dspbridge/libbridge/DSPProcessor.c - platform/hardware/ti/omap3 - Git at Google

 /*
  * dspbridge/src/api/linux/DSPProcessor.c
  *
  * DSP-BIOS Bridge driver support functions for TI OMAP processors.
  *
  * Copyright (C) 2007 Texas Instruments, Inc.
  *
  * This program is free software; you can redistribute it and/or modify it
  * under the terms of the GNU Lesser General Public License as published
  * by the Free Software Foundation version 2.1 of the License.
  *
  * This program is distributed .as is. WITHOUT ANY WARRANTY of any kind,
  * whether express or implied; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Lesser General Public License for more details.
  */


 /*
  *  ======== DSPProcessor.c ========
  *  Description:
  *      This is the source for the DSP/BIOS Bridge API processor module. The
  *      parameters are validated at the API level, but the bulk of the
  *      work is done at the driver level through the PM PROC module.
  *
  *  Public Functions:
  *      DSPProcessor_Attach
  *      DSPProcessor_Detach
  *      DSPProcessor_EnumNodes
  *      DSPProcessor_FlushMemory
  *      DSPProcessor_GetResourceInfo
  *      DSPProcessor_GetState
  *      DSPProcessor_Map
  *      DSPProcessor_RegisterNotify
  *      DSPProcessor_ReserveMemory
  *      DSPProcessor_UnMap
  *      DSPProcessor_UnReserveMemory
  *      DSPProcessor_InvalidateMemory

  *! Revision History
  *! ================
  *! 04-Apr-2007 sh  Added DSPProcessor_InvalidateMemory
  *! 19-Apr-2004 sb  Aligned DMM definitions with Symbian
  *! 08-Mar-2004 sb  Added the Dynamic Memory Mapping APIs
  *! 27-Jun-2001 rr: DSPProcessor_RegisterNotify allows EventMask =0
  *!                 for De Registration.
  *! 16-Feb-2001 jeh Fixed message in DSPProcessor_Detach.
  *! 12-Dec-2000 rr: DSP_ProcessorEnumNodes returns DSP_ESIZE if
  *!                 uNodeTabSize is zero and valid aNodeTab.
  *! 29-Nov-2000 rr: Incorporated code review changes.
  *! 09-Nov-2000 rr: Code cleaned up. Use of IsValidEvent/Mask Macros.
  *! 28-Sep-2000 rr: Updated to version 0.9.
  *! 07-Sep-2000 jeh Changed type HANDLE in DSPProcessor_RegisterNotify to
  *!                 DSP_HNOTIFICATION.
  *! 07-Aug-2000 rr: Enum fxns do not return ESIZE if the size of the data
  *!                 structure is less than the actual size for backward
  *!                 compatibility.
  *! 04-Aug-2000 rr: DSPProcessor_Attach does not check for pAttrin for NULL.
  *!                 file name changed to DSPProcessor.c
  *! 27-Jul-2000 rr: Updated to 0.8 ver API. GetTrace Implemented.
  *! 10-Jul-2000 rr: Calls into DSP Trap for the bulk of the functionality.
  *! 12-May-2000 gp: Removed PROC_UNKNOWN state.  Mapped to return DSP_EFAIL.
  *!                 Return DSP_EHANDLE in DSPProcessor_Ctrl()/Detach().
  *!                 Return DSP_EWRONGSTATE from DSPProcessor_Start().
  *! 03-May-2000 rr: Uses SERVICES CSL fxns
  *! 19-Apr-2000 ww: Updated based on code review.
  *! 12-Apr-2000 ww: Created based on DirectDSP API specification, Version 0.6.
  *
  */

 /*  ----------------------------------- Host OS */
 #include <host_os.h>

 /*  ----------------------------------- DSP/BIOS Bridge */
 #include <dbdefs.h>
 #include <errbase.h>

 /*  ----------------------------------- Others */
 #include <dsptrap.h>

 #ifdef DEBUG_BRIDGE_PERF
 #include <perfutils.h>
 #endif
 /*  ----------------------------------- This */
 #include "_dbdebug.h"
 #include "_dbpriv.h"
 #include <DSPProcessor.h>

 /*
  *  ======== DSPProcessor_Attach ========
  *  Purpose:
  *      Prepare for communication with a particular DSP processor, and
  *		return a handle to the processor object.
  */
 DBAPI DSPProcessor_Attach(UINT uProcessor,
 		    OPTIONAL CONST struct DSP_PROCESSORATTRIN *pAttrIn,
 		    OUT DSP_HPROCESSOR *phProcessor)
 {
 	DSP_STATUS status = DSP_SOK;
 	Trapped_Args tempStruct;

 	DEBUGMSG(DSPAPI_ZONE_FUNCTION, (TEXT("PROC: DSPProcessor_Attach\r\n")));
 	if (!DSP_ValidWritePtr(phProcessor, sizeof(DSP_HPROCESSOR))) {
 		if (uProcessor <= DSP_MAX_PROCESSOR) {
 			tempStruct.ARGS_PROC_ATTACH.uProcessor = uProcessor;
 			tempStruct.ARGS_PROC_ATTACH.pAttrIn =
 				(struct DSP_PROCESSORATTRIN *)pAttrIn;
 			tempStruct.ARGS_PROC_ATTACH.phProcessor = phProcessor;
 			status = DSPTRAP_Trap(&tempStruct,
 					CMD_PROC_ATTACH_OFFSET);
 		} else {
 			status = DSP_EINVALIDARG;
 			DEBUGMSG(DSPAPI_ZONE_ERROR,
 				(TEXT("PROC: invalid processor number\r\n")));
 		}
 	} else {
 		/* Invalid pointer */
 		status = DSP_EPOINTER;
 		DEBUGMSG(DSPAPI_ZONE_ERROR,
 				(TEXT("PROC: Invalid Pointer \r\n")));
 	}

 	return status;
 }

 /*
  *  ======== DSPProcessor_Detach ========
  *  Purpose:
  *      Close a DSP processor and de-allocate all (GPP) resources.
  */
 DBAPI DSPProcessor_Detach(DSP_HPROCESSOR hProcessor)
 {
 	DSP_STATUS status = DSP_SOK;
 	Trapped_Args tempStruct;

 	DEBUGMSG(DSPAPI_ZONE_FUNCTION, (TEXT("PROC: DSPProcessor_Detach\r\n")));
 	/* Check the handle */
 	if (hProcessor) {
 		tempStruct.ARGS_PROC_DETACH.hProcessor = hProcessor;
 		status = DSPTRAP_Trap(&tempStruct, CMD_PROC_DETACH_OFFSET);
 	} else {
 		/* Invalid handle */
 		status = DSP_EHANDLE;
 		DEBUGMSG(DSPAPI_ZONE_ERROR,
 			(TEXT("PROC: Invalid Handle \r\n")));
 	}

 	return status;
 }

 /*
  *  ======== DSPProcessor_EnumNodes ========
  *  Purpose:
  *      Enumerate and get configuration information about nodes allocated
  *      on a DSP processor.
  */
 DBAPI DSPProcessor_EnumNodes(DSP_HPROCESSOR hProcessor,
 		       IN DSP_HNODE *aNodeTab, IN UINT uNodeTabSize,
 		       OUT UINT *puNumNodes, OUT UINT *puAllocated)
 {
 	DSP_STATUS status = DSP_SOK;
 	Trapped_Args tempStruct;

 	DEBUGMSG(DSPAPI_ZONE_FUNCTION,
 			(TEXT("PROC:DSPProcessor_EnumNodes\r\n")));

 	/* Check the handle */
 	if (hProcessor) {
 		if (!DSP_ValidWritePtr(puNumNodes, sizeof(UINT)) &&
 		    !DSP_ValidWritePtr(puAllocated, sizeof(UINT)) &&
 			(uNodeTabSize && !DSP_ValidWritePtr(aNodeTab,
 					(sizeof(DSP_HNODE)*uNodeTabSize)))) {
 			tempStruct.ARGS_PROC_ENUMNODE_INFO.hProcessor =
 						hProcessor;
 			tempStruct.ARGS_PROC_ENUMNODE_INFO.aNodeTab = aNodeTab;
 			tempStruct.ARGS_PROC_ENUMNODE_INFO.uNodeTabSize =
 						uNodeTabSize;
 			tempStruct.ARGS_PROC_ENUMNODE_INFO.puNumNodes =
 						puNumNodes;
 			tempStruct.ARGS_PROC_ENUMNODE_INFO.puAllocated =
 						puAllocated;
 			status = DSPTRAP_Trap(&tempStruct,
 					CMD_PROC_ENUMNODE_OFFSET);
 		} else {
 			if (uNodeTabSize <= 0 &&
 			    !DSP_ValidWritePtr(puNumNodes, sizeof(UINT)) &&
 			    !DSP_ValidWritePtr(puAllocated, sizeof(UINT)) &&
 			    !DSP_ValidWritePtr(aNodeTab, sizeof(DSP_HNODE)*1)) {
 				status = DSP_ESIZE;
 			} else
 				status = DSP_EPOINTER;

 			DEBUGMSG(DSPAPI_ZONE_ERROR, (TEXT("PROC: "
 					"pNodeInfo is invalid \r\n")));
 		}
 	} else {
 		/* Invalid handle */
 		status = DSP_EHANDLE;
 		DEBUGMSG(DSPAPI_ZONE_ERROR,
 				(TEXT("PROC: Invalid Handle \r\n")));
 	}

 	return status;
 }

 /*
  *  ======== DSPProcessor_FlushMemory ========
  *  Purpose:
  *      Flushes a buffer from the MPU data cache.
  */
 DBAPI DSPProcessor_FlushMemory(DSP_HPROCESSOR hProcessor, PVOID pMpuAddr,
 			 ULONG ulSize, ULONG ulFlags)
 {
 	DSP_STATUS status = DSP_SOK;
 	Trapped_Args tempStruct;
 #ifdef DEBUG_BRIDGE_PERF
 	struct timeval tv_beg;
 	struct timeval tv_end;
 	struct timezone tz;
 	int timeRetVal = 0;

 timeRetVal = getTimeStamp(&tv_beg);

 #endif

 	DEBUGMSG(DSPAPI_ZONE_FUNCTION,
 			(TEXT("PROC: DSPProcessor_FlushMemory\r\n")));

 	/* Check the handle */
 	if (hProcessor) {
 		tempStruct.ARGS_PROC_FLUSHMEMORY.hProcessor = hProcessor;
 		tempStruct.ARGS_PROC_FLUSHMEMORY.pMpuAddr = pMpuAddr;
 		tempStruct.ARGS_PROC_FLUSHMEMORY.ulSize = ulSize;
 		tempStruct.ARGS_PROC_FLUSHMEMORY.ulFlags = ulFlags;
 		status = DSPTRAP_Trap(&tempStruct, CMD_PROC_FLUSHMEMORY_OFFSET);
 	} else {
 		/* Invalid handle */
 		status = DSP_EHANDLE;
 		DEBUGMSG(DSPAPI_ZONE_ERROR, (TEXT("PROC: Invalid Handle\r\n")));
 	}
 #ifdef DEBUG_BRIDGE_PERF
 timeRetVal = getTimeStamp(&tv_end);
 	PrintStatistics(&tv_beg, &tv_end, "DSPProcessor_FlushMemory", ulSize);
 #endif

 	return status;

 }

 /*
  *  ======== DSPProcessor_InvalidateMemory ========
  *  Purpose:
  *      Invalidates a buffer from MPU data cache.
  */
 DBAPI DSPProcessor_InvalidateMemory(DSP_HPROCESSOR hProcessor,
 					PVOID pMpuAddr, ULONG ulSize)
 {
 	DSP_STATUS status = DSP_SOK;
 	Trapped_Args tempStruct;
 #ifdef DEBUG_BRIDGE_PERF
 	struct timeval tv_beg;
 	struct timeval tv_end;
 	struct timezone tz;
 	int timeRetVal = 0;

 	timeRetVal = getTimeStamp(&tv_beg);
 #endif

 	DEBUGMSG(DSPAPI_ZONE_FUNCTION,
 			(TEXT("PROC: DSPProcessor_InvalidateMemory\r\n")));

 	/* Check the handle */
 	if (hProcessor) {
 		tempStruct.ARGS_PROC_INVALIDATEMEMORY.hProcessor = hProcessor;
 		tempStruct.ARGS_PROC_INVALIDATEMEMORY.pMpuAddr = pMpuAddr;
 		tempStruct.ARGS_PROC_INVALIDATEMEMORY.ulSize = ulSize;
 		status = DSPTRAP_Trap(&tempStruct,
 				CMD_PROC_INVALIDATEMEMORY_OFFSET);
 	} else {
 		/* Invalid handle */
 		status = DSP_EHANDLE;
 		DEBUGMSG(DSPAPI_ZONE_ERROR, (TEXT("PROC: Invalid Handle\r\n")));
 	}
 #ifdef DEBUG_BRIDGE_PERF
 	timeRetVal = getTimeStamp(&tv_end);
 	PrintStatistics(&tv_beg, &tv_end,
 			"DSPProcessor_InvalidateMemory", ulSize);
 #endif

 	return status;

 }

 /*
  *  ======== DSPProcessor_GetResourceInfo ========
  *  Purpose:
  *      Enumerate the resources currently available on a processor.
  */
 DBAPI DSPProcessor_GetResourceInfo(DSP_HPROCESSOR hProcessor,
 	     UINT uResourceType, OUT struct DSP_RESOURCEINFO *pResourceInfo,
 	     UINT uResourceInfoSize)
 {
 	DSP_STATUS status = DSP_SOK;
 	Trapped_Args tempStruct;

 	DEBUGMSG(DSPAPI_ZONE_FUNCTION, (TEXT("PROC: DSPProcessor_Ctrl\r\n")));

 	if (hProcessor) {
 		if (!DSP_ValidWritePtr(pResourceInfo,
 				sizeof(struct DSP_RESOURCEINFO))) {
 			if (uResourceInfoSize >=
 					sizeof(struct DSP_RESOURCEINFO)) {
 				tempStruct.ARGS_PROC_ENUMRESOURCES.hProcessor =
 							hProcessor;
 				tempStruct.ARGS_PROC_ENUMRESOURCES\
 					.uResourceType = uResourceType;
 				tempStruct.ARGS_PROC_ENUMRESOURCES\
 					.pResourceInfo = pResourceInfo;
 				tempStruct.ARGS_PROC_ENUMRESOURCES\
 					.uResourceInfoSize = uResourceInfoSize;
 				status = DSPTRAP_Trap(&tempStruct,
 						CMD_PROC_ENUMRESOURCES_OFFSET);
 			} else {
 				status = DSP_ESIZE;
 				DEBUGMSG(DSPAPI_ZONE_ERROR,
 					 (TEXT("PROC: uResourceInfoSize "
 							"is small \r\n")));
 			}
 		} else {
 			/* Invalid pointer */
 			status = DSP_EPOINTER;
 			DEBUGMSG(DSPAPI_ZONE_ERROR,
 				(TEXT("PROC: pResourceInfo is invalid \r\n")));
 		}
 	} else {
 		/* Invalid handle */
 		status = DSP_EHANDLE;
 		DEBUGMSG(DSPAPI_ZONE_ERROR,
 			 (TEXT("PROC: Invalid Handle \r\n")));
 	}

 	return status;
 }

 /*
  *  ======== DSPProcessor_GetState ========
  *  Purpose:
  *      Report the state of the specified DSP processor.
  */
 DBAPI DSPProcessor_GetState(DSP_HPROCESSOR hProcessor,
 	      OUT struct DSP_PROCESSORSTATE *pProcStatus, UINT uStateInfoSize)
 {
 	DSP_STATUS status = DSP_SOK;
 	Trapped_Args tempStruct;

 	DEBUGMSG(DSPAPI_ZONE_FUNCTION, (TEXT("PROC: DSPProcessor_Ctrl\r\n")));

 	/* Check the handle */
 	if (hProcessor) {
 		if (!DSP_ValidWritePtr(pProcStatus,
 			sizeof(struct DSP_PROCESSORSTATE))) {
 			if (uStateInfoSize >=
 				sizeof(struct DSP_PROCESSORSTATE)) {
 				tempStruct.ARGS_PROC_GETSTATE.hProcessor =
 							hProcessor;
 				tempStruct.ARGS_PROC_GETSTATE.pProcStatus =
 							pProcStatus;
 				tempStruct.ARGS_PROC_GETSTATE.uStateInfoSize =
 							uStateInfoSize;
 				status = DSPTRAP_Trap(&tempStruct,
 						CMD_PROC_GETSTATE_OFFSET);
 			} else {
 				status = DSP_ESIZE;
 				DEBUGMSG(DSPAPI_ZONE_ERROR,
 				(TEXT("PROC: uStateInfoSize is small \r\n")));
 			}
 		} else {
 			status = DSP_EPOINTER;
 			DEBUGMSG(DSPAPI_ZONE_ERROR,
 				(TEXT("PROC: pProcStatus is invalid \r\n")));
 		}
 	} else {
 		/* Invalid handle */
 		status = DSP_EHANDLE;
 		DEBUGMSG(DSPAPI_ZONE_ERROR,
 			(TEXT("PROC: Invalid Handle \r\n")));
 	}

 	return status;
 }

 /*
  *  ======== DSPProcessor_Map ========
  *  Purpose:
  *      Map an MPU buffer to a reserved virtual address
  */
 DBAPI DSPProcessor_Map(DSP_HPROCESSOR hProcessor, PVOID pMpuAddr,
 		ULONG ulSize, PVOID pReqAddr, PVOID *ppMapAddr, ULONG ulMapAttr)
 {
 	DSP_STATUS status = DSP_SOK;
 	Trapped_Args tempStruct;
 #ifdef DEBUG_BRIDGE_PERF
 	struct timeval tv_beg;
 	struct timeval tv_end;
 	struct timezone tz;
 	int timeRetVal = 0;

 	timeRetVal = getTimeStamp(&tv_beg);
 #endif

 	DEBUGMSG(DSPAPI_ZONE_FUNCTION, (TEXT("PROC: DSPProcessor_Map\r\n")));

 	/* Check the handle */
 	if (hProcessor) {
 		if (!DSP_ValidWritePtr(ppMapAddr, sizeof(PVOID *))
 			&& !DSP_ValidReadPtr(pMpuAddr, sizeof(PVOID))
 			&& (pReqAddr != NULL)) {
 			if (ulSize > 0) {
 #if 0
 				INT i;
 				ULONG ulLastByte;
 				/* Physical memory pages are reserved by the
 				 * driver (get_user_pages), so no need to
 				 * reserve here. Ensure that physical memory
 				 * pages are reserved */
 				size_t page_size = getpagesize();
 				for (i = 0; i < (INT)ulSize; i += page_size) {
 					*(volatile BYTE *)(pMpuAddr + i) =
 						*(BYTE *)(pMpuAddr + i);
 				}
 				/* Non page-aligned size: Write final byte */
 				ulLastByte = pMpuAddr + ulSize - 1;
 				*(volatile BYTE *)(ulLastByte) =
 				    *(BYTE *)(ulLastByte);
 #endif
 				tempStruct.ARGS_PROC_MAPMEM.hProcessor =
 						hProcessor;
 				tempStruct.ARGS_PROC_MAPMEM.pMpuAddr = pMpuAddr;
 				tempStruct.ARGS_PROC_MAPMEM.ulSize = ulSize;
 				tempStruct.ARGS_PROC_MAPMEM.pReqAddr = pReqAddr;
 				tempStruct.ARGS_PROC_MAPMEM.ppMapAddr =
 						ppMapAddr;
 				tempStruct.ARGS_PROC_MAPMEM.ulMapAttr =
 						ulMapAttr;
 				status = DSPTRAP_Trap(&tempStruct,
 						CMD_PROC_MAPMEM_OFFSET);
 			} else {
 				status = DSP_ESIZE;
 				DEBUGMSG(DSPAPI_ZONE_ERROR,
 					(TEXT("PROC:size is zero\r\n")));
 			}
 		} else {
 			status = DSP_EPOINTER;
 			DEBUGMSG(DSPAPI_ZONE_ERROR, (TEXT
 				  ("PROC: Atleast one pointer argument "
 					"is invalid\r\n")));
 		}
 	} else {
 		/* Invalid handle */
 		status = DSP_EHANDLE;
 		DEBUGMSG(DSPAPI_ZONE_ERROR, (TEXT("PROC: Invalid Handle\r\n")));
 	}

 #ifdef DEBUG_BRIDGE_PERF
 	timeRetVal = getTimeStamp(&tv_end);
 	PrintStatistics(&tv_beg, &tv_end, "DSPProcessor_Map", ulSize);
 #endif


 	return status;
 }

 /*
  *  ======== DSPProcessor_RegisterNotify ========
  *  Purpose:
  *      Register to be notified of specific processor events
  */
 DBAPI DSPProcessor_RegisterNotify(DSP_HPROCESSOR hProcessor, UINT uEventMask,
 		    UINT uNotifyType, struct DSP_NOTIFICATION *hNotification)
 {
 	DSP_STATUS status = DSP_SOK;
 	Trapped_Args tempStruct;

 	DEBUGMSG(DSPAPI_ZONE_FUNCTION,
 			(TEXT("PROC: DSPProcessor_RegisterNotify\r\n")));

 	/* Check the handle */
 	if ((hProcessor) && (hNotification)) {
 		if (IsValidProcEvent(uEventMask)) {
 			if (IsValidNotifyMask(uNotifyType)) {
 				tempStruct.ARGS_PROC_REGISTER_NOTIFY\
 						.hProcessor = hProcessor;
 				tempStruct.ARGS_PROC_REGISTER_NOTIFY\
 						.uEventMask = uEventMask;
 				tempStruct.ARGS_PROC_REGISTER_NOTIFY\
 						.uNotifyType = uNotifyType;
 				tempStruct.ARGS_PROC_REGISTER_NOTIFY\
 						.hNotification = hNotification;

 				status = DSPTRAP_Trap(&tempStruct,
 						CMD_PROC_REGISTERNOTIFY_OFFSET);
 			} else {
 				status = DSP_ENOTIMPL;
 				DEBUGMSG(DSPAPI_ZONE_ERROR,
 				(TEXT("PROC: Invalid Notify Mask \r\n")));
 			}
 		} else {
 			status = DSP_EVALUE;
 			DEBUGMSG(DSPAPI_ZONE_ERROR,
 				(TEXT("PROC: Invalid Evnet Mask \r\n")));
 		}
 	} else {
 		/* Invalid handle */
 		status = DSP_EHANDLE;
 		DEBUGMSG(DSPAPI_ZONE_ERROR,
 			(TEXT("PROC: Invalid Handle \r\n")));
 	}

 	return status;
 }

 /*
  *  ======== DSPProcessor_ReserveMemory ========
  *  Purpose:
  *      Reserve a chunk of memory from the DMM
  */
 DBAPI DSPProcessor_ReserveMemory(DSP_HPROCESSOR hProcessor, ULONG ulSize,
 		PVOID *ppRsvAddr)
 {
 	DSP_STATUS status = DSP_SOK;
 	Trapped_Args tempStruct;
 #ifdef DEBUG_BRIDGE_PERF
 	struct timeval tv_beg;
 	struct timeval tv_end;
 	struct timezone tz;
 	int timeRetVal = 0;

 	timeRetVal = getTimeStamp(&tv_beg);
 #endif


 	DEBUGMSG(DSPAPI_ZONE_FUNCTION,
 			(TEXT("PROC: DSPProcessor_ReserveMemory\r\n")));

 	/* Check the handle */
 	if (hProcessor) {
 		if (!DSP_ValidWritePtr(ppRsvAddr, sizeof(PVOID *))) {
 			if (ulSize > 0) {
 				if ((ulSize & (PG_SIZE_4K - 1)) == 0) {
 					tempStruct.ARGS_PROC_RSVMEM.hProcessor =
 							hProcessor;
 					tempStruct.ARGS_PROC_RSVMEM.ulSize =
 							ulSize;
 					tempStruct.ARGS_PROC_RSVMEM.ppRsvAddr =
 							ppRsvAddr;
 					status = DSPTRAP_Trap(&tempStruct,
 							CMD_PROC_RSVMEM_OFFSET);
 				} else {
 					status = DSP_EINVALIDARG;
 					DEBUGMSG(DSPAPI_ZONE_ERROR, (TEXT
 						("PROC: size is not 4KB "
 							"page-aligned\r\n")));
 				}
 			} else {
 				status = DSP_ESIZE;
 				DEBUGMSG(DSPAPI_ZONE_ERROR,
 					(TEXT("PROC:size is zero\r\n")));
 			}
 		} else {
 			status = DSP_EPOINTER;
 			DEBUGMSG(DSPAPI_ZONE_ERROR,
 				(TEXT("PROC:ppRsvAddr is invalid\r\n")));
 		}
 	} else {
 		/* Invalid handle */
 		status = DSP_EHANDLE;
 		DEBUGMSG(DSPAPI_ZONE_ERROR, (TEXT("PROC: Invalid Handle\r\n")));
 	}

 #ifdef DEBUG_BRIDGE_PERF
 	timeRetVal = getTimeStamp(&tv_end);
 	PrintStatistics(&tv_beg, &tv_end, "DSPProcessor_ReserveMemory", ulSize);
 #endif

 	return status;
 }

 /*  ======== DSPProcessor_UnMap ========
  *  Purpose:
  *      UnMap an MPU buffer from a reserved virtual address
  */
 DBAPI DSPProcessor_UnMap(DSP_HPROCESSOR hProcessor, PVOID pMapAddr)
 {
 	DSP_STATUS status = DSP_SOK;
 	Trapped_Args tempStruct;
 #ifdef DEBUG_BRIDGE_PERF
 	struct timeval tv_beg;
 	struct timeval tv_end;
 	struct timezone tz;
 	int timeRetVal = 0;

 	timeRetVal = getTimeStamp(&tv_beg);
 #endif

 	DEBUGMSG(DSPAPI_ZONE_FUNCTION, (TEXT("PROC: DSPProcessor_UnMap\r\n")));

 	/* Check the handle */
 	if (hProcessor) {
 		if ((pMapAddr != NULL)) {
 			tempStruct.ARGS_PROC_UNMAPMEM.hProcessor = hProcessor;
 			tempStruct.ARGS_PROC_UNMAPMEM.pMapAddr = pMapAddr;
 			status = DSPTRAP_Trap(&tempStruct,
 				CMD_PROC_UNMAPMEM_OFFSET);
 		} else {
 			status = DSP_EPOINTER;
 			DEBUGMSG(DSPAPI_ZONE_ERROR,
 				(TEXT("PROC: pMapAddr is invalid\r\n")));
 		}
 	} else {
 		/* Invalid handle */
 		status = DSP_EHANDLE;
 		DEBUGMSG(DSPAPI_ZONE_ERROR, (TEXT("PROC: Invalid Handle\r\n")));
 	}

 #ifdef DEBUG_BRIDGE_PERF
 	timeRetVal = getTimeStamp(&tv_end);
 	PrintStatistics(&tv_beg, &tv_end, "DSPProcessor_UnMap", 0);
 #endif

 	return status;
 }

 /*
  *  ======== DSPProcessor_UnReserveMemory ========
  *  Purpose:
  *      Free a chunk of memory from the DMM
  */
 DBAPI DSPProcessor_UnReserveMemory(DSP_HPROCESSOR hProcessor, PVOID pRsvAddr)
 {
 	DSP_STATUS status = DSP_SOK;
 	Trapped_Args tempStruct;
 #ifdef DEBUG_BRIDGE_PERF
 	struct timeval tv_beg;
 	struct timeval tv_end;
 	struct timezone tz;
 	int timeRetVal = 0;

 	timeRetVal = getTimeStamp(&tv_beg);
 #endif

 	DEBUGMSG(DSPAPI_ZONE_FUNCTION,
 			(TEXT("PROC: DSPProcessor_UnReserveMemory\r\n")));

 	/* Check the handle */
 	if (hProcessor) {
 		if (pRsvAddr != NULL) {
 			tempStruct.ARGS_PROC_UNRSVMEM.hProcessor = hProcessor;
 			tempStruct.ARGS_PROC_UNRSVMEM.pRsvAddr = pRsvAddr;
 			status = DSPTRAP_Trap(&tempStruct,
 					CMD_PROC_UNRSVMEM_OFFSET);
 		} else {
 			status = DSP_EPOINTER;
 			DEBUGMSG(DSPAPI_ZONE_ERROR, (TEXT(
 					"PROC: pRsvAddr is invalid\r\n")));
 		}
 	} else {
 		/* Invalid handle */
 		status = DSP_EHANDLE;
 		DEBUGMSG(DSPAPI_ZONE_ERROR, (TEXT("PROC: Invalid Handle\r\n")));
 	}
 #ifdef DEBUG_BRIDGE_PERF
 	timeRetVal = getTimeStamp(&tv_end);
 	PrintStatistics(&tv_beg, &tv_end, "DSPProcessor_UnReserveMemory", 0);
 #endif

 	return status;
 }
	/*
	* dspbridge/src/api/linux/DSPProcessor.c
	*
	* DSP-BIOS Bridge driver support functions for TI OMAP processors.
	*
	* Copyright (C) 2007 Texas Instruments, Inc.
	*
	* This program is free software; you can redistribute it and/or modify it
	* under the terms of the GNU Lesser General Public License as published
	* by the Free Software Foundation version 2.1 of the License.
	*
	* This program is distributed .as is. WITHOUT ANY WARRANTY of any kind,
	* whether express or implied; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	* Lesser General Public License for more details.
	*/


	/*
	* ======== DSPProcessor.c ========
	* Description:
	* This is the source for the DSP/BIOS Bridge API processor module. The
	* parameters are validated at the API level, but the bulk of the
	* work is done at the driver level through the PM PROC module.
	*
	* Public Functions:
	* DSPProcessor_Attach
	* DSPProcessor_Detach
	* DSPProcessor_EnumNodes
	* DSPProcessor_FlushMemory
	* DSPProcessor_GetResourceInfo
	* DSPProcessor_GetState
	* DSPProcessor_Map
	* DSPProcessor_RegisterNotify
	* DSPProcessor_ReserveMemory
	* DSPProcessor_UnMap
	* DSPProcessor_UnReserveMemory
	* DSPProcessor_InvalidateMemory

	*! Revision History
	*! ================
	*! 04-Apr-2007 sh Added DSPProcessor_InvalidateMemory
	*! 19-Apr-2004 sb Aligned DMM definitions with Symbian
	*! 08-Mar-2004 sb Added the Dynamic Memory Mapping APIs
	*! 27-Jun-2001 rr: DSPProcessor_RegisterNotify allows EventMask =0
	*! for De Registration.
	*! 16-Feb-2001 jeh Fixed message in DSPProcessor_Detach.
	*! 12-Dec-2000 rr: DSP_ProcessorEnumNodes returns DSP_ESIZE if
	*! uNodeTabSize is zero and valid aNodeTab.
	*! 29-Nov-2000 rr: Incorporated code review changes.
	*! 09-Nov-2000 rr: Code cleaned up. Use of IsValidEvent/Mask Macros.
	*! 28-Sep-2000 rr: Updated to version 0.9.
	*! 07-Sep-2000 jeh Changed type HANDLE in DSPProcessor_RegisterNotify to
	*! DSP_HNOTIFICATION.
	*! 07-Aug-2000 rr: Enum fxns do not return ESIZE if the size of the data
	*! structure is less than the actual size for backward
	*! compatibility.
	*! 04-Aug-2000 rr: DSPProcessor_Attach does not check for pAttrin for NULL.
	*! file name changed to DSPProcessor.c
	*! 27-Jul-2000 rr: Updated to 0.8 ver API. GetTrace Implemented.
	*! 10-Jul-2000 rr: Calls into DSP Trap for the bulk of the functionality.
	*! 12-May-2000 gp: Removed PROC_UNKNOWN state. Mapped to return DSP_EFAIL.
	*! Return DSP_EHANDLE in DSPProcessor_Ctrl()/Detach().
	*! Return DSP_EWRONGSTATE from DSPProcessor_Start().
	*! 03-May-2000 rr: Uses SERVICES CSL fxns
	*! 19-Apr-2000 ww: Updated based on code review.
	*! 12-Apr-2000 ww: Created based on DirectDSP API specification, Version 0.6.
	*
	*/

	/* ----------------------------------- Host OS */
	#include <host_os.h>

	/* ----------------------------------- DSP/BIOS Bridge */
	#include <dbdefs.h>
	#include <errbase.h>

	/* ----------------------------------- Others */
	#include <dsptrap.h>

	#ifdef DEBUG_BRIDGE_PERF
	#include <perfutils.h>
	#endif
	/* ----------------------------------- This */
	#include "_dbdebug.h"
	#include "_dbpriv.h"
	#include <DSPProcessor.h>

	/*
	* ======== DSPProcessor_Attach ========
	* Purpose:
	* Prepare for communication with a particular DSP processor, and
	* return a handle to the processor object.
	*/
	DBAPI DSPProcessor_Attach(UINT uProcessor,
	OPTIONAL CONST struct DSP_PROCESSORATTRIN *pAttrIn,
	OUT DSP_HPROCESSOR *phProcessor)
	{
	DSP_STATUS status = DSP_SOK;
	Trapped_Args tempStruct;

	DEBUGMSG(DSPAPI_ZONE_FUNCTION, (TEXT("PROC: DSPProcessor_Attach\r\n")));
	if (!DSP_ValidWritePtr(phProcessor, sizeof(DSP_HPROCESSOR))) {
	if (uProcessor <= DSP_MAX_PROCESSOR) {
	tempStruct.ARGS_PROC_ATTACH.uProcessor = uProcessor;
	tempStruct.ARGS_PROC_ATTACH.pAttrIn =
	(struct DSP_PROCESSORATTRIN *)pAttrIn;
	tempStruct.ARGS_PROC_ATTACH.phProcessor = phProcessor;
	status = DSPTRAP_Trap(&tempStruct,
	CMD_PROC_ATTACH_OFFSET);
	} else {
	status = DSP_EINVALIDARG;
	DEBUGMSG(DSPAPI_ZONE_ERROR,
	(TEXT("PROC: invalid processor number\r\n")));
	}
	} else {
	/* Invalid pointer */
	status = DSP_EPOINTER;
	DEBUGMSG(DSPAPI_ZONE_ERROR,
	(TEXT("PROC: Invalid Pointer \r\n")));
	}

	return status;
	}

	/*
	* ======== DSPProcessor_Detach ========
	* Purpose:
	* Close a DSP processor and de-allocate all (GPP) resources.
	*/
	DBAPI DSPProcessor_Detach(DSP_HPROCESSOR hProcessor)
	{
	DSP_STATUS status = DSP_SOK;
	Trapped_Args tempStruct;

	DEBUGMSG(DSPAPI_ZONE_FUNCTION, (TEXT("PROC: DSPProcessor_Detach\r\n")));
	/* Check the handle */
	if (hProcessor) {
	tempStruct.ARGS_PROC_DETACH.hProcessor = hProcessor;
	status = DSPTRAP_Trap(&tempStruct, CMD_PROC_DETACH_OFFSET);
	} else {
	/* Invalid handle */
	status = DSP_EHANDLE;
	DEBUGMSG(DSPAPI_ZONE_ERROR,
	(TEXT("PROC: Invalid Handle \r\n")));
	}

	return status;
	}

	/*
	* ======== DSPProcessor_EnumNodes ========
	* Purpose:
	* Enumerate and get configuration information about nodes allocated
	* on a DSP processor.
	*/
	DBAPI DSPProcessor_EnumNodes(DSP_HPROCESSOR hProcessor,
	IN DSP_HNODE *aNodeTab, IN UINT uNodeTabSize,
	OUT UINT puNumNodes, OUT UINT puAllocated)
	{
	DSP_STATUS status = DSP_SOK;
	Trapped_Args tempStruct;

	DEBUGMSG(DSPAPI_ZONE_FUNCTION,
	(TEXT("PROC:DSPProcessor_EnumNodes\r\n")));

	/* Check the handle */
	if (hProcessor) {
	if (!DSP_ValidWritePtr(puNumNodes, sizeof(UINT)) &&
	!DSP_ValidWritePtr(puAllocated, sizeof(UINT)) &&
	(uNodeTabSize && !DSP_ValidWritePtr(aNodeTab,
	(sizeof(DSP_HNODE)*uNodeTabSize)))) {
	tempStruct.ARGS_PROC_ENUMNODE_INFO.hProcessor =
	hProcessor;
	tempStruct.ARGS_PROC_ENUMNODE_INFO.aNodeTab = aNodeTab;
	tempStruct.ARGS_PROC_ENUMNODE_INFO.uNodeTabSize =
	uNodeTabSize;
	tempStruct.ARGS_PROC_ENUMNODE_INFO.puNumNodes =
	puNumNodes;
	tempStruct.ARGS_PROC_ENUMNODE_INFO.puAllocated =
	puAllocated;
	status = DSPTRAP_Trap(&tempStruct,
	CMD_PROC_ENUMNODE_OFFSET);
	} else {
	if (uNodeTabSize <= 0 &&
	!DSP_ValidWritePtr(puNumNodes, sizeof(UINT)) &&
	!DSP_ValidWritePtr(puAllocated, sizeof(UINT)) &&
	!DSP_ValidWritePtr(aNodeTab, sizeof(DSP_HNODE)*1)) {
	status = DSP_ESIZE;
	} else
	status = DSP_EPOINTER;

	DEBUGMSG(DSPAPI_ZONE_ERROR, (TEXT("PROC: "
	"pNodeInfo is invalid \r\n")));
	}
	} else {
	/* Invalid handle */
	status = DSP_EHANDLE;
	DEBUGMSG(DSPAPI_ZONE_ERROR,
	(TEXT("PROC: Invalid Handle \r\n")));
	}

	return status;
	}

	/*
	* ======== DSPProcessor_FlushMemory ========
	* Purpose:
	* Flushes a buffer from the MPU data cache.
	*/
	DBAPI DSPProcessor_FlushMemory(DSP_HPROCESSOR hProcessor, PVOID pMpuAddr,
	ULONG ulSize, ULONG ulFlags)
	{
	DSP_STATUS status = DSP_SOK;
	Trapped_Args tempStruct;
	#ifdef DEBUG_BRIDGE_PERF
	struct timeval tv_beg;
	struct timeval tv_end;
	struct timezone tz;
	int timeRetVal = 0;

	timeRetVal = getTimeStamp(&tv_beg);

	#endif

	DEBUGMSG(DSPAPI_ZONE_FUNCTION,
	(TEXT("PROC: DSPProcessor_FlushMemory\r\n")));

	/* Check the handle */
	if (hProcessor) {
	tempStruct.ARGS_PROC_FLUSHMEMORY.hProcessor = hProcessor;
	tempStruct.ARGS_PROC_FLUSHMEMORY.pMpuAddr = pMpuAddr;
	tempStruct.ARGS_PROC_FLUSHMEMORY.ulSize = ulSize;
	tempStruct.ARGS_PROC_FLUSHMEMORY.ulFlags = ulFlags;
	status = DSPTRAP_Trap(&tempStruct, CMD_PROC_FLUSHMEMORY_OFFSET);
	} else {
	/* Invalid handle */
	status = DSP_EHANDLE;
	DEBUGMSG(DSPAPI_ZONE_ERROR, (TEXT("PROC: Invalid Handle\r\n")));
	}
	#ifdef DEBUG_BRIDGE_PERF
	timeRetVal = getTimeStamp(&tv_end);
	PrintStatistics(&tv_beg, &tv_end, "DSPProcessor_FlushMemory", ulSize);
	#endif

	return status;

	}

	/*
	* ======== DSPProcessor_InvalidateMemory ========
	* Purpose:
	* Invalidates a buffer from MPU data cache.
	*/
	DBAPI DSPProcessor_InvalidateMemory(DSP_HPROCESSOR hProcessor,
	PVOID pMpuAddr, ULONG ulSize)
	{
	DSP_STATUS status = DSP_SOK;
	Trapped_Args tempStruct;
	#ifdef DEBUG_BRIDGE_PERF
	struct timeval tv_beg;
	struct timeval tv_end;
	struct timezone tz;
	int timeRetVal = 0;

	timeRetVal = getTimeStamp(&tv_beg);
	#endif

	DEBUGMSG(DSPAPI_ZONE_FUNCTION,
	(TEXT("PROC: DSPProcessor_InvalidateMemory\r\n")));

	/* Check the handle */
	if (hProcessor) {
	tempStruct.ARGS_PROC_INVALIDATEMEMORY.hProcessor = hProcessor;
	tempStruct.ARGS_PROC_INVALIDATEMEMORY.pMpuAddr = pMpuAddr;
	tempStruct.ARGS_PROC_INVALIDATEMEMORY.ulSize = ulSize;
	status = DSPTRAP_Trap(&tempStruct,
	CMD_PROC_INVALIDATEMEMORY_OFFSET);
	} else {
	/* Invalid handle */
	status = DSP_EHANDLE;
	DEBUGMSG(DSPAPI_ZONE_ERROR, (TEXT("PROC: Invalid Handle\r\n")));
	}
	#ifdef DEBUG_BRIDGE_PERF
	timeRetVal = getTimeStamp(&tv_end);
	PrintStatistics(&tv_beg, &tv_end,
	"DSPProcessor_InvalidateMemory", ulSize);
	#endif

	return status;

	}

	/*
	* ======== DSPProcessor_GetResourceInfo ========
	* Purpose:
	* Enumerate the resources currently available on a processor.
	*/
	DBAPI DSPProcessor_GetResourceInfo(DSP_HPROCESSOR hProcessor,
	UINT uResourceType, OUT struct DSP_RESOURCEINFO *pResourceInfo,
	UINT uResourceInfoSize)
	{
	DSP_STATUS status = DSP_SOK;
	Trapped_Args tempStruct;

	DEBUGMSG(DSPAPI_ZONE_FUNCTION, (TEXT("PROC: DSPProcessor_Ctrl\r\n")));

	if (hProcessor) {
	if (!DSP_ValidWritePtr(pResourceInfo,
	sizeof(struct DSP_RESOURCEINFO))) {
	if (uResourceInfoSize >=
	sizeof(struct DSP_RESOURCEINFO)) {
	tempStruct.ARGS_PROC_ENUMRESOURCES.hProcessor =
	hProcessor;
	tempStruct.ARGS_PROC_ENUMRESOURCES\
	.uResourceType = uResourceType;
	tempStruct.ARGS_PROC_ENUMRESOURCES\
	.pResourceInfo = pResourceInfo;
	tempStruct.ARGS_PROC_ENUMRESOURCES\
	.uResourceInfoSize = uResourceInfoSize;
	status = DSPTRAP_Trap(&tempStruct,
	CMD_PROC_ENUMRESOURCES_OFFSET);
	} else {
	status = DSP_ESIZE;
	DEBUGMSG(DSPAPI_ZONE_ERROR,
	(TEXT("PROC: uResourceInfoSize "
	"is small \r\n")));
	}
	} else {
	/* Invalid pointer */
	status = DSP_EPOINTER;
	DEBUGMSG(DSPAPI_ZONE_ERROR,
	(TEXT("PROC: pResourceInfo is invalid \r\n")));
	}
	} else {
	/* Invalid handle */
	status = DSP_EHANDLE;
	DEBUGMSG(DSPAPI_ZONE_ERROR,
	(TEXT("PROC: Invalid Handle \r\n")));
	}

	return status;
	}

	/*
	* ======== DSPProcessor_GetState ========
	* Purpose:
	* Report the state of the specified DSP processor.
	*/
	DBAPI DSPProcessor_GetState(DSP_HPROCESSOR hProcessor,
	OUT struct DSP_PROCESSORSTATE *pProcStatus, UINT uStateInfoSize)
	{
	DSP_STATUS status = DSP_SOK;
	Trapped_Args tempStruct;

	DEBUGMSG(DSPAPI_ZONE_FUNCTION, (TEXT("PROC: DSPProcessor_Ctrl\r\n")));

	/* Check the handle */
	if (hProcessor) {
	if (!DSP_ValidWritePtr(pProcStatus,
	sizeof(struct DSP_PROCESSORSTATE))) {
	if (uStateInfoSize >=
	sizeof(struct DSP_PROCESSORSTATE)) {
	tempStruct.ARGS_PROC_GETSTATE.hProcessor =
	hProcessor;
	tempStruct.ARGS_PROC_GETSTATE.pProcStatus =
	pProcStatus;
	tempStruct.ARGS_PROC_GETSTATE.uStateInfoSize =
	uStateInfoSize;
	status = DSPTRAP_Trap(&tempStruct,
	CMD_PROC_GETSTATE_OFFSET);
	} else {
	status = DSP_ESIZE;
	DEBUGMSG(DSPAPI_ZONE_ERROR,
	(TEXT("PROC: uStateInfoSize is small \r\n")));
	}
	} else {
	status = DSP_EPOINTER;
	DEBUGMSG(DSPAPI_ZONE_ERROR,
	(TEXT("PROC: pProcStatus is invalid \r\n")));
	}
	} else {
	/* Invalid handle */
	status = DSP_EHANDLE;
	DEBUGMSG(DSPAPI_ZONE_ERROR,
	(TEXT("PROC: Invalid Handle \r\n")));
	}

	return status;
	}

	/*
	* ======== DSPProcessor_Map ========
	* Purpose:
	* Map an MPU buffer to a reserved virtual address
	*/
	DBAPI DSPProcessor_Map(DSP_HPROCESSOR hProcessor, PVOID pMpuAddr,
	ULONG ulSize, PVOID pReqAddr, PVOID *ppMapAddr, ULONG ulMapAttr)
	{
	DSP_STATUS status = DSP_SOK;
	Trapped_Args tempStruct;
	#ifdef DEBUG_BRIDGE_PERF
	struct timeval tv_beg;
	struct timeval tv_end;
	struct timezone tz;
	int timeRetVal = 0;

	timeRetVal = getTimeStamp(&tv_beg);
	#endif

	DEBUGMSG(DSPAPI_ZONE_FUNCTION, (TEXT("PROC: DSPProcessor_Map\r\n")));

	/* Check the handle */
	if (hProcessor) {
	if (!DSP_ValidWritePtr(ppMapAddr, sizeof(PVOID *))
	&& !DSP_ValidReadPtr(pMpuAddr, sizeof(PVOID))
	&& (pReqAddr != NULL)) {
	if (ulSize > 0) {
	#if 0
	INT i;
	ULONG ulLastByte;
	/* Physical memory pages are reserved by the
	* driver (get_user_pages), so no need to
	* reserve here. Ensure that physical memory
	* pages are reserved */
	size_t page_size = getpagesize();
	for (i = 0; i < (INT)ulSize; i += page_size) {
	(volatile BYTE )(pMpuAddr + i) =
	(BYTE )(pMpuAddr + i);
	}
	/* Non page-aligned size: Write final byte */
	ulLastByte = pMpuAddr + ulSize - 1;
	(volatile BYTE )(ulLastByte) =
	(BYTE )(ulLastByte);
	#endif
	tempStruct.ARGS_PROC_MAPMEM.hProcessor =
	hProcessor;
	tempStruct.ARGS_PROC_MAPMEM.pMpuAddr = pMpuAddr;
	tempStruct.ARGS_PROC_MAPMEM.ulSize = ulSize;
	tempStruct.ARGS_PROC_MAPMEM.pReqAddr = pReqAddr;
	tempStruct.ARGS_PROC_MAPMEM.ppMapAddr =
	ppMapAddr;
	tempStruct.ARGS_PROC_MAPMEM.ulMapAttr =
	ulMapAttr;
	status = DSPTRAP_Trap(&tempStruct,
	CMD_PROC_MAPMEM_OFFSET);
	} else {
	status = DSP_ESIZE;
	DEBUGMSG(DSPAPI_ZONE_ERROR,
	(TEXT("PROC:size is zero\r\n")));
	}
	} else {
	status = DSP_EPOINTER;
	DEBUGMSG(DSPAPI_ZONE_ERROR, (TEXT
	("PROC: Atleast one pointer argument "
	"is invalid\r\n")));
	}
	} else {
	/* Invalid handle */
	status = DSP_EHANDLE;
	DEBUGMSG(DSPAPI_ZONE_ERROR, (TEXT("PROC: Invalid Handle\r\n")));
	}

	#ifdef DEBUG_BRIDGE_PERF
	timeRetVal = getTimeStamp(&tv_end);
	PrintStatistics(&tv_beg, &tv_end, "DSPProcessor_Map", ulSize);
	#endif


	return status;
	}

	/*
	* ======== DSPProcessor_RegisterNotify ========
	* Purpose:
	* Register to be notified of specific processor events
	*/
	DBAPI DSPProcessor_RegisterNotify(DSP_HPROCESSOR hProcessor, UINT uEventMask,
	UINT uNotifyType, struct DSP_NOTIFICATION *hNotification)
	{
	DSP_STATUS status = DSP_SOK;
	Trapped_Args tempStruct;

	DEBUGMSG(DSPAPI_ZONE_FUNCTION,
	(TEXT("PROC: DSPProcessor_RegisterNotify\r\n")));

	/* Check the handle */
	if ((hProcessor) && (hNotification)) {
	if (IsValidProcEvent(uEventMask)) {
	if (IsValidNotifyMask(uNotifyType)) {
	tempStruct.ARGS_PROC_REGISTER_NOTIFY\
	.hProcessor = hProcessor;
	tempStruct.ARGS_PROC_REGISTER_NOTIFY\
	.uEventMask = uEventMask;
	tempStruct.ARGS_PROC_REGISTER_NOTIFY\
	.uNotifyType = uNotifyType;
	tempStruct.ARGS_PROC_REGISTER_NOTIFY\
	.hNotification = hNotification;

	status = DSPTRAP_Trap(&tempStruct,
	CMD_PROC_REGISTERNOTIFY_OFFSET);
	} else {
	status = DSP_ENOTIMPL;
	DEBUGMSG(DSPAPI_ZONE_ERROR,
	(TEXT("PROC: Invalid Notify Mask \r\n")));
	}
	} else {
	status = DSP_EVALUE;
	DEBUGMSG(DSPAPI_ZONE_ERROR,
	(TEXT("PROC: Invalid Evnet Mask \r\n")));
	}
	} else {
	/* Invalid handle */
	status = DSP_EHANDLE;
	DEBUGMSG(DSPAPI_ZONE_ERROR,
	(TEXT("PROC: Invalid Handle \r\n")));
	}

	return status;
	}

	/*
	* ======== DSPProcessor_ReserveMemory ========
	* Purpose:
	* Reserve a chunk of memory from the DMM
	*/
	DBAPI DSPProcessor_ReserveMemory(DSP_HPROCESSOR hProcessor, ULONG ulSize,
	PVOID *ppRsvAddr)
	{
	DSP_STATUS status = DSP_SOK;
	Trapped_Args tempStruct;
	#ifdef DEBUG_BRIDGE_PERF
	struct timeval tv_beg;
	struct timeval tv_end;
	struct timezone tz;
	int timeRetVal = 0;

	timeRetVal = getTimeStamp(&tv_beg);
	#endif


	DEBUGMSG(DSPAPI_ZONE_FUNCTION,
	(TEXT("PROC: DSPProcessor_ReserveMemory\r\n")));

	/* Check the handle */
	if (hProcessor) {
	if (!DSP_ValidWritePtr(ppRsvAddr, sizeof(PVOID *))) {
	if (ulSize > 0) {
	if ((ulSize & (PG_SIZE_4K - 1)) == 0) {
	tempStruct.ARGS_PROC_RSVMEM.hProcessor =
	hProcessor;
	tempStruct.ARGS_PROC_RSVMEM.ulSize =
	ulSize;
	tempStruct.ARGS_PROC_RSVMEM.ppRsvAddr =
	ppRsvAddr;
	status = DSPTRAP_Trap(&tempStruct,
	CMD_PROC_RSVMEM_OFFSET);
	} else {
	status = DSP_EINVALIDARG;
	DEBUGMSG(DSPAPI_ZONE_ERROR, (TEXT
	("PROC: size is not 4KB "
	"page-aligned\r\n")));
	}
	} else {
	status = DSP_ESIZE;
	DEBUGMSG(DSPAPI_ZONE_ERROR,
	(TEXT("PROC:size is zero\r\n")));
	}
	} else {
	status = DSP_EPOINTER;
	DEBUGMSG(DSPAPI_ZONE_ERROR,
	(TEXT("PROC:ppRsvAddr is invalid\r\n")));
	}
	} else {
	/* Invalid handle */
	status = DSP_EHANDLE;
	DEBUGMSG(DSPAPI_ZONE_ERROR, (TEXT("PROC: Invalid Handle\r\n")));
	}

	#ifdef DEBUG_BRIDGE_PERF
	timeRetVal = getTimeStamp(&tv_end);
	PrintStatistics(&tv_beg, &tv_end, "DSPProcessor_ReserveMemory", ulSize);
	#endif

	return status;
	}

	/* ======== DSPProcessor_UnMap ========
	* Purpose:
	* UnMap an MPU buffer from a reserved virtual address
	*/
	DBAPI DSPProcessor_UnMap(DSP_HPROCESSOR hProcessor, PVOID pMapAddr)
	{
	DSP_STATUS status = DSP_SOK;
	Trapped_Args tempStruct;
	#ifdef DEBUG_BRIDGE_PERF
	struct timeval tv_beg;
	struct timeval tv_end;
	struct timezone tz;
	int timeRetVal = 0;

	timeRetVal = getTimeStamp(&tv_beg);
	#endif

	DEBUGMSG(DSPAPI_ZONE_FUNCTION, (TEXT("PROC: DSPProcessor_UnMap\r\n")));

	/* Check the handle */
	if (hProcessor) {
	if ((pMapAddr != NULL)) {
	tempStruct.ARGS_PROC_UNMAPMEM.hProcessor = hProcessor;
	tempStruct.ARGS_PROC_UNMAPMEM.pMapAddr = pMapAddr;
	status = DSPTRAP_Trap(&tempStruct,
	CMD_PROC_UNMAPMEM_OFFSET);
	} else {
	status = DSP_EPOINTER;
	DEBUGMSG(DSPAPI_ZONE_ERROR,
	(TEXT("PROC: pMapAddr is invalid\r\n")));
	}
	} else {
	/* Invalid handle */
	status = DSP_EHANDLE;
	DEBUGMSG(DSPAPI_ZONE_ERROR, (TEXT("PROC: Invalid Handle\r\n")));
	}

	#ifdef DEBUG_BRIDGE_PERF
	timeRetVal = getTimeStamp(&tv_end);
	PrintStatistics(&tv_beg, &tv_end, "DSPProcessor_UnMap", 0);
	#endif

	return status;
	}

	/*
	* ======== DSPProcessor_UnReserveMemory ========
	* Purpose:
	* Free a chunk of memory from the DMM
	*/
	DBAPI DSPProcessor_UnReserveMemory(DSP_HPROCESSOR hProcessor, PVOID pRsvAddr)
	{
	DSP_STATUS status = DSP_SOK;
	Trapped_Args tempStruct;
	#ifdef DEBUG_BRIDGE_PERF
	struct timeval tv_beg;
	struct timeval tv_end;
	struct timezone tz;
	int timeRetVal = 0;

	timeRetVal = getTimeStamp(&tv_beg);
	#endif

	DEBUGMSG(DSPAPI_ZONE_FUNCTION,
	(TEXT("PROC: DSPProcessor_UnReserveMemory\r\n")));

	/* Check the handle */
	if (hProcessor) {
	if (pRsvAddr != NULL) {
	tempStruct.ARGS_PROC_UNRSVMEM.hProcessor = hProcessor;
	tempStruct.ARGS_PROC_UNRSVMEM.pRsvAddr = pRsvAddr;
	status = DSPTRAP_Trap(&tempStruct,
	CMD_PROC_UNRSVMEM_OFFSET);
	} else {
	status = DSP_EPOINTER;
	DEBUGMSG(DSPAPI_ZONE_ERROR, (TEXT(
	"PROC: pRsvAddr is invalid\r\n")));
	}
	} else {
	/* Invalid handle */
	status = DSP_EHANDLE;
	DEBUGMSG(DSPAPI_ZONE_ERROR, (TEXT("PROC: Invalid Handle\r\n")));
	}
	#ifdef DEBUG_BRIDGE_PERF
	timeRetVal = getTimeStamp(&tv_end);
	PrintStatistics(&tv_beg, &tv_end, "DSPProcessor_UnReserveMemory", 0);
	#endif

	return status;
	}