OVMS3-idf/components/soc/esp32/include/soc/rtc_cntl_struct.h
2017-04-11 14:06:40 +08:00

553 lines
30 KiB
C

// Copyright 2015-2016 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef _SOC_RTC_CNTL_STRUCT_H_
#define _SOC_RTC_CNTL_STRUCT_H_
typedef volatile struct {
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 bias_sleep_folw_8m: 1; /*BIAS_SLEEP follow CK8M*/
uint32_t bias_force_sleep: 1; /*BIAS_SLEEP force sleep*/
uint32_t bias_force_nosleep: 1; /*BIAS_SLEEP force no sleep*/
uint32_t bias_i2c_folw_8m: 1; /*BIAS_I2C follow CK8M*/
uint32_t bias_i2c_force_pd: 1; /*BIAS_I2C force power down*/
uint32_t bias_i2c_force_pu: 1; /*BIAS_I2C force power up*/
uint32_t bias_core_folw_8m: 1; /*BIAS_CORE follow CK8M*/
uint32_t bias_core_force_pd: 1; /*BIAS_CORE force power down*/
uint32_t bias_core_force_pu: 1; /*BIAS_CORE force power up*/
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; /*RTC sleep timer low 32 bits*/
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: 30;
uint32_t valid: 1; /*To indicate the register is updated*/
uint32_t update: 1; /*Set 1: to update register with RTC timer*/
};
uint32_t val;
} time_update;
uint32_t time0; /*RTC timer low 32 bits*/
union {
struct {
uint32_t time_hi:16; /*RTC timer high 16 bits*/
uint32_t reserved16: 16;
};
uint32_t val;
} time1;
union {
struct {
uint32_t reserved0: 20;
uint32_t touch_wakeup_force_en: 1; /*touch controller force wake up*/
uint32_t ulp_cp_wakeup_force_en: 1; /*ULP-coprocessor force wake up*/
uint32_t apb2rtc_bridge_sel: 1; /*1: APB to RTC using bridge 0: APB to RTC using sync*/
uint32_t touch_slp_timer_en: 1; /*touch timer enable bit*/
uint32_t ulp_cp_slp_timer_en: 1; /*ULP-coprocessor timer enable bit*/
uint32_t reserved25: 3;
uint32_t sdio_active_ind: 1; /*SDIO active indication*/
uint32_t slp_wakeup: 1; /*sleep wakeup bit*/
uint32_t slp_reject: 1; /*sleep 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 rom_ram_wait_timer: 9;
uint32_t rom_ram_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 ulp_cp_subtimer_prediv: 8;
uint32_t min_slp_val: 8; /*minimal sleep cycles in slow_clk_rtc*/
uint32_t rtcmem_wait_timer: 9;
uint32_t rtcmem_powerup_timer: 7;
};
uint32_t val;
} timer5;
union {
struct {
uint32_t reserved0: 23;
uint32_t plla_force_pd: 1; /*PLLA force power down*/
uint32_t plla_force_pu: 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 otherwise power down*/
uint32_t txrf_i2c_pu: 1; /*1: TXRF_I2C power up otherwise power down*/
uint32_t rfrx_pbus_pu: 1; /*1: RFRX_PBUS power up otherwise power down*/
uint32_t reserved29: 1;
uint32_t ckgen_i2c_pu: 1; /*1: CKGEN_I2C power up otherwise power down*/
uint32_t pll_i2c_pu: 1; /*1: PLL_I2C power up otherwise power down*/
};
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 reserved14: 18;
};
uint32_t val;
} reset_state;
union {
struct {
uint32_t wakeup_cause: 11; /*wakeup cause*/
uint32_t rtc_wakeup_ena: 11; /*wakeup enable bitmap*/
uint32_t gpio_wakeup_filter: 1; /*enable filter for gpio wakeup event*/
uint32_t reserved23: 9;
};
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_time_valid: 1; /*enable RTC time valid interrupt*/
uint32_t rtc_ulp_cp: 1; /*enable ULP-coprocessor interrupt*/
uint32_t rtc_touch: 1; /*enable touch interrupt*/
uint32_t rtc_brown_out: 1; /*enable brown out interrupt*/
uint32_t rtc_main_timer: 1; /*enable RTC main timer interrupt*/
uint32_t reserved9: 23;
};
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_time_valid: 1; /*RTC time valid interrupt raw*/
uint32_t rtc_ulp_cp: 1; /*ULP-coprocessor interrupt raw*/
uint32_t rtc_touch: 1; /*touch 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 reserved9: 23;
};
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_time_valid: 1; /*RTC time valid interrupt state*/
uint32_t rtc_sar: 1; /*ULP-coprocessor interrupt state*/
uint32_t rtc_touch: 1; /*touch 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 reserved9: 23;
};
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_time_valid: 1; /*Clear RTC time valid interrupt state*/
uint32_t rtc_sar: 1; /*Clear ULP-coprocessor interrupt state*/
uint32_t rtc_touch: 1; /*Clear touch 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 reserved9: 23;
};
uint32_t val;
} int_clr;
uint32_t rtc_store0; /*32-bit general purpose retention register*/
uint32_t rtc_store1; /*32-bit general purpose retention register*/
uint32_t rtc_store2; /*32-bit general purpose retention register*/
uint32_t rtc_store3; /*32-bit general purpose retention register*/
union {
struct {
uint32_t reserved0: 30;
uint32_t ctr_lv: 1; /*0: power down XTAL at high level 1: power down XTAL at low level*/
uint32_t ctr_en: 1; /*enable control XTAL by external pads*/
};
uint32_t val;
} ext_xtl_conf;
union {
struct {
uint32_t reserved0: 30;
uint32_t wakeup0_lv: 1; /*0: external wakeup at low level 1: external wakeup at high level*/
uint32_t wakeup1_lv: 1; /*0: external wakeup at low level 1: external wakeup at high level*/
};
uint32_t val;
} ext_wakeup_conf;
union {
struct {
uint32_t reserved0: 24;
uint32_t gpio_reject_en: 1; /*enable GPIO reject*/
uint32_t sdio_reject_en: 1; /*enable SDIO reject*/
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 reject_cause: 4; /*sleep reject cause*/
};
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; /*CPU period sel*/
};
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: 4;
uint32_t ck8m_div: 2; /*CK8M_D256_OUT divider. 00: div128 01: div256 10: div512 11: div1024.*/
uint32_t enb_ck8m: 1; /*disable CK8M and CK8M_D256_OUT*/
uint32_t enb_ck8m_div: 1; /*1: CK8M_D256_OUT is actually CK8M 0: CK8M_D256_OUT is CK8M divided by 256*/
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 ck8m_dfreq_force: 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 soc_clk_sel: 2; /*SOC clock sel. 0: XTAL 1: PLL 2: CK8M 3: APLL*/
uint32_t fast_clk_rtc_sel: 1; /*fast_clk_rtc sel. 0: XTAL div 4 1: CK8M*/
uint32_t ana_clk_rtc_sel: 2; /*slow_clk_rtc sel. 0: SLOW_CK 1: CK_XTAL_32K 2: CK8M_D256_OUT*/
};
uint32_t val;
} clk_conf;
union {
struct {
uint32_t reserved0: 21;
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 0: use state machine*/
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; /*SW option for XPD_SDIO_REG. Only active when reg_sdio_force = 1*/
};
uint32_t val;
} sdio_conf;
union {
struct {
uint32_t reserved0: 24;
uint32_t dbg_atten: 2; /*DBG_ATTEN*/
uint32_t enb_sck_xtal: 1; /*ENB_SCK_XTAL*/
uint32_t inc_heartbeat_refresh: 1; /*INC_HEARTBEAT_REFRESH*/
uint32_t dec_heartbeat_period: 1; /*DEC_HEARTBEAT_PERIOD*/
uint32_t inc_heartbeat_period: 1; /*INC_HEARTBEAT_PERIOD*/
uint32_t dec_heartbeat_width: 1; /*DEC_HEARTBEAT_WIDTH*/
uint32_t rst_bias_i2c: 1; /*RST_BIAS_I2C*/
};
uint32_t val;
} bias_conf;
union {
struct {
uint32_t reserved0: 7;
uint32_t sck_dcap_force: 1; /*N/A*/
uint32_t dig_dbias_slp: 3; /*DIG_REG_DBIAS during sleep*/
uint32_t dig_dbias_wak: 3; /*DIG_REG_DBIAS during wakeup*/
uint32_t sck_dcap: 8; /*SCK_DCAP*/
uint32_t rtc_dbias_slp: 3; /*RTC_DBIAS during sleep*/
uint32_t rtc_dbias_wak: 3; /*RTC_DBIAS during wakeup*/
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 rtc_force_pd: 1; /*RTC_REG force power down (for RTC_REG power down means decrease the voltage to 0.8v or lower )*/
uint32_t rtc_force_pu: 1; /*RTC_REG force power up*/
};
uint32_t val;
} rtc;
union {
struct {
uint32_t fastmem_force_noiso: 1; /*Fast RTC memory force no ISO*/
uint32_t fastmem_force_iso: 1; /*Fast RTC memory force ISO*/
uint32_t slowmem_force_noiso: 1; /*RTC memory force no ISO*/
uint32_t slowmem_force_iso: 1; /*RTC memory force ISO*/
uint32_t rtc_force_iso: 1; /*rtc_peri force ISO*/
uint32_t force_noiso: 1; /*rtc_peri force no ISO*/
uint32_t fastmem_folw_cpu: 1; /*1: Fast RTC memory PD following CPU 0: fast RTC memory PD following RTC state machine*/
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 slowmem_folw_cpu: 1; /*1: RTC memory PD following CPU 0: RTC memory PD following RTC state machine*/
uint32_t slowmem_force_lpd: 1; /*RTC memory force PD*/
uint32_t slowmem_force_lpu: 1; /*RTC memory force no PD*/
uint32_t fastmem_force_pd: 1; /*Fast RTC memory force power down*/
uint32_t fastmem_force_pu: 1; /*Fast RTC memory force power up*/
uint32_t fastmem_pd_en: 1; /*enable power down fast RTC memory in sleep*/
uint32_t slowmem_force_pd: 1; /*RTC memory force power down*/
uint32_t slowmem_force_pu: 1; /*RTC memory force power up*/
uint32_t slowmem_pd_en: 1; /*enable power down RTC memory in sleep*/
uint32_t pwc_force_pd: 1; /*rtc_peri force power down*/
uint32_t pwc_force_pu: 1; /*rtc_peri force power up*/
uint32_t pd_en: 1; /*enable power down rtc_peri in sleep*/
uint32_t reserved21: 11;
};
uint32_t val;
} rtc_pwc;
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 rom0_force_pd: 1; /*ROM force power down*/
uint32_t rom0_force_pu: 1; /*ROM force power up*/
uint32_t inter_ram0_force_pd: 1; /*internal SRAM 0 force power down*/
uint32_t inter_ram0_force_pu: 1; /*internal SRAM 0 force power up*/
uint32_t inter_ram1_force_pd: 1; /*internal SRAM 1 force power down*/
uint32_t inter_ram1_force_pu: 1; /*internal SRAM 1 force power up*/
uint32_t inter_ram2_force_pd: 1; /*internal SRAM 2 force power down*/
uint32_t inter_ram2_force_pu: 1; /*internal SRAM 2 force power up*/
uint32_t inter_ram3_force_pd: 1; /*internal SRAM 3 force power down*/
uint32_t inter_ram3_force_pu: 1; /*internal SRAM 3 force power up*/
uint32_t inter_ram4_force_pd: 1; /*internal SRAM 4 force power down*/
uint32_t inter_ram4_force_pu: 1; /*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 reserved21: 3;
uint32_t rom0_pd_en: 1; /*enable power down ROM in sleep*/
uint32_t inter_ram0_pd_en: 1; /*enable power down internal SRAM 0 in sleep*/
uint32_t inter_ram1_pd_en: 1; /*enable power down internal SRAM 1 in sleep*/
uint32_t inter_ram2_pd_en: 1; /*enable power down internal SRAM 2 in sleep*/
uint32_t inter_ram3_pd_en: 1; /*enable power down internal SRAM 3 in sleep*/
uint32_t inter_ram4_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; /*enable power down digital core in sleep*/
};
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 rom0_force_iso: 1; /*ROM force ISO*/
uint32_t rom0_force_noiso: 1; /*ROM force no ISO*/
uint32_t inter_ram0_force_iso: 1; /*internal SRAM 0 force ISO*/
uint32_t inter_ram0_force_noiso: 1; /*internal SRAM 0 force no ISO*/
uint32_t inter_ram1_force_iso: 1; /*internal SRAM 1 force ISO*/
uint32_t inter_ram1_force_noiso: 1; /*internal SRAM 1 force no ISO*/
uint32_t inter_ram2_force_iso: 1; /*internal SRAM 2 force ISO*/
uint32_t inter_ram2_force_noiso: 1; /*internal SRAM 2 force no ISO*/
uint32_t inter_ram3_force_iso: 1; /*internal SRAM 3 force ISO*/
uint32_t inter_ram3_force_noiso: 1; /*internal SRAM 3 force no ISO*/
uint32_t inter_ram4_force_iso: 1; /*internal SRAM 4 force ISO*/
uint32_t inter_ram4_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; /*digital core force no ISO*/
};
uint32_t val;
} dig_iso;
union {
struct {
uint32_t reserved0: 7;
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 level_int_en: 1; /*N/A*/
uint32_t edge_int_en: 1; /*N/A*/
uint32_t stg3: 3; /*1: interrupt stage en 2: CPU reset stage en 3: system reset stage en 4: RTC reset stage en*/
uint32_t stg2: 3; /*1: interrupt stage en 2: CPU reset stage en 3: system reset stage en 4: RTC reset stage en*/
uint32_t stg1: 3; /*1: interrupt stage en 2: CPU reset stage en 3: system reset stage en 4: RTC reset stage en*/
uint32_t stg0: 3; /*1: interrupt stage en 2: CPU reset stage en 3: system reset stage en 4: RTC reset stage en*/
uint32_t en: 1; /*enable RTC WDT*/
};
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 reserved0: 29;
uint32_t ent_rtc: 1; /*ENT_RTC*/
uint32_t dtest_rtc: 2; /*DTEST_RTC*/
};
uint32_t val;
} test_mux;
union {
struct {
uint32_t reserved0: 20;
uint32_t appcpu_c1: 6; /*{reg_sw_stall_appcpu_c1[5:0] reg_sw_stall_appcpu_c0[1:0]} == 0x86 will stall APP CPU*/
uint32_t procpu_c1: 6; /*{reg_sw_stall_procpu_c1[5:0] reg_sw_stall_procpu_c0[1:0]} == 0x86 will stall PRO CPU*/
};
uint32_t val;
} sw_cpu_stall;
uint32_t store4; /*32-bit general purpose retention register*/
uint32_t store5; /*32-bit general purpose retention register*/
uint32_t store6; /*32-bit general purpose retention register*/
uint32_t store7; /*32-bit general purpose retention register*/
uint32_t diag0; /**/
uint32_t diag1; /**/
union {
struct {
uint32_t adc1_hold_force: 1;
uint32_t adc2_hold_force: 1;
uint32_t pdac1_hold_force: 1;
uint32_t pdac2_hold_force: 1;
uint32_t sense1_hold_force: 1;
uint32_t sense2_hold_force: 1;
uint32_t sense3_hold_force: 1;
uint32_t sense4_hold_force: 1;
uint32_t touch_pad0_hold_force: 1;
uint32_t touch_pad1_hold_force: 1;
uint32_t touch_pad2_hold_force: 1;
uint32_t touch_pad3_hold_force: 1;
uint32_t touch_pad4_hold_force: 1;
uint32_t touch_pad5_hold_force: 1;
uint32_t touch_pad6_hold_force: 1;
uint32_t touch_pad7_hold_force: 1;
uint32_t x32p_hold_force: 1;
uint32_t x32n_hold_force: 1;
uint32_t reserved18: 14;
};
uint32_t val;
} hold_force;
union {
struct {
uint32_t ext_wakeup1_sel: 18; /*Bitmap to select RTC pads for ext wakeup1*/
uint32_t ext_wakeup1_status_clr: 1; /*clear ext wakeup1 status*/
uint32_t reserved19: 13;
};
uint32_t val;
} ext_wakeup1;
union {
struct {
uint32_t ext_wakeup1_status:18; /*ext wakeup1 status*/
uint32_t reserved18: 14;
};
uint32_t val;
} ext_wakeup1_status;
union {
struct {
uint32_t reserved0: 14;
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 thres: 3; /*brown out threshold*/
uint32_t ena: 1; /*enable brown out*/
uint32_t det: 1; /*brown out detect*/
};
uint32_t val;
} brown_out;
uint32_t reserved_39;
uint32_t reserved_3d;
uint32_t reserved_41;
uint32_t reserved_45;
uint32_t reserved_49;
uint32_t reserved_4d;
union {
struct {
uint32_t date: 28;
uint32_t reserved28: 4;
};
uint32_t val;
} date;
} rtc_cntl_dev_t;
#endif /* _SOC_RTC_CNTL_STRUCT_H_ */