/*
* roamingMgrDebug.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 reportReplvl.c
* \brief Report level implementation
*
* \see reportReplvl.h
*/
/***************************************************************************/
/* */
/* MODULE: reportReplvl.c */
/* PURPOSE: Report level implementation */
/* */
/***************************************************************************/
#include "tidef.h"
#include "report.h"
#include "paramOut.h"
#include "roamingMgrDebug.h"
#include "roamingMngrApi.h"
#include "apConnApi.h"
void printRoamingMgrHelpMenu(void);
void PrintBssListGotAfterImemediateScan(TI_HANDLE hScanMgr);
/* Function implementation */
void roamingMgrDebugFunction(TI_HANDLE hRoamingMngr,
TI_UINT32 funcType,
void *pParam)
{
paramInfo_t param;
switch (funcType)
{
case ROAMING_MGR_DEBUG_HELP_MENU:
printRoamingMgrHelpMenu();
break;
case PRINT_ROAMING_STATISTICS:
param.paramType = ROAMING_MNGR_PRINT_STATISTICS;
roamingMngr_getParam(hRoamingMngr, ¶m);
break;
case RESET_ROAMING_STATISTICS:
param.paramType = ROAMING_MNGR_RESET_STATISTICS;
roamingMngr_getParam(hRoamingMngr, ¶m);
break;
case PRINT_ROAMING_CURRENT_STATUS:
param.paramType = ROAMING_MNGR_PRINT_CURRENT_STATUS;
roamingMngr_getParam(hRoamingMngr, ¶m);
break;
case PRINT_ROAMING_CANDIDATE_TABLE:
param.paramType = ROAMING_MNGR_PRINT_CANDIDATE_TABLE;
roamingMngr_getParam(hRoamingMngr, ¶m);
break;
case TRIGGER_ROAMING_LOW_QUALITY_EVENT:
param.paramType = ROAMING_MNGR_TRIGGER_EVENT;
param.content.roamingTriggerType = ROAMING_TRIGGER_LOW_QUALITY;
roamingMngr_setParam(hRoamingMngr, ¶m);
break;
case TRIGGER_ROAMING_BSS_LOSS_EVENT:
param.paramType = ROAMING_MNGR_TRIGGER_EVENT;
param.content.roamingTriggerType = ROAMING_TRIGGER_BSS_LOSS;
roamingMngr_setParam(hRoamingMngr, ¶m);
break;
case TRIGGER_ROAMING_SWITCH_CHANNEL_EVENT:
param.paramType = ROAMING_MNGR_TRIGGER_EVENT;
param.content.roamingTriggerType = ROAMING_TRIGGER_SWITCH_CHANNEL;
roamingMngr_setParam(hRoamingMngr, ¶m);
break;
case TRIGGER_ROAMING_AP_DISCONNECT_EVENT:
param.paramType = ROAMING_MNGR_TRIGGER_EVENT;
param.content.roamingTriggerType = ROAMING_TRIGGER_AP_DISCONNECT;
roamingMngr_setParam(hRoamingMngr, ¶m);
break;
case TRIGGER_ROAMING_CONNECT_EVENT:
param.paramType = ROAMING_MNGR_CONN_STATUS;
param.content.roamingConnStatus = CONN_STATUS_CONNECTED;
roamingMngr_setParam(hRoamingMngr, ¶m);
break;
case TRIGGER_ROAMING_NOT_CONNECTED_EVENT:
param.paramType = ROAMING_MNGR_CONN_STATUS;
param.content.roamingConnStatus = CONN_STATUS_NOT_CONNECTED;
roamingMngr_setParam(hRoamingMngr, ¶m);
break;
case TRIGGER_ROAMING_HANDOVER_SUCCESS_EVENT:
param.paramType = ROAMING_MNGR_CONN_STATUS;
param.content.roamingConnStatus = CONN_STATUS_HANDOVER_SUCCESS;
roamingMngr_setParam(hRoamingMngr, ¶m);
break;
case TRIGGER_ROAMING_HANDOVER_FAILURE_EVENT:
param.paramType = ROAMING_MNGR_CONN_STATUS;
param.content.roamingConnStatus = CONN_STATUS_HANDOVER_FAILURE;
roamingMngr_setParam(hRoamingMngr, ¶m);
break;
case ROAMING_REGISTER_BSS_LOSS_EVENT: /* 1613 */
roamingMngr_setBssLossThreshold(hRoamingMngr, 10, 1);
break;
case ROAMING_START_IMMEDIATE_SCAN: /* 1614 */
{
int i=0,j =0;
channelList_t channels;
channels.numOfChannels = 14;
for ( i = 0; i < channels.numOfChannels; i++ )
{
for ( j = 0; j < 6; j++ )
{
channels.channelEntry[i].normalChannelEntry.bssId[j] = 0xff;
}
channels.channelEntry[i].normalChannelEntry.earlyTerminationEvent = SCAN_ET_COND_DISABLE;
channels.channelEntry[i].normalChannelEntry.ETMaxNumOfAPframes = 0;
channels.channelEntry[i].normalChannelEntry.maxChannelDwellTime = 60000;
channels.channelEntry[i].normalChannelEntry.minChannelDwellTime = 30000;
channels.channelEntry[i].normalChannelEntry.txPowerDbm = DEF_TX_POWER;
channels.channelEntry[i].normalChannelEntry.channel = i + 1;
}
/* upon this call the scanMngr_reportImmediateScanResults() should be invoked and the BssList should be printed */
roamingMngr_startImmediateScan(hRoamingMngr, &channels);
}
break;
case ROAMING_CONNECT: /* 1615 */
{
TargetAp_t targetAP;
bssList_t *bssList;
roamingMngr_t *pRoamingMngr = (roamingMngr_t*)hRoamingMngr;
bssList = scanMngr_getBSSList(((roamingMngr_t*)hRoamingMngr)->hScanMngr);
WLAN_OS_REPORT(("Roaming connect: BSS LIST num of entries=%d \n", bssList->numOfEntries));
PrintBssListGotAfterImemediateScan(((roamingMngr_t*)hRoamingMngr)->hScanMngr);
/* The values below must be configured in manual mode */
targetAP.connRequest.requestType = AP_CONNECT_FULL_TO_AP;
targetAP.connRequest.dataBufLength = 0;
targetAP.transitionMethod = ReAssoc;
os_memoryCopy(((roamingMngr_t*)hRoamingMngr)->hOs, &(targetAP.newAP), &(bssList->BSSList[0]), sizeof(bssEntry_t));
/* test if no buffer is present */
targetAP.newAP.bufferLength =0;
targetAP.newAP.pBuffer = 0;
/* ----------------------------- */
os_memoryCopy(pRoamingMngr->hOs, &(pRoamingMngr->targetAP), &targetAP , sizeof(TargetAp_t));
roamingMngr_connect(hRoamingMngr, &(pRoamingMngr->targetAP));
}
break;
case ROAMING_START_CONT_SCAN_BY_APP: /* 1616 */
{
roamingMngr_t *pRoamingMngr = (roamingMngr_t*)hRoamingMngr;
int i=0,j =0;
channelList_t channels;
channels.numOfChannels = 14;
for ( i = 0; i < channels.numOfChannels; i++ )
{
for ( j = 0; j < 6; j++ )
{
channels.channelEntry[i].normalChannelEntry.bssId[j] = 0xff;
}
channels.channelEntry[i].normalChannelEntry.earlyTerminationEvent = SCAN_ET_COND_DISABLE;
channels.channelEntry[i].normalChannelEntry.ETMaxNumOfAPframes = 0;
channels.channelEntry[i].normalChannelEntry.maxChannelDwellTime = 60000;
channels.channelEntry[i].normalChannelEntry.minChannelDwellTime = 30000;
channels.channelEntry[i].normalChannelEntry.txPowerDbm = DEF_TX_POWER;
channels.channelEntry[i].normalChannelEntry.channel = i + 1;
}
scanMngr_startContinuousScanByApp(pRoamingMngr->hScanMngr, &channels);
}
break;
case ROAMING_STOP_CONT_SCAN_BY_APP:
{
roamingMngr_t *pRoamingMngr = (roamingMngr_t*)hRoamingMngr;
scanMngr_stopContinuousScanByApp(pRoamingMngr->hScanMngr);
}
break;
case RAOMING_SET_DEFAULT_SCAN_POLICY: /* 1618 */
{
int i=0;
roamingMngr_t *pRoamingMngr = (roamingMngr_t*)hRoamingMngr;
TScanPolicy scanPolicy;
param.paramType = SCAN_MNGR_SET_CONFIGURATION;
param.content.pScanPolicy = &scanPolicy;
// init default scan policy
scanPolicy.normalScanInterval = 10000;
scanPolicy.deterioratingScanInterval = 5000;
scanPolicy.maxTrackFailures = 3;
scanPolicy.BSSListSize = 4;
scanPolicy.BSSNumberToStartDiscovery = 1;
scanPolicy.numOfBands = 1;
scanPolicy.bandScanPolicy[ 0 ].band = RADIO_BAND_2_4_GHZ;
scanPolicy.bandScanPolicy[ 0 ].rxRSSIThreshold = -80;
scanPolicy.bandScanPolicy[ 0 ].numOfChannles = 14;
scanPolicy.bandScanPolicy[ 0 ].numOfChannlesForDiscovery = 3;
for ( i = 0; i < 14; i++ )
{
scanPolicy.bandScanPolicy[ 0 ].channelList[ i ] = i + 1;
}
scanPolicy.bandScanPolicy[ 0 ].trackingMethod.scanType = SCAN_TYPE_NORMAL_ACTIVE;
scanPolicy.bandScanPolicy[ 0 ].trackingMethod.method.basicMethodParams.earlyTerminationEvent = SCAN_ET_COND_DISABLE;
scanPolicy.bandScanPolicy[ 0 ].trackingMethod.method.basicMethodParams.ETMaxNumberOfApFrames = 0;
scanPolicy.bandScanPolicy[ 0 ].trackingMethod.method.basicMethodParams.maxChannelDwellTime = 30000;
scanPolicy.bandScanPolicy[ 0 ].trackingMethod.method.basicMethodParams.minChannelDwellTime = 15000;
scanPolicy.bandScanPolicy[ 0 ].trackingMethod.method.basicMethodParams.probReqParams.bitrate = RATE_MASK_UNSPECIFIED; /* Let the FW select */
scanPolicy.bandScanPolicy[ 0 ].trackingMethod.method.basicMethodParams.probReqParams.numOfProbeReqs = 3;
scanPolicy.bandScanPolicy[ 0 ].trackingMethod.method.basicMethodParams.probReqParams.txPowerDbm = DEF_TX_POWER;
scanPolicy.bandScanPolicy[ 0 ].discoveryMethod.scanType = SCAN_TYPE_NORMAL_ACTIVE;
scanPolicy.bandScanPolicy[ 0 ].discoveryMethod.method.basicMethodParams.earlyTerminationEvent = SCAN_ET_COND_DISABLE;
scanPolicy.bandScanPolicy[ 0 ].discoveryMethod.method.basicMethodParams.ETMaxNumberOfApFrames = 0;
scanPolicy.bandScanPolicy[ 0 ].discoveryMethod.method.basicMethodParams.maxChannelDwellTime = 30000;
scanPolicy.bandScanPolicy[ 0 ].discoveryMethod.method.basicMethodParams.minChannelDwellTime = 15000;
scanPolicy.bandScanPolicy[ 0 ].discoveryMethod.method.basicMethodParams.probReqParams.bitrate = RATE_MASK_UNSPECIFIED; /* Let the FW select */;
scanPolicy.bandScanPolicy[ 0 ].discoveryMethod.method.basicMethodParams.probReqParams.numOfProbeReqs = 3;
scanPolicy.bandScanPolicy[ 0 ].discoveryMethod.method.basicMethodParams.probReqParams.txPowerDbm = DEF_TX_POWER;
scanPolicy.bandScanPolicy[ 0 ].immediateScanMethod.scanType = SCAN_TYPE_NORMAL_ACTIVE;
scanPolicy.bandScanPolicy[ 0 ].immediateScanMethod.method.basicMethodParams.earlyTerminationEvent = SCAN_ET_COND_DISABLE;
scanPolicy.bandScanPolicy[ 0 ].immediateScanMethod.method.basicMethodParams.ETMaxNumberOfApFrames = 0;
scanPolicy.bandScanPolicy[ 0 ].immediateScanMethod.method.basicMethodParams.maxChannelDwellTime = 30000;
scanPolicy.bandScanPolicy[ 0 ].immediateScanMethod.method.basicMethodParams.minChannelDwellTime = 15000;
scanPolicy.bandScanPolicy[ 0 ].immediateScanMethod.method.basicMethodParams.probReqParams.bitrate = RATE_MASK_UNSPECIFIED; /* Let the FW select */;
scanPolicy.bandScanPolicy[ 0 ].immediateScanMethod.method.basicMethodParams.probReqParams.numOfProbeReqs = 3;
scanPolicy.bandScanPolicy[ 0 ].immediateScanMethod.method.basicMethodParams.probReqParams.txPowerDbm = DEF_TX_POWER;
/* we should noe store the scanPolicy now */
scanMngr_setParam(pRoamingMngr->hScanMngr, ¶m);
/* Enable roaming! */
param.paramType = ROAMING_MNGR_APPLICATION_CONFIGURATION;
param.content.roamingConfigBuffer.roamingMngrConfig.enableDisable = ROAMING_ENABLED;
roamingMngr_setParam(hRoamingMngr,¶m);
}
break;
case ROAMING_PRINT_MANUAL_MODE: /* 1617 */
WLAN_OS_REPORT(("\n ROAMING MANUAL MODE IS: %d \n",((roamingMngr_t*)hRoamingMngr)->RoamingOperationalMode));
break;
default:
WLAN_OS_REPORT(("Invalid function type in Debug Function Command, funcType= %d\n\n", funcType));
break;
}
}
void printRoamingMgrHelpMenu(void)
{
WLAN_OS_REPORT(("\n\n Roaming Manager Debug Menu \n"));
WLAN_OS_REPORT(("------------------------\n"));
WLAN_OS_REPORT((" %02d - ROAMING_MGR_DEBUG_HELP_MENU \n", ROAMING_MGR_DEBUG_HELP_MENU));
WLAN_OS_REPORT((" %02d - PRINT_ROAMING_STATISTICS \n", PRINT_ROAMING_STATISTICS));
WLAN_OS_REPORT((" %02d - RESET_ROAMING_STATISTICS \n", RESET_ROAMING_STATISTICS));
WLAN_OS_REPORT((" %02d - PRINT_ROAMING_CURRENT_STATUS \n", PRINT_ROAMING_CURRENT_STATUS));
WLAN_OS_REPORT((" %02d - PRINT_ROAMING_CANDIDATE_TABLE \n", PRINT_ROAMING_CANDIDATE_TABLE));
WLAN_OS_REPORT((" %02d - TRIGGER_ROAMING_LOW_QUALITY_EVENT \n", TRIGGER_ROAMING_LOW_QUALITY_EVENT));
WLAN_OS_REPORT((" %02d - TRIGGER_ROAMING_BSS_LOSS_EVENT \n", TRIGGER_ROAMING_BSS_LOSS_EVENT));
WLAN_OS_REPORT((" %02d - TRIGGER_ROAMING_SWITCH_CHANNEL_EVENT \n", TRIGGER_ROAMING_SWITCH_CHANNEL_EVENT));
WLAN_OS_REPORT((" %02d - TRIGGER_ROAMING_AP_DISCONNECT_EVENT \n", TRIGGER_ROAMING_AP_DISCONNECT_EVENT));
WLAN_OS_REPORT((" %02d - TRIGGER_ROAMING_CONNECT_EVENT \n", TRIGGER_ROAMING_CONNECT_EVENT));
WLAN_OS_REPORT((" %02d - TRIGGER_ROAMING_NOT_CONNECTED_EVENT \n", TRIGGER_ROAMING_NOT_CONNECTED_EVENT));
WLAN_OS_REPORT((" %02d - TRIGGER_ROAMING_HANDOVER_SUCCESS_EVENT \n", TRIGGER_ROAMING_HANDOVER_SUCCESS_EVENT));
WLAN_OS_REPORT((" %02d - TRIGGER_ROAMING_HANDOVER_FAILURE_EVENT \n", TRIGGER_ROAMING_HANDOVER_FAILURE_EVENT));
WLAN_OS_REPORT(("\n------------------------\n"));
}
void PrintBssListGotAfterImemediateScan(TI_HANDLE hScanMgr)
{
bssList_t *bssList;
bssEntry_t* pBssEntry;
int i=0;
WLAN_OS_REPORT(("------ PRINTING BSS FOUND AFTER IMMEDIATE SCAN - MANUAL MODE----------\n"));
bssList = scanMngr_getBSSList(hScanMgr);
for (i=0 ; i< bssList->numOfEntries ; i++)
{
pBssEntry = &(bssList->BSSList[i]);
WLAN_OS_REPORT( ("BSSID: %02x:%02x:%02x:%02x:%02x:%02x, band: %d\n", pBssEntry->BSSID[ 0 ],
pBssEntry->BSSID[ 1 ], pBssEntry->BSSID[ 2 ],
pBssEntry->BSSID[ 3 ], pBssEntry->BSSID[ 4 ],
pBssEntry->BSSID[ 5 ], pBssEntry->band));
WLAN_OS_REPORT( ("channel: %d, beacon interval: %d, average RSSI: %d dBm\n",
pBssEntry->channel, pBssEntry->beaconInterval, pBssEntry->RSSI));
}
WLAN_OS_REPORT(("-----------------------------------------------------------------------\n"));
}