/* USER CODE BEGIN Header */ /** ****************************************************************************** * @file usbpd_pwr_if.c * @author MCD Application Team * @brief This file contains power interface control functions. ****************************************************************************** * @attention * *

© Copyright (c) 2020 STMicroelectronics. * All rights reserved.

* * This software component is licensed by ST under Ultimate Liberty license * SLA0044, the "License"; You may not use this file except in compliance with * the License. You may obtain a copy of the License at: * www.st.com/SLA0044 * ****************************************************************************** */ /* USER CODE END Header */ #define __USBPD_PWR_IF_C /* Includes ------------------------------------------------------------------*/ #include "usbpd_pwr_if.h" #include "usbpd_hw_if.h" #include "usbpd_pwr_if.h" #include "usbpd_dpm_core.h" #include "usbpd_dpm_conf.h" #include "usbpd_pdo_defs.h" #include "usbpd_core.h" #include "usbpd_trace.h" /* USER CODE BEGIN Include */ /* USER CODE END Include */ /** @addtogroup STM32_USBPD_APPLICATION * @{ */ /** @addtogroup STM32_USBPD_APPLICATION_POWER_IF * @{ */ /* Private typedef -----------------------------------------------------------*/ /* USER CODE BEGIN Private_Typedef */ /* USER CODE END Private_Typedef */ /* Private define ------------------------------------------------------------*/ /** @addtogroup STM32_USBPD_APPLICATION_POWER_IF_Private_Defines * @{ */ /* USER CODE BEGIN Private_Define */ /* USER CODE END Private_Define */ /** * @} */ /* Private macros ------------------------------------------------------------*/ /** @addtogroup STM32_USBPD_APPLICATION_POWER_IF_Private_Macros * @{ */ /* USER CODE BEGIN Private_Macro */ /* USER CODE END Private_Macro */ /** * @} */ /* Private variables ---------------------------------------------------------*/ /** @addtogroup STM32_USBPD_APPLICATION_POWER_IF_Private_Variables * @{ */ /* USER CODE BEGIN Private_Variables */ /* USER CODE END Private_Variables */ /** * @} */ /* Private function prototypes -----------------------------------------------*/ /** @addtogroup STM32_USBPD_APPLICATION_POWER_IF_Private_Functions * @{ */ /* USER CODE BEGIN USBPD_USER_PRIVATE_FUNCTIONS_Prototypes */ /* Functions to initialize Source PDOs */ uint32_t _PWR_SRCFixedPDO(float _C_, float _V_, USBPD_CORE_PDO_PeakCurr_TypeDef _PK_, USBPD_CORE_PDO_DRDataSupport_TypeDef DRDSupport, USBPD_CORE_PDO_USBCommCapable_TypeDef UsbCommCapable, USBPD_CORE_PDO_ExtPowered_TypeDef ExtPower, USBPD_CORE_PDO_USBSuspendSupport_TypeDef UsbSuspendSupport, USBPD_CORE_PDO_DRPowerSupport_TypeDef DRPSupport); uint32_t _PWR_SRCVariablePDO(float _MAXV_, float _MINV_, float _C_); uint32_t _PWR_SRCBatteryPDO(float _MAXV_,float _MINV_,float _PWR_); /* Functions to initialize Sink PDOs */ uint32_t _PWR_SNKFixedPDO(float _C_, float _V_, USBPD_CORE_PDO_DRDataSupport_TypeDef DRDSupport, USBPD_CORE_PDO_USBCommCapable_TypeDef UsbCommCapable, USBPD_CORE_PDO_ExtPowered_TypeDef ExtPower, USBPD_CORE_PDO_HigherCapability_TypeDef HigherCapab, USBPD_CORE_PDO_DRPowerSupport_TypeDef DRPSupport); uint32_t _PWR_SNKVariablePDO(float _MAXV_,float _MINV_,float _C_); uint32_t _PWR_SNKBatteryPDO(float _MAXV_,float _MINV_,float _PWR_); /* USER CODE END USBPD_USER_PRIVATE_FUNCTIONS_Prototypes */ /** * @} */ /** @addtogroup STM32_USBPD_APPLICATION_POWER_IF_Exported_Functions * @{ */ /** * @brief Initialize structures and variables related to power board profiles * used by Sink and Source, for all available ports. * @retval USBPD status */ USBPD_StatusTypeDef USBPD_PWR_IF_Init(void) { /* USER CODE BEGIN USBPD_PWR_IF_Init */ return USBPD_ERROR; /* USER CODE END USBPD_PWR_IF_Init */ } /** * @brief Sets the required power profile, now it works only with Fixed ones * @param PortNum Port number * @retval USBPD status */ USBPD_StatusTypeDef USBPD_PWR_IF_SetProfile(uint8_t PortNum) { /* USER CODE BEGIN USBPD_PWR_IF_SetProfile */ return USBPD_ERROR; /* USER CODE END USBPD_PWR_IF_SetProfile */ } /** * @brief Resets the Power Board * @retval USBPD status */ USBPD_StatusTypeDef USBPD_PWR_IF_PowerResetGlobal(void) { /* USER CODE BEGIN USBPD_PWR_IF_PowerResetGlobal */ return USBPD_ERROR; /* USER CODE END USBPD_PWR_IF_PowerResetGlobal */ } /** * @brief Resets the Power on a specified port * @param PortNum Port number * @retval USBPD status */ USBPD_StatusTypeDef USBPD_PWR_IF_PowerReset(uint8_t PortNum) { /* USER CODE BEGIN USBPD_PWR_IF_PowerReset */ return USBPD_ERROR; /* USER CODE END USBPD_PWR_IF_PowerReset */ } /** * @brief Checks if the power on a specified port is ready * @param PortNum Port number * @param Vsafe Vsafe status based on @ref USBPD_VSAFE_StatusTypeDef * @retval USBPD status */ USBPD_StatusTypeDef USBPD_PWR_IF_SupplyReady(uint8_t PortNum, USBPD_VSAFE_StatusTypeDef Vsafe) { /* USER CODE BEGIN USBPD_PWR_IF_SupplyReady */ return USBPD_ERROR; /* USER CODE END USBPD_PWR_IF_SupplyReady */ } /** * @brief Enables VBUS power on a specified port * @param PortNum Port number * @retval USBPD status */ USBPD_StatusTypeDef USBPD_PWR_IF_VBUSEnable(uint8_t PortNum) { /* USER CODE BEGIN USBPD_PWR_IF_VBUSEnable */ return USBPD_ERROR; /* USER CODE END USBPD_PWR_IF_VBUSEnable */ } /** * @brief Disbale VBUS/VCONN the power on a specified port * @param PortNum Port number * @retval USBPD status */ USBPD_StatusTypeDef USBPD_PWR_IF_VBUSDisable(uint8_t PortNum) { /* USER CODE BEGIN USBPD_PWR_IF_VBUSDisable */ return USBPD_ERROR; /* USER CODE END USBPD_PWR_IF_VBUSDisable */ } /** * @brief Disable the SNK to stop current consumption * @param PortNum Port number * @retval USBPD status */ USBPD_StatusTypeDef USBPD_PWR_IF_SNKDisable(uint8_t PortNum) { /* USER CODE BEGIN USBPD_PWR_IF_SNKDisable */ return USBPD_ERROR; /* USER CODE END USBPD_PWR_IF_SNKDisable */ } /** * @brief Initialize power on a specified port * @param PortNum Port number * @retval USBPD status */ USBPD_StatusTypeDef USBPD_PWR_IF_InitPower(uint8_t PortNum) { return USBPD_OK; } /** * @brief Checks if the power on a specified port is enabled * @param PortNum Port number * @retval USBPD_ENABLE or USBPD_DISABLE */ USBPD_FunctionalState USBPD_PWR_IF_VBUSIsEnabled(uint8_t PortNum) { /* Get the Status of the port */ return USBPD_PORT_IsValid(PortNum) ? (USBPD_FunctionalState)HW_IF_PWR_VBUSIsEnabled(PortNum) : USBPD_DISABLE; } /** * @brief Reads the voltage and the current on a specified port * @param PortNum Port number * @param pVoltage: The Voltage in mV * @param pCurrent: The Current in mA * @retval USBPD_ERROR or USBPD_OK */ USBPD_StatusTypeDef USBPD_PWR_IF_ReadVA(uint8_t PortNum, uint16_t *pVoltage, uint16_t *pCurrent) { /* USER CODE BEGIN USBPD_PWR_IF_ReadVA */ return USBPD_ERROR; /* USER CODE END USBPD_PWR_IF_ReadVA */ } /** * @brief Enables the VConn on the port. * @param PortNum Port number * @param CC Specifies the CCx to be selected based on @ref CCxPin_TypeDef structure * @retval USBPD status */ USBPD_StatusTypeDef USBPD_PWR_IF_Enable_VConn(uint8_t PortNum, CCxPin_TypeDef CC) { /* USER CODE BEGIN USBPD_PWR_IF_Enable_VConn */ return USBPD_ERROR; /* USER CODE END USBPD_PWR_IF_Enable_VConn */ } /** * @brief Disable the VConn on the port. * @param PortNum Port number * @param CC Specifies the CCx to be selected based on @ref CCxPin_TypeDef structure * @retval USBPD status */ USBPD_StatusTypeDef USBPD_PWR_IF_Disable_VConn(uint8_t PortNum, CCxPin_TypeDef CC) { /* USER CODE BEGIN USBPD_PWR_IF_Disable_VConn */ return USBPD_ERROR; /* USER CODE END USBPD_PWR_IF_Disable_VConn */ } /** * @brief Allow PDO data reading from PWR_IF storage. * @param PortNum Port number * @param DataId Type of data to be read from PWR_IF * This parameter can be one of the following values: * @arg @ref USBPD_CORE_DATATYPE_SRC_PDO Source PDO reading requested * @arg @ref USBPD_CORE_DATATYPE_SNK_PDO Sink PDO reading requested * @param Ptr Pointer on address where PDO values should be written (u8 pointer) * @param Size Pointer on nb of u32 written by PWR_IF (nb of PDOs) * @retval None */ void USBPD_PWR_IF_GetPortPDOs(uint8_t PortNum, USBPD_CORE_DataInfoType_TypeDef DataId, uint8_t *Ptr, uint32_t *Size) { /* USER CODE BEGIN USBPD_PWR_IF_GetPortPDOs */ /* USER CODE END USBPD_PWR_IF_GetPortPDOs */ } /** * @brief Find out SRC PDO pointed out by a position provided in a Request DO (from Sink). * @param PortNum Port number * @param RdoPosition RDO Position in list of provided PDO * @param Pdo Pointer on PDO value pointed out by RDO position (u32 pointer) * @retval Status of search * USBPD_OK : Src PDO found for requested DO position (output Pdo parameter is set) * USBPD_FAIL : Position is not compliant with current Src PDO for this port (no corresponding PDO value) */ USBPD_StatusTypeDef USBPD_PWR_IF_SearchRequestedPDO(uint8_t PortNum, uint32_t RdoPosition, uint32_t *Pdo) { /* USER CODE BEGIN USBPD_PWR_IF_SearchRequestedPDO */ return USBPD_FAIL; /* USER CODE END USBPD_PWR_IF_SearchRequestedPDO */ } /** * @brief the function is called in case of critical issue is detected to switch in safety mode. * @retval None */ void USBPD_PWR_IF_Alarm() { /* USER CODE BEGIN USBPD_PWR_IF_Alarm */ /* USER CODE END USBPD_PWR_IF_Alarm */ } /** * @} */ /** * @} */ /** * @} */ /************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/