Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Jérôme Pouiller | 1982 | 99.70% | 8 | 88.89% |
Gustavo A. R. Silva | 6 | 0.30% | 1 | 11.11% |
Total | 1988 | 9 |
// SPDX-License-Identifier: GPL-2.0-only /* * Implementation of host-to-chip MIBs of WFxxx Split Mac (WSM) API. * * Copyright (c) 2017-2019, Silicon Laboratories, Inc. * Copyright (c) 2010, ST-Ericsson * Copyright (C) 2010, ST-Ericsson SA */ #include <linux/etherdevice.h> #include "wfx.h" #include "hif_tx.h" #include "hif_tx_mib.h" #include "hif_api_mib.h" int hif_set_output_power(struct wfx_vif *wvif, int val) { struct hif_mib_current_tx_power_level arg = { .power_level = cpu_to_le32(val * 10), }; return hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_CURRENT_TX_POWER_LEVEL, &arg, sizeof(arg)); } int hif_set_beacon_wakeup_period(struct wfx_vif *wvif, unsigned int dtim_interval, unsigned int listen_interval) { struct hif_mib_beacon_wake_up_period val = { .wakeup_period_min = dtim_interval, .receive_dtim = 0, .wakeup_period_max = listen_interval, }; if (dtim_interval > 0xFF || listen_interval > 0xFFFF) return -EINVAL; return hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_BEACON_WAKEUP_PERIOD, &val, sizeof(val)); } int hif_set_rcpi_rssi_threshold(struct wfx_vif *wvif, int rssi_thold, int rssi_hyst) { struct hif_mib_rcpi_rssi_threshold arg = { .rolling_average_count = 8, .detection = 1, }; if (!rssi_thold && !rssi_hyst) { arg.upperthresh = 1; arg.lowerthresh = 1; } else { arg.upper_threshold = rssi_thold + rssi_hyst; arg.upper_threshold = (arg.upper_threshold + 110) * 2; arg.lower_threshold = rssi_thold; arg.lower_threshold = (arg.lower_threshold + 110) * 2; } return hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_RCPI_RSSI_THRESHOLD, &arg, sizeof(arg)); } int hif_get_counters_table(struct wfx_dev *wdev, int vif_id, struct hif_mib_extended_count_table *arg) { if (wfx_api_older_than(wdev, 1, 3)) { // extended_count_table is wider than count_table memset(arg, 0xFF, sizeof(*arg)); return hif_read_mib(wdev, vif_id, HIF_MIB_ID_COUNTERS_TABLE, arg, sizeof(struct hif_mib_count_table)); } else { return hif_read_mib(wdev, vif_id, HIF_MIB_ID_EXTENDED_COUNTERS_TABLE, arg, sizeof(struct hif_mib_extended_count_table)); } } int hif_set_macaddr(struct wfx_vif *wvif, u8 *mac) { struct hif_mib_mac_address msg = { }; if (mac) ether_addr_copy(msg.mac_addr, mac); return hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_DOT11_MAC_ADDRESS, &msg, sizeof(msg)); } int hif_set_rx_filter(struct wfx_vif *wvif, bool filter_bssid, bool filter_prbreq) { struct hif_mib_rx_filter val = { }; if (filter_bssid) val.bssid_filter = 1; if (!filter_prbreq) val.fwd_probe_req = 1; return hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_RX_FILTER, &val, sizeof(val)); } int hif_set_beacon_filter_table(struct wfx_vif *wvif, int tbl_len, const struct hif_ie_table_entry *tbl) { int ret; struct hif_mib_bcn_filter_table *val; int buf_len = struct_size(val, ie_table, tbl_len); val = kzalloc(buf_len, GFP_KERNEL); if (!val) return -ENOMEM; val->num_of_info_elmts = cpu_to_le32(tbl_len); memcpy(val->ie_table, tbl, flex_array_size(val, ie_table, tbl_len)); ret = hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_BEACON_FILTER_TABLE, val, buf_len); kfree(val); return ret; } int hif_beacon_filter_control(struct wfx_vif *wvif, int enable, int beacon_count) { struct hif_mib_bcn_filter_enable arg = { .enable = cpu_to_le32(enable), .bcn_count = cpu_to_le32(beacon_count), }; return hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_BEACON_FILTER_ENABLE, &arg, sizeof(arg)); } int hif_set_operational_mode(struct wfx_dev *wdev, enum hif_op_power_mode mode) { struct hif_mib_gl_operational_power_mode val = { .power_mode = mode, .wup_ind_activation = 1, }; return hif_write_mib(wdev, -1, HIF_MIB_ID_GL_OPERATIONAL_POWER_MODE, &val, sizeof(val)); } int hif_set_template_frame(struct wfx_vif *wvif, struct sk_buff *skb, u8 frame_type, int init_rate) { struct hif_mib_template_frame *arg; WARN(skb->len > HIF_API_MAX_TEMPLATE_FRAME_SIZE, "frame is too big"); skb_push(skb, 4); arg = (struct hif_mib_template_frame *)skb->data; skb_pull(skb, 4); arg->init_rate = init_rate; arg->frame_type = frame_type; arg->frame_length = cpu_to_le16(skb->len); return hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_TEMPLATE_FRAME, arg, sizeof(*arg) + skb->len); } int hif_set_mfp(struct wfx_vif *wvif, bool capable, bool required) { struct hif_mib_protected_mgmt_policy val = { }; WARN(required && !capable, "incoherent arguments"); if (capable) { val.pmf_enable = 1; val.host_enc_auth_frames = 1; } if (!required) val.unpmf_allowed = 1; return hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_PROTECTED_MGMT_POLICY, &val, sizeof(val)); } int hif_set_block_ack_policy(struct wfx_vif *wvif, u8 tx_tid_policy, u8 rx_tid_policy) { struct hif_mib_block_ack_policy val = { .block_ack_tx_tid_policy = tx_tid_policy, .block_ack_rx_tid_policy = rx_tid_policy, }; return hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_BLOCK_ACK_POLICY, &val, sizeof(val)); } int hif_set_association_mode(struct wfx_vif *wvif, struct ieee80211_bss_conf *info) { struct ieee80211_sta *sta = NULL; struct hif_mib_set_association_mode val = { .preambtype_use = 1, .mode = 1, .spacing = 1, .short_preamble = info->use_short_preamble, }; rcu_read_lock(); // protect sta if (info->bssid && !info->ibss_joined) sta = ieee80211_find_sta(wvif->vif, info->bssid); // FIXME: it is strange to not retrieve all information from bss_info if (sta && sta->ht_cap.ht_supported) { val.mpdu_start_spacing = sta->ht_cap.ampdu_density; if (!(info->ht_operation_mode & IEEE80211_HT_OP_MODE_NON_GF_STA_PRSNT)) val.greenfield = !!(sta->ht_cap.cap & IEEE80211_HT_CAP_GRN_FLD); } rcu_read_unlock(); return hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_SET_ASSOCIATION_MODE, &val, sizeof(val)); } int hif_set_tx_rate_retry_policy(struct wfx_vif *wvif, int policy_index, u8 *rates) { struct hif_mib_set_tx_rate_retry_policy *arg; size_t size = struct_size(arg, tx_rate_retry_policy, 1); int ret; arg = kzalloc(size, GFP_KERNEL); if (!arg) return -ENOMEM; arg->num_tx_rate_policies = 1; arg->tx_rate_retry_policy[0].policy_index = policy_index; arg->tx_rate_retry_policy[0].short_retry_count = 255; arg->tx_rate_retry_policy[0].long_retry_count = 255; arg->tx_rate_retry_policy[0].first_rate_sel = 1; arg->tx_rate_retry_policy[0].terminate = 1; arg->tx_rate_retry_policy[0].count_init = 1; memcpy(&arg->tx_rate_retry_policy[0].rates, rates, sizeof(arg->tx_rate_retry_policy[0].rates)); ret = hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_SET_TX_RATE_RETRY_POLICY, arg, size); kfree(arg); return ret; } int hif_set_mac_addr_condition(struct wfx_vif *wvif, int idx, const u8 *mac_addr) { struct hif_mib_mac_addr_data_frame_condition val = { .condition_idx = idx, .address_type = HIF_MAC_ADDR_A1, }; ether_addr_copy(val.mac_address, mac_addr); return hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_MAC_ADDR_DATAFRAME_CONDITION, &val, sizeof(val)); } int hif_set_uc_mc_bc_condition(struct wfx_vif *wvif, int idx, u8 allowed_frames) { struct hif_mib_uc_mc_bc_data_frame_condition val = { .condition_idx = idx, .allowed_frames = allowed_frames, }; return hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_UC_MC_BC_DATAFRAME_CONDITION, &val, sizeof(val)); } int hif_set_config_data_filter(struct wfx_vif *wvif, bool enable, int idx, int mac_filters, int frames_types_filters) { struct hif_mib_config_data_filter val = { .enable = enable, .filter_idx = idx, .mac_cond = mac_filters, .uc_mc_bc_cond = frames_types_filters, }; return hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_CONFIG_DATA_FILTER, &val, sizeof(val)); } int hif_set_data_filtering(struct wfx_vif *wvif, bool enable, bool invert) { struct hif_mib_set_data_filtering val = { .enable = enable, .invert_matching = invert, }; return hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_SET_DATA_FILTERING, &val, sizeof(val)); } int hif_keep_alive_period(struct wfx_vif *wvif, int period) { struct hif_mib_keep_alive_period arg = { .keep_alive_period = cpu_to_le16(period), }; return hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_KEEP_ALIVE_PERIOD, &arg, sizeof(arg)); }; int hif_set_arp_ipv4_filter(struct wfx_vif *wvif, int idx, __be32 *addr) { struct hif_mib_arp_ip_addr_table arg = { .condition_idx = idx, .arp_enable = HIF_ARP_NS_FILTERING_DISABLE, }; if (addr) { // Caution: type of addr is __be32 memcpy(arg.ipv4_address, addr, sizeof(arg.ipv4_address)); arg.arp_enable = HIF_ARP_NS_FILTERING_ENABLE; } return hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_ARP_IP_ADDRESSES_TABLE, &arg, sizeof(arg)); } int hif_use_multi_tx_conf(struct wfx_dev *wdev, bool enable) { struct hif_mib_gl_set_multi_msg arg = { .enable_multi_tx_conf = enable, }; return hif_write_mib(wdev, -1, HIF_MIB_ID_GL_SET_MULTI_MSG, &arg, sizeof(arg)); } int hif_set_uapsd_info(struct wfx_vif *wvif, unsigned long val) { struct hif_mib_set_uapsd_information arg = { }; if (val & BIT(IEEE80211_AC_VO)) arg.trig_voice = 1; if (val & BIT(IEEE80211_AC_VI)) arg.trig_video = 1; if (val & BIT(IEEE80211_AC_BE)) arg.trig_be = 1; if (val & BIT(IEEE80211_AC_BK)) arg.trig_bckgrnd = 1; return hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_SET_UAPSD_INFORMATION, &arg, sizeof(arg)); } int hif_erp_use_protection(struct wfx_vif *wvif, bool enable) { struct hif_mib_non_erp_protection arg = { .use_cts_to_self = enable, }; return hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_NON_ERP_PROTECTION, &arg, sizeof(arg)); } int hif_slot_time(struct wfx_vif *wvif, int val) { struct hif_mib_slot_time arg = { .slot_time = cpu_to_le32(val), }; return hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_SLOT_TIME, &arg, sizeof(arg)); } int hif_wep_default_key_id(struct wfx_vif *wvif, int val) { struct hif_mib_wep_default_key_id arg = { .wep_default_key_id = val, }; return hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_DOT11_WEP_DEFAULT_KEY_ID, &arg, sizeof(arg)); } int hif_rts_threshold(struct wfx_vif *wvif, int val) { struct hif_mib_dot11_rts_threshold arg = { .threshold = cpu_to_le32(val >= 0 ? val : 0xFFFF), }; return hif_write_mib(wvif->wdev, wvif->id, HIF_MIB_ID_DOT11_RTS_THRESHOLD, &arg, sizeof(arg)); }
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