/* * SPDX-FileCopyrightText: 2023-2024 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)); }