Source code of Windows XP (NT5)
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/********************************************************************************
** Copyright (c) 1998-2000 Microsoft Corporation. All Rights Reserved.
**
** Portions Copyright (c) 1998-1999 Intel Corporation
**
********************************************************************************/
//
// The name that is printed in debug output messages
//
static char STR_MODULENAME[] = "ICH Adapter: ";
//
// All the GUIDs from portcls and your own defined GUIDs end up in this object.
//
#define PUT_GUIDS_HERE
//
// We want the global debug variables here.
//
#define DEFINE_DEBUG_VARS
#include "adapter.h"
#pragma code_seg("PAGE")
/*****************************************************************************
* InstallSubdevice
*****************************************************************************
* This function creates and registers a subdevice consisting of a port
* driver, a minport driver and a set of resources bound together. It will
* also optionally place a pointer to an interface on the port driver in a
* specified location before initializing the port driver. This is done so
* that a common ISR can have access to the port driver during initialization,
* when the ISR might fire.
* This function is internally used and validates no parameters.
*/
NTSTATUS InstallSubdevice
(
IN PDEVICE_OBJECT DeviceObject,
IN PIRP Irp,
IN PWCHAR Name,
IN REFGUID PortClassId,
IN REFGUID MiniportClassId,
IN PFNCREATEINSTANCE MiniportCreate OPTIONAL,
IN PUNKNOWN UnknownAdapter OPTIONAL,
IN PRESOURCELIST ResourceList,
IN REFGUID PortInterfaceId,
OUT PMINIPORT * OutMiniport OPTIONAL,
OUT PUNKNOWN * OutPortUnknown OPTIONAL
)
{
PAGED_CODE ();
NTSTATUS ntStatus;
PPORT port;
PMINIPORT miniport;
DOUT (DBG_PRINT, ("[InstallSubdevice]"));
//
// Create the port driver object
//
ntStatus = PcNewPort (&port,PortClassId);
//
// return immediately in case of an error
//
if (!NT_SUCCESS (ntStatus))
return ntStatus;
//
// Create the miniport object
//
if (MiniportCreate)
{
ntStatus = MiniportCreate ((PUNKNOWN*)&miniport, MiniportClassId,
NULL, NonPagedPool);
}
else
{
ntStatus = PcNewMiniport (&miniport,MiniportClassId);
}
//
// return immediately in case of an error
//
if (!NT_SUCCESS (ntStatus))
{
port->Release ();
return ntStatus;
}
//
// Init the port driver and miniport in one go.
//
ntStatus = port->Init (DeviceObject, Irp, miniport, UnknownAdapter,
ResourceList);
if (NT_SUCCESS (ntStatus))
{
//
// Register the subdevice (port/miniport combination).
//
ntStatus = PcRegisterSubdevice (DeviceObject, Name, port);
//
// Deposit the port as an unknown if it's needed.
//
if (OutPortUnknown && NT_SUCCESS (ntStatus))
{
ntStatus = port->QueryInterface (IID_IUnknown,
(PVOID *)OutPortUnknown);
}
//
// Deposit the miniport as an IMiniport if it's needed.
//
if ( OutMiniport && NT_SUCCESS (ntStatus) )
{
ntStatus = miniport->QueryInterface (IID_IMiniport,
(PVOID *)OutMiniport);
}
}
//
// Release the reference for the port and miniport. This is the right
// thing to do, regardless of the outcome.
//
miniport->Release ();
port->Release ();
return ntStatus;
}
/*****************************************************************************
* ValidateResources
*****************************************************************************
* This function validates the list of resources for the various functions on
* the card. This code is specific to the adapter.
* This function doesn't check the ResourceList parameter and returns
* STATUS_SUCCESS when the resources are valid.
*/
NTSTATUS ValidateResources
(
IN PRESOURCELIST ResourceList // All resources.
)
{
PAGED_CODE ();
DOUT (DBG_PRINT, ("[ValidateResources]"));
//
// Get counts for the types of resources.
//
ULONG countIO = ResourceList->NumberOfPorts ();
ULONG countIRQ = ResourceList->NumberOfInterrupts ();
ULONG countDMA = ResourceList->NumberOfDmas ();
// validate resources
if ((countIO != 2) || (countIRQ != 1) || (countDMA != 0))
{
DOUT (DBG_ERROR, ("Unknown configuration:\n"
" IO count: %d\n"
" IRQ count: %d\n"
" DMA count: %d",
countIO, countIRQ, countDMA));
return STATUS_DEVICE_CONFIGURATION_ERROR;
}
return STATUS_SUCCESS;
}
/*****************************************************************************
* StartDevice
*****************************************************************************
* This function is called by the operating system when the device is started.
* It is responsible for starting the miniports. This code is specific to
* the adapter because it calls out miniports for functions that are specific
* to the adapter.
*/
NTSTATUS StartDevice
(
IN PDEVICE_OBJECT DeviceObject, // Device object.
IN PIRP Irp, // IO request packet.
IN PRESOURCELIST ResourceList // List of hardware resources.
)
{
PAGED_CODE ();
ASSERT (DeviceObject);
ASSERT (Irp);
ASSERT (ResourceList);
NTSTATUS ntStatus;
DOUT (DBG_PRINT, ("[StartDevice]"));
//
// Determine which version of the OS we are running under. We don't want
// to run under Win98G.
//
// create a wave cyclic port
PPORT pPort = 0;
ntStatus = PcNewPort (&pPort,CLSID_PortWaveCyclic);
// check error code
if (NT_SUCCESS (ntStatus))
{
// query for the event interface which is not supported in Win98 gold.
PPORTEVENTS pPortEvents = 0;
ntStatus = pPort->QueryInterface (IID_IPortEvents,
(PVOID *)&pPortEvents);
if (!NT_SUCCESS (ntStatus))
{
DOUT (DBG_ERROR, ("This driver is not for Win98 Gold!"));
ntStatus = STATUS_UNSUCCESSFUL; // change error code.
}
else
{
pPortEvents->Release ();
}
pPort->Release ();
}
// now return in case it was Win98 Gold.
if (!NT_SUCCESS (ntStatus))
return ntStatus;
//
// Validate the resources.
// We don't have to split the resources into several resource lists cause
// the topology miniport doesn't need a resource list, the wave pci miniport
// needs all resources like the adapter common object.
//
ntStatus = ValidateResources (ResourceList);
//
// return immediately in case of an error
//
if (!NT_SUCCESS (ntStatus))
return ntStatus;
//
// If the adapter has the right resources...
//
PADAPTERCOMMON pAdapterCommon = NULL;
PUNKNOWN pUnknownCommon;
// create a new adapter common object
ntStatus = NewAdapterCommon (&pUnknownCommon, IID_IAdapterCommon,
NULL, NonPagedPool);
if (NT_SUCCESS (ntStatus))
{
// query for the IAdapterCommon interface
ntStatus = pUnknownCommon->QueryInterface (IID_IAdapterCommon,
(PVOID *)&pAdapterCommon);
if (NT_SUCCESS (ntStatus))
{
// Initialize the object
ntStatus = pAdapterCommon->Init (ResourceList, DeviceObject);
if (NT_SUCCESS (ntStatus))
{
// register with PortCls for power-management services
ntStatus = PcRegisterAdapterPowerManagement ((PUNKNOWN)pAdapterCommon,
DeviceObject);
}
}
// release the IID_IAdapterCommon on adapter common
pUnknownCommon->Release ();
}
// print error message.
if (!NT_SUCCESS (ntStatus))
{
DOUT (DBG_ERROR, ("Could not create or query AdapterCommon."));
}
//
// These are the port driver pointers we are keeping around for registering
// physical connections.
//
PMINIPORT miniWave = NULL;
PMINIPORT miniTopology = NULL;
PUNKNOWN unknownWave = NULL;
PUNKNOWN unknownTopology = NULL;
PMINIPORTTOPOLOGYICH pMiniportTopologyICH = NULL;
//
// Start the topology miniport.
//
if (NT_SUCCESS (ntStatus))
{
ntStatus = InstallSubdevice (DeviceObject,
Irp,
L"Topology",
CLSID_PortTopology,
CLSID_PortTopology, // not used
CreateMiniportTopologyICH,
pAdapterCommon,
NULL,
GUID_NULL,
&miniTopology,
&unknownTopology);
if (NT_SUCCESS (ntStatus))
{
// query for the IMiniportTopologyICH interface
ntStatus = miniTopology->QueryInterface (IID_IMiniportTopologyICH,
(PVOID *)&pMiniportTopologyICH);
miniTopology->Release ();
miniTopology = NULL;
}
// print error message.
if (!NT_SUCCESS (ntStatus))
{
DOUT (DBG_ERROR, ("Could not create or query TopologyICH"));
}
}
//
// Start the wave miniport.
//
if (NT_SUCCESS (ntStatus))
{
ntStatus = InstallSubdevice (DeviceObject,
Irp,
L"Wave",
CLSID_PortWavePci,
CLSID_PortWavePci, // not used
CreateMiniportWaveICH,
pAdapterCommon,
ResourceList,
IID_IPortWavePci,
NULL,
&unknownWave);
// print error message.
if (!NT_SUCCESS (ntStatus))
{
DOUT (DBG_ERROR, ("WavePCI miniport installation failed!"));
}
}
//
// Establish physical connections between filters as shown.
//
// +------+ +------+
// | Wave | | Topo |
// Capture <---|2 3|<===|x |<--- CD
// | | | |
// Render --->|0 1|===>|y |<--- Line In
// | | | |
// Mic <---|4 5|<===|z |<--- Mic
// +------+ | |
// | |---> Line Out
// +------+
//
// Note that the pin numbers for the nodes to be connected
// vary depending on the hardware/codec configuration.
// Also, the mic input may or may not be present.
//
// So,
// Do a QI on unknownTopology to get an interface to call
// a method on to get the topology miniport pin IDs.
if (NT_SUCCESS (ntStatus))
{
ULONG ulWaveOut, ulWaveIn, ulMicIn;
// get the pin numbers.
DOUT (DBG_PRINT, ("Connecting topo and wave."));
ntStatus = pMiniportTopologyICH->GetPhysicalConnectionPins (&ulWaveOut,
&ulWaveIn, &ulMicIn);
// register wave render connection
if (NT_SUCCESS (ntStatus))
{
ntStatus = PcRegisterPhysicalConnection (DeviceObject,
unknownWave,
PIN_WAVEOUT_BRIDGE,
unknownTopology,
ulWaveOut);
// print error message.
if (!NT_SUCCESS (ntStatus))
{
DOUT (DBG_ERROR, ("Cannot connect topology and wave miniport"
" (render)!"));
}
}
if (NT_SUCCESS (ntStatus))
{
// register wave capture connection
ntStatus = PcRegisterPhysicalConnection (DeviceObject,
unknownTopology,
ulWaveIn,
unknownWave,
PIN_WAVEIN_BRIDGE);
// print error message.
if (!NT_SUCCESS (ntStatus))
{
DOUT (DBG_ERROR, ("Cannot connect topology and wave miniport"
" (capture)!"));
}
}
if (NT_SUCCESS (ntStatus))
{
// register mic capture connection
if (pAdapterCommon->GetPinConfig (PINC_MICIN_PRESENT))
{
ntStatus = PcRegisterPhysicalConnection (DeviceObject,
unknownTopology,
ulMicIn,
unknownWave,
PIN_MICIN_BRIDGE);
// print error message.
if (!NT_SUCCESS (ntStatus))
{
DOUT (DBG_ERROR, ("Cannot connect topology and wave miniport"
" (MIC)!"));
}
}
}
}
//
// Release the adapter common object. It either has other references,
// or we need to delete it anyway.
//
if (pAdapterCommon)
pAdapterCommon->Release ();
//
// Release the unknowns.
//
if (unknownTopology)
unknownTopology->Release ();
if (unknownWave)
unknownWave->Release ();
// and the ICH miniport.
if (pMiniportTopologyICH)
pMiniportTopologyICH->Release ();
return ntStatus; // whatever this is ...
}
/*****************************************************************************
* AddDevice
*****************************************************************************
* This function is called by the operating system when the device is added.
* All adapter drivers can use this code without change.
*/
extern "C" NTSTATUS AddDevice
(
IN PDRIVER_OBJECT DriverObject,
IN PDEVICE_OBJECT PhysicalDeviceObject
)
{
PAGED_CODE ();
DOUT (DBG_PRINT, ("[AddDevice]"));
//
// Tell portcls (the class driver) to add the device.
//
return PcAddAdapterDevice (DriverObject,
PhysicalDeviceObject,
(PCPFNSTARTDEVICE)StartDevice,
MAX_MINIPORTS,
0);
}
/*****************************************************************************
* DriverEntry
*****************************************************************************
* This function is called by the operating system when the driver is loaded.
* All adapter drivers can use this code without change.
*/
extern "C" NTSTATUS DriverEntry
(
IN PDRIVER_OBJECT DriverObject,
IN PUNICODE_STRING RegistryPathName
)
{
PAGED_CODE ();
DOUT (DBG_PRINT, ("[DriverEntry]"));
//
// Tell the class driver to initialize the driver.
//
NTSTATUS RetValue = PcInitializeAdapterDriver (DriverObject,
RegistryPathName,
AddDevice);
return RetValue;
}
#pragma code_seg()
/*****************************************************************************
* _purecall()
*****************************************************************************
* The C++ compiler loves me.
*/
int __cdecl _purecall (void)
{
ASSERT (!"Pure virtual function called");
return 0;
}