Mercurial > public > ostc4
view Common/Drivers/STM32F4xx_HAL_Driver/Src/stm32f4xx_hal_hcd.c @ 733:7b0e020513e3
Optical sensor as default:
The optical sensor is now set as default configuration ensuring that the external interface is switched off per default. Otherwise power would be consumed e.g. by the ADC even no sensors are connectet because OSTC is used for OC dives only.
author | Ideenmodellierer |
---|---|
date | Sun, 15 Jan 2023 21:48:34 +0100 |
parents | c78bcbd5deda |
children |
line wrap: on
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/** ****************************************************************************** * @file stm32f4xx_hal_hcd.c * @author MCD Application Team * @brief HCD HAL module driver. * This file provides firmware functions to manage the following * functionalities of the USB Peripheral Controller: * + Initialization and de-initialization functions * + IO operation functions * + Peripheral Control functions * + Peripheral State functions * @verbatim ============================================================================== ##### How to use this driver ##### ============================================================================== [..] (#)Declare a HCD_HandleTypeDef handle structure, for example: HCD_HandleTypeDef hhcd; (#)Fill parameters of Init structure in HCD handle (#)Call HAL_HCD_Init() API to initialize the HCD peripheral (Core, Host core, ...) (#)Initialize the HCD low level resources through the HAL_HCD_MspInit() API: (##) Enable the HCD/USB Low Level interface clock using the following macros (+++) __HAL_RCC_USB_OTG_FS_CLK_ENABLE(); (+++) __HAL_RCC_USB_OTG_HS_CLK_ENABLE(); (For High Speed Mode) (+++) __HAL_RCC_USB_OTG_HS_ULPI_CLK_ENABLE(); (For High Speed Mode) (##) Initialize the related GPIO clocks (##) Configure HCD pin-out (##) Configure HCD NVIC interrupt (#)Associate the Upper USB Host stack to the HAL HCD Driver: (##) hhcd.pData = phost; (#)Enable HCD transmission and reception: (##) HAL_HCD_Start(); @endverbatim ****************************************************************************** * @attention * * <h2><center>© COPYRIGHT(c) 2017 STMicroelectronics</center></h2> * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * 3. Neither the name of STMicroelectronics nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * ****************************************************************************** */ /* Includes ------------------------------------------------------------------*/ #include "stm32f4xx_hal.h" /** @addtogroup STM32F4xx_HAL_Driver * @{ */ /** @defgroup HCD HCD * @brief HCD HAL module driver * @{ */ #ifdef HAL_HCD_MODULE_ENABLED #if defined(STM32F405xx) || defined(STM32F415xx) || defined(STM32F407xx) || defined(STM32F417xx) || \ defined(STM32F427xx) || defined(STM32F437xx) || defined(STM32F429xx) || defined(STM32F439xx) || \ defined(STM32F401xC) || defined(STM32F401xE) || defined(STM32F411xE) || defined(STM32F446xx) || \ defined(STM32F469xx) || defined(STM32F479xx) || defined(STM32F412Zx) || defined(STM32F412Vx) || \ defined(STM32F412Rx) || defined(STM32F412Cx) || defined(STM32F413xx) || defined(STM32F423xx) /* Private typedef -----------------------------------------------------------*/ /* Private define ------------------------------------------------------------*/ /* Private macro -------------------------------------------------------------*/ /* Private variables ---------------------------------------------------------*/ /* Private function prototypes -----------------------------------------------*/ /** @defgroup HCD_Private_Functions HCD Private Functions * @{ */ static void HCD_HC_IN_IRQHandler(HCD_HandleTypeDef *hhcd, uint8_t chnum); static void HCD_HC_OUT_IRQHandler(HCD_HandleTypeDef *hhcd, uint8_t chnum); static void HCD_RXQLVL_IRQHandler(HCD_HandleTypeDef *hhcd); static void HCD_Port_IRQHandler(HCD_HandleTypeDef *hhcd); /** * @} */ /* Exported functions --------------------------------------------------------*/ /** @defgroup HCD_Exported_Functions HCD Exported Functions * @{ */ /** @defgroup HCD_Exported_Functions_Group1 Initialization and de-initialization functions * @brief Initialization and Configuration functions * @verbatim =============================================================================== ##### Initialization and de-initialization functions ##### =============================================================================== [..] This section provides functions allowing to: @endverbatim * @{ */ /** * @brief Initialize the host driver. * @param hhcd HCD handle * @retval HAL status */ HAL_StatusTypeDef HAL_HCD_Init(HCD_HandleTypeDef *hhcd) { /* Check the HCD handle allocation */ if(hhcd == NULL) { return HAL_ERROR; } /* Check the parameters */ assert_param(IS_HCD_ALL_INSTANCE(hhcd->Instance)); hhcd->State = HAL_HCD_STATE_BUSY; /* Init the low level hardware : GPIO, CLOCK, NVIC... */ HAL_HCD_MspInit(hhcd); /* Disable the Interrupts */ __HAL_HCD_DISABLE(hhcd); /* Init the Core (common init.) */ USB_CoreInit(hhcd->Instance, hhcd->Init); /* Force Host Mode*/ USB_SetCurrentMode(hhcd->Instance , USB_OTG_HOST_MODE); /* Init Host */ USB_HostInit(hhcd->Instance, hhcd->Init); hhcd->State= HAL_HCD_STATE_READY; return HAL_OK; } /** * @brief Initialize a host channel. * @param hhcd HCD handle * @param ch_num Channel number. * This parameter can be a value from 1 to 15 * @param epnum Endpoint number. * This parameter can be a value from 1 to 15 * @param dev_address Current device address * This parameter can be a value from 0 to 255 * @param speed Current device speed. * This parameter can be one of these values: * HCD_SPEED_HIGH: High speed mode, * HCD_SPEED_FULL: Full speed mode, * HCD_SPEED_LOW: Low speed mode * @param ep_type Endpoint Type. * This parameter can be one of these values: * EP_TYPE_CTRL: Control type, * EP_TYPE_ISOC: Isochronous type, * EP_TYPE_BULK: Bulk type, * EP_TYPE_INTR: Interrupt type * @param mps Max Packet Size. * This parameter can be a value from 0 to32K * @retval HAL status */ HAL_StatusTypeDef HAL_HCD_HC_Init(HCD_HandleTypeDef *hhcd, uint8_t ch_num, uint8_t epnum, uint8_t dev_address, uint8_t speed, uint8_t ep_type, uint16_t mps) { HAL_StatusTypeDef status = HAL_OK; __HAL_LOCK(hhcd); hhcd->hc[ch_num].dev_addr = dev_address; hhcd->hc[ch_num].max_packet = mps; hhcd->hc[ch_num].ch_num = ch_num; hhcd->hc[ch_num].ep_type = ep_type; hhcd->hc[ch_num].ep_num = epnum & 0x7F; hhcd->hc[ch_num].ep_is_in = ((epnum & 0x80) == 0x80); hhcd->hc[ch_num].speed = speed; status = USB_HC_Init(hhcd->Instance, ch_num, epnum, dev_address, speed, ep_type, mps); __HAL_UNLOCK(hhcd); return status; } /** * @brief Halt a host channel. * @param hhcd HCD handle * @param ch_num Channel number. * This parameter can be a value from 1 to 15 * @retval HAL status */ HAL_StatusTypeDef HAL_HCD_HC_Halt(HCD_HandleTypeDef *hhcd, uint8_t ch_num) { HAL_StatusTypeDef status = HAL_OK; __HAL_LOCK(hhcd); USB_HC_Halt(hhcd->Instance, ch_num); __HAL_UNLOCK(hhcd); return status; } /** * @brief DeInitialize the host driver. * @param hhcd HCD handle * @retval HAL status */ HAL_StatusTypeDef HAL_HCD_DeInit(HCD_HandleTypeDef *hhcd) { /* Check the HCD handle allocation */ if(hhcd == NULL) { return HAL_ERROR; } hhcd->State = HAL_HCD_STATE_BUSY; /* DeInit the low level hardware */ HAL_HCD_MspDeInit(hhcd); __HAL_HCD_DISABLE(hhcd); hhcd->State = HAL_HCD_STATE_RESET; return HAL_OK; } /** * @brief Initialize the HCD MSP. * @param hhcd HCD handle * @retval None */ __weak void HAL_HCD_MspInit(HCD_HandleTypeDef *hhcd) { /* Prevent unused argument(s) compilation warning */ UNUSED(hhcd); /* NOTE : This function Should not be modified, when the callback is needed, the HAL_PCD_MspInit could be implemented in the user file */ } /** * @brief DeInitialize the HCD MSP. * @param hhcd HCD handle * @retval None */ __weak void HAL_HCD_MspDeInit(HCD_HandleTypeDef *hhcd) { /* Prevent unused argument(s) compilation warning */ UNUSED(hhcd); /* NOTE : This function Should not be modified, when the callback is needed, the HAL_PCD_MspDeInit could be implemented in the user file */ } /** * @} */ /** @defgroup HCD_Exported_Functions_Group2 Input and Output operation functions * @brief HCD IO operation functions * @verbatim =============================================================================== ##### IO operation functions ##### =============================================================================== [..] This subsection provides a set of functions allowing to manage the USB Host Data Transfer @endverbatim * @{ */ /** * @brief Submit a new URB for processing. * @param hhcd HCD handle * @param ch_num Channel number. * This parameter can be a value from 1 to 15 * @param direction Channel number. * This parameter can be one of these values: * 0 : Output / 1 : Input * @param ep_type Endpoint Type. * This parameter can be one of these values: * EP_TYPE_CTRL: Control type/ * EP_TYPE_ISOC: Isochronous type/ * EP_TYPE_BULK: Bulk type/ * EP_TYPE_INTR: Interrupt type/ * @param token Endpoint Type. * This parameter can be one of these values: * 0: HC_PID_SETUP / 1: HC_PID_DATA1 * @param pbuff pointer to URB data * @param length Length of URB data * @param do_ping activate do ping protocol (for high speed only). * This parameter can be one of these values: * 0 : do ping inactive / 1 : do ping active * @retval HAL status */ HAL_StatusTypeDef HAL_HCD_HC_SubmitRequest(HCD_HandleTypeDef *hhcd, uint8_t ch_num, uint8_t direction, uint8_t ep_type, uint8_t token, uint8_t* pbuff, uint16_t length, uint8_t do_ping) { hhcd->hc[ch_num].ep_is_in = direction; hhcd->hc[ch_num].ep_type = ep_type; if(token == 0) { hhcd->hc[ch_num].data_pid = HC_PID_SETUP; } else { hhcd->hc[ch_num].data_pid = HC_PID_DATA1; } /* Manage Data Toggle */ switch(ep_type) { case EP_TYPE_CTRL: if((token == 1) && (direction == 0)) /*send data */ { if (length == 0) { /* For Status OUT stage, Length==0, Status Out PID = 1 */ hhcd->hc[ch_num].toggle_out = 1; } /* Set the Data Toggle bit as per the Flag */ if (hhcd->hc[ch_num].toggle_out == 0) { /* Put the PID 0 */ hhcd->hc[ch_num].data_pid = HC_PID_DATA0; } else { /* Put the PID 1 */ hhcd->hc[ch_num].data_pid = HC_PID_DATA1; } if(hhcd->hc[ch_num].urb_state != URB_NOTREADY) { hhcd->hc[ch_num].do_ping = do_ping; } } break; case EP_TYPE_BULK: if(direction == 0) { /* Set the Data Toggle bit as per the Flag */ if ( hhcd->hc[ch_num].toggle_out == 0) { /* Put the PID 0 */ hhcd->hc[ch_num].data_pid = HC_PID_DATA0; } else { /* Put the PID 1 */ hhcd->hc[ch_num].data_pid = HC_PID_DATA1; } if(hhcd->hc[ch_num].urb_state != URB_NOTREADY) { hhcd->hc[ch_num].do_ping = do_ping; } } else { if( hhcd->hc[ch_num].toggle_in == 0) { hhcd->hc[ch_num].data_pid = HC_PID_DATA0; } else { hhcd->hc[ch_num].data_pid = HC_PID_DATA1; } } break; case EP_TYPE_INTR: if(direction == 0) { /* Set the Data Toggle bit as per the Flag */ if ( hhcd->hc[ch_num].toggle_out == 0) { /* Put the PID 0 */ hhcd->hc[ch_num].data_pid = HC_PID_DATA0; } else { /* Put the PID 1 */ hhcd->hc[ch_num].data_pid = HC_PID_DATA1; } } else { if( hhcd->hc[ch_num].toggle_in == 0) { hhcd->hc[ch_num].data_pid = HC_PID_DATA0; } else { hhcd->hc[ch_num].data_pid = HC_PID_DATA1; } } break; case EP_TYPE_ISOC: hhcd->hc[ch_num].data_pid = HC_PID_DATA0; break; } hhcd->hc[ch_num].xfer_buff = pbuff; hhcd->hc[ch_num].xfer_len = length; hhcd->hc[ch_num].urb_state = URB_IDLE; hhcd->hc[ch_num].xfer_count = 0; hhcd->hc[ch_num].ch_num = ch_num; hhcd->hc[ch_num].state = HC_IDLE; return USB_HC_StartXfer(hhcd->Instance, &(hhcd->hc[ch_num]), hhcd->Init.dma_enable); } /** * @brief Handle HCD interrupt request. * @param hhcd HCD handle * @retval None */ void HAL_HCD_IRQHandler(HCD_HandleTypeDef *hhcd) { USB_OTG_GlobalTypeDef *USBx = hhcd->Instance; uint32_t i = 0U , interrupt = 0U; /* Ensure that we are in device mode */ if (USB_GetMode(hhcd->Instance) == USB_OTG_MODE_HOST) { /* Avoid spurious interrupt */ if(__HAL_HCD_IS_INVALID_INTERRUPT(hhcd)) { return; } if(__HAL_HCD_GET_FLAG(hhcd, USB_OTG_GINTSTS_PXFR_INCOMPISOOUT)) { /* Incorrect mode, acknowledge the interrupt */ __HAL_HCD_CLEAR_FLAG(hhcd, USB_OTG_GINTSTS_PXFR_INCOMPISOOUT); } if(__HAL_HCD_GET_FLAG(hhcd, USB_OTG_GINTSTS_IISOIXFR)) { /* Incorrect mode, acknowledge the interrupt */ __HAL_HCD_CLEAR_FLAG(hhcd, USB_OTG_GINTSTS_IISOIXFR); } if(__HAL_HCD_GET_FLAG(hhcd, USB_OTG_GINTSTS_PTXFE)) { /* Incorrect mode, acknowledge the interrupt */ __HAL_HCD_CLEAR_FLAG(hhcd, USB_OTG_GINTSTS_PTXFE); } if(__HAL_HCD_GET_FLAG(hhcd, USB_OTG_GINTSTS_MMIS)) { /* Incorrect mode, acknowledge the interrupt */ __HAL_HCD_CLEAR_FLAG(hhcd, USB_OTG_GINTSTS_MMIS); } /* Handle Host Disconnect Interrupts */ if(__HAL_HCD_GET_FLAG(hhcd, USB_OTG_GINTSTS_DISCINT)) { /* Cleanup HPRT */ USBx_HPRT0 &= ~(USB_OTG_HPRT_PENA | USB_OTG_HPRT_PCDET |\ USB_OTG_HPRT_PENCHNG | USB_OTG_HPRT_POCCHNG ); /* Handle Host Port Interrupts */ HAL_HCD_Disconnect_Callback(hhcd); USB_InitFSLSPClkSel(hhcd->Instance ,HCFG_48_MHZ ); __HAL_HCD_CLEAR_FLAG(hhcd, USB_OTG_GINTSTS_DISCINT); } /* Handle Host Port Interrupts */ if(__HAL_HCD_GET_FLAG(hhcd, USB_OTG_GINTSTS_HPRTINT)) { HCD_Port_IRQHandler (hhcd); } /* Handle Host SOF Interrupts */ if(__HAL_HCD_GET_FLAG(hhcd, USB_OTG_GINTSTS_SOF)) { HAL_HCD_SOF_Callback(hhcd); __HAL_HCD_CLEAR_FLAG(hhcd, USB_OTG_GINTSTS_SOF); } /* Handle Host channel Interrupts */ if(__HAL_HCD_GET_FLAG(hhcd, USB_OTG_GINTSTS_HCINT)) { interrupt = USB_HC_ReadInterrupt(hhcd->Instance); for (i = 0U; i < hhcd->Init.Host_channels; i++) { if (interrupt & (1U << i)) { if ((USBx_HC(i)->HCCHAR) & USB_OTG_HCCHAR_EPDIR) { HCD_HC_IN_IRQHandler(hhcd, i); } else { HCD_HC_OUT_IRQHandler (hhcd, i); } } } __HAL_HCD_CLEAR_FLAG(hhcd, USB_OTG_GINTSTS_HCINT); } /* Handle Rx Queue Level Interrupts */ if(__HAL_HCD_GET_FLAG(hhcd, USB_OTG_GINTSTS_RXFLVL)) { USB_MASK_INTERRUPT(hhcd->Instance, USB_OTG_GINTSTS_RXFLVL); HCD_RXQLVL_IRQHandler (hhcd); USB_UNMASK_INTERRUPT(hhcd->Instance, USB_OTG_GINTSTS_RXFLVL); } } } /** * @brief SOF callback. * @param hhcd HCD handle * @retval None */ __weak void HAL_HCD_SOF_Callback(HCD_HandleTypeDef *hhcd) { /* Prevent unused argument(s) compilation warning */ UNUSED(hhcd); /* NOTE : This function Should not be modified, when the callback is needed, the HAL_HCD_SOF_Callback could be implemented in the user file */ } /** * @brief Connection Event callback. * @param hhcd HCD handle * @retval None */ __weak void HAL_HCD_Connect_Callback(HCD_HandleTypeDef *hhcd) { /* Prevent unused argument(s) compilation warning */ UNUSED(hhcd); /* NOTE : This function Should not be modified, when the callback is needed, the HAL_HCD_Connect_Callback could be implemented in the user file */ } /** * @brief Disconnection Event callback. * @param hhcd HCD handle * @retval None */ __weak void HAL_HCD_Disconnect_Callback(HCD_HandleTypeDef *hhcd) { /* Prevent unused argument(s) compilation warning */ UNUSED(hhcd); /* NOTE : This function Should not be modified, when the callback is needed, the HAL_HCD_Disconnect_Callback could be implemented in the user file */ } /** * @brief Notify URB state change callback. * @param hhcd HCD handle * @param chnum Channel number. * This parameter can be a value from 1 to 15 * @param urb_state: * This parameter can be one of these values: * URB_IDLE/ * URB_DONE/ * URB_NOTREADY/ * URB_NYET/ * URB_ERROR/ * URB_STALL/ * @retval None */ __weak void HAL_HCD_HC_NotifyURBChange_Callback(HCD_HandleTypeDef *hhcd, uint8_t chnum, HCD_URBStateTypeDef urb_state) { /* Prevent unused argument(s) compilation warning */ UNUSED(hhcd); UNUSED(chnum); UNUSED(urb_state); /* NOTE : This function Should not be modified, when the callback is needed, the HAL_HCD_HC_NotifyURBChange_Callback could be implemented in the user file */ } /** * @} */ /** @defgroup HCD_Exported_Functions_Group3 Peripheral Control functions * @brief Management functions * @verbatim =============================================================================== ##### Peripheral Control functions ##### =============================================================================== [..] This subsection provides a set of functions allowing to control the HCD data transfers. @endverbatim * @{ */ /** * @brief Start the host driver. * @param hhcd HCD handle * @retval HAL status */ HAL_StatusTypeDef HAL_HCD_Start(HCD_HandleTypeDef *hhcd) { __HAL_LOCK(hhcd); __HAL_HCD_ENABLE(hhcd); USB_DriveVbus(hhcd->Instance, 1U); __HAL_UNLOCK(hhcd); return HAL_OK; } /** * @brief Stop the host driver. * @param hhcd HCD handle * @retval HAL status */ HAL_StatusTypeDef HAL_HCD_Stop(HCD_HandleTypeDef *hhcd) { __HAL_LOCK(hhcd); USB_StopHost(hhcd->Instance); __HAL_UNLOCK(hhcd); return HAL_OK; } /** * @brief Reset the host port. * @param hhcd HCD handle * @retval HAL status */ HAL_StatusTypeDef HAL_HCD_ResetPort(HCD_HandleTypeDef *hhcd) { return (USB_ResetPort(hhcd->Instance)); } /** * @} */ /** @defgroup HCD_Exported_Functions_Group4 Peripheral State functions * @brief Peripheral State functions * @verbatim =============================================================================== ##### Peripheral State functions ##### =============================================================================== [..] This subsection permits to get in run-time the status of the peripheral and the data flow. @endverbatim * @{ */ /** * @brief Return the HCD handle state. * @param hhcd HCD handle * @retval HAL state */ HCD_StateTypeDef HAL_HCD_GetState(HCD_HandleTypeDef *hhcd) { return hhcd->State; } /** * @brief Return URB state for a channel. * @param hhcd HCD handle * @param chnum Channel number. * This parameter can be a value from 1 to 15 * @retval URB state. * This parameter can be one of these values: * URB_IDLE/ * URB_DONE/ * URB_NOTREADY/ * URB_NYET/ * URB_ERROR/ * URB_STALL */ HCD_URBStateTypeDef HAL_HCD_HC_GetURBState(HCD_HandleTypeDef *hhcd, uint8_t chnum) { return hhcd->hc[chnum].urb_state; } /** * @brief Return the last host transfer size. * @param hhcd HCD handle * @param chnum Channel number. * This parameter can be a value from 1 to 15 * @retval last transfer size in byte */ uint32_t HAL_HCD_HC_GetXferCount(HCD_HandleTypeDef *hhcd, uint8_t chnum) { return hhcd->hc[chnum].xfer_count; } /** * @brief Return the Host Channel state. * @param hhcd HCD handle * @param chnum Channel number. * This parameter can be a value from 1 to 15 * @retval Host channel state * This parameter can be one of these values: * HC_IDLE/ * HC_XFRC/ * HC_HALTED/ * HC_NYET/ * HC_NAK/ * HC_STALL/ * HC_XACTERR/ * HC_BBLERR/ * HC_DATATGLERR */ HCD_HCStateTypeDef HAL_HCD_HC_GetState(HCD_HandleTypeDef *hhcd, uint8_t chnum) { return hhcd->hc[chnum].state; } /** * @brief Return the current Host frame number. * @param hhcd HCD handle * @retval Current Host frame number */ uint32_t HAL_HCD_GetCurrentFrame(HCD_HandleTypeDef *hhcd) { return (USB_GetCurrentFrame(hhcd->Instance)); } /** * @brief Return the Host enumeration speed. * @param hhcd HCD handle * @retval Enumeration speed */ uint32_t HAL_HCD_GetCurrentSpeed(HCD_HandleTypeDef *hhcd) { return (USB_GetHostSpeed(hhcd->Instance)); } /** * @} */ /** * @} */ /** @addtogroup HCD_Private_Functions * @{ */ /** * @brief Handle Host Channel IN interrupt requests. * @param hhcd HCD handle * @param chnum Channel number. * This parameter can be a value from 1 to 15 * @retval None */ static void HCD_HC_IN_IRQHandler(HCD_HandleTypeDef *hhcd, uint8_t chnum) { USB_OTG_GlobalTypeDef *USBx = hhcd->Instance; uint32_t tmpreg = 0U; if ((USBx_HC(chnum)->HCINT) & USB_OTG_HCINT_AHBERR) { __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_AHBERR); __HAL_HCD_UNMASK_HALT_HC_INT(chnum); } else if ((USBx_HC(chnum)->HCINT) & USB_OTG_HCINT_ACK) { __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_ACK); } else if ((USBx_HC(chnum)->HCINT) & USB_OTG_HCINT_STALL) { __HAL_HCD_UNMASK_HALT_HC_INT(chnum); hhcd->hc[chnum].state = HC_STALL; __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_NAK); __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_STALL); USB_HC_Halt(hhcd->Instance, chnum); } else if ((USBx_HC(chnum)->HCINT) & USB_OTG_HCINT_DTERR) { __HAL_HCD_UNMASK_HALT_HC_INT(chnum); USB_HC_Halt(hhcd->Instance, chnum); __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_NAK); hhcd->hc[chnum].state = HC_DATATGLERR; __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_DTERR); } if ((USBx_HC(chnum)->HCINT) & USB_OTG_HCINT_FRMOR) { __HAL_HCD_UNMASK_HALT_HC_INT(chnum); USB_HC_Halt(hhcd->Instance, chnum); __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_FRMOR); } else if ((USBx_HC(chnum)->HCINT) & USB_OTG_HCINT_XFRC) { if (hhcd->Init.dma_enable) { hhcd->hc[chnum].xfer_count = hhcd->hc[chnum].xfer_len - \ (USBx_HC(chnum)->HCTSIZ & USB_OTG_HCTSIZ_XFRSIZ); } hhcd->hc[chnum].state = HC_XFRC; hhcd->hc[chnum].ErrCnt = 0U; __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_XFRC); if ((hhcd->hc[chnum].ep_type == EP_TYPE_CTRL)|| (hhcd->hc[chnum].ep_type == EP_TYPE_BULK)) { __HAL_HCD_UNMASK_HALT_HC_INT(chnum); USB_HC_Halt(hhcd->Instance, chnum); __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_NAK); } else if(hhcd->hc[chnum].ep_type == EP_TYPE_INTR) { USBx_HC(chnum)->HCCHAR |= USB_OTG_HCCHAR_ODDFRM; hhcd->hc[chnum].urb_state = URB_DONE; HAL_HCD_HC_NotifyURBChange_Callback(hhcd, chnum, hhcd->hc[chnum].urb_state); } hhcd->hc[chnum].toggle_in ^= 1U; } else if ((USBx_HC(chnum)->HCINT) & USB_OTG_HCINT_CHH) { __HAL_HCD_MASK_HALT_HC_INT(chnum); if(hhcd->hc[chnum].state == HC_XFRC) { hhcd->hc[chnum].urb_state = URB_DONE; } else if (hhcd->hc[chnum].state == HC_STALL) { hhcd->hc[chnum].urb_state = URB_STALL; } else if((hhcd->hc[chnum].state == HC_XACTERR) || (hhcd->hc[chnum].state == HC_DATATGLERR)) { if(hhcd->hc[chnum].ErrCnt++ > 3U) { hhcd->hc[chnum].ErrCnt = 0U; hhcd->hc[chnum].urb_state = URB_ERROR; } else { hhcd->hc[chnum].urb_state = URB_NOTREADY; } /* re-activate the channel */ tmpreg = USBx_HC(chnum)->HCCHAR; tmpreg &= ~USB_OTG_HCCHAR_CHDIS; tmpreg |= USB_OTG_HCCHAR_CHENA; USBx_HC(chnum)->HCCHAR = tmpreg; } __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_CHH); HAL_HCD_HC_NotifyURBChange_Callback(hhcd, chnum, hhcd->hc[chnum].urb_state); } else if ((USBx_HC(chnum)->HCINT) & USB_OTG_HCINT_TXERR) { __HAL_HCD_UNMASK_HALT_HC_INT(chnum); hhcd->hc[chnum].ErrCnt++; hhcd->hc[chnum].state = HC_XACTERR; USB_HC_Halt(hhcd->Instance, chnum); __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_TXERR); } else if ((USBx_HC(chnum)->HCINT) & USB_OTG_HCINT_NAK) { if(hhcd->hc[chnum].ep_type == EP_TYPE_INTR) { __HAL_HCD_UNMASK_HALT_HC_INT(chnum); USB_HC_Halt(hhcd->Instance, chnum); } /* Clear the NAK flag before re-enabling the channel for new IN request */ hhcd->hc[chnum].state = HC_NAK; __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_NAK); if ((hhcd->hc[chnum].ep_type == EP_TYPE_CTRL)|| (hhcd->hc[chnum].ep_type == EP_TYPE_BULK)) { /* re-activate the channel */ tmpreg = USBx_HC(chnum)->HCCHAR; tmpreg &= ~USB_OTG_HCCHAR_CHDIS; tmpreg |= USB_OTG_HCCHAR_CHENA; USBx_HC(chnum)->HCCHAR = tmpreg; } } } /** * @brief Handle Host Channel OUT interrupt requests. * @param hhcd HCD handle * @param chnum Channel number. * This parameter can be a value from 1 to 15 * @retval None */ static void HCD_HC_OUT_IRQHandler (HCD_HandleTypeDef *hhcd, uint8_t chnum) { USB_OTG_GlobalTypeDef *USBx = hhcd->Instance; if ((USBx_HC(chnum)->HCINT) & USB_OTG_HCINT_AHBERR) { __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_AHBERR); __HAL_HCD_UNMASK_HALT_HC_INT(chnum); } else if ((USBx_HC(chnum)->HCINT) & USB_OTG_HCINT_ACK) { __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_ACK); if( hhcd->hc[chnum].do_ping == 1U) { hhcd->hc[chnum].state = HC_NYET; __HAL_HCD_UNMASK_HALT_HC_INT(chnum); USB_HC_Halt(hhcd->Instance, chnum); hhcd->hc[chnum].urb_state = URB_NOTREADY; } } else if ((USBx_HC(chnum)->HCINT) & USB_OTG_HCINT_NYET) { hhcd->hc[chnum].state = HC_NYET; hhcd->hc[chnum].ErrCnt= 0U; __HAL_HCD_UNMASK_HALT_HC_INT(chnum); USB_HC_Halt(hhcd->Instance, chnum); __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_NYET); } else if ((USBx_HC(chnum)->HCINT) & USB_OTG_HCINT_FRMOR) { __HAL_HCD_UNMASK_HALT_HC_INT(chnum); USB_HC_Halt(hhcd->Instance, chnum); __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_FRMOR); } else if ((USBx_HC(chnum)->HCINT) & USB_OTG_HCINT_XFRC) { hhcd->hc[chnum].ErrCnt = 0U; __HAL_HCD_UNMASK_HALT_HC_INT(chnum); USB_HC_Halt(hhcd->Instance, chnum); __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_XFRC); hhcd->hc[chnum].state = HC_XFRC; } else if ((USBx_HC(chnum)->HCINT) & USB_OTG_HCINT_STALL) { __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_STALL); __HAL_HCD_UNMASK_HALT_HC_INT(chnum); USB_HC_Halt(hhcd->Instance, chnum); hhcd->hc[chnum].state = HC_STALL; } else if ((USBx_HC(chnum)->HCINT) & USB_OTG_HCINT_NAK) { hhcd->hc[chnum].ErrCnt = 0U; __HAL_HCD_UNMASK_HALT_HC_INT(chnum); USB_HC_Halt(hhcd->Instance, chnum); hhcd->hc[chnum].state = HC_NAK; __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_NAK); } else if ((USBx_HC(chnum)->HCINT) & USB_OTG_HCINT_TXERR) { __HAL_HCD_UNMASK_HALT_HC_INT(chnum); USB_HC_Halt(hhcd->Instance, chnum); hhcd->hc[chnum].state = HC_XACTERR; __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_TXERR); } else if ((USBx_HC(chnum)->HCINT) & USB_OTG_HCINT_DTERR) { __HAL_HCD_UNMASK_HALT_HC_INT(chnum); USB_HC_Halt(hhcd->Instance, chnum); __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_NAK); __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_DTERR); hhcd->hc[chnum].state = HC_DATATGLERR; } else if ((USBx_HC(chnum)->HCINT) & USB_OTG_HCINT_CHH) { __HAL_HCD_MASK_HALT_HC_INT(chnum); if(hhcd->hc[chnum].state == HC_XFRC) { hhcd->hc[chnum].urb_state = URB_DONE; if (hhcd->hc[chnum].ep_type == EP_TYPE_BULK) { hhcd->hc[chnum].toggle_out ^= 1U; } } else if (hhcd->hc[chnum].state == HC_NAK) { hhcd->hc[chnum].urb_state = URB_NOTREADY; } else if (hhcd->hc[chnum].state == HC_NYET) { hhcd->hc[chnum].urb_state = URB_NOTREADY; hhcd->hc[chnum].do_ping = 0U; } else if (hhcd->hc[chnum].state == HC_STALL) { hhcd->hc[chnum].urb_state = URB_STALL; } else if((hhcd->hc[chnum].state == HC_XACTERR) || (hhcd->hc[chnum].state == HC_DATATGLERR)) { if(hhcd->hc[chnum].ErrCnt++ > 3U) { hhcd->hc[chnum].ErrCnt = 0U; hhcd->hc[chnum].urb_state = URB_ERROR; } else { hhcd->hc[chnum].urb_state = URB_NOTREADY; } } __HAL_HCD_CLEAR_HC_INT(chnum, USB_OTG_HCINT_CHH); HAL_HCD_HC_NotifyURBChange_Callback(hhcd, chnum, hhcd->hc[chnum].urb_state); } } /** * @brief Handle Rx Queue Level interrupt requests. * @param hhcd HCD handle * @retval None */ static void HCD_RXQLVL_IRQHandler(HCD_HandleTypeDef *hhcd) { USB_OTG_GlobalTypeDef *USBx = hhcd->Instance; uint8_t channelnum = 0; uint32_t pktsts; uint32_t pktcnt; uint32_t temp = 0U; uint32_t tmpreg = 0U; temp = hhcd->Instance->GRXSTSP; channelnum = temp & USB_OTG_GRXSTSP_EPNUM; pktsts = (temp & USB_OTG_GRXSTSP_PKTSTS) >> 17U; pktcnt = (temp & USB_OTG_GRXSTSP_BCNT) >> 4U; switch (pktsts) { case GRXSTS_PKTSTS_IN: /* Read the data into the host buffer. */ if ((pktcnt > 0U) && (hhcd->hc[channelnum].xfer_buff != (void *)0)) { USB_ReadPacket(hhcd->Instance, hhcd->hc[channelnum].xfer_buff, pktcnt); /*manage multiple Xfer */ hhcd->hc[channelnum].xfer_buff += pktcnt; hhcd->hc[channelnum].xfer_count += pktcnt; if((USBx_HC(channelnum)->HCTSIZ & USB_OTG_HCTSIZ_PKTCNT) > 0) { /* re-activate the channel when more packets are expected */ tmpreg = USBx_HC(channelnum)->HCCHAR; tmpreg &= ~USB_OTG_HCCHAR_CHDIS; tmpreg |= USB_OTG_HCCHAR_CHENA; USBx_HC(channelnum)->HCCHAR = tmpreg; hhcd->hc[channelnum].toggle_in ^= 1; } } break; case GRXSTS_PKTSTS_DATA_TOGGLE_ERR: break; case GRXSTS_PKTSTS_IN_XFER_COMP: case GRXSTS_PKTSTS_CH_HALTED: default: break; } } /** * @brief Handle Host Port interrupt requests. * @param hhcd HCD handle * @retval None */ static void HCD_Port_IRQHandler (HCD_HandleTypeDef *hhcd) { USB_OTG_GlobalTypeDef *USBx = hhcd->Instance; __IO uint32_t hprt0, hprt0_dup; /* Handle Host Port Interrupts */ hprt0 = USBx_HPRT0; hprt0_dup = USBx_HPRT0; hprt0_dup &= ~(USB_OTG_HPRT_PENA | USB_OTG_HPRT_PCDET |\ USB_OTG_HPRT_PENCHNG | USB_OTG_HPRT_POCCHNG ); /* Check whether Port Connect Detected */ if((hprt0 & USB_OTG_HPRT_PCDET) == USB_OTG_HPRT_PCDET) { if((hprt0 & USB_OTG_HPRT_PCSTS) == USB_OTG_HPRT_PCSTS) { USB_MASK_INTERRUPT(hhcd->Instance, USB_OTG_GINTSTS_DISCINT); HAL_HCD_Connect_Callback(hhcd); } hprt0_dup |= USB_OTG_HPRT_PCDET; } /* Check whether Port Enable Changed */ if((hprt0 & USB_OTG_HPRT_PENCHNG) == USB_OTG_HPRT_PENCHNG) { hprt0_dup |= USB_OTG_HPRT_PENCHNG; if((hprt0 & USB_OTG_HPRT_PENA) == USB_OTG_HPRT_PENA) { if(hhcd->Init.phy_itface == USB_OTG_EMBEDDED_PHY) { if ((hprt0 & USB_OTG_HPRT_PSPD) == (HPRT0_PRTSPD_LOW_SPEED << 17U)) { USB_InitFSLSPClkSel(hhcd->Instance ,HCFG_6_MHZ ); } else { USB_InitFSLSPClkSel(hhcd->Instance ,HCFG_48_MHZ ); } } else { if(hhcd->Init.speed == HCD_SPEED_FULL) { USBx_HOST->HFIR = 60000U; } } HAL_HCD_Connect_Callback(hhcd); } else { /* Clean up HPRT */ USBx_HPRT0 &= ~(USB_OTG_HPRT_PENA | USB_OTG_HPRT_PCDET |\ USB_OTG_HPRT_PENCHNG | USB_OTG_HPRT_POCCHNG ); USB_UNMASK_INTERRUPT(hhcd->Instance, USB_OTG_GINTSTS_DISCINT); } } /* Check for an over current */ if((hprt0 & USB_OTG_HPRT_POCCHNG) == USB_OTG_HPRT_POCCHNG) { hprt0_dup |= USB_OTG_HPRT_POCCHNG; } /* Clear Port Interrupts */ USBx_HPRT0 = hprt0_dup; } /** * @} */ #endif /* STM32F405xx || STM32F415xx || STM32F407xx || STM32F417xx || STM32F427xx || STM32F437xx || STM32F429xx || STM32F439xx || STM32F401xC || STM32F401xE || STM32F411xE || STM32F446xx || STM32F469xx || STM32F479xx || STM32F412Zx || STM32F412Rx || STM32F412Vx || STM32F412Cx || defined(STM32F413xx) || defined(STM32F423xx) */ #endif /* HAL_HCD_MODULE_ENABLED */ /** * @} */ /** * @} */ /************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/