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openblt/Target/Demo/ARMCM3_STM32_Olimex_STM32H1.../Boot/lib/USB_FS_DEVICE/src/usb_core.c

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/******************** (C) COPYRIGHT 2011 STMicroelectronics ********************
* File Name : usb_core.c
* Author : MCD Application Team
* Version : V3.3.0
* Date : 21-March-2011
* Description : Standard protocol processing (USB v2.0)
********************************************************************************
* THE PRESENT FIRMWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS
* WITH CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE TIME.
* AS A RESULT, STMICROELECTRONICS SHALL NOT BE HELD LIABLE FOR ANY DIRECT,
* INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING FROM THE
* CONTENT OF SUCH FIRMWARE AND/OR THE USE MADE BY CUSTOMERS OF THE CODING
* INFORMATION CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS.
*******************************************************************************/
/* Includes ------------------------------------------------------------------*/
#include "usb_lib.h"
/* Private typedef -----------------------------------------------------------*/
/* Private define ------------------------------------------------------------*/
#define ValBit(VAR,Place) (VAR & (1 << Place))
#define SetBit(VAR,Place) (VAR |= (1 << Place))
#define ClrBit(VAR,Place) (VAR &= ((1 << Place) ^ 255))
#ifdef STM32F10X_CL
#define Send0LengthData() {PCD_EP_Write (0, 0, 0) ; vSetEPTxStatus(EP_TX_VALID);}
#else
#define Send0LengthData() { _SetEPTxCount(ENDP0, 0); \
vSetEPTxStatus(EP_TX_VALID); \
}
#endif /* STM32F10X_CL */
#define vSetEPRxStatus(st) (SaveRState = st)
#define vSetEPTxStatus(st) (SaveTState = st)
#define USB_StatusIn() Send0LengthData()
#define USB_StatusOut() vSetEPRxStatus(EP_RX_VALID)
#define StatusInfo0 StatusInfo.bw.bb1 /* Reverse bb0 & bb1 */
#define StatusInfo1 StatusInfo.bw.bb0
/* Private macro -------------------------------------------------------------*/
/* Private variables ---------------------------------------------------------*/
uint16_t_uint8_t StatusInfo;
bool Data_Mul_MaxPacketSize = FALSE;
/* Private function prototypes -----------------------------------------------*/
static void DataStageOut(void);
static void DataStageIn(void);
static void NoData_Setup0(void);
static void Data_Setup0(void);
/* Private functions ---------------------------------------------------------*/
/*******************************************************************************
* Function Name : Standard_GetConfiguration.
* Description : Return the current configuration variable address.
* Input : Length - How many bytes are needed.
* Output : None.
* Return : Return 1 , if the request is invalid when "Length" is 0.
* Return "Buffer" if the "Length" is not 0.
*******************************************************************************/
uint8_t *Standard_GetConfiguration(uint16_t Length)
{
if (Length == 0)
{
pInformation->Ctrl_Info.Usb_wLength =
sizeof(pInformation->Current_Configuration);
return 0;
}
pUser_Standard_Requests->User_GetConfiguration();
return (uint8_t *)&pInformation->Current_Configuration;
}
/*******************************************************************************
* Function Name : Standard_SetConfiguration.
* Description : This routine is called to set the configuration value
* Then each class should configure device itself.
* Input : None.
* Output : None.
* Return : Return USB_SUCCESS, if the request is performed.
* Return USB_UNSUPPORT, if the request is invalid.
*******************************************************************************/
RESULT Standard_SetConfiguration(void)
{
if ((pInformation->USBwValue0 <=
Device_Table.Total_Configuration) && (pInformation->USBwValue1 == 0)
&& (pInformation->USBwIndex == 0)) /*call Back usb spec 2.0*/
{
pInformation->Current_Configuration = pInformation->USBwValue0;
pUser_Standard_Requests->User_SetConfiguration();
return USB_SUCCESS;
}
else
{
return USB_UNSUPPORT;
}
}
/*******************************************************************************
* Function Name : Standard_GetInterface.
* Description : Return the Alternate Setting of the current interface.
* Input : Length - How many bytes are needed.
* Output : None.
* Return : Return 0, if the request is invalid when "Length" is 0.
* Return "Buffer" if the "Length" is not 0.
*******************************************************************************/
uint8_t *Standard_GetInterface(uint16_t Length)
{
if (Length == 0)
{
pInformation->Ctrl_Info.Usb_wLength =
sizeof(pInformation->Current_AlternateSetting);
return 0;
}
pUser_Standard_Requests->User_GetInterface();
return (uint8_t *)&pInformation->Current_AlternateSetting;
}
/*******************************************************************************
* Function Name : Standard_SetInterface.
* Description : This routine is called to set the interface.
* Then each class should configure the interface them self.
* Input : None.
* Output : None.
* Return : - Return USB_SUCCESS, if the request is performed.
* - Return USB_UNSUPPORT, if the request is invalid.
*******************************************************************************/
RESULT Standard_SetInterface(void)
{
RESULT Re;
/*Test if the specified Interface and Alternate Setting are supported by
the application Firmware*/
Re = (*pProperty->Class_Get_Interface_Setting)(pInformation->USBwIndex0, pInformation->USBwValue0);
if (pInformation->Current_Configuration != 0)
{
if ((Re != USB_SUCCESS) || (pInformation->USBwIndex1 != 0)
|| (pInformation->USBwValue1 != 0))
{
return USB_UNSUPPORT;
}
else if (Re == USB_SUCCESS)
{
pUser_Standard_Requests->User_SetInterface();
pInformation->Current_Interface = pInformation->USBwIndex0;
pInformation->Current_AlternateSetting = pInformation->USBwValue0;
return USB_SUCCESS;
}
}
return USB_UNSUPPORT;
}
/*******************************************************************************
* Function Name : Standard_GetStatus.
* Description : Copy the device request data to "StatusInfo buffer".
* Input : - Length - How many bytes are needed.
* Output : None.
* Return : Return 0, if the request is at end of data block,
* or is invalid when "Length" is 0.
*******************************************************************************/
uint8_t *Standard_GetStatus(uint16_t Length)
{
if (Length == 0)
{
pInformation->Ctrl_Info.Usb_wLength = 2;
return 0;
}
/* Reset Status Information */
StatusInfo.w = 0;
if (Type_Recipient == (STANDARD_REQUEST | DEVICE_RECIPIENT))
{
/*Get Device Status */
uint8_t Feature = pInformation->Current_Feature;
/* Remote Wakeup enabled */
if (ValBit(Feature, 5))
{
SetBit(StatusInfo0, 1);
}
else
{
ClrBit(StatusInfo0, 1);
}
/* Bus-powered */
if (ValBit(Feature, 6))
{
SetBit(StatusInfo0, 0);
}
else /* Self-powered */
{
ClrBit(StatusInfo0, 0);
}
}
/*Interface Status*/
else if (Type_Recipient == (STANDARD_REQUEST | INTERFACE_RECIPIENT))
{
return (uint8_t *)&StatusInfo;
}
/*Get EndPoint Status*/
else if (Type_Recipient == (STANDARD_REQUEST | ENDPOINT_RECIPIENT))
{
uint8_t Related_Endpoint;
uint8_t wIndex0 = pInformation->USBwIndex0;
Related_Endpoint = (wIndex0 & 0x0f);
if (ValBit(wIndex0, 7))
{
/* IN endpoint */
if (_GetTxStallStatus(Related_Endpoint))
{
SetBit(StatusInfo0, 0); /* IN Endpoint stalled */
}
}
else
{
/* OUT endpoint */
if (_GetRxStallStatus(Related_Endpoint))
{
SetBit(StatusInfo0, 0); /* OUT Endpoint stalled */
}
}
}
else
{
return NULL;
}
pUser_Standard_Requests->User_GetStatus();
return (uint8_t *)&StatusInfo;
}
/*******************************************************************************
* Function Name : Standard_ClearFeature.
* Description : Clear or disable a specific feature.
* Input : None.
* Output : None.
* Return : - Return USB_SUCCESS, if the request is performed.
* - Return USB_UNSUPPORT, if the request is invalid.
*******************************************************************************/
RESULT Standard_ClearFeature(void)
{
uint32_t Type_Rec = Type_Recipient;
uint32_t Status;
if (Type_Rec == (STANDARD_REQUEST | DEVICE_RECIPIENT))
{/*Device Clear Feature*/
ClrBit(pInformation->Current_Feature, 5);
return USB_SUCCESS;
}
else if (Type_Rec == (STANDARD_REQUEST | ENDPOINT_RECIPIENT))
{/*EndPoint Clear Feature*/
DEVICE* pDev;
uint32_t Related_Endpoint;
uint32_t wIndex0;
uint32_t rEP;
if ((pInformation->USBwValue != ENDPOINT_STALL)
|| (pInformation->USBwIndex1 != 0))
{
return USB_UNSUPPORT;
}
pDev = &Device_Table;
wIndex0 = pInformation->USBwIndex0;
rEP = wIndex0 & ~0x80;
Related_Endpoint = ENDP0 + rEP;
if (ValBit(pInformation->USBwIndex0, 7))
{
/*Get Status of endpoint & stall the request if the related_ENdpoint
is Disabled*/
Status = _GetEPTxStatus(Related_Endpoint);
}
else
{
Status = _GetEPRxStatus(Related_Endpoint);
}
if ((rEP >= pDev->Total_Endpoint) || (Status == 0)
|| (pInformation->Current_Configuration == 0))
{
return USB_UNSUPPORT;
}
if (wIndex0 & 0x80)
{
/* IN endpoint */
if (_GetTxStallStatus(Related_Endpoint ))
{
#ifndef STM32F10X_CL
ClearDTOG_TX(Related_Endpoint);
#endif /* STM32F10X_CL */
SetEPTxStatus(Related_Endpoint, EP_TX_VALID);
}
}
else
{
/* OUT endpoint */
if (_GetRxStallStatus(Related_Endpoint))
{
if (Related_Endpoint == ENDP0)
{
/* After clear the STALL, enable the default endpoint receiver */
SetEPRxCount(Related_Endpoint, Device_Property.MaxPacketSize);
_SetEPRxStatus(Related_Endpoint, EP_RX_VALID);
}
else
{
#ifndef STM32F10X_CL
ClearDTOG_RX(Related_Endpoint);
#endif /* STM32F10X_CL */
_SetEPRxStatus(Related_Endpoint, EP_RX_VALID);
}
}
}
pUser_Standard_Requests->User_ClearFeature();
return USB_SUCCESS;
}
return USB_UNSUPPORT;
}
/*******************************************************************************
* Function Name : Standard_SetEndPointFeature
* Description : Set or enable a specific feature of EndPoint
* Input : None.
* Output : None.
* Return : - Return USB_SUCCESS, if the request is performed.
* - Return USB_UNSUPPORT, if the request is invalid.
*******************************************************************************/
RESULT Standard_SetEndPointFeature(void)
{
uint32_t wIndex0;
uint32_t Related_Endpoint;
uint32_t rEP;
uint32_t Status;
wIndex0 = pInformation->USBwIndex0;
rEP = wIndex0 & ~0x80;
Related_Endpoint = ENDP0 + rEP;
if (ValBit(pInformation->USBwIndex0, 7))
{
/* get Status of endpoint & stall the request if the related_ENdpoint
is Disabled*/
Status = _GetEPTxStatus(Related_Endpoint);
}
else
{
Status = _GetEPRxStatus(Related_Endpoint);
}
if (Related_Endpoint >= Device_Table.Total_Endpoint
|| pInformation->USBwValue != 0 || Status == 0
|| pInformation->Current_Configuration == 0)
{
return USB_UNSUPPORT;
}
else
{
if (wIndex0 & 0x80)
{
/* IN endpoint */
_SetEPTxStatus(Related_Endpoint, EP_TX_STALL);
}
else
{
/* OUT endpoint */
_SetEPRxStatus(Related_Endpoint, EP_RX_STALL);
}
}
pUser_Standard_Requests->User_SetEndPointFeature();
return USB_SUCCESS;
}
/*******************************************************************************
* Function Name : Standard_SetDeviceFeature.
* Description : Set or enable a specific feature of Device.
* Input : None.
* Output : None.
* Return : - Return USB_SUCCESS, if the request is performed.
* - Return USB_UNSUPPORT, if the request is invalid.
*******************************************************************************/
RESULT Standard_SetDeviceFeature(void)
{
SetBit(pInformation->Current_Feature, 5);
pUser_Standard_Requests->User_SetDeviceFeature();
return USB_SUCCESS;
}
/*******************************************************************************
* Function Name : Standard_GetDescriptorData.
* Description : Standard_GetDescriptorData is used for descriptors transfer.
* : This routine is used for the descriptors resident in Flash
* or RAM
* pDesc can be in either Flash or RAM
* The purpose of this routine is to have a versatile way to
* response descriptors request. It allows user to generate
* certain descriptors with software or read descriptors from
* external storage part by part.
* Input : - Length - Length of the data in this transfer.
* - pDesc - A pointer points to descriptor struct.
* The structure gives the initial address of the descriptor and
* its original size.
* Output : None.
* Return : Address of a part of the descriptor pointed by the Usb_
* wOffset The buffer pointed by this address contains at least
* Length bytes.
*******************************************************************************/
uint8_t *Standard_GetDescriptorData(uint16_t Length, ONE_DESCRIPTOR *pDesc)
{
uint32_t wOffset;
wOffset = pInformation->Ctrl_Info.Usb_wOffset;
if (Length == 0)
{
pInformation->Ctrl_Info.Usb_wLength = pDesc->Descriptor_Size - wOffset;
return 0;
}
return pDesc->Descriptor + wOffset;
}
/*******************************************************************************
* Function Name : DataStageOut.
* Description : Data stage of a Control Write Transfer.
* Input : None.
* Output : None.
* Return : None.
*******************************************************************************/
void DataStageOut(void)
{
ENDPOINT_INFO *pEPinfo = &pInformation->Ctrl_Info;
uint32_t save_rLength;
save_rLength = pEPinfo->Usb_rLength;
if (pEPinfo->CopyData && save_rLength)
{
uint8_t *Buffer;
uint32_t Length;
Length = pEPinfo->PacketSize;
if (Length > save_rLength)
{
Length = save_rLength;
}
Buffer = (*pEPinfo->CopyData)(Length);
pEPinfo->Usb_rLength -= Length;
pEPinfo->Usb_rOffset += Length;
#ifdef STM32F10X_CL
PCD_EP_Read(ENDP0, Buffer, Length);
#else
PMAToUserBufferCopy(Buffer, GetEPRxAddr(ENDP0), Length);
#endif /* STM32F10X_CL */
}
if (pEPinfo->Usb_rLength != 0)
{
vSetEPRxStatus(EP_RX_VALID);/* re-enable for next data reception */
SetEPTxCount(ENDP0, 0);
vSetEPTxStatus(EP_TX_VALID);/* Expect the host to abort the data OUT stage */
}
/* Set the next State*/
if (pEPinfo->Usb_rLength >= pEPinfo->PacketSize)
{
pInformation->ControlState = OUT_DATA;
}
else
{
if (pEPinfo->Usb_rLength > 0)
{
pInformation->ControlState = LAST_OUT_DATA;
}
else if (pEPinfo->Usb_rLength == 0)
{
pInformation->ControlState = WAIT_STATUS_IN;
USB_StatusIn();
}
}
}
/*******************************************************************************
* Function Name : DataStageIn.
* Description : Data stage of a Control Read Transfer.
* Input : None.
* Output : None.
* Return : None.
*******************************************************************************/
void DataStageIn(void)
{
ENDPOINT_INFO *pEPinfo = &pInformation->Ctrl_Info;
uint32_t save_wLength = pEPinfo->Usb_wLength;
uint32_t ControlState = pInformation->ControlState;
uint8_t *DataBuffer;
uint32_t Length;
if ((save_wLength == 0) && (ControlState == LAST_IN_DATA))
{
if(Data_Mul_MaxPacketSize == TRUE)
{
/* No more data to send and empty packet */
Send0LengthData();
ControlState = LAST_IN_DATA;
Data_Mul_MaxPacketSize = FALSE;
}
else
{
/* No more data to send so STALL the TX Status*/
ControlState = WAIT_STATUS_OUT;
#ifdef STM32F10X_CL
PCD_EP_Read (ENDP0, 0, 0);
#endif /* STM32F10X_CL */
#ifndef STM32F10X_CL
vSetEPTxStatus(EP_TX_STALL);
#endif /* STM32F10X_CL */
}
goto Expect_Status_Out;
}
Length = pEPinfo->PacketSize;
ControlState = (save_wLength <= Length) ? LAST_IN_DATA : IN_DATA;
if (Length > save_wLength)
{
Length = save_wLength;
}
DataBuffer = (*pEPinfo->CopyData)(Length);
#ifdef STM32F10X_CL
PCD_EP_Write (ENDP0, DataBuffer, Length);
#else
UserToPMABufferCopy(DataBuffer, GetEPTxAddr(ENDP0), Length);
#endif /* STM32F10X_CL */
SetEPTxCount(ENDP0, Length);
pEPinfo->Usb_wLength -= Length;
pEPinfo->Usb_wOffset += Length;
vSetEPTxStatus(EP_TX_VALID);
USB_StatusOut();/* Expect the host to abort the data IN stage */
Expect_Status_Out:
pInformation->ControlState = ControlState;
}
/*******************************************************************************
* Function Name : NoData_Setup0.
* Description : Proceed the processing of setup request without data stage.
* Input : None.
* Output : None.
* Return : None.
*******************************************************************************/
void NoData_Setup0(void)
{
RESULT Result = USB_UNSUPPORT;
uint32_t RequestNo = pInformation->USBbRequest;
uint32_t ControlState;
if (Type_Recipient == (STANDARD_REQUEST | DEVICE_RECIPIENT))
{
/* Device Request*/
/* SET_CONFIGURATION*/
if (RequestNo == SET_CONFIGURATION)
{
Result = Standard_SetConfiguration();
}
/*SET ADDRESS*/
else if (RequestNo == SET_ADDRESS)
{
if ((pInformation->USBwValue0 > 127) || (pInformation->USBwValue1 != 0)
|| (pInformation->USBwIndex != 0)
|| (pInformation->Current_Configuration != 0))
/* Device Address should be 127 or less*/
{
ControlState = STALLED;
goto exit_NoData_Setup0;
}
else
{
Result = USB_SUCCESS;
#ifdef STM32F10X_CL
SetDeviceAddress(pInformation->USBwValue0);
#endif /* STM32F10X_CL */
}
}
/*SET FEATURE for Device*/
else if (RequestNo == SET_FEATURE)
{
if ((pInformation->USBwValue0 == DEVICE_REMOTE_WAKEUP) \
&& (pInformation->USBwIndex == 0))
{
Result = Standard_SetDeviceFeature();
}
else
{
Result = USB_UNSUPPORT;
}
}
/*Clear FEATURE for Device */
else if (RequestNo == CLEAR_FEATURE)
{
if (pInformation->USBwValue0 == DEVICE_REMOTE_WAKEUP
&& pInformation->USBwIndex == 0
&& ValBit(pInformation->Current_Feature, 5))
{
Result = Standard_ClearFeature();
}
else
{
Result = USB_UNSUPPORT;
}
}
}
/* Interface Request*/
else if (Type_Recipient == (STANDARD_REQUEST | INTERFACE_RECIPIENT))
{
/*SET INTERFACE*/
if (RequestNo == SET_INTERFACE)
{
Result = Standard_SetInterface();
}
}
/* EndPoint Request*/
else if (Type_Recipient == (STANDARD_REQUEST | ENDPOINT_RECIPIENT))
{
/*CLEAR FEATURE for EndPoint*/
if (RequestNo == CLEAR_FEATURE)
{
Result = Standard_ClearFeature();
}
/* SET FEATURE for EndPoint*/
else if (RequestNo == SET_FEATURE)
{
Result = Standard_SetEndPointFeature();
}
}
else
{
Result = USB_UNSUPPORT;
}
if (Result != USB_SUCCESS)
{
Result = (*pProperty->Class_NoData_Setup)(RequestNo);
if (Result == USB_NOT_READY)
{
ControlState = PAUSE;
goto exit_NoData_Setup0;
}
}
if (Result != USB_SUCCESS)
{
ControlState = STALLED;
goto exit_NoData_Setup0;
}
ControlState = WAIT_STATUS_IN;/* After no data stage SETUP */
USB_StatusIn();
exit_NoData_Setup0:
pInformation->ControlState = ControlState;
return;
}
/*******************************************************************************
* Function Name : Data_Setup0.
* Description : Proceed the processing of setup request with data stage.
* Input : None.
* Output : None.
* Return : None.
*******************************************************************************/
void Data_Setup0(void)
{
uint8_t *(*CopyRoutine)(uint16_t);
RESULT Result;
uint32_t Request_No = pInformation->USBbRequest;
uint32_t Related_Endpoint, Reserved;
uint32_t wOffset, Status;
CopyRoutine = NULL;
wOffset = 0;
/*GET DESCRIPTOR*/
if (Request_No == GET_DESCRIPTOR)
{
if (Type_Recipient == (STANDARD_REQUEST | DEVICE_RECIPIENT))
{
uint8_t wValue1 = pInformation->USBwValue1;
if (wValue1 == DEVICE_DESCRIPTOR)
{
CopyRoutine = pProperty->GetDeviceDescriptor;
}
else if (wValue1 == CONFIG_DESCRIPTOR)
{
CopyRoutine = pProperty->GetConfigDescriptor;
}
else if (wValue1 == STRING_DESCRIPTOR)
{
CopyRoutine = pProperty->GetStringDescriptor;
} /* End of GET_DESCRIPTOR */
}
}
/*GET STATUS*/
else if ((Request_No == GET_STATUS) && (pInformation->USBwValue == 0)
&& (pInformation->USBwLength == 0x0002)
&& (pInformation->USBwIndex1 == 0))
{
/* GET STATUS for Device*/
if ((Type_Recipient == (STANDARD_REQUEST | DEVICE_RECIPIENT))
&& (pInformation->USBwIndex == 0))
{
CopyRoutine = Standard_GetStatus;
}
/* GET STATUS for Interface*/
else if (Type_Recipient == (STANDARD_REQUEST | INTERFACE_RECIPIENT))
{
if (((*pProperty->Class_Get_Interface_Setting)(pInformation->USBwIndex0, 0) == USB_SUCCESS)
&& (pInformation->Current_Configuration != 0))
{
CopyRoutine = Standard_GetStatus;
}
}
/* GET STATUS for EndPoint*/
else if (Type_Recipient == (STANDARD_REQUEST | ENDPOINT_RECIPIENT))
{
Related_Endpoint = (pInformation->USBwIndex0 & 0x0f);
Reserved = pInformation->USBwIndex0 & 0x70;
if (ValBit(pInformation->USBwIndex0, 7))
{
/*Get Status of endpoint & stall the request if the related_ENdpoint
is Disabled*/
Status = _GetEPTxStatus(Related_Endpoint);
}
else
{
Status = _GetEPRxStatus(Related_Endpoint);
}
if ((Related_Endpoint < Device_Table.Total_Endpoint) && (Reserved == 0)
&& (Status != 0))
{
CopyRoutine = Standard_GetStatus;
}
}
}
/*GET CONFIGURATION*/
else if (Request_No == GET_CONFIGURATION)
{
if (Type_Recipient == (STANDARD_REQUEST | DEVICE_RECIPIENT))
{
CopyRoutine = Standard_GetConfiguration;
}
}
/*GET INTERFACE*/
else if (Request_No == GET_INTERFACE)
{
if ((Type_Recipient == (STANDARD_REQUEST | INTERFACE_RECIPIENT))
&& (pInformation->Current_Configuration != 0) && (pInformation->USBwValue == 0)
&& (pInformation->USBwIndex1 == 0) && (pInformation->USBwLength == 0x0001)
&& ((*pProperty->Class_Get_Interface_Setting)(pInformation->USBwIndex0, 0) == USB_SUCCESS))
{
CopyRoutine = Standard_GetInterface;
}
}
if (CopyRoutine)
{
pInformation->Ctrl_Info.Usb_wOffset = wOffset;
pInformation->Ctrl_Info.CopyData = CopyRoutine;
/* sb in the original the cast to word was directly */
/* now the cast is made step by step */
(*CopyRoutine)(0);
Result = USB_SUCCESS;
}
else
{
Result = (*pProperty->Class_Data_Setup)(pInformation->USBbRequest);
if (Result == USB_NOT_READY)
{
pInformation->ControlState = PAUSE;
return;
}
}
if (pInformation->Ctrl_Info.Usb_wLength == 0xFFFF)
{
/* Data is not ready, wait it */
pInformation->ControlState = PAUSE;
return;
}
if ((Result == USB_UNSUPPORT) || (pInformation->Ctrl_Info.Usb_wLength == 0))
{
/* Unsupported request */
pInformation->ControlState = STALLED;
return;
}
if (ValBit(pInformation->USBbmRequestType, 7))
{
/* Device ==> Host */
__IO uint32_t wLength = pInformation->USBwLength;
/* Restrict the data length to be the one host asks for */
if (pInformation->Ctrl_Info.Usb_wLength > wLength)
{
pInformation->Ctrl_Info.Usb_wLength = wLength;
}
else if (pInformation->Ctrl_Info.Usb_wLength < pInformation->USBwLength)
{
if (pInformation->Ctrl_Info.Usb_wLength < pProperty->MaxPacketSize)
{
Data_Mul_MaxPacketSize = FALSE;
}
else if ((pInformation->Ctrl_Info.Usb_wLength % pProperty->MaxPacketSize) == 0)
{
Data_Mul_MaxPacketSize = TRUE;
}
}
pInformation->Ctrl_Info.PacketSize = pProperty->MaxPacketSize;
DataStageIn();
}
else
{
pInformation->ControlState = OUT_DATA;
vSetEPRxStatus(EP_RX_VALID); /* enable for next data reception */
}
return;
}
/*******************************************************************************
* Function Name : Setup0_Process
* Description : Get the device request data and dispatch to individual process.
* Input : None.
* Output : None.
* Return : Post0_Process.
*******************************************************************************/
uint8_t Setup0_Process(void)
{
union
{
uint8_t* b;
uint16_t* w;
} pBuf;
#ifdef STM32F10X_CL
USB_OTG_EP *ep;
uint16_t offset = 0;
ep = PCD_GetOutEP(ENDP0);
pBuf.b = ep->xfer_buff;
#else
uint16_t offset = 1;
pBuf.b = PMAAddr + (uint8_t *)(_GetEPRxAddr(ENDP0) * 2); /* *2 for 32 bits addr */
#endif /* STM32F10X_CL */
if (pInformation->ControlState != PAUSE)
{
pInformation->USBbmRequestType = *pBuf.b++; /* bmRequestType */
pInformation->USBbRequest = *pBuf.b++; /* bRequest */
pBuf.w += offset; /* word not accessed because of 32 bits addressing */
pInformation->USBwValue = ByteSwap(*pBuf.w++); /* wValue */
pBuf.w += offset; /* word not accessed because of 32 bits addressing */
pInformation->USBwIndex = ByteSwap(*pBuf.w++); /* wIndex */
pBuf.w += offset; /* word not accessed because of 32 bits addressing */
pInformation->USBwLength = *pBuf.w; /* wLength */
}
pInformation->ControlState = SETTING_UP;
if (pInformation->USBwLength == 0)
{
/* Setup with no data stage */
NoData_Setup0();
}
else
{
/* Setup with data stage */
Data_Setup0();
}
return Post0_Process();
}
/*******************************************************************************
* Function Name : In0_Process
* Description : Process the IN token on all default endpoint.
* Input : None.
* Output : None.
* Return : Post0_Process.
*******************************************************************************/
uint8_t In0_Process(void)
{
uint32_t ControlState = pInformation->ControlState;
if ((ControlState == IN_DATA) || (ControlState == LAST_IN_DATA))
{
DataStageIn();
/* ControlState may be changed outside the function */
ControlState = pInformation->ControlState;
}
else if (ControlState == WAIT_STATUS_IN)
{
if ((pInformation->USBbRequest == SET_ADDRESS) &&
(Type_Recipient == (STANDARD_REQUEST | DEVICE_RECIPIENT)))
{
SetDeviceAddress(pInformation->USBwValue0);
pUser_Standard_Requests->User_SetDeviceAddress();
}
(*pProperty->Process_Status_IN)();
ControlState = STALLED;
}
else
{
ControlState = STALLED;
}
pInformation->ControlState = ControlState;
return Post0_Process();
}
/*******************************************************************************
* Function Name : Out0_Process
* Description : Process the OUT token on all default endpoint.
* Input : None.
* Output : None.
* Return : Post0_Process.
*******************************************************************************/
uint8_t Out0_Process(void)
{
uint32_t ControlState = pInformation->ControlState;
if ((ControlState == IN_DATA) || (ControlState == LAST_IN_DATA))
{
/* host aborts the transfer before finish */
ControlState = STALLED;
}
else if ((ControlState == OUT_DATA) || (ControlState == LAST_OUT_DATA))
{
DataStageOut();
ControlState = pInformation->ControlState; /* may be changed outside the function */
}
else if (ControlState == WAIT_STATUS_OUT)
{
(*pProperty->Process_Status_OUT)();
#ifndef STM32F10X_CL
ControlState = STALLED;
#endif /* STM32F10X_CL */
}
/* Unexpect state, STALL the endpoint */
else
{
ControlState = STALLED;
}
pInformation->ControlState = ControlState;
return Post0_Process();
}
/*******************************************************************************
* Function Name : Post0_Process
* Description : Stall the Endpoint 0 in case of error.
* Input : None.
* Output : None.
* Return : - 0 if the control State is in PAUSE
* - 1 if not.
*******************************************************************************/
uint8_t Post0_Process(void)
{
#ifdef STM32F10X_CL
USB_OTG_EP *ep;
#endif /* STM32F10X_CL */
SetEPRxCount(ENDP0, Device_Property.MaxPacketSize);
if (pInformation->ControlState == STALLED)
{
vSetEPRxStatus(EP_RX_STALL);
vSetEPTxStatus(EP_TX_STALL);
}
#ifdef STM32F10X_CL
else if ((pInformation->ControlState == OUT_DATA) ||
(pInformation->ControlState == WAIT_STATUS_OUT))
{
ep = PCD_GetInEP(0);
ep->is_in = 0;
OTGD_FS_EP0StartXfer(ep);
vSetEPTxStatus(EP_TX_VALID);
}
else if ((pInformation->ControlState == IN_DATA) ||
(pInformation->ControlState == WAIT_STATUS_IN))
{
ep = PCD_GetInEP(0);
ep->is_in = 1;
OTGD_FS_EP0StartXfer(ep);
}
#endif /* STM32F10X_CL */
return (pInformation->ControlState == PAUSE);
}
/*******************************************************************************
* Function Name : SetDeviceAddress.
* Description : Set the device and all the used Endpoints addresses.
* Input : - Val: device address.
* Output : None.
* Return : None.
*******************************************************************************/
void SetDeviceAddress(uint8_t Val)
{
#ifdef STM32F10X_CL
PCD_EP_SetAddress ((uint8_t)Val);
#else
uint32_t i;
uint32_t nEP = Device_Table.Total_Endpoint;
/* set address in every used endpoint */
for (i = 0; i < nEP; i++)
{
_SetEPAddress((uint8_t)i, (uint8_t)i);
} /* for */
_SetDADDR(Val | DADDR_EF); /* set device address and enable function */
#endif /* STM32F10X_CL */
}
/*******************************************************************************
* Function Name : NOP_Process
* Description : No operation function.
* Input : None.
* Output : None.
* Return : None.
*******************************************************************************/
void NOP_Process(void)
{
}
/******************* (C) COPYRIGHT 2011 STMicroelectronics *****END OF FILE****/
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