/** @file Wrapper function for usb host controller interface. Copyright (c) 2007 - 2018, Intel Corporation. All rights reserved.
SPDX-License-Identifier: BSD-2-Clause-Patent **/ #include "UsbBus.h" // // if RemainingDevicePath== NULL, then all Usb child devices in this bus are wanted. // Use a shor form Usb class Device Path, which could match any usb device, in WantedUsbIoDPList to indicate all Usb devices // are wanted Usb devices // USB_CLASS_FORMAT_DEVICE_PATH mAllUsbClassDevicePath = { { { MESSAGING_DEVICE_PATH, MSG_USB_CLASS_DP, { (UINT8)(sizeof (USB_CLASS_DEVICE_PATH)), (UINT8)((sizeof (USB_CLASS_DEVICE_PATH)) >> 8) } }, 0xffff, // VendorId 0xffff, // ProductId 0xff, // DeviceClass 0xff, // DeviceSubClass 0xff // DeviceProtocol }, { END_DEVICE_PATH_TYPE, END_ENTIRE_DEVICE_PATH_SUBTYPE, { END_DEVICE_PATH_LENGTH, 0 } } }; /** Get the capability of the host controller. @param UsbBus The usb driver. @param MaxSpeed The maximum speed this host controller supports. @param NumOfPort The number of the root hub port. @param Is64BitCapable Whether this controller support 64 bit addressing. @retval EFI_SUCCESS The host controller capability is returned. @retval Others Failed to retrieve the host controller capability. **/ EFI_STATUS UsbHcGetCapability ( IN USB_BUS *UsbBus, OUT UINT8 *MaxSpeed, OUT UINT8 *NumOfPort, OUT UINT8 *Is64BitCapable ) { EFI_STATUS Status; if (UsbBus->Usb2Hc != NULL) { Status = UsbBus->Usb2Hc->GetCapability ( UsbBus->Usb2Hc, MaxSpeed, NumOfPort, Is64BitCapable ); } else { Status = UsbBus->UsbHc->GetRootHubPortNumber (UsbBus->UsbHc, NumOfPort); *MaxSpeed = EFI_USB_SPEED_FULL; *Is64BitCapable = (UINT8)FALSE; } return Status; } /** Get the root hub port state. @param UsbBus The USB bus driver. @param PortIndex The index of port. @param PortStatus The variable to save port state. @retval EFI_SUCCESS The root port state is returned in. @retval Others Failed to get the root hub port state. **/ EFI_STATUS UsbHcGetRootHubPortStatus ( IN USB_BUS *UsbBus, IN UINT8 PortIndex, OUT EFI_USB_PORT_STATUS *PortStatus ) { EFI_STATUS Status; if (UsbBus->Usb2Hc != NULL) { Status = UsbBus->Usb2Hc->GetRootHubPortStatus (UsbBus->Usb2Hc, PortIndex, PortStatus); } else { Status = UsbBus->UsbHc->GetRootHubPortStatus (UsbBus->UsbHc, PortIndex, PortStatus); } return Status; } /** Set the root hub port feature. @param UsbBus The USB bus driver. @param PortIndex The port index. @param Feature The port feature to set. @retval EFI_SUCCESS The port feature is set. @retval Others Failed to set port feature. **/ EFI_STATUS UsbHcSetRootHubPortFeature ( IN USB_BUS *UsbBus, IN UINT8 PortIndex, IN EFI_USB_PORT_FEATURE Feature ) { EFI_STATUS Status; if (UsbBus->Usb2Hc != NULL) { Status = UsbBus->Usb2Hc->SetRootHubPortFeature (UsbBus->Usb2Hc, PortIndex, Feature); } else { Status = UsbBus->UsbHc->SetRootHubPortFeature (UsbBus->UsbHc, PortIndex, Feature); } return Status; } /** Clear the root hub port feature. @param UsbBus The USB bus driver. @param PortIndex The port index. @param Feature The port feature to clear. @retval EFI_SUCCESS The port feature is clear. @retval Others Failed to clear port feature. **/ EFI_STATUS UsbHcClearRootHubPortFeature ( IN USB_BUS *UsbBus, IN UINT8 PortIndex, IN EFI_USB_PORT_FEATURE Feature ) { EFI_STATUS Status; if (UsbBus->Usb2Hc != NULL) { Status = UsbBus->Usb2Hc->ClearRootHubPortFeature (UsbBus->Usb2Hc, PortIndex, Feature); } else { Status = UsbBus->UsbHc->ClearRootHubPortFeature (UsbBus->UsbHc, PortIndex, Feature); } return Status; } /** Execute a control transfer to the device. @param UsbBus The USB bus driver. @param DevAddr The device address. @param DevSpeed The device speed. @param MaxPacket Maximum packet size of endpoint 0. @param Request The control transfer request. @param Direction The direction of data stage. @param Data The buffer holding data. @param DataLength The length of the data. @param TimeOut Timeout (in ms) to wait until timeout. @param Translator The transaction translator for low/full speed device. @param UsbResult The result of transfer. @retval EFI_SUCCESS The control transfer finished without error. @retval Others The control transfer failed, reason returned in UsbReslt. **/ EFI_STATUS UsbHcControlTransfer ( IN USB_BUS *UsbBus, IN UINT8 DevAddr, IN UINT8 DevSpeed, IN UINTN MaxPacket, IN EFI_USB_DEVICE_REQUEST *Request, IN EFI_USB_DATA_DIRECTION Direction, IN OUT VOID *Data, IN OUT UINTN *DataLength, IN UINTN TimeOut, IN EFI_USB2_HC_TRANSACTION_TRANSLATOR *Translator, OUT UINT32 *UsbResult ) { EFI_STATUS Status; BOOLEAN IsSlowDevice; if (UsbBus->Usb2Hc != NULL) { Status = UsbBus->Usb2Hc->ControlTransfer ( UsbBus->Usb2Hc, DevAddr, DevSpeed, MaxPacket, Request, Direction, Data, DataLength, TimeOut, Translator, UsbResult ); } else { IsSlowDevice = (BOOLEAN)(EFI_USB_SPEED_LOW == DevSpeed); Status = UsbBus->UsbHc->ControlTransfer ( UsbBus->UsbHc, DevAddr, IsSlowDevice, (UINT8)MaxPacket, Request, Direction, Data, DataLength, TimeOut, UsbResult ); } return Status; } /** Execute a bulk transfer to the device's endpoint. @param UsbBus The USB bus driver. @param DevAddr The target device address. @param EpAddr The target endpoint address, with direction encoded in bit 7. @param DevSpeed The device's speed. @param MaxPacket The endpoint's max packet size. @param BufferNum The number of data buffer. @param Data Array of pointers to data buffer. @param DataLength The length of data buffer. @param DataToggle On input, the initial data toggle to use, also return the next toggle on output. @param TimeOut The time to wait until timeout. @param Translator The transaction translator for low/full speed device. @param UsbResult The result of USB execution. @retval EFI_SUCCESS The bulk transfer is finished without error. @retval Others Failed to execute bulk transfer, result in UsbResult. **/ EFI_STATUS UsbHcBulkTransfer ( IN USB_BUS *UsbBus, IN UINT8 DevAddr, IN UINT8 EpAddr, IN UINT8 DevSpeed, IN UINTN MaxPacket, IN UINT8 BufferNum, IN OUT VOID *Data[EFI_USB_MAX_BULK_BUFFER_NUM], IN OUT UINTN *DataLength, IN OUT UINT8 *DataToggle, IN UINTN TimeOut, IN EFI_USB2_HC_TRANSACTION_TRANSLATOR *Translator, OUT UINT32 *UsbResult ) { EFI_STATUS Status; if (UsbBus->Usb2Hc != NULL) { Status = UsbBus->Usb2Hc->BulkTransfer ( UsbBus->Usb2Hc, DevAddr, EpAddr, DevSpeed, MaxPacket, BufferNum, Data, DataLength, DataToggle, TimeOut, Translator, UsbResult ); } else { Status = UsbBus->UsbHc->BulkTransfer ( UsbBus->UsbHc, DevAddr, EpAddr, (UINT8)MaxPacket, *Data, DataLength, DataToggle, TimeOut, UsbResult ); } return Status; } /** Queue or cancel an asynchronous interrupt transfer. @param UsbBus The USB bus driver. @param DevAddr The target device address. @param EpAddr The target endpoint address, with direction encoded in bit 7. @param DevSpeed The device's speed. @param MaxPacket The endpoint's max packet size. @param IsNewTransfer Whether this is a new request. If not, cancel the old request. @param DataToggle Data toggle to use on input, next toggle on output. @param PollingInterval The interval to poll the interrupt transfer (in ms). @param DataLength The length of periodical data receive. @param Translator The transaction translator for low/full speed device. @param Callback Function to call when data is received. @param Context The context to the callback. @retval EFI_SUCCESS The asynchronous transfer is queued. @retval Others Failed to queue the transfer. **/ EFI_STATUS UsbHcAsyncInterruptTransfer ( IN USB_BUS *UsbBus, IN UINT8 DevAddr, IN UINT8 EpAddr, IN UINT8 DevSpeed, IN UINTN MaxPacket, IN BOOLEAN IsNewTransfer, IN OUT UINT8 *DataToggle, IN UINTN PollingInterval, IN UINTN DataLength, IN EFI_USB2_HC_TRANSACTION_TRANSLATOR *Translator, IN EFI_ASYNC_USB_TRANSFER_CALLBACK Callback, IN VOID *Context OPTIONAL ) { EFI_STATUS Status; BOOLEAN IsSlowDevice; if (UsbBus->Usb2Hc != NULL) { Status = UsbBus->Usb2Hc->AsyncInterruptTransfer ( UsbBus->Usb2Hc, DevAddr, EpAddr, DevSpeed, MaxPacket, IsNewTransfer, DataToggle, PollingInterval, DataLength, Translator, Callback, Context ); } else { IsSlowDevice = (BOOLEAN)(EFI_USB_SPEED_LOW == DevSpeed); Status = UsbBus->UsbHc->AsyncInterruptTransfer ( UsbBus->UsbHc, DevAddr, EpAddr, IsSlowDevice, (UINT8)MaxPacket, IsNewTransfer, DataToggle, PollingInterval, DataLength, Callback, Context ); } return Status; } /** Execute a synchronous interrupt transfer to the target endpoint. @param UsbBus The USB bus driver. @param DevAddr The target device address. @param EpAddr The target endpoint address, with direction encoded in bit 7. @param DevSpeed The device's speed. @param MaxPacket The endpoint's max packet size. @param Data Pointer to data buffer. @param DataLength The length of data buffer. @param DataToggle On input, the initial data toggle to use, also return the next toggle on output. @param TimeOut The time to wait until timeout. @param Translator The transaction translator for low/full speed device. @param UsbResult The result of USB execution. @retval EFI_SUCCESS The synchronous interrupt transfer is OK. @retval Others Failed to execute the synchronous interrupt transfer. **/ EFI_STATUS UsbHcSyncInterruptTransfer ( IN USB_BUS *UsbBus, IN UINT8 DevAddr, IN UINT8 EpAddr, IN UINT8 DevSpeed, IN UINTN MaxPacket, IN OUT VOID *Data, IN OUT UINTN *DataLength, IN OUT UINT8 *DataToggle, IN UINTN TimeOut, IN EFI_USB2_HC_TRANSACTION_TRANSLATOR *Translator, OUT UINT32 *UsbResult ) { EFI_STATUS Status; BOOLEAN IsSlowDevice; if (UsbBus->Usb2Hc != NULL) { Status = UsbBus->Usb2Hc->SyncInterruptTransfer ( UsbBus->Usb2Hc, DevAddr, EpAddr, DevSpeed, MaxPacket, Data, DataLength, DataToggle, TimeOut, Translator, UsbResult ); } else { IsSlowDevice = (BOOLEAN)((EFI_USB_SPEED_LOW == DevSpeed) ? TRUE : FALSE); Status = UsbBus->UsbHc->SyncInterruptTransfer ( UsbBus->UsbHc, DevAddr, EpAddr, IsSlowDevice, (UINT8)MaxPacket, Data, DataLength, DataToggle, TimeOut, UsbResult ); } return Status; } /** Open the USB host controller protocol BY_CHILD. @param Bus The USB bus driver. @param Child The child handle. @return The open protocol return. **/ EFI_STATUS UsbOpenHostProtoByChild ( IN USB_BUS *Bus, IN EFI_HANDLE Child ) { EFI_USB_HC_PROTOCOL *UsbHc; EFI_USB2_HC_PROTOCOL *Usb2Hc; EFI_STATUS Status; if (Bus->Usb2Hc != NULL) { Status = gBS->OpenProtocol ( Bus->HostHandle, &gEfiUsb2HcProtocolGuid, (VOID **)&Usb2Hc, mUsbBusDriverBinding.DriverBindingHandle, Child, EFI_OPEN_PROTOCOL_BY_CHILD_CONTROLLER ); } else { Status = gBS->OpenProtocol ( Bus->HostHandle, &gEfiUsbHcProtocolGuid, (VOID **)&UsbHc, mUsbBusDriverBinding.DriverBindingHandle, Child, EFI_OPEN_PROTOCOL_BY_CHILD_CONTROLLER ); } return Status; } /** Close the USB host controller protocol BY_CHILD. @param Bus The USB bus driver. @param Child The child handle. **/ VOID UsbCloseHostProtoByChild ( IN USB_BUS *Bus, IN EFI_HANDLE Child ) { if (Bus->Usb2Hc != NULL) { gBS->CloseProtocol ( Bus->HostHandle, &gEfiUsb2HcProtocolGuid, mUsbBusDriverBinding.DriverBindingHandle, Child ); } else { gBS->CloseProtocol ( Bus->HostHandle, &gEfiUsbHcProtocolGuid, mUsbBusDriverBinding.DriverBindingHandle, Child ); } } /** return the current TPL, copied from the EDKII glue lib. @param VOID. @return Current TPL. **/ EFI_TPL UsbGetCurrentTpl ( VOID ) { EFI_TPL Tpl; Tpl = gBS->RaiseTPL (TPL_HIGH_LEVEL); gBS->RestoreTPL (Tpl); return Tpl; } /** Create a new device path which only contain the first Usb part of the DevicePath. @param DevicePath A full device path which contain the usb nodes. @return A new device path which only contain the Usb part of the DevicePath. **/ EFI_DEVICE_PATH_PROTOCOL * EFIAPI GetUsbDPFromFullDP ( IN EFI_DEVICE_PATH_PROTOCOL *DevicePath ) { EFI_DEVICE_PATH_PROTOCOL *UsbDevicePathPtr; EFI_DEVICE_PATH_PROTOCOL *UsbDevicePathBeginPtr; EFI_DEVICE_PATH_PROTOCOL *UsbDevicePathEndPtr; UINTN Size; // // Get the Usb part first Begin node in full device path // UsbDevicePathBeginPtr = DevicePath; while ((!IsDevicePathEnd (UsbDevicePathBeginPtr)) && ((UsbDevicePathBeginPtr->Type != MESSAGING_DEVICE_PATH) || ( UsbDevicePathBeginPtr->SubType != MSG_USB_DP && UsbDevicePathBeginPtr->SubType != MSG_USB_CLASS_DP && UsbDevicePathBeginPtr->SubType != MSG_USB_WWID_DP ))) { UsbDevicePathBeginPtr = NextDevicePathNode (UsbDevicePathBeginPtr); } // // Get the Usb part first End node in full device path // UsbDevicePathEndPtr = UsbDevicePathBeginPtr; while ((!IsDevicePathEnd (UsbDevicePathEndPtr)) && (UsbDevicePathEndPtr->Type == MESSAGING_DEVICE_PATH) && ( UsbDevicePathEndPtr->SubType == MSG_USB_DP || UsbDevicePathEndPtr->SubType == MSG_USB_CLASS_DP || UsbDevicePathEndPtr->SubType == MSG_USB_WWID_DP )) { UsbDevicePathEndPtr = NextDevicePathNode (UsbDevicePathEndPtr); } Size = GetDevicePathSize (UsbDevicePathBeginPtr); Size -= GetDevicePathSize (UsbDevicePathEndPtr); if (Size == 0) { // // The passed in DevicePath does not contain the usb nodes // return NULL; } // // Create a new device path which only contain the above Usb part // UsbDevicePathPtr = AllocateZeroPool (Size + sizeof (EFI_DEVICE_PATH_PROTOCOL)); ASSERT (UsbDevicePathPtr != NULL); CopyMem (UsbDevicePathPtr, UsbDevicePathBeginPtr, Size); // // Append end device path node // UsbDevicePathEndPtr = (EFI_DEVICE_PATH_PROTOCOL *)((UINTN)UsbDevicePathPtr + Size); SetDevicePathEndNode (UsbDevicePathEndPtr); return UsbDevicePathPtr; } /** Check whether a usb device path is in a DEVICE_PATH_LIST_ITEM list. @param UsbDP a usb device path of DEVICE_PATH_LIST_ITEM. @param UsbIoDPList a DEVICE_PATH_LIST_ITEM list. @retval TRUE there is a DEVICE_PATH_LIST_ITEM in UsbIoDPList which contains the passed in UsbDP. @retval FALSE there is no DEVICE_PATH_LIST_ITEM in UsbIoDPList which contains the passed in UsbDP. **/ BOOLEAN EFIAPI SearchUsbDPInList ( IN EFI_DEVICE_PATH_PROTOCOL *UsbDP, IN LIST_ENTRY *UsbIoDPList ) { LIST_ENTRY *ListIndex; DEVICE_PATH_LIST_ITEM *ListItem; BOOLEAN Found; UINTN UsbDpDevicePathSize; // // Check that UsbDP and UsbIoDPList are valid // if ((UsbIoDPList == NULL) || (UsbDP == NULL)) { return FALSE; } Found = FALSE; ListIndex = UsbIoDPList->ForwardLink; while (ListIndex != UsbIoDPList) { ListItem = CR (ListIndex, DEVICE_PATH_LIST_ITEM, Link, DEVICE_PATH_LIST_ITEM_SIGNATURE); // // Compare DEVICE_PATH_LIST_ITEM.DevicePath[] // ASSERT (ListItem->DevicePath != NULL); UsbDpDevicePathSize = GetDevicePathSize (UsbDP); if (UsbDpDevicePathSize == GetDevicePathSize (ListItem->DevicePath)) { if ((CompareMem (UsbDP, ListItem->DevicePath, UsbDpDevicePathSize)) == 0) { Found = TRUE; break; } } ListIndex = ListIndex->ForwardLink; } return Found; } /** Add a usb device path into the DEVICE_PATH_LIST_ITEM list. @param UsbDP a usb device path of DEVICE_PATH_LIST_ITEM. @param UsbIoDPList a DEVICE_PATH_LIST_ITEM list. @retval EFI_INVALID_PARAMETER If parameters are invalid, return this value. @retval EFI_SUCCESS If Add operation is successful, return this value. **/ EFI_STATUS EFIAPI AddUsbDPToList ( IN EFI_DEVICE_PATH_PROTOCOL *UsbDP, IN LIST_ENTRY *UsbIoDPList ) { DEVICE_PATH_LIST_ITEM *ListItem; // // Check that UsbDP and UsbIoDPList are valid // if ((UsbIoDPList == NULL) || (UsbDP == NULL)) { return EFI_INVALID_PARAMETER; } if (SearchUsbDPInList (UsbDP, UsbIoDPList)) { return EFI_SUCCESS; } // // Prepare the usbio device path DEVICE_PATH_LIST_ITEM structure. // ListItem = AllocateZeroPool (sizeof (DEVICE_PATH_LIST_ITEM)); ASSERT (ListItem != NULL); ListItem->Signature = DEVICE_PATH_LIST_ITEM_SIGNATURE; ListItem->DevicePath = DuplicateDevicePath (UsbDP); InsertTailList (UsbIoDPList, &ListItem->Link); return EFI_SUCCESS; } /** Check whether usb device, whose interface is UsbIf, matches the usb class which indicated by UsbClassDevicePathPtr whose is a short form usb class device path. @param UsbClassDevicePathPtr a short form usb class device path. @param UsbIf a usb device interface. @retval TRUE the usb device match the usb class. @retval FALSE the usb device does not match the usb class. **/ BOOLEAN EFIAPI MatchUsbClass ( IN USB_CLASS_DEVICE_PATH *UsbClassDevicePathPtr, IN USB_INTERFACE *UsbIf ) { USB_INTERFACE_DESC *IfDesc; EFI_USB_INTERFACE_DESCRIPTOR *ActIfDesc; EFI_USB_DEVICE_DESCRIPTOR *DevDesc; if ((UsbClassDevicePathPtr->Header.Type != MESSAGING_DEVICE_PATH) || (UsbClassDevicePathPtr->Header.SubType != MSG_USB_CLASS_DP)) { ASSERT (0); return FALSE; } IfDesc = UsbIf->IfDesc; ASSERT (IfDesc->ActiveIndex < USB_MAX_INTERFACE_SETTING); ActIfDesc = &(IfDesc->Settings[IfDesc->ActiveIndex]->Desc); DevDesc = &(UsbIf->Device->DevDesc->Desc); // // If connect class policy, determine whether to create device handle by the five fields // in class device path node. // // In addition, hub interface is always matched for this policy. // if ((ActIfDesc->InterfaceClass == USB_HUB_CLASS_CODE) && (ActIfDesc->InterfaceSubClass == USB_HUB_SUBCLASS_CODE)) { return TRUE; } // // If vendor id or product id is 0xffff, they will be ignored. // if (((UsbClassDevicePathPtr->VendorId == 0xffff) || (UsbClassDevicePathPtr->VendorId == DevDesc->IdVendor)) && ((UsbClassDevicePathPtr->ProductId == 0xffff) || (UsbClassDevicePathPtr->ProductId == DevDesc->IdProduct))) { // // If Class in Device Descriptor is set to 0, the counterparts in interface should be checked. // if (DevDesc->DeviceClass == 0) { if (((UsbClassDevicePathPtr->DeviceClass == ActIfDesc->InterfaceClass) || (UsbClassDevicePathPtr->DeviceClass == 0xff)) && ((UsbClassDevicePathPtr->DeviceSubClass == ActIfDesc->InterfaceSubClass) || (UsbClassDevicePathPtr->DeviceSubClass == 0xff)) && ((UsbClassDevicePathPtr->DeviceProtocol == ActIfDesc->InterfaceProtocol) || (UsbClassDevicePathPtr->DeviceProtocol == 0xff))) { return TRUE; } } else if (((UsbClassDevicePathPtr->DeviceClass == DevDesc->DeviceClass) || (UsbClassDevicePathPtr->DeviceClass == 0xff)) && ((UsbClassDevicePathPtr->DeviceSubClass == DevDesc->DeviceSubClass) || (UsbClassDevicePathPtr->DeviceSubClass == 0xff)) && ((UsbClassDevicePathPtr->DeviceProtocol == DevDesc->DeviceProtocol) || (UsbClassDevicePathPtr->DeviceProtocol == 0xff))) { return TRUE; } } return FALSE; } /** Check whether usb device, whose interface is UsbIf, matches the usb WWID requirement which indicated by UsbWWIDDevicePathPtr whose is a short form usb WWID device path. @param UsbWWIDDevicePathPtr a short form usb WWID device path. @param UsbIf a usb device interface. @retval TRUE the usb device match the usb WWID requirement. @retval FALSE the usb device does not match the usb WWID requirement. **/ BOOLEAN MatchUsbWwid ( IN USB_WWID_DEVICE_PATH *UsbWWIDDevicePathPtr, IN USB_INTERFACE *UsbIf ) { USB_INTERFACE_DESC *IfDesc; EFI_USB_INTERFACE_DESCRIPTOR *ActIfDesc; EFI_USB_DEVICE_DESCRIPTOR *DevDesc; EFI_USB_STRING_DESCRIPTOR *StrDesc; UINT16 Index; CHAR16 *CompareStr; UINTN CompareLen; UINTN Length; if ((UsbWWIDDevicePathPtr->Header.Type != MESSAGING_DEVICE_PATH) || (UsbWWIDDevicePathPtr->Header.SubType != MSG_USB_WWID_DP)) { ASSERT (0); return FALSE; } IfDesc = UsbIf->IfDesc; ASSERT (IfDesc->ActiveIndex < USB_MAX_INTERFACE_SETTING); ActIfDesc = &(IfDesc->Settings[IfDesc->ActiveIndex]->Desc); DevDesc = &(UsbIf->Device->DevDesc->Desc); // // In addition, Hub interface is always matched for this policy. // if ((ActIfDesc->InterfaceClass == USB_HUB_CLASS_CODE) && (ActIfDesc->InterfaceSubClass == USB_HUB_SUBCLASS_CODE)) { return TRUE; } // // Check Vendor Id, Product Id and Interface Number. // if ((DevDesc->IdVendor != UsbWWIDDevicePathPtr->VendorId) || (DevDesc->IdProduct != UsbWWIDDevicePathPtr->ProductId) || (ActIfDesc->InterfaceNumber != UsbWWIDDevicePathPtr->InterfaceNumber)) { return FALSE; } // // Check SerialNumber. // if (DevDesc->StrSerialNumber == 0) { return FALSE; } // // Serial number in USB WWID device path is the last 64-or-less UTF-16 characters. // CompareStr = (CHAR16 *)(UINTN)(UsbWWIDDevicePathPtr + 1); CompareLen = (DevicePathNodeLength (UsbWWIDDevicePathPtr) - sizeof (USB_WWID_DEVICE_PATH)) / sizeof (CHAR16); if (CompareStr[CompareLen - 1] == L'\0') { CompareLen--; } // // Compare serial number in each supported language. // for (Index = 0; Index < UsbIf->Device->TotalLangId; Index++) { StrDesc = UsbGetOneString (UsbIf->Device, DevDesc->StrSerialNumber, UsbIf->Device->LangId[Index]); if (StrDesc == NULL) { continue; } Length = (StrDesc->Length - 2) / sizeof (CHAR16); if ((Length >= CompareLen) && (CompareMem (StrDesc->String + Length - CompareLen, CompareStr, CompareLen * sizeof (CHAR16)) == 0)) { return TRUE; } } return FALSE; } /** Free a DEVICE_PATH_LIST_ITEM list. @param UsbIoDPList a DEVICE_PATH_LIST_ITEM list pointer. @retval EFI_INVALID_PARAMETER If parameters are invalid, return this value. @retval EFI_SUCCESS If free operation is successful, return this value. **/ EFI_STATUS EFIAPI UsbBusFreeUsbDPList ( IN LIST_ENTRY *UsbIoDPList ) { LIST_ENTRY *ListIndex; DEVICE_PATH_LIST_ITEM *ListItem; // // Check that ControllerHandle is a valid handle // if (UsbIoDPList == NULL) { return EFI_INVALID_PARAMETER; } ListIndex = UsbIoDPList->ForwardLink; while (ListIndex != UsbIoDPList) { ListItem = CR (ListIndex, DEVICE_PATH_LIST_ITEM, Link, DEVICE_PATH_LIST_ITEM_SIGNATURE); // // Free DEVICE_PATH_LIST_ITEM.DevicePath[] // if (ListItem->DevicePath != NULL) { FreePool (ListItem->DevicePath); } // // Free DEVICE_PATH_LIST_ITEM itself // ListIndex = ListIndex->ForwardLink; RemoveEntryList (&ListItem->Link); FreePool (ListItem); } InitializeListHead (UsbIoDPList); return EFI_SUCCESS; } /** Store a wanted usb child device info (its Usb part of device path) which is indicated by RemainingDevicePath in a Usb bus which is indicated by UsbBusId. @param UsbBusId Point to EFI_USB_BUS_PROTOCOL interface. @param RemainingDevicePath The remaining device patch. @retval EFI_SUCCESS Add operation is successful. @retval EFI_INVALID_PARAMETER The parameters are invalid. **/ EFI_STATUS EFIAPI UsbBusAddWantedUsbIoDP ( IN EFI_USB_BUS_PROTOCOL *UsbBusId, IN EFI_DEVICE_PATH_PROTOCOL *RemainingDevicePath ) { USB_BUS *Bus; EFI_STATUS Status; EFI_DEVICE_PATH_PROTOCOL *DevicePathPtr; // // Check whether remaining device path is valid // if ((RemainingDevicePath != NULL) && !IsDevicePathEnd (RemainingDevicePath)) { if ((RemainingDevicePath->Type != MESSAGING_DEVICE_PATH) || ( (RemainingDevicePath->SubType != MSG_USB_DP) && (RemainingDevicePath->SubType != MSG_USB_CLASS_DP) && (RemainingDevicePath->SubType != MSG_USB_WWID_DP) )) { return EFI_INVALID_PARAMETER; } } if (UsbBusId == NULL) { return EFI_INVALID_PARAMETER; } Bus = USB_BUS_FROM_THIS (UsbBusId); if (RemainingDevicePath == NULL) { // // RemainingDevicePath == NULL means all Usb devices in this bus are wanted. // Here use a Usb class Device Path in WantedUsbIoDPList to indicate all Usb devices // are wanted Usb devices // Status = UsbBusFreeUsbDPList (&Bus->WantedUsbIoDPList); ASSERT (!EFI_ERROR (Status)); DevicePathPtr = DuplicateDevicePath ((EFI_DEVICE_PATH_PROTOCOL *)&mAllUsbClassDevicePath); } else if (!IsDevicePathEnd (RemainingDevicePath)) { // // If RemainingDevicePath isn't the End of Device Path Node, // Create new Usb device path according to the usb part in remaining device path // DevicePathPtr = GetUsbDPFromFullDP (RemainingDevicePath); } else { // // If RemainingDevicePath is the End of Device Path Node, // skip enumerate any device and return EFI_SUCCESS // return EFI_SUCCESS; } ASSERT (DevicePathPtr != NULL); Status = AddUsbDPToList (DevicePathPtr, &Bus->WantedUsbIoDPList); ASSERT (!EFI_ERROR (Status)); FreePool (DevicePathPtr); return EFI_SUCCESS; } /** Check whether a usb child device is the wanted device in a bus. @param Bus The Usb bus's private data pointer. @param UsbIf The usb child device interface. @retval True If a usb child device is the wanted device in a bus. @retval False If a usb child device is *NOT* the wanted device in a bus. **/ BOOLEAN EFIAPI UsbBusIsWantedUsbIO ( IN USB_BUS *Bus, IN USB_INTERFACE *UsbIf ) { EFI_DEVICE_PATH_PROTOCOL *DevicePathPtr; LIST_ENTRY *WantedUsbIoDPListPtr; LIST_ENTRY *WantedListIndex; DEVICE_PATH_LIST_ITEM *WantedListItem; BOOLEAN DoConvert; UINTN FirstDevicePathSize; // // Check whether passed in parameters are valid // if ((UsbIf == NULL) || (Bus == NULL)) { return FALSE; } // // Check whether UsbIf is Hub // if (UsbIf->IsHub) { return TRUE; } // // Check whether all Usb devices in this bus are wanted // if (SearchUsbDPInList ((EFI_DEVICE_PATH_PROTOCOL *)&mAllUsbClassDevicePath, &Bus->WantedUsbIoDPList)) { return TRUE; } // // Check whether the Usb device match any item in WantedUsbIoDPList // WantedUsbIoDPListPtr = &Bus->WantedUsbIoDPList; // // Create new Usb device path according to the usb part in UsbIo full device path // DevicePathPtr = GetUsbDPFromFullDP (UsbIf->DevicePath); ASSERT (DevicePathPtr != NULL); DoConvert = FALSE; WantedListIndex = WantedUsbIoDPListPtr->ForwardLink; while (WantedListIndex != WantedUsbIoDPListPtr) { WantedListItem = CR (WantedListIndex, DEVICE_PATH_LIST_ITEM, Link, DEVICE_PATH_LIST_ITEM_SIGNATURE); ASSERT (WantedListItem->DevicePath->Type == MESSAGING_DEVICE_PATH); switch (WantedListItem->DevicePath->SubType) { case MSG_USB_DP: FirstDevicePathSize = GetDevicePathSize (WantedListItem->DevicePath); if (FirstDevicePathSize == GetDevicePathSize (DevicePathPtr)) { if (CompareMem ( WantedListItem->DevicePath, DevicePathPtr, GetDevicePathSize (DevicePathPtr) ) == 0 ) { DoConvert = TRUE; } } break; case MSG_USB_CLASS_DP: if (MatchUsbClass ((USB_CLASS_DEVICE_PATH *)WantedListItem->DevicePath, UsbIf)) { DoConvert = TRUE; } break; case MSG_USB_WWID_DP: if (MatchUsbWwid ((USB_WWID_DEVICE_PATH *)WantedListItem->DevicePath, UsbIf)) { DoConvert = TRUE; } break; default: ASSERT (0); break; } if (DoConvert) { break; } WantedListIndex = WantedListIndex->ForwardLink; } gBS->FreePool (DevicePathPtr); // // Check whether the new Usb device path is wanted // if (DoConvert) { return TRUE; } else { return FALSE; } } /** Recursively connect every wanted usb child device to ensure they all fully connected. Check all the child Usb IO handles in this bus, recursively connecte if it is wanted usb child device. @param UsbBusId Point to EFI_USB_BUS_PROTOCOL interface. @retval EFI_SUCCESS Connect is done successfully. @retval EFI_INVALID_PARAMETER The parameter is invalid. **/ EFI_STATUS EFIAPI UsbBusRecursivelyConnectWantedUsbIo ( IN EFI_USB_BUS_PROTOCOL *UsbBusId ) { USB_BUS *Bus; EFI_STATUS Status; UINTN Index; EFI_USB_IO_PROTOCOL *UsbIo; USB_INTERFACE *UsbIf; UINTN UsbIoHandleCount; EFI_HANDLE *UsbIoBuffer; EFI_DEVICE_PATH_PROTOCOL *UsbIoDevicePath; if (UsbBusId == NULL) { return EFI_INVALID_PARAMETER; } Bus = USB_BUS_FROM_THIS (UsbBusId); // // Get all Usb IO handles in system // UsbIoHandleCount = 0; Status = gBS->LocateHandleBuffer (ByProtocol, &gEfiUsbIoProtocolGuid, NULL, &UsbIoHandleCount, &UsbIoBuffer); if ((Status == EFI_NOT_FOUND) || (UsbIoHandleCount == 0)) { return EFI_SUCCESS; } ASSERT (!EFI_ERROR (Status)); for (Index = 0; Index < UsbIoHandleCount; Index++) { // // Check whether the USB IO handle is a child of this bus // Note: The usb child handle maybe invalid because of hot plugged out during the loop // UsbIoDevicePath = NULL; Status = gBS->HandleProtocol (UsbIoBuffer[Index], &gEfiDevicePathProtocolGuid, (VOID *)&UsbIoDevicePath); if (EFI_ERROR (Status) || (UsbIoDevicePath == NULL)) { continue; } if (CompareMem ( UsbIoDevicePath, Bus->DevicePath, (GetDevicePathSize (Bus->DevicePath) - sizeof (EFI_DEVICE_PATH_PROTOCOL)) ) != 0) { continue; } // // Get the child Usb IO interface // Status = gBS->HandleProtocol ( UsbIoBuffer[Index], &gEfiUsbIoProtocolGuid, (VOID **)&UsbIo ); if (EFI_ERROR (Status)) { continue; } UsbIf = USB_INTERFACE_FROM_USBIO (UsbIo); if (UsbBusIsWantedUsbIO (Bus, UsbIf)) { if (!UsbIf->IsManaged) { // // Recursively connect the wanted Usb Io handle // DEBUG ((DEBUG_INFO, "UsbBusRecursivelyConnectWantedUsbIo: TPL before connect is %d\n", (UINT32)UsbGetCurrentTpl ())); Status = gBS->ConnectController (UsbIf->Handle, NULL, NULL, TRUE); UsbIf->IsManaged = (BOOLEAN) !EFI_ERROR (Status); DEBUG ((DEBUG_INFO, "UsbBusRecursivelyConnectWantedUsbIo: TPL after connect is %d\n", (UINT32)UsbGetCurrentTpl ())); } } } FreePool (UsbIoBuffer); return EFI_SUCCESS; }