Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Ajay Singh | 7176 | 67.74% | 102 | 38.49% |
Johnny Kim | 2002 | 18.90% | 4 | 1.51% |
Glen Lee | 356 | 3.36% | 14 | 5.28% |
Leo Kim | 331 | 3.12% | 47 | 17.74% |
Chaehyun Lim | 141 | 1.33% | 41 | 15.47% |
Chris Park | 141 | 1.33% | 3 | 1.13% |
Adham Abozaeid | 131 | 1.24% | 6 | 2.26% |
Tony Cho | 97 | 0.92% | 17 | 6.42% |
Binoy Jayan | 70 | 0.66% | 3 | 1.13% |
Kees Cook | 47 | 0.44% | 1 | 0.38% |
Greg Kroah-Hartman | 34 | 0.32% | 7 | 2.64% |
Arnd Bergmann | 15 | 0.14% | 3 | 1.13% |
Dan Carpenter | 11 | 0.10% | 2 | 0.75% |
YU Bo | 9 | 0.08% | 2 | 0.75% |
Dean Lee | 8 | 0.08% | 2 | 0.75% |
Jason Litzinger | 5 | 0.05% | 1 | 0.38% |
Oscar Carter | 5 | 0.05% | 1 | 0.38% |
Shraddha Barke | 4 | 0.04% | 2 | 0.75% |
Nishka Dasgupta | 3 | 0.03% | 1 | 0.38% |
Aditya Shankar | 2 | 0.02% | 1 | 0.38% |
Himadri Pandya | 2 | 0.02% | 1 | 0.38% |
Gustavo A. R. Silva | 1 | 0.01% | 1 | 0.38% |
Colin Ian King | 1 | 0.01% | 1 | 0.38% |
Anish Bhatt | 1 | 0.01% | 1 | 0.38% |
Marko Stankovic | 1 | 0.01% | 1 | 0.38% |
Total | 10594 | 265 |
// SPDX-License-Identifier: GPL-2.0 /* * Copyright (c) 2012 - 2018 Microchip Technology Inc., and its subsidiaries. * All rights reserved. */ #include "netdev.h" #define WILC_HIF_SCAN_TIMEOUT_MS 5000 #define WILC_HIF_CONNECT_TIMEOUT_MS 9500 #define WILC_FALSE_FRMWR_CHANNEL 100 #define WILC_SCAN_WID_LIST_SIZE 6 struct wilc_rcvd_mac_info { u8 status; }; struct wilc_set_multicast { u32 enabled; u32 cnt; u8 *mc_list; }; struct wilc_del_all_sta { u8 assoc_sta; u8 mac[WILC_MAX_NUM_STA][ETH_ALEN]; }; union wilc_message_body { struct wilc_rcvd_net_info net_info; struct wilc_rcvd_mac_info mac_info; struct wilc_set_multicast mc_info; struct wilc_remain_ch remain_on_ch; char *data; }; struct host_if_msg { union wilc_message_body body; struct wilc_vif *vif; struct work_struct work; void (*fn)(struct work_struct *ws); struct completion work_comp; bool is_sync; }; /* 'msg' should be free by the caller for syc */ static struct host_if_msg* wilc_alloc_work(struct wilc_vif *vif, void (*work_fun)(struct work_struct *), bool is_sync) { struct host_if_msg *msg; if (!work_fun) return ERR_PTR(-EINVAL); msg = kzalloc(sizeof(*msg), GFP_ATOMIC); if (!msg) return ERR_PTR(-ENOMEM); msg->fn = work_fun; msg->vif = vif; msg->is_sync = is_sync; if (is_sync) init_completion(&msg->work_comp); return msg; } static int wilc_enqueue_work(struct host_if_msg *msg) { INIT_WORK(&msg->work, msg->fn); if (!msg->vif || !msg->vif->wilc || !msg->vif->wilc->hif_workqueue) return -EINVAL; if (!queue_work(msg->vif->wilc->hif_workqueue, &msg->work)) return -EINVAL; return 0; } /* The idx starts from 0 to (NUM_CONCURRENT_IFC - 1), but 0 index used as * special purpose in wilc device, so we add 1 to the index to starts from 1. * As a result, the returned index will be 1 to NUM_CONCURRENT_IFC. */ int wilc_get_vif_idx(struct wilc_vif *vif) { return vif->idx + 1; } /* We need to minus 1 from idx which is from wilc device to get real index * of wilc->vif[], because we add 1 when pass to wilc device in the function * wilc_get_vif_idx. * As a result, the index should be between 0 and (NUM_CONCURRENT_IFC - 1). */ static struct wilc_vif *wilc_get_vif_from_idx(struct wilc *wilc, int idx) { int index = idx - 1; struct wilc_vif *vif; if (index < 0 || index >= WILC_NUM_CONCURRENT_IFC) return NULL; list_for_each_entry_rcu(vif, &wilc->vif_list, list) { if (vif->idx == index) return vif; } return NULL; } static int handle_scan_done(struct wilc_vif *vif, enum scan_event evt) { int result = 0; u8 abort_running_scan; struct wid wid; struct host_if_drv *hif_drv = vif->hif_drv; struct wilc_user_scan_req *scan_req; if (evt == SCAN_EVENT_ABORTED) { abort_running_scan = 1; wid.id = WID_ABORT_RUNNING_SCAN; wid.type = WID_CHAR; wid.val = (s8 *)&abort_running_scan; wid.size = sizeof(char); result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); if (result) { netdev_err(vif->ndev, "Failed to set abort running\n"); result = -EFAULT; } } if (!hif_drv) { netdev_err(vif->ndev, "%s: hif driver is NULL\n", __func__); return result; } scan_req = &hif_drv->usr_scan_req; if (scan_req->scan_result) { scan_req->scan_result(evt, NULL, scan_req->arg); scan_req->scan_result = NULL; } return result; } int wilc_scan(struct wilc_vif *vif, u8 scan_source, u8 scan_type, u8 *ch_freq_list, u8 ch_list_len, void (*scan_result_fn)(enum scan_event, struct wilc_rcvd_net_info *, void *), void *user_arg, struct cfg80211_scan_request *request) { int result = 0; struct wid wid_list[WILC_SCAN_WID_LIST_SIZE]; u32 index = 0; u32 i, scan_timeout; u8 *buffer; u8 valuesize = 0; u8 *search_ssid_vals = NULL; struct host_if_drv *hif_drv = vif->hif_drv; if (hif_drv->hif_state >= HOST_IF_SCANNING && hif_drv->hif_state < HOST_IF_CONNECTED) { netdev_err(vif->ndev, "Already scan\n"); result = -EBUSY; goto error; } if (vif->connecting) { netdev_err(vif->ndev, "Don't do obss scan\n"); result = -EBUSY; goto error; } hif_drv->usr_scan_req.ch_cnt = 0; if (request->n_ssids) { for (i = 0; i < request->n_ssids; i++) valuesize += ((request->ssids[i].ssid_len) + 1); search_ssid_vals = kmalloc(valuesize + 1, GFP_KERNEL); if (search_ssid_vals) { wid_list[index].id = WID_SSID_PROBE_REQ; wid_list[index].type = WID_STR; wid_list[index].val = search_ssid_vals; buffer = wid_list[index].val; *buffer++ = request->n_ssids; for (i = 0; i < request->n_ssids; i++) { *buffer++ = request->ssids[i].ssid_len; memcpy(buffer, request->ssids[i].ssid, request->ssids[i].ssid_len); buffer += request->ssids[i].ssid_len; } wid_list[index].size = (s32)(valuesize + 1); index++; } } wid_list[index].id = WID_INFO_ELEMENT_PROBE; wid_list[index].type = WID_BIN_DATA; wid_list[index].val = (s8 *)request->ie; wid_list[index].size = request->ie_len; index++; wid_list[index].id = WID_SCAN_TYPE; wid_list[index].type = WID_CHAR; wid_list[index].size = sizeof(char); wid_list[index].val = (s8 *)&scan_type; index++; if (scan_type == WILC_FW_PASSIVE_SCAN && request->duration) { wid_list[index].id = WID_PASSIVE_SCAN_TIME; wid_list[index].type = WID_SHORT; wid_list[index].size = sizeof(u16); wid_list[index].val = (s8 *)&request->duration; index++; scan_timeout = (request->duration * ch_list_len) + 500; } else { scan_timeout = WILC_HIF_SCAN_TIMEOUT_MS; } wid_list[index].id = WID_SCAN_CHANNEL_LIST; wid_list[index].type = WID_BIN_DATA; if (ch_freq_list && ch_list_len > 0) { for (i = 0; i < ch_list_len; i++) { if (ch_freq_list[i] > 0) ch_freq_list[i] -= 1; } } wid_list[index].val = ch_freq_list; wid_list[index].size = ch_list_len; index++; wid_list[index].id = WID_START_SCAN_REQ; wid_list[index].type = WID_CHAR; wid_list[index].size = sizeof(char); wid_list[index].val = (s8 *)&scan_source; index++; hif_drv->usr_scan_req.scan_result = scan_result_fn; hif_drv->usr_scan_req.arg = user_arg; result = wilc_send_config_pkt(vif, WILC_SET_CFG, wid_list, index); if (result) { netdev_err(vif->ndev, "Failed to send scan parameters\n"); goto error; } hif_drv->scan_timer_vif = vif; mod_timer(&hif_drv->scan_timer, jiffies + msecs_to_jiffies(scan_timeout)); error: kfree(search_ssid_vals); return result; } static int wilc_send_connect_wid(struct wilc_vif *vif) { int result = 0; struct wid wid_list[4]; u32 wid_cnt = 0; struct host_if_drv *hif_drv = vif->hif_drv; struct wilc_conn_info *conn_attr = &hif_drv->conn_info; struct wilc_join_bss_param *bss_param = conn_attr->param; wid_list[wid_cnt].id = WID_INFO_ELEMENT_ASSOCIATE; wid_list[wid_cnt].type = WID_BIN_DATA; wid_list[wid_cnt].val = conn_attr->req_ies; wid_list[wid_cnt].size = conn_attr->req_ies_len; wid_cnt++; wid_list[wid_cnt].id = WID_11I_MODE; wid_list[wid_cnt].type = WID_CHAR; wid_list[wid_cnt].size = sizeof(char); wid_list[wid_cnt].val = (s8 *)&conn_attr->security; wid_cnt++; wid_list[wid_cnt].id = WID_AUTH_TYPE; wid_list[wid_cnt].type = WID_CHAR; wid_list[wid_cnt].size = sizeof(char); wid_list[wid_cnt].val = (s8 *)&conn_attr->auth_type; wid_cnt++; wid_list[wid_cnt].id = WID_JOIN_REQ_EXTENDED; wid_list[wid_cnt].type = WID_STR; wid_list[wid_cnt].size = sizeof(*bss_param); wid_list[wid_cnt].val = (u8 *)bss_param; wid_cnt++; result = wilc_send_config_pkt(vif, WILC_SET_CFG, wid_list, wid_cnt); if (result) { netdev_err(vif->ndev, "failed to send config packet\n"); goto error; } else { hif_drv->hif_state = HOST_IF_WAITING_CONN_RESP; } return 0; error: kfree(conn_attr->req_ies); conn_attr->req_ies = NULL; return result; } static void handle_connect_timeout(struct work_struct *work) { struct host_if_msg *msg = container_of(work, struct host_if_msg, work); struct wilc_vif *vif = msg->vif; int result; struct wid wid; u16 dummy_reason_code = 0; struct host_if_drv *hif_drv = vif->hif_drv; if (!hif_drv) { netdev_err(vif->ndev, "%s: hif driver is NULL\n", __func__); goto out; } hif_drv->hif_state = HOST_IF_IDLE; if (hif_drv->conn_info.conn_result) { hif_drv->conn_info.conn_result(CONN_DISCONN_EVENT_CONN_RESP, WILC_MAC_STATUS_DISCONNECTED, hif_drv->conn_info.arg); } else { netdev_err(vif->ndev, "%s: conn_result is NULL\n", __func__); } wid.id = WID_DISCONNECT; wid.type = WID_CHAR; wid.val = (s8 *)&dummy_reason_code; wid.size = sizeof(char); result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); if (result) netdev_err(vif->ndev, "Failed to send disconnect\n"); hif_drv->conn_info.req_ies_len = 0; kfree(hif_drv->conn_info.req_ies); hif_drv->conn_info.req_ies = NULL; out: kfree(msg); } void *wilc_parse_join_bss_param(struct cfg80211_bss *bss, struct cfg80211_crypto_settings *crypto) { struct wilc_join_bss_param *param; struct ieee80211_p2p_noa_attr noa_attr; u8 rates_len = 0; const u8 *tim_elm, *ssid_elm, *rates_ie, *supp_rates_ie; const u8 *ht_ie, *wpa_ie, *wmm_ie, *rsn_ie; int ret; const struct cfg80211_bss_ies *ies = rcu_dereference(bss->ies); param = kzalloc(sizeof(*param), GFP_KERNEL); if (!param) return NULL; param->beacon_period = cpu_to_le16(bss->beacon_interval); param->cap_info = cpu_to_le16(bss->capability); param->bss_type = WILC_FW_BSS_TYPE_INFRA; param->ch = ieee80211_frequency_to_channel(bss->channel->center_freq); ether_addr_copy(param->bssid, bss->bssid); ssid_elm = cfg80211_find_ie(WLAN_EID_SSID, ies->data, ies->len); if (ssid_elm) { if (ssid_elm[1] <= IEEE80211_MAX_SSID_LEN) memcpy(param->ssid, ssid_elm + 2, ssid_elm[1]); } tim_elm = cfg80211_find_ie(WLAN_EID_TIM, ies->data, ies->len); if (tim_elm && tim_elm[1] >= 2) param->dtim_period = tim_elm[3]; memset(param->p_suites, 0xFF, 3); memset(param->akm_suites, 0xFF, 3); rates_ie = cfg80211_find_ie(WLAN_EID_SUPP_RATES, ies->data, ies->len); if (rates_ie) { rates_len = rates_ie[1]; if (rates_len > WILC_MAX_RATES_SUPPORTED) rates_len = WILC_MAX_RATES_SUPPORTED; param->supp_rates[0] = rates_len; memcpy(¶m->supp_rates[1], rates_ie + 2, rates_len); } if (rates_len < WILC_MAX_RATES_SUPPORTED) { supp_rates_ie = cfg80211_find_ie(WLAN_EID_EXT_SUPP_RATES, ies->data, ies->len); if (supp_rates_ie) { u8 ext_rates = supp_rates_ie[1]; if (ext_rates > (WILC_MAX_RATES_SUPPORTED - rates_len)) param->supp_rates[0] = WILC_MAX_RATES_SUPPORTED; else param->supp_rates[0] += ext_rates; memcpy(¶m->supp_rates[rates_len + 1], supp_rates_ie + 2, (param->supp_rates[0] - rates_len)); } } ht_ie = cfg80211_find_ie(WLAN_EID_HT_CAPABILITY, ies->data, ies->len); if (ht_ie) param->ht_capable = true; ret = cfg80211_get_p2p_attr(ies->data, ies->len, IEEE80211_P2P_ATTR_ABSENCE_NOTICE, (u8 *)&noa_attr, sizeof(noa_attr)); if (ret > 0) { param->tsf_lo = cpu_to_le32(ies->tsf); param->noa_enabled = 1; param->idx = noa_attr.index; if (noa_attr.oppps_ctwindow & IEEE80211_P2P_OPPPS_ENABLE_BIT) { param->opp_enabled = 1; param->opp_en.ct_window = noa_attr.oppps_ctwindow; param->opp_en.cnt = noa_attr.desc[0].count; param->opp_en.duration = noa_attr.desc[0].duration; param->opp_en.interval = noa_attr.desc[0].interval; param->opp_en.start_time = noa_attr.desc[0].start_time; } else { param->opp_enabled = 0; param->opp_dis.cnt = noa_attr.desc[0].count; param->opp_dis.duration = noa_attr.desc[0].duration; param->opp_dis.interval = noa_attr.desc[0].interval; param->opp_dis.start_time = noa_attr.desc[0].start_time; } } wmm_ie = cfg80211_find_vendor_ie(WLAN_OUI_MICROSOFT, WLAN_OUI_TYPE_MICROSOFT_WMM, ies->data, ies->len); if (wmm_ie) { struct ieee80211_wmm_param_ie *ie; ie = (struct ieee80211_wmm_param_ie *)wmm_ie; if ((ie->oui_subtype == 0 || ie->oui_subtype == 1) && ie->version == 1) { param->wmm_cap = true; if (ie->qos_info & BIT(7)) param->uapsd_cap = true; } } wpa_ie = cfg80211_find_vendor_ie(WLAN_OUI_MICROSOFT, WLAN_OUI_TYPE_MICROSOFT_WPA, ies->data, ies->len); if (wpa_ie) { param->mode_802_11i = 1; param->rsn_found = true; } rsn_ie = cfg80211_find_ie(WLAN_EID_RSN, ies->data, ies->len); if (rsn_ie) { int offset = 8; param->mode_802_11i = 2; param->rsn_found = true; /* extract RSN capabilities */ offset += (rsn_ie[offset] * 4) + 2; offset += (rsn_ie[offset] * 4) + 2; memcpy(param->rsn_cap, &rsn_ie[offset], 2); } if (param->rsn_found) { int i; param->rsn_grp_policy = crypto->cipher_group & 0xFF; for (i = 0; i < crypto->n_ciphers_pairwise && i < 3; i++) param->p_suites[i] = crypto->ciphers_pairwise[i] & 0xFF; for (i = 0; i < crypto->n_akm_suites && i < 3; i++) param->akm_suites[i] = crypto->akm_suites[i] & 0xFF; } return (void *)param; } static void handle_rcvd_ntwrk_info(struct work_struct *work) { struct host_if_msg *msg = container_of(work, struct host_if_msg, work); struct wilc_rcvd_net_info *rcvd_info = &msg->body.net_info; struct wilc_user_scan_req *scan_req = &msg->vif->hif_drv->usr_scan_req; const u8 *ch_elm; u8 *ies; int ies_len; size_t offset; if (ieee80211_is_probe_resp(rcvd_info->mgmt->frame_control)) offset = offsetof(struct ieee80211_mgmt, u.probe_resp.variable); else if (ieee80211_is_beacon(rcvd_info->mgmt->frame_control)) offset = offsetof(struct ieee80211_mgmt, u.beacon.variable); else goto done; ies = rcvd_info->mgmt->u.beacon.variable; ies_len = rcvd_info->frame_len - offset; if (ies_len <= 0) goto done; ch_elm = cfg80211_find_ie(WLAN_EID_DS_PARAMS, ies, ies_len); if (ch_elm && ch_elm[1] > 0) rcvd_info->ch = ch_elm[2]; if (scan_req->scan_result) scan_req->scan_result(SCAN_EVENT_NETWORK_FOUND, rcvd_info, scan_req->arg); done: kfree(rcvd_info->mgmt); kfree(msg); } static void host_int_get_assoc_res_info(struct wilc_vif *vif, u8 *assoc_resp_info, u32 max_assoc_resp_info_len, u32 *rcvd_assoc_resp_info_len) { int result; struct wid wid; wid.id = WID_ASSOC_RES_INFO; wid.type = WID_STR; wid.val = assoc_resp_info; wid.size = max_assoc_resp_info_len; result = wilc_send_config_pkt(vif, WILC_GET_CFG, &wid, 1); if (result) { *rcvd_assoc_resp_info_len = 0; netdev_err(vif->ndev, "Failed to send association response\n"); return; } *rcvd_assoc_resp_info_len = wid.size; } static s32 wilc_parse_assoc_resp_info(u8 *buffer, u32 buffer_len, struct wilc_conn_info *ret_conn_info) { u8 *ies; u16 ies_len; struct wilc_assoc_resp *res = (struct wilc_assoc_resp *)buffer; ret_conn_info->status = le16_to_cpu(res->status_code); if (ret_conn_info->status == WLAN_STATUS_SUCCESS) { ies = &buffer[sizeof(*res)]; ies_len = buffer_len - sizeof(*res); ret_conn_info->resp_ies = kmemdup(ies, ies_len, GFP_KERNEL); if (!ret_conn_info->resp_ies) return -ENOMEM; ret_conn_info->resp_ies_len = ies_len; } return 0; } static inline void host_int_parse_assoc_resp_info(struct wilc_vif *vif, u8 mac_status) { struct host_if_drv *hif_drv = vif->hif_drv; struct wilc_conn_info *conn_info = &hif_drv->conn_info; if (mac_status == WILC_MAC_STATUS_CONNECTED) { u32 assoc_resp_info_len; memset(hif_drv->assoc_resp, 0, WILC_MAX_ASSOC_RESP_FRAME_SIZE); host_int_get_assoc_res_info(vif, hif_drv->assoc_resp, WILC_MAX_ASSOC_RESP_FRAME_SIZE, &assoc_resp_info_len); if (assoc_resp_info_len != 0) { s32 err = 0; err = wilc_parse_assoc_resp_info(hif_drv->assoc_resp, assoc_resp_info_len, conn_info); if (err) netdev_err(vif->ndev, "wilc_parse_assoc_resp_info() returned error %d\n", err); } } del_timer(&hif_drv->connect_timer); conn_info->conn_result(CONN_DISCONN_EVENT_CONN_RESP, mac_status, hif_drv->conn_info.arg); if (mac_status == WILC_MAC_STATUS_CONNECTED && conn_info->status == WLAN_STATUS_SUCCESS) { ether_addr_copy(hif_drv->assoc_bssid, conn_info->bssid); hif_drv->hif_state = HOST_IF_CONNECTED; } else { hif_drv->hif_state = HOST_IF_IDLE; } kfree(conn_info->resp_ies); conn_info->resp_ies = NULL; conn_info->resp_ies_len = 0; kfree(conn_info->req_ies); conn_info->req_ies = NULL; conn_info->req_ies_len = 0; } static inline void host_int_handle_disconnect(struct wilc_vif *vif) { struct host_if_drv *hif_drv = vif->hif_drv; if (hif_drv->usr_scan_req.scan_result) { del_timer(&hif_drv->scan_timer); handle_scan_done(vif, SCAN_EVENT_ABORTED); } if (hif_drv->conn_info.conn_result) hif_drv->conn_info.conn_result(CONN_DISCONN_EVENT_DISCONN_NOTIF, 0, hif_drv->conn_info.arg); else netdev_err(vif->ndev, "%s: conn_result is NULL\n", __func__); eth_zero_addr(hif_drv->assoc_bssid); hif_drv->conn_info.req_ies_len = 0; kfree(hif_drv->conn_info.req_ies); hif_drv->conn_info.req_ies = NULL; hif_drv->hif_state = HOST_IF_IDLE; } static void handle_rcvd_gnrl_async_info(struct work_struct *work) { struct host_if_msg *msg = container_of(work, struct host_if_msg, work); struct wilc_vif *vif = msg->vif; struct wilc_rcvd_mac_info *mac_info = &msg->body.mac_info; struct host_if_drv *hif_drv = vif->hif_drv; if (!hif_drv) { netdev_err(vif->ndev, "%s: hif driver is NULL\n", __func__); goto free_msg; } if (!hif_drv->conn_info.conn_result) { netdev_err(vif->ndev, "%s: conn_result is NULL\n", __func__); goto free_msg; } if (hif_drv->hif_state == HOST_IF_WAITING_CONN_RESP) { host_int_parse_assoc_resp_info(vif, mac_info->status); } else if (mac_info->status == WILC_MAC_STATUS_DISCONNECTED) { if (hif_drv->hif_state == HOST_IF_CONNECTED) { host_int_handle_disconnect(vif); } else if (hif_drv->usr_scan_req.scan_result) { del_timer(&hif_drv->scan_timer); handle_scan_done(vif, SCAN_EVENT_ABORTED); } } free_msg: kfree(msg); } int wilc_disconnect(struct wilc_vif *vif) { struct wid wid; struct host_if_drv *hif_drv = vif->hif_drv; struct wilc_user_scan_req *scan_req; struct wilc_conn_info *conn_info; int result; u16 dummy_reason_code = 0; wid.id = WID_DISCONNECT; wid.type = WID_CHAR; wid.val = (s8 *)&dummy_reason_code; wid.size = sizeof(char); result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); if (result) { netdev_err(vif->ndev, "Failed to send disconnect\n"); return result; } scan_req = &hif_drv->usr_scan_req; conn_info = &hif_drv->conn_info; if (scan_req->scan_result) { del_timer(&hif_drv->scan_timer); scan_req->scan_result(SCAN_EVENT_ABORTED, NULL, scan_req->arg); scan_req->scan_result = NULL; } if (conn_info->conn_result) { if (hif_drv->hif_state == HOST_IF_WAITING_CONN_RESP) del_timer(&hif_drv->connect_timer); conn_info->conn_result(CONN_DISCONN_EVENT_DISCONN_NOTIF, 0, conn_info->arg); } else { netdev_err(vif->ndev, "%s: conn_result is NULL\n", __func__); } hif_drv->hif_state = HOST_IF_IDLE; eth_zero_addr(hif_drv->assoc_bssid); conn_info->req_ies_len = 0; kfree(conn_info->req_ies); conn_info->req_ies = NULL; return 0; } int wilc_get_statistics(struct wilc_vif *vif, struct rf_info *stats) { struct wid wid_list[5]; u32 wid_cnt = 0, result; wid_list[wid_cnt].id = WID_LINKSPEED; wid_list[wid_cnt].type = WID_CHAR; wid_list[wid_cnt].size = sizeof(char); wid_list[wid_cnt].val = (s8 *)&stats->link_speed; wid_cnt++; wid_list[wid_cnt].id = WID_RSSI; wid_list[wid_cnt].type = WID_CHAR; wid_list[wid_cnt].size = sizeof(char); wid_list[wid_cnt].val = (s8 *)&stats->rssi; wid_cnt++; wid_list[wid_cnt].id = WID_SUCCESS_FRAME_COUNT; wid_list[wid_cnt].type = WID_INT; wid_list[wid_cnt].size = sizeof(u32); wid_list[wid_cnt].val = (s8 *)&stats->tx_cnt; wid_cnt++; wid_list[wid_cnt].id = WID_RECEIVED_FRAGMENT_COUNT; wid_list[wid_cnt].type = WID_INT; wid_list[wid_cnt].size = sizeof(u32); wid_list[wid_cnt].val = (s8 *)&stats->rx_cnt; wid_cnt++; wid_list[wid_cnt].id = WID_FAILED_COUNT; wid_list[wid_cnt].type = WID_INT; wid_list[wid_cnt].size = sizeof(u32); wid_list[wid_cnt].val = (s8 *)&stats->tx_fail_cnt; wid_cnt++; result = wilc_send_config_pkt(vif, WILC_GET_CFG, wid_list, wid_cnt); if (result) { netdev_err(vif->ndev, "Failed to send scan parameters\n"); return result; } if (stats->link_speed > TCP_ACK_FILTER_LINK_SPEED_THRESH && stats->link_speed != DEFAULT_LINK_SPEED) wilc_enable_tcp_ack_filter(vif, true); else if (stats->link_speed != DEFAULT_LINK_SPEED) wilc_enable_tcp_ack_filter(vif, false); return result; } static void handle_get_statistics(struct work_struct *work) { struct host_if_msg *msg = container_of(work, struct host_if_msg, work); struct wilc_vif *vif = msg->vif; struct rf_info *stats = (struct rf_info *)msg->body.data; wilc_get_statistics(vif, stats); kfree(msg); } static void wilc_hif_pack_sta_param(u8 *cur_byte, const u8 *mac, struct station_parameters *params) { ether_addr_copy(cur_byte, mac); cur_byte += ETH_ALEN; put_unaligned_le16(params->aid, cur_byte); cur_byte += 2; *cur_byte++ = params->supported_rates_len; if (params->supported_rates_len > 0) memcpy(cur_byte, params->supported_rates, params->supported_rates_len); cur_byte += params->supported_rates_len; if (params->ht_capa) { *cur_byte++ = true; memcpy(cur_byte, params->ht_capa, sizeof(struct ieee80211_ht_cap)); } else { *cur_byte++ = false; } cur_byte += sizeof(struct ieee80211_ht_cap); put_unaligned_le16(params->sta_flags_mask, cur_byte); cur_byte += 2; put_unaligned_le16(params->sta_flags_set, cur_byte); } static int handle_remain_on_chan(struct wilc_vif *vif, struct wilc_remain_ch *hif_remain_ch) { int result; u8 remain_on_chan_flag; struct wid wid; struct host_if_drv *hif_drv = vif->hif_drv; if (hif_drv->usr_scan_req.scan_result) return -EBUSY; if (hif_drv->hif_state == HOST_IF_WAITING_CONN_RESP) return -EBUSY; if (vif->connecting) return -EBUSY; remain_on_chan_flag = true; wid.id = WID_REMAIN_ON_CHAN; wid.type = WID_STR; wid.size = 2; wid.val = kmalloc(wid.size, GFP_KERNEL); if (!wid.val) return -ENOMEM; wid.val[0] = remain_on_chan_flag; wid.val[1] = (s8)hif_remain_ch->ch; result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); kfree(wid.val); if (result) return -EBUSY; hif_drv->remain_on_ch.arg = hif_remain_ch->arg; hif_drv->remain_on_ch.expired = hif_remain_ch->expired; hif_drv->remain_on_ch.ch = hif_remain_ch->ch; hif_drv->remain_on_ch.cookie = hif_remain_ch->cookie; hif_drv->remain_on_ch_timer_vif = vif; return 0; } static int wilc_handle_roc_expired(struct wilc_vif *vif, u64 cookie) { u8 remain_on_chan_flag; struct wid wid; int result; struct host_if_drv *hif_drv = vif->hif_drv; if (vif->priv.p2p_listen_state) { remain_on_chan_flag = false; wid.id = WID_REMAIN_ON_CHAN; wid.type = WID_STR; wid.size = 2; wid.val = kmalloc(wid.size, GFP_KERNEL); if (!wid.val) return -ENOMEM; wid.val[0] = remain_on_chan_flag; wid.val[1] = WILC_FALSE_FRMWR_CHANNEL; result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); kfree(wid.val); if (result != 0) { netdev_err(vif->ndev, "Failed to set remain channel\n"); return -EINVAL; } if (hif_drv->remain_on_ch.expired) { hif_drv->remain_on_ch.expired(hif_drv->remain_on_ch.arg, cookie); } } else { netdev_dbg(vif->ndev, "Not in listen state\n"); } return 0; } static void wilc_handle_listen_state_expired(struct work_struct *work) { struct host_if_msg *msg = container_of(work, struct host_if_msg, work); wilc_handle_roc_expired(msg->vif, msg->body.remain_on_ch.cookie); kfree(msg); } static void listen_timer_cb(struct timer_list *t) { struct host_if_drv *hif_drv = from_timer(hif_drv, t, remain_on_ch_timer); struct wilc_vif *vif = hif_drv->remain_on_ch_timer_vif; int result; struct host_if_msg *msg; del_timer(&vif->hif_drv->remain_on_ch_timer); msg = wilc_alloc_work(vif, wilc_handle_listen_state_expired, false); if (IS_ERR(msg)) return; msg->body.remain_on_ch.cookie = vif->hif_drv->remain_on_ch.cookie; result = wilc_enqueue_work(msg); if (result) { netdev_err(vif->ndev, "%s: enqueue work failed\n", __func__); kfree(msg); } } static void handle_set_mcast_filter(struct work_struct *work) { struct host_if_msg *msg = container_of(work, struct host_if_msg, work); struct wilc_vif *vif = msg->vif; struct wilc_set_multicast *set_mc = &msg->body.mc_info; int result; struct wid wid; u8 *cur_byte; wid.id = WID_SETUP_MULTICAST_FILTER; wid.type = WID_BIN; wid.size = sizeof(struct wilc_set_multicast) + (set_mc->cnt * ETH_ALEN); wid.val = kmalloc(wid.size, GFP_KERNEL); if (!wid.val) goto error; cur_byte = wid.val; put_unaligned_le32(set_mc->enabled, cur_byte); cur_byte += 4; put_unaligned_le32(set_mc->cnt, cur_byte); cur_byte += 4; if (set_mc->cnt > 0 && set_mc->mc_list) memcpy(cur_byte, set_mc->mc_list, set_mc->cnt * ETH_ALEN); result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); if (result) netdev_err(vif->ndev, "Failed to send setup multicast\n"); error: kfree(set_mc->mc_list); kfree(wid.val); kfree(msg); } static void handle_scan_timer(struct work_struct *work) { struct host_if_msg *msg = container_of(work, struct host_if_msg, work); handle_scan_done(msg->vif, SCAN_EVENT_ABORTED); kfree(msg); } static void handle_scan_complete(struct work_struct *work) { struct host_if_msg *msg = container_of(work, struct host_if_msg, work); del_timer(&msg->vif->hif_drv->scan_timer); handle_scan_done(msg->vif, SCAN_EVENT_DONE); kfree(msg); } static void timer_scan_cb(struct timer_list *t) { struct host_if_drv *hif_drv = from_timer(hif_drv, t, scan_timer); struct wilc_vif *vif = hif_drv->scan_timer_vif; struct host_if_msg *msg; int result; msg = wilc_alloc_work(vif, handle_scan_timer, false); if (IS_ERR(msg)) return; result = wilc_enqueue_work(msg); if (result) kfree(msg); } static void timer_connect_cb(struct timer_list *t) { struct host_if_drv *hif_drv = from_timer(hif_drv, t, connect_timer); struct wilc_vif *vif = hif_drv->connect_timer_vif; struct host_if_msg *msg; int result; msg = wilc_alloc_work(vif, handle_connect_timeout, false); if (IS_ERR(msg)) return; result = wilc_enqueue_work(msg); if (result) kfree(msg); } int wilc_remove_wep_key(struct wilc_vif *vif, u8 index) { struct wid wid; int result; wid.id = WID_REMOVE_WEP_KEY; wid.type = WID_STR; wid.size = sizeof(char); wid.val = &index; result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); if (result) netdev_err(vif->ndev, "Failed to send remove wep key config packet\n"); return result; } int wilc_set_wep_default_keyid(struct wilc_vif *vif, u8 index) { struct wid wid; int result; wid.id = WID_KEY_ID; wid.type = WID_CHAR; wid.size = sizeof(char); wid.val = &index; result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); if (result) netdev_err(vif->ndev, "Failed to send wep default key config packet\n"); return result; } int wilc_add_wep_key_bss_sta(struct wilc_vif *vif, const u8 *key, u8 len, u8 index) { struct wid wid; int result; struct wilc_wep_key *wep_key; wid.id = WID_ADD_WEP_KEY; wid.type = WID_STR; wid.size = sizeof(*wep_key) + len; wep_key = kzalloc(wid.size, GFP_KERNEL); if (!wep_key) return -ENOMEM; wid.val = (u8 *)wep_key; wep_key->index = index; wep_key->key_len = len; memcpy(wep_key->key, key, len); result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); if (result) netdev_err(vif->ndev, "Failed to add wep key config packet\n"); kfree(wep_key); return result; } int wilc_add_wep_key_bss_ap(struct wilc_vif *vif, const u8 *key, u8 len, u8 index, u8 mode, enum authtype auth_type) { struct wid wid_list[3]; int result; struct wilc_wep_key *wep_key; wid_list[0].id = WID_11I_MODE; wid_list[0].type = WID_CHAR; wid_list[0].size = sizeof(char); wid_list[0].val = &mode; wid_list[1].id = WID_AUTH_TYPE; wid_list[1].type = WID_CHAR; wid_list[1].size = sizeof(char); wid_list[1].val = (s8 *)&auth_type; wid_list[2].id = WID_WEP_KEY_VALUE; wid_list[2].type = WID_STR; wid_list[2].size = sizeof(*wep_key) + len; wep_key = kzalloc(wid_list[2].size, GFP_KERNEL); if (!wep_key) return -ENOMEM; wid_list[2].val = (u8 *)wep_key; wep_key->index = index; wep_key->key_len = len; memcpy(wep_key->key, key, len); result = wilc_send_config_pkt(vif, WILC_SET_CFG, wid_list, ARRAY_SIZE(wid_list)); if (result) netdev_err(vif->ndev, "Failed to add wep ap key config packet\n"); kfree(wep_key); return result; } int wilc_add_ptk(struct wilc_vif *vif, const u8 *ptk, u8 ptk_key_len, const u8 *mac_addr, const u8 *rx_mic, const u8 *tx_mic, u8 mode, u8 cipher_mode, u8 index) { int result = 0; u8 t_key_len = ptk_key_len + WILC_RX_MIC_KEY_LEN + WILC_TX_MIC_KEY_LEN; if (mode == WILC_AP_MODE) { struct wid wid_list[2]; struct wilc_ap_wpa_ptk *key_buf; wid_list[0].id = WID_11I_MODE; wid_list[0].type = WID_CHAR; wid_list[0].size = sizeof(char); wid_list[0].val = (s8 *)&cipher_mode; key_buf = kzalloc(sizeof(*key_buf) + t_key_len, GFP_KERNEL); if (!key_buf) return -ENOMEM; ether_addr_copy(key_buf->mac_addr, mac_addr); key_buf->index = index; key_buf->key_len = t_key_len; memcpy(&key_buf->key[0], ptk, ptk_key_len); if (rx_mic) memcpy(&key_buf->key[ptk_key_len], rx_mic, WILC_RX_MIC_KEY_LEN); if (tx_mic) memcpy(&key_buf->key[ptk_key_len + WILC_RX_MIC_KEY_LEN], tx_mic, WILC_TX_MIC_KEY_LEN); wid_list[1].id = WID_ADD_PTK; wid_list[1].type = WID_STR; wid_list[1].size = sizeof(*key_buf) + t_key_len; wid_list[1].val = (u8 *)key_buf; result = wilc_send_config_pkt(vif, WILC_SET_CFG, wid_list, ARRAY_SIZE(wid_list)); kfree(key_buf); } else if (mode == WILC_STATION_MODE) { struct wid wid; struct wilc_sta_wpa_ptk *key_buf; key_buf = kzalloc(sizeof(*key_buf) + t_key_len, GFP_KERNEL); if (!key_buf) return -ENOMEM; ether_addr_copy(key_buf->mac_addr, mac_addr); key_buf->key_len = t_key_len; memcpy(&key_buf->key[0], ptk, ptk_key_len); if (rx_mic) memcpy(&key_buf->key[ptk_key_len], rx_mic, WILC_RX_MIC_KEY_LEN); if (tx_mic) memcpy(&key_buf->key[ptk_key_len + WILC_RX_MIC_KEY_LEN], tx_mic, WILC_TX_MIC_KEY_LEN); wid.id = WID_ADD_PTK; wid.type = WID_STR; wid.size = sizeof(*key_buf) + t_key_len; wid.val = (s8 *)key_buf; result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); kfree(key_buf); } return result; } int wilc_add_rx_gtk(struct wilc_vif *vif, const u8 *rx_gtk, u8 gtk_key_len, u8 index, u32 key_rsc_len, const u8 *key_rsc, const u8 *rx_mic, const u8 *tx_mic, u8 mode, u8 cipher_mode) { int result = 0; struct wilc_gtk_key *gtk_key; int t_key_len = gtk_key_len + WILC_RX_MIC_KEY_LEN + WILC_TX_MIC_KEY_LEN; gtk_key = kzalloc(sizeof(*gtk_key) + t_key_len, GFP_KERNEL); if (!gtk_key) return -ENOMEM; /* fill bssid value only in station mode */ if (mode == WILC_STATION_MODE && vif->hif_drv->hif_state == HOST_IF_CONNECTED) memcpy(gtk_key->mac_addr, vif->hif_drv->assoc_bssid, ETH_ALEN); if (key_rsc) memcpy(gtk_key->rsc, key_rsc, 8); gtk_key->index = index; gtk_key->key_len = t_key_len; memcpy(>k_key->key[0], rx_gtk, gtk_key_len); if (rx_mic) memcpy(>k_key->key[gtk_key_len], rx_mic, WILC_RX_MIC_KEY_LEN); if (tx_mic) memcpy(>k_key->key[gtk_key_len + WILC_RX_MIC_KEY_LEN], tx_mic, WILC_TX_MIC_KEY_LEN); if (mode == WILC_AP_MODE) { struct wid wid_list[2]; wid_list[0].id = WID_11I_MODE; wid_list[0].type = WID_CHAR; wid_list[0].size = sizeof(char); wid_list[0].val = (s8 *)&cipher_mode; wid_list[1].id = WID_ADD_RX_GTK; wid_list[1].type = WID_STR; wid_list[1].size = sizeof(*gtk_key) + t_key_len; wid_list[1].val = (u8 *)gtk_key; result = wilc_send_config_pkt(vif, WILC_SET_CFG, wid_list, ARRAY_SIZE(wid_list)); } else if (mode == WILC_STATION_MODE) { struct wid wid; wid.id = WID_ADD_RX_GTK; wid.type = WID_STR; wid.size = sizeof(*gtk_key) + t_key_len; wid.val = (u8 *)gtk_key; result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); } kfree(gtk_key); return result; } int wilc_set_pmkid_info(struct wilc_vif *vif, struct wilc_pmkid_attr *pmkid) { struct wid wid; wid.id = WID_PMKID_INFO; wid.type = WID_STR; wid.size = (pmkid->numpmkid * sizeof(struct wilc_pmkid)) + 1; wid.val = (u8 *)pmkid; return wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); } int wilc_get_mac_address(struct wilc_vif *vif, u8 *mac_addr) { int result; struct wid wid; wid.id = WID_MAC_ADDR; wid.type = WID_STR; wid.size = ETH_ALEN; wid.val = mac_addr; result = wilc_send_config_pkt(vif, WILC_GET_CFG, &wid, 1); if (result) netdev_err(vif->ndev, "Failed to get mac address\n"); return result; } int wilc_set_mac_address(struct wilc_vif *vif, u8 *mac_addr) { struct wid wid; int result; wid.id = WID_MAC_ADDR; wid.type = WID_STR; wid.size = ETH_ALEN; wid.val = mac_addr; result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); if (result) netdev_err(vif->ndev, "Failed to get mac address\n"); return result; } int wilc_set_join_req(struct wilc_vif *vif, u8 *bssid, const u8 *ies, size_t ies_len) { int result; struct host_if_drv *hif_drv = vif->hif_drv; struct wilc_conn_info *conn_info = &hif_drv->conn_info; if (bssid) ether_addr_copy(conn_info->bssid, bssid); if (ies) { conn_info->req_ies_len = ies_len; conn_info->req_ies = kmemdup(ies, ies_len, GFP_KERNEL); if (!conn_info->req_ies) return -ENOMEM; } result = wilc_send_connect_wid(vif); if (result) goto free_ies; hif_drv->connect_timer_vif = vif; mod_timer(&hif_drv->connect_timer, jiffies + msecs_to_jiffies(WILC_HIF_CONNECT_TIMEOUT_MS)); return 0; free_ies: kfree(conn_info->req_ies); return result; } int wilc_set_mac_chnl_num(struct wilc_vif *vif, u8 channel) { struct wid wid; int result; wid.id = WID_CURRENT_CHANNEL; wid.type = WID_CHAR; wid.size = sizeof(char); wid.val = &channel; result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); if (result) netdev_err(vif->ndev, "Failed to set channel\n"); return result; } int wilc_set_operation_mode(struct wilc_vif *vif, int index, u8 mode, u8 ifc_id) { struct wid wid; int result; struct wilc_drv_handler drv; wid.id = WID_SET_OPERATION_MODE; wid.type = WID_STR; wid.size = sizeof(drv); wid.val = (u8 *)&drv; drv.handler = cpu_to_le32(index); drv.mode = (ifc_id | (mode << 1)); result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); if (result) netdev_err(vif->ndev, "Failed to set driver handler\n"); return result; } s32 wilc_get_inactive_time(struct wilc_vif *vif, const u8 *mac, u32 *out_val) { struct wid wid; s32 result; wid.id = WID_SET_STA_MAC_INACTIVE_TIME; wid.type = WID_STR; wid.size = ETH_ALEN; wid.val = kzalloc(wid.size, GFP_KERNEL); if (!wid.val) return -ENOMEM; ether_addr_copy(wid.val, mac); result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); kfree(wid.val); if (result) { netdev_err(vif->ndev, "Failed to set inactive mac\n"); return result; } wid.id = WID_GET_INACTIVE_TIME; wid.type = WID_INT; wid.val = (s8 *)out_val; wid.size = sizeof(u32); result = wilc_send_config_pkt(vif, WILC_GET_CFG, &wid, 1); if (result) netdev_err(vif->ndev, "Failed to get inactive time\n"); return result; } int wilc_get_rssi(struct wilc_vif *vif, s8 *rssi_level) { struct wid wid; int result; if (!rssi_level) { netdev_err(vif->ndev, "%s: RSSI level is NULL\n", __func__); return -EFAULT; } wid.id = WID_RSSI; wid.type = WID_CHAR; wid.size = sizeof(char); wid.val = rssi_level; result = wilc_send_config_pkt(vif, WILC_GET_CFG, &wid, 1); if (result) netdev_err(vif->ndev, "Failed to get RSSI value\n"); return result; } static int wilc_get_stats_async(struct wilc_vif *vif, struct rf_info *stats) { int result; struct host_if_msg *msg; msg = wilc_alloc_work(vif, handle_get_statistics, false); if (IS_ERR(msg)) return PTR_ERR(msg); msg->body.data = (char *)stats; result = wilc_enqueue_work(msg); if (result) { netdev_err(vif->ndev, "%s: enqueue work failed\n", __func__); kfree(msg); return result; } return result; } int wilc_hif_set_cfg(struct wilc_vif *vif, struct cfg_param_attr *param) { struct wid wid_list[4]; int i = 0; if (param->flag & WILC_CFG_PARAM_RETRY_SHORT) { wid_list[i].id = WID_SHORT_RETRY_LIMIT; wid_list[i].val = (s8 *)¶m->short_retry_limit; wid_list[i].type = WID_SHORT; wid_list[i].size = sizeof(u16); i++; } if (param->flag & WILC_CFG_PARAM_RETRY_LONG) { wid_list[i].id = WID_LONG_RETRY_LIMIT; wid_list[i].val = (s8 *)¶m->long_retry_limit; wid_list[i].type = WID_SHORT; wid_list[i].size = sizeof(u16); i++; } if (param->flag & WILC_CFG_PARAM_FRAG_THRESHOLD) { wid_list[i].id = WID_FRAG_THRESHOLD; wid_list[i].val = (s8 *)¶m->frag_threshold; wid_list[i].type = WID_SHORT; wid_list[i].size = sizeof(u16); i++; } if (param->flag & WILC_CFG_PARAM_RTS_THRESHOLD) { wid_list[i].id = WID_RTS_THRESHOLD; wid_list[i].val = (s8 *)¶m->rts_threshold; wid_list[i].type = WID_SHORT; wid_list[i].size = sizeof(u16); i++; } return wilc_send_config_pkt(vif, WILC_SET_CFG, wid_list, i); } static void get_periodic_rssi(struct timer_list *t) { struct wilc_vif *vif = from_timer(vif, t, periodic_rssi); if (!vif->hif_drv) { netdev_err(vif->ndev, "%s: hif driver is NULL", __func__); return; } if (vif->hif_drv->hif_state == HOST_IF_CONNECTED) wilc_get_stats_async(vif, &vif->periodic_stat); mod_timer(&vif->periodic_rssi, jiffies + msecs_to_jiffies(5000)); } int wilc_init(struct net_device *dev, struct host_if_drv **hif_drv_handler) { struct host_if_drv *hif_drv; struct wilc_vif *vif = netdev_priv(dev); struct wilc *wilc = vif->wilc; hif_drv = kzalloc(sizeof(*hif_drv), GFP_KERNEL); if (!hif_drv) return -ENOMEM; *hif_drv_handler = hif_drv; vif->hif_drv = hif_drv; if (wilc->clients_count == 0) mutex_init(&wilc->deinit_lock); timer_setup(&vif->periodic_rssi, get_periodic_rssi, 0); mod_timer(&vif->periodic_rssi, jiffies + msecs_to_jiffies(5000)); timer_setup(&hif_drv->scan_timer, timer_scan_cb, 0); timer_setup(&hif_drv->connect_timer, timer_connect_cb, 0); timer_setup(&hif_drv->remain_on_ch_timer, listen_timer_cb, 0); hif_drv->hif_state = HOST_IF_IDLE; hif_drv->p2p_timeout = 0; wilc->clients_count++; return 0; } int wilc_deinit(struct wilc_vif *vif) { int result = 0; struct host_if_drv *hif_drv = vif->hif_drv; if (!hif_drv) { netdev_err(vif->ndev, "%s: hif driver is NULL", __func__); return -EFAULT; } mutex_lock(&vif->wilc->deinit_lock); del_timer_sync(&hif_drv->scan_timer); del_timer_sync(&hif_drv->connect_timer); del_timer_sync(&vif->periodic_rssi); del_timer_sync(&hif_drv->remain_on_ch_timer); if (hif_drv->usr_scan_req.scan_result) { hif_drv->usr_scan_req.scan_result(SCAN_EVENT_ABORTED, NULL, hif_drv->usr_scan_req.arg); hif_drv->usr_scan_req.scan_result = NULL; } hif_drv->hif_state = HOST_IF_IDLE; kfree(hif_drv); vif->hif_drv = NULL; vif->wilc->clients_count--; mutex_unlock(&vif->wilc->deinit_lock); return result; } void wilc_network_info_received(struct wilc *wilc, u8 *buffer, u32 length) { int result; struct host_if_msg *msg; int id; struct host_if_drv *hif_drv; struct wilc_vif *vif; id = get_unaligned_le32(&buffer[length - 4]); vif = wilc_get_vif_from_idx(wilc, id); if (!vif) return; hif_drv = vif->hif_drv; if (!hif_drv) { netdev_err(vif->ndev, "driver not init[%p]\n", hif_drv); return; } msg = wilc_alloc_work(vif, handle_rcvd_ntwrk_info, false); if (IS_ERR(msg)) return; msg->body.net_info.frame_len = get_unaligned_le16(&buffer[6]) - 1; msg->body.net_info.rssi = buffer[8]; msg->body.net_info.mgmt = kmemdup(&buffer[9], msg->body.net_info.frame_len, GFP_KERNEL); if (!msg->body.net_info.mgmt) { kfree(msg); return; } result = wilc_enqueue_work(msg); if (result) { netdev_err(vif->ndev, "%s: enqueue work failed\n", __func__); kfree(msg->body.net_info.mgmt); kfree(msg); } } void wilc_gnrl_async_info_received(struct wilc *wilc, u8 *buffer, u32 length) { int result; struct host_if_msg *msg; int id; struct host_if_drv *hif_drv; struct wilc_vif *vif; mutex_lock(&wilc->deinit_lock); id = get_unaligned_le32(&buffer[length - 4]); vif = wilc_get_vif_from_idx(wilc, id); if (!vif) { mutex_unlock(&wilc->deinit_lock); return; } hif_drv = vif->hif_drv; if (!hif_drv) { mutex_unlock(&wilc->deinit_lock); return; } if (!hif_drv->conn_info.conn_result) { netdev_err(vif->ndev, "%s: conn_result is NULL\n", __func__); mutex_unlock(&wilc->deinit_lock); return; } msg = wilc_alloc_work(vif, handle_rcvd_gnrl_async_info, false); if (IS_ERR(msg)) { mutex_unlock(&wilc->deinit_lock); return; } msg->body.mac_info.status = buffer[7]; result = wilc_enqueue_work(msg); if (result) { netdev_err(vif->ndev, "%s: enqueue work failed\n", __func__); kfree(msg); } mutex_unlock(&wilc->deinit_lock); } void wilc_scan_complete_received(struct wilc *wilc, u8 *buffer, u32 length) { int result; int id; struct host_if_drv *hif_drv; struct wilc_vif *vif; id = get_unaligned_le32(&buffer[length - 4]); vif = wilc_get_vif_from_idx(wilc, id); if (!vif) return; hif_drv = vif->hif_drv; if (!hif_drv) return; if (hif_drv->usr_scan_req.scan_result) { struct host_if_msg *msg; msg = wilc_alloc_work(vif, handle_scan_complete, false); if (IS_ERR(msg)) return; result = wilc_enqueue_work(msg); if (result) { netdev_err(vif->ndev, "%s: enqueue work failed\n", __func__); kfree(msg); } } } int wilc_remain_on_channel(struct wilc_vif *vif, u64 cookie, u32 duration, u16 chan, void (*expired)(void *, u64), void *user_arg) { struct wilc_remain_ch roc; int result; roc.ch = chan; roc.expired = expired; roc.arg = user_arg; roc.duration = duration; roc.cookie = cookie; result = handle_remain_on_chan(vif, &roc); if (result) netdev_err(vif->ndev, "%s: failed to set remain on channel\n", __func__); return result; } int wilc_listen_state_expired(struct wilc_vif *vif, u64 cookie) { if (!vif->hif_drv) { netdev_err(vif->ndev, "%s: hif driver is NULL", __func__); return -EFAULT; } del_timer(&vif->hif_drv->remain_on_ch_timer); return wilc_handle_roc_expired(vif, cookie); } void wilc_frame_register(struct wilc_vif *vif, u16 frame_type, bool reg) { struct wid wid; int result; struct wilc_reg_frame reg_frame; wid.id = WID_REGISTER_FRAME; wid.type = WID_STR; wid.size = sizeof(reg_frame); wid.val = (u8 *)®_frame; memset(®_frame, 0x0, sizeof(reg_frame)); if (reg) reg_frame.reg = 1; switch (frame_type) { case IEEE80211_STYPE_ACTION: reg_frame.reg_id = WILC_FW_ACTION_FRM_IDX; break; case IEEE80211_STYPE_PROBE_REQ: reg_frame.reg_id = WILC_FW_PROBE_REQ_IDX; break; default: break; } reg_frame.frame_type = cpu_to_le16(frame_type); result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); if (result) netdev_err(vif->ndev, "Failed to frame register\n"); } int wilc_add_beacon(struct wilc_vif *vif, u32 interval, u32 dtim_period, struct cfg80211_beacon_data *params) { struct wid wid; int result; u8 *cur_byte; wid.id = WID_ADD_BEACON; wid.type = WID_BIN; wid.size = params->head_len + params->tail_len + 16; wid.val = kzalloc(wid.size, GFP_KERNEL); if (!wid.val) return -ENOMEM; cur_byte = wid.val; put_unaligned_le32(interval, cur_byte); cur_byte += 4; put_unaligned_le32(dtim_period, cur_byte); cur_byte += 4; put_unaligned_le32(params->head_len, cur_byte); cur_byte += 4; if (params->head_len > 0) memcpy(cur_byte, params->head, params->head_len); cur_byte += params->head_len; put_unaligned_le32(params->tail_len, cur_byte); cur_byte += 4; if (params->tail_len > 0) memcpy(cur_byte, params->tail, params->tail_len); result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); if (result) netdev_err(vif->ndev, "Failed to send add beacon\n"); kfree(wid.val); return result; } int wilc_del_beacon(struct wilc_vif *vif) { int result; struct wid wid; u8 del_beacon = 0; wid.id = WID_DEL_BEACON; wid.type = WID_CHAR; wid.size = sizeof(char); wid.val = &del_beacon; result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); if (result) netdev_err(vif->ndev, "Failed to send delete beacon\n"); return result; } int wilc_add_station(struct wilc_vif *vif, const u8 *mac, struct station_parameters *params) { struct wid wid; int result; u8 *cur_byte; wid.id = WID_ADD_STA; wid.type = WID_BIN; wid.size = WILC_ADD_STA_LENGTH + params->supported_rates_len; wid.val = kmalloc(wid.size, GFP_KERNEL); if (!wid.val) return -ENOMEM; cur_byte = wid.val; wilc_hif_pack_sta_param(cur_byte, mac, params); result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); if (result != 0) netdev_err(vif->ndev, "Failed to send add station\n"); kfree(wid.val); return result; } int wilc_del_station(struct wilc_vif *vif, const u8 *mac_addr) { struct wid wid; int result; wid.id = WID_REMOVE_STA; wid.type = WID_BIN; wid.size = ETH_ALEN; wid.val = kzalloc(wid.size, GFP_KERNEL); if (!wid.val) return -ENOMEM; if (!mac_addr) eth_broadcast_addr(wid.val); else ether_addr_copy(wid.val, mac_addr); result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); if (result) netdev_err(vif->ndev, "Failed to del station\n"); kfree(wid.val); return result; } int wilc_del_allstation(struct wilc_vif *vif, u8 mac_addr[][ETH_ALEN]) { struct wid wid; int result; int i; u8 assoc_sta = 0; struct wilc_del_all_sta del_sta; memset(&del_sta, 0x0, sizeof(del_sta)); for (i = 0; i < WILC_MAX_NUM_STA; i++) { if (!is_zero_ether_addr(mac_addr[i])) { assoc_sta++; ether_addr_copy(del_sta.mac[i], mac_addr[i]); } } if (!assoc_sta) return 0; del_sta.assoc_sta = assoc_sta; wid.id = WID_DEL_ALL_STA; wid.type = WID_STR; wid.size = (assoc_sta * ETH_ALEN) + 1; wid.val = (u8 *)&del_sta; result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); if (result) netdev_err(vif->ndev, "Failed to send delete all station\n"); return result; } int wilc_edit_station(struct wilc_vif *vif, const u8 *mac, struct station_parameters *params) { struct wid wid; int result; u8 *cur_byte; wid.id = WID_EDIT_STA; wid.type = WID_BIN; wid.size = WILC_ADD_STA_LENGTH + params->supported_rates_len; wid.val = kmalloc(wid.size, GFP_KERNEL); if (!wid.val) return -ENOMEM; cur_byte = wid.val; wilc_hif_pack_sta_param(cur_byte, mac, params); result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); if (result) netdev_err(vif->ndev, "Failed to send edit station\n"); kfree(wid.val); return result; } int wilc_set_power_mgmt(struct wilc_vif *vif, bool enabled, u32 timeout) { struct wid wid; int result; s8 power_mode; if (enabled) power_mode = WILC_FW_MIN_FAST_PS; else power_mode = WILC_FW_NO_POWERSAVE; wid.id = WID_POWER_MANAGEMENT; wid.val = &power_mode; wid.size = sizeof(char); result = wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); if (result) netdev_err(vif->ndev, "Failed to send power management\n"); return result; } int wilc_setup_multicast_filter(struct wilc_vif *vif, u32 enabled, u32 count, u8 *mc_list) { int result; struct host_if_msg *msg; msg = wilc_alloc_work(vif, handle_set_mcast_filter, false); if (IS_ERR(msg)) return PTR_ERR(msg); msg->body.mc_info.enabled = enabled; msg->body.mc_info.cnt = count; msg->body.mc_info.mc_list = mc_list; result = wilc_enqueue_work(msg); if (result) { netdev_err(vif->ndev, "%s: enqueue work failed\n", __func__); kfree(msg); } return result; } int wilc_set_tx_power(struct wilc_vif *vif, u8 tx_power) { struct wid wid; wid.id = WID_TX_POWER; wid.type = WID_CHAR; wid.val = &tx_power; wid.size = sizeof(char); return wilc_send_config_pkt(vif, WILC_SET_CFG, &wid, 1); } int wilc_get_tx_power(struct wilc_vif *vif, u8 *tx_power) { struct wid wid; wid.id = WID_TX_POWER; wid.type = WID_CHAR; wid.val = tx_power; wid.size = sizeof(char); return wilc_send_config_pkt(vif, WILC_GET_CFG, &wid, 1); }
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