/* * Copyright (c) 2017-2021, The Linux Foundation. All rights reserved. * Copyright (c) 2022 Qualcomm Innovation Center, Inc. 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. */ #ifndef _QDF_IPA_H #define _QDF_IPA_H #ifdef IPA_OFFLOAD #include /** * enum qdf_ipa_wlan_event - QDF IPA events * @QDF_IPA_CLIENT_CONNECT: Client Connects * @QDF_IPA_CLIENT_DISCONNECT: Client Disconnects * @QDF_IPA_AP_CONNECT: SoftAP is started * @QDF_IPA_AP_DISCONNECT: SoftAP is stopped * @QDF_IPA_STA_CONNECT: STA associates to AP * @QDF_IPA_STA_DISCONNECT: STA dissociates from AP * @QDF_IPA_CLIENT_CONNECT_EX: Peer associates/re-associates to softap * @QDF_SWITCH_TO_SCC: WLAN interfaces in scc mode * @QDF_SWITCH_TO_MCC: WLAN interfaces in mcc mode * @QDF_WDI_ENABLE: WDI enable complete * @QDF_WDI_DISABLE: WDI teardown * @QDF_FWR_SSR_BEFORE_SHUTDOWN: WLAN FW recovery * @QDF_IPA_WLAN_EVENT_MAX: Max value for the enum */ typedef enum { QDF_IPA_CLIENT_CONNECT, QDF_IPA_CLIENT_DISCONNECT, QDF_IPA_AP_CONNECT, QDF_IPA_AP_DISCONNECT, QDF_IPA_STA_CONNECT, QDF_IPA_STA_DISCONNECT, QDF_IPA_CLIENT_CONNECT_EX, QDF_SWITCH_TO_SCC, QDF_SWITCH_TO_MCC, QDF_WDI_ENABLE, QDF_WDI_DISABLE, QDF_FWR_SSR_BEFORE_SHUTDOWN, QDF_IPA_WLAN_EVENT_MAX } qdf_ipa_wlan_event; /** * qdf_ipa_wdi_meter_evt_type_t - type of event client callback is * for AP+STA mode metering * @IPA_GET_WDI_SAP_STATS: get IPA_stats between SAP and STA - * use ipa_get_wdi_sap_stats structure * @IPA_SET_WIFI_QUOTA: set quota limit on STA - * use ipa_set_wifi_quota structure */ typedef __qdf_ipa_wdi_meter_evt_type_t qdf_ipa_wdi_meter_evt_type_t; typedef __qdf_ipa_get_wdi_sap_stats_t qdf_ipa_get_wdi_sap_stats_t; /** * qdf_ipa_set_wifi_quota_t - structure used for * IPA_SET_WIFI_QUOTA. */ typedef __qdf_ipa_set_wifi_quota_t qdf_ipa_set_wifi_quota_t; /** * qdf_ipa_connect_params_t - low-level client connect input parameters. Either * client allocates the data and desc FIFO and specifies that in data+desc OR * specifies sizes and pipe_mem pref and IPA does the allocation. */ typedef __qdf_ipa_connect_params_t qdf_ipa_connect_params_t; /** * qdf_ipa_tx_meta_t - meta-data for the TX packet */ typedef __qdf_ipa_tx_meta_t qdf_ipa_tx_meta_t; /** * __qdf_ipa_sps_params_t - SPS related output parameters resulting from */ typedef __qdf_ipa_sps_params_t qdf_ipa_sps_params_t; /** * qdf_ipa_tx_intf_t - interface tx properties */ typedef __qdf_ipa_tx_intf_t qdf_ipa_tx_intf_t; /** * qdf_ipa_rx_intf_t - interface rx properties */ typedef __qdf_ipa_rx_intf_t qdf_ipa_rx_intf_t; /** * qdf_ipa_ext_intf_t - interface ext properties */ typedef __qdf_ipa_ext_intf_t qdf_ipa_ext_intf_t; /** * qdf_ipa_sys_connect_params_t - information needed to setup an IPA end-point * in system-BAM mode */ typedef __qdf_ipa_sys_connect_params_t qdf_ipa_sys_connect_params_t; /** * __qdf_pa_rm_event_t - IPA RM events * * Indicate the resource state change */ typedef __qdf_ipa_rm_event_t qdf_ipa_rm_event_t; /** * struct qdf_ipa_rm_register_params_t - information needed to * register IPA RM client with IPA RM */ typedef __qdf_ipa_rm_register_params_t qdf_ipa_rm_register_params_t; /** * struct qdf_ipa_rm_create_params_t - information needed to initialize * the resource * * IPA RM client is expected to perform non blocking operations only * in request_resource and release_resource functions and * release notification context as soon as possible. */ typedef __qdf_ipa_rm_create_params_t qdf_ipa_rm_create_params_t; /** * qdf_ipa_rm_perf_profile_t - information regarding IPA RM client performance * profile */ typedef __qdf_ipa_rm_perf_profile_t qdf_ipa_rm_perf_profile_t; /** * qdf_ipa_tx_data_desc_t - information needed * to send data packet to HW link: link to data descriptors * priv: client specific private data */ typedef __qdf_ipa_tx_data_desc_t qdf_ipa_tx_data_desc_t; /** * qdf_ipa_rx_data_t - information needed * to send to wlan driver on receiving data from ipa hw */ typedef __qdf_ipa_rx_data_t qdf_ipa_rx_data_t; /** * qdf_ipa_wdi_ul_params_t - WDI_RX configuration */ typedef __qdf_ipa_wdi_ul_params_t qdf_ipa_wdi_ul_params_t; /** * qdf_ipa_wdi_ul_params_smmu_t - WDI_RX configuration (with WLAN SMMU) */ typedef __qdf_ipa_wdi_ul_params_smmu_t qdf_ipa_wdi_ul_params_smmu_t; /** * qdf_ipa_wdi_dl_params_t - WDI_TX configuration */ typedef __qdf_ipa_wdi_dl_params_t qdf_ipa_wdi_dl_params_t; /** * qdf_ipa_wdi_dl_params_smmu_t - WDI_TX configuration (with WLAN SMMU) */ typedef __qdf_ipa_wdi_dl_params_smmu_t qdf_ipa_wdi_dl_params_smmu_t; /** * qdf_ipa_wdi_in_params_t - information provided by WDI client */ typedef __qdf_ipa_wdi_in_params_t qdf_ipa_wdi_in_params_t; /** * qdf_ipa_wdi_out_params_t - information provided to WDI client */ typedef __qdf_ipa_wdi_out_params_t qdf_ipa_wdi_out_params_t; /** * qdf_ipa_wdi_db_params_t - information provided to retrieve * physical address of uC doorbell */ typedef __qdf_ipa_wdi_db_params_t qdf_ipa_wdi_db_params_t; /** * qdf_ipa_wdi_uc_ready_params_t - uC ready CB parameters */ typedef void (*qdf_ipa_uc_ready_cb)(void *priv); typedef __qdf_ipa_wdi_uc_ready_params_t qdf_ipa_wdi_uc_ready_params_t; /** * qdf_ipa_wdi_buffer_info_t - address info of a WLAN allocated buffer * * IPA driver will create/release IOMMU mapping in IPA SMMU from iova->pa */ typedef __qdf_ipa_wdi_buffer_info_t qdf_ipa_wdi_buffer_info_t; /** * qdf_ipa_gsi_ep_config_t - IPA GSI endpoint configurations */ typedef __qdf_ipa_gsi_ep_config_t qdf_ipa_gsi_ep_config_t; /** * qdf_ipa_dp_evt_type_t - type of event client callback is * invoked for on data path * @IPA_RECEIVE: data is struct sk_buff * @IPA_WRITE_DONE: data is struct sk_buff */ typedef __qdf_ipa_dp_evt_type_t qdf_ipa_dp_evt_type_t; #ifdef WDI3_STATS_UPDATE /** * qdf_ipa_wdi_tx_info_t - WLAN embedded TX bytes information * * WLAN host fills this structure to update IPA driver about * embedded TX information. */ typedef __qdf_ipa_wdi_tx_info_t qdf_ipa_wdi_tx_info_t; /** * qdf_ipa_wdi_bw_info_t - BW threshold levels to be monitored * by IPA uC */ typedef __qdf_ipa_wdi_bw_info_t qdf_ipa_wdi_bw_info_t; /** * qdf_ipa_inform_wlan_bw_t - BW information given by IPA driver * whenever uC detects threshold level reached */ typedef __qdf_ipa_inform_wlan_bw_t qdf_ipa_inform_wlan_bw_t; #endif typedef __qdf_ipa_hdr_add_t qdf_ipa_hdr_add_t; typedef __qdf_ipa_hdr_del_t qdf_ipa_hdr_del_t; typedef __qdf_ipa_ioc_add_hdr_t qdf_ipa_ioc_add_hdr_t; typedef __qdf_ipa_ioc_del_hdr_t qdf_ipa_ioc_del_hdr_t; typedef __qdf_ipa_ioc_get_hdr_t qdf_ipa_ioc_get_hdr_t; typedef __qdf_ipa_ioc_copy_hdr_t qdf_ipa_ioc_copy_hdr_t; typedef __qdf_ipa_ioc_add_hdr_proc_ctx_t qdf_ipa_ioc_add_hdr_proc_ctx_t; typedef __qdf_ipa_ioc_del_hdr_proc_ctx_t qdf_ipa_ioc_del_hdr_proc_ctx_t; typedef __qdf_ipa_msg_meta_t qdf_ipa_msg_meta_t; typedef __qdf_ipa_client_type_t qdf_ipa_client_type_t; typedef __qdf_ipa_hw_stats_wdi_info_data_t qdf_ipa_hw_stats_wdi_info_data_t; typedef __qdf_ipa_rm_resource_name_t qdf_ipa_rm_resource_name_t; typedef __qdf_ipa_wlan_event_t qdf_ipa_wlan_event_t; typedef __qdf_ipa_wlan_msg_t qdf_ipa_wlan_msg_t; typedef __qdf_ipa_wlan_msg_ex_t qdf_ipa_wlan_msg_ex_t; typedef __qdf_ipa_ioc_tx_intf_prop_t qdf_ipa_ioc_tx_intf_prop_t; typedef __qdf_ipa_ioc_rx_intf_prop_t qdf_ipa_ioc_rx_intf_prop_t; typedef __qdf_ipa_wlan_hdr_attrib_val_t qdf_ipa_wlan_hdr_attrib_val_t; typedef int (*qdf_ipa_msg_pull_fn)(void *buff, u32 len, u32 type); typedef void (*qdf_ipa_ready_cb)(void *user_data); #ifdef IPA_WDS_EASYMESH_FEATURE /** * __qdf_ipa_ast_info_type_t - AST entry create/update information */ typedef __qdf_ipa_ast_info_type_t qdf_ipa_ast_info_type_t; #endif #define QDF_IPA_SET_META_MSG_TYPE(meta, msg_type) \ __QDF_IPA_SET_META_MSG_TYPE(meta, msg_type) #define QDF_IPA_RM_RESOURCE_GRANTED __QDF_IPA_RM_RESOURCE_GRANTED #define QDF_IPA_RM_RESOURCE_RELEASED __QDF_IPA_RM_RESOURCE_RELEASED #define QDF_IPA_VOLTAGE_LEVEL __QDF_IPA_VOLTAGE_LEVEL #define QDF_IPA_RM_RESOURCE_WLAN_PROD __QDF_IPA_RM_RESOURCE_WLAN_PROD #define QDF_IPA_RM_RESOURCE_WLAN_CONS __QDF_IPA_RM_RESOURCE_WLAN_CONS #define QDF_IPA_RM_RESOURCE_APPS_CONS __QDF_IPA_RM_RESOURCE_APPS_CONS #define QDF_IPA_CLIENT_WLAN1_PROD __QDF_IPA_CLIENT_WLAN1_PROD #define QDF_IPA_CLIENT_WLAN3_PROD __QDF_IPA_CLIENT_WLAN3_PROD #define QDF_IPA_CLIENT_WLAN1_CONS __QDF_IPA_CLIENT_WLAN1_CONS #define QDF_IPA_CLIENT_WLAN2_CONS __QDF_IPA_CLIENT_WLAN2_CONS #define QDF_IPA_CLIENT_WLAN3_CONS __QDF_IPA_CLIENT_WLAN3_CONS #define QDF_IPA_CLIENT_WLAN4_CONS __QDF_IPA_CLIENT_WLAN4_CONS #define QDF_IPA_CLIENT_WLAN4_PROD __QDF_IPA_CLIENT_WLAN4_PROD #ifdef FEATURE_IPA_PIPE_CHANGE_WDI1 #define QDF_IPA_CLIENT_WLAN_LEGACY_CONS QDF_IPA_CLIENT_WLAN3_CONS #define QDF_IPA_CLIENT_WLAN_LEGACY_PROD QDF_IPA_CLIENT_WLAN3_PROD #define QDF_IPA_CLIENT_MCC2_CONS QDF_IPA_CLIENT_WLAN4_CONS #else #define QDF_IPA_CLIENT_WLAN_LEGACY_CONS QDF_IPA_CLIENT_WLAN1_CONS #define QDF_IPA_CLIENT_WLAN_LEGACY_PROD QDF_IPA_CLIENT_WLAN1_PROD #define QDF_IPA_CLIENT_MCC2_CONS QDF_IPA_CLIENT_WLAN3_CONS #endif #ifdef QCN7605_SUPPORT #define QDF_IPA_CLIENT_WLAN_WDI2_CONS __QDF_IPA_CLIENT_WLAN_WDI2_CONS #define QDF_IPA_CLIENT_WLAN_WDI2_PROD __QDF_IPA_CLIENT_WLAN_WDI2_PROD #else #define QDF_IPA_CLIENT_WLAN_WDI2_CONS QDF_IPA_CLIENT_WLAN1_CONS #define QDF_IPA_CLIENT_WLAN_WDI2_PROD QDF_IPA_CLIENT_WLAN1_PROD #endif /* * Resume / Suspend */ #if (LINUX_VERSION_CODE < KERNEL_VERSION(5, 10, 0)) static inline int qdf_ipa_reset_endpoint(u32 clnt_hdl) { return __qdf_ipa_reset_endpoint(clnt_hdl); } /* * Remove ep delay */ static inline int qdf_ipa_clear_endpoint_delay(u32 clnt_hdl) { return __qdf_ipa_clear_endpoint_delay(clnt_hdl); } /* * Header removal / addition */ static inline int qdf_ipa_add_hdr(qdf_ipa_ioc_add_hdr_t *hdrs) { return __qdf_ipa_add_hdr(hdrs); } static inline int qdf_ipa_del_hdr(qdf_ipa_ioc_del_hdr_t *hdls) { return __qdf_ipa_del_hdr(hdls); } static inline int qdf_ipa_commit_hdr(void) { return __qdf_ipa_commit_hdr(); } static inline int qdf_ipa_get_hdr(qdf_ipa_ioc_get_hdr_t *lookup) { return __qdf_ipa_get_hdr(lookup); } static inline int qdf_ipa_put_hdr(u32 hdr_hdl) { return __qdf_ipa_put_hdr(hdr_hdl); } static inline int qdf_ipa_copy_hdr(qdf_ipa_ioc_copy_hdr_t *copy) { return __qdf_ipa_copy_hdr(copy); } static inline int qdf_ipa_register_pull_msg(qdf_ipa_msg_meta_t *meta, qdf_ipa_msg_pull_fn callback) { return __qdf_ipa_register_pull_msg(meta, callback); } static inline int qdf_ipa_deregister_pull_msg(qdf_ipa_msg_meta_t *meta) { return __qdf_ipa_deregister_pull_msg(meta); } /* * Interface */ static inline int qdf_ipa_register_intf(const char *name, const qdf_ipa_tx_intf_t *tx, const qdf_ipa_rx_intf_t *rx) { return __qdf_ipa_register_intf(name, tx, rx); } static inline int qdf_ipa_register_intf_ext(const char *name, const qdf_ipa_tx_intf_t *tx, const qdf_ipa_rx_intf_t *rx, const qdf_ipa_ext_intf_t *ext) { return __qdf_ipa_register_intf_ext(name, tx, rx, ext); } static inline int qdf_ipa_deregister_intf(const char *name) { return __qdf_ipa_deregister_intf(name); } /* * Data path */ static inline int qdf_ipa_tx_dp(qdf_ipa_client_type_t dst, struct sk_buff *skb, qdf_ipa_tx_meta_t *metadata) { return __qdf_ipa_tx_dp(dst, skb, metadata); } /* * To transfer multiple data packets */ static inline int qdf_ipa_tx_dp_mul( qdf_ipa_client_type_t dst, qdf_ipa_tx_data_desc_t *data_desc) { return __qdf_ipa_tx_dp_mul(dst, data_desc); } /* * System pipes */ static inline u16 qdf_ipa_get_smem_restr_bytes(void) { return __qdf_ipa_get_smem_restr_bytes(); } static inline int qdf_ipa_connect_wdi_pipe(qdf_ipa_wdi_in_params_t *in, qdf_ipa_wdi_out_params_t *out) { return __qdf_ipa_connect_wdi_pipe(in, out); } static inline int qdf_ipa_disconnect_wdi_pipe(u32 clnt_hdl) { return __qdf_ipa_disconnect_wdi_pipe(clnt_hdl); } static inline int qdf_ipa_enable_wdi_pipe(u32 clnt_hdl) { return __qdf_ipa_enable_wdi_pipe(clnt_hdl); } static inline int qdf_ipa_disable_wdi_pipe(u32 clnt_hdl) { return __qdf_ipa_disable_wdi_pipe(clnt_hdl); } static inline int qdf_ipa_resume_wdi_pipe(u32 clnt_hdl) { return __qdf_ipa_resume_wdi_pipe(clnt_hdl); } static inline int qdf_ipa_suspend_wdi_pipe(u32 clnt_hdl) { return __qdf_ipa_suspend_wdi_pipe(clnt_hdl); } static inline int qdf_ipa_uc_wdi_get_dbpa( qdf_ipa_wdi_db_params_t *out) { return __qdf_ipa_uc_wdi_get_dbpa(out); } /* * Resource manager */ static inline int qdf_ipa_rm_create_resource( qdf_ipa_rm_create_params_t *create_params) { return __qdf_ipa_rm_create_resource(create_params); } static inline int qdf_ipa_rm_delete_resource( qdf_ipa_rm_resource_name_t resource_name) { return __qdf_ipa_rm_delete_resource(resource_name); } static inline int qdf_ipa_rm_register(qdf_ipa_rm_resource_name_t resource_name, qdf_ipa_rm_register_params_t *reg_params) { return __qdf_ipa_rm_register(resource_name, reg_params); } static inline int qdf_ipa_rm_set_perf_profile( qdf_ipa_rm_resource_name_t resource_name, qdf_ipa_rm_perf_profile_t *profile) { return __qdf_ipa_rm_set_perf_profile(resource_name, profile); } static inline int qdf_ipa_rm_deregister(qdf_ipa_rm_resource_name_t resource_name, qdf_ipa_rm_register_params_t *reg_params) { return __qdf_ipa_rm_deregister(resource_name, reg_params); } static inline int qdf_ipa_rm_add_dependency( qdf_ipa_rm_resource_name_t resource_name, qdf_ipa_rm_resource_name_t depends_on_name) { return __qdf_ipa_rm_add_dependency(resource_name, depends_on_name); } static inline int qdf_ipa_rm_add_dependency_sync( qdf_ipa_rm_resource_name_t resource_name, qdf_ipa_rm_resource_name_t depends_on_name) { return __qdf_ipa_rm_add_dependency_sync(resource_name, depends_on_name); } static inline int qdf_ipa_rm_delete_dependency( qdf_ipa_rm_resource_name_t resource_name, qdf_ipa_rm_resource_name_t depends_on_name) { return __qdf_ipa_rm_delete_dependency(resource_name, depends_on_name); } static inline int qdf_ipa_rm_request_resource( qdf_ipa_rm_resource_name_t resource_name) { return __qdf_ipa_rm_request_resource(resource_name); } static inline int qdf_ipa_rm_release_resource( qdf_ipa_rm_resource_name_t resource_name) { return __qdf_ipa_rm_release_resource(resource_name); } static inline int qdf_ipa_rm_notify_completion(qdf_ipa_rm_event_t event, qdf_ipa_rm_resource_name_t resource_name) { return __qdf_ipa_rm_notify_completion(event, resource_name); } static inline int qdf_ipa_rm_inactivity_timer_init( qdf_ipa_rm_resource_name_t resource_name, unsigned long msecs) { return __qdf_ipa_rm_inactivity_timer_init(resource_name, msecs); } static inline int qdf_ipa_rm_inactivity_timer_destroy( qdf_ipa_rm_resource_name_t resource_name) { return __qdf_ipa_rm_inactivity_timer_destroy(resource_name); } static inline int qdf_ipa_rm_inactivity_timer_request_resource( qdf_ipa_rm_resource_name_t resource_name) { return __qdf_ipa_rm_inactivity_timer_request_resource(resource_name); } static inline int qdf_ipa_rm_inactivity_timer_release_resource( qdf_ipa_rm_resource_name_t resource_name) { return __qdf_ipa_rm_inactivity_timer_release_resource(resource_name); } /* * Miscellaneous */ static inline void qdf_ipa_bam_reg_dump(void) { return __qdf_ipa_bam_reg_dump(); } static inline int qdf_ipa_get_ep_mapping(qdf_ipa_client_type_t client) { return __qdf_ipa_get_ep_mapping(client); } static inline void qdf_ipa_proxy_clk_vote(void) { return __qdf_ipa_proxy_clk_vote(); } static inline void qdf_ipa_proxy_clk_unvote(void) { return __qdf_ipa_proxy_clk_unvote(); } static inline bool qdf_ipa_is_client_handle_valid(u32 clnt_hdl) { return __qdf_ipa_is_client_handle_valid(clnt_hdl); } static inline qdf_ipa_client_type_t qdf_ipa_get_client_mapping(int pipe_idx) { return __qdf_ipa_get_client_mapping(pipe_idx); } static inline qdf_ipa_rm_resource_name_t qdf_ipa_get_rm_resource_from_ep( int pipe_idx) { return __qdf_ipa_get_rm_resource_from_ep(pipe_idx); } static inline bool qdf_ipa_get_modem_cfg_emb_pipe_flt(void) { return __qdf_ipa_get_modem_cfg_emb_pipe_flt(); } static inline int qdf_ipa_create_wdi_mapping(u32 num_buffers, __qdf_ipa_wdi_buffer_info_t *info) { return __qdf_ipa_create_wdi_mapping(num_buffers, info); } static inline int qdf_ipa_release_wdi_mapping(u32 num_buffers, qdf_ipa_wdi_buffer_info_t *info) { return __qdf_ipa_release_wdi_mapping(num_buffers, info); } static inline int qdf_ipa_disable_apps_wan_cons_deaggr(uint32_t agg_size, uint32_t agg_count) { return __qdf_ipa_disable_apps_wan_cons_deaggr(agg_size, agg_count); } static inline const qdf_ipa_gsi_ep_config_t *qdf_ipa_get_gsi_ep_info(qdf_ipa_client_type_t client) { return __qdf_ipa_get_gsi_ep_info(client); } static inline int qdf_ipa_stop_gsi_channel(u32 clnt_hdl) { return __qdf_ipa_stop_gsi_channel(clnt_hdl); } #endif static inline void qdf_ipa_free_skb(qdf_ipa_rx_data_t *rx_in) { return __qdf_ipa_free_skb(rx_in); } static inline int qdf_ipa_uc_reg_rdyCB( qdf_ipa_wdi_uc_ready_params_t *param) { return __qdf_ipa_uc_reg_rdyCB(param); } static inline int qdf_ipa_uc_dereg_rdyCB(void) { return __qdf_ipa_uc_dereg_rdyCB(); } static inline int qdf_ipa_get_wdi_stats(qdf_ipa_hw_stats_wdi_info_data_t *stats) { return __qdf_ipa_get_wdi_stats(stats); } static inline int qdf_ipa_register_ipa_ready_cb( void (*qdf_ipa_ready_cb)(void *user_data), void *user_data) { return __qdf_ipa_register_ipa_ready_cb(qdf_ipa_ready_cb, user_data); } static inline int qdf_ipa_setup_sys_pipe(qdf_ipa_sys_connect_params_t *sys_in, u32 *clnt_hdl) { return __qdf_ipa_setup_sys_pipe(sys_in, clnt_hdl); } static inline int qdf_ipa_teardown_sys_pipe(u32 clnt_hdl) { return __qdf_ipa_teardown_sys_pipe(clnt_hdl); } /* * Messaging */ static inline int qdf_ipa_send_msg(qdf_ipa_msg_meta_t *meta, void *buff, ipa_msg_free_fn callback) { return __qdf_ipa_send_msg(meta, buff, callback); } static inline bool qdf_ipa_is_ready(void) { return __qdf_ipa_is_ready(); } #ifdef FEATURE_METERING static inline int qdf_ipa_broadcast_wdi_quota_reach_ind(uint32_t index, uint64_t quota_bytes) { return __qdf_ipa_broadcast_wdi_quota_reach_ind(index, quota_bytes); } #endif #ifdef ENABLE_SMMU_S1_TRANSLATION /** * qdf_get_ipa_smmu_enabled() - to get IPA SMMU enable status * * Return: true when IPA SMMU enabled, otherwise false */ static inline bool qdf_get_ipa_smmu_enabled(void) { return __qdf_get_ipa_smmu_enabled(); } #endif #ifdef IPA_LAN_RX_NAPI_SUPPORT /** * qdf_ipa_get_lan_rx_napi() - Check if NAPI is enabled in LAN * RX DP * * Returns: true if enabled, false otherwise */ static inline bool qdf_ipa_get_lan_rx_napi(void) { return __qdf_ipa_get_lan_rx_napi(); } #else static inline bool qdf_ipa_get_lan_rx_napi(void) { return false; } #endif /* IPA_LAN_RX_NAPI_SUPPORT */ #else #ifdef ENABLE_SMMU_S1_TRANSLATION static inline bool qdf_get_ipa_smmu_enabled(void) { return false; } #endif #endif /* IPA_OFFLOAD */ #endif /* _QDF_IPA_H */