/* * siteMgrDebug.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 */ /** \file siteMgrDebug.c * \brief The siteMgrDebug module. * * \see siteMgrDebug.h */ #include "tidef.h" #include "osApi.h" #include "paramOut.h" #include "siteMgrDebug.h" #include "siteMgrApi.h" #include "siteHash.h" #include "report.h" #include "CmdDispatcher.h" #include "DrvMainModules.h" #include "sme.h" #include "apConn.h" #include "healthMonitor.h" #include "conn.h" #include "connApi.h" #ifdef XCC_MODULE_INCLUDED #include "XCCMngr.h" #endif static void printPrimarySite(siteMgr_t *pSiteMgr); void printSiteTable(siteMgr_t *pSiteMgr, char *desiredSsid); static void printDesiredParams(siteMgr_t *pSiteMgr, TI_HANDLE hCmdDispatch); static void printPrimarySiteDesc(siteMgr_t *pSiteMgr, OS_802_11_BSSID *pPrimarySiteDesc); static void setRateSet(TI_UINT8 maxRate, TRates *pRates); void printSiteMgrHelpMenu(void); /* Function implementation */ void siteMgrDebugFunction (TI_HANDLE hSiteMgr, TStadHandlesList *pStadHandles, TI_UINT32 funcType, void *pParam) { siteMgr_t *pSiteMgr = (siteMgr_t *)hSiteMgr; paramInfo_t param; TSsid newDesiredSsid; TI_UINT8 value; TI_UINT8 i; OS_802_11_BSSID primarySiteDesc; TRates ratesSet; newDesiredSsid.len = 5; os_memoryCopy(pSiteMgr->hOs, (void *)newDesiredSsid.str, "yaeli", 5); switch (funcType) { case SITE_MGR_DEBUG_HELP_MENU: printSiteMgrHelpMenu(); break; case PRIMARY_SITE_DBG: printPrimarySite(pSiteMgr); break; case SITE_TABLE_DBG: printSiteTable(pSiteMgr, NULL); break; case DESIRED_PARAMS_DBG: printDesiredParams(pSiteMgr, pStadHandles->hCmdDispatch); break; case GET_PRIMARY_SITE_DESC_DBG: param.paramType = SITE_MGR_GET_SELECTED_BSSID_INFO; param.content.pSiteMgrPrimarySiteDesc = &primarySiteDesc; cmdDispatch_GetParam(pStadHandles->hCmdDispatch, ¶m); printPrimarySiteDesc(pSiteMgr, &primarySiteDesc); break; case SET_RSN_DESIRED_CIPHER_SUITE_DBG: param.paramType = RSN_ENCRYPTION_STATUS_PARAM; value = *((TI_UINT32 *)pParam); param.content.rsnEncryptionStatus = (ECipherSuite)value; cmdDispatch_SetParam(pStadHandles->hCmdDispatch, ¶m); WLAN_OS_REPORT(("\nSetting RSN_DESIRED_CIPHER_SUITE_PARAM : %d\n", value)); break; case GET_RSN_DESIRED_CIPHER_SUITE_DBG: param.paramType = RSN_ENCRYPTION_STATUS_PARAM; cmdDispatch_GetParam(pStadHandles->hCmdDispatch, ¶m); WLAN_OS_REPORT(("\nGetting RSN_DESIRED_CIPHER_SUITE_PARAM: %d\n", param.content.rsnEncryptionStatus)); break; case SET_RSN_DESIRED_AUTH_TYPE_DBG: param.paramType = RSN_EXT_AUTHENTICATION_MODE; value = *((TI_UINT32 *)pParam); param.content.rsnDesiredAuthType = (EAuthSuite)value; cmdDispatch_SetParam(pStadHandles->hCmdDispatch, ¶m); if (value == RSN_AUTH_OPEN) WLAN_OS_REPORT(("\nSetting RSN_DESIRED_AUTH_TYPE_PARAM: RSN_AUTH_OPEN\n")); else if (value == RSN_AUTH_SHARED_KEY) WLAN_OS_REPORT(("\nSetting RSN_DESIRED_AUTH_TYPE_PARAM: RSN_AUTH_SHARED_KEY\n")); else if (value == RSN_AUTH_AUTO_SWITCH) WLAN_OS_REPORT(("\nSetting RSN_DESIRED_AUTH_TYPE_PARAM: RSN_AUTH_AUTO_SWITCH\n")); else WLAN_OS_REPORT(("\nSetting RSN_DESIRED_AUTH_TYPE_PARAM: Invalid: %d\n", value)); break; case GET_RSN_DESIRED_AUTH_TYPE_DBG: param.paramType = RSN_EXT_AUTHENTICATION_MODE; cmdDispatch_GetParam(pStadHandles->hCmdDispatch, ¶m); if (param.content.rsnDesiredAuthType == RSN_AUTH_OPEN) WLAN_OS_REPORT(("\nGetting RSN_DESIRED_AUTH_TYPE_PARAM: RSN_AUTH_OPEN\n")); else if (param.content.rsnDesiredAuthType == RSN_AUTH_SHARED_KEY) WLAN_OS_REPORT(("\nGetting RSN_DESIRED_AUTH_TYPE_PARAM: RSN_AUTH_SHARED_KEY\n")); else if (param.content.rsnDesiredAuthType == RSN_AUTH_AUTO_SWITCH) WLAN_OS_REPORT(("\nGetting RSN_DESIRED_AUTH_TYPE_PARAM: RSN_AUTH_AUTO_SWITCH\n")); else WLAN_OS_REPORT(("\nGetting RSN_DESIRED_AUTH_TYPE_PARAM: Invalid: %d\n", param.content.rsnDesiredAuthType)); break; case GET_CONNECTION_STATUS_DBG: param.paramType = SME_CONNECTION_STATUS_PARAM; cmdDispatch_GetParam(pStadHandles->hCmdDispatch, ¶m); if (param.content.smeSmConnectionStatus == eDot11Idle) WLAN_OS_REPORT(("\nGetting SITE_MGR_CONNECTION_STATUS_PARAM: STATUS_IDLE\n")); else if (param.content.smeSmConnectionStatus == eDot11Scaning) WLAN_OS_REPORT(("\nGetting SITE_MGR_CONNECTION_STATUS_PARAM: STATUS_SCANNING\n")); else if (param.content.smeSmConnectionStatus == eDot11Connecting) WLAN_OS_REPORT(("\nGetting SITE_MGR_CONNECTION_STATUS_PARAM: STATUS_CONNECTING\n")); else if (param.content.smeSmConnectionStatus == eDot11Associated) WLAN_OS_REPORT(("\nGetting SITE_MGR_CONNECTION_STATUS_PARAM: STATUS_ASSOCIATED\n")); else if (param.content.smeSmConnectionStatus == eDot11Disassociated) WLAN_OS_REPORT(("\nGetting SITE_MGR_CONNECTION_STATUS_PARAM: STATUS_DIS_ASSOCIATED\n")); else if (param.content.smeSmConnectionStatus == eDot11RadioDisabled) WLAN_OS_REPORT(("\nGetting SITE_MGR_CONNECTION_STATUS_PARAM: STATUS_RADIO_DISABLED\n")); else WLAN_OS_REPORT(("\nGetting SITE_MGR_CONNECTION_STATUS_PARAM: STATUS_ERROR\n")); break; case SET_SUPPORTED_RATE_SET_DBG: param.paramType = SITE_MGR_DESIRED_SUPPORTED_RATE_SET_PARAM; value = *((TI_UINT32 *)pParam); setRateSet(value, &ratesSet); os_memoryCopy(pSiteMgr->hOs, &(param.content.siteMgrDesiredSupportedRateSet), &(ratesSet), sizeof(TRates)); WLAN_OS_REPORT(("\nSetting SET_SUPPORTED_RATE_SET_DBG\n")); cmdDispatch_SetParam(pStadHandles->hCmdDispatch, ¶m); break; case GET_SUPPORTED_RATE_SET_DBG: param.paramType = SITE_MGR_DESIRED_SUPPORTED_RATE_SET_PARAM; cmdDispatch_GetParam(pStadHandles->hCmdDispatch, ¶m); WLAN_OS_REPORT(("\nGetting SITE_MGR_DESIRED_SUPPORTED_RATE_SET_PARAM\n")); if(param.content.siteMgrDesiredSupportedRateSet.len == 0) WLAN_OS_REPORT(("\nNo rates defined\n")); else { for (i = 0; i < param.content.siteMgrDesiredSupportedRateSet.len; i++) WLAN_OS_REPORT(("\nRate %d is 0x%X\n", i +1, param.content.siteMgrDesiredSupportedRateSet.ratesString[i])); } break; case SET_MLME_LEGACY_AUTH_TYPE_DBG: param.paramType = MLME_LEGACY_TYPE_PARAM; value = *((TI_UINT32 *)pParam); param.content.mlmeLegacyAuthType = (legacyAuthType_e)value; cmdDispatch_SetParam(pStadHandles->hCmdDispatch, ¶m); if (value == AUTH_LEGACY_OPEN_SYSTEM) WLAN_OS_REPORT(("\nSetting MLME_LEGACY_TYPE_PARAM: AUTH_LEGACY_OPEN_SYSTEM\n")); else if (value == AUTH_LEGACY_SHARED_KEY) WLAN_OS_REPORT(("\nSetting MLME_LEGACY_TYPE_PARAM: AUTH_LEGACY_SHARED_KEY\n")); else if (value == AUTH_LEGACY_AUTO_SWITCH) WLAN_OS_REPORT(("\nSetting MLME_LEGACY_TYPE_PARAM: AUTH_LEGACY_AUTO_SWITCH\n")); else WLAN_OS_REPORT(("\nSetting MLME_LEGACY_TYPE_PARAM: Invalid: %d\n", value)); break; case GET_MLME_LEGACY_AUTH_TYPE_DBG: param.paramType = MLME_LEGACY_TYPE_PARAM; cmdDispatch_GetParam(pStadHandles->hCmdDispatch, ¶m); if (param.content.mlmeLegacyAuthType == AUTH_LEGACY_OPEN_SYSTEM) WLAN_OS_REPORT(("\nGetting MLME_LEGACY_TYPE_PARAM: AUTH_LEGACY_OPEN_SYSTEM\n")); else if (param.content.rsnDesiredAuthType == AUTH_LEGACY_SHARED_KEY) WLAN_OS_REPORT(("\nGetting MLME_LEGACY_TYPE_PARAM: AUTH_LEGACY_SHARED_KEY\n")); else if (param.content.rsnDesiredAuthType == AUTH_LEGACY_AUTO_SWITCH) WLAN_OS_REPORT(("\nGetting MLME_LEGACY_TYPE_PARAM: AUTH_AUTO_SWITCH\n")); else WLAN_OS_REPORT(("\nGetting MLME_LEGACY_TYPE_PARAM: Invalid: %d\n", param.content.rsnDesiredAuthType)); break; case RADIO_STAND_BY_CHANGE_STATE: WLAN_OS_REPORT(("\nChange GPIO-13 State...\n")); break; case PRINT_FAILURE_EVENTS: { WLAN_OS_REPORT(("\n PRINT HEALTH MONITOR LOG\n")); healthMonitor_printFailureEvents (pStadHandles->hHealthMonitor); apConn_printStatistics(pStadHandles->hAPConnection); conn_ibssPrintStatistics(pStadHandles->hConn); if (((conn_t*)pStadHandles->hConn)->currentConnType==CONNECTION_INFRA) { switch (((conn_t*)pStadHandles->hConn)->state) { case 0: WLAN_OS_REPORT((" CONN state is IDLE\n")); break; case 1: WLAN_OS_REPORT((" CONN state is SCR_WAIT\n")); break; case 2: WLAN_OS_REPORT((" CONN state is WAIT_JOIN_CMPLT\n")); break; case 3: WLAN_OS_REPORT((" CONN state is MLME_WAIT\n")); break; case 4: WLAN_OS_REPORT((" CONN state is RSN_WAIT\n")); break; case 5: WLAN_OS_REPORT((" CONN state is CONFIG_HW\n")); break; case 6: WLAN_OS_REPORT((" CONN state is CONNECTED\n")); break; case 7: WLAN_OS_REPORT((" CONN state is DISASSOCC\n")); break; default: break; } } } break; case FORCE_HW_RESET_RECOVERY: WLAN_OS_REPORT(("\n Currently not supported!\n")); break; case FORCE_SOFT_RECOVERY: WLAN_OS_REPORT(("\n FORCE Full Recovery (Soft)\n")); break; case PERFORM_HEALTH_TEST: WLAN_OS_REPORT(("\n PERFORM_HEALTH_TEST \n")); healthMonitor_PerformTest(pStadHandles->hHealthMonitor, TI_FALSE); break; case PRINT_SITE_TABLE_PER_SSID: printSiteTable(pSiteMgr, (char*)pParam); break; case SET_DESIRED_CHANNEL: param.paramType = SITE_MGR_DESIRED_CHANNEL_PARAM; param.content.siteMgrDesiredChannel = *(TI_UINT8*)pParam; siteMgr_setParam(pStadHandles->hSiteMgr, ¶m); break; default: WLAN_OS_REPORT(("Invalid function type in Debug Site Manager Function Command: %d\n\n", funcType)); break; } } static void printPrimarySite(siteMgr_t *pSiteMgr) { siteEntry_t *pSiteEntry; char ssid[MAX_SSID_LEN + 1]; pSiteEntry = pSiteMgr->pSitesMgmtParams->pPrimarySite; if (pSiteEntry == NULL) { WLAN_OS_REPORT(("\n\n************************ PRIMARY SITE IS NULL ****************************\n\n\n")); return; } WLAN_OS_REPORT(("\n\n************************ PRIMARY SITE ****************************\n\n\n")); WLAN_OS_REPORT(("BSSID %2X-%2X-%2X-%2X-%2X-%2X ", pSiteEntry->bssid[0], pSiteEntry->bssid[1], pSiteEntry->bssid[2], pSiteEntry->bssid[3], pSiteEntry->bssid[4], pSiteEntry->bssid[5])); os_memoryCopy(pSiteMgr->hOs,ssid, (void *)pSiteEntry->ssid.str, pSiteEntry->ssid.len); ssid[pSiteEntry->ssid.len] = 0; WLAN_OS_REPORT(("SSID %s\n\n", ssid)); if (pSiteEntry->bssType == BSS_INFRASTRUCTURE) WLAN_OS_REPORT(("BSS Type INFRASTRUCTURE\n\n")); else if (pSiteEntry->bssType == BSS_INDEPENDENT) WLAN_OS_REPORT(("BSS Type IBSS\n\n")); else if (pSiteEntry->bssType == BSS_ANY) WLAN_OS_REPORT(("BSS Type ANY\n\n")); else WLAN_OS_REPORT(("BSS Type INVALID\n\n")); WLAN_OS_REPORT(("Channel %d\n", pSiteEntry->channel)); WLAN_OS_REPORT(("\n")); switch (pSiteEntry->maxBasicRate) { case DRV_RATE_1M: WLAN_OS_REPORT(("Max Basic Rate RATE_1M_BIT\n")); break; case DRV_RATE_2M: WLAN_OS_REPORT(("Max Basic Rate RATE_2M_BIT\n")); break; case DRV_RATE_5_5M: WLAN_OS_REPORT(("Max Basic Rate RATE_5_5M_BIT\n")); break; case DRV_RATE_11M: WLAN_OS_REPORT(("Max Basic Rate RATE_11M_BIT\n")); break; case DRV_RATE_6M: WLAN_OS_REPORT(("Max Basic Rate RATE_6M_BIT\n")); break; case DRV_RATE_9M: WLAN_OS_REPORT(("Max Basic Rate RATE_9M_BIT\n")); break; case DRV_RATE_12M: WLAN_OS_REPORT(("Max Basic Rate RATE_12M_BIT\n")); break; case DRV_RATE_18M: WLAN_OS_REPORT(("Max Basic Rate RATE_18M_BIT\n")); break; case DRV_RATE_24M: WLAN_OS_REPORT(("Max Basic Rate RATE_24M_BIT\n")); break; case DRV_RATE_36M: WLAN_OS_REPORT(("Max Basic Rate RATE_36M_BIT\n")); break; case DRV_RATE_48M: WLAN_OS_REPORT(("Max Basic Rate RATE_48M_BIT\n")); break; case DRV_RATE_54M: WLAN_OS_REPORT(("Max Basic Rate RATE_54M_BIT\n")); break; default: WLAN_OS_REPORT(("Max Basic Rate INVALID, 0x%X\n", pSiteEntry->maxBasicRate)); break; } switch (pSiteEntry->maxActiveRate) { case DRV_RATE_1M: WLAN_OS_REPORT(("Max Active Rate RATE_1M_BIT\n")); break; case DRV_RATE_2M: WLAN_OS_REPORT(("Max Active Rate RATE_2M_BIT\n")); break; case DRV_RATE_5_5M: WLAN_OS_REPORT(("Max Active Rate RATE_5_5M_BIT\n")); break; case DRV_RATE_11M: WLAN_OS_REPORT(("Max Active Rate RATE_11M_BIT\n")); break; case DRV_RATE_22M: WLAN_OS_REPORT(("Max Active Rate RATE_22M_BIT\n")); break; case DRV_RATE_6M: WLAN_OS_REPORT(("Max Active Rate RATE_6M_BIT\n")); break; case DRV_RATE_9M: WLAN_OS_REPORT(("Max Active Rate RATE_9M_BIT\n")); break; case DRV_RATE_12M: WLAN_OS_REPORT(("Max Active Rate RATE_12M_BIT\n")); break; case DRV_RATE_18M: WLAN_OS_REPORT(("Max Active Rate RATE_18M_BIT\n")); break; case DRV_RATE_24M: WLAN_OS_REPORT(("Max Active Rate RATE_24M_BIT\n")); break; case DRV_RATE_36M: WLAN_OS_REPORT(("Max Active Rate RATE_36M_BIT\n")); break; case DRV_RATE_48M: WLAN_OS_REPORT(("Max Active Rate RATE_48M_BIT\n")); break; case DRV_RATE_54M: WLAN_OS_REPORT(("Max Active Rate RATE_54M_BIT\n")); break; default: WLAN_OS_REPORT(("Max Active Rate INVALID, 0x%X\n", pSiteEntry->maxActiveRate)); break; } WLAN_OS_REPORT(("\n")); if (pSiteEntry->probeModulation == DRV_MODULATION_QPSK) WLAN_OS_REPORT(("Probe Modulation QPSK\n")); else if (pSiteEntry->probeModulation == DRV_MODULATION_CCK) WLAN_OS_REPORT(("Probe Modulation CCK\n")); else if (pSiteEntry->probeModulation == DRV_MODULATION_PBCC) WLAN_OS_REPORT(("Probe Modulation PBCC\n")); else if (pSiteEntry->probeModulation == DRV_MODULATION_OFDM) WLAN_OS_REPORT(("Probe Modulation OFDM\n")); else WLAN_OS_REPORT(("Probe Modulation INVALID, %d\n", pSiteEntry->probeModulation)); if (pSiteEntry->beaconModulation == DRV_MODULATION_QPSK) WLAN_OS_REPORT(("Beacon Modulation QPSK\n")); else if (pSiteEntry->beaconModulation == DRV_MODULATION_CCK) WLAN_OS_REPORT(("Beacon Modulation CCK\n")); else if (pSiteEntry->beaconModulation == DRV_MODULATION_PBCC) WLAN_OS_REPORT(("Beacon Modulation PBCC\n")); else if (pSiteEntry->beaconModulation == DRV_MODULATION_OFDM) WLAN_OS_REPORT(("Beacon Modulation OFDM\n")); else WLAN_OS_REPORT(("Beacon Modulation INVALID, %d\n", pSiteEntry->beaconModulation)); WLAN_OS_REPORT(("\n")); if (pSiteEntry->privacy == TI_TRUE) WLAN_OS_REPORT(("Privacy On\n\n")); else WLAN_OS_REPORT(("Privacy Off\n\n")); if (pSiteEntry->currentPreambleType == PREAMBLE_SHORT) WLAN_OS_REPORT(("Cap Preamble Type Short\n")); else if (pSiteEntry->currentPreambleType == PREAMBLE_LONG) WLAN_OS_REPORT(("Cap Preamble Type Long\n")); else WLAN_OS_REPORT(("Preamble INVALID, %d\n", pSiteEntry->currentPreambleType)); if(pSiteEntry->barkerPreambleType == PREAMBLE_UNSPECIFIED) WLAN_OS_REPORT(("Barker preamble Type Unspecified\n")); else if(pSiteEntry->barkerPreambleType == PREAMBLE_SHORT) WLAN_OS_REPORT(("Barker_Preamble Type Short\n")); else WLAN_OS_REPORT(("Barker_Preamble Type Long\n")); if(pSiteEntry->currentSlotTime == PHY_SLOT_TIME_SHORT) WLAN_OS_REPORT(("Slot time type Short\n")); else WLAN_OS_REPORT(("Slot time type Long\n")); WLAN_OS_REPORT(("\n")); WLAN_OS_REPORT(("Beacon interval %d\n", pSiteEntry->beaconInterval)); WLAN_OS_REPORT(("Local Time Stamp %d\n", pSiteEntry->localTimeStamp)); WLAN_OS_REPORT(("rssi %d\n", pSiteEntry->rssi)); WLAN_OS_REPORT(("\n")); WLAN_OS_REPORT(("Fail status %d\n", pSiteEntry->failStatus)); WLAN_OS_REPORT(("\n---------------------------------------------------------------\n\n", NULL)); } void printSiteTable(siteMgr_t *pSiteMgr, char *desiredSsid) { TI_UINT8 i, numOfSites = 0; siteEntry_t *pSiteEntry; char ssid[MAX_SSID_LEN + 1]; siteTablesParams_t *pCurrentSiteTable = pSiteMgr->pSitesMgmtParams->pCurrentSiteTable; TI_UINT8 tableIndex=2; WLAN_OS_REPORT(("\n\n************************ SITE TABLE ****************************\n\n\n")); do { tableIndex--; for (i = 0; i < pCurrentSiteTable->maxNumOfSites; i++) { pSiteEntry = &(pCurrentSiteTable->siteTable[i]); if (pSiteEntry->siteType == SITE_NULL) continue; os_memoryCopy(pSiteMgr->hOs ,ssid, (void *)pCurrentSiteTable->siteTable[i].ssid.str, pCurrentSiteTable->siteTable[i].ssid.len); ssid[pCurrentSiteTable->siteTable[i].ssid.len] = 0; if (desiredSsid != NULL) { int desiredSsidLength = 0; char * tmp = desiredSsid; while (tmp != '\0') { desiredSsidLength++; tmp++; } if (os_memoryCompare(pSiteMgr->hOs, (TI_UINT8 *)ssid, (TI_UINT8 *)desiredSsid, desiredSsidLength)) continue; } WLAN_OS_REPORT(("SSID %s\n\n", ssid)); if (pSiteEntry->siteType == SITE_PRIMARY) WLAN_OS_REPORT( (" ENTRY PRIMARY %d \n", numOfSites)); else WLAN_OS_REPORT( (" ENTRY %d\n", i)); WLAN_OS_REPORT(("BSSID %2X-%2X-%2X-%2X-%2X-%2X \n", pCurrentSiteTable->siteTable[i].bssid[0], pCurrentSiteTable->siteTable[i].bssid[1], pCurrentSiteTable->siteTable[i].bssid[2], pCurrentSiteTable->siteTable[i].bssid[3], pCurrentSiteTable->siteTable[i].bssid[4], pCurrentSiteTable->siteTable[i].bssid[5])); if (pCurrentSiteTable->siteTable[i].bssType == BSS_INFRASTRUCTURE) WLAN_OS_REPORT(("BSS Type INFRASTRUCTURE\n\n")); else if (pCurrentSiteTable->siteTable[i].bssType == BSS_INDEPENDENT) WLAN_OS_REPORT(("BSS Type IBSS\n\n")); else if (pCurrentSiteTable->siteTable[i].bssType == BSS_ANY) WLAN_OS_REPORT(("BSS Type ANY\n\n")); else WLAN_OS_REPORT(("BSS Type INVALID\n\n")); WLAN_OS_REPORT(("Channel %d\n", pCurrentSiteTable->siteTable[i].channel)); WLAN_OS_REPORT(("\n")); switch (pCurrentSiteTable->siteTable[i].maxBasicRate) { case DRV_RATE_1M: WLAN_OS_REPORT(("Max Basic Rate RATE_1M_BIT\n")); break; case DRV_RATE_2M: WLAN_OS_REPORT(("Max Basic Rate RATE_2M_BIT\n")); break; case DRV_RATE_5_5M: WLAN_OS_REPORT(("Max Basic Rate RATE_5_5M_BIT\n")); break; case DRV_RATE_11M: WLAN_OS_REPORT(("Max Basic Rate RATE_11M_BIT\n")); break; case DRV_RATE_6M: WLAN_OS_REPORT(("Max Basic Rate RATE_6M_BIT\n")); break; case DRV_RATE_9M: WLAN_OS_REPORT(("Max Basic Rate RATE_9M_BIT\n")); break; case DRV_RATE_12M: WLAN_OS_REPORT(("Max Basic Rate RATE_12M_BIT\n")); break; case DRV_RATE_18M: WLAN_OS_REPORT(("Max Basic Rate RATE_18M_BIT\n")); break; case DRV_RATE_24M: WLAN_OS_REPORT(("Max Basic Rate RATE_24M_BIT\n")); break; case DRV_RATE_36M: WLAN_OS_REPORT(("Max Basic Rate RATE_36M_BIT\n")); break; case DRV_RATE_48M: WLAN_OS_REPORT(("Max Basic Rate RATE_48M_BIT\n")); break; case DRV_RATE_54M: WLAN_OS_REPORT(("Max Basic Rate RATE_54M_BIT\n")); break; default: WLAN_OS_REPORT(("Max Basic Rate INVALID, 0x%X\n", pCurrentSiteTable->siteTable[i].maxBasicRate)); break; } switch (pCurrentSiteTable->siteTable[i].maxActiveRate) { case DRV_RATE_1M: WLAN_OS_REPORT(("Max Active Rate RATE_1M_BIT\n")); break; case DRV_RATE_2M: WLAN_OS_REPORT(("Max Active Rate RATE_2M_BIT\n")); break; case DRV_RATE_5_5M: WLAN_OS_REPORT(("Max Active Rate RATE_5_5M_BIT\n")); break; case DRV_RATE_11M: WLAN_OS_REPORT(("Max Active Rate RATE_11M_BIT\n")); break; case DRV_RATE_22M: WLAN_OS_REPORT(("Max Active Rate RATE_22M_BIT\n")); break; case DRV_RATE_6M: WLAN_OS_REPORT(("Max Active Rate RATE_6M_BIT\n")); break; case DRV_RATE_9M: WLAN_OS_REPORT(("Max Active Rate RATE_9M_BIT\n")); break; case DRV_RATE_12M: WLAN_OS_REPORT(("Max Active Rate RATE_12M_BIT\n")); break; case DRV_RATE_18M: WLAN_OS_REPORT(("Max Active Rate RATE_18M_BIT\n")); break; case DRV_RATE_24M: WLAN_OS_REPORT(("Max Active Rate RATE_24M_BIT\n")); break; case DRV_RATE_36M: WLAN_OS_REPORT(("Max Active Rate RATE_36M_BIT\n")); break; case DRV_RATE_48M: WLAN_OS_REPORT(("Max Active Rate RATE_48M_BIT\n")); break; case DRV_RATE_54M: WLAN_OS_REPORT(("Max Active Rate RATE_54M_BIT\n")); break; default: WLAN_OS_REPORT(("Max Active Rate INVALID, 0x%X\n", pCurrentSiteTable->siteTable[i].maxActiveRate)); break; } WLAN_OS_REPORT(("\n")); if (pCurrentSiteTable->siteTable[i].probeModulation == DRV_MODULATION_QPSK) WLAN_OS_REPORT(("Probe Modulation QPSK\n")); else if (pCurrentSiteTable->siteTable[i].probeModulation == DRV_MODULATION_CCK) WLAN_OS_REPORT(("Probe Modulation CCK\n")); else if (pCurrentSiteTable->siteTable[i].probeModulation == DRV_MODULATION_PBCC) WLAN_OS_REPORT(("Probe Modulation PBCC\n")); else WLAN_OS_REPORT(("Probe Modulation INVALID, %d\n", pCurrentSiteTable->siteTable[i].probeModulation)); if (pCurrentSiteTable->siteTable[i].beaconModulation == DRV_MODULATION_QPSK) WLAN_OS_REPORT(("Beacon Modulation QPSK\n")); else if (pCurrentSiteTable->siteTable[i].beaconModulation == DRV_MODULATION_CCK) WLAN_OS_REPORT(("Beacon Modulation CCK\n")); else if (pCurrentSiteTable->siteTable[i].beaconModulation == DRV_MODULATION_PBCC) WLAN_OS_REPORT(("Beacon Modulation PBCC\n")); else WLAN_OS_REPORT(("Beacon Modulation INVALID, %d\n", pCurrentSiteTable->siteTable[i].beaconModulation)); WLAN_OS_REPORT(("\n")); if (pCurrentSiteTable->siteTable[i].privacy == TI_TRUE) WLAN_OS_REPORT(("Privacy On\n")); else WLAN_OS_REPORT(("Privacy Off\n")); if (pCurrentSiteTable->siteTable[i].currentPreambleType == PREAMBLE_SHORT) WLAN_OS_REPORT(("Preamble Type Short\n")); else if (pCurrentSiteTable->siteTable[i].currentPreambleType == PREAMBLE_LONG) WLAN_OS_REPORT(("Preamble Type Long\n")); else WLAN_OS_REPORT(("Preamble INVALID, %d\n", pCurrentSiteTable->siteTable[i].currentPreambleType)); WLAN_OS_REPORT(("\n")); WLAN_OS_REPORT(("Beacon interval %d\n", pCurrentSiteTable->siteTable[i].beaconInterval)); WLAN_OS_REPORT(("Local Time Stamp %d\n", pCurrentSiteTable->siteTable[i].localTimeStamp)); WLAN_OS_REPORT(("rssi %d\n", pCurrentSiteTable->siteTable[i].rssi)); WLAN_OS_REPORT(("\n")); WLAN_OS_REPORT(("Fail status %d\n", pCurrentSiteTable->siteTable[i].failStatus)); WLAN_OS_REPORT(("ATIM Window %d\n", pCurrentSiteTable->siteTable[i].atimWindow)); WLAN_OS_REPORT(("\n---------------------------------------------------------------\n\n", NULL)); numOfSites++; } WLAN_OS_REPORT(("\n Number Of Sites: %d\n", numOfSites)); WLAN_OS_REPORT(("\n---------------------------------------------------------------\n", NULL)); if ((pSiteMgr->pDesiredParams->siteMgrDesiredDot11Mode == DOT11_DUAL_MODE) && (tableIndex==1)) { /* change site table */ if (pCurrentSiteTable == &pSiteMgr->pSitesMgmtParams->dot11BG_sitesTables) { WLAN_OS_REPORT(("\n dot11A_sitesTables \n")); pCurrentSiteTable = (siteTablesParams_t *)&pSiteMgr->pSitesMgmtParams->dot11A_sitesTables; } else { WLAN_OS_REPORT(("\n dot11BG_sitesTables \n")); pCurrentSiteTable = &pSiteMgr->pSitesMgmtParams->dot11BG_sitesTables; } } } while (tableIndex>0); } static void printDesiredParams(siteMgr_t *pSiteMgr, TI_HANDLE hCmdDispatch) { paramInfo_t param; WLAN_OS_REPORT(("\n\n*****************************************", NULL)); WLAN_OS_REPORT(("*****************************************\n\n", NULL)); WLAN_OS_REPORT(("Channel %d\n", pSiteMgr->pDesiredParams->siteMgrDesiredChannel)); WLAN_OS_REPORT(("\n*****************************************\n\n", NULL)); switch (pSiteMgr->pDesiredParams->siteMgrDesiredRatePair.maxBasic) { case DRV_RATE_1M: WLAN_OS_REPORT(("Max Basic Rate RATE_1M_BIT\n")); break; case DRV_RATE_2M: WLAN_OS_REPORT(("Max Basic Rate RATE_2M_BIT\n")); break; case DRV_RATE_5_5M: WLAN_OS_REPORT(("Max Basic Rate RATE_5_5M_BIT\n")); break; case DRV_RATE_11M: WLAN_OS_REPORT(("Max Basic Rate RATE_11M_BIT\n")); break; case DRV_RATE_22M: WLAN_OS_REPORT(("Max Basic Rate RATE_22M_BIT\n")); break; case DRV_RATE_6M: WLAN_OS_REPORT(("Max Basic Rate RATE_6M_BIT\n")); break; case DRV_RATE_9M: WLAN_OS_REPORT(("Max Basic Rate RATE_9M_BIT\n")); break; case DRV_RATE_12M: WLAN_OS_REPORT(("Max Basic Rate RATE_12M_BIT\n")); break; case DRV_RATE_18M: WLAN_OS_REPORT(("Max Basic Rate RATE_18M_BIT\n")); break; case DRV_RATE_24M: WLAN_OS_REPORT(("Max Basic Rate RATE_24M_BIT\n")); break; case DRV_RATE_36M: WLAN_OS_REPORT(("Max Basic Rate RATE_36M_BIT\n")); break; case DRV_RATE_48M: WLAN_OS_REPORT(("Max Basic Rate RATE_48M_BIT\n")); break; case DRV_RATE_54M: WLAN_OS_REPORT(("Max Basic Rate RATE_54M_BIT\n")); break; default: WLAN_OS_REPORT(("Invalid basic rate value 0x%X\n", pSiteMgr->pDesiredParams->siteMgrDesiredRatePair.maxBasic)); break; } switch (pSiteMgr->pDesiredParams->siteMgrDesiredRatePair.maxActive) { case DRV_RATE_1M: WLAN_OS_REPORT(("Max Active Rate RATE_1M_BIT\n")); break; case DRV_RATE_2M: WLAN_OS_REPORT(("Max Active Rate RATE_2M_BIT\n")); break; case DRV_RATE_5_5M: WLAN_OS_REPORT(("Max Active Rate RATE_5_5M_BIT\n")); break; case DRV_RATE_11M: WLAN_OS_REPORT(("Max Active Rate RATE_11M_BIT\n")); break; case DRV_RATE_22M: WLAN_OS_REPORT(("Max Active Rate RATE_22M_BIT\n")); break; case DRV_RATE_6M: WLAN_OS_REPORT(("Max Active Rate RATE_6M_BIT\n")); break; case DRV_RATE_9M: WLAN_OS_REPORT(("Max Active Rate RATE_9M_BIT\n")); break; case DRV_RATE_12M: WLAN_OS_REPORT(("Max Active Rate RATE_12M_BIT\n")); break; case DRV_RATE_18M: WLAN_OS_REPORT(("Max Active Rate RATE_18M_BIT\n")); break; case DRV_RATE_24M: WLAN_OS_REPORT(("Max Active Rate RATE_24M_BIT\n")); break; case DRV_RATE_36M: WLAN_OS_REPORT(("Max Active Rate RATE_36M_BIT\n")); break; case DRV_RATE_48M: WLAN_OS_REPORT(("Max Active Rate RATE_48M_BIT\n")); break; case DRV_RATE_54M: WLAN_OS_REPORT(("Max Active Rate RATE_54M_BIT\n")); break; default: WLAN_OS_REPORT(("Invalid basic rate value 0x%X\n", pSiteMgr->pDesiredParams->siteMgrDesiredRatePair.maxActive)); break; } if (pSiteMgr->pDesiredParams->siteMgrDesiredModulationType == DRV_MODULATION_QPSK) WLAN_OS_REPORT(("Modulation Type QPSK\n")); else if (pSiteMgr->pDesiredParams->siteMgrDesiredModulationType == DRV_MODULATION_CCK) WLAN_OS_REPORT(("Modulation Type CCK\n")); else if (pSiteMgr->pDesiredParams->siteMgrDesiredModulationType == DRV_MODULATION_PBCC) WLAN_OS_REPORT(("Modulation Type PBCC\n")); else if (pSiteMgr->pDesiredParams->siteMgrDesiredModulationType == DRV_MODULATION_OFDM) WLAN_OS_REPORT(("Modulation Type OFDM\n")); else WLAN_OS_REPORT(("Invalid Modulation Type %d\n", pSiteMgr->pDesiredParams->siteMgrDesiredModulationType)); WLAN_OS_REPORT(("\n*****************************************\n\n", NULL)); param.paramType = RSN_EXT_AUTHENTICATION_MODE; cmdDispatch_GetParam(hCmdDispatch, ¶m); if (param.content.rsnDesiredAuthType == RSN_AUTH_OPEN) WLAN_OS_REPORT(("Authentication Type Open System\n")); else if (param.content.rsnDesiredAuthType == RSN_AUTH_SHARED_KEY) WLAN_OS_REPORT(("Authentication Type Shared Key\n")); else WLAN_OS_REPORT(("Authentication Type Invalid: %d\n", param.content.rsnDesiredAuthType)); param.paramType = RSN_ENCRYPTION_STATUS_PARAM; cmdDispatch_GetParam(hCmdDispatch, ¶m); if (param.content.rsnEncryptionStatus == TWD_CIPHER_NONE) WLAN_OS_REPORT(("WEP Off\n")); else if (param.content.rsnEncryptionStatus == TWD_CIPHER_WEP) WLAN_OS_REPORT(("WEP On\n")); else WLAN_OS_REPORT(("WEP Invalid: %d\n", param.content.rsnEncryptionStatus)); WLAN_OS_REPORT(("\n")); WLAN_OS_REPORT(("\n*****************************************\n\n", NULL)); if(pSiteMgr->pDesiredParams->siteMgrDesiredDot11Mode == DOT11_B_MODE) WLAN_OS_REPORT(("Desired dot11mode 11b\n")); else if(pSiteMgr->pDesiredParams->siteMgrDesiredDot11Mode == DOT11_G_MODE) WLAN_OS_REPORT(("Desired dot11mode 11g\n")); else if(pSiteMgr->pDesiredParams->siteMgrDesiredDot11Mode == DOT11_A_MODE) WLAN_OS_REPORT(("Desired dot11mode 11a\n")); else if(pSiteMgr->pDesiredParams->siteMgrDesiredDot11Mode == DOT11_DUAL_MODE) WLAN_OS_REPORT(("Desired dot11mode dual 11a/g\n")); else WLAN_OS_REPORT(("Desired dot11mode INVALID\n")); WLAN_OS_REPORT(("\n*****************************************\n\n", NULL)); if(pSiteMgr->pDesiredParams->siteMgrDesiredSlotTime == PHY_SLOT_TIME_SHORT) WLAN_OS_REPORT(("Desired slot time short\n")); else if(pSiteMgr->pDesiredParams->siteMgrDesiredSlotTime == PHY_SLOT_TIME_LONG) WLAN_OS_REPORT(("Desired slot time long\n")); else WLAN_OS_REPORT(("Desired slot time INVALID\n")); WLAN_OS_REPORT(("\n*****************************************\n\n", NULL)); if (pSiteMgr->pDesiredParams->siteMgrDesiredPreambleType == PREAMBLE_SHORT) WLAN_OS_REPORT(("Desired Preamble Short\n")); else if (pSiteMgr->pDesiredParams->siteMgrDesiredPreambleType == PREAMBLE_LONG) WLAN_OS_REPORT(("Desired Preamble Long\n")); else WLAN_OS_REPORT(("Invalid Desired Preamble %d\n", pSiteMgr->pDesiredParams->siteMgrDesiredPreambleType)); WLAN_OS_REPORT(("Beacon interval %d\n", pSiteMgr->pDesiredParams->siteMgrDesiredBeaconInterval)); WLAN_OS_REPORT(("\n*****************************************", NULL)); WLAN_OS_REPORT(("*****************************************\n\n", NULL)); } static void printPrimarySiteDesc(siteMgr_t *pSiteMgr, OS_802_11_BSSID *pPrimarySiteDesc) { TI_UINT8 rateIndex; char ssid[MAX_SSID_LEN + 1]; WLAN_OS_REPORT(("\n^^^^^^^^^^^^^^^ PRIMARY SITE DESCRIPTION ^^^^^^^^^^^^^^^^^^^\n\n")); /* MacAddress */ WLAN_OS_REPORT(("BSSID 0x%X-0x%X-0x%X-0x%X-0x%X-0x%X\n", pPrimarySiteDesc->MacAddress[0], pPrimarySiteDesc->MacAddress[1], pPrimarySiteDesc->MacAddress[2], pPrimarySiteDesc->MacAddress[3], pPrimarySiteDesc->MacAddress[4], pPrimarySiteDesc->MacAddress[5])); /* Capabilities */ WLAN_OS_REPORT(("Capabilities 0x%X\n", pPrimarySiteDesc->Capabilities)); /* SSID */ os_memoryCopy(pSiteMgr->hOs, ssid, (void *)pPrimarySiteDesc->Ssid.Ssid, pPrimarySiteDesc->Ssid.SsidLength); ssid[pPrimarySiteDesc->Ssid.SsidLength] = 0; WLAN_OS_REPORT(("SSID %s\n", ssid)); /* privacy */ if (pPrimarySiteDesc->Privacy == TI_TRUE) WLAN_OS_REPORT(("Privacy ON\n")); else WLAN_OS_REPORT(("Privacy OFF\n")); /* RSSI */ WLAN_OS_REPORT(("RSSI %d\n", ((pPrimarySiteDesc->Rssi)>>16))); if (pPrimarySiteDesc->InfrastructureMode == os802_11IBSS) WLAN_OS_REPORT(("BSS Type IBSS\n")); else WLAN_OS_REPORT(("BSS Type INFRASTRUCTURE\n")); /* SupportedRates */ for (rateIndex = 0; rateIndex < DOT11_MAX_SUPPORTED_RATES; rateIndex++) { if (pPrimarySiteDesc->SupportedRates[rateIndex] != 0) WLAN_OS_REPORT(("Rate 0x%X\n", pPrimarySiteDesc->SupportedRates[rateIndex])); } WLAN_OS_REPORT(("\n---------------------------------------------------------------\n\n", NULL)); } static void setRateSet(TI_UINT8 maxRate, TRates *pRates) { TI_UINT8 i = 0; switch (maxRate) { case DRV_RATE_54M: pRates->ratesString[i] = 108; i++; case DRV_RATE_48M: pRates->ratesString[i] = 96; i++; case DRV_RATE_36M: pRates->ratesString[i] = 72; i++; case DRV_RATE_24M: pRates->ratesString[i] = 48; i++; case DRV_RATE_18M: pRates->ratesString[i] = 36; i++; case DRV_RATE_12M: pRates->ratesString[i] = 24; i++; case DRV_RATE_9M: pRates->ratesString[i] = 18; i++; case DRV_RATE_6M: pRates->ratesString[i] = 12; i++; case DRV_RATE_22M: pRates->ratesString[i] = 44; i++; case DRV_RATE_11M: pRates->ratesString[i] = 22; pRates->ratesString[i] |= 0x80; i++; case DRV_RATE_5_5M: pRates->ratesString[i] = 11; pRates->ratesString[i] |= 0x80; i++; case DRV_RATE_2M: pRates->ratesString[i] = 4; pRates->ratesString[i] |= 0x80; i++; case DRV_RATE_1M: pRates->ratesString[i] = 2; pRates->ratesString[i] |= 0x80; i++; break; default: WLAN_OS_REPORT(("Set Rate Set, invalid max rate %d\n", maxRate)); pRates->len = 0; } pRates->len = i; } void printSiteMgrHelpMenu(void) { WLAN_OS_REPORT(("\n\n Site Manager Debug Menu \n")); WLAN_OS_REPORT(("------------------------\n")); WLAN_OS_REPORT(("500 - Help.\n")); WLAN_OS_REPORT(("501 - Primary Site Parameters.\n")); WLAN_OS_REPORT(("502 - Sites List.\n")); WLAN_OS_REPORT(("503 - Desired Parameters.\n")); WLAN_OS_REPORT(("507 - Set Power save Mode.\n")); WLAN_OS_REPORT(("508 - Get Power save Mode.\n")); WLAN_OS_REPORT(("511 - Set Default Key Id.\n")); WLAN_OS_REPORT(("512 - Get Default Key Id.\n")); WLAN_OS_REPORT(("513 - Set Key.\n")); WLAN_OS_REPORT(("514 - Get Key.\n")); WLAN_OS_REPORT(("515 - Set Cypher Suite.\n")); WLAN_OS_REPORT(("516 - Get Cypher Suite.\n")); WLAN_OS_REPORT(("517 - Set Auth Mode.\n")); WLAN_OS_REPORT(("518 - Get Auth Mode.\n")); WLAN_OS_REPORT(("519 - Get Primary Site Description.\n")); WLAN_OS_REPORT(("520 - Get Connection Status.\n")); WLAN_OS_REPORT(("522 - Get Current Tx Rate.\n")); WLAN_OS_REPORT(("525 - Set Supported Rate Set.\n")); WLAN_OS_REPORT(("526 - Get Supported Rate Set.\n")); WLAN_OS_REPORT(("527 - Set Auth type.\n")); WLAN_OS_REPORT(("528 - Get Auth type.\n")); WLAN_OS_REPORT((" %03d - RADIO_STAND_BY_CHANGE_STATE \n", RADIO_STAND_BY_CHANGE_STATE)); WLAN_OS_REPORT((" %03d - CONNECT_TO_BSSID \n", CONNECT_TO_BSSID)); WLAN_OS_REPORT((" %03d - SET_START_CLI_SCAN_PARAM \n", SET_START_CLI_SCAN_PARAM)); WLAN_OS_REPORT((" %03d - SET_STOP_CLI_SCAN_PARAM \n", SET_STOP_CLI_SCAN_PARAM)); WLAN_OS_REPORT((" %03d - SET_BROADCAST_BACKGROUND_SCAN_PARAM \n", SET_BROADCAST_BACKGROUND_SCAN_PARAM)); WLAN_OS_REPORT((" %03d - ENABLE_PERIODIC_BROADCAST_BBACKGROUND_SCAN_PARAM \n", ENABLE_PERIODIC_BROADCAST_BACKGROUND_SCAN_PARAM)); WLAN_OS_REPORT((" %03d - DISABLE_PERIODIC_BROADCAST_BACKGROUND_SCAN_PARAM \n", DISABLE_PERIODIC_BROADCAST_BACKGROUND_SCAN_PARAM)); WLAN_OS_REPORT((" %03d - SET_UNICAST_BACKGROUND_SCAN_PARAM \n", SET_UNICAST_BACKGROUND_SCAN_PARAM)); WLAN_OS_REPORT((" %03d - ENABLE_PERIODIC_UNICAST_BACKGROUND_SCAN_PARAM \n", ENABLE_PERIODIC_UNICAST_BACKGROUND_SCAN_PARAM)); WLAN_OS_REPORT((" %03d - DISABLE_PERIODIC_UNICAST_BACKGROUND_SCAN_PARAM \n", DISABLE_PERIODIC_UNICAST_BACKGROUND_SCAN_PARAM)); WLAN_OS_REPORT((" %03d - SET_FOREGROUND_SCAN_PARAM \n", SET_FOREGROUND_SCAN_PARAM)); WLAN_OS_REPORT((" %03d - ENABLE_PERIODIC_FOREGROUND_SCAN_PARAM \n", ENABLE_PERIODIC_FOREGROUND_SCAN_PARAM)); WLAN_OS_REPORT((" %03d - DISABLE_PERIODIC_FOREGROUND_SCAN_PARAM \n", DISABLE_PERIODIC_FOREGROUND_SCAN_PARAM)); WLAN_OS_REPORT((" %03d - SET_CHANNEL_NUMBER \n", SET_CHANNEL_NUMBER)); WLAN_OS_REPORT((" %03d - SET_RSSI_GAP_THRSH \n", SET_RSSI_GAP_THRSH)); WLAN_OS_REPORT((" %03d - SET_FAST_SCAN_TIMEOUT \n", SET_FAST_SCAN_TIMEOUT)); WLAN_OS_REPORT((" %03d - SET_INTERNAL_ROAMING_ENABLE \n", SET_INTERNAL_ROAMING_ENABLE)); WLAN_OS_REPORT((" %03d - PERFORM_HEALTH_TEST \n", PERFORM_HEALTH_TEST)); WLAN_OS_REPORT((" %03d - PRINT_FAILURE_EVENTS \n", PRINT_FAILURE_EVENTS)); WLAN_OS_REPORT((" %03d - FORCE_HW_RESET_RECOVERY \n", FORCE_HW_RESET_RECOVERY)); WLAN_OS_REPORT((" %03d - FORCE_SOFT_RECOVERY \n", FORCE_SOFT_RECOVERY)); WLAN_OS_REPORT((" %03d - RESET_ROAMING_EVENTS \n", RESET_ROAMING_EVENTS)); WLAN_OS_REPORT((" %03d - SET_DESIRED_CONS_TX_ERRORS_THREH\n", SET_DESIRED_CONS_TX_ERRORS_THREH)); WLAN_OS_REPORT((" %03d - GET_CURRENT_ROAMING_STATUS \n", GET_CURRENT_ROAMING_STATUS)); WLAN_OS_REPORT((" %03d - TOGGLE_LNA_ON \n", TEST_TOGGLE_LNA_ON)); WLAN_OS_REPORT((" %03d - TOGGLE_LNA_OFF \n", TEST_TOGGLE_LNA_OFF)); WLAN_OS_REPORT((" %03d - PRINT_SITE_TABLE_PER_SSID\n", PRINT_SITE_TABLE_PER_SSID)); WLAN_OS_REPORT((" %03d - SET_DESIRED_CHANNEL\n", SET_DESIRED_CHANNEL)); WLAN_OS_REPORT((" %03d - START_PRE_AUTH\n", START_PRE_AUTH)); WLAN_OS_REPORT(("\n------------------------\n")); }