/*++ Copyright (c) 1996 Microsoft Corporation Module Name: USBHUB.C Abstract: This module contains code for the hub to function as a device on the USB. All USBH_Fdo functions live here. Author: John Lee Environment: kernel mode only Notes: Revision History: 02-02-96 : created 10-31-06 : jd, use worker thread to process change indications --*/ #include #include #include #ifdef WMI_SUPPORT #include #include #endif /* WMI_SUPPORT */ #include "usbhub.h" #include #define ESD_RECOVERY_TIMEOUT 5000 // Timeout in ms (5 sec) #define ESD_RESET_TIMEOUT 5000 #ifdef PAGE_CODE #ifdef ALLOC_PRAGMA #pragma alloc_text(PAGE, USBH_ChangeIndicationWorker) #pragma alloc_text(PAGE, USBH_ProcessHubStateChange) // #pragma alloc_text(PAGE, USBH_ProcessPortStateChange) #pragma alloc_text(PAGE, USBH_GetNameFromPdo) //#pragma alloc_text(PAGE, USBH_MakeName) //#pragma alloc_text(PAGE, USBH_GenerateDeviceName) #pragma alloc_text(PAGE, USBH_FdoStartDevice) #pragma alloc_text(PAGE, USBH_QueryCapabilities) #pragma alloc_text(PAGE, USBH_FdoHubStartDevice) // #pragma alloc_text(PAGE, UsbhFdoCleanup) #pragma alloc_text(PAGE, USBH_FdoStopDevice) #pragma alloc_text(PAGE, USBH_FdoRemoveDevice) #pragma alloc_text(PAGE, USBH_FdoQueryBusRelations) #pragma alloc_text(PAGE, USBH_HubIsBusPowered) #pragma alloc_text(PAGE, USBH_HubESDRecoveryWorker) #pragma alloc_text(PAGE, USBH_RegQueryDeviceIgnoreHWSerNumFlag) #pragma alloc_text(PAGE, USBH_RegQueryGenericUSBDeviceString) #pragma alloc_text(PAGE, USBH_DeviceIs2xDualMode) // Win98 breaks if we have an INIT segment //#pragma alloc_text(INIT, DriverEntry ) #endif #endif #ifdef WMI_SUPPORT #define NUM_WMI_SUPPORTED_GUIDS 3 WMIGUIDREGINFO USB_WmiGuidList[NUM_WMI_SUPPORTED_GUIDS]; extern WMIGUIDREGINFO USB_PortWmiGuidList[]; #endif /* WMI_SUPPORT */ PWCHAR GenericUSBDeviceString = NULL; NTSTATUS USBH_GetConfigValue( IN PWSTR ValueName, IN ULONG ValueType, IN PVOID ValueData, IN ULONG ValueLength, IN PVOID Context, IN PVOID EntryContext ) /*++ Routine Description: This routine is a callback routine for RtlQueryRegistryValues It is called for each entry in the Parameters node to set the config values. The table is set up so that this function will be called with correct default values for keys that are not present. Arguments: ValueName - The name of the value (ignored). ValueType - The type of the value ValueData - The data for the value. ValueLength - The length of ValueData. Context - A pointer to the CONFIG structure. EntryContext - The index in Config->Parameters to save the value. Return Value: --*/ { NTSTATUS ntStatus = STATUS_SUCCESS; PWCHAR tmpStr; USBH_KdPrint((2,"'Type 0x%x, Length 0x%x\n", ValueType, ValueLength)); switch (ValueType) { case REG_DWORD: *(PVOID*)EntryContext = *(PVOID*)ValueData; break; case REG_BINARY: RtlCopyMemory(EntryContext, ValueData, ValueLength); break; case REG_SZ: if (ValueLength) { tmpStr = UsbhExAllocatePool(PagedPool, ValueLength); if (tmpStr) { RtlZeroMemory(tmpStr, ValueLength); RtlCopyMemory(tmpStr, ValueData, ValueLength); *(PWCHAR *)EntryContext = tmpStr; } else { ntStatus = STATUS_INSUFFICIENT_RESOURCES; } } else { ntStatus = STATUS_INVALID_PARAMETER; } break; default: TEST_TRAP(); ntStatus = STATUS_INVALID_PARAMETER; } return ntStatus; } NTSTATUS USBH_RegQueryUSBGlobalSelectiveSuspend( IN OUT PBOOLEAN DisableSelectiveSuspend ) /*++ Routine Description: See if selective suspend is glabllay disabled Arguments: Return Value: --*/ { NTSTATUS ntStatus; RTL_QUERY_REGISTRY_TABLE QueryTable[2]; PWCHAR usb = L"usb"; ULONG disableSS; #define G_DISABLE_SS_KEY L"DisableSelectiveSuspend" PAGED_CODE(); disableSS = 0; *DisableSelectiveSuspend = FALSE; // Default is enabled. // // Set up QueryTable to do the following: // // Upgrade install flag QueryTable[0].QueryRoutine = USBH_GetConfigValue; QueryTable[0].Flags = 0; QueryTable[0].Name = G_DISABLE_SS_KEY; QueryTable[0].EntryContext = &disableSS; QueryTable[0].DefaultType = REG_DWORD; QueryTable[0].DefaultData = &disableSS; QueryTable[0].DefaultLength = sizeof(disableSS); // // Stop // QueryTable[1].QueryRoutine = NULL; QueryTable[1].Flags = 0; QueryTable[1].Name = NULL; ntStatus = RtlQueryRegistryValues( RTL_REGISTRY_SERVICES, usb, QueryTable, // QueryTable NULL, // Context NULL); // Environment *DisableSelectiveSuspend = disableSS ? TRUE : FALSE; USBH_KdPrint((1,"'USB\\DisableSelectiveSuspend = 0x%x\n", *DisableSelectiveSuspend)); return ntStatus; } NTSTATUS USBH_RegQueryDeviceIgnoreHWSerNumFlag( IN USHORT idVendor, IN USHORT idProduct, IN OUT PBOOLEAN IgnoreHWSerNumFlag ) /*++ Routine Description: Arguments: Return Value: --*/ { NTSTATUS ntStatus; RTL_QUERY_REGISTRY_TABLE QueryTable[2]; PWCHAR usbstr = L"usbflags"; WCHAR buffer[sizeof(WCHAR) * 128]; WCHAR tmplate[] = L"IgnoreHWSerNum%04x%04x"; PAGED_CODE(); *IgnoreHWSerNumFlag = FALSE; // Default is don't ignore. swprintf(buffer, tmplate, idVendor, idProduct); // // Set up QueryTable to do the following: // // Upgrade install flag QueryTable[0].QueryRoutine = USBH_GetConfigValue; QueryTable[0].Flags = RTL_QUERY_REGISTRY_REQUIRED; QueryTable[0].Name = buffer; QueryTable[0].EntryContext = IgnoreHWSerNumFlag; QueryTable[0].DefaultType = 0; QueryTable[0].DefaultData = NULL; QueryTable[0].DefaultLength = 0; // // Stop // QueryTable[1].QueryRoutine = NULL; QueryTable[1].Flags = 0; QueryTable[1].Name = NULL; ntStatus = RtlQueryRegistryValues( RTL_REGISTRY_CONTROL, usbstr, QueryTable, // QueryTable NULL, // Context NULL); // Environment return ntStatus; } NTSTATUS USBH_RegQueryGenericUSBDeviceString( IN OUT PWCHAR *GenericUSBDeviceString ) /*++ Routine Description: Arguments: Return Value: --*/ { NTSTATUS ntStatus; RTL_QUERY_REGISTRY_TABLE QueryTable[2]; PWCHAR usbstr = L"usbflags"; PWCHAR valuename = L"GenericUSBDeviceString"; PAGED_CODE(); // // Set up QueryTable to do the following: // // Upgrade install flag QueryTable[0].QueryRoutine = USBH_GetConfigValue; QueryTable[0].Flags = RTL_QUERY_REGISTRY_REQUIRED; QueryTable[0].Name = valuename; QueryTable[0].EntryContext = GenericUSBDeviceString; QueryTable[0].DefaultType = 0; QueryTable[0].DefaultData = NULL; QueryTable[0].DefaultLength = 0; // // Stop // QueryTable[1].QueryRoutine = NULL; QueryTable[1].Flags = 0; QueryTable[1].Name = NULL; ntStatus = RtlQueryRegistryValues( RTL_REGISTRY_CONTROL, usbstr, QueryTable, // QueryTable NULL, // Context NULL); // Environment return ntStatus; } // // Make the DriverEntry discardable // NTSTATUS DriverEntry( IN PDRIVER_OBJECT DriverObject, IN PUNICODE_STRING UniRegistryPath) /* ++ Routine Description: * * Installable driver initialization entry point. We will remember the pointer * to our DeviceObject. * * Arguments: * * pDriverObject - pointer to driver object pustRegisterPath - pointer to a * unicode string representing the path to driver specific key in the * registry. * * Return Values: * * STATUS_SUCCESS - if successful * STATUS_UNSUCCESSFUL - otherwise * * -- */ { NTSTATUS status, ntStatus = STATUS_SUCCESS; PUNICODE_STRING registryPath = &UsbhRegistryPath; USBH_KdPrint((2,"'enter DriverEntry\n")); USBH_LogInit(); UsbhDriverObject = DriverObject; // remember ourselves // // Initialize the driver object with this driver's entry points. // DriverObject->MajorFunction[IRP_MJ_CREATE] = DriverObject->MajorFunction[IRP_MJ_CLOSE] = DriverObject->MajorFunction[IRP_MJ_DEVICE_CONTROL] = DriverObject->MajorFunction[IRP_MJ_SYSTEM_CONTROL] = DriverObject->MajorFunction[IRP_MJ_INTERNAL_DEVICE_CONTROL] = USBH_HubDispatch; DriverObject->DriverUnload = USBH_DriverUnload; DriverObject->DriverExtension->AddDevice = (PDRIVER_ADD_DEVICE) USBH_AddDevice; DriverObject->MajorFunction[IRP_MJ_PNP] = USBH_HubDispatch; DriverObject->MajorFunction[IRP_MJ_POWER] = USBH_HubDispatch; // // Need to ensure that the registry path is null-terminated. // Allocate pool to hold a null-terminated copy of the path. // Safe in paged pool since all registry routines execute at // PASSIVE_LEVEL. // registryPath->MaximumLength = UniRegistryPath->Length + sizeof(UNICODE_NULL); registryPath->Length = UniRegistryPath->Length; registryPath->Buffer = ExAllocatePoolWithTag( PagedPool, registryPath->MaximumLength, USBHUB_HEAP_TAG); if (!registryPath->Buffer) { ntStatus = STATUS_INSUFFICIENT_RESOURCES; USBH_LogFree(); goto DriverEntry_Exit; } else { RtlZeroMemory (registryPath->Buffer, registryPath->MaximumLength); RtlMoveMemory (registryPath->Buffer, UniRegistryPath->Buffer, UniRegistryPath->Length); #ifdef WMI_SUPPORT // These are the GUIDs that we support for the HUB. USB_WmiGuidList[0].Guid = (LPCGUID)&GUID_USB_WMI_STD_DATA; USB_WmiGuidList[0].InstanceCount = 1; USB_WmiGuidList[0].Flags = 0; USB_WmiGuidList[1].Guid = (LPCGUID)&GUID_USB_WMI_STD_NOTIFICATION; USB_WmiGuidList[1].InstanceCount = 1; USB_WmiGuidList[1].Flags = 0; // NB: GUID_POWER_DEVICE_ENABLE MUST be last because we only support // it for the Root Hub, and we omit the last one in the list if not // the Root Hub. USB_WmiGuidList[2].Guid = (LPCGUID)&GUID_POWER_DEVICE_ENABLE; USB_WmiGuidList[2].InstanceCount = 1; USB_WmiGuidList[2].Flags = 0; // These are the GUIDs that we support for the PORT PDOs. USB_PortWmiGuidList[0].Guid = (LPCGUID)&MSDeviceUI_FirmwareRevision_GUID; USB_PortWmiGuidList[0].InstanceCount = 1; USB_PortWmiGuidList[0].Flags = 0; #endif /* WMI_SUPPORT */ } USBH_RegQueryGenericUSBDeviceString(&GenericUSBDeviceString); DriverEntry_Exit: USBH_KdPrint((2,"' exit DriverEntry %x\n", ntStatus)); return ntStatus; } #if DBG VOID USBH_ShowPortState( IN USHORT PortNumber, IN PPORT_STATE PortState) /* ++ * * Description: * * Arguments: * * Return: * * None * * -- */ { USBH_KdPrint((2,"' Port state for port %x status = %x change = %x\n", PortNumber, PortState->PortStatus, PortState->PortChange)); if (PortState->PortStatus & PORT_STATUS_CONNECT) { USBH_KdPrint((2,"'PORT_STATUS_CONNECT\n")); } if (PortState->PortStatus & PORT_STATUS_ENABLE) { USBH_KdPrint((2,"'PORT_STATUS_ENABLE\n")); } if (PortState->PortStatus & PORT_STATUS_SUSPEND) { USBH_KdPrint((2,"'PORT_STATUS_SUSPEND\n")); } if (PortState->PortStatus & PORT_STATUS_OVER_CURRENT) { USBH_KdPrint((2,"'PORT_STATUS_OVER_CURRENT\n")); } if (PortState->PortStatus & PORT_STATUS_RESET) { USBH_KdPrint((2,"'PORT_STATUS_RESET\n")); } if (PortState->PortStatus & PORT_STATUS_POWER) { USBH_KdPrint((2,"'PORT_STATUS_POWER\n")); } if (PortState->PortStatus & PORT_STATUS_LOW_SPEED) { USBH_KdPrint((2,"'PORT_STATUS_LOW_SPEED\n")); } if (PortState->PortChange & PORT_STATUS_CONNECT) { USBH_KdPrint((2,"'PORT_CHANGE_CONNECT\n")); } if (PortState->PortChange & PORT_STATUS_ENABLE) { USBH_KdPrint((2,"'PORT_CHANGE_ENABLE\n")); } if (PortState->PortChange & PORT_STATUS_SUSPEND) { USBH_KdPrint((2,"'PORT_CHANGE_SUSPEND\n")); } if (PortState->PortChange & PORT_STATUS_OVER_CURRENT) { USBH_KdPrint((2,"'PORT_CHANGE_OVER_CURRENT\n")); } if (PortState->PortChange & PORT_STATUS_RESET) { USBH_KdPrint((2,"'PORT_CHANGE_RESET\n")); } if (PortState->PortChange & PORT_STATUS_POWER) { USBH_KdPrint((2,"'PORT_CHANGE_POWER\n")); } if (PortState->PortChange & PORT_STATUS_LOW_SPEED) { USBH_KdPrint((2,"'PORT_CHANGE_LOW_SPEED\n")); } return; } #endif VOID USBH_CompleteIrp( IN PIRP Irp, IN NTSTATUS NtStatus) /* ++ * * Description: * * This function complete the specified Irp with no priority boost. It also * sets up the IoStatusBlock. * * Arguments: * * Irp - the Irp to be completed by us NtStatus - the status code we want to * return * * Return: * * None * * -- */ { Irp->IoStatus.Status = NtStatus; IoCompleteRequest(Irp, IO_NO_INCREMENT); return; } NTSTATUS USBH_PassIrp( IN PIRP Irp, IN PDEVICE_OBJECT NextDeviceObject) /* ++ * * Description: * * This function pass the Irp to lower level driver. * * Arguments: * * Return: * * NTSTATUS * * -- */ { NTSTATUS ntStatus; USBH_KdPrint((2,"'PassIrp\n")); IoSkipCurrentIrpStackLocation(Irp); ntStatus = IoCallDriver(NextDeviceObject, Irp); USBH_KdPrint((2,"'Exit PassIrp\n")); return ntStatus; } NTSTATUS USBH_FdoDispatch( IN PDEVICE_EXTENSION_HUB DeviceExtensionHub, IN PIRP Irp) /* ++ * * Description: * * All external Irps on FDO come here. * * Arguments: * * DeviceExtensionHub - the extension of the Fdo pIrp - the request * * Return: * * NTSTATUS * * -- */ { NTSTATUS ntStatus = STATUS_SUCCESS; PIO_STACK_LOCATION ioStackLocation; // our stack location PDEVICE_OBJECT deviceObject; BOOLEAN bDoCheckHubIdle = FALSE; USBH_KdPrint((2,"'FdoDispatch DeviceExtension %x Irp %x\n", DeviceExtensionHub, Irp)); deviceObject = DeviceExtensionHub->FunctionalDeviceObject; // // Get a pointer to IoStackLocation so we can retrieve parameters. // ioStackLocation = IoGetCurrentIrpStackLocation(Irp); LOGENTRY(LOG_PNP, "hIRP", DeviceExtensionHub, ioStackLocation->MajorFunction, ioStackLocation->MinorFunction); // // the called functions will complete the irp if necessary // switch (ioStackLocation->MajorFunction) { case IRP_MJ_CREATE: USBH_KdPrint((2,"'IRP_MJ_CREATE\n")); USBH_CompleteIrp(Irp, STATUS_SUCCESS); break; case IRP_MJ_CLOSE: USBH_KdPrint((2,"'IRP_MJ_CLOSE\n")); USBH_CompleteIrp(Irp, STATUS_SUCCESS); break; case IRP_MJ_DEVICE_CONTROL: { ULONG ioControlCode; USBH_KdPrint((2,"'Hub FDO IRP_MJ_DEVICE_CONTROL\n")); // If this hub is currently Selective Suspended, then we need to // power up the hub first before sending any IOCTL requests along to it. // Make sure hub has been started, though. if (DeviceExtensionHub->CurrentPowerState != PowerDeviceD0 && (DeviceExtensionHub->HubFlags & HUBFLAG_NEED_CLEANUP)) { bDoCheckHubIdle = TRUE; USBH_HubSetD0(DeviceExtensionHub); } ioControlCode = ioStackLocation->Parameters.DeviceIoControl.IoControlCode; ntStatus = STATUS_DEVICE_BUSY; switch (ioControlCode) { case IOCTL_USB_GET_NODE_INFORMATION: if (!(DeviceExtensionHub->HubFlags & HUBFLAG_HUB_STOPPED)) { ntStatus = USBH_IoctlGetNodeInformation(DeviceExtensionHub, Irp); } else { USBH_CompleteIrp(Irp, ntStatus); } break; case IOCTL_USB_GET_NODE_CONNECTION_DRIVERKEY_NAME: if (!(DeviceExtensionHub->HubFlags & HUBFLAG_HUB_STOPPED)) { ntStatus = USBH_IoctlGetNodeConnectionDriverKeyName(DeviceExtensionHub, Irp); } else { USBH_CompleteIrp(Irp, ntStatus); } break; case IOCTL_USB_GET_NODE_CONNECTION_INFORMATION: // note, when rev all internal apps we can remove this // code if (!(DeviceExtensionHub->HubFlags & HUBFLAG_HUB_STOPPED)) { ntStatus = USBH_IoctlGetNodeConnectionInformation(DeviceExtensionHub, Irp, FALSE); } else { USBH_CompleteIrp(Irp, ntStatus); } break; // EX api returns speed case IOCTL_USB_GET_NODE_CONNECTION_INFORMATION_EX: // note, when rev all internal apps we can remove this // code if (!(DeviceExtensionHub->HubFlags & HUBFLAG_HUB_STOPPED)) { ntStatus = USBH_IoctlGetNodeConnectionInformation(DeviceExtensionHub, Irp, TRUE); } else { USBH_CompleteIrp(Irp, ntStatus); } break; case IOCTL_USB_GET_NODE_CONNECTION_ATTRIBUTES: // note, when rev all internal apps we can remove this // code if (!(DeviceExtensionHub->HubFlags & HUBFLAG_HUB_STOPPED)) { ntStatus = USBH_IoctlGetNodeConnectionAttributes(DeviceExtensionHub, Irp); } else { USBH_CompleteIrp(Irp, ntStatus); } break; case IOCTL_USB_GET_NODE_CONNECTION_NAME: if (!(DeviceExtensionHub->HubFlags & HUBFLAG_HUB_STOPPED)) { ntStatus = USBH_IoctlGetNodeName(DeviceExtensionHub, Irp); } else { USBH_CompleteIrp(Irp, ntStatus); } break; case IOCTL_USB_GET_DESCRIPTOR_FROM_NODE_CONNECTION: if (!(DeviceExtensionHub->HubFlags & HUBFLAG_HUB_STOPPED)) { ntStatus = USBH_IoctlGetDescriptorForPDO(DeviceExtensionHub, Irp); } else { USBH_CompleteIrp(Irp, ntStatus); } break; case IOCTL_USB_GET_HUB_CAPABILITIES: if (!(DeviceExtensionHub->HubFlags & HUBFLAG_HUB_STOPPED)) { ntStatus = USBH_IoctlGetHubCapabilities(DeviceExtensionHub, Irp); } else { USBH_CompleteIrp(Irp, ntStatus); } break; case IOCTL_KS_PROPERTY: ntStatus = STATUS_INVALID_DEVICE_REQUEST; USBH_CompleteIrp(Irp, ntStatus); break; case IOCTL_USB_HUB_CYCLE_PORT: ntStatus = USBH_IoctlCycleHubPort(DeviceExtensionHub, Irp); break; default: ntStatus = USBH_PassIrp(Irp, DeviceExtensionHub->RootHubPdo); } if (bDoCheckHubIdle) { USBH_CheckHubIdle(DeviceExtensionHub); } } break; case IRP_MJ_INTERNAL_DEVICE_CONTROL: USBH_KdPrint((2,"'InternlDeviceControl IOCTL unknown pass on\n")); ntStatus = USBH_PassIrp(Irp, DeviceExtensionHub->TopOfStackDeviceObject); break; case IRP_MJ_PNP: USBH_KdPrint((2,"'IRP_MJ_PNP\n")); ntStatus = USBH_FdoPnP(DeviceExtensionHub, Irp, ioStackLocation->MinorFunction); break; case IRP_MJ_POWER: USBH_KdPrint((2,"'IRP_MJ_POWER\n")); ntStatus = USBH_FdoPower(DeviceExtensionHub, Irp, ioStackLocation->MinorFunction); break; #ifdef WMI_SUPPORT case IRP_MJ_SYSTEM_CONTROL: USBH_KdPrint((2,"'IRP_MJ_SYSTEM_CONTROL\n")); ntStatus = USBH_SystemControl ((PDEVICE_EXTENSION_FDO) DeviceExtensionHub, Irp); break; #endif default: // // Unknown Irp -- pass on // USBH_KdBreak(("Unknown Irp for fdo %x Irp_Mj %x\n", deviceObject, ioStackLocation->MajorFunction)); ntStatus = USBH_PassIrp(Irp, DeviceExtensionHub->TopOfStackDeviceObject); break; } //USBH_FdoDispatch_Done: USBH_KdPrint((2,"' exit USBH_FdoDispatch Object %x Status %x\n", deviceObject, ntStatus)); // // always return a status code // return ntStatus; } NTSTATUS USBH_HubDispatch( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp ) /* ++ * * Routine Description: * * This is the dispatch routine for all Irps passed to the hub driver. * It is here that we determine if the call was passed throug the FDO * for the hub itself or a PDO owned by the hub. * * Arguments: * * Return Value: * * -- */ { NTSTATUS ntStatus; PDEVICE_EXTENSION_HEADER deviceExtensionHeader; // // Get the pointer to the device extension. // // // examine the extension // deviceExtensionHeader = (PDEVICE_EXTENSION_HEADER) DeviceObject->DeviceExtension; switch(deviceExtensionHeader->ExtensionType) { case EXTENSION_TYPE_HUB: ntStatus = USBH_FdoDispatch((PDEVICE_EXTENSION_HUB) deviceExtensionHeader, Irp); break; case EXTENSION_TYPE_PORT: ntStatus = USBH_PdoDispatch((PDEVICE_EXTENSION_PORT) deviceExtensionHeader, Irp); break; case EXTENSION_TYPE_PARENT: ntStatus = USBH_ParentDispatch((PDEVICE_EXTENSION_PARENT) deviceExtensionHeader, Irp); break; case EXTENSION_TYPE_FUNCTION: ntStatus = USBH_FunctionPdoDispatch((PDEVICE_EXTENSION_FUNCTION) deviceExtensionHeader, Irp); break; default: USBH_KdBreak(("bad extension type\n")); ntStatus = STATUS_INVALID_PARAMETER; } return ntStatus; } VOID USBH_DriverUnload( IN PDRIVER_OBJECT DriverObject) /* ++ * * Description: * * This function will clean up all resources we allocated. * * Arguments: * * pDriverObject - Ourselves * * Return: * * None * * -- */ { PUNICODE_STRING registryPath = &UsbhRegistryPath; USBH_KdPrint((1, "'USBHUB.SYS unload\n")); USBH_LogFree(); if (registryPath->Buffer) { ExFreePool(registryPath->Buffer); registryPath->Buffer = NULL; } if (GenericUSBDeviceString) { UsbhExFreePool(GenericUSBDeviceString); GenericUSBDeviceString = NULL; } // assert here that all PDOs for this hub have been removed return; } NTSTATUS USBH_AbortInterruptPipe( IN PDEVICE_EXTENSION_HUB DeviceExtensionHub) /* ++ * * Description: * * Abort our pending transfer on the interrupt * pipe. * * Arguments: * * Return: * * NTSTATUS * * -- */ { NTSTATUS ntStatus, status; PURB urb; USBH_KdPrint((2,"'Enter AbortInterruptPipe pExt=%x\n", DeviceExtensionHub)); LOGENTRY(LOG_PNP, "ABRT", DeviceExtensionHub, 0, 0); urb = UsbhExAllocatePool(NonPagedPool, sizeof(struct _URB_PIPE_REQUEST)); if (urb) { urb->UrbHeader.Length = (USHORT) sizeof(struct _URB_PIPE_REQUEST); urb->UrbHeader.Function = URB_FUNCTION_ABORT_PIPE; urb->UrbPipeRequest.PipeHandle = DeviceExtensionHub->PipeInformation.PipeHandle; ntStatus = USBH_FdoSyncSubmitUrb(DeviceExtensionHub->FunctionalDeviceObject, urb); // // wait on the abort event // // // timeout here? LOGENTRY(LOG_PNP, "hWAT", DeviceExtensionHub, &DeviceExtensionHub->AbortEvent, ntStatus); if (NT_SUCCESS(ntStatus)) { status = KeWaitForSingleObject( &DeviceExtensionHub->AbortEvent, Suspended, KernelMode, FALSE, NULL); } UsbhExFreePool(urb); } else { ntStatus = STATUS_INSUFFICIENT_RESOURCES; } USBH_KdPrint((2,"'Exit AbortInterruptPipe %x\n", ntStatus)); return ntStatus; } #if 0 NTSTATUS USBH_GetHubConfigurationDescriptor( IN OUT PDEVICE_EXTENSION_HUB DeviceExtensionHub) /* ++ * * Description: * * Get our configuration info. * * Return: * * NTSTATUS * * -- */ { NTSTATUS ntStatus = STATUS_SUCCESS; PURB urb; ULONG numBytes; // transfer length PUCHAR buffer; // a pointer to the transfer buffer PDEVICE_OBJECT deviceObject; USBH_KdPrint((2,"'enter GetConfigurationDescriptor\n")); USBH_ASSERT(EXTENSION_TYPE_HUB == DeviceExtensionHub->ExtensionType); deviceObject = DeviceExtensionHub->FunctionalDeviceObject; USBH_ASSERT(DeviceExtensionHub->ConfigurationDescriptor == NULL); // // Most likely a Hub has 1 configuration, 1 interface and 1 endpoint // possibly follwed by the hub descriptor, try to get it on the first // pass // numBytes = sizeof(USB_CONFIGURATION_DESCRIPTOR) + sizeof(USB_INTERFACE_DESCRIPTOR) + sizeof(USB_ENDPOINT_DESCRIPTOR) + sizeof(USB_HUB_DESCRIPTOR); // // Allocate an Urb and descriptor buffer. // urb = UsbhExAllocatePool(NonPagedPool, sizeof(struct _URB_CONTROL_DESCRIPTOR_REQUEST)); if (NULL == urb) { USBH_KdBreak(("GetConfigurationDescriptor fail alloc Urb\n")); ntStatus = STATUS_INSUFFICIENT_RESOURCES; } if (NT_SUCCESS(ntStatus)) { // // got the urb no try to get descriptor data // USBH_GetHubConfigurationDescriptor_Retry: buffer = (PUCHAR) UsbhExAllocatePool(NonPagedPool, numBytes); if (buffer != NULL) { UsbBuildGetDescriptorRequest(urb, (USHORT) sizeof (struct _URB_CONTROL_DESCRIPTOR_REQUEST), USB_CONFIGURATION_DESCRIPTOR_TYPE, 0, 0, buffer, NULL, numBytes, NULL); ntStatus = USBH_FdoSyncSubmitUrb(deviceObject, urb); } else { USBH_KdBreak(("GetConfigurationDescriptor fail alloc memory\n")); ntStatus = STATUS_INSUFFICIENT_RESOURCES; } if (!NT_SUCCESS(ntStatus)) { UsbhExFreePool(buffer); USBH_KdPrint((2,"'GetConfigurationDescriptor fail calling Usbd code %x\n", ntStatus)); } else { if (((PUSB_CONFIGURATION_DESCRIPTOR) buffer)->wTotalLength > numBytes) { // // should only hit this if the hub has > 7 ports // UsbhExFreePool(buffer); USBH_KdBreak(("GetConfigurationDescriptor 2nd try\n")); goto USBH_GetHubConfigurationDescriptor_Retry; } else { // // success // DeviceExtensionHub->ConfigurationDescriptor = (PUSB_CONFIGURATION_DESCRIPTOR) buffer; } } } // // Free the Urb and first buffer for descriptors // if (urb != NULL) { UsbhExFreePool(urb); } return ntStatus; } #endif BOOLEAN IsBitSet( PVOID Bitmap, ULONG PortNumber) /* ++ * * Description: * * Check if a bit is set given a string of bytes. * * Arguments: * * pul - the string of bitmap ulPortNumber - the bit location to check for the * port * * Return: * * TRUE - if the corresponding bit is set. FALSE - otherwise * * -- */ { ULONG dwordOffset; ULONG bitOffset; PUCHAR l = (PUCHAR) Bitmap; dwordOffset = PortNumber / 8; bitOffset = PortNumber % 8; return ((l[dwordOffset] & (1 << bitOffset)) ? TRUE : FALSE); } NTSTATUS USBH_OpenConfiguration( IN PDEVICE_EXTENSION_HUB DeviceExtensionHub) /* ++ * * Description: * * Configure the USB hub device. * * Argument: * * Return: * * NtStatus * * -- */ { NTSTATUS ntStatus; PURB urb; PUSB_INTERFACE_DESCRIPTOR interfaceDescriptor; USBD_INTERFACE_LIST_ENTRY interfaceList[2]; USBH_KdPrint((2,"'Enter OpenConfiguration\n")); // // I do not believe it is legal to have a hub with any other // interfaces. // // This code will locate the 'HUB' interface and configure // the device as if this were the only interface. // // // find the hub interface // if ((DeviceExtensionHub->HubFlags & HUBFLAG_USB20_HUB) && !IS_ROOT_HUB(DeviceExtensionHub)) { // 2.0 hubs may have multiple interfaces // one for per port TTs // one for a global TT // these are diferentiated by the bportocol field we attempt // to select the multi-TT version by default // USBH_KdPrint((1,"'Configure 2.0 hub %x\n", DeviceExtensionHub->ConfigurationDescriptor)); // find a Multi TT interface interfaceDescriptor = USBD_ParseConfigurationDescriptorEx( (PUSB_CONFIGURATION_DESCRIPTOR) DeviceExtensionHub->ConfigurationDescriptor, (PVOID) DeviceExtensionHub->ConfigurationDescriptor, -1, //interface, don't care -1, //alt setting, don't care USB_DEVICE_CLASS_HUB, // hub class -1, // subclass, don't care 2); // multi TT protocol if (interfaceDescriptor != NULL) { USBH_KdPrint((1,"'USB 2.0 hub - Multi TT\n")); DeviceExtensionHub->HubFlags |= HUBFLAG_USB20_MULTI_TT; } else { // locate the single TT protocol, may be zero or 1 interfaceDescriptor = USBD_ParseConfigurationDescriptorEx( (PUSB_CONFIGURATION_DESCRIPTOR) DeviceExtensionHub->ConfigurationDescriptor, (PVOID) DeviceExtensionHub->ConfigurationDescriptor, -1, //interface, don't care -1, //alt setting, don't care USB_DEVICE_CLASS_HUB, // hub class -1, // subclass, don't care 1); // single TT protocol if (interfaceDescriptor == NULL) { // locate the single TT protocol interfaceDescriptor = USBD_ParseConfigurationDescriptorEx( (PUSB_CONFIGURATION_DESCRIPTOR) DeviceExtensionHub->ConfigurationDescriptor, (PVOID) DeviceExtensionHub->ConfigurationDescriptor, -1, //interface, don't care -1, //alt setting, don't care USB_DEVICE_CLASS_HUB, // hub class -1, // subclass, don't care 0); // single TT protocol } if (interfaceDescriptor != NULL) { USBH_KdPrint((1,"'USB 2.0 hub - Single TT\n")); } } } else { // just do what we always did to be safe interfaceDescriptor = USBD_ParseConfigurationDescriptorEx( (PUSB_CONFIGURATION_DESCRIPTOR) DeviceExtensionHub->ConfigurationDescriptor, (PVOID) DeviceExtensionHub->ConfigurationDescriptor, -1, //interface, don't care -1, //alt setting, don't care USB_DEVICE_CLASS_HUB, // hub class -1, // subclass, don't care -1); // protocol, don't care } if (interfaceDescriptor == NULL || interfaceDescriptor->bInterfaceClass != USB_DEVICE_CLASS_HUB) { USBH_KdBreak(("OpenConfiguration interface not found\n")); return STATUS_UNSUCCESSFUL; } interfaceList[0].InterfaceDescriptor = interfaceDescriptor; // terminate the list interfaceList[1].InterfaceDescriptor = NULL; urb = USBD_CreateConfigurationRequestEx(DeviceExtensionHub->ConfigurationDescriptor, &interfaceList[0]); if (NULL == urb) { USBH_KdBreak(("OpenConfiguration aloc Urb failed\n")); return STATUS_INSUFFICIENT_RESOURCES; } ntStatus = USBH_FdoSyncSubmitUrb(DeviceExtensionHub->FunctionalDeviceObject, urb); if (NT_SUCCESS(ntStatus)) { PUSBD_INTERFACE_INFORMATION interface; // // interface we selected // interface = interfaceList[0].Interface; // // Save the pipe handle for the Interrupt pipe // DeviceExtensionHub->PipeInformation = interface->Pipes[0]; DeviceExtensionHub->Configuration = urb->UrbSelectConfiguration.ConfigurationHandle; } ExFreePool(urb); USBH_KdPrint((2,"'Exit OpenConfiguration PipeInfo %x\n", DeviceExtensionHub->PipeInformation)); return ntStatus; } NTSTATUS USBH_CloseConfiguration( IN PDEVICE_EXTENSION_FDO DeviceExtensionFdo ) /* ++ * * Description: * * Close our confiuration on USB to prepare for removal of ourselves. Before * this is called, the InterruptTransfer should have been removed by * USBH_AbortInterruptPipe. * * Argument: * * DeviceExtensionHub - pointer to the FDO extension * * Return: * * NtStatus * * -- */ { NTSTATUS ntStatus; PURB urb; USBH_KdPrint((2,"'Enter CloseConfiguration\n")); urb = UsbhExAllocatePool(NonPagedPool, sizeof(struct _URB_SELECT_CONFIGURATION)); if (NULL == urb) { USBH_KdBreak(("OpenConfiguration aloc Urb failed\n")); return STATUS_INSUFFICIENT_RESOURCES; } urb->UrbHeader.Length = sizeof(struct _URB_SELECT_CONFIGURATION); urb->UrbHeader.Function = URB_FUNCTION_SELECT_CONFIGURATION; urb->UrbSelectConfiguration.ConfigurationDescriptor = NULL; ntStatus = USBH_FdoSyncSubmitUrb(DeviceExtensionFdo->FunctionalDeviceObject, urb); UsbhExFreePool(urb); USBH_KdPrint((2,"'Exit CloseConfiguration %x\n", ntStatus)); return ntStatus; } NTSTATUS USBH_SubmitInterruptTransfer( IN PDEVICE_EXTENSION_HUB DeviceExtensionHub ) /* ++ * * Description: * * To submit a listen down for Status Change interrupt transfer. When the * transfer is completed, the USBH_ChangeIndication will be called. * * Arguments: * * DeviceExtensionHub - the hub we are listening * * Return: * * NTSTATUS * * -- */ { NTSTATUS ntStatus; PIO_STACK_LOCATION nextStack; // next stack of the Irp PIRP irp; PURB urb; CHAR stackSize; USBH_KdPrint((2,"'Enter Submit IntTrans\n")); irp = DeviceExtensionHub->Irp; USBH_ASSERT(NULL != irp); // Synchronize with FdoPower. Don't let the IRP slip through if FdoPower // has already set the HUBFLAG_DEVICE_LOW_POWER flag. // // It is ok to allow this through in the REMOVE case // (i.e. HUBFLAG_DEVICE_STOPPING is set) because the IRP will need to // be submitted so that it can be aborted by USBH_FdoCleanup. if (DeviceExtensionHub->HubFlags & HUBFLAG_DEVICE_LOW_POWER) { irp = NULL; } if (!irp) { ntStatus = STATUS_INVALID_DEVICE_STATE; LOGENTRY(LOG_PNP, "Int!", DeviceExtensionHub, DeviceExtensionHub->HubFlags, 0); goto SubmitIntTrans_Exit; } urb = &DeviceExtensionHub->Urb; USBH_ASSERT(NULL != urb); USBH_ASSERT(sizeof(*urb) >= sizeof(struct _URB_BULK_OR_INTERRUPT_TRANSFER)); // // Fill in Urb header // LOGENTRY(LOG_PNP, "Int>", DeviceExtensionHub, urb, irp); urb->UrbHeader.Length = (USHORT) sizeof(struct _URB_BULK_OR_INTERRUPT_TRANSFER); urb->UrbHeader.Function = URB_FUNCTION_BULK_OR_INTERRUPT_TRANSFER; urb->UrbHeader.UsbdDeviceHandle = NULL; // // Fill in Urb body // urb->UrbBulkOrInterruptTransfer.PipeHandle = DeviceExtensionHub->PipeInformation.PipeHandle; urb->UrbBulkOrInterruptTransfer.TransferFlags = USBD_SHORT_TRANSFER_OK; urb->UrbBulkOrInterruptTransfer.TransferBufferLength = DeviceExtensionHub->TransferBufferLength; urb->UrbBulkOrInterruptTransfer.TransferBuffer = DeviceExtensionHub->TransferBuffer; urb->UrbBulkOrInterruptTransfer.TransferBufferMDL = NULL; urb->UrbBulkOrInterruptTransfer.UrbLink = NULL; stackSize = DeviceExtensionHub->TopOfStackDeviceObject->StackSize; IoInitializeIrp(irp, (USHORT) (sizeof(IRP) + stackSize * sizeof(IO_STACK_LOCATION)), (CCHAR) stackSize); nextStack = IoGetNextIrpStackLocation(irp); nextStack->Parameters.Others.Argument1 = urb; nextStack->MajorFunction = IRP_MJ_INTERNAL_DEVICE_CONTROL; nextStack->Parameters.DeviceIoControl.IoControlCode = IOCTL_INTERNAL_USB_SUBMIT_URB; IoSetCompletionRoutine(irp, // Irp USBH_ChangeIndication, DeviceExtensionHub, // context TRUE, // invoke on success TRUE, // invoke on error TRUE); // invoke on cancel // // Call the USB stack // // // reset the abort event to not-signaled // KeResetEvent(&DeviceExtensionHub->AbortEvent); ntStatus = IoCallDriver(DeviceExtensionHub->TopOfStackDeviceObject, irp); // // completion routine will handle errors. // SubmitIntTrans_Exit: USBH_KdPrint((2,"'Exit SubmitIntTrans %x\n", ntStatus)); return ntStatus; } NTSTATUS USBH_QueryCapsComplete( IN PDEVICE_OBJECT PNull, IN PIRP Irp, IN PVOID Context) /* ++ * * Description: * * This is a call back when the listen of Interrupt control completes. * * Arguments: * * pDeviceObject - should be NULL in our case pIrp - the Irp that is completed * for the interrupt transfer. pContext - context value for this Irp. * * Return: * * NTSTATUS * * -- */ { PDEVICE_EXTENSION_HUB deviceExtensionHub; NTSTATUS ntStatus; PDEVICE_CAPABILITIES deviceCapabilities; PIO_STACK_LOCATION ioStack; deviceExtensionHub = Context; ntStatus = Irp->IoStatus.Status; if (Irp->PendingReturned) { IoMarkIrpPending(Irp); } //cause we said 'invoke on success' USBH_ASSERT(NT_SUCCESS(ntStatus)); ioStack = IoGetCurrentIrpStackLocation(Irp); deviceCapabilities = ioStack->Parameters.DeviceCapabilities.Capabilities; USBH_ASSERT(ioStack != NULL); USBH_ASSERT(ioStack->MajorFunction == IRP_MJ_PNP); USBH_ASSERT(ioStack->MinorFunction == IRP_MN_QUERY_CAPABILITIES); deviceCapabilities->SurpriseRemovalOK = TRUE; USBH_KdPrint((1,"'Setting SurpriseRemovalOK to TRUE\n")); return ntStatus; } NTSTATUS USBH_HRPPCancelComplete( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp, IN PVOID Context ) { PLONG lock = (PLONG) Context; if (InterlockedExchange(lock, 3) == 1) { return STATUS_MORE_PROCESSING_REQUIRED; } return STATUS_SUCCESS; } NTSTATUS USBH_HubResetParentPort( IN PDEVICE_EXTENSION_HUB DeviceExtensionHub ) /*++ Routine Description: Resets the hub parent port. Arguments: Return Value: NTSTATUS --*/ { NTSTATUS ntStatus, status = STATUS_SUCCESS; PIRP irp; KEVENT event; IO_STATUS_BLOCK ioStatus; LARGE_INTEGER dueTime; LONG lock; USBH_KdPrint((1,"'Reset Hub Parent Port, Hub DevExt: %x, PDO: %x\n", DeviceExtensionHub, DeviceExtensionHub->PhysicalDeviceObject)); LOGENTRY(LOG_PNP, "HRPP", DeviceExtensionHub, DeviceExtensionHub->TopOfStackDeviceObject, DeviceExtensionHub->RootHubPdo); // // issue a synchronous request // KeInitializeEvent(&event, NotificationEvent, FALSE); irp = IoBuildDeviceIoControlRequest( IOCTL_INTERNAL_USB_RESET_PORT, DeviceExtensionHub->TopOfStackDeviceObject, NULL, 0, NULL, 0, TRUE, /* INTERNAL */ &event, &ioStatus); if (irp == NULL) { return STATUS_INSUFFICIENT_RESOURCES; } lock = 0; IoSetCompletionRoutine( irp, USBH_HRPPCancelComplete, &lock, TRUE, TRUE, TRUE ); // // Call the class driver to perform the operation. If the returned status // is PENDING, wait for the request to complete. // ntStatus = IoCallDriver(DeviceExtensionHub->TopOfStackDeviceObject, irp); if (ntStatus == STATUS_PENDING) { dueTime.QuadPart = -10000 * ESD_RESET_TIMEOUT; status = KeWaitForSingleObject( &event, Suspended, KernelMode, FALSE, &dueTime); if (status == STATUS_TIMEOUT) { LOGENTRY(LOG_PNP, "HRPX", DeviceExtensionHub, DeviceExtensionHub->TopOfStackDeviceObject, DeviceExtensionHub->RootHubPdo); USBH_KdPrint((1,"'Reset Hub Parent Port timed out!\n")); if (InterlockedExchange(&lock, 1) == 0) { // // We got it to the IRP before it was completed. We can cancel // the IRP without fear of losing it, as the completion routine // won't let go of the IRP until we say so. // IoCancelIrp(irp); // // Release the completion routine. If it already got there, // then we need to complete it ourselves. Otherwise we got // through IoCancelIrp before the IRP completed entirely. // if (InterlockedExchange(&lock, 2) == 3) { // // Mark it pending because we switched threads. // IoMarkIrpPending(irp); IoCompleteRequest(irp, IO_NO_INCREMENT); } } KeWaitForSingleObject(&event, Suspended, KernelMode, FALSE, NULL); // Return STATUS_TIMEOUT ioStatus.Status = status; } } else { ioStatus.Status = ntStatus; } ntStatus = ioStatus.Status; return ntStatus; } VOID USBH_HubESDRecoveryDPC( IN PKDPC Dpc, IN PVOID DeferredContext, IN PVOID SystemArgument1, IN PVOID SystemArgument2 ) /*++ Routine Description: This routine runs at DISPATCH_LEVEL IRQL. Arguments: Dpc - Pointer to the DPC object. DeferredContext - SystemArgument1 - not used. SystemArgument2 - not used. Return Value: None. --*/ { PHUB_ESD_RECOVERY_CONTEXT hubESDRecoveryContext = DeferredContext; PDEVICE_EXTENSION_HUB deviceExtensionHub = hubESDRecoveryContext->DeviceExtensionHub; PUSBH_HUB_ESD_RECOVERY_WORK_ITEM workItemHubESDRecovery; USBH_KdPrint((1,"'Hub ESD Recovery DPC\n")); UsbhExFreePool(hubESDRecoveryContext); InterlockedExchange(&deviceExtensionHub->InESDRecovery, 0); if (!(deviceExtensionHub->HubFlags & HUBFLAG_DEVICE_STOPPING)) { // // Schedule a work item to process this. // workItemHubESDRecovery = UsbhExAllocatePool(NonPagedPool, sizeof(USBH_HUB_ESD_RECOVERY_WORK_ITEM)); if (workItemHubESDRecovery) { workItemHubESDRecovery->DeviceExtensionHub = deviceExtensionHub; ExInitializeWorkItem(&workItemHubESDRecovery->WorkQueueItem, USBH_HubESDRecoveryWorker, workItemHubESDRecovery); LOGENTRY(LOG_PNP, "hESD", deviceExtensionHub, &workItemHubESDRecovery->WorkQueueItem, 0); ExQueueWorkItem(&workItemHubESDRecovery->WorkQueueItem, DelayedWorkQueue); // The WorkItem is freed by USBH_HubESDRecoveryWorker() // Don't try to access the WorkItem after it is queued. } else { USBH_DEC_PENDING_IO_COUNT(deviceExtensionHub); } } else { USBH_KdPrint((1,"'Hub stopping, nothing to do\n")); USBH_DEC_PENDING_IO_COUNT(deviceExtensionHub); } } NTSTATUS USBH_ScheduleESDRecovery( IN PDEVICE_EXTENSION_HUB DeviceExtensionHub ) /* ++ * * Description: * * Schedules the timer event to handle a hub ESD failure. * * * Arguments: * * Return: * * -- */ { PHUB_ESD_RECOVERY_CONTEXT hubESDRecoveryContext = NULL; LARGE_INTEGER dueTime; NTSTATUS ntStatus = STATUS_UNSUCCESSFUL; // Only do this for external hubs. if (IS_ROOT_HUB(DeviceExtensionHub)) { USBH_KdPrint((1,"'RootHub failed\n")); return STATUS_UNSUCCESSFUL; } if (InterlockedExchange(&DeviceExtensionHub->InESDRecovery, 1) == 1) { // We already have a timer event scheduled for this. Don't reschedule. } else { USBH_KdPrint((1,"'Schedule ESD Recovery\n")); LOGENTRY(LOG_PNP, "ESDs", DeviceExtensionHub, DeviceExtensionHub->HubFlags, 0); hubESDRecoveryContext = UsbhExAllocatePool(NonPagedPool, sizeof(*hubESDRecoveryContext)); if (hubESDRecoveryContext) { hubESDRecoveryContext->DeviceExtensionHub = DeviceExtensionHub; KeInitializeTimer(&hubESDRecoveryContext->TimeoutTimer); KeInitializeDpc(&hubESDRecoveryContext->TimeoutDpc, USBH_HubESDRecoveryDPC, hubESDRecoveryContext); dueTime.QuadPart = -10000 * ESD_RECOVERY_TIMEOUT; KeSetTimer(&hubESDRecoveryContext->TimeoutTimer, dueTime, &hubESDRecoveryContext->TimeoutDpc); USBH_INC_PENDING_IO_COUNT(DeviceExtensionHub); ntStatus = STATUS_SUCCESS; } } return ntStatus; } NTSTATUS USBH_HubESDRecoverySetD0Completion( IN PDEVICE_OBJECT DeviceObject, IN UCHAR MinorFunction, IN POWER_STATE PowerState, IN PVOID Context, IN PIO_STATUS_BLOCK IoStatus ) /*++ Routine Description: Arguments: DeviceObject - Pointer to the device object for the class device. Irp - Irp completed. Context - Driver defined context. Return Value: The function value is the final status from the operation. --*/ { NTSTATUS ntStatus, status; PDEVICE_EXTENSION_HUB deviceExtensionHub = Context; ntStatus = IoStatus->Status; if (NT_SUCCESS(ntStatus)) { // Hub is now powered back on and fully recovered. Now find the // devices attached to the hub. deviceExtensionHub->HubFlags &= ~(HUBFLAG_HUB_HAS_LOST_BRAINS | HUBFLAG_HUB_FAILURE); // Don't allow selective suspend while post-ESD enumeration is // pending. deviceExtensionHub->HubFlags |= HUBFLAG_POST_ESD_ENUM_PENDING; USBH_IoInvalidateDeviceRelations(deviceExtensionHub->PhysicalDeviceObject, BusRelations); USBH_DEC_PENDING_IO_COUNT(deviceExtensionHub); } else { // Setting hub parent port to D0 failed, we are likely still // experiencing ESD. Reschedule the ESD recovery. status = USBH_ScheduleESDRecovery(deviceExtensionHub); if (status == STATUS_SUCCESS) { // Remove extra pending count bump USBH_DEC_PENDING_IO_COUNT(deviceExtensionHub); } } return ntStatus; } NTSTATUS USBH_HubESDRecoverySetD3Completion( IN PDEVICE_OBJECT DeviceObject, IN UCHAR MinorFunction, IN POWER_STATE PowerState, IN PVOID Context, IN PIO_STATUS_BLOCK IoStatus ) /*++ Routine Description: Arguments: DeviceObject - Pointer to the device object for the class device. Irp - Irp completed. Context - Driver defined context. Return Value: The function value is the final status from the operation. --*/ { NTSTATUS ntStatus; PKEVENT pEvent = Context; KeSetEvent(pEvent, 1, FALSE); ntStatus = IoStatus->Status; return ntStatus; } VOID USBH_HubESDRecoveryWorker( IN PVOID Context) /* ++ * * Description: * * Work item scheduled to handle a hub ESD failure. * * * Arguments: * * Return: * * -- */ { PUSBH_HUB_ESD_RECOVERY_WORK_ITEM workItemHubESDRecovery; PDEVICE_EXTENSION_HUB deviceExtensionHub; PDEVICE_EXTENSION_PORT hubParentDeviceExtensionPort; POWER_STATE powerState; PORT_STATE portState; NTSTATUS ntStatus, status; PAGED_CODE(); workItemHubESDRecovery = Context; deviceExtensionHub = workItemHubESDRecovery->DeviceExtensionHub; UsbhExFreePool(workItemHubESDRecovery); USBH_KdPrint((1,"'Hub ESD Recovery Worker\n")); // NB: Because I now check for HUBFLAG_DEVICE_STOPPING in // USBH_HubESDRecoveryDPC, some of the following sanity checking might // not be necessary, but I'll leave it in anyway to be safe. // In the case where there are nested hubs, the hub device extension // for one of the downstream hubs might be invalid by the time this // workitem is called. Check for that here. if (deviceExtensionHub->ExtensionType != EXTENSION_TYPE_HUB) { USBH_KdPrint((1,"'Downstream hub already removed, nothing to do\n")); USBH_DEC_PENDING_IO_COUNT(deviceExtensionHub); return; } // If the hub has been physically removed from the bus, then we have // nothing to do here. if (!deviceExtensionHub->PhysicalDeviceObject) { USBH_KdPrint((1,"'Hub has been removed (no PDO), nothing to do\n")); USBH_DEC_PENDING_IO_COUNT(deviceExtensionHub); return; } hubParentDeviceExtensionPort = deviceExtensionHub->PhysicalDeviceObject->DeviceExtension; LOGENTRY(LOG_PNP, "ESDw", deviceExtensionHub, hubParentDeviceExtensionPort->PortPdoFlags, deviceExtensionHub->HubFlags); // USBH_KdPrint((1,"'Hub parent port PortPdoFlags: %x\n", // hubParentDeviceExtensionPort->PortPdoFlags)); // We definitely need the following check, so don't remove this. if (hubParentDeviceExtensionPort->PortPdoFlags & (PORTPDO_DELETED_PDO | PORTPDO_DELETE_PENDING) || !(hubParentDeviceExtensionPort->PortPdoFlags & PORTPDO_DEVICE_IS_HUB)) { USBH_KdPrint((1,"'Hub has been removed, nothing to do\n")); USBH_DEC_PENDING_IO_COUNT(deviceExtensionHub); return; } // Be sure that the hub hasn't stopped or set to a low power state before // this workitem had a chance to run. if (deviceExtensionHub->HubFlags & HUBFLAG_DEVICE_STOPPING) { USBH_KdPrint((1,"'Hub has is stopping or in low power, nothing to do\n")); USBH_DEC_PENDING_IO_COUNT(deviceExtensionHub); return; } // One last sanity check. Check the port status for the parent port // of this hub and be sure that a device is still connected. ntStatus = USBH_SyncGetPortStatus( hubParentDeviceExtensionPort->DeviceExtensionHub, hubParentDeviceExtensionPort->PortNumber, (PUCHAR) &portState, sizeof(portState)); if (!NT_SUCCESS(ntStatus) || !(portState.PortStatus & PORT_STATUS_CONNECT)) { USBH_KdPrint((1,"'Hub device has been physically disconnected, nothing to do\n")); USBH_DEC_PENDING_IO_COUNT(deviceExtensionHub); return; } // Reset the parent port for this hub. ntStatus = USBH_HubResetParentPort(deviceExtensionHub); USBH_KdPrint((1,"'USBH_HubResetParentPort returned %x\n", ntStatus)); if (ntStatus == STATUS_INVALID_PARAMETER) { // Looks like we lost the port PDO somewhere along the way. // (Call to USBH_ResetDevice from USBH_RestoreDevice failed.) // Bail out of this ESD recovery, and the user will have to // unplug/replug the hub to get it back. Maybe we can revisit // this later. USBH_KdPrint((1,"'Lost hub PDO during reset, bail\n")); USBH_DEC_PENDING_IO_COUNT(deviceExtensionHub); return; } if (ntStatus == STATUS_TIMEOUT) { USBH_DEC_PENDING_IO_COUNT(deviceExtensionHub); return; } if (NT_SUCCESS(ntStatus)) { KEVENT event; // On Memphis we must tell power management that the hub is in D3. // (It thinks that the hub is in D0 because it does not know that // resetting the hub's parent port causes the hub to lose power. // // We need to do this on Memphis because power management appears to // track the power state of devices and will suppress sending a power // request to a device if it thinks that the device is already in that // power state. Under NT they don't seem to care and will send the // request along anyway. KeInitializeEvent(&event, NotificationEvent, FALSE); powerState.DeviceState = PowerDeviceD3; // "Power down" the hub. ntStatus = PoRequestPowerIrp(deviceExtensionHub->PhysicalDeviceObject, IRP_MN_SET_POWER, powerState, USBH_HubESDRecoverySetD3Completion, &event, NULL); USBH_ASSERT(ntStatus == STATUS_PENDING); if (ntStatus == STATUS_PENDING) { USBH_KdPrint((2,"'Wait for single object\n")); status = KeWaitForSingleObject(&event, Suspended, KernelMode, FALSE, NULL); USBH_KdPrint((2,"'Wait for single object, returned %x\n", status)); } deviceExtensionHub->CurrentPowerState = PowerDeviceD3; powerState.DeviceState = PowerDeviceD0; // Power up the hub. ntStatus = PoRequestPowerIrp(deviceExtensionHub->PhysicalDeviceObject, IRP_MN_SET_POWER, powerState, USBH_HubESDRecoverySetD0Completion, deviceExtensionHub, NULL); if (ntStatus != STATUS_PENDING) { // Power IRP request was not successful. Reschedule the recovery // so that we can try again later. status = USBH_ScheduleESDRecovery(deviceExtensionHub); if (status == STATUS_SUCCESS) { // Remove extra pending count bump USBH_DEC_PENDING_IO_COUNT(deviceExtensionHub); } } } else { // Reset hub parent port failed, we are likely still experiencing ESD. // Reschedule the ESD recovery. status = USBH_ScheduleESDRecovery(deviceExtensionHub); if (status == STATUS_SUCCESS) { // Remove extra pending count bump USBH_DEC_PENDING_IO_COUNT(deviceExtensionHub); } } } NTSTATUS USBH_ChangeIndication( IN PDEVICE_OBJECT PNull, IN PIRP Irp, IN PVOID Context) /* ++ * * Description: * * This is a call back when the listen of Interrupt control completes. * * Arguments: * * pDeviceObject - should be NULL in our case pIrp - the Irp that is completed * for the interrupt transfer. pContext - context value for this Irp. * * Return: * * NTSTATUS * * -- */ { PURB urb; // the Urb assocaited with this Irp PDEVICE_EXTENSION_HUB deviceExtensionHub; PDEVICE_EXTENSION_PORT deviceExtensionPort; PUSBH_WORK_ITEM workItem; BOOLEAN requestReset = FALSE; USHORT portNumber, numberOfPorts; deviceExtensionHub = (PDEVICE_EXTENSION_HUB) Context; // the context is // DeviceExtensionHub urb = &deviceExtensionHub->Urb; USBH_KdPrint((2,"'ChangeIndication Irp status %x URB status = %x\n", Irp->IoStatus.Status, urb->UrbHeader.Status)); LOGENTRY(LOG_PNP, "chID", deviceExtensionHub, urb, Irp); if (NT_ERROR(Irp->IoStatus.Status) || USBD_ERROR(urb->UrbHeader.Status) || (deviceExtensionHub->HubFlags & (HUBFLAG_HUB_FAILURE | HUBFLAG_DEVICE_STOPPING)) || urb->UrbHeader.Status == USBD_STATUS_CANCELED) { requestReset = TRUE; deviceExtensionHub->ErrorCount++; // // An error has occurred submitting the interrupt // transfer, possible causes: // // 1. the interrupt pipe is stalled // 2. the hub is experiencing a temporary problem // 3. the hub is messed up and we need to reset it // 4. we are stopping the device // 5. the hub has been removed from the bus // // In any case we will need to take some action. // // if an abort event is waiting signal it // LOGENTRY(LOG_PNP, "cERR", deviceExtensionHub, &deviceExtensionHub->AbortEvent, deviceExtensionHub->ErrorCount); if ((deviceExtensionHub->HubFlags & HUBFLAG_DEVICE_STOPPING) || deviceExtensionHub->ErrorCount > USBH_MAX_ERRORS || (deviceExtensionHub->HubFlags & HUBFLAG_HUB_FAILURE) || Irp->IoStatus.Status == STATUS_DELETE_PENDING) { // // shutting down the hub, do not schedule any more // work items while in this state. // USBH_KdPrint((2,"'ChangeIndication, device stopping or hub failure\n")); #if DBG if (deviceExtensionHub->ErrorCount > USBH_MAX_ERRORS) { // we may ideed have a hub failure, more liekly // the device was just unplugged, if the hub has // failed we should pick this up when we try to // do control tranfers to it. LOGENTRY(LOG_PNP, "xERR", deviceExtensionHub, 0, deviceExtensionHub->ErrorCount); } #endif // Set the AbortEvent after checking the HubFlags, not before. // As soon as the AbortEvent is set the thread waiting on it may // run and cause the HubFlags to change. // KeSetEvent(&deviceExtensionHub->AbortEvent, 1, FALSE); goto USBH_ChangeIndication_Done; } // Set the AbortEvent after checking the HubFlags, not before. // KeSetEvent(&deviceExtensionHub->AbortEvent, 1, FALSE); } else { // reset error count on successful // transfer LOGENTRY(LOG_PNP, "zERR", deviceExtensionHub, 0, deviceExtensionHub->ErrorCount); deviceExtensionHub->ErrorCount = 0; } USBH_KdPrint((2,"'Enter ChangeIndication Transfer %x \n", deviceExtensionHub->TransferBuffer)); #if DBG { ULONG i; for (i=0; i< deviceExtensionHub->TransferBufferLength; i++) { USBH_KdPrint((2,"'TransferBuffer[%d] = %x\n", i, deviceExtensionHub->TransferBuffer[i])); } } #endif // // Schedule a work item to process this change // workItem = UsbhExAllocatePool(NonPagedPool, sizeof(USBH_WORK_ITEM)+ deviceExtensionHub->TransferBufferLength); if (workItem) { NTSTATUS status; workItem->Flags = 0; if (requestReset) { workItem->Flags = USBH_WKFLAG_REQUEST_RESET; } // i-friend, indicate we have a workitem pendingf= { LONG cWKPendingCount; cWKPendingCount = InterlockedIncrement( &deviceExtensionHub->ChangeIndicationWorkitemPending); // Prevent hub from powering down or being removed if there is a // ChangeIndicationAckChange pending. if (cWKPendingCount == 1) { KeResetEvent(&deviceExtensionHub->CWKEvent); } } workItem->DeviceExtensionHub = deviceExtensionHub; USBH_ASSERT(deviceExtensionHub->WorkItemToQueue == NULL); deviceExtensionHub->WorkItemToQueue = workItem; RtlCopyMemory(&workItem->Data[0], deviceExtensionHub->TransferBuffer, deviceExtensionHub->TransferBufferLength); ExInitializeWorkItem(&workItem->WorkQueueItem, USBH_ChangeIndicationWorker, workItem); // now process the change, this will signal any waiting // reset or resume withoutr reqireing a work item LOGENTRY(LOG_PNP, "cITM", deviceExtensionHub, &workItem->WorkQueueItem, 0); numberOfPorts = deviceExtensionHub->HubDescriptor->bNumberOfPorts; for (portNumber = 0; portNumber <= numberOfPorts; portNumber++) { if (IsBitSet(&workItem->Data[0], portNumber)) { break; } } // If none of the bits for the ports were set in the loop above // (i.e. we can't find a change on any of the ports), then just // assume port zero and USBH_ChangeIndicationQueryChange will // handle accordingly. if (portNumber > numberOfPorts) { portNumber = 0; } status = USBH_ChangeIndicationQueryChange( deviceExtensionHub, Irp, urb, portNumber); if (NT_ERROR(status)) { HUB_FAILURE(deviceExtensionHub); } } #if DBG else { LOGENTRY(LOG_PNP, "XMEM", deviceExtensionHub, 0, 0); UsbhWarning(NULL, "Memory allocation error in USBH_ChangeIndication, cannot process hub changes.\n", FALSE); } #endif USBH_ChangeIndication_Done: // // keep the irp // return STATUS_MORE_PROCESSING_REQUIRED; } NTSTATUS USBH_ChangeIndicationQueryChange( IN PDEVICE_EXTENSION_HUB DeviceExtensionHub, IN PIRP Irp, IN PURB Urb, IN USHORT Port ) /* ++ * * Description: * * Queries what changed, ie checks the port to see what changed * * Arguments: * * Return: * * * -- */ { NTSTATUS ntStatus = STATUS_SUCCESS; PIO_STACK_LOCATION nextStack; // next stack of the Irp CHAR stackSize; PUSBH_WORK_ITEM workItem; LONG cWKPendingCount; LOGENTRY(LOG_PNP, "QCH>", DeviceExtensionHub, Urb, Port); // bump the io count now this represents pending workitem // we will queue on completion of this irp USBH_INC_PENDING_IO_COUNT(DeviceExtensionHub); if (Port == 0) { // // if we have a hub status change just queue our // workitem and get out // USBH_ASSERT(DeviceExtensionHub->WorkItemToQueue != NULL); workItem = DeviceExtensionHub->WorkItemToQueue; DeviceExtensionHub->WorkItemToQueue = NULL; LOGENTRY(LOG_PNP, "qIT2", DeviceExtensionHub, &workItem->WorkQueueItem, 0); ExQueueWorkItem(&workItem->WorkQueueItem, DelayedWorkQueue); return ntStatus; } Urb->UrbHeader.Length = (USHORT) sizeof(struct _URB_BULK_OR_INTERRUPT_TRANSFER); Urb->UrbHeader.Function = URB_FUNCTION_CLASS_OTHER; // // Fill in Urb body // UsbhBuildVendorClassUrb(Urb, NULL, URB_FUNCTION_CLASS_OTHER, USBD_TRANSFER_DIRECTION_IN | USBD_SHORT_TRANSFER_OK, REQUEST_TYPE_GET_PORT_STATUS, REQUEST_GET_STATUS, 0, Port, sizeof(DeviceExtensionHub->PortStateBuffer), &DeviceExtensionHub->PortStateBuffer); DeviceExtensionHub->ResetPortNumber = Port; stackSize = DeviceExtensionHub->TopOfStackDeviceObject->StackSize; IoInitializeIrp(Irp, (USHORT) (sizeof(IRP) + stackSize * sizeof(IO_STACK_LOCATION)), (CCHAR) stackSize); nextStack = IoGetNextIrpStackLocation(Irp); nextStack->Parameters.Others.Argument1 = Urb; nextStack->MajorFunction = IRP_MJ_INTERNAL_DEVICE_CONTROL; nextStack->Parameters.DeviceIoControl.IoControlCode = IOCTL_INTERNAL_USB_SUBMIT_URB; IoSetCompletionRoutine(Irp, // Irp USBH_ChangeIndicationProcessChange, DeviceExtensionHub, // context TRUE, // invoke on success TRUE, // invoke on error TRUE); // invoke on cancel ntStatus = IoCallDriver(DeviceExtensionHub->TopOfStackDeviceObject, Irp); return ntStatus; } NTSTATUS USBH_ChangeIndicationProcessChange( IN PDEVICE_OBJECT PNull, IN PIRP Irp, IN PVOID Context ) /* ++ * * Description: * * Take some action based on change * * Arguments: * * Return: * * * -- */ { PPORT_STATE currentPortState; PDEVICE_EXTENSION_HUB deviceExtensionHub; PUSBH_WORK_ITEM workItem; PURB urb; NTSTATUS status; USHORT wFeatureSelector; LONG cWKPendingCount; deviceExtensionHub = Context; currentPortState = &(deviceExtensionHub->PortStateBuffer); urb = &deviceExtensionHub->Urb; LOGENTRY(LOG_PNP, "PCHc", deviceExtensionHub, *((PULONG)currentPortState), Irp); if ((NT_SUCCESS(Irp->IoStatus.Status) || USBD_SUCCESS(urb->UrbHeader.Status)) && (currentPortState->PortChange & PORT_STATUS_RESET || currentPortState->PortChange & PORT_STATUS_ENABLE)) { // // bit 4 RESET completed // // no workitem LOGENTRY(LOG_PNP, "nITM", deviceExtensionHub, 0, 0); USBH_DEC_PENDING_IO_COUNT(deviceExtensionHub); UsbhExFreePool(deviceExtensionHub->WorkItemToQueue); deviceExtensionHub->WorkItemToQueue = NULL; // // Signal the PNP thread that a the reset has completed // // once we do this we can get antother change indication // so we free the workitem first. // LOGENTRY(LOG_PNP, "RESc", deviceExtensionHub, deviceExtensionHub->ResetPortNumber, 0); if (currentPortState->PortChange & PORT_STATUS_RESET) { wFeatureSelector = FEATURE_C_PORT_RESET; } else { wFeatureSelector = FEATURE_C_PORT_ENABLE; } status = USBH_ChangeIndicationAckChange( deviceExtensionHub, Irp, urb, (USHORT)deviceExtensionHub->ResetPortNumber, wFeatureSelector); return STATUS_MORE_PROCESSING_REQUIRED; } // if (deviceExtensionHub->HubFlags & HUBFLAG_PENDING_PORT_RESET) { // USBH_KdPrint((0,"'port change broke reset\n")); // TEST_TRAP(); // } // // now queue the workitem to finish the processing // USBH_ASSERT(deviceExtensionHub->WorkItemToQueue != NULL); workItem = deviceExtensionHub->WorkItemToQueue; deviceExtensionHub->WorkItemToQueue = NULL; LOGENTRY(LOG_PNP, "qITM", deviceExtensionHub, &workItem->WorkQueueItem, 0); ExQueueWorkItem(&workItem->WorkQueueItem, DelayedWorkQueue); return STATUS_MORE_PROCESSING_REQUIRED; } NTSTATUS USBH_ChangeIndicationAckChange( IN PDEVICE_EXTENSION_HUB DeviceExtensionHub, IN PIRP Irp, IN PURB Urb, IN USHORT Port, IN USHORT FeatureSelector ) /* ++ * * Description: * * Ack a reset change * * Arguments: * * Return: * * * -- */ { NTSTATUS ntStatus = STATUS_SUCCESS; PIO_STACK_LOCATION nextStack; // next stack of the Irp CHAR stackSize; LOGENTRY(LOG_PNP, "ACH>", DeviceExtensionHub, FeatureSelector, Port); Urb->UrbHeader.Length = (USHORT) sizeof(struct _URB_BULK_OR_INTERRUPT_TRANSFER); Urb->UrbHeader.Function = URB_FUNCTION_CLASS_OTHER; // // Fill in Urb body // UsbhBuildVendorClassUrb(Urb, NULL, URB_FUNCTION_CLASS_OTHER, USBD_TRANSFER_DIRECTION_OUT | USBD_SHORT_TRANSFER_OK, REQUEST_TYPE_SET_PORT_FEATURE, REQUEST_CLEAR_FEATURE, FeatureSelector, Port, 0, NULL); stackSize = DeviceExtensionHub->TopOfStackDeviceObject->StackSize; IoInitializeIrp(Irp, (USHORT) (sizeof(IRP) + stackSize * sizeof(IO_STACK_LOCATION)), (CCHAR) stackSize); nextStack = IoGetNextIrpStackLocation(Irp); nextStack->Parameters.Others.Argument1 = Urb; nextStack->MajorFunction = IRP_MJ_INTERNAL_DEVICE_CONTROL; nextStack->Parameters.DeviceIoControl.IoControlCode = IOCTL_INTERNAL_USB_SUBMIT_URB; IoSetCompletionRoutine(Irp, // Irp USBH_ChangeIndicationAckChangeComplete, DeviceExtensionHub, // context TRUE, // invoke on success TRUE, // invoke on error TRUE); // invoke on cancel ntStatus = IoCallDriver(DeviceExtensionHub->TopOfStackDeviceObject, Irp); return ntStatus; } NTSTATUS USBH_ChangeIndicationAckChangeComplete( IN PDEVICE_OBJECT PNull, IN PIRP Irp, IN PVOID Context ) /* ++ * * Description: * * ack a reset change * * Arguments: * * Return: * * * -- */ { PPORT_STATE currentPortState; PDEVICE_EXTENSION_HUB deviceExtensionHub; PPORT_STATE hubExtensionPortState; PURB urb; PKEVENT resetEvent; LONG pendingWorkitem = 0; deviceExtensionHub = Context; currentPortState = &(deviceExtensionHub->PortStateBuffer); urb = &deviceExtensionHub->Urb; LOGENTRY(LOG_PNP, "aCHc", deviceExtensionHub, *((PULONG)currentPortState), Irp); hubExtensionPortState = &(deviceExtensionHub->PortData + deviceExtensionHub->ResetPortNumber - 1)->PortState; *hubExtensionPortState = *currentPortState; resetEvent = InterlockedExchangePointer(&deviceExtensionHub->Event, NULL); if (resetEvent) { LOGENTRY(LOG_PNP, "WAKr", deviceExtensionHub, resetEvent, 0); KeSetEvent(resetEvent, 1, FALSE); } USBH_SubmitInterruptTransfer(deviceExtensionHub); pendingWorkitem = InterlockedDecrement( &deviceExtensionHub->ChangeIndicationWorkitemPending); // If USBH_FdoPower or USBH_FdoCleanup is waiting on this // ChangeIndicationAckChangeComplete, then signal the thread // that it may now continue. if (!pendingWorkitem) { KeSetEvent(&deviceExtensionHub->CWKEvent, 1, FALSE); } return STATUS_MORE_PROCESSING_REQUIRED; } VOID USBH_ChangeIndicationWorker( IN PVOID Context) /* ++ * * Description: * * Work item scheduled to process a change indication from the hub. we process * the URB here and if necessary re-submit the interrupt transfer. * * * Arguments: * * Return: * * NTSTATUS * * -- */ { NTSTATUS ntStatus; ULONG numberOfPorts; // total ports on this hub ULONG portNumber; // port that has status change PDEVICE_EXTENSION_HUB DeviceExtensionHub; PUSBH_WORK_ITEM workItem; ULONG state; //LONG ioCount; BOOLEAN newTransfer = FALSE; PDEVICE_EXTENSION_PORT hubParentDeviceExtensionPort; PDEVICE_EXTENSION_PORT deviceExtensionPort; PPORT_DATA p; ULONG i; PORT_STATE portState; LONG pendingWorkitem = 0; PAGED_CODE(); USBH_ASSERT(sizeof(state) == sizeof(HUB_STATE)); USBH_ASSERT(sizeof(state) == sizeof(PORT_STATE)); workItem = Context; DeviceExtensionHub = workItem->DeviceExtensionHub; LOGENTRY(LOG_PNP, "cWK+", DeviceExtensionHub, Context, 0); USBH_KdPrint((2,"'Enter ChangeIndicationWorker %x\n", DeviceExtensionHub)); // lock access to the hub ports // pending count inc'ed when work item was schedued USBH_KdPrint((2,"'***WAIT hub mutex %x\n", DeviceExtensionHub)); KeWaitForSingleObject(&DeviceExtensionHub->HubMutex, Executive, KernelMode, FALSE, NULL); USBH_KdPrint((2,"'***WAIT hub mutex done %x\n", DeviceExtensionHub)); // // device is stopping, perform no processing // of the change request. // if (DeviceExtensionHub->HubFlags & HUBFLAG_DEVICE_STOPPING) { // set the abort event since we will not be // submitting another transfer KeSetEvent(&DeviceExtensionHub->AbortEvent, 1, FALSE); goto USBH_ChangeIndicationWorker_Exit; } // Check for hub ESD failure. // Make sure that this is an external hub. if (DeviceExtensionHub->ErrorCount && DeviceExtensionHub->PhysicalDeviceObject != DeviceExtensionHub->RootHubPdo) { hubParentDeviceExtensionPort = DeviceExtensionHub->PhysicalDeviceObject->DeviceExtension; if (hubParentDeviceExtensionPort->PortPdoFlags & PORTPDO_USB_SUSPEND) { // Hub likely failed during power up. Don't do recovery here. // The Peracom hub (TI chipset) generally fails the first power // up if one of its downstream devices caused the wake, but the // next power up (from set S0 request) is successful. Performing // ESD recovery at this time interferes with this. goto USBH_CIW_NoESD; } // if hub backpointer is null then this device is removed, attempt // no ESD crap here. if (hubParentDeviceExtensionPort->DeviceExtensionHub == NULL) { goto USBH_CIW_NoESD; } // See if we can differentiate between hub removal and ESD. // Check the upstream port status. ntStatus = USBH_SyncGetPortStatus( hubParentDeviceExtensionPort->DeviceExtensionHub, hubParentDeviceExtensionPort->PortNumber, (PUCHAR) &portState, sizeof(portState)); // if (!NT_SUCCESS(ntStatus) || // portState.PortStatus & PORT_STATUS_CONNECT) { if (NT_SUCCESS(ntStatus) && portState.PortStatus & PORT_STATUS_CONNECT) { // ESD USBH_KdPrint((1,"'Looks like ESD event (hub failure)\n")); if (!(DeviceExtensionHub->HubFlags & HUBFLAG_HUB_HAS_LOST_BRAINS)) { DeviceExtensionHub->HubFlags |= HUBFLAG_HUB_HAS_LOST_BRAINS; LOGENTRY(LOG_PNP, "ESD!", DeviceExtensionHub, 0, DeviceExtensionHub->ErrorCount); #if DBG UsbhWarning(NULL, "ESD or hub failure occurred, attempting recovery.\n", FALSE); #endif numberOfPorts = DeviceExtensionHub->HubDescriptor->bNumberOfPorts; USBH_ASSERT(DeviceExtensionHub->PortData != NULL); p = DeviceExtensionHub->PortData; for (i=0; iDeviceObject) { USBH_KdPrint((1,"'Marking PDO %x for removal\n", p->DeviceObject)); deviceExtensionPort = p->DeviceObject->DeviceExtension; deviceExtensionPort->PortPdoFlags |= PORTPDO_DELETE_PENDING; } // // Note that we hold onto the hub's reference to the device object here. // We need to do this for the case where a hub fails, and the downstream device // had open references to it (open files on USB storage device). In this case // PnP won't send the remove to the device until the files have been closed, and // we need the reference to the device object in the hub device extension so // that we can properly cleanup after the device in USBH_FdoCleanup when the // hub is removed. If we do not do this then we will fault in // USBH_PdoRemoveDevice when trying to dereference the pointer to the hub // device extension that this device in connected to because the hub is long // gone by then. // // p->DeviceObject = NULL; p->ConnectionStatus = NoDeviceConnected; } // Tell PnP that there are no devices on this hub. // FdoQueryBusRelations will return zero devices for this hub // if the HUBFLAG_HUB_HAS_LOST_BRAINS is set. USBH_IoInvalidateDeviceRelations(DeviceExtensionHub->PhysicalDeviceObject, BusRelations); // Start timer to start workitem to reset hub and attempt recovery. USBH_ScheduleESDRecovery(DeviceExtensionHub); goto USBH_ChangeIndicationWorker_Exit; } } else { // No ESD, hub was removed. LOGENTRY(LOG_PNP, "HubY", DeviceExtensionHub, DeviceExtensionHub->HubFlags, 0); USBH_KdPrint((1,"'Looks like hub was removed\n")); DeviceExtensionHub->HubFlags |= HUBFLAG_HUB_GONE; // set the abort event since we will not be // submitting another transfer (parent hub may already be // selectively suspended) KeSetEvent(&DeviceExtensionHub->AbortEvent, 1, FALSE); goto USBH_ChangeIndicationWorker_Exit; } } USBH_CIW_NoESD: // // request reset flag is set indicating that the device // needs some attention // if (workItem->Flags & USBH_WKFLAG_REQUEST_RESET) { // reset the hub LOGENTRY(LOG_PNP, "rrST", DeviceExtensionHub, Context, 0); USBH_ResetHub(DeviceExtensionHub); // re-submit the interrupt transfer newTransfer = TRUE; goto USBH_ChangeIndicationWorker_Exit; } #if DBG { ULONG i; for (i=0; i< DeviceExtensionHub->TransferBufferLength; i++) { USBH_KdPrint((2,"'Data[%d] = %x\n", i, workItem->Data[i])); } } #endif // // Check to see what has changed // numberOfPorts = DeviceExtensionHub->HubDescriptor->bNumberOfPorts; for (portNumber = 0; portNumber <= numberOfPorts; portNumber++) { if (IsBitSet( &workItem->Data[0], portNumber)) { break; } } #if 0 // // Work around for Philips hub bug. This should be temporary because it // will cost extraneous // CPU cycles for spec conformant external hubs. Remove the code for // formal build. // #pragma message( "!!!!! Workaround for Philips external hub Vid==0471 && Rev==0030 !!!!!") if ((0x0471 == DeviceExtensionHub->DeviceDescriptor.idVendor) && // (0x0101 == DeviceExtensionHub->DeviceDescriptor.idProduct) && (0x0030 == DeviceExtensionHub->DeviceDescriptor.bcdDevice)) { // // This phillips external hub reports port status-change shift by 1 // bit // USBH_KdBreak(("Shift By One hack fo philips hub\n")); portNumber--; } #endif /* PHILIPS_HACK_ENABLED */ if (portNumber > numberOfPorts) { USBH_KdPrint((2,"'StatusChangeIndication nothing has changed\n")); // // nothing to do here // put the listen back down and get out. // newTransfer = TRUE; goto USBH_ChangeIndicationWorker_Exit; } USBH_KdPrint((2,"'Port number %x changed (0 indicates hub)\n", portNumber)); LOGENTRY(LOG_PNP, "pCHG", DeviceExtensionHub, Context, portNumber); if (portNumber != 0) { ntStatus = USBH_SyncGetPortStatus(DeviceExtensionHub, (USHORT)portNumber, (PUCHAR) &state, sizeof(state)); } else { ntStatus = USBH_SyncGetHubStatus(DeviceExtensionHub, (PUCHAR) &state, sizeof(state)); } if (!NT_SUCCESS(ntStatus)) { USBH_KdBreak(("ChangeIndication GetStatus failed code %x\n", ntStatus)); // // an error occured getting the status for the port // put the listen back down and get out // // this condition may be temoprary in which case the // listen will cause us to retry DeviceExtensionHub->ErrorCount++; if (DeviceExtensionHub->ErrorCount > USBH_MAX_ERRORS) { HUB_FAILURE(DeviceExtensionHub); } else { newTransfer = TRUE; } goto USBH_ChangeIndicationWorker_Exit; } // // no error // process the status change // USBH_KdPrint((2,"'Process State = %x\n", state)); if (portNumber != 0) { USBH_ProcessPortStateChange((PPORT_STATE)&state, (USHORT)portNumber, DeviceExtensionHub); } else { USBH_ProcessHubStateChange((PHUB_STATE)&state, DeviceExtensionHub); } newTransfer = TRUE; USBH_ChangeIndicationWorker_Exit: UsbhExFreePool(workItem); // // The stopping thread can be signaled even though there is a transfer irp // pending. because of this the stopping thread also waits on the // AbortEvent for the pending transfer. // if (newTransfer) { // // Put our listen transfer back down now that // we have acknowledged the change. // // NOTE: This could result in another work item being queued, // but only if the device stopping flag clear. USBH_SubmitInterruptTransfer(DeviceExtensionHub); } // // allow others to access the ports // USBH_KdPrint((2,"'***RELEASE hub mutex %x\n", DeviceExtensionHub)); KeReleaseSemaphore(&DeviceExtensionHub->HubMutex, LOW_REALTIME_PRIORITY, 1, FALSE); // // the pending count can only go to zero if the stopping flag has been set // USBH_DEC_PENDING_IO_COUNT(DeviceExtensionHub); pendingWorkitem = InterlockedDecrement( &DeviceExtensionHub->ChangeIndicationWorkitemPending); // If USBH_FdoPower or USBH_FdoCleanup is waiting on this // ChangeIndicationWorker, then signal the thread that it // may now continue. if (!pendingWorkitem) { KeSetEvent(&DeviceExtensionHub->CWKEvent, 1, FALSE); } if (!pendingWorkitem && DeviceExtensionHub->HubFlags & HUBFLAG_NEED_IDLE_CHECK) { USBH_CheckHubIdle(DeviceExtensionHub); } LOGENTRY(LOG_PNP, "cWK-", DeviceExtensionHub, Context, 0); USBH_KdPrint((2,"'Exit ChangeIndicationWorker\n")); } VOID USBH_ProcessHubStateChange( IN PHUB_STATE CurrentHubState, IN PDEVICE_EXTENSION_HUB DeviceExtensionHub) /* ++ * * Description: * * Process a hub change indictaion from a hub * * Arguments: * * Return: * * -- */ { // // process hub status // PHUB_STATE hubExtensionState; PDEVICE_EXTENSION_PORT deviceExtensionPort; ULONG statusBit; PPORT_DATA p; ULONG numberOfPorts, i; PAGED_CODE(); if (CurrentHubState->HubChange & HUB_STATUS_LOCAL_POWER) { TEST_TRAP(); USBH_KdPrint((2,"'StatusIndication hub local power changed\n")); statusBit = CurrentHubState->HubStatus & HUB_STATUS_LOCAL_POWER; hubExtensionState = &DeviceExtensionHub->HubState; USBH_KdPrint((2,"'Hub local power bit was %d is %d\n", \ hubExtensionState->HubStatus & HUB_STATUS_LOCAL_POWER, statusBit)); // // update our record // hubExtensionState->HubStatus &= ~HUB_STATUS_LOCAL_POWER; hubExtensionState->HubStatus |= statusBit; // // ack the change // USBH_SyncClearHubStatus(DeviceExtensionHub, FEATURE_C_HUB_LOCAL_POWER); // // jd // What further action should be taken here? // } else if (CurrentHubState->HubChange & HUB_STATUS_OVER_CURRENT) { USBH_KdPrint(( 1, "Hub is reporting overcurrent\n")); #ifdef MAX_DEBUG TEST_TRAP(); #endif statusBit = CurrentHubState->HubStatus & HUB_STATUS_OVER_CURRENT; hubExtensionState = &DeviceExtensionHub->HubState; USBH_KdPrint((2,"'Hub over current bit was %d is %d\n", hubExtensionState->HubStatus & HUB_STATUS_OVER_CURRENT, statusBit)); // // update our record // hubExtensionState->HubStatus &= ~HUB_STATUS_OVER_CURRENT; hubExtensionState->HubStatus |= statusBit; // // set the ack status change // USBH_SyncClearHubStatus(DeviceExtensionHub, FEATURE_C_HUB_OVER_CURRENT); // // We have a global overcurrent condition for the hub itself // chances are the entire hub has lost it -- we will mark the // hub as failed // if (hubExtensionState->HubStatus & HUB_STATUS_OVER_CURRENT) { USBH_KdPrint(( 1, "Hub disabled by overcurrent --> this is bad\n")); USBH_WriteFailReason( DeviceExtensionHub->PhysicalDeviceObject, USBH_FAILREASON_HUB_OVERCURRENT); HUB_FAILURE(DeviceExtensionHub); numberOfPorts = DeviceExtensionHub->HubDescriptor->bNumberOfPorts; USBH_ASSERT(DeviceExtensionHub->PortData != NULL); p = DeviceExtensionHub->PortData; for (i=0; iDeviceObject) { USBH_KdPrint((1,"'Marking PDO %x for removal\n", p->DeviceObject)); deviceExtensionPort = p->DeviceObject->DeviceExtension; deviceExtensionPort->PortPdoFlags |= PORTPDO_DELETE_PENDING; } // // Note that we hold onto the hub's reference to the device object here. // We need to do this for the case where a hub fails, and the downstream device // had open references to it (open files on USB storage device). In this case // PnP won't send the remove to the device until the files have been closed, and // we need the reference to the device object in the hub device extension so // that we can properly cleanup after the device in USBH_FdoCleanup when the // hub is removed. If we do not do this then we will fault in // USBH_PdoRemoveDevice when trying to dereference the pointer to the hub // device extension that this device in connected to because the hub is long // gone by then. // // p->DeviceObject = NULL; p->ConnectionStatus = NoDeviceConnected; } // Tell PnP that there are no devices on this hub. // FdoQueryBusRelations will return zero devices for this hub // if the HUBFLAG_HUB_HAS_LOST_BRAINS is set. USBH_IoInvalidateDeviceRelations(DeviceExtensionHub->PhysicalDeviceObject, BusRelations); // Try to recover the hub. USBH_ScheduleESDRecovery(DeviceExtensionHub); } } else { USBH_KdBreak(("Unrecognized hub change code %x\n", CurrentHubState->HubChange)); } } NTSTATUS USBH_FlushPortChange( IN OUT PDEVICE_EXTENSION_HUB DeviceExtensionHub, IN OUT PDEVICE_EXTENSION_PORT DeviceExtensionPort ) /* ++ * * Description: * * Arguments: * * Return: * * -- */ { NTSTATUS ntStatus = STATUS_SUCCESS; // PPORT_DATA portData; PORT_STATE portState; ASSERT_HUB(DeviceExtensionHub); // portData = &deviceExtensionHub->PortData[ // DeviceExtensionPort->PortNumber - 1]; LOGENTRY(LOG_PNP, "Pfls", DeviceExtensionPort, DeviceExtensionHub, DeviceExtensionPort->PortNumber); USBH_KdPrint((1,"'USBH_FlushPortChange, port number %x\n", DeviceExtensionPort->PortNumber)); // // we need to refresh the port data since it was lost on the stop // ntStatus = USBH_SyncGetPortStatus(DeviceExtensionHub, DeviceExtensionPort->PortNumber, (PUCHAR) &portState, sizeof(portState)); LOGENTRY(LOG_PNP, "PfST", DeviceExtensionPort, portState.PortChange, portState.PortStatus); if (NT_SUCCESS(ntStatus) && portState.PortChange & PORT_STATUS_CONNECT) { LOGENTRY(LOG_PNP, "PfCL", DeviceExtensionPort, DeviceExtensionPort->PortNumber, ntStatus); ntStatus = USBH_SyncClearPortStatus(DeviceExtensionHub, DeviceExtensionPort->PortNumber, FEATURE_C_PORT_CONNECT); } return ntStatus; } VOID USBH_ProcessPortStateChange( IN PPORT_STATE CurrentPortState, IN USHORT PortNumber, IN PDEVICE_EXTENSION_HUB DeviceExtensionHub) /* ++ * * Description: * * Process a port change indication from the hub * * this code assumes that only one change bit is set at a time * * Arguments: * * Return: * * -- */ { // // this code assumes that only one change bit is set at a time // PPORT_STATE hubExtensionPortState; USHORT statusBit; PPORT_DATA portData; BOOLEAN validConnectChange = TRUE; PDEVICE_EXTENSION_PORT deviceExtensionPort = NULL; PIRP irp; PIRP hubWaitWake = NULL; KIRQL irql; LONG pendingPortWWs; PWCHAR sernumbuf; PKEVENT suspendEvent; #ifdef EARLY_RESOURCE_RELEASE PVOID deviceData; #endif // Can't acquire (cancel) spin locks in paged code! // TODO: isolate the pieces of code that require the spin lock into helper // functions // PAGED_CODE(); USBH_ASSERT(DeviceExtensionHub->PortData != NULL); hubExtensionPortState = &(DeviceExtensionHub->PortData + PortNumber - 1)->PortState; USBH_KdPrint((2,"'USBH_ProcessPortStateChange for Port %x Old Dword %x\n", PortNumber, *(ULONG *) hubExtensionPortState)); LOGENTRY(LOG_PNP, "PSCn", DeviceExtensionHub, CurrentPortState->PortStatus, CurrentPortState->PortChange); if (CurrentPortState->PortChange & PORT_STATUS_CONNECT) { // // bit 0, connect status change // USHORT oldStatusBit; USBH_KdPrint((2,"'Status Indication port connect changed\n")); statusBit = CurrentPortState->PortStatus & PORT_STATUS_CONNECT; oldStatusBit = hubExtensionPortState->PortStatus & PORT_STATUS_CONNECT; USBH_KdPrint((2,"'Port connect was %x is %x\n", oldStatusBit, statusBit)); *hubExtensionPortState = *CurrentPortState; // // ack the change // USBH_SyncClearPortStatus(DeviceExtensionHub, PortNumber, FEATURE_C_PORT_CONNECT); // // If the conn status stays the same, clear the change. Otherwise, // tell to reenumerate. // A disconn->conn->disconn sequence is neglegible. // A conn->discconn->conn is considered only possible with the same // device. // USBH_ASSERT(PortNumber > 0); portData = &DeviceExtensionHub->PortData[PortNumber-1]; if (!(oldStatusBit ^ statusBit)) { // we should only see this in the case where // the hub has lost power USBH_KdPrint((1,"'status change but nothing has changed\n")); LOGENTRY(LOG_PNP, "Pchg", DeviceExtensionHub, PortNumber, validConnectChange); } if (portData->DeviceObject) { deviceExtensionPort = portData->DeviceObject->DeviceExtension; if (deviceExtensionPort->PortPdoFlags & PORTPDO_OVERCURRENT) { USBH_KdPrint((1,"'port overcurrent detected\n")); validConnectChange = FALSE; LOGENTRY(LOG_PNP, "Povr", DeviceExtensionHub, PortNumber, validConnectChange); } } if (validConnectChange) { // we have a valid port connect status change LOGENTRY(LOG_PNP, "CONc", DeviceExtensionHub, PortNumber, 0); // // Notify PnP to enumerate this PDO for the device // that has arrived or left // // if a pdo exists for this port we must delete it since the // device may arrive agian before we get to QueryBusRelations if (portData->DeviceObject) { // // see if the PDO has not been started if so we can ignore // connect change on this port since the device will have to be // reset. // deviceExtensionPort = portData->DeviceObject->DeviceExtension; if (!(deviceExtensionPort->PortPdoFlags & PORTPDO_NEED_RESET)) { PDEVICE_OBJECT pdo; pdo = portData->DeviceObject; portData->DeviceObject = NULL; portData->ConnectionStatus = NoDeviceConnected; LOGENTRY(LOG_PNP, "pd2", pdo, 0, 0); // legacy flags DeviceExtensionHub->HubFlags |= HUBFLAG_CHILD_DELETES_PENDING; if (pdo) { // place the removed PDO on our list InsertTailList(&DeviceExtensionHub->DeletePdoList, &PDO_EXT(pdo)->DeletePdoLink); } // Prevent double free of SerialNumberBuffer in // USBH_FdoQueryBusRelations. sernumbuf = InterlockedExchangePointer( &deviceExtensionPort->SerialNumberBuffer, NULL); if (sernumbuf) { UsbhExFreePool(sernumbuf); } #ifdef EARLY_RESOURCE_RELEASE // // Remove the device data now to free // up the bus resources. // deviceData = InterlockedExchangePointer( &deviceExtensionPort->DeviceData, NULL); if (deviceData) { #ifdef USB2 USBD_RemoveDeviceEx(DeviceExtensionHub, deviceData, DeviceExtensionHub->RootHubPdo, 0); #else USBD_RemoveDevice(deviceData, DeviceExtensionHub->RootHubPdo, 0); #endif USBH_SyncDisablePort(DeviceExtensionHub, PortNumber); } #endif // EARLY_RESOURCE_RELEASE } } USBH_KdPrint((2,"'Notify BusCheck by FDO extension %x\n", DeviceExtensionHub)); USBH_IoInvalidateDeviceRelations(DeviceExtensionHub->PhysicalDeviceObject, BusRelations); USBH_KdPrint((2,"'StatusIndication Conn Changed port %x\n", PortNumber)); } } else if (CurrentPortState->PortChange & PORT_STATUS_RESET) { // // bit 4 RESET completed // // // we simply ack the change and signal the PnP thread that is // waiting. // USBH_KdPrint((2,"'Status Indication port reset changed\n")); statusBit = CurrentPortState->PortStatus & PORT_STATUS_RESET; USBH_KdPrint((2,"'Port reset was %x is %x\n", hubExtensionPortState->PortStatus & PORT_STATUS_RESET, statusBit)); // port status will not be enabled if the device failed #if DBG if (!(CurrentPortState->PortStatus & PORT_STATUS_ENABLE)) { USBH_KdPrint((1, "'Device failed after reset\n")); } #endif *hubExtensionPortState = *CurrentPortState; // // ack the change // USBH_SyncClearPortStatus(DeviceExtensionHub, PortNumber, FEATURE_C_PORT_RESET); // // Signal the PNP thread that a the reset has completed // LOGENTRY(LOG_PNP, "RESp", DeviceExtensionHub, PortNumber, 0); } else if (CurrentPortState->PortChange & PORT_STATUS_ENABLE) { // // ways to hit this code: // 1. frame babble causes the port to be disabled // 2. overcurrent causes a port disable // bit 1 port has been enabled USBH_KdPrint((2,"'Status Indication port enable changed\n")); statusBit = CurrentPortState->PortStatus & PORT_STATUS_ENABLE; USBH_KdPrint((2,"'Port enable was %x is %x\n", hubExtensionPortState->PortStatus & PORT_STATUS_ENABLE, statusBit)); // // update our record // *hubExtensionPortState = *CurrentPortState; // // ack the change // USBH_SyncClearPortStatus(DeviceExtensionHub, PortNumber, FEATURE_C_PORT_ENABLE); LOGENTRY(LOG_PNP, "ENAc", DeviceExtensionHub, PortNumber, 0); } else if (CurrentPortState->PortChange & PORT_STATUS_SUSPEND) { // // bit 2 suspend changed // USBH_KdPrint((2,"'Status Indication port suspend changed\n")); statusBit = CurrentPortState->PortStatus & PORT_STATUS_SUSPEND; USBH_KdPrint((2,"'Port suspend was %x is %x\n", hubExtensionPortState->PortStatus & PORT_STATUS_SUSPEND, statusBit)); // // update our record // *hubExtensionPortState = *CurrentPortState; // // ack the change // USBH_SyncClearPortStatus(DeviceExtensionHub, PortNumber, FEATURE_C_PORT_SUSPEND); LOGENTRY(LOG_PNP, "SUSc", DeviceExtensionHub, PortNumber, 0); suspendEvent = InterlockedExchangePointer(&DeviceExtensionHub->Event, NULL); if (suspendEvent) { LOGENTRY(LOG_PNP, "WAKs", DeviceExtensionHub, PortNumber, 0); KeSetEvent(suspendEvent, 1, FALSE); } // Complete the WW IRP, if any, for this port. // // Note that we only want to do this for the selective suspend case // and not the general resume case. (We don't want to be completing // port WW IRPs while the system is suspending just because someone // moved the mouse.) // // Note also that in our current Selective Suspend implementation, // this code is not really even necessary because we only suspend // when the entire bus can suspend, which includes the root hub, // and if the root hub is suspended then the bus is reawoken by // USBPORT completing the WW IRP for the root hub. This code here // is only used if a child device indicates resume signalling while // the parent hub is powered and fully operational. USBH_ASSERT(PortNumber > 0); portData = &DeviceExtensionHub->PortData[PortNumber-1]; if (portData->DeviceObject) { deviceExtensionPort = portData->DeviceObject->DeviceExtension; } if (deviceExtensionPort && deviceExtensionPort->IdleNotificationIrp) { IoAcquireCancelSpinLock(&irql); irp = deviceExtensionPort->WaitWakeIrp; deviceExtensionPort->WaitWakeIrp = NULL; // signal the waitwake irp if we have one if (irp) { USBH_KdPrint((1,"'Signaling WaitWake IRP (%x) (resume signalling)\n", irp)); LOGENTRY(LOG_PNP, "rsWW", deviceExtensionPort, deviceExtensionPort->DeviceState, DeviceExtensionHub->HubFlags); IoSetCancelRoutine(irp, NULL); deviceExtensionPort->PortPdoFlags &= ~PORTPDO_REMOTE_WAKEUP_ENABLED; pendingPortWWs = InterlockedDecrement(&DeviceExtensionHub->NumberPortWakeIrps); if (0 == pendingPortWWs && DeviceExtensionHub->PendingWakeIrp) { hubWaitWake = DeviceExtensionHub->PendingWakeIrp; DeviceExtensionHub->PendingWakeIrp = NULL; } IoReleaseCancelSpinLock(irql); // // If there are no more outstanding WW irps, we need to cancel the WW // to the hub. // if (hubWaitWake) { USBH_HubCancelWakeIrp(DeviceExtensionHub, hubWaitWake); } USBH_CompletePowerIrp(DeviceExtensionHub, irp, STATUS_SUCCESS); } else { IoReleaseCancelSpinLock(irql); } } } else if (CurrentPortState->PortChange & PORT_STATUS_OVER_CURRENT) { // // bit 3 // USBH_KdPrint((2,"'Status Indication port over current changed\n")); statusBit = CurrentPortState->PortStatus & PORT_STATUS_OVER_CURRENT; USBH_KdPrint((2,"'Port over current was %x is %x\n", hubExtensionPortState->PortStatus & PORT_STATUS_OVER_CURRENT, statusBit)); // // update our record // *hubExtensionPortState = *CurrentPortState; // // ack the change // USBH_SyncClearPortStatus(DeviceExtensionHub, PortNumber, FEATURE_C_PORT_OVER_CURRENT); LOGENTRY(LOG_PNP, "OVRc", DeviceExtensionHub, PortNumber, 0); // The hub has reported overcurrent contion on the port, we will note // this for the PDO. note that if a true overcurrent condition has occurred // the port should be disabled and powered off as well. // for some reason the NEC controller will report an overcurrent // condition if the MS USB mouse is plugged in during boot // if (!(hubExtensionPortState->PortStatus & PORT_STATUS_POWER)) { USBH_ASSERT(PortNumber > 0); portData = &DeviceExtensionHub->PortData[PortNumber-1]; USBH_KdPrint((1,"'warning: overcurrent detected for port %d\n", PortNumber)); USBH_SyncRefreshPortAttributes(DeviceExtensionHub); // ignore overcurrent on CC ports if (!(portData->PortAttributes & USB_PORTATTR_NO_OVERCURRENT_UI)) { if (portData->DeviceObject != NULL) { deviceExtensionPort = portData->DeviceObject->DeviceExtension; //xxx ?? IoInvalidateDeviceRelations? // ignore overcurrent on CC ports deviceExtensionPort->PortPdoFlags |= PORTPDO_OVERCURRENT; UsbhWarning(NULL, "port disabled/off due to overcurrent\n", FALSE); USBH_InvalidatePortDeviceState( DeviceExtensionHub, UsbhGetConnectionStatus(deviceExtensionPort), deviceExtensionPort->PortNumber); } else { // NOTE: for some reason the NEC controller on Toshiba laptops // does this. USBH_KdPrint((1,"'warning: port has no device attached! %d\n", PortNumber)); USBH_InvalidatePortDeviceState( DeviceExtensionHub, DeviceCausedOvercurrent, PortNumber); } } } } else { LOGENTRY(LOG_PNP, "???c", DeviceExtensionHub, PortNumber, 0); USBH_KdBreak(("Unknown chnage bit, ignore\n")); } USBH_KdPrint((2,"'Exit ProcessPortState\n")); } NTSTATUS USBH_GetNameFromPdo( IN PDEVICE_OBJECT PdoDeviceObject, IN OUT PUNICODE_STRING DeviceNameUnicodeString ) /*++ Routine Description: Returns the device name for the give instance of the HCD Arguments: DeviceObject - DeviceNameUnicodeString - ptr to unicode string to initialize with device name. Return Value: NT status code --*/ { ULONG actualSize; NTSTATUS ntStatus; PAGED_CODE(); ntStatus=IoGetDeviceProperty(PdoDeviceObject, DevicePropertyPhysicalDeviceObjectName, 0, NULL, &actualSize); if (ntStatus == STATUS_BUFFER_TOO_SMALL) { DeviceNameUnicodeString->Length=(USHORT)actualSize-sizeof(UNICODE_NULL); DeviceNameUnicodeString->MaximumLength=(USHORT)actualSize; // // Must use ExAllocatePool directly here because we call // RtlFreeUnicode string to free the buffer // DeviceNameUnicodeString->Buffer = ExAllocatePoolWithTag(PagedPool, actualSize, USBHUB_HEAP_TAG); if (!DeviceNameUnicodeString->Buffer) { ntStatus=STATUS_INSUFFICIENT_RESOURCES; } else { ntStatus=IoGetDeviceProperty(PdoDeviceObject, DevicePropertyPhysicalDeviceObjectName, actualSize, DeviceNameUnicodeString->Buffer, &actualSize); if (!NT_SUCCESS(ntStatus)) { ExFreePool(DeviceNameUnicodeString->Buffer); } else { // now strip off the "\Device\" RtlCopyMemory(DeviceNameUnicodeString->Buffer, DeviceNameUnicodeString->Buffer+8, actualSize-8*sizeof(WCHAR)); DeviceNameUnicodeString->Length -= 16; } } } else { ntStatus=STATUS_INSUFFICIENT_RESOURCES; } USBH_KdPrint((2,"'USBH_GetNameFromPdo = %x\n", ntStatus)); return(ntStatus); } #if 0 NTSTATUS USBH_MakeName( PDEVICE_OBJECT PdoDeviceObject, ULONG NameLength, PWCHAR Name, PUNICODE_STRING UnicodeString ) /*++ Routine Description: Creates a hub name unicode string from uncode 'Name' string passed in and the unique name associated with the Pdo. Arguments: PdoDeviceObject - a PDO NameLength - length (in bytes) of 'Name' unicode string, including NULL. Name - NULL terminated unicode string suffix Return Value: None --*/ { UNICODE_STRING keyUnicodeString; NTSTATUS ntStatus; PWCHAR buffer; USHORT length; PAGED_CODE(); // // get the name from the Pdo // ntStatus = USBH_GetNameFromPdo(PdoDeviceObject, &keyUnicodeString); USBH_ASSERT(NameLength > 0); if (NT_SUCCESS(ntStatus)) { // ok we have the unique name, now we // need to allocate a buffer big enough // for it plus the 'Name' string // keyname + prefix + NULL (Namelength includes NULL) length = keyUnicodeString.Length + (USHORT) NameLength; // // Must use normal api so that caller can use RtlFreeUnicodeString // buffer = ExAllocatePool(PagedPool, length, USBHUB_HEAP_TAG); if (buffer) { RtlCopyMemory(buffer, Name, NameLength); RtlInitUnicodeString(UnicodeString, buffer); UnicodeString->MaximumLength = length; USBH_ASSERT(*(buffer+((NameLength/2)-1)) == NULL); ntStatus = RtlAppendUnicodeStringToString(UnicodeString, &keyUnicodeString); USBH_KdPrint((2,"'USBH_MakeName = key string = %x %x\n", &keyUnicodeString, UnicodeString)); } else { ntStatus = STATUS_INSUFFICIENT_RESOURCES; TEST_TRAP(); } RtlFreeUnicodeString(&keyUnicodeString); } return ntStatus; } NTSTATUS USBH_GenerateDeviceName( PDEVICE_OBJECT PdoDeviceObject, PUNICODE_STRING DeviceNameUnicodeString, PUNICODE_STRING DeviceLinkUnicodeString, PUNICODE_STRING NameUnicodeString ) /*++ Routine Description: Generates device name strings for use with IoCreateDevice and IoCreateSymbolicLink. Arguments: PdoDeviceObject - a PDO DeviceNameUnicodeString DeviceLinkUnicodeString - NameUnicodeString Return Value: NT Status code. --*/ { WCHAR deviceLink[] = L"\\DosDevices\\"; WCHAR deviceName[] = L"\\Device\\"; WCHAR name[] = L""; NTSTATUS ntStatus = STATUS_SUCCESS; BOOLEAN gotDevname = FALSE, gotName = FALSE, gotLinkname = FALSE; PAGED_CODE(); if (DeviceNameUnicodeString) { ntStatus = USBH_MakeName(PdoDeviceObject, sizeof(deviceName), deviceName, DeviceNameUnicodeString); if (NT_SUCCESS(ntStatus)) { gotDevname = TRUE; } } if (DeviceLinkUnicodeString && NT_SUCCESS(ntStatus)) { ntStatus = USBH_MakeName(PdoDeviceObject, sizeof(deviceLink), deviceLink, DeviceLinkUnicodeString); if (NT_SUCCESS(ntStatus)) { gotLinkname = TRUE; } } if (NameUnicodeString && NT_SUCCESS(ntStatus)) { ntStatus = USBH_MakeName(PdoDeviceObject, sizeof(name), name, NameUnicodeString); if (NT_SUCCESS(ntStatus)) { gotName = TRUE; } } if (!NT_SUCCESS(ntStatus)) { // // cleanup all the strings if we fail // // an error here is most likely a bug USBH_KdTrap(("failed to generate Hub device name\n")); if (gotDevname) { RtlFreeUnicodeString(DeviceNameUnicodeString); } if (gotLinkname) { RtlFreeUnicodeString(DeviceLinkUnicodeString); } if (gotName) { RtlFreeUnicodeString(NameUnicodeString); } } USBH_KdPrint((2,"'USBH_GenerateDeviceName = %x\n", ntStatus)); return ntStatus; } #endif NTSTATUS USBH_AddDevice( IN PDRIVER_OBJECT DriverObject, IN PDEVICE_OBJECT PhysicalDeviceObject) /* ++ Description: * * Called whenever the hub driver is loaded to control a device. * Possible reasons: * 1. a hub was attached to the USB * 2. we where loaded as the generic parent for a composite device * 3. we were loaded as a configuring driver. * * Arguments: * * PhysicalDeviceObject - Parent device object PDO created to handle us. * DriverObject - Store the pointer to the object representing us. * * Return: * * STATUS_SUCCESS - if successful STATUS_UNSUCCESSFUL - otherwise * * -- */ { NTSTATUS ntStatus = STATUS_SUCCESS; PDEVICE_OBJECT deviceObject = NULL, rootHubPdo = NULL, dummyPdo = NULL; PDEVICE_OBJECT topOfStackDeviceObject = NULL; PDEVICE_EXTENSION_HUB deviceExtensionHub; // pointer to our device // extension USBH_KdPrint((2,"'Enter AddDevice\n")); LOGENTRY(LOG_PNP, "hADD", PhysicalDeviceObject, 0, 0); #if DBG USBH_GetClassGlobalDebugRegistryParameters(); #endif // // Create a new hub on the USB // // USBH_KdBreak(("Add Device for hub\n")); if (NT_SUCCESS(ntStatus)) { USBH_ASSERT(sizeof(DEVICE_EXTENSION_HUB) >= sizeof(DEVICE_EXTENSION_PARENT)); ntStatus = IoCreateDevice(DriverObject, // our driver object sizeof(DEVICE_EXTENSION_HUB), // extension size for us NULL, // name for this device FILE_DEVICE_USB_HUB, // HUB type FILE_AUTOGENERATED_DEVICE_NAME, // device characteristics FALSE, // Not exclusive &deviceObject); // Our device object if (NT_SUCCESS(ntStatus)) { deviceExtensionHub = (PDEVICE_EXTENSION_HUB) deviceObject->DeviceExtension; deviceExtensionHub->ExtensionType = EXTENSION_TYPE_HUB; } } if (NT_SUCCESS(ntStatus)) { topOfStackDeviceObject = IoAttachDeviceToDeviceStack(deviceObject, PhysicalDeviceObject); if (!topOfStackDeviceObject) { ntStatus = STATUS_UNSUCCESSFUL; } } if (NT_SUCCESS(ntStatus)) { // Initialize the rest of the hub device extension deviceExtensionHub->FunctionalDeviceObject = deviceObject; deviceExtensionHub->PhysicalDeviceObject = PhysicalDeviceObject; deviceExtensionHub->TopOfStackDeviceObject = topOfStackDeviceObject; USBH_KdPrint((2,"'stack device object stack size = %x\n", deviceExtensionHub->TopOfStackDeviceObject->StackSize)); deviceObject->Flags |= DO_POWER_PAGABLE; deviceObject->Flags &= ~DO_DEVICE_INITIALIZING; #ifdef WMI_SUPPORT { PWMILIB_CONTEXT wmiLibInfo; extern WMIGUIDREGINFO USB_WmiGuidList[NUM_WMI_SUPPORTED_GUIDS]; wmiLibInfo = &deviceExtensionHub->WmiLibInfo; wmiLibInfo->GuidCount = sizeof (USB_WmiGuidList) / sizeof (WMIGUIDREGINFO); ASSERT(NUM_WMI_SUPPORTED_GUIDS == wmiLibInfo->GuidCount); // Omit the last GUID in the list if this is not a Root Hub. USBH_SyncGetRootHubPdo(deviceExtensionHub->TopOfStackDeviceObject, &rootHubPdo, &dummyPdo, NULL); if (rootHubPdo != PhysicalDeviceObject) { // Dump the last WMI GUID. wmiLibInfo->GuidCount--; } wmiLibInfo->GuidList = USB_WmiGuidList; wmiLibInfo->QueryWmiRegInfo = USBH_QueryWmiRegInfo; wmiLibInfo->QueryWmiDataBlock = USBH_QueryWmiDataBlock; wmiLibInfo->SetWmiDataBlock = USBH_SetWmiDataBlock; wmiLibInfo->SetWmiDataItem = NULL; wmiLibInfo->ExecuteWmiMethod = USBH_ExecuteWmiMethod; wmiLibInfo->WmiFunctionControl = NULL; IoWMIRegistrationControl(deviceObject, WMIREG_ACTION_REGISTER ); } #endif } else { // failed to create device object or symbolic link TEST_TRAP(); if (deviceObject) { IoDeleteDevice(deviceObject); } } USBH_KdPrint((2,"'AddDevice return %x\n", ntStatus)); return ntStatus; } #if DBG NTSTATUS USBH_GetClassGlobalDebugRegistryParameters( ) /*++ Routine Description: Arguments: Return Value: --*/ { NTSTATUS ntStatus; RTL_QUERY_REGISTRY_TABLE QueryTable[3]; PWCHAR usb = L"usb"; #define DEBUG_LEVEL L"debuglevel" #define DEBUG_WIN9X L"debugWin9x" extern ULONG USBH_W98_Debug_Trace; PAGED_CODE(); // // Set up QueryTable to do the following: // // spew level QueryTable[0].QueryRoutine = USBH_GetConfigValue; QueryTable[0].Flags = 0; QueryTable[0].Name = DEBUG_LEVEL; QueryTable[0].EntryContext = &USBH_Debug_Trace_Level; QueryTable[0].DefaultType = REG_DWORD; QueryTable[0].DefaultData = &USBH_Debug_Trace_Level; QueryTable[0].DefaultLength = sizeof(USBH_Debug_Trace_Level); // ntkern trace buffer QueryTable[1].QueryRoutine = USBH_GetConfigValue; QueryTable[1].Flags = 0; QueryTable[1].Name = DEBUG_WIN9X; QueryTable[1].EntryContext = &USBH_W98_Debug_Trace; QueryTable[1].DefaultType = REG_DWORD; QueryTable[1].DefaultData = &USBH_W98_Debug_Trace; QueryTable[1].DefaultLength = sizeof(USBH_W98_Debug_Trace); // // Stop // QueryTable[2].QueryRoutine = NULL; QueryTable[2].Flags = 0; QueryTable[2].Name = NULL; ntStatus = RtlQueryRegistryValues( RTL_REGISTRY_SERVICES, usb, QueryTable, // QueryTable NULL, // Context NULL); // Environment if (NT_SUCCESS(ntStatus)) { USBH_KdPrint((1, "'Debug Trace Level Set: (%d)\n", USBH_Debug_Trace_Level)); if (USBH_W98_Debug_Trace) { USBH_KdPrint((1, "'NTKERN Trace is ON\n")); } else { USBH_KdPrint((1, "'NTKERN Trace is OFF\n")); } if (USBH_Debug_Trace_Level > 0) { ULONG UHCD_Debug_Asserts = 1; } } if ( STATUS_OBJECT_NAME_NOT_FOUND == ntStatus ) { ntStatus = STATUS_SUCCESS; } return ntStatus; } #endif #if 0 NTSTATUS USBH_FdoStartDevice( IN OUT PDEVICE_EXTENSION_HUB DeviceExtensionHub, IN PIRP Irp ) /* ++ Description: * * This routine is called by PnP via (IRP_MJ_PNP, IRP_MN_START_DEVICE). We will * initialize the hub and ready all ports. * * Argument: * * Return: * * STATUS_SUCCESS - if successful STATUS_UNSUCCESSFUL - otherwise * * -- */ { NTSTATUS ntStatus; USBH_ASSERT(EXTENSION_TYPE_HUB == DeviceExtensionHub->ExtensionType); LOGENTRY(LOG_PNP, "STRT", DeviceExtensionHub, 0, 0); ntStatus = USBH_FdoHubStartDevice(DeviceExtensionHub, Irp); return ntStatus; } #endif // since we no longer use the hub as parent we will always treat // the device as a hub NTSTATUS USBH_FdoStartDevice( IN OUT PDEVICE_EXTENSION_HUB DeviceExtensionHub, IN PIRP Irp ) /* ++ Description: * * This routine is called by PnP via (IRP_MJ_PNP, IRP_MN_START_DEVICE). We will * initialize the hub and ready all ports. * * Argument: * * Return: * * STATUS_SUCCESS - if successful STATUS_UNSUCCESSFUL - otherwise * * -- */ { NTSTATUS ntStatus, status; PDEVICE_EXTENSION_PARENT parent; PAGED_CODE(); USBH_KdPrint((2,"'Enter StartDevice\n")); USBH_ASSERT(EXTENSION_TYPE_HUB == DeviceExtensionHub->ExtensionType); LOGENTRY(LOG_PNP, "STRT", DeviceExtensionHub, 0, 0); // // collect some inforantion from the device, like the root hub // pdo for our fast-path // DeviceExtensionHub->RootHubPdo = NULL; ntStatus = USBH_SyncGetRootHubPdo(DeviceExtensionHub->TopOfStackDeviceObject, &DeviceExtensionHub->RootHubPdo, &DeviceExtensionHub->TopOfHcdStackDeviceObject, NULL); if (!NT_SUCCESS(ntStatus)) { KeInitializeEvent(&DeviceExtensionHub->PnpStartEvent, NotificationEvent, FALSE); USBH_KdPrint((2,"'Set PnPIrp Completion Routine\n")); IoCopyCurrentIrpStackLocationToNext(Irp); IoSetCompletionRoutine(Irp, USBH_HubPnPIrp_Complete, // always pass FDO to completion routine DeviceExtensionHub, TRUE, TRUE, TRUE); status = IoCallDriver(DeviceExtensionHub->TopOfStackDeviceObject, Irp); if (status == STATUS_PENDING) { KeWaitForSingleObject(&DeviceExtensionHub->PnpStartEvent, Suspended, KernelMode, FALSE, NULL); } // // complete the start Irp now since we pended it with // our completion handler. // LOGENTRY(LOG_PNP, "STR!", DeviceExtensionHub, 0, ntStatus); USBH_CompleteIrp(Irp, ntStatus); } else if (DeviceExtensionHub->RootHubPdo != NULL) { // stack reports a root hub PDO then this // is a hub ntStatus = USBH_FdoHubStartDevice(DeviceExtensionHub, Irp); } else { // // if no root hub PDO then we are being loaded // as a configuring parent driver. // DeviceExtensionHub->ExtensionType = EXTENSION_TYPE_PARENT; // // Initialize this parent // parent = (PDEVICE_EXTENSION_PARENT) DeviceExtensionHub; parent->PowerIrp = NULL; parent->PendingWakeIrp = NULL; parent->NumberFunctionWakeIrps = 0; parent->FunctionCount = 0; parent->FunctionList.Next = NULL; parent->ParentFlags = 0; parent->NeedCleanup = FALSE; parent->ConfigurationDescriptor = NULL; KeInitializeSpinLock (&parent->ParentSpinLock); // // Start it. // ntStatus = USBH_ParentFdoStartDevice(parent, Irp, TRUE); } return ntStatus; } VOID USBH_QueryCapabilities( IN PDEVICE_OBJECT PdoDeviceObject, IN PDEVICE_CAPABILITIES DeviceCapabilities ) /*++ Routine Description: This routine reads or write config space. Arguments: DeviceObject - Physical DeviceObject for this USB controller. Return Value: None. --*/ { PIO_STACK_LOCATION nextStack; PIRP irp; NTSTATUS ntStatus; KEVENT event; PAGED_CODE(); USBH_KdPrint((2,"'USBH_QueryCapabilities\n")); irp = IoAllocateIrp(PdoDeviceObject->StackSize, FALSE); if (!irp) { USBH_KdTrap(("Allocate Irp failed\n")); return; } // All PnP IRP's need the Status field initialized to STATUS_NOT_SUPPORTED. irp->IoStatus.Status = STATUS_NOT_SUPPORTED; KeInitializeEvent(&event, NotificationEvent, FALSE); IoSetCompletionRoutine(irp, USBH_DeferIrpCompletion, &event, TRUE, TRUE, TRUE); nextStack = IoGetNextIrpStackLocation(irp); USBH_ASSERT(nextStack != NULL); nextStack->MajorFunction= IRP_MJ_PNP; nextStack->MinorFunction= IRP_MN_QUERY_CAPABILITIES; //this is different from the latest version of busdd.doc nextStack->Parameters.DeviceCapabilities.Capabilities = DeviceCapabilities; // IrpAssert: Initialize these fields in the DeviceCapabilities structure // before passing down. RtlZeroMemory(nextStack->Parameters.DeviceCapabilities.Capabilities, sizeof(DEVICE_CAPABILITIES)); nextStack->Parameters.DeviceCapabilities.Capabilities->Address = -1; nextStack->Parameters.DeviceCapabilities.Capabilities->UINumber = -1; nextStack->Parameters.DeviceCapabilities.Capabilities->Version = 1; nextStack->Parameters.DeviceCapabilities.Capabilities->Size = sizeof(DEVICE_CAPABILITIES); ntStatus = IoCallDriver(PdoDeviceObject, irp); USBH_KdPrint((2,"'ntStatus from IoCallDriver to hub PDO = 0x%x\n", ntStatus)); if (ntStatus == STATUS_PENDING) { // TEST_TRAP(); KeWaitForSingleObject( &event, Suspended, KernelMode, FALSE, NULL); } if (!NT_SUCCESS(ntStatus)) { USBH_KdTrap(("Query capabilities failed!\n")); } IoFreeIrp(irp); } BOOLEAN USBH_HubIsBusPowered( IN PDEVICE_OBJECT DeviceObject, IN PUSB_CONFIGURATION_DESCRIPTOR ConfigurationDescriptor ) /* ++ * * Description: * * Return: * * TRUE if the hub is bus powered * * -- */ { NTSTATUS ntStatus = STATUS_SUCCESS; USHORT power, statusBits; BOOLEAN busPowered; PAGED_CODE(); USBH_KdPrint((2,"'enter HubIsBusPowered\n")); // read the power bits from the config descriptor power = ConfigurationDescriptor->bmAttributes & USB_CONFIG_POWERED_MASK; // // now attempt to get the status bits from the device // ntStatus = USBH_SyncGetStatus(DeviceObject, &statusBits, URB_FUNCTION_GET_STATUS_FROM_DEVICE, 0); if (NT_SUCCESS(ntStatus)) { USBH_KdPrint((2,"'hub status bits %x\n", statusBits)); busPowered = !(statusBits & USB_GETSTATUS_SELF_POWERED); } else { USBH_KdBreak(("device failed get status %x, power bits = %x\n", ntStatus, power)); // // device failed get_status, fall back to the values in the // config descriptor. // busPowered = power == USB_CONFIG_BUS_POWERED; } return busPowered; } NTSTATUS USBH_PnPIrp_Complete( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp, IN PVOID Context ) /*++ Routine Description: This routine is called when the port driver completes an IRP. Arguments: DeviceObject - Pointer to the device object for the class device. Irp - Irp completed. Context - Driver defined context. Return Value: The function value is the final status from the operation. --*/ { NTSTATUS ntStatus = STATUS_SUCCESS; PIO_STACK_LOCATION irpStack; PDEVICE_EXTENSION_FDO deviceExtension; USBH_KdPrint((2,"'enter USBH_PnPIrp_Complete\n")); deviceExtension = Context; // kenray sez we should be calling IoMarkIrpPending // from our completion routine. // if (Irp->PendingReturned) { IoMarkIrpPending(Irp); } irpStack = IoGetCurrentIrpStackLocation (Irp); USBH_ASSERT(irpStack->MajorFunction == IRP_MJ_PNP); USBH_ASSERT(irpStack->MinorFunction == IRP_MN_START_DEVICE); USBH_KdPrint((2,"'IRP_MN_START_DEVICE (fdo), completion routine\n")); // signal the start device dispatch to finsh KeSetEvent(&deviceExtension->PnpStartEvent, 1, FALSE); // defer completion ntStatus = STATUS_MORE_PROCESSING_REQUIRED; Irp->IoStatus.Status = ntStatus; USBH_KdPrint((2,"'exit USH_PnPIrp_Complete %x\n", ntStatus)); return ntStatus; } NTSTATUS USBH_HubPnPIrp_Complete( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp, IN PVOID Context ) /*++ Routine Description: This routine is called when the port driver completes an IRP. Arguments: DeviceObject - Pointer to the device object for the class device. Irp - Irp completed. Context - Driver defined context. Return Value: The function value is the final status from the operation. --*/ { NTSTATUS ntStatus = STATUS_SUCCESS; PIO_STACK_LOCATION irpStack; PDEVICE_EXTENSION_HUB deviceExtensionHub; USBH_KdPrint((2,"'enter USBH_HubPnPIrp_Complete\n")); deviceExtensionHub = Context; // kenray sez we should be calling IoMarkIrpPending // from our completion routine. // // No. Since this IRP is completed synchronously (on the same thread that // created it), we should not do this. // // if (Irp->PendingReturned) { // IoMarkIrpPending(Irp); // } irpStack = IoGetCurrentIrpStackLocation (Irp); USBH_ASSERT(irpStack->MajorFunction == IRP_MJ_PNP); USBH_ASSERT(irpStack->MinorFunction == IRP_MN_START_DEVICE); USBH_KdPrint((2,"'IRP_MN_START_DEVICE (fdo), completion routine\n")); // signal the start device dispatch to finsh KeSetEvent(&deviceExtensionHub->PnpStartEvent, 1, FALSE); if (!NT_SUCCESS(Irp->IoStatus.Status)) { deviceExtensionHub->HubFlags |= HUBFLAG_HUB_FAILURE; } // defer completion ntStatus = STATUS_MORE_PROCESSING_REQUIRED; Irp->IoStatus.Status = ntStatus; USBH_KdPrint((2,"'exit USH_HubPnPIrp_Complete %x\n", ntStatus)); return ntStatus; } NTSTATUS USBH_FdoHubStartDevice( IN OUT PDEVICE_EXTENSION_HUB DeviceExtensionHub, IN PIRP Irp) /* ++ Description: * * This routine is called by PnP via (IRP_MJ_PNP, IRP_MN_START_DEVICE). We will * initialize the hub and ready all ports. * * Argument: * * Return: * * STATUS_SUCCESS - if successful STATUS_UNSUCCESSFUL - otherwise * * -- */ { NTSTATUS status, ntStatus = STATUS_SUCCESS; PDEVICE_OBJECT deviceObject; PDEVICE_EXTENSION_PORT hubParentDeviceExtensionPort; PPORT_DATA portData; DEVICE_CAPABILITIES deviceCapabilities; ULONG hubCount = 0, p; LONG i; #if DBG BOOLEAN bWakeSupported = FALSE; #endif PAGED_CODE(); USBH_KdPrint((2,"'Enter Hub StartDevice\n")); USBH_ASSERT(EXTENSION_TYPE_HUB == DeviceExtensionHub->ExtensionType); deviceObject = DeviceExtensionHub->FunctionalDeviceObject; // // New hub // LOGENTRY(LOG_PNP, "hSTR", DeviceExtensionHub, 0, 0); // // initailize allocated structures to NULL; // DeviceExtensionHub->HubDescriptor = NULL; DeviceExtensionHub->Irp = NULL; DeviceExtensionHub->TransferBuffer = NULL; DeviceExtensionHub->ConfigurationDescriptor = NULL; // transition to zero signals the event DeviceExtensionHub->PendingRequestCount = 1; DeviceExtensionHub->HubFlags = 0; DeviceExtensionHub->PendingWakeIrp = NULL; DeviceExtensionHub->NumberPortWakeIrps = 0; DeviceExtensionHub->PendingIdleIrp = NULL; DeviceExtensionHub->ChangeIndicationWorkitemPending = 0; // Although this is only used for the Root Hub, we initialize for all hubs. DeviceExtensionHub->CurrentSystemPowerState = PowerSystemWorking; KeInitializeEvent(&DeviceExtensionHub->PnpStartEvent, NotificationEvent, FALSE); KeInitializeSpinLock (&DeviceExtensionHub->CheckIdleSpinLock); InitializeListHead(&DeviceExtensionHub->DeletePdoList); USBH_KdPrint((2,"'Set PnPIrp Completion Routine\n")); IoCopyCurrentIrpStackLocationToNext(Irp); IoSetCompletionRoutine(Irp, USBH_HubPnPIrp_Complete, // always pass FDO to completion routine DeviceExtensionHub, TRUE, TRUE, TRUE); status = IoCallDriver(DeviceExtensionHub->TopOfStackDeviceObject, Irp); if (status == STATUS_PENDING) { KeWaitForSingleObject(&DeviceExtensionHub->PnpStartEvent, Suspended, KernelMode, FALSE, NULL); } DeviceExtensionHub->RootHubPdo = NULL; ntStatus = USBH_SyncGetRootHubPdo(DeviceExtensionHub->TopOfStackDeviceObject, &DeviceExtensionHub->RootHubPdo, &DeviceExtensionHub->TopOfHcdStackDeviceObject, NULL); if (!NT_SUCCESS(ntStatus)) { USBH_KdBreak(("StartDevice USBH_SyncGetRootHubPdo fail code %x\n", ntStatus)); goto USBH_StartDeviceDone; } // init our failreason USBH_WriteFailReason( DeviceExtensionHub->PhysicalDeviceObject, USBH_FAILREASON_HUB_GENERAL_FAILURE); if (DeviceExtensionHub->HubFlags & HUBFLAG_HUB_FAILURE) { ntStatus = STATUS_UNSUCCESSFUL; USBH_KdBreak(("Hub Start Failure\n")); goto USBH_StartDeviceDone; } // assume device supports wakeup by default DeviceExtensionHub->HubFlags |= HUBFLAG_SUPPORT_WAKEUP; { NTSTATUS status; ULONG disableWakeup = 0; WCHAR USBH_RemoteWakeupKey[] = L"DisableRemoteWakeup"; status = USBD_GetPdoRegistryParameter(DeviceExtensionHub->PhysicalDeviceObject, &disableWakeup, sizeof(disableWakeup), USBH_RemoteWakeupKey, sizeof(USBH_RemoteWakeupKey)); if (NT_SUCCESS(status) && disableWakeup) { DeviceExtensionHub->HubFlags &= ~HUBFLAG_SUPPORT_WAKEUP; USBH_KdPrint((1, "'Warning: remote wakeup disabled in registry\n")); } } DeviceExtensionHub->CurrentPowerState = PowerDeviceD0; KeInitializeEvent(&DeviceExtensionHub->AbortEvent, NotificationEvent, TRUE); // initial state is not signaled KeInitializeEvent(&DeviceExtensionHub->PendingRequestEvent, NotificationEvent, FALSE); KeInitializeEvent(&DeviceExtensionHub->SubmitIdleEvent, NotificationEvent, FALSE); // This one defaults to signalled. KeInitializeEvent(&DeviceExtensionHub->CWKEvent, NotificationEvent, TRUE); KeInitializeSemaphore(&DeviceExtensionHub->HubMutex, 1, 1); KeInitializeSemaphore(&DeviceExtensionHub->HubPortResetMutex, 1, 1); KeInitializeSemaphore(&DeviceExtensionHub->ResetDeviceMutex, 1, 1); USBH_ASSERT(DeviceExtensionHub->RootHubPdo); USBH_SyncGetRootHubPdo(DeviceExtensionHub->TopOfStackDeviceObject, NULL, NULL, &hubCount); #ifdef USB2 ntStatus = USBHUB_GetBusInterface(DeviceExtensionHub->RootHubPdo, &DeviceExtensionHub->BusIf); if (!NT_SUCCESS(ntStatus)) { USBH_KdBreak(("StartDevice USBHUB_GetBusInterface fail code %x\n", ntStatus)); goto USBH_StartDeviceDone; } ntStatus = USBHUB_GetBusInterfaceUSBDI(DeviceExtensionHub->TopOfStackDeviceObject, &DeviceExtensionHub->UsbdiBusIf); if (!NT_SUCCESS(ntStatus)) { USBH_KdBreak(("StartDevice USBHUB_GetBusInterfaceUSBDI fail code %x\n", ntStatus)); goto USBH_StartDeviceDone; } USBH_InitializeUSB2Hub(DeviceExtensionHub); #endif USBH_KdPrint((2,"'Hub Count is %d\n", hubCount)); // // allow no more than five physical hubs plus the root // (7.1.16) // #if DBG if (UsbhPnpTest & PNP_TEST_FAIL_HUB_COUNT) { hubCount = 7; } #endif if (hubCount > 6) { USBH_WriteFailReason( DeviceExtensionHub->PhysicalDeviceObject, USBH_FAILREASON_MAXHUBS_CONNECTED); USBH_KdPrint((1,"'StartDevice: hubs are stacked too deep (%x)\n", hubCount - 1)); hubParentDeviceExtensionPort = DeviceExtensionHub->PhysicalDeviceObject->DeviceExtension; portData = &hubParentDeviceExtensionPort->DeviceExtensionHub->PortData[hubParentDeviceExtensionPort->PortNumber-1]; portData->ConnectionStatus = DeviceHubNestedTooDeeply; // Don't clear the hub's reference to this PDO because we will just try to // create a new one when QDR is called and we see that there is still a device // connected to the port. // portData->DeviceObject = NULL; // generate a WMI event so UI can inform the user USBH_PdoEvent(hubParentDeviceExtensionPort->DeviceExtensionHub, hubParentDeviceExtensionPort->PortNumber); // We fail the hub here but don't return an error so that the device // is not removed and the UI can display an error message about it. HUB_FAILURE(DeviceExtensionHub); } // Initialize DeviceCapabilities structure in case USBH_QueryCapabilities // is unsuccessful. RtlZeroMemory(&deviceCapabilities, sizeof(DEVICE_CAPABILITIES)); USBH_QueryCapabilities(DeviceExtensionHub->TopOfStackDeviceObject, &deviceCapabilities); // // save the system state mapping // for (i = 0 ; i< PowerSystemMaximum ; i++) { DeviceExtensionHub->DeviceState[i] = PowerDeviceD3; } RtlCopyMemory(&DeviceExtensionHub->DeviceState[0], &deviceCapabilities.DeviceState[0], sizeof(deviceCapabilities.DeviceState)); DeviceExtensionHub->SystemWake = deviceCapabilities.SystemWake; DeviceExtensionHub->DeviceWake = deviceCapabilities.DeviceWake; #if DBG USBH_KdPrint((1,"'>>>>>> Hub DeviceCaps\n")); USBH_KdPrint((1,"'SystemWake = (%d)\n", DeviceExtensionHub->SystemWake)); USBH_KdPrint((1,"'DeviceWake = (D%d)\n", DeviceExtensionHub->DeviceWake-1)); for (i=PowerSystemUnspecified; i< PowerSystemHibernate; i++) { USBH_KdPrint((1,"'Device State Map: sysstate %d = devstate 0x%x\n", i, DeviceExtensionHub->DeviceState[i])); } USBH_KdBreak(("'>>>>>> Hub DeviceCaps\n")); // Spit out message on the debugger indicating whether the Root Hub // will support wake, according to the mapping table. if (IS_ROOT_HUB(DeviceExtensionHub)) { USBH_KdPrint((1,"'\n\tWake support summary for USB Root Hub:\n\n")); if (DeviceExtensionHub->SystemWake <= PowerSystemWorking) { USBH_KdPrint((1,"'USB Root Hub can't wake machine because SystemWake does not support it.\n")); } else { for (i = PowerSystemSleeping1, bWakeSupported = FALSE; i <= DeviceExtensionHub->SystemWake; i++) { if (DeviceExtensionHub->DeviceState[i] != PowerDeviceUnspecified && DeviceExtensionHub->DeviceState[i] <= DeviceExtensionHub->DeviceWake) { bWakeSupported = TRUE; USBH_KdPrint((1,"'USB Root Hub can wake machine from S%x (maps to D%x).\n", i - 1, DeviceExtensionHub->DeviceState[i] - 1)); } } if (!bWakeSupported) { USBH_KdPrint((1,"'USB Root Hub can't wake machine because DeviceState table does not support it.\n")); } } } #endif // // get our device descriptor // ntStatus = USBH_GetDeviceDescriptor(DeviceExtensionHub->FunctionalDeviceObject, &DeviceExtensionHub->DeviceDescriptor); if (!NT_SUCCESS(ntStatus)) { USBH_KdBreak(("StartDevice USBH_GetHubDeviceDescriptor fail code %x\n", ntStatus)); goto USBH_StartDeviceDone; } ntStatus = USBH_GetConfigurationDescriptor(DeviceExtensionHub->FunctionalDeviceObject, &DeviceExtensionHub->ConfigurationDescriptor); if (!NT_SUCCESS(ntStatus)) { USBH_KdBreak(("Hub StartDevice USBH_GetConfigurationDescriptor fail code %x\n", ntStatus)); goto USBH_StartDeviceDone; } // // Get Hub specific descriptor. // // port data array allocated by this function // ntStatus = USBH_SyncGetHubDescriptor(DeviceExtensionHub); if (!NT_SUCCESS(ntStatus)) { USBH_KdBreak(("StartDevice USBH_GetHubDescriptor fail code %x\n", ntStatus)); goto USBH_StartDeviceDone; } if (USBH_HubIsBusPowered(DeviceExtensionHub->FunctionalDeviceObject, DeviceExtensionHub->ConfigurationDescriptor)) { // we have 500 mA to work with DeviceExtensionHub->MaximumPowerPerPort = 100; // // The amount of current a bus powered hub will draw (mA) // should be calculated as follows: // // NumberOfExternalPorts * 100 + HubCntrolCurrent + // power required for embeded functions // // this value cannot exceed 500 ma, the hub config // descriptor should report this value but in most cases // does not so we set it to the worst case value to insure // that a bus powered hub cannot be connected to another // bus powered hub. UsbhInfo(DeviceExtensionHub); DeviceExtensionHub->ConfigurationDescriptor->MaxPower = 250; } else { // self powered hub can supply 500 mA per port DeviceExtensionHub->MaximumPowerPerPort = 500; UsbhInfo(DeviceExtensionHub); } USBH_KdPrint((2,"'per port power for hub = %d\n", DeviceExtensionHub->MaximumPowerPerPort)); // // attempt to configure the device // ntStatus = USBH_OpenConfiguration(DeviceExtensionHub); if (!NT_SUCCESS(ntStatus)) { USBH_KdBreak(("StartDevice USBH_OpenConfiguration fail code %x\n", ntStatus)); goto USBH_StartDeviceDone; } // if this is a usb 2 hub if (DeviceExtensionHub->HubFlags & HUBFLAG_USB20_HUB) { ntStatus = USBD_InitUsb2Hub(DeviceExtensionHub); } if (!NT_SUCCESS(ntStatus)) { USBH_KdBreak(("StartDevice failed USB 2.0 init %x\n", ntStatus)); goto USBH_StartDeviceDone; } // // Allocate a permanent Irp for this hub // DeviceExtensionHub->Irp = IoAllocateIrp(DeviceExtensionHub->FunctionalDeviceObject->StackSize, FALSE); USBH_KdPrint((2,"'StartDevice AllocateIrp Irp %x StackSize %d\n", DeviceExtensionHub->Irp, DeviceExtensionHub->FunctionalDeviceObject->StackSize)); if (NULL == DeviceExtensionHub->Irp) { USBH_KdBreak(("StartDevice failed to alloc Irp\n")); ntStatus = STATUS_INSUFFICIENT_RESOURCES; goto USBH_StartDeviceDone; } // // Allocate a transfer buffer which together with the permanent Irp and // Urb // for the hub will be use to do InterruptTransfer. // DeviceExtensionHub->TransferBufferLength = DeviceExtensionHub->PipeInformation.MaximumPacketSize; DeviceExtensionHub->TransferBuffer = UsbhExAllocatePool(NonPagedPool, DeviceExtensionHub->TransferBufferLength); if (NULL == DeviceExtensionHub->TransferBuffer) { USBH_KdBreak(("StartDevice fail alloc TransferBuffer\n")); ntStatus = STATUS_INSUFFICIENT_RESOURCES; goto USBH_StartDeviceDone; } USBH_KdPrint((2,"'StartDevice TransferBuffer %x size %x\n", DeviceExtensionHub->TransferBuffer, DeviceExtensionHub->PipeInformation.MaximumPacketSize)); // // Power on all down stream ports. // Be it ganged powered, individual powered or none switched // ntStatus = USBH_SyncPowerOnPorts(DeviceExtensionHub); #if DBG if (!NT_SUCCESS(ntStatus)) { USBH_KdBreak(("StartDevice USBH_SyncPowerOnPorts fail code %x\n", ntStatus)); } #endif #if DBG if (UsbhPnpTest & PNP_TEST_FAIL_HUB) { ntStatus = STATUS_UNSUCCESSFUL; } #endif USBH_StartDeviceDone: if (NT_SUCCESS(ntStatus)) { // // So we are started. // DeviceExtensionHub->HubFlags |= HUBFLAG_NEED_CLEANUP; // // first clear any status changes the hub may be asserting // for (p=1; p<= DeviceExtensionHub->HubDescriptor->bNumberOfPorts; p++) { USBH_SyncClearPortStatus(DeviceExtensionHub, (USHORT)p, FEATURE_C_PORT_CONNECT); } // // Tell the OS that this PDO can have kids. // // // Workaround for PnP bug #406381 - RC3SS: Bluescreen failure when // installing/deinstalling communication ports // //===== Assigned by santoshj on 09/23/99 10:27:20 to kenray ===== // This is a race condition between IopInitializeSystemDrivers and // IoInvalidateDeviceRelations. The real fix is too big a change at this // stage of the product and has potential of exposing other problems. This // problem can be solved if USBHUB does not invalidate device relations on // every start which is redundant anyway (and also exposes this bug). // // USBH_IoInvalidateDeviceRelations(DeviceExtensionHub->PhysicalDeviceObject, // BusRelations); // // Start polling the hub // #ifdef NEW_START // establish callback to start the hub if (IS_ROOT_HUB(DeviceExtensionHub)) { USBD_RegisterRhHubCallBack(DeviceExtensionHub); } else { DeviceExtensionHub->HubFlags |= HUBFLAG_OK_TO_ENUMERATE; USBH_SubmitInterruptTransfer(DeviceExtensionHub); } #else USBH_SubmitInterruptTransfer(DeviceExtensionHub); #endif } else { // // clean up allocated structures // USBH_KdBreak(("USBH_FdoStartDevice_Error\n")); LOGENTRY(LOG_PNP, "STR!", DeviceExtensionHub, 0, 0); if (DeviceExtensionHub->HubDescriptor) { UsbhExFreePool(DeviceExtensionHub->HubDescriptor); DeviceExtensionHub->HubDescriptor = NULL; } if (DeviceExtensionHub->Irp) { IoFreeIrp(DeviceExtensionHub->Irp); DeviceExtensionHub->Irp = NULL; } if (DeviceExtensionHub->TransferBuffer) { UsbhExFreePool(DeviceExtensionHub->TransferBuffer); DeviceExtensionHub->TransferBuffer = NULL; } if (DeviceExtensionHub->ConfigurationDescriptor) { UsbhExFreePool(DeviceExtensionHub->ConfigurationDescriptor); DeviceExtensionHub->ConfigurationDescriptor = NULL; } } // // complete the start Irp now since we pended it with // our completion handler. // LOGENTRY(LOG_PNP, "STRc", DeviceExtensionHub, 0, ntStatus); USBH_CompleteIrp(Irp, ntStatus); return ntStatus; } VOID UsbhFdoCleanup( IN PDEVICE_EXTENSION_HUB DeviceExtensionHub ) /* ++ * * Description: * * This routine is called to shut down the hub. * * All we do here is abort or pending interrupt transfer and wait for it to * complete and fre up memeory resources * * Argument: * * DeviceExtensionHub - This is a a hub device extension. * * Return: * * STATUS_SUCCESS * * -- */ { PDEVICE_OBJECT deviceObject; PPORT_DATA portData; USHORT p, numberOfPorts; KIRQL irql; PIRP wWIrp = NULL; PIRP hubIdleIrp = NULL; PIRP idleIrp = NULL; PIRP waitWakeIrp = NULL; PVOID deviceData; NTSTATUS status, ntStatus; BOOLEAN bRet; // Can't acquire (cancel) spin locks in paged code! // TODO: isolate the pieces of code that require the spin lock into helper // functions // PAGED_CODE(); USBH_KdPrint((2,"'UsbhFdoCleanup Fdo extension %x\n", DeviceExtensionHub)); deviceObject = DeviceExtensionHub->FunctionalDeviceObject; USBD_UnRegisterRhHubCallBack(DeviceExtensionHub); // // set our stop flag so that ChangeIndication does not submit // any more transfers or queue more workitems, important to do // this before we send the abort. // DeviceExtensionHub->HubFlags |= HUBFLAG_DEVICE_STOPPING; // If there is a ChangeIndicationWorkitem pending, then we // must wait for that to complete. if (DeviceExtensionHub->ChangeIndicationWorkitemPending) { USBH_KdPrint((2,"'Wait for single object\n")); ntStatus = KeWaitForSingleObject(&DeviceExtensionHub->CWKEvent, Suspended, KernelMode, FALSE, NULL); USBH_KdPrint((2,"'Wait for single object, returned %x\n", ntStatus)); } LOGENTRY(LOG_PNP, "fdoX", DeviceExtensionHub, deviceObject, DeviceExtensionHub->HubFlags); // // dump our wake request // IoAcquireCancelSpinLock(&irql); if (DeviceExtensionHub->PendingWakeIrp) { LOGENTRY(LOG_PNP, "CwkI", DeviceExtensionHub, 0, DeviceExtensionHub->PendingWakeIrp); USBH_ASSERT(DeviceExtensionHub->HubFlags & HUBFLAG_PENDING_WAKE_IRP); wWIrp = DeviceExtensionHub->PendingWakeIrp; DeviceExtensionHub->PendingWakeIrp = NULL; } if (DeviceExtensionHub->PendingIdleIrp) { hubIdleIrp = DeviceExtensionHub->PendingIdleIrp; DeviceExtensionHub->PendingIdleIrp = NULL; } IoReleaseCancelSpinLock(irql); if (wWIrp) { USBH_HubCancelWakeIrp(DeviceExtensionHub, wWIrp); } USBH_HubCompletePortWakeIrps(DeviceExtensionHub, STATUS_DELETE_PENDING); if (hubIdleIrp) { USBH_HubCancelIdleIrp(DeviceExtensionHub, hubIdleIrp); } // // wait for all work items to finish... // the event is not signaled if a work item is pending // // this code takes care of work items that may have been queued // before the ShutDown flag was set. // note: no additional work items will be queued once the // HUBFLAG_DEVICE_STOPPING flag is set. // if (InterlockedDecrement(&DeviceExtensionHub->PendingRequestCount) > 0) { // // need to wait // LOGENTRY(LOG_PNP, "hWAT", DeviceExtensionHub, &DeviceExtensionHub->PendingRequestEvent, DeviceExtensionHub->PendingRequestCount); status = KeWaitForSingleObject( &DeviceExtensionHub->PendingRequestEvent, Suspended, KernelMode, FALSE, NULL); } USBH_KdPrint((2,"'Work Items Finished %x\n", DeviceExtensionHub)); USBH_ASSERT(DeviceExtensionHub->PendingRequestCount == 0); // // now cancel any outstanding transfers // if (DeviceExtensionHub->Irp) { status = USBH_AbortInterruptPipe(DeviceExtensionHub); // If the ABORT_PIPE request failed then we should cancel // the Interrupt IRP before freeing it, otherwise we are likely // freeing the IRP while it is still in use. if (!NT_SUCCESS(status)) { bRet = IoCancelIrp(DeviceExtensionHub->Irp); // Only wait on the abort event if the IRP was actually // cancelled. if (bRet) { LOGENTRY(LOG_PNP, "aWAT", DeviceExtensionHub, &DeviceExtensionHub->AbortEvent, 0); status = KeWaitForSingleObject( &DeviceExtensionHub->AbortEvent, Suspended, KernelMode, FALSE, NULL); } } IoFreeIrp(DeviceExtensionHub->Irp); DeviceExtensionHub->Irp = NULL; } USBH_KdPrint((2,"'Abort Finished %x\n", DeviceExtensionHub)); // // disable the ports in case we are re-started // USBH_ASSERT(DeviceExtensionHub->HubDescriptor != NULL); numberOfPorts = DeviceExtensionHub->HubDescriptor->bNumberOfPorts; portData = DeviceExtensionHub->PortData; if (portData) { for (p = 1; p <= numberOfPorts; p++, portData++) { PDEVICE_EXTENSION_PORT deviceExtensionPort; // // do this after we abort are interrupt pipe, // it doesn't matter if it fails. // LOGENTRY(LOG_PNP, "offP", DeviceExtensionHub, p, portData->DeviceObject); // // check our PDOs -- if this is a remove then we should have // none -- otherwise this is a stop. // if (portData->DeviceObject) { deviceExtensionPort = portData->DeviceObject->DeviceExtension; // // it is possible that the PDO was never actually started // if this is the case then the PDO won't be marked for reset // we mark it here and free up the associated bus resources IoAcquireCancelSpinLock(&irql); if (deviceExtensionPort->IdleNotificationIrp) { idleIrp = deviceExtensionPort->IdleNotificationIrp; deviceExtensionPort->IdleNotificationIrp = NULL; deviceExtensionPort->PortPdoFlags &= ~PORTPDO_IDLE_NOTIFIED; if (idleIrp->Cancel) { idleIrp = NULL; } if (idleIrp) { IoSetCancelRoutine(idleIrp, NULL); } } if (deviceExtensionPort->WaitWakeIrp) { waitWakeIrp = deviceExtensionPort->WaitWakeIrp; deviceExtensionPort->WaitWakeIrp = NULL; deviceExtensionPort->PortPdoFlags &= ~PORTPDO_REMOTE_WAKEUP_ENABLED; if (waitWakeIrp->Cancel || IoSetCancelRoutine(waitWakeIrp, NULL) == NULL) { waitWakeIrp = NULL; // Must decrement pending request count here because // we don't complete the IRP below and USBH_WaitWakeCancel // won't either because we have cleared the IRP pointer // in the device extension above. USBH_DEC_PENDING_IO_COUNT(DeviceExtensionHub); } UsbhWarning(deviceExtensionPort, "Device Driver did not cancel wait_wake irp on stop/remove\n", FALSE); } // // Finally, release the cancel spin lock // IoReleaseCancelSpinLock(irql); if (idleIrp) { idleIrp->IoStatus.Status = STATUS_CANCELLED; IoCompleteRequest(idleIrp, IO_NO_INCREMENT); } if (waitWakeIrp) { USBH_CompletePowerIrp(DeviceExtensionHub, waitWakeIrp, STATUS_CANCELLED); } if (!(deviceExtensionPort->PortPdoFlags & PORTPDO_NEED_RESET)) { USBH_KdPrint((1, "'do %x was never started, marking for reset\n", portData->DeviceObject)); deviceData = InterlockedExchangePointer( &deviceExtensionPort->DeviceData, NULL); if (deviceData) { #ifdef USB2 USBD_RemoveDeviceEx(DeviceExtensionHub, deviceData, deviceExtensionPort->DeviceExtensionHub->RootHubPdo, 0); #else USBD_RemoveDevice(deviceData, deviceExtensionPort->DeviceExtensionHub->RootHubPdo, 0); #endif } deviceExtensionPort->PortPdoFlags |= PORTPDO_NEED_RESET; } } USBH_SyncDisablePort(DeviceExtensionHub, p); } } // // Clean up buffers // if (DeviceExtensionHub->TransferBuffer) { UsbhExFreePool(DeviceExtensionHub->TransferBuffer); } if (DeviceExtensionHub->HubDescriptor) { UsbhExFreePool(DeviceExtensionHub->HubDescriptor); } if (DeviceExtensionHub->ConfigurationDescriptor) { UsbhExFreePool(DeviceExtensionHub->ConfigurationDescriptor); } // // NOTE: we do not free the per port data (PortData) because // we will need it if we start up agian // DeviceExtensionHub->TransferBuffer = NULL; DeviceExtensionHub->Irp = NULL; DeviceExtensionHub->ConfigurationDescriptor = (PVOID) DeviceExtensionHub->HubDescriptor = NULL; DeviceExtensionHub->HubFlags &= ~HUBFLAG_NEED_CLEANUP; return; } NTSTATUS USBH_FdoStopDevice( IN PDEVICE_EXTENSION_HUB DeviceExtensionHub, IN PIRP Irp ) /* ++ * * Description: * * This routine is called by PnP via (IRP_MJ_PNP, IRP_MN_STOP_DEVICE). * * Argument: * * DeviceExtensionHub - * * Return: * * STATUS_SUCCESS * * -- */ { NTSTATUS ntStatus; PAGED_CODE(); USBH_KdPrint((2,"'FdoStopDevice Fdo extension %x\n", DeviceExtensionHub)); LOGENTRY(LOG_PNP, "hSTP", DeviceExtensionHub, DeviceExtensionHub->HubFlags, 0); // walk thru our list of PDOs and verify that stop was passed down // for each one { PPORT_DATA portData; USHORT nextPortNumber; USHORT numberOfPorts; PDEVICE_EXTENSION_PORT deviceExtensionPort; portData = DeviceExtensionHub->PortData; // NOTE: // if we get a stop as a result of an error during stop // then we may not have allocated portdata or a HubDescriptor if (portData && DeviceExtensionHub->HubDescriptor) { numberOfPorts = DeviceExtensionHub->HubDescriptor->bNumberOfPorts; for (nextPortNumber = 1; nextPortNumber <= numberOfPorts; nextPortNumber++, portData++) { LOGENTRY(LOG_PNP, "chkS", DeviceExtensionHub, nextPortNumber, portData->DeviceObject); USBH_KdPrint((2,"'portdata %x, do %x\n", portData, portData->DeviceObject)); if (portData->DeviceObject) { deviceExtensionPort = portData->DeviceObject->DeviceExtension; // // port is still started, print a warning // LOGENTRY(LOG_PNP, "chk1", DeviceExtensionHub, nextPortNumber, deviceExtensionPort->PortPdoFlags); if (deviceExtensionPort->PortPdoFlags & PORTPDO_STARTED) { USBH_KdPrint((1, "'client driver failed to pass the stop IRP\n")); // remove it now USBH_PdoStopDevice(deviceExtensionPort, Irp); } } } } } if (DeviceExtensionHub->HubFlags & HUBFLAG_NEED_CLEANUP) { (VOID) UsbhFdoCleanup(DeviceExtensionHub); } // // note that some hub structures are free at this point // if (DeviceExtensionHub->Configuration) { (VOID) USBH_CloseConfiguration((PDEVICE_EXTENSION_FDO) DeviceExtensionHub); DeviceExtensionHub->Configuration = NULL; } // note that we are stopped DeviceExtensionHub->HubFlags |= HUBFLAG_HUB_STOPPED; // // And we need to pass this message on to lower level driver // ntStatus = USBH_PassIrp(Irp, DeviceExtensionHub->TopOfStackDeviceObject); return ntStatus; } VOID USBH_FdoSurpriseRemoveDevice( IN PDEVICE_EXTENSION_HUB DeviceExtensionHub, IN PIRP Irp ) /* ++ * * Description: * * Handle surprise remove. If we get a surprise remove then PnP will know * that all of our children are gone (same as a QBR) and remove them before * removing us. * Therefore we mark the devices as no longer present so that we process the * remove properly when we get if for the PDO * * Argument: * * DeviceExtensionHub - This is a hub device extension. pIrp - the request * * Return: * * This call is non-falable, no status is returned * -- */ { PPORT_DATA pd; USHORT portNumber; USHORT numberOfPorts; pd = DeviceExtensionHub->PortData; if (pd && DeviceExtensionHub->HubDescriptor) { numberOfPorts = DeviceExtensionHub->HubDescriptor->bNumberOfPorts; for (portNumber = 1; portNumber <= numberOfPorts; portNumber++, pd++) { LOGENTRY(LOG_PNP, "chsX", DeviceExtensionHub, portNumber, pd->DeviceObject); USBH_KdPrint((2,"'portdata %x, do %x\n", pd, pd->DeviceObject)); if (pd->DeviceObject != NULL) { LOGENTRY(LOG_PNP, "chs", DeviceExtensionHub, portNumber, PDO_EXT(pd->DeviceObject)); // we no longer track this device, it is gone // PDO_EXT(pd->DeviceObject)->PortPdoFlags |= PORTPDO_DELETE_PENDING; PDO_EXT(pd->DeviceObject)->PnPFlags &= ~PDO_PNPFLAG_DEVICE_PRESENT; pd->DeviceObject = NULL; pd->ConnectionStatus = NoDeviceConnected; // note that we leave the device handle in the port extension // this will be removed when the remove_device meassage is // processed for the PDO } } } else { // I would like to know the circumstances where // either of these are NULL TEST_TRAP(); } } NTSTATUS USBH_FdoRemoveDevice( IN PDEVICE_EXTENSION_HUB DeviceExtensionHub, IN PIRP Irp ) /* ++ * * Description: * * This routine is called by PnP via (IRP_MJ_PNP, IRP_MN_REMOVE_DEVICE). * * Argument: * * DeviceExtensionHub - This is a hub device extension. pIrp - the request * * Return: * * STATUS_SUCCESS * * -- */ { PDEVICE_OBJECT deviceObject; NTSTATUS ntStatus = STATUS_SUCCESS; PAGED_CODE(); deviceObject = DeviceExtensionHub->FunctionalDeviceObject; USBH_KdPrint((2,"'FdoRemoveDevice Fdo %x\n", deviceObject)); LOGENTRY(LOG_PNP, "hREM", DeviceExtensionHub, DeviceExtensionHub->HubFlags, 0); // walk thru our list of PDOs and verify that remove was passed down // for each one { PPORT_DATA portData; USHORT nextPortNumber; USHORT numberOfPorts; PDEVICE_EXTENSION_PORT deviceExtensionPort; portData = DeviceExtensionHub->PortData; // // hub descriptor will be null if the hub is already stopped // if (portData && DeviceExtensionHub->HubDescriptor) { numberOfPorts = DeviceExtensionHub->HubDescriptor->bNumberOfPorts; for (nextPortNumber = 1; nextPortNumber <= numberOfPorts; nextPortNumber++, portData++) { LOGENTRY(LOG_PNP, "chkX", DeviceExtensionHub, nextPortNumber, portData->DeviceObject); USBH_KdPrint((2,"'portdata %x, do %x\n", portData, portData->DeviceObject)); if (portData->DeviceObject) { deviceExtensionPort = portData->DeviceObject->DeviceExtension; // // port is still started, print a warning // LOGENTRY(LOG_PNP, "chk2", DeviceExtensionHub, nextPortNumber, deviceExtensionPort->PortPdoFlags); portData->DeviceObject = NULL; portData->ConnectionStatus = NoDeviceConnected; // We removed this trap because this is normal in the case where the hub is // being removed due to hub failure and one of the downstream devices still // had open references to it (open files on a USB storage device). In this // case, PnP will not send the remove to the device until such references // have been closed. // // if (deviceExtensionPort->PortPdoFlags & PORTPDO_STARTED) { // USBH_KdPrint((1, // "'client driver failed to pass the remove IRP\n")); // USBH_KdTrap(("client driver bug\n")); // // } // remove the PDO USBH_PdoRemoveDevice(deviceExtensionPort, DeviceExtensionHub, Irp); } } } } // // see if we need cleanup // if (DeviceExtensionHub->HubFlags & HUBFLAG_NEED_CLEANUP) { UsbhFdoCleanup(DeviceExtensionHub); } // // free the per port data now // if (DeviceExtensionHub->PortData) { UsbhExFreePool(DeviceExtensionHub->PortData); DeviceExtensionHub->PortData = NULL; } #ifdef WMI_SUPPORT // de-register with WMI IoWMIRegistrationControl(deviceObject, WMIREG_ACTION_DEREGISTER); #endif // // And we need to pass this message on to lower level driver // ntStatus = USBH_PassIrp(Irp, DeviceExtensionHub->TopOfStackDeviceObject); // // Detach FDO from PDO // IoDetachDevice(DeviceExtensionHub->TopOfStackDeviceObject); // delete FDO LOGENTRY(LOG_PNP, "hXXX", DeviceExtensionHub, 0, 0); IoDeleteDevice(deviceObject); return ntStatus; } BOOLEAN USBH_DeviceIs2xDualMode( IN PDEVICE_EXTENSION_PORT DeviceExtensionPort ) /* ++ * * Description: * * This function determines if the device is a 2.x compliant dual-mode device. * * Arguments: * * DeviceExtensionPort * * Return: * * BOOLEAN indicating whether the given device is a 2.x compliant dual-mode * device or not. * * -- */ { USB_DEVICE_QUALIFIER_DESCRIPTOR DeviceQualifierDescriptor; NTSTATUS ntStatus; BOOLEAN bDeviceIs2xDualMode = FALSE; if (DeviceExtensionPort->DeviceDescriptor.bcdUSB >= 0x0200) { ntStatus = USBH_GetDeviceQualifierDescriptor( DeviceExtensionPort->PortPhysicalDeviceObject, &DeviceQualifierDescriptor); if (NT_SUCCESS(ntStatus) && DeviceQualifierDescriptor.bcdUSB >= 0x0200) { bDeviceIs2xDualMode = TRUE; } } return bDeviceIs2xDualMode; } PDEVICE_EXTENSION_HUB USBH_GetRootHubDevExt( IN PDEVICE_EXTENSION_HUB DeviceExtensionHub ) /* ++ * * Description: * * This function gets the DevExt for the RootHub upstream of the given * DeviceExtensionHub * * Arguments: * * DeviceExtensionHub * * Return: * * DeviceExtensionHub for the RootHub FDO. * * -- */ { PDEVICE_OBJECT rootHubPdo, rootHubFdo; PDEVICE_EXTENSION_HUB rootHubDevExt; PDRIVER_OBJECT hubDriver; hubDriver = DeviceExtensionHub->FunctionalDeviceObject->DriverObject; if (IS_ROOT_HUB(DeviceExtensionHub)) { rootHubDevExt = DeviceExtensionHub; } else { rootHubPdo = DeviceExtensionHub->RootHubPdo; do { rootHubFdo = rootHubPdo->AttachedDevice; rootHubPdo = rootHubFdo; } while (rootHubFdo->DriverObject != hubDriver); rootHubDevExt = rootHubFdo->DeviceExtension; } USBH_ASSERT(rootHubDevExt && rootHubDevExt->ExtensionType == EXTENSION_TYPE_HUB); return rootHubDevExt; } NTSTATUS USBH_FdoQueryBusRelations( IN PDEVICE_EXTENSION_HUB DeviceExtensionHub, IN PIRP Irp ) /* ++ * * Description: * * This function responds to Bus_Reference_Next_Device, Bus_Query_Bus_Check, * //Bus_Query_Id: Bus_Id, HardwareIDs, CompatibleIDs and InstanceID. * * Arguments: * * DeviceExtensionHub - should be the FDO we created for ourselves pIrp - the * Irp * * Return: * * NtStatus * * -- */ { PIO_STACK_LOCATION ioStack; PPORT_DATA portData; USHORT nextPortNumber; USHORT numberOfPorts; NTSTATUS ntStatus = STATUS_SUCCESS; //BOOLEAN IsLowSpeed; USHORT portStatus; PDEVICE_RELATIONS deviceRelations = NULL; PDEVICE_OBJECT deviceObject; PDEVICE_EXTENSION_PORT deviceExtensionPort; PWCHAR sernumbuf; #ifdef EARLY_RESOURCE_RELEASE PVOID deviceData; #endif PAGED_CODE(); USBH_KdPrint((1, "'Query Bus Relations (HUB) %x\n", DeviceExtensionHub->PhysicalDeviceObject)); // // Get a pointer to the current location in the Irp. This is where // the function codes and parameters are located. // ioStack = IoGetCurrentIrpStackLocation(Irp); USBH_KdPrint((2,"'FdoQueryBusRelations %x\n", ioStack->Parameters.QueryDeviceRelations.Type)); LOGENTRY(LOG_PNP, "QBR+", DeviceExtensionHub, 0, 0); USBH_ASSERT(ioStack->Parameters.QueryDeviceRelations.Type == BusRelations); if (!(DeviceExtensionHub->HubFlags & HUBFLAG_NEED_CLEANUP)) { // Hub device has not been started yet. Fail the IRP. UsbhWarning(NULL, "Hub device not started in FdoQueryBusRelations\n", FALSE); ntStatus = STATUS_INVALID_DEVICE_STATE; goto USBH_FdoQueryBusRelations_Done2; } if (!DeviceExtensionHub->HubDescriptor) { // Sometimes HubDescriptor is NULL when running Test's // "Rebalance" test. UsbhWarning(NULL, "NULL HubDescriptor in FdoQueryBusRelations\n", FALSE); ntStatus = STATUS_UNSUCCESSFUL; goto USBH_FdoQueryBusRelations_Done2; } USBH_KdPrint((2,"'FdoQueryBusRelations enumerate device\n")); #ifdef NEW_START if (!(DeviceExtensionHub->HubFlags & HUBFLAG_OK_TO_ENUMERATE)) { USBH_KdPrint((1,"'Defer enumeration\n")); ntStatus = STATUS_SUCCESS; goto USBH_FdoQueryBusRelations_Done2; } #endif // // It should be Function device object. // USBH_ASSERT(EXTENSION_TYPE_HUB == DeviceExtensionHub->ExtensionType); // Sometimes during rebalance we will receive a QBR for a hub while one // of the devices attached to hub is being restored. This will cause us to // toss the PDO for that port because GetPortStatus for that port will show // that there is no device connected. So, we synchronize with ResetDevice // here. USBH_KdPrint((2,"'***WAIT reset device mutex %x\n", DeviceExtensionHub)); USBH_INC_PENDING_IO_COUNT(DeviceExtensionHub); KeWaitForSingleObject(&DeviceExtensionHub->ResetDeviceMutex, Executive, KernelMode, FALSE, NULL); USBH_KdPrint((2,"'***WAIT reset device mutex done %x\n", DeviceExtensionHub)); numberOfPorts = DeviceExtensionHub->HubDescriptor->bNumberOfPorts; // // Must use ExAllocatePool directly here because the OS // will free the buffer // deviceRelations = ExAllocatePoolWithTag( PagedPool, sizeof(*deviceRelations) + (numberOfPorts - 1) * sizeof(PDEVICE_OBJECT), USBHUB_HEAP_TAG); if (deviceRelations == NULL) { ntStatus = STATUS_INSUFFICIENT_RESOURCES; goto USBH_FdoQueryBusRelations_Done; } USBH_FdoQueryBusRelations_Start: deviceRelations->Count = 0; if (DeviceExtensionHub->HubFlags & HUBFLAG_HUB_HAS_LOST_BRAINS) { // If we are trying to recover from ESD failure, then just tell PnP // that there are no devices. USBH_KdPrint((1,"'FdoQueryBusRelations: ESD recovery, returning no devices\n")); ntStatus = STATUS_SUCCESS; goto USBH_FdoQueryBusRelations_Done; } // Allow selective suspend once again if we were suppressing it waiting // for post-ESD enumeration to occur. DeviceExtensionHub->HubFlags &= ~HUBFLAG_POST_ESD_ENUM_PENDING; // // This is the first call for enumeration // // // Find a ready device on our ports // portData = DeviceExtensionHub->PortData; for (nextPortNumber = 1; nextPortNumber <= numberOfPorts; nextPortNumber++, portData++) { // // This query is redundant since we go here due to a change // indication from the hub, however since we check all // ports it will allow us to process another change may occur after // the first one but before we get to this routine. DBG_ONLY(USBH_ShowPortState( nextPortNumber, &portData->PortState)); // // don't bother to query the hub if it has failed // if (!(DeviceExtensionHub->HubFlags & HUBFLAG_HUB_FAILURE)) { ntStatus = USBH_SyncGetPortStatus(DeviceExtensionHub, nextPortNumber, (PUCHAR) &portData->PortState, sizeof(portData->PortState)); LOGENTRY(LOG_PNP, "nwPS", nextPortNumber, portData->PortState.PortStatus, portData->PortState.PortChange); if (NT_SUCCESS(ntStatus)) { // // mark the port status as connected if we show // overcurrent on this port, this will prevent us // from tossing the PDO. // Since the port is powered off we can't really // know if anything is connected. // if (portData->DeviceObject) { deviceExtensionPort = portData->DeviceObject->DeviceExtension; if (deviceExtensionPort->PortPdoFlags & PORTPDO_OVERCURRENT) { LOGENTRY(LOG_PNP, "mOVR", deviceExtensionPort, 0, 0); portData->PortState.PortStatus |= PORT_STATUS_CONNECT; } else if (!(deviceExtensionPort->PortPdoFlags & PORTPDO_DELETE_PENDING)) { // We now handle resetting ConnectionStatus in // USBH_ResetPortOvercurrent. // portData->ConnectionStatus = DeviceConnected; USBH_ASSERT(portData->ConnectionStatus != NoDeviceConnected); } } } else { // // NOTE (Doron Holan, 12/21/00): // Setting the failure bit here will mean that ntStatus will not // be touched again until the loop has exited and this function // will complete this request with an error. // // Perhaps it would be more clear if we broke out of the loop // here instead of starting over. // USBH_KdPrint((2,"'SyncGetPortStatus failed %x\n", ntStatus)); HUB_FAILURE(DeviceExtensionHub); goto USBH_FdoQueryBusRelations_Start; } DBG_ONLY(USBH_ShowPortState( nextPortNumber, &portData->PortState)); } // // do we have a device on this port? // if (DeviceExtensionHub->HubFlags & HUBFLAG_HUB_FAILURE) { // if the hub has failed just return what we know about deviceObject = portData->DeviceObject; } else if (portData->PortState.PortStatus & PORT_STATUS_CONNECT) { // Yes, // did we already know about this device? // // check to see if the pdo is an orphan, if so toss the PDO // deviceObject = portData->DeviceObject; if (portData->DeviceObject) { // Yes, // return the old PDO deviceObject = portData->DeviceObject; ObReferenceObject(deviceObject); deviceObject->Flags |= DO_POWER_PAGABLE; deviceObject->Flags &= ~DO_DEVICE_INITIALIZING; deviceRelations->Objects[deviceRelations->Count] = deviceObject; deviceRelations->Count++; deviceExtensionPort = deviceObject->DeviceExtension; deviceExtensionPort->PortPdoFlags &= ~PORTPDO_USB_SUSPEND; LOGENTRY(LOG_PNP, "PDO1", DeviceExtensionHub, deviceObject , deviceRelations->Count); USBH_KdPrint((2,"'DoBusExtension Enum Return old device on port %x PDO=%x\n", \ nextPortNumber, portData->DeviceObject)); } else { NTSTATUS status; // No // This means we have a new device on the bus // // wait 100ms for port device power to stablize before // we assert Reset. // UsbhWait(100); // USB 1.1 make sure we get speed of device after reset status = USBH_SyncResetPort(DeviceExtensionHub, nextPortNumber); // failure of reset is normal on USB 2.0 so we must ignore it. if ((DeviceExtensionHub->HubFlags & HUBFLAG_USB20_HUB) && !NT_SUCCESS(status)) { portData->DeviceObject = NULL; portData->ConnectionStatus = NoDeviceConnected; continue; } if (NT_SUCCESS(status)) { // get the speed of the device status = USBH_SyncGetPortStatus(DeviceExtensionHub, nextPortNumber, (PUCHAR) &portData->PortState, sizeof(portData->PortState)); LOGENTRY(LOG_PNP, "gps1", nextPortNumber, portData->PortState.PortChange, portData->PortState.PortStatus); // createDevice now figures out if it is low speed // IsLowSpeed = (portData->PortState.PortStatus & // PORT_STATUS_LOW_SPEED) ? TRUE : FALSE; portStatus = portData->PortState.PortStatus; } if (NT_SUCCESS(status)) { ULONG count = 0; // reset completed // // A successful return has the PortData->DeviceObject set // // // we will make three attempts to enumerate this device // for(;;) { status = USBH_CreateDevice(DeviceExtensionHub, nextPortNumber, portStatus, count); if (!NT_SUCCESS(status)) { count++; USBH_KdPrint((1,"'Enumeration Failed count = %d, %x\n", count, status)); #if DBG if (count == 1) { UsbhWarning(NULL, "USB device failed first enumeration attempt\n", (BOOLEAN)((USBH_Debug_Trace_Level >= 3) ? TRUE : FALSE)); } #endif UsbhWait(500); if (count >= USBH_MAX_ENUMERATION_ATTEMPTS) { USBH_KdBreak(("Max tries exceeded\n")); break; } if (portData->DeviceObject) { // // clean up the device object we created // IoDeleteDevice(portData->DeviceObject); portData->DeviceObject = NULL; portData->ConnectionStatus = NoDeviceConnected; } // // enumeration failed, reset the port and try again // USBH_SyncResetPort(DeviceExtensionHub, nextPortNumber); } else { // enumeration success // If this is a high-speed capable 2.x device // connected to a legacy 1.x hub, then inform // the UI. if (portData->DeviceObject) { deviceExtensionPort = portData->DeviceObject->DeviceExtension; if (!(deviceExtensionPort->PortPdoFlags & PORTPDO_LOW_SPEED_DEVICE) && !(deviceExtensionPort->PortPdoFlags & PORTPDO_HIGH_SPEED_DEVICE) && !(DeviceExtensionHub->HubFlags & HUBFLAG_USB20_HUB)) { // We have a device in full-speed mode // connected to a 1.x hub. Determine if // the device is high-speed capable. if (USBH_DeviceIs2xDualMode(deviceExtensionPort)) { deviceExtensionPort->PortPdoFlags |= PORTPDO_USB20_DEVICE_IN_LEGACY_HUB; USBH_KdPrint((1,"'USB 2.x dual-mode device connected to legacy hub (%x)\n", deviceExtensionPort)); // Generate a WMI event so UI can inform // the user. USBH_PdoEvent(DeviceExtensionHub, nextPortNumber); } } } break; } } } else { // unable to reset the port #if DBG USBH_SyncGetPortStatus(DeviceExtensionHub, nextPortNumber, (PUCHAR) &portData->PortState, sizeof(portData->PortState)); LOGENTRY(LOG_PNP, "gps2", nextPortNumber, portData->PortState.PortChange, portData->PortState.PortStatus); #endif // we will assume this is due to a jittery // connection USBH_KdPrint((0,"'Unable to reset port %d\n", nextPortNumber)); } if (NT_SUCCESS(status)) { // // A successful return from CreateDevice the // PortData->DeviceObject // set. // USBH_ASSERT(portData->DeviceObject != NULL); deviceObject = portData->DeviceObject; ObReferenceObject(deviceObject); deviceRelations->Objects[deviceRelations->Count] = deviceObject; deviceObject->Flags |= DO_POWER_PAGABLE; deviceObject->Flags &= ~DO_DEVICE_INITIALIZING; deviceRelations->Count++; deviceExtensionPort = deviceObject->DeviceExtension; portData->ConnectionStatus = DeviceConnected; LOGENTRY(LOG_PNP, "PDO2", DeviceExtensionHub, deviceObject , deviceRelations->Count); USBH_KdPrint((2,"'DoBusExtension Enum Return device on port %x\n", nextPortNumber)); } else { USBH_KdBreak(("ResetPort or CreateDevice failed, disable port\n")); UsbhWarning(NULL, "Device Failed Enumeration\n", FALSE); portData->ConnectionStatus = DeviceFailedEnumeration; // generate a WMI event so UI can inform the user USBH_PdoEvent(DeviceExtensionHub, nextPortNumber); // failed to initialize the device // disable the port here. status = USBH_SyncDisablePort(DeviceExtensionHub, nextPortNumber); if (NT_ERROR(status)) { HUB_FAILURE(DeviceExtensionHub); } // // return the deviceObject even for errors // so that PnP knows there is something on the // bus. // deviceObject = portData->DeviceObject; // // NOTE: we won't have a device object if we failed to reset // the port // if (deviceObject) { ObReferenceObject(deviceObject); deviceObject->Flags &= ~DO_DEVICE_INITIALIZING; deviceRelations->Objects[deviceRelations->Count] = deviceObject; deviceRelations->Count++; deviceExtensionPort = deviceObject->DeviceExtension; LOGENTRY(LOG_PNP, "PDO3", DeviceExtensionHub, deviceObject , deviceRelations->Count); } } } } else { // // No, // There is no device on this port now // // if there was a device here mark the PDO as delete pending if (portData->DeviceObject) { deviceExtensionPort = portData->DeviceObject->DeviceExtension; deviceExtensionPort->PortPdoFlags |= PORTPDO_DELETE_PENDING; // pnp will no longer see this device as present deviceExtensionPort->PnPFlags &= ~PDO_PNPFLAG_DEVICE_PRESENT; // Prevent double free of SerialNumberBuffer in // USBH_ProcessPortStateChange. sernumbuf = InterlockedExchangePointer( &deviceExtensionPort->SerialNumberBuffer, NULL); if (sernumbuf) { UsbhExFreePool(sernumbuf); } #ifdef EARLY_RESOURCE_RELEASE // // Remove the device data now to free // up the bus resources. // deviceData = InterlockedExchangePointer( &deviceExtensionPort->DeviceData, NULL); if (deviceData) { #ifdef USB2 USBD_RemoveDeviceEx(DeviceExtensionHub, deviceData, DeviceExtensionHub->RootHubPdo, 0); #else USBD_RemoveDevice(deviceData, DeviceExtensionHub->RootHubPdo, 0); #endif USBH_SyncDisablePort(DeviceExtensionHub, nextPortNumber); } #endif // EARLY_RESOURCE_RELEASE } // indicate no device portData->DeviceObject = NULL; portData->ConnectionStatus = NoDeviceConnected; } } /* for */ USBH_FdoQueryBusRelations_Done: LOGENTRY(LOG_PNP, "QBR-", DeviceExtensionHub, 0, 0); USBH_KdPrint((2,"'***RELEASE reset device mutex %x\n", DeviceExtensionHub)); KeReleaseSemaphore(&DeviceExtensionHub->ResetDeviceMutex, LOW_REALTIME_PRIORITY, 1, FALSE); USBH_DEC_PENDING_IO_COUNT(DeviceExtensionHub); USBH_FdoQueryBusRelations_Done2: Irp->IoStatus.Status = ntStatus; if (NT_SUCCESS(ntStatus)) { USHORT p, n=0, c=0; PPORT_DATA pd; // we may return NULL relations on success if (deviceRelations != NULL) { USBH_KdPrint((1, "'Query Bus Relations (HUB) %x passed on\n", DeviceExtensionHub->PhysicalDeviceObject)); // we have crafted device relations, set the PnP flags // to indicate that PnP now knows about these PDOs if (DeviceExtensionHub->HubDescriptor) { n = DeviceExtensionHub->HubDescriptor->bNumberOfPorts; } pd = DeviceExtensionHub->PortData; for (p = 1; pd && p <= n; p++, pd++) { if (pd->DeviceObject) { PDO_EXT(pd->DeviceObject)->PnPFlags |= PDO_PNPFLAG_DEVICE_PRESENT; c++; } } // we should be reporting all PDOs USBH_ASSERT(c == deviceRelations->Count); } else { // retrning NULL relations, any PDO previously reported will // be lost -- PnP will consider them removed USBH_KdPrint((1, "'Query Bus Relations (HUB) %x passed on (NULL)\n", DeviceExtensionHub->PhysicalDeviceObject)); pd = DeviceExtensionHub->PortData; for (p = 1; pd && p <= n; p++, pd++) { if (pd->DeviceObject) { TEST_TRAP(); PDO_EXT(pd->DeviceObject)->PnPFlags &= ~PDO_PNPFLAG_DEVICE_PRESENT; } } } Irp->IoStatus.Information=(ULONG_PTR) deviceRelations; ntStatus = USBH_PassIrp(Irp, DeviceExtensionHub->TopOfStackDeviceObject); } else { // returning error and no relations USHORT p, n=0; PPORT_DATA pd; DEVICE_EXTENSION_PORT portDevExt; // we are reporting that everything is gone // mark the PDOs as gone now. if (DeviceExtensionHub->HubDescriptor) { n = DeviceExtensionHub->HubDescriptor->bNumberOfPorts; } pd = DeviceExtensionHub->PortData; for (p = 1; pd && p <= n; p++, pd++) { if (pd->DeviceObject) { PDO_EXT(pd->DeviceObject)->PnPFlags &= ~PDO_PNPFLAG_DEVICE_PRESENT; } } Irp->IoStatus.Information=0; if (deviceRelations != NULL) { ExFreePool(deviceRelations); deviceRelations = NULL; } USBH_CompleteIrp(Irp, ntStatus); } // now flush the deleted pdo list, these are the PDOs that PNP now // knows are gone { PDEVICE_EXTENSION_PORT dePort; PLIST_ENTRY listEntry; while (!IsListEmpty(&DeviceExtensionHub->DeletePdoList)) { listEntry = RemoveHeadList(&DeviceExtensionHub->DeletePdoList); dePort = CONTAINING_RECORD(listEntry, DEVICE_EXTENSION_PORT, DeletePdoLink); dePort->PnPFlags &= ~PDO_PNPFLAG_DEVICE_PRESENT; } } return ntStatus; } NTSTATUS USBH_FdoPnP( IN PDEVICE_EXTENSION_HUB DeviceExtensionHub, IN PIRP Irp, IN UCHAR MinorFunction) /* ++ * * Description: * * This function responds to IoControl PnPPower for the FDO. This function is * synchronous. * * Arguments: * * DeviceExtensionHub - the FDO extension pIrp - the request packet * MinorFunction - the minor function of the PnP Power request. * * Return: * * NTSTATUS * * -- */ { NTSTATUS ntStatus; PDEVICE_OBJECT deviceObject; PIO_STACK_LOCATION irpStack; BOOLEAN bDoCheckHubIdle = FALSE; irpStack = IoGetCurrentIrpStackLocation(Irp); deviceObject = DeviceExtensionHub->FunctionalDeviceObject; USBH_KdPrint((2,"'PnP Power Fdo %x minor %x\n", deviceObject, MinorFunction)); // If this hub is currently Selective Suspended, then we need to // power up the hub first before sending any PnP requests along to it. // Make sure hub has been started, though. // Actually, in the case where a hub has been started, stopped, and now // restarted, we want to power up the parent hub to handle the restart. if (DeviceExtensionHub->CurrentPowerState != PowerDeviceD0 && (DeviceExtensionHub->HubFlags & (HUBFLAG_NEED_CLEANUP | HUBFLAG_HUB_STOPPED))) { bDoCheckHubIdle = TRUE; USBH_HubSetD0(DeviceExtensionHub); } switch (MinorFunction) { case IRP_MN_START_DEVICE: USBH_KdPrint((2,"'IRP_MN_START_DEVICE Fdo %x\n", deviceObject)); bDoCheckHubIdle = FALSE; Irp->IoStatus.Status = STATUS_SUCCESS; ntStatus = USBH_FdoStartDevice(DeviceExtensionHub, Irp); break; case IRP_MN_STOP_DEVICE: USBH_KdPrint((2,"'IRP_MN_STOP_DEVICE Fdo %x", deviceObject)); bDoCheckHubIdle = FALSE; Irp->IoStatus.Status = STATUS_SUCCESS; ntStatus = USBH_FdoStopDevice(DeviceExtensionHub, Irp); break; case IRP_MN_REMOVE_DEVICE: USBH_KdPrint((2,"'IRP_MN_REMOVE_DEVICE Fdo %x\n", deviceObject)); bDoCheckHubIdle = FALSE; DeviceExtensionHub->HubFlags |= HUBFLAG_HUB_GONE; Irp->IoStatus.Status = STATUS_SUCCESS; ntStatus = USBH_FdoRemoveDevice(DeviceExtensionHub, Irp); break; case IRP_MN_QUERY_DEVICE_RELATIONS: switch (irpStack->Parameters.QueryDeviceRelations.Type) { case BusRelations: bDoCheckHubIdle = TRUE; ASSERT(!( DeviceExtensionHub->HubFlags & HUBFLAG_HUB_BUSY)); DeviceExtensionHub->HubFlags |= HUBFLAG_HUB_BUSY; ntStatus = USBH_FdoQueryBusRelations(DeviceExtensionHub, Irp); DeviceExtensionHub->HubFlags &= ~HUBFLAG_HUB_BUSY; break; case TargetDeviceRelation: // // this one gets passed on // USBH_KdPrint((1, "'Query Relations, TargetDeviceRelation(HUB) %x\n", DeviceExtensionHub->PhysicalDeviceObject)); ntStatus = USBH_PassIrp(Irp, DeviceExtensionHub->TopOfStackDeviceObject); break; default: USBH_KdPrint((1, "'Query Relations ? (HUB) %x complete\n", DeviceExtensionHub->PhysicalDeviceObject)); ntStatus = USBH_PassIrp(Irp, DeviceExtensionHub->TopOfStackDeviceObject); } break; case IRP_MN_QUERY_CAPABILITIES: USBH_KdPrint((2,"'IRP_MN_QUERY_CAPABILITIES on fdo %x %x\n", deviceObject, MinorFunction)); IoCopyCurrentIrpStackLocationToNext(Irp); IoSetCompletionRoutine(Irp, // Irp USBH_QueryCapsComplete, DeviceExtensionHub, // context TRUE, // invoke on success FALSE, // invoke on error FALSE); // invoke on cancel ntStatus = IoCallDriver(DeviceExtensionHub->TopOfStackDeviceObject, Irp); break; // // or pass the Irp down // case IRP_MN_QUERY_PNP_DEVICE_STATE: if (DeviceExtensionHub->HubFlags & HUBFLAG_HUB_FAILURE) { USBH_KdPrint((2,"'reporting failed hub\n")); Irp->IoStatus.Information |= PNP_DEVICE_FAILED; LOGENTRY(LOG_PNP, "pnpS", DeviceExtensionHub, Irp->IoStatus.Information, 0); // note that (at least on memphis) this will result in // a stop message being sent to the device. } ntStatus = USBH_PassIrp(Irp, DeviceExtensionHub->TopOfStackDeviceObject); break; case IRP_MN_SURPRISE_REMOVAL: USBH_KdPrint((1,"'IRP_MN_SURPRISE_REMOVAL on fdo %x\n", deviceObject)); USBH_FdoSurpriseRemoveDevice(DeviceExtensionHub, Irp); ntStatus = USBH_PassIrp(Irp, DeviceExtensionHub->TopOfStackDeviceObject); break; case IRP_MN_QUERY_STOP_DEVICE: case IRP_MN_CANCEL_STOP_DEVICE: case IRP_MN_QUERY_REMOVE_DEVICE: case IRP_MN_CANCEL_REMOVE_DEVICE: case IRP_MN_DEVICE_USAGE_NOTIFICATION: Irp->IoStatus.Status = STATUS_SUCCESS; // Fall through default: USBH_KdPrint((2,"'PnP request on fdo %x %x\n", deviceObject, MinorFunction)); ntStatus = USBH_PassIrp(Irp, DeviceExtensionHub->TopOfStackDeviceObject); break; } if (bDoCheckHubIdle) { USBH_CheckHubIdle(DeviceExtensionHub); } DeviceExtensionHub->HubFlags &= ~HUBFLAG_CHILD_DELETES_PENDING; USBH_KdPrint((2,"'FdoPnP exit %x\n", ntStatus)); return ntStatus; } NTSTATUS USBH_DeferIrpCompletion( IN PDEVICE_OBJECT DeviceObject, IN PIRP Irp, IN PVOID Context ) /*++ Routine Description: This routine is called when the port driver completes an IRP. Arguments: DeviceObject - Pointer to the device object for the class device. Irp - Irp completed. Context - Driver defined context. Return Value: The function value is the final status from the operation. --*/ { PKEVENT event = Context; KeSetEvent(event, 1, FALSE); return STATUS_MORE_PROCESSING_REQUIRED; } NTSTATUS USBH_ResetInterruptPipe( IN PDEVICE_EXTENSION_HUB DeviceExtensionHub ) /*++ Routine Description: Reset The ubs interrupt pipe. Arguments: Return Value: --*/ { NTSTATUS ntStatus; PURB urb; USBH_KdPrint((2,"'Reset Pipe\n")); urb = UsbhExAllocatePool(NonPagedPool, sizeof(struct _URB_PIPE_REQUEST)); if (urb) { urb->UrbHeader.Length = (USHORT) sizeof (struct _URB_PIPE_REQUEST); urb->UrbHeader.Function = URB_FUNCTION_RESET_PIPE; urb->UrbPipeRequest.PipeHandle = DeviceExtensionHub->PipeInformation.PipeHandle; ntStatus = USBH_FdoSyncSubmitUrb(DeviceExtensionHub->FunctionalDeviceObject, urb); UsbhExFreePool(urb); } else { ntStatus = STATUS_INSUFFICIENT_RESOURCES; } // // if the reset pipe request is successful, // reset our error counter // if (NT_SUCCESS(ntStatus)) { DeviceExtensionHub->ErrorCount = 0; LOGENTRY(LOG_PNP, "rZER", DeviceExtensionHub, ntStatus, 0); } LOGENTRY(LOG_PNP, "rPIP", DeviceExtensionHub, ntStatus, DeviceExtensionHub->ErrorCount); return ntStatus; } NTSTATUS USBH_GetPortStatus( IN IN PDEVICE_EXTENSION_HUB DeviceExtensionHub, IN PULONG PortStatus ) /*++ Routine Description: Passes a URB to the USBD class driver Arguments: DeviceExtension - pointer to the device extension for this instance of an USB camera Urb - pointer to Urb request block Return Value: STATUS_SUCCESS if successful, STATUS_UNSUCCESSFUL otherwise --*/ { NTSTATUS ntStatus, status = STATUS_SUCCESS; PIRP irp; KEVENT event; IO_STATUS_BLOCK ioStatus; PIO_STACK_LOCATION nextStack; USBH_KdPrint((2,"'enter USBH_GetPortStatus\n")); *PortStatus = 0; // // issue a synchronous request // KeInitializeEvent(&event, NotificationEvent, FALSE); irp = IoBuildDeviceIoControlRequest( IOCTL_INTERNAL_USB_GET_PORT_STATUS, DeviceExtensionHub->TopOfStackDeviceObject, NULL, 0, NULL, 0, TRUE, /* INTERNAL */ &event, &ioStatus); if (irp == NULL) { return STATUS_INSUFFICIENT_RESOURCES; } // // Call the class driver to perform the operation. If the returned status // is PENDING, wait for the request to complete. // nextStack = IoGetNextIrpStackLocation(irp); USBH_ASSERT(nextStack != NULL); nextStack->Parameters.Others.Argument1 = PortStatus; USBH_KdPrint((2,"'calling USBD port status api\n")); ntStatus = IoCallDriver(DeviceExtensionHub->TopOfStackDeviceObject, irp); USBH_KdPrint((2,"'return from IoCallDriver USBD %x\n", ntStatus)); if (ntStatus == STATUS_PENDING) { USBH_KdPrint((2, "'Wait for single object\n")); status = KeWaitForSingleObject( &event, Suspended, KernelMode, FALSE, NULL); USBH_KdPrint((2,"'Wait for single object, returned %x\n", status)); } else { ioStatus.Status = ntStatus; } USBH_KdPrint((2,"'Port status = %x\n", *PortStatus)); // // USBD maps the error code for us // ntStatus = ioStatus.Status; USBH_KdPrint((2,"'USBH_GetPortStatus (%x)\n", ntStatus)); return ntStatus; } NTSTATUS USBH_EnableParentPort( IN IN PDEVICE_EXTENSION_HUB DeviceExtensionHub ) /*++ Routine Description: Passes a URB to the USBD class driver Arguments: DeviceExtension - pointer to the device extension for this instance of an USB camera Urb - pointer to Urb request block Return Value: STATUS_SUCCESS if successful, STATUS_UNSUCCESSFUL otherwise --*/ { NTSTATUS ntStatus, status = STATUS_SUCCESS; PIRP irp; KEVENT event; IO_STATUS_BLOCK ioStatus; USBH_KdPrint((2,"'enter USBH_EnablePort\n")); // // issue a synchronous request // KeInitializeEvent(&event, NotificationEvent, FALSE); irp = IoBuildDeviceIoControlRequest( IOCTL_INTERNAL_USB_ENABLE_PORT, DeviceExtensionHub->TopOfStackDeviceObject, NULL, 0, NULL, 0, TRUE, /* INTERNAL */ &event, &ioStatus); if (irp == NULL) { return STATUS_INSUFFICIENT_RESOURCES; } // // Call the class driver to perform the operation. If the returned status // is PENDING, wait for the request to complete. // USBH_KdPrint((2,"'calling USBD enable port api\n")); ntStatus = IoCallDriver(DeviceExtensionHub->TopOfStackDeviceObject, irp); USBH_KdPrint((2,"'return from IoCallDriver USBD %x\n", ntStatus)); if (ntStatus == STATUS_PENDING) { USBH_KdPrint((2, "'Wait for single object\n")); status = KeWaitForSingleObject( &event, Suspended, KernelMode, FALSE, NULL); USBH_KdPrint((2,"'Wait for single object, returned %x\n", status)); } else { ioStatus.Status = ntStatus; } // // USBD maps the error code for us // ntStatus = ioStatus.Status; LOGENTRY(LOG_PNP, "hEPP", DeviceExtensionHub, ntStatus, 0); USBH_KdPrint((2,"'USBH_EnablePort (%x)\n", ntStatus)); return ntStatus; } NTSTATUS USBH_ResetHub( IN PDEVICE_EXTENSION_HUB DeviceExtensionHub ) /*++ Routine Description: Reset The ubs interrupt pipe. Arguments: Return Value: --*/ { NTSTATUS ntStatus; ULONG portStatus; // // Check the port state, if it is disabled we will need // to re-enable it // ntStatus = USBH_GetPortStatus(DeviceExtensionHub, &portStatus); if (NT_SUCCESS(ntStatus) && !(portStatus & USBD_PORT_ENABLED) && (portStatus & USBD_PORT_CONNECTED)) { // // port is disabled, attempt reset // LOGENTRY(LOG_PNP, "rEPP", DeviceExtensionHub, portStatus, DeviceExtensionHub->ErrorCount); USBH_EnableParentPort(DeviceExtensionHub); } // // now attempt to reset the stalled pipe, this will clear the stall // on the device as well. // if (NT_SUCCESS(ntStatus)) { ntStatus = USBH_ResetInterruptPipe(DeviceExtensionHub); } // // send the feature command to clear endpoint stall // return ntStatus; } #if 0 NTSTATUS USBH_WriteRegistryKeyString ( IN HANDLE Handle, IN PWCHAR KeyNameString, IN ULONG KeyNameStringLength, IN PVOID Data, IN ULONG DataLength ) /*++ Routine Description: Arguments: Return Value: --*/ { NTSTATUS ntStatus; UNICODE_STRING keyName; PAGED_CODE(); RtlInitUnicodeString(&keyName, KeyNameString); ntStatus = ZwSetValueKey(Handle, &keyName, 0, REG_SZ, Data, DataLength); return ntStatus; } #endif NTSTATUS USBH_WriteRegistryKeyValue ( IN HANDLE Handle, IN PWCHAR KeyNameString, IN ULONG KeyNameStringLength, IN ULONG Data ) /*++ Routine Description: Arguments: Return Value: --*/ { NTSTATUS ntStatus; UNICODE_STRING keyName; PAGED_CODE(); RtlInitUnicodeString(&keyName, KeyNameString); ntStatus = ZwSetValueKey(Handle, &keyName, 0, REG_DWORD, &Data, sizeof(ULONG)); return ntStatus; } NTSTATUS USBH_WriteFailReason( IN PDEVICE_OBJECT PhysicalDeviceObject, IN ULONG FailReason ) /*++ Routine Description: Reset The ubs interrupt pipe. Arguments: Return Value: --*/ { NTSTATUS ntStatus; HANDLE handle; WCHAR USBH_FailReasonKey[] = L"FailReasonID"; PAGED_CODE(); ntStatus=IoOpenDeviceRegistryKey(PhysicalDeviceObject, PLUGPLAY_REGKEY_DEVICE, STANDARD_RIGHTS_ALL, &handle); if (NT_SUCCESS(ntStatus)) { USBH_WriteRegistryKeyValue(handle, USBH_FailReasonKey, sizeof(USBH_FailReasonKey), FailReason); ZwClose(handle); } return ntStatus; } #if 0 // NOT USED NTSTATUS USBH_WriteFailReasonString( IN PDEVICE_OBJECT PhysicalDeviceObject, IN PWCHAR FailReasonString, IN ULONG FailReasonStringLength ) /*++ Routine Description: Reset The ubs interrupt pipe. Arguments: Return Value: --*/ { NTSTATUS ntStatus; HANDLE handle; WCHAR USBH_FailReasonKey[] = L"FailReasonString"; PAGED_CODE(); ntStatus=IoOpenDeviceRegistryKey(PhysicalDeviceObject, PLUGPLAY_REGKEY_DEVICE, STANDARD_RIGHTS_ALL, &handle); if (NT_SUCCESS(ntStatus)) { USBH_WriteRegistryKeyString(handle, USBH_FailReasonKey, sizeof(USBH_FailReasonKey), FailReasonString, FailReasonStringLength); ZwClose(handle); } return ntStatus; } #endif NTSTATUS USBH_InvalidatePortDeviceState( IN PDEVICE_EXTENSION_HUB DeviceExtensionHub, IN USB_CONNECTION_STATUS ConnectStatus, IN USHORT PortNumber ) /*++ Routine Description: This function updates the connection status for a port. It inavlidates the PDO if there is one, writes a failreason to the registry and triggers a WMI event. Invalidating the PDO should trigger a Q_PNP_DEVICE_STATE Arguments: Return Value: --*/ { NTSTATUS ntStatus = STATUS_SUCCESS; ULONG failReason = 0; PPORT_DATA portData; USBH_ASSERT(DeviceExtensionHub != NULL); portData = &DeviceExtensionHub->PortData[PortNumber-1]; portData->ConnectionStatus = ConnectStatus; // // figure out if we have a failreason we can write // to the registry // switch(ConnectStatus) { case DeviceConnected: // this will reset the failreasonId break; case DeviceFailedEnumeration: failReason = USBH_FAILREASON_ENUM_FAILED; break; case DeviceGeneralFailure: failReason = USBH_FAILREASON_GEN_DEVICE_FAILURE; break; case DeviceCausedOvercurrent: failReason = USBH_FAILREASON_PORT_OVERCURRENT; break; case DeviceNotEnoughPower: failReason = USBH_FAILREASON_NOT_ENOUGH_POWER; break; default: TEST_TRAP(); } if (failReason) { // this writes a code to the registry so that win98 devman // can display an error message if (portData->DeviceObject) { USBH_WriteFailReason(portData->DeviceObject, failReason); } } // generate a WMI event so UI can inform the user USBH_PdoEvent(DeviceExtensionHub, PortNumber); // // Invalidate the state of the PDO -- this should // trigger a Q_PNP_DEVICE_STATE // if (portData->DeviceObject) { IoInvalidateDeviceState(portData->DeviceObject); } return ntStatus; } PDEVICE_EXTENSION_PORT PdoExt( PDEVICE_OBJECT DeviceObject ) { USBH_ASSERT(DeviceObject); if (DeviceObject == NULL) { return (PDEVICE_EXTENSION_PORT) -1; } else { return (PDEVICE_EXTENSION_PORT) DeviceObject->DeviceExtension; } }