/**
* @brief handles child device processing on device removal.
*
* @param[in] Device handle to the WDFDEVICE created by FdoEvtDeviceAdd().
*
*/
VOID RemoveAllChildDevices(
IN WDFDEVICE Device)
{
WdfFdoLockStaticChildListForIteration(Device);
WDFDEVICE hChild = NULL;
while ((hChild = WdfFdoRetrieveNextStaticChild(
Device,
hChild,
WdfRetrieveAddedChildren)) != NULL)
{
NTSTATUS Status = WdfPdoMarkMissing(hChild);
if (!NT_SUCCESS(Status))
{
TraceEvents(TRACE_LEVEL_ERROR, TRACE_DEVICE,
__FUNCTION__": Device %p WdfPdoMarkMissing %p error %x\n",
Device,
hChild,
Status);
XXX_TODO("What to do with a pdo we can't mark missing?\n");
}
else
{
TraceEvents(TRACE_LEVEL_WARNING, TRACE_DEVICE,
__FUNCTION__": Device %p WdfPdoMarkMissing %p\n",
Device,
hChild);
WDF_DEVICE_STATE deviceState;
WDF_DEVICE_STATE_INIT (&deviceState);
deviceState.Removed = WdfTrue;
WdfDeviceSetDeviceState(hChild,
&deviceState);
}
}
WdfFdoUnlockStaticChildListFromIteration(Device);
}
NTSTATUS
OnDeviceAdd(
_In_ WDFDRIVER FxDriver,
_Inout_ PWDFDEVICE_INIT FxDeviceInit
)
/*++
Routine Description:
This routine creates the device object for an SPB
controller and the device's child objects.
Arguments:
FxDriver - the WDF driver object handle
FxDeviceInit - information about the PDO that we are loading on
Return Value:
Status
--*/
{
//FuncEntry(TRACE_FLAG_WDFLOADING);
PDEVICE_CONTEXT pDevice;
NTSTATUS status;
UNREFERENCED_PARAMETER(FxDriver);
//
// Setup PNP/Power callbacks.
//
{
WDF_PNPPOWER_EVENT_CALLBACKS pnpCallbacks;
WDF_PNPPOWER_EVENT_CALLBACKS_INIT(&pnpCallbacks);
pnpCallbacks.EvtDevicePrepareHardware = OnPrepareHardware;
pnpCallbacks.EvtDeviceReleaseHardware = OnReleaseHardware;
pnpCallbacks.EvtDeviceD0Entry = OnD0Entry;
pnpCallbacks.EvtDeviceD0Exit = OnD0Exit;
WdfDeviceInitSetPnpPowerEventCallbacks(FxDeviceInit, &pnpCallbacks);
}
//
// Prepare for file object handling.
//
{
WDF_FILEOBJECT_CONFIG fileObjectConfig;
WDF_FILEOBJECT_CONFIG_INIT(
&fileObjectConfig,
nullptr,
nullptr,
OnFileCleanup);
WDF_OBJECT_ATTRIBUTES fileObjectAttributes;
WDF_OBJECT_ATTRIBUTES_INIT(&fileObjectAttributes);
WdfDeviceInitSetFileObjectConfig(
FxDeviceInit,
&fileObjectConfig,
&fileObjectAttributes);
}
//
// Set request attributes.
//
{
WDF_OBJECT_ATTRIBUTES attributes;
WDF_OBJECT_ATTRIBUTES_INIT_CONTEXT_TYPE(
&attributes,
REQUEST_CONTEXT);
WdfDeviceInitSetRequestAttributes(FxDeviceInit, &attributes);
}
//
// Create the device.
//
{
WDFDEVICE fxDevice;
WDF_OBJECT_ATTRIBUTES deviceAttributes;
WDF_OBJECT_ATTRIBUTES_INIT_CONTEXT_TYPE(&deviceAttributes, DEVICE_CONTEXT);
status = WdfDeviceCreate(
&FxDeviceInit,
&deviceAttributes,
&fxDevice);
if (!NT_SUCCESS(status))
{
Trace(
TRACE_LEVEL_ERROR,
TRACE_FLAG_WDFLOADING,
"Error creating WDFDEVICE - %!STATUS!",
status);
goto exit;
}
pDevice = GetDeviceContext(fxDevice);
NT_ASSERT(pDevice != nullptr);
pDevice->FxDevice = fxDevice;
}
//
// Ensure device is disable-able
//
{
WDF_DEVICE_STATE deviceState;
WDF_DEVICE_STATE_INIT(&deviceState);
deviceState.NotDisableable = WdfFalse;
WdfDeviceSetDeviceState(pDevice->FxDevice, &deviceState);
}
//
// Create queues to handle IO
//
{
WDF_IO_QUEUE_CONFIG queueConfig;
WDFQUEUE queue;
//
// Top-level queue
//
WDF_IO_QUEUE_CONFIG_INIT_DEFAULT_QUEUE(
&queueConfig,
WdfIoQueueDispatchParallel);
queueConfig.EvtIoDefault = OnTopLevelIoDefault;
queueConfig.PowerManaged = WdfFalse;
status = WdfIoQueueCreate(
pDevice->FxDevice,
&queueConfig,
WDF_NO_OBJECT_ATTRIBUTES,
&queue
);
if (!NT_SUCCESS(status))
{
Trace(
TRACE_LEVEL_ERROR,
TRACE_FLAG_WDFLOADING,
"Error creating top-level IO queue - %!STATUS!",
status);
goto exit;
}
//
// Sequential SPB queue
//
WDF_IO_QUEUE_CONFIG_INIT(
&queueConfig,
WdfIoQueueDispatchSequential);
queueConfig.EvtIoRead = OnIoRead;
queueConfig.EvtIoWrite = OnIoWrite;
queueConfig.EvtIoDeviceControl = OnIoDeviceControl;
queueConfig.PowerManaged = WdfFalse;
status = WdfIoQueueCreate(
pDevice->FxDevice,
&queueConfig,
WDF_NO_OBJECT_ATTRIBUTES,
&pDevice->SpbQueue
);
if (!NT_SUCCESS(status))
{
Trace(
TRACE_LEVEL_ERROR,
TRACE_FLAG_WDFLOADING,
"Error creating SPB IO queue - %!STATUS!",
status);
goto exit;
}
}
//
// Create a symbolic link.
//
{
DECLARE_UNICODE_STRING_SIZE(symbolicLinkName, 128);
status = RtlUnicodeStringPrintf(
&symbolicLinkName, L"%ws",
sensy_SYMBOLIC_NAME);
if (!NT_SUCCESS(status))
{
Trace(
TRACE_LEVEL_ERROR,
TRACE_FLAG_WDFLOADING,
"Error creating symbolic link string for device "
"- %!STATUS!",
status);
goto exit;
}
status = WdfDeviceCreateSymbolicLink(
pDevice->FxDevice,
&symbolicLinkName);
if (!NT_SUCCESS(status))
{
Trace(
TRACE_LEVEL_ERROR,
TRACE_FLAG_WDFLOADING,
"Error creating symbolic link for device "
"- %!STATUS!",
status);
goto exit;
}
}
//
// Retrieve registry settings.
//
{
WDFKEY key = NULL;
WDFKEY subkey = NULL;
ULONG connectInterrupt = 0;
NTSTATUS settingStatus;
DECLARE_CONST_UNICODE_STRING(subkeyName, L"Settings");
DECLARE_CONST_UNICODE_STRING(connectInterruptName, L"ConnectInterrupt");
settingStatus = WdfDeviceOpenRegistryKey(
pDevice->FxDevice,
PLUGPLAY_REGKEY_DEVICE,
KEY_READ,
WDF_NO_OBJECT_ATTRIBUTES,
&key);
if (!NT_SUCCESS(settingStatus))
{
Trace(
TRACE_LEVEL_WARNING,
TRACE_FLAG_WDFLOADING,
"Error opening device registry key - %!STATUS!",
settingStatus);
}
if (NT_SUCCESS(settingStatus))
{
settingStatus = WdfRegistryOpenKey(
key,
&subkeyName,
KEY_READ,
WDF_NO_OBJECT_ATTRIBUTES,
&subkey);
if (!NT_SUCCESS(settingStatus))
{
Trace(
TRACE_LEVEL_WARNING,
TRACE_FLAG_WDFLOADING,
"Error opening registry subkey for 'Settings' - %!STATUS!",
settingStatus);
}
}
if (NT_SUCCESS(settingStatus))
{
settingStatus = WdfRegistryQueryULong(
subkey,
&connectInterruptName,
&connectInterrupt);
if (!NT_SUCCESS(settingStatus))
{
Trace(
TRACE_LEVEL_WARNING,
TRACE_FLAG_WDFLOADING,
"Error querying registry value for 'ConnectInterrupt' - %!STATUS!",
settingStatus);
}
}
if (key != NULL)
{
WdfRegistryClose(key);
}
if (subkey != NULL)
{
WdfRegistryClose(subkey);
}
pDevice->ConnectInterrupt = (connectInterrupt == 1);
}
exit:
//FuncExit(TRACE_FLAG_WDFLOADING);
return status;
}
_Use_decl_annotations_
NTSTATUS OnDeviceAdd (WDFDRIVER /*WdfDriver*/, WDFDEVICE_INIT* DeviceInitPtr)
{
PAGED_CODE();
BCM_I2C_ASSERT_MAX_IRQL(PASSIVE_LEVEL);
NTSTATUS status;
//
// Configure DeviceInit structure
//
status = SpbDeviceInitConfig(DeviceInitPtr);
if (!NT_SUCCESS(status)) {
BSC_LOG_ERROR(
"SpbDeviceInitConfig() failed. (DeviceInitPtr = %p, status = %!STATUS!)",
DeviceInitPtr,
status);
return status;
}
//
// Setup PNP/Power callbacks.
//
{
WDF_PNPPOWER_EVENT_CALLBACKS pnpCallbacks;
WDF_PNPPOWER_EVENT_CALLBACKS_INIT(&pnpCallbacks);
pnpCallbacks.EvtDevicePrepareHardware = OnPrepareHardware;
pnpCallbacks.EvtDeviceReleaseHardware = OnReleaseHardware;
pnpCallbacks.EvtDeviceD0Entry = OnD0Entry;
pnpCallbacks.EvtDeviceD0Exit = OnD0Exit;
WdfDeviceInitSetPnpPowerEventCallbacks(DeviceInitPtr, &pnpCallbacks);
}
//
// Create the device.
//
WDFDEVICE wdfDevice;
BCM_I2C_DEVICE_CONTEXT* devicePtr;
{
WDF_OBJECT_ATTRIBUTES deviceAttributes;
WDF_OBJECT_ATTRIBUTES_INIT_CONTEXT_TYPE(
&deviceAttributes,
BCM_I2C_DEVICE_CONTEXT);
status = WdfDeviceCreate(
&DeviceInitPtr,
&deviceAttributes,
&wdfDevice);
if (!NT_SUCCESS(status)) {
BSC_LOG_ERROR(
"Failed to create WDFDEVICE. (DeviceInitPtr = %p, status = %!STATUS!)",
DeviceInitPtr,
status);
return status;
}
devicePtr = GetDeviceContext(wdfDevice);
NT_ASSERT(devicePtr);
devicePtr->WdfDevice = wdfDevice;
}
//
// Query registry for ClockStretchTimeout
//
{
WDFKEY wdfKey;
status = WdfDeviceOpenRegistryKey(
wdfDevice,
PLUGPLAY_REGKEY_DEVICE,
KEY_QUERY_VALUE,
WDF_NO_OBJECT_ATTRIBUTES,
&wdfKey);
if (!NT_SUCCESS(status)) {
BSC_LOG_ERROR(
"Failed to open device parameters registry key. (status=%!STATUS!)",
status);
return status;
}
auto closeRegKey = Finally([&] {
PAGED_CODE();
WdfRegistryClose(wdfKey);
});
DECLARE_CONST_UNICODE_STRING(
regValString,
REGSTR_VAL_CLOCK_STRETCH_TIMEOUT);
ULONG clockStretchTimeout;
status = WdfRegistryQueryULong(
wdfKey,
®ValString,
&clockStretchTimeout);
if (NT_SUCCESS(status)) {
if ((clockStretchTimeout & BCM_I2C_REG_CLKT_TOUT_MASK) !=
clockStretchTimeout) {
BSC_LOG_ERROR(
"Clock stretch timeout value from registry is out of range. (clockStretchTimeout=0x%x, BCM_I2C_REG_CLKT_TOUT_MASK=0x%x)",
clockStretchTimeout,
BCM_I2C_REG_CLKT_TOUT_MASK);
return STATUS_INVALID_PARAMETER;
}
BSC_LOG_INFORMATION(
"Using ClockStretchTimeout value from registry. (clockStretchTimeout=0x%x)",
clockStretchTimeout);
} else {
switch (status) {
case STATUS_OBJECT_NAME_NOT_FOUND:
clockStretchTimeout = BCM_I2C_REG_CLKT_TOUT_DEFAULT;
status = STATUS_SUCCESS;
break;
default:
BSC_LOG_ERROR(
"Failed to query clock stretch timeout from registry. (status=%!STATUS!, REGSTR_VAL_CLOCK_STRETCH_TIMEOUT=%S)",
status,
REGSTR_VAL_CLOCK_STRETCH_TIMEOUT);
return status;
}
}
devicePtr->ClockStretchTimeout = clockStretchTimeout;
}
//
// Ensure device is disable-able
//
{
WDF_DEVICE_STATE deviceState;
WDF_DEVICE_STATE_INIT(&deviceState);
deviceState.NotDisableable = WdfFalse;
WdfDeviceSetDeviceState(wdfDevice, &deviceState);
}
//
// Bind a SPB controller object to the device.
//
{
SPB_CONTROLLER_CONFIG spbConfig;
SPB_CONTROLLER_CONFIG_INIT(&spbConfig);
//
// Register for target connect callback. The driver
// does not need to respond to target disconnect.
//
spbConfig.EvtSpbTargetConnect = OnTargetConnect;
//
// Register for IO callbacks.
//
spbConfig.ControllerDispatchType = WdfIoQueueDispatchSequential;
spbConfig.EvtSpbIoRead = OnRead;
spbConfig.EvtSpbIoWrite = OnWrite;
spbConfig.EvtSpbIoSequence = OnSequence;
status = SpbDeviceInitialize(wdfDevice, &spbConfig);
if (!NT_SUCCESS(status)) {
BSC_LOG_ERROR(
"SpbDeviceInitialize failed. (wdfDevice = %p, status = %!STATUS!)",
wdfDevice,
status);
return status;
}
}
//
// Set target object attributes.
//
{
WDF_OBJECT_ATTRIBUTES targetAttributes;
WDF_OBJECT_ATTRIBUTES_INIT_CONTEXT_TYPE(
&targetAttributes,
BCM_I2C_TARGET_CONTEXT);
SpbControllerSetTargetAttributes(wdfDevice, &targetAttributes);
}
//
// Create an interrupt object
//
BCM_I2C_INTERRUPT_CONTEXT* interruptContextPtr;
{
WDF_OBJECT_ATTRIBUTES interruptObjectAttributes;
WDF_OBJECT_ATTRIBUTES_INIT_CONTEXT_TYPE(
&interruptObjectAttributes,
BCM_I2C_INTERRUPT_CONTEXT);
WDF_INTERRUPT_CONFIG interruptConfig;
WDF_INTERRUPT_CONFIG_INIT(
&interruptConfig,
OnInterruptIsr,
OnInterruptDpc);
status = WdfInterruptCreate(
wdfDevice,
&interruptConfig,
&interruptObjectAttributes,
&devicePtr->WdfInterrupt);
if (!NT_SUCCESS(status)) {
BSC_LOG_ERROR(
"Failed to create interrupt object. (wdfDevice = %p, status = %!STATUS!)",
wdfDevice,
status);
return status;
}
interruptContextPtr = GetInterruptContext(devicePtr->WdfInterrupt);
interruptContextPtr->WdfInterrupt = devicePtr->WdfInterrupt;
}
devicePtr->InterruptContextPtr = interruptContextPtr;
NT_ASSERT(NT_SUCCESS(status));
return STATUS_SUCCESS;
}
NTSTATUS
OnDeviceAdd(
_In_ WDFDRIVER FxDriver,
_Inout_ PWDFDEVICE_INIT FxDeviceInit
)
/*++
Routine Description:
This routine creates the device object for an SPB
controller and the device's child objects.
Arguments:
FxDriver - the WDF driver object handle
FxDeviceInit - information about the PDO that we are loading on
Return Value:
Status
--*/
{
FuncEntry(TRACE_FLAG_WDFLOADING);
PDEVICE_CONTEXT pDevice;
WDFDEVICE fxDevice;
WDF_INTERRUPT_CONFIG interruptConfig;
NTSTATUS status;
UNREFERENCED_PARAMETER(FxDriver);
//
// Tell framework this is a filter driver. Filter drivers by default are
// not power policy owners. This works well for this driver because
// HIDclass driver is the power policy owner for HID minidrivers.
//
WdfFdoInitSetFilter(FxDeviceInit);
//
// Setup PNP/Power callbacks.
//
{
WDF_PNPPOWER_EVENT_CALLBACKS pnpCallbacks;
WDF_PNPPOWER_EVENT_CALLBACKS_INIT(&pnpCallbacks);
pnpCallbacks.EvtDevicePrepareHardware = OnPrepareHardware;
pnpCallbacks.EvtDeviceReleaseHardware = OnReleaseHardware;
pnpCallbacks.EvtDeviceD0Entry = OnD0Entry;
pnpCallbacks.EvtDeviceD0Exit = OnD0Exit;
WdfDeviceInitSetPnpPowerEventCallbacks(FxDeviceInit, &pnpCallbacks);
}
//
// Set request attributes.
//
{
WDF_OBJECT_ATTRIBUTES attributes;
WDF_OBJECT_ATTRIBUTES_INIT_CONTEXT_TYPE(
&attributes,
REQUEST_CONTEXT);
WdfDeviceInitSetRequestAttributes(FxDeviceInit, &attributes);
}
//
// Create the device.
//
{
WDF_OBJECT_ATTRIBUTES deviceAttributes;
WDF_OBJECT_ATTRIBUTES_INIT_CONTEXT_TYPE(&deviceAttributes, DEVICE_CONTEXT);
status = WdfDeviceCreate(
&FxDeviceInit,
&deviceAttributes,
&fxDevice);
if (!NT_SUCCESS(status))
{
CyapaPrint(
TRACE_LEVEL_ERROR,
TRACE_FLAG_WDFLOADING,
"Error creating WDFDEVICE - %!STATUS!",
status);
goto exit;
}
pDevice = GetDeviceContext(fxDevice);
NT_ASSERT(pDevice != nullptr);
pDevice->FxDevice = fxDevice;
}
//
// Ensure device is disable-able
//
{
WDF_DEVICE_STATE deviceState;
WDF_DEVICE_STATE_INIT(&deviceState);
deviceState.NotDisableable = WdfFalse;
WdfDeviceSetDeviceState(pDevice->FxDevice, &deviceState);
}
//
// Create queues to handle IO
//
{
WDF_IO_QUEUE_CONFIG queueConfig;
WDFQUEUE queue;
//
// Top-level queue
//
WDF_IO_QUEUE_CONFIG_INIT_DEFAULT_QUEUE(
&queueConfig,
WdfIoQueueDispatchParallel);
queueConfig.EvtIoDefault = OnTopLevelIoDefault;
queueConfig.PowerManaged = WdfFalse;
status = WdfIoQueueCreate(
pDevice->FxDevice,
&queueConfig,
WDF_NO_OBJECT_ATTRIBUTES,
&queue
);
if (!NT_SUCCESS(status))
{
CyapaPrint(
TRACE_LEVEL_ERROR,
TRACE_FLAG_WDFLOADING,
"Error creating top-level IO queue - %!STATUS!",
status);
goto exit;
}
//
// Sequential SPB queue
//
WDF_IO_QUEUE_CONFIG_INIT(
&queueConfig,
WdfIoQueueDispatchSequential);
queueConfig.EvtIoInternalDeviceControl = OnIoDeviceControl;
queueConfig.PowerManaged = WdfFalse;
status = WdfIoQueueCreate(
fxDevice,
&queueConfig,
WDF_NO_OBJECT_ATTRIBUTES,
&pDevice->SpbQueue
);
if (!NT_SUCCESS(status))
{
CyapaPrint(DEBUG_LEVEL_ERROR, DBG_PNP,
"WdfIoQueueCreate failed 0x%x\n", status);
goto exit;
}
}
WDF_IO_QUEUE_CONFIG queueConfig;
WDF_IO_QUEUE_CONFIG_INIT(&queueConfig, WdfIoQueueDispatchManual);
queueConfig.PowerManaged = WdfFalse;
status = WdfIoQueueCreate(pDevice->FxDevice,
&queueConfig,
WDF_NO_OBJECT_ATTRIBUTES,
&pDevice->ReportQueue
);
if (!NT_SUCCESS(status))
{
CyapaPrint(DEBUG_LEVEL_ERROR, DBG_PNP, "Queue 2!\n");
CyapaPrint(DEBUG_LEVEL_ERROR, DBG_PNP,
"WdfIoQueueCreate failed 0x%x\n", status);
return status;
}
//
// Create an interrupt object for hardware notifications
//
WDF_INTERRUPT_CONFIG_INIT(
&interruptConfig,
OnInterruptIsr,
NULL);
interruptConfig.PassiveHandling = TRUE;
status = WdfInterruptCreate(
fxDevice,
&interruptConfig,
WDF_NO_OBJECT_ATTRIBUTES,
&pDevice->Interrupt);
if (!NT_SUCCESS(status))
{
CyapaPrint(DEBUG_LEVEL_ERROR, DBG_PNP,
"Error creating WDF interrupt object - %!STATUS!",
status);
goto exit;
}
WDF_TIMER_CONFIG timerConfig;
WDFTIMER hTimer;
WDF_OBJECT_ATTRIBUTES attributes;
WDF_TIMER_CONFIG_INIT_PERIODIC(&timerConfig, CyapaTimerFunc, 10);
WDF_OBJECT_ATTRIBUTES_INIT(&attributes);
attributes.ParentObject = fxDevice;
status = WdfTimerCreate(&timerConfig, &attributes, &hTimer);
pDevice->Timer = hTimer;
if (!NT_SUCCESS(status))
{
CyapaPrint(DEBUG_LEVEL_ERROR, DBG_PNP, "(%!FUNC!) WdfTimerCreate failed status:%!STATUS!\n", status);
return status;
}
CyapaPrint(DEBUG_LEVEL_ERROR, DBG_PNP,
"Success! 0x%x\n", status);
pDevice->DeviceMode = DEVICE_MODE_MOUSE;
exit:
FuncExit(TRACE_FLAG_WDFLOADING);
return status;
}
NTSTATUS
VIOSerialDeviceListCreatePdo(
IN WDFCHILDLIST DeviceList,
IN PWDF_CHILD_IDENTIFICATION_DESCRIPTION_HEADER IdentificationDescription,
IN PWDFDEVICE_INIT ChildInit
)
{
PVIOSERIAL_PORT pport = NULL;
NTSTATUS status = STATUS_SUCCESS;
WDFDEVICE hChild = NULL;
WDF_OBJECT_ATTRIBUTES attributes;
WDF_PNPPOWER_EVENT_CALLBACKS PnpPowerCallbacks;
WDF_DEVICE_PNP_CAPABILITIES pnpCaps;
WDF_DEVICE_STATE deviceState;
WDF_IO_QUEUE_CONFIG queueConfig;
PRAWPDO_VIOSERIAL_PORT rawPdo = NULL;
WDF_FILEOBJECT_CONFIG fileConfig;
DECLARE_CONST_UNICODE_STRING(deviceId, PORT_DEVICE_ID );
DECLARE_CONST_UNICODE_STRING(deviceLocation, L"RedHat VIOSerial Port" );
DECLARE_UNICODE_STRING_SIZE(buffer, DEVICE_DESC_LENGTH);
UNREFERENCED_PARAMETER(DeviceList);
PAGED_CODE();
TraceEvents(TRACE_LEVEL_INFORMATION, DBG_PNP, "--> %s\n", __FUNCTION__);
pport = CONTAINING_RECORD(IdentificationDescription,
VIOSERIAL_PORT,
Header
);
WdfDeviceInitSetDeviceType(ChildInit, FILE_DEVICE_SERIAL_PORT);
WdfDeviceInitSetIoType(ChildInit, WdfDeviceIoDirect);
do
{
WdfDeviceInitSetExclusive(ChildInit, TRUE);
status = WdfPdoInitAssignRawDevice(ChildInit, &GUID_DEVCLASS_PORT_DEVICE);
if (!NT_SUCCESS(status))
{
TraceEvents(TRACE_LEVEL_ERROR, DBG_PNP, "WdfPdoInitAssignRawDevice failed - 0x%x\n", status);
break;
}
status = WdfDeviceInitAssignSDDLString(ChildInit, &SDDL_DEVOBJ_SYS_ALL_ADM_ALL);
if (!NT_SUCCESS(status))
{
TraceEvents(TRACE_LEVEL_ERROR, DBG_PNP, "WdfDeviceInitAssignSDDLString failed - 0x%x\n", status);
break;
}
status = WdfPdoInitAssignDeviceID(ChildInit, &deviceId);
if (!NT_SUCCESS(status))
{
TraceEvents(TRACE_LEVEL_ERROR, DBG_PNP, "WdfPdoInitAssignDeviceID failed - 0x%x\n", status);
break;
}
status = WdfPdoInitAddHardwareID(ChildInit, &deviceId);
if (!NT_SUCCESS(status))
{
TraceEvents(TRACE_LEVEL_ERROR, DBG_PNP, "WdfPdoInitAddHardwareID failed - 0x%x\n", status);
break;
}
status = RtlUnicodeStringPrintf(
&buffer,
L"%02u",
pport->PortId
);
if (!NT_SUCCESS(status))
{
TraceEvents(TRACE_LEVEL_ERROR, DBG_PNP, "RtlUnicodeStringPrintf failed - 0x%x\n", status);
break;
}
status = WdfPdoInitAssignInstanceID(ChildInit, &buffer);
if (!NT_SUCCESS(status))
{
TraceEvents(TRACE_LEVEL_ERROR, DBG_PNP, "WdfPdoInitAssignInstanceID failed - 0x%x\n", status);
break;
}
status = RtlUnicodeStringPrintf(
&buffer,
L"vport%up%u",
pport->DeviceId,
pport->PortId
);
if (!NT_SUCCESS(status))
{
TraceEvents(TRACE_LEVEL_ERROR, DBG_PNP,
"RtlUnicodeStringPrintf failed 0x%x\n", status);
break;
}
status = WdfPdoInitAddDeviceText(
ChildInit,
&buffer,
&deviceLocation,
0x409
);
if (!NT_SUCCESS(status))
{
TraceEvents(TRACE_LEVEL_ERROR, DBG_PNP,
"WdfPdoInitAddDeviceText failed 0x%x\n", status);
break;
}
WdfPdoInitSetDefaultLocale(ChildInit, 0x409);
WDF_FILEOBJECT_CONFIG_INIT(
&fileConfig,
VIOSerialPortCreate,
VIOSerialPortClose,
WDF_NO_EVENT_CALLBACK
);
WdfDeviceInitSetFileObjectConfig(
ChildInit,
&fileConfig,
WDF_NO_OBJECT_ATTRIBUTES
);
WDF_PNPPOWER_EVENT_CALLBACKS_INIT(&PnpPowerCallbacks);
PnpPowerCallbacks.EvtDeviceD0Entry = VIOSerialPortEvtDeviceD0Entry;
PnpPowerCallbacks.EvtDeviceD0ExitPreInterruptsDisabled = VIOSerialPortEvtDeviceD0ExitPreInterruptsDisabled;
PnpPowerCallbacks.EvtDeviceD0Exit = VIOSerialPortEvtDeviceD0Exit;
WdfDeviceInitSetPnpPowerEventCallbacks(ChildInit, &PnpPowerCallbacks);
WDF_OBJECT_ATTRIBUTES_INIT_CONTEXT_TYPE(&attributes, RAWPDO_VIOSERIAL_PORT);
attributes.SynchronizationScope = WdfSynchronizationScopeDevice;
attributes.ExecutionLevel = WdfExecutionLevelPassive;
status = WdfDeviceCreate(
&ChildInit,
&attributes,
&hChild
);
if (!NT_SUCCESS(status))
{
TraceEvents(TRACE_LEVEL_ERROR, DBG_PNP,
"WdfDeviceCreate failed 0x%x\n", status);
break;
}
rawPdo = RawPdoSerialPortGetData(hChild);
rawPdo->port = pport;
pport->Device = hChild;
WDF_IO_QUEUE_CONFIG_INIT(&queueConfig,
WdfIoQueueDispatchSequential
);
queueConfig.EvtIoDeviceControl = VIOSerialPortDeviceControl;
status = WdfIoQueueCreate(hChild,
&queueConfig,
WDF_NO_OBJECT_ATTRIBUTES,
&pport->IoctlQueue
);
if (!NT_SUCCESS(status))
{
TraceEvents(TRACE_LEVEL_ERROR, DBG_PNP,
"WdfIoQueueCreate failed (IoCtrl Queue): 0x%x\n", status);
break;
}
status = WdfDeviceConfigureRequestDispatching(
hChild,
pport->IoctlQueue,
WdfRequestTypeDeviceControl
);
if(!NT_SUCCESS(status))
{
TraceEvents(TRACE_LEVEL_ERROR, DBG_PNP,
"DeviceConfigureRequestDispatching failed (IoCtrl Queue): 0x%x\n", status);
break;
}
WDF_IO_QUEUE_CONFIG_INIT(&queueConfig,
WdfIoQueueDispatchSequential);
queueConfig.EvtIoRead = VIOSerialPortRead;
queueConfig.EvtIoStop = VIOSerialPortIoStop;
status = WdfIoQueueCreate(hChild,
&queueConfig,
WDF_NO_OBJECT_ATTRIBUTES,
&pport->ReadQueue
);
if (!NT_SUCCESS(status))
{
TraceEvents(TRACE_LEVEL_ERROR, DBG_PNP,
"WdfIoQueueCreate (Read Queue) failed 0x%x\n", status);
break;
}
status = WdfDeviceConfigureRequestDispatching(
hChild,
pport->ReadQueue,
WdfRequestTypeRead
);
if(!NT_SUCCESS(status))
{
TraceEvents(TRACE_LEVEL_ERROR, DBG_PNP,
"DeviceConfigureRequestDispatching failed (Read Queue): 0x%x\n", status);
break;
}
WDF_IO_QUEUE_CONFIG_INIT(&queueConfig, WdfIoQueueDispatchSequential);
queueConfig.AllowZeroLengthRequests = WdfFalse;
queueConfig.EvtIoWrite = VIOSerialPortWrite;
status = WdfIoQueueCreate(hChild, &queueConfig,
WDF_NO_OBJECT_ATTRIBUTES, &pport->WriteQueue);
if (!NT_SUCCESS(status))
{
TraceEvents(TRACE_LEVEL_ERROR, DBG_PNP,
"WdfIoQueueCreate failed (Write Queue): 0x%x\n", status);
break;
}
status = WdfDeviceConfigureRequestDispatching(
hChild,
pport->WriteQueue,
WdfRequestTypeWrite
);
if(!NT_SUCCESS(status))
{
TraceEvents(TRACE_LEVEL_ERROR, DBG_PNP,
"DeviceConfigureRequestDispatching failed (Write Queue): 0x%x\n", status);
break;
}
WDF_DEVICE_PNP_CAPABILITIES_INIT(&pnpCaps);
pnpCaps.NoDisplayInUI = WdfTrue;
pnpCaps.Removable = WdfTrue;
pnpCaps.EjectSupported = WdfTrue;
pnpCaps.SurpriseRemovalOK= WdfTrue;
pnpCaps.Address = pport->DeviceId;
pnpCaps.UINumber = pport->PortId;
WdfDeviceSetPnpCapabilities(hChild, &pnpCaps);
WDF_DEVICE_STATE_INIT(&deviceState);
deviceState.DontDisplayInUI = WdfTrue;
WdfDeviceSetDeviceState(hChild, &deviceState);
status = WdfDeviceCreateDeviceInterface(
hChild,
&GUID_VIOSERIAL_PORT,
NULL
);
if (!NT_SUCCESS (status))
{
TraceEvents(TRACE_LEVEL_ERROR, DBG_PNP,
"WdfDeviceCreateDeviceInterface failed 0x%x\n", status);
break;
}
WDF_OBJECT_ATTRIBUTES_INIT(&attributes);
attributes.ParentObject = hChild;
status = WdfSpinLockCreate(
&attributes,
&pport->InBufLock
);
if (!NT_SUCCESS(status))
{
TraceEvents(TRACE_LEVEL_ERROR, DBG_PNP,
"WdfSpinLockCreate failed 0x%x\n", status);
break;
}
WDF_OBJECT_ATTRIBUTES_INIT(&attributes);
attributes.ParentObject = hChild;
status = WdfSpinLockCreate(
&attributes,
&pport->OutVqLock
);
if (!NT_SUCCESS(status))
{
TraceEvents(TRACE_LEVEL_ERROR, DBG_PNP,
"WdfSpinLockCreate failed 0x%x\n", status);
break;
}
} while (0);
if (!NT_SUCCESS(status))
{
// We can send this before PDO is PRESENT since the device won't send any response.
VIOSerialSendCtrlMsg(pport->BusDevice, pport->PortId, VIRTIO_CONSOLE_PORT_READY, 0);
}
TraceEvents(TRACE_LEVEL_INFORMATION, DBG_PNP, "<-- %s status 0x%x\n", __FUNCTION__, status);
return status;
}
NTSTATUS
KbFiltr_CreateRawPdo(
WDFDEVICE Device,
ULONG InstanceNo
)
/*++
Routine Description:
This routine creates and initialize a PDO.
Arguments:
Return Value:
NT Status code.
--*/
{
NTSTATUS status;
PWDFDEVICE_INIT pDeviceInit = NULL;
PRPDO_DEVICE_DATA pdoData = NULL;
WDFDEVICE hChild = NULL;
WDF_OBJECT_ATTRIBUTES pdoAttributes;
WDF_DEVICE_PNP_CAPABILITIES pnpCaps;
WDF_IO_QUEUE_CONFIG ioQueueConfig;
WDFQUEUE queue;
WDF_DEVICE_STATE deviceState;
PDEVICE_EXTENSION devExt;
DECLARE_CONST_UNICODE_STRING(deviceId,KBFILTR_DEVICE_ID );
DECLARE_CONST_UNICODE_STRING(hardwareId,KBFILTR_DEVICE_ID );
DECLARE_CONST_UNICODE_STRING(deviceLocation,L"Keyboard Filter\0" );
DECLARE_UNICODE_STRING_SIZE(buffer, MAX_ID_LEN);
DebugPrint(("Entered KbFiltr_CreateRawPdo\n"));
//
// Allocate a WDFDEVICE_INIT structure and set the properties
// so that we can create a device object for the child.
//
pDeviceInit = WdfPdoInitAllocate(Device);
if (pDeviceInit == NULL) {
status = STATUS_INSUFFICIENT_RESOURCES;
goto Cleanup;
}
//
// Mark the device RAW so that the child device can be started
// and accessed without requiring a function driver. Since we are
// creating a RAW PDO, we must provide a class guid.
//
status = WdfPdoInitAssignRawDevice(pDeviceInit, &GUID_DEVCLASS_KEYBOARD);
if (!NT_SUCCESS(status)) {
goto Cleanup;
}
//
// Since keyboard is secure device, we must protect ourselves from random
// users sending ioctls and creating trouble.
//
status = WdfDeviceInitAssignSDDLString(pDeviceInit,
&SDDL_DEVOBJ_SYS_ALL_ADM_ALL);
if (!NT_SUCCESS(status)) {
goto Cleanup;
}
//
// Assign DeviceID - This will be reported to IRP_MN_QUERY_ID/BusQueryDeviceID
//
status = WdfPdoInitAssignDeviceID(pDeviceInit, &deviceId);
if (!NT_SUCCESS(status)) {
goto Cleanup;
}
//
// For RAW PDO, there is no need to provide BusQueryHardwareIDs
// and BusQueryCompatibleIDs IDs unless we are running on
// Windows 2000.
//
if (!RtlIsNtDdiVersionAvailable(NTDDI_WINXP)) {
//
// On Win2K, we must provide a HWID for the device to get enumerated.
// Since we are providing a HWID, we will have to provide a NULL inf
// to avoid the "found new device" popup and get the device installed
// silently.
//
status = WdfPdoInitAddHardwareID(pDeviceInit, &hardwareId);
if (!NT_SUCCESS(status)) {
goto Cleanup;
}
}
//
// We could be enumerating more than one children if the filter attaches
// to multiple instances of keyboard, so we must provide a
// BusQueryInstanceID. If we don't, system will throw CA bugcheck.
//
status = RtlUnicodeStringPrintf(&buffer, L"%02d", InstanceNo);
if (!NT_SUCCESS(status)) {
goto Cleanup;
}
status = WdfPdoInitAssignInstanceID(pDeviceInit, &buffer);
if (!NT_SUCCESS(status)) {
goto Cleanup;
}
//
// Provide a description about the device. This text is usually read from
// the device. In the case of USB device, this text comes from the string
// descriptor. This text is displayed momentarily by the PnP manager while
// it's looking for a matching INF. If it finds one, it uses the Device
// Description from the INF file to display in the device manager.
// Since our device is raw device and we don't provide any hardware ID
// to match with an INF, this text will be displayed in the device manager.
//
status = RtlUnicodeStringPrintf(&buffer,L"Keyboard_Filter_%02d", InstanceNo );
if (!NT_SUCCESS(status)) {
goto Cleanup;
}
//
// You can call WdfPdoInitAddDeviceText multiple times, adding device
// text for multiple locales. When the system displays the text, it
// chooses the text that matches the current locale, if available.
// Otherwise it will use the string for the default locale.
// The driver can specify the driver's default locale by calling
// WdfPdoInitSetDefaultLocale.
//
status = WdfPdoInitAddDeviceText(pDeviceInit,
&buffer,
&deviceLocation,
0x409
);
if (!NT_SUCCESS(status)) {
goto Cleanup;
}
WdfPdoInitSetDefaultLocale(pDeviceInit, 0x409);
//
// Initialize the attributes to specify the size of PDO device extension.
// All the state information private to the PDO will be tracked here.
//
WDF_OBJECT_ATTRIBUTES_INIT_CONTEXT_TYPE(&pdoAttributes, RPDO_DEVICE_DATA);
//
// Set up our queue to allow forwarding of requests to the parent
// This is done so that the cached Keyboard Attributes can be retrieved
//
WdfPdoInitAllowForwardingRequestToParent(pDeviceInit);
status = WdfDeviceCreate(&pDeviceInit, &pdoAttributes, &hChild);
if (!NT_SUCCESS(status)) {
goto Cleanup;
}
//
// Get the device context.
//
pdoData = PdoGetData(hChild);
pdoData->InstanceNo = InstanceNo;
//
// Get the parent queue we will be forwarding to
//
devExt = FilterGetData(Device);
pdoData->ParentQueue = devExt->rawPdoQueue;
//
// Configure the default queue associated with the control device object
// to be Serial so that request passed to EvtIoDeviceControl are serialized.
// A default queue gets all the requests that are not
// configure-fowarded using WdfDeviceConfigureRequestDispatching.
//
WDF_IO_QUEUE_CONFIG_INIT_DEFAULT_QUEUE(&ioQueueConfig,
WdfIoQueueDispatchSequential);
ioQueueConfig.EvtIoDeviceControl = KbFilter_EvtIoDeviceControlForRawPdo;
status = WdfIoQueueCreate(hChild,
&ioQueueConfig,
WDF_NO_OBJECT_ATTRIBUTES,
&queue // pointer to default queue
);
if (!NT_SUCCESS(status)) {
DebugPrint( ("WdfIoQueueCreate failed 0x%x\n", status));
goto Cleanup;
}
//
// Set some properties for the child device.
//
WDF_DEVICE_PNP_CAPABILITIES_INIT(&pnpCaps);
pnpCaps.Removable = WdfTrue;
pnpCaps.SurpriseRemovalOK = WdfTrue;
pnpCaps.NoDisplayInUI = WdfTrue;
pnpCaps.Address = InstanceNo;
pnpCaps.UINumber = InstanceNo;
WdfDeviceSetPnpCapabilities(hChild, &pnpCaps);
//
// TODO: In addition to setting NoDisplayInUI in DeviceCaps, we
// have to do the following to hide the device. Following call
// tells the framework to report the device state in
// IRP_MN_QUERY_DEVICE_STATE request.
//
WDF_DEVICE_STATE_INIT(&deviceState);
deviceState.DontDisplayInUI = WdfTrue;
WdfDeviceSetDeviceState(hChild, &deviceState);
//
// Tell the Framework that this device will need an interface so that
// application can find our device and talk to it.
//
status = WdfDeviceCreateDeviceInterface(
hChild,
&GUID_DEVINTERFACE_KBFILTER,
NULL
);
if (!NT_SUCCESS (status)) {
DebugPrint( ("WdfDeviceCreateDeviceInterface failed 0x%x\n", status));
goto Cleanup;
}
//
// Add this device to the FDO's collection of children.
// After the child device is added to the static collection successfully,
// driver must call WdfPdoMarkMissing to get the device deleted. It
// shouldn't delete the child device directly by calling WdfObjectDelete.
//
status = WdfFdoAddStaticChild(Device, hChild);
if (!NT_SUCCESS(status)) {
goto Cleanup;
}
//
// pDeviceInit will be freed by WDF.
//
return STATUS_SUCCESS;
Cleanup:
DebugPrint(("KbFiltr_CreatePdo failed %x\n", status));
//
// Call WdfDeviceInitFree if you encounter an error while initializing
// a new framework device object. If you call WdfDeviceInitFree,
// do not call WdfDeviceCreate.
//
if (pDeviceInit != NULL) {
WdfDeviceInitFree(pDeviceInit);
}
if(hChild) {
WdfObjectDelete(hChild);
}
return status;
}
NTSTATUS
vJoy_CreateRawPdo(
WDFDEVICE Device,
ULONG InstanceNo
)
/*++
Routine Description:
This routine creates and initialize a PDO.
Arguments:
Return Value:
NT Status code.
--*/
{
NTSTATUS status;
PWDFDEVICE_INIT pDeviceInit = NULL;
PRPDO_DEVICE_DATA pdoData = NULL;
WDFDEVICE hChild = NULL;
WDF_OBJECT_ATTRIBUTES pdoAttributes;
WDF_DEVICE_PNP_CAPABILITIES pnpCaps;
WDF_IO_QUEUE_CONFIG ioQueueConfig;
WDFQUEUE queue;
WDF_DEVICE_STATE deviceState;
PDEVICE_EXTENSION devExt;
DECLARE_CONST_UNICODE_STRING(deviceId,VJOY_RAW_DEVICE_ID );
//DECLARE_CONST_UNICODE_STRING(hardwareId,VJOY_HARDWARE_ID );
DECLARE_CONST_UNICODE_STRING(deviceLocation,L"vJoy Raw Device\0" );
DECLARE_UNICODE_STRING_SIZE(buffer, MAX_ID_LEN);
PDEVICE_OBJECT ChildDeviceObject;
PDEVICE_OBJECT ParentDeviceObject;
DECLARE_CONST_UNICODE_STRING(
SDDL_DEVOBJ_SYS_ALL_ADM_RWX_WORLD_R_RES_R,
L"D:P(A;;GA;;;SY)(A;;GRGWGX;;;BA)(A;;GR;;;WD)(A;;GR;;;RC)"
);
DECLARE_CONST_UNICODE_STRING(
SDDL_DEVOBJ_SYS_ALL_ADM_RWX_WORLD_RWX_RES_R,
L"D:P(A;;GA;;;SY)(A;;GRGWGX;;;BA)(A;;GRGWGX;;;WD)(A;;GR;;;RC)"
);
int iInterface;
WCHAR RefStr[20];
UNICODE_STRING RefStr2;
WDF_FILEOBJECT_CONFIG FileObjInit;
WDF_OBJECT_ATTRIBUTES FileObjAttributes;
WDF_OBJECT_ATTRIBUTES LockAttributes;
TraceEvents(TRACE_LEVEL_INFORMATION, DBG_INIT, "Entered vJoy_CreateRawPdo\n");
//
// Allocate a WDFDEVICE_INIT structure and set the properties
// so that we can create a device object for the child.
//
pDeviceInit = WdfPdoInitAllocate(Device);
if (pDeviceInit == NULL) {
status = STATUS_INSUFFICIENT_RESOURCES;
LogEventWithStatus(ERRLOG_RAW_DEV_FAILED ,L"WdfPdoInitAllocate", WdfDriverWdmGetDriverObject(WdfGetDriver()), status);
goto Cleanup;
}
//
// Mark the device RAW so that the child device can be started
// and accessed without requiring a function driver. Since we are
// creating a RAW PDO, we must provide a class guid.
//
status = WdfPdoInitAssignRawDevice(pDeviceInit, &GUID_DEVINTERFACE_VJOY);
if (!NT_SUCCESS(status)) {
LogEventWithStatus(ERRLOG_RAW_DEV_FAILED ,L"WdfPdoInitAssignRawDevice", WdfDriverWdmGetDriverObject(WdfGetDriver()), status);
goto Cleanup;
}
// TODO: Assign correct SDDL
////
status = WdfDeviceInitAssignSDDLString(pDeviceInit,
&SDDL_DEVOBJ_SYS_ALL_ADM_RWX_WORLD_RWX_RES_R);
if (!NT_SUCCESS(status)) {
LogEventWithStatus(ERRLOG_RAW_DEV_FAILED ,L"WdfDeviceInitAssignSDDLString", WdfDriverWdmGetDriverObject(WdfGetDriver()), status);
goto Cleanup;
}
//
// Assign DeviceID - This will be reported to IRP_MN_QUERY_ID/BusQueryDeviceID
//
status = WdfPdoInitAssignDeviceID(pDeviceInit, &deviceId);
if (!NT_SUCCESS(status)) {
LogEventWithStatus(ERRLOG_RAW_DEV_FAILED ,L"WdfPdoInitAssignDeviceID", WdfDriverWdmGetDriverObject(WdfGetDriver()), status);
goto Cleanup;
}
//
// We could be enumerating more than one children if the filter attaches
// to multiple instances of keyboard, so we must provide a
// BusQueryInstanceID. If we don't, system will throw CA bugcheck.
//
status = RtlUnicodeStringPrintf(&buffer, VJOY_DEVICE_INSTANCE, InstanceNo);
if (!NT_SUCCESS(status)) {
LogEventWithStatus(ERRLOG_RAW_DEV_FAILED ,L"RtlUnicodeStringPrintf (1)", WdfDriverWdmGetDriverObject(WdfGetDriver()), status);
goto Cleanup;
}
status = WdfPdoInitAssignInstanceID(pDeviceInit, &buffer);
if (!NT_SUCCESS(status)) {
LogEventWithStatus(ERRLOG_RAW_DEV_FAILED ,L"WdfPdoInitAssignInstanceID", WdfDriverWdmGetDriverObject(WdfGetDriver()), status);
goto Cleanup;
}
//
// Provide a description about the device. This text is usually read from
// the device. This text is displayed momentarily by the PnP manager while
// it's looking for a matching INF. If it finds one, it uses the Device
// Description from the INF file to display in the device manager.
// Since our device is raw device and we don't provide any hardware ID
// to match with an INF, this text will be displayed in the device manager.
//
status = RtlUnicodeStringPrintf(&buffer,VJOY_DEVICE_TEXT_409 ); // English - United States
if (!NT_SUCCESS(status)) {
LogEventWithStatus(ERRLOG_RAW_DEV_FAILED ,L"RtlUnicodeStringPrintf (2)", WdfDriverWdmGetDriverObject(WdfGetDriver()), status);
goto Cleanup;
}
//
// You can call WdfPdoInitAddDeviceText multiple times, adding device
// text for multiple locales. When the system displays the text, it
// chooses the text that matches the current locale, if available.
// Otherwise it will use the string for the default locale.
// The driver can specify the driver's default locale by calling
// WdfPdoInitSetDefaultLocale.
//
status = WdfPdoInitAddDeviceText(pDeviceInit,
&buffer,
&deviceLocation,
0x409 // English - United States
);
if (!NT_SUCCESS(status)) {
LogEventWithStatus(ERRLOG_RAW_DEV_FAILED ,L"WdfPdoInitAddDeviceText (1)", WdfDriverWdmGetDriverObject(WdfGetDriver()), status);
goto Cleanup;
}
#if 0
// Hebrew (No real ned - just for fun)
status = RtlUnicodeStringPrintf(&buffer,VJOY_DEVICE_TEXT_40D, InstanceNo ); // Hebrew
if (!NT_SUCCESS(status)) {
LogEventWithStatus(ERRLOG_RAW_DEV_FAILED ,L"RtlUnicodeStringPrintf (3)", WdfDriverWdmGetDriverObject(WdfGetDriver()), status);
goto Cleanup;
}
status = WdfPdoInitAddDeviceText(pDeviceInit,
&buffer,
&deviceLocation,
0x40D // Hebrew
);
if (!NT_SUCCESS(status)) {
LogEventWithStatus(ERRLOG_RAW_DEV_FAILED ,L"WdfPdoInitAddDeviceText (2)", WdfDriverWdmGetDriverObject(WdfGetDriver()), status);
goto Cleanup;
}
#endif // 0
WdfPdoInitSetDefaultLocale(pDeviceInit, 0x409); // English - United States
WdfDeviceInitSetExclusive(pDeviceInit, FALSE);
// Create a WDFFILEOBJECT
WDF_OBJECT_ATTRIBUTES_INIT(&FileObjAttributes);
WDF_OBJECT_ATTRIBUTES_SET_CONTEXT_TYPE(&FileObjAttributes, FILEOBJECT_EXTENSION);
WDF_FILEOBJECT_CONFIG_INIT(&FileObjInit, vJoy_EvtDeviceFileCreate, WDF_NO_EVENT_CALLBACK, vJoy_EvtFileCleanup);
WdfDeviceInitSetFileObjectConfig(pDeviceInit, &FileObjInit, &FileObjAttributes);
//
// Initialize the attributes to specify the size of PDO device extension.
// All the state information private to the PDO will be tracked here.
//
WDF_OBJECT_ATTRIBUTES_INIT_CONTEXT_TYPE(&pdoAttributes, RPDO_DEVICE_DATA);
pdoAttributes.EvtCleanupCallback = rawEvtCleanupCallback;
//
// Set up our queue to allow forwarding of requests to the parent
// This is done so that the cached data can be retrieved
//
//WdfPdoInitAllowForwardingRequestToParent(pDeviceInit);
// TODO: Replace the above because it is needed for WdfRequestForwardToParentDeviceIoQueue()
status = WdfDeviceCreate(&pDeviceInit, &pdoAttributes, &hChild);
if (!NT_SUCCESS(status)) {
LogEventWithStatus(ERRLOG_RAW_DEV_FAILED ,L"WdfDeviceCreate", WdfDriverWdmGetDriverObject(WdfGetDriver()), status);
goto Cleanup;
}
//
// Get the device context.
//
pdoData = PdoGetData(hChild);
pdoData->InstanceNo = InstanceNo;
pdoData->hParentDevice = Device;
//
// Save the I/O target handle and adjust the I/O stack size:
//
devExt = GetDeviceContext(Device);
pdoData->IoTargetToParent = devExt->IoTargetToSelf;
ChildDeviceObject = WdfDeviceWdmGetDeviceObject(hChild);
ParentDeviceObject = WdfDeviceWdmGetDeviceObject(Device);
ChildDeviceObject->StackSize = ParentDeviceObject->StackSize+1;
// Create a wait-lock object that will be used to synch access to positions[i]
// The lock is created when the raw device is created so the raw device is set to be its parent
WDF_OBJECT_ATTRIBUTES_INIT(&LockAttributes);
LockAttributes.ParentObject = hChild;
status = WdfWaitLockCreate(&LockAttributes, &(devExt->positionLock));
if (!NT_SUCCESS(status)) {
TraceEvents(TRACE_LEVEL_ERROR, DBG_INIT, "WdfWaitLockCreate failed 0x%x\n", status);
LogEventWithStatus(ERRLOG_RAW_DEV_FAILED ,L"WdfWaitLockCreate", WdfDriverWdmGetDriverObject(WdfGetDriver()), status);
goto Cleanup;
}
//
// Configure the default queue associated with the control device object
// to be Serial so that request passed to EvtIoDeviceControl are serialized.
// A default queue gets all the requests that are not
// configure-fowarded using WdfDeviceConfigureRequestDispatching.
//
WDF_IO_QUEUE_CONFIG_INIT_DEFAULT_QUEUE(&ioQueueConfig,
WdfIoQueueDispatchSequential);
ioQueueConfig.EvtIoDeviceControl = vJoy_EvtIoDeviceControlForRawPdo;
status = WdfIoQueueCreate(hChild,
&ioQueueConfig,
WDF_NO_OBJECT_ATTRIBUTES,
&queue // pointer to default queue
);
if (!NT_SUCCESS(status)) {
TraceEvents(TRACE_LEVEL_ERROR, DBG_INIT, "WdfIoQueueCreate failed 0x%x\n", status);
LogEventWithStatus(ERRLOG_RAW_DEV_FAILED ,L"WdfIoQueueCreate", WdfDriverWdmGetDriverObject(WdfGetDriver()), status);
goto Cleanup;
}
//
// Set some properties for the child device.
//
WDF_DEVICE_PNP_CAPABILITIES_INIT(&pnpCaps);
pnpCaps.Removable = WdfTrue; // Remove Icon from " Devices and Printers"
pnpCaps.SurpriseRemovalOK = WdfTrue;
pnpCaps.NoDisplayInUI = WdfTrue;
// pnpCaps.Address = InstanceNo;
pnpCaps.UINumber = 0;
WdfDeviceSetPnpCapabilities(hChild, &pnpCaps);
//
// TODO: In addition to setting NoDisplayInUI in DeviceCaps, we
// have to do the following to hide the device. Following call
// tells the framework to report the device state in
// IRP_MN_QUERY_DEVICE_STATE request.
//
WDF_DEVICE_STATE_INIT(&deviceState);
deviceState.DontDisplayInUI = WdfTrue; // Remove Icon from Device manager
WdfDeviceSetDeviceState(hChild, &deviceState);
//
// Create 16 interfaces
//
for (iInterface=1 ; iInterface <= MAX_N_DEVICES; iInterface++)
{
RtlStringCchPrintfW((NTSTRSAFE_PWSTR)RefStr, 20, VJOY_INTERFACE L"%03d", iInterface);
RtlInitUnicodeString(&RefStr2, (PCWSTR)RefStr);
status = WdfDeviceCreateDeviceInterface(hChild,&GUID_DEVINTERFACE_VJOY,&RefStr2);
if (!NT_SUCCESS (status)) {
TraceEvents(TRACE_LEVEL_ERROR, DBG_INIT, "WdfDeviceCreateDeviceInterface number %d failed 0x%x\n", iInterface, status);
LogEventWithStatus(ERRLOG_RAW_DEV_FAILED ,L"WdfDeviceCreateDeviceInterface", WdfDriverWdmGetDriverObject(WdfGetDriver()), status);
goto Cleanup;
}
};
// Mark all interfaces as unused
pdoData->UsedInterfacesMask=0;
//
// Add this device to the FDO's collection of children.
// After the child device is added to the static collection successfully,
// driver must call WdfPdoMarkMissing to get the device deleted. It
// shouldn't delete the child device directly by calling WdfObjectDelete.
//
status = WdfFdoAddStaticChild(Device, hChild);
if (!NT_SUCCESS(status)) {
LogEventWithStatus(ERRLOG_RAW_DEV_FAILED ,L"WdfFdoAddStaticChild", WdfDriverWdmGetDriverObject(WdfGetDriver()), status);
goto Cleanup;
}
return STATUS_SUCCESS;
Cleanup:
TraceEvents(TRACE_LEVEL_ERROR, DBG_INIT, "KbFiltr_CreatePdo failed %x\n", status);
//
// Call WdfDeviceInitFree if you encounter an error while initializing
// a new framework device object. If you call WdfDeviceInitFree,
// do not call WdfDeviceCreate.
//
if (pDeviceInit != NULL) {
WdfDeviceInitFree(pDeviceInit);
}
if(hChild) {
WdfObjectDelete(hChild);
}
return status;
}
