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/*
* requestHandler.c
*
* Copyright(c) 1998 - 2009 Texas Instruments. All rights reserved.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* * Neither the name Texas Instruments nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
/** \file RequestHandler.c
* \brief RequestHandler module interface
*
* \see RequestHandler.h
*/
/****************************************************************************************************/
/* */
/* MODULE: RequestHandler.c */
/* PURPOSE: RequestHandler module interface. */
/* This module handle the incoming measurement requests. The object handle */
/* data base that stores all measurement requests from the last incoming. */
/* This module export interface function for sceduling the next requests to be */
/* executed and stores all relevent fields for constructing a measurement report. */
/* */
/****************************************************************************************************/
#define __FILE_ID__ FILE_ID_4
#include "report.h"
#include "osApi.h"
#include "paramOut.h"
#include "requestHandler.h"
#ifdef XCC_MODULE_INCLUDED
#include "XCCRMMngrParam.h"
#endif
/* allocation vector */
#define REQUEST_HANDLER_INIT_BIT (1)
#define DOT11_MEASUREMENT_REQUEST_ELE_ID (38)
/********************************************************************************/
/* Internal functions prototypes. */
/********************************************************************************/
static void release_module(requestHandler_t *pRequestHandler, TI_UINT32 initVec);
static TI_STATUS insertMeasurementIEToQueue(TI_HANDLE hRequestHandler,
TI_UINT16 frameToken,
EMeasurementMode measurementMode,
TI_UINT8 *pData,
TI_UINT8 *singelRequestLen);
/********************************************************************************/
/* Interface functions Implementation. */
/********************************************************************************/
/********************************************************************************
* requestHandler_create *
********************************************************************************
DESCRIPTION: RequestHandler module creation function, called by the measurement in
creation phase. performs the following:
- Allocate the RequestHandler handle
INPUT: hOs - Handle to OS
OUTPUT:
RETURN: Handle to the RequestHandler module on success, NULL otherwise
************************************************************************/
TI_HANDLE requestHandler_create(TI_HANDLE hOs)
{
requestHandler_t *pRequestHandler = NULL;
TI_UINT32 initVec = 0;
/* allocating the RequestHandler object */
pRequestHandler = os_memoryAlloc(hOs,sizeof(requestHandler_t));
if (pRequestHandler == NULL)
return NULL;
initVec |= (1 << REQUEST_HANDLER_INIT_BIT);
return(pRequestHandler);
}
/************************************************************************
* requestHandler_config *
************************************************************************
DESCRIPTION: RequestHandler module configuration function, called by the measurement
in configuration phase. performs the following:
- Reset & initiailzes local variables
- Init the handles to be used by the module
INPUT: hRequestHandler - RequestHandler handle.
List of handles to be used by the module
OUTPUT:
RETURN: TI_OK on success, TI_NOK otherwise
************************************************************************/
TI_STATUS RequestHandler_config(TI_HANDLE hRequestHandler,
TI_HANDLE hReport,
TI_HANDLE hOs)
{
requestHandler_t *pRequestHandler = (requestHandler_t *)hRequestHandler;
/* init variables */
pRequestHandler->parserRequestIEHdr = NULL;
pRequestHandler->numOfWaitingRequests = 0; /* indicating empty data base */
pRequestHandler->activeRequestID = -1; /* */
pRequestHandler->hReport = hReport;
pRequestHandler->hOs = hOs;
/* Clearing the Request Array , mostly due to parallel bit */
os_memoryZero(pRequestHandler->hOs, pRequestHandler->reqArr, MAX_NUM_REQ * sizeof(MeasurementRequest_t));
TRACE0(pRequestHandler->hReport, REPORT_SEVERITY_INIT, ": RequestHandler configured successfully\n");
return TI_OK;
}
/***********************************************************************
* requestHandler_setParam
***********************************************************************
DESCRIPTION: RequestHandler set param function, called by the following:
- config mgr in order to set a parameter receiving from
the OS abstraction layer.
- From inside the dirver
INPUT: hRequestHandler - RequestHandler handle.
pParam - Pointer to the parameter
OUTPUT:
RETURN: TI_OK on success, TI_NOK otherwise
************************************************************************/
TI_STATUS requestHandler_setParam(TI_HANDLE hRequestHandler,
paramInfo_t *pParam)
{
requestHandler_t *pRequestHandler = (requestHandler_t *)hRequestHandler;
switch(pParam->paramType)
{
/* case RequestHandler_PARAM_TYPE:*/
/* break;*/
default:
TRACE1(pRequestHandler->hReport, REPORT_SEVERITY_ERROR, ": Set param, Params is not supported, %d\n\n", pParam->paramType);
return PARAM_NOT_SUPPORTED;
}
/* return TI_OK; - unreachable */
}
/***********************************************************************
* requestHandler_getParam
***********************************************************************
DESCRIPTION: RequestHandler get param function, called by the following:
- config mgr in order to get a parameter from the OS a
bstraction layer.
- From inside the dirver
INPUT: hRequestHandler - RequestHandler handle.
pParam - Pointer to the parameter
OUTPUT:
RETURN: TI_OK on success, TI_NOK otherwise
************************************************************************/
TI_STATUS requestHandler_getParam(TI_HANDLE hRequestHandler,
paramInfo_t *pParam)
{
requestHandler_t *pRequestHandler = (requestHandler_t *)hRequestHandler;
/* TI_STATUS status;*/
switch(pParam->paramType)
{
/*case RequestHandler_PARAM:*/
/*return status;*/
default:
TRACE1(pRequestHandler->hReport, REPORT_SEVERITY_ERROR, ": Get param, Params is not supported, %d\n\n", pParam->paramType);
return PARAM_NOT_SUPPORTED;
}
/* return TI_OK; - unreachable */
}
/************************************************************************
* RequestHandler_destroy *
************************************************************************
DESCRIPTION: RequestHandler module destroy function, called by the config
mgr in the destroy phase
performs the following:
- Free all memory aloocated by the module
INPUT: hRequestHandler - RequestHandler handle.
OUTPUT:
RETURN: TI_OK on success, TI_NOK otherwise
************************************************************************/
TI_STATUS requestHandler_destroy(TI_HANDLE hRequestHandler)
{
requestHandler_t * pRequestHandler = (requestHandler_t *)hRequestHandler;
TI_UINT32 initVec;
if (pRequestHandler == NULL)
return TI_OK;
initVec = 0xFFFF;
release_module(pRequestHandler, initVec);
return TI_OK;
}
/************************************************************************
* requestHandler_insertRequests *
************************************************************************
DESCRIPTION: RequestHandler module parsing function, called by the
measurement object when measuremnt request frame is received.
performs the following:
- Parsers the measurement request frame.
- Inserts all requests into the queue.
- Initializes each request according to the its frame
token, measurement token, measurement type, parallel,
channel number, duration time and scan mode.
- The function updates the numOfWaitingRequests variable
and set to zero the activeReqId.
Note: The activeReqId contains the index for the first request
that should be executed or to the current active request.
INPUT: hRequestHandler - RequestHandler handle.
measurementMode - The MEasurement Object Mode.
measurementFrameReq - The New Frame request that was received.
OUTPUT:
RETURN: TI_OK on success, TI_NOK otherwise
************************************************************************/
TI_STATUS requestHandler_insertRequests(TI_HANDLE hRequestHandler,
EMeasurementMode measurementMode,
TMeasurementFrameRequest measurementFrameReq)
{
requestHandler_t *pRequestHandler = (requestHandler_t *)hRequestHandler;
TI_INT32 requestsLen = measurementFrameReq.requestsLen;
TI_UINT8 singelRequestLen = 0;
TI_UINT8 *requests = measurementFrameReq.requests;
if (requestsLen < 2)
{
TRACE0(pRequestHandler->hReport, REPORT_SEVERITY_ERROR, ": Invalid length of the data.\n");
return TI_NOK;
}
/* Inserting all measurement request into the queues */
while (requestsLen > 0)
{
if(insertMeasurementIEToQueue(hRequestHandler,
measurementFrameReq.hdr->dialogToken,
measurementMode,
requests,
&singelRequestLen) != TI_OK )
{
requestHandler_clearRequests(hRequestHandler);
return TI_NOK;
}
requestsLen -= singelRequestLen;
requests += singelRequestLen;
}
pRequestHandler->activeRequestID = 0;
TRACE2(pRequestHandler->hReport, REPORT_SEVERITY_INFORMATION, ": Inserted into queue: activeRequestID = %d, numOfWaitingRequests = %d\n", pRequestHandler->activeRequestID, pRequestHandler->numOfWaitingRequests);
return TI_OK;
}
/************************************************************************
* requestHandler_getNextReq *
************************************************************************
DESCRIPTION: RequestHandler module function for retrieving the requests that
should be executed.
performs the following:
- returns pointers to one request/several requests that
should be performed in parallel.
Note: The function updates the numOfWaitingRequests internal
varaible ONLY IF the returned request/s are going to be
executed immediatly (isForActivation = TI_TRUE).
INPUT: hRequestHandler - RequestHandler handle.
isForActivation - A flag that indicates if the returned
request/s are going to be executed immediatly
OUTPUT: pRequest - pointer contains the address in which the
next requests for activation should be inserted.
numOfRequests - indicates how many requests should be activated
in parallel.
RETURN: TI_OK on success, TI_NOK otherwise
************************************************************************/
TI_STATUS requestHandler_getNextReq(TI_HANDLE hRequestHandler,
TI_BOOL isForActivation,
MeasurementRequest_t *pRequest[],
TI_UINT8* numOfRequests)
{
requestHandler_t *pRequestHandler = (requestHandler_t *)hRequestHandler;
TI_UINT8 requestIndex = pRequestHandler->activeRequestID;
TI_UINT8 loopIndex = 0;
TRACE2(pRequestHandler->hReport, REPORT_SEVERITY_INFORMATION, ": Looking for requests. activeRequestID = %d, numOfWaitingRequests = %d\n", pRequestHandler->activeRequestID, pRequestHandler->numOfWaitingRequests);
if(pRequestHandler->numOfWaitingRequests <= 0)
return TI_NOK;
do{
pRequest[loopIndex] = &(pRequestHandler->reqArr[requestIndex]);
requestIndex++;
loopIndex++;
}
while ( (loopIndex < pRequestHandler->numOfWaitingRequests) &&
(pRequestHandler->reqArr[requestIndex].isParallel) );
*numOfRequests = loopIndex;
TRACE1(pRequestHandler->hReport, REPORT_SEVERITY_INFORMATION, ": Found %d requests to execute in parallel.\n", loopIndex);
if(isForActivation == TI_TRUE)
{
pRequestHandler->numOfWaitingRequests -= loopIndex;
TRACE1(pRequestHandler->hReport, REPORT_SEVERITY_INFORMATION, ": Requests were queried for activation so decreasing numOfWaitingRequests to %d\n", pRequestHandler->numOfWaitingRequests);
}
return TI_OK;
}
/************************************************************************
* requestHandler_getCurrentExpiredReq *
************************************************************************
DESCRIPTION: RequestHandler module function for retrieving the request that
finished its execution.
performs the following:
- returns pointers to the request that
finished its execution in.
INPUT: hRequestHandler - RequestHandler handle.
requestIndex - Index of request in the queue
OUTPUT: pRequest - pointer contains the addresse of the
request that finished its execution.
RETURN: TI_OK on success, TI_NOK otherwise
************************************************************************/
TI_STATUS requestHandler_getCurrentExpiredReq(TI_HANDLE hRequestHandler,
TI_UINT8 requestIndex,
MeasurementRequest_t **pRequest)
{
requestHandler_t *pRequestHandler = (requestHandler_t *)hRequestHandler;
requestIndex += pRequestHandler->activeRequestID;
*pRequest = &(pRequestHandler->reqArr[requestIndex]);
return TI_OK;
}
/************************************************************************
* requestHandler_clearRequests *
************************************************************************
DESCRIPTION: RequestHandler module function for cleaning the data base.
performs the following:
- Clears all requests from the queue by setting
the activeReqId and numOfWaitingRequests variables.
Note: The function does not actually zero all queue
variables or destroy the object.
INPUT: hRequestHandler - RequestHandler handle.
OUTPUT: None
RETURN: TI_OK on success, TI_NOK otherwise
************************************************************************/
TI_STATUS requestHandler_clearRequests(TI_HANDLE hRequestHandler)
{
requestHandler_t *pRequestHandler = (requestHandler_t *)hRequestHandler;
pRequestHandler->numOfWaitingRequests = 0;
pRequestHandler->activeRequestID = -1;
/* Clearing the Request Array , mostly due to parallel bit */
os_memoryZero(pRequestHandler->hOs,pRequestHandler->reqArr,
MAX_NUM_REQ * sizeof(MeasurementRequest_t));
TRACE2(pRequestHandler->hReport, REPORT_SEVERITY_INFORMATION, ": Request queue has been cleared. activeRequestID = %d, numOfWaitingRequests = %d\n", pRequestHandler->activeRequestID, pRequestHandler->numOfWaitingRequests);
return TI_OK;
}
/************************************************************************
* requestHandler_getFrameToken *
************************************************************************
DESCRIPTION: RequestHandler module function for getting the token of the
frame that is now being processed.
INPUT: hRequestHandler - RequestHandler handle.
OUTPUT: frameToken
RETURN: TI_OK on success, TI_NOK otherwise
************************************************************************/
TI_STATUS requestHandler_getFrameToken(TI_HANDLE hRequestHandler,TI_UINT16 *frameToken )
{
requestHandler_t *pRequestHandler = (requestHandler_t *)hRequestHandler;
if(pRequestHandler->activeRequestID == -1)
return TI_NOK;
*frameToken = pRequestHandler->reqArr[0].frameToken;
return TI_OK;
}
/************************************************************************
* requestHandler_setRequestParserFunction *
************************************************************************
DESCRIPTION: RequestHandler module function for setting the function that
parasers a request IE.
INPUT: hRequestHandler - RequestHandler handle.
parserRequestIE - A pointer to the function.
OUTPUT:
RETURN: TI_OK on success, TI_NOK otherwise
************************************************************************/
TI_STATUS requestHandler_setRequestParserFunction(TI_HANDLE hRequestHandler,
parserRequestIEHdr_t parserRequestIEHdr)
{
requestHandler_t *pRequestHandler = (requestHandler_t *)hRequestHandler;
pRequestHandler->parserRequestIEHdr = parserRequestIEHdr;
return TI_OK;
}
/********************************************************************************/
/* Internal functions Implementation. */
/********************************************************************************/
/************************************************************************
* insertMeasurementIEToQueue *
************************************************************************
DESCRIPTION: The function inserts measurement request of one received
measurement request information element.
INPUT: hRequestHandler - A Handler to the Request Handler Object.
frameToken - Frame token of the received frame in which
This current measurement request IE is included.
measurementObjMode - XCC or SPECTRUM_MNGMNT
dataLen - pointer to the data length that is left.
pData - pointer to the data.
OUTPUT: singelRequestLen - The Length of the request that was inserted
to the queue.
RETURN: TI_OK on success, TI_NOK otherwise
************************************************************************/
static TI_STATUS insertMeasurementIEToQueue(TI_HANDLE hRequestHandler,
TI_UINT16 frameToken,
EMeasurementMode measurementObjMode,
TI_UINT8 *pData,
TI_UINT8 *singelRequestLen)
{
requestHandler_t *pRequestHandler = (requestHandler_t *)hRequestHandler;
TI_UINT16 HeaderLen;
TI_UINT8 measurementMode;
TI_UINT8 parallelBit;
TI_UINT8 enableBit;
TI_UINT16 measurementToken;
MeasurementRequest_t *pCurrRequest = &(pRequestHandler->reqArr[pRequestHandler->numOfWaitingRequests]);
if (pRequestHandler->parserRequestIEHdr(pData, &HeaderLen, &measurementToken) != TI_OK)
{
return TI_NOK;
}
pCurrRequest->frameToken = frameToken;
pCurrRequest->measurementToken = measurementToken;
pData += HeaderLen;
/*** Getting the Measurement Mode ***/
measurementMode = *pData++;
/* getting parallel bit */
parallelBit = measurementMode & 0x1;
/* getting Enable bit */
enableBit = (measurementMode & 0x2)>>1;
/* checking enable bit, the current implementation does not support
enable bit which set to one, so there is no need to check request/report bits */
if(enableBit == 1)
return TI_OK;
pCurrRequest->isParallel = parallelBit;
/* Getting the Measurement Mode */
pCurrRequest->Type = (EMeasurementType)(*pData++);
/* Inserting the request that is included in the current measurement request IE. */
pCurrRequest->channelNumber = *pData++;
pCurrRequest->ScanMode = (EMeasurementScanMode)(*pData++); /* IN dot11h - Spare = 0 */
COPY_WLAN_WORD(&pCurrRequest->DurationTime, pData);
*singelRequestLen = HeaderLen + 6;
pRequestHandler->numOfWaitingRequests ++;
return TI_OK;
}
/***********************************************************************
* release_module
***********************************************************************
DESCRIPTION: Called by the destroy function or by the create function
(on failure). Go over the vector, for each bit that is
set, release the corresponding module.
INPUT: pRequestHandler - RequestHandler pointer.
initVec - Vector that contains a bit set for each
module thah had been initiualized
OUTPUT:
RETURN: TI_OK on success, TI_NOK otherwise
************************************************************************/
static void release_module(requestHandler_t *pRequestHandler, TI_UINT32 initVec)
{
if ( initVec & (1 << REQUEST_HANDLER_INIT_BIT) )
os_memoryFree(pRequestHandler->hOs, pRequestHandler, sizeof(requestHandler_t));
initVec = 0;
}