top_force_pu : 1; /*digital dcdc force power up*/ uint32_t reserved23 : 4; /*enable power down internal SRAM 1 in sleep*/ uint32_t bt_pd_en : 1; /*enable power down internal SRAM 2 in sleep*/ uint32_t dg_peri_pd_en : 1; /*enable power down internal SRAM 3 in sleep*/ uint32_t cpu_top_pd_en : 1; /*enable power down internal SRAM 4 in sleep*/ uint32_t wifi_pd_en : 1; /*enable power down wifi in sleep*/ uint32_t dg_wrap_pd_en : 1; }; uint32_t val; } dig_pwc; union { struct { uint32_t reserved0 : 7; uint32_t dig_iso_force_off : 1; uint32_t dig_iso_force_on : 1; uint32_t dg_pad_autohold : 1; /*read only register to indicate digital pad auto-hold status*/ uint32_t clr_dg_pad_autohold : 1; /*wtite only register to clear digital pad auto-hold*/ uint32_t dg_pad_autohold_en : 1; /*digital pad enable auto-hold*/ uint32_t dg_pad_force_noiso : 1; /*digital pad force no ISO*/ uint32_t dg_pad_force_iso : 1; /*digital pad force ISO*/ uint32_t dg_pad_force_unhold : 1; /*digital pad force un-hold*/ uint32_t dg_pad_force_hold : 1; /*digital pad force hold*/ uint32_t reserved16 : 6; /*internal SRAM 1 force no ISO*/ uint32_t bt_force_iso : 1; /*internal SRAM 2 force ISO*/ uint32_t bt_force_noiso : 1; /*internal SRAM 2 force no ISO*/ uint32_t dg_peri_force_iso : 1; /*internal SRAM 3 force ISO*/ uint32_t dg_peri_force_noiso : 1; /*internal SRAM 3 force no ISO*/ uint32_t cpu_top_force_iso : 1; /*internal SRAM 4 force ISO*/ uint32_t cpu_top_force_noiso : 1; /*internal SRAM 4 force no ISO*/ uint32_t wifi_force_iso : 1; /*wifi force ISO*/ uint32_t wifi_force_noiso : 1; /*wifi force no ISO*/ uint32_t dg_wrap_force_iso : 1; /*digital core force ISO*/ uint32_t dg_wrap_force_noiso : 1; }; uint32_t val; } dig_iso; union { struct { uint32_t chip_reset_width : 8; /*chip reset siginal pulse width*/ uint32_t chip_reset_en : 1; /*wdt reset whole chip enable*/ uint32_t pause_in_slp : 1; /*pause WDT in sleep*/ uint32_t appcpu_reset_en : 1; /*enable WDT reset APP CPU*/ uint32_t procpu_reset_en : 1; /*enable WDT reset PRO CPU*/ uint32_t flashboot_mod_en : 1; /*enable WDT in flash boot*/ uint32_t sys_reset_length : 3; /*system reset counter length*/ uint32_t cpu_reset_length : 3; /*CPU reset counter length*/ uint32_t stg3 : 3; /*1: interrupt stage en*/ uint32_t stg2 : 3; /*1: interrupt stage en*/ uint32_t stg1 : 3; /*1: interrupt stage en*/ uint32_t stg0 : 3; /*1: interrupt stage en*/ uint32_t en : 1; }; uint32_t val; } wdt_config0; uint32_t wdt_config1; uint32_t wdt_config2; uint32_t wdt_config3; uint32_t wdt_config4; union { struct { uint32_t reserved0 : 31; uint32_t feed : 1; }; uint32_t val; } wdt_feed; uint32_t wdt_wprotect; union { struct { uint32_t swd_reset_flag : 1; /*swd reset flag*/ uint32_t swd_feed_int : 1; /*swd interrupt for feeding*/ uint32_t reserved2 : 15; uint32_t swd_bypass_rst : 1; uint32_t swd_signal_width : 10; /*adjust signal width send to swd*/ uint32_t swd_rst_flag_clr : 1; /*reset swd reset flag*/ uint32_t swd_feed : 1; /*Sw feed swd*/ uint32_t swd_disable : 1; /*disabel SWD*/ uint32_t swd_auto_feed_en : 1; /*automatically feed swd when int comes*/ }; uint32_t val; } swd_conf; uint32_t swd_wprotect; union { struct { uint32_t reserved0 : 20; uint32_t appcpu_c1 : 6; /*{reg_sw_stall_appcpu_c1[5:0]*/ uint32_t procpu_c1 : 6; }; uint32_t val; } sw_cpu_stall; uint32_t store4; uint32_t store5; uint32_t store6; uint32_t store7; union { struct { uint32_t xpd_rom0 : 1; /*rom0 power down*/ uint32_t reserved1 : 1; uint32_t xpd_dig_dcdc : 1; /*External DCDC power down*/ uint32_t rtc_peri_iso : 1; /*rtc peripheral iso*/ uint32_t xpd_rtc_peri : 1; /*rtc peripheral power down */ uint32_t wifi_iso : 1; /*wifi iso*/ uint32_t xpd_wifi : 1; /*wifi wrap power down*/ uint32_t dig_iso : 1; /*digital wrap iso*/ uint32_t xpd_dig : 1; /*digital wrap power down*/ uint32_t rtc_touch_state_start : 1; /*touch should start to work*/ uint32_t rtc_touch_state_switch : 1; /*touch is about to working. Switch rtc main state*/ uint32_t rtc_touch_state_slp : 1; /*touch is in sleep state*/ uint32_t rtc_touch_state_done : 1; /*touch is done*/ uint32_t rtc_cocpu_state_start : 1; /*ulp/cocpu should start to work*/ uint32_t rtc_cocpu_state_switch : 1; /*ulp/cocpu is about to working. Switch rtc main state*/ uint32_t rtc_cocpu_state_slp : 1; /*ulp/cocpu is in sleep state*/ uint32_t rtc_cocpu_state_done : 1; /*ulp/cocpu is done*/ uint32_t rtc_main_state_xtal_iso : 1; /*no use any more*/ uint32_t rtc_main_state_pll_on : 1; /*rtc main state machine is in states that pll should be running*/ uint32_t rtc_rdy_for_wakeup : 1; /*rtc is ready to receive wake up trigger from wake up source*/ uint32_t rtc_main_state_wait_end : 1; /*rtc main state machine has been waited for some cycles*/ uint32_t rtc_in_wakeup_state : 1; /*rtc main state machine is in the states of wakeup process*/ uint32_t rtc_in_low_power_state : 1; /*rtc main state machine is in the states of low power*/ uint32_t rtc_main_state_in_wait_8m : 1; /*rtc main state machine is in wait 8m state*/ uint32_t rtc_main_state_in_wait_pll : 1; /*rtc main state machine is in wait pll state*/ uint32_t rtc_main_state_in_wait_xtl : 1; /*rtc main state machine is in wait xtal state*/ uint32_t rtc_main_state_in_slp : 1; /*rtc main state machine is in sleep state*/ uint32_t rtc_main_state_in_idle : 1; /*rtc main state machine is in idle state*/ uint32_t rtc_main_state : 4; /*rtc main state machine status*/ }; uint32_t val; } low_power_st; uint32_t diag0; union { struct { uint32_t touch_pad0_hold : 1; uint32_t touch_pad1_hold : 1; uint32_t touch_pad2_hold : 1; uint32_t touch_pad3_hold : 1; uint32_t touch_pad4_hold : 1; uint32_t touch_pad5_hold : 1; uint32_t touch_pad6_hold : 1; uint32_t touch_pad7_hold : 1; uint32_t touch_pad8_hold : 1; uint32_t touch_pad9_hold : 1; uint32_t touch_pad10_hold : 1; uint32_t touch_pad11_hold : 1; uint32_t touch_pad12_hold : 1; uint32_t touch_pad13_hold : 1; uint32_t touch_pad14_hold : 1; uint32_t x32p_hold : 1; uint32_t x32n_hold : 1; uint32_t pdac1_hold : 1; uint32_t pdac2_hold : 1; uint32_t rtc_pad19_hold : 1; uint32_t rtc_pad20_hold : 1; uint32_t rtc_pad21_hold : 1; uint32_t reserved22 : 10; }; uint32_t val; } pad_hold; uint32_t dig_pad_hold; union { struct { uint32_t ext_wakeup1_sel : 22; /*Bitmap to select RTC pads for ext wakeup1*/ uint32_t ext_wakeup1_status_clr : 1; /*clear ext wakeup1 status*/ uint32_t reserved23 : 9; }; uint32_t val; } ext_wakeup1; union { struct { uint32_t ext_wakeup1_status : 22; /*ext wakeup1 status*/ uint32_t reserved22 : 10; }; uint32_t val; } ext_wakeup1_status; union { struct { uint32_t reserved0 : 4; uint32_t int_wait : 10; /*brown out interrupt wait cycles*/ uint32_t close_flash_ena : 1; /*enable close flash when brown out happens*/ uint32_t pd_rf_ena : 1; /*enable power down RF when brown out happens*/ uint32_t rst_wait : 10; /*brown out reset wait cycles*/ uint32_t rst_ena : 1; /*enable brown out reset*/ uint32_t rst_sel : 1; /*1: 4-pos reset*/ uint32_t ana_rst_en : 1; uint32_t cnt_clr : 1; /*clear brown out counter*/ uint32_t ena : 1; /*enable brown out*/ uint32_t det : 1; }; uint32_t val; } brown_out; uint32_t time_low1; union { struct { uint32_t rtc_timer_value1_high : 16; /*RTC timer high 16 bits*/ uint32_t reserved16 : 16; }; uint32_t val; } time_high1; uint32_t xtal32k_clk_factor; union { struct { uint32_t xtal32k_return_wait : 4; /*cycles to wait to return noral xtal 32k*/ uint32_t xtal32k_restart_wait : 16; /*cycles to wait to repower on xtal 32k*/ uint32_t xtal32k_wdt_timeout : 8; /*If no clock detected for this amount of time*/ uint32_t xtal32k_stable_thres : 4; /*if restarted xtal32k period is smaller than this*/ }; uint32_t val; } xtal32k_conf; union { struct { uint32_t ulp_cp_pc_init : 11; /*ULP-coprocessor PC initial address*/ uint32_t reserved11 : 18; uint32_t ulp_cp_gpio_wakeup_ena : 1; /*ULP-coprocessor wakeup by GPIO enable*/ uint32_t ulp_cp_gpio_wakeup_clr : 1; /*ULP-coprocessor wakeup by GPIO state clear*/ uint32_t ulp_cp_slp_timer_en : 1; /*ULP-coprocessor timer enable bit*/ }; uint32_t val; } ulp_cp_timer; union { struct { uint32_t ulp_cp_mem_addr_init : 11; uint32_t ulp_cp_mem_addr_size : 11; uint32_t ulp_cp_mem_offst_clr : 1; uint32_t reserved23 : 5; uint32_t ulp_cp_clk_fo : 1; /*ulp coprocessor clk force on*/ uint32_t ulp_cp_reset : 1; /*ulp coprocessor clk software reset*/ uint32_t ulp_cp_force_start_top : 1; /*1: ULP-coprocessor is started by SW*/ uint32_t ulp_cp_start_top : 1; /*Write 1 to start ULP-coprocessor*/ }; uint32_t val; } ulp_cp_ctrl; union { struct { uint32_t cocpu_clk_fo : 1; /*cocpu clk force on*/ uint32_t cocpu_start_2_reset_dis : 6; /*time from start cocpu to pull down reset*/ uint32_t cocpu_start_2_intr_en : 6; /*time from start cocpu to give start interrupt*/ uint32_t cocpu_shut : 1; /*to shut cocpu*/ uint32_t cocpu_shut_2_clk_dis : 8; /*time from shut cocpu to disable clk*/ uint32_t cocpu_shut_reset_en : 1; /*to reset cocpu*/ uint32_t cocpu_sel : 1; /*1: old ULP 0: new riscV*/ uint32_t cocpu_done_force : 1; /*1: select riscv done 0: select ulp done*/ uint32_t cocpu_done : 1; /*done signal used by riscv to control timer. */ uint32_t cocpu_sw_int_trigger : 1; /*trigger cocpu register interrupt*/ uint32_t cocpu_clkgate_en : 1; uint32_t reserved28 : 4; }; uint32_t val; } cocpu_ctrl; union { struct { uint32_t touch_sleep_cycles : 16; /*sleep cycles for timer*/ uint32_t touch_meas_num : 16; /*the meas length (in 8MHz)*/ }; uint32_t val; } touch_ctrl1; union { struct { uint32_t reserved0 : 2; uint32_t touch_drange : 2; /*TOUCH_DRANGE*/ uint32_t touch_drefl : 2; /*TOUCH_DREFL*/ uint32_t touch_drefh : 2; /*TOUCH_DREFH*/ uint32_t touch_xpd_bias : 1; /*TOUCH_XPD_BIAS*/ uint32_t touch_refc : 3; /*TOUCH pad0 reference cap*/ uint32_t touch_dbias : 1; /*1:use self bias 0:use bandgap bias*/ uint32_t touch_slp_timer_en : 1; /*touch timer enable bit*/ uint32_t touch_start_fsm_en : 1; /*1: TOUCH_START & TOUCH_XPD is controlled by touch fsm*/ uint32_t touch_start_en : 1; /*1: start touch fsm*/ uint32_t touch_start_force : 1; /*1: to start touch fsm by SW*/ uint32_t touch_xpd_wait : 8; /*the waiting cycles (in 8MHz) between TOUCH_START and TOUCH_XPD*/ uint32_t touch_slp_cyc_div : 2; /*when a touch pad is active*/ uint32_t touch_timer_force_done : 2; /*force touch timer done*/ uint32_t touch_reset : 1; /*reset upgrade touch*/ uint32_t touch_clk_fo : 1; /*touch clock force on*/ uint32_t touch_clkgate_en : 1; /*touch clock enable*/ }; uint32_t val; } touch_ctrl2; union { struct { uint32_t touch_denoise_res : 2; /*De-noise resolution: 12/10/8/4 bit*/ uint32_t touch_denoise_en : 1; /*touch pad0 will be used to de-noise*/ uint32_t reserved3 : 5; uint32_t touch_inactive_connection : 1; /*inactive touch pads connect to 1: gnd 0: HighZ*/ uint32_t touch_shield_pad_en : 1; /*touch pad14 will be used as shield*/ uint32_t touch_scan_pad_map : 15; /*touch scan mode pad enable map*/ uint32_t touch_bufdrv : 3; /*touch7 buffer driver strength*/ uint32_t touch_out_ring : 4; /*select out ring pad*/ }; uint32_t val; } touch_scan_ctrl; union { struct { uint32_t touch_slp_th : 22; /*the threshold for sleep touch pad*/ uint32_t reserved22 : 4; uint32_t touch_slp_approach_en : 1; /*sleep pad approach function enable*/ uint32_t touch_slp_pad : 5; /* */ }; uint32_t val; } touch_slp_thres; union { struct { uint32_t reserved0 : 23; uint32_t touch_slp_channel_clr : 1; /*clear touch slp channel*/ uint32_t touch_approach_meas_time : 8; /*approach pads total meas times*/ }; uint32_t val; } touch_approach; union { struct { uint32_t reserved0 : 7; uint32_t touch_bypass_neg_noise_thres : 1; uint32_t touch_bypass_noise_thres : 1; uint32_t touch_smooth_lvl : 2; uint32_t touch_jitter_step : 4; /*touch jitter step*/ uint32_t config1: 4; uint32_t config2: 2; uint32_t touch_noise_thres : 2; uint32_t config3: 2; uint32_t touch_debounce : 3; /*debounce counter*/ uint32_t touch_filter_mode : 3; /*0: IIR ? 1: IIR ? 2: IIR 1/8 3: Jitter*/ uint32_t touch_filter_en : 1; /*touch filter enable*/ }; uint32_t val; } touch_filter_ctrl; union { struct { uint32_t usb_vrefh : 2; uint32_t usb_vrefl : 2; uint32_t usb_vref_override : 1; uint32_t usb_pad_pull_override : 1; uint32_t usb_dp_pullup : 1; uint32_t usb_dp_pulldown : 1; uint32_t usb_dm_pullup : 1; uint32_t usb_dm_pulldown : 1; uint32_t usb_pullup_value : 1; uint32_t usb_pad_enable_override : 1; uint32_t usb_pad_enable : 1; uint32_t usb_txm : 1; uint32_t usb_txp : 1; uint32_t usb_tx_en : 1; uint32_t usb_tx_en_override : 1; uint32_t usb_reset_disable : 1; uint32_t io_mux_reset_disable : 1; uint32_t sw_usb_phy_sel : 1; uint32_t sw_hw_usb_phy_sel : 1; uint32_t reserved21 : 11; }; uint32_t val; } usb_conf; union { struct { uint32_t touch_timeout_num : 22; uint32_t touch_timeout_en : 1; uint32_t reserved23 : 9; }; uint32_t val; } touch_timeout_ctrl; union { struct { uint32_t reject_cause : 18; /*sleep reject cause*/ uint32_t reserved18 : 14; }; uint32_t val; } slp_reject_cause; union { struct { uint32_t force_download_boot : 1; uint32_t reserved1 : 31; }; uint32_t val; } option1; union { struct { uint32_t wakeup_cause : 17; /*sleep wakeup cause*/ uint32_t reserved17 : 15; }; uint32_t val; } slp_wakeup_cause; union { struct { uint32_t reserved0 : 8; uint32_t ulp_cp_timer_slp_cycle : 24; /*sleep cycles for ULP-coprocessor timer*/ }; uint32_t val; } ulp_cp_timer_1; union { struct { uint32_t slp_wakeup_w1ts : 1; /*enable sleep wakeup interrupt*/ uint32_t slp_reject_w1ts : 1; /*enable sleep reject interrupt*/ uint32_t sdio_idle_w1ts : 1; /*enable SDIO idle interrupt*/ uint32_t rtc_wdt_w1ts : 1; /*enable RTC WDT interrupt*/ uint32_t rtc_touch_scan_done_w1ts : 1; /*enable touch scan done interrupt*/ uint32_t rtc_ulp_cp_w1ts : 1; /*enable ULP-coprocessor interrupt*/ uint32_t rtc_touch_done_w1ts : 1; /*enable touch done interrupt*/ uint32_t rtc_touch_active_w1ts : 1; /*enable touch active interrupt*/ uint32_t rtc_touch_inactive_w1ts : 1; /*enable touch inactive interrupt*/ uint32_t w1ts : 1; /*enable brown out interrupt*/ uint32_t rtc_main_timer_w1ts : 1; /*enable RTC main timer interrupt*/ uint32_t rtc_saradc1_w1ts : 1; /*enable saradc1 interrupt*/ uint32_t rtc_tsens_w1ts : 1; /*enable tsens interrupt*/ uint32_t rtc_cocpu_w1ts : 1; /*enable riscV cocpu interrupt*/ uint32_t rtc_saradc2_w1ts : 1; /*enable saradc2 interrupt*/ uint32_t rtc_swd_w1ts : 1; /*enable super watch dog interrupt*/ uint32_t rtc_xtal32k_dead_w1ts : 1; /*enable xtal32k_dead interrupt*/ uint32_t rtc_cocpu_trap_w1ts : 1; /*enable cocpu trap interrupt*/ uint32_t rtc_touch_timeout_w1ts : 1; /*enable touch timeout interrupt*/ uint32_t rtc_glitch_det_w1ts : 1; /*enbale gitch det interrupt*/ uint32_t rtc_touch_approach_loop_done_w1ts: 1; uint32_t reserved21 : 11; }; uint32_t val; } int_ena_w1ts; union { struct { uint32_t slp_wakeup_w1tc : 1; /*enable sleep wakeup interrupt*/ uint32_t slp_reject_w1tc : 1; /*enable sleep reject interrupt*/ uint32_t sdio_idle_w1tc : 1; /*enable SDIO idle interrupt*/ uint32_t rtc_wdt_w1tc : 1; /*enable RTC WDT interrupt*/ uint32_t rtc_touch_scan_done_w1tc : 1; /*enable touch scan done interrupt*/ uint32_t rtc_ulp_cp_w1tc : 1; /*enable ULP-coprocessor interrupt*/ uint32_t rtc_touch_done_w1tc : 1; /*enable touch done interrupt*/ uint32_t rtc_touch_active_w1tc : 1; /*enable touch active interrupt*/ uint32_t rtc_touch_inactive_w1tc : 1; /*enable touch inactive interrupt*/ uint32_t w1tc : 1; /*enable brown out interrupt*/ uint32_t rtc_main_timer_w1tc : 1; /*enable RTC main timer interrupt*/ uint32_t rtc_saradc1_w1tc : 1; /*enable saradc1 interrupt*/ uint32_t rtc_tsens_w1tc : 1; /*enable tsens interrupt*/ uint32_t rtc_cocpu_w1tc : 1; /*enable riscV cocpu interrupt*/ uint32_t rtc_saradc2_w1tc : 1; /*enable saradc2 interrupt*/ uint32_t rtc_swd_w1tc : 1; /*enable super watch dog interrupt*/ uint32_t rtc_xtal32k_dead_w1tc : 1; /*enable xtal32k_dead interrupt*/ uint32_t rtc_cocpu_trap_w1tc : 1; /*enable cocpu trap interrupt*/ uint32_t rtc_touch_timeout_w1tc : 1; /*enable touch timeout interrupt*/ uint32_t rtc_glitch_det_w1tc : 1; /*enbale gitch det interrupt*/ uint32_t rtc_touch_approach_loop_done_w1tc: 1; uint32_t reserved21 : 11; }; uint32_t val; } int_ena_w1tc; union { struct { uint32_t reserved0 : 10; uint32_t retention_tag_mode : 4; uint32_t retention_target : 2; uint32_t retention_clk_sel : 1; uint32_t retention_done_wait : 3; uint32_t retention_clkoff_wait : 4; uint32_t retention_en : 1; uint32_t retention_wait : 7; /*wait cycles for rention operation*/ }; uint32_t val; } retention_ctrl; union { struct { uint32_t reserved0 : 26; uint32_t power_glitch_dsense : 2; uint32_t power_glitch_force_pd : 1; uint32_t power_glitch_force_pu : 1; uint32_t power_glitch_efuse_sel : 1; /*select use analog fib signal*/ uint32_t power_glitch_en : 1; }; uint32_t val; } pg_ctrl; union { struct { uint32_t rtc_fib_sel : 3; uint32_t reserved3 : 29; }; uint32_t val; } fib_sel; union { struct { uint32_t reserved0 : 2; uint32_t touch_pad9_dac : 3; uint32_t touch_pad8_dac : 3; uint32_t touch_pad7_dac : 3; uint32_t touch_pad6_dac : 3; uint32_t touch_pad5_dac : 3; uint32_t touch_pad4_dac : 3; uint32_t touch_pad3_dac : 3; uint32_t touch_pad2_dac : 3; uint32_t touch_pad1_dac : 3; uint32_t touch_pad0_dac : 3; }; uint32_t val; } touch_dac; union { struct { uint32_t reserved0 : 17; uint32_t touch_pad14_dac : 3; uint32_t touch_pad13_dac : 3; uint32_t touch_pad12_dac : 3; uint32_t touch_pad11_dac : 3; uint32_t touch_pad10_dac : 3; }; uint32_t val; } touch_dac1; union { struct { uint32_t reserved0 : 31; uint32_t disable_rtc_cpu : 1; }; uint32_t val; } cocpu_disable; uint32_t reserved_158; uint32_t reserved_15c; uint32_t reserved_160; uint32_t reserved_164; uint32_t reserved_168; uint32_t reserved_16c; uint32_t reserved_170; uint32_t reserved_174; uint32_t reserved_178; uint32_t reserved_17c; uint32_t reserved_180; uint32_t reserved_184; uint32_t reserved_188; uint32_t reserved_18c; uint32_t reserved_190; uint32_t reserved_194; uint32_t reserved_198; uint32_t reserved_19c; uint32_t reserved_1a0; uint32_t reserved_1a4; uint32_t reserved_1a8; uint32_t reserved_1ac; uint32_t reserved_1b0; uint32_t reserved_1b4; uint32_t reserved_1b8; uint32_t reserved_1bc; uint32_t reserved_1c0; uint32_t reserved_1c4; uint32_t reserved_1c8; uint32_t reserved_1cc; uint32_t reserved_1d0; uint32_t reserved_1d4; uint32_t reserved_1d8; uint32_t reserved_1dc; uint32_t reserved_1e0; uint32_t reserved_1e4; uint32_t reserved_1e8; uint32_t reserved_1ec; uint32_t reserved_1f0; uint32_t reserved_1f4; uint32_t reserved_1f8; union { struct { uint32_t date : 28; uint32_t reserved28 : 4; }; uint32_t val; } date; } rtc_cntl_dev_t; extern rtc_cntl_dev_t RTCCNTL; #ifdef __cplusplus } #endif #endif /*_SOC_RTC_CNTL_STRUCT_H_ */