Gitiles
Code Review Sign In
gerrit-public.fairphone.software / platform / vendor / qcom-opensource / wlan / qcacld-3.0 / 4f20b67e7a9fe3f6c6de7569db5dfa2ea8c4cff2 / . / core / sme / inc / sme_api.h
blob: 81aef589371586c7699cdc58326873ac74fe7ee3 [file] [log] [blame]
/*
* Copyright (c) 2012-2018 The Linux Foundation. All rights reserved.
*
* 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.
*/
#if !defined(__SME_API_H)
#define __SME_API_H
/**
* file smeApi.h
*
* brief prototype for SME APIs
*/
/*--------------------------------------------------------------------------
Include Files
------------------------------------------------------------------------*/
#include "csr_api.h"
#include "qdf_lock.h"
#include "qdf_types.h"
#include "sir_api.h"
#include "cds_regdomain.h"
#include "sme_internal.h"
#include "wma_tgt_cfg.h"
#include "wma_fips_public_structs.h"
#include "wma_sar_public_structs.h"
#include "sme_rrm_internal.h"
#include "sir_types.h"
#include "scheduler_api.h"
#include "wlan_serialization_legacy_api.h"
/*--------------------------------------------------------------------------
Preprocessor definitions and constants
------------------------------------------------------------------------*/
#define SME_SUMMARY_STATS (1 << eCsrSummaryStats)
#define SME_GLOBAL_CLASSA_STATS (1 << eCsrGlobalClassAStats)
#define SME_GLOBAL_CLASSD_STATS (1 << eCsrGlobalClassDStats)
#define SME_PER_CHAIN_RSSI_STATS (1 << csr_per_chain_rssi_stats)
#define sme_alert(params...) QDF_TRACE_FATAL(QDF_MODULE_ID_SME, params)
#define sme_err(params...) QDF_TRACE_ERROR(QDF_MODULE_ID_SME, params)
#define sme_warn(params...) QDF_TRACE_WARN(QDF_MODULE_ID_SME, params)
#define sme_info(params...) QDF_TRACE_INFO(QDF_MODULE_ID_SME, params)
#define sme_debug(params...) QDF_TRACE_DEBUG(QDF_MODULE_ID_SME, params)
#define sme_nofl_alert(params...) \
QDF_TRACE_FATAL_NO_FL(QDF_MODULE_ID_SME, params)
#define sme_nofl_err(params...) \
QDF_TRACE_ERROR_NO_FL(QDF_MODULE_ID_SME, params)
#define sme_nofl_warn(params...) \
QDF_TRACE_WARN_NO_FL(QDF_MODULE_ID_SME, params)
#define sme_nofl_info(params...) \
QDF_TRACE_INFO_NO_FL(QDF_MODULE_ID_SME, params)
#define sme_nofl_debug(params...) \
QDF_TRACE_DEBUG_NO_FL(QDF_MODULE_ID_SME, params)
#define sme_alert_rl(params...) QDF_TRACE_FATAL_RL(QDF_MODULE_ID_SME, params)
#define sme_err_rl(params...) QDF_TRACE_ERROR_RL(QDF_MODULE_ID_SME, params)
#define sme_warn_rl(params...) QDF_TRACE_WARN_RL(QDF_MODULE_ID_SME, params)
#define sme_info_rl(params...) QDF_TRACE_INFO_RL(QDF_MODULE_ID_SME, params)
#define sme_debug_rl(params...) QDF_TRACE_DEBUG_RL(QDF_MODULE_ID_SME, params)
#define SME_ENTER() QDF_TRACE_ENTER(QDF_MODULE_ID_SME, "enter")
#define SME_EXIT() QDF_TRACE_EXIT(QDF_MODULE_ID_SME, "exit")
#define SME_SESSION_ID_ANY 50
#define SME_SESSION_ID_BROADCAST 0xFF
#define SME_INVALID_COUNTRY_CODE "XX"
#define INVALID_ROAM_ID 0
#define SME_SET_CHANNEL_REG_POWER(reg_info_1, val) do { \
reg_info_1 &= 0xff00ffff; \
reg_info_1 |= ((val & 0xff) << 16); \
} while (0)
#define SME_SET_CHANNEL_MAX_TX_POWER(reg_info_2, val) do { \
reg_info_2 &= 0xffff00ff; \
reg_info_2 |= ((val & 0xff) << 8); \
} while (0)
#define SME_CONFIG_TO_ROAM_CONFIG 1
#define ROAM_CONFIG_TO_SME_CONFIG 2
#define NUM_OF_BANDS 2
#define SME_ACTIVE_LIST_CMD_TIMEOUT_VALUE (30*1000)
#define SME_CMD_TIMEOUT_VALUE (SME_ACTIVE_LIST_CMD_TIMEOUT_VALUE + 1000)
/*--------------------------------------------------------------------------
Type declarations
------------------------------------------------------------------------*/
typedef struct _smeConfigParams {
tCsrConfigParam csrConfig;
struct rrm_config_param rrmConfig;
bool snr_monitor_enabled;
} tSmeConfigParams, *tpSmeConfigParams;
#ifdef FEATURE_WLAN_TDLS
#define SME_TDLS_MAX_SUPP_CHANNELS 128
#define SME_TDLS_MAX_SUPP_OPER_CLASSES 32
typedef struct _smeTdlsPeerCapParams {
uint8_t isPeerResponder;
uint8_t peerUapsdQueue;
uint8_t peerMaxSp;
uint8_t peerBuffStaSupport;
uint8_t peerOffChanSupport;
uint8_t peerCurrOperClass;
uint8_t selfCurrOperClass;
uint8_t peerChanLen;
uint8_t peerChan[SME_TDLS_MAX_SUPP_CHANNELS];
uint8_t peerOperClassLen;
uint8_t peerOperClass[SME_TDLS_MAX_SUPP_OPER_CLASSES];
uint8_t prefOffChanNum;
uint8_t prefOffChanBandwidth;
uint8_t opClassForPrefOffChan;
} tSmeTdlsPeerCapParams;
/**
* eSmeTdlsPeerState - tdls peer state
* @eSME_TDLS_PEER_STATE_PEERING: tdls connection in progress
* @eSME_TDLS_PEER_STATE_CONNECTED: tdls peer is connected
* @eSME_TDLS_PEER_STATE_TEARDOWN: tdls peer is tear down
* @eSME_TDLS_PEER_ADD_MAC_ADDR: add peer mac into connection table
* @eSME_TDLS_PEER_REMOVE_MAC_ADDR: remove peer mac from connection table
*/
typedef enum {
eSME_TDLS_PEER_STATE_PEERING,
eSME_TDLS_PEER_STATE_CONNECTED,
eSME_TDLS_PEER_STATE_TEARDOWN,
eSME_TDLS_PEER_ADD_MAC_ADDR,
eSME_TDLS_PEER_REMOVE_MAC_ADDR,
} eSmeTdlsPeerState;
typedef struct _smeTdlsPeerStateParams {
uint32_t vdevId;
tSirMacAddr peerMacAddr;
uint32_t peerState;
tSmeTdlsPeerCapParams peerCap;
} tSmeTdlsPeerStateParams;
#define ENABLE_CHANSWITCH 1
#define DISABLE_CHANSWITCH 2
#define BW_20_OFFSET_BIT 0
#define BW_40_OFFSET_BIT 1
#define BW_80_OFFSET_BIT 2
#define BW_160_OFFSET_BIT 3
typedef struct sme_tdls_chan_switch_param_struct {
uint32_t vdev_id;
tSirMacAddr peer_mac_addr;
uint16_t tdls_off_ch_bw_offset;/* Target Off Channel Bandwidth offset */
uint8_t tdls_off_channel; /* Target Off Channel */
uint8_t tdls_off_ch_mode; /* TDLS Off Channel Mode */
uint8_t is_responder; /* is peer responder or initiator */
uint8_t opclass; /* tdls operating class */
} sme_tdls_chan_switch_params;
#endif /* FEATURE_WLAN_TDLS */
/* Thermal Mitigation*/
typedef struct {
uint16_t smeMinTempThreshold;
uint16_t smeMaxTempThreshold;
} tSmeThermalLevelInfo;
#define SME_MAX_THERMAL_LEVELS (4)
#define SME_MAX_THROTTLE_LEVELS (4)
typedef struct {
/* Array of thermal levels */
tSmeThermalLevelInfo smeThermalLevels[SME_MAX_THERMAL_LEVELS];
uint8_t smeThermalMgmtEnabled;
uint32_t smeThrottlePeriod;
uint8_t sme_throttle_duty_cycle_tbl[SME_MAX_THROTTLE_LEVELS];
} tSmeThermalParams;
typedef enum {
SME_AC_BK = 0,
SME_AC_BE = 1,
SME_AC_VI = 2,
SME_AC_VO = 3
} sme_ac_enum_type;
/*
* Enumeration of the various TSPEC directions
* From 802.11e/WMM specifications
*/
enum sme_qos_wmm_dir_type {
SME_QOS_WMM_TS_DIR_UPLINK = 0,
SME_QOS_WMM_TS_DIR_DOWNLINK = 1,
SME_QOS_WMM_TS_DIR_RESV = 2, /* Reserved */
SME_QOS_WMM_TS_DIR_BOTH = 3,
};
/**
* struct sme_oem_capability - OEM capability to be exchanged between host
* and userspace
* @ftm_rr: FTM range report capability bit
* @lci_capability: LCI capability bit
* @reserved1: reserved
* @reserved2: reserved
*/
struct sme_oem_capability {
uint32_t ftm_rr:1;
uint32_t lci_capability:1;
uint32_t reserved1:30;
uint32_t reserved2;
};
/**
* struct sme_5g_pref_params : 5G preference params to be read from ini
* @rssi_boost_threshold_5g: RSSI threshold above which 5 GHz is favored
* @rssi_boost_factor_5g: Factor by which 5GHz RSSI is boosted
* @max_rssi_boost_5g: Maximum boost that can be applied to 5GHz RSSI
* @rssi_penalize_threshold_5g: RSSI threshold below which 5G is not favored
* @rssi_penalize_factor_5g: Factor by which 5GHz RSSI is penalized
* @max_rssi_penalize_5g: Maximum penalty that can be applied to 5G RSSI
*/
struct sme_5g_band_pref_params {
int8_t rssi_boost_threshold_5g;
uint8_t rssi_boost_factor_5g;
uint8_t max_rssi_boost_5g;
int8_t rssi_penalize_threshold_5g;
uint8_t rssi_penalize_factor_5g;
uint8_t max_rssi_penalize_5g;
};
/**
* struct sme_session_params: Session creation params passed by HDD layer
* @session_open_cb: callback to be registered with SME for opening the session
* @session_close_cb: callback to be registered with SME for closing the session
* @callback: callback to be invoked for roaming events
* @callback_ctx: user-supplied context to be passed back on roaming events
* @self_mac_addr: Self mac address
* @sme_session_id: SME session id
* @type_of_persona: person type
* @subtype_of_persona: sub type of persona
*/
struct sme_session_params {
csr_session_open_cb session_open_cb;
csr_session_close_cb session_close_cb;
csr_roam_complete_cb callback;
void *callback_ctx;
uint8_t *self_mac_addr;
uint8_t sme_session_id;
uint32_t type_of_persona;
uint32_t subtype_of_persona;
};
#define MAX_CANDIDATE_INFO 10
/**
* struct bss_candidate_info - Candidate bss information
*
* @bssid : BSSID of candidate bss
* @status : status code for candidate bss
*/
struct bss_candidate_info {
struct qdf_mac_addr bssid;
uint32_t status;
};
/*
* MBO transition reason codes
*/
enum {
MBO_TRANSITION_REASON_UNSPECIFIED,
MBO_TRANSITION_REASON_EXCESSIVE_FRAME_LOSS_RATE,
MBO_TRANSITION_REASON_EXCESSIVE_DELAY_FOR_CURRENT_TRAFFIC,
MBO_TRANSITION_REASON_INSUFFICIENT_BANDWIDTH_FOR_CURRENT_TRAFFIC,
MBO_TRANSITION_REASON_LOAD_BALANCING,
MBO_TRANSITION_REASON_LOW_RSSI,
MBO_TRANSITION_REASON_RECEIVED_EXCESSIVE_RETRANSMISSIONS,
MBO_TRANSITION_REASON_HIGH_INTERFERENCE,
MBO_TRANSITION_REASON_GRAY_ZONE,
MBO_TRANSITION_REASON_TRANSITIONING_TO_PREMIUM_AP,
};
/*-------------------------------------------------------------------------
Function declarations and documenation
------------------------------------------------------------------------*/
QDF_STATUS sme_open(tHalHandle hHal);
QDF_STATUS sme_init_chan_list(tHalHandle hal, uint8_t *alpha2,
enum country_src cc_src);
QDF_STATUS sme_close(tHalHandle hHal);
QDF_STATUS sme_start(tHalHandle hHal);
/**
* sme_stop() - Stop all SME modules and put them at idle state
* @mac_handle: Opaque handle to the MAC context
*
* The function stops each module in SME. Upon return, all modules are
* at idle state ready to start.
*
* This is a synchronous call
*
* Return: QDF_STATUS_SUCCESS if SME is stopped. Other status means
* SME failed to stop one or more modules but caller should
* still consider SME is stopped.
*/
QDF_STATUS sme_stop(mac_handle_t mac_handle);
/*
* sme_open_session() - Open a session for given persona
*
* This is a synchronous API. For any protocol stack related activity
* requires session to be opened. This API needs to be called to open
* the session in SME module.
*
* hal: The handle returned by mac_open.
* params: to initialize the session open params
*
* Return:
* QDF_STATUS_SUCCESS - session is opened.
* Other status means SME is failed to open the session.
*/
QDF_STATUS sme_open_session(tHalHandle hal, struct sme_session_params *params);
/*
* sme_close_session() - Close a session for given persona
*
* This is a synchronous API. This API needs to be called to close the session
* in SME module before terminating the session completely.
*
* hal: The handle returned by mac_open.
* session_id: A previous opened session's ID.
*
* Return:
* QDF_STATUS_SUCCESS - session is closed.
* Other status means SME is failed to open the session.
*/
QDF_STATUS sme_close_session(tHalHandle hal, uint8_t sessionId);
void sme_set_curr_device_mode(tHalHandle hHal,
enum QDF_OPMODE currDeviceMode);
QDF_STATUS sme_update_roam_params(tHalHandle hHal, uint8_t session_id,
struct roam_ext_params *roam_params_src, int update_param);
QDF_STATUS sme_update_config(tHalHandle hHal,
tpSmeConfigParams pSmeConfigParams);
QDF_STATUS sme_set11dinfo(tHalHandle hHal, tpSmeConfigParams pSmeConfigParams);
QDF_STATUS sme_get_soft_ap_domain(tHalHandle hHal,
v_REGDOMAIN_t *domainIdSoftAp);
QDF_STATUS sme_hdd_ready_ind(tHalHandle hHal);
/**
* sme_ser_cmd_callback() - callback from serialization module
* @buf: serialization command buffer
* @reason: reason why serialization module has given this callback
*
* Serialization module will give callback to SME for why it triggered
* the callback
*
* Return: QDF_STATUS_SUCCESS
*/
QDF_STATUS sme_ser_cmd_callback(void *buf,
enum wlan_serialization_cb_reason reason);
/*
* sme_process_msg() - The main message processor for SME.
* @mac: The global mac context
* @msg: The message to be processed.
*
* This function is called by a message dispatcher when to process a message
* targeted for SME.
* This is a synchronous call
*
* Return: QDF_STATUS_SUCCESS - SME successfully processed the message.
* Other status means SME failed to process the message to HAL.
*/
QDF_STATUS sme_process_msg(tpAniSirGlobal pMac, struct scheduler_msg *pMsg);
QDF_STATUS sme_mc_process_handler(struct scheduler_msg *msg);
QDF_STATUS sme_scan_get_result(tHalHandle hHal, uint8_t sessionId,
tCsrScanResultFilter *pFilter,
tScanResultHandle *phResult);
QDF_STATUS sme_get_ap_channel_from_scan_cache(
struct csr_roam_profile *profile,
tScanResultHandle *scan_cache,
uint8_t *ap_chnl_id);
QDF_STATUS sme_get_ap_channel_from_scan(void *profile,
tScanResultHandle *scan_cache,
uint8_t *ap_chnl_id);
bool sme_store_joinreq_param(tHalHandle hal_handle,
struct csr_roam_profile *profile,
tScanResultHandle scan_cache,
uint32_t *roam_id,
uint32_t session_id);
bool sme_clear_joinreq_param(tHalHandle hal_handle,
uint32_t session_id);
QDF_STATUS sme_issue_stored_joinreq(tHalHandle hal_handle,
uint32_t *roam_id,
uint32_t session_id);
QDF_STATUS sme_scan_flush_result(tHalHandle hHal);
QDF_STATUS sme_filter_scan_results(tHalHandle hHal, uint8_t sessionId);
QDF_STATUS sme_scan_flush_p2p_result(tHalHandle hHal, uint8_t sessionId);
tCsrScanResultInfo *sme_scan_result_get_first(tHalHandle,
tScanResultHandle hScanResult);
tCsrScanResultInfo *sme_scan_result_get_next(tHalHandle,
tScanResultHandle hScanResult);
QDF_STATUS sme_scan_result_purge(tScanResultHandle hScanResult);
QDF_STATUS sme_roam_connect(tHalHandle hHal, uint8_t sessionId,
struct csr_roam_profile *pProfile, uint32_t *pRoamId);
QDF_STATUS sme_roam_reassoc(tHalHandle hHal, uint8_t sessionId,
struct csr_roam_profile *pProfile,
tCsrRoamModifyProfileFields modProfileFields,
uint32_t *pRoamId, bool fForce);
QDF_STATUS sme_roam_connect_to_last_profile(tHalHandle hHal, uint8_t sessionId);
/**
* sme_roam_disconnect() - API to request CSR to disconnect
* @hal: HAL context
* @session: SME session identifier
* @reason: Reason to disconnect
*
* Return: QDF Status success or failure
*/
QDF_STATUS sme_roam_disconnect(tHalHandle hal, uint8_t session,
eCsrRoamDisconnectReason reason);
void sme_dhcp_done_ind(tHalHandle hal, uint8_t session_id);
QDF_STATUS sme_roam_stop_bss(tHalHandle hHal, uint8_t sessionId);
QDF_STATUS sme_roam_get_associated_stas(tHalHandle hHal, uint8_t sessionId,
QDF_MODULE_ID modId, void *pUsrContext,
void *pfnSapEventCallback,
uint8_t *pAssocStasBuf);
QDF_STATUS sme_roam_disconnect_sta(tHalHandle hHal, uint8_t sessionId,
struct csr_del_sta_params *p_del_sta_params);
QDF_STATUS sme_roam_deauth_sta(tHalHandle hHal, uint8_t sessionId,
struct csr_del_sta_params *pDelStaParams);
QDF_STATUS sme_roam_get_connect_state(tHalHandle hHal, uint8_t sessionId,
eCsrConnectState *pState);
QDF_STATUS sme_roam_get_connect_profile(tHalHandle hHal, uint8_t sessionId,
tCsrRoamConnectedProfile *pProfile);
void sme_roam_free_connect_profile(tCsrRoamConnectedProfile *profile);
QDF_STATUS sme_roam_set_pmkid_cache(tHalHandle hHal, uint8_t sessionId,
tPmkidCacheInfo *pPMKIDCache,
uint32_t numItems,
bool update_entire_cache);
#ifdef WLAN_FEATURE_ROAM_OFFLOAD
/**
* sme_get_pmk_info(): A wrapper function to request CSR to save PMK
* @hal: Global structure
* @session_id: SME session_id
* @pmk_cache: pointer to a structure of pmk
*
* Return: none
*/
void sme_get_pmk_info(tHalHandle hal, uint8_t session_id,
tPmkidCacheInfo *pmk_cache);
QDF_STATUS sme_roam_set_psk_pmk(tHalHandle hHal, uint8_t sessionId,
uint8_t *pPSK_PMK, size_t pmk_len);
#endif
/**
* sme_roam_get_wpa_rsn_req_ie() - Retrieve WPA/RSN Request IE
* @hal: HAL handle
* @session_id: ID of the specific session
* @len: Caller allocated memory that has the length of @buf as input.
* Upon returned, @len has the length of the IE store in @buf
* @buf: Caller allocated memory that contain the IE field, if any,
* upon return
*
* A wrapper function to request CSR to return the WPA or RSN IE CSR
* passes to PE to JOIN request or START_BSS request
* This is a synchronous call.
*
* Return: QDF_STATUS - when fail, it usually means the buffer allocated is not
* big enough
*/
QDF_STATUS sme_roam_get_wpa_rsn_req_ie(tHalHandle hal, uint8_t session_id,
uint32_t *len, uint8_t *buf);
/**
* sme_roam_get_wpa_rsn_rsp_ie() - Retrieve WPA/RSN Response IE
* @hal: HAL handle
* @session_id: ID of the specific session
* @len: Caller allocated memory that has the length of @buf as input.
* Upon returned, @len has the length of the IE store in @buf
* @buf: Caller allocated memory that contain the IE field, if any,
* upon return
*
* A wrapper function to request CSR to return the WPA or RSN IE CSR
* passes to PE to JOIN request or START_BSS request
* This is a synchronous call.
*
* Return: QDF_STATUS - when fail, it usually means the buffer allocated is not
* big enough
*/
QDF_STATUS sme_roam_get_wpa_rsn_rsp_ie(tHalHandle hal, uint8_t session_id,
uint32_t *len, uint8_t *buf);
uint32_t sme_roam_get_num_pmkid_cache(tHalHandle hHal, uint8_t sessionId);
QDF_STATUS sme_roam_get_pmkid_cache(tHalHandle hHal, uint8_t sessionId,
uint32_t *pNum,
tPmkidCacheInfo *pPmkidCache);
QDF_STATUS sme_get_config_param(tHalHandle hHal, tSmeConfigParams *pParam);
#ifndef QCA_SUPPORT_CP_STATS
QDF_STATUS sme_get_statistics(tHalHandle hHal,
eCsrStatsRequesterType requesterId,
uint32_t statsMask, tCsrStatsCallback callback,
uint8_t staId, void *pContext, uint8_t sessionId);
#endif
QDF_STATUS sme_get_rssi(tHalHandle hHal,
tCsrRssiCallback callback,
uint8_t staId, struct qdf_mac_addr bssId, int8_t lastRSSI,
void *pContext);
QDF_STATUS sme_get_snr(tHalHandle hHal,
tCsrSnrCallback callback,
uint8_t staId, struct qdf_mac_addr bssId, void *pContext);
#ifdef FEATURE_WLAN_ESE
QDF_STATUS sme_get_tsm_stats(tHalHandle hHal,
tCsrTsmStatsCallback callback,
uint8_t staId, struct qdf_mac_addr bssId,
void *pContext, uint8_t tid);
QDF_STATUS sme_set_cckm_ie(tHalHandle hHal,
uint8_t sessionId,
uint8_t *pCckmIe, uint8_t cckmIeLen);
QDF_STATUS sme_set_ese_beacon_request(tHalHandle hHal, const uint8_t sessionId,
const tCsrEseBeaconReq *pEseBcnReq);
QDF_STATUS sme_set_plm_request(tHalHandle hHal, tpSirPlmReq pPlm);
#endif /*FEATURE_WLAN_ESE */
QDF_STATUS sme_cfg_set_int(tHalHandle hal, uint16_t cfg_id, uint32_t value);
QDF_STATUS sme_cfg_set_str(tHalHandle hal, uint16_t cfg_id, uint8_t *str,
uint32_t length);
QDF_STATUS sme_cfg_get_int(tHalHandle hal, uint16_t cfg_id,
uint32_t *cfg_value);
QDF_STATUS sme_cfg_get_str(tHalHandle hal, uint16_t cfg_id, uint8_t *str,
uint32_t *length);
QDF_STATUS sme_get_modify_profile_fields(tHalHandle hHal, uint8_t sessionId,
tCsrRoamModifyProfileFields *
pModifyProfileFields);
extern QDF_STATUS sme_set_host_power_save(tHalHandle hHal, bool psMode);
void sme_set_dhcp_till_power_active_flag(tHalHandle hHal, uint8_t flag);
#ifdef FEATURE_OEM_DATA_SUPPORT
extern QDF_STATUS sme_register_oem_data_rsp_callback(tHalHandle h_hal,
sme_send_oem_data_rsp_msg callback);
void sme_deregister_oem_data_rsp_callback(tHalHandle h_hal);
#else
static inline QDF_STATUS sme_register_oem_data_rsp_callback(tHalHandle hal,
void *callback)
{
return QDF_STATUS_SUCCESS;
}
static inline void sme_deregister_oem_data_rsp_callback(tHalHandle h_hal)
{
}
#endif
QDF_STATUS sme_roam_set_key(tHalHandle, uint8_t sessionId,
tCsrRoamSetKey *pSetKey, uint32_t *pRoamId);
QDF_STATUS sme_get_country_code(tHalHandle hHal, uint8_t *pBuf, uint8_t *pbLen);
/* some support functions */
bool sme_is11d_supported(tHalHandle hHal);
bool sme_is11h_supported(tHalHandle hHal);
bool sme_is_wmm_supported(tHalHandle hHal);
QDF_STATUS sme_generic_change_country_code(tHalHandle hHal,
uint8_t *pCountry);
/**
* sme_update_channel_list() - Update configured channel list to fwr
* This is a synchronous API.
* @hal: HAL handle returned by mac_open.
*
* Return: QDF_STATUS SUCCESS.
* FAILURE or RESOURCES The API finished and failed.
*/
QDF_STATUS sme_update_channel_list(tHalHandle hal);
QDF_STATUS sme_tx_fail_monitor_start_stop_ind(tHalHandle hHal,
uint8_t tx_fail_count,
void *txFailIndCallback);
QDF_STATUS sme_dhcp_start_ind(tHalHandle hHal,
uint8_t device_mode,
uint8_t *macAddr, uint8_t sessionId);
QDF_STATUS sme_dhcp_stop_ind(tHalHandle hHal,
uint8_t device_mode,
uint8_t *macAddr, uint8_t sessionId);
void sme_get_recovery_stats(tHalHandle hHal);
QDF_STATUS sme_neighbor_report_request(tHalHandle hHal, uint8_t sessionId,
tpRrmNeighborReq pRrmNeighborReq,
tpRrmNeighborRspCallbackInfo callbackInfo);
QDF_STATUS sme_get_wcnss_wlan_compiled_version(tHalHandle hHal,
tSirVersionType * pVersion);
QDF_STATUS sme_get_wcnss_wlan_reported_version(tHalHandle hHal,
tSirVersionType *pVersion);
QDF_STATUS sme_get_wcnss_software_version(tHalHandle hHal,
uint8_t *pVersion, uint32_t versionBufferSize);
QDF_STATUS sme_get_wcnss_hardware_version(tHalHandle hHal,
uint8_t *pVersion, uint32_t versionBufferSize);
#ifdef FEATURE_OEM_DATA_SUPPORT
QDF_STATUS sme_oem_data_req(tHalHandle hHal, struct oem_data_req *);
QDF_STATUS sme_oem_update_capability(tHalHandle hHal,
struct sme_oem_capability *cap);
QDF_STATUS sme_oem_get_capability(tHalHandle hHal,
struct sme_oem_capability *cap);
#endif /*FEATURE_OEM_DATA_SUPPORT */
QDF_STATUS sme_change_mcc_beacon_interval(uint8_t sessionId);
QDF_STATUS sme_set_host_offload(tHalHandle hHal, uint8_t sessionId,
tpSirHostOffloadReq pRequest);
QDF_STATUS sme_set_keep_alive(tHalHandle hHal, uint8_t sessionId,
tpSirKeepAliveReq pRequest);
QDF_STATUS sme_get_operation_channel(tHalHandle hHal, uint32_t *pChannel,
uint8_t sessionId);
QDF_STATUS sme_register_mgmt_frame(tHalHandle hHal, uint8_t sessionId,
uint16_t frameType, uint8_t *matchData,
uint16_t matchLen);
QDF_STATUS sme_deregister_mgmt_frame(tHalHandle hHal, uint8_t sessionId,
uint16_t frameType, uint8_t *matchData,
uint16_t matchLen);
QDF_STATUS sme_ConfigureAppsCpuWakeupState(tHalHandle hHal, bool isAppsAwake);
#ifdef WLAN_FEATURE_EXTWOW_SUPPORT
QDF_STATUS sme_configure_ext_wow(tHalHandle hHal,
tpSirExtWoWParams wlanExtParams,
csr_readyToSuspendCallback callback,
void *callbackContext);
QDF_STATUS sme_configure_app_type1_params(tHalHandle hHal,
tpSirAppType1Params wlanAppType1Params);
QDF_STATUS sme_configure_app_type2_params(tHalHandle hHal,
tpSirAppType2Params wlanAppType2Params);
#endif
int8_t sme_get_infra_session_id(tHalHandle hHal);
uint8_t sme_get_infra_operation_channel(tHalHandle hHal, uint8_t sessionId);
uint8_t sme_get_concurrent_operation_channel(tHalHandle hHal);
#ifdef FEATURE_WLAN_MCC_TO_SCC_SWITCH
uint16_t sme_check_concurrent_channel_overlap(tHalHandle hHal, uint16_t sap_ch,
eCsrPhyMode sapPhyMode,
uint8_t cc_switch_mode);
#endif
QDF_STATUS sme_get_cfg_valid_channels(uint8_t *aValidChannels,
uint32_t *len);
#ifdef WLAN_FEATURE_PACKET_FILTERING
QDF_STATUS sme_8023_multicast_list(tHalHandle hHal, uint8_t sessionId,
tpSirRcvFltMcAddrList pMulticastAddrs);
#endif /* WLAN_FEATURE_PACKET_FILTERING */
bool sme_is_channel_valid(tHalHandle hHal, uint8_t channel);
QDF_STATUS sme_set_freq_band(tHalHandle hHal, uint8_t sessionId,
enum band_info eBand);
QDF_STATUS sme_get_freq_band(tHalHandle hHal, enum band_info *pBand);
uint16_t sme_chn_to_freq(uint8_t chanNum);
bool sme_is_channel_valid(tHalHandle hHal, uint8_t channel);
QDF_STATUS sme_set_max_tx_power(tHalHandle hHal, struct qdf_mac_addr pBssid,
struct qdf_mac_addr pSelfMacAddress, int8_t dB);
QDF_STATUS sme_set_max_tx_power_per_band(enum band_info band, int8_t db);
QDF_STATUS sme_set_tx_power(tHalHandle hHal, uint8_t sessionId,
struct qdf_mac_addr bssid,
enum QDF_OPMODE dev_mode, int power);
QDF_STATUS sme_set_custom_mac_addr(tSirMacAddr customMacAddr);
QDF_STATUS sme_hide_ssid(tHalHandle hHal, uint8_t sessionId,
uint8_t ssidHidden);
QDF_STATUS sme_set_tm_level(tHalHandle hHal, uint16_t newTMLevel,
uint16_t tmMode);
void sme_feature_caps_exchange(tHalHandle hHal);
void sme_disable_feature_capablity(uint8_t feature_index);
void sme_reset_power_values_for5_g(tHalHandle hHal);
QDF_STATUS sme_update_roam_prefer5_g_hz(tHalHandle hHal, bool nRoamPrefer5GHz);
QDF_STATUS sme_set_roam_intra_band(tHalHandle hHal, const bool nRoamIntraBand);
QDF_STATUS sme_update_roam_scan_n_probes(tHalHandle hHal, uint8_t sessionId,
const uint8_t nProbes);
QDF_STATUS sme_update_roam_scan_home_away_time(tHalHandle hHal,
uint8_t sessionId,
const uint16_t nRoamScanHomeAwayTime,
const bool bSendOffloadCmd);
bool sme_get_roam_intra_band(tHalHandle hHal);
uint8_t sme_get_roam_scan_n_probes(tHalHandle hHal);
uint16_t sme_get_roam_scan_home_away_time(tHalHandle hHal);
QDF_STATUS sme_update_roam_rssi_diff(tHalHandle hHal, uint8_t sessionId,
uint8_t RoamRssiDiff);
QDF_STATUS sme_update_fast_transition_enabled(tHalHandle hHal,
bool isFastTransitionEnabled);
QDF_STATUS sme_update_wes_mode(tHalHandle hHal, bool isWESModeEnabled,
uint8_t sessionId);
QDF_STATUS sme_set_roam_scan_control(tHalHandle hHal, uint8_t sessionId,
bool roamScanControl);
QDF_STATUS sme_update_is_fast_roam_ini_feature_enabled(tHalHandle hHal,
uint8_t sessionId,
const bool
isFastRoamIniFeatureEnabled);
QDF_STATUS sme_config_fast_roaming(tHalHandle hal, uint8_t session_id,
const bool is_fast_roam_enabled);
QDF_STATUS sme_update_is_mawc_ini_feature_enabled(tHalHandle hHal,
const bool MAWCEnabled);
QDF_STATUS sme_stop_roaming(tHalHandle hHal, uint8_t sessionId, uint8_t reason);
QDF_STATUS sme_start_roaming(tHalHandle hHal, uint8_t sessionId,
uint8_t reason);
QDF_STATUS sme_update_enable_fast_roam_in_concurrency(tHalHandle hHal,
bool bFastRoamInConIniFeatureEnabled);
#ifdef FEATURE_WLAN_ESE
QDF_STATUS sme_update_is_ese_feature_enabled(tHalHandle hHal, uint8_t sessionId,
const bool isEseIniFeatureEnabled);
#endif /* FEATURE_WLAN_ESE */
QDF_STATUS sme_set_roam_rescan_rssi_diff(tHalHandle hHal,
uint8_t sessionId,
const uint8_t nRoamRescanRssiDiff);
uint8_t sme_get_roam_rescan_rssi_diff(tHalHandle hHal);
QDF_STATUS sme_set_roam_opportunistic_scan_threshold_diff(tHalHandle hHal,
uint8_t sessionId,
const uint8_t nOpportunisticThresholdDiff);
uint8_t sme_get_roam_opportunistic_scan_threshold_diff(tHalHandle hHal);
QDF_STATUS sme_set_neighbor_lookup_rssi_threshold(tHalHandle hHal,
uint8_t sessionId, uint8_t neighborLookupRssiThreshold);
QDF_STATUS sme_set_delay_before_vdev_stop(tHalHandle hHal,
uint8_t sessionId, uint8_t delay_before_vdev_stop);
uint8_t sme_get_neighbor_lookup_rssi_threshold(tHalHandle hHal);
QDF_STATUS sme_set_neighbor_scan_refresh_period(tHalHandle hHal,
uint8_t sessionId, uint16_t neighborScanResultsRefreshPeriod);
uint16_t sme_get_neighbor_scan_refresh_period(tHalHandle hHal);
uint16_t sme_get_empty_scan_refresh_period(tHalHandle hHal);
QDF_STATUS sme_update_empty_scan_refresh_period(tHalHandle hHal,
uint8_t sessionId, uint16_t nEmptyScanRefreshPeriod);
QDF_STATUS sme_set_neighbor_scan_min_chan_time(tHalHandle hHal,
const uint16_t nNeighborScanMinChanTime,
uint8_t sessionId);
QDF_STATUS sme_set_neighbor_scan_max_chan_time(tHalHandle hHal,
uint8_t sessionId, const uint16_t nNeighborScanMaxChanTime);
uint16_t sme_get_neighbor_scan_min_chan_time(tHalHandle hHal,
uint8_t sessionId);
uint32_t sme_get_neighbor_roam_state(tHalHandle hHal, uint8_t sessionId);
uint32_t sme_get_current_roam_state(tHalHandle hHal, uint8_t sessionId);
uint32_t sme_get_current_roam_sub_state(tHalHandle hHal, uint8_t sessionId);
uint32_t sme_get_lim_sme_state(tHalHandle hHal);
uint32_t sme_get_lim_mlm_state(tHalHandle hHal);
bool sme_is_lim_session_valid(tHalHandle hHal, uint8_t sessionId);
uint32_t sme_get_lim_sme_session_state(tHalHandle hHal, uint8_t sessionId);
uint32_t sme_get_lim_mlm_session_state(tHalHandle hHal, uint8_t sessionId);
uint16_t sme_get_neighbor_scan_max_chan_time(tHalHandle hHal,
uint8_t sessionId);
QDF_STATUS sme_set_neighbor_scan_period(tHalHandle hHal, uint8_t sessionId,
const uint16_t nNeighborScanPeriod);
uint16_t sme_get_neighbor_scan_period(tHalHandle hHal, uint8_t sessionId);
QDF_STATUS sme_set_neighbor_scan_min_period(tHalHandle h_hal,
uint8_t session_id, const uint16_t neighbor_scan_min_period);
QDF_STATUS sme_set_roam_bmiss_first_bcnt(tHalHandle hHal,
uint8_t sessionId, const uint8_t nRoamBmissFirstBcnt);
uint8_t sme_get_roam_bmiss_first_bcnt(tHalHandle hHal);
QDF_STATUS sme_set_roam_bmiss_final_bcnt(tHalHandle hHal, uint8_t sessionId,
const uint8_t nRoamBmissFinalBcnt);
uint8_t sme_get_roam_bmiss_final_bcnt(tHalHandle hHal);
QDF_STATUS sme_set_roam_beacon_rssi_weight(tHalHandle hHal, uint8_t sessionId,
const uint8_t nRoamBeaconRssiWeight);
uint8_t sme_get_roam_beacon_rssi_weight(tHalHandle hHal);
uint8_t sme_get_roam_rssi_diff(tHalHandle hHal);
QDF_STATUS sme_change_roam_scan_channel_list(tHalHandle hHal, uint8_t sessionId,
uint8_t *pChannelList,
uint8_t numChannels);
QDF_STATUS sme_set_ese_roam_scan_channel_list(tHalHandle hHal,
uint8_t sessionId, uint8_t *pChannelList,
uint8_t numChannels);
QDF_STATUS sme_get_roam_scan_channel_list(tHalHandle hHal,
uint8_t *pChannelList, uint8_t *pNumChannels,
uint8_t sessionId);
bool sme_get_is_ese_feature_enabled(tHalHandle hHal);
bool sme_get_wes_mode(tHalHandle hHal);
bool sme_get_roam_scan_control(tHalHandle hHal);
bool sme_get_is_lfr_feature_enabled(tHalHandle hHal);
bool sme_get_is_ft_feature_enabled(tHalHandle hHal);
QDF_STATUS sme_update_roam_scan_offload_enabled(tHalHandle hHal,
bool nRoamScanOffloadEnabled);
bool sme_is_feature_supported_by_fw(enum cap_bitmap feature);
/*
* SME API to enable/disable WLAN driver initiated SSR
*/
void sme_update_enable_ssr(tHalHandle hHal, bool enableSSR);
QDF_STATUS sme_set_phy_mode(tHalHandle hHal, eCsrPhyMode phyMode);
eCsrPhyMode sme_get_phy_mode(tHalHandle hHal);
QDF_STATUS sme_handoff_request(tHalHandle hHal, uint8_t sessionId,
tCsrHandoffRequest *pHandoffInfo);
QDF_STATUS sme_is_sta_p2p_client_connected(tHalHandle hHal);
QDF_STATUS sme_add_periodic_tx_ptrn(tHalHandle hHal, tSirAddPeriodicTxPtrn
*addPeriodicTxPtrnParams);
QDF_STATUS sme_del_periodic_tx_ptrn(tHalHandle hHal, tSirDelPeriodicTxPtrn
*delPeriodicTxPtrnParams);
QDF_STATUS sme_send_rate_update_ind(tHalHandle hHal,
tSirRateUpdateInd *rateUpdateParams);
QDF_STATUS sme_roam_del_pmkid_from_cache(tHalHandle hHal, uint8_t sessionId,
tPmkidCacheInfo *pmksa, bool flush_cache);
void sme_get_command_q_status(tHalHandle hHal);
#ifdef FEATURE_WLAN_RMC
QDF_STATUS sme_enable_rmc(tHalHandle hHal, uint32_t sessionId);
QDF_STATUS sme_disable_rmc(tHalHandle hHal, uint32_t sessionId);
QDF_STATUS sme_send_rmc_action_period(tHalHandle hHal, uint32_t sessionId);
#endif
QDF_STATUS sme_request_ibss_peer_info(tHalHandle hHal, void *pUserData,
pIbssPeerInfoCb peerInfoCbk, bool allPeerInfoReqd, uint8_t staIdx);
QDF_STATUS sme_send_cesium_enable_ind(tHalHandle hHal, uint32_t sessionId);
/**
* sme_set_wlm_latency_level_ind() - Used to set the latency level to fw
* @hal
* @session_id
* @latency_level
*
* Return QDF_STATUS
*/
QDF_STATUS sme_set_wlm_latency_level(tHalHandle hal,
uint16_t session_id,
uint16_t latency_level);
/*
* SME API to enable/disable idle mode powersave
* This should be called only if powersave offload
* is enabled
*/
QDF_STATUS sme_set_idle_powersave_config(bool value);
QDF_STATUS sme_notify_modem_power_state(tHalHandle hHal, uint32_t value);
/*SME API to convert convert the ini value to the ENUM used in csr and MAC*/
ePhyChanBondState sme_get_cb_phy_state_from_cb_ini_value(uint32_t cb_ini_value);
int sme_update_ht_config(tHalHandle hHal, uint8_t sessionId, uint16_t htCapab,
int value);
int16_t sme_get_ht_config(tHalHandle hHal, uint8_t session_id,
uint16_t ht_capab);
#ifdef QCA_HT_2040_COEX
QDF_STATUS sme_notify_ht2040_mode(tHalHandle hHal, uint16_t staId,
struct qdf_mac_addr macAddrSTA,
uint8_t sessionId,
uint8_t channel_type);
QDF_STATUS sme_set_ht2040_mode(tHalHandle hHal, uint8_t sessionId,
uint8_t channel_type, bool obssEnabled);
#endif
QDF_STATUS sme_get_reg_info(tHalHandle hHal, uint8_t chanId,
uint32_t *regInfo1, uint32_t *regInfo2);
#ifdef FEATURE_WLAN_TDLS
QDF_STATUS sme_update_fw_tdls_state(tHalHandle hHal, void *psmeTdlsParams,
bool useSmeLock);
#endif /* FEATURE_WLAN_TDLS */
#ifdef FEATURE_WLAN_CH_AVOID
QDF_STATUS sme_ch_avoid_update_req(tHalHandle hal_handle);
#else
static inline
QDF_STATUS sme_ch_avoid_update_req(tHalHandle hal_handle)
{
return QDF_STATUS_SUCCESS;
}
#endif
#ifdef FEATURE_WLAN_AUTO_SHUTDOWN
QDF_STATUS sme_set_auto_shutdown_cb(tHalHandle hHal, void (*pCallbackfn)(void));
QDF_STATUS sme_set_auto_shutdown_timer(tHalHandle hHal, uint32_t timer_value);
#endif
QDF_STATUS sme_roam_channel_change_req(tHalHandle hHal,
struct qdf_mac_addr bssid,
struct ch_params *ch_params,
struct csr_roam_profile *profile);
QDF_STATUS sme_roam_start_beacon_req(tHalHandle hHal,
struct qdf_mac_addr bssid, uint8_t dfsCacWaitStatus);
QDF_STATUS sme_roam_csa_ie_request(tHalHandle hHal, struct qdf_mac_addr bssid,
uint8_t targetChannel, uint8_t csaIeReqd,
struct ch_params *ch_params);
/**
* sme_set_addba_accept() - Allow/Reject the ADDBA req session
* @hal: handle returned by mac_open
* @session_id: sme session id
* @value: Allow/Reject AddBA session
*
* Allows/Rejects the ADDBA req session
*
* Return: 0 on success else errno
*/
int sme_set_addba_accept(tHalHandle hal, uint8_t session_id, int value);
QDF_STATUS sme_init_thermal_info(tHalHandle hHal,
tSmeThermalParams thermalParam);
QDF_STATUS sme_set_thermal_level(tHalHandle hHal, uint8_t level);
QDF_STATUS sme_txpower_limit(tHalHandle hHal, tSirTxPowerLimit *psmetx);
QDF_STATUS sme_get_link_speed(tHalHandle hHal, tSirLinkSpeedInfo *lsReq,
void *plsContext,
void (*pCallbackfn)(tSirLinkSpeedInfo *indParam,
void *pContext));
QDF_STATUS sme_modify_add_ie(tHalHandle hHal,
tSirModifyIE *pModifyIE, eUpdateIEsType updateType);
QDF_STATUS sme_update_add_ie(tHalHandle hHal,
tSirUpdateIE *pUpdateIE, eUpdateIEsType updateType);
QDF_STATUS sme_update_connect_debug(tHalHandle hHal, uint32_t set_value);
const char *sme_bss_type_to_string(const uint8_t bss_type);
QDF_STATUS sme_ap_disable_intra_bss_fwd(tHalHandle hHal, uint8_t sessionId,
bool disablefwd);
QDF_STATUS sme_get_channel_bonding_mode5_g(tHalHandle hHal, uint32_t *mode);
QDF_STATUS sme_get_channel_bonding_mode24_g(tHalHandle hHal, uint32_t *mode);
/**
* sme_send_unit_test_cmd() - send unit test command to lower layer
* @session_id: sme session id to be filled while forming the command
* @module_id: module id given by user to be filled in the command
* @arg_count: number of argument count
* @arg: pointer to argument list
*
* This API exposed to HDD layer which takes the argument from user and sends
* down to lower layer for further processing
*
* Return: QDF_STATUS based on overall success
*/
QDF_STATUS sme_send_unit_test_cmd(uint32_t vdev_id, uint32_t module_id,
uint32_t arg_count, uint32_t *arg);
typedef struct sStatsExtRequestReq {
uint32_t request_data_len;
uint8_t *request_data;
} tStatsExtRequestReq, *tpStatsExtRequestReq;
#ifdef WLAN_FEATURE_STATS_EXT
/**
* sme_stats_ext_register_callback() - Register stats ext callback
* @mac_handle: Opaque handle to the MAC context
* @callback: Function to be invoked for stats ext events
*
* This function is called to register the callback that send vendor
* event for stats ext
*/
void sme_stats_ext_register_callback(mac_handle_t mac_handle,
stats_ext_cb callback);
/**
* sme_stats_ext_deregister_callback() - Deregister stats ext callback
* @mac_handle: Opaque handle to the MAC context
*
* This function is called to deregister the callback that send vendor
* event for stats ext
*/
void sme_stats_ext_deregister_callback(mac_handle_t mac_handle);
/**
* sme_stats_ext2_register_callback() - Register stats ext2 callback
* @mac_handle: Opaque handle to the MAC context
* @callback: Function to be invoked for stats ext2 events
*
* This function will register a callback for frame aggregation failure
* indications processing.
*
* Return: void
*/
void sme_stats_ext2_register_callback(tHalHandle hal_handle,
stats_ext2_cb callback);
QDF_STATUS sme_stats_ext_request(uint8_t session_id,
tpStatsExtRequestReq input);
#else
static inline void
sme_stats_ext_register_callback(mac_handle_t mac_handle,
stats_ext_cb callback)
{
}
static inline void
sme_stats_ext2_register_callback(tHalHandle hal_handle,
stats_ext2_cb callback)
{
}
#endif /* WLAN_FEATURE_STATS_EXT */
QDF_STATUS sme_update_dfs_scan_mode(tHalHandle hHal,
uint8_t sessionId,
uint8_t allowDFSChannelRoam);
uint8_t sme_get_dfs_scan_mode(tHalHandle hHal);
#ifdef FEATURE_WLAN_EXTSCAN
QDF_STATUS sme_get_valid_channels_by_band(tHalHandle hHal, uint8_t wifiBand,
uint32_t *aValidChannels,
uint8_t *pNumChannels);
QDF_STATUS sme_ext_scan_get_capabilities(tHalHandle hHal,
tSirGetExtScanCapabilitiesReqParams *pReq);
QDF_STATUS sme_ext_scan_start(tHalHandle hHal,
tSirWifiScanCmdReqParams *pStartCmd);
QDF_STATUS sme_ext_scan_stop(tHalHandle hHal,
tSirExtScanStopReqParams *pStopReq);
/**
* sme_set_bss_hotlist() - SME API to set BSSID hotlist
* @mac_handle: Opaque handle to the MAC context
* @params: extscan set hotlist structure
*
* Handles the request to set the BSSID hotlist in firmware.
*
* Return: QDF_STATUS
*/
QDF_STATUS
sme_set_bss_hotlist(mac_handle_t mac_handle,
struct extscan_bssid_hotlist_set_params *params);
/**
* sme_reset_bss_hotlist() - SME API to reset BSSID hotlist
* @mac_handle: Opaque handle to the MAC context
* @params: extscan reset hotlist structure
*
* Handles the request to reset the BSSID hotlist in firmware.
*
* Return: QDF_STATUS
*/
QDF_STATUS
sme_reset_bss_hotlist(mac_handle_t mac_handle,
struct extscan_bssid_hotlist_reset_params *params);
/**
* sme_set_significant_change() - SME API to set significant change
* @mac_handle: Opaque handle to the MAC context
* @params: extscan set significant change structure
*
* Return: QDF_STATUS
*/
QDF_STATUS
sme_set_significant_change(mac_handle_t mac_handle,
struct extscan_set_sig_changereq_params *params);
/**
* sme_reset_significant_change() - SME API to reset significant change
* @mac_handle: Opaque handle to the MAC context
* @params: extscan reset significant change structure
*
* Return: QDF_STATUS
*/
QDF_STATUS
sme_reset_significant_change(mac_handle_t mac_handle,
struct extscan_capabilities_reset_params *params);
QDF_STATUS sme_get_cached_results(tHalHandle hHal,
tSirExtScanGetCachedResultsReqParams *
pCachedResultsReq);
QDF_STATUS sme_set_epno_list(tHalHandle hal,
struct wifi_epno_params *req_msg);
QDF_STATUS sme_set_passpoint_list(tHalHandle hal,
struct wifi_passpoint_req *req_msg);
QDF_STATUS sme_reset_passpoint_list(tHalHandle hal,
struct wifi_passpoint_req *req_msg);
QDF_STATUS sme_ext_scan_register_callback(mac_handle_t mac_handle,
ext_scan_ind_cb ext_scan_ind_cb);
#else
static inline
QDF_STATUS sme_ext_scan_register_callback(mac_handle_t mac_handle,
ext_scan_ind_cb ext_scan_ind_cb)
{
return QDF_STATUS_SUCCESS;
}
#endif /* FEATURE_WLAN_EXTSCAN */
QDF_STATUS sme_abort_roam_scan(tHalHandle hHal, uint8_t sessionId);
#ifdef WLAN_FEATURE_LINK_LAYER_STATS
QDF_STATUS sme_ll_stats_clear_req(tHalHandle hHal,
tSirLLStatsClearReq * pclearStatsReq);
QDF_STATUS sme_ll_stats_set_req(tHalHandle hHal,
tSirLLStatsSetReq *psetStatsReq);
/**
* sme_ll_stats_get_req() - SME API to get the Link Layer Statistics
* @mac_handle: Global MAC handle
* @get_stats_req: Link Layer get stats request params structure
* @context: Callback context
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_ll_stats_get_req(mac_handle_t mac_handle,
tSirLLStatsGetReq *get_stats_req,
void *context);
/**
* sme_set_link_layer_stats_ind_cb() -
* SME API to trigger the stats are available after get request
* @mac_handle: MAC handle
* @callback: HDD callback which needs to be invoked after
* getting status notification from FW
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_set_link_layer_stats_ind_cb(mac_handle_t mac_handle,
link_layer_stats_cb callback);
QDF_STATUS sme_set_link_layer_ext_cb(tHalHandle hal,
void (*ll_stats_ext_cb)(hdd_handle_t callback_ctx,
tSirLLStatsResults * rsp));
QDF_STATUS sme_reset_link_layer_stats_ind_cb(tHalHandle hhal);
QDF_STATUS sme_ll_stats_set_thresh(tHalHandle hal,
struct sir_ll_ext_stats_threshold *threshold);
#else /* WLAN_FEATURE_LINK_LAYER_STATS */
static inline QDF_STATUS
sme_set_link_layer_ext_cb(tHalHandle hal, void (*ll_stats_ext_cb)
(hdd_handle_t callback_ctx, tSirLLStatsResults
*rsp))
{
return QDF_STATUS_SUCCESS;
}
static inline QDF_STATUS
sme_set_link_layer_stats_ind_cb(mac_handle_t mac_handle,
link_layer_stats_cb callback)
{
return QDF_STATUS_SUCCESS;
}
static inline QDF_STATUS
sme_reset_link_layer_stats_ind_cb(tHalHandle hhal)
{
return QDF_STATUS_SUCCESS;
}
#endif /* WLAN_FEATURE_LINK_LAYER_STATS */
QDF_STATUS sme_set_wisa_params(tHalHandle hal,
struct sir_wisa_params *wisa_params);
#ifdef WLAN_FEATURE_ROAM_OFFLOAD
QDF_STATUS sme_update_roam_offload_enabled(tHalHandle hHal,
bool nRoamOffloadEnabled);
QDF_STATUS sme_update_roam_key_mgmt_offload_enabled(tHalHandle hal_ctx,
uint8_t session_id,
bool key_mgmt_offload_enabled,
struct pmkid_mode_bits *pmkid_modes);
#endif
#ifdef WLAN_FEATURE_NAN
QDF_STATUS sme_nan_event(tHalHandle hHal, void *pMsg);
#endif /* WLAN_FEATURE_NAN */
QDF_STATUS sme_get_link_status(mac_handle_t mac_handle,
csr_link_status_callback callback,
void *context, uint8_t session_id);
QDF_STATUS sme_get_temperature(tHalHandle hHal,
void *tempContext,
void (*pCallbackfn)(int temperature,
void *pContext));
QDF_STATUS sme_set_scanning_mac_oui(tHalHandle hHal,
tSirScanMacOui *pScanMacOui);
#ifdef DHCP_SERVER_OFFLOAD
QDF_STATUS sme_set_dhcp_srv_offload(tHalHandle hHal,
tSirDhcpSrvOffloadInfo * pDhcpSrvInfo);
#endif /* DHCP_SERVER_OFFLOAD */
#ifdef WLAN_FEATURE_GPIO_LED_FLASHING
QDF_STATUS sme_set_led_flashing(tHalHandle hHal, uint8_t type,
uint32_t x0, uint32_t x1);
#endif
QDF_STATUS sme_handle_dfs_chan_scan(tHalHandle hHal, uint8_t dfs_flag);
QDF_STATUS sme_enable_dfs_chan_scan(tHalHandle hHal, uint8_t dfs_flag);
QDF_STATUS sme_set_mas(uint32_t val);
QDF_STATUS sme_set_miracast(tHalHandle hal, uint8_t filter_type);
QDF_STATUS sme_ext_change_channel(tHalHandle hHal, uint32_t channel,
uint8_t session_id);
QDF_STATUS sme_configure_stats_avg_factor(tHalHandle hal, uint8_t session_id,
uint16_t stats_avg_factor);
QDF_STATUS sme_configure_guard_time(tHalHandle hal, uint8_t session_id,
uint32_t guard_time);
QDF_STATUS sme_wifi_start_logger(tHalHandle hal,
struct sir_wifi_start_log start_log);
bool sme_neighbor_middle_of_roaming(tHalHandle hHal,
uint8_t sessionId);
/*
* sme_is_any_session_in_middle_of_roaming() - check if roaming is in progress
* @hal: MAC Handle
*
* Checks if any SME session is in middle of roaming
*
* Return : true if roaming is in progress else false
*/
bool sme_is_any_session_in_middle_of_roaming(mac_handle_t hal);
/**
* sme_enable_uapsd_for_ac() - enable uapsd for access category request to WMA
* @sta_id: station id
* @ac: access category
* @tid: tid value
* @pri: user priority
* @srvc_int: service interval
* @sus_int: suspend interval
* @dir: tspec direction
* @psb: PSB value
* @sessionId: session id
* @delay_interval: delay interval
*
* Return: QDF status
*/
QDF_STATUS sme_enable_uapsd_for_ac(uint8_t sta_id,
sme_ac_enum_type ac, uint8_t tid,
uint8_t pri, uint32_t srvc_int,
uint32_t sus_int,
enum sme_qos_wmm_dir_type dir,
uint8_t psb, uint32_t sessionId,
uint32_t delay_interval);
/**
* sme_disable_uapsd_for_ac() - disable uapsd access category request to WMA
* @sta_id: station id
* @ac: access category
* @sessionId: session id
*
* Return: QDF status
*/
QDF_STATUS sme_disable_uapsd_for_ac(uint8_t sta_id,
sme_ac_enum_type ac,
uint32_t sessionId);
#ifdef FEATURE_RSSI_MONITOR
QDF_STATUS sme_set_rssi_monitoring(tHalHandle hal,
struct rssi_monitor_req *input);
/**
* sme_set_rssi_threshold_breached_cb() - Set RSSI threshold breached callback
* @mac_handle: global MAC handle
* @cb: callback function pointer
*
* This function registers the RSSI threshold breached callback function.
*
* Return: QDF_STATUS enumeration.
*/
QDF_STATUS sme_set_rssi_threshold_breached_cb(mac_handle_t mac_handle,
rssi_threshold_breached_cb cb);
#else /* FEATURE_RSSI_MONITOR */
static inline
QDF_STATUS sme_set_rssi_threshold_breached_cb(mac_handle_t mac_handle,
rssi_threshold_breached_cb cb)
{
return QDF_STATUS_SUCCESS;
}
#endif
/**
* sme_reset_rssi_threshold_breached_cb() - Reset RSSI threshold breached
* callback
* @mac_handle: global MAC handle
*
* This function de-registers the RSSI threshold breached callback function.
*
* Return: QDF_STATUS enumeration.
*/
QDF_STATUS sme_reset_rssi_threshold_breached_cb(mac_handle_t mac_handle);
QDF_STATUS sme_register_mgmt_frame_ind_callback(tHalHandle hal,
sir_mgmt_frame_ind_callback callback);
QDF_STATUS sme_update_nss(tHalHandle h_hal, uint8_t nss);
void sme_update_user_configured_nss(tHalHandle hal, uint8_t nss);
bool sme_is_any_session_in_connected_state(tHalHandle h_hal);
QDF_STATUS sme_pdev_set_pcl(struct policy_mgr_pcl_list *msg);
QDF_STATUS sme_pdev_set_hw_mode(struct policy_mgr_hw_mode msg);
void sme_register_hw_mode_trans_cb(tHalHandle hal,
hw_mode_transition_cb callback);
QDF_STATUS sme_nss_update_request(uint32_t vdev_id,
uint8_t new_nss, policy_mgr_nss_update_cback cback,
uint8_t next_action, struct wlan_objmgr_psoc *psoc,
enum policy_mgr_conn_update_reason reason);
typedef void (*sme_peer_authorized_fp) (uint32_t vdev_id);
QDF_STATUS sme_set_peer_authorized(uint8_t *peer_addr,
sme_peer_authorized_fp auth_fp,
uint32_t vdev_id);
QDF_STATUS sme_soc_set_dual_mac_config(struct policy_mgr_dual_mac_config msg);
QDF_STATUS sme_soc_set_antenna_mode(tHalHandle hal,
struct sir_antenna_mode_param *msg);
void sme_set_scan_disable(tHalHandle h_hal, int value);
void sme_setdef_dot11mode(tHalHandle hal);
QDF_STATUS sme_handle_set_fcc_channel(tHalHandle hHal,
bool fcc_constraint,
bool scan_pending);
QDF_STATUS sme_update_roam_scan_hi_rssi_scan_params(tHalHandle hal_handle,
uint8_t session_id,
uint32_t notify_id,
int32_t val);
/**
* sme_update_tx_bfee_supp() - sets the Tx Bfee support
* @hal: Pointer to HAL
* @session_id: SME session id
* @cfg_val: Tx Bfee config value
*
* Return: 0 on success else err code
*/
int sme_update_tx_bfee_supp(tHalHandle hal, uint8_t session_id,
uint8_t cfg_val);
/**
* sme_update_tx_bfee_nsts() - sets the Tx Bfee nsts
* @hal: MAC handle
* @session_id: SME session id
* @usr_cfg_val: user config value
* @nsts_val: Tx Bfee nsts config value
*
* Return: 0 on success else err code
*/
int sme_update_tx_bfee_nsts(mac_handle_t hal, uint8_t session_id,
uint8_t usr_cfg_val, uint8_t nsts_val);
void wlan_sap_enable_phy_error_logs(tHalHandle hal, uint32_t enable_log);
#ifdef WLAN_FEATURE_DSRC
void sme_set_dot11p_config(tHalHandle hal, bool enable_dot11p);
QDF_STATUS sme_ocb_set_config(tHalHandle hHal, void *context,
ocb_callback callback,
struct sir_ocb_config *config);
QDF_STATUS sme_ocb_set_utc_time(tHalHandle hHal, struct sir_ocb_utc *utc);
QDF_STATUS sme_ocb_start_timing_advert(tHalHandle hHal,
struct sir_ocb_timing_advert *timing_advert);
QDF_STATUS sme_ocb_stop_timing_advert(tHalHandle hHal,
struct sir_ocb_timing_advert *timing_advert);
int sme_ocb_gen_timing_advert_frame(tHalHandle hHal, tSirMacAddr self_addr,
uint8_t **buf, uint32_t *timestamp_offset,
uint32_t *time_value_offset);
QDF_STATUS sme_ocb_get_tsf_timer(tHalHandle hHal, void *context,
ocb_callback callback,
struct sir_ocb_get_tsf_timer *request);
QDF_STATUS sme_dcc_get_stats(tHalHandle hHal, void *context,
ocb_callback callback,
struct sir_dcc_get_stats *request);
QDF_STATUS sme_dcc_clear_stats(tHalHandle hHal, uint32_t vdev_id,
uint32_t dcc_stats_bitmap);
QDF_STATUS sme_dcc_update_ndl(tHalHandle hHal, void *context,
ocb_callback callback,
struct sir_dcc_update_ndl *request);
QDF_STATUS sme_register_for_dcc_stats_event(tHalHandle hHal, void *context,
ocb_callback callback);
QDF_STATUS sme_deregister_for_dcc_stats_event(tHalHandle hHal);
static inline void
sme_set_etsi13_srd_ch_in_master_mode(tHalHandle hal,
bool etsi13_srd_chan_support)
{
}
#else
static inline void sme_set_dot11p_config(tHalHandle hal, bool enable_dot11p)
{
return;
}
static inline QDF_STATUS sme_ocb_set_config(tHalHandle hHal, void *context,
ocb_callback callback,
struct sir_ocb_config *config)
{
return QDF_STATUS_SUCCESS;
}
static inline QDF_STATUS sme_ocb_set_utc_time(struct sir_ocb_utc *utc)
{
return QDF_STATUS_SUCCESS;
}
static inline QDF_STATUS sme_ocb_start_timing_advert(
struct sir_ocb_timing_advert *timing_advert)
{
return QDF_STATUS_SUCCESS;
}
static inline QDF_STATUS sme_ocb_stop_timing_advert(struct sir_ocb_timing_advert
*timing_advert)
{
return QDF_STATUS_SUCCESS;
}
static inline int sme_ocb_gen_timing_advert_frame(tHalHandle hHal,
tSirMacAddr self_addr, uint8_t **buf,
uint32_t *timestamp_offset,
uint32_t *time_value_offset)
{
return 0;
}
static inline QDF_STATUS sme_ocb_get_tsf_timer(tHalHandle hHal, void *context,
ocb_callback callback,
struct sir_ocb_get_tsf_timer *request)
{
return QDF_STATUS_SUCCESS;
}
static inline QDF_STATUS sme_dcc_get_stats(tHalHandle hHal, void *context,
ocb_callback callback,
struct sir_dcc_get_stats *request)
{
return QDF_STATUS_SUCCESS;
}
static inline QDF_STATUS sme_dcc_clear_stats(uint32_t vdev_id,
uint32_t dcc_stats_bitmap)
{
return QDF_STATUS_SUCCESS;
}
static inline QDF_STATUS sme_dcc_update_ndl(tHalHandle hHal, void *context,
ocb_callback callback,
struct sir_dcc_update_ndl *request)
{
return QDF_STATUS_SUCCESS;
}
static inline QDF_STATUS sme_register_for_dcc_stats_event(tHalHandle hHal,
void *context, ocb_callback callback)
{
return QDF_STATUS_SUCCESS;
}
static inline QDF_STATUS sme_deregister_for_dcc_stats_event(tHalHandle hHal)
{
return QDF_STATUS_SUCCESS;
}
/**
* sme_set_etsi13_srd_ch_in_master_mode() - master mode UNI-III band ch support
* @hal: HAL pointer
* @srd_chan_support: ETSI SRD channel support
*
* This function set master ETSI SRD channel support
*
* Return: None
*/
void sme_set_etsi13_srd_ch_in_master_mode(tHalHandle hal,
bool etsi13_srd_chan_support);
#endif
void sme_add_set_thermal_level_callback(tHalHandle hal,
sme_set_thermal_level_callback callback);
void sme_update_tgt_services(tHalHandle hal, struct wma_tgt_services *cfg);
bool sme_validate_sap_channel_switch(tHalHandle hal,
uint16_t sap_ch, eCsrPhyMode sap_phy_mode,
uint8_t cc_switch_mode, uint8_t session_id);
bool sme_is_session_id_valid(tHalHandle hal, uint32_t session_id);
#ifdef FEATURE_WLAN_TDLS
void sme_get_opclass(tHalHandle hal, uint8_t channel, uint8_t bw_offset,
uint8_t *opclass);
#else
static inline void
sme_get_opclass(tHalHandle hal, uint8_t channel, uint8_t bw_offset,
uint8_t *opclass)
{
}
#endif
#ifdef FEATURE_LFR_SUBNET_DETECTION
QDF_STATUS sme_gateway_param_update(tHalHandle hHal,
struct gateway_param_update_req *request);
#endif
void sme_update_fine_time_measurement_capab(tHalHandle hal, uint8_t session_id,
uint32_t val);
QDF_STATUS sme_ht40_stop_obss_scan(tHalHandle hHal, uint32_t vdev_id);
QDF_STATUS sme_set_fw_test(struct set_fwtest_params *fw_test);
QDF_STATUS sme_set_tsfcb(tHalHandle hHal,
int (*cb_fn)(void *cb_ctx, struct stsf *ptsf), void *cb_ctx);
QDF_STATUS sme_reset_tsfcb(tHalHandle h_hal);
#ifdef WLAN_FEATURE_TSF
QDF_STATUS sme_set_tsf_gpio(tHalHandle h_hal, uint32_t pinvalue);
#else
static inline QDF_STATUS sme_set_tsf_gpio(tHalHandle h_hal, uint32_t pinvalue)
{
return QDF_STATUS_E_FAILURE;
}
#endif
QDF_STATUS sme_update_mimo_power_save(tHalHandle hHal,
uint8_t is_ht_smps_enabled,
uint8_t ht_smps_mode,
bool send_smps_action);
bool sme_is_sta_smps_allowed(tHalHandle hHal, uint8_t session_id);
QDF_STATUS sme_add_beacon_filter(tHalHandle hal,
uint32_t session_id, uint32_t *ie_map);
QDF_STATUS sme_remove_beacon_filter(tHalHandle hal, uint32_t session_id);
#ifdef FEATURE_WLAN_APF
/**
* sme_get_apf_capabilities() - Get APF capabilities
* @hal: Global HAL handle
* @callback: Callback function to be called with the result
* @context: Opaque context to be used by the caller to associate the
* request with the response
*
* This function constructs the cds message and fill in message type,
* post the same to WDA.
*
* Return: QDF_STATUS enumeration
*/
QDF_STATUS sme_get_apf_capabilities(tHalHandle hal,
apf_get_offload_cb callback,
void *context);
/**
* sme_set_apf_instructions() - Set APF apf filter instructions.
* @hal: HAL handle
* @apf_set_offload: struct to set apf filter instructions.
*
* APFv2 (Legacy APF) API to set the APF packet filter.
*
* Return: QDF_STATUS enumeration.
*/
QDF_STATUS sme_set_apf_instructions(tHalHandle hal,
struct sir_apf_set_offload
*apf_set_offload);
/**
* sme_set_apf_enable_disable - Send apf enable/disable cmd
* @hal: global hal handle
* @vdev_id: vdev id
* @apf_enable: true: Enable APF Int., false: Disable APF Int.
*
* API to either enable or disable the APF interpreter.
*
* Return: QDF_STATUS enumeration.
*/
QDF_STATUS sme_set_apf_enable_disable(tHalHandle hal, uint8_t vdev_id,
bool apf_enable);
/**
* sme_apf_write_work_memory - Write into the apf work memory
* @hal: global hal handle
* @write_params: APF parameters for the write operation
*
* API for writing into the APF work memory.
*
* Return: QDF_STATUS enumeration.
*/
QDF_STATUS sme_apf_write_work_memory(tHalHandle hal,
struct wmi_apf_write_memory_params
*write_params);
/**
* sme_apf_read_work_memory - Read part of apf work memory
* @hal: global hal handle
* @read_params: APF parameters for the get operation
* @callback: callback to handle the the read response
*
* API for issuing a APF read memory request.
*
* Return: QDF_STATUS enumeration.
*/
QDF_STATUS
sme_apf_read_work_memory(tHalHandle hal,
struct wmi_apf_read_memory_params *read_params,
apf_read_mem_cb callback);
#endif /* FEATURE_WLAN_APF */
uint32_t sme_get_wni_dot11_mode(tHalHandle hal);
QDF_STATUS sme_create_mon_session(tHalHandle hal_handle, uint8_t *bssid,
uint8_t vdev_id);
QDF_STATUS sme_set_adaptive_dwelltime_config(tHalHandle hal,
struct adaptive_dwelltime_params *dwelltime_params);
void sme_set_vdev_ies_per_band(tHalHandle hal, uint8_t vdev_id);
void sme_set_pdev_ht_vht_ies(tHalHandle hHal, bool enable2x2);
void sme_update_vdev_type_nss(tHalHandle hal, uint8_t max_supp_nss,
uint32_t vdev_type_nss, enum band_info band);
void sme_update_hw_dbs_capable(tHalHandle hal, uint8_t hw_dbs_capable);
#ifdef FEATURE_P2P_LISTEN_OFFLOAD
void sme_register_p2p_lo_event(tHalHandle hHal, void *context,
p2p_lo_callback callback);
#else
static inline void sme_register_p2p_lo_event(tHalHandle hHal,
void *context,
p2p_lo_callback callback)
{
}
#endif
QDF_STATUS sme_remove_bssid_from_scan_list(tHalHandle hal,
tSirMacAddr bssid);
QDF_STATUS sme_process_mac_pwr_dbg_cmd(tHalHandle hal, uint32_t session_id,
struct sir_mac_pwr_dbg_cmd*
dbg_args);
void sme_get_vdev_type_nss(enum QDF_OPMODE dev_mode,
uint8_t *nss_2g, uint8_t *nss_5g);
QDF_STATUS sme_roam_set_default_key_index(tHalHandle hal, uint8_t session_id,
uint8_t default_idx);
void sme_send_disassoc_req_frame(tHalHandle hal, uint8_t session_id, uint8_t
*peer_mac, uint16_t reason, uint8_t
wait_for_ack);
QDF_STATUS sme_update_access_policy_vendor_ie(tHalHandle hal,
uint8_t session_id, uint8_t *vendor_ie,
int access_policy);
/**
* sme_set_peer_param() - set peer param
* @vdev_id: vdev ID
* @peer_addr: peer MAC address
* @param_id: param ID to be updated
* @param_Value: paraam value
*
* This SME API is used to send the peer param to WMA to be sent to FW.
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_set_peer_param(uint8_t *peer_addr, uint32_t param_id,
uint32_t param_value, uint32_t vdev_id);
QDF_STATUS sme_update_sta_roam_policy(tHalHandle hal,
enum sta_roam_policy_dfs_mode dfs_mode,
bool skip_unsafe_channels,
uint8_t session_id, uint8_t sap_operating_band);
QDF_STATUS sme_enable_disable_chanavoidind_event(tHalHandle hal,
uint8_t set_value);
QDF_STATUS sme_set_default_scan_ie(tHalHandle hal, uint16_t session_id,
uint8_t *ie_data, uint16_t ie_len);
/**
* sme_update_session_param() - API to update PE session param
* @hal: HAL handle for device
* @session_id: Session ID
* @param_type: Param type to be updated
* @param_val: Param value to be update
*
* Note: this setting will not persist over reboots.
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_update_session_param(tHalHandle hal, uint8_t session_id,
uint32_t param_type, uint32_t param_val);
/**
* sme_update_fils_setting() - API to update PE FILS setting
* @hal: HAL handle for device
* @session_id: Session ID
* @param_val: Param value to be update
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_update_fils_setting(tHalHandle hal, uint8_t session_id,
uint8_t param_val);
#ifdef WLAN_FEATURE_FIPS
/**
* sme_fips_request() - Perform a FIPS certification operation
* @hal: Hal handle for the object being certified
* @param: The FIPS certification parameters
* @callback: Callback function to invoke with the results
* @context: Opaque context to pass back to caller in the callback
*
* Return: QDF_STATUS_SUCCESS if the request is successfully sent
* to firmware for processing, otherwise an error status.
*/
QDF_STATUS sme_fips_request(tHalHandle hal, struct fips_params *param,
wma_fips_cb callback, void *context);
#else
static inline
QDF_STATUS sme_fips_request(tHalHandle hal, struct fips_params *param,
wma_fips_cb callback, void *context)
{
return QDF_STATUS_E_NOSUPPORT;
}
#endif /* WLAN_FEATURE_FIPS */
/**
* sme_set_cts2self_for_p2p_go() - sme function to set ini parms to FW.
* @hal: reference to the HAL
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_set_cts2self_for_p2p_go(tHalHandle hal);
void sme_set_prefer_80MHz_over_160MHz(tHalHandle hal,
bool sta_prefer_80MHz_over_160MHz);
QDF_STATUS sme_update_tx_fail_cnt_threshold(tHalHandle hal_handle,
uint8_t session_id, uint32_t tx_fail_count);
QDF_STATUS sme_update_short_retry_limit_threshold(tHalHandle hal_handle,
struct sme_short_retry_limit *short_retry_limit_th);
QDF_STATUS sme_update_long_retry_limit_threshold(tHalHandle hal_handle,
struct sme_long_retry_limit *long_retry_limit_th);
/**
* sme_roam_is_ese_assoc() - Check if association type is ESE
* @roam_info: Pointer to roam info
*
* Return: true if ESE Association, false otherwise.
*/
#ifdef FEATURE_WLAN_ESE
bool sme_roam_is_ese_assoc(struct csr_roam_info *roam_info);
#else
static inline bool sme_roam_is_ese_assoc(struct csr_roam_info *roam_info)
{
return false;
}
#endif
/**
* sme_neighbor_roam_is11r_assoc() - Check if association type is 11R
* @hal_ctx: HAL handle
* @session_id: session id
*
* Return: true if 11r Association, false otherwise.
*/
bool sme_neighbor_roam_is11r_assoc(tHalHandle hal_ctx, uint8_t session_id);
/**
* sme_update_sta_inactivity_timeout(): Update sta_inactivity_timeout to FW
* @hal: Handle returned by mac_open
* @sta_inactivity_timer: struct for sta inactivity timer
*
* If a station does not send anything in sta_inactivity_timeout seconds, an
* empty data frame is sent to it in order to verify whether it is
* still in range. If this frame is not ACKed, the station will be
* disassociated and then deauthenticated.
*
* Return: QDF_STATUS_SUCCESS or non-zero on failure.
*/
QDF_STATUS sme_update_sta_inactivity_timeout(tHalHandle hal_handle,
struct sme_sta_inactivity_timeout *sta_inactivity_timer);
/**
* sme_set_lost_link_info_cb() - plug in callback function for receiving
* @mac_handle: Opaque handle to the MAC context
* @cb: callback function
*
* Return: HAL status
*/
QDF_STATUS sme_set_lost_link_info_cb(mac_handle_t mac_handle,
lost_link_info_cb cb);
/**
* sme_update_new_channel_event() - update new channel event for sapFsm
* @hal: HAL handle
* @session_id: session id
*
* Return: QDF_STATUS_SUCCESS or non-zero on failure.
*/
QDF_STATUS sme_update_new_channel_event(tHalHandle hal, uint8_t session_id);
#ifdef WLAN_POWER_DEBUGFS
QDF_STATUS sme_power_debug_stats_req(tHalHandle hal, void (*callback_fn)
(struct power_stats_response *response,
void *context), void *power_stats_context);
#endif
/**
* sme_get_sar_power_limits() - get SAR limits
* @hal: HAL handle
* @callback: Callback function to invoke with the results
* @context: Opaque context to pass back to caller in the callback
*
* Return: QDF_STATUS_SUCCESS if the request is successfully sent
* to firmware for processing, otherwise an error status.
*/
QDF_STATUS sme_get_sar_power_limits(tHalHandle hal,
wma_sar_cb callback, void *context);
/**
* sme_set_sar_power_limits() - set sar limits
* @hal: HAL handle
* @sar_limit_cmd: struct to send sar limit cmd.
*
* Return: QDF_STATUS enumeration.
*/
QDF_STATUS sme_set_sar_power_limits(tHalHandle hal,
struct sar_limit_cmd_params *sar_limit_cmd);
void sme_set_cc_src(tHalHandle hal_handle, enum country_src);
#ifdef WLAN_FEATURE_WOW_PULSE
QDF_STATUS sme_set_wow_pulse(struct wow_pulse_mode *wow_pulse_set_info);
#endif
/* ARP DEBUG STATS */
QDF_STATUS sme_set_nud_debug_stats(tHalHandle hal,
struct set_arp_stats_params
*set_stats_param);
QDF_STATUS sme_get_nud_debug_stats(tHalHandle hal,
struct get_arp_stats_params
*get_stats_param);
QDF_STATUS sme_set_nud_debug_stats_cb(tHalHandle hal,
void (*cb)(void *, struct rsp_stats *, void *context),
void *context);
/**
* sme_set_chan_info_callback() - Register chan info callback
* @hal - MAC global handle
* @callback_routine - callback routine from HDD
*
* This API is invoked by HDD to register its callback to mac
*
* Return: QDF_STATUS
*/
void sme_set_chan_info_callback(tHalHandle hal_handle,
void (*callback)(struct scan_chan_info *chan_info));
/**
* sme_get_rssi_snr_by_bssid() - gets the rssi and snr by bssid from scan cache
* @hal: handle returned by mac_open
* @profile: current connected profile
* @bssid: bssid to look for in scan cache
* @rssi: rssi value found
* @snr: snr value found
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_get_rssi_snr_by_bssid(tHalHandle hal,
struct csr_roam_profile *profile,
const uint8_t *bssid, int8_t *rssi,
int8_t *snr);
/**
* sme_get_beacon_frm() - gets the bss descriptor from scan cache and prepares
* beacon frame
* @hal: handle returned by mac_open
* @profile: current connected profile
* @bssid: bssid to look for in scan cache
* @frame_buf: frame buffer to populate
* @frame_len: length of constructed frame
* @channel: Pointer to channel info to be filled
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_get_beacon_frm(tHalHandle hal, struct csr_roam_profile *profile,
const tSirMacAddr bssid,
uint8_t **frame_buf, uint32_t *frame_len,
int *channel);
#ifdef WLAN_FEATURE_ROAM_OFFLOAD
/**
* sme_fast_reassoc() - invokes FAST REASSOC command
* @hal: handle returned by mac_open
* @profile: current connected profile
* @bssid: bssid to look for in scan cache
* @channel: channel on which reassoc should be send
* @vdev_id: vdev id
* @connected_bssid: bssid of currently connected profile
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_fast_reassoc(tHalHandle hal, struct csr_roam_profile *profile,
const tSirMacAddr bssid, int channel,
uint8_t vdev_id, const tSirMacAddr connected_bssid);
#endif
/**
* sme_congestion_register_callback() - registers congestion callback
* @hal: handler for HAL
* @congestion_cb: congestion callback
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_congestion_register_callback(tHalHandle hal,
congestion_cb congestion_cb);
/**
* sme_register_tx_queue_cb(): Register tx queue callback
* @mac_handle: Opaque handle for MAC context
* @tx_queue_cb: Transmit Queues callback
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_register_tx_queue_cb(mac_handle_t mac_handle,
tx_queue_cb tx_queue_cb);
/**
* sme_deregister_tx_queue_cb() - Deregister the tx queue callback
* @mac_handle: Opaque handle for MAC context
*
* Return: QDF status
*/
QDF_STATUS sme_deregister_tx_queue_cb(mac_handle_t mac_handle);
/**
* sme_rso_cmd_status_cb() - Set RSO cmd status callback
* @mac_handle: Opaque handle for the MAC context
* @cb: HDD Callback to rso command status read
*
* This function is used to save HDD RSO Command status callback in MAC
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_rso_cmd_status_cb(mac_handle_t mac_handle,
rso_cmd_status_cb cb);
/**
* sme_register_set_connection_info_cb() - Register connection
* info callback
* @hal - MAC global handle
* @set_connection_info_cb - callback routine from HDD to set
* connection info flag
* @get_connection_info_cb - callback routine from HDD to get
* connection info
*
* This API is invoked by HDD to register its callback to mac
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_register_set_connection_info_cb(tHalHandle hHal,
bool (*set_connection_info_cb)(bool),
bool (*get_connection_info_cb)(uint8_t *session_id,
enum scan_reject_states *reason));
/**
* sme_set_dbs_scan_selection_config() - Update DBS scan selection
* configuration
* @hal: The handle returned by macOpen
* @params: wmi_dbs_scan_sel_params config
*
* Return: QDF_STATUS if DBS scan selection update
* configuration success else failure status
*/
QDF_STATUS sme_set_dbs_scan_selection_config(tHalHandle hal,
struct wmi_dbs_scan_sel_params *params);
/**
* sme_store_pdev() - store pdev
* @hal - MAC global handle
* @pdev - pdev ptr
*
* Return: QDF_STATUS
*/
void sme_store_pdev(tHalHandle hal, struct wlan_objmgr_pdev *pdev);
/**
* sme_ipa_uc_stat_request() - set ipa config parameters
* @vdev_id: virtual device for the command
* @param_id: parameter id
* @param_val: parameter value
* @req_cat: parameter category
*
* Return: QDF_STATUS_SUCCESS or non-zero on failure
*/
QDF_STATUS sme_ipa_uc_stat_request(tHalHandle hal,
uint32_t vdev_id, uint32_t param_id,
uint32_t param_val, uint32_t req_cat);
/**
* sme_set_reorder_timeout() - set reorder timeout value
* including Voice,Video,Besteffort,Background parameters
* @hal: hal handle for getting global mac struct
* @reg: struct sir_set_rx_reorder_timeout_val
*
* Return: QDF_STATUS_SUCCESS or non-zero on failure.
*/
QDF_STATUS sme_set_reorder_timeout(tHalHandle hal,
struct sir_set_rx_reorder_timeout_val *req);
/**
* sme_set_rx_set_blocksize() - set blocksize value
* including mac_addr and win_limit parameters
* @hal: hal handle for getting global mac struct
* @reg: struct sir_peer_set_rx_blocksize
*
* Return: QDF_STATUS_SUCCESS or non-zero on failure.
*/
QDF_STATUS sme_set_rx_set_blocksize(tHalHandle hal,
struct sir_peer_set_rx_blocksize *req);
/**
* sme_get_rcpi() - gets the rcpi value for peer mac addr
* @hal: handle returned by mac_open
* @rcpi: rcpi request containing peer mac addr, callback and related info
*
* This function posts the rcpi measurement request message to wma queue
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_get_rcpi(tHalHandle hal, struct sme_rcpi_req *rcpi);
/**
* sme_set_chip_pwr_save_fail_cb() - set chip power save failure callback
* @mac_handle: opaque handle to the MAC context
* @cb: callback function pointer
*
* This function stores the chip power save failure callback function.
*
* Return: QDF_STATUS enumeration.
*/
QDF_STATUS sme_set_chip_pwr_save_fail_cb(mac_handle_t mac_handle,
pwr_save_fail_cb cb);
/**
* sme_cli_set_command() - SME wrapper API over WMA "set" command
* processor cmd
* @vdev_id: virtual device for the command
* @param_id: parameter id
* @sval: parameter value
* @vpdev: parameter category
*
* Command handler for set operations
*
* Return: 0 on success, errno on failure
*/
int sme_cli_set_command(int vdev_id, int param_id, int sval, int vpdev);
/**
* sme_set_bt_activity_info_cb - set the callback handler for bt events
* @mac_handle: handle returned by mac_open
* @cb: callback handler
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_set_bt_activity_info_cb(mac_handle_t mac_handle,
bt_activity_info_cb cb);
/**
* sme_set_smps_cfg() - set SMPS config params
* @vdev_id: virtual device for the command
* @param_id: parameter id
* @param_val: parameter value
*
* Return: QDF_STATUS_SUCCESS or non-zero on failure
*/
QDF_STATUS sme_set_smps_cfg(uint32_t vdev_id, uint32_t param_id,
uint32_t param_val);
/**
* sme_get_peer_stats() - sme api to post peer info request
* @mac: mac handle
* @req: peer info request struct send to wma
*
* Return: QDF_STATUS_SUCCESS or non-zero on failure
*/
QDF_STATUS sme_get_peer_stats(tpAniSirGlobal mac,
struct sir_peer_info_req req);
/**
* sme_get_peer_info() - sme api to get peer info
* @hal: hal handle for getting global mac struct
* @req: peer info request struct send to wma
* @context: context of callback function
* @callbackfn: hdd callback function when receive response
*
* This function will send WMA_GET_PEER_INFO to WMA
*
* Return: QDF_STATUS_SUCCESS or non-zero on failure
*/
QDF_STATUS sme_get_peer_info(tHalHandle hal,
struct sir_peer_info_req req,
void *context,
void (*callbackfn)(struct sir_peer_info_resp *param,
void *pcontext));
/**
* sme_get_peer_info_ext() - sme api to get peer ext info
* @hal: hal handle for getting global mac struct
* @req: peer ext info request struct send to wma
* @context: context of callback function
* @callbackfn: hdd callback function when receive response
*
* This function will send WMA_GET_PEER_INFO_EXT to WMA
*
* Return: QDF_STATUS_SUCCESS or non-zero on failure
*/
QDF_STATUS sme_get_peer_info_ext(tHalHandle hal,
struct sir_peer_info_ext_req *req,
void *context,
void (*callbackfn)(struct sir_peer_info_ext_resp *param,
void *pcontext));
/**
* sme_set_5g_band_pref() - sme api to set 5Ghz preference
* @hal: hal handle for getting global mac struct
* @pref_params: preference info request struct
*
* This function will set 5Ghz preference for STA connection
*
* Return: None
*/
void sme_set_5g_band_pref(tHalHandle hal_handle,
struct sme_5g_band_pref_params *pref_params);
/**
* sme_get_chain_rssi() - Get chain rssi
* @hal: Global HAL handle
* @input: get chain rssi req params
* @callback: Callback function to be called with the result
* @context: Opaque context to be used by the caller to associate the
* request with the response
*
* This function constructs the cds message and fill in message type,
* post the same to WDA.
*
* Return: QDF_STATUS enumeration
*/
QDF_STATUS sme_get_chain_rssi(tHalHandle hal,
struct get_chain_rssi_req_params *input,
get_chain_rssi_callback callback,
void *context);
/**
* sme_get_valid_channels() - sme api to get valid channels for
* current regulatory domain
* @chan_list: list of the valid channels
* @list_len: length of the channel list
*
* This function will get valid channels for current regulatory
* domain
*
* Return: QDF_STATUS_SUCCESS or non-zero on failure
*/
QDF_STATUS sme_get_valid_channels(uint8_t *chan_list, uint32_t *list_len);
/**
* sme_get_mac_context() - sme api to get the pmac context
*
* This function will return the pmac context
*
* Return: pointer to pmac context
*/
tpAniSirGlobal sme_get_mac_context(void);
/**
* sme_display_disconnect_stats() - Display per session Disconnect stats
* @hal: hal global context
* session_id: SME session id
*
* Return: None
*/
void sme_display_disconnect_stats(tHalHandle hal, uint8_t session_id);
/**
* sme_process_msg_callback() - process callback message from LIM
* @mac: global mac context
* @msg: scheduler message
*
* This function process the callback messages from LIM.
*
* Return: QDF_STATUS enumeration.
*/
QDF_STATUS sme_process_msg_callback(tpAniSirGlobal mac,
struct scheduler_msg *msg);
/**
* sme_set_bmiss_bcnt() - set bmiss config parameters
* @vdev_id: virtual device for the command
* @first_cnt: bmiss first value
* @final_cnt: bmiss final value
*
* Return: QDF_STATUS_SUCCESS or non-zero on failure
*/
QDF_STATUS sme_set_bmiss_bcnt(uint32_t vdev_id, uint32_t first_cnt,
uint32_t final_cnt);
/**
* sme_send_limit_off_channel_params() - send limit off channel parameters
* @hal: global hal handle
* @vdev_id: vdev id
* @is_tos_active: tos active or inactive
* @max_off_chan_time: max off channel time
* @rest_time: rest time
* @skip_dfs_chan: skip dfs channel
*
* This function sends command to WMA for setting limit off channel command
* parameters.
*
* Return: QDF_STATUS enumeration.
*/
QDF_STATUS sme_send_limit_off_channel_params(tHalHandle hal, uint8_t vdev_id,
bool is_tos_active, uint32_t max_off_chan_time,
uint32_t rest_time, bool skip_dfs_chan);
#ifdef FEATURE_WLAN_DYNAMIC_CVM
/**
* sme_set_vc_mode_config() - Set voltage corner config to FW.
* @bitmap: Bitmap that refers to voltage corner config with
* different phymode and bw configuration
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_set_vc_mode_config(uint32_t vc_bitmap);
#endif
/**
* sme_set_del_pmkid_cache() - API to update PMKID cache
* @hal: HAL handle for device
* @session_id: Session id
* @pmk_cache_info: Pointer to PMK cache info
* @is_add: boolean that implies whether to add or delete PMKID entry
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_set_del_pmkid_cache(tHalHandle hal, uint8_t session_id,
tPmkidCacheInfo *pmk_cache_info,
bool is_add);
/**
* sme_send_hlp_ie_info() - API to send HLP IE info to fw
* @hal: HAL handle for device
* @session_id: Session id
* @profile: CSR Roam profile
* @if_addr: IP address
*
* This API is used to send HLP IE info along with IP address
* to fw if LFR3 is enabled.
*
* Return: QDF_STATUS
*/
void sme_send_hlp_ie_info(tHalHandle hal, uint8_t session_id,
struct csr_roam_profile *profile, uint32_t if_addr);
#if defined(WLAN_FEATURE_FILS_SK)
/**
* sme_update_fils_config - Update FILS config to CSR roam session
* @hal: HAL handle for device
* @session_id: session id
* @src_profile: Source profile having latest FILS config
*
* API to update FILS config to roam csr session and update the same
* to fw if LFR3 is enabled.
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_update_fils_config(tHalHandle hal, uint8_t session_id,
struct csr_roam_profile *src_profile);
/**
* sme_free_join_rsp_fils_params - free fils params
* @roam_info: roam info
*
* Return: void
*/
void sme_free_join_rsp_fils_params(struct csr_roam_info *roam_info);
#else
static inline QDF_STATUS sme_update_fils_config(tHalHandle hal,
uint8_t session_id,
struct csr_roam_profile *src_profile)
{
return QDF_STATUS_SUCCESS;
}
static inline
void sme_free_join_rsp_fils_params(struct csr_roam_info *roam_info)
{}
#endif
#ifdef WLAN_FEATURE_11AX_BSS_COLOR
/**
* sme_set_he_bss_color() - Sets the HE BSS color
*
* @hal: The handle returned by mac_open
* @session_id: session_id of the request
* @bss_color: HE BSS color value to set
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_set_he_bss_color(tHalHandle hal, uint8_t session_id,
uint8_t bss_color);
#else
static inline QDF_STATUS sme_set_he_bss_color(tHalHandle hal,
uint8_t session_id, uint8_t bss_color)
{
return QDF_STATUS_SUCCESS;
}
#endif
/**
* sme_scan_get_result_for_bssid - gets the scan result from scan cache for the
* bssid specified
* @hal: handle returned by mac_open
* @bssid: bssid to get the scan result for
* @res: pointer to tCsrScanResultInfo allocated from caller
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_scan_get_result_for_bssid(tHalHandle hal_handle,
struct qdf_mac_addr *bssid,
tCsrScanResultInfo *res);
/**
* sme_get_bss_transition_status() - get bss transition status all cadidates
* @hal: handle returned by mac_open
* @transition_reason : Transition reason
* @bssid: bssid to get BSS transition status
* @info : bss candidate information
* @n_candidates : number of candidates
* @is_bt_in_progress: bt activity indicator
*
* Return : 0 on success otherwise errno
*/
int sme_get_bss_transition_status(tHalHandle hal,
uint8_t transition_reason,
struct qdf_mac_addr *bssid,
struct bss_candidate_info *info,
uint16_t n_candidates,
bool is_bt_in_progress);
/**
* sme_unpack_rsn_ie: wrapper to unpack RSN IE and update def RSN params
* if optional fields are not present.
* @hal: handle returned by mac_open
* @buf: rsn ie buffer pointer
* @buf_len: rsn ie buffer length
* @rsn_ie: outframe rsn ie structure
* @append_ie: flag to indicate if the rsn_ie need to be appended from buf
*
* Return: parse status
*/
uint32_t sme_unpack_rsn_ie(tHalHandle hal, uint8_t *buf,
uint8_t buf_len, tDot11fIERSN *rsn_ie,
bool append_ie);
/**
* sme_get_oper_chan_freq - gets the operating channel freq
* @vdev: vdev handle
*
* Return: operating channel frequency
*/
int16_t sme_get_oper_chan_freq(struct wlan_objmgr_vdev *vdev);
/**
* sme_get_oper_ch_width - gets the operating channel width
* @vdev: vdev handle
*
* Return: operating channel width
*/
enum phy_ch_width sme_get_oper_ch_width(struct wlan_objmgr_vdev *vdev);
/**
* sme_get_oper_ch_width - gets the secondary channel frequency
* @vdev: vdev handle
* @sec20chan_freq: secondary channel frequency
*
* Return: secondary channel frequency
*/
int sme_get_sec20chan_freq_mhz(struct wlan_objmgr_vdev *vdev,
uint16_t *sec20chan_freq);
/**
* sme_enable_roaming_on_connected_sta() - Enable roaming on an connected sta
* @hal: handle returned by mac_open
*
* The function check if any connected STA is present on which roaming is not
* enabled and if present enabled roaming on that STA.
*
* Return: none
*/
void sme_enable_roaming_on_connected_sta(tHalHandle hal);
/**
* sme_send_mgmt_tx() - Sends mgmt frame from CSR to LIM
* @hal: The handle returned by mac_open
* @session_id: session id
* @buf: pointer to frame
* @len: frame length
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_send_mgmt_tx(tHalHandle hal, uint8_t session_id,
const uint8_t *buf, uint32_t len);
#ifdef WLAN_FEATURE_SAE
/**
* sme_handle_sae_msg() - Sends SAE message received from supplicant
* @hal: The handle returned by mac_open
* @session_id: session id
* @sae_status: status of SAE authentication
*
* Return: QDF_STATUS
*/
QDF_STATUS sme_handle_sae_msg(tHalHandle hal, uint8_t session_id,
uint8_t sae_status);
#else
static inline QDF_STATUS sme_handle_sae_msg(tHalHandle hal, uint8_t session_id,
uint8_t sae_status)
{
return QDF_STATUS_SUCCESS;
}
#endif
/**
* sme_set_ba_buff_size() - sets BA buffer size
* @hal: Pointer to HAL
* @session_id: SME session id
* @buff_size: BA buffer size
*
* Return: 0 on success else err code
*/
int sme_set_ba_buff_size(tHalHandle hal, uint8_t session_id,
uint16_t buff_size);
/**
* sme_send_addba_req() - send ADDBA request with user config
* @hal: Pointer to HAL
* @session_id: SME session id
* @tid: tid val for BA session
* @buff_size: BA buffer size
*
* Return: 0 on success else err code
*/
int sme_send_addba_req(tHalHandle hal, uint8_t session_id, uint8_t tid,
uint16_t buff_size);
/**
* sme_set_no_ack_policy() - Sets no ack policy for AC
* @hal: Pointer to HAL
* @session_id: SME session id
* @val: no ack policy value
* @ac: access category
*
* Return: 0 on success else err code
*/
int sme_set_no_ack_policy(tHalHandle hal, uint8_t session_id,
uint8_t val, uint8_t ac);
/**
* sme_set_auto_rate_he_sgi() - Sets SGI for auto rate
* @hal: Pointer to HAL
* @session_id: SME session id
* @cfg_val: SGI configuration value
*
* Return: 0 on success else err code
*/
int sme_set_auto_rate_he_sgi(tHalHandle hal, uint8_t session_id,
uint8_t cfg_val);
/**
* sme_set_auto_rate_he_ltf() - Sets HE LTF for auto rate
* @hal: Pointer to HAL
* @session_id: SME session id
* @cfg_val: LTF configuration value
*
* Return: 0 on success else err code
*/
int sme_set_auto_rate_he_ltf(tHalHandle hal, uint8_t session_id,
uint8_t cfg_val);
#ifdef WLAN_FEATURE_11AX
/**
* sme_update_tgt_he_cap() - sets the HE caps to pmac
* @mac_handle: Pointer to MAC handle
* @cfg: Pointer to WMA target CFG
*
* Return: None
*/
void sme_update_tgt_he_cap(mac_handle_t mac_handle, struct wma_tgt_cfg *cfg);
/**
* sme_update_he_cap_nss() - sets the nss based on user request
* @hal: Pointer to HAL
* @session_id: SME session id
* @nss: no.of spatial streams value
*
* Return: None
*/
void sme_update_he_cap_nss(tHalHandle hal, uint8_t session_id,
uint8_t nss);
/**
* sme_update_he_tx_bfee_supp() - sets the HE Tx Bfee support
* @hal: Pointer to HAL
* @session_id: SME session id
* @cfg_val: Tx Bfee config value
*
* Return: 0 on success else err code
*/
int sme_update_he_tx_bfee_supp(tHalHandle hal, uint8_t session_id,
uint8_t cfg_val);
/**
* sme_update_he_tx_bfee_nsts() - sets the HE Tx Bfee NSTS
* @hal: MAC handle
* @session_id: SME session id
* @cfg_val: Tx Bfee NSTS value
*
* Return: 0 on success else err code
*/
int sme_update_he_tx_bfee_nsts(mac_handle_t hal, uint8_t session_id,
uint8_t cfg_val);
/**
* sme_set_he_tx_bf_cbf_rates() - sets the HE Tx Bfee CBF frame rates to FW
* @session_id: SME session id
*
* Return: None
*/
void sme_set_he_tx_bf_cbf_rates(uint8_t session_id);
/**
* sme_update_he_mcs() - sets the HE MCS based on user request
* @hal: Pointer to HAL
* @session_id: SME session id
* @he_mcs: HE MCS value
*
* Return: 0 on success else err code
*/
int sme_update_he_mcs(tHalHandle hal, uint8_t session_id, uint16_t he_mcs);
/**
* sme_update_he_trigger_frm_mac_pad() - sets the HE MAC padding capability
* @hal: Pointer to HAL
* @session_id: SME session id
* @cfg_val: HE MAC padding duration value
*
* Return: 0 on success else err code
*/
int sme_update_he_trigger_frm_mac_pad(mac_handle_t hal, uint8_t session_id,
uint8_t cfg_val);
/**
* sme_set_usr_cfg_mu_edca() - sets the user cfg MU EDCA params flag
* @hal: Pointer to HAL
* @val: value to be set
*
* Return: none
*/
void sme_set_usr_cfg_mu_edca(mac_handle_t hal, bool val);
/**
* sme_set_he_mu_edca_def_cfg() - sets the default MU EDCA params values
* @hal: Pointer to HAL
*
* Return: none
*/
void sme_set_he_mu_edca_def_cfg(mac_handle_t hal);
/**
* sme_update_mu_edca_params() - updates MU EDCA params values
* @hal: Pointer to HAL
* @session_id: SME session id
*
* Return: 0 on success else err code
*/
int sme_update_mu_edca_params(mac_handle_t hal, uint8_t session_id);
/**
* sme_update_he_tx_stbc_cap() - Sets the HE Tx STBC capability
* @hal: Pointer to HAL
* @session_id: SME session id
* @value: set value
*
* Return: 0 on success else err code
*/
int sme_update_he_tx_stbc_cap(tHalHandle hal, uint8_t session_id, int value);
/**
* sme_update_he_rx_stbc_cap() - Sets the HE Rx STBC capability
* @hal: Pointer to HAL
* @session_id: SME session id
* @value: set value
*
* Return: 0 on success else err code
*/
int sme_update_he_rx_stbc_cap(tHalHandle hal, uint8_t session_id, int value);
/**
* sme_update_he_frag_supp() - sets the HE fragmentation support
* @hal: Pointer to HAL
* @session_id: SME session id
* @he_frag: HE fragmention support value
*
* Return: 0 on success else err code
*/
int sme_update_he_frag_supp(tHalHandle hal, uint8_t session_id,
uint16_t he_frag);
/**
* sme_update_he_ldpc_supp() - sets the HE LDPC support
* @hal: Pointer to HAL
* @session_id: SME session id
* @he_ldpc: HE LDPC support value
*
* Return: 0 on success else err code
*/
int sme_update_he_ldpc_supp(tHalHandle hal, uint8_t session_id,
uint16_t he_ldpc);
#else
static inline void sme_update_tgt_he_cap(mac_handle_t mac_handle,
struct wma_tgt_cfg *cfg)
{}
static inline void sme_update_he_cap_nss(tHalHandle hal, uint8_t session_id,
uint8_t nss)
{}
static inline int sme_update_he_mcs(tHalHandle hal, uint8_t session_id,
uint16_t he_mcs)
{
return 0;
}
static inline void sme_set_he_mu_edca_def_cfg(mac_handle_t hal)
{
}
static inline int sme_update_mu_edca_params(mac_handle_t hal,
uint8_t session_id)
{
return 0;
}
static inline int sme_update_he_trigger_frm_mac_pad(mac_handle_t hal,
uint8_t session_id,
uint8_t cfg_val)
{
return 0;
}
static inline void sme_set_usr_cfg_mu_edca(mac_handle_t hal, bool val)
{
}
static inline int sme_update_he_tx_stbc_cap(tHalHandle hal, uint8_t session_id,
int value)
{
return 0;
}
static inline int sme_update_he_rx_stbc_cap(tHalHandle hal, uint8_t session_id,
int value)
{
return 0;
}
static inline int sme_update_he_frag_supp(tHalHandle hal, uint8_t session_id,
uint16_t he_frag)
{
return 0;
}
static inline int sme_update_he_ldpc_supp(tHalHandle hal, uint8_t session_id,
uint16_t he_ldpc)
{
return 0;
}
static inline int sme_update_he_tx_bfee_supp(tHalHandle hal, uint8_t session_id,
uint8_t cfg_val)
{
return 0;
}
static inline int sme_update_he_tx_bfee_nsts(mac_handle_t hal, uint8_t session_id,
uint8_t cfg_val)
{
return 0;
}
static inline void sme_set_he_tx_bf_cbf_rates(uint8_t session_id)
{
}
#endif
/**
* sme_is_sta_key_exchange_in_progress() - checks whether the STA/P2P client
* session has key exchange in progress
*
* @hal: global hal handle
* @session_id: session id
*
* Return: true - if key exchange in progress
* false - if not in progress
*/
bool sme_is_sta_key_exchange_in_progress(tHalHandle hal, uint8_t session_id);
/*
* sme_validate_channel_list() - Validate the given channel list
* @hal: handle to global hal context
* @chan_list: Pointer to the channel list
* @num_channels: number of channels present in the chan_list
*
* Validates the given channel list with base channels in mac context
*
* Return: True if all channels in the list are valid, false otherwise
*/
bool sme_validate_channel_list(tHalHandle hal,
uint8_t *chan_list,
uint8_t num_channels);
/**
* sme_set_amsdu() - set amsdu enable/disable based on user cfg
* @hal: Pointer to HAL
* @enable: enable or disable
*
* Return: None
*/
void sme_set_amsdu(tHalHandle hal, bool enable);
/**
* sme_get_mcs_idx() - gets mcs index
* @max_rate: max rate
* @rate_flags: rate flags
* @nss: number of nss
* @mcs_rate_flags: mcs rate flag
*
* Return: return mcs index
*/
uint8_t sme_get_mcs_idx(uint16_t max_rate, uint8_t rate_flags,
uint8_t *nss, uint8_t *mcs_rate_flags);
#ifdef WLAN_SUPPORT_TWT
/**
* sme_register_twt_enable_complete_cb() - TWT enable registrar
* @mac_handle: MAC handle
* @twt_enable_cb: Function callback to handle enable event
*
* Return: QDF Status
*/
QDF_STATUS sme_register_twt_enable_complete_cb(mac_handle_t mac_handle,
twt_enable_cb twt_enable_cb);
/**
* sme_register_twt_disable_complete_cb - TWT disable registrar
* @mac_handle: MAC handle
* @twt_disable_cb: Function callback to handle disable event
*
* Return: QDF Status
*/
QDF_STATUS sme_register_twt_disable_complete_cb(mac_handle_t mac_handle,
twt_disable_cb twt_disable_cb);
/**
* sme_deregister_twt_enable_complete_cb() - TWT enable deregistrar
* @hal: HAL handle
*
* Return: QDF Status
*/
QDF_STATUS sme_deregister_twt_enable_complete_cb(mac_handle_t mac_handle);
/**
* sme_deregister_twt_disable_complete_cb - TWT disable deregistrar
* @hal: HAL handle
*
* Return: QDF Status
*/
QDF_STATUS sme_deregister_twt_disable_complete_cb(mac_handle_t mac_handle);
#else
static inline
QDF_STATUS sme_register_twt_enable_complete_cb(mac_handle_t mac_handle,
twt_enable_cb twt_enable_cb)
{
return QDF_STATUS_SUCCESS;
}
static inline
QDF_STATUS sme_register_twt_disable_complete_cb(mac_handle_t mac_handle,
twt_disable_cb twt_disable_cb)
{
return QDF_STATUS_SUCCESS;
}
static inline
QDF_STATUS sme_deregister_twt_enable_complete_cb(mac_handle_t mac_handle)
{
return QDF_STATUS_SUCCESS;
}
static inline
QDF_STATUS sme_deregister_twt_disable_complete_cb(mac_handle_t mac_handle)
{
return QDF_STATUS_SUCCESS;
}
#endif
/**
* sme_find_session_by_bssid() - checks whether has session
* with given bssid
* @hal: global hal handle
* @bssid: bssid
* Return: true - if has the session
* false - if not has the session
*/
bool sme_find_session_by_bssid(tHalHandle hal, uint8_t *bssid);
/**
* sme_get_roam_scan_stats() - Send roam scan stats cmd to wma
* @hal: handle returned by mac_open
* @cb: call-back invoked for roam scan stats response
* @context: context of callback
* @vdev_id: vdev id
*
* Return: QDF_STATUS
*/
QDF_STATUS
sme_get_roam_scan_stats(tHalHandle hal, roam_scan_stats_cb cb, void *context,
uint32_t vdev_id);
#endif /* #if !defined( __SME_API_H ) */