esp-idf/components/soc/esp32h2/include/soc/uart_struct.h
2023-02-06 00:48:04 +08:00

1244 lines
43 KiB
C

/**
* SPDX-FileCopyrightText: 2022-2023 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#pragma once
#include <stdint.h>
#ifdef __cplusplus
extern "C" {
#endif
/** Group: FIFO Configuration */
/** Type of fifo register
* FIFO data register
*/
typedef union {
struct {
/** rxfifo_rd_byte : RO; bitpos: [31:0]; default: 0;
* UART $n accesses FIFO via this register.
*/
uint32_t rxfifo_rd_byte:32;
};
uint32_t val;
} uart_fifo_reg_t;
/** Type of mem_conf register
* UART memory power configuration
*/
typedef union {
struct {
uint32_t reserved_0:25;
/** mem_force_pd : R/W; bitpos: [25]; default: 0;
* Set this bit to force power down UART memory.
*/
uint32_t mem_force_pd:1;
/** mem_force_pu : R/W; bitpos: [26]; default: 0;
* Set this bit to force power up UART memory.
*/
uint32_t mem_force_pu:1;
uint32_t reserved_27:5;
};
uint32_t val;
} uart_mem_conf_reg_t;
/** Type of tout_conf_sync register
* UART threshold and allocation configuration
*/
typedef union {
struct {
/** rx_tout_en : R/W; bitpos: [0]; default: 0;
* This is the enble bit for uart receiver's timeout function.
*/
uint32_t rx_tout_en:1;
/** rx_tout_flow_dis : R/W; bitpos: [1]; default: 0;
* Set this bit to stop accumulating idle_cnt when hardware flow control works.
*/
uint32_t rx_tout_flow_dis:1;
/** rx_tout_thrhd : R/W; bitpos: [11:2]; default: 10;
* This register is used to configure the threshold time that receiver takes to
* receive one byte. The rxfifo_tout_int interrupt will be trigger when the receiver
* takes more time to receive one byte with rx_tout_en set to 1.
*/
uint32_t rx_tout_thrhd:10;
uint32_t reserved_12:20;
};
uint32_t val;
} uart_tout_conf_sync_reg_t;
/** Group: Interrupt Register */
/** Type of int_raw register
* Raw interrupt status
*/
typedef union {
struct {
/** rxfifo_full : R/WTC/SS; bitpos: [0]; default: 0;
* This interrupt raw bit turns to high level when receiver receives more data than
* what rxfifo_full_thrhd specifies.
*/
uint32_t rxfifo_full:1;
/** txfifo_empty : R/WTC/SS; bitpos: [1]; default: 1;
* This interrupt raw bit turns to high level when the amount of data in Tx-FIFO is
* less than what txfifo_empty_thrhd specifies .
*/
uint32_t txfifo_empty:1;
/** parity_err : R/WTC/SS; bitpos: [2]; default: 0;
* This interrupt raw bit turns to high level when receiver detects a parity error in
* the data.
*/
uint32_t parity_err:1;
/** frm_err : R/WTC/SS; bitpos: [3]; default: 0;
* This interrupt raw bit turns to high level when receiver detects a data frame error
* .
*/
uint32_t frm_err:1;
/** rxfifo_ovf : R/WTC/SS; bitpos: [4]; default: 0;
* This interrupt raw bit turns to high level when receiver receives more data than
* the FIFO can store.
*/
uint32_t rxfifo_ovf:1;
/** dsr_chg : R/WTC/SS; bitpos: [5]; default: 0;
* This interrupt raw bit turns to high level when receiver detects the edge change of
* DSRn signal.
*/
uint32_t dsr_chg:1;
/** cts_chg : R/WTC/SS; bitpos: [6]; default: 0;
* This interrupt raw bit turns to high level when receiver detects the edge change of
* CTSn signal.
*/
uint32_t cts_chg:1;
/** brk_det : R/WTC/SS; bitpos: [7]; default: 0;
* This interrupt raw bit turns to high level when receiver detects a 0 after the stop
* bit.
*/
uint32_t brk_det:1;
/** rxfifo_tout : R/WTC/SS; bitpos: [8]; default: 0;
* This interrupt raw bit turns to high level when receiver takes more time than
* rx_tout_thrhd to receive a byte.
*/
uint32_t rxfifo_tout:1;
/** sw_xon : R/WTC/SS; bitpos: [9]; default: 0;
* This interrupt raw bit turns to high level when receiver recevies Xon char when
* uart_sw_flow_con_en is set to 1.
*/
uint32_t sw_xon:1;
/** sw_xoff : R/WTC/SS; bitpos: [10]; default: 0;
* This interrupt raw bit turns to high level when receiver receives Xoff char when
* uart_sw_flow_con_en is set to 1.
*/
uint32_t sw_xoff:1;
/** glitch_det : R/WTC/SS; bitpos: [11]; default: 0;
* This interrupt raw bit turns to high level when receiver detects a glitch in the
* middle of a start bit.
*/
uint32_t glitch_det:1;
/** tx_brk_done : R/WTC/SS; bitpos: [12]; default: 0;
* This interrupt raw bit turns to high level when transmitter completes sending
* NULL characters after all data in Tx-FIFO are sent.
*/
uint32_t tx_brk_done:1;
/** tx_brk_idle_done : R/WTC/SS; bitpos: [13]; default: 0;
* This interrupt raw bit turns to high level when transmitter has kept the shortest
* duration after sending the last data.
*/
uint32_t tx_brk_idle_done:1;
/** tx_done : R/WTC/SS; bitpos: [14]; default: 0;
* This interrupt raw bit turns to high level when transmitter has send out all data
* in FIFO.
*/
uint32_t tx_done:1;
/** rs485_parity_err : R/WTC/SS; bitpos: [15]; default: 0;
* This interrupt raw bit turns to high level when receiver detects a parity error
* from the echo of transmitter in rs485 mode.
*/
uint32_t rs485_parity_err:1;
/** rs485_frm_err : R/WTC/SS; bitpos: [16]; default: 0;
* This interrupt raw bit turns to high level when receiver detects a data frame error
* from the echo of transmitter in rs485 mode.
*/
uint32_t rs485_frm_err:1;
/** rs485_clash : R/WTC/SS; bitpos: [17]; default: 0;
* This interrupt raw bit turns to high level when detects a clash between transmitter
* and receiver in rs485 mode.
*/
uint32_t rs485_clash:1;
/** at_cmd_char_det : R/WTC/SS; bitpos: [18]; default: 0;
* This interrupt raw bit turns to high level when receiver detects the configured
* at_cmd char.
*/
uint32_t at_cmd_char_det:1;
/** wakeup : R/WTC/SS; bitpos: [19]; default: 0;
* This interrupt raw bit turns to high level when input rxd edge changes more times
* than what reg_active_threshold specifies in light sleeping mode.
*/
uint32_t wakeup:1;
uint32_t reserved_20:12;
};
uint32_t val;
} uart_int_raw_reg_t;
/** Type of int_st register
* Masked interrupt status
*/
typedef union {
struct {
/** rxfifo_full : RO; bitpos: [0]; default: 0;
* This is the status bit for rxfifo_full_int_raw when rxfifo_full_int_ena is set to 1.
*/
uint32_t rxfifo_full:1;
/** txfifo_empty : RO; bitpos: [1]; default: 0;
* This is the status bit for txfifo_empty_int_raw when txfifo_empty_int_ena is set
* to 1.
*/
uint32_t txfifo_empty:1;
/** parity_err : RO; bitpos: [2]; default: 0;
* This is the status bit for parity_err_int_raw when parity_err_int_ena is set to 1.
*/
uint32_t parity_err:1;
/** frm_err : RO; bitpos: [3]; default: 0;
* This is the status bit for frm_err_int_raw when frm_err_int_ena is set to 1.
*/
uint32_t frm_err:1;
/** rxfifo_ovf : RO; bitpos: [4]; default: 0;
* This is the status bit for rxfifo_ovf_int_raw when rxfifo_ovf_int_ena is set to 1.
*/
uint32_t rxfifo_ovf:1;
/** dsr_chg : RO; bitpos: [5]; default: 0;
* This is the status bit for dsr_chg_int_raw when dsr_chg_int_ena is set to 1.
*/
uint32_t dsr_chg:1;
/** cts_chg : RO; bitpos: [6]; default: 0;
* This is the status bit for cts_chg_int_raw when cts_chg_int_ena is set to 1.
*/
uint32_t cts_chg:1;
/** brk_det : RO; bitpos: [7]; default: 0;
* This is the status bit for brk_det_int_raw when brk_det_int_ena is set to 1.
*/
uint32_t brk_det:1;
/** rxfifo_tout : RO; bitpos: [8]; default: 0;
* This is the status bit for rxfifo_tout_int_raw when rxfifo_tout_int_ena is set to 1.
*/
uint32_t rxfifo_tout:1;
/** sw_xon : RO; bitpos: [9]; default: 0;
* This is the status bit for sw_xon_int_raw when sw_xon_int_ena is set to 1.
*/
uint32_t sw_xon:1;
/** sw_xoff : RO; bitpos: [10]; default: 0;
* This is the status bit for sw_xoff_int_raw when sw_xoff_int_ena is set to 1.
*/
uint32_t sw_xoff:1;
/** glitch_det : RO; bitpos: [11]; default: 0;
* This is the status bit for glitch_det_int_raw when glitch_det_int_ena is set to 1.
*/
uint32_t glitch_det:1;
/** tx_brk_done : RO; bitpos: [12]; default: 0;
* This is the status bit for tx_brk_done_int_raw when tx_brk_done_int_ena is set to 1.
*/
uint32_t tx_brk_done:1;
/** tx_brk_idle_done : RO; bitpos: [13]; default: 0;
* This is the stauts bit for tx_brk_idle_done_int_raw when tx_brk_idle_done_int_ena
* is set to 1.
*/
uint32_t tx_brk_idle_done:1;
/** tx_done : RO; bitpos: [14]; default: 0;
* This is the status bit for tx_done_int_raw when tx_done_int_ena is set to 1.
*/
uint32_t tx_done:1;
/** rs485_parity_err : RO; bitpos: [15]; default: 0;
* This is the status bit for rs485_parity_err_int_raw when rs485_parity_int_ena is
* set to 1.
*/
uint32_t rs485_parity_err:1;
/** rs485_frm_err : RO; bitpos: [16]; default: 0;
* This is the status bit for rs485_frm_err_int_raw when rs485_fm_err_int_ena is set
* to 1.
*/
uint32_t rs485_frm_err:1;
/** rs485_clash : RO; bitpos: [17]; default: 0;
* This is the status bit for rs485_clash_int_raw when rs485_clash_int_ena is set to 1.
*/
uint32_t rs485_clash:1;
/** at_cmd_char_det : RO; bitpos: [18]; default: 0;
* This is the status bit for at_cmd_det_int_raw when at_cmd_char_det_int_ena is set
* to 1.
*/
uint32_t at_cmd_char_det:1;
/** wakeup : RO; bitpos: [19]; default: 0;
* This is the status bit for uart_wakeup_int_raw when uart_wakeup_int_ena is set to 1.
*/
uint32_t wakeup:1;
uint32_t reserved_20:12;
};
uint32_t val;
} uart_int_st_reg_t;
/** Type of int_ena register
* Interrupt enable bits
*/
typedef union {
struct {
/** rxfifo_full: R/W; bitpos: [0]; default: 0;
* This is the enable bit for rxfifo_full_int_st register.
*/
uint32_t rxfifo_full:1;
/** txfifo_empty: R/W; bitpos: [1]; default: 0;
* This is the enable bit for txfifo_empty_int_st register.
*/
uint32_t txfifo_empty:1;
/** parity_err: R/W; bitpos: [2]; default: 0;
* This is the enable bit for parity_err_int_st register.
*/
uint32_t parity_err:1;
/** frm_err: R/W; bitpos: [3]; default: 0;
* This is the enable bit for frm_err_int_st register.
*/
uint32_t frm_err:1;
/** rxfifo_ovf: R/W; bitpos: [4]; default: 0;
* This is the enable bit for rxfifo_ovf_int_st register.
*/
uint32_t rxfifo_ovf:1;
/** dsr_chg: R/W; bitpos: [5]; default: 0;
* This is the enable bit for dsr_chg_int_st register.
*/
uint32_t dsr_chg:1;
/** cts_chg: R/W; bitpos: [6]; default: 0;
* This is the enable bit for cts_chg_int_st register.
*/
uint32_t cts_chg:1;
/** brk_det: R/W; bitpos: [7]; default: 0;
* This is the enable bit for brk_det_int_st register.
*/
uint32_t brk_det:1;
/** rxfifo_tout: R/W; bitpos: [8]; default: 0;
* This is the enable bit for rxfifo_tout_int_st register.
*/
uint32_t rxfifo_tout:1;
/** sw_xon: R/W; bitpos: [9]; default: 0;
* This is the enable bit for sw_xon_int_st register.
*/
uint32_t sw_xon:1;
/** sw_xoff: R/W; bitpos: [10]; default: 0;
* This is the enable bit for sw_xoff_int_st register.
*/
uint32_t sw_xoff:1;
/** glitch_det: R/W; bitpos: [11]; default: 0;
* This is the enable bit for glitch_det_int_st register.
*/
uint32_t glitch_det:1;
/** tx_brk_done: R/W; bitpos: [12]; default: 0;
* This is the enable bit for tx_brk_done_int_st register.
*/
uint32_t tx_brk_done:1;
/** tx_brk_idle_done: R/W; bitpos: [13]; default: 0;
* This is the enable bit for tx_brk_idle_done_int_st register.
*/
uint32_t tx_brk_idle_done:1;
/** tx_done: R/W; bitpos: [14]; default: 0;
* This is the enable bit for tx_done_int_st register.
*/
uint32_t tx_done:1;
/** rs485_parity_err: R/W; bitpos: [15]; default: 0;
* This is the enable bit for rs485_parity_err_int_st register.
*/
uint32_t rs485_parity_err:1;
/** rs485_frm_err: R/W; bitpos: [16]; default: 0;
* This is the enable bit for rs485_parity_err_int_st register.
*/
uint32_t rs485_frm_err:1;
/** rs485_clash: R/W; bitpos: [17]; default: 0;
* This is the enable bit for rs485_clash_int_st register.
*/
uint32_t rs485_clash:1;
/** at_cmd_char_det: R/W; bitpos: [18]; default: 0;
* This is the enable bit for at_cmd_char_det_int_st register.
*/
uint32_t at_cmd_char_det:1;
/** wakeup: R/W; bitpos: [19]; default: 0;
* This is the enable bit for uart_wakeup_int_st register.
*/
uint32_t wakeup:1;
uint32_t reserved_20:12;
};
uint32_t val;
} uart_int_ena_reg_t;
/** Type of int_clr register
* Interrupt clear bits
*/
typedef union {
struct {
/** rxfifo_full: WT; bitpos: [0]; default: 0;
* Set this bit to clear the rxfifo_full_int_raw interrupt.
*/
uint32_t rxfifo_full:1;
/** txfifo_empty: WT; bitpos: [1]; default: 0;
* Set this bit to clear txfifo_empty_int_raw interrupt.
*/
uint32_t txfifo_empty:1;
/** parity_err: WT; bitpos: [2]; default: 0;
* Set this bit to clear parity_err_int_raw interrupt.
*/
uint32_t parity_err:1;
/** frm_err: WT; bitpos: [3]; default: 0;
* Set this bit to clear frm_err_int_raw interrupt.
*/
uint32_t frm_err:1;
/** rxfifo_ovf: WT; bitpos: [4]; default: 0;
* Set this bit to clear rxfifo_ovf_int_raw interrupt.
*/
uint32_t rxfifo_ovf:1;
/** dsr_chg: WT; bitpos: [5]; default: 0;
* Set this bit to clear the dsr_chg_int_raw interrupt.
*/
uint32_t dsr_chg:1;
/** cts_chg: WT; bitpos: [6]; default: 0;
* Set this bit to clear the cts_chg_int_raw interrupt.
*/
uint32_t cts_chg:1;
/** brk_det: WT; bitpos: [7]; default: 0;
* Set this bit to clear the brk_det_int_raw interrupt.
*/
uint32_t brk_det:1;
/** rxfifo_tout: WT; bitpos: [8]; default: 0;
* Set this bit to clear the rxfifo_tout_int_raw interrupt.
*/
uint32_t rxfifo_tout:1;
/** sw_xon: WT; bitpos: [9]; default: 0;
* Set this bit to clear the sw_xon_int_raw interrupt.
*/
uint32_t sw_xon:1;
/** sw_xoff: WT; bitpos: [10]; default: 0;
* Set this bit to clear the sw_xoff_int_raw interrupt.
*/
uint32_t sw_xoff:1;
/** glitch_det: WT; bitpos: [11]; default: 0;
* Set this bit to clear the glitch_det_int_raw interrupt.
*/
uint32_t glitch_det:1;
/** tx_brk_done: WT; bitpos: [12]; default: 0;
* Set this bit to clear the tx_brk_done_int_raw interrupt..
*/
uint32_t tx_brk_done:1;
/** tx_brk_idle_done: WT; bitpos: [13]; default: 0;
* Set this bit to clear the tx_brk_idle_done_int_raw interrupt.
*/
uint32_t tx_brk_idle_done:1;
/** tx_done: WT; bitpos: [14]; default: 0;
* Set this bit to clear the tx_done_int_raw interrupt.
*/
uint32_t tx_done:1;
/** rs485_parity_err: WT; bitpos: [15]; default: 0;
* Set this bit to clear the rs485_parity_err_int_raw interrupt.
*/
uint32_t rs485_parity_err:1;
/** rs485_frm_err: WT; bitpos: [16]; default: 0;
* Set this bit to clear the rs485_frm_err_int_raw interrupt.
*/
uint32_t rs485_frm_err:1;
/** rs485_clash: WT; bitpos: [17]; default: 0;
* Set this bit to clear the rs485_clash_int_raw interrupt.
*/
uint32_t rs485_clash:1;
/** at_cmd_char_det: WT; bitpos: [18]; default: 0;
* Set this bit to clear the at_cmd_char_det_int_raw interrupt.
*/
uint32_t at_cmd_char_det:1;
/** wakeup: WT; bitpos: [19]; default: 0;
* Set this bit to clear the uart_wakeup_int_raw interrupt.
*/
uint32_t wakeup:1;
uint32_t reserved_20:12;
};
uint32_t val;
} uart_int_clr_reg_t;
/** Group: Configuration Register */
/** Type of clkdiv_sync register
* Clock divider configuration
*/
typedef union {
struct {
/** clkdiv_int : R/W; bitpos: [11:0]; default: 694;
* The integral part of the frequency divider factor.
*/
uint32_t clkdiv_int:12;
uint32_t reserved_12:8;
/** clkdiv_frag : R/W; bitpos: [23:20]; default: 0;
* The decimal part of the frequency divider factor.
*/
uint32_t clkdiv_frag:4;
uint32_t reserved_24:8;
};
uint32_t val;
} uart_clkdiv_sync_reg_t;
/** Type of rx_filt register
* Rx Filter configuration
*/
typedef union {
struct {
/** glitch_filt : R/W; bitpos: [7:0]; default: 8;
* when input pulse width is lower than this value the pulse is ignored.
*/
uint32_t glitch_filt:8;
/** glitch_filt_en : R/W; bitpos: [8]; default: 0;
* Set this bit to enable Rx signal filter.
*/
uint32_t glitch_filt_en:1;
uint32_t reserved_9:23;
};
uint32_t val;
} uart_rx_filt_reg_t;
/** Type of conf0_sync register
* a
*/
typedef union {
struct {
/** parity : R/W; bitpos: [0]; default: 0;
* This register is used to configure the parity check mode.
*/
uint32_t parity:1;
/** parity_en : R/W; bitpos: [1]; default: 0;
* Set this bit to enable uart parity check.
*/
uint32_t parity_en:1;
/** bit_num : R/W; bitpos: [3:2]; default: 3;
* This register is used to set the length of data.
*/
uint32_t bit_num:2;
/** stop_bit_num : R/W; bitpos: [5:4]; default: 1;
* This register is used to set the length of stop bit.
*/
uint32_t stop_bit_num:2;
/** txd_brk : R/W; bitpos: [6]; default: 0;
* Set this bit to enbale transmitter to send NULL when the process of sending data
* is done.
*/
uint32_t txd_brk:1;
/** irda_dplx : R/W; bitpos: [7]; default: 0;
* Set this bit to enable IrDA loopback mode.
*/
uint32_t irda_dplx:1;
/** irda_tx_en : R/W; bitpos: [8]; default: 0;
* This is the start enable bit for IrDA transmitter.
*/
uint32_t irda_tx_en:1;
/** irda_wctl : R/W; bitpos: [9]; default: 0;
* 1'h1: The IrDA transmitter's 11th bit is the same as 10th bit. 1'h0: Set IrDA
* transmitter's 11th bit to 0.
*/
uint32_t irda_wctl:1;
/** irda_tx_inv : R/W; bitpos: [10]; default: 0;
* Set this bit to invert the level of IrDA transmitter.
*/
uint32_t irda_tx_inv:1;
/** irda_rx_inv : R/W; bitpos: [11]; default: 0;
* Set this bit to invert the level of IrDA receiver.
*/
uint32_t irda_rx_inv:1;
/** loopback : R/W; bitpos: [12]; default: 0;
* Set this bit to enable uart loopback test mode.
*/
uint32_t loopback:1;
/** tx_flow_en : R/W; bitpos: [13]; default: 0;
* Set this bit to enable flow control function for transmitter.
*/
uint32_t tx_flow_en:1;
/** irda_en : R/W; bitpos: [14]; default: 0;
* Set this bit to enable IrDA protocol.
*/
uint32_t irda_en:1;
/** rxd_inv : R/W; bitpos: [15]; default: 0;
* Set this bit to inverse the level value of uart rxd signal.
*/
uint32_t rxd_inv:1;
/** txd_inv : R/W; bitpos: [16]; default: 0;
* Set this bit to inverse the level value of uart txd signal.
*/
uint32_t txd_inv:1;
/** dis_rx_dat_ovf : R/W; bitpos: [17]; default: 0;
* Disable UART Rx data overflow detect.
*/
uint32_t dis_rx_dat_ovf:1;
/** err_wr_mask : R/W; bitpos: [18]; default: 0;
* 1'h1: Receiver stops storing data into FIFO when data is wrong. 1'h0: Receiver
* stores the data even if the received data is wrong.
*/
uint32_t err_wr_mask:1;
/** autobaud_en : R/W; bitpos: [19]; default: 0;
* This is the enable bit for detecting baudrate.
*/
uint32_t autobaud_en:1;
/** mem_clk_en : R/W; bitpos: [20]; default: 1;
* UART memory clock gate enable signal.
*/
uint32_t mem_clk_en:1;
/** sw_rts : R/W; bitpos: [21]; default: 0;
* This register is used to configure the software rts signal which is used in
* software flow control.
*/
uint32_t sw_rts:1;
/** rxfifo_rst : R/W; bitpos: [22]; default: 0;
* Set this bit to reset the uart receive-FIFO.
*/
uint32_t rxfifo_rst:1;
/** txfifo_rst : R/W; bitpos: [23]; default: 0;
* Set this bit to reset the uart transmit-FIFO.
*/
uint32_t txfifo_rst:1;
uint32_t reserved_24:8;
};
uint32_t val;
} uart_conf0_sync_reg_t;
/** Type of conf1 register
* Configuration register 1
*/
typedef union {
struct {
/** rxfifo_full_thrhd : R/W; bitpos: [7:0]; default: 96;
* It will produce rxfifo_full_int interrupt when receiver receives more data than
* this register value.
*/
uint32_t rxfifo_full_thrhd:8;
/** txfifo_empty_thrhd : R/W; bitpos: [15:8]; default: 96;
* It will produce txfifo_empty_int interrupt when the data amount in Tx-FIFO is less
* than this register value.
*/
uint32_t txfifo_empty_thrhd:8;
/** cts_inv : R/W; bitpos: [16]; default: 0;
* Set this bit to inverse the level value of uart cts signal.
*/
uint32_t cts_inv:1;
/** dsr_inv : R/W; bitpos: [17]; default: 0;
* Set this bit to inverse the level value of uart dsr signal.
*/
uint32_t dsr_inv:1;
/** rts_inv : R/W; bitpos: [18]; default: 0;
* Set this bit to inverse the level value of uart rts signal.
*/
uint32_t rts_inv:1;
/** dtr_inv : R/W; bitpos: [19]; default: 0;
* Set this bit to inverse the level value of uart dtr signal.
*/
uint32_t dtr_inv:1;
/** sw_dtr : R/W; bitpos: [20]; default: 0;
* This register is used to configure the software dtr signal which is used in
* software flow control.
*/
uint32_t sw_dtr:1;
/** clk_en : R/W; bitpos: [21]; default: 0;
* 1'h1: Force clock on for register. 1'h0: Support clock only when application writes
* registers.
*/
uint32_t clk_en:1;
uint32_t reserved_22:10;
};
uint32_t val;
} uart_conf1_reg_t;
/** Type of hwfc_conf_sync register
* Hardware flow-control configuration
*/
typedef union {
struct {
/** rx_flow_thrhd : R/W; bitpos: [7:0]; default: 0;
* This register is used to configure the maximum amount of data that can be received
* when hardware flow control works.
*/
uint32_t rx_flow_thrhd:8;
/** rx_flow_en : R/W; bitpos: [8]; default: 0;
* This is the flow enable bit for UART receiver.
*/
uint32_t rx_flow_en:1;
uint32_t reserved_9:23;
};
uint32_t val;
} uart_hwfc_conf_sync_reg_t;
/** Type of sleep_conf0 register
* UART sleep configure register 0
*/
typedef union {
struct {
/** wk_char1 : R/W; bitpos: [7:0]; default: 0;
* This register restores the specified wake up char1 to wake up
*/
uint32_t wk_char1:8;
/** wk_char2 : R/W; bitpos: [15:8]; default: 0;
* This register restores the specified wake up char2 to wake up
*/
uint32_t wk_char2:8;
/** wk_char3 : R/W; bitpos: [23:16]; default: 0;
* This register restores the specified wake up char3 to wake up
*/
uint32_t wk_char3:8;
/** wk_char4 : R/W; bitpos: [31:24]; default: 0;
* This register restores the specified wake up char4 to wake up
*/
uint32_t wk_char4:8;
};
uint32_t val;
} uart_sleep_conf0_reg_t;
/** Type of sleep_conf1 register
* UART sleep configure register 1
*/
typedef union {
struct {
/** wk_char0 : R/W; bitpos: [7:0]; default: 0;
* This register restores the specified char0 to wake up
*/
uint32_t wk_char0:8;
uint32_t reserved_8:24;
};
uint32_t val;
} uart_sleep_conf1_reg_t;
/** Type of sleep_conf2 register
* UART sleep configure register 2
*/
typedef union {
struct {
/** active_threshold : R/W; bitpos: [9:0]; default: 240;
* The uart is activated from light sleeping mode when the input rxd edge changes more
* times than this register value.
*/
uint32_t active_threshold:10;
/** rx_wake_up_thrhd : R/W; bitpos: [17:10]; default: 1;
* In wake up mode 1 this field is used to set the received data number threshold to
* wake up chip.
*/
uint32_t rx_wake_up_thrhd:8;
/** wk_char_num : R/W; bitpos: [20:18]; default: 5;
* This register is used to select number of wake up char.
*/
uint32_t wk_char_num:3;
/** wk_char_mask : R/W; bitpos: [25:21]; default: 0;
* This register is used to mask wake up char.
*/
uint32_t wk_char_mask:5;
/** wk_mode_sel : R/W; bitpos: [27:26]; default: 0;
* This register is used to select wake up mode. 0: RXD toggling to wake up. 1:
* received data number larger than
*/
uint32_t wk_mode_sel:2;
uint32_t reserved_28:4;
};
uint32_t val;
} uart_sleep_conf2_reg_t;
/** Type of swfc_conf0_sync register
* Software flow-control character configuration
*/
typedef union {
struct {
/** xon_char : R/W; bitpos: [7:0]; default: 17;
* This register stores the Xon flow control char.
*/
uint32_t xon_char:8;
/** xoff_char : R/W; bitpos: [15:8]; default: 19;
* This register stores the Xoff flow control char.
*/
uint32_t xoff_char:8;
/** xon_xoff_still_send : R/W; bitpos: [16]; default: 0;
* In software flow control mode, UART Tx is disabled once UART Rx receives XOFF. In
* this status, UART Tx can not transmit XOFF even the received data number is larger
* than UART_XOFF_THRESHOLD. Set this bit to enable UART Tx can transmit XON/XOFF when
* UART Tx is disabled.
*/
uint32_t xon_xoff_still_send:1;
/** sw_flow_con_en : R/W; bitpos: [17]; default: 0;
* Set this bit to enable software flow control. It is used with register sw_xon or
* sw_xoff.
*/
uint32_t sw_flow_con_en:1;
/** xonoff_del : R/W; bitpos: [18]; default: 0;
* Set this bit to remove flow control char from the received data.
*/
uint32_t xonoff_del:1;
/** force_xon : R/W; bitpos: [19]; default: 0;
* Set this bit to enable the transmitter to go on sending data.
*/
uint32_t force_xon:1;
/** force_xoff : R/W; bitpos: [20]; default: 0;
* Set this bit to stop the transmitter from sending data.
*/
uint32_t force_xoff:1;
/** send_xon : R/W/SS/SC; bitpos: [21]; default: 0;
* Set this bit to send Xon char. It is cleared by hardware automatically.
*/
uint32_t send_xon:1;
/** send_xoff : R/W/SS/SC; bitpos: [22]; default: 0;
* Set this bit to send Xoff char. It is cleared by hardware automatically.
*/
uint32_t send_xoff:1;
uint32_t reserved_23:9;
};
uint32_t val;
} uart_swfc_conf0_sync_reg_t;
/** Type of swfc_conf1 register
* Software flow-control character configuration
*/
typedef union {
struct {
/** xon_threshold : R/W; bitpos: [7:0]; default: 0;
* When the data amount in Rx-FIFO is less than this register value with
* uart_sw_flow_con_en set to 1 it will send a Xon char.
*/
uint32_t xon_threshold:8;
/** xoff_threshold : R/W; bitpos: [15:8]; default: 224;
* When the data amount in Rx-FIFO is more than this register value with
* uart_sw_flow_con_en set to 1 it will send a Xoff char.
*/
uint32_t xoff_threshold:8;
uint32_t reserved_16:16;
};
uint32_t val;
} uart_swfc_conf1_reg_t;
/** Type of txbrk_conf_sync register
* Tx Break character configuration
*/
typedef union {
struct {
/** tx_brk_num : R/W; bitpos: [7:0]; default: 10;
* This register is used to configure the number of 0 to be sent after the process of
* sending data is done. It is active when txd_brk is set to 1.
*/
uint32_t tx_brk_num:8;
uint32_t reserved_8:24;
};
uint32_t val;
} uart_txbrk_conf_sync_reg_t;
/** Type of idle_conf_sync register
* Frame-end idle configuration
*/
typedef union {
struct {
/** rx_idle_thrhd : R/W; bitpos: [9:0]; default: 256;
* It will produce frame end signal when receiver takes more time to receive one byte
* data than this register value.
*/
uint32_t rx_idle_thrhd:10;
/** tx_idle_num : R/W; bitpos: [19:10]; default: 256;
* This register is used to configure the duration time between transfers.
*/
uint32_t tx_idle_num:10;
uint32_t reserved_20:12;
};
uint32_t val;
} uart_idle_conf_sync_reg_t;
/** Type of rs485_conf_sync register
* RS485 mode configuration
*/
typedef union {
struct {
/** rs485_en : R/W; bitpos: [0]; default: 0;
* Set this bit to choose the rs485 mode.
*/
uint32_t rs485_en:1;
/** dl0_en : R/W; bitpos: [1]; default: 0;
* Set this bit to delay the stop bit by 1 bit.
*/
uint32_t dl0_en:1;
/** dl1_en : R/W; bitpos: [2]; default: 0;
* Set this bit to delay the stop bit by 1 bit.
*/
uint32_t dl1_en:1;
/** rs485tx_rx_en : R/W; bitpos: [3]; default: 0;
* Set this bit to enable receiver could receive data when the transmitter is
* transmitting data in rs485 mode.
*/
uint32_t rs485tx_rx_en:1;
/** rs485rxby_tx_en : R/W; bitpos: [4]; default: 0;
* 1'h1: enable rs485 transmitter to send data when rs485 receiver line is busy.
*/
uint32_t rs485rxby_tx_en:1;
/** rs485_rx_dly_num : R/W; bitpos: [5]; default: 0;
* This register is used to delay the receiver's internal data signal.
*/
uint32_t rs485_rx_dly_num:1;
/** rs485_tx_dly_num : R/W; bitpos: [9:6]; default: 0;
* This register is used to delay the transmitter's internal data signal.
*/
uint32_t rs485_tx_dly_num:4;
uint32_t reserved_10:22;
};
uint32_t val;
} uart_rs485_conf_sync_reg_t;
/** Group: Status Register */
/** Type of status register
* UART status register
*/
typedef union {
struct {
/** rxfifo_cnt : RO; bitpos: [7:0]; default: 0;
* Stores the byte number of valid data in Rx-FIFO.
*/
uint32_t rxfifo_cnt:8;
uint32_t reserved_8:5;
/** dsrn : RO; bitpos: [13]; default: 0;
* The register represent the level value of the internal uart dsr signal.
*/
uint32_t dsrn:1;
/** ctsn : RO; bitpos: [14]; default: 1;
* This register represent the level value of the internal uart cts signal.
*/
uint32_t ctsn:1;
/** rxd : RO; bitpos: [15]; default: 1;
* This register represent the level value of the internal uart rxd signal.
*/
uint32_t rxd:1;
/** txfifo_cnt : RO; bitpos: [23:16]; default: 0;
* Stores the byte number of data in Tx-FIFO.
*/
uint32_t txfifo_cnt:8;
uint32_t reserved_24:5;
/** dtrn : RO; bitpos: [29]; default: 1;
* This bit represents the level of the internal uart dtr signal.
*/
uint32_t dtrn:1;
/** rtsn : RO; bitpos: [30]; default: 1;
* This bit represents the level of the internal uart rts signal.
*/
uint32_t rtsn:1;
/** txd : RO; bitpos: [31]; default: 1;
* This bit represents the level of the internal uart txd signal.
*/
uint32_t txd:1;
};
uint32_t val;
} uart_status_reg_t;
/** Type of mem_tx_status register
* Tx-SRAM write and read offset address.
*/
typedef union {
struct {
/** tx_sram_waddr : RO; bitpos: [7:0]; default: 0;
* This register stores the offset write address in Tx-SRAM.
*/
uint32_t tx_sram_waddr:8;
uint32_t reserved_8:1;
/** tx_sram_raddr : RO; bitpos: [16:9]; default: 0;
* This register stores the offset read address in Tx-SRAM.
*/
uint32_t tx_sram_raddr:8;
uint32_t reserved_17:15;
};
uint32_t val;
} uart_mem_tx_status_reg_t;
/** Type of mem_rx_status register
* Rx-SRAM write and read offset address.
*/
typedef union {
struct {
/** rx_sram_raddr : RO; bitpos: [7:0]; default: 128;
* This register stores the offset read address in RX-SRAM.
*/
uint32_t rx_sram_raddr:8;
uint32_t reserved_8:1;
/** rx_sram_waddr : RO; bitpos: [16:9]; default: 128;
* This register stores the offset write address in Rx-SRAM.
*/
uint32_t rx_sram_waddr:8;
uint32_t reserved_17:15;
};
uint32_t val;
} uart_mem_rx_status_reg_t;
/** Type of fsm_status register
* UART transmit and receive status.
*/
typedef union {
struct {
/** st_urx_out : RO; bitpos: [3:0]; default: 0;
* This is the status register of receiver.
*/
uint32_t st_urx_out:4;
/** st_utx_out : RO; bitpos: [7:4]; default: 0;
* This is the status register of transmitter.
*/
uint32_t st_utx_out:4;
uint32_t reserved_8:24;
};
uint32_t val;
} uart_fsm_status_reg_t;
/** Type of afifo_status register
* UART AFIFO Status
*/
typedef union {
struct {
/** tx_afifo_full : RO; bitpos: [0]; default: 0;
* Full signal of APB TX AFIFO.
*/
uint32_t tx_afifo_full:1;
/** tx_afifo_empty : RO; bitpos: [1]; default: 1;
* Empty signal of APB TX AFIFO.
*/
uint32_t tx_afifo_empty:1;
/** rx_afifo_full : RO; bitpos: [2]; default: 0;
* Full signal of APB RX AFIFO.
*/
uint32_t rx_afifo_full:1;
/** rx_afifo_empty : RO; bitpos: [3]; default: 1;
* Empty signal of APB RX AFIFO.
*/
uint32_t rx_afifo_empty:1;
uint32_t reserved_4:28;
};
uint32_t val;
} uart_afifo_status_reg_t;
/** Group: AT Escape Sequence Selection Configuration */
/** Type of at_cmd_precnt_sync register
* Pre-sequence timing configuration
*/
typedef union {
struct {
/** pre_idle_num : R/W; bitpos: [15:0]; default: 2305;
* This register is used to configure the idle duration time before the first at_cmd
* is received by receiver.
*/
uint32_t pre_idle_num:16;
uint32_t reserved_16:16;
};
uint32_t val;
} uart_at_cmd_precnt_sync_reg_t;
/** Type of at_cmd_postcnt_sync register
* Post-sequence timing configuration
*/
typedef union {
struct {
/** post_idle_num : R/W; bitpos: [15:0]; default: 2305;
* This register is used to configure the duration time between the last at_cmd and
* the next data.
*/
uint32_t post_idle_num:16;
uint32_t reserved_16:16;
};
uint32_t val;
} uart_at_cmd_postcnt_sync_reg_t;
/** Type of at_cmd_gaptout_sync register
* Timeout configuration
*/
typedef union {
struct {
/** rx_gap_tout : R/W; bitpos: [15:0]; default: 11;
* This register is used to configure the duration time between the at_cmd chars.
*/
uint32_t rx_gap_tout:16;
uint32_t reserved_16:16;
};
uint32_t val;
} uart_at_cmd_gaptout_sync_reg_t;
/** Type of at_cmd_char_sync register
* AT escape sequence detection configuration
*/
typedef union {
struct {
/** data : R/W; bitpos: [7:0]; default: 43;
* This register is used to configure the content of at_cmd char.
*/
uint32_t data:8;
/** char_num : R/W; bitpos: [15:8]; default: 3;
* This register is used to configure the num of continuous at_cmd chars received by
* receiver.
*/
uint32_t char_num:8;
uint32_t reserved_16:16;
};
uint32_t val;
} uart_at_cmd_char_sync_reg_t;
/** Group: Autobaud Register */
/** Type of pospulse register
* Autobaud high pulse register
*/
typedef union {
struct {
/** posedge_min_cnt : RO; bitpos: [11:0]; default: 4095;
* This register stores the minimal input clock count between two positive edges. It
* is used in boudrate-detect process.
*/
uint32_t posedge_min_cnt:12;
uint32_t reserved_12:20;
};
uint32_t val;
} uart_pospulse_reg_t;
/** Type of negpulse register
* Autobaud low pulse register
*/
typedef union {
struct {
/** negedge_min_cnt : RO; bitpos: [11:0]; default: 4095;
* This register stores the minimal input clock count between two negative edges. It
* is used in boudrate-detect process.
*/
uint32_t negedge_min_cnt:12;
uint32_t reserved_12:20;
};
uint32_t val;
} uart_negpulse_reg_t;
/** Type of lowpulse register
* Autobaud minimum low pulse duration register
*/
typedef union {
struct {
/** lowpulse_min_cnt : RO; bitpos: [11:0]; default: 4095;
* This register stores the value of the minimum duration time of the low level pulse.
* It is used in baud rate-detect process.
*/
uint32_t lowpulse_min_cnt:12;
uint32_t reserved_12:20;
};
uint32_t val;
} uart_lowpulse_reg_t;
/** Type of highpulse register
* Autobaud minimum high pulse duration register
*/
typedef union {
struct {
/** highpulse_min_cnt : RO; bitpos: [11:0]; default: 4095;
* This register stores the value of the maxinum duration time for the high level
* pulse. It is used in baud rate-detect process.
*/
uint32_t highpulse_min_cnt:12;
uint32_t reserved_12:20;
};
uint32_t val;
} uart_highpulse_reg_t;
/** Type of rxd_cnt register
* Autobaud edge change count register
*/
typedef union {
struct {
/** rxd_edge_cnt : RO; bitpos: [9:0]; default: 0;
* This register stores the count of rxd edge change. It is used in baud rate-detect
* process.
*/
uint32_t rxd_edge_cnt:10;
uint32_t reserved_10:22;
};
uint32_t val;
} uart_rxd_cnt_reg_t;
/** Group: Version Register */
/** Type of date register
* UART Version register
*/
typedef union {
struct {
/** date : R/W; bitpos: [31:0]; default: 35656288;
* This is the version register.
*/
uint32_t date:32;
};
uint32_t val;
} uart_date_reg_t;
/** Type of reg_update register
* UART Registers Configuration Update register
*/
typedef union {
struct {
/** reg_update : R/W/SC; bitpos: [0]; default: 0;
* Software write 1 would synchronize registers into UART Core clock domain and would
* be cleared by hardware after synchronization is done.
*/
uint32_t reg_update:1;
uint32_t reserved_1:31;
};
uint32_t val;
} uart_reg_update_reg_t;
/** Type of id register
* UART ID register
*/
typedef union {
struct {
/** id : R/W; bitpos: [31:0]; default: 1280;
* This register is used to configure the uart_id.
*/
uint32_t id:32;
};
uint32_t val;
} uart_id_reg_t;
typedef struct uart_dev_s {
volatile uart_fifo_reg_t fifo;
volatile uart_int_raw_reg_t int_raw;
volatile uart_int_st_reg_t int_st;
volatile uart_int_ena_reg_t int_ena;
volatile uart_int_clr_reg_t int_clr;
volatile uart_clkdiv_sync_reg_t clkdiv_sync;
volatile uart_rx_filt_reg_t rx_filt;
volatile uart_status_reg_t status;
volatile uart_conf0_sync_reg_t conf0_sync;
volatile uart_conf1_reg_t conf1;
uint32_t reserved_028;
volatile uart_hwfc_conf_sync_reg_t hwfc_conf_sync;
volatile uart_sleep_conf0_reg_t sleep_conf0;
volatile uart_sleep_conf1_reg_t sleep_conf1;
volatile uart_sleep_conf2_reg_t sleep_conf2;
volatile uart_swfc_conf0_sync_reg_t swfc_conf0_sync;
volatile uart_swfc_conf1_reg_t swfc_conf1;
volatile uart_txbrk_conf_sync_reg_t txbrk_conf_sync;
volatile uart_idle_conf_sync_reg_t idle_conf_sync;
volatile uart_rs485_conf_sync_reg_t rs485_conf_sync;
volatile uart_at_cmd_precnt_sync_reg_t at_cmd_precnt_sync;
volatile uart_at_cmd_postcnt_sync_reg_t at_cmd_postcnt_sync;
volatile uart_at_cmd_gaptout_sync_reg_t at_cmd_gaptout_sync;
volatile uart_at_cmd_char_sync_reg_t at_cmd_char_sync;
volatile uart_mem_conf_reg_t mem_conf;
volatile uart_tout_conf_sync_reg_t tout_conf_sync;
volatile uart_mem_tx_status_reg_t mem_tx_status;
volatile uart_mem_rx_status_reg_t mem_rx_status;
volatile uart_fsm_status_reg_t fsm_status;
volatile uart_pospulse_reg_t pospulse;
volatile uart_negpulse_reg_t negpulse;
volatile uart_lowpulse_reg_t lowpulse;
volatile uart_highpulse_reg_t highpulse;
volatile uart_rxd_cnt_reg_t rxd_cnt;
uint32_t reserved_088;
volatile uart_date_reg_t date;
volatile uart_afifo_status_reg_t afifo_status;
uint32_t reserved_094;
volatile uart_reg_update_reg_t reg_update;
volatile uart_id_reg_t id;
} uart_dev_t;
extern uart_dev_t UART0;
extern uart_dev_t UART1;
#ifndef __cplusplus
_Static_assert(sizeof(uart_dev_t) == 0xa0, "Invalid size of uart_dev_t structure");
#endif
#ifdef __cplusplus
}
#endif