📄 tmif.c
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/*----------------------------------------------------------------------------
COPYRIGHT (c) 1997 by Philips Semiconductors
THIS SOFTWARE IS FURNISHED UNDER A LICENSE AND MAY ONLY BE USED AND COPIED IN
ACCORDANCE WITH THE TERMS AND CONDITIONS OF SUCH A LICENSE AND WITH THE
INCLUSION OF THE THIS COPY RIGHT NOTICE. THIS SOFTWARE OR ANY OTHER COPIES
OF THIS SOFTWARE MAY NOT BE PROVIDED OR OTHERWISE MADE AVAILABLE TO ANY OTHER
PERSON. THE OWNERSHIP AND TITLE OF THIS SOFTWARE IS NOT TRANSFERRED.
THE INFORMATION IN THIS SOFTWARE IS SUBJECT TO CHANGE WITHOUT ANY PRIOR NOTICE
AND SHOULD NOT BE CONSTRUED AS A COMMITMENT BY Philips Semiconductor.
PHILIPS ASSUMES NO RESPONSIBILITY FOR THE USE OR RELIABILITY OF THIS SOFTWARE
ON PLATFORMS OTHER THAN THE ONE ON WHICH THIS SOFTWARE IS FURNISHED.
----------------------------------------------------------------------------*/
//////////////////////////////////////////////////////////////////////////////
// HISTORY
//
// 960405 Tilakraj Roy Created
// 960710 Tilakraj Roy Started adding code for tmman inteface
// 961008 Tilakraj Roy Added code for shared memory allocaiton interfaces.
// 961010 Tilakraj Roy Added code for image loading, running & stopping
// 970806 Tilakraj Roy Ported to Workstation V4.0
// 982005 Volker Schildwach Ported to Windwos CE
// 981021 Tilakraj Roy Changes for integrating into common source base
//
//////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
// SYSTEM INCLUDE FILES
//////////////////////////////////////////////////////////////////////////////
#include <windows.h>
#include "ceddk.h"
//////////////////////////////////////////////////////////////////////////////
// DRIVER INCLUDE FILES
//////////////////////////////////////////////////////////////////////////////
#include "tmmanapi.h"
#include "tmmanlib.h"
#include "platform.h"
#include "verinfo.h"
#include "tmif.h"
//////////////////////////////////////////////////////////////////////////////
// MANIFEST CONSTANTS
//////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
// TYPEDEFS
//////////////////////////////////////////////////////////////////////////////
#define tmmanDownloaderStatusToTMManStatus(x) \
(((x)!=TMDwnLdr_OK)?(x+0x70):statusSuccess)
//////////////////////////////////////////////////////////////////////////////
// PROTOTYPES
//////////////////////////////////////////////////////////////////////////////
TMStatus tmmanKernelModeNegotiateVersion ( tmmanVersion* Version );
//////////////////////////////////////////////////////////////////////////////
// IMPLEMENTATION
//////////////////////////////////////////////////////////////////////////////
DWORD
TMM_Open(
DWORD dwClientContext,
DWORD dwAccessCode,
DWORD dwShareMode
)
{
UInt32 ClientIdx, DeviceIdx;
ClientObject* Client;
// search for an empty slot.
DPF(1,("tmman:tmmanOpen:ClientList:"));
for ( ClientIdx = 0 ; ClientIdx < TMManGlobal->MaximumClients ; ClientIdx ++ )
{
if ( TMManGlobal->ClientList[ClientIdx] )
{
DPF(1,("[#%x:%x]",
ClientIdx, ((ClientObject*)TMManGlobal->ClientList[ClientIdx])->Process ));
continue;
}
else
{
break;
}
}
DPF(1,("\n"));
if ( ClientIdx == TMManGlobal->MaximumClients )
{
DPF(0,("tmman:tmmanOpen:NoMoreClientsFree\n"));
goto tmmanOpenExit1;
}
TMManGlobal->ClientList[ClientIdx] = memAllocate (
sizeof ( ClientObject ) + sizeof ( ClientDeviceObject ) * ( TMManGlobal->DeviceCount - 1 ) );
if ( TMManGlobal->ClientList[ClientIdx] == Null )
{
DPF(0,("tmman:tmmanOpen:memAllocate:FAIL\n"));
goto tmmanOpenExit1;
}
Client = TMManGlobal->ClientList[ClientIdx];
// the current process always is the same (device.exe) under Windows CE
// and the alocated address space is specific for each client, we can use
// the address to determine a client
Client->Process = (DWORD) Client;
Client->DeviceCount = TMManGlobal->DeviceCount;
// initialize the per device data structures
// BUGCHECK - we have to go by Client->DeviceCount since devices could have
// gone away Workstation 5.0 problem.
for ( DeviceIdx = 0 ; DeviceIdx < TMManGlobal->DeviceCount ; DeviceIdx++ )
{
TMManDeviceObject* TMManDevice = TMManGlobal->DeviceList[DeviceIdx];
UInt32 Length;
PVOID AddrKernel;
PVOID AddrPhys;
Client->Device[DeviceIdx].Device = TMManDevice;
halGetMMIOInfo (
TMManDevice->HalHandle,
(Pointer*)&AddrPhys,
(Pointer*)&AddrKernel,
&Length );
Client->Device[DeviceIdx].MMIOAddrUser = AddrKernel;
Client->Device[DeviceIdx].MMIOAddrPhys = AddrPhys;
halGetSDRAMInfo (
TMManDevice->HalHandle,
(Pointer*)&AddrPhys,
(Pointer*)&AddrKernel,
&Length );
Client->Device[DeviceIdx].SDRAMAddrUser = AddrKernel;
Client->Device[DeviceIdx].SDRAMAddrPhys = AddrPhys;
Client->Device[DeviceIdx].MemoryAddrUser = TMManDevice->MemoryBlock;
}
TMManGlobal->ClientCount++;
// return identifier for this client
return Client->Process;
tmmanOpenExit1:
return 0;
}
BOOL
TMM_Close(
DWORD dwOpenContext)
{
UInt32 ClientIdx, DeviceIdx;
ClientObject* Client;
PEPROCESS Process;
Process = dwOpenContext;
DPF(1,("tmman:tmmanClose:Process[%x]\n", Process ));
for ( ClientIdx = 0 ; ClientIdx < TMManGlobal->MaximumClients ; ClientIdx ++ )
{
if ( !TMManGlobal->ClientList[ClientIdx] )
continue;
if ( ((ClientObject*)TMManGlobal->ClientList[ClientIdx])->Process != Process )
continue;
break;
}
if ( ClientIdx == TMManGlobal->MaximumClients )
{
DPF(0,("tmman:tmmanClose:PANIC:InvalidHandle:Process[%x]\n", Process ));
goto tmmanCloseExit1;
}
// assume one open handle per process context
// if we have more than slot of a single process than
// we are smoking something we are not supposed to
// since tmman32.dll is the only one who calls CreateProcess
// during ATTACH_PROCESS
Client = TMManGlobal->ClientList[ClientIdx];
// initialize the per device data structures
// BUGCHECK - we have to go by Client->DeviceCount
for ( DeviceIdx = 0 ; DeviceIdx < TMManGlobal->DeviceCount ; DeviceIdx++ )
{
TMManDeviceObject* TMManDevice = TMManGlobal->DeviceList[DeviceIdx];
memoryManagerDestroyMemoryByClient (
TMManDevice->MemoryManagerHandle,
(UInt32)Process );
messageManagerDestroyMessageByClient (
TMManDevice->MessageManagerHandle,
(UInt32)Process );
eventManagerDestroyEventByClient (
TMManDevice->EventManagerHandle,
(UInt32)Process );
sgbufferManagerDestroySGBufferByClient (
TMManDevice->SGBufferManagerHandle,
(UInt32)Process );
}
memFree ( TMManGlobal->ClientList[ClientIdx] );
TMManGlobal->ClientList[ClientIdx] = NULL;
TMManGlobal->ClientCount--;
return TRUE;
tmmanCloseExit1:
return FALSE;
}
BOOL
TMM_IOControl(
DWORD dwOpenContext,
DWORD dwIoControlCode,
LPVOID lpBufIn,
DWORD dwLenIn,
LPVOID lpBufOut,
DWORD dwLenOut,
PDWORD pdwActualOut
)
{
PEPROCESS Process;
PVOID IOParameters = lpBufIn;
ULONG ReturnInformation = 0;
// if this function is called with an invalid context we just return
if (!dwOpenContext)
return TRUE;
Process = dwOpenContext;
switch ( dwIoControlCode )
{
case constIOCTLtmmanNegotiateVersion : // vxd callable
{
tmifNegotiateVersion* TMIF =
(tmifNegotiateVersion*)IOParameters;
TMIF->Status = tmmanKernelModeNegotiateVersion ( &TMIF->Version );
ReturnInformation = sizeof ( tmifNegotiateVersion );
}
break;
case constIOCTLtmmanDSPOpen : // vxd callable
{
tmifDSPOpen* TMIF =
(tmifDSPOpen*)IOParameters;
if ( TMIF->DSPNumber < TMManGlobal->DeviceCount )
{
TMIF->DSPHandle = (UInt32)TMManGlobal->DeviceList[TMIF->DSPNumber];
TMIF->Status = statusSuccess;
}
else
{
TMIF->Status = statusDSPNumberOutofRange;
}
ReturnInformation = sizeof ( tmifDSPOpen );
}
break;
case constIOCTLtmmanDSPClose : // vxd callable
{
tmifGenericFunction* TMIF =
(tmifGenericFunction*)IOParameters;
TMIF->Status = statusSuccess;
ReturnInformation = sizeof ( tmifGenericFunction );
}
break;
case constIOCTLtmmanDSPGetNum : // vxd callable
{
tmifDSPNum* TMIF =
(tmifDSPNum*)IOParameters;
TMIF->DSPCount = TMManGlobal->DeviceCount;
TMIF->Status = statusSuccess;
ReturnInformation = sizeof ( tmifDSPNum );
}
break;
case constIOCTLtmmanDSPInfo : // vxd callable
{
tmifDSPInfo* TMIF =
(tmifDSPInfo*)IOParameters;
TMManDeviceObject* TMManDevice = (TMManDeviceObject*)TMIF->DSPHandle;
UInt32 ClientIdx, DeviceIdx;
UInt32 Dummy;
ClientObject* Client;
for ( ClientIdx = 0 ; ClientIdx < TMManGlobal->MaximumClients ; ClientIdx ++ )
{
if ( !TMManGlobal->ClientList[ClientIdx] )
continue;
if ( ((ClientObject*)TMManGlobal->ClientList[ClientIdx])->Process != Process )
continue;
break;
}
if ( ClientIdx == TMManGlobal->MaximumClients )
{
DPF(0,("tmman:tmmanDeviceControl:PANIC:tmmanDSPInfo:InvalidHandle:Process[%x]\n",
Process));
TMIF->Status = statusInvalidHandle;
ReturnInformation = sizeof ( tmifDSPInfo );
break;
}
Client = TMManGlobal->ClientList[ClientIdx];
TMIF->Info.MMIO.MappedAddress =
(UInt32)Client->Device[TMManDevice->DSPNumber].MMIOAddrUser;
TMIF->Info.SDRAM.MappedAddress =
(UInt32)Client->Device[TMManDevice->DSPNumber].SDRAMAddrUser;
halGetMMIOInfo (
TMManDevice->HalHandle,
(Pointer*)&TMIF->Info.MMIO.PhysicalAddress,
(Pointer*)&Dummy,
&TMIF->Info.MMIO.Size );
halGetSDRAMInfo (
TMManDevice->HalHandle,
(Pointer*)&TMIF->Info.SDRAM.PhysicalAddress,
(Pointer*)&Dummy,
&TMIF->Info.SDRAM.Size );
halGetTMPCIInfo (
TMManDevice->HalHandle,
&TMIF->Info.TMDeviceVendorID,
&TMIF->Info.TMSubSystemID,
&TMIF->Info.TMClassRevisionID );
halGetBridgePCIInfo (
TMManDevice->HalHandle,
&TMIF->Info.BridgeDeviceVendorID,
&TMIF->Info.BridgeSubsystemID,
&TMIF->Info.BridgeClassRevisionID );
TMIF->Info.DSPNumber = TMManDevice->DSPNumber;
TMIF->Status = statusSuccess;
ReturnInformation = sizeof ( tmifDSPInfo );
}
break;
case constIOCTLtmmanDSPLoad :
{
tmifDSPLoad* TMIF =
(tmifDSPLoad*)IOParameters;
TMManDeviceObject* TMManDevice = (TMManDeviceObject*)TMIF->DSPHandle;
// don't do anything in kernel mode for now
// BUGCHECK : set the hal endiannesss here
// the endian ness swap has to be done here since it is only
// during loading that we will know what endianess the target
// is running in.
halSwapEndianess (
TMManDevice->HalHandle,
( TMIF->Endianess == constTMManEndianessBig ) );
halSetPeerVersion (
TMManDevice->HalHandle,
TMIF->PeerMajorVersion,
TMIF->PeerMinorVersion );
TMIF->Status = statusSuccess;
ReturnInformation = sizeof ( tmifDSPLoad );
}
break;
case constIOCTLtmmanDSPStart :
{
tmifGenericFunction* TMIF =
(tmifGenericFunction*)IOParameters;
TMManDeviceObject* TMManDevice = (TMManDeviceObject*)TMIF->Handle;
UInt32 CPURevision, BoardRevision;
LARGE_INTEGER SystemTime;
UInt32 TargetKernelMajorVersion;
UInt32 TargetKernelMinorVersion;
UInt32 DeviceVendorID;
UInt32 SubsystemID;
UInt32 ClassRevisionID;
TMManDevice->Status = constTMManDSPStatusRunning;
TMManDevice->SharedData->HostKernelMajorVersion =
halAccess32( TMManDevice->HalHandle, verGetFileMajorVersion() );
TMManDevice->SharedData->HostKernelMinorVersion =
halAccess32( TMManDevice->HalHandle, verGetFileMinorVersion() );
TMManDevice->SharedData->HalShared =
halAccess32( TMManDevice->HalHandle, TMManDevice->HalSharedAddress.LowPart );
TMManDevice->SharedData->ChannelShared =
halAccess32( TMManDevice->HalHandle, TMManDevice->ChannelSharedAddress.LowPart );
TMManDevice->SharedData->VIntrShared =
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