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gerrit-public.fairphone.software / platform / vendor / qcom-opensource / wlan / prima / refs/tags/FP3-REL-Q-3.A.0129 / . / CORE / SME / inc / csrInternal.h
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/*
* 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 csrInternal.h
Define internal data structure for MAC.
========================================================================== */
#ifndef CSRINTERNAL_H__
#define CSRINTERNAL_H__
#include "vos_status.h"
#include "vos_utils.h"
#include "vos_lock.h"
#include "palTimer.h"
#include "csrSupport.h"
#include "vos_nvitem.h"
#include "wlan_qct_tl.h"
#include "csrApi.h"
#ifdef WLAN_FEATURE_NEIGHBOR_ROAMING
#include "csrNeighborRoam.h"
#endif
#define CSR_MAX_STA (HAL_NUM_STA)
#define CSR_SME_SCAN_FLAGS_DELETE_CACHE 0x80
#define CSR_TITAN_MAX_RATE_MIMO_CB 240
#define CSR_TITAN_MAX_RATE_MIMO 126
//define scan return criteria. LIM should use these define as well
#define CSR_SCAN_RETURN_AFTER_ALL_CHANNELS ( 0 )
#define CSR_SCAN_RETURN_AFTER_FIRST_MATCH ( 0x01 )
#define CSR_SCAN_RETURN_AFTER_5_BAND_11d_FOUND ( 0x80 )
#define CSR_SCAN_RETURN_AFTER_24_BAND_11d_FOUND ( 0x40 )
#define CSR_SCAN_RETURN_AFTER_EITHER_BAND_11d_FOUND ( CSR_SCAN_RETURN_AFTER_5_BAND_11d_FOUND | CSR_SCAN_RETURN_AFTER_24_BAND_11d_FOUND )
#define CSR_NUM_RSSI_CAT 15
#define CSR_MAX_STATISTICS_REQ 10
#define CSR_ROAM_SCAN_CHANNEL_SWITCH_TIME 3
//Support for multiple session
#define CSR_SESSION_ID_INVALID 0xFF // session ID invalid
#define CSR_ROAM_SESSION_MAX 5 // No of sessions to be supported, and a
// session is for Infra, IBSS or BT-AMP
#define CSR_IS_SESSION_VALID( pMac, sessionId ) ( ( (sessionId) < CSR_ROAM_SESSION_MAX ) \
&& ( (pMac)->roam.roamSession[(sessionId)].sessionActive ) )
#define CSR_GET_SESSION( pMac, sessionId ) \
( \
(sessionId < CSR_ROAM_SESSION_MAX) ? \
(&(pMac)->roam.roamSession[(sessionId)]) :\
NULL \
)
#define CSR_MAX_NUM_COUNTRY_CODE 100
#define CSR_IS_SELECT_5GHZ_MARGIN( pMac ) \
( \
(((pMac)->roam.configParam.nSelect5GHzMargin)?eANI_BOOLEAN_TRUE:eANI_BOOLEAN_FALSE) \
)
#if defined (WLAN_FEATURE_VOWIFI_11R) || defined (FEATURE_WLAN_ESE) || defined(FEATURE_WLAN_LFR)
#define CSR_IS_ROAM_PREFER_5GHZ( pMac ) \
( \
(((pMac)->roam.configParam.nRoamPrefer5GHz)?eANI_BOOLEAN_TRUE:eANI_BOOLEAN_FALSE) \
)
#define CSR_IS_ROAM_INTRA_BAND_ENABLED( pMac ) \
( \
(((pMac)->roam.configParam.nRoamIntraBand)?eANI_BOOLEAN_TRUE:eANI_BOOLEAN_FALSE) \
)
#endif
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
#define CSR_IS_ROAM_SCAN_OFFLOAD_ENABLED( pMac ) \
( \
(((pMac)->roam.configParam.isRoamOffloadScanEnabled)?eANI_BOOLEAN_TRUE:eANI_BOOLEAN_FALSE) \
)
#define CSR_IS_FASTROAM_IN_CONCURRENCY_INI_FEATURE_ENABLED( pMac ) \
( \
(((pMac)->roam.configParam.bFastRoamInConIniFeatureEnabled)?eANI_BOOLEAN_TRUE:eANI_BOOLEAN_FALSE) \
)
#endif
//Support for "Fast roaming" (i.e., ESE, LFR, or 802.11r.)
#define CSR_BG_SCAN_OCCUPIED_CHANNEL_LIST_LEN 15
typedef enum
{
//eCSR_CFG_DOT11_MODE_BEST = 0,
eCSR_CFG_DOT11_MODE_TAURUS = 0,
eCSR_CFG_DOT11_MODE_ABG,
eCSR_CFG_DOT11_MODE_11A,
eCSR_CFG_DOT11_MODE_11B,
eCSR_CFG_DOT11_MODE_11G,
eCSR_CFG_DOT11_MODE_11N,
eCSR_CFG_DOT11_MODE_POLARIS,
eCSR_CFG_DOT11_MODE_TITAN,
#ifdef WLAN_FEATURE_11AC
eCSR_CFG_DOT11_MODE_11AC,
#endif
eCSR_CFG_DOT11_MODE_11G_ONLY,
eCSR_CFG_DOT11_MODE_11N_ONLY,
#ifdef WLAN_FEATURE_11AC
eCSR_CFG_DOT11_MODE_11AC_ONLY,
#endif
//This value can never set to CFG. It is for CSR's internal use
eCSR_CFG_DOT11_MODE_AUTO,
}eCsrCfgDot11Mode; //Used to determine what to set to the WNI_CFG_DOT11_MODE
typedef enum etCsrRoamCommands
{
eCsrRoamNoCommand,
eCsrRoamCommandScan,
eCsrRoamCommandRoam,
eCsrRoamCommandWmStatusChange,
eCsrRoamCommandSetKey,
eCsrRoamCommandRemoveKey,
} eCsrRoamCommands;
typedef enum
{
eCsrScanOther = 1,
eCsrScanLostLink1,
eCsrScanLostLink2,
eCsrScanLostLink3,
eCsrScanLostLink4,
eCsrScan11d1, //First 11d scan
eCsrScan11d2, //First 11d scan has failed
eCsrScan11dDone, //11d scan succeeded, try the rest of the channel
eCsrScanUserRequest,
eCsrScanGetResult,
eCsrScanSetBGScanParam, //used for HO too - bg scan request in NT Handoff sub-state
eCsrScanForSsid,
eCsrScanForCapsChange,
eCsrScanBGScanAbort,
eCsrScanBGScanEnable,
eCsrScanIdleScan,
eCsrScanGetScanChnInfo, //To get the list of channels scanned
eCsrScanBgScan, // bg scan request in NRT & RT Handoff sub-states
eCsrScanProbeBss, // directed probe on an entry from the candidate list - HO
eCsrScanAbortBgScan, //aborting a BG scan (meaning the scan is triggered by LIM timer)
eCsrScanAbortNormalScan, //aborting a normal scan (the scan is trigger by eWNI_SME_SCAN_REQ)
eCsrScanP2PFindPeer,
eCsrScanGetLfrResult, // get the LFR candidates from PE scan cache
}eCsrScanReason;
typedef enum
{
eCsrNoConnection, // Roaming because we have not established the initial connection.
eCsrCapsChange, // roaming because LIM reported a Capability change in the associated AP.
eCsrForcedDisassoc, // roaming becuase someone asked us to Disassoc and stay disassociated.
eCsrHddIssued, // roaming because an 802.11 request was issued to the driver.
eCsrLostLink1, // roaming because we lost link to an associated AP
eCsrLostLink2,
eCsrLostLink3,
eCsrForcedDisassocMICFailure, // roaming because we need to force a Disassoc due to MIC failure
eCsrHddIssuedReassocToSameAP,
eCsrSmeIssuedReassocToSameAP,
eCsrSmeIssuedReassocToDiffAP,
eCsrForcedDeauth, // roaming becuase someone asked us to deauth and stay disassociated.
eCsrSmeIssuedDisassocForHandoff, // will be issued by Handoff logic to disconect from current AP
eCsrSmeIssuedAssocToSimilarAP, // will be issued by Handoff logic to join a new AP with same profile
eCsrSmeIssuedIbssJoinFailure, // ibss join timer fired before any perr showed up, so shut down the network
eCsrForcedIbssLeave,
eCsrStopBss,
eCsrSmeIssuedFTReassoc,
eCsrForcedDisassocSta,
eCsrForcedDeauthSta,
eCsrPerformPreauth,
eCsrLostLink1Abort,
eCsrLostLink2Abort,
eCsrLostLink3Abort,
ecsr_mbb_perform_preauth_reassoc,
}eCsrRoamReason;
typedef enum
{
eCSR_ROAM_SUBSTATE_NONE = 0,
eCSR_ROAM_SUBSTATE_START_BSS_REQ,
eCSR_ROAM_SUBSTATE_JOIN_REQ,
eCSR_ROAM_SUBSTATE_REASSOC_REQ,
eCSR_ROAM_SUBSTATE_DISASSOC_REQ,
eCSR_ROAM_SUBSTATE_STOP_BSS_REQ,
eCSR_ROAM_SUBSTATE_DISCONNECT_CONTINUE_ROAMING, //Continue the current roam command after disconnect
eCSR_ROAM_SUBSTATE_AUTH_REQ,
eCSR_ROAM_SUBSTATE_CONFIG,
eCSR_ROAM_SUBSTATE_DEAUTH_REQ,
eCSR_ROAM_SUBSTATE_DISASSOC_NOTHING_TO_JOIN,
eCSR_ROAM_SUBSTATE_DISASSOC_REASSOC_FAILURE,
eCSR_ROAM_SUBSTATE_DISASSOC_FORCED,
eCSR_ROAM_SUBSTATE_WAIT_FOR_KEY,
eCSR_ROAM_SUBSTATE_DISASSOC_HANDOFF,
eCSR_ROAM_SUBSTATE_JOINED_NO_TRAFFIC,
eCSR_ROAM_SUBSTATE_JOINED_NON_REALTIME_TRAFFIC,
eCSR_ROAM_SUBSTATE_JOINED_REALTIME_TRAFFIC,
// max is 15 unless the bitfield is expanded...
} eCsrRoamSubState;
typedef enum
{
eCSR_ROAMING_STATE_STOP = 0,
eCSR_ROAMING_STATE_IDLE,
eCSR_ROAMING_STATE_SCANNING,
eCSR_ROAMING_STATE_JOINING,
eCSR_ROAMING_STATE_JOINED,
}eCsrRoamState;
typedef enum
{
eCsrContinueRoaming,
eCsrStopRoaming,
eCsrStartIbss,
eCsrStartIbssSameIbss,
eCsrReassocToSelfNoCapChange,
eCsrStopRoamingDueToConcurrency,
}eCsrJoinState;
typedef enum
{
eCsrNotRoaming,
eCsrLostlinkRoamingDisassoc,
eCsrLostlinkRoamingDeauth,
eCsrDynamicRoaming,
eCsrReassocRoaming,
}eCsrRoamingReason;
typedef enum
{
eCsrDisassociated,
eCsrDeauthenticated
}eCsrRoamWmStatusChangeTypes;
typedef enum
{
eCsrSummaryStats = 0,
eCsrGlobalClassAStats,
eCsrGlobalClassBStats,
eCsrGlobalClassCStats,
eCsrGlobalClassDStats,
eCsrPerStaStats,
eCsrPerPktStats,
eCsrMaxStats
}eCsrRoamStatsClassTypes;
#ifdef FEATURE_WLAN_DIAG_SUPPORT
typedef enum
{
eCSR_WLAN_STATUS_CONNECT =0,
eCSR_WLAN_STATUS_DISCONNECT
}eCsrDiagWlanStatusEventSubtype;
typedef enum
{
eCSR_REASON_UNSPECIFIED = 0,
eCSR_REASON_USER_REQUESTED,
eCSR_REASON_MIC_ERROR,
eCSR_REASON_DISASSOC,
eCSR_REASON_DEAUTH,
eCSR_REASON_HANDOFF,
}eCsrDiagWlanStatusEventReason;
typedef enum
{
eCSR_WLAN_HANDOFF_EVENT =0,
}eCsrDiagWlanHandoffEventSubtype;
typedef enum
{
eCSR_WLAN_VCC_EVENT =0,
}eCsrDiagWlanVccEventSubtype;
#endif //FEATURE_WLAN_DIAG_SUPPORT
typedef struct tagCsrChannel
{
tANI_U8 numChannels;
tANI_U8 channelList[WNI_CFG_VALID_CHANNEL_LIST_LEN];
}tCsrChannel;
typedef struct tagScanProfile
{
tANI_U32 minChnTime;
tANI_U32 maxChnTime;
tANI_U32 restTime; //This is ignored if not associated
tANI_U32 numOfChannels;
tANI_U8 *pChannelList;
tSirScanType scanType; //active or passive
eCsrRoamBssType bssType; //BSS or IBSS
tANI_U8 ssid[WNI_CFG_SSID_LEN];
tANI_U8 bReturnAfter1stMatch;
tANI_U8 fUniqueResult;
tANI_U8 freshScan;
tCsrBssid bssid;
}tScanProfile;
typedef struct tagBssConfigParam
{
eCsrMediaAccessType qosType;
tSirMacSSid SSID;
tANI_U32 uRTSThresh;
tANI_U32 uDeferThresh; //
eCsrCfgDot11Mode uCfgDot11Mode;
eCsrBand eBand;
tANI_U8 standardRate[CSR_DOT11_SUPPORTED_RATES_MAX];
tANI_U8 extendedRate[CSR_DOT11_EXTENDED_SUPPORTED_RATES_MAX];
eCsrExposedTxRate txRate;
tAniAuthType authType;
eCsrEncryptionType encType;
tANI_U32 uShortSlotTime;
tANI_U32 uHTSupport; //High throughput
tANI_U32 uPowerLimit;
tANI_U32 uHeartBeatThresh;
tANI_U32 uJoinTimeOut;
tSirMacCapabilityInfo BssCap;
tANI_BOOLEAN f11hSupport;
ePhyChanBondState cbMode;
}tBssConfigParam;
typedef struct tagCsrRoamStartBssParams
{
tSirMacSSid ssId;
tCsrBssid bssid; //this is the BSSID for the party we want to join (only use for IBSS or WDS)
tSirNwType sirNwType;
ePhyChanBondState cbMode;
enum eSirMacHTChannelWidth orig_ch_width;
tSirMacRateSet operationalRateSet;
tSirMacRateSet extendedRateSet;
tANI_U8 operationChn;
eCsrCfgDot11Mode uCfgDot11Mode;
tANI_U8 privacy;
tANI_BOOLEAN fwdWPSPBCProbeReq;
tANI_BOOLEAN protEnabled;
tANI_BOOLEAN obssProtEnabled;
tAniAuthType authType;
tANI_U16 beaconInterval; //If this is 0, SME will fill in for caller.
tANI_U16 ht_protection;
tANI_U32 dtimPeriod;
tANI_U8 ApUapsdEnable;
tANI_U8 ssidHidden;
tANI_U8 wps_state;
tVOS_CON_MODE bssPersona;
tANI_U16 nRSNIELength; //The byte count in the pRSNIE, if 0, pRSNIE is ignored.
tANI_U8 *pRSNIE; //If not null, it has the IE byte stream for RSN
tANI_BOOLEAN updatebeaconInterval; //Flag used to indicate update
// beaconInterval
#ifdef WLAN_FEATURE_11W
tANI_BOOLEAN mfpCapable;
tANI_BOOLEAN mfpRequired;
#endif
}tCsrRoamStartBssParams;
typedef struct tagScanCmd
{
tANI_U32 scanID;
csrScanCompleteCallback callback;
void *pContext;
eCsrScanReason reason;
tCsrRoamProfile *pToRoamProfile;
tANI_U32 roamId; //this is the ID related to the pToRoamProfile
union
{
tCsrScanRequest scanRequest;
tCsrBGScanRequest bgScanRequest;
}u;
//This flag will be set while aborting the scan due to band change
eCsrAbortReason abortScanIndication;
}tScanCmd;
typedef struct tagRoamCmd
{
tANI_U32 roamId;
eCsrRoamReason roamReason;
tCsrRoamProfile roamProfile;
tScanResultHandle hBSSList; //BSS list fits the profile
tListElem *pRoamBssEntry; //point to the current BSS in the list that is roaming. It starts from head to tail
tSirBssDescription *pLastRoamBss; //the last BSS we try and failed
tANI_BOOLEAN fReleaseBssList; //whether to free hBSSList
tANI_BOOLEAN fReleaseProfile; //whether to free roamProfile
tANI_BOOLEAN fReassoc; //whether this command is for reassociation
tANI_BOOLEAN fUpdateCurRoamProfile; //whether pMac->roam.pCurRoamProfile needs to be updated
//this is for CSR internal used only. And it should not be assigned when creating the command
//This causes the roam command not to do anything.
tANI_BOOLEAN fReassocToSelfNoCapChange;
tANI_BOOLEAN fStopWds;
tSirMacAddr peerMac;
tSirMacReasonCodes reason;
}tRoamCmd;
typedef struct tagSetKeyCmd
{
tANI_U32 roamId;
eCsrEncryptionType encType;
eCsrAuthType authType;
tAniKeyDirection keyDirection; //Tx, Rx or Tx-and-Rx
tSirMacAddr peerMac; //Peer's MAC address. ALL 1's for group key
tANI_U8 paeRole; //0 for supplicant
tANI_U8 keyId; // Kye index
tANI_U8 keyLength; //Number of bytes containing the key in pKey
tANI_U8 Key[CSR_MAX_KEY_LEN];
tANI_U8 keyRsc[CSR_MAX_RSC_LEN];
} tSetKeyCmd;
typedef struct tahRemoveKeyCmd
{
tANI_U32 roamId;
eCsrEncryptionType encType;
eCsrAuthType authType;
tSirMacAddr peerMac; //Peer's MAC address. ALL 1's for group key
tANI_U8 keyId; //key index
} tRemoveKeyCmd;
typedef struct tagWmStatusChangeCmd
{
eCsrRoamWmStatusChangeTypes Type;
union
{
tSirSmeDeauthInd DeauthIndMsg;
tSirSmeDisassocInd DisassocIndMsg;
}u;
}tWmStatusChangeCmd;
typedef struct tagAddStaForSessionCmd
{
//Session self mac addr
tSirMacAddr selfMacAddr;
tVOS_CON_MODE currDeviceMode;
}tAddStaForSessionCmd;
typedef struct tagDelStaForSessionCmd
{
//Session self mac addr
tSirMacAddr selfMacAddr;
csrRoamSessionCloseCallback callback;
void *pContext;
}tDelStaForSessionCmd;
//This structure represents one scan request
typedef struct tagCsrCmd
{
tListElem Link;
eCsrRoamCommands command;
tANI_U8 sessionId; // Session ID for this command
union
{
tScanCmd scanCmd;
tRoamCmd roamCmd;
tWmStatusChangeCmd wmStatusChangeCmd;
tSetKeyCmd setKeyCmd;
tRemoveKeyCmd removeKeyCmd;
tAddStaForSessionCmd addStaSessionCmd;
tDelStaForSessionCmd delStaSessionCmd;
}u;
}tCsrCmd;
#ifdef WLAN_FEATURE_VOWIFI_11R
typedef struct tagCsr11rConfig
{
tANI_BOOLEAN IsFTResourceReqSupported;
} tCsr11rConfig;
#endif
#ifdef WLAN_FEATURE_NEIGHBOR_ROAMING
typedef struct tagCsrNeighborRoamConfig
{
tANI_U32 nNeighborScanTimerPeriod;
tANI_U8 nNeighborLookupRssiThreshold;
tANI_U8 nNeighborReassocRssiThreshold;
tANI_U16 nNeighborScanMinChanTime;
tANI_U16 nNeighborScanMaxChanTime;
sCsrChannel neighborScanChanList;
tANI_U8 nMaxNeighborRetries;
tANI_U16 nNeighborResultsRefreshPeriod;
tANI_U16 nEmptyScanRefreshPeriod;
tANI_U8 nNeighborInitialForcedRoamTo5GhEnable;
tANI_U8 nWeakZoneRssiThresholdForRoam;
}tCsrNeighborRoamConfig;
#endif
typedef struct tagCsrConfig
{
tANI_U32 agingCount;
tANI_U32 FragmentationThreshold;
tANI_U32 channelBondingMode24GHz;
tANI_U32 channelBondingMode5GHz;
tANI_U32 RTSThreshold;
eCsrPhyMode phyMode;
eCsrCfgDot11Mode uCfgDot11Mode;
eCsrBand eBand;
tANI_U32 HeartbeatThresh50;
tANI_U32 HeartbeatThresh24;
tANI_U32 bgScanInterval;
eCsrCBChoice cbChoice;
eCsrBand bandCapability; //indicate hw capability
eCsrRoamWmmUserModeType WMMSupportMode;
tANI_BOOLEAN Is11eSupportEnabled;
tANI_BOOLEAN Is11dSupportEnabled;
tANI_BOOLEAN Is11dSupportEnabledOriginal;
tANI_BOOLEAN Is11hSupportEnabled;
tANI_BOOLEAN shortSlotTime;
tANI_BOOLEAN ProprietaryRatesEnabled;
tANI_BOOLEAN fenableMCCMode;
tANI_U16 TxRate;
tANI_U8 fAllowMCCGODiffBI;
tANI_U8 AdHocChannel24;
tANI_U8 AdHocChannel5G;
tANI_U32 impsSleepTime; //in units of microseconds
tANI_U32 scanAgeTimeNCNPS; //scan result aging time threshold when Not-Connect-No-Power-Save, in seconds
tANI_U32 scanAgeTimeNCPS; //scan result aging time threshold when Not-Connect-Power-Save, in seconds
tANI_U32 scanAgeTimeCNPS; //scan result aging time threshold when Connect-No-Power-Save, in seconds,
tANI_U32 scanAgeTimeCPS; //scan result aging time threshold when Connect-Power-Savein seconds
tANI_U32 BssPreferValue[CSR_NUM_RSSI_CAT]; //each RSSI category has one value
int RSSICat[CSR_NUM_RSSI_CAT];
tANI_U8 bCatRssiOffset; //to set the RSSI difference for each category
tANI_U32 nRoamingTime; //In seconds, CSR will try this long before gives up, 0 means no roaming
//Whether to limit the channels to the ones set in Csr11dInfo. If true, the opertaional
//channels are limited to the default channel list. It is an "AND" operation between the
//default channels and the channels in the 802.11d IE.
tANI_BOOLEAN fEnforce11dChannels;
//Country Code Priority
//0 = 802.11D > Configured Country > NV
//1 = Configured Country > 802.11D > NV
tANI_BOOLEAN fSupplicantCountryCodeHasPriority;
//When true, AP with unknown country code won't be see.
//"Unknown country code" means either Ap doesn't have 11d IE or we cannot
//find a domain for the country code in its 11d IE.
tANI_BOOLEAN fEnforceCountryCodeMatch;
//When true, only APs in the default domain can be seen. If the Ap has "unknown country
//code", or the doamin of the country code doesn't match the default domain, the Ap is
//not acceptable.
tANI_BOOLEAN fEnforceDefaultDomain;
//When set, It enforece country code even if 11doriginal is true
tANI_BOOLEAN fEnforceCountryCode;
tANI_U16 vccRssiThreshold;
tANI_U32 vccUlMacLossThreshold;
tANI_U32 nPassiveMinChnTime; //in units of milliseconds
tANI_U32 nPassiveMaxChnTime; //in units of milliseconds
tANI_U32 nActiveMinChnTime; //in units of milliseconds
tANI_U32 nActiveMaxChnTime; //in units of milliseconds
tANI_U32 nInitialDwellTime; //in units of milliseconds
uint32_t min_chntime_btc_esco; //in units of milliseconds
uint32_t max_chntime_btc_esco; //in units of milliseconds
uint32_t min_chntime_btc_sco;
uint32_t max_chntime_btc_sco;
tANI_U8 disableAggWithBtc;
#ifdef WLAN_AP_STA_CONCURRENCY
tANI_U32 nPassiveMinChnTimeConc; //in units of milliseconds
tANI_U32 nPassiveMaxChnTimeConc; //in units of milliseconds
tANI_U32 nActiveMinChnTimeConc; //in units of milliseconds
tANI_U32 nActiveMaxChnTimeConc; //in units of milliseconds
tANI_U32 nRestTimeConc; //in units of milliseconds
tANI_U8 nNumStaChanCombinedConc; //number of channels combined for
//Sta in each split scan operation
tANI_U8 nNumP2PChanCombinedConc; //number of channels combined for
//P2P in each split scan operation
#endif
tANI_BOOLEAN IsIdleScanEnabled;
//in dBm, the maximum TX power
//The actual TX power is the lesser of this value and 11d.
//If 11d is disable, the lesser of this and default setting.
tANI_U8 nTxPowerCap;
tANI_U32 statsReqPeriodicity; //stats request frequency from PE while in full power
tANI_U32 statsReqPeriodicityInPS;//stats request frequency from PE while in power save
tANI_U32 dtimPeriod;
tANI_BOOLEAN ssidHidden;
#ifdef WLAN_FEATURE_VOWIFI_11R
tCsr11rConfig csr11rConfig;
#endif
#ifdef FEATURE_WLAN_LFR
tANI_U8 isFastRoamIniFeatureEnabled;
tANI_U8 MAWCEnabled;
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
tANI_U8 isRoamOffloadScanEnabled;
tANI_BOOLEAN bFastRoamInConIniFeatureEnabled;
v_BOOL_t isPERRoamEnabled;
v_BOOL_t isPERRoamCCAEnabled;
v_S15_t PERRoamFullScanThreshold;
v_S15_t PERMinRssiThresholdForRoam;
tANI_U32 rateUpThreshold;
tANI_U32 rateDownThreshold;
tANI_U32 waitPeriodForNextPERScan;
tANI_U32 PERtimerThreshold;
tANI_U32 PERroamTriggerPercent;
#endif
#endif
#ifdef WLAN_FEATURE_LFR_MBB
tANI_BOOLEAN enable_lfr_mbb;
#endif
#ifdef FEATURE_WLAN_ESE
tANI_U8 isEseIniFeatureEnabled;
#endif
#if defined (WLAN_FEATURE_VOWIFI_11R) || defined (FEATURE_WLAN_ESE) || defined(FEATURE_WLAN_LFR)
tANI_U8 isFastTransitionEnabled;
tANI_U8 RoamRssiDiff;
tANI_U8 nImmediateRoamRssiDiff;
tANI_BOOLEAN nRoamPrefer5GHz;
tANI_BOOLEAN nRoamIntraBand;
tANI_BOOLEAN isWESModeEnabled;
tANI_BOOLEAN nRoamScanControl;
tANI_U8 nProbes;
tANI_U16 nRoamScanHomeAwayTime;
#endif
#ifdef WLAN_FEATURE_NEIGHBOR_ROAMING
tCsrNeighborRoamConfig neighborRoamConfig;
#endif
/* Instead of Reassoc, send ADDTS/DELTS even when ACM is off for that AC
* This is mandated by WMM-AC certification */
tANI_BOOLEAN addTSWhenACMIsOff;
tANI_BOOLEAN fValidateList;
//Remove this code once SLM_Sessionization is supported
//BMPS_WORKAROUND_NOT_NEEDED
tANI_BOOLEAN doBMPSWorkaround;
//To enable/disable scanning 2.4Ghz channels twice on a single scan request from HDD
tANI_BOOLEAN fScanTwice;
#ifdef WLAN_FEATURE_11AC
tANI_U32 nVhtChannelWidth;
tANI_U8 txBFEnable;
tANI_U8 txBFCsnValue;
tANI_BOOLEAN enableVhtFor24GHz;
tANI_U8 txMuBformee;
#endif
tANI_U8 txLdpcEnable;
/*
* Enable/Disable heartbeat offload
*/
tANI_BOOLEAN enableHeartBeatOffload;
tANI_U8 isAmsduSupportInAMPDU;
tANI_U8 nSelect5GHzMargin;
tANI_U8 isCoalesingInIBSSAllowed;
tANI_U8 allowDFSChannelRoam;
tANI_BOOLEAN initialScanSkipDFSCh;
tANI_BOOLEAN ignorePeerErpInfo;
tANI_BOOLEAN sendDeauthBeforeCon;
#ifdef WLAN_FEATURE_AP_HT40_24G
tANI_BOOLEAN apHT40_24GEnabled;
tANI_U32 channelBondingAPMode24GHz; // Use for SAP/P2P GO 2.4GHz channel Bonding
#endif
tANI_U32 nOBSSScanWidthTriggerInterval;
tANI_U8 roamDelayStatsEnabled;
tANI_BOOLEAN ignorePeerHTopMode;
tANI_BOOLEAN disableP2PMacSpoofing;
tANI_BOOLEAN enableFatalEvent;
tANI_U8 max_chan_for_dwell_time_cfg;
uint32_t enable_edca_params;
uint32_t edca_vo_cwmin;
uint32_t edca_vi_cwmin;
uint32_t edca_bk_cwmin;
uint32_t edca_be_cwmin;
uint32_t edca_vo_cwmax;
uint32_t edca_vi_cwmax;
uint32_t edca_bk_cwmax;
uint32_t edca_be_cwmax;
uint32_t edca_vo_aifs;
uint32_t edca_vi_aifs;
uint32_t edca_bk_aifs;
uint32_t edca_be_aifs;
tANI_U8 agg_btc_sco_oui[3];
tANI_BOOLEAN agg_btc_sco_enabled;
tANI_U8 num_ba_buff_btc_sco;
tANI_U8 num_ba_buff;
}tCsrConfig;
typedef struct tagCsrChannelPowerInfo
{
tListElem link;
tANI_U8 firstChannel;
tANI_U8 numChannels;
tANI_U8 txPower;
tANI_U8 interChannelOffset;
}tCsrChannelPowerInfo;
typedef struct tagRoamJoinStatus
{
tSirResultCodes statusCode;
//this is set to unspecified if statusCode indicates timeout. Or it is the failed reason from the other BSS(per 802.11 spec)
tANI_U32 reasonCode;
tSirMacAddr bssId;
}tCsrRoamJoinStatus;
typedef struct tagCsrOsChannelMask
{
tANI_U8 numChannels;
tANI_BOOLEAN scanEnabled[WNI_CFG_VALID_CHANNEL_LIST_LEN];
tANI_U8 channelList[WNI_CFG_VALID_CHANNEL_LIST_LEN];
}tCsrOsChannelMask;
typedef struct tagCsrVotes11d
{
tANI_U8 votes;
tANI_U8 countryCode[WNI_CFG_COUNTRY_CODE_LEN];
}tCsrVotes11d;
struct csr_disable_scan_during_sco_timer_info
{
struct net_device *dev;
tANI_U32 scan_id;
csrScanCompleteCallback callback;
};
typedef struct tagCsrScanStruct
{
tScanProfile scanProfile;
tANI_U32 nextScanID;
tDblLinkList scanResultList;
tDblLinkList tempScanResults;
tANI_BOOLEAN fScanEnable;
tANI_BOOLEAN fFullScanIssued;
vos_timer_t hTimerGetResult;
vos_timer_t disable_scan_during_sco_timer;
struct csr_disable_scan_during_sco_timer_info
disable_scan_during_sco_timer_info;
tANI_BOOLEAN disable_scan_during_sco;
#ifdef WLAN_AP_STA_CONCURRENCY
vos_timer_t hTimerStaApConcTimer;
#endif
vos_timer_t hTimerIdleScan;
tPalTimerHandle hTimerBgScan;
//changes on every scan, it is used as a flag for whether 11d info is found on every scan
tANI_U8 channelOf11dInfo;
tANI_U8 scanResultCfgAgingTime;
//changes on every scan, a flag to tell whether conflict 11d info found on each BSS
tANI_BOOLEAN fAmbiguous11dInfoFound;
//Tush: changes on every scan, a flag to tell whether the applied 11d info present in one of the scan results
tANI_BOOLEAN fCurrent11dInfoMatch;
tANI_BOOLEAN f11dInfoReset; //to indicate whether the 11d info in CFG is reset to default
tSirScanType curScanType;
tCsrChannel baseChannels; //This are all the supported channels AND(&) to the current eBand
tCsrChannel channels11d;
tChannelListWithPower defaultPowerTable[WNI_CFG_VALID_CHANNEL_LIST_LEN]; //From NV
tChannelListWithPower defaultPowerTable40MHz[WNI_CFG_VALID_CHANNEL_LIST_LEN]; //From NV
tANI_U32 numChannelsDefault; //total channels of NV
tCsrChannel base20MHzChannels; //The channel base to work on
tCsrChannel base40MHzChannels; //center channels for 40MHz channels
tDblLinkList channelPowerInfoList24;
tDblLinkList channelPowerInfoList5G;
tANI_U32 nLastAgeTimeOut;
tANI_U32 nAgingCountDown;
tANI_U8 countryCodeDefault[WNI_CFG_COUNTRY_CODE_LEN]; //The country code from NV
tANI_U8 countryCodeCurrent[WNI_CFG_COUNTRY_CODE_LEN];
tANI_U8 countryCode11d[WNI_CFG_COUNTRY_CODE_LEN];
v_REGDOMAIN_t domainIdDefault; //default regulatory domain
v_REGDOMAIN_t domainIdCurrent; //current regulatory domain
tCsrBssid currentCountryBssid; // Bssid for current country code
tANI_S8 currentCountryRSSI; // RSSI for current country code
tANI_BOOLEAN f11dInfoApplied;
tANI_BOOLEAN fCancelIdleScan;
tANI_U8 countryCodeCount;
tCsrVotes11d votes11d[CSR_MAX_NUM_COUNTRY_CODE]; //counts for various advertized country codes
//in 11d IE from probe rsp or beacons of neighboring APs;
//will use the most popular one (max count)
tANI_U8 countryCodeElected[WNI_CFG_COUNTRY_CODE_LEN];
#ifdef FEATURE_WLAN_WAPI
// tANI_U16 NumBkidCandidate;
// tBkidCandidateInfo BkidCandidateInfo[CSR_MAX_BKID_ALLOWED]; /* Move this as part of SessionEntry */
#endif /* FEATURE_WLAN_WAPI */
tANI_U8 numBGScanChannel; //number of valid channels in the bgScanChannelList
tANI_U8 bgScanChannelList[WNI_CFG_BG_SCAN_CHANNEL_LIST_LEN];
//the ChannelInfo member is not used in this structure.
//numBGScanChannel and bgScanChannelList are used for the BG scan channel info
tCsrBGScanRequest bgScanParams;
tANI_BOOLEAN fRestartIdleScan;
tANI_U32 nIdleScanTimeGap; //the time since last trying to trigger idle scan
tCsrOsChannelMask osScanChannelMask;//keep a track of channels to be scnned while in traffic condition
tANI_U16 nBssLimit; //the maximum number of BSS in scan cache
/*channelPowerInfoList24 has been seen corrupted. Set this flag to true trying to
* detect when it happens. Adding this into code because we can't reproduce it easily.
* We don't know when it happens. */
tANI_BOOLEAN fValidateList;
/*Customer wants to start with an active scan based on the default country code.
* This optimization will minimize the driver load to association time.
* Based on this flag we will bypass the initial passive scan needed for 11d
* to determine the country code & domain */
tANI_BOOLEAN fEnableBypass11d;
/*Customer wants to optimize the scan time. Avoiding scans(passive) on DFS
* channels while swipping through both bands can save some time
* (apprx 1.3 sec) */
tANI_U8 fEnableDFSChnlScan;
/*
* To enable/disable scanning only 2.4Ghz channels on first scan
*/
tANI_BOOLEAN fFirstScanOnly2GChnl;
tANI_BOOLEAN fDropScanCmd; //true means we don't accept scan commands
#ifdef WLAN_AP_STA_CONCURRENCY
tDblLinkList scanCmdPendingList;
#endif
tCsrChannel occupiedChannels; //This includes all channels on which candidate APs are found
tANI_S8 inScanResultBestAPRssi;
csrScanCompleteCallback callback11dScanDone;
eCsrBand scanBandPreference; //This defines the band perference for scan
bool fcc_constraint;
/* flag to defer updated chanel list */
bool defer_update_channel_list;
}tCsrScanStruct;
//Save the connected information. This structure + connectedProfile
//should contain all information about the connection
typedef struct tagRoamCsrConnectedInfo
{
tANI_U32 nBeaconLength; //the length, in bytes, of the beacon frame, can be 0
tANI_U32 nAssocReqLength; //the length, in bytes, of the assoc req frame, can be 0
tANI_U32 nAssocRspLength; //The length, in bytes, of the assoc rsp frame, can be 0
#ifdef WLAN_FEATURE_VOWIFI_11R
tANI_U32 nRICRspLength; //Length of the parsed RIC response IEs received in reassoc response
#endif
#ifdef FEATURE_WLAN_ESE
tANI_U32 nTspecIeLength;
#endif
tANI_U8 *pbFrames; //Point to a buffer contain the beacon, assoc req, assoc rsp frame, in that order
//user needs to use nBeaconLength, nAssocReqLength, nAssocRspLength to desice where
//each frame starts and ends.
tANI_U8 staId;
}tCsrRoamConnectedInfo;
typedef struct tagCsrLinkQualityIndInfo
{
csrRoamLinkQualityIndCallback callback;
void *context;
}tCsrLinkQualityIndInfo;
typedef struct tagCsrPeStatsReqInfo
{
tListElem link; /* list links */
tANI_U32 statsMask;
tANI_U32 periodicity;
tANI_BOOLEAN rspPending;
vos_timer_t hPeStatsTimer;
tANI_BOOLEAN timerRunning;
tANI_U8 staId;
tANI_U8 numClient;
tpAniSirGlobal pMac;
/* To remember if the peStats timer is stopped successfully or not */
tANI_BOOLEAN timerStopFailed;
}tCsrPeStatsReqInfo;
typedef struct tagCsrStatsClientReqInfo
{
tListElem link; /* list links */
eCsrStatsRequesterType requesterId;
tCsrStatsCallback callback;
tANI_U32 periodicity;
void *pContext;
tANI_U32 statsMask;
tCsrPeStatsReqInfo *pPeStaEntry;
tANI_U8 staId;
vos_timer_t timer;
tANI_BOOLEAN timerExpired;
tpAniSirGlobal pMac; // TODO: Confirm this change BTAMP
}tCsrStatsClientReqInfo;
typedef struct tagCsrTlStatsReqInfo
{
tANI_U32 periodicity;
tANI_BOOLEAN timerRunning;
vos_timer_t hTlStatsTimer;
tANI_U8 numClient;
}tCsrTlStatsReqInfo;
typedef struct tagCsrRoamSession
{
tANI_U8 sessionId; // Session ID
tANI_BOOLEAN sessionActive; // TRUE if it is used
tCsrBssid selfMacAddr; // For BT-AMP station, this serve as BSSID for self-BSS.
csrRoamCompleteCallback callback;
void *pContext;
eCsrConnectState connectState;
tCsrRoamConnectedProfile connectedProfile;
tCsrRoamConnectedInfo connectedInfo;
tCsrRoamProfile *pCurRoamProfile;
tSirBssDescription *pConnectBssDesc;
tANI_U16 NumPmkidCache; /* valid no. of pmkid in the cache */
tANI_U16 CurCacheIndex; /* the index in pmkidcache to write next to */
tPmkidCacheInfo PmkidCacheInfo[CSR_MAX_PMKID_ALLOWED];
tANI_U8 cJoinAttemps;
//This may or may not have the up-to-date valid channel list
//It is used to get WNI_CFG_VALID_CHANNEL_LIST and not allocate memory all the time
tSirMacChanNum validChannelList[WNI_CFG_VALID_CHANNEL_LIST_LEN];
tANI_S32 sPendingCommands; //0 means CSR is ok to low power
#ifdef FEATURE_WLAN_WAPI
tANI_U16 NumBkidCache;
tBkidCacheInfo BkidCacheInfo[CSR_MAX_BKID_ALLOWED];
#endif /* FEATURE_WLAN_WAPI */
tANI_BOOLEAN fRoaming; //indicate whether CSR is roaming (either via lostlink or dynamic roaming)
//to remember some parameters needed for START_BSS.
//All member must be set every time we try to join or start an IBSS or BT-AMP
tCsrRoamStartBssParams bssParams;
tANI_U32 nWpaRsnReqIeLength; //the byte count of pWpaRsnIE;
tANI_U8 *pWpaRsnReqIE; //this contain the WPA/RSN IE in assoc request or the one sent in beacon (IBSS)
tANI_U32 nWpaRsnRspIeLength; //the byte count for pWpaRsnRspIE
tANI_U8 *pWpaRsnRspIE; //this contain the WPA/RSN IE in beacon/probe rsp
#ifdef FEATURE_WLAN_WAPI
tANI_U32 nWapiReqIeLength; //the byte count of pWapiReqIE;
tANI_U8 *pWapiReqIE; //this contain the WAPI IE in assoc request or the one sent in beacon (IBSS)
tANI_U32 nWapiRspIeLength; //the byte count for pWapiRspIE
tANI_U8 *pWapiRspIE; //this contain the WAPI IE in beacon/probe rsp
#endif /* FEATURE_WLAN_WAPI */
tANI_U32 nAddIEScanLength; //length of addIeScan
/* This contains the additional IE in (unicast)
* probe request at the time of join
*/
tANI_U8 addIEScan[SIR_MAC_MAX_ADD_IE_LENGTH+2];
tANI_U32 nAddIEAssocLength; //the byte count for pAddIeAssocIE
tANI_U8 *pAddIEAssoc; //this contains the additional IE in (re) assoc request
tANI_TIMESTAMP roamingStartTime; //in units of 10ms
tCsrTimerInfo roamingTimerInfo;
eCsrRoamingReason roamingReason;
tANI_BOOLEAN fCancelRoaming;
vos_timer_t hTimerRoaming;
eCsrRoamResult roamResult; //the roamResult that is used when the roaming timer fires
tCsrRoamJoinStatus joinFailStatusCode; //This is the reason code for join(assoc) failure
//The status code returned from PE for deauth or disassoc (in case of lostlink), or our own dynamic roaming
tANI_U32 roamingStatusCode;
tANI_U16 NumPmkidCandidate;
tPmkidCandidateInfo PmkidCandidateInfo[CSR_MAX_PMKID_ALLOWED];
#ifdef FEATURE_WLAN_WAPI
tANI_U16 NumBkidCandidate;
tBkidCandidateInfo BkidCandidateInfo[CSR_MAX_BKID_ALLOWED];
#endif
tANI_BOOLEAN fWMMConnection;
tANI_BOOLEAN fQOSConnection;
#ifdef FEATURE_WLAN_BTAMP_UT_RF
//To retry a join later when it fails if so desired
vos_timer_t hTimerJoinRetry;
tCsrTimerInfo joinRetryTimerInfo;
tANI_U32 maxRetryCount;
#endif
#ifdef FEATURE_WLAN_ESE
tCsrEseCckmInfo eseCckmInfo;
tANI_BOOLEAN isPrevApInfoValid;
tSirMacSSid prevApSSID;
tCsrBssid prevApBssid;
tANI_U8 prevOpChannel;
tANI_U16 clientDissSecs;
tANI_U32 roamTS1;
#if defined(FEATURE_WLAN_ESE_UPLOAD)
tCsrEseCckmIe suppCckmIeInfo;
#endif
#endif
tANI_U8 bRefAssocStartCnt; //Tracking assoc start indication
/* to force the AP initiate fresh 802.1x authentication after re-association need to clear
* the PMKID cache. To clear the cache in this particular case this is added
* it is needed by the HS 2.0 passpoint certification 5.2.a and b testcases */
tANI_BOOLEAN fIgnorePMKIDCache;
tANI_BOOLEAN abortConnection;
bool dhcp_done;
v_TIME_t connect_req_start_time;
} tCsrRoamSession;
typedef struct tagCsrRoamStruct
{
tANI_U32 nextRoamId;
tDblLinkList roamCmdPendingList;
tDblLinkList channelList5G;
tDblLinkList channelList24;
tCsrConfig configParam;
tANI_U32 numChannelsEeprom; //total channels of eeprom
tCsrChannel base20MHzChannels; //The channel base to work on
tCsrChannel base40MHzChannels; //center channels for 40MHz channels
eCsrRoamState curState[CSR_ROAM_SESSION_MAX];
eCsrRoamSubState curSubState[CSR_ROAM_SESSION_MAX];
eCsrRoamState prev_state[CSR_ROAM_SESSION_MAX];
//This may or may not have the up-to-date valid channel list
//It is used to get WNI_CFG_VALID_CHANNEL_LIST and not allocate memory all the time
tSirMacChanNum validChannelList[WNI_CFG_VALID_CHANNEL_LIST_LEN];
tANI_U32 numValidChannels; //total number of channels in CFG
tANI_S32 sPendingCommands;
vos_timer_t hTimerWaitForKey; //To support timeout for WaitForKey state
tCsrSummaryStatsInfo summaryStatsInfo;
tCsrGlobalClassAStatsInfo classAStatsInfo;
tCsrGlobalClassBStatsInfo classBStatsInfo;
tCsrGlobalClassCStatsInfo classCStatsInfo;
tCsrGlobalClassDStatsInfo classDStatsInfo;
tCsrPerStaStatsInfo perStaStatsInfo[CSR_MAX_STA];
tPerTxPacketFrmFw perPktStatsInfo;
tDblLinkList statsClientReqList;
tDblLinkList peStatsReqList;
tCsrTlStatsReqInfo tlStatsReqInfo;
eCsrRoamLinkQualityInd vccLinkQuality;
tCsrLinkQualityIndInfo linkQualityIndInfo;
v_CONTEXT_t gVosContext; //used for interaction with TL
//To specify whether an association or a IBSS is WMM enabled
//This parameter is only valid during a join or start BSS command is being executed
//tANI_BOOLEAN fWMMConnection; /* Moving it to be part of roamsession */
v_U8_t ucACWeights[WLANTL_MAX_AC];
/* TODO : Upto here */
tCsrTimerInfo WaitForKeyTimerInfo;
tCsrRoamSession *roamSession;
tANI_U32 transactionId; // Current transaction ID for internal use.
#ifdef WLAN_FEATURE_NEIGHBOR_ROAMING
tCsrNeighborRoamControlInfo neighborRoamInfo;
#endif
#ifdef FEATURE_WLAN_LFR
tANI_U8 isFastRoamIniFeatureEnabled;
#endif
#ifdef FEATURE_WLAN_ESE
tANI_U8 isEseIniFeatureEnabled;
#endif
#if defined (WLAN_FEATURE_VOWIFI_11R) || defined (FEATURE_WLAN_ESE) || defined(FEATURE_WLAN_LFR)
tANI_U8 RoamRssiDiff;
tANI_BOOLEAN isWESModeEnabled;
#endif
tANI_U32 deauthRspStatus;
tANI_BOOLEAN pending_roam_disable;
vos_spin_lock_t roam_state_lock;
tSirMacAddr spoof_mac_addr;
}tCsrRoamStruct;
#define GET_NEXT_ROAM_ID(pRoamStruct) (((pRoamStruct)->nextRoamId + 1 == 0) ? 1 : (pRoamStruct)->nextRoamId)
#define CSR_IS_ROAM_STATE(pMac, state, sessionId) ( (state) == (pMac)->roam.curState[sessionId] )
#define CSR_IS_ROAM_STOP(pMac, sessionId) CSR_IS_ROAM_STATE( (pMac), eCSR_ROAMING_STATE_STOP, sessionId )
#define CSR_IS_ROAM_INIT(pMac, sessionId) CSR_IS_ROAM_STATE( (pMac), eCSR_ROAMING_STATE_INIT, sessionId )
#define CSR_IS_ROAM_SCANNING(pMac, sessionId) CSR_IS_ROAM_STATE( pMac, eCSR_ROAMING_STATE_SCANNING, sessionId )
#define CSR_IS_ROAM_JOINING(pMac, sessionId) CSR_IS_ROAM_STATE( pMac, eCSR_ROAMING_STATE_JOINING, sessionId )
#define CSR_IS_ROAM_IDLE(pMac, sessionId) CSR_IS_ROAM_STATE( pMac, eCSR_ROAMING_STATE_IDLE, sessionId )
#define CSR_IS_ROAM_JOINED(pMac, sessionId) CSR_IS_ROAM_STATE( pMac, eCSR_ROAMING_STATE_JOINED, sessionId )
#define CSR_IS_ROAM_SUBSTATE(pMac, subState, sessionId) ((subState) == (pMac)->roam.curSubState[sessionId])
#define CSR_IS_ROAM_SUBSTATE_JOIN_REQ(pMac, sessionId) CSR_IS_ROAM_SUBSTATE((pMac), eCSR_ROAM_SUBSTATE_JOIN_REQ, sessionId)
#define CSR_IS_ROAM_SUBSTATE_AUTH_REQ(pMac, sessionId) CSR_IS_ROAM_SUBSTATE((pMac), eCSR_ROAM_SUBSTATE_AUTH_REQ, sessionId)
#define CSR_IS_ROAM_SUBSTATE_REASSOC_REQ(pMac, sessionId) CSR_IS_ROAM_SUBSTATE((pMac), eCSR_ROAM_SUBSTATE_REASSOC_REQ, sessionId)
#define CSR_IS_ROAM_SUBSTATE_DISASSOC_REQ(pMac, sessionId) CSR_IS_ROAM_SUBSTATE((pMac), eCSR_ROAM_SUBSTATE_DISASSOC_REQ, sessionId)
#define CSR_IS_ROAM_SUBSTATE_DISASSOC_NO_JOIN(pMac, sessionId) CSR_IS_ROAM_SUBSTATE((pMac), eCSR_ROAM_SUBSTATE_DISASSOC_NOTHING_TO_JOIN, sessionId)
#define CSR_IS_ROAM_SUBSTATE_REASSOC_FAIL(pMac, sessionId) CSR_IS_ROAM_SUBSTATE((pMac), eCSR_ROAM_SUBSTATE_DISASSOC_REASSOC_FAILURE, sessionId)
#define CSR_IS_ROAM_SUBSTATE_DISASSOC_FORCED(pMac, sessionId) CSR_IS_ROAM_SUBSTATE((pMac), eCSR_ROAM_SUBSTATE_DISASSOC_FORCED, sessionId)
#define CSR_IS_ROAM_SUBSTATE_DEAUTH_REQ(pMac, sessionId) CSR_IS_ROAM_SUBSTATE((pMac), eCSR_ROAM_SUBSTATE_DEAUTH_REQ, sessionId)
#define CSR_IS_ROAM_SUBSTATE_START_BSS_REQ(pMac, sessionId) CSR_IS_ROAM_SUBSTATE((pMac), eCSR_ROAM_SUBSTATE_START_BSS_REQ, sessionId)
#define CSR_IS_ROAM_SUBSTATE_STOP_BSS_REQ(pMac, sessionId) CSR_IS_ROAM_SUBSTATE((pMac), eCSR_ROAM_SUBSTATE_STOP_BSS_REQ, sessionId)
#define CSR_IS_ROAM_SUBSTATE_DISCONNECT_CONTINUE(pMac, sessionId) CSR_IS_ROAM_SUBSTATE((pMac), eCSR_ROAM_SUBSTATE_DISCONNECT_CONTINUE_ROAMING, sessionId)
#define CSR_IS_ROAM_SUBSTATE_CONFIG(pMac, sessionId) CSR_IS_ROAM_SUBSTATE((pMac), eCSR_ROAM_SUBSTATE_CONFIG, sessionId)
#define CSR_IS_ROAM_SUBSTATE_WAITFORKEY(pMac, sessionId) CSR_IS_ROAM_SUBSTATE((pMac), eCSR_ROAM_SUBSTATE_WAIT_FOR_KEY, sessionId)
#define CSR_IS_ROAM_SUBSTATE_DISASSOC_HO(pMac, sessionId) CSR_IS_ROAM_SUBSTATE((pMac), eCSR_ROAM_SUBSTATE_DISASSOC_HANDOFF, sessionId)
#define CSR_IS_ROAM_SUBSTATE_HO_NT(pMac, sessionId) CSR_IS_ROAM_SUBSTATE((pMac), eCSR_ROAM_SUBSTATE_JOINED_NO_TRAFFIC, sessionId)
#define CSR_IS_ROAM_SUBSTATE_HO_NRT(pMac, sessionId) CSR_IS_ROAM_SUBSTATE((pMac), eCSR_ROAM_SUBSTATE_JOINED_NON_REALTIME_TRAFFIC, sessionId)
#define CSR_IS_ROAM_SUBSTATE_HO_RT(pMac, sessionId) CSR_IS_ROAM_SUBSTATE((pMac), eCSR_ROAM_SUBSTATE_JOINED_REALTIME_TRAFFIC, sessionId)
#define CSR_IS_PHY_MODE_B_ONLY(pMac) \
((eCSR_DOT11_MODE_11b == (pMac)->roam.configParam.phyMode) ||\
(eCSR_DOT11_MODE_11b_ONLY == (pMac)->roam.configParam.phyMode))
#define CSR_IS_PHY_MODE_G_ONLY(pMac) \
(eCSR_DOT11_MODE_11g == (pMac)->roam.configParam.phyMode || eCSR_DOT11_MODE_11g_ONLY == (pMac)->roam.configParam.phyMode)
#define CSR_IS_PHY_MODE_A_ONLY(pMac) \
((eCSR_DOT11_MODE_11a == (pMac)->roam.configParam.phyMode) ||\
(eCSR_DOT11_MODE_11a_ONLY == (pMac)->roam.configParam.phyMode))
#ifdef WLAN_FEATURE_11AC
#define CSR_IS_PHY_MODE_DUAL_BAND(phyMode) \
((eCSR_DOT11_MODE_abg & (phyMode)) || (eCSR_DOT11_MODE_11n & (phyMode)) || \
(eCSR_DOT11_MODE_11ac & (phyMode)) || \
(eCSR_DOT11_MODE_TAURUS & (phyMode)) || \
(eCSR_DOT11_MODE_AUTO & (phyMode)))
#else
#define CSR_IS_PHY_MODE_DUAL_BAND(phyMode) \
((eCSR_DOT11_MODE_abg & (phyMode)) || (eCSR_DOT11_MODE_11n & (phyMode)) || \
(eCSR_DOT11_MODE_TAURUS & (phyMode)) || \
(eCSR_DOT11_MODE_AUTO & (phyMode)))
#endif
// this function returns TRUE if the NIC is operating exclusively in the 2.4 GHz band, meaning
// it is NOT operating in the 5.0 GHz band.
#define CSR_IS_24_BAND_ONLY(pMac) \
(eCSR_BAND_24 == (pMac)->roam.configParam.eBand)
#define CSR_IS_5G_BAND_ONLY(pMac) \
(eCSR_BAND_5G == (pMac)->roam.configParam.eBand)
#define CSR_IS_RADIO_DUAL_BAND(pMac) \
(eCSR_BAND_ALL == (pMac)->roam.configParam.bandCapability)
#define CSR_IS_RADIO_BG_ONLY(pMac) \
(eCSR_BAND_24 == (pMac)->roam.configParam.bandCapability)
// this function returns TRUE if the NIC is operating exclusively in the 5.0 GHz band, meaning
// it is NOT operating in the 2.4 GHz band
#define CSR_IS_RADIO_A_ONLY(pMac) \
(eCSR_BAND_5G == (pMac)->roam.configParam.bandCapability)
// this function returns TRUE if the NIC is operating in both bands.
#define CSR_IS_OPEARTING_DUAL_BAND(pMac) \
((eCSR_BAND_ALL == (pMac)->roam.configParam.bandCapability) && (eCSR_BAND_ALL == (pMac)->roam.configParam.eBand))
// this function returns TRUE if the NIC can operate in the 5.0 GHz band (could operate in the
// 2.4 GHz band also).
#define CSR_IS_OPERATING_A_BAND(pMac) \
(CSR_IS_OPEARTING_DUAL_BAND((pMac)) || CSR_IS_RADIO_A_ONLY((pMac)) || CSR_IS_5G_BAND_ONLY((pMac)))
// this function returns TRUE if the NIC can operate in the 2.4 GHz band (could operate in the
// 5.0 GHz band also).
#define CSR_IS_OPERATING_BG_BAND(pMac) \
(CSR_IS_OPEARTING_DUAL_BAND((pMac)) || CSR_IS_RADIO_BG_ONLY((pMac)) || CSR_IS_24_BAND_ONLY((pMac)))
#define CSR_IS_CHANNEL_5GHZ(chnNum) \
(((chnNum) >= CSR_MIN_5GHz_CHANNEL_NUMBER) && ((chnNum) <= CSR_MAX_5GHz_CHANNEL_NUMBER))
#define CSR_IS_CHANNEL_DFS(chnNum) \
(NV_CHANNEL_ENABLE != vos_nv_getChannelEnabledState(chnNum))
#define CSR_IS_CHANNEL_24GHZ(chnNum) \
(((chnNum) > 0) && ((chnNum) <= CSR_MAX_24GHz_CHANNEL_NUMBER))
#define CSR_IS_SAME_BAND_CHANNELS(ch1, ch2) (CSR_IS_CHANNEL_5GHZ(ch1) == CSR_IS_CHANNEL_5GHZ(ch2))
#define CSR_IS_11D_INFO_FOUND(pMac) \
(0 != (pMac)->scan.channelOf11dInfo)
// DEAUTHIND
#define CSR_IS_ROAMING(pSession) ((CSR_IS_LOSTLINK_ROAMING((pSession)->roamingReason)) || \
(eCsrDynamicRoaming == (pSession)->roamingReason) || \
(eCsrReassocRoaming == (pSession)->roamingReason))
#define CSR_IS_SET_KEY_COMMAND( pCommand ) ( eSmeCommandSetKey == (pCommand)->command )
#define CSR_IS_ADDTS_WHEN_ACMOFF_SUPPORTED(pMac) (pMac->roam.configParam.addTSWhenACMIsOff)
// DEAUTHIND
#define CSR_IS_LOSTLINK_ROAMING(reason) ((eCsrLostlinkRoamingDisassoc == (reason)) || (eCsrLostlinkRoamingDeauth == (reason)))
#define CSR_IS_ROAMING_COMMAND(pCommand) ((eCsrLostLink1 == (pCommand)->u.roamCmd.roamReason) ||\
(eCsrLostLink2 == (pCommand)->u.roamCmd.roamReason) ||\
(eCsrLostLink3 == (pCommand)->u.roamCmd.roamReason) )
//Stop CSR from asking for IMPS, This function doesn't disable IMPS from CSR
void csrScanSuspendIMPS( tpAniSirGlobal pMac );
//Start CSR from asking for IMPS. This function doesn't trigger CSR to request entering IMPS
//because IMPS maybe disabled.
void csrScanResumeIMPS( tpAniSirGlobal pMac );
eHalStatus csrInitGetChannels(tpAniSirGlobal pMac);
eHalStatus csrScanFilterResults(tpAniSirGlobal pMac);
eHalStatus csrScanFilterDFSResults(tpAniSirGlobal pMac);
eHalStatus csrSetModifyProfileFields(tpAniSirGlobal pMac, tANI_U32 sessionId,
tCsrRoamModifyProfileFields *pModifyProfileFields);
/* ---------------------------------------------------------------------------
\fn csrGetModifyProfileFields
\brief HDD or SME - QOS calls this function to get the current values of
connected profile fields changing which can cause reassoc.
This function must be called after CFG is downloaded and STA is in connected
state.
\param pModifyProfileFields - pointer to the connected profile fields
changing which can cause reassoc
\return eHalStatus
-------------------------------------------------------------------------------*/
eHalStatus csrGetModifyProfileFields(tpAniSirGlobal pMac, tANI_U32 sessionId,
tCsrRoamModifyProfileFields * pModifyProfileFields);
void csrSetGlobalCfgs( tpAniSirGlobal pMac );
void csrSetDefaultDot11Mode( tpAniSirGlobal pMac );
void csrScanSetChannelMask(tpAniSirGlobal pMac, tCsrChannelInfo *pChannelInfo);
tANI_BOOLEAN csrIsConnStateDisconnected(tpAniSirGlobal pMac, tANI_U32 sessionId);
tANI_BOOLEAN csrIsConnStateConnectedIbss( tpAniSirGlobal pMac, tANI_U32 sessionId );
tANI_BOOLEAN csrIsConnStateDisconnectedIbss( tpAniSirGlobal pMac, tANI_U32 sessionId );
tANI_BOOLEAN csrIsConnStateConnectedInfra( tpAniSirGlobal pMac, tANI_U32 sessionId );
tANI_BOOLEAN csrIsConnStateConnected( tpAniSirGlobal pMac, tANI_U32 sessionId );
tANI_BOOLEAN csrIsConnStateInfra( tpAniSirGlobal pMac, tANI_U32 sessionId );
tANI_BOOLEAN csrIsConnStateIbss( tpAniSirGlobal pMac, tANI_U32 sessionId );
tANI_BOOLEAN csrIsConnStateWds( tpAniSirGlobal pMac, tANI_U32 sessionId );
tANI_BOOLEAN csrIsConnStateConnectedWds( tpAniSirGlobal pMac, tANI_U32 sessionId );
tANI_BOOLEAN csrIsConnStateDisconnectedWds( tpAniSirGlobal pMac, tANI_U32 sessionId );
tANI_BOOLEAN csrIsAnySessionInConnectState( tpAniSirGlobal pMac );
tANI_BOOLEAN csrIsAllSessionDisconnected( tpAniSirGlobal pMac );
tANI_BOOLEAN csrIsStaSessionConnected( tpAniSirGlobal pMac );
tANI_BOOLEAN csrIsP2pGoSessionConnected( tpAniSirGlobal pMac );
tANI_BOOLEAN csrIsP2pSessionConnected( tpAniSirGlobal pMac );
tANI_BOOLEAN csrIsAnySessionConnected( tpAniSirGlobal pMac );
tANI_BOOLEAN csrIsInfraConnected( tpAniSirGlobal pMac );
tANI_BOOLEAN csrIsConcurrentInfraConnected( tpAniSirGlobal pMac );
tANI_BOOLEAN csrIsConcurrentSessionRunning( tpAniSirGlobal pMac );
tANI_BOOLEAN csrIsInfraApStarted( tpAniSirGlobal pMac );
tANI_BOOLEAN csrIsIBSSStarted( tpAniSirGlobal pMac );
tANI_BOOLEAN csrIsBTAMPStarted( tpAniSirGlobal pMac );
tANI_BOOLEAN csrIsBTAMP( tpAniSirGlobal pMac, tANI_U32 sessionId );
eHalStatus csrIsBTAMPAllowed( tpAniSirGlobal pMac, tANI_U32 chnId );
tANI_BOOLEAN csrIsValidMcConcurrentSession(tpAniSirGlobal pMac, tANI_U32 sessionId,
tSirBssDescription *pBssDesc);
tANI_BOOLEAN csrIsConnStateConnectedInfraAp( tpAniSirGlobal pMac, tANI_U32 sessionId );
/*----------------------------------------------------------------------------
\fn csrRoamRegisterLinkQualityIndCallback
\brief
a CSR function to allow HDD to register a callback handler with CSR for
link quality indications.
Only one callback may be registered at any time.
In order to deregister the callback, a NULL cback may be provided.
Registration happens in the task context of the caller.
\param callback - Call back being registered
\param pContext - user data
DEPENDENCIES: After CSR open
\return eHalStatus
-----------------------------------------------------------------------------*/
eHalStatus csrRoamRegisterLinkQualityIndCallback(tpAniSirGlobal pMac,
csrRoamLinkQualityIndCallback callback,
void *pContext);
/* ---------------------------------------------------------------------------
\fn csrGetStatistics
\brief csr function that client calls to register a callback to get
different PHY level statistics from CSR.
\param requesterId - different client requesting for statistics, HDD, UMA/GAN etc
\param statsMask - The different category/categories of stats requester is looking for
\param callback - SME sends back the requested stats using the callback
\param periodicity - If requester needs periodic update, 0 means it's an one
time request
\param cache - If requester is happy with cached stats
\param staId - The station ID for which the stats is requested for
\param pContext - user context to be passed back along with the callback
\return eHalStatus
---------------------------------------------------------------------------*/
eHalStatus csrGetStatistics(tpAniSirGlobal pMac, eCsrStatsRequesterType requesterId,
tANI_U32 statsMask,
tCsrStatsCallback callback,
tANI_U32 periodicity, tANI_BOOLEAN cache,
tANI_U8 staId, void *pContext);
/* ---------------------------------------------------------------------------
\fn csrGetTLSTAState
\helper function to get the TL STA State whenever the function is called.
\param staId - The staID to be passed to the TL
to get the relevant TL STA State
\return the state as tANI_U16
---------------------------------------------------------------------------*/
tANI_U16 csrGetTLSTAState(tpAniSirGlobal pMac, tANI_U8 staId);
eHalStatus csrGetRssi(tpAniSirGlobal pMac,tCsrRssiCallback callback,tANI_U8 staId,tCsrBssid bssId,void * pContext,void * pVosContext);
/* ---------------------------------------------------------------------------
\fn csrGetSnr
\brief csr function that client calls to register a callback to get
SNR stored in TL
\param callback - SME sends back the requested stats using the callback
\param staId - The station ID for which the stats is requested for
\param bssid - The bssid for the connected session
\param pContext - user context to be passed back along with the callback
\return eHalStatus
---------------------------------------------------------------------------*/
eHalStatus csrGetSnr(tpAniSirGlobal pMac, tCsrSnrCallback callback,
tANI_U8 staId, tCsrBssid bssId, void *pContext);
#if defined WLAN_FEATURE_VOWIFI_11R || defined FEATURE_WLAN_ESE || defined(FEATURE_WLAN_LFR)
eHalStatus csrGetRoamRssi(tpAniSirGlobal pMac,
tCsrRssiCallback callback,
tANI_U8 staId,
tCsrBssid bssId,
void * pContext,
void * pVosContext);
#endif
#if defined(FEATURE_WLAN_ESE) && defined(FEATURE_WLAN_ESE_UPLOAD)
eHalStatus csrGetTsmStats(tpAniSirGlobal pMac, tCsrTsmStatsCallback callback, tANI_U8 staId,
tCsrBssid bssId, void *pContext, void* pVosContext,
tANI_U8 tid);
#endif /* FEATURE_WLAN_ESE && FEATURE_WLAN_ESE_UPLOAD */
eHalStatus csrRoamRegisterCallback(tpAniSirGlobal pMac, csrRoamCompleteCallback callback, void *pContext);
/* ---------------------------------------------------------------------------
\fn csrGetConfigParam
\brief HDD calls this function to get the global settings currently maintained by CSR.
\param pParam - caller allocated memory
\return eHalStatus
-------------------------------------------------------------------------------*/
eHalStatus csrGetConfigParam(tpAniSirGlobal pMac, tCsrConfigParam *pParam);
/* ---------------------------------------------------------------------------
\fn csrMsgProcessor
\brief HDD calls this function to change some global settings.
caller must set the all fields or call csrGetConfigParam to prefill the fields.
\param pParam - caller allocated memory
\return eHalStatus
-------------------------------------------------------------------------------*/
eHalStatus csrChangeDefaultConfigParam(tpAniSirGlobal pMac, tCsrConfigParam *pParam);
/* ---------------------------------------------------------------------------
\fn csrMsgProcessor
\brief HDD calls this function for the messages that are handled by CSR.
\param pMsgBuf - a pointer to a buffer that maps to various structures base on the message type.
The beginning of the buffer can always map to tSirSmeRsp.
\return eHalStatus
-------------------------------------------------------------------------------*/
eHalStatus csrMsgProcessor( tpAniSirGlobal pMac, void *pMsgBuf );
/* ---------------------------------------------------------------------------
\fn csrOpen
\brief This function must be called before any API call to CSR.
\return eHalStatus
-------------------------------------------------------------------------------*/
eHalStatus csrOpen(tpAniSirGlobal pMac);
/* ---------------------------------------------------------------------------
\fn csrInitChannels
\brief This function must be called to initialize CSR channel lists
\return eHalStatus
-------------------------------------------------------------------------------*/
eHalStatus csrInitChannels(tpAniSirGlobal pMac);
#ifdef CONFIG_ENABLE_LINUX_REG
/* ---------------------------------------------------------------------------
\fn csrInitChannelsForCC
\brief This function must be called to issue reg hint
\return eHalStatus
-------------------------------------------------------------------------------*/
eHalStatus csrInitChannelsForCC(tpAniSirGlobal pMac, driver_load_type init );
#endif
/* ---------------------------------------------------------------------------
\fn csrClose
\brief To close down CSR module. There should not be any API call into CSR after calling this function.
\return eHalStatus
-------------------------------------------------------------------------------*/
eHalStatus csrClose(tpAniSirGlobal pMac);
/* ---------------------------------------------------------------------------
\fn csrStart
\brief To start CSR.
\return eHalStatus
-------------------------------------------------------------------------------*/
eHalStatus csrStart(tpAniSirGlobal pMac);
/* ---------------------------------------------------------------------------
\fn csrStop
\brief To stop CSR. CSR still keeps its current setting.
\return eHalStatus
-------------------------------------------------------------------------------*/
eHalStatus csrStop(tpAniSirGlobal pMac, tHalStopType stopType);
/* ---------------------------------------------------------------------------
\fn csrReady
\brief To let CSR is ready to operate
\return eHalStatus
-------------------------------------------------------------------------------*/
eHalStatus csrReady(tpAniSirGlobal pMac);
#ifdef FEATURE_WLAN_WAPI
eHalStatus csrRoamGetBKIDCache(tpAniSirGlobal pMac, tANI_U32 sessionId, tANI_U32 *pNum,
tBkidCacheInfo *pBkidCache);
eHalStatus csrScanGetBKIDCandidateList(tpAniSirGlobal pMac, tANI_U32 sessionId,
tBkidCandidateInfo *pBkidList, tANI_U32 *pNumItems );
tANI_U32 csrRoamGetNumBKIDCache(tpAniSirGlobal pMac, tANI_U32 sessionId);
eHalStatus csrRoamSetBKIDCache( tpAniSirGlobal pMac, tANI_U32 sessionId, tBkidCacheInfo *pBKIDCache,
tANI_U32 numItems );
/* ---------------------------------------------------------------------------
\fn csrRoamGetWapiReqIE
\brief return the WAPI IE CSR passes to PE to JOIN request or START_BSS request
\param pLen - caller allocated memory that has the length of pBuf as input. Upon returned, *pLen has the
needed or IE length in pBuf.
\param pBuf - Caller allocated memory that contain the IE field, if any, upon return
\return eHalStatus - when fail, it usually means the buffer allocated is not big enough
-------------------------------------------------------------------------------*/
eHalStatus csrRoamGetWapiReqIE(tpAniSirGlobal pMac, tANI_U32 sessionId, tANI_U32 *pLen, tANI_U8 *pBuf);
/* ---------------------------------------------------------------------------
\fn csrRoamGetWapiRspIE
\brief return the WAPI IE from the beacon or probe rsp if connected
\param pLen - caller allocated memory that has the length of pBuf as input. Upon returned, *pLen has the
needed or IE length in pBuf.
\param pBuf - Caller allocated memory that contain the IE field, if any, upon return
\return eHalStatus - when fail, it usually means the buffer allocated is not big enough
-------------------------------------------------------------------------------*/
eHalStatus csrRoamGetWapiRspIE(tpAniSirGlobal pMac, tANI_U32 sessionId, tANI_U32 *pLen, tANI_U8 *pBuf);
tANI_U8 csrConstructWapiIe( tpAniSirGlobal pMac, tANI_U32 sessionId, tCsrRoamProfile *pProfile,
tSirBssDescription *pSirBssDesc, tDot11fBeaconIEs *pIes, tCsrWapiIe *pWapiIe );
#endif /* FEATURE_WLAN_WAPI */
eHalStatus csrRoamUpdateAPWPSIE( tpAniSirGlobal pMac, tANI_U32 sessionId, tSirAPWPSIEs *pAPWPSIES );
eHalStatus csrRoamUpdateWPARSNIEs( tpAniSirGlobal pMac, tANI_U32 sessionId, tSirRSNie * pAPSirRSNie);
void csrSetCfgPrivacy( tpAniSirGlobal pMac, tCsrRoamProfile *pProfile, tANI_BOOLEAN fPrivacy );
tANI_S8 csrGetInfraSessionId( tpAniSirGlobal pMac );
tANI_U8 csrGetInfraOperationChannel( tpAniSirGlobal pMac, tANI_U8 sessionId);
tANI_BOOLEAN csrIsSessionClientAndConnected(tpAniSirGlobal pMac, tANI_U8 sessionId);
tANI_U8 csrGetConcurrentOperationChannel( tpAniSirGlobal pMac );
eHalStatus csrRoamCopyConnectProfile(tpAniSirGlobal pMac, tANI_U32 sessionId,
tCsrRoamConnectedProfile *pProfile);
tANI_BOOLEAN csrIsSetKeyAllowed(tpAniSirGlobal pMac, tANI_U32 sessionId);
void csrSetOppositeBandChannelInfo( tpAniSirGlobal pMac );
void csrConstructCurrentValidChannelList( tpAniSirGlobal pMac, tDblLinkList *pChannelSetList,
tANI_U8 *pChannelList, tANI_U8 bSize, tANI_U8 *pNumChannels );
#ifdef FEATURE_WLAN_SCAN_PNO
eHalStatus csrScanSavePreferredNetworkFound(tpAniSirGlobal pMac,
tSirPrefNetworkFoundInd *pPrefNetworkFoundInd);
#endif //FEATURE_WLAN_SCAN_PNO
#endif
#ifdef WLAN_FEATURE_VOWIFI_11R
//Returns whether the current association is a 11r assoc or not
tANI_BOOLEAN csrRoamIs11rAssoc(tpAniSirGlobal pMac);
#endif
#ifdef FEATURE_WLAN_ESE
//Returns whether the current association is a ESE assoc or not
tANI_BOOLEAN csrRoamIsESEAssoc(tpAniSirGlobal pMac);
tANI_BOOLEAN csrRoamIsEseIniFeatureEnabled(tpAniSirGlobal pMac);
tANI_BOOLEAN csrNeighborRoamIsESEAssoc(tpAniSirGlobal pMac);
#endif
//Remove this code once SLM_Sessionization is supported
//BMPS_WORKAROUND_NOT_NEEDED
void csrDisconnectAllActiveSessions(tpAniSirGlobal pMac);
#ifdef FEATURE_WLAN_LFR
//Returns whether "Legacy Fast Roaming" is enabled...or not
tANI_BOOLEAN csrRoamIsFastRoamEnabled(tpAniSirGlobal pMac, tANI_U32 sessionId);
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
tANI_BOOLEAN csrRoamIsRoamOffloadScanEnabled(tpAniSirGlobal pMac);
#endif
tANI_BOOLEAN csrIsChannelPresentInList( tANI_U8 *pChannelList, int numChannels, tANI_U8 channel );
VOS_STATUS csrAddToChannelListFront( tANI_U8 *pChannelList, int numChannels, tANI_U8 channel );
#ifdef WLAN_FEATURE_ROAM_SCAN_OFFLOAD
eHalStatus csrScanRequestLfrResult(tpAniSirGlobal pMac, tANI_U32 sessionId,
csrScanCompleteCallback callback, void *pContext);
eHalStatus csrRoamOffloadScanRspHdlr(tpAniSirGlobal pMac, tANI_U8 reason);
eHalStatus csrHandoffRequest(tpAniSirGlobal pMac, tCsrHandoffRequest *pHandoffInfo);
#endif
tANI_BOOLEAN csrRoamIsStaMode(tpAniSirGlobal pMac, tANI_U32 sessionId);
#endif
void csrDisableDfsChannel(tpAniSirGlobal pMac);
#ifdef WLAN_FEATURE_RMC
eHalStatus csrEnableRMC(tpAniSirGlobal pMac, tANI_U32 sessionId);
eHalStatus csrDisableRMC(tpAniSirGlobal pMac, tANI_U32 sessionId);
#endif /* WLAN_FEATURE_RMC */
eHalStatus csrRoamStopNetwork(tpAniSirGlobal pMac, tANI_U32 sessionId,
tCsrRoamProfile *pProfile, tSirBssDescription *pBssDesc,
tDot11fBeaconIEs *pIes);
eHalStatus csrRoamSaveSecurityRspIE(tpAniSirGlobal pMac,
tANI_U32 sessionId, eCsrAuthType authType,
tSirBssDescription *pSirBssDesc,
tDot11fBeaconIEs *pIes);
void csrRoamSubstateChange(tpAniSirGlobal pMac,
eCsrRoamSubState NewSubstate, tANI_U32 sessionId);
eHalStatus csrRoamFreeConnectedInfo(tpAniSirGlobal pMac,
tCsrRoamConnectedInfo *pConnectedInfo);