📄 sc2450pdd.cpp.forboardrev1
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if (pContext->hBusAccess) CloseBusAccessHandle(pContext->hBusAccess);
if (pContext->dwSysIntr) {
KernelIoControl(IOCTL_HAL_DISABLE_WAKE, &pContext->dwSysIntr,
sizeof(pContext->dwSysIntr), NULL, 0, NULL);
}
if (pContext->dwIrq != IRQ_UNSPECIFIED) {
KernelIoControl(IOCTL_HAL_RELEASE_SYSINTR, &pContext->dwSysIntr,
sizeof(DWORD), NULL, 0, NULL);
}
DeleteCriticalSection(&pContext->csIndexedRegisterAccess);
LocalFree(pContext);
}
DWORD
WINAPI
UfnPdd_Deinit(
PVOID pvPddContext
)
{
SETFNAME();
FUNCTION_ENTER_MSG();
RETAILMSG(DBG, (_T("%s UfnPdd_Deinit\r\n"),
pszFname));
PCTRLR_PDD_CONTEXT pContext = (PCTRLR_PDD_CONTEXT) pvPddContext;
ValidateContext(pContext);
FUNCTION_ENTER_MSG();
FreeCtrlrContext(pContext);
FUNCTION_LEAVE_MSG();
return ERROR_SUCCESS;
}
DWORD
WINAPI
UfnPdd_Start(
PVOID pvPddContext
)
{
SETFNAME();
FUNCTION_ENTER_MSG();
DWORD dwRet;
PCTRLR_PDD_CONTEXT pContext = (PCTRLR_PDD_CONTEXT) pvPddContext;
ValidateContext(pContext);
FUNCTION_ENTER_MSG();
DEBUGCHK(!pContext->fRunning);
BOOL fIntInitialized = FALSE;
// Create the interrupt event
pContext->hevInterrupt = CreateEvent(0, FALSE, FALSE, NULL);
if (pContext->hevInterrupt == NULL) {
dwRet = GetLastError();
RETAILMSG(DBG, (_T("%s Error creating interrupt event. Error = %d\r\n"),
pszFname, dwRet));
goto EXIT;
}
fIntInitialized = InterruptInitialize(pContext->dwSysIntr,
pContext->hevInterrupt, NULL, 0);
if (fIntInitialized == FALSE) {
dwRet = ERROR_GEN_FAILURE;
RETAILMSG(DBG, (_T("%s interrupt initialization failed\r\n"),
pszFname));
goto EXIT;
}
InterruptDone(pContext->dwSysIntr);
pContext->fExitIST = FALSE;
pContext->hIST = CreateThread(NULL, 0, ISTMain, pContext, 0, NULL);
if (pContext->hIST == NULL) {
RETAILMSG(DBG, (_T("%s IST creation failed\r\n"), pszFname));
dwRet = GetLastError();
goto EXIT;
}
pContext->fRunning = TRUE;
dwRet = ERROR_SUCCESS;
EXIT:
if (pContext->fRunning == FALSE) {
DEBUGCHK(dwRet != ERROR_SUCCESS);
if (fIntInitialized) InterruptDisable(pContext->dwSysIntr);
if (pContext->hevInterrupt) CloseHandle(pContext->hevInterrupt);
pContext->hevInterrupt = NULL;
}
FUNCTION_LEAVE_MSG();
return dwRet;
}
// Stop the device.
DWORD
WINAPI
UfnPdd_Stop(
PVOID pvPddContext
)
{
SETFNAME();
FUNCTION_ENTER_MSG();
RETAILMSG(DBG, (_T("%s UfnPdd_Stop\r\n"),
pszFname));
PCTRLR_PDD_CONTEXT pContext = (PCTRLR_PDD_CONTEXT) pvPddContext;
ValidateContext(pContext);
DEBUGCHK(pContext->fRunning);
// Stop the IST
pContext->fExitIST = TRUE;
InterruptDisable(pContext->dwSysIntr);
SetEvent(pContext->hevInterrupt);
WaitForSingleObject(pContext->hIST, INFINITE);
CloseHandle(pContext->hevInterrupt);
CloseHandle(pContext->hIST);
pContext->hIST = NULL;
pContext->hevInterrupt = NULL;
ResetDevice(pContext);
pContext->fRunning = FALSE;
DEBUGMSG(ZONE_FUNCTION, (_T("%s Device has been stopped\r\n"),
pszFname));
FUNCTION_LEAVE_MSG();
return ERROR_SUCCESS;
}
DWORD
WINAPI
UfnPdd_IsConfigurationSupportable(
PVOID pvPddContext,
UFN_BUS_SPEED Speed,
PUFN_CONFIGURATION pConfiguration
)
{
SETFNAME();
FUNCTION_ENTER_MSG();
RETAILMSG(DBG, (_T("%s UfnPdd_IsConfigurationSupportable\r\n"),
pszFname));
DEBUGCHK((Speed == BS_FULL_SPEED) | (Speed == BS_HIGH_SPEED));
PCTRLR_PDD_CONTEXT pContext = (PCTRLR_PDD_CONTEXT) pvPddContext;
ValidateContext(pContext);
// This PDD does not have any special requirements that cannot be
// handled through IsEndpointSupportable.
DWORD dwRet = ERROR_SUCCESS;
FUNCTION_LEAVE_MSG();
return dwRet;
}
//
// Is this endpoint supportable.
DWORD
WINAPI
UfnPdd_IsEndpointSupportable(
PVOID pvPddContext,
DWORD dwEndpoint,
UFN_BUS_SPEED Speed,
PUSB_ENDPOINT_DESCRIPTOR pEndpointDesc,
BYTE bConfigurationValue,
BYTE bInterfaceNumber,
BYTE bAlternateSetting
)
{
SETFNAME();
FUNCTION_ENTER_MSG();
RETAILMSG(DBG, (_T("%s UfnPdd_IsEndpointSupportable\r\n"),
pszFname));
DEBUGCHK(EP_VALID(dwEndpoint));
DEBUGCHK((Speed == BS_FULL_SPEED) | (Speed == BS_HIGH_SPEED));
DWORD dwRet = ERROR_SUCCESS;
PCTRLR_PDD_CONTEXT pContext = (PCTRLR_PDD_CONTEXT) pvPddContext;
ValidateContext(pContext);
PEP_STATUS peps = GetEpStatus(pContext, dwEndpoint);
// Special case for endpoint 0
if (dwEndpoint == 0) {
DEBUGCHK(pEndpointDesc->bmAttributes == USB_ENDPOINT_TYPE_CONTROL);
// Endpoint 0 only supports 8 or 16 byte packet size
if (pEndpointDesc->wMaxPacketSize < EP_0_PACKET_SIZE) {
RETAILMSG(DBG, (_T("%s Endpoint 0 only supports %u byte packets\r\n"),
pszFname, EP_0_PACKET_SIZE));
dwRet = ERROR_INVALID_PARAMETER;
}
else{
// Larger than EP 0 Max Packet Size - reduce to Max
pEndpointDesc->wMaxPacketSize = EP_0_PACKET_SIZE;
}
}
else if (dwEndpoint < ENDPOINT_COUNT) {
BYTE bTransferType = pEndpointDesc->bmAttributes & USB_ENDPOINT_TYPE_MASK;
DEBUGCHK(bTransferType != USB_ENDPOINT_TYPE_CONTROL);
// Validate and adjust packet size
WORD wPacketSize =
(pEndpointDesc->wMaxPacketSize & USB_ENDPOINT_MAX_PACKET_SIZE_MASK);
switch(bTransferType) {
// Isoch not currently supported by Samsung HW
case USB_ENDPOINT_TYPE_ISOCHRONOUS:
RETAILMSG(DBG, (_T("%s Isochronous endpoints are not supported\r\n"),
pszFname));
dwRet = ERROR_INVALID_PARAMETER;
break;
case USB_ENDPOINT_TYPE_BULK:
case USB_ENDPOINT_TYPE_INTERRUPT:
// HW Can only Support 8, 16, 32, 64 byte packets
if((wPacketSize >= 8) && (wPacketSize < 16)){
wPacketSize = 8;
}
else if ((wPacketSize >= 16) && (wPacketSize < 32)){
wPacketSize = 16;
}
else if((wPacketSize >= 32) && (wPacketSize < 64)){
wPacketSize = 32;
}
else if ((wPacketSize >= 64) && (wPacketSize < 128)){
wPacketSize = 64;
}
else if((wPacketSize >= 128) && (wPacketSize < 256)){
wPacketSize = 128;
}
else if ((wPacketSize >= 256) && (wPacketSize < 512)){
wPacketSize = 256;
}
else if (wPacketSize >= 512){
wPacketSize = 512;
}
else{ // wPacketSize < 8
dwRet = ERROR_INVALID_PARAMETER;
}
break;
default:
dwRet = ERROR_INVALID_PARAMETER;
break;
}
// If Requested Size is larger than what is supported ... change it.
// Note only try and change it if no errors so far... meaning Ep is
// Supportable.
if ( (wPacketSize != (pEndpointDesc->wMaxPacketSize & USB_ENDPOINT_MAX_PACKET_SIZE_MASK)) &&
(dwRet == ERROR_SUCCESS) ) {
pEndpointDesc->wMaxPacketSize &= ~USB_ENDPOINT_MAX_PACKET_SIZE_MASK;
pEndpointDesc->wMaxPacketSize |= wPacketSize;
}
}
FUNCTION_LEAVE_MSG();
return dwRet;
}
// Clear an endpoint stall.
DWORD
WINAPI
UfnPdd_ClearEndpointStall(
PVOID pvPddContext,
DWORD dwEndpoint
)
{
DWORD dwRet = ERROR_SUCCESS;
SETFNAME();
FUNCTION_ENTER_MSG();
DEBUGCHK(EP_VALID(dwEndpoint));
PCTRLR_PDD_CONTEXT pContext = (PCTRLR_PDD_CONTEXT) pvPddContext;
ValidateContext(pContext);
PEP_STATUS peps = GetEpStatus(pContext, dwEndpoint);
LOCK_ENDPOINT(peps);
if(dwEndpoint ==0)
RETAILMSG(1, (_T("%s UfnPdd_ClearEndpointStall, EP : %d, \r\n"), pszFname,dwEndpoint));
if (dwEndpoint == 0){
// Must Clear both Transmitted Stall and Stall Set
SetClearReg(pContext, EP0SR, EP0SHT, SET);
SetClearReg(pContext, EP0CR, EP0ESS, CLEAR);
}
else
{
// Must Clear both Send and Sent Stall
SetClearIndexedReg(pContext, dwEndpoint, ECR, ESS, SET);
SetClearIndexedReg(pContext, dwEndpoint, ECR, ESS, CLEAR);
SetClearIndexedReg(pContext ,dwEndpoint, ESR, FSC, SET);
}
UNLOCK_ENDPOINT(peps);
FUNCTION_LEAVE_MSG();
return ERROR_SUCCESS;
}
// Initialize an endpoint.
DWORD
WINAPI
UfnPdd_InitEndpoint(
PVOID pvPddContext,
DWORD dwEndpoint,
UFN_BUS_SPEED Speed,
PUSB_ENDPOINT_DESCRIPTOR pEndpointDesc,
PVOID pvReserved,
BYTE bConfigurationValue,
BYTE bInterfaceNumber,
BYTE bAlternateSetting
)
{
SETFNAME();
FUNCTION_ENTER_MSG();
DEBUGCHK(EP_VALID(dwEndpoint));
PREFAST_DEBUGCHK(pEndpointDesc);
RETAILMSG(DBG, (_T("%s UfnPdd_InitEndpoint\r\n"),
pszFname));
#ifdef DEBUG
{
USB_ENDPOINT_DESCRIPTOR EndpointDesc;
memcpy(&EndpointDesc, pEndpointDesc, sizeof(EndpointDesc));
DEBUGCHK(UfnPdd_IsEndpointSupportable(pvPddContext, dwEndpoint, Speed,
&EndpointDesc, bConfigurationValue, bInterfaceNumber,
bAlternateSetting) == ERROR_SUCCESS);
DEBUGCHK(memcmp(&EndpointDesc, pEndpointDesc, sizeof(EndpointDesc)) == 0);
}
#endif
PCTRLR_PDD_CONTEXT pContext = (PCTRLR_PDD_CONTEXT) pvPddContext;
ValidateContext(pContext);
BYTE bEndpointAddress = 0;
PEP_STATUS peps = GetEpStatus(pContext, dwEndpoint);
DEBUGCHK(!peps->fInitialized);
InitializeCriticalSection(&peps->cs);
WORD wMaxPacketSize =
pEndpointDesc->wMaxPacketSize & USB_ENDPOINT_MAX_PACKET_SIZE_MASK;
DEBUGCHK(wMaxPacketSize);
// If the target is endpoint 0, then only allow the function driver
// to register a notification function.
if (dwEndpoint == 0) {
peps->dwPacketSizeAssigned = wMaxPacketSize;
// Interrupts for endpoint 0 are enabled in ISTMain
}
else if (dwEndpoint < ENDPOINT_COUNT) {
// Setup Direction (mode_in bit)
bEndpointAddress = pEndpointDesc->bEndpointAddress;
BOOL fModeOut = USB_ENDPOINT_DIRECTION_OUT(bEndpointAddress);
if (fModeOut) {
SetClearReg(pContext, EDR, (0x1 << dwEndpoint), CLEAR);
peps->dwDirectionAssigned = USB_OUT_TRANSFER;
WriteIndexedReg(pContext, dwEndpoint, ECR, 0x0080);
WORD bECR = ReadIndexedReg(pContext, dwEndpoint, ECR);
}
else {
SetClearReg(pContext, EDR, (0x1 << dwEndpoint), SET);
peps->dwDirectionAssigned = USB_IN_TRANSFER;
WriteIndexedReg(pContext, dwEndpoint, ECR, 0x0000);
}
// Clear all Status bits and leave the Endpoint interrupt disabled
// Clear Fifos, and all register bits
ResetEndpoint(pContext,peps);
// Set Transfer Type
BYTE bTransferType = pEndpointDesc->bmAttributes & USB_ENDPOINT_TYPE_MASK;
DEBUGCHK(bTransferType != USB_ENDPOINT_TYPE_CONTROL);
switch(bTransferType) {
case USB_ENDPOINT_TYPE_ISOCHRONOUS:
// Set the ISO bit
SetClearIndexedReg(pContext, dwEndpoint,ECR,
IME, SET);
break;
case USB_ENDPOINT_TYPE_BULK:
case USB_ENDPOINT_TYPE_INTERRUPT:
default:
// Clear ISO bit - Set type to Bulk
SetClearIndexedReg(pContext, dwEndpoint,ECR,
IME, CLEAR);
}
peps->dwEndpointType = bTransferType;
peps->dwPacketSizeAssigned = wMaxPacketSize;
// Set the Max Packet Register
WriteIndexedReg(pContext, dwEndpoint, MPR, wMaxPacketSize);
UfnPdd_ClearEndpointStall(pvPddContext,dwEndpoint);
// Clear outstanding interrupts
ClearEndpointInterrupt(pContext, dwEndpoint);
}
peps->fInitialized = TRUE;
FUNCTION_LEAVE_MSG();
return ERROR_SUCCESS;
}
// Deinitialize an endpoint.
DWORD
WINAPI
UfnPdd_DeinitEndpoint(
PVOID pvPddContext⌨️ 快捷键说明
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