| /** |
| ****************************************************************************** |
| * @file stm32h7xx_hal_dsi.c |
| * @author MCD Application Team |
| * @brief DSI HAL module driver. |
| * This file provides firmware functions to manage the following |
| * functionalities of the DSI peripheral: |
| * + Initialization and de-initialization functions |
| * + IO operation functions |
| * + Peripheral Control functions |
| * + Peripheral State and Errors functions |
| ****************************************************************************** |
| * @attention |
| * |
| * Copyright (c) 2017 STMicroelectronics. |
| * All rights reserved. |
| * |
| * This software is licensed under terms that can be found in the LICENSE file |
| * in the root directory of this software component. |
| * If no LICENSE file comes with this software, it is provided AS-IS. |
| * |
| ****************************************************************************** |
| @verbatim |
| ============================================================================== |
| ##### How to use this driver ##### |
| ============================================================================== |
| [..] |
| The DSI HAL driver can be used as follows: |
| |
| (#) Declare a DSI_HandleTypeDef handle structure, for example: DSI_HandleTypeDef hdsi; |
| |
| (#) Initialize the DSI low level resources by implementing the HAL_DSI_MspInit() API: |
| (##) Enable the DSI interface clock |
| (##) NVIC configuration if you need to use interrupt process |
| (+++) Configure the DSI interrupt priority |
| (+++) Enable the NVIC DSI IRQ Channel |
| |
| (#) Initialize the DSI Host peripheral, the required PLL parameters, number of lances and |
| TX Escape clock divider by calling the HAL_DSI_Init() API which calls HAL_DSI_MspInit(). |
| |
| *** Configuration *** |
| ========================= |
| [..] |
| (#) Use HAL_DSI_ConfigAdaptedCommandMode() function to configure the DSI host in adapted |
| command mode. |
| |
| (#) When operating in video mode , use HAL_DSI_ConfigVideoMode() to configure the DSI host. |
| |
| (#) Function HAL_DSI_ConfigCommand() is used to configure the DSI commands behavior in low power mode. |
| |
| (#) To configure the DSI PHY timings parameters, use function HAL_DSI_ConfigPhyTimer(). |
| |
| (#) The DSI Host can be started/stopped using respectively functions HAL_DSI_Start() and HAL_DSI_Stop(). |
| Functions HAL_DSI_ShortWrite(), HAL_DSI_LongWrite() and HAL_DSI_Read() allows respectively |
| to write DSI short packets, long packets and to read DSI packets. |
| |
| (#) The DSI Host Offers two Low power modes : |
| (++) Low Power Mode on data lanes only: Only DSI data lanes are shut down. |
| It is possible to enter/exit from this mode using respectively functions HAL_DSI_EnterULPMData() |
| and HAL_DSI_ExitULPMData() |
| |
| (++) Low Power Mode on data and clock lanes : All DSI lanes are shut down including data and clock lanes. |
| It is possible to enter/exit from this mode using respectively functions HAL_DSI_EnterULPM() |
| and HAL_DSI_ExitULPM() |
| |
| (#) To control DSI state you can use the following function: HAL_DSI_GetState() |
| |
| *** Error management *** |
| ======================== |
| [..] |
| (#) User can select the DSI errors to be reported/monitored using function HAL_DSI_ConfigErrorMonitor() |
| When an error occurs, the callback HAL_DSI_ErrorCallback() is asserted and then user can retrieve |
| the error code by calling function HAL_DSI_GetError() |
| |
| *** DSI HAL driver macros list *** |
| ============================================= |
| [..] |
| Below the list of most used macros in DSI HAL driver. |
| |
| (+) __HAL_DSI_ENABLE: Enable the DSI Host. |
| (+) __HAL_DSI_DISABLE: Disable the DSI Host. |
| (+) __HAL_DSI_WRAPPER_ENABLE: Enables the DSI wrapper. |
| (+) __HAL_DSI_WRAPPER_DISABLE: Disable the DSI wrapper. |
| (+) __HAL_DSI_PLL_ENABLE: Enables the DSI PLL. |
| (+) __HAL_DSI_PLL_DISABLE: Disables the DSI PLL. |
| (+) __HAL_DSI_REG_ENABLE: Enables the DSI regulator. |
| (+) __HAL_DSI_REG_DISABLE: Disables the DSI regulator. |
| (+) __HAL_DSI_GET_FLAG: Get the DSI pending flags. |
| (+) __HAL_DSI_CLEAR_FLAG: Clears the DSI pending flags. |
| (+) __HAL_DSI_ENABLE_IT: Enables the specified DSI interrupts. |
| (+) __HAL_DSI_DISABLE_IT: Disables the specified DSI interrupts. |
| (+) __HAL_DSI_GET_IT_SOURCE: Checks whether the specified DSI interrupt source is enabled or not. |
| |
| [..] |
| (@) You can refer to the DSI HAL driver header file for more useful macros |
| |
| *** Callback registration *** |
| ============================================= |
| [..] |
| The compilation define USE_HAL_DSI_REGISTER_CALLBACKS when set to 1 |
| allows the user to configure dynamically the driver callbacks. |
| Use Function HAL_DSI_RegisterCallback() to register a callback. |
| |
| [..] |
| Function HAL_DSI_RegisterCallback() allows to register following callbacks: |
| (+) TearingEffectCallback : DSI Tearing Effect Callback. |
| (+) EndOfRefreshCallback : DSI End Of Refresh Callback. |
| (+) ErrorCallback : DSI Error Callback |
| (+) MspInitCallback : DSI MspInit. |
| (+) MspDeInitCallback : DSI MspDeInit. |
| [..] |
| This function takes as parameters the HAL peripheral handle, the callback ID |
| and a pointer to the user callback function. |
| |
| [..] |
| Use function HAL_DSI_UnRegisterCallback() to reset a callback to the default |
| weak function. |
| HAL_DSI_UnRegisterCallback takes as parameters the HAL peripheral handle, |
| and the callback ID. |
| [..] |
| This function allows to reset following callbacks: |
| (+) TearingEffectCallback : DSI Tearing Effect Callback. |
| (+) EndOfRefreshCallback : DSI End Of Refresh Callback. |
| (+) ErrorCallback : DSI Error Callback |
| (+) MspInitCallback : DSI MspInit. |
| (+) MspDeInitCallback : DSI MspDeInit. |
| |
| [..] |
| By default, after the HAL_DSI_Init and when the state is HAL_DSI_STATE_RESET |
| all callbacks are set to the corresponding weak functions: |
| examples HAL_DSI_TearingEffectCallback(), HAL_DSI_EndOfRefreshCallback(). |
| Exception done for MspInit and MspDeInit functions that are respectively |
| reset to the legacy weak (overridden) functions in the HAL_DSI_Init() |
| and HAL_DSI_DeInit() only when these callbacks are null (not registered beforehand). |
| If not, MspInit or MspDeInit are not null, the HAL_DSI_Init() and HAL_DSI_DeInit() |
| keep and use the user MspInit/MspDeInit callbacks (registered beforehand). |
| |
| [..] |
| Callbacks can be registered/unregistered in HAL_DSI_STATE_READY state only. |
| Exception done MspInit/MspDeInit that can be registered/unregistered |
| in HAL_DSI_STATE_READY or HAL_DSI_STATE_RESET state, |
| thus registered (user) MspInit/DeInit callbacks can be used during the Init/DeInit. |
| In that case first register the MspInit/MspDeInit user callbacks |
| using HAL_DSI_RegisterCallback() before calling HAL_DSI_DeInit() |
| or HAL_DSI_Init() function. |
| |
| [..] |
| When The compilation define USE_HAL_DSI_REGISTER_CALLBACKS is set to 0 or |
| not defined, the callback registration feature is not available and all callbacks |
| are set to the corresponding weak functions. |
| |
| @endverbatim |
| ****************************************************************************** |
| */ |
| |
| /* Includes ------------------------------------------------------------------*/ |
| #include "stm32h7xx_hal.h" |
| |
| /** @addtogroup STM32H7xx_HAL_Driver |
| * @{ |
| */ |
| |
| #ifdef HAL_DSI_MODULE_ENABLED |
| |
| #if defined(DSI) |
| |
| /** @addtogroup DSI |
| * @{ |
| */ |
| |
| /* Private types -------------------------------------------------------------*/ |
| /* Private defines -----------------------------------------------------------*/ |
| /** @addtogroup DSI_Private_Constants |
| * @{ |
| */ |
| #define DSI_TIMEOUT_VALUE ((uint32_t)1000U) /* 1s */ |
| |
| #define DSI_ERROR_ACK_MASK (DSI_ISR0_AE0 | DSI_ISR0_AE1 | DSI_ISR0_AE2 | DSI_ISR0_AE3 | \ |
| DSI_ISR0_AE4 | DSI_ISR0_AE5 | DSI_ISR0_AE6 | DSI_ISR0_AE7 | \ |
| DSI_ISR0_AE8 | DSI_ISR0_AE9 | DSI_ISR0_AE10 | DSI_ISR0_AE11 | \ |
| DSI_ISR0_AE12 | DSI_ISR0_AE13 | DSI_ISR0_AE14 | DSI_ISR0_AE15) |
| #define DSI_ERROR_PHY_MASK (DSI_ISR0_PE0 | DSI_ISR0_PE1 | DSI_ISR0_PE2 | DSI_ISR0_PE3 | DSI_ISR0_PE4) |
| #define DSI_ERROR_TX_MASK DSI_ISR1_TOHSTX |
| #define DSI_ERROR_RX_MASK DSI_ISR1_TOLPRX |
| #define DSI_ERROR_ECC_MASK (DSI_ISR1_ECCSE | DSI_ISR1_ECCME) |
| #define DSI_ERROR_CRC_MASK DSI_ISR1_CRCE |
| #define DSI_ERROR_PSE_MASK DSI_ISR1_PSE |
| #define DSI_ERROR_EOT_MASK DSI_ISR1_EOTPE |
| #define DSI_ERROR_OVF_MASK DSI_ISR1_LPWRE |
| #define DSI_ERROR_GEN_MASK (DSI_ISR1_GCWRE | DSI_ISR1_GPWRE | DSI_ISR1_GPTXE | DSI_ISR1_GPRDE | DSI_ISR1_GPRXE) |
| /** |
| * @} |
| */ |
| |
| /* Private variables ---------------------------------------------------------*/ |
| /* Private constants ---------------------------------------------------------*/ |
| /* Private macros ------------------------------------------------------------*/ |
| /* Private function prototypes -----------------------------------------------*/ |
| static void DSI_ConfigPacketHeader(DSI_TypeDef *DSIx, uint32_t ChannelID, uint32_t DataType, uint32_t Data0, |
| uint32_t Data1); |
| |
| static HAL_StatusTypeDef DSI_ShortWrite(DSI_HandleTypeDef *hdsi, |
| uint32_t ChannelID, |
| uint32_t Mode, |
| uint32_t Param1, |
| uint32_t Param2); |
| /* Private functions ---------------------------------------------------------*/ |
| /** @defgroup DSI_Private_Functions DSI Private Functions |
| * @{ |
| */ |
| /** |
| * @brief Generic DSI packet header configuration |
| * @param DSIx Pointer to DSI register base |
| * @param ChannelID Virtual channel ID of the header packet |
| * @param DataType Packet data type of the header packet |
| * This parameter can be any value of : |
| * @arg DSI_SHORT_WRITE_PKT_Data_Type |
| * @arg DSI_LONG_WRITE_PKT_Data_Type |
| * @arg DSI_SHORT_READ_PKT_Data_Type |
| * @arg DSI_MAX_RETURN_PKT_SIZE |
| * @param Data0 Word count LSB |
| * @param Data1 Word count MSB |
| * @retval None |
| */ |
| static void DSI_ConfigPacketHeader(DSI_TypeDef *DSIx, |
| uint32_t ChannelID, |
| uint32_t DataType, |
| uint32_t Data0, |
| uint32_t Data1) |
| { |
| /* Update the DSI packet header with new information */ |
| DSIx->GHCR = (DataType | (ChannelID << 6U) | (Data0 << 8U) | (Data1 << 16U)); |
| } |
| |
| /** |
| * @brief write short DCS or short Generic command |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param ChannelID Virtual channel ID. |
| * @param Mode DSI short packet data type. |
| * This parameter can be any value of @arg DSI_SHORT_WRITE_PKT_Data_Type. |
| * @param Param1 DSC command or first generic parameter. |
| * This parameter can be any value of @arg DSI_DCS_Command or a |
| * generic command code. |
| * @param Param2 DSC parameter or second generic parameter. |
| * @retval HAL status |
| */ |
| static HAL_StatusTypeDef DSI_ShortWrite(DSI_HandleTypeDef *hdsi, |
| uint32_t ChannelID, |
| uint32_t Mode, |
| uint32_t Param1, |
| uint32_t Param2) |
| { |
| uint32_t tickstart; |
| |
| /* Get tick */ |
| tickstart = HAL_GetTick(); |
| |
| /* Wait for Command FIFO Empty */ |
| while ((hdsi->Instance->GPSR & DSI_GPSR_CMDFE) == 0U) |
| { |
| /* Check for the Timeout */ |
| if ((HAL_GetTick() - tickstart) > DSI_TIMEOUT_VALUE) |
| { |
| return HAL_TIMEOUT; |
| } |
| } |
| |
| /* Configure the packet to send a short DCS command with 0 or 1 parameter */ |
| /* Update the DSI packet header with new information */ |
| hdsi->Instance->GHCR = (Mode | (ChannelID << 6U) | (Param1 << 8U) | (Param2 << 16U)); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @} |
| */ |
| |
| /* Exported functions --------------------------------------------------------*/ |
| /** @addtogroup DSI_Exported_Functions |
| * @{ |
| */ |
| |
| /** @defgroup DSI_Group1 Initialization and Configuration functions |
| * @brief Initialization and Configuration functions |
| * |
| @verbatim |
| =============================================================================== |
| ##### Initialization and Configuration functions ##### |
| =============================================================================== |
| [..] This section provides functions allowing to: |
| (+) Initialize and configure the DSI |
| (+) De-initialize the DSI |
| |
| @endverbatim |
| * @{ |
| */ |
| |
| /** |
| * @brief Initializes the DSI according to the specified |
| * parameters in the DSI_InitTypeDef and create the associated handle. |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param PLLInit pointer to a DSI_PLLInitTypeDef structure that contains |
| * the PLL Clock structure definition for the DSI. |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_Init(DSI_HandleTypeDef *hdsi, DSI_PLLInitTypeDef *PLLInit) |
| { |
| uint32_t tickstart; |
| uint32_t unitIntervalx4; |
| uint32_t tempIDF; |
| |
| /* Check the DSI handle allocation */ |
| if (hdsi == NULL) |
| { |
| return HAL_ERROR; |
| } |
| |
| /* Check function parameters */ |
| assert_param(IS_DSI_PLL_NDIV(PLLInit->PLLNDIV)); |
| assert_param(IS_DSI_PLL_IDF(PLLInit->PLLIDF)); |
| assert_param(IS_DSI_PLL_ODF(PLLInit->PLLODF)); |
| assert_param(IS_DSI_AUTO_CLKLANE_CONTROL(hdsi->Init.AutomaticClockLaneControl)); |
| assert_param(IS_DSI_NUMBER_OF_LANES(hdsi->Init.NumberOfLanes)); |
| |
| #if (USE_HAL_DSI_REGISTER_CALLBACKS == 1) |
| if (hdsi->State == HAL_DSI_STATE_RESET) |
| { |
| /* Reset the DSI callback to the legacy weak callbacks */ |
| hdsi->TearingEffectCallback = HAL_DSI_TearingEffectCallback; /* Legacy weak TearingEffectCallback */ |
| hdsi->EndOfRefreshCallback = HAL_DSI_EndOfRefreshCallback; /* Legacy weak EndOfRefreshCallback */ |
| hdsi->ErrorCallback = HAL_DSI_ErrorCallback; /* Legacy weak ErrorCallback */ |
| |
| if (hdsi->MspInitCallback == NULL) |
| { |
| hdsi->MspInitCallback = HAL_DSI_MspInit; |
| } |
| /* Initialize the low level hardware */ |
| hdsi->MspInitCallback(hdsi); |
| } |
| #else |
| if (hdsi->State == HAL_DSI_STATE_RESET) |
| { |
| /* Initialize the low level hardware */ |
| HAL_DSI_MspInit(hdsi); |
| } |
| #endif /* USE_HAL_DSI_REGISTER_CALLBACKS */ |
| |
| /* Change DSI peripheral state */ |
| hdsi->State = HAL_DSI_STATE_BUSY; |
| |
| /**************** Turn on the regulator and enable the DSI PLL ****************/ |
| |
| /* Enable the regulator */ |
| __HAL_DSI_REG_ENABLE(hdsi); |
| |
| /* Get tick */ |
| tickstart = HAL_GetTick(); |
| |
| /* Wait until the regulator is ready */ |
| while (__HAL_DSI_GET_FLAG(hdsi, DSI_FLAG_RRS) == 0U) |
| { |
| /* Check for the Timeout */ |
| if ((HAL_GetTick() - tickstart) > DSI_TIMEOUT_VALUE) |
| { |
| return HAL_TIMEOUT; |
| } |
| } |
| |
| /* Set the PLL division factors */ |
| hdsi->Instance->WRPCR &= ~(DSI_WRPCR_PLL_NDIV | DSI_WRPCR_PLL_IDF | DSI_WRPCR_PLL_ODF); |
| hdsi->Instance->WRPCR |= (((PLLInit->PLLNDIV) << DSI_WRPCR_PLL_NDIV_Pos) | \ |
| ((PLLInit->PLLIDF) << DSI_WRPCR_PLL_IDF_Pos) | \ |
| ((PLLInit->PLLODF) << DSI_WRPCR_PLL_ODF_Pos)); |
| |
| /* Enable the DSI PLL */ |
| __HAL_DSI_PLL_ENABLE(hdsi); |
| |
| /* Requires min of 400us delay before reading the PLLLS flag */ |
| /* 1ms delay is inserted that is the minimum HAL delay granularity */ |
| HAL_Delay(1); |
| |
| /* Get tick */ |
| tickstart = HAL_GetTick(); |
| |
| /* Wait for the lock of the PLL */ |
| while (__HAL_DSI_GET_FLAG(hdsi, DSI_FLAG_PLLLS) == 0U) |
| { |
| /* Check for the Timeout */ |
| if ((HAL_GetTick() - tickstart) > DSI_TIMEOUT_VALUE) |
| { |
| return HAL_TIMEOUT; |
| } |
| } |
| |
| __HAL_DSI_ENABLE(hdsi); |
| |
| /************************ Set the DSI clock parameters ************************/ |
| /* Set the TX escape clock division factor */ |
| hdsi->Instance->CCR &= ~DSI_CCR_TXECKDIV; |
| hdsi->Instance->CCR |= hdsi->Init.TXEscapeCkdiv; |
| |
| /*************************** Set the PHY parameters ***************************/ |
| /* D-PHY clock and digital enable*/ |
| hdsi->Instance->PCTLR |= DSI_PCTLR_DEN; |
| |
| hdsi->Instance->PCTLR |= DSI_PCTLR_CKE; |
| |
| |
| /* Configure the number of active data lanes */ |
| hdsi->Instance->PCONFR &= ~DSI_PCONFR_NL; |
| hdsi->Instance->PCONFR |= hdsi->Init.NumberOfLanes; |
| |
| /* Get tick */ |
| tickstart = HAL_GetTick(); |
| if ((hdsi->Instance->PCONFR & DSI_PCONFR_NL) == DSI_ONE_DATA_LANE) |
| { |
| while ((hdsi->Instance->PSR & (DSI_PSR_PSS0 | DSI_PSR_PSSC)) != (DSI_PSR_PSS0 | DSI_PSR_PSSC)) |
| { |
| if ((HAL_GetTick() - tickstart) > DSI_TIMEOUT_VALUE) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_TIMEOUT; |
| } |
| } |
| } |
| else |
| { |
| while ((hdsi->Instance->PSR & (DSI_PSR_PSS0 | DSI_PSR_PSS1 | DSI_PSR_PSSC)) != (DSI_PSR_PSS0 | \ |
| DSI_PSR_PSS1 | DSI_PSR_PSSC)) |
| { |
| if ((HAL_GetTick() - tickstart) > DSI_TIMEOUT_VALUE) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_TIMEOUT; |
| } |
| } |
| } |
| |
| /* Calculate the bit period in high-speed mode in unit of 0.25 ns (UIX4) */ |
| /* The equation is : UIX4 = IntegerPart( (1000/F_PHY_Mhz) * 4 ) */ |
| /* Where : F_PHY_Mhz = (NDIV * HSE_Mhz) / (IDF * ODF) */ |
| tempIDF = (PLLInit->PLLIDF > 0U) ? PLLInit->PLLIDF : 1U; |
| unitIntervalx4 = (4000000U * tempIDF * ((1UL << (0x3U & PLLInit->PLLODF)))) / ((HSE_VALUE / 1000U) * PLLInit->PLLNDIV); |
| |
| /* Set the bit period in high-speed mode */ |
| hdsi->Instance->WPCR[0U] &= ~DSI_WPCR0_UIX4; |
| hdsi->Instance->WPCR[0U] |= unitIntervalx4; |
| |
| /****************************** Error management *****************************/ |
| |
| /* Disable all error interrupts and reset the Error Mask */ |
| hdsi->Instance->IER[0U] = 0U; |
| hdsi->Instance->IER[1U] = 0U; |
| hdsi->ErrorMsk = 0U; |
| |
| __HAL_DSI_DISABLE(hdsi); |
| |
| /* Clock lane configuration */ |
| hdsi->Instance->CLCR &= ~(DSI_CLCR_DPCC | DSI_CLCR_ACR); |
| hdsi->Instance->CLCR |= (DSI_CLCR_DPCC | hdsi->Init.AutomaticClockLaneControl); |
| |
| /* Initialize the error code */ |
| hdsi->ErrorCode = HAL_DSI_ERROR_NONE; |
| |
| /* Initialize the DSI state*/ |
| hdsi->State = HAL_DSI_STATE_READY; |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief De-initializes the DSI peripheral registers to their default reset |
| * values. |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_DeInit(DSI_HandleTypeDef *hdsi) |
| { |
| /* Check the DSI handle allocation */ |
| if (hdsi == NULL) |
| { |
| return HAL_ERROR; |
| } |
| |
| /* Change DSI peripheral state */ |
| hdsi->State = HAL_DSI_STATE_BUSY; |
| |
| /* Disable the DSI wrapper */ |
| __HAL_DSI_WRAPPER_DISABLE(hdsi); |
| |
| /* Disable the DSI host */ |
| __HAL_DSI_DISABLE(hdsi); |
| |
| /* D-PHY clock and digital disable */ |
| hdsi->Instance->PCTLR &= ~(DSI_PCTLR_CKE | DSI_PCTLR_DEN); |
| |
| /* Turn off the DSI PLL */ |
| __HAL_DSI_PLL_DISABLE(hdsi); |
| |
| /* Disable the regulator */ |
| __HAL_DSI_REG_DISABLE(hdsi); |
| |
| #if (USE_HAL_DSI_REGISTER_CALLBACKS == 1) |
| if (hdsi->MspDeInitCallback == NULL) |
| { |
| hdsi->MspDeInitCallback = HAL_DSI_MspDeInit; |
| } |
| /* DeInit the low level hardware */ |
| hdsi->MspDeInitCallback(hdsi); |
| #else |
| /* DeInit the low level hardware */ |
| HAL_DSI_MspDeInit(hdsi); |
| #endif /* USE_HAL_DSI_REGISTER_CALLBACKS */ |
| |
| /* Initialize the error code */ |
| hdsi->ErrorCode = HAL_DSI_ERROR_NONE; |
| |
| /* Initialize the DSI state*/ |
| hdsi->State = HAL_DSI_STATE_RESET; |
| |
| /* Release Lock */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Enable the error monitor flags |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param ActiveErrors indicates which error interrupts will be enabled. |
| * This parameter can be any combination of @arg DSI_Error_Data_Type. |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_ConfigErrorMonitor(DSI_HandleTypeDef *hdsi, uint32_t ActiveErrors) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| hdsi->Instance->IER[0U] = 0U; |
| hdsi->Instance->IER[1U] = 0U; |
| |
| /* Store active errors to the handle */ |
| hdsi->ErrorMsk = ActiveErrors; |
| |
| if ((ActiveErrors & HAL_DSI_ERROR_ACK) != 0U) |
| { |
| /* Enable the interrupt generation on selected errors */ |
| hdsi->Instance->IER[0U] |= DSI_ERROR_ACK_MASK; |
| } |
| |
| if ((ActiveErrors & HAL_DSI_ERROR_PHY) != 0U) |
| { |
| /* Enable the interrupt generation on selected errors */ |
| hdsi->Instance->IER[0U] |= DSI_ERROR_PHY_MASK; |
| } |
| |
| if ((ActiveErrors & HAL_DSI_ERROR_TX) != 0U) |
| { |
| /* Enable the interrupt generation on selected errors */ |
| hdsi->Instance->IER[1U] |= DSI_ERROR_TX_MASK; |
| } |
| |
| if ((ActiveErrors & HAL_DSI_ERROR_RX) != 0U) |
| { |
| /* Enable the interrupt generation on selected errors */ |
| hdsi->Instance->IER[1U] |= DSI_ERROR_RX_MASK; |
| } |
| |
| if ((ActiveErrors & HAL_DSI_ERROR_ECC) != 0U) |
| { |
| /* Enable the interrupt generation on selected errors */ |
| hdsi->Instance->IER[1U] |= DSI_ERROR_ECC_MASK; |
| } |
| |
| if ((ActiveErrors & HAL_DSI_ERROR_CRC) != 0U) |
| { |
| /* Enable the interrupt generation on selected errors */ |
| hdsi->Instance->IER[1U] |= DSI_ERROR_CRC_MASK; |
| } |
| |
| if ((ActiveErrors & HAL_DSI_ERROR_PSE) != 0U) |
| { |
| /* Enable the interrupt generation on selected errors */ |
| hdsi->Instance->IER[1U] |= DSI_ERROR_PSE_MASK; |
| } |
| |
| if ((ActiveErrors & HAL_DSI_ERROR_EOT) != 0U) |
| { |
| /* Enable the interrupt generation on selected errors */ |
| hdsi->Instance->IER[1U] |= DSI_ERROR_EOT_MASK; |
| } |
| |
| if ((ActiveErrors & HAL_DSI_ERROR_OVF) != 0U) |
| { |
| /* Enable the interrupt generation on selected errors */ |
| hdsi->Instance->IER[1U] |= DSI_ERROR_OVF_MASK; |
| } |
| |
| if ((ActiveErrors & HAL_DSI_ERROR_GEN) != 0U) |
| { |
| /* Enable the interrupt generation on selected errors */ |
| hdsi->Instance->IER[1U] |= DSI_ERROR_GEN_MASK; |
| } |
| |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Initializes the DSI MSP. |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @retval None |
| */ |
| __weak void HAL_DSI_MspInit(DSI_HandleTypeDef *hdsi) |
| { |
| /* Prevent unused argument(s) compilation warning */ |
| UNUSED(hdsi); |
| /* NOTE : This function Should not be modified, when the callback is needed, |
| the HAL_DSI_MspInit could be implemented in the user file |
| */ |
| } |
| |
| /** |
| * @brief De-initializes the DSI MSP. |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @retval None |
| */ |
| __weak void HAL_DSI_MspDeInit(DSI_HandleTypeDef *hdsi) |
| { |
| /* Prevent unused argument(s) compilation warning */ |
| UNUSED(hdsi); |
| /* NOTE : This function Should not be modified, when the callback is needed, |
| the HAL_DSI_MspDeInit could be implemented in the user file |
| */ |
| } |
| |
| #if (USE_HAL_DSI_REGISTER_CALLBACKS == 1) |
| /** |
| * @brief Register a User DSI Callback |
| * To be used instead of the weak predefined callback |
| * @param hdsi dsi handle |
| * @param CallbackID ID of the callback to be registered |
| * This parameter can be one of the following values: |
| * @arg HAL_DSI_TEARING_EFFECT_CB_ID Tearing Effect Callback ID |
| * @arg HAL_DSI_ENDOF_REFRESH_CB_ID End Of Refresh Callback ID |
| * @arg HAL_DSI_ERROR_CB_ID Error Callback ID |
| * @arg HAL_DSI_MSPINIT_CB_ID MspInit callback ID |
| * @arg HAL_DSI_MSPDEINIT_CB_ID MspDeInit callback ID |
| * @param pCallback pointer to the Callback function |
| * @retval status |
| */ |
| HAL_StatusTypeDef HAL_DSI_RegisterCallback(DSI_HandleTypeDef *hdsi, HAL_DSI_CallbackIDTypeDef CallbackID, |
| pDSI_CallbackTypeDef pCallback) |
| { |
| HAL_StatusTypeDef status = HAL_OK; |
| |
| if (pCallback == NULL) |
| { |
| /* Update the error code */ |
| hdsi->ErrorCode |= HAL_DSI_ERROR_INVALID_CALLBACK; |
| |
| return HAL_ERROR; |
| } |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| if (hdsi->State == HAL_DSI_STATE_READY) |
| { |
| switch (CallbackID) |
| { |
| case HAL_DSI_TEARING_EFFECT_CB_ID : |
| hdsi->TearingEffectCallback = pCallback; |
| break; |
| |
| case HAL_DSI_ENDOF_REFRESH_CB_ID : |
| hdsi->EndOfRefreshCallback = pCallback; |
| break; |
| |
| case HAL_DSI_ERROR_CB_ID : |
| hdsi->ErrorCallback = pCallback; |
| break; |
| |
| case HAL_DSI_MSPINIT_CB_ID : |
| hdsi->MspInitCallback = pCallback; |
| break; |
| |
| case HAL_DSI_MSPDEINIT_CB_ID : |
| hdsi->MspDeInitCallback = pCallback; |
| break; |
| |
| default : |
| /* Update the error code */ |
| hdsi->ErrorCode |= HAL_DSI_ERROR_INVALID_CALLBACK; |
| /* Return error status */ |
| status = HAL_ERROR; |
| break; |
| } |
| } |
| else if (hdsi->State == HAL_DSI_STATE_RESET) |
| { |
| switch (CallbackID) |
| { |
| case HAL_DSI_MSPINIT_CB_ID : |
| hdsi->MspInitCallback = pCallback; |
| break; |
| |
| case HAL_DSI_MSPDEINIT_CB_ID : |
| hdsi->MspDeInitCallback = pCallback; |
| break; |
| |
| default : |
| /* Update the error code */ |
| hdsi->ErrorCode |= HAL_DSI_ERROR_INVALID_CALLBACK; |
| /* Return error status */ |
| status = HAL_ERROR; |
| break; |
| } |
| } |
| else |
| { |
| /* Update the error code */ |
| hdsi->ErrorCode |= HAL_DSI_ERROR_INVALID_CALLBACK; |
| /* Return error status */ |
| status = HAL_ERROR; |
| } |
| |
| /* Release Lock */ |
| __HAL_UNLOCK(hdsi); |
| |
| return status; |
| } |
| |
| /** |
| * @brief Unregister a DSI Callback |
| * DSI callback is redirected to the weak predefined callback |
| * @param hdsi dsi handle |
| * @param CallbackID ID of the callback to be unregistered |
| * This parameter can be one of the following values: |
| * @arg HAL_DSI_TEARING_EFFECT_CB_ID Tearing Effect Callback ID |
| * @arg HAL_DSI_ENDOF_REFRESH_CB_ID End Of Refresh Callback ID |
| * @arg HAL_DSI_ERROR_CB_ID Error Callback ID |
| * @arg HAL_DSI_MSPINIT_CB_ID MspInit callback ID |
| * @arg HAL_DSI_MSPDEINIT_CB_ID MspDeInit callback ID |
| * @retval status |
| */ |
| HAL_StatusTypeDef HAL_DSI_UnRegisterCallback(DSI_HandleTypeDef *hdsi, HAL_DSI_CallbackIDTypeDef CallbackID) |
| { |
| HAL_StatusTypeDef status = HAL_OK; |
| |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| if (hdsi->State == HAL_DSI_STATE_READY) |
| { |
| switch (CallbackID) |
| { |
| case HAL_DSI_TEARING_EFFECT_CB_ID : |
| hdsi->TearingEffectCallback = HAL_DSI_TearingEffectCallback; /* Legacy weak TearingEffectCallback */ |
| break; |
| |
| case HAL_DSI_ENDOF_REFRESH_CB_ID : |
| hdsi->EndOfRefreshCallback = HAL_DSI_EndOfRefreshCallback; /* Legacy weak EndOfRefreshCallback */ |
| break; |
| |
| case HAL_DSI_ERROR_CB_ID : |
| hdsi->ErrorCallback = HAL_DSI_ErrorCallback; /* Legacy weak ErrorCallback */ |
| break; |
| |
| case HAL_DSI_MSPINIT_CB_ID : |
| hdsi->MspInitCallback = HAL_DSI_MspInit; /* Legacy weak MspInit Callback */ |
| break; |
| |
| case HAL_DSI_MSPDEINIT_CB_ID : |
| hdsi->MspDeInitCallback = HAL_DSI_MspDeInit; /* Legacy weak MspDeInit Callback */ |
| break; |
| |
| default : |
| /* Update the error code */ |
| hdsi->ErrorCode |= HAL_DSI_ERROR_INVALID_CALLBACK; |
| /* Return error status */ |
| status = HAL_ERROR; |
| break; |
| } |
| } |
| else if (hdsi->State == HAL_DSI_STATE_RESET) |
| { |
| switch (CallbackID) |
| { |
| case HAL_DSI_MSPINIT_CB_ID : |
| hdsi->MspInitCallback = HAL_DSI_MspInit; /* Legacy weak MspInit Callback */ |
| break; |
| |
| case HAL_DSI_MSPDEINIT_CB_ID : |
| hdsi->MspDeInitCallback = HAL_DSI_MspDeInit; /* Legacy weak MspDeInit Callback */ |
| break; |
| |
| default : |
| /* Update the error code */ |
| hdsi->ErrorCode |= HAL_DSI_ERROR_INVALID_CALLBACK; |
| /* Return error status */ |
| status = HAL_ERROR; |
| break; |
| } |
| } |
| else |
| { |
| /* Update the error code */ |
| hdsi->ErrorCode |= HAL_DSI_ERROR_INVALID_CALLBACK; |
| /* Return error status */ |
| status = HAL_ERROR; |
| } |
| |
| /* Release Lock */ |
| __HAL_UNLOCK(hdsi); |
| |
| return status; |
| } |
| #endif /* USE_HAL_DSI_REGISTER_CALLBACKS */ |
| |
| /** |
| * @} |
| */ |
| |
| /** @defgroup DSI_Group2 IO operation functions |
| * @brief IO operation functions |
| * |
| @verbatim |
| =============================================================================== |
| ##### IO operation functions ##### |
| =============================================================================== |
| [..] This section provides function allowing to: |
| (+) Handle DSI interrupt request |
| |
| @endverbatim |
| * @{ |
| */ |
| /** |
| * @brief Handles DSI interrupt request. |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @retval HAL status |
| */ |
| void HAL_DSI_IRQHandler(DSI_HandleTypeDef *hdsi) |
| { |
| uint32_t ErrorStatus0; |
| uint32_t ErrorStatus1; |
| |
| /* Tearing Effect Interrupt management ***************************************/ |
| if (__HAL_DSI_GET_FLAG(hdsi, DSI_FLAG_TE) != 0U) |
| { |
| if (__HAL_DSI_GET_IT_SOURCE(hdsi, DSI_IT_TE) != 0U) |
| { |
| /* Clear the Tearing Effect Interrupt Flag */ |
| __HAL_DSI_CLEAR_FLAG(hdsi, DSI_FLAG_TE); |
| |
| /* Tearing Effect Callback */ |
| #if (USE_HAL_DSI_REGISTER_CALLBACKS == 1) |
| /*Call registered Tearing Effect callback */ |
| hdsi->TearingEffectCallback(hdsi); |
| #else |
| /*Call legacy Tearing Effect callback*/ |
| HAL_DSI_TearingEffectCallback(hdsi); |
| #endif /* USE_HAL_DSI_REGISTER_CALLBACKS */ |
| } |
| } |
| |
| /* End of Refresh Interrupt management ***************************************/ |
| if (__HAL_DSI_GET_FLAG(hdsi, DSI_FLAG_ER) != 0U) |
| { |
| if (__HAL_DSI_GET_IT_SOURCE(hdsi, DSI_IT_ER) != 0U) |
| { |
| /* Clear the End of Refresh Interrupt Flag */ |
| __HAL_DSI_CLEAR_FLAG(hdsi, DSI_FLAG_ER); |
| |
| /* End of Refresh Callback */ |
| #if (USE_HAL_DSI_REGISTER_CALLBACKS == 1) |
| /*Call registered End of refresh callback */ |
| hdsi->EndOfRefreshCallback(hdsi); |
| #else |
| /*Call Legacy End of refresh callback */ |
| HAL_DSI_EndOfRefreshCallback(hdsi); |
| #endif /* USE_HAL_DSI_REGISTER_CALLBACKS */ |
| } |
| } |
| |
| /* Error Interrupts management ***********************************************/ |
| if (hdsi->ErrorMsk != 0U) |
| { |
| ErrorStatus0 = hdsi->Instance->ISR[0U]; |
| ErrorStatus0 &= hdsi->Instance->IER[0U]; |
| ErrorStatus1 = hdsi->Instance->ISR[1U]; |
| ErrorStatus1 &= hdsi->Instance->IER[1U]; |
| |
| if ((ErrorStatus0 & DSI_ERROR_ACK_MASK) != 0U) |
| { |
| hdsi->ErrorCode |= HAL_DSI_ERROR_ACK; |
| } |
| |
| if ((ErrorStatus0 & DSI_ERROR_PHY_MASK) != 0U) |
| { |
| hdsi->ErrorCode |= HAL_DSI_ERROR_PHY; |
| } |
| |
| if ((ErrorStatus1 & DSI_ERROR_TX_MASK) != 0U) |
| { |
| hdsi->ErrorCode |= HAL_DSI_ERROR_TX; |
| } |
| |
| if ((ErrorStatus1 & DSI_ERROR_RX_MASK) != 0U) |
| { |
| hdsi->ErrorCode |= HAL_DSI_ERROR_RX; |
| } |
| |
| if ((ErrorStatus1 & DSI_ERROR_ECC_MASK) != 0U) |
| { |
| hdsi->ErrorCode |= HAL_DSI_ERROR_ECC; |
| } |
| |
| if ((ErrorStatus1 & DSI_ERROR_CRC_MASK) != 0U) |
| { |
| hdsi->ErrorCode |= HAL_DSI_ERROR_CRC; |
| } |
| |
| if ((ErrorStatus1 & DSI_ERROR_PSE_MASK) != 0U) |
| { |
| hdsi->ErrorCode |= HAL_DSI_ERROR_PSE; |
| } |
| |
| if ((ErrorStatus1 & DSI_ERROR_EOT_MASK) != 0U) |
| { |
| hdsi->ErrorCode |= HAL_DSI_ERROR_EOT; |
| } |
| |
| if ((ErrorStatus1 & DSI_ERROR_OVF_MASK) != 0U) |
| { |
| hdsi->ErrorCode |= HAL_DSI_ERROR_OVF; |
| } |
| |
| if ((ErrorStatus1 & DSI_ERROR_GEN_MASK) != 0U) |
| { |
| hdsi->ErrorCode |= HAL_DSI_ERROR_GEN; |
| } |
| |
| /* Check only selected errors */ |
| if (hdsi->ErrorCode != HAL_DSI_ERROR_NONE) |
| { |
| /* DSI error interrupt callback */ |
| #if (USE_HAL_DSI_REGISTER_CALLBACKS == 1) |
| /*Call registered Error callback */ |
| hdsi->ErrorCallback(hdsi); |
| #else |
| /*Call Legacy Error callback */ |
| HAL_DSI_ErrorCallback(hdsi); |
| #endif /* USE_HAL_DSI_REGISTER_CALLBACKS */ |
| } |
| } |
| } |
| |
| /** |
| * @brief Tearing Effect DSI callback. |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @retval None |
| */ |
| __weak void HAL_DSI_TearingEffectCallback(DSI_HandleTypeDef *hdsi) |
| { |
| /* Prevent unused argument(s) compilation warning */ |
| UNUSED(hdsi); |
| /* NOTE : This function Should not be modified, when the callback is needed, |
| the HAL_DSI_TearingEffectCallback could be implemented in the user file |
| */ |
| } |
| |
| /** |
| * @brief End of Refresh DSI callback. |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @retval None |
| */ |
| __weak void HAL_DSI_EndOfRefreshCallback(DSI_HandleTypeDef *hdsi) |
| { |
| /* Prevent unused argument(s) compilation warning */ |
| UNUSED(hdsi); |
| /* NOTE : This function Should not be modified, when the callback is needed, |
| the HAL_DSI_EndOfRefreshCallback could be implemented in the user file |
| */ |
| } |
| |
| /** |
| * @brief Operation Error DSI callback. |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @retval None |
| */ |
| __weak void HAL_DSI_ErrorCallback(DSI_HandleTypeDef *hdsi) |
| { |
| /* Prevent unused argument(s) compilation warning */ |
| UNUSED(hdsi); |
| /* NOTE : This function Should not be modified, when the callback is needed, |
| the HAL_DSI_ErrorCallback could be implemented in the user file |
| */ |
| } |
| |
| /** |
| * @} |
| */ |
| |
| /** @defgroup DSI_Group3 Peripheral Control functions |
| * @brief Peripheral Control functions |
| * |
| @verbatim |
| =============================================================================== |
| ##### Peripheral Control functions ##### |
| =============================================================================== |
| [..] This section provides functions allowing to: |
| (+) Configure the Generic interface read-back Virtual Channel ID |
| (+) Select video mode and configure the corresponding parameters |
| (+) Configure command transmission mode: High-speed or Low-power |
| (+) Configure the flow control |
| (+) Configure the DSI PHY timer |
| (+) Configure the DSI HOST timeout |
| (+) Configure the DSI HOST timeout |
| (+) Start/Stop the DSI module |
| (+) Refresh the display in command mode |
| (+) Controls the display color mode in Video mode |
| (+) Control the display shutdown in Video mode |
| (+) write short DCS or short Generic command |
| (+) write long DCS or long Generic command |
| (+) Read command (DCS or generic) |
| (+) Enter/Exit the Ultra Low Power Mode on data only (D-PHY PLL running) |
| (+) Enter/Exit the Ultra Low Power Mode on data only and clock (D-PHY PLL turned off) |
| (+) Start/Stop test pattern generation |
| (+) Slew-Rate And Delay Tuning |
| (+) Low-Power Reception Filter Tuning |
| (+) Activate an additional current path on all lanes to meet the SDDTx parameter |
| (+) Custom lane pins configuration |
| (+) Set custom timing for the PHY |
| (+) Force the Clock/Data Lane in TX Stop Mode |
| (+) Force LP Receiver in Low-Power Mode |
| (+) Force Data Lanes in RX Mode after a BTA |
| (+) Enable a pull-down on the lanes to prevent from floating states when unused |
| (+) Switch off the contention detection on data lanes |
| |
| @endverbatim |
| * @{ |
| */ |
| |
| /** |
| * @brief Configure the Generic interface read-back Virtual Channel ID. |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param VirtualChannelID Virtual channel ID |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_SetGenericVCID(DSI_HandleTypeDef *hdsi, uint32_t VirtualChannelID) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Update the GVCID register */ |
| hdsi->Instance->GVCIDR &= ~DSI_GVCIDR_VCID; |
| hdsi->Instance->GVCIDR |= VirtualChannelID; |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Select video mode and configure the corresponding parameters |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param VidCfg pointer to a DSI_VidCfgTypeDef structure that contains |
| * the DSI video mode configuration parameters |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_ConfigVideoMode(DSI_HandleTypeDef *hdsi, DSI_VidCfgTypeDef *VidCfg) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Check the parameters */ |
| assert_param(IS_DSI_COLOR_CODING(VidCfg->ColorCoding)); |
| assert_param(IS_DSI_VIDEO_MODE_TYPE(VidCfg->Mode)); |
| assert_param(IS_DSI_LP_COMMAND(VidCfg->LPCommandEnable)); |
| assert_param(IS_DSI_LP_HFP(VidCfg->LPHorizontalFrontPorchEnable)); |
| assert_param(IS_DSI_LP_HBP(VidCfg->LPHorizontalBackPorchEnable)); |
| assert_param(IS_DSI_LP_VACTIVE(VidCfg->LPVerticalActiveEnable)); |
| assert_param(IS_DSI_LP_VFP(VidCfg->LPVerticalFrontPorchEnable)); |
| assert_param(IS_DSI_LP_VBP(VidCfg->LPVerticalBackPorchEnable)); |
| assert_param(IS_DSI_LP_VSYNC(VidCfg->LPVerticalSyncActiveEnable)); |
| assert_param(IS_DSI_FBTAA(VidCfg->FrameBTAAcknowledgeEnable)); |
| assert_param(IS_DSI_DE_POLARITY(VidCfg->DEPolarity)); |
| assert_param(IS_DSI_VSYNC_POLARITY(VidCfg->VSPolarity)); |
| assert_param(IS_DSI_HSYNC_POLARITY(VidCfg->HSPolarity)); |
| /* Check the LooselyPacked variant only in 18-bit mode */ |
| if (VidCfg->ColorCoding == DSI_RGB666) |
| { |
| assert_param(IS_DSI_LOOSELY_PACKED(VidCfg->LooselyPacked)); |
| } |
| |
| /* Select video mode by resetting CMDM and DSIM bits */ |
| hdsi->Instance->MCR &= ~DSI_MCR_CMDM; |
| hdsi->Instance->WCFGR &= ~DSI_WCFGR_DSIM; |
| |
| /* Configure the video mode transmission type */ |
| hdsi->Instance->VMCR &= ~DSI_VMCR_VMT; |
| hdsi->Instance->VMCR |= VidCfg->Mode; |
| |
| /* Configure the video packet size */ |
| hdsi->Instance->VPCR &= ~DSI_VPCR_VPSIZE; |
| hdsi->Instance->VPCR |= VidCfg->PacketSize; |
| |
| /* Set the chunks number to be transmitted through the DSI link */ |
| hdsi->Instance->VCCR &= ~DSI_VCCR_NUMC; |
| hdsi->Instance->VCCR |= VidCfg->NumberOfChunks; |
| |
| /* Set the size of the null packet */ |
| hdsi->Instance->VNPCR &= ~DSI_VNPCR_NPSIZE; |
| hdsi->Instance->VNPCR |= VidCfg->NullPacketSize; |
| |
| /* Select the virtual channel for the LTDC interface traffic */ |
| hdsi->Instance->LVCIDR &= ~DSI_LVCIDR_VCID; |
| hdsi->Instance->LVCIDR |= VidCfg->VirtualChannelID; |
| |
| /* Configure the polarity of control signals */ |
| hdsi->Instance->LPCR &= ~(DSI_LPCR_DEP | DSI_LPCR_VSP | DSI_LPCR_HSP); |
| hdsi->Instance->LPCR |= (VidCfg->DEPolarity | VidCfg->VSPolarity | VidCfg->HSPolarity); |
| |
| /* Select the color coding for the host */ |
| hdsi->Instance->LCOLCR &= ~DSI_LCOLCR_COLC; |
| hdsi->Instance->LCOLCR |= VidCfg->ColorCoding; |
| |
| /* Select the color coding for the wrapper */ |
| hdsi->Instance->WCFGR &= ~DSI_WCFGR_COLMUX; |
| hdsi->Instance->WCFGR |= ((VidCfg->ColorCoding) << 1U); |
| |
| /* Enable/disable the loosely packed variant to 18-bit configuration */ |
| if (VidCfg->ColorCoding == DSI_RGB666) |
| { |
| hdsi->Instance->LCOLCR &= ~DSI_LCOLCR_LPE; |
| hdsi->Instance->LCOLCR |= VidCfg->LooselyPacked; |
| } |
| |
| /* Set the Horizontal Synchronization Active (HSA) in lane byte clock cycles */ |
| hdsi->Instance->VHSACR &= ~DSI_VHSACR_HSA; |
| hdsi->Instance->VHSACR |= VidCfg->HorizontalSyncActive; |
| |
| /* Set the Horizontal Back Porch (HBP) in lane byte clock cycles */ |
| hdsi->Instance->VHBPCR &= ~DSI_VHBPCR_HBP; |
| hdsi->Instance->VHBPCR |= VidCfg->HorizontalBackPorch; |
| |
| /* Set the total line time (HLINE=HSA+HBP+HACT+HFP) in lane byte clock cycles */ |
| hdsi->Instance->VLCR &= ~DSI_VLCR_HLINE; |
| hdsi->Instance->VLCR |= VidCfg->HorizontalLine; |
| |
| /* Set the Vertical Synchronization Active (VSA) */ |
| hdsi->Instance->VVSACR &= ~DSI_VVSACR_VSA; |
| hdsi->Instance->VVSACR |= VidCfg->VerticalSyncActive; |
| |
| /* Set the Vertical Back Porch (VBP)*/ |
| hdsi->Instance->VVBPCR &= ~DSI_VVBPCR_VBP; |
| hdsi->Instance->VVBPCR |= VidCfg->VerticalBackPorch; |
| |
| /* Set the Vertical Front Porch (VFP)*/ |
| hdsi->Instance->VVFPCR &= ~DSI_VVFPCR_VFP; |
| hdsi->Instance->VVFPCR |= VidCfg->VerticalFrontPorch; |
| |
| /* Set the Vertical Active period*/ |
| hdsi->Instance->VVACR &= ~DSI_VVACR_VA; |
| hdsi->Instance->VVACR |= VidCfg->VerticalActive; |
| |
| /* Configure the command transmission mode */ |
| hdsi->Instance->VMCR &= ~DSI_VMCR_LPCE; |
| hdsi->Instance->VMCR |= VidCfg->LPCommandEnable; |
| |
| /* Low power largest packet size */ |
| hdsi->Instance->LPMCR &= ~DSI_LPMCR_LPSIZE; |
| hdsi->Instance->LPMCR |= ((VidCfg->LPLargestPacketSize) << 16U); |
| |
| /* Low power VACT largest packet size */ |
| hdsi->Instance->LPMCR &= ~DSI_LPMCR_VLPSIZE; |
| hdsi->Instance->LPMCR |= VidCfg->LPVACTLargestPacketSize; |
| |
| /* Enable LP transition in HFP period */ |
| hdsi->Instance->VMCR &= ~DSI_VMCR_LPHFPE; |
| hdsi->Instance->VMCR |= VidCfg->LPHorizontalFrontPorchEnable; |
| |
| /* Enable LP transition in HBP period */ |
| hdsi->Instance->VMCR &= ~DSI_VMCR_LPHBPE; |
| hdsi->Instance->VMCR |= VidCfg->LPHorizontalBackPorchEnable; |
| |
| /* Enable LP transition in VACT period */ |
| hdsi->Instance->VMCR &= ~DSI_VMCR_LPVAE; |
| hdsi->Instance->VMCR |= VidCfg->LPVerticalActiveEnable; |
| |
| /* Enable LP transition in VFP period */ |
| hdsi->Instance->VMCR &= ~DSI_VMCR_LPVFPE; |
| hdsi->Instance->VMCR |= VidCfg->LPVerticalFrontPorchEnable; |
| |
| /* Enable LP transition in VBP period */ |
| hdsi->Instance->VMCR &= ~DSI_VMCR_LPVBPE; |
| hdsi->Instance->VMCR |= VidCfg->LPVerticalBackPorchEnable; |
| |
| /* Enable LP transition in vertical sync period */ |
| hdsi->Instance->VMCR &= ~DSI_VMCR_LPVSAE; |
| hdsi->Instance->VMCR |= VidCfg->LPVerticalSyncActiveEnable; |
| |
| /* Enable the request for an acknowledge response at the end of a frame */ |
| hdsi->Instance->VMCR &= ~DSI_VMCR_FBTAAE; |
| hdsi->Instance->VMCR |= VidCfg->FrameBTAAcknowledgeEnable; |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Select adapted command mode and configure the corresponding parameters |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param CmdCfg pointer to a DSI_CmdCfgTypeDef structure that contains |
| * the DSI command mode configuration parameters |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_ConfigAdaptedCommandMode(DSI_HandleTypeDef *hdsi, DSI_CmdCfgTypeDef *CmdCfg) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Check the parameters */ |
| assert_param(IS_DSI_COLOR_CODING(CmdCfg->ColorCoding)); |
| assert_param(IS_DSI_TE_SOURCE(CmdCfg->TearingEffectSource)); |
| assert_param(IS_DSI_TE_POLARITY(CmdCfg->TearingEffectPolarity)); |
| assert_param(IS_DSI_AUTOMATIC_REFRESH(CmdCfg->AutomaticRefresh)); |
| assert_param(IS_DSI_VS_POLARITY(CmdCfg->VSyncPol)); |
| assert_param(IS_DSI_TE_ACK_REQUEST(CmdCfg->TEAcknowledgeRequest)); |
| assert_param(IS_DSI_DE_POLARITY(CmdCfg->DEPolarity)); |
| assert_param(IS_DSI_VSYNC_POLARITY(CmdCfg->VSPolarity)); |
| assert_param(IS_DSI_HSYNC_POLARITY(CmdCfg->HSPolarity)); |
| |
| /* Select command mode by setting CMDM and DSIM bits */ |
| hdsi->Instance->MCR |= DSI_MCR_CMDM; |
| hdsi->Instance->WCFGR &= ~DSI_WCFGR_DSIM; |
| hdsi->Instance->WCFGR |= DSI_WCFGR_DSIM; |
| |
| /* Select the virtual channel for the LTDC interface traffic */ |
| hdsi->Instance->LVCIDR &= ~DSI_LVCIDR_VCID; |
| hdsi->Instance->LVCIDR |= CmdCfg->VirtualChannelID; |
| |
| /* Configure the polarity of control signals */ |
| hdsi->Instance->LPCR &= ~(DSI_LPCR_DEP | DSI_LPCR_VSP | DSI_LPCR_HSP); |
| hdsi->Instance->LPCR |= (CmdCfg->DEPolarity | CmdCfg->VSPolarity | CmdCfg->HSPolarity); |
| |
| /* Select the color coding for the host */ |
| hdsi->Instance->LCOLCR &= ~DSI_LCOLCR_COLC; |
| hdsi->Instance->LCOLCR |= CmdCfg->ColorCoding; |
| |
| /* Select the color coding for the wrapper */ |
| hdsi->Instance->WCFGR &= ~DSI_WCFGR_COLMUX; |
| hdsi->Instance->WCFGR |= ((CmdCfg->ColorCoding) << 1U); |
| |
| /* Configure the maximum allowed size for write memory command */ |
| hdsi->Instance->LCCR &= ~DSI_LCCR_CMDSIZE; |
| hdsi->Instance->LCCR |= CmdCfg->CommandSize; |
| |
| /* Configure the tearing effect source and polarity and select the refresh mode */ |
| hdsi->Instance->WCFGR &= ~(DSI_WCFGR_TESRC | DSI_WCFGR_TEPOL | DSI_WCFGR_AR | DSI_WCFGR_VSPOL); |
| hdsi->Instance->WCFGR |= (CmdCfg->TearingEffectSource | CmdCfg->TearingEffectPolarity | CmdCfg->AutomaticRefresh | |
| CmdCfg->VSyncPol); |
| |
| /* Configure the tearing effect acknowledge request */ |
| hdsi->Instance->CMCR &= ~DSI_CMCR_TEARE; |
| hdsi->Instance->CMCR |= CmdCfg->TEAcknowledgeRequest; |
| |
| /* Enable the Tearing Effect interrupt */ |
| __HAL_DSI_ENABLE_IT(hdsi, DSI_IT_TE); |
| |
| /* Enable the End of Refresh interrupt */ |
| __HAL_DSI_ENABLE_IT(hdsi, DSI_IT_ER); |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Configure command transmission mode: High-speed or Low-power |
| * and enable/disable acknowledge request after packet transmission |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param LPCmd pointer to a DSI_LPCmdTypeDef structure that contains |
| * the DSI command transmission mode configuration parameters |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_ConfigCommand(DSI_HandleTypeDef *hdsi, DSI_LPCmdTypeDef *LPCmd) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| assert_param(IS_DSI_LP_GSW0P(LPCmd->LPGenShortWriteNoP)); |
| assert_param(IS_DSI_LP_GSW1P(LPCmd->LPGenShortWriteOneP)); |
| assert_param(IS_DSI_LP_GSW2P(LPCmd->LPGenShortWriteTwoP)); |
| assert_param(IS_DSI_LP_GSR0P(LPCmd->LPGenShortReadNoP)); |
| assert_param(IS_DSI_LP_GSR1P(LPCmd->LPGenShortReadOneP)); |
| assert_param(IS_DSI_LP_GSR2P(LPCmd->LPGenShortReadTwoP)); |
| assert_param(IS_DSI_LP_GLW(LPCmd->LPGenLongWrite)); |
| assert_param(IS_DSI_LP_DSW0P(LPCmd->LPDcsShortWriteNoP)); |
| assert_param(IS_DSI_LP_DSW1P(LPCmd->LPDcsShortWriteOneP)); |
| assert_param(IS_DSI_LP_DSR0P(LPCmd->LPDcsShortReadNoP)); |
| assert_param(IS_DSI_LP_DLW(LPCmd->LPDcsLongWrite)); |
| assert_param(IS_DSI_LP_MRDP(LPCmd->LPMaxReadPacket)); |
| assert_param(IS_DSI_ACK_REQUEST(LPCmd->AcknowledgeRequest)); |
| |
| /* Select High-speed or Low-power for command transmission */ |
| hdsi->Instance->CMCR &= ~(DSI_CMCR_GSW0TX | \ |
| DSI_CMCR_GSW1TX | \ |
| DSI_CMCR_GSW2TX | \ |
| DSI_CMCR_GSR0TX | \ |
| DSI_CMCR_GSR1TX | \ |
| DSI_CMCR_GSR2TX | \ |
| DSI_CMCR_GLWTX | \ |
| DSI_CMCR_DSW0TX | \ |
| DSI_CMCR_DSW1TX | \ |
| DSI_CMCR_DSR0TX | \ |
| DSI_CMCR_DLWTX | \ |
| DSI_CMCR_MRDPS); |
| hdsi->Instance->CMCR |= (LPCmd->LPGenShortWriteNoP | \ |
| LPCmd->LPGenShortWriteOneP | \ |
| LPCmd->LPGenShortWriteTwoP | \ |
| LPCmd->LPGenShortReadNoP | \ |
| LPCmd->LPGenShortReadOneP | \ |
| LPCmd->LPGenShortReadTwoP | \ |
| LPCmd->LPGenLongWrite | \ |
| LPCmd->LPDcsShortWriteNoP | \ |
| LPCmd->LPDcsShortWriteOneP | \ |
| LPCmd->LPDcsShortReadNoP | \ |
| LPCmd->LPDcsLongWrite | \ |
| LPCmd->LPMaxReadPacket); |
| |
| /* Configure the acknowledge request after each packet transmission */ |
| hdsi->Instance->CMCR &= ~DSI_CMCR_ARE; |
| hdsi->Instance->CMCR |= LPCmd->AcknowledgeRequest; |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Configure the flow control parameters |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param FlowControl flow control feature(s) to be enabled. |
| * This parameter can be any combination of @arg DSI_FlowControl. |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_ConfigFlowControl(DSI_HandleTypeDef *hdsi, uint32_t FlowControl) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Check the parameters */ |
| assert_param(IS_DSI_FLOW_CONTROL(FlowControl)); |
| |
| /* Set the DSI Host Protocol Configuration Register */ |
| hdsi->Instance->PCR &= ~DSI_FLOW_CONTROL_ALL; |
| hdsi->Instance->PCR |= FlowControl; |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Configure the DSI PHY timer parameters |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param PhyTimers DSI_PHY_TimerTypeDef structure that contains |
| * the DSI PHY timing parameters |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_ConfigPhyTimer(DSI_HandleTypeDef *hdsi, DSI_PHY_TimerTypeDef *PhyTimers) |
| { |
| uint32_t maxTime; |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| maxTime = (PhyTimers->ClockLaneLP2HSTime > PhyTimers->ClockLaneHS2LPTime) ? PhyTimers->ClockLaneLP2HSTime : |
| PhyTimers->ClockLaneHS2LPTime; |
| |
| /* Clock lane timer configuration */ |
| |
| /* In Automatic Clock Lane control mode, the DSI Host can turn off the clock lane between two |
| High-Speed transmission. |
| To do so, the DSI Host calculates the time required for the clock lane to change from HighSpeed |
| to Low-Power and from Low-Power to High-Speed. |
| This timings are configured by the HS2LP_TIME and LP2HS_TIME in the DSI Host Clock Lane Timer Configuration |
| Register (DSI_CLTCR). |
| But the DSI Host is not calculating LP2HS_TIME + HS2LP_TIME but 2 x HS2LP_TIME. |
| |
| Workaround : Configure HS2LP_TIME and LP2HS_TIME with the same value being the max of HS2LP_TIME or LP2HS_TIME. |
| */ |
| hdsi->Instance->CLTCR &= ~(DSI_CLTCR_LP2HS_TIME | DSI_CLTCR_HS2LP_TIME); |
| hdsi->Instance->CLTCR |= (maxTime | ((maxTime) << 16U)); |
| |
| /* Data lane timer configuration */ |
| hdsi->Instance->DLTCR &= ~(DSI_DLTCR_MRD_TIME | DSI_DLTCR_LP2HS_TIME | DSI_DLTCR_HS2LP_TIME); |
| hdsi->Instance->DLTCR |= (PhyTimers->DataLaneMaxReadTime | ((PhyTimers->DataLaneLP2HSTime) << 16U) | (( |
| PhyTimers->DataLaneHS2LPTime) << 24U)); |
| |
| /* Configure the wait period to request HS transmission after a stop state */ |
| hdsi->Instance->PCONFR &= ~DSI_PCONFR_SW_TIME; |
| hdsi->Instance->PCONFR |= ((PhyTimers->StopWaitTime) << 8U); |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Configure the DSI HOST timeout parameters |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param HostTimeouts DSI_HOST_TimeoutTypeDef structure that contains |
| * the DSI host timeout parameters |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_ConfigHostTimeouts(DSI_HandleTypeDef *hdsi, DSI_HOST_TimeoutTypeDef *HostTimeouts) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Set the timeout clock division factor */ |
| hdsi->Instance->CCR &= ~DSI_CCR_TOCKDIV; |
| hdsi->Instance->CCR |= ((HostTimeouts->TimeoutCkdiv) << 8U); |
| |
| /* High-speed transmission timeout */ |
| hdsi->Instance->TCCR[0U] &= ~DSI_TCCR0_HSTX_TOCNT; |
| hdsi->Instance->TCCR[0U] |= ((HostTimeouts->HighSpeedTransmissionTimeout) << 16U); |
| |
| /* Low-power reception timeout */ |
| hdsi->Instance->TCCR[0U] &= ~DSI_TCCR0_LPRX_TOCNT; |
| hdsi->Instance->TCCR[0U] |= HostTimeouts->LowPowerReceptionTimeout; |
| |
| /* High-speed read timeout */ |
| hdsi->Instance->TCCR[1U] &= ~DSI_TCCR1_HSRD_TOCNT; |
| hdsi->Instance->TCCR[1U] |= HostTimeouts->HighSpeedReadTimeout; |
| |
| /* Low-power read timeout */ |
| hdsi->Instance->TCCR[2U] &= ~DSI_TCCR2_LPRD_TOCNT; |
| hdsi->Instance->TCCR[2U] |= HostTimeouts->LowPowerReadTimeout; |
| |
| /* High-speed write timeout */ |
| hdsi->Instance->TCCR[3U] &= ~DSI_TCCR3_HSWR_TOCNT; |
| hdsi->Instance->TCCR[3U] |= HostTimeouts->HighSpeedWriteTimeout; |
| |
| /* High-speed write presp mode */ |
| hdsi->Instance->TCCR[3U] &= ~DSI_TCCR3_PM; |
| hdsi->Instance->TCCR[3U] |= HostTimeouts->HighSpeedWritePrespMode; |
| |
| /* Low-speed write timeout */ |
| hdsi->Instance->TCCR[4U] &= ~DSI_TCCR4_LPWR_TOCNT; |
| hdsi->Instance->TCCR[4U] |= HostTimeouts->LowPowerWriteTimeout; |
| |
| /* BTA timeout */ |
| hdsi->Instance->TCCR[5U] &= ~DSI_TCCR5_BTA_TOCNT; |
| hdsi->Instance->TCCR[5U] |= HostTimeouts->BTATimeout; |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Start the DSI module |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_Start(DSI_HandleTypeDef *hdsi) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Enable the DSI host */ |
| __HAL_DSI_ENABLE(hdsi); |
| |
| /* Enable the DSI wrapper */ |
| __HAL_DSI_WRAPPER_ENABLE(hdsi); |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Stop the DSI module |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_Stop(DSI_HandleTypeDef *hdsi) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Disable the DSI host */ |
| __HAL_DSI_DISABLE(hdsi); |
| |
| /* Disable the DSI wrapper */ |
| __HAL_DSI_WRAPPER_DISABLE(hdsi); |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Refresh the display in command mode |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_Refresh(DSI_HandleTypeDef *hdsi) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Update the display */ |
| hdsi->Instance->WCR |= DSI_WCR_LTDCEN; |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Controls the display color mode in Video mode |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param ColorMode Color mode (full or 8-colors). |
| * This parameter can be any value of @arg DSI_Color_Mode |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_ColorMode(DSI_HandleTypeDef *hdsi, uint32_t ColorMode) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Check the parameters */ |
| assert_param(IS_DSI_COLOR_MODE(ColorMode)); |
| |
| /* Update the display color mode */ |
| hdsi->Instance->WCR &= ~DSI_WCR_COLM; |
| hdsi->Instance->WCR |= ColorMode; |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Control the display shutdown in Video mode |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param Shutdown Shut-down (Display-ON or Display-OFF). |
| * This parameter can be any value of @arg DSI_ShutDown |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_Shutdown(DSI_HandleTypeDef *hdsi, uint32_t Shutdown) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Check the parameters */ |
| assert_param(IS_DSI_SHUT_DOWN(Shutdown)); |
| |
| /* Update the display Shutdown */ |
| hdsi->Instance->WCR &= ~DSI_WCR_SHTDN; |
| hdsi->Instance->WCR |= Shutdown; |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief write short DCS or short Generic command |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param ChannelID Virtual channel ID. |
| * @param Mode DSI short packet data type. |
| * This parameter can be any value of @arg DSI_SHORT_WRITE_PKT_Data_Type. |
| * @param Param1 DSC command or first generic parameter. |
| * This parameter can be any value of @arg DSI_DCS_Command or a |
| * generic command code. |
| * @param Param2 DSC parameter or second generic parameter. |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_ShortWrite(DSI_HandleTypeDef *hdsi, |
| uint32_t ChannelID, |
| uint32_t Mode, |
| uint32_t Param1, |
| uint32_t Param2) |
| { |
| HAL_StatusTypeDef status; |
| /* Check the parameters */ |
| assert_param(IS_DSI_SHORT_WRITE_PACKET_TYPE(Mode)); |
| |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| status = DSI_ShortWrite(hdsi, ChannelID, Mode, Param1, Param2); |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return status; |
| } |
| |
| /** |
| * @brief write long DCS or long Generic command |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param ChannelID Virtual channel ID. |
| * @param Mode DSI long packet data type. |
| * This parameter can be any value of @arg DSI_LONG_WRITE_PKT_Data_Type. |
| * @param NbParams Number of parameters. |
| * @param Param1 DSC command or first generic parameter. |
| * This parameter can be any value of @arg DSI_DCS_Command or a |
| * generic command code |
| * @param ParametersTable Pointer to parameter values table. |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_LongWrite(DSI_HandleTypeDef *hdsi, |
| uint32_t ChannelID, |
| uint32_t Mode, |
| uint32_t NbParams, |
| uint32_t Param1, |
| const uint8_t *ParametersTable) |
| { |
| uint32_t uicounter; |
| uint32_t nbBytes; |
| uint32_t count; |
| uint32_t tickstart; |
| uint32_t fifoword; |
| const uint8_t *pparams = ParametersTable; |
| |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Check the parameters */ |
| assert_param(IS_DSI_LONG_WRITE_PACKET_TYPE(Mode)); |
| |
| /* Get tick */ |
| tickstart = HAL_GetTick(); |
| |
| /* Wait for Command FIFO Empty */ |
| while ((hdsi->Instance->GPSR & DSI_GPSR_CMDFE) == 0U) |
| { |
| /* Check for the Timeout */ |
| if ((HAL_GetTick() - tickstart) > DSI_TIMEOUT_VALUE) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_TIMEOUT; |
| } |
| } |
| |
| /* Set the DCS code on payload byte 1, and the other parameters on the write FIFO command*/ |
| fifoword = Param1; |
| nbBytes = (NbParams < 3U) ? NbParams : 3U; |
| |
| for (count = 0U; count < nbBytes; count++) |
| { |
| fifoword |= (((uint32_t)(*(pparams + count))) << (8U + (8U * count))); |
| } |
| hdsi->Instance->GPDR = fifoword; |
| |
| uicounter = NbParams - nbBytes; |
| pparams += nbBytes; |
| /* Set the Next parameters on the write FIFO command*/ |
| while (uicounter != 0U) |
| { |
| nbBytes = (uicounter < 4U) ? uicounter : 4U; |
| fifoword = 0U; |
| for (count = 0U; count < nbBytes; count++) |
| { |
| fifoword |= (((uint32_t)(*(pparams + count))) << (8U * count)); |
| } |
| hdsi->Instance->GPDR = fifoword; |
| |
| uicounter -= nbBytes; |
| pparams += nbBytes; |
| } |
| |
| /* Configure the packet to send a long DCS command */ |
| DSI_ConfigPacketHeader(hdsi->Instance, |
| ChannelID, |
| Mode, |
| ((NbParams + 1U) & 0x00FFU), |
| (((NbParams + 1U) & 0xFF00U) >> 8U)); |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Read command (DCS or generic) |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param ChannelNbr Virtual channel ID |
| * @param Array pointer to a buffer to store the payload of a read back operation. |
| * @param Size Data size to be read (in byte). |
| * @param Mode DSI read packet data type. |
| * This parameter can be any value of @arg DSI_SHORT_READ_PKT_Data_Type. |
| * @param DCSCmd DCS get/read command. |
| * @param ParametersTable Pointer to parameter values table. |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_Read(DSI_HandleTypeDef *hdsi, |
| uint32_t ChannelNbr, |
| uint8_t *Array, |
| uint32_t Size, |
| uint32_t Mode, |
| uint32_t DCSCmd, |
| uint8_t *ParametersTable) |
| { |
| uint32_t tickstart; |
| uint8_t *pdata = Array; |
| uint32_t datasize = Size; |
| uint32_t fifoword; |
| uint32_t nbbytes; |
| uint32_t count; |
| |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Check the parameters */ |
| assert_param(IS_DSI_READ_PACKET_TYPE(Mode)); |
| |
| if (datasize > 2U) |
| { |
| /* set max return packet size */ |
| if (DSI_ShortWrite(hdsi, ChannelNbr, DSI_MAX_RETURN_PKT_SIZE, ((datasize) & 0xFFU), |
| (((datasize) >> 8U) & 0xFFU)) != HAL_OK) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_ERROR; |
| } |
| } |
| |
| /* Configure the packet to read command */ |
| if (Mode == DSI_DCS_SHORT_PKT_READ) |
| { |
| DSI_ConfigPacketHeader(hdsi->Instance, ChannelNbr, Mode, DCSCmd, 0U); |
| } |
| else if (Mode == DSI_GEN_SHORT_PKT_READ_P0) |
| { |
| DSI_ConfigPacketHeader(hdsi->Instance, ChannelNbr, Mode, 0U, 0U); |
| } |
| else if (Mode == DSI_GEN_SHORT_PKT_READ_P1) |
| { |
| DSI_ConfigPacketHeader(hdsi->Instance, ChannelNbr, Mode, ParametersTable[0U], 0U); |
| } |
| else if (Mode == DSI_GEN_SHORT_PKT_READ_P2) |
| { |
| DSI_ConfigPacketHeader(hdsi->Instance, ChannelNbr, Mode, ParametersTable[0U], ParametersTable[1U]); |
| } |
| else |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_ERROR; |
| } |
| |
| /* Get tick */ |
| tickstart = HAL_GetTick(); |
| |
| /* If DSI fifo is not empty, read requested bytes */ |
| while (((int32_t)(datasize)) > 0) |
| { |
| if ((hdsi->Instance->GPSR & DSI_GPSR_PRDFE) == 0U) |
| { |
| fifoword = hdsi->Instance->GPDR; |
| nbbytes = (datasize < 4U) ? datasize : 4U; |
| |
| for (count = 0U; count < nbbytes; count++) |
| { |
| *pdata = (uint8_t)(fifoword >> (8U * count)); |
| pdata++; |
| datasize--; |
| } |
| } |
| |
| /* Check for the Timeout */ |
| if ((HAL_GetTick() - tickstart) > DSI_TIMEOUT_VALUE) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_TIMEOUT; |
| } |
| |
| /* Software workaround to avoid HAL_TIMEOUT when a DSI read command is */ |
| /* issued to the panel and the read data is not captured by the DSI Host */ |
| /* which returns Packet Size Error. */ |
| /* Need to ensure that the Read command has finished before checking PSE */ |
| if ((hdsi->Instance->GPSR & DSI_GPSR_RCB) == 0U) |
| { |
| if ((hdsi->Instance->ISR[1U] & DSI_ISR1_PSE) == DSI_ISR1_PSE) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_ERROR; |
| } |
| } |
| } |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Enter the ULPM (Ultra Low Power Mode) with the D-PHY PLL running |
| * (only data lanes are in ULPM) |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_EnterULPMData(DSI_HandleTypeDef *hdsi) |
| { |
| uint32_t tickstart; |
| |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Verify the initial status of the DSI Host */ |
| |
| /* Verify that the clock lane and the digital section of the D-PHY are enabled */ |
| if ((hdsi->Instance->PCTLR & (DSI_PCTLR_CKE | DSI_PCTLR_DEN)) != (DSI_PCTLR_CKE | DSI_PCTLR_DEN)) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| |
| /* Verify that the D-PHY PLL and the reference bias are enabled */ |
| if ((hdsi->Instance->WRPCR & DSI_WRPCR_PLLEN) != DSI_WRPCR_PLLEN) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| else if ((hdsi->Instance->WRPCR & DSI_WRPCR_REGEN) != DSI_WRPCR_REGEN) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| else |
| { |
| /* Nothing to do */ |
| } |
| |
| /* Verify that there are no ULPS exit or request on data lanes */ |
| if ((hdsi->Instance->PUCR & (DSI_PUCR_UEDL | DSI_PUCR_URDL)) != 0U) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| |
| /* Verify that there are no Transmission trigger */ |
| if ((hdsi->Instance->PTTCR & DSI_PTTCR_TX_TRIG) != 0U) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| |
| /* Requires min of 400us delay before reading the PLLLS flag */ |
| /* 1ms delay is inserted that is the minimum HAL delay granularity */ |
| HAL_Delay(1); |
| |
| /* Verify that D-PHY PLL is locked */ |
| tickstart = HAL_GetTick(); |
| |
| while ((__HAL_DSI_GET_FLAG(hdsi, DSI_FLAG_PLLLS) == 0U)) |
| { |
| /* Check for the Timeout */ |
| if ((HAL_GetTick() - tickstart) > DSI_TIMEOUT_VALUE) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_TIMEOUT; |
| } |
| } |
| |
| /* Verify that all active lanes are in Stop state */ |
| if ((hdsi->Instance->PCONFR & DSI_PCONFR_NL) == DSI_ONE_DATA_LANE) |
| { |
| if ((hdsi->Instance->PSR & DSI_PSR_UAN0) != DSI_PSR_UAN0) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| } |
| else if ((hdsi->Instance->PCONFR & DSI_PCONFR_NL) == DSI_TWO_DATA_LANES) |
| { |
| if ((hdsi->Instance->PSR & (DSI_PSR_UAN0 | DSI_PSR_UAN1)) != (DSI_PSR_UAN0 | DSI_PSR_UAN1)) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| } |
| else |
| { |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| |
| /* ULPS Request on Data Lanes */ |
| hdsi->Instance->PUCR |= DSI_PUCR_URDL; |
| |
| /* Get tick */ |
| tickstart = HAL_GetTick(); |
| |
| /* Wait until the D-PHY active lanes enter into ULPM */ |
| if ((hdsi->Instance->PCONFR & DSI_PCONFR_NL) == DSI_ONE_DATA_LANE) |
| { |
| while ((hdsi->Instance->PSR & DSI_PSR_UAN0) != 0U) |
| { |
| /* Check for the Timeout */ |
| if ((HAL_GetTick() - tickstart) > DSI_TIMEOUT_VALUE) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_TIMEOUT; |
| } |
| } |
| } |
| else if ((hdsi->Instance->PCONFR & DSI_PCONFR_NL) == DSI_TWO_DATA_LANES) |
| { |
| while ((hdsi->Instance->PSR & (DSI_PSR_UAN0 | DSI_PSR_UAN1)) != 0U) |
| { |
| /* Check for the Timeout */ |
| if ((HAL_GetTick() - tickstart) > DSI_TIMEOUT_VALUE) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_TIMEOUT; |
| } |
| } |
| } |
| else |
| { |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_ERROR; |
| } |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Exit the ULPM (Ultra Low Power Mode) with the D-PHY PLL running |
| * (only data lanes are in ULPM) |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_ExitULPMData(DSI_HandleTypeDef *hdsi) |
| { |
| uint32_t tickstart; |
| |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Verify that all active lanes are in ULPM */ |
| if ((hdsi->Instance->PCONFR & DSI_PCONFR_NL) == DSI_ONE_DATA_LANE) |
| { |
| if ((hdsi->Instance->PSR & DSI_PSR_UAN0) != 0U) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_ERROR; |
| } |
| } |
| else if ((hdsi->Instance->PCONFR & DSI_PCONFR_NL) == DSI_TWO_DATA_LANES) |
| { |
| if ((hdsi->Instance->PSR & (DSI_PSR_UAN0 | DSI_PSR_UAN1)) != 0U) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_ERROR; |
| } |
| } |
| else |
| { |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_ERROR; |
| } |
| |
| /* Turn on the DSI PLL */ |
| __HAL_DSI_PLL_ENABLE(hdsi); |
| |
| /* Requires min of 400us delay before reading the PLLLS flag */ |
| /* 1ms delay is inserted that is the minimum HAL delay granularity */ |
| HAL_Delay(1); |
| |
| /* Get tick */ |
| tickstart = HAL_GetTick(); |
| |
| /* Wait for the lock of the PLL */ |
| while (__HAL_DSI_GET_FLAG(hdsi, DSI_FLAG_PLLLS) == 0U) |
| { |
| /* Check for the Timeout */ |
| if ((HAL_GetTick() - tickstart) > DSI_TIMEOUT_VALUE) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_TIMEOUT; |
| } |
| } |
| |
| /* Exit ULPS on Data Lanes */ |
| hdsi->Instance->PUCR |= DSI_PUCR_UEDL; |
| |
| /* Get tick */ |
| tickstart = HAL_GetTick(); |
| |
| /* Wait until all active lanes exit ULPM */ |
| if ((hdsi->Instance->PCONFR & DSI_PCONFR_NL) == DSI_ONE_DATA_LANE) |
| { |
| while ((hdsi->Instance->PSR & DSI_PSR_UAN0) != DSI_PSR_UAN0) |
| { |
| /* Check for the Timeout */ |
| if ((HAL_GetTick() - tickstart) > DSI_TIMEOUT_VALUE) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_TIMEOUT; |
| } |
| } |
| } |
| else if ((hdsi->Instance->PCONFR & DSI_PCONFR_NL) == DSI_TWO_DATA_LANES) |
| { |
| while ((hdsi->Instance->PSR & (DSI_PSR_UAN0 | DSI_PSR_UAN1)) != (DSI_PSR_UAN0 | DSI_PSR_UAN1)) |
| { |
| /* Check for the Timeout */ |
| if ((HAL_GetTick() - tickstart) > DSI_TIMEOUT_VALUE) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_TIMEOUT; |
| } |
| } |
| } |
| else |
| { |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_ERROR; |
| } |
| |
| /* wait for 1 ms*/ |
| HAL_Delay(1U); |
| |
| /* De-assert the ULPM requests and the ULPM exit bits */ |
| hdsi->Instance->PUCR = 0U; |
| |
| /* Verify that D-PHY PLL is enabled */ |
| if ((hdsi->Instance->WRPCR & DSI_WRPCR_PLLEN) != DSI_WRPCR_PLLEN) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| |
| /* Verify that all active lanes are in Stop state */ |
| if ((hdsi->Instance->PCONFR & DSI_PCONFR_NL) == DSI_ONE_DATA_LANE) |
| { |
| if ((hdsi->Instance->PSR & DSI_PSR_UAN0) != DSI_PSR_UAN0) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| } |
| else if ((hdsi->Instance->PCONFR & DSI_PCONFR_NL) == DSI_TWO_DATA_LANES) |
| { |
| if ((hdsi->Instance->PSR & (DSI_PSR_UAN0 | DSI_PSR_UAN1)) != (DSI_PSR_UAN0 | DSI_PSR_UAN1)) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| } |
| else |
| { |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| |
| /* Verify that D-PHY PLL is locked */ |
| /* Requires min of 400us delay before reading the PLLLS flag */ |
| /* 1ms delay is inserted that is the minimum HAL delay granularity */ |
| HAL_Delay(1); |
| |
| /* Get tick */ |
| tickstart = HAL_GetTick(); |
| |
| /* Wait for the lock of the PLL */ |
| while (__HAL_DSI_GET_FLAG(hdsi, DSI_FLAG_PLLLS) == 0U) |
| { |
| /* Check for the Timeout */ |
| if ((HAL_GetTick() - tickstart) > DSI_TIMEOUT_VALUE) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_TIMEOUT; |
| } |
| } |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Enter the ULPM (Ultra Low Power Mode) with the D-PHY PLL turned off |
| * (both data and clock lanes are in ULPM) |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_EnterULPM(DSI_HandleTypeDef *hdsi) |
| { |
| uint32_t tickstart; |
| |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Verify the initial status of the DSI Host */ |
| |
| /* Verify that the clock lane and the digital section of the D-PHY are enabled */ |
| if ((hdsi->Instance->PCTLR & (DSI_PCTLR_CKE | DSI_PCTLR_DEN)) != (DSI_PCTLR_CKE | DSI_PCTLR_DEN)) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| |
| /* Verify that the D-PHY PLL and the reference bias are enabled */ |
| if ((hdsi->Instance->WRPCR & DSI_WRPCR_PLLEN) != DSI_WRPCR_PLLEN) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| else if ((hdsi->Instance->WRPCR & DSI_WRPCR_REGEN) != DSI_WRPCR_REGEN) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| else |
| { |
| /* Nothing to do */ |
| } |
| |
| /* Verify that there are no ULPS exit or request on both data and clock lanes */ |
| if ((hdsi->Instance->PUCR & (DSI_PUCR_UEDL | DSI_PUCR_URDL | DSI_PUCR_UECL | DSI_PUCR_URCL)) != 0U) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| |
| /* Verify that there are no Transmission trigger */ |
| if ((hdsi->Instance->PTTCR & DSI_PTTCR_TX_TRIG) != 0U) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| |
| /* Requires min of 400us delay before reading the PLLLS flag */ |
| /* 1ms delay is inserted that is the minimum HAL delay granularity */ |
| HAL_Delay(1); |
| |
| /* Verify that D-PHY PLL is locked */ |
| tickstart = HAL_GetTick(); |
| |
| while ((__HAL_DSI_GET_FLAG(hdsi, DSI_FLAG_PLLLS) == 0U)) |
| { |
| /* Check for the Timeout */ |
| if ((HAL_GetTick() - tickstart) > DSI_TIMEOUT_VALUE) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_TIMEOUT; |
| } |
| } |
| |
| /* Verify that all active lanes are in Stop state */ |
| if ((hdsi->Instance->PCONFR & DSI_PCONFR_NL) == DSI_ONE_DATA_LANE) |
| { |
| if ((hdsi->Instance->PSR & (DSI_PSR_UAN0 | DSI_PSR_PSS0)) != (DSI_PSR_UAN0 | DSI_PSR_PSS0)) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| } |
| else if ((hdsi->Instance->PCONFR & DSI_PCONFR_NL) == DSI_TWO_DATA_LANES) |
| { |
| if ((hdsi->Instance->PSR & (DSI_PSR_UAN0 | DSI_PSR_PSS0 | DSI_PSR_PSS1 | \ |
| DSI_PSR_UAN1)) != (DSI_PSR_UAN0 | DSI_PSR_PSS0 | DSI_PSR_PSS1 | DSI_PSR_UAN1)) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| } |
| else |
| { |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| |
| /* Clock lane configuration: no more HS request */ |
| hdsi->Instance->CLCR &= ~DSI_CLCR_DPCC; |
| |
| /* Use system PLL as byte lane clock source before stopping DSIPHY clock source */ |
| __HAL_RCC_DSI_CONFIG(RCC_DSICLKSOURCE_PLL2); |
| |
| /* ULPS Request on Clock and Data Lanes */ |
| hdsi->Instance->PUCR |= (DSI_PUCR_URCL | DSI_PUCR_URDL); |
| |
| /* Get tick */ |
| tickstart = HAL_GetTick(); |
| |
| /* Wait until all active lanes enter ULPM */ |
| if ((hdsi->Instance->PCONFR & DSI_PCONFR_NL) == DSI_ONE_DATA_LANE) |
| { |
| while ((hdsi->Instance->PSR & (DSI_PSR_UAN0 | DSI_PSR_UANC)) != 0U) |
| { |
| /* Check for the Timeout */ |
| if ((HAL_GetTick() - tickstart) > DSI_TIMEOUT_VALUE) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_TIMEOUT; |
| } |
| } |
| } |
| else if ((hdsi->Instance->PCONFR & DSI_PCONFR_NL) == DSI_TWO_DATA_LANES) |
| { |
| while ((hdsi->Instance->PSR & (DSI_PSR_UAN0 | DSI_PSR_UAN1 | DSI_PSR_UANC)) != 0U) |
| { |
| /* Check for the Timeout */ |
| if ((HAL_GetTick() - tickstart) > DSI_TIMEOUT_VALUE) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_TIMEOUT; |
| } |
| } |
| } |
| else |
| { |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_ERROR; |
| } |
| |
| /* Turn off the DSI PLL */ |
| __HAL_DSI_PLL_DISABLE(hdsi); |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Exit the ULPM (Ultra Low Power Mode) with the D-PHY PLL turned off |
| * (both data and clock lanes are in ULPM) |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_ExitULPM(DSI_HandleTypeDef *hdsi) |
| { |
| uint32_t tickstart; |
| |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Verify that all active lanes are in ULPM */ |
| if ((hdsi->Instance->PCONFR & DSI_PCONFR_NL) == DSI_ONE_DATA_LANE) |
| { |
| if ((hdsi->Instance->PSR & (DSI_PSR_RUE0 | DSI_PSR_UAN0 | DSI_PSR_PSS0 | \ |
| DSI_PSR_UANC | DSI_PSR_PSSC | DSI_PSR_PD)) != 0U) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_ERROR; |
| } |
| } |
| else if ((hdsi->Instance->PCONFR & DSI_PCONFR_NL) == DSI_TWO_DATA_LANES) |
| { |
| if ((hdsi->Instance->PSR & (DSI_PSR_RUE0 | DSI_PSR_UAN0 | DSI_PSR_PSS0 | DSI_PSR_UAN1 | \ |
| DSI_PSR_PSS1 | DSI_PSR_UANC | DSI_PSR_PSSC | DSI_PSR_PD)) != 0U) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_ERROR; |
| } |
| } |
| else |
| { |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_ERROR; |
| } |
| |
| /* Turn on the DSI PLL */ |
| __HAL_DSI_PLL_ENABLE(hdsi); |
| |
| /* Requires min of 400us delay before reading the PLLLS flag */ |
| /* 1ms delay is inserted that is the minimum HAL delay granularity */ |
| HAL_Delay(1); |
| |
| /* Get tick */ |
| tickstart = HAL_GetTick(); |
| |
| /* Wait for the lock of the PLL */ |
| while (__HAL_DSI_GET_FLAG(hdsi, DSI_FLAG_PLLLS) == 0U) |
| { |
| /* Check for the Timeout */ |
| if ((HAL_GetTick() - tickstart) > DSI_TIMEOUT_VALUE) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_TIMEOUT; |
| } |
| } |
| |
| /* Exit ULPS on Clock and Data Lanes */ |
| hdsi->Instance->PUCR |= (DSI_PUCR_UECL | DSI_PUCR_UEDL); |
| |
| /* Get tick */ |
| tickstart = HAL_GetTick(); |
| |
| /* Wait until all active lanes exit ULPM */ |
| if ((hdsi->Instance->PCONFR & DSI_PCONFR_NL) == DSI_ONE_DATA_LANE) |
| { |
| while ((hdsi->Instance->PSR & (DSI_PSR_UAN0 | DSI_PSR_UANC)) != (DSI_PSR_UAN0 | DSI_PSR_UANC)) |
| { |
| /* Check for the Timeout */ |
| if ((HAL_GetTick() - tickstart) > DSI_TIMEOUT_VALUE) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_TIMEOUT; |
| } |
| } |
| } |
| else if ((hdsi->Instance->PCONFR & DSI_PCONFR_NL) == DSI_TWO_DATA_LANES) |
| { |
| while ((hdsi->Instance->PSR & (DSI_PSR_UAN0 | DSI_PSR_UAN1 | DSI_PSR_UANC)) != (DSI_PSR_UAN0 | DSI_PSR_UAN1 | |
| DSI_PSR_UANC)) |
| { |
| /* Check for the Timeout */ |
| if ((HAL_GetTick() - tickstart) > DSI_TIMEOUT_VALUE) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_TIMEOUT; |
| } |
| } |
| } |
| else |
| { |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_ERROR; |
| } |
| |
| /* wait for 1 ms */ |
| HAL_Delay(1U); |
| |
| /* De-assert the ULPM requests and the ULPM exit bits */ |
| hdsi->Instance->PUCR = 0U; |
| |
| /* Switch the lane byte clock source in the RCC from system PLL to D-PHY */ |
| __HAL_RCC_DSI_CONFIG(RCC_DSICLKSOURCE_PHY); |
| |
| /* Restore clock lane configuration to HS */ |
| hdsi->Instance->CLCR |= DSI_CLCR_DPCC; |
| |
| /* Verify that D-PHY PLL is enabled */ |
| if ((hdsi->Instance->WRPCR & DSI_WRPCR_PLLEN) != DSI_WRPCR_PLLEN) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| |
| /* Verify that all active lanes are in Stop state */ |
| if ((hdsi->Instance->PCONFR & DSI_PCONFR_NL) == DSI_ONE_DATA_LANE) |
| { |
| if ((hdsi->Instance->PSR & (DSI_PSR_UAN0 | DSI_PSR_PSS0)) != (DSI_PSR_UAN0 | DSI_PSR_PSS0)) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| } |
| else if ((hdsi->Instance->PCONFR & DSI_PCONFR_NL) == DSI_TWO_DATA_LANES) |
| { |
| if ((hdsi->Instance->PSR & (DSI_PSR_UAN0 | DSI_PSR_PSS0 | DSI_PSR_PSS1 | \ |
| DSI_PSR_UAN1)) != (DSI_PSR_UAN0 | DSI_PSR_PSS0 | DSI_PSR_PSS1 | DSI_PSR_UAN1)) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| } |
| else |
| { |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| return HAL_ERROR; |
| } |
| |
| /* Verify that D-PHY PLL is locked */ |
| /* Requires min of 400us delay before reading the PLLLS flag */ |
| /* 1ms delay is inserted that is the minimum HAL delay granularity */ |
| HAL_Delay(1); |
| |
| /* Get tick */ |
| tickstart = HAL_GetTick(); |
| |
| /* Wait for the lock of the PLL */ |
| while (__HAL_DSI_GET_FLAG(hdsi, DSI_FLAG_PLLLS) == 0U) |
| { |
| /* Check for the Timeout */ |
| if ((HAL_GetTick() - tickstart) > DSI_TIMEOUT_VALUE) |
| { |
| /* Process Unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_TIMEOUT; |
| } |
| } |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Start test pattern generation |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param Mode Pattern generator mode |
| * This parameter can be one of the following values: |
| * 0 : Color bars (horizontal or vertical) |
| * 1 : BER pattern (vertical only) |
| * @param Orientation Pattern generator orientation |
| * This parameter can be one of the following values: |
| * 0 : Vertical color bars |
| * 1 : Horizontal color bars |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_PatternGeneratorStart(DSI_HandleTypeDef *hdsi, uint32_t Mode, uint32_t Orientation) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Configure pattern generator mode and orientation */ |
| hdsi->Instance->VMCR &= ~(DSI_VMCR_PGM | DSI_VMCR_PGO); |
| hdsi->Instance->VMCR |= ((Mode << 20U) | (Orientation << 24U)); |
| |
| /* Enable pattern generator by setting PGE bit */ |
| hdsi->Instance->VMCR |= DSI_VMCR_PGE; |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Stop test pattern generation |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_PatternGeneratorStop(DSI_HandleTypeDef *hdsi) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Disable pattern generator by clearing PGE bit */ |
| hdsi->Instance->VMCR &= ~DSI_VMCR_PGE; |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Set Slew-Rate And Delay Tuning |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param CommDelay Communication delay to be adjusted. |
| * This parameter can be any value of @arg DSI_Communication_Delay |
| * @param Lane select between clock or data lanes. |
| * This parameter can be any value of @arg DSI_Lane_Group |
| * @param Value Custom value of the slew-rate or delay |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_SetSlewRateAndDelayTuning(DSI_HandleTypeDef *hdsi, uint32_t CommDelay, uint32_t Lane, |
| uint32_t Value) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Check function parameters */ |
| assert_param(IS_DSI_COMMUNICATION_DELAY(CommDelay)); |
| assert_param(IS_DSI_LANE_GROUP(Lane)); |
| |
| switch (CommDelay) |
| { |
| case DSI_SLEW_RATE_HSTX: |
| if (Lane == DSI_CLOCK_LANE) |
| { |
| /* High-Speed Transmission Slew Rate Control on Clock Lane */ |
| hdsi->Instance->WPCR[1U] &= ~DSI_WPCR1_HSTXSRCCL; |
| hdsi->Instance->WPCR[1U] |= Value << 16U; |
| } |
| else if (Lane == DSI_DATA_LANES) |
| { |
| /* High-Speed Transmission Slew Rate Control on Data Lanes */ |
| hdsi->Instance->WPCR[1U] &= ~DSI_WPCR1_HSTXSRCDL; |
| hdsi->Instance->WPCR[1U] |= Value << 18U; |
| } |
| else |
| { |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_ERROR; |
| } |
| break; |
| case DSI_SLEW_RATE_LPTX: |
| if (Lane == DSI_CLOCK_LANE) |
| { |
| /* Low-Power transmission Slew Rate Compensation on Clock Lane */ |
| hdsi->Instance->WPCR[1U] &= ~DSI_WPCR1_LPSRCCL; |
| hdsi->Instance->WPCR[1U] |= Value << 6U; |
| } |
| else if (Lane == DSI_DATA_LANES) |
| { |
| /* Low-Power transmission Slew Rate Compensation on Data Lanes */ |
| hdsi->Instance->WPCR[1U] &= ~DSI_WPCR1_LPSRCDL; |
| hdsi->Instance->WPCR[1U] |= Value << 8U; |
| } |
| else |
| { |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_ERROR; |
| } |
| break; |
| case DSI_HS_DELAY: |
| if (Lane == DSI_CLOCK_LANE) |
| { |
| /* High-Speed Transmission Delay on Clock Lane */ |
| hdsi->Instance->WPCR[1U] &= ~DSI_WPCR1_HSTXDCL; |
| hdsi->Instance->WPCR[1U] |= Value; |
| } |
| else if (Lane == DSI_DATA_LANES) |
| { |
| /* High-Speed Transmission Delay on Data Lanes */ |
| hdsi->Instance->WPCR[1U] &= ~DSI_WPCR1_HSTXDDL; |
| hdsi->Instance->WPCR[1U] |= Value << 2U; |
| } |
| else |
| { |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_ERROR; |
| } |
| break; |
| default: |
| break; |
| } |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Low-Power Reception Filter Tuning |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param Frequency cutoff frequency of low-pass filter at the input of LPRX |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_SetLowPowerRXFilter(DSI_HandleTypeDef *hdsi, uint32_t Frequency) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Low-Power RX low-pass Filtering Tuning */ |
| hdsi->Instance->WPCR[1U] &= ~DSI_WPCR1_LPRXFT; |
| hdsi->Instance->WPCR[1U] |= Frequency << 25U; |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Activate an additional current path on all lanes to meet the SDDTx parameter |
| * defined in the MIPI D-PHY specification |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param State ENABLE or DISABLE |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_SetSDD(DSI_HandleTypeDef *hdsi, FunctionalState State) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Check function parameters */ |
| assert_param(IS_FUNCTIONAL_STATE(State)); |
| |
| /* Activate/Disactivate additional current path on all lanes */ |
| hdsi->Instance->WPCR[1U] &= ~DSI_WPCR1_SDDC; |
| hdsi->Instance->WPCR[1U] |= ((uint32_t)State << 12U); |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Custom lane pins configuration |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param CustomLane Function to be applied on selected lane. |
| * This parameter can be any value of @arg DSI_CustomLane |
| * @param Lane select between clock or data lane 0 or data lane 1. |
| * This parameter can be any value of @arg DSI_Lane_Select |
| * @param State ENABLE or DISABLE |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_SetLanePinsConfiguration(DSI_HandleTypeDef *hdsi, uint32_t CustomLane, uint32_t Lane, |
| FunctionalState State) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Check function parameters */ |
| assert_param(IS_DSI_CUSTOM_LANE(CustomLane)); |
| assert_param(IS_DSI_LANE(Lane)); |
| assert_param(IS_FUNCTIONAL_STATE(State)); |
| |
| switch (CustomLane) |
| { |
| case DSI_SWAP_LANE_PINS: |
| if (Lane == DSI_CLK_LANE) |
| { |
| /* Swap pins on clock lane */ |
| hdsi->Instance->WPCR[0U] &= ~DSI_WPCR0_SWCL; |
| hdsi->Instance->WPCR[0U] |= ((uint32_t)State << 6U); |
| } |
| else if (Lane == DSI_DATA_LANE0) |
| { |
| /* Swap pins on data lane 0 */ |
| hdsi->Instance->WPCR[0U] &= ~DSI_WPCR0_SWDL0; |
| hdsi->Instance->WPCR[0U] |= ((uint32_t)State << 7U); |
| } |
| else if (Lane == DSI_DATA_LANE1) |
| { |
| /* Swap pins on data lane 1 */ |
| hdsi->Instance->WPCR[0U] &= ~DSI_WPCR0_SWDL1; |
| hdsi->Instance->WPCR[0U] |= ((uint32_t)State << 8U); |
| } |
| else |
| { |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_ERROR; |
| } |
| break; |
| case DSI_INVERT_HS_SIGNAL: |
| if (Lane == DSI_CLK_LANE) |
| { |
| /* Invert HS signal on clock lane */ |
| hdsi->Instance->WPCR[0U] &= ~DSI_WPCR0_HSICL; |
| hdsi->Instance->WPCR[0U] |= ((uint32_t)State << 9U); |
| } |
| else if (Lane == DSI_DATA_LANE0) |
| { |
| /* Invert HS signal on data lane 0 */ |
| hdsi->Instance->WPCR[0U] &= ~DSI_WPCR0_HSIDL0; |
| hdsi->Instance->WPCR[0U] |= ((uint32_t)State << 10U); |
| } |
| else if (Lane == DSI_DATA_LANE1) |
| { |
| /* Invert HS signal on data lane 1 */ |
| hdsi->Instance->WPCR[0U] &= ~DSI_WPCR0_HSIDL1; |
| hdsi->Instance->WPCR[0U] |= ((uint32_t)State << 11U); |
| } |
| else |
| { |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_ERROR; |
| } |
| break; |
| default: |
| break; |
| } |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Set custom timing for the PHY |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param Timing PHY timing to be adjusted. |
| * This parameter can be any value of @arg DSI_PHY_Timing |
| * @param State ENABLE or DISABLE |
| * @param Value Custom value of the timing |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_SetPHYTimings(DSI_HandleTypeDef *hdsi, uint32_t Timing, FunctionalState State, uint32_t Value) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Check function parameters */ |
| assert_param(IS_DSI_PHY_TIMING(Timing)); |
| assert_param(IS_FUNCTIONAL_STATE(State)); |
| |
| switch (Timing) |
| { |
| case DSI_TCLK_POST: |
| /* Enable/Disable custom timing setting */ |
| hdsi->Instance->WPCR[0U] &= ~DSI_WPCR0_TCLKPOSTEN; |
| hdsi->Instance->WPCR[0U] |= ((uint32_t)State << 27U); |
| |
| if (State != DISABLE) |
| { |
| /* Set custom value */ |
| hdsi->Instance->WPCR[4U] &= ~DSI_WPCR4_TCLKPOST; |
| hdsi->Instance->WPCR[4U] |= Value & DSI_WPCR4_TCLKPOST; |
| } |
| |
| break; |
| case DSI_TLPX_CLK: |
| /* Enable/Disable custom timing setting */ |
| hdsi->Instance->WPCR[0U] &= ~DSI_WPCR0_TLPXCEN; |
| hdsi->Instance->WPCR[0U] |= ((uint32_t)State << 26U); |
| |
| if (State != DISABLE) |
| { |
| /* Set custom value */ |
| hdsi->Instance->WPCR[3U] &= ~DSI_WPCR3_TLPXC; |
| hdsi->Instance->WPCR[3U] |= (Value << 24U) & DSI_WPCR3_TLPXC; |
| } |
| |
| break; |
| case DSI_THS_EXIT: |
| /* Enable/Disable custom timing setting */ |
| hdsi->Instance->WPCR[0U] &= ~DSI_WPCR0_THSEXITEN; |
| hdsi->Instance->WPCR[0U] |= ((uint32_t)State << 25U); |
| |
| if (State != DISABLE) |
| { |
| /* Set custom value */ |
| hdsi->Instance->WPCR[3U] &= ~DSI_WPCR3_THSEXIT; |
| hdsi->Instance->WPCR[3U] |= (Value << 16U) & DSI_WPCR3_THSEXIT; |
| } |
| |
| break; |
| case DSI_TLPX_DATA: |
| /* Enable/Disable custom timing setting */ |
| hdsi->Instance->WPCR[0U] &= ~DSI_WPCR0_TLPXDEN; |
| hdsi->Instance->WPCR[0U] |= ((uint32_t)State << 24U); |
| |
| if (State != DISABLE) |
| { |
| /* Set custom value */ |
| hdsi->Instance->WPCR[3U] &= ~DSI_WPCR3_TLPXD; |
| hdsi->Instance->WPCR[3U] |= (Value << 8U) & DSI_WPCR3_TLPXD; |
| } |
| |
| break; |
| case DSI_THS_ZERO: |
| /* Enable/Disable custom timing setting */ |
| hdsi->Instance->WPCR[0U] &= ~DSI_WPCR0_THSZEROEN; |
| hdsi->Instance->WPCR[0U] |= ((uint32_t)State << 23U); |
| |
| if (State != DISABLE) |
| { |
| /* Set custom value */ |
| hdsi->Instance->WPCR[3U] &= ~DSI_WPCR3_THSZERO; |
| hdsi->Instance->WPCR[3U] |= Value & DSI_WPCR3_THSZERO; |
| } |
| |
| break; |
| case DSI_THS_TRAIL: |
| /* Enable/Disable custom timing setting */ |
| hdsi->Instance->WPCR[0U] &= ~DSI_WPCR0_THSTRAILEN; |
| hdsi->Instance->WPCR[0U] |= ((uint32_t)State << 22U); |
| |
| if (State != DISABLE) |
| { |
| /* Set custom value */ |
| hdsi->Instance->WPCR[2U] &= ~DSI_WPCR2_THSTRAIL; |
| hdsi->Instance->WPCR[2U] |= (Value << 24U) & DSI_WPCR2_THSTRAIL; |
| } |
| |
| break; |
| case DSI_THS_PREPARE: |
| /* Enable/Disable custom timing setting */ |
| hdsi->Instance->WPCR[0U] &= ~DSI_WPCR0_THSPREPEN; |
| hdsi->Instance->WPCR[0U] |= ((uint32_t)State << 21U); |
| |
| if (State != DISABLE) |
| { |
| /* Set custom value */ |
| hdsi->Instance->WPCR[2U] &= ~DSI_WPCR2_THSPREP; |
| hdsi->Instance->WPCR[2U] |= (Value << 16U) & DSI_WPCR2_THSPREP; |
| } |
| |
| break; |
| case DSI_TCLK_ZERO: |
| /* Enable/Disable custom timing setting */ |
| hdsi->Instance->WPCR[0U] &= ~DSI_WPCR0_TCLKZEROEN; |
| hdsi->Instance->WPCR[0U] |= ((uint32_t)State << 20U); |
| |
| if (State != DISABLE) |
| { |
| /* Set custom value */ |
| hdsi->Instance->WPCR[2U] &= ~DSI_WPCR2_TCLKZERO; |
| hdsi->Instance->WPCR[2U] |= (Value << 8U) & DSI_WPCR2_TCLKZERO; |
| } |
| |
| break; |
| case DSI_TCLK_PREPARE: |
| /* Enable/Disable custom timing setting */ |
| hdsi->Instance->WPCR[0U] &= ~DSI_WPCR0_TCLKPREPEN; |
| hdsi->Instance->WPCR[0U] |= ((uint32_t)State << 19U); |
| |
| if (State != DISABLE) |
| { |
| /* Set custom value */ |
| hdsi->Instance->WPCR[2U] &= ~DSI_WPCR2_TCLKPREP; |
| hdsi->Instance->WPCR[2U] |= Value & DSI_WPCR2_TCLKPREP; |
| } |
| |
| break; |
| default: |
| break; |
| } |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Force the Clock/Data Lane in TX Stop Mode |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param Lane select between clock or data lanes. |
| * This parameter can be any value of @arg DSI_Lane_Group |
| * @param State ENABLE or DISABLE |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_ForceTXStopMode(DSI_HandleTypeDef *hdsi, uint32_t Lane, FunctionalState State) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Check function parameters */ |
| assert_param(IS_DSI_LANE_GROUP(Lane)); |
| assert_param(IS_FUNCTIONAL_STATE(State)); |
| |
| if (Lane == DSI_CLOCK_LANE) |
| { |
| /* Force/Unforce the Clock Lane in TX Stop Mode */ |
| hdsi->Instance->WPCR[0U] &= ~DSI_WPCR0_FTXSMCL; |
| hdsi->Instance->WPCR[0U] |= ((uint32_t)State << 12U); |
| } |
| else if (Lane == DSI_DATA_LANES) |
| { |
| /* Force/Unforce the Data Lanes in TX Stop Mode */ |
| hdsi->Instance->WPCR[0U] &= ~DSI_WPCR0_FTXSMDL; |
| hdsi->Instance->WPCR[0U] |= ((uint32_t)State << 13U); |
| } |
| else |
| { |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_ERROR; |
| } |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Force LP Receiver in Low-Power Mode |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param State ENABLE or DISABLE |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_ForceRXLowPower(DSI_HandleTypeDef *hdsi, FunctionalState State) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Check function parameters */ |
| assert_param(IS_FUNCTIONAL_STATE(State)); |
| |
| /* Force/Unforce LP Receiver in Low-Power Mode */ |
| hdsi->Instance->WPCR[1U] &= ~DSI_WPCR1_FLPRXLPM; |
| hdsi->Instance->WPCR[1U] |= ((uint32_t)State << 22U); |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Force Data Lanes in RX Mode after a BTA |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param State ENABLE or DISABLE |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_ForceDataLanesInRX(DSI_HandleTypeDef *hdsi, FunctionalState State) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Check function parameters */ |
| assert_param(IS_FUNCTIONAL_STATE(State)); |
| |
| /* Force Data Lanes in RX Mode */ |
| hdsi->Instance->WPCR[0U] &= ~DSI_WPCR0_TDDL; |
| hdsi->Instance->WPCR[0U] |= ((uint32_t)State << 16U); |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Enable a pull-down on the lanes to prevent from floating states when unused |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param State ENABLE or DISABLE |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_SetPullDown(DSI_HandleTypeDef *hdsi, FunctionalState State) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Check function parameters */ |
| assert_param(IS_FUNCTIONAL_STATE(State)); |
| |
| /* Enable/Disable pull-down on lanes */ |
| hdsi->Instance->WPCR[0U] &= ~DSI_WPCR0_PDEN; |
| hdsi->Instance->WPCR[0U] |= ((uint32_t)State << 18U); |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @brief Switch off the contention detection on data lanes |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @param State ENABLE or DISABLE |
| * @retval HAL status |
| */ |
| HAL_StatusTypeDef HAL_DSI_SetContentionDetectionOff(DSI_HandleTypeDef *hdsi, FunctionalState State) |
| { |
| /* Process locked */ |
| __HAL_LOCK(hdsi); |
| |
| /* Check function parameters */ |
| assert_param(IS_FUNCTIONAL_STATE(State)); |
| |
| /* Contention Detection on Data Lanes OFF */ |
| hdsi->Instance->WPCR[0U] &= ~DSI_WPCR0_CDOFFDL; |
| hdsi->Instance->WPCR[0U] |= ((uint32_t)State << 14U); |
| |
| /* Process unlocked */ |
| __HAL_UNLOCK(hdsi); |
| |
| return HAL_OK; |
| } |
| |
| /** |
| * @} |
| */ |
| |
| /** @defgroup DSI_Group4 Peripheral State and Errors functions |
| * @brief Peripheral State and Errors functions |
| * |
| @verbatim |
| =============================================================================== |
| ##### Peripheral State and Errors functions ##### |
| =============================================================================== |
| [..] |
| This subsection provides functions allowing to |
| (+) Check the DSI state. |
| (+) Get error code. |
| |
| @endverbatim |
| * @{ |
| */ |
| |
| /** |
| * @brief Return the DSI state |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @retval HAL state |
| */ |
| HAL_DSI_StateTypeDef HAL_DSI_GetState(const DSI_HandleTypeDef *hdsi) |
| { |
| return hdsi->State; |
| } |
| |
| /** |
| * @brief Return the DSI error code |
| * @param hdsi pointer to a DSI_HandleTypeDef structure that contains |
| * the configuration information for the DSI. |
| * @retval DSI Error Code |
| */ |
| uint32_t HAL_DSI_GetError(const DSI_HandleTypeDef *hdsi) |
| { |
| /* Get the error code */ |
| return hdsi->ErrorCode; |
| } |
| |
| /** |
| * @} |
| */ |
| |
| /** |
| * @} |
| */ |
| |
| /** |
| * @} |
| */ |
| |
| #endif /* DSI */ |
| |
| #endif /* HAL_DSI_MODULE_ENABLED */ |
| |
| /** |
| * @} |
| */ |