blob: 682a0f7eb9d39c13b9353635863a9bb83c08948e [file] [log] [blame]
/*
* Copyright (c) 2011-2017 The Linux Foundation. All rights reserved.
*
* Previously licensed under the ISC license by Qualcomm Atheros, Inc.
*
*
* Permission to use, copy, modify, and/or distribute this software for
* any purpose with or without fee is hereby granted, provided that the
* above copyright notice and this permission notice appear in all
* copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
* WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
* AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
* DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
* PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
* TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
* PERFORMANCE OF THIS SOFTWARE.
*/
/*
* This file was originally distributed by Qualcomm Atheros, Inc.
* under proprietary terms before Copyright ownership was assigned
* to the Linux Foundation.
*/
/** ------------------------------------------------------------------------- *
------------------------------------------------------------------------- *
\file csrNeighborRoam.c
Implementation for the simple roaming algorithm for 802.11r Fast transitions and Legacy roaming for Android platform.
========================================================================== */
/*===========================================================================
EDIT HISTORY FOR FILE
This section contains comments describing changes made to the module.
Notice that changes are listed in reverse chronological order.
when who what, where, why
---------- --- --------------------------------------------------------
08/01/10 Murali Created
===========================================================================*/
#ifdef WLAN_FEATURE_NEIGHBOR_ROAMING
#include "wlan_qct_wda.h"
#include "palApi.h"
#include "csrInsideApi.h"
#include "smsDebug.h"
#include "logDump.h"
#include "smeQosInternal.h"
#include "wlan_qct_tl.h"
#include "smeInside.h"
#include "vos_diag_core_event.h"
#include "vos_diag_core_log.h"
#include "csrApi.h"
#include "wlan_qct_tl.h"
#include "sme_Api.h"
#include "csrNeighborRoam.h"
#include "macTrace.h"
#if defined(FEATURE_WLAN_ESE) && !defined(FEATURE_WLAN_ESE_UPLOAD)
#include "csrEse.h"
#endif
#define WLAN_FEATURE_NEIGHBOR_ROAMING_DEBUG 1
#ifdef WLAN_FEATURE_NEIGHBOR_ROAMING_DEBUG
#define NEIGHBOR_ROAM_DEBUG smsLog
#else
#define NEIGHBOR_ROAM_DEBUG(x...)
#endif
static void csrNeighborRoamResetChannelInfo(tpCsrNeighborRoamChannelInfo rChInfo);
static void csrNeighborRoamResetCfgListChanScanControlInfo(tpAniSirGlobal pMac,
tANI_U8 sessionId);
static void csrNeighborRoamResetPreauthControlInfo(tpAniSirGlobal pMac,
tANI_U8 sessionId);
static void csrNeighborRoamDeregAllRssiIndication(tpAniSirGlobal pMac,
tANI_U8 sessionId);
VOS_STATUS csrNeighborRoamNeighborLookupUPCallback (v_PVOID_t pAdapter, v_U8_t rssiNotification,
v_PVOID_t pUserCtxt,
v_S7_t avgRssi);
VOS_STATUS csrNeighborRoamNeighborLookupDOWNCallback (v_PVOID_t pAdapter, v_U8_t rssiNotification,
v_PVOID_t pUserCtxt,
v_S7_t avgRssi);
void csrNeighborRoamRRMNeighborReportResult(void *context, VOS_STATUS vosStatus);
eHalStatus csrRoamCopyConnectedProfile(tpAniSirGlobal pMac, tANI_U32 sessionId, tCsrRoamProfile *pDstProfile );
#ifdef WLAN_FEATURE_VOWIFI_11R
static eHalStatus csrNeighborRoamIssuePreauthReq(tpAniSirGlobal pMac,
tANI_U8 sessionId);
VOS_STATUS csrNeighborRoamIssueNeighborRptRequest(tpAniSirGlobal pMac,
tANI_U8 sessionId);
#endif
v_U8_t *csrNeighborRoamStateToString(v_U8_t state)
{
switch(state)
{
CASE_RETURN_STRING( eCSR_NEIGHBOR_ROAM_STATE_CLOSED );
CASE_RETURN_STRING( eCSR_NEIGHBOR_ROAM_STATE_INIT );
CASE_RETURN_STRING( eCSR_NEIGHBOR_ROAM_STATE_CONNECTED );
CASE_RETURN_STRING( eCSR_NEIGHBOR_ROAM_STATE_CFG_CHAN_LIST_SCAN );
CASE_RETURN_STRING( eCSR_NEIGHBOR_ROAM_STATE_REASSOCIATING );
CASE_RETURN_STRING( eCSR_NEIGHBOR_ROAM_STATE_REPORT_QUERY );
CASE_RETURN_STRING( eCSR_NEIGHBOR_ROAM_STATE_REPORT_SCAN );
CASE_RETURN_STRING( eCSR_NEIGHBOR_ROAM_STATE_PREAUTHENTICATING );
CASE_RETURN_STRING( eCSR_NEIGHBOR_ROAM_STATE_PREAUTH_DONE );
default:
return "eCSR_NEIGHBOR_ROAM_STATE_UNKNOWN";
}
}
/* State Transition macro */
void csr_neighbor_roam_state_transition(tpAniSirGlobal mac_ctx,
uint8_t newstate, uint8_t session)
{
mac_ctx->roam.neighborRoamInfo[session].prevNeighborRoamState =
mac_ctx->roam.neighborRoamInfo[session].neighborRoamState;
mac_ctx->roam.neighborRoamInfo[session].neighborRoamState = newstate;
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_DEBUG,
FL("Session id(%d) NeighborRoam Transition from %s ==> %s"),
session,
csrNeighborRoamStateToString (
mac_ctx->roam.neighborRoamInfo[session].prevNeighborRoamState),
csrNeighborRoamStateToString (newstate));
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamFreeNeighborRoamBSSNode
\brief This function frees all the internal pointers CSR NeighborRoam BSS Info
and also frees the node itself
\param pMac - The handle returned by macOpen.
neighborRoamBSSNode - Neighbor Roam BSS Node to be freed
\return VOID
---------------------------------------------------------------------------*/
void csrNeighborRoamFreeNeighborRoamBSSNode(tpAniSirGlobal pMac, tpCsrNeighborRoamBSSInfo neighborRoamBSSNode)
{
if (neighborRoamBSSNode)
{
if (neighborRoamBSSNode->pBssDescription)
{
vos_mem_free(neighborRoamBSSNode->pBssDescription);
neighborRoamBSSNode->pBssDescription = NULL;
}
vos_mem_free(neighborRoamBSSNode);
neighborRoamBSSNode = NULL;
}
return;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamRemoveRoamableAPListEntry
\brief This function removes a given entry from the given list
\param pMac - The handle returned by macOpen.
pList - The list from which the entry should be removed
pNeighborEntry - Neighbor Roam BSS Node to be removed
\return TRUE if successfully removed, else FALSE
---------------------------------------------------------------------------*/
tANI_BOOLEAN csrNeighborRoamRemoveRoamableAPListEntry(tpAniSirGlobal pMac,
tDblLinkList *pList, tpCsrNeighborRoamBSSInfo pNeighborEntry)
{
if(pList)
{
return csrLLRemoveEntry(pList, &pNeighborEntry->List, LL_ACCESS_LOCK);
}
smsLog(pMac, LOGE, FL("Removing neighbor BSS node from list failed. Current count = %d"), csrLLCount(pList));
return eANI_BOOLEAN_FALSE;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamGetRoamableAPListNextEntry
\brief Gets the entry next to passed entry. If NULL is passed, return the entry in the head of the list
\param pMac - The handle returned by macOpen.
pList - The list from which the entry should be returned
pNeighborEntry - Neighbor Roam BSS Node whose next entry should be returned
\return Neighbor Roam BSS Node to be returned
---------------------------------------------------------------------------*/
tpCsrNeighborRoamBSSInfo csrNeighborRoamGetRoamableAPListNextEntry(tpAniSirGlobal pMac,
tDblLinkList *pList, tpCsrNeighborRoamBSSInfo pNeighborEntry)
{
tListElem *pEntry = NULL;
tpCsrNeighborRoamBSSInfo pResult = NULL;
if(pList)
{
if(NULL == pNeighborEntry)
{
pEntry = csrLLPeekHead(pList, LL_ACCESS_LOCK);
}
else
{
pEntry = csrLLNext(pList, &pNeighborEntry->List, LL_ACCESS_LOCK);
}
if(pEntry)
{
pResult = GET_BASE_ADDR(pEntry, tCsrNeighborRoamBSSInfo, List);
}
}
return pResult;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamFreeRoamableBSSList
\brief Empties and frees all the nodes in the roam able AP list
\param pMac - The handle returned by macOpen.
pList - Neighbor Roam BSS List to be emptied
\return VOID
---------------------------------------------------------------------------*/
void csrNeighborRoamFreeRoamableBSSList(tpAniSirGlobal pMac, tDblLinkList *pList)
{
tpCsrNeighborRoamBSSInfo pResult = NULL;
NEIGHBOR_ROAM_DEBUG(pMac, LOG2, FL("Emptying the BSS list. Current count = %d"), csrLLCount(pList));
/* Pick up the head, remove and free the node till the list becomes empty */
while ((pResult = csrNeighborRoamGetRoamableAPListNextEntry(pMac, pList, NULL)) != NULL)
{
csrNeighborRoamRemoveRoamableAPListEntry(pMac, pList, pResult);
csrNeighborRoamFreeNeighborRoamBSSNode(pMac, pResult);
}
return;
}
static void csrNeighborRoamTriggerHandoff(tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
#ifdef WLAN_FEATURE_VOWIFI_11R
if ((pNeighborRoamInfo->is11rAssoc)
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
&& !csrRoamIsRoamOffloadScanEnabled(pMac)
#endif
)
{
if ((eCSR_NEIGHBOR_ROAM_STATE_REPORT_SCAN == pNeighborRoamInfo->neighborRoamState) ||
(eSME_ROAM_TRIGGER_FAST_ROAM == pNeighborRoamInfo->cfgRoamEn))
{
csrNeighborRoamIssuePreauthReq(pMac, sessionId);
pNeighborRoamInfo->cfgRoamEn = eSME_ROAM_TRIGGER_NONE;
vos_mem_set(&pNeighborRoamInfo->cfgRoambssId[0],
sizeof(pNeighborRoamInfo->cfgRoambssId),
0xFF);
}
else
{
smsLog(pMac, LOGE, FL("11R Reassoc indication received in unexpected state %s"),
macTraceGetNeighbourRoamState(
pNeighborRoamInfo->neighborRoamState));
VOS_ASSERT(0);
}
}
else
#endif
#ifdef FEATURE_WLAN_ESE
if ((pNeighborRoamInfo->isESEAssoc)
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
&& !csrRoamIsRoamOffloadScanEnabled(pMac)
#endif
)
{
if (eCSR_NEIGHBOR_ROAM_STATE_REPORT_SCAN == pNeighborRoamInfo->neighborRoamState)
{
csrNeighborRoamIssuePreauthReq(pMac, sessionId);
}
else
{
smsLog(pMac, LOGE, FL("CCX Reassoc indication received in unexpected state %s"),
macTraceGetNeighbourRoamState(
pNeighborRoamInfo->neighborRoamState));
VOS_ASSERT(0);
}
}
else
#endif
#ifdef FEATURE_WLAN_LFR
if (csrRoamIsFastRoamEnabled(pMac, sessionId))
{
if ((eCSR_NEIGHBOR_ROAM_STATE_REPORT_SCAN == pNeighborRoamInfo->neighborRoamState)
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
|| csrRoamIsRoamOffloadScanEnabled(pMac) ||
(eSME_ROAM_TRIGGER_FAST_ROAM == pNeighborRoamInfo->cfgRoamEn)
#endif
)
{
csrNeighborRoamIssuePreauthReq(pMac, sessionId);
pNeighborRoamInfo->cfgRoamEn = eSME_ROAM_TRIGGER_NONE;
vos_mem_set(&pNeighborRoamInfo->cfgRoambssId[0],
sizeof(pNeighborRoamInfo->cfgRoambssId),
0xFF);
}
else
{
smsLog(pMac, LOGE, FL("LFR Reassoc indication received in unexpected state %s"),
macTraceGetNeighbourRoamState(
pNeighborRoamInfo->neighborRoamState));
VOS_ASSERT(0);
}
}
else
#endif
{
if (eCSR_NEIGHBOR_ROAM_STATE_CFG_CHAN_LIST_SCAN == pNeighborRoamInfo->neighborRoamState)
{
csrNeighborRoamRequestHandoff(pMac, sessionId);
}
else
{
smsLog(pMac, LOGE, FL("Non-11R Reassoc indication received in unexpected state %s or Roaming is disabled"),
macTraceGetNeighbourRoamState(
pNeighborRoamInfo->neighborRoamState));
}
}
}
VOS_STATUS
csrNeighborRoamUpdateFastRoamingEnabled(tpAniSirGlobal pMac,
tANI_U8 sessionId,
const v_BOOL_t fastRoamEnabled)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
VOS_STATUS vosStatus = VOS_STATUS_SUCCESS;
tpFTRoamCallbackUsrCtx pUsrCtx;
if (eCSR_NEIGHBOR_ROAM_STATE_CONNECTED == pNeighborRoamInfo->neighborRoamState)
{
if (VOS_TRUE == fastRoamEnabled)
{
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (pMac->roam.configParam.isRoamOffloadScanEnabled)
{
csrRoamOffloadScan(pMac, sessionId, ROAM_SCAN_OFFLOAD_START,
REASON_CONNECT);
} else {
#endif
NEIGHBOR_ROAM_DEBUG(pMac, LOG2, FL("Registering neighbor lookup "
"DOWN event with TL, RSSI = %d"),
pNeighborRoamInfo->currentNeighborLookupThreshold);
/* Both pMac and sessionId are required to identify for which
* session the indication is being received
*/
pUsrCtx = vos_mem_malloc(sizeof(*pUsrCtx));
if (NULL == pUsrCtx) {
smsLog(pMac, LOGE, FL("Memory allocation failure"));
return VOS_STATUS_E_NOMEM;
}
pUsrCtx->pMac = pMac;
pUsrCtx->sessionId = sessionId;
/* Register Neighbor Lookup threshold callback with TL for
DOWN event only */
vosStatus = WLANTL_RegRSSIIndicationCB(pMac->roam.gVosContext,
(v_S7_t)pNeighborRoamInfo->currentNeighborLookupThreshold * (-1),
WLANTL_HO_THRESHOLD_DOWN,
csrNeighborRoamNeighborLookupDOWNCallback,
VOS_MODULE_ID_SME, pUsrCtx);
vos_mem_free(pUsrCtx);
if (!VOS_IS_STATUS_SUCCESS(vosStatus)) {
smsLog(pMac, LOGW,
FL("Failed to register RSSI indication callback = %d"),
vosStatus);
vosStatus = VOS_STATUS_E_FAILURE;
}
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
}
#endif
}
else if (VOS_FALSE == fastRoamEnabled)
{
NEIGHBOR_ROAM_DEBUG(pMac, LOG2, FL("Currently in CONNECTED state, so deregister all events"));
/* De-register existing lookup UP/DOWN, Rssi indications */
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (pMac->roam.configParam.isRoamOffloadScanEnabled)
{
csrRoamOffloadScan(pMac, sessionId, ROAM_SCAN_OFFLOAD_STOP,
REASON_DISCONNECTED);
} else {
#endif
csrNeighborRoamDeregAllRssiIndication(pMac, sessionId);
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
}
#endif
}
}
else if (eCSR_NEIGHBOR_ROAM_STATE_INIT == pNeighborRoamInfo->neighborRoamState)
{
NEIGHBOR_ROAM_DEBUG(pMac, LOG2, FL("Currently in INIT state, Nothing to do"));
}
else
{
NEIGHBOR_ROAM_DEBUG(pMac, LOGE,
FL("Unexpected state %s, returning failure"),
macTraceGetNeighbourRoamState(
pNeighborRoamInfo->neighborRoamState));
vosStatus = VOS_STATUS_E_FAILURE;
}
return vosStatus;
}
#ifdef FEATURE_WLAN_ESE
VOS_STATUS csrNeighborRoamUpdateEseModeEnabled(tpAniSirGlobal pMac,
tANI_U8 sessionId,
const v_BOOL_t eseMode)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
VOS_STATUS vosStatus = VOS_STATUS_SUCCESS;
tpFTRoamCallbackUsrCtx pUsrCtx;
if (eCSR_NEIGHBOR_ROAM_STATE_CONNECTED == pNeighborRoamInfo->neighborRoamState)
{
if (VOS_TRUE == eseMode)
{
NEIGHBOR_ROAM_DEBUG(pMac, LOG2,
FL("Registering neighbor lookup DOWN event with TL, RSSI = %d"),
pNeighborRoamInfo->currentNeighborLookupThreshold);
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (pMac->roam.configParam.isRoamOffloadScanEnabled)
{
csrRoamOffloadScan(pMac, sessionId, ROAM_SCAN_OFFLOAD_START,
REASON_CONNECT);
} else {
#endif
/* This user context data will be returned with callback */
pUsrCtx = vos_mem_malloc(sizeof(*pUsrCtx));
if (NULL == pUsrCtx) {
smsLog(pMac, LOGE, FL("Memory allocation failure"));
return VOS_STATUS_E_NOMEM;
}
pUsrCtx->pMac = pMac;
pUsrCtx->sessionId = sessionId;
/* Register Neighbor Lookup threshold callback with TL for DOWN event only */
vosStatus = WLANTL_RegRSSIIndicationCB(pMac->roam.gVosContext,
(v_S7_t)pNeighborRoamInfo->currentNeighborLookupThreshold * (-1),
WLANTL_HO_THRESHOLD_DOWN,
csrNeighborRoamNeighborLookupDOWNCallback,
VOS_MODULE_ID_SME, pUsrCtx);
vos_mem_free(pUsrCtx);
if (!VOS_IS_STATUS_SUCCESS(vosStatus)) {
smsLog(pMac, LOGW,
FL("Failed to register RSSI indication callback: Status = %d"),
vosStatus);
/* Registration failed, free the user context */
vosStatus = VOS_STATUS_E_FAILURE;
}
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
}
#endif
}
else if (VOS_FALSE == eseMode)
{
NEIGHBOR_ROAM_DEBUG(pMac, LOG2,
FL("Currently in CONNECTED state, so deregister all events"));
/* De-register existing lookup UP/DOWN, Rssi indications */
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (pMac->roam.configParam.isRoamOffloadScanEnabled)
{
csrRoamOffloadScan(pMac, sessionId, ROAM_SCAN_OFFLOAD_STOP,
REASON_DISCONNECTED);
} else {
#endif
csrNeighborRoamDeregAllRssiIndication(pMac, sessionId);
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
}
#endif
}
}
else if (eCSR_NEIGHBOR_ROAM_STATE_INIT ==
pNeighborRoamInfo->neighborRoamState)
{
NEIGHBOR_ROAM_DEBUG(pMac, LOG2,
FL("Currently in INIT state, Nothing to do"));
}
else
{
NEIGHBOR_ROAM_DEBUG(pMac, LOGE,
FL("Unexpected state %d, returning failure"),
pNeighborRoamInfo->neighborRoamState);
vosStatus = VOS_STATUS_E_FAILURE;
}
return vosStatus;
}
#endif
VOS_STATUS csrNeighborRoamSetLookupRssiThreshold(tpAniSirGlobal pMac,
tANI_U8 sessionId,
v_U8_t neighborLookupRssiThreshold)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
VOS_STATUS vosStatus = VOS_STATUS_SUCCESS;
tpFTRoamCallbackUsrCtx pUsrCtx;
if (eCSR_NEIGHBOR_ROAM_STATE_CONNECTED ==
pNeighborRoamInfo->neighborRoamState)
{
NEIGHBOR_ROAM_DEBUG(pMac, LOG2,
FL("In CONNECTED state, re-register for DOWN event only"));
pNeighborRoamInfo->cfgParams.neighborLookupThreshold =
neighborLookupRssiThreshold;
pNeighborRoamInfo->currentNeighborLookupThreshold =
pNeighborRoamInfo->cfgParams.neighborLookupThreshold;
/* De-register existing lookup UP/DOWN, Rssi indications */
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (pMac->roam.configParam.isRoamOffloadScanEnabled)
{
csrRoamOffloadScan(pMac, sessionId, ROAM_SCAN_OFFLOAD_UPDATE_CFG,
REASON_LOOKUP_THRESH_CHANGED);
}
else
{
#endif
csrNeighborRoamDeregAllRssiIndication(pMac, sessionId);
/* This user context data will be returned with callback */
pUsrCtx = vos_mem_malloc(sizeof(*pUsrCtx));
if (NULL == pUsrCtx) {
smsLog(pMac, LOGE, FL("Memory allocation failure"));
return VOS_STATUS_E_NOMEM;
}
pUsrCtx->pMac = pMac;
pUsrCtx->sessionId = sessionId;
NEIGHBOR_ROAM_DEBUG(pMac, LOG2,
FL("Registering neighbor lookup DOWN event with TL, RSSI = %d"),
pNeighborRoamInfo->currentNeighborLookupThreshold);
/* Register Neighbor Lookup threshold callback with TL for DOWN event only */
vosStatus = WLANTL_RegRSSIIndicationCB(pMac->roam.gVosContext,
(v_S7_t)pNeighborRoamInfo->currentNeighborLookupThreshold * (-1),
WLANTL_HO_THRESHOLD_DOWN,
csrNeighborRoamNeighborLookupDOWNCallback,
VOS_MODULE_ID_SME, pUsrCtx);
vos_mem_free(pUsrCtx);
if (!VOS_IS_STATUS_SUCCESS(vosStatus)) {
smsLog(pMac, LOGE,
FL("Failed to register DOWN event with TL: Status = %d"),
vosStatus);
/* Registration failed, free the user context */
vosStatus = VOS_STATUS_E_FAILURE;
}
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
}
#endif
}
else if (eCSR_NEIGHBOR_ROAM_STATE_INIT == pNeighborRoamInfo->neighborRoamState)
{
NEIGHBOR_ROAM_DEBUG(pMac, LOG2,
FL("Currently in INIT state, safe to set lookupRssi threshold"));
pNeighborRoamInfo->cfgParams.neighborLookupThreshold =
neighborLookupRssiThreshold;
pNeighborRoamInfo->currentNeighborLookupThreshold =
pNeighborRoamInfo->cfgParams.neighborLookupThreshold;
}
else
{
NEIGHBOR_ROAM_DEBUG(pMac, LOGE,
FL("Unexpected state %s, returning failure"),
macTraceGetNeighbourRoamState(pNeighborRoamInfo->neighborRoamState));
vosStatus = VOS_STATUS_E_FAILURE;
}
return vosStatus;
}
VOS_STATUS
csrNeighborRoamSetOpportunisticScanThresholdDiff(tpAniSirGlobal pMac,
tANI_U8 sessionId,
v_U8_t nOpportunisticThresholdDiff)
{
VOS_STATUS vosStatus = VOS_STATUS_SUCCESS;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
if (eCSR_NEIGHBOR_ROAM_STATE_CONNECTED
== pNeighborRoamInfo->neighborRoamState)
{
NEIGHBOR_ROAM_DEBUG(pMac,
LOG2,
FL("Currently in CONNECTED state, so deregister "
"all and re-register for DOWN event again"));
pNeighborRoamInfo->cfgParams.nOpportunisticThresholdDiff =
nOpportunisticThresholdDiff;
pNeighborRoamInfo->currentOpportunisticThresholdDiff =
nOpportunisticThresholdDiff;
/* De-register existing lookup UP/DOWN, Rssi indications */
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (pMac->roam.configParam.isRoamOffloadScanEnabled)
{
csrRoamOffloadScan(pMac,
sessionId,
ROAM_SCAN_OFFLOAD_UPDATE_CFG,
REASON_OPPORTUNISTIC_THRESH_DIFF_CHANGED);
}
#endif
}
else if (eCSR_NEIGHBOR_ROAM_STATE_INIT
== pNeighborRoamInfo->neighborRoamState)
{
NEIGHBOR_ROAM_DEBUG(pMac,
LOG2,
FL("Currently in INIT state, safe to set "
"opportunistic threshold diff"));
pNeighborRoamInfo->cfgParams.nOpportunisticThresholdDiff =
nOpportunisticThresholdDiff;
pNeighborRoamInfo->currentOpportunisticThresholdDiff =
nOpportunisticThresholdDiff;
}
else
{
NEIGHBOR_ROAM_DEBUG(pMac,
LOGE,
FL("Unexpected state %d returning failure"),
pNeighborRoamInfo->neighborRoamState);
vosStatus = VOS_STATUS_E_FAILURE;
}
return vosStatus;
}
VOS_STATUS
csrNeighborRoamSetRoamRescanRssiDiff(tpAniSirGlobal pMac,
tANI_U8 sessionId,
v_U8_t nRoamRescanRssiDiff)
{
VOS_STATUS vosStatus = VOS_STATUS_SUCCESS;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
if (eCSR_NEIGHBOR_ROAM_STATE_CONNECTED
== pNeighborRoamInfo->neighborRoamState)
{
NEIGHBOR_ROAM_DEBUG(pMac,
LOG2,
FL("Currently in CONNECTED state, so deregister "
"all and re-register for DOWN event again"));
pNeighborRoamInfo->cfgParams.nRoamRescanRssiDiff =
nRoamRescanRssiDiff;
pNeighborRoamInfo->currentRoamRescanRssiDiff =
nRoamRescanRssiDiff;
/* De-register existing lookup UP/DOWN, Rssi indications */
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (pMac->roam.configParam.isRoamOffloadScanEnabled)
{
csrRoamOffloadScan(pMac,
sessionId,
ROAM_SCAN_OFFLOAD_UPDATE_CFG,
REASON_ROAM_RESCAN_RSSI_DIFF_CHANGED);
}
#endif
}
else if (eCSR_NEIGHBOR_ROAM_STATE_INIT
== pNeighborRoamInfo->neighborRoamState)
{
NEIGHBOR_ROAM_DEBUG(pMac,
LOG2,
FL("Currently in INIT state, safe to set roam "
"rescan rssi diff"));
pNeighborRoamInfo->cfgParams.nRoamRescanRssiDiff =
nRoamRescanRssiDiff;
pNeighborRoamInfo->currentRoamRescanRssiDiff = nRoamRescanRssiDiff;
}
else
{
NEIGHBOR_ROAM_DEBUG(pMac,
LOGE,
FL("Unexpected state %d returning failure"),
pNeighborRoamInfo->neighborRoamState);
vosStatus = VOS_STATUS_E_FAILURE;
}
return vosStatus;
}
VOS_STATUS
csrNeighborRoamSetRoamBmissFirstBcnt(tpAniSirGlobal pMac,
tANI_U8 sessionId,
v_U8_t nRoamBmissFirstBcnt)
{
VOS_STATUS vosStatus = VOS_STATUS_SUCCESS;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
if (eCSR_NEIGHBOR_ROAM_STATE_CONNECTED
== pNeighborRoamInfo->neighborRoamState)
{
NEIGHBOR_ROAM_DEBUG(pMac,
LOG2,
FL("Currently in CONNECTED state, so deregister all and re-register for DOWN event again"));
pNeighborRoamInfo->cfgParams.nRoamBmissFirstBcnt =
nRoamBmissFirstBcnt;
pNeighborRoamInfo->currentRoamBmissFirstBcnt = nRoamBmissFirstBcnt;
/* De-register existing lookup UP/DOWN, Rssi indications */
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (pMac->roam.configParam.isRoamOffloadScanEnabled)
{
csrRoamOffloadScan(pMac,
sessionId,
ROAM_SCAN_OFFLOAD_UPDATE_CFG,
REASON_ROAM_BMISS_FIRST_BCNT_CHANGED);
}
#endif
}
else if (eCSR_NEIGHBOR_ROAM_STATE_INIT
== pNeighborRoamInfo->neighborRoamState)
{
NEIGHBOR_ROAM_DEBUG(pMac,
LOG2,
FL("Currently in INIT state, safe to set roam rescan rssi diff"));
pNeighborRoamInfo->cfgParams.nRoamBmissFirstBcnt =
nRoamBmissFirstBcnt;
pNeighborRoamInfo->currentRoamBmissFirstBcnt = nRoamBmissFirstBcnt;
}
else
{
NEIGHBOR_ROAM_DEBUG(pMac,
LOGE,
FL("Unexpected state %d returning failure"),
pNeighborRoamInfo->neighborRoamState);
vosStatus = VOS_STATUS_E_FAILURE;
}
return vosStatus;
}
VOS_STATUS
csrNeighborRoamSetRoamBmissFinalBcnt(tpAniSirGlobal pMac,
tANI_U8 sessionId,
v_U8_t nRoamBmissFinalBcnt)
{
VOS_STATUS vosStatus = VOS_STATUS_SUCCESS;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
if (eCSR_NEIGHBOR_ROAM_STATE_CONNECTED
== pNeighborRoamInfo->neighborRoamState)
{
NEIGHBOR_ROAM_DEBUG(pMac,
LOG2,
FL("Currently in CONNECTED state, so deregister all and re-register for DOWN event again"));
pNeighborRoamInfo->cfgParams.nRoamBmissFinalBcnt =
nRoamBmissFinalBcnt;
pNeighborRoamInfo->currentRoamBmissFinalBcnt = nRoamBmissFinalBcnt;
/* De-register existing lookup UP/DOWN, Rssi indications */
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (pMac->roam.configParam.isRoamOffloadScanEnabled)
{
csrRoamOffloadScan(pMac, sessionId,
ROAM_SCAN_OFFLOAD_UPDATE_CFG,
REASON_ROAM_BMISS_FINAL_BCNT_CHANGED);
}
#endif
}
else if (eCSR_NEIGHBOR_ROAM_STATE_INIT
== pNeighborRoamInfo->neighborRoamState)
{
NEIGHBOR_ROAM_DEBUG(pMac,
LOG2,
FL("Currently in INIT state, safe to set roam rescan rssi diff"));
pNeighborRoamInfo->cfgParams.nRoamBmissFinalBcnt =
nRoamBmissFinalBcnt;
pNeighborRoamInfo->currentRoamBmissFinalBcnt = nRoamBmissFinalBcnt;
}
else
{
NEIGHBOR_ROAM_DEBUG(pMac,
LOGE,
FL("Unexpected state %d returning failure"),
pNeighborRoamInfo->neighborRoamState);
vosStatus = VOS_STATUS_E_FAILURE;
}
return vosStatus;
}
VOS_STATUS
csrNeighborRoamSetRoamBeaconRssiWeight(tpAniSirGlobal pMac,
tANI_U8 sessionId,
v_U8_t nRoamBeaconRssiWeight)
{
VOS_STATUS vosStatus = VOS_STATUS_SUCCESS;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
if (eCSR_NEIGHBOR_ROAM_STATE_CONNECTED
== pNeighborRoamInfo->neighborRoamState)
{
NEIGHBOR_ROAM_DEBUG(pMac,
LOG2,
FL("Currently in CONNECTED state, so deregister all and re-register for DOWN event again"));
pNeighborRoamInfo->cfgParams.nRoamBeaconRssiWeight =
nRoamBeaconRssiWeight;
pNeighborRoamInfo->currentRoamBeaconRssiWeight = nRoamBeaconRssiWeight;
/* De-register existing lookup UP/DOWN, Rssi indications */
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (pMac->roam.configParam.isRoamOffloadScanEnabled)
{
csrRoamOffloadScan(pMac, sessionId,
ROAM_SCAN_OFFLOAD_UPDATE_CFG,
REASON_ROAM_BEACON_RSSI_WEIGHT_CHANGED);
}
#endif
}
else if (eCSR_NEIGHBOR_ROAM_STATE_INIT
== pNeighborRoamInfo->neighborRoamState)
{
NEIGHBOR_ROAM_DEBUG(pMac,
LOG2,
FL("Currently in INIT state, safe to set roam rescan rssi diff"));
pNeighborRoamInfo->cfgParams.nRoamBeaconRssiWeight =
nRoamBeaconRssiWeight;
pNeighborRoamInfo->currentRoamBeaconRssiWeight =
nRoamBeaconRssiWeight;
}
else
{
NEIGHBOR_ROAM_DEBUG(pMac,
LOGE,
FL("Unexpected state %d returning failure"),
pNeighborRoamInfo->neighborRoamState);
vosStatus = VOS_STATUS_E_FAILURE;
}
return vosStatus;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamReassocIndCallback
\brief Reassoc callback invoked by TL on crossing the registered re-assoc threshold.
Directly trigger HO in case of non-11r association
In case of 11R association, triggers a pre-auth eventually followed by actual HO
\param pAdapter - VOS Context
trafficStatus - UP/DOWN indication from TL
pUserCtxt - Parameter for callback registered during callback registration. Should be pMac
\return VOID
---------------------------------------------------------------------------*/
VOS_STATUS csrNeighborRoamReassocIndCallback(v_PVOID_t pAdapter,
v_U8_t trafficStatus,
v_PVOID_t pUserCtxt,
v_S7_t avgRssi)
{
tFTRoamCallbackUsrCtx *pUsrCtx = (tFTRoamCallbackUsrCtx *)pUserCtxt;
tANI_U8 sessionId = pUsrCtx->sessionId;
tpAniSirGlobal pMac = pUsrCtx->pMac;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
VOS_STATUS vosStatus = VOS_STATUS_SUCCESS;
if (eSME_ROAM_TRIGGER_FAST_ROAM != pNeighborRoamInfo->cfgRoamEn)
{
NEIGHBOR_ROAM_DEBUG(pMac, LOG2,
FL("Deregistering DOWN event reassoc callback with TL. "
"Threshold RSSI = %d Reported RSSI = %d"),
pNeighborRoamInfo->cfgParams.neighborReassocThreshold * (-1),
avgRssi);
vosStatus = WLANTL_DeregRSSIIndicationCB(pMac->roam.gVosContext,
(v_S7_t)pNeighborRoamInfo->cfgParams.neighborReassocThreshold * (-1),
WLANTL_HO_THRESHOLD_DOWN,
csrNeighborRoamReassocIndCallback,
VOS_MODULE_ID_SME);
if(!VOS_IS_STATUS_SUCCESS(vosStatus))
{
//err msg
smsLog(pMac, LOGW, FL(" Couldn't deregister csrNeighborRoamReassocIndCallback with TL: Status = %d"), vosStatus);
}
NEIGHBOR_ROAM_DEBUG(pMac, LOG2, FL("Rcvd reassoc notification-deregister UP indication. Threshold RSSI = %d Reported RSSI = %d"),
NEIGHBOR_ROAM_LOOKUP_UP_THRESHOLD * (-1), avgRssi);
vosStatus = WLANTL_DeregRSSIIndicationCB(pMac->roam.gVosContext,
(v_S7_t)NEIGHBOR_ROAM_LOOKUP_UP_THRESHOLD * (-1),
WLANTL_HO_THRESHOLD_UP,
csrNeighborRoamNeighborLookupUPCallback,
VOS_MODULE_ID_SME);
if(!VOS_IS_STATUS_SUCCESS(vosStatus))
{
//err msg
smsLog(pMac, LOGW, FL(" Couldn't deregister csrNeighborRoamNeighborLookupUPCallback with TL: Status = %d"), vosStatus);
}
}
/* We dont need to run this timer any more. */
vos_timer_stop(&pNeighborRoamInfo->neighborResultsRefreshTimer);
vos_timer_stop(&pNeighborRoamInfo->emptyScanRefreshTimer);
csrNeighborRoamTriggerHandoff(pMac, sessionId);
vos_mem_free(pUsrCtx);
return VOS_STATUS_SUCCESS;
}
/*CleanUP Routines*/
static void csrNeighborRoamResetChannelInfo(tpCsrNeighborRoamChannelInfo rChInfo)
{
if ((rChInfo->IAPPNeighborListReceived == FALSE) &&
(rChInfo->currentChannelListInfo.numOfChannels))
{
rChInfo->currentChanIndex = CSR_NEIGHBOR_ROAM_INVALID_CHANNEL_INDEX;
rChInfo->currentChannelListInfo.numOfChannels = 0;
if (rChInfo->currentChannelListInfo.ChannelList)
vos_mem_free(rChInfo->currentChannelListInfo.ChannelList);
rChInfo->currentChannelListInfo.ChannelList = NULL;
rChInfo->chanListScanInProgress = eANI_BOOLEAN_FALSE;
}
else
{
rChInfo->currentChanIndex = 0;
rChInfo->chanListScanInProgress = eANI_BOOLEAN_TRUE;
}
}
static void csrNeighborRoamResetCfgListChanScanControlInfo(tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
/* Stop neighbor scan timer */
vos_timer_stop(&pNeighborRoamInfo->neighborScanTimer);
/* Stop neighbor scan results refresh timer */
vos_timer_stop(&pNeighborRoamInfo->neighborResultsRefreshTimer);
/* Stop empty scan results refresh timer */
vos_timer_stop(&pNeighborRoamInfo->emptyScanRefreshTimer);
/* Abort any ongoing scan */
if (eANI_BOOLEAN_TRUE == pNeighborRoamInfo->scanRspPending)
{
csrScanAbortMacScan(pMac, sessionId, eCSR_SCAN_ABORT_DEFAULT);
}
pNeighborRoamInfo->scanRspPending = eANI_BOOLEAN_FALSE;
/* Reset roam channel list information */
csrNeighborRoamResetChannelInfo(&pNeighborRoamInfo->roamChannelInfo);
}
static void csrNeighborRoamResetPreauthControlInfo(tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
#if defined (WLAN_FEATURE_VOWIFI_11R) || defined (FEATURE_WLAN_ESE) || defined(FEATURE_WLAN_LFR)
pNeighborRoamInfo->is11rAssoc = eANI_BOOLEAN_FALSE;
/* Purge pre-auth fail list */
csrNeighborRoamPurgePreauthFailedList(pMac);
#endif
pNeighborRoamInfo->FTRoamInfo.preauthRspPending = eANI_BOOLEAN_FALSE;
pNeighborRoamInfo->FTRoamInfo.numPreAuthRetries = 0;
#ifdef WLAN_FEATURE_VOWIFI_11R
/* Do not free up the preauth done list here */
pNeighborRoamInfo->FTRoamInfo.currentNeighborRptRetryNum = 0;
pNeighborRoamInfo->FTRoamInfo.neighborRptPending = eANI_BOOLEAN_FALSE;
pNeighborRoamInfo->FTRoamInfo.numBssFromNeighborReport = 0;
vos_mem_zero(pNeighborRoamInfo->FTRoamInfo.neighboReportBssInfo,
sizeof(tCsrNeighborReportBssInfo) * MAX_BSS_IN_NEIGHBOR_RPT);
#endif
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
pNeighborRoamInfo->uOsRequestedHandoff = 0;
vos_mem_zero(&pNeighborRoamInfo->handoffReqInfo,
sizeof(tCsrHandoffRequest));
#endif
}
static void csrNeighborRoamDeregAllRssiIndication(tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
VOS_STATUS vosStatus = VOS_STATUS_SUCCESS;
NEIGHBOR_ROAM_DEBUG(pMac, LOG2,
FL("Deregister neighbor lookup UP callback with TL. RSSI = %d"),
NEIGHBOR_ROAM_LOOKUP_UP_THRESHOLD * (-1));
/* Deregister reassoc callback. Ignore return status */
vosStatus = WLANTL_DeregRSSIIndicationCB(pMac->roam.gVosContext,
(v_S7_t)NEIGHBOR_ROAM_LOOKUP_UP_THRESHOLD * (-1),
WLANTL_HO_THRESHOLD_UP,
csrNeighborRoamNeighborLookupUPCallback,
VOS_MODULE_ID_SME);
if(!VOS_IS_STATUS_SUCCESS(vosStatus))
{
smsLog(pMac, LOGW,
FL("Couldn't deregister csrNeighborRoamNeighborLookupUPCallback with TL: Status = %d"),
vosStatus);
}
NEIGHBOR_ROAM_DEBUG(pMac, LOG2,
FL("Deregistering reassoc DOWN callback with TL. RSSI = %d"),
pNeighborRoamInfo->cfgParams.neighborReassocThreshold * (-1));
/* Deregister reassoc callback. Ignore return status */
vosStatus = WLANTL_DeregRSSIIndicationCB(pMac->roam.gVosContext,
(v_S7_t)pNeighborRoamInfo->cfgParams.neighborReassocThreshold * (-1),
WLANTL_HO_THRESHOLD_DOWN,
csrNeighborRoamReassocIndCallback,
VOS_MODULE_ID_SME);
if(!VOS_IS_STATUS_SUCCESS(vosStatus))
{
smsLog(pMac, LOGW,
FL(" Couldn't deregister csrNeighborRoamReassocIndCallback with TL: Status = %d"),
vosStatus);
}
NEIGHBOR_ROAM_DEBUG(pMac, LOG2,
FL("Deregistering neighborLookup DOWN callback with TL. RSSI = %d"),
pNeighborRoamInfo->currentNeighborLookupThreshold * (-1));
/* Deregister neighbor lookup callback. Ignore return status */
vosStatus = WLANTL_DeregRSSIIndicationCB(pMac->roam.gVosContext,
(v_S7_t)pNeighborRoamInfo->currentNeighborLookupThreshold * (-1),
WLANTL_HO_THRESHOLD_DOWN,
csrNeighborRoamNeighborLookupDOWNCallback,
VOS_MODULE_ID_SME);
if(!VOS_IS_STATUS_SUCCESS(vosStatus))
{
smsLog(pMac, LOGW,
FL(" Couldn't deregister csrNeighborRoamNeighborLookupDOWNCallback with TL: Status = %d"),
vosStatus);
}
/* Reset thresholds only after deregistering DOWN event from TL */
pNeighborRoamInfo->currentNeighborLookupThreshold =
pNeighborRoamInfo->cfgParams.neighborLookupThreshold;
pNeighborRoamInfo->currentOpportunisticThresholdDiff =
pNeighborRoamInfo->cfgParams.nOpportunisticThresholdDiff;
pNeighborRoamInfo->currentRoamRescanRssiDiff =
pNeighborRoamInfo->cfgParams.nRoamRescanRssiDiff;
pNeighborRoamInfo->currentRoamBmissFirstBcnt =
pNeighborRoamInfo->cfgParams.nRoamBmissFirstBcnt;
pNeighborRoamInfo->currentRoamBmissFinalBcnt =
pNeighborRoamInfo->cfgParams.nRoamBmissFinalBcnt;
pNeighborRoamInfo->currentRoamBeaconRssiWeight =
pNeighborRoamInfo->cfgParams.nRoamBeaconRssiWeight;
#ifdef FEATURE_WLAN_LFR
pNeighborRoamInfo->uEmptyScanCount = 0;
pNeighborRoamInfo->lookupDOWNRssi = 0;
pNeighborRoamInfo->uScanMode = DEFAULT_SCAN;
#endif
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamResetConnectedStateControlInfo
\brief This function will reset the neighbor roam control info data structures.
This function should be invoked whenever we move to CONNECTED state from
any state other than INIT state
\param pMac - The handle returned by macOpen.
\param sessionId - session id
\return VOID
---------------------------------------------------------------------------*/
void csrNeighborRoamResetConnectedStateControlInfo(tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
csrNeighborRoamResetChannelInfo(&pNeighborRoamInfo->roamChannelInfo);
csrNeighborRoamFreeRoamableBSSList(pMac, &pNeighborRoamInfo->roamableAPList);
/* We dont need to run this timer any more. */
vos_timer_stop(&pNeighborRoamInfo->neighborResultsRefreshTimer);
vos_timer_stop(&pNeighborRoamInfo->emptyScanRefreshTimer);
#ifdef WLAN_FEATURE_VOWIFI_11R
/* Do not free up the preauth done list here */
pNeighborRoamInfo->FTRoamInfo.currentNeighborRptRetryNum = 0;
pNeighborRoamInfo->FTRoamInfo.neighborRptPending = eANI_BOOLEAN_FALSE;
pNeighborRoamInfo->FTRoamInfo.numPreAuthRetries = 0;
pNeighborRoamInfo->FTRoamInfo.numBssFromNeighborReport = 0;
pNeighborRoamInfo->FTRoamInfo.preauthRspPending = 0;
vos_mem_zero(pNeighborRoamInfo->FTRoamInfo.neighboReportBssInfo,
sizeof(tCsrNeighborReportBssInfo) * MAX_BSS_IN_NEIGHBOR_RPT);
#endif
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
pNeighborRoamInfo->uOsRequestedHandoff = 0;
vos_mem_zero(&pNeighborRoamInfo->handoffReqInfo,
sizeof(tCsrHandoffRequest));
#endif
}
void csrNeighborRoamResetReportScanStateControlInfo(tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
vos_mem_set(pNeighborRoamInfo->currAPbssid, sizeof(tCsrBssid), 0);
pNeighborRoamInfo->neighborScanTimerInfo.pMac = pMac;
pNeighborRoamInfo->neighborScanTimerInfo.sessionId = CSR_SESSION_ID_INVALID;
#ifdef FEATURE_WLAN_ESE
pNeighborRoamInfo->isESEAssoc = eANI_BOOLEAN_FALSE;
pNeighborRoamInfo->isVOAdmitted = eANI_BOOLEAN_FALSE;
pNeighborRoamInfo->MinQBssLoadRequired = 0;
#endif
/* Stop scan refresh timer */
vos_timer_stop(&pNeighborRoamInfo->neighborResultsRefreshTimer);
/* Stop empty scan results refresh timer */
vos_timer_stop(&pNeighborRoamInfo->emptyScanRefreshTimer);
/* Purge roam able AP list */
csrNeighborRoamFreeRoamableBSSList(pMac, &pNeighborRoamInfo->roamableAPList);
return;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamResetInitStateControlInfo
\brief This function will reset the neighbor roam control info data structures.
This function should be invoked whenever we move to CONNECTED state from
INIT state
\param pMac - The handle returned by macOpen.
\param sessionId - Session Id
\return VOID
---------------------------------------------------------------------------*/
void csrNeighborRoamResetInitStateControlInfo(tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
csrNeighborRoamResetConnectedStateControlInfo(pMac, sessionId);
/* In addition to the above resets,
we should clear off the curAPBssId/Session ID in the timers */
csrNeighborRoamResetReportScanStateControlInfo(pMac, sessionId);
}
#ifdef WLAN_FEATURE_VOWIFI_11R
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamBssIdScanFilter
\brief This API is used to prepare a filter to obtain scan results when
we complete the scan in the REPORT_SCAN state after receiving a
valid neighbor report from AP. This filter includes BSSIDs received from
the neighbor report from the AP in addition to the other filter parameters
created from connected profile
\param pMac - The handle returned by macOpen.
pScanFilter - Scan filter to be filled and returned
\return eHAL_STATUS_SUCCESS on successful filter creation, corresponding
error code otherwise
---------------------------------------------------------------------------*/
static eHalStatus csrNeighborRoamBssIdScanFilter(tpAniSirGlobal pMac,
tANI_U8 sessionId,
tCsrScanResultFilter *pScanFilter)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
tANI_U8 i = 0;
VOS_ASSERT(pScanFilter != NULL);
if (pScanFilter == NULL)
return eHAL_STATUS_FAILURE;
vos_mem_zero(pScanFilter, sizeof(tCsrScanResultFilter));
pScanFilter->BSSIDs.numOfBSSIDs = pNeighborRoamInfo->FTRoamInfo.numBssFromNeighborReport;
pScanFilter->BSSIDs.bssid = vos_mem_malloc(sizeof(tSirMacAddr) * pScanFilter->BSSIDs.numOfBSSIDs);
if (NULL == pScanFilter->BSSIDs.bssid)
{
smsLog(pMac, LOGE, FL("Scan Filter BSSID mem alloc failed"));
return eHAL_STATUS_FAILED_ALLOC;
}
vos_mem_zero(pScanFilter->BSSIDs.bssid, sizeof(tSirMacAddr) * pScanFilter->BSSIDs.numOfBSSIDs);
/* Populate the BSSID from Neighbor BSS info received from neighbor report */
for (i = 0; i < pScanFilter->BSSIDs.numOfBSSIDs; i++) {
vos_mem_copy(&pScanFilter->BSSIDs.bssid[i],
pNeighborRoamInfo->FTRoamInfo.neighboReportBssInfo[i].neighborBssId,
sizeof(tSirMacAddr));
}
/* Fill other general scan filter params */
return csrNeighborRoamPrepareScanProfileFilter(pMac, pScanFilter, sessionId);
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamPurgePreauthFailList
\brief This function empties the preauth fail list
\param pMac - The handle returned by macOpen.
\return VOID
---------------------------------------------------------------------------*/
void csrNeighborRoamPurgePreauthFailList(tpAniSirGlobal pMac)
{
tANI_U8 i;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo = NULL;
NEIGHBOR_ROAM_DEBUG(pMac, LOGE, FL("Purging the preauth fail list"));
for (i = 0; i < CSR_ROAM_SESSION_MAX; i++) {
pNeighborRoamInfo = &pMac->roam.neighborRoamInfo[i];
while (pNeighborRoamInfo->FTRoamInfo.preAuthFailList.numMACAddress) {
vos_mem_zero(pNeighborRoamInfo->FTRoamInfo.preAuthFailList.macAddress[pNeighborRoamInfo->FTRoamInfo.preAuthFailList.numMACAddress-1],
sizeof(tSirMacAddr));
pNeighborRoamInfo->FTRoamInfo.preAuthFailList.numMACAddress--;
}
}
return;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamAddBssIdToPreauthFailList
\brief This function adds the given BSSID to the Preauth fail list
\param pMac - The handle returned by macOpen.
bssId - BSSID to be added to the preauth fail list
\return eHAL_STATUS_SUCCESS on success, eHAL_STATUS_FAILURE otherwise
---------------------------------------------------------------------------*/
eHalStatus csrNeighborRoamAddBssIdToPreauthFailList(tpAniSirGlobal pMac,
tANI_U8 sessionId,
tSirMacAddr bssId)
{
tANI_U8 i = 0;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
NEIGHBOR_ROAM_DEBUG(pMac, LOGE, FL("Added BSSID "MAC_ADDRESS_STR
" to Preauth failed list"), MAC_ADDR_ARRAY(bssId));
for (i = 0; i < pNeighborRoamInfo->FTRoamInfo.preAuthFailList.numMACAddress;
i++) {
if (VOS_TRUE == vos_mem_compare(
pNeighborRoamInfo->FTRoamInfo.preAuthFailList.macAddress[i],
bssId, sizeof(tSirMacAddr))) {
smsLog(pMac, LOGW, FL("BSSID "MAC_ADDRESS_STR" already present in preauth fail list"),
MAC_ADDR_ARRAY(bssId));
return eHAL_STATUS_SUCCESS;
}
}
if ((pNeighborRoamInfo->FTRoamInfo.preAuthFailList.numMACAddress + 1) >
MAX_NUM_PREAUTH_FAIL_LIST_ADDRESS)
{
smsLog(pMac, LOGE, FL("Preauth fail list already full.. Cannot add new one"));
return eHAL_STATUS_FAILURE;
}
vos_mem_copy(pNeighborRoamInfo->FTRoamInfo.preAuthFailList.macAddress[
pNeighborRoamInfo->FTRoamInfo.preAuthFailList.numMACAddress],
bssId,
sizeof(tSirMacAddr));
pNeighborRoamInfo->FTRoamInfo.preAuthFailList.numMACAddress++;
return eHAL_STATUS_SUCCESS;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamIsPreauthCandidate
\brief This function checks whether the given MAC address is already
present in the preauth fail list and returns TRUE/FALSE accordingly
\param pMac - The handle returned by macOpen.
\return eANI_BOOLEAN_TRUE if preauth candidate, eANI_BOOLEAN_FALSE otherwise
---------------------------------------------------------------------------*/
tANI_BOOLEAN csrNeighborRoamIsPreauthCandidate(tpAniSirGlobal pMac,
tANI_U8 sessionId,
tSirMacAddr bssId)
{
tANI_U8 i = 0;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (csrRoamIsRoamOffloadScanEnabled(pMac))
{
return eANI_BOOLEAN_TRUE;
}
#endif
if (0 == pNeighborRoamInfo->FTRoamInfo.preAuthFailList.numMACAddress)
return eANI_BOOLEAN_TRUE;
for (i = 0; i < pNeighborRoamInfo->FTRoamInfo.preAuthFailList.numMACAddress; i++)
{
if (VOS_TRUE == vos_mem_compare(pNeighborRoamInfo->FTRoamInfo.preAuthFailList.macAddress[i],
bssId, sizeof(tSirMacAddr)))
{
NEIGHBOR_ROAM_DEBUG(pMac, LOGE, FL("BSSID "MAC_ADDRESS_STR" already present in preauth fail list"),
MAC_ADDR_ARRAY(bssId));
return eANI_BOOLEAN_FALSE;
}
}
return eANI_BOOLEAN_TRUE;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamIssuePreauthReq
\brief This function issues preauth request to PE with the 1st AP entry in the
roam able AP list
\param pMac - The handle returned by macOpen.
\return eHAL_STATUS_SUCCESS on success, eHAL_STATUS_FAILURE otherwise
---------------------------------------------------------------------------*/
static eHalStatus csrNeighborRoamIssuePreauthReq(tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
eHalStatus status = eHAL_STATUS_SUCCESS;
tpCsrNeighborRoamBSSInfo pNeighborBssNode;
#ifdef FEATURE_WLAN_LFR_METRICS
tCsrRoamInfo *roamInfo;
#endif
if (eANI_BOOLEAN_FALSE != pNeighborRoamInfo->FTRoamInfo.preauthRspPending)
{
/* This must not be true here */
VOS_ASSERT(pNeighborRoamInfo->FTRoamInfo.preauthRspPending == eANI_BOOLEAN_FALSE);
return eHAL_STATUS_FAILURE;
}
/* Issue Preauth request to PE here */
/*
* Need to issue the preauth request with the BSSID that is there in the
* head of the roam able AP list
* Parameters that should be passed are BSSID, Channel number and the
* neighborScanPeriod(probably)
* If roamableAPList gets empty, should transition to REPORT_SCAN state
*/
pNeighborBssNode = csrNeighborRoamGetRoamableAPListNextEntry(pMac, &pNeighborRoamInfo->roamableAPList, NULL);
if (NULL == pNeighborBssNode)
{
smsLog(pMac, LOGW, FL("Roamable AP list is empty.. "));
return eHAL_STATUS_FAILURE;
}
else
{
#ifdef FEATURE_WLAN_LFR_METRICS
/* LFR metrics - pre-auth initiation metric.
Send the event to supplicant that pre-auth was initiated */
roamInfo = vos_mem_malloc(sizeof(tCsrRoamInfo));
if (NULL == roamInfo)
{
smsLog(pMac, LOG1, FL("Memory allocation failed!"));
}
else
{
vos_mem_copy((void *)roamInfo->bssid,
(void *)pNeighborBssNode->pBssDescription->bssId,
sizeof(tCsrBssid));
csrRoamCallCallback(pMac, sessionId, roamInfo, 0,
eCSR_ROAM_PREAUTH_INIT_NOTIFY, 0);
vos_mem_free(roamInfo);
}
#endif
status = csrRoamEnqueuePreauth(pMac, sessionId,
pNeighborBssNode->pBssDescription,
eCsrPerformPreauth, eANI_BOOLEAN_TRUE);
smsLog(pMac, LOG1, FL("Before Pre-Auth: BSSID "MAC_ADDRESS_STR", Ch:%d"),
MAC_ADDR_ARRAY(pNeighborBssNode->pBssDescription->bssId),
(int)pNeighborBssNode->pBssDescription->channelId);
if (eHAL_STATUS_SUCCESS != status)
{
smsLog(pMac, LOGE, FL("Send Preauth request to PE failed with status %d"), status);
return status;
}
}
pNeighborRoamInfo->FTRoamInfo.preauthRspPending = eANI_BOOLEAN_TRUE;
/* Increment the preauth retry count */
pNeighborRoamInfo->FTRoamInfo.numPreAuthRetries++;
/* Transition the state to preauthenticating */
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_PREAUTHENTICATING,
sessionId);
return status;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamPreauthRspHandler
\brief This function handle the Preauth response from PE
Every preauth is allowed max 3 tries if it fails. If a bssid failed
for more than MAX_TRIES, we will remove it from the list and try
with the next node in the roam able AP list and add the BSSID
to pre-auth failed list. If no more entries present in
roam able AP list, transition to REPORT_SCAN state
\param pMac - The handle returned by macOpen.
limStatus - eSIR_SUCCESS/eSIR_FAILURE/eSIR_LIM_MAX_STA_REACHED_ERROR/
eSIT_LIM_AUTH_RSP_TIMEOUT status from PE
\return eHAL_STATUS_SUCCESS on success (i.e. pre-auth processed),
eHAL_STATUS_FAILURE otherwise
---------------------------------------------------------------------------*/
eHalStatus csrNeighborRoamPreauthRspHandler(tpAniSirGlobal pMac,
tANI_U8 sessionId,
tSirRetStatus limStatus)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
eHalStatus status = eHAL_STATUS_SUCCESS;
VOS_STATUS vosStatus = VOS_STATUS_SUCCESS;
eHalStatus preauthProcessed = eHAL_STATUS_SUCCESS;
tpCsrNeighborRoamBSSInfo pPreauthRspNode = NULL;
tpFTRoamCallbackUsrCtx pUsrCtx;
#ifdef FEATURE_WLAN_LFR_METRICS
tCsrRoamInfo *roamInfo;
#endif
if (eANI_BOOLEAN_FALSE == pNeighborRoamInfo->FTRoamInfo.preauthRspPending)
{
/* This can happen when we disconnect immediately
* after sending a pre-auth request. During processing
* of the disconnect command, we would have reset
* preauthRspPending and transitioned to INIT state.
*/
NEIGHBOR_ROAM_DEBUG(pMac, LOGW,
FL("Unexpected pre-auth response in state %d"),
pNeighborRoamInfo->neighborRoamState);
preauthProcessed = eHAL_STATUS_FAILURE;
goto DEQ_PREAUTH;
}
// We can receive it in these 2 states.
if ((pNeighborRoamInfo->neighborRoamState != eCSR_NEIGHBOR_ROAM_STATE_PREAUTHENTICATING) &&
(pNeighborRoamInfo->neighborRoamState != eCSR_NEIGHBOR_ROAM_STATE_REPORT_SCAN))
{
NEIGHBOR_ROAM_DEBUG(pMac, LOGW,
FL("Preauth response received in state %s"),
macTraceGetNeighbourRoamState(
pNeighborRoamInfo->neighborRoamState));
preauthProcessed = eHAL_STATUS_FAILURE;
goto DEQ_PREAUTH;
}
pNeighborRoamInfo->FTRoamInfo.preauthRspPending = eANI_BOOLEAN_FALSE;
if (eSIR_SUCCESS == limStatus)
{
pPreauthRspNode = csrNeighborRoamGetRoamableAPListNextEntry(pMac,
&pNeighborRoamInfo->roamableAPList,
NULL);
}
if ((eSIR_SUCCESS == limStatus) && (NULL != pPreauthRspNode))
{
NEIGHBOR_ROAM_DEBUG(pMac, LOG1, FL("Preauth completed successfully after %d tries"), pNeighborRoamInfo->FTRoamInfo.numPreAuthRetries);
smsLog(pMac, LOG1, FL("After Pre-Auth: BSSID "MAC_ADDRESS_STR", Ch:%d"),
MAC_ADDR_ARRAY(pPreauthRspNode->pBssDescription->bssId),
(int)pPreauthRspNode->pBssDescription->channelId);
#ifdef FEATURE_WLAN_LFR_METRICS
/* LFR metrics - pre-auth completion metric.
Send the event to supplicant that pre-auth successfully completed */
roamInfo = vos_mem_malloc(sizeof(tCsrRoamInfo));
if (NULL == roamInfo)
{
smsLog(pMac, LOG1, FL("Memory allocation failed!"));
}
else
{
vos_mem_copy((void *)roamInfo->bssid,
(void *)pPreauthRspNode->pBssDescription->bssId,
sizeof(tCsrBssid));
csrRoamCallCallback(pMac, sessionId, roamInfo, 0,
eCSR_ROAM_PREAUTH_STATUS_SUCCESS, 0);
vos_mem_free(roamInfo);
}
#endif
/* Preauth completed successfully. Insert the preauthenticated
node to tail of preAuthDoneList */
csrNeighborRoamRemoveRoamableAPListEntry(pMac, &pNeighborRoamInfo->roamableAPList, pPreauthRspNode);
csrLLInsertTail(&pNeighborRoamInfo->FTRoamInfo.preAuthDoneList, &pPreauthRspNode->List, LL_ACCESS_LOCK);
/* Pre-auth completed successfully. Transition to PREAUTH Done state */
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_PREAUTH_DONE,
sessionId);
pNeighborRoamInfo->FTRoamInfo.numPreAuthRetries = 0;
/*
* The caller of this function would start a timer and by the time it
* expires, supplicant should have provided the updated FTIEs to SME.
* So, when it expires, handoff will be triggered then
*/
}
else
{
tpCsrNeighborRoamBSSInfo pNeighborBssNode = NULL;
tListElem *pEntry;
bool is_dis_pending = false;
uint32_t retries;
retries = pMac->sta_auth_retries_for_code17 >
CSR_NEIGHBOR_ROAM_MAX_NUM_PREAUTH_RETRIES ?
pMac->sta_auth_retries_for_code17 :
CSR_NEIGHBOR_ROAM_MAX_NUM_PREAUTH_RETRIES;
smsLog(pMac, LOGE, FL("Preauth failed retry number %d, status = 0x%x"),
pNeighborRoamInfo->FTRoamInfo.numPreAuthRetries, limStatus);
/* Preauth failed. Add the bssId to the preAuth failed list MAC Address.
Also remove the AP from roam able AP list */
if ((pNeighborRoamInfo->FTRoamInfo.numPreAuthRetries >= retries) ||
((eSIR_LIM_MAX_STA_REACHED_ERROR == limStatus) &&
(pMac->sta_auth_retries_for_code17 == 0)))
{
/* We are going to remove the node as it fails for more than MAX tries. Reset this count to 0 */
pNeighborRoamInfo->FTRoamInfo.numPreAuthRetries = 0;
/* The one in the head of the list should be one with which we issued pre-auth and failed */
pEntry = csrLLRemoveHead(&pNeighborRoamInfo->roamableAPList, LL_ACCESS_LOCK);
if(pEntry)
{
pNeighborBssNode = GET_BASE_ADDR(pEntry, tCsrNeighborRoamBSSInfo, List);
/* Add the BSSID to pre-auth fail list if it is not requested by HDD */
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if(!pNeighborRoamInfo->uOsRequestedHandoff)
#endif
{
status = csrNeighborRoamAddBssIdToPreauthFailList(pMac,
sessionId,
pNeighborBssNode->pBssDescription->bssId);
}
#ifdef FEATURE_WLAN_LFR_METRICS
/* LFR metrics - pre-auth completion metric. Send the event
to supplicant that pre-auth successfully completed */
roamInfo = vos_mem_malloc(sizeof(tCsrRoamInfo));
if (NULL == roamInfo)
{
smsLog(pMac, LOG1, FL("Memory allocation failed!"));
}
else
{
vos_mem_copy((void *)roamInfo->bssid,
(void *)pNeighborBssNode->pBssDescription->bssId,
sizeof(tCsrBssid));
csrRoamCallCallback(pMac, sessionId, roamInfo, 0,
eCSR_ROAM_PREAUTH_STATUS_FAILURE, 0);
vos_mem_free(roamInfo);
}
#endif
/* Now we can free this node */
csrNeighborRoamFreeNeighborRoamBSSNode(pMac, pNeighborBssNode);
}
}
is_dis_pending = is_disconnect_pending(pMac, sessionId);
if (is_dis_pending) {
smsLog(pMac, LOGE,
FL(" Disconnect in progress, Abort preauth"));
goto abort_preauth;
}
if (pMac->roam.pending_roam_disable)
{
smsLog(pMac, LOG1, FL("process pending roam disable"));
pMac->roam.configParam.isFastRoamIniFeatureEnabled = FALSE;
pMac->roam.pending_roam_disable = FALSE;
csrNeighborRoamUpdateFastRoamingEnabled(pMac, sessionId, FALSE);
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_CONNECTED,
sessionId);
goto DEQ_PREAUTH;
}
/* Issue preauth request for the same/next entry */
if (eHAL_STATUS_SUCCESS == csrNeighborRoamIssuePreauthReq(pMac,
sessionId))
goto DEQ_PREAUTH;
abort_preauth:
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (csrRoamIsRoamOffloadScanEnabled(pMac))
{
if(pNeighborRoamInfo->uOsRequestedHandoff)
{
pNeighborRoamInfo->uOsRequestedHandoff = 0;
csrRoamOffloadScan(pMac, 0, ROAM_SCAN_OFFLOAD_START,
REASON_PREAUTH_FAILED_FOR_ALL);
}
else
{
csrRoamOffloadScan(pMac, 0, ROAM_SCAN_OFFLOAD_RESTART,
REASON_PREAUTH_FAILED_FOR_ALL);
}
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_CONNECTED,
sessionId);
} else
{
#endif
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_REPORT_SCAN,
sessionId);
/* Register Neighbor Lookup threshold callback with TL
for UP event now */
NEIGHBOR_ROAM_DEBUG(pMac, LOGE, FL("No more pre-auth candidates-"
"register UP indication with TL. RSSI = %d,"),
NEIGHBOR_ROAM_LOOKUP_UP_THRESHOLD * (-1));
pUsrCtx = vos_mem_malloc(sizeof(*pUsrCtx));
if (NULL == pUsrCtx) {
smsLog(pMac, LOGE, FL("Memory allocation failed for pUsrCtx"));
return eHAL_STATUS_FAILED_ALLOC;
}
pUsrCtx->pMac = pMac;
pUsrCtx->sessionId = sessionId;
vosStatus = WLANTL_RegRSSIIndicationCB(pMac->roam.gVosContext,
(v_S7_t)NEIGHBOR_ROAM_LOOKUP_UP_THRESHOLD * (-1),
WLANTL_HO_THRESHOLD_UP,
csrNeighborRoamNeighborLookupUPCallback,
VOS_MODULE_ID_SME, pUsrCtx);
vos_mem_free(pUsrCtx);
if(!VOS_IS_STATUS_SUCCESS(vosStatus))
{
//err msg
smsLog(pMac, LOGE, FL(" Couldn't register csrNeighborRoamNeighborLookupCallback UP event with TL: Status = %d"), status);
}
/* Start the neighbor results refresh timer and transition to REPORT_SCAN state to perform scan again */
status = vos_timer_start(&pNeighborRoamInfo->neighborResultsRefreshTimer,
pNeighborRoamInfo->cfgParams.neighborResultsRefreshPeriod);
if ( status != eHAL_STATUS_SUCCESS )
{
smsLog(pMac, LOGE, FL("Neighbor results refresh timer start failed with status %d"), status);
}
}
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
}
#endif
DEQ_PREAUTH:
csrDequeueRoamCommand(pMac, eCsrPerformPreauth);
return preauthProcessed;
}
#endif /* WLAN_FEATURE_NEIGHBOR_ROAMING */
#ifdef WLAN_FEATURE_ROAM_OFFLOAD
/* ---------------------------------------------------------------------------
* \fn csrNeighborRoamOffloadUpdatePreauthList
* \brief This function handle the RoamOffloadSynch and adds the
* roamed AP to the preauth done list
* \param pMac - The handle returned by macOpen.
* \param pSmeRoamOffloadSynchInd - Roam offload sync Ind Info
* \param sessionId - Session identifier
* \return eHAL_STATUS_SUCCESS on success,
* eHAL_STATUS_FAILURE otherwise
* --------------------------------------------------------------------------*/
eHalStatus
csrNeighborRoamOffloadUpdatePreauthList(tpAniSirGlobal pMac,
tpSirRoamOffloadSynchInd pSmeRoamOffloadSynchInd,
tANI_U8 sessionId)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
tpCsrNeighborRoamBSSInfo pBssInfo;
tANI_U16 bssDescLen;
if (pNeighborRoamInfo->neighborRoamState !=
eCSR_NEIGHBOR_ROAM_STATE_CONNECTED)
{
NEIGHBOR_ROAM_DEBUG(pMac, LOGW,
FL("LFR3:Roam Offload Synch Ind received in state %d"),
pNeighborRoamInfo->neighborRoamState);
return eHAL_STATUS_FAILURE;
}
pBssInfo = vos_mem_malloc(sizeof(tCsrNeighborRoamBSSInfo));
if (NULL == pBssInfo)
{
smsLog(pMac, LOGE,
FL("LFR3:Memory allocation for Neighbor Roam BSS Info failed"));
return eHAL_STATUS_FAILURE;
}
bssDescLen = pSmeRoamOffloadSynchInd->pbssDescription->length +
sizeof(pSmeRoamOffloadSynchInd->pbssDescription->length);
pBssInfo->pBssDescription = vos_mem_malloc(bssDescLen);
if (pBssInfo->pBssDescription != NULL)
{
vos_mem_copy(pBssInfo->pBssDescription,
pSmeRoamOffloadSynchInd->pbssDescription,
bssDescLen);
}
else
{
smsLog(pMac, LOGE,
FL("LFR3:Mem alloc for Neighbor Roam BSS Descriptor failed"));
vos_mem_free(pBssInfo);
return eHAL_STATUS_FAILURE;
}
csrLLInsertTail(&pNeighborRoamInfo->FTRoamInfo.preAuthDoneList,
&pBssInfo->List, LL_ACCESS_LOCK);
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_PREAUTH_DONE,
sessionId);
pNeighborRoamInfo->FTRoamInfo.numPreAuthRetries = 0;
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_DEBUG,
"LFR3:Entry added to Auth Done List");
return eHAL_STATUS_SUCCESS;
}
#endif
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamPrepareScanProfileFilter
\brief This function creates a scan filter based on the currently connected profile.
Based on this filter, scan results are obtained
\param pMac - The handle returned by macOpen.
pScanFilter - Populated scan filter based on the connected profile
\return eHAL_STATUS_SUCCESS on success, eHAL_STATUS_FAILURE otherwise
---------------------------------------------------------------------------*/
eHalStatus
csrNeighborRoamPrepareScanProfileFilter(tpAniSirGlobal pMac,
tCsrScanResultFilter *pScanFilter,
tANI_U8 sessionId)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
tCsrRoamConnectedProfile *pCurProfile = &pMac->roam.roamSession[sessionId].connectedProfile;
tANI_U8 i = 0;
struct roam_ext_params *roam_params;
VOS_ASSERT(pScanFilter != NULL);
if (pScanFilter == NULL)
return eHAL_STATUS_FAILURE;
vos_mem_zero(pScanFilter, sizeof(tCsrScanResultFilter));
roam_params = &pMac->roam.configParam.roam_params;
/* We dont want to set BSSID based Filter */
pScanFilter->BSSIDs.numOfBSSIDs = 0;
pScanFilter->scan_filter_for_roam = 1;
//only for HDD requested handoff fill in the BSSID in the filter
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (pNeighborRoamInfo->uOsRequestedHandoff)
{
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_DEBUG,
FL("OS Requested Handoff"));
pScanFilter->BSSIDs.numOfBSSIDs = 1;
pScanFilter->BSSIDs.bssid = vos_mem_malloc(sizeof(tSirMacAddr) * pScanFilter->BSSIDs.numOfBSSIDs);
if (NULL == pScanFilter->BSSIDs.bssid)
{
smsLog(pMac, LOGE, FL("Scan Filter BSSID mem alloc failed"));
return eHAL_STATUS_FAILED_ALLOC;
}
vos_mem_zero(pScanFilter->BSSIDs.bssid, sizeof(tSirMacAddr) * pScanFilter->BSSIDs.numOfBSSIDs);
/* Populate the BSSID from handoff info received from HDD */
for (i = 0; i < pScanFilter->BSSIDs.numOfBSSIDs; i++)
{
vos_mem_copy(&pScanFilter->BSSIDs.bssid[i],
pNeighborRoamInfo->handoffReqInfo.bssid, sizeof(tSirMacAddr));
}
}
#endif
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_DEBUG,
FL("No of Allowed SSID List:%d"), roam_params->num_ssid_allowed_list);
if (roam_params->num_ssid_allowed_list) {
pScanFilter->SSIDs.numOfSSIDs = (roam_params->num_ssid_allowed_list);
pScanFilter->SSIDs.SSIDList =
vos_mem_malloc(sizeof(tCsrSSIDInfo) * pScanFilter->SSIDs.numOfSSIDs);
if (NULL == pScanFilter->SSIDs.SSIDList) {
smsLog(pMac, LOGE, FL("Scan Filter SSID mem alloc failed"));
return eHAL_STATUS_FAILED_ALLOC;
}
for(i = 0; i < roam_params->num_ssid_allowed_list; i++) {
pScanFilter->SSIDs.SSIDList[i].handoffPermitted = 1;
pScanFilter->SSIDs.SSIDList[i].ssidHidden = 0;
vos_mem_copy((void *)pScanFilter->SSIDs.SSIDList[i].SSID.ssId,
roam_params->ssid_allowed_list[i].ssId,
roam_params->ssid_allowed_list[i].length);
pScanFilter->SSIDs.SSIDList[i].SSID.length =
roam_params->ssid_allowed_list[i].length;
}
} else {
/* Populate all the information from the connected profile */
pScanFilter->SSIDs.numOfSSIDs = 1;
pScanFilter->SSIDs.SSIDList = vos_mem_malloc(sizeof(tCsrSSIDInfo));
if (NULL == pScanFilter->SSIDs.SSIDList) {
smsLog(pMac, LOGE, FL("Scan Filter SSID mem alloc failed"));
return eHAL_STATUS_FAILED_ALLOC;
}
pScanFilter->SSIDs.SSIDList->handoffPermitted = 1;
pScanFilter->SSIDs.SSIDList->ssidHidden = 0;
pScanFilter->SSIDs.SSIDList->SSID.length = pCurProfile->SSID.length;
vos_mem_copy((void *)pScanFilter->SSIDs.SSIDList->SSID.ssId,
(void *)pCurProfile->SSID.ssId, pCurProfile->SSID.length);
NEIGHBOR_ROAM_DEBUG(pMac, LOG1, FL("Filtering for SSID %.*s from scan results,"
"length of SSID = %u"),
pScanFilter->SSIDs.SSIDList->SSID.length,
pScanFilter->SSIDs.SSIDList->SSID.ssId,
pScanFilter->SSIDs.SSIDList->SSID.length);
}
pScanFilter->authType.numEntries = 1;
pScanFilter->authType.authType[0] = pCurProfile->AuthType;
pScanFilter->EncryptionType.numEntries = 1; //This must be 1
pScanFilter->EncryptionType.encryptionType[0] = pCurProfile->EncryptionType;
pScanFilter->mcEncryptionType.numEntries = 1;
pScanFilter->mcEncryptionType.encryptionType[0] = pCurProfile->mcEncryptionType;
pScanFilter->BSSType = pCurProfile->BSSType;
if (pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.numOfChannels)
{
/* We are interested only in the scan results on channels we scanned */
pScanFilter->ChannelInfo.numOfChannels =
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.numOfChannels;
pScanFilter->ChannelInfo.ChannelList =
vos_mem_malloc(pScanFilter->ChannelInfo.numOfChannels * sizeof(tANI_U8));
if (NULL == pScanFilter->ChannelInfo.ChannelList) {
smsLog(pMac, LOGE, FL("Scan Filter Channel list mem alloc failed"));
vos_mem_free(pScanFilter->SSIDs.SSIDList);
pScanFilter->SSIDs.SSIDList = NULL;
return eHAL_STATUS_FAILED_ALLOC;
}
for (i = 0; i < pScanFilter->ChannelInfo.numOfChannels; i++)
pScanFilter->ChannelInfo.ChannelList[i] =
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList[i];
} else {
pScanFilter->ChannelInfo.numOfChannels = 0;
pScanFilter->ChannelInfo.ChannelList = NULL;
}
#ifdef WLAN_FEATURE_VOWIFI_11R
if (pNeighborRoamInfo->is11rAssoc)
{
/* MDIE should be added as a part of profile. This should be added as a part of filter as well */
pScanFilter->MDID.mdiePresent = pCurProfile->MDID.mdiePresent;
pScanFilter->MDID.mobilityDomain = pCurProfile->MDID.mobilityDomain;
}
#endif
#ifdef WLAN_FEATURE_11W
pScanFilter->MFPEnabled = pCurProfile->MFPEnabled;
pScanFilter->MFPRequired = pCurProfile->MFPRequired;
pScanFilter->MFPCapable = pCurProfile->MFPCapable;
#endif
return eHAL_STATUS_SUCCESS;
}
tANI_U32 csrGetCurrentAPRssi(tpAniSirGlobal pMac,
tScanResultHandle *pScanResultList,
tANI_U8 sessionId)
{
tCsrScanResultInfo *pScanResult;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
#ifdef FEATURE_WLAN_LFR
tANI_U32 CurrAPRssi = pNeighborRoamInfo->lookupDOWNRssi;
#else
/* We are setting this as default value to make sure we return this value,
when we do not see this AP in the scan result for some reason.However,it is
less likely that we are associated to an AP and do not see it in the scan list */
tANI_U32 CurrAPRssi = -125;
#endif
while (NULL != (pScanResult = csrScanResultGetNext(pMac, *pScanResultList)))
{
if (VOS_TRUE == vos_mem_compare(pScanResult->BssDescriptor.bssId,
pNeighborRoamInfo->currAPbssid, sizeof(tSirMacAddr)))
{
/* We got a match with the currently associated AP.
* Capture the RSSI value and complete the while loop.
* The while loop is completed in order to make the current entry go back to NULL,
* and in the next while loop, it properly starts searching from the head of the list.
* TODO: Can also try setting the current entry directly to NULL as soon as we find the new AP*/
CurrAPRssi = (int)pScanResult->BssDescriptor.rssi * (-1);
} else {
continue;
}
}
return CurrAPRssi;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamProcessScanResults
\brief This function extracts scan results, sorts on the basis of neighbor score(todo).
Assumed that the results are already sorted by RSSI by csrScanGetResult
\param pMac - The handle returned by macOpen.
pScanResultList - Scan result result obtained from csrScanGetResult()
\return tANI_BOOLEAN - return TRUE if we have a candidate we can immediately
roam to. Otherwise, return FALSE.
---------------------------------------------------------------------------*/
static tANI_BOOLEAN
csrNeighborRoamProcessScanResults(tpAniSirGlobal pMac,
tANI_U8 sessionId,
tScanResultHandle *pScanResultList)
{
tCsrScanResultInfo *pScanResult;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
tpCsrNeighborRoamBSSInfo pBssInfo;
tANI_U32 CurrAPRssi;
tANI_U8 RoamRssiDiff = pMac->roam.configParam.RoamRssiDiff;
#if defined (WLAN_FEATURE_VOWIFI_11R) || defined (FEATURE_WLAN_ESE) || defined(FEATURE_WLAN_LFR)
tANI_U8 immediateRoamRssiDiff =
pMac->roam.configParam.nImmediateRoamRssiDiff;
#endif
tANI_BOOLEAN roamNow = eANI_BOOLEAN_FALSE;
tScanResultHandle *pScanResultListSaved = NULL;
tANI_U32 apAgeTicks = 0;
tANI_U32 apAgeLimitTicks = adf_os_msecs_to_ticks(ROAM_AP_AGE_LIMIT_MS);
tANI_U8 numCandidates = 0;
tANI_U8 numAPsDropped = 0;
/*
* first iteration of scan list should consider
* age constraint for candidates
*/
tANI_BOOLEAN ageConstraint = eANI_BOOLEAN_TRUE;
/***************************************************************
* Find out the Current AP RSSI and keep it handy to check if
* it is better than the RSSI of the AP which we are
* going to roam.If so, we are going to continue with the
* current AP.
***************************************************************/
CurrAPRssi = csrGetCurrentAPRssi(pMac, pScanResultList, sessionId);
/*
* Expecting the scan result already to be in the sorted order based on the
* RSSI. Based on the previous state we need to check whether the list
* should be sorted again taking neighbor score into consideration. If
* previous state is CFG_CHAN_LIST_SCAN, there should not be any neighbor
* score associated with any of the BSS. If the previous state is
* REPORT_QUERY, then there will be neighbor score for each of the APs. For
* now, let us take the top of the list provided as it is by the CSR Scan
* result API. This means it is assumed that neighbor score and rssi score
* are in the same order. This will be taken care later
*/
do {
/* save the scan result pointer for next iteration */
pScanResultListSaved = pScanResultList;
while (NULL != (pScanResult = csrScanResultGetNext(pMac,
*pScanResultList))) {
#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 5, 0))
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_DEBUG,
FL("Scan result: BSSID "MAC_ADDRESS_STR" (Rssi %d, Ch:%d)"),
MAC_ADDR_ARRAY(pScanResult->BssDescriptor.bssId),
abs(pScanResult->BssDescriptor.rssi),
pScanResult->BssDescriptor.channelId);
#else
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_DEBUG,
FL("Scan result: BSSID "MAC_ADDRESS_STR" (Rssi %ld, Ch:%d)"),
MAC_ADDR_ARRAY(pScanResult->BssDescriptor.bssId),
(long int)abs(pScanResult->BssDescriptor.rssi),
pScanResult->BssDescriptor.channelId);
#endif
if ((VOS_TRUE == vos_mem_compare(pScanResult->BssDescriptor.bssId,
pNeighborRoamInfo->currAPbssid, sizeof(tSirMacAddr))) ||
((eSME_ROAM_TRIGGER_SCAN == pNeighborRoamInfo->cfgRoamEn) &&
(VOS_TRUE != vos_mem_compare(pScanResult->BssDescriptor.bssId,
pNeighborRoamInfo->cfgRoambssId, sizeof(tSirMacAddr))))) {
/*
* currently associated AP. Do not have this in the roam able AP
* list
*/
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_INFO,
"SKIP-currently associated AP");
continue;
}
if (vos_concurrent_open_sessions_running() &&
!pMac->roam.configParam.fenableMCCMode &&
(pScanResult->BssDescriptor.channelId !=
csrGetConcurrentOperationChannel(pMac))) {
smsLog(pMac, LOG1, FL("MCC not supported so Ignore AP on channel %d"),
pScanResult->BssDescriptor.channelId);
continue;
}
#ifdef FEATURE_WLAN_LFR
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
/*
* In case of reassoc requested by upper layer, look for exact match
* of bssid & channel. csr cache might have duplicates
*/
if ((pNeighborRoamInfo->uOsRequestedHandoff) &&
((VOS_FALSE == vos_mem_compare(pScanResult->BssDescriptor.bssId,
pNeighborRoamInfo->handoffReqInfo.bssid,
sizeof(tSirMacAddr)))||
(pScanResult->BssDescriptor.channelId !=
pNeighborRoamInfo->handoffReqInfo.channel))) {
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_INFO,
"SKIP-not a candidate AP for OS requested roam");
continue;
}
#endif
#endif
/*
* This condition is to ensure to roam to an AP with better RSSI.
* if the value of RoamRssiDiff is Zero, this feature
* is disabled and we continue to roam without any check
*/
if ((RoamRssiDiff > 0)
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
&& !csrRoamIsRoamOffloadScanEnabled(pMac)
#endif
&& ((eSME_ROAM_TRIGGER_SCAN != pNeighborRoamInfo->cfgRoamEn) &&
(eSME_ROAM_TRIGGER_FAST_ROAM != pNeighborRoamInfo->cfgRoamEn))) {
/*
* If RSSI is lower than the lookup threshold, then continue.
*/
if (abs(pScanResult->BssDescriptor.rssi) >
pNeighborRoamInfo->currentNeighborLookupThreshold) {
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_INFO,
FL("new ap rssi (%d) lower than lookup threshold (%d)"),
(int)pScanResult->BssDescriptor.rssi * (-1),
(int)pNeighborRoamInfo->currentNeighborLookupThreshold * (-1));
continue;
}
if (abs(CurrAPRssi) < abs(pScanResult->BssDescriptor.rssi)) {
/* Do not roam to an AP with worse RSSI than the current */
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_DEBUG,
"%s: [INFOLOG]Current AP rssi=%d new ap rssi "
"worse=%d", __func__,
CurrAPRssi,
(int)pScanResult->BssDescriptor.rssi * (-1) );
continue;
} else {
/*
* Do not roam to an AP which is having better RSSI than the
* current AP, but still less than the margin that is
* provided by user from the ini file (RoamRssiDiff)
*/
if (abs(abs(CurrAPRssi) -
abs(pScanResult->BssDescriptor.rssi)) < RoamRssiDiff) {
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_DEBUG,
"%s: [INFOLOG]Current AP rssi=%d new ap "
"rssi=%d not good enough, roamRssiDiff=%d",
__func__,
CurrAPRssi,
(int)pScanResult->BssDescriptor.rssi * (-1),
RoamRssiDiff);
continue;
} else {
VOS_TRACE(VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_DEBUG,
"%s: [INFOLOG]Current AP rssi=%d new ap "
"rssi better=%d",
__func__,
CurrAPRssi,
(int)pScanResult->BssDescriptor.rssi * (-1) );
}
}
}
#ifdef WLAN_FEATURE_VOWIFI_11R
if (pNeighborRoamInfo->is11rAssoc) {
if (!csrNeighborRoamIsPreauthCandidate(pMac, sessionId,
pScanResult->BssDescriptor.bssId)) {
smsLog(pMac, LOGE,
FL("BSSID present in pre-auth fail list.. Ignoring"));
continue;
}
}
#endif /* WLAN_FEATURE_VOWIFI_11R */
#ifdef FEATURE_WLAN_ESE
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (!csrRoamIsRoamOffloadScanEnabled(pMac)) {
#endif
if (pNeighborRoamInfo->isESEAssoc) {
if (!csrNeighborRoamIsPreauthCandidate(pMac, sessionId,
pScanResult->BssDescriptor.bssId)) {
smsLog(pMac, LOGE,
FL("BSSID present in pre-auth fail list.. Ignoring"));
continue;
}
}
if ((pScanResult->BssDescriptor.QBSSLoad_present) &&
(pScanResult->BssDescriptor.QBSSLoad_avail)) {
if (pNeighborRoamInfo->isVOAdmitted) {
smsLog(pMac, LOG1, FL("New AP has %x BW available"),
(unsigned int)pScanResult->BssDescriptor.QBSSLoad_avail);
smsLog(pMac, LOG1, FL("We need %x BW available"),
(unsigned int)pNeighborRoamInfo->MinQBssLoadRequired);
if (pScanResult->BssDescriptor.QBSSLoad_avail <
pNeighborRoamInfo->MinQBssLoadRequired) {
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_INFO,
"[INFOLOG]BSSID : "MAC_ADDRESS_STR" has no"
" bandwidth ignoring..not adding to roam"
" list",
MAC_ADDR_ARRAY(pScanResult->BssDescriptor.bssId));
continue;
}
}
} else {
smsLog(pMac, LOGE, FL("No QBss %x %x"),
(unsigned int)pScanResult->BssDescriptor.QBSSLoad_avail,
(unsigned int)pScanResult->BssDescriptor.QBSSLoad_present);
if (pNeighborRoamInfo->isVOAdmitted) {
VOS_TRACE(VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_INFO,
"[INFOLOG]BSSID : "MAC_ADDRESS_STR" has no "
"QBSSLoad IE, ignoring..not adding to roam list",
MAC_ADDR_ARRAY(pScanResult->BssDescriptor.bssId));
continue;
}
}
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
}
#endif
#endif /* FEATURE_WLAN_ESE */
#ifdef FEATURE_WLAN_LFR
/*
* If we are supporting legacy roaming, and
* if the candidate is on the "pre-auth failed" list, ignore it.
*/
if (csrRoamIsFastRoamEnabled(pMac, sessionId)) {
if (!csrNeighborRoamIsPreauthCandidate(pMac, sessionId,
pScanResult->BssDescriptor.bssId)) {
smsLog(pMac, LOGE,
FL("BSSID present in pre-auth fail list.. Ignoring"));
continue;
}
}
#endif /* FEATURE_WLAN_LFR */
/*
* If the received times tamp in BSS description is earlier than the
* scan request time stamp, skip this result
*/
if ((pNeighborRoamInfo->scanRequestTimeStamp >=
pScanResult->BssDescriptor.nReceivedTime)
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
&& !csrRoamIsRoamOffloadScanEnabled(pMac)
#endif
) {
smsLog(pMac, LOGE,
FL("Ignoring BSS as it is older than the scan request "
"time stamp"));
continue;
}
pBssInfo = vos_mem_malloc(sizeof(tCsrNeighborRoamBSSInfo));
if (NULL == pBssInfo) {
smsLog(pMac, LOGE,
FL("Memory allocation for Neighbor Roam BSS Info "
"failed.. Just ignoring"));
continue;
}
pBssInfo->pBssDescription =
vos_mem_malloc(pScanResult->BssDescriptor.length +
sizeof(pScanResult->BssDescriptor.length));
if (pBssInfo->pBssDescription != NULL) {
vos_mem_copy(pBssInfo->pBssDescription,
&pScanResult->BssDescriptor,
pScanResult->BssDescriptor.length +
sizeof(pScanResult->BssDescriptor.length));
} else {
smsLog(pMac, LOGE,
FL("Memory allocation for Neighbor Roam BSS Descriptor "
"failed.. Just ignoring"));
vos_mem_free(pBssInfo);
continue;
}
/*
* some value for now. Need to calculate the actual score based on
* RSSI and neighbor AP score
*/
pBssInfo->apPreferenceVal = 10;
if (ageConstraint == eANI_BOOLEAN_FALSE) {
/* just add to candidate list, irrespective of age */
numCandidates++;
csrLLInsertTail(&pNeighborRoamInfo->roamableAPList,
&pBssInfo->List,
LL_ACCESS_LOCK);
} else {
/* check the age of the AP first */
apAgeTicks = (tANI_TIMESTAMP)palGetTickCount(pMac->hHdd) -
pScanResult->BssDescriptor.nReceivedTime;
if (apAgeTicks < apAgeLimitTicks) {
numCandidates++;
csrLLInsertTail(&pNeighborRoamInfo->roamableAPList,
&pBssInfo->List,
LL_ACCESS_LOCK);
} else {
numAPsDropped++;
VOS_TRACE( VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_WARN,
FL("Skipping because received AP "
"(probe rsp/beacon) is old."));
if (pBssInfo->pBssDescription)
vos_mem_free(pBssInfo->pBssDescription);
if (pBssInfo)
vos_mem_free(pBssInfo);
continue;
}
}
#if defined (WLAN_FEATURE_VOWIFI_11R) || defined (FEATURE_WLAN_ESE) || defined(FEATURE_WLAN_LFR)
if ((eSME_ROAM_TRIGGER_SCAN == pNeighborRoamInfo->cfgRoamEn) ||
(eSME_ROAM_TRIGGER_FAST_ROAM == pNeighborRoamInfo->cfgRoamEn)) {
roamNow = eANI_BOOLEAN_FALSE;
}
else if ((abs(abs(CurrAPRssi) -
abs(pScanResult->BssDescriptor.rssi)) >=
immediateRoamRssiDiff)
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
&& !csrRoamIsRoamOffloadScanEnabled(pMac)
#endif
) {
#if (LINUX_VERSION_CODE >= KERNEL_VERSION(4, 5, 0))
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_INFO,
"%s: [INFOLOG] potential candidate to roam "
"immediately (diff=%d, expected=%d)",
__func__,
abs(abs(CurrAPRssi) -
abs(pScanResult->BssDescriptor.rssi)),
immediateRoamRssiDiff);
roamNow = eANI_BOOLEAN_TRUE;
#else
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_INFO,
"%s: [INFOLOG] potential candidate to roam "
"immediately (diff=%ld, expected=%d)",
__func__,
(long int)abs(abs(CurrAPRssi) -
abs(pScanResult->BssDescriptor.rssi)),
immediateRoamRssiDiff);
roamNow = eANI_BOOLEAN_TRUE;
#endif
}
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
/*
* If we are here means, FW already found candidates to roam,
* so we are good to go with pre-auth
*/
if(csrRoamIsRoamOffloadScanEnabled(pMac)) {
roamNow = eANI_BOOLEAN_TRUE;
}
#endif
#endif
} /* end of while (csrScanResultGetNext) */
/* set the scan results for next iteration */
pScanResultList = pScanResultListSaved;
/* if some candidates were found, then no need to repeat */
if (numCandidates)
break;
/*
* if ageConstraint is already false, we have done two
* iterations and no candidate were found */
if (ageConstraint == eANI_BOOLEAN_FALSE) {
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_ERROR,
"%s: No roam able candidates found", __func__);
break;
}
/*
* if all candidates were dropped rescan the scan
* list but this time without age constraint.
*/
ageConstraint = eANI_BOOLEAN_FALSE;
/* if no candidates were dropped no need to repeat */
} while (numAPsDropped);
/*
* Now we have all the scan results in our local list. Good time to free
* up the the list we got as a part of csrGetScanResult
*/
csrScanResultPurge(pMac, *pScanResultList);
return roamNow;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamHandleEmptyScanResult
\brief This function will be invoked in CFG_CHAN_LIST_SCAN state when
there are no valid APs in the scan result for roaming. This means
our AP is the best and no other AP is around. No point in scanning
again and again. Performing the following here.
1. Stop the neighbor scan timer.
2a. If this is the first time we encountered empty scan, then
re-register with TL with modified lookup threshold.
2b. Else if this is the second time we encountered empty scan,
then start neighbor scan results refresh timer (20s).
2c. Else, nothing more to do.
NOTE: In LFR, channels selected for scanning is derived from
the occupied channel list. Scan cycle following one which
yielded empty results is split into two halves: (i) scan on
channels in the occupied list, and (ii) scan on channels not
in the occupied list. This helps converging faster (while
looking for candidates in the occupied list first), and also,
adds channels to the occupied channel list upon finding candidates
matching SSID profile of interest.
uEmptyScanCount Comments
eFirstEmptyScan Previous scan was done on channels in the
occupied list and yielded potential candidates.
This scan cycle was likely triggered through
receipt of lookup DOWN notification event.
eSecondEmptyScan Previous scan was done on channels in the
occupied list and yielded no candidates. This scan
cycle was triggered through RSSI notification
with modified lookup threshold.
eThirdEmptyScan Previous scan was done on channels NOT in
the occupied list and yielded no candidates. This
scan cycle was triggered immediately after scanning
channels in the occupied list and no candidates
were found.
eFourthEmptyScan Previous scan was done on channels in the
occupied list and yielded no candidates. This scan
cycle was triggered upon expiry of
neighborScanResultsRefreshPeriod (=20s).
eFifthEmptyScan Previous scan was done on channels NOT in
the occupied list and yielded no candidates. This
scan cycle was triggered immediately after scanning
channels in the occupied list and no candidates
were found.
[1], [2,3] and [4,5] together form one discrete set of scan cycle.
\param pMac - The handle returned by macOpen.
\return VOS_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
static VOS_STATUS csrNeighborRoamHandleEmptyScanResult(tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
VOS_STATUS vosStatus = VOS_STATUS_SUCCESS;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
eHalStatus status = eHAL_STATUS_SUCCESS;
tpFTRoamCallbackUsrCtx pUsrCtx;
#ifdef FEATURE_WLAN_LFR
tANI_BOOLEAN performPeriodicScan =
(pNeighborRoamInfo->cfgParams.emptyScanRefreshPeriod) ? TRUE : FALSE;
#endif
/* Stop neighbor scan timer */
vos_timer_stop(&pNeighborRoamInfo->neighborScanTimer);
/*
* Increase the neighbor lookup threshold by 3 dB
* after every scan cycle. NOTE: uEmptyScanCount
* would be either 1, 3 or 5 at the end of every
* scan cycle.
*/
#ifdef FEATURE_WLAN_LFR
if ((++pNeighborRoamInfo->uEmptyScanCount) > eFifthEmptyScan)
{
pNeighborRoamInfo->uEmptyScanCount = eFifthEmptyScan;
}
if (((0 != pNeighborRoamInfo->cfgParams.channelInfo.numOfChannels) ||
(abs(pNeighborRoamInfo->lookupDOWNRssi) >
abs(pNeighborRoamInfo->cfgParams.neighborReassocThreshold))) &&
((pNeighborRoamInfo->uEmptyScanCount == eSecondEmptyScan) ||
(pNeighborRoamInfo->uEmptyScanCount == eFourthEmptyScan)))
{
/*
* If the scan was triggered due to lookupDOWNRssi > reassoc threshold,
* then it would be a contiguous scan on all valid non-DFS channels.
* If channels are configured in INI, then only those channels need
* to be scanned.
* In either of these modes, there is no need to trigger an immediate
* scan upon empty scan results for the second and fourth time (which
* would be equivalent to scanning on channels in non-occupied list).
* Incrementing uEmptyScanCount will correspond to skipping this step.
* NOTE: double increment of uEmptyScanCount corresponds to completion
* of scans on all valid channels.
*/
++pNeighborRoamInfo->uEmptyScanCount;
NEIGHBOR_ROAM_DEBUG(pMac, LOG2, "Extra increment of empty scan count (=%d)"
" in contiguous scan mode", pNeighborRoamInfo->uEmptyScanCount);
}
#endif
if (((pNeighborRoamInfo->currentNeighborLookupThreshold+3) <
pNeighborRoamInfo->cfgParams.neighborReassocThreshold)
#ifdef FEATURE_WLAN_LFR
&& ((pNeighborRoamInfo->uEmptyScanCount % 2) == 1)
#endif
)
{
pNeighborRoamInfo->currentNeighborLookupThreshold += 3;
}
#ifdef WLAN_FEATURE_VOWIFI_11R
/* Clear off the old neighbor report details */
vos_mem_zero(&pNeighborRoamInfo->FTRoamInfo.neighboReportBssInfo, sizeof(tCsrNeighborReportBssInfo) * MAX_BSS_IN_NEIGHBOR_RPT);
#endif
/* Transition to CONNECTED state */
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_CONNECTED,
sessionId);
/* Reset all the necessary variables before transitioning to the CONNECTED state */
csrNeighborRoamResetConnectedStateControlInfo(pMac, sessionId);
#ifdef FEATURE_WLAN_LFR
if (pNeighborRoamInfo->uEmptyScanCount == eFirstEmptyScan)
{
#endif
/* Empty scan results for the first time */
/* Re-register neighbor lookup DOWN threshold callback with TL */
NEIGHBOR_ROAM_DEBUG(pMac, LOGE,
FL("Registering DOWN event neighbor lookup callback with TL for RSSI = %d"),
pNeighborRoamInfo->currentNeighborLookupThreshold * (-1));
/* This user context data will be returned with callback */
pUsrCtx = vos_mem_malloc(sizeof(*pUsrCtx));
if (NULL == pUsrCtx) {
smsLog(pMac, LOGE, FL("Memory allocation failure"));
return VOS_STATUS_E_NOMEM;
}
pUsrCtx->pMac = pMac;
pUsrCtx->sessionId = sessionId;
vosStatus = WLANTL_RegRSSIIndicationCB(pMac->roam.gVosContext,
(v_S7_t)pNeighborRoamInfo->currentNeighborLookupThreshold * (-1),
WLANTL_HO_THRESHOLD_DOWN,
csrNeighborRoamNeighborLookupDOWNCallback,
VOS_MODULE_ID_SME, pUsrCtx);
vos_mem_free(pUsrCtx);
if(!VOS_IS_STATUS_SUCCESS(vosStatus))
{
smsLog(pMac, LOGW,
FL("Couldn't re-register csrNeighborRoamNeighborLookupDOWNCallback"
" with TL: Status = %d"), status);
}
#ifdef FEATURE_WLAN_LFR
pNeighborRoamInfo->lookupDOWNRssi = 0;
}
else if ((pNeighborRoamInfo->uEmptyScanCount == eSecondEmptyScan) ||
(pNeighborRoamInfo->uEmptyScanCount == eFourthEmptyScan))
{
/* Empty scan results for the second or fourth time */
/* Immediately scan on channels in non-occupied list */
csrNeighborRoamTransitToCFGChanScan(pMac, sessionId);
}
else if (pNeighborRoamInfo->uEmptyScanCount >= eThirdEmptyScan)
{
/* Empty scan results for the third time */
if (performPeriodicScan)
{
smsLog(pMac, LOGE, FL("Performing periodic scan, uEmptyScanCount=%d"),
pNeighborRoamInfo->uEmptyScanCount);
/*
* Set uEmptyScanCount to MAX so that we always enter this
* condition on subsequent empty scan results
*/
pNeighborRoamInfo->uEmptyScanCount = eMaxEmptyScan;
/* From here on, ONLY scan on channels in the occupied list */
pNeighborRoamInfo->uScanMode = SPLIT_SCAN_OCCUPIED_LIST;
/* Start empty scan refresh timer */
if (VOS_STATUS_SUCCESS !=
vos_timer_start(&pNeighborRoamInfo->emptyScanRefreshTimer,
pNeighborRoamInfo->cfgParams.emptyScanRefreshPeriod))
{
smsLog(pMac, LOGE, FL("Empty scan refresh timer failed to start (%d)"),
status);
vos_mem_free(pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList);
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList = NULL;
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.numOfChannels = 0;
vosStatus = VOS_STATUS_E_FAILURE;
}
else
{
smsLog(pMac, LOGE, FL("Empty scan refresh timer started (%d ms)"),
(pNeighborRoamInfo->cfgParams.emptyScanRefreshPeriod));
}
}
else if (eThirdEmptyScan == pNeighborRoamInfo->uEmptyScanCount)
{
/* Start neighbor scan results refresh timer */
if (VOS_STATUS_SUCCESS !=
vos_timer_start(&pNeighborRoamInfo->neighborResultsRefreshTimer,
pNeighborRoamInfo->cfgParams.neighborResultsRefreshPeriod))
{
smsLog(pMac, LOGE, FL("Neighbor results refresh timer failed to start (%d)"),
status);
vos_mem_free(pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList);
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList = NULL;
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.numOfChannels = 0;
vosStatus = VOS_STATUS_E_FAILURE;
}
else
{
smsLog(pMac, LOG2, FL("Neighbor results refresh timer started (%d ms)"),
(pNeighborRoamInfo->cfgParams.neighborResultsRefreshPeriod * VOS_TIMER_TO_MS_UNIT));
}
}
}
NEIGHBOR_ROAM_DEBUG(pMac, LOG2, "Neighbor roam empty scan count=%d scan mode=%d",
pNeighborRoamInfo->uEmptyScanCount, pNeighborRoamInfo->uScanMode);
#endif
return vosStatus;
}
static eHalStatus csrNeighborRoamProcessScanComplete (tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
tCsrScanResultFilter scanFilter;
tScanResultHandle scanResult;
tANI_U32 tempVal = 0;
tANI_BOOLEAN roamNow = eANI_BOOLEAN_FALSE;
eHalStatus hstatus;
tpFTRoamCallbackUsrCtx pUsrCtx;
#if defined (WLAN_FEATURE_VOWIFI_11R) || defined (FEATURE_WLAN_ESE) || defined(FEATURE_WLAN_LFR)
/* If the state is REPORT_SCAN, then this must be the scan after the REPORT_QUERY state. So, we
should use the BSSID filter made out of neighbor reports */
if ((eCSR_NEIGHBOR_ROAM_STATE_REPORT_SCAN == pNeighborRoamInfo->neighborRoamState)
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
&& (!csrRoamIsRoamOffloadScanEnabled(pMac))
#endif
)
{
hstatus = csrNeighborRoamBssIdScanFilter(pMac, sessionId, &scanFilter);
NEIGHBOR_ROAM_DEBUG(pMac, LOGW, FL("11R or ESE Association: Prepare scan filter status with neighbor AP = %d"), hstatus);
tempVal = 1;
}
else
#endif
{
hstatus = csrNeighborRoamPrepareScanProfileFilter(pMac,
&scanFilter, sessionId);
NEIGHBOR_ROAM_DEBUG(pMac, LOGW, FL("11R/ESE/Other Association: Prepare scan to find neighbor AP filter status = %d"), hstatus);
}
if (eHAL_STATUS_SUCCESS != hstatus)
{
smsLog(pMac, LOGE, FL("Scan Filter preparation failed for Assoc type %d.. Bailing out.."), tempVal);
return eHAL_STATUS_FAILURE;
}
hstatus = csrScanGetResult(pMac, &scanFilter, &scanResult);
if (hstatus != eHAL_STATUS_SUCCESS)
{
NEIGHBOR_ROAM_DEBUG(pMac, LOGE, FL("Get Scan Result status code %d"), hstatus);
}
/* Process the scan results and update roam able AP list */
roamNow = csrNeighborRoamProcessScanResults(pMac, sessionId,
&scanResult);
/* Free the scan filter */
csrFreeScanFilter(pMac, &scanFilter);
tempVal = csrLLCount(&pNeighborRoamInfo->roamableAPList);
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if(!csrRoamIsRoamOffloadScanEnabled(pMac))
{
#endif
switch(pNeighborRoamInfo->neighborRoamState)
{
case eCSR_NEIGHBOR_ROAM_STATE_CFG_CHAN_LIST_SCAN:
if (tempVal)
{
#ifdef FEATURE_WLAN_LFR
/*
* Since there are non-zero candidates found
* after the scan, reset empty scan count.
*/
pNeighborRoamInfo->uEmptyScanCount = 0;
pNeighborRoamInfo->uScanMode = DEFAULT_SCAN;
#endif
#ifdef WLAN_FEATURE_VOWIFI_11R
/*
* If this is a non-11r association, then we can register
* the reassoc callback here as we have some APs in the
* roam able AP list
*/
if (pNeighborRoamInfo->is11rAssoc) {
/* Valid APs are found after scan. Now we can initiate
pre-authentication */
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_REPORT_SCAN,
sessionId);
} else
#endif
#ifdef FEATURE_WLAN_ESE
/*
* If this is a non-11r association, then we can register
* the reassoc callback here as we have some APs in the
* roam able AP list
*/
if (pNeighborRoamInfo->isESEAssoc) {
/* Valid APs are found after scan. Now we can initiate
pre-authentication */
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_REPORT_SCAN,
sessionId);
} else
#endif
#ifdef FEATURE_WLAN_LFR
/*
* If LFR is enabled, then we can register the reassoc
* callback here as we have some APs in the roam able
* AP list
*/
if (csrRoamIsFastRoamEnabled(pMac, sessionId)) {
/* Valid APs are found after scan. Now we can initiate
pre-authentication */
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_REPORT_SCAN,
sessionId);
} else
#endif
{
NEIGHBOR_ROAM_DEBUG(pMac, LOGE, FL("Completed scanning of CFG CHAN LIST in non-11r association. Registering reassoc callback"));
/* Nothing much to do now. Will continue to remain in this state in case of non-11r association */
}
}
else
{
NEIGHBOR_ROAM_DEBUG(pMac, LOGE,
FL("No candidate found after"
"scanning in state %s .. "),
macTraceGetNeighbourRoamState(
pNeighborRoamInfo->neighborRoamState));
/* Handle it appropriately */
csrNeighborRoamHandleEmptyScanResult(pMac, sessionId);
}
break;
#ifdef WLAN_FEATURE_VOWIFI_11R
case eCSR_NEIGHBOR_ROAM_STATE_REPORT_SCAN:
if (!tempVal)
{
smsLog(pMac, LOGE,
FL("No candidate found after scanning"
"in state %s .. "),
macTraceGetNeighbourRoamState(
pNeighborRoamInfo->neighborRoamState));
/* Stop the timer here as the same timer will be started again in CFG_CHAN_SCAN_STATE */
csrNeighborRoamTransitToCFGChanScan(pMac, sessionId);
}
break;
#endif /* WLAN_FEATURE_VOWIFI_11R */
default:
// Can come only in INIT state. Where in we are associated, we sent scan and user
// in the meantime decides to disassoc, we will be in init state and still received call
// back issued. Should not come here in any other state, printing just in case
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_INFO,
FL("State %s"),
macTraceGetNeighbourRoamState(
pNeighborRoamInfo->neighborRoamState));
// Lets just exit out silently.
return eHAL_STATUS_SUCCESS;
}
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
}
#endif
if (tempVal)
{
VOS_STATUS vosStatus = VOS_STATUS_SUCCESS;
if (roamNow)
{
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if(!csrRoamIsRoamOffloadScanEnabled(pMac))
{
#endif
NEIGHBOR_ROAM_DEBUG(pMac, LOG2,
FL("Immediate roam-deregister UP indication. RSSI = %d"),
NEIGHBOR_ROAM_LOOKUP_UP_THRESHOLD * (-1));
vosStatus = WLANTL_DeregRSSIIndicationCB(pMac->roam.gVosContext,
(v_S7_t)NEIGHBOR_ROAM_LOOKUP_UP_THRESHOLD * (-1),
WLANTL_HO_THRESHOLD_UP,
csrNeighborRoamNeighborLookupUPCallback,
VOS_MODULE_ID_SME);
if(!VOS_IS_STATUS_SUCCESS(vosStatus))
{
smsLog(pMac, LOGW,
FL("Couldn't deregister lookup UP callback with TL: Status = %d"), vosStatus);
}
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
}
#endif
csrNeighborRoamTriggerHandoff(pMac, sessionId);
return eHAL_STATUS_SUCCESS;
}
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (!csrRoamIsRoamOffloadScanEnabled(pMac))
{
#endif
hstatus = vos_timer_start(
&pNeighborRoamInfo->neighborResultsRefreshTimer,
pNeighborRoamInfo->cfgParams.neighborResultsRefreshPeriod);
/* This timer should be started before registering the Reassoc
* callback with TL. This is because, it is very likely that the
* callback getting called immediately and the timer would never
* be stopped when pre-auth is in progress */
if (hstatus != eHAL_STATUS_SUCCESS)
{
smsLog(pMac, LOGE, FL(
"Neighbor results refresh timer failed to start, status = %d"),
hstatus);
vos_mem_free(
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList);
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList =
NULL;
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.numOfChannels =
0;
return eHAL_STATUS_FAILURE;
}
NEIGHBOR_ROAM_DEBUG(pMac, LOG2, FL(
"Registering DOWN event Reassoc callback with TL. RSSI = %d"),
pNeighborRoamInfo->cfgParams.neighborReassocThreshold * (-1));
pUsrCtx = vos_mem_malloc(sizeof(*pUsrCtx));
if (NULL == pUsrCtx) {
smsLog(pMac, LOGE, FL("Allocation failed for pUsrCtx"));
return eHAL_STATUS_FAILURE;
}
pUsrCtx->pMac = pMac;
pUsrCtx->sessionId = sessionId;
/* Register a reassoc Indication callback */
vosStatus = WLANTL_RegRSSIIndicationCB(pMac->roam.gVosContext,
(v_S7_t)pNeighborRoamInfo->cfgParams.neighborReassocThreshold * (-1),
WLANTL_HO_THRESHOLD_DOWN,
csrNeighborRoamReassocIndCallback,
VOS_MODULE_ID_SME, pUsrCtx);
vos_mem_free(pUsrCtx);
if (!VOS_IS_STATUS_SUCCESS(vosStatus))
{
//err msg
smsLog(pMac, LOGW, FL(
"Couldn't register with TL: Status = %d"),
vosStatus);
}
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
}
#endif
}
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (csrRoamIsRoamOffloadScanEnabled(pMac))
{
if (!tempVal || !roamNow)
{
if ((eSME_ROAM_TRIGGER_SCAN == pNeighborRoamInfo->cfgRoamEn) ||
(eSME_ROAM_TRIGGER_FAST_ROAM == pNeighborRoamInfo->cfgRoamEn))
{
/* This is ioctl based roaming if we did not find any roamable
* candidate then just log it. */
smsLog(pMac, LOGE,
FL("tempVal = %u, roamNow = %d uOsRequestedHandoff = %d"),
tempVal, roamNow, pNeighborRoamInfo->uOsRequestedHandoff);
}
else
{
if (pNeighborRoamInfo->uOsRequestedHandoff)
{
csrRoamOffloadScan(pMac, sessionId, ROAM_SCAN_OFFLOAD_START,
REASON_NO_CAND_FOUND_OR_NOT_ROAMING_NOW);
pNeighborRoamInfo->uOsRequestedHandoff = 0;
}
else
{
/* There is no candidate or We are not roaming Now.
* Inform the FW to restart Roam Offload Scan */
csrRoamOffloadScan(pMac, sessionId, ROAM_SCAN_OFFLOAD_RESTART,
REASON_NO_CAND_FOUND_OR_NOT_ROAMING_NOW);
}
}
csr_neighbor_roam_state_transition(pMac, eCSR_NEIGHBOR_ROAM_STATE_CONNECTED,
sessionId);
}
}
#endif
return eHAL_STATUS_SUCCESS;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamScanRequestCallback
\brief This function is the callback function registered in csrScanRequest() to
indicate the completion of scan. If scan is completed for all the channels in
the channel list, this function gets the scan result and starts the refresh results
timer to avoid having stale results. If scan is not completed on all the channels,
it restarts the neighbor scan timer which on expiry issues scan on the next
channel
\param halHandle - The handle returned by macOpen.
pContext - not used
scanId - not used
status - not used
\return eHAL_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
static eHalStatus csrNeighborRoamScanRequestCallback(tHalHandle halHandle,
void *pContext, tANI_U8 sessionId,
tANI_U32 scanId, eCsrScanStatus status)
{
tpAniSirGlobal pMac = (tpAniSirGlobal) halHandle;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
tANI_U8 currentChanIndex;
eHalStatus hstatus;
if (NULL != pContext)
{
#ifdef FEATURE_WLAN_LFR
if (!csrRoamIsStaMode(pMac, sessionId))
{
smsLog(pMac, LOGE,
FL("Ignoring scan request callback on non-infra"
"session %d in state %s"),
sessionId, macTraceGetNeighbourRoamState(
pNeighborRoamInfo->neighborRoamState));
vos_mem_free(pContext);
return eHAL_STATUS_SUCCESS;
}
if (!csrRoamIsFastRoamEnabled(pMac,sessionId))
{
smsLog(pMac, LOGE, FL("Received when fast roam is disabled. Ignore it"));
vos_mem_free(pContext);
return eHAL_STATUS_SUCCESS;
}
#endif
}
pNeighborRoamInfo->scanRspPending = eANI_BOOLEAN_FALSE;
/* This can happen when we receive a UP event from TL in any of the scan states. Silently ignore it */
if (eCSR_NEIGHBOR_ROAM_STATE_CONNECTED == pNeighborRoamInfo->neighborRoamState)
{
smsLog(pMac, LOGE, FL("Received in CONNECTED state. Must be because a UP event from TL after issuing scan request. Ignore it"));
if (NULL != pContext)
vos_mem_free(pContext);
return eHAL_STATUS_SUCCESS;
}
/* -1 is done because the chanIndex would have got incremented after
issuing a successful scan request */
currentChanIndex = (pNeighborRoamInfo->roamChannelInfo.currentChanIndex) ? (pNeighborRoamInfo->roamChannelInfo.currentChanIndex - 1) : 0;
/* Validate inputs */
if (pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList) {
NEIGHBOR_ROAM_DEBUG(pMac, LOGW,
FL("csrNeighborRoamScanRequestCallback received for Channel = %d, "
"ChanIndex = %d"),
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList[currentChanIndex],
currentChanIndex);
}
else
{
smsLog(pMac, LOG1, FL("Received during clean-up. Silently ignore scan completion event."));
if (NULL != pContext)
vos_mem_free(pContext);
return eHAL_STATUS_SUCCESS;
}
if (eANI_BOOLEAN_FALSE == pNeighborRoamInfo->roamChannelInfo.chanListScanInProgress)
{
/* Scan is completed in the CFG_CHAN_SCAN state. We can transition to REPORT_SCAN state
just to get the results and perform PREAUTH */
/* Now we have completed scanning the channel list. We have get the result by applying appropriate filter
sort the results based on neighborScore and RSSI and select the best candidate out of the list */
NEIGHBOR_ROAM_DEBUG(pMac, LOGW, FL("Channel list scan completed. Current chan index = %d"), currentChanIndex);
if (pNeighborRoamInfo->roamChannelInfo.currentChanIndex != 0)
{
VOS_ASSERT(pNeighborRoamInfo->roamChannelInfo.currentChanIndex == 0);
return eHAL_STATUS_FAILURE;
}
hstatus = csrNeighborRoamProcessScanComplete(pMac, sessionId);
if (eHAL_STATUS_SUCCESS != hstatus)
{
smsLog(pMac, LOGE, FL("Neighbor scan process complete failed with status %d"), hstatus);
if (NULL != pContext)
vos_mem_free(pContext);
return eHAL_STATUS_FAILURE;
}
}
else
{
/* Restart the timer for the next scan sequence as scanning is not over */
hstatus = vos_timer_start(&pNeighborRoamInfo->neighborScanTimer,
pNeighborRoamInfo->cfgParams.neighborScanPeriod);
if (eHAL_STATUS_SUCCESS != hstatus)
{
/* Timer start failed.. Should we ASSERT here??? */
smsLog(pMac, LOGE, FL("Neighbor scan PAL Timer start failed, status = %d, Ignoring state transition"), status);
vos_mem_free(pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList);
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList = NULL;
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.numOfChannels = 0;
if (NULL != pContext)
vos_mem_free(pContext);
return eHAL_STATUS_FAILURE;
}
}
if (NULL != pContext)
vos_mem_free(pContext);
return eHAL_STATUS_SUCCESS;
}
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamScanResultRequestCallback
\brief This function is the callback function registered in csrScanRequestLfrResult() to
indicate the completion of scan. If scan is completed for all the channels in
the channel list, this function gets the scan result and treats them as candidates
\param halHandle - The handle returned by macOpen.
pContext - not used
scanId - not used
status - not used
\return eHAL_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
static eHalStatus csrNeighborRoamScanResultRequestCallback(tHalHandle halHandle,
void *pContext,
tANI_U8 sessionId,
tANI_U32 scanId,
eCsrScanStatus status)
{
tpAniSirGlobal pMac = (tpAniSirGlobal) halHandle;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
eHalStatus hstatus;
smsLog(pMac, LOG2, FL("called "));
pNeighborRoamInfo->scanRspPending = eANI_BOOLEAN_FALSE;
/* we must be in connected state, if not ignore it */
if (eCSR_NEIGHBOR_ROAM_STATE_CONNECTED != pNeighborRoamInfo->neighborRoamState)
{
smsLog(pMac, LOGW, FL("Received in not CONNECTED state. Ignore it"));
return eHAL_STATUS_SUCCESS;
}
/* Now we have completed scanning the channel list. We have get the result by applying appropriate filter
sort the results based on neighborScore and RSSI and select the best candidate out of the list */
hstatus = csrNeighborRoamProcessScanComplete(pMac, sessionId);
if (eHAL_STATUS_SUCCESS != hstatus)
{
smsLog(pMac, LOGE, FL("Neighbor scan process complete failed with status %d"), hstatus);
return eHAL_STATUS_FAILURE;
}
return eHAL_STATUS_SUCCESS;
}
#endif //WLAN_FEATURE_ROAM_SCAN_OFFLOAD
#ifdef FEATURE_WLAN_LFR
static eHalStatus csrNeighborRoamContiguousScanRequestCallback(tHalHandle halHandle,
void *pContext, tANI_U8 sessionId,
tANI_U32 scanId, eCsrScanStatus status)
{
tpAniSirGlobal pMac = (tpAniSirGlobal) halHandle;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
eHalStatus hstatus = eHAL_STATUS_SUCCESS;
if (NULL != pContext)
{
sessionId = *((tANI_U32*)pContext);
if (!csrRoamIsFastRoamEnabled(pMac,sessionId))
{
smsLog(pMac, LOGE, FL("Received when fast roam is disabled. Ignore it"));
vos_mem_free(pContext);
return eHAL_STATUS_SUCCESS;
}
}
pNeighborRoamInfo->scanRspPending = eANI_BOOLEAN_FALSE;
/* This can happen when we receive a UP event from TL in any of the scan states. Silently ignore it */
if (eCSR_NEIGHBOR_ROAM_STATE_CONNECTED == pNeighborRoamInfo->neighborRoamState)
{
smsLog(pMac, LOGE, FL("Received in CONNECTED state. Must be because a UP event from TL after issuing scan request. Ignore it"));
if (NULL != pContext)
vos_mem_free(pContext);
return eHAL_STATUS_SUCCESS;
}
if (eCSR_NEIGHBOR_ROAM_STATE_INIT == pNeighborRoamInfo->neighborRoamState)
{
smsLog(pMac, LOGE, FL("Received in INIT state. Must have disconnected. Ignore it"));
if (NULL != pContext)
vos_mem_free(pContext);
return eHAL_STATUS_SUCCESS;
}
NEIGHBOR_ROAM_DEBUG(pMac, LOGW, "%s: process scan results", __func__);
hstatus = csrNeighborRoamProcessScanComplete(pMac, sessionId);
if (eHAL_STATUS_SUCCESS != hstatus)
{
smsLog(pMac, LOGE, FL("Neighbor scan process complete failed with status %d"), hstatus);
}
if (NULL != pContext)
vos_mem_free(pContext);
return hstatus;
}
#endif
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamIssueBgScanRequest
\brief This function issues CSR scan request after populating all the BG scan params
passed
\param pMac - The handle returned by macOpen.
pBgScanParams - Params that need to be populated into csr Scan request
\return eHAL_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
eHalStatus csrNeighborRoamIssueBgScanRequest(tpAniSirGlobal pMac,
tCsrBGScanRequest *pBgScanParams,
tANI_U32 sessionId,
csrScanCompleteCallback callbackfn)
{
eHalStatus status = eHAL_STATUS_SUCCESS;
tANI_U32 scanId;
tCsrScanRequest scanReq;
tANI_U8 channel;
void * userData = NULL;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
if (1 == pBgScanParams->ChannelInfo.numOfChannels)
NEIGHBOR_ROAM_DEBUG(pMac, LOGW, FL("Channel = %d, ChanIndex = %d"),
pBgScanParams->ChannelInfo.ChannelList[0],
pNeighborRoamInfo->roamChannelInfo.currentChanIndex);
//send down the scan req for 1 channel on the associated SSID
vos_mem_set(&scanReq, sizeof(tCsrScanRequest), 0);
/* Fill in the SSID Info */
scanReq.SSIDs.numOfSSIDs = 1;
scanReq.SSIDs.SSIDList = vos_mem_malloc(sizeof(tCsrSSIDInfo) * scanReq.SSIDs.numOfSSIDs);
if (NULL == scanReq.SSIDs.SSIDList)
{
//err msg
smsLog(pMac, LOGE, FL("Couldn't allocate memory for the SSID..Freeing memory allocated for Channel List"));
return eHAL_STATUS_FAILURE;
}
vos_mem_zero(scanReq.SSIDs.SSIDList, sizeof(tCsrSSIDInfo) * scanReq.SSIDs.numOfSSIDs);
scanReq.SSIDs.SSIDList[0].handoffPermitted = eANI_BOOLEAN_TRUE;
scanReq.SSIDs.SSIDList[0].ssidHidden = eANI_BOOLEAN_TRUE;
vos_mem_copy((void *)&scanReq.SSIDs.SSIDList[0].SSID, (void *)&pBgScanParams->SSID, sizeof(pBgScanParams->SSID));
scanReq.ChannelInfo.numOfChannels = pBgScanParams->ChannelInfo.numOfChannels;
if (1 == pBgScanParams->ChannelInfo.numOfChannels)
{
channel = pBgScanParams->ChannelInfo.ChannelList[0];
scanReq.ChannelInfo.ChannelList = &channel;
}
else
{
scanReq.ChannelInfo.ChannelList = pBgScanParams->ChannelInfo.ChannelList;
}
scanReq.BSSType = eCSR_BSS_TYPE_INFRASTRUCTURE;
scanReq.scanType = eSIR_ACTIVE_SCAN;
scanReq.requestType = eCSR_SCAN_HO_BG_SCAN;
scanReq.maxChnTime = pBgScanParams->maxChnTime;
scanReq.minChnTime = pBgScanParams->minChnTime;
userData = vos_mem_malloc(sizeof(tANI_U32));
if (NULL == userData)
{
smsLog(pMac, LOGE, FL("Failed to allocate memory for scan request"));
vos_mem_free(scanReq.SSIDs.SSIDList);
return eHAL_STATUS_FAILURE;
}
*((tANI_U32*)userData) = sessionId;
status = csrScanRequest(pMac, CSR_SESSION_ID_INVALID, &scanReq,
&scanId, callbackfn, (void *) userData);
if (eHAL_STATUS_SUCCESS != status)
{
smsLog(pMac, LOGE, FL("CSR Scan Request failed with status %d"), status);
vos_mem_free(scanReq.SSIDs.SSIDList);
vos_mem_free(userData);
return status;
}
pNeighborRoamInfo->scanRspPending = eANI_BOOLEAN_TRUE;
vos_mem_free(scanReq.SSIDs.SSIDList);
if (1 == pBgScanParams->ChannelInfo.numOfChannels)
NEIGHBOR_ROAM_DEBUG(pMac, LOG1,
FL("Channel List Address = %pK, Actual index = %d"),
&pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList[0],
pNeighborRoamInfo->roamChannelInfo.currentChanIndex);
return status;
}
static void csrNeighborRoamFillNonChannelBgScanParams (tpAniSirGlobal pMac,
tANI_U8 sessionId,
tpCsrBGScanRequest bgScanParams)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
tANI_U8 broadcastBssid[] = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF };
vos_mem_copy(bgScanParams->bssid, broadcastBssid, sizeof(tCsrBssid));
bgScanParams->SSID.length =
pMac->roam.roamSession[sessionId].connectedProfile.SSID.length;
vos_mem_copy(bgScanParams->SSID.ssId,
pMac->roam.roamSession[sessionId].connectedProfile.SSID.ssId,
pMac->roam.roamSession[sessionId].connectedProfile.SSID.length);
bgScanParams->minChnTime = pNeighborRoamInfo->cfgParams.minChannelScanTime;
bgScanParams->maxChnTime = pNeighborRoamInfo->cfgParams.maxChannelScanTime;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamPerformBgScan
\brief This function is invoked on every expiry of neighborScanTimer till all
the channels in the channel list are scanned. It populates necessary
parameters for BG scan and calls appropriate AP to invoke the CSR scan
request
\param pMac - The handle returned by macOpen.
\return eHAL_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
eHalStatus csrNeighborRoamPerformBgScan(tpAniSirGlobal pMac, tANI_U8 sessionId)
{
eHalStatus status = eHAL_STATUS_SUCCESS;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
tCsrBGScanRequest bgScanParams;
tANI_U8 channel = 0;
if (pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList
&&
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.numOfChannels) {
NEIGHBOR_ROAM_DEBUG(pMac, LOG1, FL("Channel List Address = %pK"), &pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList[0]);
}
else
{
NEIGHBOR_ROAM_DEBUG(pMac, LOGE, FL("Channel List Empty"));
// Go back and restart. Mostly timer start failure has occurred.
// When timer start is declared a failure, then we delete the list.
// Should not happen now as we stop and then only start the scan timer.
// still handle the unlikely case.
csrNeighborRoamHandleEmptyScanResult(pMac, sessionId);
return status;
}
/* Validate the currentChanIndex value before using it to index the ChannelList array */
if ( pNeighborRoamInfo->roamChannelInfo.currentChanIndex
> pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.numOfChannels)
{
NEIGHBOR_ROAM_DEBUG(pMac, LOGE, FL("Invalid channel index: %d"), pNeighborRoamInfo->roamChannelInfo.currentChanIndex);
// Go back and restart.
csrNeighborRoamHandleEmptyScanResult(pMac, sessionId);
return status;
}
/* Need to perform scan here before getting the list */
vos_mem_set(&bgScanParams, sizeof(tCsrBGScanRequest), 0);
channel = pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList[pNeighborRoamInfo->roamChannelInfo.currentChanIndex];
bgScanParams.ChannelInfo.numOfChannels = 1;
bgScanParams.ChannelInfo.ChannelList = &channel;
csrNeighborRoamFillNonChannelBgScanParams(pMac, sessionId, &bgScanParams);
/* Update the passive scan time for DFS channel */
if ((TRUE == CSR_IS_CHANNEL_DFS(channel)) &&
(CSR_ROAMING_DFS_CHANNEL_DISABLED !=
pMac->roam.configParam.allowDFSChannelRoam))
{
bgScanParams.minChnTime = pMac->roam.configParam.nPassiveMinChnTime;
bgScanParams.maxChnTime = pMac->roam.configParam.nPassiveMaxChnTime;
}
status = csrNeighborRoamIssueBgScanRequest(pMac, &bgScanParams,
sessionId, csrNeighborRoamScanRequestCallback);
if (eHAL_STATUS_SUCCESS != status)
{
smsLog(pMac, LOGE, FL("Issue of BG Scan request failed: Status = %d"), status);
}
pNeighborRoamInfo->roamChannelInfo.currentChanIndex++;
if (pNeighborRoamInfo->roamChannelInfo.currentChanIndex >=
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.numOfChannels)
{
NEIGHBOR_ROAM_DEBUG(pMac, LOG1, FL("Completed scanning channels in Channel List: CurrChanIndex = %d, Num Channels = %d"),
pNeighborRoamInfo->roamChannelInfo.currentChanIndex,
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.numOfChannels);
/* We have completed scanning all the channels */
pNeighborRoamInfo->roamChannelInfo.currentChanIndex = 0;
/* We are no longer scanning the channel list. Next timer firing should be used to get the scan results
and select the best AP in the list */
if (eANI_BOOLEAN_TRUE == pNeighborRoamInfo->roamChannelInfo.chanListScanInProgress)
{
pNeighborRoamInfo->roamChannelInfo.chanListScanInProgress = eANI_BOOLEAN_FALSE;
}
}
if (eHAL_STATUS_SUCCESS != status)
{
/*
* If the status is not success, we need to call the callback
* routine so that the state machine does not get stuck.
*/
csrNeighborRoamScanRequestCallback(pMac, NULL, sessionId, 0,
eCSR_SCAN_FAILURE);
}
return status;
}
#ifdef FEATURE_WLAN_LFR
eHalStatus csrNeighborRoamPerformContiguousBgScan(tpAniSirGlobal pMac,
tANI_U32 sessionId)
{
eHalStatus status = eHAL_STATUS_SUCCESS;
tCsrBGScanRequest bgScanParams;
tANI_U8 numOfChannels = 0, i = 0;
tANI_U8 *channelList = NULL;
tANI_U8 *pInChannelList = NULL;
tANI_U8 tmpChannelList[WNI_CFG_VALID_CHANNEL_LIST_LEN];
vos_mem_set(&bgScanParams, sizeof(tCsrBGScanRequest), 0);
/* Contiguously scan all channels from valid list */
NEIGHBOR_ROAM_DEBUG(pMac, LOG2, FL("get valid channel list"));
numOfChannels = sizeof(pMac->roam.validChannelList);
if(!HAL_STATUS_SUCCESS(csrGetCfgValidChannels(pMac,
(tANI_U8 *)pMac->roam.validChannelList,
(tANI_U32 *) &numOfChannels)))
{
smsLog(pMac, LOGE, FL("Could not get valid channel list"));
return eHAL_STATUS_FAILURE;
}
pInChannelList = pMac->roam.validChannelList;
if (CSR_IS_ROAM_INTRA_BAND_ENABLED(pMac))
{
csrNeighborRoamChannelsFilterByCurrentBand(
pMac,
sessionId,
pInChannelList,
numOfChannels,
tmpChannelList,
&numOfChannels);
pInChannelList = tmpChannelList;
}
channelList = vos_mem_malloc(numOfChannels);
if ( NULL == channelList )
{
smsLog(pMac, LOGE, FL("could not allocate memory for channelList"));
return eHAL_STATUS_FAILURE;
}
vos_mem_copy(channelList, (tANI_U8 *)pInChannelList,
numOfChannels * sizeof(tANI_U8));
bgScanParams.ChannelInfo.numOfChannels = numOfChannels;
bgScanParams.ChannelInfo.ChannelList = channelList;
for (i = 0; i < numOfChannels; i++)
{
NEIGHBOR_ROAM_DEBUG(pMac, LOGW, "%s: valid channel list = %d",
__func__, bgScanParams.ChannelInfo.ChannelList[i]);
}
csrNeighborRoamFillNonChannelBgScanParams(pMac, sessionId, &bgScanParams);
status = csrNeighborRoamIssueBgScanRequest(pMac, &bgScanParams,
sessionId, csrNeighborRoamContiguousScanRequestCallback);
vos_mem_free(channelList);
if (eHAL_STATUS_SUCCESS != status)
{
smsLog(pMac, LOGE, FL("Issue of BG Scan request failed: Status = %d"), status);
}
return status;
}
#endif
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamNeighborScanTimerCallback
\brief This function is the neighbor scan timer callback function. It invokes
the BG scan request based on the current and previous states
\param pv - CSR timer context info which includes pMac and session ID
\return VOID
---------------------------------------------------------------------------*/
void csrNeighborRoamNeighborScanTimerCallback(void *pv)
{
tCsrTimerInfo *pInfo = (tCsrTimerInfo *)pv;
tpAniSirGlobal pMac = pInfo->pMac;
tANI_U32 sessionId = pInfo->sessionId;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo;
if (!pMac)
{
VOS_TRACE(VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_ERROR, FL("pMac is Null"));
return;
}
if ((CSR_SESSION_ID_INVALID == sessionId) ||
(CSR_ROAM_SESSION_MAX <= sessionId)) {
smsLog(pMac, LOGE,
FL("Invalid sessionId/Reached maximum no.of sessions %d"),
sessionId);
return;
}
pNeighborRoamInfo = &pMac->roam.neighborRoamInfo[sessionId];
// check if bg scan is on going, no need to send down the new params if true
if(eANI_BOOLEAN_TRUE == pNeighborRoamInfo->scanRspPending)
{
//msg
smsLog(pMac, LOGW, FL("Already BgScanRsp is Pending"));
return;
}
switch (pNeighborRoamInfo->neighborRoamState)
{
#ifdef WLAN_FEATURE_VOWIFI_11R
case eCSR_NEIGHBOR_ROAM_STATE_REPORT_SCAN:
switch(pNeighborRoamInfo->prevNeighborRoamState)
{
case eCSR_NEIGHBOR_ROAM_STATE_REPORT_QUERY:
csrNeighborRoamPerformBgScan(pMac, sessionId);
break;
default:
smsLog(pMac, LOGE,
FL("Neighbor scan callback received in"
"state %s, prev state = %s"),
macTraceGetNeighbourRoamState(
pNeighborRoamInfo->neighborRoamState),
macTraceGetNeighbourRoamState(
pNeighborRoamInfo->prevNeighborRoamState));
break;
}
break;
#endif /* WLAN_FEATURE_VOWIFI_11R */
case eCSR_NEIGHBOR_ROAM_STATE_CFG_CHAN_LIST_SCAN:
csrNeighborRoamPerformBgScan(pMac, sessionId);
break;
default:
break;
}
return;
}
void csrNeighborRoamEmptyScanRefreshTimerCallback(void *context)
{
tCsrTimerInfo *pInfo = (tCsrTimerInfo *)context;
tpAniSirGlobal pMac = pInfo->pMac;
VOS_STATUS vosStatus = VOS_STATUS_SUCCESS;
tANI_U32 sessionId = pInfo->sessionId;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo;
if (!pMac)
{
VOS_TRACE(VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_ERROR, FL("pMac is Null"));
return;
}
if ((CSR_SESSION_ID_INVALID == sessionId) ||
(CSR_ROAM_SESSION_MAX <= sessionId)) {
smsLog(pMac, LOGE,
FL("Invalid sessionId/Reached maximum no.of sessions %d"),
sessionId);
return;
}
pNeighborRoamInfo = &pMac->roam.neighborRoamInfo[sessionId];
/* Reset all the variables just as no scan had happened before */
csrNeighborRoamResetConnectedStateControlInfo(pMac, sessionId);
#if defined WLAN_FEATURE_VOWIFI_11R && defined WLAN_FEATURE_VOWIFI
if ((pNeighborRoamInfo->is11rAssoc) && (pMac->rrm.rrmSmeContext.rrmConfig.rrm_enabled))
{
NEIGHBOR_ROAM_DEBUG(pMac, LOGE, FL("11R Association:Neighbor Lookup Down event received in CONNECTED state"));
vosStatus = csrNeighborRoamIssueNeighborRptRequest(pMac, sessionId);
if (VOS_STATUS_SUCCESS != vosStatus)
{
smsLog(pMac, LOGE, FL("Neighbor report request failed. status = %d"), vosStatus);
return;
}
/* Increment the neighbor report retry count after sending the neighbor request successfully */
pNeighborRoamInfo->FTRoamInfo.currentNeighborRptRetryNum++;
pNeighborRoamInfo->FTRoamInfo.neighborRptPending = eANI_BOOLEAN_TRUE;
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_REPORT_QUERY,
sessionId);
} else
#endif
{
NEIGHBOR_ROAM_DEBUG(pMac, LOGE, FL("Non 11R or ESE Association:empty scan refresh timer expired"));
vosStatus = csrNeighborRoamTransitToCFGChanScan(pMac, sessionId);
if (VOS_STATUS_SUCCESS != vosStatus)
{
return;
}
}
return;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamResultsRefreshTimerCallback
\brief This function is the timer callback function for results
refresh timer. When this is invoked, it is as good as down event
received from TL. So, clear off the roam able AP list and start
the scan procedure based on 11R or non-11R association
\param context - CSR timer context info which includes pMac and session ID
\return VOID
---------------------------------------------------------------------------*/
void csrNeighborRoamResultsRefreshTimerCallback(void *context)
{
tCsrTimerInfo *pInfo = (tCsrTimerInfo *)context;
tpAniSirGlobal pMac = pInfo->pMac;
VOS_STATUS vosStatus = VOS_STATUS_SUCCESS;
tANI_U32 sessionId = pInfo->sessionId;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo;
if (!pMac)
{
VOS_TRACE(VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_ERROR, FL("pMac is Null"));
return;
}
if ((CSR_SESSION_ID_INVALID == sessionId) ||
(CSR_ROAM_SESSION_MAX <= sessionId)) {
smsLog(pMac, LOGE,
FL("Invalid sessionId/Reached maximum no.of sessions %d"),
sessionId);
return;
}
pNeighborRoamInfo = &pMac->roam.neighborRoamInfo[sessionId];
NEIGHBOR_ROAM_DEBUG(pMac, LOG2, FL("Deregistering DOWN event reassoc callback with TL. RSSI = %d"), pNeighborRoamInfo->cfgParams.neighborReassocThreshold * (-1));
/* Deregister reassoc callback. Ignore return status */
vosStatus = WLANTL_DeregRSSIIndicationCB(pMac->roam.gVosContext, (v_S7_t)pNeighborRoamInfo->cfgParams.neighborReassocThreshold * (-1),
WLANTL_HO_THRESHOLD_DOWN,
csrNeighborRoamReassocIndCallback,
VOS_MODULE_ID_SME);
if (!VOS_IS_STATUS_SUCCESS(vosStatus))
{
//err msg
smsLog(pMac, LOGW, FL(" Couldn't deregister csrNeighborRoamReassocIndCallback with TL: Status = %d"), vosStatus);
}
/* Reset all the variables just as no scan had happened before */
csrNeighborRoamResetConnectedStateControlInfo(pMac, pInfo->sessionId);
#if defined WLAN_FEATURE_VOWIFI_11R && defined WLAN_FEATURE_VOWIFI
if ((pNeighborRoamInfo->is11rAssoc) && (pMac->rrm.rrmSmeContext.rrmConfig.rrm_enabled))
{
NEIGHBOR_ROAM_DEBUG(pMac, LOGE, FL("11R Association:Neighbor Lookup Down event received in CONNECTED state"));
vosStatus = csrNeighborRoamIssueNeighborRptRequest(pMac, sessionId);
if (VOS_STATUS_SUCCESS != vosStatus)
{
smsLog(pMac, LOGE, FL("Neighbor report request failed. status = %d"), vosStatus);
return;
}
/* Increment the neighbor report retry count after sending the neighbor request successfully */
pNeighborRoamInfo->FTRoamInfo.currentNeighborRptRetryNum++;
pNeighborRoamInfo->FTRoamInfo.neighborRptPending = eANI_BOOLEAN_TRUE;
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_REPORT_QUERY,
sessionId);
}
else
#endif
{
NEIGHBOR_ROAM_DEBUG(pMac, LOGE, FL("Non 11R or ESE Association:results refresh timer expired"));
vosStatus = csrNeighborRoamTransitToCFGChanScan(pMac, sessionId);
if (VOS_STATUS_SUCCESS != vosStatus)
{
return;
}
}
return;
}
#if defined WLAN_FEATURE_VOWIFI_11R && defined WLAN_FEATURE_VOWIFI
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamIssueNeighborRptRequest
\brief This function is invoked when TL issues a down event and the current assoc
is a 11R association. It invokes SME RRM API to issue the neighbor request to
the currently associated AP with the current SSID
\param pMac - The handle returned by macOpen.
\return VOS_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
VOS_STATUS csrNeighborRoamIssueNeighborRptRequest(tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
tRrmNeighborRspCallbackInfo callbackInfo;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
tRrmNeighborReq neighborReq;
tpFTRoamCallbackUsrCtx pUsrCtx;
/* This user context data will be returned with callback */
pUsrCtx = vos_mem_malloc(sizeof(*pUsrCtx));
if (NULL == pUsrCtx) {
smsLog(pMac, LOGE, FL("Memory allocation failure"));
return VOS_STATUS_E_NOMEM;
}
pUsrCtx->pMac = pMac;
pUsrCtx->sessionId = sessionId;
neighborReq.no_ssid = 0;
/* Fill in the SSID */
neighborReq.ssid.length =
pMac->roam.roamSession[sessionId].connectedProfile.SSID.length;
vos_mem_copy(neighborReq.ssid.ssId,
pMac->roam.roamSession[sessionId].connectedProfile.SSID.ssId,
pMac->roam.roamSession[sessionId].connectedProfile.SSID.length);
callbackInfo.neighborRspCallback = csrNeighborRoamRRMNeighborReportResult;
callbackInfo.neighborRspCallbackContext = pUsrCtx;
callbackInfo.timeout = pNeighborRoamInfo->FTRoamInfo.neighborReportTimeout;
return sme_NeighborReportRequest(pMac, sessionId, &neighborReq,
&callbackInfo);
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamChannelsFilterByCurrentBand
\brief This function is used to filter out the channels
based on the currently associated AP channel
\param pMac - The handle returned by macOpen.
\param pInputChannelList - The input channel list
\param inputNumOfChannels - The number of channels in input channel list
\param pOutputChannelList - The output channel list
\param outputNumOfChannels - The number of channels in output channel list
\param pMergedOutputNumOfChannels - The final number of channels in the output channel list.
\return VOS_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
VOS_STATUS csrNeighborRoamChannelsFilterByCurrentBand(
tpAniSirGlobal pMac,
tANI_U8 sessionId,
tANI_U8* pInputChannelList,
tANI_U8 inputNumOfChannels,
tANI_U8* pOutputChannelList,
tANI_U8* pMergedOutputNumOfChannels
)
{
tANI_U8 i = 0;
tANI_U8 numChannels = 0;
tANI_U8 currAPoperationChannel =
pMac->roam.neighborRoamInfo[sessionId].currAPoperationChannel;
// Check for NULL pointer
if (!pInputChannelList) return VOS_STATUS_E_INVAL;
// Check for NULL pointer
if (!pOutputChannelList) return VOS_STATUS_E_INVAL;
if (inputNumOfChannels > WNI_CFG_VALID_CHANNEL_LIST_LEN)
{
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_ERROR,
"%s: Wrong Number of Input Channels %d",
__func__, inputNumOfChannels);
return VOS_STATUS_E_INVAL;
}
for (i = 0; i < inputNumOfChannels; i++)
{
if (GetRFBand(currAPoperationChannel) == GetRFBand(pInputChannelList[i]))
{
pOutputChannelList[numChannels] = pInputChannelList[i];
numChannels++;
}
}
// Return final number of channels
*pMergedOutputNumOfChannels = numChannels;
return VOS_STATUS_SUCCESS;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamMergeChannelLists
\brief This function is used to merge two channel list.
NB: If called with outputNumOfChannels == 0, this routines
simply copies the input channel list to the output channel list.
if number of merged channels are more than 100, num of channels
set to 100
\param pMac - The handle returned by macOpen.
\param pInputChannelList - The additional channels to merge in to the "merged" channels list.
\param inputNumOfChannels - The number of additional channels.
\param pOutputChannelList - The place to put the "merged" channel list.
\param outputNumOfChannels - The original number of channels in the "merged" channels list.
\param pMergedOutputNumOfChannels - The final number of channels in the "merged" channel list.
\return VOS_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
VOS_STATUS csrNeighborRoamMergeChannelLists(
tpAniSirGlobal pMac,
tANI_U8 *pInputChannelList,
tANI_U8 inputNumOfChannels,
tANI_U8 *pOutputChannelList,
tANI_U8 outputNumOfChannels,
tANI_U8 *pMergedOutputNumOfChannels
)
{
tANI_U8 i = 0;
tANI_U8 j = 0;
tANI_U8 numChannels = outputNumOfChannels;
// Check for NULL pointer
if (!pInputChannelList) return VOS_STATUS_E_INVAL;
// Check for NULL pointer
if (!pOutputChannelList) return VOS_STATUS_E_INVAL;
if (inputNumOfChannels > WNI_CFG_VALID_CHANNEL_LIST_LEN)
{
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_ERROR,
"%s: Wrong Number of Input Channels %d",
__func__, inputNumOfChannels);
return VOS_STATUS_E_INVAL;
}
if (outputNumOfChannels >= WNI_CFG_VALID_CHANNEL_LIST_LEN)
{
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_ERROR,
"%s: Wrong Number of Output Channels %d",
__func__, outputNumOfChannels);
return VOS_STATUS_E_INVAL;
}
// Add the "new" channels in the input list to the end of the output list.
for (i = 0; i < inputNumOfChannels; i++)
{
for (j = 0; j < outputNumOfChannels; j++)
{
if (pInputChannelList[i] == pOutputChannelList[j])
break;
}
if (j == outputNumOfChannels)
{
if (pInputChannelList[i])
{
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_INFO,
"%s: [INFOLOG] Adding extra %d to Neighbor channel list", __func__,
pInputChannelList[i]);
pOutputChannelList[numChannels] = pInputChannelList[i];
numChannels++;
}
}
if (numChannels >= WNI_CFG_VALID_CHANNEL_LIST_LEN)
{
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_INFO,
"%s: Merge Neighbor channel list reached Max "
"limit %d", __func__,
numChannels);
break;
}
}
// Return final number of channels
*pMergedOutputNumOfChannels = numChannels;
return VOS_STATUS_SUCCESS;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamCreateChanListFromNeighborReport
\brief This function is invoked when neighbor report is received for the
neighbor request. Based on the channels present in the neighbor report,
it generates channel list which will be used in REPORT_SCAN state to
scan for these neighbor APs
\param pMac - The handle returned by macOpen.
\return VOS_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
VOS_STATUS csrNeighborRoamCreateChanListFromNeighborReport(tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
tpRrmNeighborReportDesc pNeighborBssDesc;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
tANI_U8 numChannels = 0;
tANI_U8 i = 0;
tANI_U8 channelList[MAX_BSS_IN_NEIGHBOR_RPT];
tANI_U8 mergedOutputNumOfChannels = 0;
/* This should always start from 0 whenever we create a channel list out of neighbor AP list */
pNeighborRoamInfo->FTRoamInfo.numBssFromNeighborReport = 0;
pNeighborBssDesc = smeRrmGetFirstBssEntryFromNeighborCache(pMac);
while (pNeighborBssDesc)
{
if (pNeighborRoamInfo->FTRoamInfo.numBssFromNeighborReport >= MAX_BSS_IN_NEIGHBOR_RPT) break;
/* Update the neighbor BSS Info in the 11r FT Roam Info */
pNeighborRoamInfo->FTRoamInfo.neighboReportBssInfo[pNeighborRoamInfo->FTRoamInfo.numBssFromNeighborReport].channelNum =
pNeighborBssDesc->pNeighborBssDescription->channel;
pNeighborRoamInfo->FTRoamInfo.neighboReportBssInfo[pNeighborRoamInfo->FTRoamInfo.numBssFromNeighborReport].neighborScore =
(tANI_U8)pNeighborBssDesc->roamScore;
vos_mem_copy(pNeighborRoamInfo->FTRoamInfo.neighboReportBssInfo[pNeighborRoamInfo->FTRoamInfo.numBssFromNeighborReport].neighborBssId,
pNeighborBssDesc->pNeighborBssDescription->bssId, sizeof(tSirMacAddr));
pNeighborRoamInfo->FTRoamInfo.numBssFromNeighborReport++;
/* Saving the channel list non-redundantly */
for (i = 0; (i < numChannels && i < MAX_BSS_IN_NEIGHBOR_RPT); i++)
{
if (pNeighborBssDesc->pNeighborBssDescription->channel == channelList[i])
break;
}
if ((i == numChannels) && (numChannels < MAX_BSS_IN_NEIGHBOR_RPT))
{
if (pNeighborBssDesc->pNeighborBssDescription->channel)
{
if (CSR_IS_ROAM_INTRA_BAND_ENABLED(pMac))
{
// Make sure to add only if its the same band
if (GetRFBand(pNeighborRoamInfo->currAPoperationChannel) ==
GetRFBand(pNeighborBssDesc->pNeighborBssDescription->channel))
{
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_INFO,
"%s: [INFOLOG] Adding %d to Neighbor channel list (Same band)\n", __func__,
pNeighborBssDesc->pNeighborBssDescription->channel);
channelList[numChannels] = pNeighborBssDesc->pNeighborBssDescription->channel;
numChannels++;
}
}
else
{
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_INFO,
"%s: [INFOLOG] Adding %d to Neighbor channel list\n", __func__,
pNeighborBssDesc->pNeighborBssDescription->channel);
channelList[numChannels] = pNeighborBssDesc->pNeighborBssDescription->channel;
numChannels++;
}
}
}
pNeighborBssDesc = smeRrmGetNextBssEntryFromNeighborCache(pMac, pNeighborBssDesc);
}
if (pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList)
{
vos_mem_free(pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList);
}
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList = NULL;
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.numOfChannels = 0;
/* Store the obtained channel list to the Neighbor Control data structure */
if (numChannels)
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList = vos_mem_malloc((numChannels) * sizeof(tANI_U8));
if (NULL == pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList)
{
smsLog(pMac, LOGE, FL("Memory allocation for Channel list failed.. TL event ignored"));
return VOS_STATUS_E_RESOURCES;
}
vos_mem_copy(pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList,
channelList, (numChannels) * sizeof(tANI_U8));
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.numOfChannels = numChannels;
/*
* Create a Union of occupied channel list learnt by the DUT along with the Neighbor
* report Channels. This increases the chances of the DUT to get a candidate AP while
* roaming even if the Neighbor Report is not able to provide sufficient information.
* */
if (pMac->scan.occupiedChannels[sessionId].numChannels) {
csrNeighborRoamMergeChannelLists(pMac,
&pMac->scan.occupiedChannels[sessionId].channelList[0],
pMac->scan.occupiedChannels[sessionId].numChannels,
&pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList[0],
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.numOfChannels,
&mergedOutputNumOfChannels);
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.numOfChannels =
mergedOutputNumOfChannels;
}
/*Indicate the firmware about the update only if any new channels are added.
* Otherwise, the firmware would already be knowing the non-IAPPneighborlist
* channels. There is no need to update.*/
if (numChannels)
{
smsLog(pMac, LOG1,
FL("IAPP Neighbor list callback received as expected"
"in state %s."),
macTraceGetNeighbourRoamState(
pNeighborRoamInfo->neighborRoamState));
pNeighborRoamInfo->roamChannelInfo.IAPPNeighborListReceived = eANI_BOOLEAN_TRUE;
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (csrRoamIsRoamOffloadScanEnabled(pMac))
{
csrRoamOffloadScan(pMac, sessionId, ROAM_SCAN_OFFLOAD_UPDATE_CFG,
REASON_CHANNEL_LIST_CHANGED);
}
#endif
}
pNeighborRoamInfo->roamChannelInfo.currentChanIndex = 0;
pNeighborRoamInfo->roamChannelInfo.chanListScanInProgress = eANI_BOOLEAN_TRUE;
return VOS_STATUS_SUCCESS;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamRRMNeighborReportResult
\brief This function is the neighbor report callback that will be invoked by
SME RRM on receiving a neighbor report or of neighbor report is not
received after timeout. On receiving a valid report, it generates a
channel list from the neighbor report and starts the
neighbor scan timer
\param context - The handle returned by macOpen.
vosStatus - Status of the callback(SUCCESS/FAILURE)
\return VOID
---------------------------------------------------------------------------*/
void csrNeighborRoamRRMNeighborReportResult(void *context, VOS_STATUS vosStatus)
{
tFTRoamCallbackUsrCtx *pUsrCtx = (tFTRoamCallbackUsrCtx *)context;
tANI_U32 sessionId = pUsrCtx->sessionId;
tpAniSirGlobal pMac = pUsrCtx->pMac;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
eHalStatus status = eHAL_STATUS_SUCCESS;
smsLog(pMac, LOG1, FL("Neighbor report result callback with status = %d"), vosStatus);
switch (pNeighborRoamInfo->neighborRoamState)
{
case eCSR_NEIGHBOR_ROAM_STATE_REPORT_QUERY:
/* Reset the report pending variable */
pNeighborRoamInfo->FTRoamInfo.neighborRptPending = eANI_BOOLEAN_FALSE;
if (VOS_STATUS_SUCCESS == vosStatus)
{
/* Need to create channel list based on the neighbor AP list and transition to REPORT_SCAN state */
vosStatus = csrNeighborRoamCreateChanListFromNeighborReport(
pMac,
sessionId);
if (VOS_STATUS_SUCCESS == vosStatus)
{
NEIGHBOR_ROAM_DEBUG(pMac, LOGE, FL("Channel List created from Neighbor report, Transitioning to NEIGHBOR_SCAN state"));
}
/* We are gonna scan now. Remember the time stamp to filter out
results only after this time stamp */
pNeighborRoamInfo->scanRequestTimeStamp = vos_timer_get_system_time();
/* Now ready for neighbor scan based on the channel list created */
status = vos_timer_start(&pNeighborRoamInfo->neighborScanTimer,
pNeighborRoamInfo->cfgParams.neighborScanPeriod);
if (eHAL_STATUS_SUCCESS != status)
{
/* Timer start failed.. Should we ASSERT here??? */
smsLog(pMac, LOGE, FL("PAL Timer start for neighbor scan timer failed, status = %d, Ignoring state transition"), status);
vos_mem_free(pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList);
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList = NULL;
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.numOfChannels = 0;
vos_mem_free(pUsrCtx);
return;
}
pNeighborRoamInfo->FTRoamInfo.currentNeighborRptRetryNum = 0;
/* Neighbor scan timer started. Transition to REPORT_SCAN state */
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_REPORT_SCAN,
sessionId);
}
else
{
/* Neighbor report timeout happened in SME RRM. We can try sending more neighbor requests until we
reach the maxNeighborRetries or receiving a successful neighbor response */
smsLog(pMac, LOGE, FL("Neighbor report result failed after %d retries, MAX RETRIES = %d"),
pNeighborRoamInfo->FTRoamInfo.currentNeighborRptRetryNum, pNeighborRoamInfo->cfgParams.maxNeighborRetries);
if (pNeighborRoamInfo->FTRoamInfo.currentNeighborRptRetryNum >=
pNeighborRoamInfo->cfgParams.maxNeighborRetries)
{
smsLog(pMac, LOGE, FL("Bailing out to CFG Channel list scan.. "));
vosStatus = csrNeighborRoamTransitToCFGChanScan(pMac,
sessionId);
if (VOS_STATUS_SUCCESS != vosStatus)
{
smsLog(pMac, LOGE, FL("Transit to CFG Channel list scan state failed with status %d "), vosStatus);
vos_mem_free(pUsrCtx);
return;
}
/* We transitioned to different state now. Reset the Neighbor report retry count */
pNeighborRoamInfo->FTRoamInfo.currentNeighborRptRetryNum = 0;
}
else
{
vosStatus = csrNeighborRoamIssueNeighborRptRequest(pMac,
sessionId);
if (VOS_STATUS_SUCCESS != vosStatus)
{
smsLog(pMac, LOGE, FL("Neighbor report request failed. status = %d"), vosStatus);
vos_mem_free(pUsrCtx);
return;
}
pNeighborRoamInfo->FTRoamInfo.neighborRptPending = eANI_BOOLEAN_TRUE;
/* Increment the neighbor report retry count after sending the neighbor request successfully */
pNeighborRoamInfo->FTRoamInfo.currentNeighborRptRetryNum++;
}
}
break;
default:
smsLog(pMac, LOGE,
FL("Neighbor result callback not expected in"
"state %s, Ignoring.."),
macTraceGetNeighbourRoamState(
pNeighborRoamInfo->neighborRoamState));
break;
}
vos_mem_free(pUsrCtx);
return;
}
#endif /* WLAN_FEATURE_VOWIFI_11R */
#ifdef FEATURE_WLAN_LFR
tANI_BOOLEAN csrNeighborRoamIsSsidAndSecurityMatch(
tpAniSirGlobal pMac,
tCsrRoamConnectedProfile *pCurProfile,
tSirBssDescription *pBssDesc,
tDot11fBeaconIEs *pIes)
{
tCsrAuthList authType;
tCsrEncryptionList uCEncryptionType;
tCsrEncryptionList mCEncryptionType;
tANI_BOOLEAN fMatch = FALSE;
authType.numEntries = 1;
authType.authType[0] = pCurProfile->AuthType;
uCEncryptionType.numEntries = 1;
uCEncryptionType.encryptionType[0] = pCurProfile->EncryptionType;
mCEncryptionType.numEntries = 1;
mCEncryptionType.encryptionType[0] = pCurProfile->mcEncryptionType;
if( pIes )
{
if(pIes->SSID.present)
{
fMatch = csrIsSsidMatch( pMac,
(void *)pCurProfile->SSID.ssId, pCurProfile->SSID.length,
pIes->SSID.ssid, pIes->SSID.num_ssid,
eANI_BOOLEAN_TRUE );
if(TRUE == fMatch)
{
/*
* for now we are sending NULL for all PMF related filter
* parameters during roam to the neighbor AP because
* so far 80211W spec doesn't specify anything about
* roaming scenario.
*
* Once roaming scenario is defined, we should re-visit
* this section and remove this comment.
*/
fMatch = csrIsSecurityMatch(pMac, &authType, &uCEncryptionType,
&mCEncryptionType,
NULL, NULL, NULL,
pBssDesc, pIes, NULL, NULL, NULL);
return (fMatch);
}
else
{
return (fMatch);
}
}
else
{
return FALSE; // Treat a missing SSID as a non-match.
}
}
else
{
return FALSE; // Again, treat missing pIes as a non-match.
}
}
tANI_BOOLEAN csrNeighborRoamIsNewConnectedProfile(tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
tCsrRoamConnectedProfile *pCurrProfile = NULL;
tCsrRoamConnectedProfile *pPrevProfile = NULL;
tDot11fBeaconIEs *pIes = NULL;
tSirBssDescription *pBssDesc = NULL;
tANI_BOOLEAN fNew = TRUE;
if(!(pMac->roam.roamSession && CSR_IS_SESSION_VALID(pMac, sessionId)))
{
return (fNew);
}
pCurrProfile = &pMac->roam.roamSession[sessionId].connectedProfile;
if( !pCurrProfile )
{
return (fNew);
}
pPrevProfile = &pNeighborRoamInfo->prevConnProfile;
if( !pPrevProfile )
{
return (fNew);
}
pBssDesc = pPrevProfile->pBssDesc;
if (pBssDesc)
{
if (HAL_STATUS_SUCCESS(csrGetParsedBssDescriptionIEs(pMac,
pBssDesc, &pIes)) &&
csrNeighborRoamIsSsidAndSecurityMatch(pMac, pCurrProfile, pBssDesc, pIes))
{
fNew = FALSE;
}
if (pIes)
{
vos_mem_free(pIes);
}
}
if (fNew)
{
smsLog(pMac, LOG1, FL("Prev roam profile did not match current"));
}
else
{
smsLog(pMac, LOG1, FL("Prev roam profile matches current"));
}
return (fNew);
}
tANI_BOOLEAN csrNeighborRoamConnectedProfileMatch(
tpAniSirGlobal pMac,
tANI_U8 sessionId,
tCsrScanResult *pResult,
tDot11fBeaconIEs *pIes)
{
tCsrRoamConnectedProfile *pCurProfile = NULL;
tSirBssDescription *pBssDesc = &pResult->Result.BssDescriptor;
if( !(pMac->roam.roamSession
&& CSR_IS_SESSION_VALID(pMac, sessionId)))
{
return FALSE;
}
pCurProfile = &pMac->roam.roamSession[sessionId].connectedProfile;
if( !pCurProfile)
{
return FALSE;
}
return csrNeighborRoamIsSsidAndSecurityMatch(pMac, pCurProfile, pBssDesc, pIes);
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamPrepareNonOccupiedChannelList
\brief This function is used to prepare a channel list that is derived from
the list of valid channels and does not include those in the occupied
list.
\param pMac - The handle returned by macOpen.
\param pInputChannelList - The default channels list.
\param numOfChannels - The number of channels in the default channels list.
\param pOutputChannelList - The place to put the non-occupied channel list.
\param pOutputNumOfChannels - The number of channels in the non-occupied channel list.
\return VOS_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
VOS_STATUS csrNeighborRoamPrepareNonOccupiedChannelList(
tpAniSirGlobal pMac,
tANI_U8 sessionId,
tANI_U8 *pInputChannelList,
tANI_U8 numOfChannels,
tANI_U8 *pOutputChannelList,
tANI_U8 *pOutputNumOfChannels
)
{
tANI_U8 i = 0;
tANI_U8 outputNumOfChannels = 0; // Clear the output number of channels
tANI_U8 numOccupiedChannels =
pMac->scan.occupiedChannels[sessionId].numChannels;
tANI_U8 *pOccupiedChannelList =
pMac->scan.occupiedChannels[sessionId].channelList;
for (i = 0; i < numOfChannels; i++)
{
if (!csrIsChannelPresentInList(pOccupiedChannelList, numOccupiedChannels,
pInputChannelList[i]))
{
/* DFS channel will be added in the list only when the
DFS Roaming scan flag is enabled*/
if (CSR_IS_CHANNEL_DFS(pInputChannelList[i]))
{
if (CSR_ROAMING_DFS_CHANNEL_DISABLED !=
pMac->roam.configParam.allowDFSChannelRoam)
{
pOutputChannelList[outputNumOfChannels++] = pInputChannelList[i];
}
}
else
{
pOutputChannelList[outputNumOfChannels++] = pInputChannelList[i];
}
}
}
smsLog(pMac, LOG2, FL("Number of channels in the valid channel list=%d; "
"Number of channels in the non-occupied list list=%d"),
numOfChannels, outputNumOfChannels);
// Return the number of channels
*pOutputNumOfChannels = outputNumOfChannels;
return eHAL_STATUS_SUCCESS;
}
#endif /* FEATURE_WLAN_LFR */
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamTransitToCFGChanScan
\brief This function is called whenever there is a transition to CFG chan scan
state from any state. It frees up the current channel list and allocates
a new memory for the channels received from CFG item. It then starts the
neighbor scan timer to perform the scan on each channel one by one
\param pMac - The handle returned by macOpen.
\return VOS_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
VOS_STATUS csrNeighborRoamTransitToCFGChanScan(tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
eHalStatus status = eHAL_STATUS_SUCCESS;
int i = 0;
tANI_U8 numOfChannels = 0;
tANI_U8 channelList[WNI_CFG_VALID_CHANNEL_LIST_LEN];
tpCsrChannelInfo currChannelListInfo;
tANI_U8 scanChannelList[WNI_CFG_VALID_CHANNEL_LIST_LEN];
int outputNumOfChannels = 0;
currChannelListInfo = &pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo;
if (
#ifdef FEATURE_WLAN_ESE
((pNeighborRoamInfo->isESEAssoc) &&
(pNeighborRoamInfo->roamChannelInfo.IAPPNeighborListReceived == eANI_BOOLEAN_FALSE)) ||
(pNeighborRoamInfo->isESEAssoc == eANI_BOOLEAN_FALSE) ||
#endif // ESE
currChannelListInfo->numOfChannels == 0)
{
smsLog(pMac, LOGW, FL("Building channel list to scan"));
/* Free up the channel list and allocate a new memory. This is because we dont know how much
was allocated last time. If we directly copy more number of bytes than allocated earlier, this might
result in memory corruption */
if (NULL != currChannelListInfo->ChannelList)
{
vos_mem_free(currChannelListInfo->ChannelList);
currChannelListInfo->ChannelList = NULL;
currChannelListInfo->numOfChannels = 0;
}
// Now obtain the contents for "channelList" (the "default valid channel list") from EITHER
// the gNeighborScanChannelList in "cfg.ini", OR the actual "valid channel list" information formed by CSR.
if (0 != pNeighborRoamInfo->cfgParams.channelInfo.numOfChannels)
{
// Copy the "default valid channel list" (channelList) from the gNeighborScanChannelList in "cfg.ini".
NEIGHBOR_ROAM_DEBUG(pMac, LOGE, "Using the channel list from cfg.ini");
status = csrNeighborRoamMergeChannelLists(
pMac,
pNeighborRoamInfo->cfgParams.channelInfo.ChannelList,
pNeighborRoamInfo->cfgParams.channelInfo.numOfChannels,
channelList,
0, //NB: If 0, simply copy the input channel list to the output list.
&numOfChannels );
if (CSR_IS_ROAM_INTRA_BAND_ENABLED(pMac))
{
csrNeighborRoamChannelsFilterByCurrentBand(
pMac,
sessionId,
pNeighborRoamInfo->cfgParams.channelInfo.ChannelList,
pNeighborRoamInfo->cfgParams.channelInfo.numOfChannels,
channelList,
&numOfChannels);
}
if(numOfChannels > WNI_CFG_VALID_CHANNEL_LIST_LEN)
{
smsLog(pMac, LOGE, FL("Received wrong number of Channel list"));
return VOS_STATUS_E_INVAL;
}
/* Remove the DFS channels from CFG channel list when '
gAllowRoamToDFS is disabled */
if (pMac->roam.configParam.allowDFSChannelRoam == FALSE) {
for (i = 0; i < numOfChannels; i++) {
if (!(CSR_IS_CHANNEL_DFS(channelList[i]))) {
scanChannelList[outputNumOfChannels++] = channelList[i];
}
}
} else {
/* Move all the channels to roam scan channel list */
vos_mem_copy(scanChannelList,
channelList,
numOfChannels * sizeof(uint8_t));
outputNumOfChannels = numOfChannels;
}
if (outputNumOfChannels == 0)
{
smsLog(pMac, LOGE, FL("No channels to scan"));
return VOS_STATUS_E_FAILURE;
}
currChannelListInfo->ChannelList =
vos_mem_malloc(outputNumOfChannels * sizeof(uint8_t));
if (NULL == currChannelListInfo->ChannelList)
{
smsLog(pMac, LOGE, FL("Memory allocation for Channel list failed"));
return VOS_STATUS_E_RESOURCES;
}
currChannelListInfo->numOfChannels = outputNumOfChannels;
vos_mem_copy(currChannelListInfo->ChannelList,
scanChannelList, outputNumOfChannels * sizeof(tANI_U8));
}
#ifdef FEATURE_WLAN_LFR
else if ((pNeighborRoamInfo->uScanMode == DEFAULT_SCAN) &&
(abs(pNeighborRoamInfo->lookupDOWNRssi) >
abs(pNeighborRoamInfo->cfgParams.neighborReassocThreshold)))
{
/*
* Trigger a contiguous scan on all channels when the
* RSSI in the lookup DOWN notification is below reassoc
* threshold. This will help us find the best available
* candidate and also update the channel cache.
*/
NEIGHBOR_ROAM_DEBUG(pMac, LOGW, "Triggering contiguous scan "
"(lookupDOWNRssi=%d,reassocThreshold=%d)",
pNeighborRoamInfo->lookupDOWNRssi,
pNeighborRoamInfo->cfgParams.neighborReassocThreshold*(-1));
pNeighborRoamInfo->scanRequestTimeStamp =
vos_timer_get_system_time();
vos_timer_stop(&pNeighborRoamInfo->neighborScanTimer);
/* We are about to start a fresh scan cycle,
* purge non-P2P results from the past */
csrScanFlushSelectiveResult(pMac, VOS_FALSE);
csrNeighborRoamPerformContiguousBgScan(pMac, sessionId);
/* Transition to CFG_CHAN_LIST_SCAN */
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_CFG_CHAN_LIST_SCAN,
sessionId);
return VOS_STATUS_SUCCESS;
}
#endif
else
{
numOfChannels = pMac->scan.occupiedChannels[sessionId].numChannels;
if (numOfChannels > WNI_CFG_VALID_CHANNEL_LIST_LEN) {
numOfChannels = WNI_CFG_VALID_CHANNEL_LIST_LEN;
}
if (numOfChannels
#ifdef FEATURE_WLAN_LFR
&& ((pNeighborRoamInfo->uScanMode == SPLIT_SCAN_OCCUPIED_LIST) ||
(pNeighborRoamInfo->uEmptyScanCount == 0) ||
((pNeighborRoamInfo->uEmptyScanCount % 2) == 1))
#endif
)
{
/*
* Always scan channels in the occupied channel list
* before scanning on the non-occupied list.
*/
NEIGHBOR_ROAM_DEBUG(pMac, LOG2, "Switching to occupied channel list"
#ifdef FEATURE_WLAN_LFR
"-uScanMode=%d, uEmptyScanCount=%d",
pNeighborRoamInfo->uScanMode,
pNeighborRoamInfo->uEmptyScanCount
#endif
);
if (CSR_IS_ROAM_INTRA_BAND_ENABLED(pMac))
{
csrNeighborRoamChannelsFilterByCurrentBand(
pMac,
sessionId,
pMac->scan.occupiedChannels[sessionId].channelList,
numOfChannels,
channelList,
&numOfChannels);
}
else
{
vos_mem_copy(channelList,
pMac->scan.occupiedChannels[sessionId].channelList,
numOfChannels * sizeof(tANI_U8));
}
/* Remove the DFS channels from CFG channel list when
* gAllowRoamToDFS is disabled
*/
if (pMac->roam.configParam.allowDFSChannelRoam == FALSE) {
for (i = 0; i < numOfChannels; i++) {
if (!(CSR_IS_CHANNEL_DFS(channelList[i]))) {
scanChannelList[outputNumOfChannels++] =
channelList[i];
}
}
} else {
vos_mem_copy(scanChannelList,
channelList,
numOfChannels * (sizeof(uint8_t)));
outputNumOfChannels = numOfChannels;
}
if (outputNumOfChannels == 0)
{
smsLog(pMac, LOGE, FL("No channels to scan"));
return VOS_STATUS_E_FAILURE;
}
currChannelListInfo->ChannelList =
vos_mem_malloc(outputNumOfChannels * sizeof(tANI_U8));
if (NULL == currChannelListInfo->ChannelList)
{
smsLog(pMac, LOGE, FL("Memory allocation for Channel list failed"));
return VOS_STATUS_E_RESOURCES;
}
currChannelListInfo->numOfChannels = outputNumOfChannels;
vos_mem_copy(currChannelListInfo->ChannelList,
scanChannelList,
outputNumOfChannels * sizeof(tANI_U8));
}
else
{
/* Scan all channels from non-occupied list */
NEIGHBOR_ROAM_DEBUG(pMac, LOG2, "Get valid channel list");
numOfChannels = sizeof(pMac->roam.validChannelList);
if(HAL_STATUS_SUCCESS(csrGetCfgValidChannels(pMac,
(tANI_U8 *)pMac->roam.validChannelList,
(tANI_U32 *) &numOfChannels)))
{
if (numOfChannels > WNI_CFG_VALID_CHANNEL_LIST_LEN)
{
numOfChannels = WNI_CFG_VALID_CHANNEL_LIST_LEN;
}
#ifdef FEATURE_WLAN_LFR
/*
* Prepare non-occupied channel list (channelList)
* from the actual "valid channel list" information
* formed by CSR.
*/
NEIGHBOR_ROAM_DEBUG(pMac, LOG1, "Switching to non-occupied channel list");
status = csrNeighborRoamPrepareNonOccupiedChannelList(pMac,
sessionId,
(tANI_U8 *)pMac->roam.validChannelList,
numOfChannels,
channelList,
&numOfChannels);
#else
NEIGHBOR_ROAM_DEBUG(pMac, LOG2, "Merging channel list");
status = csrNeighborRoamMergeChannelLists(
pMac,
(tANI_U8 *)pMac->roam.validChannelList,
numOfChannels, // The number of channels in the validChannelList
channelList,
0, //NB: If 0, simply copy the input channel list to the output list.
&numOfChannels ); // The final number of channels in the output list. Will be numOfChannels
#endif
}
else
{
smsLog(pMac, LOGE, FL("Could not get valid channel list"));
return VOS_STATUS_E_FAILURE;
}
if (CSR_IS_ROAM_INTRA_BAND_ENABLED(pMac))
{
csrNeighborRoamChannelsFilterByCurrentBand(
pMac,
sessionId,
(tANI_U8 *)pMac->roam.validChannelList,
numOfChannels,
channelList,
&numOfChannels);
}
if (numOfChannels > WNI_CFG_VALID_CHANNEL_LIST_LEN)
{
numOfChannels = WNI_CFG_VALID_CHANNEL_LIST_LEN;
}
if (outputNumOfChannels == 0)
{
smsLog(pMac, LOGE, FL("No channels to scan"));
return VOS_STATUS_E_FAILURE;
}
currChannelListInfo->ChannelList =
vos_mem_malloc(numOfChannels*sizeof(tANI_U8));
if (NULL == currChannelListInfo->ChannelList)
{
smsLog(pMac, LOGE, FL("Memory allocation for Channel list failed"));
return VOS_STATUS_E_RESOURCES;
}
currChannelListInfo->numOfChannels = numOfChannels;
#ifdef FEATURE_WLAN_LFR
vos_mem_copy(currChannelListInfo->ChannelList,
channelList, numOfChannels * sizeof(tANI_U8));
#else
vos_mem_copy(currChannelListInfo->ChannelList,
(tANI_U8 *)pMac->roam.validChannelList,
numOfChannels * sizeof(tANI_U8));
#endif
}
}
/* Adjust for the actual number that are used */
NEIGHBOR_ROAM_DEBUG(pMac, LOGW,
"Number of channels from CFG (or) (non-)occupied list=%d",
currChannelListInfo->numOfChannels);
for (i = 0; i < currChannelListInfo->numOfChannels; i++)
{
NEIGHBOR_ROAM_DEBUG(pMac, LOGW, "Channel List from CFG (or) (non-)occupied list"
"= %d", currChannelListInfo->ChannelList[i]);
}
}
/* We are gonna scan now. Remember the time stamp to filter out results
only after this time stamp */
pNeighborRoamInfo->scanRequestTimeStamp = vos_timer_get_system_time();
vos_timer_stop(&pNeighborRoamInfo->neighborScanTimer);
status = vos_timer_start(&pNeighborRoamInfo->neighborScanTimer,
pNeighborRoamInfo->cfgParams.neighborScanPeriod);
if (eHAL_STATUS_SUCCESS != status)
{
/* Timer start failed.. */
smsLog(pMac, LOGE, FL("Neighbor scan PAL Timer start failed, status = %d, Ignoring state transition"), status);
vos_mem_free(currChannelListInfo->ChannelList);
currChannelListInfo->ChannelList = NULL;
currChannelListInfo->numOfChannels = 0;
return VOS_STATUS_E_FAILURE;
}
pNeighborRoamInfo->roamChannelInfo.currentChanIndex = 0;
pNeighborRoamInfo->roamChannelInfo.chanListScanInProgress = eANI_BOOLEAN_TRUE;
/* We are about to start a fresh scan cycle,
* purge non-P2P results from the past */
csrScanFlushSelectiveResult(pMac, VOS_FALSE);
/* We are about to start a fresh scan cycle,
* purge failed pre-auth results from the past */
csrNeighborRoamPurgePreauthFailedList(pMac);
/* Transition to CFG_CHAN_LIST_SCAN_STATE */
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_CFG_CHAN_LIST_SCAN,
sessionId);
return VOS_STATUS_SUCCESS;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamNeighborLookupUpEvent
\brief This function is called as soon as TL indicates that the current AP's
RSSI is better than the neighbor lookup threshold. Here, we transition to
CONNECTED state and reset all the scan parameters
\param pMac - The handle returned by macOpen.
\param sessionId - Session ID
\return VOS_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
VOS_STATUS csrNeighborRoamNeighborLookupUpEvent(tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
VOS_STATUS vosStatus;
tpFTRoamCallbackUsrCtx pUsrCtx;
csrNeighborRoamDeregAllRssiIndication(pMac, sessionId);
/* Recheck whether the below check is needed. */
if ((pNeighborRoamInfo->neighborRoamState != eCSR_NEIGHBOR_ROAM_STATE_CONNECTED)
&& (pNeighborRoamInfo->neighborRoamState != eCSR_NEIGHBOR_ROAM_STATE_REASSOCIATING))
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_CONNECTED,
sessionId);
#ifdef FEATURE_WLAN_LFR
if (!csrRoamIsFastRoamEnabled(pMac, sessionId)) {
smsLog(pMac, LOGE, FL("LookUp event received when fast roam is "
"disabled. Ignore it"));
return eHAL_STATUS_SUCCESS;
}
#endif
/* Reset all the neighbor roam info control variables. Free all the allocated memory. It is like we are just associated now */
csrNeighborRoamResetConnectedStateControlInfo(pMac, sessionId);
/* This user context data will be returned with callback */
pUsrCtx = vos_mem_malloc(sizeof(*pUsrCtx));
if (NULL == pUsrCtx) {
smsLog(pMac, LOGE, FL("Memory allocation failure"));
return VOS_STATUS_E_NOMEM;
}
pUsrCtx->pMac = pMac;
pUsrCtx->sessionId = sessionId;
NEIGHBOR_ROAM_DEBUG(pMac, LOG2, FL("Registering DOWN event neighbor lookup callback with TL. RSSI = %d,"), pNeighborRoamInfo->currentNeighborLookupThreshold * (-1));
/* Register Neighbor Lookup threshold callback with TL for DOWN event now */
vosStatus = WLANTL_RegRSSIIndicationCB(pMac->roam.gVosContext,
(v_S7_t)pNeighborRoamInfo->currentNeighborLookupThreshold * (-1),
WLANTL_HO_THRESHOLD_DOWN,
csrNeighborRoamNeighborLookupDOWNCallback,
VOS_MODULE_ID_SME, pUsrCtx);
#ifdef FEATURE_WLAN_LFR
pNeighborRoamInfo->lookupDOWNRssi = 0;
#endif
vos_mem_free(pUsrCtx);
if (!VOS_IS_STATUS_SUCCESS(vosStatus))
{
//err msg
smsLog(pMac, LOGW, FL(" Couldn't register csrNeighborRoamNeighborLookupCallback DOWN event with TL: Status = %d"), vosStatus);
}
return vosStatus;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamNeighborLookupDownEvent
\brief This function is called as soon as TL indicates that the current AP's
RSSI falls below the current neighbor lookup threshold.
Here, we transition to REPORT_QUERY for 11r association and
CFG_CHAN_LIST_SCAN state if the assoc is a non-11R association.
\param pMac - The handle returned by macOpen.
\param sessionId - Session Id
\return VOS_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
VOS_STATUS csrNeighborRoamNeighborLookupDownEvent(tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
VOS_STATUS vosStatus = VOS_STATUS_SUCCESS;
eHalStatus status = eHAL_STATUS_SUCCESS;
tpFTRoamCallbackUsrCtx pUsrCtx;
switch (pNeighborRoamInfo->neighborRoamState)
{
case eCSR_NEIGHBOR_ROAM_STATE_CONNECTED:
NEIGHBOR_ROAM_DEBUG(pMac, LOG2, FL("Deregistering DOWN event neighbor lookup callback with TL. RSSI = %d,"),
pNeighborRoamInfo->currentNeighborLookupThreshold * (-1));
/* De-register Neighbor Lookup threshold callback with TL */
vosStatus = WLANTL_DeregRSSIIndicationCB(pMac->roam.gVosContext, (v_S7_t)pNeighborRoamInfo->currentNeighborLookupThreshold * (-1),
WLANTL_HO_THRESHOLD_DOWN,
csrNeighborRoamNeighborLookupDOWNCallback,
VOS_MODULE_ID_SME);
if(!VOS_IS_STATUS_SUCCESS(vosStatus))
{
//err msg
smsLog(pMac, LOGW, FL(" Couldn't Deregister csrNeighborRoamNeighborLookupCallback DOWN event from TL: Status = %d"), vosStatus);
}
#ifdef FEATURE_WLAN_LFR
if (!csrRoamIsFastRoamEnabled(pMac, sessionId)) {
smsLog(pMac, LOGE, FL("LookDown event received when fast roam "
"is disabled. Ignore it"));
return eHAL_STATUS_SUCCESS;
}
#endif
#if defined WLAN_FEATURE_VOWIFI_11R && defined WLAN_FEATURE_VOWIFI
if ((pNeighborRoamInfo->is11rAssoc) && (pMac->rrm.rrmSmeContext.rrmConfig.rrm_enabled))
{
NEIGHBOR_ROAM_DEBUG(pMac, LOGE, FL("11R Association:Neighbor Lookup Down event received in CONNECTED state"));
vosStatus = csrNeighborRoamIssueNeighborRptRequest(pMac,
sessionId);
if (VOS_STATUS_SUCCESS != vosStatus)
{
smsLog(pMac, LOGE, FL("Neighbor report request failed. status = %d"), vosStatus);
return vosStatus;
}
/* Increment the neighbor report retry count after sending the neighbor request successfully */
pNeighborRoamInfo->FTRoamInfo.currentNeighborRptRetryNum++;
pNeighborRoamInfo->FTRoamInfo.neighborRptPending = eANI_BOOLEAN_TRUE;
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_REPORT_QUERY,
sessionId);
}
else
#endif
{
NEIGHBOR_ROAM_DEBUG(pMac, LOG2, FL("Non 11R or ESE Association:Neighbor Lookup Down event received in CONNECTED state"));
vosStatus = csrNeighborRoamTransitToCFGChanScan(pMac, sessionId);
if (VOS_STATUS_SUCCESS != vosStatus)
{
NEIGHBOR_ROAM_DEBUG(pMac, LOGE, FL("csrNeighborRoamTransitToCFGChanScan failed"
" with status=%d"), vosStatus);
return vosStatus;
}
}
NEIGHBOR_ROAM_DEBUG(pMac, LOG2, FL("Registering UP event neighbor lookup callback with TL. RSSI = %d,"), NEIGHBOR_ROAM_LOOKUP_UP_THRESHOLD * (-1));
/* Register Neighbor Lookup threshold callback with TL for UP event now */
pUsrCtx = vos_mem_malloc(sizeof(*pUsrCtx));
if (NULL == pUsrCtx) {
smsLog(pMac, LOGE, FL("Memory allocation failed"));
return eHAL_STATUS_FAILED_ALLOC;
}
vosStatus = WLANTL_RegRSSIIndicationCB(pMac->roam.gVosContext,
(v_S7_t)NEIGHBOR_ROAM_LOOKUP_UP_THRESHOLD * (-1),
WLANTL_HO_THRESHOLD_UP,
csrNeighborRoamNeighborLookupUPCallback,
VOS_MODULE_ID_SME, pUsrCtx);
vos_mem_free(pUsrCtx);
if(!VOS_IS_STATUS_SUCCESS(vosStatus))
{
//err msg
smsLog(pMac, LOGE,
FL(" Couldn't register csrNeighborRoamNeighborLookupCallback"
"UP event with TL: Status = %d"),
status);
}
break;
default:
smsLog(pMac, LOGE, FL("DOWN event received in invalid"
"state %s ..Ignoring..."),
macTraceGetNeighbourRoamState(
pNeighborRoamInfo->neighborRoamState));
break;
}
return vosStatus;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamNeighborLookupUPCallback
\brief This function is registered with TL to indicate whenever the RSSI
gets better than the neighborLookup RSSI Threshold
\param pAdapter - VOS Context
trafficStatus - UP/DOWN indication from TL
pUserCtxt - Parameter for callback registered during callback registration. Should be pMac
\return VOS_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
VOS_STATUS
csrNeighborRoamNeighborLookupUPCallback (v_PVOID_t pAdapter,
v_U8_t rssiNotification,
v_PVOID_t pUserCtxt,
v_S7_t avgRssi)
{
tFTRoamCallbackUsrCtx *pUsrCtx = (tFTRoamCallbackUsrCtx *)pUserCtxt;
tANI_U32 sessionId = pUsrCtx->sessionId;
tpAniSirGlobal pMac = pUsrCtx->pMac;
VOS_STATUS vosStatus = eHAL_STATUS_SUCCESS;
NEIGHBOR_ROAM_DEBUG(pMac, LOGW, FL("Neighbor Lookup UP indication callback called with notification %d Reported RSSI = %d"),
rssiNotification,
avgRssi);
if (!csrIsConnStateConnectedInfra(pMac, sessionId)) {
smsLog(pMac, LOGW, FL("LookUp Event received when we are not connected. "
"Ignore it"));
vos_mem_free(pUsrCtx);
return VOS_STATUS_SUCCESS;
}
if (WLANTL_HO_THRESHOLD_UP != rssiNotification)
{
VOS_ASSERT(WLANTL_HO_THRESHOLD_UP == rssiNotification);
vos_mem_free(pUsrCtx);
return VOS_STATUS_E_FAILURE;
}
vosStatus = csrNeighborRoamNeighborLookupUpEvent(pMac, sessionId);
vos_mem_free(pUsrCtx);
return vosStatus;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamNeighborLookupDOWNCallback
\brief This function is registered with TL to indicate whenever the RSSI
falls below the current neighborLookup RSSI Threshold
\param pAdapter - VOS Context
trafficStatus - UP/DOWN indication from TL
pUserCtxt - Parameter for callback registered during callback registration. Should be pMac
\return VOS_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
VOS_STATUS
csrNeighborRoamNeighborLookupDOWNCallback (v_PVOID_t pAdapter,
v_U8_t rssiNotification,
v_PVOID_t pUserCtxt,
v_S7_t avgRssi)
{
tFTRoamCallbackUsrCtx *pUsrCtx = (tFTRoamCallbackUsrCtx *)pUserCtxt;
tANI_U32 sessionId = pUsrCtx->sessionId;
tpAniSirGlobal pMac = pUsrCtx->pMac;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
VOS_STATUS vosStatus = eHAL_STATUS_SUCCESS;
NEIGHBOR_ROAM_DEBUG(pMac, LOGW, FL("Neighbor Lookup DOWN indication callback called with notification %d Reported RSSI = %d"),
rssiNotification,
avgRssi);
#ifdef FEATURE_WLAN_LFR
pNeighborRoamInfo->lookupDOWNRssi = avgRssi;
#endif
if (!csrIsConnStateConnectedInfra(pMac, sessionId)) {
smsLog(pMac, LOGW, FL("LookDown Event received when we are not "
"connected. Ignore it"));
vos_mem_free(pUsrCtx);
return VOS_STATUS_SUCCESS;
}
if (WLANTL_HO_THRESHOLD_DOWN != rssiNotification)
{
VOS_ASSERT(WLANTL_HO_THRESHOLD_DOWN == rssiNotification);
vos_mem_free(pUsrCtx);
return VOS_STATUS_E_FAILURE;
}
vosStatus = csrNeighborRoamNeighborLookupDownEvent(pMac, sessionId);
vos_mem_free(pUsrCtx);
return vosStatus;
}
/**
* csr_roam_reset_roam_params() - API to reset the roaming parameters
* @mac_ctx: Global MAC Context pointer.
*
* Return: VOID
*/
void csr_roam_reset_roam_params(tpAniSirGlobal mac_ctx)
{
struct roam_ext_params *roam_params = NULL;
/* clear all the whitelist parameters,
* remaining needs to be retained across connections. */
VOS_TRACE(VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_INFO,
FL("Roaming parameters are reset"));
roam_params = &mac_ctx->roam.configParam.roam_params;
roam_params->num_ssid_allowed_list = 0;
vos_mem_set(&roam_params->ssid_allowed_list, 0,
sizeof(tSirMacSSid) * MAX_SSID_ALLOWED_LIST);
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamIndicateDisconnect
\brief This function is called by CSR as soon as the station disconnects from
the AP. This function does the necessary cleanup of neighbor roam data
structures. Neighbor roam state transitions to INIT state whenever this
function is called except if the current state is REASSOCIATING
\param pMac - The handle returned by macOpen.
sessionId - CSR session id that got disconnected
\return eHAL_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
eHalStatus csrNeighborRoamIndicateDisconnect(tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
#ifdef FEATURE_WLAN_LFR
tCsrRoamConnectedProfile *pPrevProfile = &pNeighborRoamInfo->prevConnProfile;
#endif
tCsrRoamSession *pSession = CSR_GET_SESSION( pMac, sessionId);
if (NULL == pSession)
{
smsLog(pMac, LOGE, FL("pSession is NULL "));
return eHAL_STATUS_FAILURE;
}
VOS_TRACE(VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_INFO,
FL("Disconnect indication on session %d in state %d from BSSID : "
MAC_ADDRESS_STR), sessionId, pNeighborRoamInfo->neighborRoamState,
MAC_ADDR_ARRAY(pSession->connectedProfile.bssid));
#ifdef FEATURE_WLAN_LFR
/*Free the current previous profile and move the current profile to prev profile.*/
csrRoamFreeConnectProfile(pMac, pPrevProfile);
csrRoamCopyConnectProfile(pMac, sessionId, pPrevProfile);
/* clear the roaming parameters that are per connection.
* For a new connection, they have to be programmed again. */
if (!csrNeighborMiddleOfRoaming((tHalHandle)pMac, sessionId))
csr_roam_reset_roam_params(pMac);
#endif
if (NULL != pSession)
{
if (NULL != pSession->pCurRoamProfile)
{
if (VOS_STA_MODE != pMac->roam.roamSession[sessionId].pCurRoamProfile->csrPersona)
{
smsLog(pMac, LOGE, FL("Ignoring Disconnect indication received from a non STA persona."
"sessionId: %d, csrPersonna %d"), sessionId,
(int)pMac->roam.roamSession[sessionId].pCurRoamProfile->csrPersona);
return eHAL_STATUS_SUCCESS;
}
}
#ifdef FEATURE_WLAN_ESE
if (pSession->connectedProfile.isESEAssoc)
{
vos_mem_copy(&pSession->prevApSSID, &pSession->connectedProfile.SSID,
sizeof(tSirMacSSid));
vos_mem_copy(pSession->prevApBssid, pSession->connectedProfile.bssid,
sizeof(tSirMacAddr));
pSession->prevOpChannel = pSession->connectedProfile.operationChannel;
pSession->isPrevApInfoValid = TRUE;
pSession->roamTS1 = vos_timer_get_system_time();
}
#endif
} //if (NULL != pSession)
switch (pNeighborRoamInfo->neighborRoamState)
{
case eCSR_NEIGHBOR_ROAM_STATE_REASSOCIATING:
// Stop scan and neighbor refresh timers.
// These are indeed not required when we are in reassociating
// state.
vos_timer_stop(&pNeighborRoamInfo->neighborScanTimer);
vos_timer_stop(&pNeighborRoamInfo->neighborResultsRefreshTimer);
vos_timer_stop(&pNeighborRoamInfo->emptyScanRefreshTimer);
if (!CSR_IS_ROAM_SUBSTATE_DISASSOC_HO( pMac, sessionId )) {
/*
* Disconnect indication during Disassoc Handoff sub-state
* is received when we are trying to disconnect with the old
* AP during roam. BUT, if receive a disconnect indication
* outside of Disassoc Handoff sub-state, then it means that
* this is a genuine disconnect and we need to clean up.
* Otherwise, we will be stuck in reassoc state which will
* in-turn block scans.
*/
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_INIT,
sessionId);
pNeighborRoamInfo->roamChannelInfo.IAPPNeighborListReceived = eANI_BOOLEAN_FALSE;
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
pNeighborRoamInfo->uOsRequestedHandoff = 0;
#endif
}
break;
case eCSR_NEIGHBOR_ROAM_STATE_INIT:
csrNeighborRoamResetInitStateControlInfo(pMac, sessionId);
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (!csrRoamIsRoamOffloadScanEnabled(pMac))
{
#endif
csrNeighborRoamDeregAllRssiIndication(pMac, sessionId);
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
}
#endif
break;
case eCSR_NEIGHBOR_ROAM_STATE_CONNECTED:
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_INIT,
sessionId);
pNeighborRoamInfo->roamChannelInfo.IAPPNeighborListReceived = eANI_BOOLEAN_FALSE;
csrNeighborRoamResetConnectedStateControlInfo(pMac, sessionId);
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (!csrRoamIsRoamOffloadScanEnabled(pMac))
{
#endif
csrNeighborRoamDeregAllRssiIndication(pMac, sessionId);
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
}
#endif
break;
case eCSR_NEIGHBOR_ROAM_STATE_CFG_CHAN_LIST_SCAN:
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_INIT,
sessionId);
pNeighborRoamInfo->roamChannelInfo.IAPPNeighborListReceived = eANI_BOOLEAN_FALSE;
csrNeighborRoamResetCfgListChanScanControlInfo(pMac, sessionId);
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
pNeighborRoamInfo->uOsRequestedHandoff = 0;
if (!csrRoamIsRoamOffloadScanEnabled(pMac))
{
#endif
csrNeighborRoamDeregAllRssiIndication(pMac, sessionId);
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
}
#endif
break;
case eCSR_NEIGHBOR_ROAM_STATE_PREAUTH_DONE:
/* Stop pre-auth to reassoc interval timer */
vos_timer_stop(&pSession->ftSmeContext.preAuthReassocIntvlTimer);
case eCSR_NEIGHBOR_ROAM_STATE_REPORT_SCAN:
case eCSR_NEIGHBOR_ROAM_STATE_PREAUTHENTICATING:
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_INIT,
sessionId);
pNeighborRoamInfo->roamChannelInfo.IAPPNeighborListReceived = eANI_BOOLEAN_FALSE;
csrNeighborRoamResetPreauthControlInfo(pMac, sessionId);
csrNeighborRoamResetReportScanStateControlInfo(pMac, sessionId);
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (!csrRoamIsRoamOffloadScanEnabled(pMac))
{
#endif
csrNeighborRoamDeregAllRssiIndication(pMac, sessionId);
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
}
#endif
break;
default:
NEIGHBOR_ROAM_DEBUG(pMac, LOGW, FL("Received disconnect event"
"in state %s "),
macTraceGetNeighbourRoamState(
pNeighborRoamInfo->neighborRoamState));
NEIGHBOR_ROAM_DEBUG(pMac, LOGW, FL("Transitioning to INIT state"));
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_INIT,
sessionId);
pNeighborRoamInfo->roamChannelInfo.IAPPNeighborListReceived = eANI_BOOLEAN_FALSE;
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
pNeighborRoamInfo->uOsRequestedHandoff = 0;
#endif
break;
}
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
/*Inform the Firmware to STOP Scanning as the host has a disconnect.*/
if (csrRoamIsStaMode(pMac, sessionId))
{
csrRoamOffloadScan(pMac, sessionId, ROAM_SCAN_OFFLOAD_STOP,
REASON_DISCONNECTED);
}
#endif
return eHAL_STATUS_SUCCESS;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamIndicateConnect
\brief This function is called by CSR as soon as the station connects to an AP.
This initializes all the necessary data structures related to the
associated AP and transitions the state to CONNECTED state
\param pMac - The handle returned by macOpen.
sessionId - CSR session id that got connected
vosStatus - connect status SUCCESS/FAILURE
\return eHAL_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
eHalStatus csrNeighborRoamIndicateConnect(tpAniSirGlobal pMac,
tANI_U8 sessionId,
VOS_STATUS vosStatus)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
eHalStatus status = eHAL_STATUS_SUCCESS;
VOS_STATUS vstatus;
#ifdef WLAN_FEATURE_ROAM_OFFLOAD
tCsrRoamInfo roamInfo;
tCsrRoamSession *pSession = &pMac->roam.roamSession[sessionId];
#endif
tpFTRoamCallbackUsrCtx pUsrCtx;
#if defined (WLAN_FEATURE_VOWIFI_11R) || defined (FEATURE_WLAN_ESE) || defined(FEATURE_WLAN_LFR)
int init_ft_flag = FALSE;
#endif
// if session id invalid then we need return failure
if (NULL == pNeighborRoamInfo || !CSR_IS_SESSION_VALID(pMac, sessionId) ||
(NULL == pMac->roam.roamSession[sessionId].pCurRoamProfile))
{
return eHAL_STATUS_FAILURE;
}
smsLog(pMac, LOG2,
FL("Connect indication received with session id %d"
"in state %s"),
sessionId, macTraceGetNeighbourRoamState(
pNeighborRoamInfo->neighborRoamState));
// Bail out if this is NOT a STA persona
if (pMac->roam.roamSession[sessionId].pCurRoamProfile->csrPersona != VOS_STA_MODE)
{
smsLog(pMac, LOGE, FL("Ignoring Connect indication received from a non STA persona."
"sessionId: %d, csrPersonna %d"),
sessionId,
(int)pMac->roam.roamSession[sessionId].pCurRoamProfile->csrPersona);
return eHAL_STATUS_SUCCESS;
}
// if a concurrent session is running
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (eANI_BOOLEAN_FALSE == CSR_IS_FASTROAM_IN_CONCURRENCY_INI_FEATURE_ENABLED(pMac))
{
#endif
if (csrIsConcurrentSessionRunning(pMac))
{
smsLog(pMac, LOGE, FL("Ignoring Connect indication received in multisession %d"),
csrIsConcurrentSessionRunning(pMac));
return eHAL_STATUS_SUCCESS;
}
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
}
#endif
#ifdef WLAN_FEATURE_ROAM_OFFLOAD
if (pSession->roamOffloadSynchParams.bRoamSynchInProgress &&
(eSIR_ROAM_AUTH_STATUS_AUTHENTICATED ==
pSession->roamOffloadSynchParams.authStatus))
{
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_DEBUG,
"LFR3:csrNeighborRoamIndicateConnect");
#ifdef WLAN_ACTIVEMODE_OFFLOAD_FEATURE
if(IS_ACTIVEMODE_OFFLOAD_FEATURE_ENABLE)
{
tpSirSetActiveModeSetBncFilterReq pMsg;
pMsg = vos_mem_malloc(sizeof(tSirSetActiveModeSetBncFilterReq));
if (pMsg == NULL)
{
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_ERROR,
"LFR3:Mem Alloc failed for tSirSetActiveModeSetBncFilterReq");
return eHAL_STATUS_FAILURE;
}
pMsg->messageType =
pal_cpu_to_be16((tANI_U16)eWNI_SME_SET_BCN_FILTER_REQ);
pMsg->length = pal_cpu_to_be16(sizeof(
tSirSetActiveModeSetBncFilterReq));
pMsg->seesionId = sessionId;
vos_mem_copy(pMsg->bssid,
pMac->roam.roamSession[sessionId].connectedProfile.bssid,
sizeof(tSirMacAddr));
status = palSendMBMessage(pMac->hHdd, pMsg );
}
#endif
vos_mem_copy(&roamInfo.peerMac,
pMac->roam.roamSession[sessionId].connectedProfile.bssid,6);
roamInfo.roamSynchInProgress =
pSession->roamOffloadSynchParams.bRoamSynchInProgress;
csrRoamCallCallback(pMac, sessionId, &roamInfo, 0,
eCSR_ROAM_SET_KEY_COMPLETE, eCSR_ROAM_RESULT_AUTHENTICATED);
}
#endif
switch (pNeighborRoamInfo->neighborRoamState)
{
case eCSR_NEIGHBOR_ROAM_STATE_REASSOCIATING:
if (VOS_STATUS_SUCCESS != vosStatus)
{
/* Just transition the state to INIT state. Rest of the clean up happens when we get next connect indication */
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_INIT,
sessionId);
pNeighborRoamInfo->roamChannelInfo.IAPPNeighborListReceived = eANI_BOOLEAN_FALSE;
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
pNeighborRoamInfo->uOsRequestedHandoff = 0;
#endif
break;
}
/* Fall through if the status is SUCCESS */
case eCSR_NEIGHBOR_ROAM_STATE_INIT:
/* Reset all the data structures here */
csrNeighborRoamResetInitStateControlInfo(pMac, sessionId);
#ifdef FEATURE_WLAN_LFR
/*
* Initialize the occupied list ONLY if we are
* transitioning from INIT state to CONNECTED state.
*/
if (eCSR_NEIGHBOR_ROAM_STATE_INIT == pNeighborRoamInfo->neighborRoamState)
csrInitOccupiedChannelsList(pMac, sessionId);
#endif
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_CONNECTED,
sessionId);
vos_mem_copy(pNeighborRoamInfo->currAPbssid,
pMac->roam.roamSession[sessionId].connectedProfile.bssid, sizeof(tCsrBssid));
pNeighborRoamInfo->currAPoperationChannel = pMac->roam.roamSession[sessionId].connectedProfile.operationChannel;
pNeighborRoamInfo->neighborScanTimerInfo.pMac = pMac;
pNeighborRoamInfo->neighborScanTimerInfo.sessionId = sessionId;
pNeighborRoamInfo->currentNeighborLookupThreshold =
pNeighborRoamInfo->cfgParams.neighborLookupThreshold;
pNeighborRoamInfo->currentOpportunisticThresholdDiff =
pNeighborRoamInfo->cfgParams.nOpportunisticThresholdDiff;
pNeighborRoamInfo->currentRoamRescanRssiDiff =
pNeighborRoamInfo->cfgParams.nRoamRescanRssiDiff;
pNeighborRoamInfo->currentRoamBmissFirstBcnt =
pNeighborRoamInfo->cfgParams.nRoamBmissFirstBcnt;
pNeighborRoamInfo->currentRoamBmissFinalBcnt =
pNeighborRoamInfo->cfgParams.nRoamBmissFinalBcnt;
pNeighborRoamInfo->currentRoamBeaconRssiWeight =
pNeighborRoamInfo->cfgParams.nRoamBeaconRssiWeight;
#ifdef FEATURE_WLAN_LFR
pNeighborRoamInfo->uEmptyScanCount = 0;
pNeighborRoamInfo->lookupDOWNRssi = 0;
pNeighborRoamInfo->uScanMode = DEFAULT_SCAN;
#endif
#if defined (WLAN_FEATURE_VOWIFI_11R) || defined (FEATURE_WLAN_ESE) || defined(FEATURE_WLAN_LFR)
/* Now we can clear the preauthDone that was saved as we are connected afresh */
csrNeighborRoamFreeRoamableBSSList(pMac,
&pNeighborRoamInfo->FTRoamInfo.preAuthDoneList);
#endif
#ifdef WLAN_FEATURE_VOWIFI_11R
// Based on the auth scheme tell if we are 11r
if ( csrIsAuthType11r( pMac->roam.roamSession[sessionId].connectedProfile.AuthType,
pMac->roam.roamSession[sessionId].connectedProfile.MDID.mdiePresent))
{
if (pMac->roam.configParam.isFastTransitionEnabled)
init_ft_flag = TRUE;
pNeighborRoamInfo->is11rAssoc = eANI_BOOLEAN_TRUE;
}
else
pNeighborRoamInfo->is11rAssoc = eANI_BOOLEAN_FALSE;
NEIGHBOR_ROAM_DEBUG(pMac, LOG2, FL("11rAssoc is = %d"), pNeighborRoamInfo->is11rAssoc);
#endif
#ifdef FEATURE_WLAN_ESE
// Based on the auth scheme tell if we are 11r
if (pMac->roam.roamSession[sessionId].connectedProfile.isESEAssoc)
{
if (pMac->roam.configParam.isFastTransitionEnabled)
init_ft_flag = TRUE;
pNeighborRoamInfo->isESEAssoc = eANI_BOOLEAN_TRUE;
}
else
pNeighborRoamInfo->isESEAssoc = eANI_BOOLEAN_FALSE;
NEIGHBOR_ROAM_DEBUG(pMac, LOG2, FL("isESEAssoc is = %d ft = %d"),
pNeighborRoamInfo->isESEAssoc, init_ft_flag);
#endif
if (pMac->roam.pending_roam_disable)
{
smsLog(pMac, LOG1, FL("process pending roam disable"));
pMac->roam.configParam.isFastRoamIniFeatureEnabled = FALSE;
pMac->roam.pending_roam_disable = FALSE;
}
#ifdef FEATURE_WLAN_LFR
// If "Legacy Fast Roaming" is enabled
if (csrRoamIsFastRoamEnabled(pMac, sessionId))
{
init_ft_flag = TRUE;
}
#endif
#if defined (WLAN_FEATURE_VOWIFI_11R) || defined (FEATURE_WLAN_ESE) || defined(FEATURE_WLAN_LFR)
if ( init_ft_flag == TRUE )
{
/* Initialize all the data structures needed for the 11r FT Preauth */
pNeighborRoamInfo->FTRoamInfo.currentNeighborRptRetryNum = 0;
csrNeighborRoamPurgePreauthFailedList(pMac);
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
if (!vos_is_multiple_active_sta_sessions() &&
csrRoamIsRoamOffloadScanEnabled(pMac))
{
/*If this is not a INFRA type BSS, then do not send the command
* down to firmware.Do not send the START command for other session
* connections.*/
if(csrRoamIsStaMode(pMac, sessionId))
{
pNeighborRoamInfo->uOsRequestedHandoff = 0;
#ifdef WLAN_FEATURE_ROAM_OFFLOAD
if (pSession->roamOffloadSynchParams.bRoamSynchInProgress)
{
if (pMac->roam.pReassocResp != NULL)
{
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_DEBUG,
"Free Reassoc Rsp");
vos_mem_free(pMac->roam.pReassocResp);
pMac->roam.pReassocResp = NULL;
}
VOS_TRACE(VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_DEBUG,
"LFR3:Send SynchCnf auth status authenticated");
csrRoamOffloadSendSynchCnf( pMac, sessionId);
} else
#endif
csrRoamOffloadScan(pMac, sessionId,
ROAM_SCAN_OFFLOAD_START,
REASON_CONNECT);
}
} else {
#endif
NEIGHBOR_ROAM_DEBUG(pMac, LOG2,
FL("Registering neighbor lookup DOWN event with TL, RSSI = %d"),
pNeighborRoamInfo->currentNeighborLookupThreshold);
/* This user context data will be returned with callback */
pUsrCtx = vos_mem_malloc(sizeof(*pUsrCtx));
if (NULL == pUsrCtx) {
smsLog(pMac, LOGE, FL("Memory allocation failure"));
return VOS_STATUS_E_NOMEM;
}
pUsrCtx->pMac = pMac;
pUsrCtx->sessionId = sessionId;
NEIGHBOR_ROAM_DEBUG(pMac, LOG2, FL("Registering neighbor lookup DOWN event with TL, RSSI = %d"), pNeighborRoamInfo->currentNeighborLookupThreshold);
/* Register Neighbor Lookup threshold callback with TL for DOWN event only */
vstatus = WLANTL_RegRSSIIndicationCB(pMac->roam.gVosContext,
(v_S7_t)pNeighborRoamInfo->currentNeighborLookupThreshold * (-1),
WLANTL_HO_THRESHOLD_DOWN,
csrNeighborRoamNeighborLookupDOWNCallback,
VOS_MODULE_ID_SME, pUsrCtx);
#ifdef FEATURE_WLAN_LFR
pNeighborRoamInfo->lookupDOWNRssi = 0;
#endif
vos_mem_free(pUsrCtx);
if(!VOS_IS_STATUS_SUCCESS(vstatus))
{
//err msg
smsLog(pMac, LOGW, FL(" Couldn't register csrNeighborRoamNeighborLookupDOWNCallback with TL: Status = %d"), vstatus);
status = eHAL_STATUS_FAILURE;
}
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
}
#endif /* WLAN_FEATURE_ROAM_SCAN_OFFLOAD */
}
#endif
break;
default:
smsLog(pMac, LOGE,
FL("Connect event received in invalid state %s"
"..Ignoring..."),
macTraceGetNeighbourRoamState(
pNeighborRoamInfo->neighborRoamState));
break;
}
return status;
}
#ifdef WLAN_FEATURE_VOWIFI_11R
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamPurgePreauthFailedList
\brief This function purges all the MAC addresses in the pre-auth fail list
\param pMac - The handle returned by macOpen.
\return VOID
---------------------------------------------------------------------------*/
void csrNeighborRoamPurgePreauthFailedList(tpAniSirGlobal pMac)
{
tANI_U8 i, j;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo = NULL;
for (j = 0; j < CSR_ROAM_SESSION_MAX; j++) {
pNeighborRoamInfo = &pMac->roam.neighborRoamInfo[j];
for (i = 0;
i < pNeighborRoamInfo->FTRoamInfo.preAuthFailList.numMACAddress;
i++) {
vos_mem_zero(pNeighborRoamInfo->FTRoamInfo.preAuthFailList.macAddress[i],
sizeof(tSirMacAddr));
}
pNeighborRoamInfo->FTRoamInfo.preAuthFailList.numMACAddress = 0;
}
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamInit11rAssocInfo
\brief This function initializes 11r related neighbor roam data structures
\param pMac - The handle returned by macOpen.
\return eHAL_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
eHalStatus csrNeighborRoamInit11rAssocInfo(tpAniSirGlobal pMac)
{
eHalStatus status;
tANI_U8 i;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo = NULL;
tpCsr11rAssocNeighborInfo pFTRoamInfo = NULL;
for (i = 0; i < CSR_ROAM_SESSION_MAX; i++) {
pNeighborRoamInfo = &pMac->roam.neighborRoamInfo[i];
pFTRoamInfo = &pNeighborRoamInfo->FTRoamInfo;
pNeighborRoamInfo->is11rAssoc = eANI_BOOLEAN_FALSE;
pNeighborRoamInfo->cfgParams.maxNeighborRetries =
pMac->roam.configParam.neighborRoamConfig.nMaxNeighborRetries;
pFTRoamInfo->neighborReportTimeout =
CSR_NEIGHBOR_ROAM_REPORT_QUERY_TIMEOUT;
pFTRoamInfo->PEPreauthRespTimeout =
CSR_NEIGHBOR_ROAM_PREAUTH_RSP_WAIT_MULTIPLIER *
pNeighborRoamInfo->cfgParams.neighborScanPeriod;
pFTRoamInfo->neighborRptPending = eANI_BOOLEAN_FALSE;
pFTRoamInfo->preauthRspPending = eANI_BOOLEAN_FALSE;
pFTRoamInfo->currentNeighborRptRetryNum = 0;
pFTRoamInfo->numBssFromNeighborReport = 0;
vos_mem_zero(pFTRoamInfo->neighboReportBssInfo,
sizeof(tCsrNeighborReportBssInfo) * MAX_BSS_IN_NEIGHBOR_RPT);
status = csrLLOpen(pMac->hHdd, &pFTRoamInfo->preAuthDoneList);
if (eHAL_STATUS_SUCCESS != status) {
smsLog(pMac, LOGE, FL("LL Open of preauth done AP List failed"));
return eHAL_STATUS_RESOURCES;
}
}
return status;
}
#endif /* WLAN_FEATURE_VOWIFI_11R */
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamInit
\brief This function initializes neighbor roam data structures
\param pMac - The handle returned by macOpen.
\return eHAL_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
eHalStatus csrNeighborRoamInit(tpAniSirGlobal pMac, tANI_U8 sessionId)
{
eHalStatus status;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
pNeighborRoamInfo->neighborRoamState = eCSR_NEIGHBOR_ROAM_STATE_CLOSED;
pNeighborRoamInfo->prevNeighborRoamState = eCSR_NEIGHBOR_ROAM_STATE_CLOSED;
pNeighborRoamInfo->cfgParams.maxChannelScanTime = pMac->roam.configParam.neighborRoamConfig.nNeighborScanMaxChanTime;
pNeighborRoamInfo->cfgParams.minChannelScanTime = pMac->roam.configParam.neighborRoamConfig.nNeighborScanMinChanTime;
pNeighborRoamInfo->cfgParams.maxNeighborRetries = 0;
pNeighborRoamInfo->cfgParams.neighborLookupThreshold = pMac->roam.configParam.neighborRoamConfig.nNeighborLookupRssiThreshold;
pNeighborRoamInfo->cfgParams.delay_before_vdev_stop =
pMac->roam.configParam.neighborRoamConfig.delay_before_vdev_stop;
pNeighborRoamInfo->cfgParams.nOpportunisticThresholdDiff =
pMac->roam.configParam.neighborRoamConfig.nOpportunisticThresholdDiff;
pNeighborRoamInfo->cfgParams.nRoamRescanRssiDiff =
pMac->roam.configParam.neighborRoamConfig.nRoamRescanRssiDiff;
pNeighborRoamInfo->cfgParams.nRoamBmissFirstBcnt =
pMac->roam.configParam.neighborRoamConfig.nRoamBmissFirstBcnt;
pNeighborRoamInfo->cfgParams.nRoamBmissFinalBcnt =
pMac->roam.configParam.neighborRoamConfig.nRoamBmissFinalBcnt;
pNeighborRoamInfo->cfgParams.nRoamBeaconRssiWeight =
pMac->roam.configParam.neighborRoamConfig.nRoamBeaconRssiWeight;
pNeighborRoamInfo->cfgParams.neighborReassocThreshold = pMac->roam.configParam.neighborRoamConfig.nNeighborReassocRssiThreshold;
pNeighborRoamInfo->cfgParams.neighborScanPeriod = pMac->roam.configParam.neighborRoamConfig.nNeighborScanTimerPeriod;
pNeighborRoamInfo->cfgParams.neighborResultsRefreshPeriod = pMac->roam.configParam.neighborRoamConfig.nNeighborResultsRefreshPeriod;
pNeighborRoamInfo->cfgParams.emptyScanRefreshPeriod = pMac->roam.configParam.neighborRoamConfig.nEmptyScanRefreshPeriod;
pNeighborRoamInfo->cfgParams.channelInfo.numOfChannels =
pMac->roam.configParam.neighborRoamConfig.neighborScanChanList.numChannels;
if (pNeighborRoamInfo->cfgParams.channelInfo.numOfChannels != 0) {
pNeighborRoamInfo->cfgParams.channelInfo.ChannelList =
vos_mem_malloc(pMac->roam.configParam.neighborRoamConfig.neighborScanChanList.numChannels);
if (NULL == pNeighborRoamInfo->cfgParams.channelInfo.ChannelList) {
smsLog(pMac, LOGE, FL("Memory Allocation for CFG Channel List failed"));
return eHAL_STATUS_RESOURCES;
}
/* Update the roam global structure from CFG */
vos_mem_copy(pNeighborRoamInfo->cfgParams.channelInfo.ChannelList,
pMac->roam.configParam.neighborRoamConfig.neighborScanChanList.channelList,
pMac->roam.configParam.neighborRoamConfig.neighborScanChanList.numChannels);
}
else {
pNeighborRoamInfo->cfgParams.channelInfo.ChannelList = NULL;
smsLog(pMac, LOGW, FL("invalid neighbor roam channel list: %u"),
pNeighborRoamInfo->cfgParams.channelInfo.numOfChannels);
}
pNeighborRoamInfo->cfgParams.hi_rssi_scan_max_count =
pMac->roam.configParam.neighborRoamConfig.nhi_rssi_scan_max_count;
pNeighborRoamInfo->cfgParams.hi_rssi_scan_rssi_delta =
pMac->roam.configParam.neighborRoamConfig.nhi_rssi_scan_rssi_delta;
pNeighborRoamInfo->cfgParams.hi_rssi_scan_delay =
pMac->roam.configParam.neighborRoamConfig.nhi_rssi_scan_delay;
pNeighborRoamInfo->cfgParams.hi_rssi_scan_rssi_ub =
pMac->roam.configParam.neighborRoamConfig.nhi_rssi_scan_rssi_ub;
vos_mem_set(pNeighborRoamInfo->currAPbssid, sizeof(tCsrBssid), 0);
pNeighborRoamInfo->currentNeighborLookupThreshold =
pNeighborRoamInfo->cfgParams.neighborLookupThreshold;
pNeighborRoamInfo->currentOpportunisticThresholdDiff =
pNeighborRoamInfo->cfgParams.nOpportunisticThresholdDiff;
pNeighborRoamInfo->currentRoamRescanRssiDiff =
pNeighborRoamInfo->cfgParams.nRoamRescanRssiDiff;
pNeighborRoamInfo->currentRoamBmissFirstBcnt =
pNeighborRoamInfo->cfgParams.nRoamBmissFirstBcnt;
pNeighborRoamInfo->currentRoamBmissFinalBcnt =
pNeighborRoamInfo->cfgParams.nRoamBmissFinalBcnt;
pNeighborRoamInfo->currentRoamBeaconRssiWeight =
pNeighborRoamInfo->cfgParams.nRoamBeaconRssiWeight;
#ifdef FEATURE_WLAN_LFR
pNeighborRoamInfo->lookupDOWNRssi = 0;
pNeighborRoamInfo->uEmptyScanCount = 0;
pNeighborRoamInfo->uScanMode = DEFAULT_SCAN;
vos_mem_set(&pNeighborRoamInfo->prevConnProfile, sizeof(tCsrRoamConnectedProfile), 0);
#endif
pNeighborRoamInfo->scanRspPending = eANI_BOOLEAN_FALSE;
pNeighborRoamInfo->neighborScanTimerInfo.pMac = pMac;
pNeighborRoamInfo->neighborScanTimerInfo.sessionId = CSR_SESSION_ID_INVALID;
status = vos_timer_init(&pNeighborRoamInfo->neighborScanTimer, VOS_TIMER_TYPE_SW,
csrNeighborRoamNeighborScanTimerCallback, (void *)&pNeighborRoamInfo->neighborScanTimerInfo);
if (eHAL_STATUS_SUCCESS != status)
{
smsLog(pMac, LOGE, FL("Neighbor scan timer allocation failed"));
vos_mem_free(pNeighborRoamInfo->cfgParams.channelInfo.ChannelList);
pNeighborRoamInfo->cfgParams.channelInfo.ChannelList = NULL;
return eHAL_STATUS_RESOURCES;
}
status = vos_timer_init(&pNeighborRoamInfo->neighborResultsRefreshTimer, VOS_TIMER_TYPE_SW,
csrNeighborRoamResultsRefreshTimerCallback, (void *)&pNeighborRoamInfo->neighborScanTimerInfo);
if (eHAL_STATUS_SUCCESS != status)
{
smsLog(pMac, LOGE, FL("Neighbor results refresh timer allocation failed"));
vos_mem_free(pNeighborRoamInfo->cfgParams.channelInfo.ChannelList);
pNeighborRoamInfo->cfgParams.channelInfo.ChannelList = NULL;
vos_timer_destroy(&pNeighborRoamInfo->neighborScanTimer);
return eHAL_STATUS_RESOURCES;
}
status = vos_timer_init(&pNeighborRoamInfo->emptyScanRefreshTimer, VOS_TIMER_TYPE_SW,
csrNeighborRoamEmptyScanRefreshTimerCallback,
(void *)&pNeighborRoamInfo->neighborScanTimerInfo);
if (eHAL_STATUS_SUCCESS != status)
{
smsLog(pMac, LOGE, FL("Empty scan refresh timer allocation failed"));
vos_mem_free(pNeighborRoamInfo->cfgParams.channelInfo.ChannelList);
pNeighborRoamInfo->cfgParams.channelInfo.ChannelList = NULL;
vos_timer_destroy(&pNeighborRoamInfo->neighborScanTimer);
vos_timer_destroy(&pNeighborRoamInfo->neighborResultsRefreshTimer);
return eHAL_STATUS_RESOURCES;
}
status = csrLLOpen(pMac->hHdd, &pNeighborRoamInfo->roamableAPList);
if (eHAL_STATUS_SUCCESS != status)
{
smsLog(pMac, LOGE, FL("LL Open of roam able AP List failed"));
vos_mem_free(pNeighborRoamInfo->cfgParams.channelInfo.ChannelList);
pNeighborRoamInfo->cfgParams.channelInfo.ChannelList = NULL;
vos_timer_destroy(&pNeighborRoamInfo->neighborScanTimer);
vos_timer_destroy(&pNeighborRoamInfo->neighborResultsRefreshTimer);
vos_timer_destroy(&pNeighborRoamInfo->emptyScanRefreshTimer);
return eHAL_STATUS_RESOURCES;
}
pNeighborRoamInfo->roamChannelInfo.currentChanIndex = CSR_NEIGHBOR_ROAM_INVALID_CHANNEL_INDEX;
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.numOfChannels = 0;
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList = NULL;
pNeighborRoamInfo->roamChannelInfo.chanListScanInProgress = eANI_BOOLEAN_FALSE;
pNeighborRoamInfo->roamChannelInfo.IAPPNeighborListReceived = eANI_BOOLEAN_FALSE;
#ifdef WLAN_FEATURE_VOWIFI_11R
status = csrNeighborRoamInit11rAssocInfo(pMac);
if (eHAL_STATUS_SUCCESS != status)
{
smsLog(pMac, LOGE, FL("LL Open of roam able AP List failed"));
vos_mem_free(pNeighborRoamInfo->cfgParams.channelInfo.ChannelList);
pNeighborRoamInfo->cfgParams.channelInfo.ChannelList = NULL;
vos_timer_destroy(&pNeighborRoamInfo->neighborScanTimer);
vos_timer_destroy(&pNeighborRoamInfo->neighborResultsRefreshTimer);
vos_timer_destroy(&pNeighborRoamInfo->emptyScanRefreshTimer);
csrLLClose(&pNeighborRoamInfo->roamableAPList);
return eHAL_STATUS_RESOURCES;
}
#endif
/* Initialize this with the current tick count */
pNeighborRoamInfo->scanRequestTimeStamp = vos_timer_get_system_time();
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_INIT,
sessionId);
pNeighborRoamInfo->roamChannelInfo.IAPPNeighborListReceived = eANI_BOOLEAN_FALSE;
/* Set the Last Sent Cmd as RSO_STOP */
pNeighborRoamInfo->lastSentCmd = ROAM_SCAN_OFFLOAD_STOP;
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
pNeighborRoamInfo->uOsRequestedHandoff = 0;
#endif
return eHAL_STATUS_SUCCESS;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamClose
\brief This function closes/frees all the neighbor roam data structures
\param pMac - The handle returned by macOpen.
\param sessionId - Session identifier
\return VOID
---------------------------------------------------------------------------*/
void csrNeighborRoamClose(tpAniSirGlobal pMac, tANI_U8 sessionId)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
if (eCSR_NEIGHBOR_ROAM_STATE_CLOSED == pNeighborRoamInfo->neighborRoamState)
{
smsLog(pMac, LOGW, FL("Neighbor Roam Algorithm Already Closed"));
return;
}
if (pNeighborRoamInfo->cfgParams.channelInfo.ChannelList)
vos_mem_free(pNeighborRoamInfo->cfgParams.channelInfo.ChannelList);
pNeighborRoamInfo->cfgParams.channelInfo.ChannelList = NULL;
pNeighborRoamInfo->neighborScanTimerInfo.pMac = NULL;
pNeighborRoamInfo->neighborScanTimerInfo.sessionId = CSR_SESSION_ID_INVALID;
vos_timer_destroy(&pNeighborRoamInfo->neighborScanTimer);
vos_timer_destroy(&pNeighborRoamInfo->neighborResultsRefreshTimer);
vos_timer_destroy(&pNeighborRoamInfo->emptyScanRefreshTimer);
/* Should free up the nodes in the list before closing the double Linked list */
csrNeighborRoamFreeRoamableBSSList(pMac, &pNeighborRoamInfo->roamableAPList);
csrLLClose(&pNeighborRoamInfo->roamableAPList);
if (pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList)
{
vos_mem_free(pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList);
}
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList = NULL;
pNeighborRoamInfo->roamChannelInfo.currentChanIndex = CSR_NEIGHBOR_ROAM_INVALID_CHANNEL_INDEX;
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.numOfChannels = 0;
pNeighborRoamInfo->roamChannelInfo.currentChannelListInfo.ChannelList = NULL;
pNeighborRoamInfo->roamChannelInfo.chanListScanInProgress = eANI_BOOLEAN_FALSE;
pNeighborRoamInfo->roamChannelInfo.IAPPNeighborListReceived = eANI_BOOLEAN_FALSE;
/* Free the profile.. */
csrReleaseProfile(pMac, &pNeighborRoamInfo->csrNeighborRoamProfile);
#ifdef FEATURE_WLAN_LFR
csrRoamFreeConnectProfile(pMac, &pNeighborRoamInfo->prevConnProfile);
#endif
#ifdef WLAN_FEATURE_VOWIFI_11R
pNeighborRoamInfo->FTRoamInfo.currentNeighborRptRetryNum = 0;
pNeighborRoamInfo->FTRoamInfo.numBssFromNeighborReport = 0;
vos_mem_zero(pNeighborRoamInfo->FTRoamInfo.neighboReportBssInfo,
sizeof(tCsrNeighborReportBssInfo) * MAX_BSS_IN_NEIGHBOR_RPT);
csrNeighborRoamFreeRoamableBSSList(pMac,
&pNeighborRoamInfo->FTRoamInfo.preAuthDoneList);
csrLLClose(&pNeighborRoamInfo->FTRoamInfo.preAuthDoneList);
#endif /* WLAN_FEATURE_VOWIFI_11R */
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_CLOSED,
sessionId);
return;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamRequestHandoff
\brief This function triggers actual switching from one AP to the new AP.
It issues disassociate with reason code as Handoff and CSR as a
part of handling disassoc rsp, issues reassociate to the new AP
\param pMac - The handle returned by macOpen.
\return VOID
---------------------------------------------------------------------------*/
void csrNeighborRoamRequestHandoff(tpAniSirGlobal pMac, tANI_U8 sessionId)
{
tCsrRoamInfo roamInfo;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
tCsrNeighborRoamBSSInfo handoffNode;
extern void csrRoamRoamingStateDisassocRspProcessor( tpAniSirGlobal pMac, tSirSmeDisassocRsp *pSmeDisassocRsp );
tANI_U32 roamId = 0;
eHalStatus status;
#ifdef FEATURE_WLAN_LFR_METRICS
tCsrRoamInfo *roamInfoMetrics;
#endif
VOS_TRACE(VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_DEBUG,"%s sessionId=%d",
__func__, sessionId);
if (pNeighborRoamInfo->neighborRoamState !=
eCSR_NEIGHBOR_ROAM_STATE_PREAUTH_DONE) {
smsLog(pMac, LOGE,
FL("Roam requested when Neighbor roam is in %s state"),
macTraceGetNeighbourRoamState(
pNeighborRoamInfo->neighborRoamState));
return;
}
if (eANI_BOOLEAN_FALSE ==
csrNeighborRoamGetHandoffAPInfo(pMac, &handoffNode, sessionId)) {
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_ERROR,
FL("failed to obtain handoff AP"));
return;
}
VOS_TRACE (VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_DEBUG,
FL("HANDOFF CANDIDATE BSSID "MAC_ADDRESS_STR),
MAC_ADDR_ARRAY(handoffNode.pBssDescription->bssId));
vos_mem_zero(&roamInfo, sizeof(tCsrRoamInfo));
csrRoamCallCallback(pMac, sessionId, &roamInfo, roamId, eCSR_ROAM_FT_START,
eSIR_SME_SUCCESS);
vos_mem_zero(&roamInfo, sizeof(tCsrRoamInfo));
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_REASSOCIATING,
sessionId);
#ifdef FEATURE_WLAN_LFR_METRICS
/* LFR metrics - pre-auth completion metric.
Send the event to supplicant that pre-auth successfully completed */
roamInfoMetrics = vos_mem_malloc(sizeof(tCsrRoamInfo));
if (NULL == roamInfoMetrics)
{
smsLog(pMac, LOG1, FL("Memory allocation failed!"));
}
else
{
vos_mem_copy((void *)roamInfoMetrics->bssid,
(void *)&handoffNode.pBssDescription->bssId, sizeof(tCsrBssid));
csrRoamCallCallback(pMac, sessionId, roamInfoMetrics, 0,
eCSR_ROAM_HANDOVER_SUCCESS, 0);
vos_mem_free(roamInfoMetrics);
}
#endif
/* Free the profile.. Just to make sure we dont leak memory here */
csrReleaseProfile(pMac, &pNeighborRoamInfo->csrNeighborRoamProfile);
/*
* Create the Handoff AP profile. Copy the currently connected profile and
* update only the BSSID and channel number. This should happen before
* issuing disconnect.
*/
status = csrRoamCopyConnectedProfile(pMac, sessionId,
&pNeighborRoamInfo->csrNeighborRoamProfile);
if (eHAL_STATUS_SUCCESS != status) {
VOS_TRACE(VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_ERROR,
FL("csrRoamCopyConnectedProfile returned failed %d"), status);
return;
}
vos_mem_copy(pNeighborRoamInfo->csrNeighborRoamProfile.BSSIDs.bssid, handoffNode.pBssDescription->bssId, sizeof(tSirMacAddr));
pNeighborRoamInfo->csrNeighborRoamProfile.ChannelInfo.ChannelList[0] = handoffNode.pBssDescription->channelId;
NEIGHBOR_ROAM_DEBUG(pMac, LOGW, " csrRoamHandoffRequested: disassociating with current AP");
if(!HAL_STATUS_SUCCESS(csrRoamIssueDisassociateCmd(pMac, sessionId, eCSR_DISCONNECT_REASON_HANDOFF)))
{
smsLog(pMac, LOGW, "csrRoamHandoffRequested: fail to issue disassociate");
return;
}
/* Notify HDD for handoff, providing the BSSID too */
roamInfo.reasonCode = eCsrRoamReasonBetterAP;
vos_mem_copy(roamInfo.bssid,
handoffNode.pBssDescription->bssId,
sizeof( tCsrBssid ));
csrRoamCallCallback(pMac, sessionId, &roamInfo, 0,
eCSR_ROAM_ROAMING_START, eCSR_ROAM_RESULT_NONE);
return;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamIsHandoffInProgress
\brief This function returns whether hand-off is in progress or not based
on the current neighbor roam state
\param pMac - The handle returned by macOpen.
is11rReassoc - Return whether reassoc is of type 802.11r reassoc
\return eANI_BOOLEAN_TRUE if reassoc in progress, eANI_BOOLEAN_FALSE otherwise
---------------------------------------------------------------------------*/
tANI_BOOLEAN csrNeighborRoamIsHandoffInProgress(tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
if (eCSR_NEIGHBOR_ROAM_STATE_REASSOCIATING ==
pMac->roam.neighborRoamInfo[sessionId].neighborRoamState)
return eANI_BOOLEAN_TRUE;
return eANI_BOOLEAN_FALSE;
}
#if defined(WLAN_FEATURE_VOWIFI_11R) || defined(WLAN_FEATURE_NEIGHBOR_ROAMING)
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamIs11rAssoc
\brief This function returns whether the current association is a 11r assoc or not
\param pMac - The handle returned by macOpen.
\return eANI_BOOLEAN_TRUE if current assoc is 11r, eANI_BOOLEAN_FALSE otherwise
---------------------------------------------------------------------------*/
tANI_BOOLEAN csrNeighborRoamIs11rAssoc(tpAniSirGlobal pMac, tANI_U8 sessionId)
{
return pMac->roam.neighborRoamInfo[sessionId].is11rAssoc;
}
#endif /* WLAN_FEATURE_VOWIFI_11R */
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamGetHandoffAPInfo
\brief This function returns the best possible AP for handoff.
For 11R case, it returns the 1st entry from pre-auth done list.
For non-11r case, it returns the 1st entry from roam able AP list
\param pMac - The handle returned by macOpen.
pHandoffNode - AP node that is the hand-off candidate returned
\return true if able find handoff AP, false otherwise
---------------------------------------------------------------------------*/
bool csrNeighborRoamGetHandoffAPInfo(tpAniSirGlobal pMac,
tpCsrNeighborRoamBSSInfo pHandoffNode,
tANI_U8 sessionId)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
tpCsrNeighborRoamBSSInfo pBssNode = NULL;
if (NULL == pHandoffNode)
{
VOS_ASSERT(NULL != pHandoffNode);
return false;
}
#ifdef WLAN_FEATURE_VOWIFI_11R
if (pNeighborRoamInfo->is11rAssoc)
{
/* Always the BSS info in the head is the handoff candidate */
pBssNode = csrNeighborRoamGetRoamableAPListNextEntry(pMac,
&pNeighborRoamInfo->FTRoamInfo.preAuthDoneList, NULL);
NEIGHBOR_ROAM_DEBUG(pMac, LOG1, FL("Number of Handoff candidates = %d"), csrLLCount(&pNeighborRoamInfo->FTRoamInfo.preAuthDoneList));
}
else
#endif
#ifdef FEATURE_WLAN_ESE
if (pNeighborRoamInfo->isESEAssoc)
{
/* Always the BSS info in the head is the hand-off candidate */
pBssNode = csrNeighborRoamGetRoamableAPListNextEntry(pMac, &pNeighborRoamInfo->FTRoamInfo.preAuthDoneList, NULL);
NEIGHBOR_ROAM_DEBUG(pMac, LOG1,
FL("Number of Handoff candidates = %d"),
csrLLCount(&pNeighborRoamInfo->FTRoamInfo.preAuthDoneList));
}
else
#endif
#ifdef FEATURE_WLAN_LFR
if (csrRoamIsFastRoamEnabled(pMac, sessionId))
{
/* Always the BSS info in the head is the hand-off candidate */
pBssNode = csrNeighborRoamGetRoamableAPListNextEntry(pMac, &pNeighborRoamInfo->FTRoamInfo.preAuthDoneList, NULL);
NEIGHBOR_ROAM_DEBUG(pMac, LOG1,
FL("Number of Handoff candidates = %d"),
csrLLCount(&pNeighborRoamInfo->FTRoamInfo.preAuthDoneList));
}
else
#endif
{
pBssNode = csrNeighborRoamGetRoamableAPListNextEntry(pMac, &pNeighborRoamInfo->roamableAPList, NULL);
NEIGHBOR_ROAM_DEBUG(pMac, LOG1,
FL("Number of Handoff candidates = %d"),
csrLLCount(&pNeighborRoamInfo->roamableAPList));
}
if (NULL == pBssNode)
return false;
vos_mem_copy(pHandoffNode, pBssNode, sizeof(tCsrNeighborRoamBSSInfo));
return true;
}
/* ---------------------------------------------------------------------------
\brief This function returns TRUE if preauth is completed
\param pMac - The handle returned by macOpen.
\return boolean
---------------------------------------------------------------------------*/
tANI_BOOLEAN csrNeighborRoamStatePreauthDone(tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
return (pMac->roam.neighborRoamInfo[sessionId].neighborRoamState ==
eCSR_NEIGHBOR_ROAM_STATE_PREAUTH_DONE);
}
/* ---------------------------------------------------------------------------
\brief In the event that we are associated with AP1 and we have
completed pre auth with AP2. Then we receive a deauth/disassoc from
AP1.
At this point neighbor roam is in pre auth done state, pre auth timer
is running. We now handle this case by stopping timer and clearing
the pre-auth state. We basically clear up and just go to disconnected
state.
\param pMac - The handle returned by macOpen.
\return boolean
---------------------------------------------------------------------------*/
void csrNeighborRoamTranistionPreauthDoneToDisconnected(tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
tCsrRoamSession *pSession = CSR_GET_SESSION(pMac, sessionId);
if (!pSession)
{
VOS_TRACE(VOS_MODULE_ID_SME, VOS_TRACE_LEVEL_DEBUG,
FL("pSession is NULL"));
return;
}
if (pNeighborRoamInfo->neighborRoamState !=
eCSR_NEIGHBOR_ROAM_STATE_PREAUTH_DONE) return;
// Stop timer
vos_timer_stop(&pSession->ftSmeContext.preAuthReassocIntvlTimer);
// Transition to init state
csr_neighbor_roam_state_transition(pMac,
eCSR_NEIGHBOR_ROAM_STATE_INIT,
sessionId);
pNeighborRoamInfo->roamChannelInfo.IAPPNeighborListReceived = eANI_BOOLEAN_FALSE;
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
pNeighborRoamInfo->uOsRequestedHandoff = 0;
#endif
}
/* ---------------------------------------------------------------------------
\brief This function returns TRUE if background scan triggered by
LFR is in progress.
\param halHandle - The handle from HDD context.
\return boolean
---------------------------------------------------------------------------*/
tANI_BOOLEAN csrNeighborRoamScanRspPending(tHalHandle hHal,
tANI_U8 sessionId)
{
tpAniSirGlobal pMac = PMAC_STRUCT(hHal);
return (pMac->roam.neighborRoamInfo[sessionId].scanRspPending);
}
/* ---------------------------------------------------------------------------
\brief This function returns TRUE if STA is in the middle of roaming states
\param halHandle - The handle from HDD context.
\param sessionId - Session identifier
\return boolean
---------------------------------------------------------------------------*/
tANI_BOOLEAN csrNeighborMiddleOfRoaming(tHalHandle hHal, tANI_U8 sessionId)
{
tpAniSirGlobal pMac = PMAC_STRUCT(hHal);
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
tANI_BOOLEAN val = (eCSR_NEIGHBOR_ROAM_STATE_REASSOCIATING ==
pNeighborRoamInfo->neighborRoamState) ||
(eCSR_NEIGHBOR_ROAM_STATE_PREAUTHENTICATING ==
pNeighborRoamInfo->neighborRoamState) ||
(eCSR_NEIGHBOR_ROAM_STATE_PREAUTH_DONE ==
pNeighborRoamInfo->neighborRoamState) ||
(eCSR_NEIGHBOR_ROAM_STATE_REPORT_SCAN ==
pNeighborRoamInfo->neighborRoamState) ||
(eCSR_NEIGHBOR_ROAM_STATE_CFG_CHAN_LIST_SCAN ==
pNeighborRoamInfo->neighborRoamState);
return (val);
}
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamCandidateFoundIndHdlr
\brief This function is called by CSR as soon as TL posts the candidate
found indication to SME via MC thread
\param pMac - The handle returned by macOpen.
pMsg - Msg sent by PE
\return eHAL_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
eHalStatus csrNeighborRoamCandidateFoundIndHdlr(tpAniSirGlobal pMac, void* pMsg)
{
tSirSmeCandidateFoundInd *pSirSmeCandidateFoundInd =
(tSirSmeCandidateFoundInd *)pMsg;
tANI_U32 sessionId = pSirSmeCandidateFoundInd->sessionId;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
eHalStatus status = eHAL_STATUS_SUCCESS;
/* we must be in connected state, if not ignore it */
if ((eCSR_NEIGHBOR_ROAM_STATE_CONNECTED != pNeighborRoamInfo->neighborRoamState)
|| (pNeighborRoamInfo->uOsRequestedHandoff))
{
smsLog(pMac, LOGE, FL("Received in not CONNECTED state OR uOsRequestedHandoff is set. Ignore it"));
status = eHAL_STATUS_FAILURE;
}
else
{
/* We are about to start a fresh scan cycle,
* purge non-P2P results from the past */
csrScanFlushSelectiveResult(pMac, VOS_FALSE);
/* Once it gets the candidates found indication from PE, will issue
* a scan req to PE with “freshScan” in scanreq structure set
* as follows: 0x42 - Return & purge LFR scan results
*/
status = csrScanRequestLfrResult(pMac, sessionId,
csrNeighborRoamScanResultRequestCallback,
pMac);
}
return status;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamProcessHandoffReq
\brief This function is called start with the handoff process. First do a
SSID scan for the BSSID provided
\param pMac - The handle returned by macOpen.
\return eHAL_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
eHalStatus csrNeighborRoamProcessHandoffReq(tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
eHalStatus status = eHAL_STATUS_SUCCESS;
tANI_U32 roamId;
tCsrRoamProfile *pProfile = NULL;
tCsrRoamSession *pSession = CSR_GET_SESSION(pMac, sessionId);
tANI_U8 i = 0;
uint8_t roam_now = 0;
uint8_t roamable_ap_count = 0;
tCsrScanResultFilter scan_filter;
tScanResultHandle scan_result;
if (NULL == pSession)
{
smsLog(pMac, LOGE, FL("pSession is NULL "));
return eHAL_STATUS_FAILURE;
}
do
{
roamId = GET_NEXT_ROAM_ID(&pMac->roam);
pProfile = vos_mem_malloc(sizeof(tCsrRoamProfile));
if ( NULL == pProfile )
{
smsLog(pMac, LOGE, FL("Memory alloc failed"));
return eHAL_STATUS_FAILURE;
}
vos_mem_set(pProfile, sizeof(tCsrRoamProfile), 0);
status = csrRoamCopyProfile(pMac, pProfile, pSession->pCurRoamProfile);
if(!HAL_STATUS_SUCCESS(status))
{
smsLog(pMac, LOGE, FL("Profile copy failed"));
break;
}
//Add the BSSID & Channel
pProfile->BSSIDs.numOfBSSIDs = 1;
if (NULL == pProfile->BSSIDs.bssid)
{
pProfile->BSSIDs.bssid =
vos_mem_malloc(sizeof(tSirMacAddr) * pProfile->BSSIDs.numOfBSSIDs);
if (NULL == pProfile->BSSIDs.bssid)
{
smsLog(pMac, LOGE, FL("mem alloc failed for BSSID"));
status = eHAL_STATUS_FAILURE;
break;
}
}
vos_mem_zero(pProfile->BSSIDs.bssid, sizeof(tSirMacAddr) * pProfile->BSSIDs.numOfBSSIDs);
/* Populate the BSSID from handoff info received from HDD */
for (i = 0; i < pProfile->BSSIDs.numOfBSSIDs; i++)
{
vos_mem_copy(&pProfile->BSSIDs.bssid[i],
pNeighborRoamInfo->handoffReqInfo.bssid, sizeof(tSirMacAddr));
}
pProfile->ChannelInfo.numOfChannels = 1;
if (NULL == pProfile->ChannelInfo.ChannelList)
{
pProfile->ChannelInfo.ChannelList =
vos_mem_malloc(sizeof(*pProfile->ChannelInfo.ChannelList) *
pProfile->ChannelInfo.numOfChannels);
if (NULL == pProfile->ChannelInfo.ChannelList)
{
smsLog(pMac, LOGE, FL("mem alloc failed for ChannelList"));
status = eHAL_STATUS_FAILURE;
break;
}
}
pProfile->ChannelInfo.ChannelList[0] = pNeighborRoamInfo->handoffReqInfo.channel;
/*
* For User space connect requests, the scan has already been done.
* So, check if the BSS descriptor exists in the scan cache and
* proceed with the handoff instead of a redundant scan again.
*/
if (pNeighborRoamInfo->handoffReqInfo.src == CONNECT_CMD_USERSPACE) {
smsLog(pMac, LOG1, FL("Connect cmd with bssid within same ESS"));
status = csrNeighborRoamPrepareScanProfileFilter(
pMac, &scan_filter, sessionId);
smsLog(pMac, LOG1, FL("Filter creation status = %d"), status);
status = csrScanGetResult(pMac, &scan_filter, &scan_result);
roam_now = csrNeighborRoamProcessScanResults(pMac, sessionId,
&scan_result);
roamable_ap_count = csrLLCount(&pNeighborRoamInfo->roamableAPList);
csrFreeScanFilter(pMac, &scan_filter);
smsLog(pMac, LOG1, FL("roam_now=%d, roamable_ap_count=%d"),
roam_now, roamable_ap_count);
}
if (roam_now && roamable_ap_count) {
csrNeighborRoamTriggerHandoff(pMac, sessionId);
} else {
status = csrScanForSSID(pMac, sessionId, pProfile, roamId, FALSE);
if(!HAL_STATUS_SUCCESS(status))
smsLog(pMac, LOGE, FL("SSID scan failed"));
}
}while(0);
if(NULL != pProfile)
{
csrReleaseProfile(pMac, pProfile);
vos_mem_free(pProfile);
}
return status;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamSssidScanDone
\brief This function is called once SSID scan is done. If SSID scan failed
to find our candidate add an entry to csr scan cache ourself before starting
the hand-off process
\param pMac - The handle returned by macOpen.
\return eHAL_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
eHalStatus csrNeighborRoamSssidScanDone(tpAniSirGlobal pMac,
tANI_U8 sessionId,
eHalStatus status)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
eHalStatus hstatus;
smsLog(pMac, LOGE, FL("called "));
/* we must be in connected state, if not ignore it */
if (eCSR_NEIGHBOR_ROAM_STATE_CONNECTED != pNeighborRoamInfo->neighborRoamState)
{
smsLog(pMac, LOGE, FL("Received in not CONNECTED state. Ignore it"));
return eHAL_STATUS_FAILURE;
}
//if SSID scan failed to find our candidate add an entry to csr scan cache ourself
if(!HAL_STATUS_SUCCESS(status))
{
smsLog(pMac, LOGE, FL("Add an entry to csr scan cache"));
hstatus = csrScanCreateEntryInScanCache(pMac, sessionId,
pNeighborRoamInfo->handoffReqInfo.bssid,
pNeighborRoamInfo->handoffReqInfo.channel);
if (eHAL_STATUS_SUCCESS != hstatus)
{
smsLog(pMac, LOGE, FL("csrScanCreateEntryInScanCache failed with status %d"), hstatus);
return eHAL_STATUS_FAILURE;
}
}
/* Now we have completed scanning for the candidate provided by HDD. Let move on to HO*/
hstatus = csrNeighborRoamProcessScanComplete(pMac, sessionId);
if (eHAL_STATUS_SUCCESS != hstatus)
{
smsLog(pMac, LOGE, FL("Neighbor scan process complete failed with status %d"), hstatus);
return eHAL_STATUS_FAILURE;
}
return eHAL_STATUS_SUCCESS;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamHandoffReqHdlr
\brief This function is called by CSR as soon as it gets a handoff request
to SME via MC thread
\param pMac - The handle returned by macOpen.
pMsg - Msg sent by HDD
\return eHAL_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
eHalStatus csrNeighborRoamHandoffReqHdlr(tpAniSirGlobal pMac, void* pMsg)
{
tAniHandoffReq *pHandoffReqInfo = (tAniHandoffReq *)pMsg;
tANI_U32 sessionId = pHandoffReqInfo->sessionId;
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
eHalStatus status = eHAL_STATUS_SUCCESS;
/* we must be in connected state, if not ignore it */
if (eCSR_NEIGHBOR_ROAM_STATE_CONNECTED != pNeighborRoamInfo->neighborRoamState)
{
smsLog(pMac, LOGE, FL("Received in not CONNECTED state. Ignore it"));
status = eHAL_STATUS_FAILURE;
}
else
{
//save the handoff info came from HDD as part of the reassoc req
pHandoffReqInfo = (tAniHandoffReq *)pMsg;
if (NULL != pHandoffReqInfo)
{
//sanity check
if (VOS_FALSE == vos_mem_compare(pHandoffReqInfo->bssid,
pNeighborRoamInfo->currAPbssid,
sizeof(tSirMacAddr)))
{
pNeighborRoamInfo->handoffReqInfo.channel = pHandoffReqInfo->channel;
pNeighborRoamInfo->handoffReqInfo.src = pHandoffReqInfo->handoff_src;
vos_mem_copy(pNeighborRoamInfo->handoffReqInfo.bssid,
pHandoffReqInfo->bssid,
6);
pNeighborRoamInfo->uOsRequestedHandoff = 1;
status = csrRoamOffloadScan(pMac, sessionId,
ROAM_SCAN_OFFLOAD_STOP,
REASON_OS_REQUESTED_ROAMING_NOW);
if (eHAL_STATUS_SUCCESS != status)
{
smsLog(pMac, LOGE, FL("csrRoamOffloadScan failed"));
pNeighborRoamInfo->uOsRequestedHandoff = 0;
}
}
else
{
smsLog(pMac, LOGE, FL("Received req has same BSSID as current AP!!"));
status = eHAL_STATUS_FAILURE;
}
}
else
{
smsLog(pMac, LOGE, FL("Received msg is NULL"));
status = eHAL_STATUS_FAILURE;
}
}
return status;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamProceedWithHandoffReq
\brief This function is called by CSR as soon as it gets rsp back for
ROAM_SCAN_OFFLOAD_STOP with reason REASON_OS_REQUESTED_ROAMING_NOW
\param pMac - The handle returned by macOpen.
\return eHAL_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
eHalStatus csrNeighborRoamProceedWithHandoffReq(tpAniSirGlobal pMac,
tANI_U8 sessionId)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
eHalStatus status = eHAL_STATUS_SUCCESS;
/* we must be in connected state, if not ignore it */
if ((eCSR_NEIGHBOR_ROAM_STATE_CONNECTED != pNeighborRoamInfo->neighborRoamState)
|| (!pNeighborRoamInfo->uOsRequestedHandoff))
{
smsLog(pMac, LOGE, FL("Received in not CONNECTED state(%d) or uOsRequestedHandoff(%d) is not set. Ignore it "),
pNeighborRoamInfo->neighborRoamState, pNeighborRoamInfo->uOsRequestedHandoff);
status = eHAL_STATUS_FAILURE;
}
else
{
//Let's go ahead with handoff
status = csrNeighborRoamProcessHandoffReq(pMac, sessionId);
}
if(!HAL_STATUS_SUCCESS(status))
{
pNeighborRoamInfo->uOsRequestedHandoff = 0;
}
return status;
}
/* ---------------------------------------------------------------------------
\fn csrNeighborRoamStartLfrScan
\brief This function is called if HDD requested handoff failed for some
reason. start the LFR logic at that point.By the time, this function is
called, a STOP command has already been issued.
\param pMac - The handle returned by macOpen.
\return eHAL_STATUS_SUCCESS on success, corresponding error code otherwise
---------------------------------------------------------------------------*/
eHalStatus csrNeighborRoamStartLfrScan(tpAniSirGlobal pMac, tANI_U8 sessionId)
{
tpCsrNeighborRoamControlInfo pNeighborRoamInfo =
&pMac->roam.neighborRoamInfo[sessionId];
pNeighborRoamInfo->uOsRequestedHandoff = 0;
/* There is no candidate or We are not roaming Now.
* Inform the FW to restart Roam Offload Scan */
csrRoamOffloadScan(pMac, sessionId, ROAM_SCAN_OFFLOAD_START,
REASON_NO_CAND_FOUND_OR_NOT_ROAMING_NOW);
return eHAL_STATUS_SUCCESS;
}
#endif //WLAN_FEATURE_ROAM_SCAN_OFFLOAD
#endif /* WLAN_FEATURE_NEIGHBOR_ROAMING */