drivers/gpu/drm/img-rogue/tlclient.c - chromiumos/third_party/kernel - Git at Google

 /*************************************************************************/ /*!
 @File			tlclient.c
 @Title          Services Transport Layer shared API
 @Copyright      Copyright (c) Imagination Technologies Ltd. All Rights Reserved
 @Description    Transport layer common API used in both clients and server
 @License        Dual MIT/GPLv2

 The contents of this file are subject to the MIT license as set out below.

 Permission is hereby granted, free of charge, to any person obtaining a copy
 of this software and associated documentation files (the "Software"), to deal
 in the Software without restriction, including without limitation the rights
 to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 copies of the Software, and to permit persons to whom the Software is
 furnished to do so, subject to the following conditions:

 The above copyright notice and this permission notice shall be included in
 all copies or substantial portions of the Software.

 Alternatively, the contents of this file may be used under the terms of
 the GNU General Public License Version 2 ("GPL") in which case the provisions
 of GPL are applicable instead of those above.

 If you wish to allow use of your version of this file only under the terms of
 GPL, and not to allow others to use your version of this file under the terms
 of the MIT license, indicate your decision by deleting the provisions above
 and replace them with the notice and other provisions required by GPL as set
 out in the file called "GPL-COPYING" included in this distribution. If you do
 not delete the provisions above, a recipient may use your version of this file
 under the terms of either the MIT license or GPL.

 This License is also included in this distribution in the file called
 "MIT-COPYING".

 EXCEPT AS OTHERWISE STATED IN A NEGOTIATED AGREEMENT: (A) THE SOFTWARE IS
 PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING
 BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR
 PURPOSE AND NONINFRINGEMENT; AND (B) IN NO EVENT SHALL THE AUTHORS OR
 COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
 IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
 CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
 */ /**************************************************************************/

 /* DESIGN NOTE
  * This transport layer consumer-role API was created as a shared API when a
  * client wanted to read the data of a TL stream from within the KM server
  * driver. This was in addition to the existing clients supported externally
  * by the UM client library component via PVR API layer.
  * This shared API is thus used by the PVR TL API in the client library and
  * by clients internal to the server driver module. It depends on
  * client entry points of the TL and DEVMEM bridge modules. These entry points
  * encapsulate from the TL shared API whether a direct bridge or an indirect
  * (ioctl) bridge is used.
  * One reason for needing this layer centres around the fact that some of the
  * API functions make multiple bridge calls and the logic that glues these
  * together is common regardless of client location. Further this layer has
  * allowed the defensive coding that checks parameters to move into the PVR
  * API layer where untrusted clients enter giving a more efficient KM code path.
  */

 #include "img_defs.h"
 #include "pvrsrv_error.h"
 #include "pvr_debug.h"
 #include "osfunc.h"

 #include "allocmem.h"
 #include "devicemem.h"

 #include "tlclient.h"
 #include "pvr_tlcommon.h"
 #include "client_pvrtl_bridge.h"
 #include "pvrsrv_tlcommon.h"

 /* Defines/Constants
  */

 #define NO_ACQUIRE             0xffffffffU

 /* User-side stream descriptor structure.
  */
 typedef struct _TL_STREAM_DESC_
 {
 	/* Handle on kernel-side stream descriptor*/
 	IMG_HANDLE		hServerSD;

 	/* Stream data buffer variables */
 	DEVMEM_MEMDESC*			psUMmemDesc;
 	IMG_PBYTE				pBaseAddr;

 	/* Offset in bytes into the circular buffer and valid only after
 	 * an Acquire call and undefined after a release. */
 	IMG_UINT32 	uiReadOffset;

 	/* Always a positive integer when the Acquire call returns and a release
 	 * is outstanding. Undefined at all other times. */
 	IMG_UINT32	uiReadLen;

 } TL_STREAM_DESC, *PTL_STREAM_DESC;


 IMG_INTERNAL
 PVRSRV_ERROR TLClientOpenStream(IMG_HANDLE hSrvHandle,
 		const IMG_CHAR* pszName,
 		IMG_UINT32   ui32Mode,
 		IMG_HANDLE*  phSD)
 {
 	PVRSRV_ERROR 				eError = PVRSRV_OK;
 	TL_STREAM_DESC* 			psSD = 0;
 	IMG_HANDLE hTLPMR;
 	IMG_HANDLE hTLImportHandle;
 	IMG_DEVMEM_SIZE_T uiImportSize;
 	IMG_UINT32 ui32MemFlags = PVRSRV_MEMALLOCFLAG_CPU_READABLE;

 	PVR_ASSERT(hSrvHandle);
 	PVR_ASSERT(pszName);
 	PVR_ASSERT(phSD);
 	*phSD = NULL;

 	/* Allocate memory for the stream descriptor object, initialise with
 	 * "no data read" yet. */
 	psSD = OSAllocZMem(sizeof(TL_STREAM_DESC));
 	if (psSD == NULL)
 	{
 		eError = PVRSRV_ERROR_OUT_OF_MEMORY;
 		PVR_DPF((PVR_DBG_ERROR, "BridgeTLOpenStream: KM returned %d", eError));
 		goto e0;
 	}
 	psSD->uiReadLen = psSD->uiReadOffset = NO_ACQUIRE;

 	/* Send open stream request to kernel server to get stream handle and
 	 * buffer cookie so we can get access to the buffer in this process. */
 	eError = BridgeTLOpenStream(hSrvHandle, pszName, ui32Mode,
 										&psSD->hServerSD, &hTLPMR);
 	if (eError != PVRSRV_OK)
 	{
 	    if ((ui32Mode & PVRSRV_STREAM_FLAG_OPEN_WAIT) &&
 		    (eError == PVRSRV_ERROR_TIMEOUT))
 	    {
 	    	goto e1;
 	    }
 	    PVR_LOGG_IF_ERROR(eError, "BridgeTLOpenStream", e1);
 	}

 	/* Convert server export cookie into a cookie for use by this client */
 	eError = DevmemMakeLocalImportHandle(hSrvHandle,
 										hTLPMR, &hTLImportHandle);
 	PVR_LOGG_IF_ERROR(eError, "DevmemMakeLocalImportHandle", e2);

 	ui32MemFlags |= ui32Mode & PVRSRV_STREAM_FLAG_OPEN_WO ?
 	        PVRSRV_MEMALLOCFLAG_CPU_WRITEABLE : 0;
 	/* Now convert client cookie into a client handle on the buffer's
 	 * physical memory region */
 	eError = DevmemLocalImport(hSrvHandle,
 	                           hTLImportHandle,
 	                           PVRSRV_MEMALLOCFLAG_CPU_READABLE |
 	                           PVRSRV_MEMALLOCFLAG_CPU_WRITEABLE,
 	                           &psSD->psUMmemDesc,
 	                           &uiImportSize,
 	                           "TLBuffer");
 	PVR_LOGG_IF_ERROR(eError, "DevmemImport", e3);

 	/* Now map the memory into the virtual address space of this process. */
 	eError = DevmemAcquireCpuVirtAddr(psSD->psUMmemDesc, (void **)
 															&psSD->pBaseAddr);
 	PVR_LOGG_IF_ERROR(eError, "DevmemAcquireCpuVirtAddr", e4);

 	/* Ignore error, not much that can be done */
 	(void) DevmemUnmakeLocalImportHandle(hSrvHandle,
 			hTLImportHandle);

 	/* Return client descriptor handle to caller */
 	*phSD = psSD;
 	return PVRSRV_OK;

 /* Clean up post buffer setup */
 e4:
 	DevmemFree(psSD->psUMmemDesc);
 e3:
 	(void) DevmemUnmakeLocalImportHandle(hSrvHandle,
 				&hTLImportHandle);
 /* Clean up post stream open */
 e2:
 	BridgeTLCloseStream(hSrvHandle, psSD->hServerSD);

 /* Cleanup post allocation of the descriptor object */
 e1:
 	OSFreeMem(psSD);

 e0:
 	return eError;
 }


 IMG_INTERNAL
 PVRSRV_ERROR TLClientCloseStream(IMG_HANDLE hSrvHandle,
 		IMG_HANDLE hSD)
 {
 	PVRSRV_ERROR          eError = PVRSRV_OK;
 	TL_STREAM_DESC* psSD = (TL_STREAM_DESC*) hSD;

 	PVR_ASSERT(hSrvHandle);
 	PVR_ASSERT(hSD);

 	/* Check the caller provided connection is valid */
 	if (!psSD->hServerSD)
 	{
 		PVR_DPF((PVR_DBG_ERROR, "TLClientCloseStream: descriptor already closed/not open"));
 		return PVRSRV_ERROR_HANDLE_NOT_FOUND;
 	}

 	/* Check if acquire is outstanding, perform release if it is, ignore result
 	 * as there is not much we can do if it is an error other than close */
 	if (psSD->uiReadLen != NO_ACQUIRE)
 	{
 		(void) BridgeTLReleaseData(hSrvHandle, psSD->hServerSD,
 									psSD->uiReadOffset, psSD->uiReadLen);
 		psSD->uiReadLen = psSD->uiReadOffset = NO_ACQUIRE;
 	}

 	/* Clean up DevMem resources used for this stream in this client */
 	DevmemReleaseCpuVirtAddr(psSD->psUMmemDesc);

 	DevmemFree(psSD->psUMmemDesc);

 	/* Send close to server to clean up kernel mode resources for this
 	 * handle and release the memory. */
 	eError = BridgeTLCloseStream(hSrvHandle, psSD->hServerSD);
 	if (eError != PVRSRV_OK)
 	{
 		PVR_DPF((PVR_DBG_ERROR, "BridgeTLCloseStream: KM returned %d", eError));
 		/* Not much we can do with error, fall through to clean up
 		 * return eError; */
 	}

 	OSCachedMemSet(psSD, 0x00, sizeof(TL_STREAM_DESC));
 	OSFreeMem (psSD);

 	return eError;
 }

 IMG_INTERNAL
 PVRSRV_ERROR TLClientDiscoverStreams(IMG_HANDLE hSrvHandle,
 		const IMG_CHAR *pszNamePattern,
 		IMG_UINT32 *pui32Streams,
 		IMG_UINT32 *pui32NumFound)
 {
 	PVR_ASSERT(hSrvHandle);
 	PVR_ASSERT(pszNamePattern);
 	PVR_ASSERT(pui32NumFound);

 	return BridgeTLDiscoverStreams(hSrvHandle,
 	                               pszNamePattern,
 	                               *pui32NumFound,
 	                               pui32Streams,
 	                               pui32NumFound);
 }

 IMG_INTERNAL
 PVRSRV_ERROR TLClientReserveStream(IMG_HANDLE hSrvHandle,
 		IMG_HANDLE hSD,
 		IMG_UINT8 **ppui8Data,
 		IMG_UINT32 ui32Size)
 {
 	PVRSRV_ERROR eError;
 	TL_STREAM_DESC* psSD = (TL_STREAM_DESC*) hSD;
 	IMG_UINT32 ui32BufferOffset, ui32Dummy;

 	PVR_ASSERT(hSrvHandle);
 	PVR_ASSERT(hSD);
 	PVR_ASSERT(ppui8Data);
 	PVR_ASSERT(ui32Size);

 	eError = BridgeTLReserveStream(hSrvHandle, psSD->hServerSD,
 	                               &ui32BufferOffset, ui32Size, ui32Size,
 	                               &ui32Dummy);
 	if (eError != PVRSRV_OK)
 	{
 		return eError;
 	}

 	*ppui8Data = psSD->pBaseAddr + ui32BufferOffset;

 	return PVRSRV_OK;
 }

 IMG_INTERNAL
 PVRSRV_ERROR TLClientReserveStream2(IMG_HANDLE hSrvHandle,
 		IMG_HANDLE hSD,
 		IMG_UINT8 **ppui8Data,
 		IMG_UINT32 ui32Size,
 		IMG_UINT32 ui32SizeMin,
 		IMG_UINT32 *pui32Available)
 {
 		PVRSRV_ERROR eError;
 	TL_STREAM_DESC* psSD = (TL_STREAM_DESC*) hSD;
 	IMG_UINT32 ui32BufferOffset;

 	PVR_ASSERT(hSrvHandle);
 	PVR_ASSERT(hSD);
 	PVR_ASSERT(ppui8Data);
 	PVR_ASSERT(ui32Size);

 	eError = BridgeTLReserveStream(hSrvHandle, psSD->hServerSD,
 	                               &ui32BufferOffset, ui32Size, ui32SizeMin,
 	                               pui32Available);
 	if (eError != PVRSRV_OK)
 	{
 		return eError;
 	}

 	*ppui8Data = psSD->pBaseAddr + ui32BufferOffset;

 	return PVRSRV_OK;
 }

 IMG_INTERNAL
 PVRSRV_ERROR TLClientCommitStream(IMG_HANDLE hSrvHandle,
 		IMG_HANDLE hSD,
 		IMG_UINT32 ui32Size)
 {
 	PVRSRV_ERROR eError;
 	TL_STREAM_DESC* psSD = (TL_STREAM_DESC*) hSD;

 	PVR_ASSERT(hSrvHandle);
 	PVR_ASSERT(hSD);
 	PVR_ASSERT(ui32Size);

 	eError = BridgeTLCommitStream(hSrvHandle, psSD->hServerSD, ui32Size);
 	if (eError != PVRSRV_OK)
 	{
 		return eError;
 	}

 	return PVRSRV_OK;
 }

 IMG_INTERNAL
 PVRSRV_ERROR TLClientAcquireData(IMG_HANDLE hSrvHandle,
 		IMG_HANDLE  hSD,
 		IMG_PBYTE*  ppPacketBuf,
 		IMG_UINT32* pui32BufLen)
 {
 	PVRSRV_ERROR 		  eError = PVRSRV_OK;
 	TL_STREAM_DESC* psSD = (TL_STREAM_DESC*) hSD;

 	PVR_ASSERT(hSrvHandle);
 	PVR_ASSERT(hSD);
 	PVR_ASSERT(ppPacketBuf);
 	PVR_ASSERT(pui32BufLen);

 	/* Check Acquire has not been called twice in a row without a release */
 	if (psSD->uiReadOffset != NO_ACQUIRE)
 	{
 		PVR_DPF((PVR_DBG_ERROR, "TLClientAcquireData: acquire already outstanding"));
 		return PVRSRV_ERROR_RETRY;
 	}

 	*pui32BufLen = 0;
 	/* Ask the kernel server for the next chunk of data to read */
 	eError = BridgeTLAcquireData(hSrvHandle, psSD->hServerSD,
 									&psSD->uiReadOffset, &psSD->uiReadLen);
 	if (eError != PVRSRV_OK)
 	{
 		if ((eError != PVRSRV_ERROR_RESOURCE_UNAVAILABLE) &&
 			(eError != PVRSRV_ERROR_TIMEOUT))
 		{
 			PVR_DPF((PVR_DBG_ERROR, "BridgeTLAcquireData: KM returned %d", eError));
 		}
 		psSD->uiReadOffset = psSD->uiReadLen = NO_ACQUIRE;
 		return eError;
 	}

 	/* Return the data offset and length to the caller if bytes are available
 	 * to be read. Could be zero for non-blocking mode. */
 	if (psSD->uiReadLen)
 	{
 		*ppPacketBuf = psSD->pBaseAddr + psSD->uiReadOffset;
 		*pui32BufLen = psSD->uiReadLen;
 	}
 	else
 	{
 		/* On non-blocking, zero length data could be returned from server
 		 * Which is basically a no-acquire operation */
 		*ppPacketBuf = 0;
 		*pui32BufLen = 0;
 	}

 	return eError;
 }


 IMG_INTERNAL
 PVRSRV_ERROR TLClientReleaseData(IMG_HANDLE hSrvHandle,
 		IMG_HANDLE hSD)
 {
 	PVRSRV_ERROR eError = PVRSRV_OK;
 	TL_STREAM_DESC* psSD = (TL_STREAM_DESC*) hSD;

 	PVR_ASSERT(hSrvHandle);
 	PVR_ASSERT(hSD);

 	/* the previous acquire did not return any data, this is a no-operation */
 	if (psSD->uiReadLen == 0)
 	{
 		return PVRSRV_OK;
 	}

 	/* Check release has not been called twice in a row without an acquire */
 	if (psSD->uiReadOffset == NO_ACQUIRE)
 	{
 		PVR_DPF((PVR_DBG_ERROR, "TLClientReleaseData_: no acquire to release"));
 		return PVRSRV_ERROR_RETRY;
 	}

 	/* Inform the kernel to release the data from the buffer */
 	eError = BridgeTLReleaseData(hSrvHandle, psSD->hServerSD,
 										psSD->uiReadOffset, psSD->uiReadLen);
 	if (eError != PVRSRV_OK)
 	{
 		PVR_DPF((PVR_DBG_ERROR, "BridgeTLReleaseData: KM returned %d", eError));
 		/* Need to continue to keep client data consistent, fall through
 		 * return eError */
 	}

 	/* Reset state to indicate no outstanding acquire */
 	psSD->uiReadLen = psSD->uiReadOffset = NO_ACQUIRE;

 	return eError;
 }

 IMG_INTERNAL
 PVRSRV_ERROR TLClientWriteData(IMG_HANDLE hSrvHandle,
 		IMG_HANDLE hSD,
 		IMG_UINT32 ui32Size,
 		IMG_BYTE *pui8Data)
 {
 	PVRSRV_ERROR eError;
 	TL_STREAM_DESC* psSD = (TL_STREAM_DESC*) hSD;

 	PVR_ASSERT(hSrvHandle);
 	PVR_ASSERT(hSD);
 	PVR_ASSERT(ui32Size);
 	PVR_ASSERT(pui8Data);

 	eError = BridgeTLWriteData(hSrvHandle, psSD->hServerSD, ui32Size, pui8Data);
 	if (eError != PVRSRV_OK)
 	{
 		if (eError == PVRSRV_ERROR_STREAM_RESERVE_TOO_BIG)
 		{
 			static IMG_BOOL bPrinted = IMG_FALSE;

 			if (!bPrinted) {
 				PVR_DPF((PVR_DBG_ERROR, "Not enough space. Failed to write"
 				        " data to the stream (%d).", eError));
 				bPrinted = IMG_TRUE;
 			}
 		}
 		else
 		{
 			PVR_DPF((PVR_DBG_ERROR, "TLClientWriteData: KM returned %d",
 			        eError));
 		}
 	}

 	return eError;
 }

 /******************************************************************************
  End of file (tlclient.c)
 ******************************************************************************/
	/************************************************************************/ /!
	@File tlclient.c
	@Title Services Transport Layer shared API
	@Copyright Copyright (c) Imagination Technologies Ltd. All Rights Reserved
	@Description Transport layer common API used in both clients and server
	@License Dual MIT/GPLv2

	The contents of this file are subject to the MIT license as set out below.

	Permission is hereby granted, free of charge, to any person obtaining a copy
	of this software and associated documentation files (the "Software"), to deal
	in the Software without restriction, including without limitation the rights
	to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
	copies of the Software, and to permit persons to whom the Software is
	furnished to do so, subject to the following conditions:

	The above copyright notice and this permission notice shall be included in
	all copies or substantial portions of the Software.

	Alternatively, the contents of this file may be used under the terms of
	the GNU General Public License Version 2 ("GPL") in which case the provisions
	of GPL are applicable instead of those above.

	If you wish to allow use of your version of this file only under the terms of
	GPL, and not to allow others to use your version of this file under the terms
	of the MIT license, indicate your decision by deleting the provisions above
	and replace them with the notice and other provisions required by GPL as set
	out in the file called "GPL-COPYING" included in this distribution. If you do
	not delete the provisions above, a recipient may use your version of this file
	under the terms of either the MIT license or GPL.

	This License is also included in this distribution in the file called
	"MIT-COPYING".

	EXCEPT AS OTHERWISE STATED IN A NEGOTIATED AGREEMENT: (A) THE SOFTWARE IS
	PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING
	BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR
	PURPOSE AND NONINFRINGEMENT; AND (B) IN NO EVENT SHALL THE AUTHORS OR
	COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
	IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
	CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
	/ /*************************************************************************/

	/* DESIGN NOTE
	* This transport layer consumer-role API was created as a shared API when a
	* client wanted to read the data of a TL stream from within the KM server
	* driver. This was in addition to the existing clients supported externally
	* by the UM client library component via PVR API layer.
	* This shared API is thus used by the PVR TL API in the client library and
	* by clients internal to the server driver module. It depends on
	* client entry points of the TL and DEVMEM bridge modules. These entry points
	* encapsulate from the TL shared API whether a direct bridge or an indirect
	* (ioctl) bridge is used.
	* One reason for needing this layer centres around the fact that some of the
	* API functions make multiple bridge calls and the logic that glues these
	* together is common regardless of client location. Further this layer has
	* allowed the defensive coding that checks parameters to move into the PVR
	* API layer where untrusted clients enter giving a more efficient KM code path.
	*/

	#include "img_defs.h"
	#include "pvrsrv_error.h"
	#include "pvr_debug.h"
	#include "osfunc.h"

	#include "allocmem.h"
	#include "devicemem.h"

	#include "tlclient.h"
	#include "pvr_tlcommon.h"
	#include "client_pvrtl_bridge.h"
	#include "pvrsrv_tlcommon.h"

	/* Defines/Constants
	*/

	#define NO_ACQUIRE 0xffffffffU

	/* User-side stream descriptor structure.
	*/
	typedef struct _TL_STREAM_DESC_
	{
	/* Handle on kernel-side stream descriptor*/
	IMG_HANDLE hServerSD;

	/* Stream data buffer variables */
	DEVMEM_MEMDESC* psUMmemDesc;
	IMG_PBYTE pBaseAddr;

	/* Offset in bytes into the circular buffer and valid only after
	* an Acquire call and undefined after a release. */
	IMG_UINT32 uiReadOffset;

	/* Always a positive integer when the Acquire call returns and a release
	* is outstanding. Undefined at all other times. */
	IMG_UINT32 uiReadLen;

	} TL_STREAM_DESC, *PTL_STREAM_DESC;


	IMG_INTERNAL
	PVRSRV_ERROR TLClientOpenStream(IMG_HANDLE hSrvHandle,
	const IMG_CHAR* pszName,
	IMG_UINT32 ui32Mode,
	IMG_HANDLE* phSD)
	{
	PVRSRV_ERROR eError = PVRSRV_OK;
	TL_STREAM_DESC* psSD = 0;
	IMG_HANDLE hTLPMR;
	IMG_HANDLE hTLImportHandle;
	IMG_DEVMEM_SIZE_T uiImportSize;
	IMG_UINT32 ui32MemFlags = PVRSRV_MEMALLOCFLAG_CPU_READABLE;

	PVR_ASSERT(hSrvHandle);
	PVR_ASSERT(pszName);
	PVR_ASSERT(phSD);
	*phSD = NULL;

	/* Allocate memory for the stream descriptor object, initialise with
	* "no data read" yet. */
	psSD = OSAllocZMem(sizeof(TL_STREAM_DESC));
	if (psSD == NULL)
	{
	eError = PVRSRV_ERROR_OUT_OF_MEMORY;
	PVR_DPF((PVR_DBG_ERROR, "BridgeTLOpenStream: KM returned %d", eError));
	goto e0;
	}
	psSD->uiReadLen = psSD->uiReadOffset = NO_ACQUIRE;

	/* Send open stream request to kernel server to get stream handle and
	* buffer cookie so we can get access to the buffer in this process. */
	eError = BridgeTLOpenStream(hSrvHandle, pszName, ui32Mode,
	&psSD->hServerSD, &hTLPMR);
	if (eError != PVRSRV_OK)
	{
	if ((ui32Mode & PVRSRV_STREAM_FLAG_OPEN_WAIT) &&
	(eError == PVRSRV_ERROR_TIMEOUT))
	{
	goto e1;
	}
	PVR_LOGG_IF_ERROR(eError, "BridgeTLOpenStream", e1);
	}

	/* Convert server export cookie into a cookie for use by this client */
	eError = DevmemMakeLocalImportHandle(hSrvHandle,
	hTLPMR, &hTLImportHandle);
	PVR_LOGG_IF_ERROR(eError, "DevmemMakeLocalImportHandle", e2);

	ui32MemFlags \|= ui32Mode & PVRSRV_STREAM_FLAG_OPEN_WO ?
	PVRSRV_MEMALLOCFLAG_CPU_WRITEABLE : 0;
	/* Now convert client cookie into a client handle on the buffer's
	* physical memory region */
	eError = DevmemLocalImport(hSrvHandle,
	hTLImportHandle,
	PVRSRV_MEMALLOCFLAG_CPU_READABLE \|
	PVRSRV_MEMALLOCFLAG_CPU_WRITEABLE,
	&psSD->psUMmemDesc,
	&uiImportSize,
	"TLBuffer");
	PVR_LOGG_IF_ERROR(eError, "DevmemImport", e3);

	/* Now map the memory into the virtual address space of this process. */
	eError = DevmemAcquireCpuVirtAddr(psSD->psUMmemDesc, (void **)
	&psSD->pBaseAddr);
	PVR_LOGG_IF_ERROR(eError, "DevmemAcquireCpuVirtAddr", e4);

	/* Ignore error, not much that can be done */
	(void) DevmemUnmakeLocalImportHandle(hSrvHandle,
	hTLImportHandle);

	/* Return client descriptor handle to caller */
	*phSD = psSD;
	return PVRSRV_OK;

	/* Clean up post buffer setup */
	e4:
	DevmemFree(psSD->psUMmemDesc);
	e3:
	(void) DevmemUnmakeLocalImportHandle(hSrvHandle,
	&hTLImportHandle);
	/* Clean up post stream open */
	e2:
	BridgeTLCloseStream(hSrvHandle, psSD->hServerSD);

	/* Cleanup post allocation of the descriptor object */
	e1:
	OSFreeMem(psSD);

	e0:
	return eError;
	}


	IMG_INTERNAL
	PVRSRV_ERROR TLClientCloseStream(IMG_HANDLE hSrvHandle,
	IMG_HANDLE hSD)
	{
	PVRSRV_ERROR eError = PVRSRV_OK;
	TL_STREAM_DESC* psSD = (TL_STREAM_DESC*) hSD;

	PVR_ASSERT(hSrvHandle);
	PVR_ASSERT(hSD);

	/* Check the caller provided connection is valid */
	if (!psSD->hServerSD)
	{
	PVR_DPF((PVR_DBG_ERROR, "TLClientCloseStream: descriptor already closed/not open"));
	return PVRSRV_ERROR_HANDLE_NOT_FOUND;
	}

	/* Check if acquire is outstanding, perform release if it is, ignore result
	* as there is not much we can do if it is an error other than close */
	if (psSD->uiReadLen != NO_ACQUIRE)
	{
	(void) BridgeTLReleaseData(hSrvHandle, psSD->hServerSD,
	psSD->uiReadOffset, psSD->uiReadLen);
	psSD->uiReadLen = psSD->uiReadOffset = NO_ACQUIRE;
	}

	/* Clean up DevMem resources used for this stream in this client */
	DevmemReleaseCpuVirtAddr(psSD->psUMmemDesc);

	DevmemFree(psSD->psUMmemDesc);

	/* Send close to server to clean up kernel mode resources for this
	* handle and release the memory. */
	eError = BridgeTLCloseStream(hSrvHandle, psSD->hServerSD);
	if (eError != PVRSRV_OK)
	{
	PVR_DPF((PVR_DBG_ERROR, "BridgeTLCloseStream: KM returned %d", eError));
	/* Not much we can do with error, fall through to clean up
	* return eError; */
	}

	OSCachedMemSet(psSD, 0x00, sizeof(TL_STREAM_DESC));
	OSFreeMem (psSD);

	return eError;
	}

	IMG_INTERNAL
	PVRSRV_ERROR TLClientDiscoverStreams(IMG_HANDLE hSrvHandle,
	const IMG_CHAR *pszNamePattern,
	IMG_UINT32 *pui32Streams,
	IMG_UINT32 *pui32NumFound)
	{
	PVR_ASSERT(hSrvHandle);
	PVR_ASSERT(pszNamePattern);
	PVR_ASSERT(pui32NumFound);

	return BridgeTLDiscoverStreams(hSrvHandle,
	pszNamePattern,
	*pui32NumFound,
	pui32Streams,
	pui32NumFound);
	}

	IMG_INTERNAL
	PVRSRV_ERROR TLClientReserveStream(IMG_HANDLE hSrvHandle,
	IMG_HANDLE hSD,
	IMG_UINT8 **ppui8Data,
	IMG_UINT32 ui32Size)
	{
	PVRSRV_ERROR eError;
	TL_STREAM_DESC* psSD = (TL_STREAM_DESC*) hSD;
	IMG_UINT32 ui32BufferOffset, ui32Dummy;

	PVR_ASSERT(hSrvHandle);
	PVR_ASSERT(hSD);
	PVR_ASSERT(ppui8Data);
	PVR_ASSERT(ui32Size);

	eError = BridgeTLReserveStream(hSrvHandle, psSD->hServerSD,
	&ui32BufferOffset, ui32Size, ui32Size,
	&ui32Dummy);
	if (eError != PVRSRV_OK)
	{
	return eError;
	}

	*ppui8Data = psSD->pBaseAddr + ui32BufferOffset;

	return PVRSRV_OK;
	}

	IMG_INTERNAL
	PVRSRV_ERROR TLClientReserveStream2(IMG_HANDLE hSrvHandle,
	IMG_HANDLE hSD,
	IMG_UINT8 **ppui8Data,
	IMG_UINT32 ui32Size,
	IMG_UINT32 ui32SizeMin,
	IMG_UINT32 *pui32Available)
	{
	PVRSRV_ERROR eError;
	TL_STREAM_DESC* psSD = (TL_STREAM_DESC*) hSD;
	IMG_UINT32 ui32BufferOffset;

	PVR_ASSERT(hSrvHandle);
	PVR_ASSERT(hSD);
	PVR_ASSERT(ppui8Data);
	PVR_ASSERT(ui32Size);

	eError = BridgeTLReserveStream(hSrvHandle, psSD->hServerSD,
	&ui32BufferOffset, ui32Size, ui32SizeMin,
	pui32Available);
	if (eError != PVRSRV_OK)
	{
	return eError;
	}

	*ppui8Data = psSD->pBaseAddr + ui32BufferOffset;

	return PVRSRV_OK;
	}

	IMG_INTERNAL
	PVRSRV_ERROR TLClientCommitStream(IMG_HANDLE hSrvHandle,
	IMG_HANDLE hSD,
	IMG_UINT32 ui32Size)
	{
	PVRSRV_ERROR eError;
	TL_STREAM_DESC* psSD = (TL_STREAM_DESC*) hSD;

	PVR_ASSERT(hSrvHandle);
	PVR_ASSERT(hSD);
	PVR_ASSERT(ui32Size);

	eError = BridgeTLCommitStream(hSrvHandle, psSD->hServerSD, ui32Size);
	if (eError != PVRSRV_OK)
	{
	return eError;
	}

	return PVRSRV_OK;
	}

	IMG_INTERNAL
	PVRSRV_ERROR TLClientAcquireData(IMG_HANDLE hSrvHandle,
	IMG_HANDLE hSD,
	IMG_PBYTE* ppPacketBuf,
	IMG_UINT32* pui32BufLen)
	{
	PVRSRV_ERROR eError = PVRSRV_OK;
	TL_STREAM_DESC* psSD = (TL_STREAM_DESC*) hSD;

	PVR_ASSERT(hSrvHandle);
	PVR_ASSERT(hSD);
	PVR_ASSERT(ppPacketBuf);
	PVR_ASSERT(pui32BufLen);

	/* Check Acquire has not been called twice in a row without a release */
	if (psSD->uiReadOffset != NO_ACQUIRE)
	{
	PVR_DPF((PVR_DBG_ERROR, "TLClientAcquireData: acquire already outstanding"));
	return PVRSRV_ERROR_RETRY;
	}

	*pui32BufLen = 0;
	/* Ask the kernel server for the next chunk of data to read */
	eError = BridgeTLAcquireData(hSrvHandle, psSD->hServerSD,
	&psSD->uiReadOffset, &psSD->uiReadLen);
	if (eError != PVRSRV_OK)
	{
	if ((eError != PVRSRV_ERROR_RESOURCE_UNAVAILABLE) &&
	(eError != PVRSRV_ERROR_TIMEOUT))
	{
	PVR_DPF((PVR_DBG_ERROR, "BridgeTLAcquireData: KM returned %d", eError));
	}
	psSD->uiReadOffset = psSD->uiReadLen = NO_ACQUIRE;
	return eError;
	}

	/* Return the data offset and length to the caller if bytes are available
	* to be read. Could be zero for non-blocking mode. */
	if (psSD->uiReadLen)
	{
	*ppPacketBuf = psSD->pBaseAddr + psSD->uiReadOffset;
	*pui32BufLen = psSD->uiReadLen;
	}
	else
	{
	/* On non-blocking, zero length data could be returned from server
	* Which is basically a no-acquire operation */
	*ppPacketBuf = 0;
	*pui32BufLen = 0;
	}

	return eError;
	}


	IMG_INTERNAL
	PVRSRV_ERROR TLClientReleaseData(IMG_HANDLE hSrvHandle,
	IMG_HANDLE hSD)
	{
	PVRSRV_ERROR eError = PVRSRV_OK;
	TL_STREAM_DESC* psSD = (TL_STREAM_DESC*) hSD;

	PVR_ASSERT(hSrvHandle);
	PVR_ASSERT(hSD);

	/* the previous acquire did not return any data, this is a no-operation */
	if (psSD->uiReadLen == 0)
	{
	return PVRSRV_OK;
	}

	/* Check release has not been called twice in a row without an acquire */
	if (psSD->uiReadOffset == NO_ACQUIRE)
	{
	PVR_DPF((PVR_DBG_ERROR, "TLClientReleaseData_: no acquire to release"));
	return PVRSRV_ERROR_RETRY;
	}

	/* Inform the kernel to release the data from the buffer */
	eError = BridgeTLReleaseData(hSrvHandle, psSD->hServerSD,
	psSD->uiReadOffset, psSD->uiReadLen);
	if (eError != PVRSRV_OK)
	{
	PVR_DPF((PVR_DBG_ERROR, "BridgeTLReleaseData: KM returned %d", eError));
	/* Need to continue to keep client data consistent, fall through
	* return eError */
	}

	/* Reset state to indicate no outstanding acquire */
	psSD->uiReadLen = psSD->uiReadOffset = NO_ACQUIRE;

	return eError;
	}

	IMG_INTERNAL
	PVRSRV_ERROR TLClientWriteData(IMG_HANDLE hSrvHandle,
	IMG_HANDLE hSD,
	IMG_UINT32 ui32Size,
	IMG_BYTE *pui8Data)
	{
	PVRSRV_ERROR eError;
	TL_STREAM_DESC* psSD = (TL_STREAM_DESC*) hSD;

	PVR_ASSERT(hSrvHandle);
	PVR_ASSERT(hSD);
	PVR_ASSERT(ui32Size);
	PVR_ASSERT(pui8Data);

	eError = BridgeTLWriteData(hSrvHandle, psSD->hServerSD, ui32Size, pui8Data);
	if (eError != PVRSRV_OK)
	{
	if (eError == PVRSRV_ERROR_STREAM_RESERVE_TOO_BIG)
	{
	static IMG_BOOL bPrinted = IMG_FALSE;

	if (!bPrinted) {
	PVR_DPF((PVR_DBG_ERROR, "Not enough space. Failed to write"
	" data to the stream (%d).", eError));
	bPrinted = IMG_TRUE;
	}
	}
	else
	{
	PVR_DPF((PVR_DBG_ERROR, "TLClientWriteData: KM returned %d",
	eError));
	}
	}

	return eError;
	}

	/******************************************************************************
	End of file (tlclient.c)
	******************************************************************************/