esp-idf/components/esp_phy/include/esp_private/phy.h

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/*
* SPDX-FileCopyrightText: 2015-2022 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
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#pragma once
#include "esp_phy_init.h"
#ifdef __cplusplus
extern "C" {
#endif
#define ESP_CAL_DATA_CHECK_FAIL 1
auto beacon: support esp32c6 autobeacon (advanced DTIM sleep feature) modem retention: Support esp32c6 wifi MAC and baseband sleep retention sleep_modem: wifi MAC modem wakeup protect in modem state before PMU trigger sleep enable request sleep modem: provide a interface to get whether the Modem power domain is allowed to power off during sleep add i2c_ana master header file to project auto beacon: release PMU's lock on root clock source (it is locked in the PLL) wifi receiving beacon frame in PMU modem state strongly depends on the BBPLL clock, PMU will forcibly lock the root clock source as PLL, when the root clock source of the software system is selected as PLL, we need to release the root clock source locking. When it is judged that the PLL is locked by PMU after wakeing up from the PMU modem state, switch the root clock source to the PLL in the sleep process (a critical section). auto beacon: fix the failure to receive broadcast/multicast frames in modem state When the multicast field in the beacon frame received in the PMU modem state is True, the PMU switches to the PMU active state (the PMU waits for the HP LDO to stabilize and then restores the MAC context) and starts to receive broadcast/multicast frames (Broadcast/Multicast frames will be sent after a minimum delay of 48 us after the beacon frame), because the PMU waits for the HP LDO to stabilize too long (~154 us), which will cause broadcast/multicast frame reception to be missed. auto beacon: select the PLL clock source as the REGDMA backup clock source when the PMU switches to ACTIVE from MODEM state update Digital Peripheral (M2A switch) REGDMA restore time parameter auto beacon: fix the issue that only channel 1 can connect to AP in modem state
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typedef enum {
PHY_I2C_MST_CMD_TYPE_OFF = 0,
PHY_I2C_MST_CMD_TYPE_ON,
PHY_I2C_MST_CMD_TYPE_MAX
} phy_i2c_master_command_type_t;
typedef struct {
struct {
uint8_t start, end; /* the start and end index of phy i2c master command memory */
uint8_t host_id; /* phy i2c master host id */
} config[PHY_I2C_MST_CMD_TYPE_MAX];
} phy_i2c_master_command_attribute_t;
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/**
* @file phy.h
* @brief Declarations for functions provided by libphy.a
*/
/**
* @brief Return ROM function pointer table from PHY library.
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*/
void phy_get_romfunc_addr(void);
/**
* @brief Initialize PHY module and do RF calibration
* @param[in] init_data Initialization parameters to be used by the PHY
* @param[inout] cal_data As input, calibration data previously obtained. As output, will contain new calibration data.
* @param[in] cal_mode RF calibration mode
* @return ESP_CAL_DATA_CHECK_FAIL if calibration data checksum fails, other values are reserved for future use
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*/
int register_chipv7_phy(const esp_phy_init_data_t* init_data, esp_phy_calibration_data_t *cal_data, esp_phy_calibration_mode_t cal_mode);
/**
* @brief Get the format version of calibration data used by PHY library.
* @return Format version number, OR'ed with BIT(16) if PHY is in WIFI only mode.
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*/
uint32_t phy_get_rf_cal_version(void);
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/**
* @brief Set RF/BB for only WIFI mode or coexist(WIFI & BT) mode
* @param[in] true is for only WIFI mode, false is for coexist mode. default is 0.
* @return NULL
*/
void phy_set_wifi_mode_only(bool wifi_only);
/**
* @brief Set BT the highest priority in coexist mode.
* @return NULL
*/
void coex_bt_high_prio(void);
/**
* @brief Open PHY and RF.
*/
void phy_wakeup_init(void);
/**
* @brief Shutdown PHY and RF.
*/
void phy_close_rf(void);
#if !CONFIG_IDF_TARGET_ESP32
/**
* @brief Disable PHY temperature sensor.
*/
void phy_xpd_tsens(void);
#endif
#if CONFIG_IDF_TARGET_ESP32C3
/**
* @brief Update internal state of PHY when wifi deinit powers off the wifi power domain.
*/
void phy_init_flag(void);
#endif
auto beacon: support esp32c6 autobeacon (advanced DTIM sleep feature) modem retention: Support esp32c6 wifi MAC and baseband sleep retention sleep_modem: wifi MAC modem wakeup protect in modem state before PMU trigger sleep enable request sleep modem: provide a interface to get whether the Modem power domain is allowed to power off during sleep add i2c_ana master header file to project auto beacon: release PMU's lock on root clock source (it is locked in the PLL) wifi receiving beacon frame in PMU modem state strongly depends on the BBPLL clock, PMU will forcibly lock the root clock source as PLL, when the root clock source of the software system is selected as PLL, we need to release the root clock source locking. When it is judged that the PLL is locked by PMU after wakeing up from the PMU modem state, switch the root clock source to the PLL in the sleep process (a critical section). auto beacon: fix the failure to receive broadcast/multicast frames in modem state When the multicast field in the beacon frame received in the PMU modem state is True, the PMU switches to the PMU active state (the PMU waits for the HP LDO to stabilize and then restores the MAC context) and starts to receive broadcast/multicast frames (Broadcast/Multicast frames will be sent after a minimum delay of 48 us after the beacon frame), because the PMU waits for the HP LDO to stabilize too long (~154 us), which will cause broadcast/multicast frame reception to be missed. auto beacon: select the PLL clock source as the REGDMA backup clock source when the PMU switches to ACTIVE from MODEM state update Digital Peripheral (M2A switch) REGDMA restore time parameter auto beacon: fix the issue that only channel 1 can connect to AP in modem state
2022-03-13 23:33:01 -04:00
#if CONFIG_IDF_TARGET_ESP32C6
/**
* @brief Get the configuration info of PHY i2c master command memory.
*
* @param attr the configuration info of PHY i2c master command memory
*/
void phy_i2c_master_mem_cfg(phy_i2c_master_command_attribute_t *attr);
#endif
/**
* @brief Store and load PHY digital registers.
*
* @param backup_en if backup_en is true, store PHY digital registers to memory. Otherwise load PHY digital registers from memory
* @param mem_addr Memory address to store and load PHY digital registers
*
* @return memory size
*/
uint8_t phy_dig_reg_backup(bool backup_en, uint32_t *mem_addr);
#if CONFIG_MAC_BB_PD
/**
* @brief Store and load baseband registers.
*/
void phy_freq_mem_backup(bool backup_en, uint32_t *mem);
#endif
#if CONFIG_ESP_PHY_ENABLE_USB
/**
* @brief Enable or disable USB when phy init.
*/
void phy_bbpll_en_usb(bool en);
#endif
#if CONFIG_IDF_TARGET_ESP32S2
/**
* @brief Phy version select for ESP32S2
*/
void phy_eco_version_sel(uint8_t chip_ver);
#endif
#if CONFIG_ESP_PHY_IMPROVE_RX_11B
/**
* @brief Improve Wi-Fi receive 11b pkts when modules with high interference.
*
* @attention 1.This is a workaround to improve Wi-Fi receive 11b pkts for some modules using AC-DC power supply with high interference.
* @attention 2.Enable this will sacrifice Wi-Fi OFDM receive performance.But to guarantee 11b receive performance serves as a bottom line in this case.
*
* @param enable Enable or disable.
*/
void phy_improve_rx_special(bool enable);
#endif
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#ifdef __cplusplus
}
#endif