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Merge branch 'feature/support_hp_regi2c_for_esp32c6_v5.1' into 'release/v5.1'

Browse Source 
feat(esp_rom): support hp regi2c for esp32c6(backport v5.1)

See merge request espressif/esp-idf!25644
This commit is contained in:
Jiang Jiang Jian 2023-08-31 10:49:58 +08:00
commit b58706c1d2
5 changed files with 441 additions and 335 deletions
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6
components/esp_rom/CMakeLists.txt
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@ -23,7 +23,11 @@ else()
# Override regi2c implementation in ROM
if(CONFIG_ESP_ROM_HAS_REGI2C_BUG OR CONFIG_ESP_ROM_WITHOUT_REGI2C)
list(APPEND sources "patches/esp_rom_regi2c_${target}.c")
if(target STREQUAL "esp32c6")
list(APPEND sources "patches/esp_rom_hp_regi2c_${target}.c")
else()
list(APPEND sources "patches/esp_rom_regi2c_${target}.c")
endif()
endif()
if(CONFIG_HEAP_TLSF_USE_ROM_IMPL AND CONFIG_ESP_ROM_TLSF_CHECK_PATCH)

188
components/esp_rom/patches/esp_rom_hp_regi2c_esp32c6.c Normal file
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@ -0,0 +1,188 @@
/*
* SPDX-FileCopyrightText: 2019-2023 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include "esp_rom_sys.h"
#include "esp_attr.h"
#include "soc/i2c_ana_mst_reg.h"
#include "modem/modem_lpcon_reg.h"
/**
* BB - 0x67 - BIT0
* TXRF - 0x6B - BIT1
* SDM - 0x63 - BIT2
* PLL - 0x62 - BIT3
* BIAS - 0x6A - BIT4
* BBPLL - 0x66 - BIT5
* ULP - 0x61 - BIT6
* SAR - 0x69 - BIT7
* PMU - 0x6d - BIT8
*/
#define REGI2C_BIAS_MST_SEL (BIT(8))
#define REGI2C_BBPLL_MST_SEL (BIT(9))
#define REGI2C_ULP_CAL_MST_SEL (BIT(10))
#define REGI2C_SAR_I2C_MST_SEL (BIT(11))
#define REGI2C_DIG_REG_MST_SEL (BIT(12))
#define REGI2C_BIAS_RD_MASK (~BIT(6) & I2C_ANA_MST_ANA_CONF1_M)
#define REGI2C_BBPLL_RD_MASK (~BIT(7) & I2C_ANA_MST_ANA_CONF1_M)
#define REGI2C_ULP_CAL_RD_MASK (~BIT(8) & I2C_ANA_MST_ANA_CONF1_M)
#define REGI2C_SAR_I2C_RD_MASK (~BIT(9) & I2C_ANA_MST_ANA_CONF1_M)
#define REGI2C_DIG_REG_RD_MASK (~BIT(10) & I2C_ANA_MST_ANA_CONF1_M)
#define I2C_ANA_MST_I2C_CTRL_REG(n) (I2C_ANA_MST_I2C0_CTRL_REG + n*4) // 0: I2C_ANA_MST_I2C0_CTRL_REG; 1: I2C_ANA_MST_I2C1_CTRL_REG
#define REGI2C_RTC_BUSY (BIT(25))
#define REGI2C_RTC_BUSY_M (BIT(25))
#define REGI2C_RTC_BUSY_V 0x1
#define REGI2C_RTC_BUSY_S 25
#define REGI2C_RTC_WR_CNTL (BIT(24))
#define REGI2C_RTC_WR_CNTL_M (BIT(24))
#define REGI2C_RTC_WR_CNTL_V 0x1
#define REGI2C_RTC_WR_CNTL_S 24
#define REGI2C_RTC_DATA 0x000000FF
#define REGI2C_RTC_DATA_M ((I2C_RTC_DATA_V)<<(I2C_RTC_DATA_S))
#define REGI2C_RTC_DATA_V 0xFF
#define REGI2C_RTC_DATA_S 16
#define REGI2C_RTC_ADDR 0x000000FF
#define REGI2C_RTC_ADDR_M ((I2C_RTC_ADDR_V)<<(I2C_RTC_ADDR_S))
#define REGI2C_RTC_ADDR_V 0xFF
#define REGI2C_RTC_ADDR_S 8
#define REGI2C_RTC_SLAVE_ID 0x000000FF
#define REGI2C_RTC_SLAVE_ID_M ((I2C_RTC_SLAVE_ID_V)<<(I2C_RTC_SLAVE_ID_S))
#define REGI2C_RTC_SLAVE_ID_V 0xFF
#define REGI2C_RTC_SLAVE_ID_S 0
/* SLAVE */
#define REGI2C_BBPLL (0x66)
#define REGI2C_BBPLL_HOSTID 0
#define REGI2C_BIAS (0x6a)
#define REGI2C_BIAS_HOSTID 0
#define REGI2C_DIG_REG (0x6d)
#define REGI2C_DIG_REG_HOSTID 0
#define REGI2C_ULP_CAL (0x61)
#define REGI2C_ULP_CAL_HOSTID 0
#define REGI2C_SAR_I2C (0x69)
#define REGI2C_SAR_I2C_HOSTID 0
/* SLAVE END */
uint8_t esp_rom_regi2c_read(uint8_t block, uint8_t host_id, uint8_t reg_add) __attribute__((alias("regi2c_read_impl")));
uint8_t esp_rom_regi2c_read_mask(uint8_t block, uint8_t host_id, uint8_t reg_add, uint8_t msb, uint8_t lsb) __attribute__((alias("regi2c_read_mask_impl")));
void esp_rom_regi2c_write(uint8_t block, uint8_t host_id, uint8_t reg_add, uint8_t data) __attribute__((alias("regi2c_write_impl")));
void esp_rom_regi2c_write_mask(uint8_t block, uint8_t host_id, uint8_t reg_add, uint8_t msb, uint8_t lsb, uint8_t data) __attribute__((alias("regi2c_write_mask_impl")));
static IRAM_ATTR uint8_t regi2c_enable_block(uint8_t block)
{
uint32_t i2c_sel = 0;
REG_SET_BIT(MODEM_LPCON_CLK_CONF_REG, MODEM_LPCON_CLK_I2C_MST_EN);
REG_SET_BIT(MODEM_LPCON_I2C_MST_CLK_CONF_REG, MODEM_LPCON_CLK_I2C_MST_SEL_160M);
/* Before config I2C register, enable corresponding slave. */
switch (block) {
case REGI2C_BBPLL :
i2c_sel = REG_GET_BIT(I2C_ANA_MST_ANA_CONF2_REG, REGI2C_BBPLL_MST_SEL);
REG_WRITE(I2C_ANA_MST_ANA_CONF1_REG, REGI2C_BBPLL_RD_MASK);
break;
case REGI2C_BIAS :
i2c_sel = REG_GET_BIT(I2C_ANA_MST_ANA_CONF2_REG, REGI2C_BIAS_MST_SEL);
REG_WRITE(I2C_ANA_MST_ANA_CONF1_REG, REGI2C_BIAS_RD_MASK);
break;
case REGI2C_DIG_REG:
i2c_sel = REG_GET_BIT(I2C_ANA_MST_ANA_CONF2_REG, REGI2C_DIG_REG_MST_SEL);
REG_WRITE(I2C_ANA_MST_ANA_CONF1_REG, REGI2C_DIG_REG_RD_MASK);
break;
case REGI2C_ULP_CAL:
i2c_sel = REG_GET_BIT(I2C_ANA_MST_ANA_CONF2_REG, REGI2C_ULP_CAL_MST_SEL);
REG_WRITE(I2C_ANA_MST_ANA_CONF1_REG, REGI2C_ULP_CAL_RD_MASK);
break;
case REGI2C_SAR_I2C:
i2c_sel = REG_GET_BIT(I2C_ANA_MST_ANA_CONF2_REG, REGI2C_SAR_I2C_MST_SEL);
REG_WRITE(I2C_ANA_MST_ANA_CONF1_REG, REGI2C_SAR_I2C_RD_MASK);
break;
}
return (uint8_t)(i2c_sel ? 0: 1);
}
uint8_t IRAM_ATTR regi2c_read_impl(uint8_t block, uint8_t host_id, uint8_t reg_add)
{
(void)host_id;
uint8_t i2c_sel = regi2c_enable_block(block);
while (REG_GET_BIT(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_BUSY)); // wait i2c idle
uint32_t temp = ((block & REGI2C_RTC_SLAVE_ID_V) << REGI2C_RTC_SLAVE_ID_S)
| (reg_add & REGI2C_RTC_ADDR_V) << REGI2C_RTC_ADDR_S;
REG_WRITE(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), temp);
while (REG_GET_BIT(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_BUSY));
uint8_t ret = REG_GET_FIELD(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_DATA);
return ret;
}
uint8_t IRAM_ATTR regi2c_read_mask_impl(uint8_t block, uint8_t host_id, uint8_t reg_add, uint8_t msb, uint8_t lsb)
{
assert(msb - lsb < 8);
uint8_t i2c_sel = regi2c_enable_block(block);
(void)host_id;
while (REG_GET_BIT(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_BUSY)); // wait i2c idle
uint32_t temp = ((block & REGI2C_RTC_SLAVE_ID_V) << REGI2C_RTC_SLAVE_ID_S)
| (reg_add & REGI2C_RTC_ADDR_V) << REGI2C_RTC_ADDR_S;
REG_WRITE(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), temp);
while (REG_GET_BIT(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_BUSY));
uint32_t data = REG_GET_FIELD(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_DATA);
uint8_t ret = (uint8_t)((data >> lsb) & (~(0xFFFFFFFF << (msb - lsb + 1))));
return ret;
}
void IRAM_ATTR regi2c_write_impl(uint8_t block, uint8_t host_id, uint8_t reg_add, uint8_t data)
{
(void)host_id;
uint8_t i2c_sel = regi2c_enable_block(block);
while (REG_GET_BIT(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_BUSY)); // wait i2c idle
uint32_t temp = ((block & REGI2C_RTC_SLAVE_ID_V) << REGI2C_RTC_SLAVE_ID_S)
| ((reg_add & REGI2C_RTC_ADDR_V) << REGI2C_RTC_ADDR_S)
| ((0x1 & REGI2C_RTC_WR_CNTL_V) << REGI2C_RTC_WR_CNTL_S) // 0: READ I2C register; 1: Write I2C register;
| (((uint32_t)data & REGI2C_RTC_DATA_V) << REGI2C_RTC_DATA_S);
REG_WRITE(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), temp);
while (REG_GET_BIT(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_BUSY));
}
void IRAM_ATTR regi2c_write_mask_impl(uint8_t block, uint8_t host_id, uint8_t reg_add, uint8_t msb, uint8_t lsb, uint8_t data)
{
(void)host_id;
assert(msb - lsb < 8);
uint8_t i2c_sel = regi2c_enable_block(block);
while (REG_GET_BIT(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_BUSY));
/*Read the i2c bus register*/
uint32_t temp = ((block & REGI2C_RTC_SLAVE_ID_V) << REGI2C_RTC_SLAVE_ID_S)
| (reg_add & REGI2C_RTC_ADDR_V) << REGI2C_RTC_ADDR_S;
REG_WRITE(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), temp);
while (REG_GET_BIT(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_BUSY));
temp = REG_GET_FIELD(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_DATA);
/*Write the i2c bus register*/
temp &= ((~(0xFFFFFFFF << lsb)) | (0xFFFFFFFF << (msb + 1)));
temp = (((uint32_t)data & (~(0xFFFFFFFF << (msb - lsb + 1)))) << lsb) | temp;
temp = ((block & REGI2C_RTC_SLAVE_ID_V) << REGI2C_RTC_SLAVE_ID_S)
| ((reg_add & REGI2C_RTC_ADDR_V) << REGI2C_RTC_ADDR_S)
| ((0x1 & REGI2C_RTC_WR_CNTL_V) << REGI2C_RTC_WR_CNTL_S)
| ((temp & REGI2C_RTC_DATA_V) << REGI2C_RTC_DATA_S);
REG_WRITE(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), temp);
while (REG_GET_BIT(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_BUSY));
}

195
components/esp_rom/patches/esp_rom_regi2c_esp32c6.c
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@ -1,195 +0,0 @@
/*
* SPDX-FileCopyrightText: 2019-2022 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include "esp_rom_sys.h"
#include "esp_attr.h"
#include "soc/lp_i2c_ana_mst_reg.h"
#include "modem/modem_lpcon_reg.h"
/**
* BB - 0x67 - BIT0
* TXRF - 0x6B - BIT1
* SDM - 0x63 - BIT2
* PLL - 0x62 - BIT3
* BIAS - 0x6A - BIT4
* BBPLL - 0x66 - BIT5
* ULP - 0x61 - BIT6
* SAR - 0x69 - BIT7
* PMU - 0x6d - BIT8
*/
#define REGI2C_ULP_CAL_DEVICE_EN (BIT(6))
#define REGI2C_SAR_I2C_DEVICE_EN (BIT(7))
#define REGI2C_BBPLL_DEVICE_EN (BIT(5))
#define REGI2C_BIAS_DEVICE_EN (BIT(4))
#define REGI2C_DIG_REG_DEVICE_EN (BIT(8))
#define REGI2C_RTC_BUSY (BIT(25))
#define REGI2C_RTC_BUSY_M (BIT(25))
#define REGI2C_RTC_BUSY_V 0x1
#define REGI2C_RTC_BUSY_S 25
#define REGI2C_RTC_WR_CNTL (BIT(24))
#define REGI2C_RTC_WR_CNTL_M (BIT(24))
#define REGI2C_RTC_WR_CNTL_V 0x1
#define REGI2C_RTC_WR_CNTL_S 24
#define REGI2C_RTC_DATA 0x000000FF
#define REGI2C_RTC_DATA_M ((I2C_RTC_DATA_V)<<(I2C_RTC_DATA_S))
#define REGI2C_RTC_DATA_V 0xFF
#define REGI2C_RTC_DATA_S 16
#define REGI2C_RTC_ADDR 0x000000FF
#define REGI2C_RTC_ADDR_M ((I2C_RTC_ADDR_V)<<(I2C_RTC_ADDR_S))
#define REGI2C_RTC_ADDR_V 0xFF
#define REGI2C_RTC_ADDR_S 8
#define REGI2C_RTC_SLAVE_ID 0x000000FF
#define REGI2C_RTC_SLAVE_ID_M ((I2C_RTC_SLAVE_ID_V)<<(I2C_RTC_SLAVE_ID_S))
#define REGI2C_RTC_SLAVE_ID_V 0xFF
#define REGI2C_RTC_SLAVE_ID_S 0
/* SLAVE */
#define REGI2C_BBPLL (0x66)
#define REGI2C_BBPLL_HOSTID 0
#define REGI2C_BIAS (0x6a)
#define REGI2C_BIAS_HOSTID 0
#define REGI2C_DIG_REG (0x6d)
#define REGI2C_DIG_REG_HOSTID 0
#define REGI2C_ULP_CAL (0x61)
#define REGI2C_ULP_CAL_HOSTID 0
#define REGI2C_SAR_I2C (0x69)
#define REGI2C_SAR_I2C_HOSTID 0
/* SLAVE END */
#define REGI2C_RTC_MAGIC_DEFAULT (0x1C610)
static IRAM_ATTR void regi2c_enable_block(uint8_t block)
{
REG_SET_BIT(MODEM_LPCON_CLK_CONF_REG, MODEM_LPCON_CLK_I2C_MST_EN);
REG_SET_BIT(LP_I2C_ANA_MST_DATE_REG, LP_I2C_ANA_MST_I2C_MAT_CLK_EN);
/* Before config I2C register, enable corresponding slave. */
switch (block) {
case REGI2C_BBPLL :
REG_SET_BIT(LP_I2C_ANA_MST_DEVICE_EN_REG, REGI2C_BBPLL_DEVICE_EN);
break;
case REGI2C_BIAS :
REG_SET_BIT(LP_I2C_ANA_MST_DEVICE_EN_REG, REGI2C_BIAS_DEVICE_EN);
break;
case REGI2C_DIG_REG:
REG_SET_BIT(LP_I2C_ANA_MST_DEVICE_EN_REG, REGI2C_DIG_REG_DEVICE_EN);
break;
case REGI2C_ULP_CAL:
REG_SET_BIT(LP_I2C_ANA_MST_DEVICE_EN_REG, REGI2C_ULP_CAL_DEVICE_EN);
break;
case REGI2C_SAR_I2C:
REG_SET_BIT(LP_I2C_ANA_MST_DEVICE_EN_REG, REGI2C_SAR_I2C_DEVICE_EN);
break;
default:
return;
}
}
static IRAM_ATTR void regi2c_disable_block(uint8_t block)
{
switch (block) {
case REGI2C_BBPLL :
REG_CLR_BIT(LP_I2C_ANA_MST_DEVICE_EN_REG, REGI2C_BBPLL_DEVICE_EN);
break;
case REGI2C_BIAS :
REG_CLR_BIT(LP_I2C_ANA_MST_DEVICE_EN_REG, REGI2C_BIAS_DEVICE_EN);
break;
case REGI2C_DIG_REG:
REG_CLR_BIT(LP_I2C_ANA_MST_DEVICE_EN_REG, REGI2C_DIG_REG_DEVICE_EN);
break;
case REGI2C_ULP_CAL:
REG_CLR_BIT(LP_I2C_ANA_MST_DEVICE_EN_REG, REGI2C_ULP_CAL_DEVICE_EN);
break;
case REGI2C_SAR_I2C:
REG_CLR_BIT(LP_I2C_ANA_MST_DEVICE_EN_REG, REGI2C_SAR_I2C_DEVICE_EN);
break;
default:
return;
}
}
uint8_t IRAM_ATTR esp_rom_regi2c_read(uint8_t block, uint8_t host_id, uint8_t reg_add)
{
regi2c_enable_block(block);
(void)host_id;
uint32_t temp = ((block & REGI2C_RTC_SLAVE_ID_V) << REGI2C_RTC_SLAVE_ID_S)
| (reg_add & REGI2C_RTC_ADDR_V) << REGI2C_RTC_ADDR_S;
REG_WRITE(LP_I2C_ANA_MST_I2C0_CTRL_REG, temp);
while (REG_GET_BIT(LP_I2C_ANA_MST_I2C0_CTRL_REG, LP_I2C_ANA_MST_I2C0_BUSY));
uint8_t ret = REG_GET_FIELD(LP_I2C_ANA_MST_I2C0_DATA_REG, LP_I2C_ANA_MST_I2C0_RDATA);
regi2c_disable_block(block);
return ret;
}
uint8_t IRAM_ATTR esp_rom_regi2c_read_mask(uint8_t block, uint8_t host_id, uint8_t reg_add, uint8_t msb, uint8_t lsb)
{
assert(msb - lsb < 8);
regi2c_enable_block(block);
(void)host_id;
uint32_t temp = ((block & REGI2C_RTC_SLAVE_ID_V) << REGI2C_RTC_SLAVE_ID_S)
| (reg_add & REGI2C_RTC_ADDR_V) << REGI2C_RTC_ADDR_S;
REG_WRITE(LP_I2C_ANA_MST_I2C0_CTRL_REG, temp);
while (REG_GET_BIT(LP_I2C_ANA_MST_I2C0_CTRL_REG, LP_I2C_ANA_MST_I2C0_BUSY));
uint32_t data = REG_GET_FIELD(LP_I2C_ANA_MST_I2C0_DATA_REG, LP_I2C_ANA_MST_I2C0_RDATA);
uint8_t ret = (uint8_t)((data >> lsb) & (~(0xFFFFFFFF << (msb - lsb + 1))));
regi2c_disable_block(block);
return ret;
}
void IRAM_ATTR esp_rom_regi2c_write(uint8_t block, uint8_t host_id, uint8_t reg_add, uint8_t data)
{
(void)host_id;
regi2c_enable_block(block);
uint32_t temp = ((block & REGI2C_RTC_SLAVE_ID_V) << REGI2C_RTC_SLAVE_ID_S)
| ((reg_add & REGI2C_RTC_ADDR_V) << REGI2C_RTC_ADDR_S)
| ((0x1 & REGI2C_RTC_WR_CNTL_V) << REGI2C_RTC_WR_CNTL_S) // 0: READ I2C register; 1: Write I2C register;
| (((uint32_t)data & REGI2C_RTC_DATA_V) << REGI2C_RTC_DATA_S);
REG_WRITE(LP_I2C_ANA_MST_I2C0_CTRL_REG, temp);
while (REG_GET_BIT(LP_I2C_ANA_MST_I2C0_CTRL_REG, LP_I2C_ANA_MST_I2C0_BUSY));
regi2c_disable_block(block);
}
void IRAM_ATTR esp_rom_regi2c_write_mask(uint8_t block, uint8_t host_id, uint8_t reg_add, uint8_t msb, uint8_t lsb, uint8_t data)
{
(void)host_id;
assert(msb - lsb < 8);
regi2c_enable_block(block);
/*Read the i2c bus register*/
uint32_t temp = ((block & REGI2C_RTC_SLAVE_ID_V) << REGI2C_RTC_SLAVE_ID_S)
| (reg_add & REGI2C_RTC_ADDR_V) << REGI2C_RTC_ADDR_S;
REG_WRITE(LP_I2C_ANA_MST_I2C0_CTRL_REG, temp);
while (REG_GET_BIT(LP_I2C_ANA_MST_I2C0_CTRL_REG, LP_I2C_ANA_MST_I2C0_BUSY));
temp = REG_GET_FIELD(LP_I2C_ANA_MST_I2C0_DATA_REG, LP_I2C_ANA_MST_I2C0_RDATA);
/*Write the i2c bus register*/
temp &= ((~(0xFFFFFFFF << lsb)) | (0xFFFFFFFF << (msb + 1)));
temp = (((uint32_t)data & (~(0xFFFFFFFF << (msb - lsb + 1)))) << lsb) | temp;
temp = ((block & REGI2C_RTC_SLAVE_ID_V) << REGI2C_RTC_SLAVE_ID_S)
| ((reg_add & REGI2C_RTC_ADDR_V) << REGI2C_RTC_ADDR_S)
| ((0x1 & REGI2C_RTC_WR_CNTL_V) << REGI2C_RTC_WR_CNTL_S)
| ((temp & REGI2C_RTC_DATA_V) << REGI2C_RTC_DATA_S);
REG_WRITE(LP_I2C_ANA_MST_I2C0_CTRL_REG, temp);
while (REG_GET_BIT(LP_I2C_ANA_MST_I2C0_CTRL_REG, LP_I2C_ANA_MST_I2C0_BUSY));
regi2c_disable_block(block);
}

127
components/esp_rom/patches/esp_rom_regi2c_esp32h2.c
View File

@ -19,11 +19,20 @@
* SAR - 0x69 - BIT7
* PMU - 0x6d - BIT8
*/
#define REGI2C_ULP_CAL_DEVICE_EN (BIT(6) << 4)
#define REGI2C_SAR_I2C_DEVICE_EN (BIT(7) << 4)
#define REGI2C_BBPLL_DEVICE_EN (BIT(5) << 4)
#define REGI2C_BIAS_DEVICE_EN (BIT(4) << 4)
#define REGI2C_PMU_DEVICE_EN (BIT(8) << 4)
#define REGI2C_BIAS_MST_SEL (BIT(8))
#define REGI2C_BBPLL_MST_SEL (BIT(9))
#define REGI2C_ULP_CAL_MST_SEL (BIT(10))
#define REGI2C_SAR_I2C_MST_SEL (BIT(11))
#define REGI2C_DIG_REG_MST_SEL (BIT(12))
#define REGI2C_BIAS_RD_MASK (~BIT(6) & I2C_MST_ANA_CONF1_M)
#define REGI2C_BBPLL_RD_MASK (~BIT(7) & I2C_MST_ANA_CONF1_M)
#define REGI2C_ULP_CAL_RD_MASK (~BIT(8) & I2C_MST_ANA_CONF1_M)
#define REGI2C_SAR_I2C_RD_MASK (~BIT(9) & I2C_MST_ANA_CONF1_M)
#define REGI2C_DIG_REG_RD_MASK (~BIT(10) & I2C_MST_ANA_CONF1_M)
#define I2C_ANA_MST_I2C_CTRL_REG(n) (I2C_MST_I2C0_CTRL_REG + n*4) // 0: I2C_ANA_MST_I2C0_CTRL_REG; 1: I2C_ANA_MST_I2C1_CTRL_REG
#define REGI2C_RTC_BUSY (BIT(25))
#define REGI2C_RTC_BUSY_M (BIT(25))
@ -69,117 +78,103 @@
/* SLAVE END */
static IRAM_ATTR void regi2c_enable_block(uint8_t block)
uint8_t esp_rom_regi2c_read(uint8_t block, uint8_t host_id, uint8_t reg_add) __attribute__((alias("regi2c_read_impl")));
uint8_t esp_rom_regi2c_read_mask(uint8_t block, uint8_t host_id, uint8_t reg_add, uint8_t msb, uint8_t lsb) __attribute__((alias("regi2c_read_mask_impl")));
void esp_rom_regi2c_write(uint8_t block, uint8_t host_id, uint8_t reg_add, uint8_t data) __attribute__((alias("regi2c_write_impl")));
void esp_rom_regi2c_write_mask(uint8_t block, uint8_t host_id, uint8_t reg_add, uint8_t msb, uint8_t lsb, uint8_t data) __attribute__((alias("regi2c_write_mask_impl")));
static IRAM_ATTR uint8_t regi2c_enable_block(uint8_t block)
{
uint32_t i2c_sel = 0;
REG_SET_BIT(MODEM_LPCON_CLK_CONF_REG, MODEM_LPCON_CLK_I2C_MST_EN);
REG_SET_BIT(I2C_MST_DATE_REG, I2C_MST_CLK_EN);
REG_SET_FIELD(I2C_MST_ANA_CONF2_REG, I2C_MST_ANA_CONF2, 0);
/* Before config I2C register, enable corresponding slave. */
switch (block) {
case REGI2C_BBPLL :
REG_SET_BIT(I2C_MST_ANA_CONF2_REG, REGI2C_BBPLL_DEVICE_EN);
i2c_sel = REG_GET_BIT(I2C_MST_ANA_CONF2_REG, REGI2C_BBPLL_MST_SEL);
REG_WRITE(I2C_MST_ANA_CONF1_REG, REGI2C_BBPLL_RD_MASK);
break;
case REGI2C_BIAS :
REG_SET_BIT(I2C_MST_ANA_CONF2_REG, REGI2C_BIAS_DEVICE_EN);
break;
case REGI2C_PMU :
REG_SET_BIT(I2C_MST_ANA_CONF2_REG, REGI2C_PMU_DEVICE_EN);
break;
case REGI2C_ULP_CAL:
REG_SET_BIT(I2C_MST_ANA_CONF2_REG, REGI2C_ULP_CAL_DEVICE_EN);
break;
case REGI2C_SAR_I2C:
REG_SET_BIT(I2C_MST_ANA_CONF2_REG, REGI2C_SAR_I2C_DEVICE_EN);
break;
default:
return;
}
}
static IRAM_ATTR void regi2c_disable_block(uint8_t block)
{
switch (block) {
case REGI2C_BBPLL :
REG_SET_BIT(I2C_MST_ANA_CONF2_REG, REGI2C_BBPLL_DEVICE_EN);
break;
case REGI2C_BIAS :
REG_SET_BIT(I2C_MST_ANA_CONF2_REG, REGI2C_BIAS_DEVICE_EN);
i2c_sel = REG_GET_BIT(I2C_MST_ANA_CONF2_REG, REGI2C_BIAS_MST_SEL);
REG_WRITE(I2C_MST_ANA_CONF1_REG, REGI2C_BIAS_RD_MASK);
break;
case REGI2C_PMU:
REG_SET_BIT(I2C_MST_ANA_CONF2_REG, REGI2C_PMU_DEVICE_EN);
i2c_sel = REG_GET_BIT(I2C_MST_ANA_CONF2_REG, REGI2C_DIG_REG_MST_SEL);
REG_WRITE(I2C_MST_ANA_CONF1_REG, REGI2C_DIG_REG_RD_MASK);
break;
case REGI2C_ULP_CAL:
REG_SET_BIT(I2C_MST_ANA_CONF2_REG, REGI2C_ULP_CAL_DEVICE_EN);
i2c_sel = REG_GET_BIT(I2C_MST_ANA_CONF2_REG, REGI2C_ULP_CAL_MST_SEL);
REG_WRITE(I2C_MST_ANA_CONF1_REG, REGI2C_ULP_CAL_RD_MASK);
break;
case REGI2C_SAR_I2C:
REG_SET_BIT(I2C_MST_ANA_CONF2_REG, REGI2C_SAR_I2C_DEVICE_EN);
i2c_sel = REG_GET_BIT(I2C_MST_ANA_CONF2_REG, REGI2C_SAR_I2C_MST_SEL);
REG_WRITE(I2C_MST_ANA_CONF1_REG, REGI2C_SAR_I2C_RD_MASK);
break;
default:
return;
}
return (uint8_t)(i2c_sel ? 0: 1);
}
uint8_t IRAM_ATTR esp_rom_regi2c_read(uint8_t block, uint8_t host_id, uint8_t reg_add)
uint8_t IRAM_ATTR regi2c_read_impl(uint8_t block, uint8_t host_id, uint8_t reg_add)
{
regi2c_enable_block(block);
(void)host_id;
uint8_t i2c_sel = regi2c_enable_block(block);
while (REG_GET_BIT(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_BUSY)); // wait i2c idle
uint32_t temp = ((block & REGI2C_RTC_SLAVE_ID_V) << REGI2C_RTC_SLAVE_ID_S)
| (reg_add & REGI2C_RTC_ADDR_V) << REGI2C_RTC_ADDR_S;
REG_WRITE(I2C_MST_I2C0_CTRL_REG, temp);
while (REG_GET_BIT(I2C_MST_I2C0_CTRL_REG, REGI2C_RTC_BUSY));
uint8_t ret = REG_GET_FIELD(I2C_MST_I2C0_CTRL_REG, REGI2C_RTC_DATA);
regi2c_disable_block(block);
REG_WRITE(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), temp);
while (REG_GET_BIT(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_BUSY));
uint8_t ret = REG_GET_FIELD(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_DATA);
return ret;
}
uint8_t IRAM_ATTR esp_rom_regi2c_read_mask(uint8_t block, uint8_t host_id, uint8_t reg_add, uint8_t msb, uint8_t lsb)
uint8_t IRAM_ATTR regi2c_read_mask_impl(uint8_t block, uint8_t host_id, uint8_t reg_add, uint8_t msb, uint8_t lsb)
{
assert(msb - lsb < 8);
regi2c_enable_block(block);
uint8_t i2c_sel = regi2c_enable_block(block);
(void)host_id;
while (REG_GET_BIT(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_BUSY)); // wait i2c idle
uint32_t temp = ((block & REGI2C_RTC_SLAVE_ID_V) << REGI2C_RTC_SLAVE_ID_S)
| (reg_add & REGI2C_RTC_ADDR_V) << REGI2C_RTC_ADDR_S;
REG_WRITE(I2C_MST_I2C0_CTRL_REG, temp);
while (REG_GET_BIT(I2C_MST_I2C0_CTRL_REG, REGI2C_RTC_BUSY));
uint32_t data = REG_GET_FIELD(I2C_MST_I2C0_CTRL_REG, REGI2C_RTC_DATA);
REG_WRITE(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), temp);
while (REG_GET_BIT(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_BUSY));
uint32_t data = REG_GET_FIELD(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_DATA);
uint8_t ret = (uint8_t)((data >> lsb) & (~(0xFFFFFFFF << (msb - lsb + 1))));
regi2c_disable_block(block);
return ret;
}
void IRAM_ATTR esp_rom_regi2c_write(uint8_t block, uint8_t host_id, uint8_t reg_add, uint8_t data)
void IRAM_ATTR regi2c_write_impl(uint8_t block, uint8_t host_id, uint8_t reg_add, uint8_t data)
{
(void)host_id;
regi2c_enable_block(block);
uint8_t i2c_sel = regi2c_enable_block(block);
while (REG_GET_BIT(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_BUSY)); // wait i2c idle
uint32_t temp = ((block & REGI2C_RTC_SLAVE_ID_V) << REGI2C_RTC_SLAVE_ID_S)
| ((reg_add & REGI2C_RTC_ADDR_V) << REGI2C_RTC_ADDR_S)
| ((0x1 & REGI2C_RTC_WR_CNTL_V) << REGI2C_RTC_WR_CNTL_S) // 0: READ I2C register; 1: Write I2C register;
| (((uint32_t)data & REGI2C_RTC_DATA_V) << REGI2C_RTC_DATA_S);
REG_WRITE(I2C_MST_I2C0_CTRL_REG, temp);
while (REG_GET_BIT(I2C_MST_I2C0_CTRL_REG, REGI2C_RTC_BUSY));
REG_WRITE(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), temp);
while (REG_GET_BIT(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_BUSY));
regi2c_disable_block(block);
}
void IRAM_ATTR esp_rom_regi2c_write_mask(uint8_t block, uint8_t host_id, uint8_t reg_add, uint8_t msb, uint8_t lsb, uint8_t data)
void IRAM_ATTR regi2c_write_mask_impl(uint8_t block, uint8_t host_id, uint8_t reg_add, uint8_t msb, uint8_t lsb, uint8_t data)
{
(void)host_id;
assert(msb - lsb < 8);
regi2c_enable_block(block);
uint8_t i2c_sel = regi2c_enable_block(block);
while (REG_GET_BIT(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_BUSY));
/*Read the i2c bus register*/
uint32_t temp = ((block & REGI2C_RTC_SLAVE_ID_V) << REGI2C_RTC_SLAVE_ID_S)
| (reg_add & REGI2C_RTC_ADDR_V) << REGI2C_RTC_ADDR_S;
REG_WRITE(I2C_MST_I2C0_CTRL_REG, temp);
while (REG_GET_BIT(I2C_MST_I2C0_CTRL_REG, REGI2C_RTC_BUSY));
temp = REG_GET_FIELD(I2C_MST_I2C0_CTRL_REG, REGI2C_RTC_DATA);
REG_WRITE(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), temp);
while (REG_GET_BIT(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_BUSY));
temp = REG_GET_FIELD(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_DATA);
/*Write the i2c bus register*/
temp &= ((~(0xFFFFFFFF << lsb)) | (0xFFFFFFFF << (msb + 1)));
temp = (((uint32_t)data & (~(0xFFFFFFFF << (msb - lsb + 1)))) << lsb) | temp;
@ -187,8 +182,6 @@ void IRAM_ATTR esp_rom_regi2c_write_mask(uint8_t block, uint8_t host_id, uint8_t
| ((reg_add & REGI2C_RTC_ADDR_V) << REGI2C_RTC_ADDR_S)
| ((0x1 & REGI2C_RTC_WR_CNTL_V) << REGI2C_RTC_WR_CNTL_S)
| ((temp & REGI2C_RTC_DATA_V) << REGI2C_RTC_DATA_S);
REG_WRITE(I2C_MST_I2C0_CTRL_REG, temp);
while (REG_GET_BIT(I2C_MST_I2C0_CTRL_REG, REGI2C_RTC_BUSY));
regi2c_disable_block(block);
REG_WRITE(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), temp);
while (REG_GET_BIT(I2C_ANA_MST_I2C_CTRL_REG(i2c_sel), REGI2C_RTC_BUSY));
}

260
components/soc/esp32c6/include/soc/i2c_ana_mst_reg.h
View File

@ -13,91 +13,207 @@
extern "C" {
#endif
#define I2C_ANA_MST_I2C0_CTRL_REG (DR_REG_I2C_ANA_MST_BASE + 0x0000)
#define I2C_ANA_MST_I2C0_BUSY (BIT(25))
#define I2C_ANA_MST_I2C0_BUSY_S 25
#define I2C_ANA_MST_I2C0_CTRL 0x01FFFFFF
#define I2C_ANA_MST_I2C0_CTRL_S 0
#define I2C_ANA_MST_I2C0_CTRL_REG (DR_REG_I2C_ANA_MST_BASE + 0x0)
/* I2C_MST_I2C0_BUSY : RO ;bitpos:[25] ;default: 1'h0 ; */
/*description: .*/
#define I2C_ANA_MST_I2C0_BUSY (BIT(25))
#define I2C_ANA_MST_I2C0_BUSY_M (BIT(25))
#define I2C_ANA_MST_I2C0_BUSY_V 0x1
#define I2C_ANA_MST_I2C0_BUSY_S 25
/* I2C_MST_I2C0_CTRL : R/W ;bitpos:[24:0] ;default: 25'h0 ; */
/*description: .*/
#define I2C_ANA_MST_I2C0_CTRL 0x01FFFFFF
#define I2C_ANA_MST_I2C0_CTRL_M ((I2C_MST_I2C0_CTRL_V)<<(I2C_MST_I2C0_CTRL_S))
#define I2C_ANA_MST_I2C0_CTRL_V 0x1FFFFFF
#define I2C_ANA_MST_I2C0_CTRL_S 0
#define I2C_ANA_MST_I2C1_CTRL_REG (DR_REG_I2C_ANA_MST_BASE + 0x0004)
#define I2C_ANA_MST_I2C1_BUSY (BIT(25))
#define I2C_ANA_MST_I2C1_BUSY_S 25
#define I2C_ANA_MST_I2C1_CTRL 0x01FFFFFF
#define I2C_ANA_MST_I2C1_CTRL_S 0
#define I2C_ANA_MST_I2C1_CTRL_REG (DR_REG_I2C_ANA_MST_BASE + 0x4)
/* I2C_MST_I2C1_BUSY : RO ;bitpos:[25] ;default: 1'h0 ; */
/*description: .*/
#define I2C_ANA_MST_I2C1_BUSY (BIT(25))
#define I2C_ANA_MST_I2C1_BUSY_M (BIT(25))
#define I2C_ANA_MST_I2C1_BUSY_V 0x1
#define I2C_ANA_MST_I2C1_BUSY_S 25
/* I2C_MST_I2C1_CTRL : R/W ;bitpos:[24:0] ;default: 25'h0 ; */
/*description: .*/
#define I2C_ANA_MST_I2C1_CTRL 0x01FFFFFF
#define I2C_ANA_MST_I2C1_CTRL_M ((I2C_MST_I2C1_CTRL_V)<<(I2C_MST_I2C1_CTRL_S))
#define I2C_ANA_MST_I2C1_CTRL_V 0x1FFFFFF
#define I2C_ANA_MST_I2C1_CTRL_S 0
#define I2C_ANA_MST_I2C0_CONF_REG (DR_REG_I2C_ANA_MST_BASE + 0x0008)
#define I2C_ANA_MST_I2C0_STATUS 0x000000FF
#define I2C_ANA_MST_I2C0_STATUS_S 24
#define I2C_ANA_MST_I2C0_CONF 0x00FFFFFF
#define I2C_ANA_MST_I2C0_CONF_S 0
#define I2C_ANA_MST_I2C0_CONF_REG (DR_REG_I2C_ANA_MST_BASE + 0x8)
/* I2C_MST_I2C0_STATUS : RO ;bitpos:[31:24] ;default: 8'h0 ; */
/*description: .*/
#define I2C_ANA_MST_I2C0_STATUS 0x000000FF
#define I2C_ANA_MST_I2C0_STATUS_M ((I2C_MST_I2C0_STATUS_V)<<(I2C_MST_I2C0_STATUS_S))
#define I2C_ANA_MST_I2C0_STATUS_V 0xFF
#define I2C_ANA_MST_I2C0_STATUS_S 24
/* I2C_MST_I2C0_CONF : R/W ;bitpos:[23:0] ;default: 24'h0 ; */
/*description: .*/
#define I2C_ANA_MST_I2C0_CONF 0x00FFFFFF
#define I2C_ANA_MST_I2C0_CONF_M ((I2C_MST_I2C0_CONF_V)<<(I2C_MST_I2C0_CONF_S))
#define I2C_ANA_MST_I2C0_CONF_V 0xFFFFFF
#define I2C_ANA_MST_I2C0_CONF_S 0
#define I2C_ANA_MST_I2C1_CONF_REG (DR_REG_I2C_ANA_MST_BASE + 0x000C)
#define I2C_ANA_MST_I2C1_STATUS 0x000000FF
#define I2C_ANA_MST_I2C1_STATUS_S 24
#define I2C_ANA_MST_I2C1_CONF 0x00FFFFFF
#define I2C_ANA_MST_I2C1_CONF_S 0
#define I2C_ANA_MST_I2C1_CONF_REG (DR_REG_I2C_ANA_MST_BASE + 0xC)
/* I2C_MST_I2C1_STATUS : RO ;bitpos:[31:24] ;default: 8'h0 ; */
/*description: .*/
#define I2C_ANA_MST_I2C1_STATUS 0x000000FF
#define I2C_ANA_MST_I2C1_STATUS_M ((I2C_MST_I2C1_STATUS_V)<<(I2C_MST_I2C1_STATUS_S))
#define I2C_ANA_MST_I2C1_STATUS_V 0xFF
#define I2C_ANA_MST_I2C1_STATUS_S 24
/* I2C_MST_I2C1_CONF : R/W ;bitpos:[23:0] ;default: 24'h0 ; */
/*description: .*/
#define I2C_ANA_MST_I2C1_CONF 0x00FFFFFF
#define I2C_ANA_MST_I2C1_CONF_M ((I2C_MST_I2C1_CONF_V)<<(I2C_MST_I2C1_CONF_S))
#define I2C_ANA_MST_I2C1_CONF_V 0xFFFFFF
#define I2C_ANA_MST_I2C1_CONF_S 0
#define I2C_ANA_MST_I2C_BURST_CONF_REG (DR_REG_I2C_ANA_MST_BASE + 0x0010)
#define I2C_ANA_MST_BURST_CTRL 0xFFFFFFFF
#define I2C_ANA_MST_BURST_CTRL_S 0
#define I2C_ANA_MST_I2C_BURST_CONF_REG (DR_REG_I2C_ANA_MST_BASE + 0x10)
/* I2C_MST_BURST_CTRL : R/W ;bitpos:[31:0] ;default: 32'h0 ; */
/*description: .*/
#define I2C_ANA_MST_BURST_CTRL 0xFFFFFFFF
#define I2C_ANA_MST_BURST_CTRL_M ((I2C_MST_BURST_CTRL_V)<<(I2C_MST_BURST_CTRL_S))
#define I2C_ANA_MST_BURST_CTRL_V 0xFFFFFFFF
#define I2C_ANA_MST_BURST_CTRL_S 0
#define I2C_ANA_MST_I2C_BURST_STATUS_REG (DR_REG_I2C_ANA_MST_BASE + 0x0014)
#define I2C_ANA_MST_BURST_TIMEOUT_CNT 0x00000FFF
#define I2C_ANA_MST_BURST_TIMEOUT_CNT_S 20
#define I2C_ANA_MST1_BURST_ERR_FLAG (BIT(2))
#define I2C_ANA_MST1_BURST_ERR_FLAG_S 2
#define I2C_ANA_MST0_BURST_ERR_FLAG (BIT(1))
#define I2C_ANA_MST0_BURST_ERR_FLAG_S 1
#define I2C_ANA_MST_BURST_DONE (BIT(0))
#define I2C_ANA_MST_BURST_DONE_S 0
#define I2C_ANA_MST_I2C_BURST_STATUS_REG (DR_REG_I2C_ANA_MST_BASE + 0x14)
/* I2C_MST_BURST_TIMEOUT_CNT : R/W ;bitpos:[31:20] ;default: 12'h400 ; */
/*description: .*/
#define I2C_ANA_MST_BURST_TIMEOUT_CNT 0x00000FFF
#define I2C_ANA_MST_BURST_TIMEOUT_CNT_M ((I2C_MST_BURST_TIMEOUT_CNT_V)<<(I2C_MST_BURST_TIMEOUT_CNT_S))
#define I2C_ANA_MST_BURST_TIMEOUT_CNT_V 0xFFF
#define I2C_ANA_MST_BURST_TIMEOUT_CNT_S 20
/* I2C_MST1_BURST_ERR_FLAG : RO ;bitpos:[2] ;default: 1'b0 ; */
/*description: .*/
#define I2C_ANA_MST1_BURST_ERR_FLAG (BIT(2))
#define I2C_ANA_MST1_BURST_ERR_FLAG_M (BIT(2))
#define I2C_ANA_MST1_BURST_ERR_FLAG_V 0x1
#define I2C_ANA_MST1_BURST_ERR_FLAG_S 2
/* I2C_MST0_BURST_ERR_FLAG : RO ;bitpos:[1] ;default: 1'b0 ; */
/*description: .*/
#define I2C_ANA_MST0_BURST_ERR_FLAG (BIT(1))
#define I2C_ANA_MST0_BURST_ERR_FLAG_M (BIT(1))
#define I2C_ANA_MST0_BURST_ERR_FLAG_V 0x1
#define I2C_ANA_MST0_BURST_ERR_FLAG_S 1
/* I2C_MST_BURST_DONE : RO ;bitpos:[0] ;default: 1'b0 ; */
/*description: .*/
#define I2C_ANA_MST_BURST_DONE (BIT(0))
#define I2C_ANA_MST_BURST_DONE_M (BIT(0))
#define I2C_ANA_MST_BURST_DONE_V 0x1
#define I2C_ANA_MST_BURST_DONE_S 0
#define I2C_ANA_MST_ANA_CONF0_REG (DR_REG_I2C_ANA_MST_BASE + 0x0018)
#define I2C_ANA_MST_ANA_STATUS0 0x000000FF
#define I2C_ANA_MST_ANA_STATUS0_S 24
#define I2C_ANA_MST_ANA_CONF0 0x00FFFFFF
#define I2C_ANA_MST_ANA_CONF0_S 0
#define I2C_ANA_MST_ANA_CONF0_REG (DR_REG_I2C_ANA_MST_BASE + 0x18)
/* I2C_ANA_MST_STATUS0 : RO ;bitpos:[31:24] ;default: 8'h0 ; */
/*description: .*/
#define I2C_ANA_MST_ANA_STATUS0 0x000000FF
#define I2C_ANA_MST_ANA_STATUS0_M ((I2C_ANA_MST_STATUS0_V)<<(I2C_ANA_MST_STATUS0_S))
#define I2C_ANA_MST_ANA_STATUS0_V 0xFF
#define I2C_ANA_MST_ANA_STATUS0_S 24
/* I2C_ANA_MST_ANA_CONF0 : R/W ;bitpos:[23:0] ;default: 24'h00_e408 ; */
/*description: .*/
#define I2C_ANA_MST_ANA_CONF0 0x00FFFFFF
#define I2C_ANA_MST_ANA_CONF0_M ((I2C_ANA_MST_ANA_CONF0_V)<<(I2C_ANA_MST_ANA_CONF0_S))
#define I2C_ANA_MST_ANA_CONF0_V 0xFFFFFF
#define I2C_ANA_MST_ANA_CONF0_S 0
#define I2C_ANA_MST_ANA_CONF1_REG (DR_REG_I2C_ANA_MST_BASE + 0x001C)
#define I2C_ANA_MST_ANA_STATUS1 0x000000FF
#define I2C_ANA_MST_ANA_STATUS1_S 24
#define I2C_ANA_MST_ANA_CONF1 0x00FFFFFF
#define I2C_ANA_MST_ANA_CONF1_S 0
#define I2C_ANA_MST_ANA_CONF1_REG (DR_REG_I2C_ANA_MST_BASE + 0x1C)
/* I2C_ANA_MST_STATUS1 : RO ;bitpos:[31:24] ;default: 8'h0 ; */
/*description: .*/
#define I2C_ANA_MST_ANA_STATUS1 0x000000FF
#define I2C_ANA_MST_ANA_STATUS1_M ((I2C_ANA_MST_STATUS1_V)<<(I2C_ANA_MST_STATUS1_S))
#define I2C_ANA_MST_ANA_STATUS1_V 0xFF
#define I2C_ANA_MST_ANA_STATUS1_S 24
/* I2C_MST_AANA_NA_CONF1 : R/W ;bitpos:[23:0] ;default: 24'h00_002d ; */
/*description: .*/
#define I2C_ANA_MST_ANA_CONF1 0x00FFFFFF
#define I2C_ANA_MST_ANA_CONF1_M ((I2C_ANA_MST_ANA_CONF1_V)<<(I2C_ANA_MST_ANA_CONF1_S))
#define I2C_ANA_MST_ANA_CONF1_V 0xFFFFFF
#define I2C_ANA_MST_ANA_CONF1_S 0
#define I2C_ANA_MST_ANA_CONF2_REG (DR_REG_I2C_ANA_MST_BASE + 0x0020)
#define I2C_ANA_MST_ANA_STATUS2 0x000000FF
#define I2C_ANA_MST_ANA_STATUS2_S 24
#define I2C_ANA_MST_ANA_CONF2 0x00FFFFFF
#define I2C_ANA_MST_ANA_CONF2_S 0
#define I2C_ANA_MST_ANA_CONF2_REG (DR_REG_I2C_ANA_MST_BASE + 0x20)
/* I2C_ANA_MST_STATUS2 : RO ;bitpos:[31:24] ;default: 8'h0 ; */
/*description: .*/
#define I2C_ANA_MST_ANA_STATUS2 0x000000FF
#define I2C_ANA_MST_ANA_STATUS2_M ((I2C_ANA_MST_STATUS2_V)<<(I2C_ANA_MST_STATUS2_S))
#define I2C_ANA_MST_ANA_STATUS2_V 0xFF
#define I2C_ANA_MST_ANA_STATUS2_S 24
/* I2C_ANA_MST_ANA_CONF2 : R/W ;bitpos:[23:0] ;default: 24'h00_0004 ; */
/*description: .*/
#define I2C_ANA_MST_ANA_CONF2 0x00FFFFFF
#define I2C_ANA_MST_ANA_CONF2_M ((I2C_ANA_MST_ANA_CONF2_V)<<(I2C_ANA_MST_ANA_CONF2_S))
#define I2C_ANA_MST_ANA_CONF2_V 0xFFFFFF
#define I2C_ANA_MST_ANA_CONF2_S 0
#define I2C_ANA_MST_I2C0_CTRL1_REG (DR_REG_I2C_ANA_MST_BASE + 0x0024)
#define I2C_ANA_MST_I2C0_SDA_SIDE_GUARD 0x0000001F
#define I2C_ANA_MST_I2C0_SDA_SIDE_GUARD_S 6
#define I2C_ANA_MST_I2C0_SCL_PULSE_DUR 0x0000003F
#define I2C_ANA_MST_I2C0_SCL_PULSE_DUR_S 0
#define I2C_ANA_MST_I2C0_CTRL1_REG (DR_REG_I2C_ANA_MST_BASE + 0x24)
/* I2C_MST_I2C0_SDA_SIDE_GUARD : R/W ;bitpos:[10:6] ;default: 5'h1 ; */
/*description: .*/
#define I2C_ANA_MST_I2C0_SDA_SIDE_GUARD 0x0000001F
#define I2C_ANA_MST_I2C0_SDA_SIDE_GUARD_M ((I2C_MST_I2C0_SDA_SIDE_GUARD_V)<<(I2C_MST_I2C0_SDA_SIDE_GUARD_S))
#define I2C_ANA_MST_I2C0_SDA_SIDE_GUARD_V 0x1F
#define I2C_ANA_MST_I2C0_SDA_SIDE_GUARD_S 6
/* I2C_MST_I2C0_SCL_PULSE_DUR : R/W ;bitpos:[5:0] ;default: 6'h2 ; */
/*description: .*/
#define I2C_ANA_MST_I2C0_SCL_PULSE_DUR 0x0000003F
#define I2C_ANA_MST_I2C0_SCL_PULSE_DUR_M ((I2C_MST_I2C0_SCL_PULSE_DUR_V)<<(I2C_MST_I2C0_SCL_PULSE_DUR_S))
#define I2C_ANA_MST_I2C0_SCL_PULSE_DUR_V 0x3F
#define I2C_ANA_MST_I2C0_SCL_PULSE_DUR_S 0
#define I2C_ANA_MST_I2C1_CTRL1_REG (DR_REG_I2C_ANA_MST_BASE + 0x0028)
#define I2C_ANA_MST_I2C1_SDA_SIDE_GUARD 0x0000001F
#define I2C_ANA_MST_I2C1_SDA_SIDE_GUARD_S 6
#define I2C_ANA_MST_I2C1_SCL_PULSE_DUR 0x0000003F
#define I2C_ANA_MST_I2C1_SCL_PULSE_DUR_S 0
#define I2C_ANA_MST_I2C1_CTRL1_REG (DR_REG_I2C_ANA_MST_BASE + 0x28)
/* I2C_MST_I2C1_SDA_SIDE_GUARD : R/W ;bitpos:[10:6] ;default: 5'h1 ; */
/*description: .*/
#define I2C_ANA_MST_I2C1_SDA_SIDE_GUARD 0x0000001F
#define I2C_ANA_MST_I2C1_SDA_SIDE_GUARD_M ((I2C_MST_I2C1_SDA_SIDE_GUARD_V)<<(I2C_MST_I2C1_SDA_SIDE_GUARD_S))
#define I2C_ANA_MST_I2C1_SDA_SIDE_GUARD_V 0x1F
#define I2C_ANA_MST_I2C1_SDA_SIDE_GUARD_S 6
/* I2C_MST_I2C1_SCL_PULSE_DUR : R/W ;bitpos:[5:0] ;default: 6'h2 ; */
/*description: .*/
#define I2C_ANA_MST_I2C1_SCL_PULSE_DUR 0x0000003F
#define I2C_ANA_MST_I2C1_SCL_PULSE_DUR_M ((I2C_MST_I2C1_SCL_PULSE_DUR_V)<<(I2C_MST_I2C1_SCL_PULSE_DUR_S))
#define I2C_ANA_MST_I2C1_SCL_PULSE_DUR_V 0x3F
#define I2C_ANA_MST_I2C1_SCL_PULSE_DUR_S 0
#define I2C_ANA_MST_HW_I2C_CTRL_REG (DR_REG_I2C_ANA_MST_BASE + 0x002C)
#define I2C_ANA_MST_ARBITER_DIS (BIT(11))
#define I2C_ANA_MST_ARBITER_DIS_S 11
#define I2C_ANA_MST_HW_I2C_SDA_SIDE_GUARD 0x0000001F
#define I2C_ANA_MST_HW_I2C_SDA_SIDE_GUARD_S 6
#define I2C_ANA_MST_HW_I2C_SCL_PULSE_DUR 0x0000003F
#define I2C_ANA_MST_HW_I2C_SCL_PULSE_DUR_S 0
#define I2C_ANA_MST_HW_I2C_CTRL_REG (DR_REG_I2C_ANA_MST_BASE + 0x2C)
/* I2C_MST_ARBITER_DIS : R/W ;bitpos:[11] ;default: 1'h0 ; */
/*description: .*/
#define I2C_ANA_MST_ARBITER_DIS (BIT(11))
#define I2C_ANA_MST_ARBITER_DIS_M (BIT(11))
#define I2C_ANA_MST_ARBITER_DIS_V 0x1
#define I2C_ANA_MST_ARBITER_DIS_S 11
/* I2C_MST_HW_I2C_SDA_SIDE_GUARD : R/W ;bitpos:[10:6] ;default: 5'h1 ; */
/*description: .*/
#define I2C_ANA_MST_HW_I2C_SDA_SIDE_GUARD 0x0000001F
#define I2C_ANA_MST_HW_I2C_SDA_SIDE_GUARD_M ((I2C_MST_HW_I2C_SDA_SIDE_GUARD_V)<<(I2C_MST_HW_I2C_SDA_SIDE_GUARD_S))
#define I2C_ANA_MST_HW_I2C_SDA_SIDE_GUARD_V 0x1F
#define I2C_ANA_MST_HW_I2C_SDA_SIDE_GUARD_S 6
/* I2C_MST_HW_I2C_SCL_PULSE_DUR : R/W ;bitpos:[5:0] ;default: 6'h2 ; */
/*description: .*/
#define I2C_ANA_MST_HW_I2C_SCL_PULSE_DUR 0x0000003F
#define I2C_ANA_MST_HW_I2C_SCL_PULSE_DUR_M ((I2C_MST_HW_I2C_SCL_PULSE_DUR_V)<<(I2C_MST_HW_I2C_SCL_PULSE_DUR_S))
#define I2C_ANA_MST_HW_I2C_SCL_PULSE_DUR_V 0x3F
#define I2C_ANA_MST_HW_I2C_SCL_PULSE_DUR_S 0
#define I2C_ANA_MST_NOUSE_REG (DR_REG_I2C_ANA_MST_BASE + 0x0030)
#define I2C_ANA_MST_NOUSE 0xFFFFFFFF
#define I2C_ANA_MST_NOUSE_S 0
#define I2C_ANA_MST_NOUSE_REG (DR_REG_I2C_ANA_MST_BASE + 0x30)
/* I2C_MST_NOUSE : R/W ;bitpos:[31:0] ;default: 32'h0 ; */
/*description: .*/
#define I2C_ANA_MST_NOUSE 0xFFFFFFFF
#define I2C_ANA_MST_NOUSE_M ((I2C_MST_NOUSE_V)<<(I2C_MST_NOUSE_S))
#define I2C_ANA_MST_NOUSE_V 0xFFFFFFFF
#define I2C_ANA_MST_NOUSE_S 0
#define I2C_ANA_MST_DATE_REG (DR_REG_I2C_ANA_MST_BASE + 0x0034)
#define I2C_ANA_MST_CLK_EN (BIT(28))
#define I2C_ANA_MST_CLK_EN_S 28
#define I2C_ANA_MST_DATE 0x0FFFFFFF
#define I2C_ANA_MST_DATE_S 0
#define I2C_ANA_MST_DATE_REG (DR_REG_I2C_ANA_MST_BASE + 0x34)
/* I2C_MST_CLK_EN : R/W ;bitpos:[28] ;default: 1'h0 ; */
/*description: .*/
#define I2C_ANA_MST_CLK_EN (BIT(28))
#define I2C_ANA_MST_CLK_EN_M (BIT(28))
#define I2C_ANA_MST_CLK_EN_V 0x1
#define I2C_ANA_MST_CLK_EN_S 28
/* I2C_MST_DATE : R/W ;bitpos:[27:0] ;default: 28'h2201300 ; */
/*description: .*/
#define I2C_ANA_MST_DATE 0x0FFFFFFF
#define I2C_ANA_MST_DATE_M ((I2C_MST_DATE_V)<<(I2C_MST_DATE_S))
#define I2C_ANA_MST_DATE_V 0xFFFFFFF
#define I2C_ANA_MST_DATE_S 0
#ifdef __cplusplus
}