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4aac441e46
For typedef volatile struct in components/soc/esp32/include/soc Merges https://github.com/espressif/esp-idf/pull/3199
302 lines
19 KiB
C
302 lines
19 KiB
C
// Copyright 2015-2016 Espressif Systems (Shanghai) PTE LTD
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#ifndef _SOC_I2C_STRUCT_H_
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#define _SOC_I2C_STRUCT_H_
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#include <stdint.h>
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#ifdef __cplusplus
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extern "C" {
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#endif
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typedef volatile struct i2c_dev_s {
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union {
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struct {
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uint32_t period:14; /*This register is used to configure the low level width of SCL clock.*/
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uint32_t reserved14: 18;
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};
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uint32_t val;
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} scl_low_period;
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union {
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struct {
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uint32_t sda_force_out: 1; /*1:normally output sda data 0: exchange the function of sda_o and sda_oe (sda_o is the original internal output sda signal sda_oe is the enable bit for the internal output sda signal)*/
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uint32_t scl_force_out: 1; /*1:normally output scl clock 0: exchange the function of scl_o and scl_oe (scl_o is the original internal output scl signal scl_oe is the enable bit for the internal output scl signal)*/
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uint32_t sample_scl_level: 1; /*Set this bit to sample data in SCL low level. clear this bit to sample data in SCL high level.*/
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uint32_t reserved3: 1;
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uint32_t ms_mode: 1; /*Set this bit to configure the module as i2c master clear this bit to configure the module as i2c slave.*/
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uint32_t trans_start: 1; /*Set this bit to start sending data in tx_fifo.*/
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uint32_t tx_lsb_first: 1; /*This bit is used to control the sending mode for data need to be send. 1:receive data from most significant bit 0:receive data from least significant bit*/
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uint32_t rx_lsb_first: 1; /*This bit is used to control the storage mode for received data. 1:receive data from most significant bit 0:receive data from least significant bit*/
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uint32_t clk_en: 1; /*This is the clock gating control bit for reading or writing registers.*/
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uint32_t reserved9: 23;
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};
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uint32_t val;
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} ctr;
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union {
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struct {
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uint32_t ack_rec: 1; /*This register stores the value of ACK bit.*/
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uint32_t slave_rw: 1; /*when in slave mode 1:master read slave 0: master write slave.*/
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uint32_t time_out: 1; /*when I2C takes more than time_out_reg clocks to receive a data then this register changes to high level.*/
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uint32_t arb_lost: 1; /*when I2C lost control of SDA line this register changes to high level.*/
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uint32_t bus_busy: 1; /*1:I2C bus is busy transferring data. 0:I2C bus is in idle state.*/
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uint32_t slave_addressed: 1; /*when configured as i2c slave and the address send by master is equal to slave's address then this bit will be high level.*/
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uint32_t byte_trans: 1; /*This register changes to high level when one byte is transferred.*/
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uint32_t reserved7: 1;
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uint32_t rx_fifo_cnt: 6; /*This register represent the amount of data need to send.*/
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uint32_t reserved14: 4;
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uint32_t tx_fifo_cnt: 6; /*This register stores the amount of received data in ram.*/
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uint32_t scl_main_state_last: 3; /*This register stores the value of state machine for i2c module. 3'h0: SCL_MAIN_IDLE 3'h1: SCL_ADDRESS_SHIFT 3'h2: SCL_ACK_ADDRESS 3'h3: SCL_RX_DATA 3'h4 SCL_TX_DATA 3'h5:SCL_SEND_ACK 3'h6:SCL_WAIT_ACK*/
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uint32_t reserved27: 1;
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uint32_t scl_state_last: 3; /*This register stores the value of state machine to produce SCL. 3'h0: SCL_IDLE 3'h1:SCL_START 3'h2:SCL_LOW_EDGE 3'h3: SCL_LOW 3'h4:SCL_HIGH_EDGE 3'h5:SCL_HIGH 3'h6:SCL_STOP*/
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uint32_t reserved31: 1;
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};
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uint32_t val;
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} status_reg;
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union {
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struct {
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uint32_t tout: 20; /*This register is used to configure the max clock number of receiving a data, unit: APB clock cycle.*/
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uint32_t reserved20:12;
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};
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uint32_t val;
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} timeout;
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union {
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struct {
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uint32_t addr: 15; /*when configured as i2c slave this register is used to configure slave's address.*/
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uint32_t reserved15: 16;
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uint32_t en_10bit: 1; /*This register is used to enable slave 10bit address mode.*/
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};
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uint32_t val;
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} slave_addr;
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union {
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struct {
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uint32_t rx_fifo_start_addr: 5; /*This is the offset address of the last receiving data as described in nonfifo_rx_thres_register.*/
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uint32_t rx_fifo_end_addr: 5; /*This is the offset address of the first receiving data as described in nonfifo_rx_thres_register.*/
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uint32_t tx_fifo_start_addr: 5; /*This is the offset address of the first sending data as described in nonfifo_tx_thres register.*/
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uint32_t tx_fifo_end_addr: 5; /*This is the offset address of the last sending data as described in nonfifo_tx_thres register.*/
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uint32_t reserved20: 12;
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};
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uint32_t val;
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} fifo_st;
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union {
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struct {
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uint32_t rx_fifo_full_thrhd: 5;
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uint32_t tx_fifo_empty_thrhd:5; /*Config tx_fifo empty threhd value when using apb fifo access*/
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uint32_t nonfifo_en: 1; /*Set this bit to enble apb nonfifo access.*/
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uint32_t fifo_addr_cfg_en: 1; /*When this bit is set to 1 then the byte after address represent the offset address of I2C Slave's ram.*/
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uint32_t rx_fifo_rst: 1; /*Set this bit to reset rx fifo when using apb fifo access.*/
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uint32_t tx_fifo_rst: 1; /*Set this bit to reset tx fifo when using apb fifo access.*/
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uint32_t nonfifo_rx_thres: 6; /*when I2C receives more than nonfifo_rx_thres data it will produce rx_send_full_int_raw interrupt and update the current offset address of the receiving data.*/
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uint32_t nonfifo_tx_thres: 6; /*when I2C sends more than nonfifo_tx_thres data it will produce tx_send_empty_int_raw interrupt and update the current offset address of the sending data.*/
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uint32_t reserved26: 6;
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};
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uint32_t val;
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} fifo_conf;
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union {
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struct {
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uint8_t data; /*The register represent the byte data read from rx_fifo when use apb fifo access*/
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uint8_t reserved[3];
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};
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uint32_t val;
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} fifo_data;
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union {
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struct {
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uint32_t rx_fifo_full: 1; /*The raw interrupt status bit for rx_fifo full when use apb fifo access.*/
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uint32_t tx_fifo_empty: 1; /*The raw interrupt status bit for tx_fifo empty when use apb fifo access.*/
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uint32_t rx_fifo_ovf: 1; /*The raw interrupt status bit for receiving data overflow when use apb fifo access.*/
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uint32_t end_detect: 1; /*The raw interrupt status bit for end_detect_int interrupt. when I2C deals with the END command it will produce end_detect_int interrupt.*/
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uint32_t slave_tran_comp: 1; /*The raw interrupt status bit for slave_tran_comp_int interrupt. when I2C Slave detects the STOP bit it will produce slave_tran_comp_int interrupt.*/
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uint32_t arbitration_lost: 1; /*The raw interrupt status bit for arbitration_lost_int interrupt.when I2C lost the usage right of I2C BUS it will produce arbitration_lost_int interrupt.*/
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uint32_t master_tran_comp: 1; /*The raw interrupt status bit for master_tra_comp_int interrupt. when I2C Master sends or receives a byte it will produce master_tran_comp_int interrupt.*/
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uint32_t trans_complete: 1; /*The raw interrupt status bit for trans_complete_int interrupt. when I2C Master finished STOP command it will produce trans_complete_int interrupt.*/
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uint32_t time_out: 1; /*The raw interrupt status bit for time_out_int interrupt. when I2C takes a lot of time to receive a data it will produce time_out_int interrupt.*/
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uint32_t trans_start: 1; /*The raw interrupt status bit for trans_start_int interrupt. when I2C sends the START bit it will produce trans_start_int interrupt.*/
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uint32_t ack_err: 1; /*The raw interrupt status bit for ack_err_int interrupt. when I2C receives a wrong ACK bit it will produce ack_err_int interrupt..*/
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uint32_t rx_rec_full: 1; /*The raw interrupt status bit for rx_rec_full_int interrupt. when I2C receives more data than nonfifo_rx_thres it will produce rx_rec_full_int interrupt.*/
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uint32_t tx_send_empty: 1; /*The raw interrupt status bit for tx_send_empty_int interrupt.when I2C sends more data than nonfifo_tx_thres it will produce tx_send_empty_int interrupt..*/
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uint32_t reserved13: 19;
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};
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uint32_t val;
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} int_raw;
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union {
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struct {
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uint32_t rx_fifo_full: 1; /*Set this bit to clear the rx_fifo_full_int interrupt.*/
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uint32_t tx_fifo_empty: 1; /*Set this bit to clear the tx_fifo_empty_int interrupt.*/
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uint32_t rx_fifo_ovf: 1; /*Set this bit to clear the rx_fifo_ovf_int interrupt.*/
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uint32_t end_detect: 1; /*Set this bit to clear the end_detect_int interrupt.*/
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uint32_t slave_tran_comp: 1; /*Set this bit to clear the slave_tran_comp_int interrupt.*/
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uint32_t arbitration_lost: 1; /*Set this bit to clear the arbitration_lost_int interrupt.*/
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uint32_t master_tran_comp: 1; /*Set this bit to clear the master_tran_comp interrupt.*/
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uint32_t trans_complete: 1; /*Set this bit to clear the trans_complete_int interrupt.*/
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uint32_t time_out: 1; /*Set this bit to clear the time_out_int interrupt.*/
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uint32_t trans_start: 1; /*Set this bit to clear the trans_start_int interrupt.*/
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uint32_t ack_err: 1; /*Set this bit to clear the ack_err_int interrupt.*/
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uint32_t rx_rec_full: 1; /*Set this bit to clear the rx_rec_full_int interrupt.*/
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uint32_t tx_send_empty: 1; /*Set this bit to clear the tx_send_empty_int interrupt.*/
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uint32_t reserved13: 19;
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};
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uint32_t val;
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} int_clr;
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union {
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struct {
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uint32_t rx_fifo_full: 1; /*The enable bit for rx_fifo_full_int interrupt.*/
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uint32_t tx_fifo_empty: 1; /*The enable bit for tx_fifo_empty_int interrupt.*/
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uint32_t rx_fifo_ovf: 1; /*The enable bit for rx_fifo_ovf_int interrupt.*/
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uint32_t end_detect: 1; /*The enable bit for end_detect_int interrupt.*/
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uint32_t slave_tran_comp: 1; /*The enable bit for slave_tran_comp_int interrupt.*/
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uint32_t arbitration_lost: 1; /*The enable bit for arbitration_lost_int interrupt.*/
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uint32_t master_tran_comp: 1; /*The enable bit for master_tran_comp_int interrupt.*/
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uint32_t trans_complete: 1; /*The enable bit for trans_complete_int interrupt.*/
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uint32_t time_out: 1; /*The enable bit for time_out_int interrupt.*/
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uint32_t trans_start: 1; /*The enable bit for trans_start_int interrupt.*/
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uint32_t ack_err: 1; /*The enable bit for ack_err_int interrupt.*/
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uint32_t rx_rec_full: 1; /*The enable bit for rx_rec_full_int interrupt.*/
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uint32_t tx_send_empty: 1; /*The enable bit for tx_send_empty_int interrupt.*/
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uint32_t reserved13: 19;
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};
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uint32_t val;
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} int_ena;
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union {
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struct {
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uint32_t rx_fifo_full: 1; /*The masked interrupt status for rx_fifo_full_int interrupt.*/
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uint32_t tx_fifo_empty: 1; /*The masked interrupt status for tx_fifo_empty_int interrupt.*/
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uint32_t rx_fifo_ovf: 1; /*The masked interrupt status for rx_fifo_ovf_int interrupt.*/
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uint32_t end_detect: 1; /*The masked interrupt status for end_detect_int interrupt.*/
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uint32_t slave_tran_comp: 1; /*The masked interrupt status for slave_tran_comp_int interrupt.*/
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uint32_t arbitration_lost: 1; /*The masked interrupt status for arbitration_lost_int interrupt.*/
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uint32_t master_tran_comp: 1; /*The masked interrupt status for master_tran_comp_int interrupt.*/
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uint32_t trans_complete: 1; /*The masked interrupt status for trans_complete_int interrupt.*/
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uint32_t time_out: 1; /*The masked interrupt status for time_out_int interrupt.*/
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uint32_t trans_start: 1; /*The masked interrupt status for trans_start_int interrupt.*/
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uint32_t ack_err: 1; /*The masked interrupt status for ack_err_int interrupt.*/
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uint32_t rx_rec_full: 1; /*The masked interrupt status for rx_rec_full_int interrupt.*/
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uint32_t tx_send_empty: 1; /*The masked interrupt status for tx_send_empty_int interrupt.*/
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uint32_t reserved13: 19;
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};
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uint32_t val;
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} int_status;
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union {
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struct {
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uint32_t time: 10; /*This register is used to configure the clock num I2C used to hold the data after the negedge of SCL.*/
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uint32_t reserved10: 22;
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};
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uint32_t val;
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} sda_hold;
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union {
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struct {
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uint32_t time: 10; /*This register is used to configure the clock num I2C used to sample data on SDA after the posedge of SCL*/
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uint32_t reserved10: 22;
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};
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uint32_t val;
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} sda_sample;
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union {
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struct {
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uint32_t period: 14; /*This register is used to configure the clock num during SCL is low level.*/
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uint32_t reserved14: 18;
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};
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uint32_t val;
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} scl_high_period;
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uint32_t reserved_3c;
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union {
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struct {
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uint32_t time: 10; /*This register is used to configure the clock num between the negedge of SDA and negedge of SCL for start mark.*/
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uint32_t reserved10: 22;
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};
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uint32_t val;
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} scl_start_hold;
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union {
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struct {
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uint32_t time: 10; /*This register is used to configure the clock num between the posedge of SCL and the negedge of SDA for restart mark.*/
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uint32_t reserved10: 22;
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};
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uint32_t val;
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} scl_rstart_setup;
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union {
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struct {
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uint32_t time: 14; /*This register is used to configure the clock num after the STOP bit's posedge.*/
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uint32_t reserved14: 18;
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};
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uint32_t val;
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} scl_stop_hold;
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union {
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struct {
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uint32_t time: 10; /*This register is used to configure the clock num between the posedge of SCL and the posedge of SDA.*/
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uint32_t reserved10: 22;
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};
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uint32_t val;
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} scl_stop_setup;
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union {
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struct {
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uint32_t thres: 3; /*When input SCL's pulse width is smaller than this register value I2C ignores this pulse.*/
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uint32_t en: 1; /*This is the filter enable bit for SCL.*/
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uint32_t reserved4: 28;
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};
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uint32_t val;
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} scl_filter_cfg;
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union {
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struct {
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uint32_t thres: 3; /*When input SCL's pulse width is smaller than this register value I2C ignores this pulse.*/
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uint32_t en: 1; /*This is the filter enable bit for SDA.*/
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uint32_t reserved4: 28;
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};
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uint32_t val;
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} sda_filter_cfg;
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union {
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struct {
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uint32_t byte_num: 8; /*Byte_num represent the number of data need to be send or data need to be received.*/
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uint32_t ack_en: 1; /*ack_check_en ack_exp and ack value are used to control the ack bit.*/
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uint32_t ack_exp: 1; /*ack_check_en ack_exp and ack value are used to control the ack bit.*/
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uint32_t ack_val: 1; /*ack_check_en ack_exp and ack value are used to control the ack bit.*/
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uint32_t op_code: 3; /*op_code is the command 0:RSTART 1:WRITE 2:READ 3:STOP . 4:END.*/
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uint32_t reserved14: 17;
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uint32_t done: 1; /*When command0 is done in I2C Master mode this bit changes to high level.*/
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};
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uint32_t val;
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} command[16];
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uint32_t reserved_98;
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uint32_t reserved_9c;
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uint32_t reserved_a0;
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uint32_t reserved_a4;
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uint32_t reserved_a8;
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uint32_t reserved_ac;
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uint32_t reserved_b0;
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uint32_t reserved_b4;
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uint32_t reserved_b8;
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uint32_t reserved_bc;
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uint32_t reserved_c0;
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uint32_t reserved_c4;
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uint32_t reserved_c8;
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uint32_t reserved_cc;
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uint32_t reserved_d0;
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uint32_t reserved_d4;
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uint32_t reserved_d8;
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uint32_t reserved_dc;
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uint32_t reserved_e0;
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uint32_t reserved_e4;
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uint32_t reserved_e8;
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uint32_t reserved_ec;
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uint32_t reserved_f0;
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uint32_t reserved_f4;
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uint32_t date; /**/
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uint32_t reserved_fc;
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uint32_t ram_data[32]; /*This the start address for ram when use apb nonfifo access.*/
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} i2c_dev_t;
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extern i2c_dev_t I2C0;
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extern i2c_dev_t I2C1;
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#ifdef __cplusplus
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}
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#endif
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#endif /* _SOC_I2C_STRUCT_H_ */
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