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/*
* measurementMgrSM.c
*
* Copyright(c) 1998 - 2010 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.
*/
/**************************************************************************/
/* */
/* MODULE: measurementMgrSM.c */
/* PURPOSE: Measurement Manager State Machine module interface. */
/* */
/**************************************************************************/
#define __FILE_ID__ FILE_ID_2
#include "measurementMgrSM.h"
#include "measurementMgr.h"
#include "802_11Defs.h"
#ifdef XCC_MODULE_INCLUDED
#include "XCCMngr.h"
#include "XCCRMMngr.h"
#endif
#include "spectrumMngmntMgr.h"
#include "siteMgrApi.h"
#include "MacServices_api.h"
#include "regulatoryDomainApi.h"
#include "TWDriver.h"
#include "timer.h"
#include "sme.h"
char * measurementMgr_stateDesc[MEASUREMENTMGR_NUM_STATES] =
{
"STATE_IDLE",
"STATE_PROCESSING_REQUEST",
"STATE_WAITING_FOR_SCR",
"STATE_MEASURING"
};
char * measurementMgr_eventDesc[MEASUREMENTMGR_NUM_EVENTS] =
{
"EVENT_CONNECTED",
"EVENT_DISCONNECTED",
"EVENT_ENABLE",
"EVENT_DISABLE",
"EVENT_FRAME_RECV",
"EVENT_SEND_REPORT",
"EVENT_REQUEST_SCR",
"EVENT_SCR_WAIT",
"EVENT_SCR_RUN",
"EVENT_ABORT",
"EVENT_COMPLETE",
"EVENT_FW_RESET"
};
/********************************************************************************/
/* MeasurementMgr SM Action Prototypes */
/********************************************************************************/
static TI_STATUS measurementMgrSM_acUnexpected(void * pData);
static TI_STATUS measurementMgrSM_acNop(void * pData);
static TI_STATUS measurementMgrSM_acConnected(void * pData);
static TI_STATUS measurementMgrSM_acDisconnected_fromIdle(void * pData);
static TI_STATUS measurementMgrSM_acEnable(void * pData);
static TI_STATUS measurementMgrSM_acDisable_fromIdle(void * pData);
static TI_STATUS measurementMgrSM_acFrameReceived_fromIdle(void * pData);
static TI_STATUS measurementMgrSM_acSendReportAndCleanObj(void * pData);
static TI_STATUS measurementMgrSM_acDisconnected_fromProcessingRequest(void * pData);
static TI_STATUS measurementMgrSM_acDisable_fromProcessingRequest(void * pData);
static TI_STATUS measurementMgrSM_acFrameReceived_fromProcessingRequest(void * pData);
static TI_STATUS measurementMgrSM_acAbort_fromProcessingRequest(void * pData);
static TI_STATUS measurementMgrSM_acRequestSCR(void * pData);
static TI_STATUS measurementMgrSM_acDisconnected_fromWaitForSCR(void * pData);
static TI_STATUS measurementMgrSM_acDisable_fromWaitForSCR(void * pData);
static TI_STATUS measurementMgrSM_acFrameReceived_fromWaitForSCR(void * pData);
static TI_STATUS measurementMgrSM_acAbort_fromWaitForSCR(void * pData);
static TI_STATUS measurementMgrSM_acStartMeasurement(void * pData);
static TI_STATUS measurementMgrSM_acDisconnected_fromMeasuring(void * pData);
static TI_STATUS measurementMgrSM_acDisable_fromMeasuring(void * pData);
static TI_STATUS measurementMgrSM_acFrameReceived_fromMeasuring(void * pData);
static TI_STATUS measurementMgrSM_acAbort_fromMeasuring(void * pData);
static TI_STATUS measurementMgrSM_acMeasurementComplete(void * pData);
static TI_STATUS measurementMgrSM_acFirmwareReset(void * pData);
/********************************************************************************/
/* Internal Functions Prototypes */
/********************************************************************************/
static void measurementMgrSM_resetParams(measurementMgr_t * pMeasurementMgr);
static void measurementMgrSM_uponActivationDelayTimeout (TI_HANDLE hMeasurementMgr, TI_BOOL bTwdInitOccured);
/********************************************************************************/
/* MeasurementMgr SM General Use Functions */
/********************************************************************************/
/**
* Configures the Measurement Manager State Machine.
*
* @param hMeasurementMgr A handle to the Measurement Manager module.
*
* @date 01-Jan-2006
*/
TI_STATUS measurementMgrSM_config(TI_HANDLE hMeasurementMgr)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) hMeasurementMgr;
TI_STATUS status;
/* MeasurementMgr State Machine matrix */
fsm_actionCell_t measurementMgr_matrix[MEASUREMENTMGR_NUM_STATES][MEASUREMENTMGR_NUM_EVENTS] =
{
/* next state and actions for STATE_IDLE state */
{
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acConnected}, /* CONNECTED */
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acDisconnected_fromIdle}, /* DISCONNECTED */
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acEnable}, /* ENABLE */
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acDisable_fromIdle}, /* DISABLE */
{MEASUREMENTMGR_STATE_PROCESSING_REQUEST, measurementMgrSM_acFrameReceived_fromIdle}, /* FRAME_RECV */
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acSendReportAndCleanObj}, /* SEND_REPORT */
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acUnexpected}, /* REQUEST_SCR */
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acUnexpected}, /* SCR_WAIT */
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acUnexpected}, /* SCR_RUN */
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acUnexpected}, /* ABORT */
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acUnexpected}, /* COMPLETE */
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acUnexpected} /* FW_RESET */
},
/* next state and actions for STATE_PROCESSING_REQUEST state */
{
{MEASUREMENTMGR_STATE_PROCESSING_REQUEST, measurementMgrSM_acUnexpected}, /* CONNECTED */
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acDisconnected_fromProcessingRequest}, /* DISCONNECTED */
{MEASUREMENTMGR_STATE_PROCESSING_REQUEST, measurementMgrSM_acNop}, /* ENABLE */
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acDisable_fromProcessingRequest}, /* DISABLE */
{MEASUREMENTMGR_STATE_PROCESSING_REQUEST, measurementMgrSM_acFrameReceived_fromProcessingRequest}, /* FRAME_RECV */
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acSendReportAndCleanObj}, /* SEND_REPORT */
{MEASUREMENTMGR_STATE_WAITING_FOR_SCR, measurementMgrSM_acRequestSCR}, /* REQUEST_SCR */
{MEASUREMENTMGR_STATE_PROCESSING_REQUEST, measurementMgrSM_acUnexpected}, /* SCR_WAIT */
{MEASUREMENTMGR_STATE_PROCESSING_REQUEST, measurementMgrSM_acUnexpected}, /* SCR_RUN */
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acAbort_fromProcessingRequest}, /* ABORT */
{MEASUREMENTMGR_STATE_PROCESSING_REQUEST, measurementMgrSM_acUnexpected}, /* COMPLETE */
{MEASUREMENTMGR_STATE_PROCESSING_REQUEST, measurementMgrSM_acUnexpected} /* FW_RESET */
},
/* next state and actions for STATE_WAITING_FOR_SCR state */
{
{MEASUREMENTMGR_STATE_WAITING_FOR_SCR, measurementMgrSM_acUnexpected}, /* CONNECTED */
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acDisconnected_fromWaitForSCR}, /* DISCONNECTED */
{MEASUREMENTMGR_STATE_WAITING_FOR_SCR, measurementMgrSM_acNop}, /* ENABLE */
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acDisable_fromWaitForSCR}, /* DISABLE */
{MEASUREMENTMGR_STATE_PROCESSING_REQUEST, measurementMgrSM_acFrameReceived_fromWaitForSCR}, /* FRAME_RECV */
{MEASUREMENTMGR_STATE_WAITING_FOR_SCR, measurementMgrSM_acUnexpected}, /* SEND_REPORT */
{MEASUREMENTMGR_STATE_WAITING_FOR_SCR, measurementMgrSM_acUnexpected}, /* REQUEST_SCR */
{MEASUREMENTMGR_STATE_WAITING_FOR_SCR, measurementMgrSM_acNop}, /* SCR_WAIT */
{MEASUREMENTMGR_STATE_MEASURING, measurementMgrSM_acStartMeasurement}, /* SCR_RUN */
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acAbort_fromWaitForSCR}, /* ABORT */
{MEASUREMENTMGR_STATE_WAITING_FOR_SCR, measurementMgrSM_acUnexpected}, /* COMPLETE */
{MEASUREMENTMGR_STATE_WAITING_FOR_SCR, measurementMgrSM_acUnexpected} /* FW_RESET */
},
/* next state and actions for STATE_MEASURING state */
{
{MEASUREMENTMGR_STATE_MEASURING, measurementMgrSM_acUnexpected}, /* CONNECTED */
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acDisconnected_fromMeasuring}, /* DISCONNECTED */
{MEASUREMENTMGR_STATE_MEASURING, measurementMgrSM_acNop}, /* ENABLE */
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acDisable_fromMeasuring}, /* DISABLE */
{MEASUREMENTMGR_STATE_PROCESSING_REQUEST, measurementMgrSM_acFrameReceived_fromMeasuring}, /* FRAME_RECV */
{MEASUREMENTMGR_STATE_MEASURING, measurementMgrSM_acUnexpected}, /* SEND_REPORT */
{MEASUREMENTMGR_STATE_MEASURING, measurementMgrSM_acUnexpected}, /* REQUEST_SCR */
{MEASUREMENTMGR_STATE_MEASURING, measurementMgrSM_acUnexpected}, /* SCR_WAIT */
{MEASUREMENTMGR_STATE_MEASURING, measurementMgrSM_acUnexpected}, /* SCR_RUN */
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acAbort_fromMeasuring}, /* ABORT */
{MEASUREMENTMGR_STATE_PROCESSING_REQUEST, measurementMgrSM_acMeasurementComplete}, /* COMPLETE */
{MEASUREMENTMGR_STATE_IDLE, measurementMgrSM_acFirmwareReset} /* FW_RESET */
}
};
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Configured MeasurementMgr state machine\n");
status = fsm_Config(pMeasurementMgr->pMeasurementMgrSm,
&measurementMgr_matrix[0][0],
MEASUREMENTMGR_NUM_STATES,
MEASUREMENTMGR_NUM_EVENTS,
measurementMgrSM_event, pMeasurementMgr->hOs);
return status;
}
/**
* Raises a State Machine event in the Measurement Manager SM.
*
* @param currentState A point to the member holding the SM's current state.
* @param event The event we want to raise.
* @param hMeasurementMgr A handle to the Measurement Manager module.
*
* @date 05-Jan-2006
*/
TI_STATUS measurementMgrSM_event(TI_UINT8 * currentState, TI_UINT8 event, TI_HANDLE hMeasurementMgr)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) hMeasurementMgr;
TI_STATUS status;
TI_UINT8 nextState;
status = fsm_GetNextState(pMeasurementMgr->pMeasurementMgrSm,
*currentState, event, &nextState);
if (status != TI_OK)
{
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": State machine error, failed getting next state\n");
return(TI_NOK);
}
TRACE3(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, "measurementMgrSM_event: <currentState = %d, event = %d> --> nextState = %d\n", currentState, event, nextState);
status = fsm_Event(pMeasurementMgr->pMeasurementMgrSm, currentState, event, (void *) pMeasurementMgr);
return status;
}
/********************************************************************************/
/* MeasurementMgr SM Action Functions */
/********************************************************************************/
/********************************************************************************/
/* IDLE State Actions */
/********************************************************************************/
/**
* Performs the required action when the Measurement Manager module has
* been advised that the station has connected to an AP.
*
* @date 05-Jan-2006
*/
static TI_STATUS measurementMgrSM_acConnected(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
paramInfo_t param;
#ifdef XCC_MODULE_INCLUDED
iappParsingRegistrationTable_t iappParsingRegistration;
#endif
/* do nothing if we're already in connected mode */
if (pMeasurementMgr->Connected)
{
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Connected flag already set\n");
return TI_OK;
}
pMeasurementMgr->Connected = TI_TRUE;
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Connected flag has been set\n");
/* upon connection to a new AP set the measurment scan flag to FALSE */
pMeasurementMgr->bMeasurementScanExecuted = TI_FALSE;
/* get the current serving channel */
param.paramType = SITE_MGR_CURRENT_CHANNEL_PARAM;
siteMgr_getParam(pMeasurementMgr->hSiteMgr, &param);
pMeasurementMgr->servingChannelID = param.content.siteMgrCurrentChannel;
#ifdef XCC_MODULE_INCLUDED
if(pMeasurementMgr->Mode == MSR_MODE_XCC)
{
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": MeasurementMgr set to XCC mode\n");
if(pMeasurementMgr->isModuleRegistered == TI_FALSE)
{
/* Registering to the XCCMngr */
iappParsingRegistration.handler = pMeasurementMgr;
iappParsingRegistration.iappParsingRegistrationProcedure = measurementMgr_XCCParse;
if (XCCMngr_registerForRecvIappPacket(pMeasurementMgr->hXCCMngr,
iappParsingRegistration, IAPP_RADIO_MEASUREMENT) != TI_OK)
{
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_WARNING, ": Could not register to receive IAPP packets\n");
return TI_NOK;
}
pMeasurementMgr->isModuleRegistered = TI_TRUE;
}
pMeasurementMgr->parserFrameReq = measurementMgr_XCCParseFrameReq;
pMeasurementMgr->isTypeValid = measurementMgr_XCCIsTypeValid;
pMeasurementMgr->buildReport = measurementMgr_XCCBuildReport;
pMeasurementMgr->buildRejectReport = measurementMgr_XCCBuildRejectReport;
pMeasurementMgr->sendReportAndCleanObj = measurementMgr_XCCSendReportAndCleanObject;
requestHandler_setRequestParserFunction(pMeasurementMgr->hRequestH,
measurementMgr_XCCParseRequestIEHdr);
}
else
#endif
{
if(pMeasurementMgr->Mode == MSR_MODE_SPECTRUM_MANAGEMENT)
{
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": MeasurementMgr set to Spectrum Management mode\n");
/* NOTE: These 5 functions need to be corrected to fit the 802.11h standered */
pMeasurementMgr->parserFrameReq = measurementMgr_dot11hParseFrameReq;
pMeasurementMgr->isTypeValid = measurementMgr_dot11hIsTypeValid;
pMeasurementMgr->buildReport = measurementMgr_dot11hBuildReport;
pMeasurementMgr->buildRejectReport = measurementMgr_dot11hBuildRejectReport;
pMeasurementMgr->sendReportAndCleanObj = measurementMgr_dot11hSendReportAndCleanObject;
requestHandler_setRequestParserFunction(pMeasurementMgr->hRequestH,
measurementMgr_dot11hParseRequestIEHdr);
}
}
return TI_OK;
}
/**
* Called when the Measurement Manager has been advised that the station
* has disconnected from the AP.
*
* @date 05-Jan-2006
*/
static TI_STATUS measurementMgrSM_acDisconnected_fromIdle(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Connected flag unset\n");
pMeasurementMgr->Connected = TI_FALSE;
return TI_OK;
}
/**
* Called when the Measurement Manager is enabled.
*
* @date 05-Jan-2006
*/
static TI_STATUS measurementMgrSM_acEnable(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Measurement Manager has been enabled\n");
pMeasurementMgr->Enabled = TI_TRUE;
return TI_OK;
}
/**
* Called when the Measurement Manager is disabled.
*
* @date 05-Jan-2006
*/
static TI_STATUS measurementMgrSM_acDisable_fromIdle(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Measurement Manager has been disabled\n");
pMeasurementMgr->Enabled = TI_FALSE;
return TI_OK;
}
/**
* Called when the SM is in an idle state and we receive a new measurement frame.
*
* @date 05-Jan-2006
*/
static TI_STATUS measurementMgrSM_acFrameReceived_fromIdle(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
TI_UINT16 activationDelay;
TI_STATUS status;
paramInfo_t param;
TI_UINT16 tbtt;
/* handle frame request only if we're connected and measurement is enabled */
if (pMeasurementMgr->Connected == TI_FALSE ||
pMeasurementMgr->Enabled == TI_FALSE)
{
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_ERROR, ": Frame received while SM is in disconnected/disabled state\n");
return measurementMgrSM_event((TI_UINT8 *) &(pMeasurementMgr->currentState),
MEASUREMENTMGR_EVENT_ABORT, pMeasurementMgr);
}
/* Setting the frame Type */
pMeasurementMgr->currentFrameType = pMeasurementMgr->newFrameRequest.frameType;
TRACE1(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Frame Type = %d\n", pMeasurementMgr->currentFrameType);
/* Getting the Beacon Interval from the Site Mgr */
param.paramType = SITE_MGR_BEACON_INTERVAL_PARAM;
status = siteMgr_getParam(pMeasurementMgr->hSiteMgr, &param);
if (status != TI_OK)
{
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_ERROR, ": Failed to retrieve beacon interval - not connected?\n");
return measurementMgrSM_event((TI_UINT8 *) &(pMeasurementMgr->currentState),
MEASUREMENTMGR_EVENT_ABORT, pMeasurementMgr);
}
/* converting beacon interval to msec */
tbtt = (param.content.beaconInterval * 1024) / 1000; /* from TU to msec */
/* Initializing Activation Delay Time */
activationDelay = pMeasurementMgr->newFrameRequest.hdr->activatioDelay;
activationDelay *= tbtt;
/* Adding the Measurement Offset to the activation delay */
activationDelay += pMeasurementMgr->newFrameRequest.hdr->measurementOffset;
/* Inserting all received measurement requests into the queue */
status = requestHandler_insertRequests(pMeasurementMgr->hRequestH,
pMeasurementMgr->Mode,
pMeasurementMgr->newFrameRequest);
/* Clean New Frame Params */
os_memoryZero(pMeasurementMgr->hOs, &pMeasurementMgr->newFrameRequest,
sizeof(TMeasurementFrameRequest));
if (status != TI_OK)
{
pMeasurementMgr->currentFrameType = MSR_FRAME_TYPE_NO_ACTIVE;
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_ERROR, ": Could not insert request into the queue\n");
return measurementMgrSM_event((TI_UINT8 *) &(pMeasurementMgr->currentState),
MEASUREMENTMGR_EVENT_ABORT, pMeasurementMgr);
}
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": New frame has been inserted into the queue\n");
/* If frame type isn't Unicast add to Activation Delay a random delay */
if ((pMeasurementMgr->currentFrameType != MSR_FRAME_TYPE_UNICAST) && (activationDelay > 0))
{
activationDelay += ((os_timeStampMs(pMeasurementMgr->hOs) % MSR_ACTIVATION_DELAY_RANDOM)
+ MSR_ACTIVATION_DELAY_OFFSET);
}
TRACE1(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Activation Delay in ms = %d\n", activationDelay);
if (activationDelay > 0)
{
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Going to wait for activation delay timer callback\n");
/* Starting the Activation Delay Timer */
tmr_StartTimer (pMeasurementMgr->hActivationDelayTimer,
measurementMgrSM_uponActivationDelayTimeout,
(TI_HANDLE)pMeasurementMgr,
activationDelay,
TI_FALSE);
return TI_OK;
}
else
{
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Activating the next request immediately without waiting for callback\n");
/* Calling to schedule the first waiting request */
return measurementMgr_activateNextRequest(pData);
}
}
/********************************************************************************/
/* PROCESSING_REQUEST State Actions */
/********************************************************************************/
/**
* Called when the station disconnects from the AP while processing
* a measurement request.
*
* @date 05-Jan-2006
*/
static TI_STATUS measurementMgrSM_acDisconnected_fromProcessingRequest(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
/* Stopping the activationDelay Timer */
tmr_StopTimer (pMeasurementMgr->hActivationDelayTimer);
/* Clear Measurement fields */
measurementMgrSM_resetParams(pMeasurementMgr);
pMeasurementMgr->Connected = TI_FALSE;
return TI_OK;
}
/**
* Called when the Measurement Manager module has been disable while
* processing a measurement request.
*
* @date 05-Jan-2006
*/
static TI_STATUS measurementMgrSM_acDisable_fromProcessingRequest(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
/* Stopping the activationDelay Timer */
tmr_StopTimer (pMeasurementMgr->hActivationDelayTimer);
/* Clear Measurement fields */
measurementMgrSM_resetParams(pMeasurementMgr);
pMeasurementMgr->Enabled = TI_FALSE;
return TI_OK;
}
/**
* Called when a frame has been received while we are processing another frame.
* In this case the older frame is discarded and the new frame is processed.
*
* @date 05-Jan-2006
*/
static TI_STATUS measurementMgrSM_acFrameReceived_fromProcessingRequest(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
/* Stopping the activationDelay Timer */
tmr_StopTimer (pMeasurementMgr->hActivationDelayTimer);
/* Clear Measurement fields */
measurementMgrSM_resetParams(pMeasurementMgr);
/* Process New Frame */
return measurementMgrSM_acFrameReceived_fromIdle(pData);
}
/**
* Sends measurement reports to the AP and cleans up the module.
*
* @date 05-Jan-2006
*/
static TI_STATUS measurementMgrSM_acSendReportAndCleanObj(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Sending pending reports and cleaning up...\n");
return pMeasurementMgr->sendReportAndCleanObj(pData);
}
/**
* Called when for some reason we abort while processing a request.
*
* @date 05-Jan-2006
*/
static TI_STATUS measurementMgrSM_acAbort_fromProcessingRequest(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Entered\n");
/* Stopping the activationDelay Timer */
tmr_StopTimer (pMeasurementMgr->hActivationDelayTimer);
/* Clear Measurement fields */
measurementMgrSM_resetParams(pMeasurementMgr);
return TI_OK;
}
/**
* Called when we finished processing a request and want to request the SCR.
*
* @date 05-Jan-2006
*/
static TI_STATUS measurementMgrSM_acRequestSCR(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
EScrClientRequestStatus scrStatus;
EScePendReason scrPendReason;
/* Request the channel */
scrStatus = scr_clientRequest(pMeasurementMgr->hScr, SCR_CID_XCC_MEASURE,
SCR_RESOURCE_SERVING_CHANNEL, &scrPendReason);
if (scrStatus == SCR_CRS_RUN)
{
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Received RUN response from SCR\n");
/* The channel is allocated for the measurement */
return measurementMgrSM_event((TI_UINT8 *) &(pMeasurementMgr->currentState),
MEASUREMENTMGR_EVENT_SCR_RUN, pMeasurementMgr);
}
else if ((scrStatus == SCR_CRS_PEND) && (scrPendReason == SCR_PR_DIFFERENT_GROUP_RUNNING))
{
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Received PEND/DIFFGROUP response from SCR\n");
/* No need to wait for the channel allocation */
return measurementMgrSM_event((TI_UINT8 *) &(pMeasurementMgr->currentState),
MEASUREMENTMGR_EVENT_ABORT, pMeasurementMgr);
}
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Going to wait for SCR callback...\n");
/* In all other cases wait for the callback function to be called */
return TI_OK;
}
/********************************************************************************/
/* WAIT_FOR_SCR State Actions */
/********************************************************************************/
/**
* Called if the station disconnects from the AP while waiting for a
* response from the SCR.
*
* @date 05-Jan-2006
*/
static TI_STATUS measurementMgrSM_acDisconnected_fromWaitForSCR(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
setDefaultProbeReqTemplate (pMeasurementMgr->hSiteMgr);
/* Release the SCR */
scr_clientComplete(pMeasurementMgr->hScr, SCR_CID_XCC_MEASURE, SCR_RESOURCE_SERVING_CHANNEL);
/* Clear Measurement fields */
measurementMgrSM_resetParams(pMeasurementMgr);
pMeasurementMgr->Connected = TI_FALSE;
return TI_OK;
}
/**
* Called if the Measurement Manager module is disabled while we are
* waiting for a response from the SCR.
*
* @date 05-Jan-2006
*/
static TI_STATUS measurementMgrSM_acDisable_fromWaitForSCR(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
setDefaultProbeReqTemplate (pMeasurementMgr->hSiteMgr);
/* Release the SCR */
scr_clientComplete(pMeasurementMgr->hScr, SCR_CID_XCC_MEASURE, SCR_RESOURCE_SERVING_CHANNEL);
/* Clear Measurement fields */
measurementMgrSM_resetParams(pMeasurementMgr);
pMeasurementMgr->Enabled = TI_FALSE;
return TI_OK;
}
/**
* Called if a frame is received after we requested the SCR for another frame.
* In this case the older frame is discarded and the new frame is processed.
*
* @date 05-Jan-2006
*/
static TI_STATUS measurementMgrSM_acFrameReceived_fromWaitForSCR(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
setDefaultProbeReqTemplate (pMeasurementMgr->hSiteMgr);
/* Release the SCR */
scr_clientComplete(pMeasurementMgr->hScr, SCR_CID_XCC_MEASURE, SCR_RESOURCE_SERVING_CHANNEL);
/* Clear Measurement fields */
measurementMgrSM_resetParams(pMeasurementMgr);
/* Process New Frame */
return measurementMgrSM_acFrameReceived_fromIdle(pData);
}
/**
* Called if the SCR callbacked with a response other than RUN.
*
* @date 05-Jan-2006
*/
static TI_STATUS measurementMgrSM_acAbort_fromWaitForSCR(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
setDefaultProbeReqTemplate (pMeasurementMgr->hSiteMgr);
/* Release the SCR */
scr_clientComplete(pMeasurementMgr->hScr, SCR_CID_XCC_MEASURE, SCR_RESOURCE_SERVING_CHANNEL);
/* Build a reject report */
measurementMgr_rejectPendingRequests(pMeasurementMgr, MSR_REJECT_SCR_UNAVAILABLE);
/* Clear Measurement fields */
pMeasurementMgr->sendReportAndCleanObj(pMeasurementMgr);
return TI_OK;
}
/**
* Called when the SCR callbacks with a RUN response or if the SCR
* returned a RUN response when we requested it.
*
* @date 05-Jan-2006
*/
static TI_STATUS measurementMgrSM_acStartMeasurement(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
/* Cryptic: the first struct is the requestHandler request while */
/* the second one is the measurementSRV request */
MeasurementRequest_t * pRequestArr[MAX_NUM_REQ];
TMeasurementRequest request;
paramInfo_t *pParam;
TI_UINT8 numOfRequestsInParallel;
TI_UINT8 requestIndex;
TI_UINT32 timePassed;
TI_BOOL requestedBeaconMeasurement= TI_FALSE;
TI_STATUS status;
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Starting Measurement operation\n");
pParam = (paramInfo_t *)os_memoryAlloc(pMeasurementMgr->hOs, sizeof(paramInfo_t));
if (!pParam)
{
return TI_NOK;
}
request.channel = pMeasurementMgr->measuredChannelID;
request.startTime = 0; /* ignored by MeasurementSRV for now - for .11k */
request.numberOfTypes = 0;
TRACE1(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Measured Channel = %d\n", pMeasurementMgr->measuredChannelID);
pParam->paramType = REGULATORY_DOMAIN_GET_SCAN_CAPABILITIES;
pParam->content.channelCapabilityReq.channelNum = pMeasurementMgr->measuredChannelID;
pParam->content.channelCapabilityReq.scanOption = ACTIVE_SCANNING;
if (pMeasurementMgr->measuredChannelID <= MAX_CHANNEL_IN_BAND_2_4)
{
request.band = RADIO_BAND_2_4_GHZ;
pParam->content.channelCapabilityReq.band = RADIO_BAND_2_4_GHZ;
}
else
{
request.band = RADIO_BAND_5_0_GHZ;
pParam->content.channelCapabilityReq.band = RADIO_BAND_5_0_GHZ;
}
regulatoryDomain_getParam(pMeasurementMgr->hRegulatoryDomain, pParam);
request.txPowerDbm = pParam->content.channelCapabilityRet.maxTxPowerDbm;
request.eTag = SCAN_RESULT_TAG_MEASUREMENT;
os_memoryFree(pMeasurementMgr->hOs, pParam, sizeof(paramInfo_t));
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Querying Request Handler for the next request in the queue\n");
/* Getting the next request/requests from the request handler */
status = requestHandler_getNextReq(pMeasurementMgr->hRequestH, TI_TRUE, pRequestArr,
&numOfRequestsInParallel);
if (status != TI_OK)
{
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_ERROR, ": Failed getting next request from Request Handler\n");
return measurementMgrSM_event((TI_UINT8 *) &(pMeasurementMgr->currentState),
MEASUREMENTMGR_EVENT_COMPLETE, pMeasurementMgr);
}
/* Save the number of requests in parallel so that once the */
/* measurement operation ends we can get rid of this amount of requests */
/* from the requestHandler */
pMeasurementMgr->currentNumOfRequestsInParallel = numOfRequestsInParallel;
for (requestIndex = 0; requestIndex < numOfRequestsInParallel; requestIndex++)
{
if (pRequestArr[requestIndex]->Type == MSR_TYPE_BEACON_MEASUREMENT)
{
requestedBeaconMeasurement = TI_TRUE;
if (pRequestArr[requestIndex]->ScanMode == MSR_SCAN_MODE_BEACON_TABLE)
{
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Beacon Table request encountered, building report now\n");
/* building Report for beacon table request */
pMeasurementMgr->buildReport(pMeasurementMgr, *pRequestArr[requestIndex], NULL);
continue;
}
}
/* save the request so we can reference it when results arrive */
pMeasurementMgr->currentRequest[request.numberOfTypes] = pRequestArr[requestIndex];
/* add the measurement type to the request's list */
request.msrTypes[request.numberOfTypes].duration = pRequestArr[requestIndex]->DurationTime;
request.msrTypes[request.numberOfTypes].scanMode = pRequestArr[requestIndex]->ScanMode;
request.msrTypes[request.numberOfTypes].msrType = pRequestArr[requestIndex]->Type;
TRACE3(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ":\n\nMeasurement Request #%d Details: Type = %d, Duration = %d\n\n", request.numberOfTypes+1, request.msrTypes[request.numberOfTypes].msrType, request.msrTypes[request.numberOfTypes].duration);
request.numberOfTypes++;
}
if (requestedBeaconMeasurement == TI_TRUE)
{
/* build a probe request template and send it to the HAL */
TSetTemplate templateStruct;
probeReqTemplate_t probeReqTemplate;
TSsid broadcastSSID;
templateStruct.ptr = (TI_UINT8 *) &probeReqTemplate;
templateStruct.type = PROBE_REQUEST_TEMPLATE;
templateStruct.eBand = request.band;
templateStruct.uRateMask = RATE_MASK_UNSPECIFIED;
broadcastSSID.len = 0;
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Sending probe request template...\n");
buildProbeReqTemplate( pMeasurementMgr->hSiteMgr, &templateStruct, &broadcastSSID, request.band );
#ifdef XCC_MODULE_INCLUDED
{ /* Insert Radio Mngt Capability IE according XCC4*/
TI_UINT32 len = 0;
measurementMgr_radioMngtCapabilityBuild (pMeasurementMgr,
templateStruct.ptr + templateStruct.len,
(TI_UINT8*)&len);
templateStruct.len += len;
}
#endif
TWD_CmdTemplate (pMeasurementMgr->hTWD, &templateStruct, NULL, NULL);
}
/* Check if the maximum time to wait for the measurement request to */
/* finish has already passed */
timePassed = os_timeStampMs(pMeasurementMgr->hOs) - pMeasurementMgr->currentRequestStartTime;
if (timePassed > MSR_START_MAX_DELAY)
{
TRACE2(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Maximum delay to perform measurement operation has passed (%d / %d)\n", MSR_START_MAX_DELAY, (os_timeStampMs(pMeasurementMgr->hOs) - pMeasurementMgr->currentRequestStartTime));
pMeasurementMgr->buildRejectReport(pMeasurementMgr, pRequestArr, numOfRequestsInParallel, MSR_REJECT_MAX_DELAY_PASSED);
return measurementMgrSM_event((TI_UINT8 *) &(pMeasurementMgr->currentState),
MEASUREMENTMGR_EVENT_COMPLETE, pMeasurementMgr);
}
/* set the measurement scan executed flag to TRUE */
pMeasurementMgr->bMeasurementScanExecuted = TI_TRUE;
/* Yalla, start measuring */
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Finished preparing request. Handing over to MeasurementSRV...\n");
TWD_StartMeasurement (pMeasurementMgr->hTWD,
&request,
MSR_START_MAX_DELAY - timePassed,
NULL, NULL,
measurementMgr_MeasurementCompleteCB,
pMeasurementMgr);
return TI_OK;
}
/********************************************************************************/
/* MEASURING State Actions */
/********************************************************************************/
static TI_STATUS measurementMgrSM_acDisconnected_fromMeasuring(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
setDefaultProbeReqTemplate (pMeasurementMgr->hSiteMgr);
/* release the SCR */
scr_clientComplete(pMeasurementMgr->hScr, SCR_CID_XCC_MEASURE, SCR_RESOURCE_SERVING_CHANNEL);
/* Clear Measurement fields */
measurementMgrSM_resetParams(pMeasurementMgr);
pMeasurementMgr->Connected = TI_FALSE;
return TI_OK;
}
static TI_STATUS measurementMgrSM_acDisable_fromMeasuring(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
setDefaultProbeReqTemplate (pMeasurementMgr->hSiteMgr);
/* release the SCR */
scr_clientComplete(pMeasurementMgr->hScr, SCR_CID_XCC_MEASURE, SCR_RESOURCE_SERVING_CHANNEL);
/* Clear Measurement fields */
measurementMgrSM_resetParams(pMeasurementMgr);
pMeasurementMgr->Enabled = TI_FALSE;
return TI_OK;
}
static TI_STATUS measurementMgrSM_acFrameReceived_fromMeasuring(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
setDefaultProbeReqTemplate (pMeasurementMgr->hSiteMgr);
/* release the SCR */
scr_clientComplete(pMeasurementMgr->hScr, SCR_CID_XCC_MEASURE, SCR_RESOURCE_SERVING_CHANNEL);
/* Clear Measurement fields */
measurementMgrSM_resetParams(pMeasurementMgr);
/* Process New Frame */
return measurementMgrSM_acFrameReceived_fromIdle(pData);
}
static TI_STATUS measurementMgrSM_acAbort_fromMeasuring(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
setDefaultProbeReqTemplate (pMeasurementMgr->hSiteMgr);
/* release the SCR */
scr_clientComplete(pMeasurementMgr->hScr, SCR_CID_XCC_MEASURE, SCR_RESOURCE_SERVING_CHANNEL);
/* Clear Measurement fields */
measurementMgrSM_resetParams(pMeasurementMgr);
TWD_StopMeasurement (pMeasurementMgr->hTWD, TI_TRUE ,NULL, NULL);
return TI_OK;
}
/**
* Called when we finished a measurement request.
*
* @date 05-Jan-2006
*/
static TI_STATUS measurementMgrSM_acMeasurementComplete(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
requestHandler_t * pRequestH = (requestHandler_t *) pMeasurementMgr->hRequestH;
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Completing measurement operation and resuming normal behavior\n");
/* advance the activeRequestID variable to get rid of the */
/* measurement requests we've already executed */
TRACE2(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Increasing activeRequestID from %d to %d.\n", pRequestH->activeRequestID, pRequestH->activeRequestID + pMeasurementMgr->currentNumOfRequestsInParallel);
pRequestH->activeRequestID += pMeasurementMgr->currentNumOfRequestsInParallel;
setDefaultProbeReqTemplate (pMeasurementMgr->hSiteMgr);
/* move the driver result table to stable state and clear it */
sme_MeansurementScanResult (pMeasurementMgr->hSme, SCAN_CRS_SCAN_COMPLETE_OK, NULL);
/* release the SCR */
scr_clientComplete(pMeasurementMgr->hScr, SCR_CID_XCC_MEASURE, SCR_RESOURCE_SERVING_CHANNEL);
/* Process New Frame */
return measurementMgr_activateNextRequest(pData);
}
/**
* Called when a firmware reset has been detected.
*
* @date 05-Jan-2006
*/
static TI_STATUS measurementMgrSM_acFirmwareReset(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Firmware Reset!!\n");
setDefaultProbeReqTemplate (pMeasurementMgr->hSiteMgr);
/* release the SCR */
scr_clientComplete(pMeasurementMgr->hScr, SCR_CID_XCC_MEASURE, SCR_RESOURCE_SERVING_CHANNEL);
/* Clear Measurement fields */
measurementMgrSM_resetParams(pMeasurementMgr);
return TI_OK;
}
/********************************************************************************/
/* Miscellaneous State Actions */
/********************************************************************************/
/**
* Called when an unexpected event has been triggered.
*
* @date 05-Jan-2006
*/
static TI_STATUS measurementMgrSM_acUnexpected(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Entered when state is \n");
return TI_OK;
}
/**
* A do nothing action.
*
* @date 05-Jan-2006
*/
static TI_STATUS measurementMgrSM_acNop(void * pData)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *) pData;
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Entered when state is \n");
return TI_OK;
}
/********************************************************************************/
/* Internal Functions Prototypes */
/********************************************************************************/
static void measurementMgrSM_resetParams(measurementMgr_t *pMeasurementMgr)
{
/* clear the waiting requests */
requestHandler_clearRequests(pMeasurementMgr->hRequestH);
/* clearing reports data base */
#ifdef XCC_MODULE_INCLUDED
os_memoryZero(pMeasurementMgr->hOs,&(pMeasurementMgr->XCCFrameReport),
sizeof(RM_report_frame_t));
#endif
os_memoryZero(pMeasurementMgr->hOs,&(pMeasurementMgr->dot11hFrameReport),
sizeof(MeasurementReportFrame_t));
pMeasurementMgr->frameLength = 0;
pMeasurementMgr->nextEmptySpaceInReport = 0;
pMeasurementMgr->measuredChannelID = 0;
pMeasurementMgr->currentFrameType = MSR_FRAME_TYPE_NO_ACTIVE;
}
/**
* The callback called when the activation delay timer has ended.
*
* @param hMeasurementMgr - A handle to the Measurement Manager module.
* @param bTwdInitOccured - Indicates if TWDriver recovery occured since timer started
*
* @date 01-Jan-2006
*/
static void measurementMgrSM_uponActivationDelayTimeout (TI_HANDLE hMeasurementMgr, TI_BOOL bTwdInitOccured)
{
measurementMgr_t * pMeasurementMgr = (measurementMgr_t *)hMeasurementMgr;
TRACE0(pMeasurementMgr->hReport, REPORT_SEVERITY_INFORMATION, ": Activation delay timeout callback entered\n");
measurementMgr_activateNextRequest (pMeasurementMgr);
}