1*92022041SSam Saccone #include <ctype.h>
2*92022041SSam Saccone #include <netlink/attr.h>
3*92022041SSam Saccone #include <errno.h>
4*92022041SSam Saccone #include <stdbool.h>
5*92022041SSam Saccone #include "iw.h"
6*92022041SSam Saccone #include "nl80211.h"
7*92022041SSam Saccone
mac_addr_n2a(char * mac_addr,const unsigned char * arg)8*92022041SSam Saccone void mac_addr_n2a(char *mac_addr, const unsigned char *arg)
9*92022041SSam Saccone {
10*92022041SSam Saccone int i, l;
11*92022041SSam Saccone
12*92022041SSam Saccone l = 0;
13*92022041SSam Saccone for (i = 0; i < ETH_ALEN ; i++) {
14*92022041SSam Saccone if (i == 0) {
15*92022041SSam Saccone sprintf(mac_addr+l, "%02x", arg[i]);
16*92022041SSam Saccone l += 2;
17*92022041SSam Saccone } else {
18*92022041SSam Saccone sprintf(mac_addr+l, ":%02x", arg[i]);
19*92022041SSam Saccone l += 3;
20*92022041SSam Saccone }
21*92022041SSam Saccone }
22*92022041SSam Saccone }
23*92022041SSam Saccone
mac_addr_a2n(unsigned char * mac_addr,char * arg)24*92022041SSam Saccone int mac_addr_a2n(unsigned char *mac_addr, char *arg)
25*92022041SSam Saccone {
26*92022041SSam Saccone int i;
27*92022041SSam Saccone
28*92022041SSam Saccone for (i = 0; i < ETH_ALEN ; i++) {
29*92022041SSam Saccone int temp;
30*92022041SSam Saccone char *cp = strchr(arg, ':');
31*92022041SSam Saccone if (cp) {
32*92022041SSam Saccone *cp = 0;
33*92022041SSam Saccone cp++;
34*92022041SSam Saccone }
35*92022041SSam Saccone if (sscanf(arg, "%x", &temp) != 1)
36*92022041SSam Saccone return -1;
37*92022041SSam Saccone if (temp < 0 || temp > 255)
38*92022041SSam Saccone return -1;
39*92022041SSam Saccone
40*92022041SSam Saccone mac_addr[i] = temp;
41*92022041SSam Saccone if (!cp)
42*92022041SSam Saccone break;
43*92022041SSam Saccone arg = cp;
44*92022041SSam Saccone }
45*92022041SSam Saccone if (i < ETH_ALEN - 1)
46*92022041SSam Saccone return -1;
47*92022041SSam Saccone
48*92022041SSam Saccone return 0;
49*92022041SSam Saccone }
50*92022041SSam Saccone
parse_hex_mask(char * hexmask,unsigned char ** result,size_t * result_len,unsigned char ** mask)51*92022041SSam Saccone int parse_hex_mask(char *hexmask, unsigned char **result, size_t *result_len,
52*92022041SSam Saccone unsigned char **mask)
53*92022041SSam Saccone {
54*92022041SSam Saccone size_t len = strlen(hexmask) / 2;
55*92022041SSam Saccone unsigned char *result_val;
56*92022041SSam Saccone unsigned char *result_mask = NULL;
57*92022041SSam Saccone
58*92022041SSam Saccone int pos = 0;
59*92022041SSam Saccone
60*92022041SSam Saccone *result_len = 0;
61*92022041SSam Saccone
62*92022041SSam Saccone result_val = calloc(len + 2, 1);
63*92022041SSam Saccone if (!result_val)
64*92022041SSam Saccone goto error;
65*92022041SSam Saccone *result = result_val;
66*92022041SSam Saccone if (mask) {
67*92022041SSam Saccone result_mask = calloc(DIV_ROUND_UP(len, 8) + 2, 1);
68*92022041SSam Saccone if (!result_mask)
69*92022041SSam Saccone goto error;
70*92022041SSam Saccone *mask = result_mask;
71*92022041SSam Saccone }
72*92022041SSam Saccone
73*92022041SSam Saccone while (1) {
74*92022041SSam Saccone char *cp = strchr(hexmask, ':');
75*92022041SSam Saccone if (cp) {
76*92022041SSam Saccone *cp = 0;
77*92022041SSam Saccone cp++;
78*92022041SSam Saccone }
79*92022041SSam Saccone
80*92022041SSam Saccone if (result_mask && (strcmp(hexmask, "-") == 0 ||
81*92022041SSam Saccone strcmp(hexmask, "xx") == 0 ||
82*92022041SSam Saccone strcmp(hexmask, "--") == 0)) {
83*92022041SSam Saccone /* skip this byte and leave mask bit unset */
84*92022041SSam Saccone } else {
85*92022041SSam Saccone int temp, mask_pos;
86*92022041SSam Saccone char *end;
87*92022041SSam Saccone
88*92022041SSam Saccone temp = strtoul(hexmask, &end, 16);
89*92022041SSam Saccone if (*end)
90*92022041SSam Saccone goto error;
91*92022041SSam Saccone if (temp < 0 || temp > 255)
92*92022041SSam Saccone goto error;
93*92022041SSam Saccone result_val[pos] = temp;
94*92022041SSam Saccone
95*92022041SSam Saccone mask_pos = pos / 8;
96*92022041SSam Saccone if (result_mask)
97*92022041SSam Saccone result_mask[mask_pos] |= 1 << (pos % 8);
98*92022041SSam Saccone }
99*92022041SSam Saccone
100*92022041SSam Saccone (*result_len)++;
101*92022041SSam Saccone pos++;
102*92022041SSam Saccone
103*92022041SSam Saccone if (!cp)
104*92022041SSam Saccone break;
105*92022041SSam Saccone hexmask = cp;
106*92022041SSam Saccone }
107*92022041SSam Saccone
108*92022041SSam Saccone return 0;
109*92022041SSam Saccone error:
110*92022041SSam Saccone free(result_val);
111*92022041SSam Saccone free(result_mask);
112*92022041SSam Saccone return -1;
113*92022041SSam Saccone }
114*92022041SSam Saccone
parse_hex(char * hex,size_t * outlen)115*92022041SSam Saccone unsigned char *parse_hex(char *hex, size_t *outlen)
116*92022041SSam Saccone {
117*92022041SSam Saccone unsigned char *result;
118*92022041SSam Saccone
119*92022041SSam Saccone if (parse_hex_mask(hex, &result, outlen, NULL))
120*92022041SSam Saccone return NULL;
121*92022041SSam Saccone return result;
122*92022041SSam Saccone }
123*92022041SSam Saccone
124*92022041SSam Saccone static const char *ifmodes[NL80211_IFTYPE_MAX + 1] = {
125*92022041SSam Saccone "unspecified",
126*92022041SSam Saccone "IBSS",
127*92022041SSam Saccone "managed",
128*92022041SSam Saccone "AP",
129*92022041SSam Saccone "AP/VLAN",
130*92022041SSam Saccone "WDS",
131*92022041SSam Saccone "monitor",
132*92022041SSam Saccone "mesh point",
133*92022041SSam Saccone "P2P-client",
134*92022041SSam Saccone "P2P-GO",
135*92022041SSam Saccone "P2P-device",
136*92022041SSam Saccone "outside context of a BSS",
137*92022041SSam Saccone "NAN",
138*92022041SSam Saccone };
139*92022041SSam Saccone
140*92022041SSam Saccone static char modebuf[100];
141*92022041SSam Saccone
iftype_name(enum nl80211_iftype iftype)142*92022041SSam Saccone const char *iftype_name(enum nl80211_iftype iftype)
143*92022041SSam Saccone {
144*92022041SSam Saccone if (iftype <= NL80211_IFTYPE_MAX && ifmodes[iftype])
145*92022041SSam Saccone return ifmodes[iftype];
146*92022041SSam Saccone sprintf(modebuf, "Unknown mode (%d)", iftype);
147*92022041SSam Saccone return modebuf;
148*92022041SSam Saccone }
149*92022041SSam Saccone
150*92022041SSam Saccone static const char *commands[NL80211_CMD_MAX + 1] = {
151*92022041SSam Saccone /*
152*92022041SSam Saccone * sed 's/^\tNL80211_CMD_//;t n;d;:n s%^\([^=]*\),.*%\t[NL80211_CMD_\1] = \"\L\1\",%;t;d' nl80211.h
153*92022041SSam Saccone */
154*92022041SSam Saccone [NL80211_CMD_UNSPEC] = "unspec",
155*92022041SSam Saccone [NL80211_CMD_GET_WIPHY] = "get_wiphy",
156*92022041SSam Saccone [NL80211_CMD_SET_WIPHY] = "set_wiphy",
157*92022041SSam Saccone [NL80211_CMD_NEW_WIPHY] = "new_wiphy",
158*92022041SSam Saccone [NL80211_CMD_DEL_WIPHY] = "del_wiphy",
159*92022041SSam Saccone [NL80211_CMD_GET_INTERFACE] = "get_interface",
160*92022041SSam Saccone [NL80211_CMD_SET_INTERFACE] = "set_interface",
161*92022041SSam Saccone [NL80211_CMD_NEW_INTERFACE] = "new_interface",
162*92022041SSam Saccone [NL80211_CMD_DEL_INTERFACE] = "del_interface",
163*92022041SSam Saccone [NL80211_CMD_GET_KEY] = "get_key",
164*92022041SSam Saccone [NL80211_CMD_SET_KEY] = "set_key",
165*92022041SSam Saccone [NL80211_CMD_NEW_KEY] = "new_key",
166*92022041SSam Saccone [NL80211_CMD_DEL_KEY] = "del_key",
167*92022041SSam Saccone [NL80211_CMD_GET_BEACON] = "get_beacon",
168*92022041SSam Saccone [NL80211_CMD_SET_BEACON] = "set_beacon",
169*92022041SSam Saccone [NL80211_CMD_START_AP] = "start_ap",
170*92022041SSam Saccone [NL80211_CMD_STOP_AP] = "stop_ap",
171*92022041SSam Saccone [NL80211_CMD_GET_STATION] = "get_station",
172*92022041SSam Saccone [NL80211_CMD_SET_STATION] = "set_station",
173*92022041SSam Saccone [NL80211_CMD_NEW_STATION] = "new_station",
174*92022041SSam Saccone [NL80211_CMD_DEL_STATION] = "del_station",
175*92022041SSam Saccone [NL80211_CMD_GET_MPATH] = "get_mpath",
176*92022041SSam Saccone [NL80211_CMD_SET_MPATH] = "set_mpath",
177*92022041SSam Saccone [NL80211_CMD_NEW_MPATH] = "new_mpath",
178*92022041SSam Saccone [NL80211_CMD_DEL_MPATH] = "del_mpath",
179*92022041SSam Saccone [NL80211_CMD_SET_BSS] = "set_bss",
180*92022041SSam Saccone [NL80211_CMD_SET_REG] = "set_reg",
181*92022041SSam Saccone [NL80211_CMD_REQ_SET_REG] = "req_set_reg",
182*92022041SSam Saccone [NL80211_CMD_GET_MESH_CONFIG] = "get_mesh_config",
183*92022041SSam Saccone [NL80211_CMD_SET_MESH_CONFIG] = "set_mesh_config",
184*92022041SSam Saccone [NL80211_CMD_SET_MGMT_EXTRA_IE /* reserved; not used */] = "set_mgmt_extra_ie /* reserved; not used */",
185*92022041SSam Saccone [NL80211_CMD_GET_REG] = "get_reg",
186*92022041SSam Saccone [NL80211_CMD_GET_SCAN] = "get_scan",
187*92022041SSam Saccone [NL80211_CMD_TRIGGER_SCAN] = "trigger_scan",
188*92022041SSam Saccone [NL80211_CMD_NEW_SCAN_RESULTS] = "new_scan_results",
189*92022041SSam Saccone [NL80211_CMD_SCAN_ABORTED] = "scan_aborted",
190*92022041SSam Saccone [NL80211_CMD_REG_CHANGE] = "reg_change",
191*92022041SSam Saccone [NL80211_CMD_AUTHENTICATE] = "authenticate",
192*92022041SSam Saccone [NL80211_CMD_ASSOCIATE] = "associate",
193*92022041SSam Saccone [NL80211_CMD_DEAUTHENTICATE] = "deauthenticate",
194*92022041SSam Saccone [NL80211_CMD_DISASSOCIATE] = "disassociate",
195*92022041SSam Saccone [NL80211_CMD_MICHAEL_MIC_FAILURE] = "michael_mic_failure",
196*92022041SSam Saccone [NL80211_CMD_REG_BEACON_HINT] = "reg_beacon_hint",
197*92022041SSam Saccone [NL80211_CMD_JOIN_IBSS] = "join_ibss",
198*92022041SSam Saccone [NL80211_CMD_LEAVE_IBSS] = "leave_ibss",
199*92022041SSam Saccone [NL80211_CMD_TESTMODE] = "testmode",
200*92022041SSam Saccone [NL80211_CMD_CONNECT] = "connect",
201*92022041SSam Saccone [NL80211_CMD_ROAM] = "roam",
202*92022041SSam Saccone [NL80211_CMD_DISCONNECT] = "disconnect",
203*92022041SSam Saccone [NL80211_CMD_SET_WIPHY_NETNS] = "set_wiphy_netns",
204*92022041SSam Saccone [NL80211_CMD_GET_SURVEY] = "get_survey",
205*92022041SSam Saccone [NL80211_CMD_NEW_SURVEY_RESULTS] = "new_survey_results",
206*92022041SSam Saccone [NL80211_CMD_SET_PMKSA] = "set_pmksa",
207*92022041SSam Saccone [NL80211_CMD_DEL_PMKSA] = "del_pmksa",
208*92022041SSam Saccone [NL80211_CMD_FLUSH_PMKSA] = "flush_pmksa",
209*92022041SSam Saccone [NL80211_CMD_REMAIN_ON_CHANNEL] = "remain_on_channel",
210*92022041SSam Saccone [NL80211_CMD_CANCEL_REMAIN_ON_CHANNEL] = "cancel_remain_on_channel",
211*92022041SSam Saccone [NL80211_CMD_SET_TX_BITRATE_MASK] = "set_tx_bitrate_mask",
212*92022041SSam Saccone [NL80211_CMD_REGISTER_FRAME] = "register_frame",
213*92022041SSam Saccone [NL80211_CMD_FRAME] = "frame",
214*92022041SSam Saccone [NL80211_CMD_FRAME_TX_STATUS] = "frame_tx_status",
215*92022041SSam Saccone [NL80211_CMD_SET_POWER_SAVE] = "set_power_save",
216*92022041SSam Saccone [NL80211_CMD_GET_POWER_SAVE] = "get_power_save",
217*92022041SSam Saccone [NL80211_CMD_SET_CQM] = "set_cqm",
218*92022041SSam Saccone [NL80211_CMD_NOTIFY_CQM] = "notify_cqm",
219*92022041SSam Saccone [NL80211_CMD_SET_CHANNEL] = "set_channel",
220*92022041SSam Saccone [NL80211_CMD_SET_WDS_PEER] = "set_wds_peer",
221*92022041SSam Saccone [NL80211_CMD_FRAME_WAIT_CANCEL] = "frame_wait_cancel",
222*92022041SSam Saccone [NL80211_CMD_JOIN_MESH] = "join_mesh",
223*92022041SSam Saccone [NL80211_CMD_LEAVE_MESH] = "leave_mesh",
224*92022041SSam Saccone [NL80211_CMD_UNPROT_DEAUTHENTICATE] = "unprot_deauthenticate",
225*92022041SSam Saccone [NL80211_CMD_UNPROT_DISASSOCIATE] = "unprot_disassociate",
226*92022041SSam Saccone [NL80211_CMD_NEW_PEER_CANDIDATE] = "new_peer_candidate",
227*92022041SSam Saccone [NL80211_CMD_GET_WOWLAN] = "get_wowlan",
228*92022041SSam Saccone [NL80211_CMD_SET_WOWLAN] = "set_wowlan",
229*92022041SSam Saccone [NL80211_CMD_START_SCHED_SCAN] = "start_sched_scan",
230*92022041SSam Saccone [NL80211_CMD_STOP_SCHED_SCAN] = "stop_sched_scan",
231*92022041SSam Saccone [NL80211_CMD_SCHED_SCAN_RESULTS] = "sched_scan_results",
232*92022041SSam Saccone [NL80211_CMD_SCHED_SCAN_STOPPED] = "sched_scan_stopped",
233*92022041SSam Saccone [NL80211_CMD_SET_REKEY_OFFLOAD] = "set_rekey_offload",
234*92022041SSam Saccone [NL80211_CMD_PMKSA_CANDIDATE] = "pmksa_candidate",
235*92022041SSam Saccone [NL80211_CMD_TDLS_OPER] = "tdls_oper",
236*92022041SSam Saccone [NL80211_CMD_TDLS_MGMT] = "tdls_mgmt",
237*92022041SSam Saccone [NL80211_CMD_UNEXPECTED_FRAME] = "unexpected_frame",
238*92022041SSam Saccone [NL80211_CMD_PROBE_CLIENT] = "probe_client",
239*92022041SSam Saccone [NL80211_CMD_REGISTER_BEACONS] = "register_beacons",
240*92022041SSam Saccone [NL80211_CMD_UNEXPECTED_4ADDR_FRAME] = "unexpected_4addr_frame",
241*92022041SSam Saccone [NL80211_CMD_SET_NOACK_MAP] = "set_noack_map",
242*92022041SSam Saccone [NL80211_CMD_CH_SWITCH_NOTIFY] = "ch_switch_notify",
243*92022041SSam Saccone [NL80211_CMD_START_P2P_DEVICE] = "start_p2p_device",
244*92022041SSam Saccone [NL80211_CMD_STOP_P2P_DEVICE] = "stop_p2p_device",
245*92022041SSam Saccone [NL80211_CMD_CONN_FAILED] = "conn_failed",
246*92022041SSam Saccone [NL80211_CMD_SET_MCAST_RATE] = "set_mcast_rate",
247*92022041SSam Saccone [NL80211_CMD_SET_MAC_ACL] = "set_mac_acl",
248*92022041SSam Saccone [NL80211_CMD_RADAR_DETECT] = "radar_detect",
249*92022041SSam Saccone [NL80211_CMD_GET_PROTOCOL_FEATURES] = "get_protocol_features",
250*92022041SSam Saccone [NL80211_CMD_UPDATE_FT_IES] = "update_ft_ies",
251*92022041SSam Saccone [NL80211_CMD_FT_EVENT] = "ft_event",
252*92022041SSam Saccone [NL80211_CMD_CRIT_PROTOCOL_START] = "crit_protocol_start",
253*92022041SSam Saccone [NL80211_CMD_CRIT_PROTOCOL_STOP] = "crit_protocol_stop",
254*92022041SSam Saccone [NL80211_CMD_GET_COALESCE] = "get_coalesce",
255*92022041SSam Saccone [NL80211_CMD_SET_COALESCE] = "set_coalesce",
256*92022041SSam Saccone [NL80211_CMD_CHANNEL_SWITCH] = "channel_switch",
257*92022041SSam Saccone [NL80211_CMD_VENDOR] = "vendor",
258*92022041SSam Saccone [NL80211_CMD_SET_QOS_MAP] = "set_qos_map",
259*92022041SSam Saccone [NL80211_CMD_ADD_TX_TS] = "add_tx_ts",
260*92022041SSam Saccone [NL80211_CMD_DEL_TX_TS] = "del_tx_ts",
261*92022041SSam Saccone [NL80211_CMD_GET_MPP] = "get_mpp",
262*92022041SSam Saccone [NL80211_CMD_JOIN_OCB] = "join_ocb",
263*92022041SSam Saccone [NL80211_CMD_LEAVE_OCB] = "leave_ocb",
264*92022041SSam Saccone [NL80211_CMD_CH_SWITCH_STARTED_NOTIFY] = "ch_switch_started_notify",
265*92022041SSam Saccone [NL80211_CMD_TDLS_CHANNEL_SWITCH] = "tdls_channel_switch",
266*92022041SSam Saccone [NL80211_CMD_TDLS_CANCEL_CHANNEL_SWITCH] = "tdls_cancel_channel_switch",
267*92022041SSam Saccone [NL80211_CMD_WIPHY_REG_CHANGE] = "wiphy_reg_change",
268*92022041SSam Saccone [NL80211_CMD_ABORT_SCAN] = "abort_scan",
269*92022041SSam Saccone [NL80211_CMD_START_NAN] = "start_nan",
270*92022041SSam Saccone [NL80211_CMD_STOP_NAN] = "stop_nan",
271*92022041SSam Saccone [NL80211_CMD_ADD_NAN_FUNCTION] = "add_nan_function",
272*92022041SSam Saccone [NL80211_CMD_DEL_NAN_FUNCTION] = "del_nan_function",
273*92022041SSam Saccone [NL80211_CMD_CHANGE_NAN_CONFIG] = "change_nan_config",
274*92022041SSam Saccone [NL80211_CMD_NAN_MATCH] = "nan_match",
275*92022041SSam Saccone [NL80211_CMD_SET_MULTICAST_TO_UNICAST] = "set_multicast_to_unicast",
276*92022041SSam Saccone [NL80211_CMD_UPDATE_CONNECT_PARAMS] = "update_connect_params",
277*92022041SSam Saccone [NL80211_CMD_SET_PMK] = "set_pmk",
278*92022041SSam Saccone [NL80211_CMD_DEL_PMK] = "del_pmk",
279*92022041SSam Saccone [NL80211_CMD_PORT_AUTHORIZED] = "port_authorized",
280*92022041SSam Saccone [NL80211_CMD_RELOAD_REGDB] = "reload_regdb",
281*92022041SSam Saccone [NL80211_CMD_EXTERNAL_AUTH] = "external_auth",
282*92022041SSam Saccone [NL80211_CMD_STA_OPMODE_CHANGED] = "sta_opmode_changed",
283*92022041SSam Saccone [NL80211_CMD_CONTROL_PORT_FRAME] = "control_port_frame",
284*92022041SSam Saccone [NL80211_CMD_GET_FTM_RESPONDER_STATS] = "get_ftm_responder_stats",
285*92022041SSam Saccone [NL80211_CMD_PEER_MEASUREMENT_START] = "peer_measurement_start",
286*92022041SSam Saccone [NL80211_CMD_PEER_MEASUREMENT_RESULT] = "peer_measurement_result",
287*92022041SSam Saccone [NL80211_CMD_PEER_MEASUREMENT_COMPLETE] = "peer_measurement_complete",
288*92022041SSam Saccone [NL80211_CMD_NOTIFY_RADAR] = "notify_radar",
289*92022041SSam Saccone [NL80211_CMD_UPDATE_OWE_INFO] = "update_owe_info",
290*92022041SSam Saccone [NL80211_CMD_PROBE_MESH_LINK] = "probe_mesh_link",
291*92022041SSam Saccone [NL80211_CMD_SET_TID_CONFIG] = "set_tid_config",
292*92022041SSam Saccone [NL80211_CMD_UNPROT_BEACON] = "unprot_beacon",
293*92022041SSam Saccone [NL80211_CMD_CONTROL_PORT_FRAME_TX_STATUS] = "control_port_frame_tx_status",
294*92022041SSam Saccone [NL80211_CMD_SET_SAR_SPECS] = "set_sar_specs",
295*92022041SSam Saccone [NL80211_CMD_OBSS_COLOR_COLLISION] = "obss_color_collision",
296*92022041SSam Saccone [NL80211_CMD_COLOR_CHANGE_REQUEST] = "color_change_request",
297*92022041SSam Saccone [NL80211_CMD_COLOR_CHANGE_STARTED] = "color_change_started",
298*92022041SSam Saccone [NL80211_CMD_COLOR_CHANGE_ABORTED] = "color_change_aborted",
299*92022041SSam Saccone [NL80211_CMD_COLOR_CHANGE_COMPLETED] = "color_change_completed",
300*92022041SSam Saccone [NL80211_CMD_SET_FILS_AAD] = "set_fils_aad",
301*92022041SSam Saccone [NL80211_CMD_ASSOC_COMEBACK] = "assoc_comeback",
302*92022041SSam Saccone };
303*92022041SSam Saccone
304*92022041SSam Saccone static char cmdbuf[100];
305*92022041SSam Saccone
command_name(enum nl80211_commands cmd)306*92022041SSam Saccone const char *command_name(enum nl80211_commands cmd)
307*92022041SSam Saccone {
308*92022041SSam Saccone if (cmd <= NL80211_CMD_MAX && commands[cmd])
309*92022041SSam Saccone return commands[cmd];
310*92022041SSam Saccone sprintf(cmdbuf, "Unknown command (%d)", cmd);
311*92022041SSam Saccone return cmdbuf;
312*92022041SSam Saccone }
313*92022041SSam Saccone
ieee80211_channel_to_frequency(int chan,enum nl80211_band band)314*92022041SSam Saccone int ieee80211_channel_to_frequency(int chan, enum nl80211_band band)
315*92022041SSam Saccone {
316*92022041SSam Saccone /* see 802.11 17.3.8.3.2 and Annex J
317*92022041SSam Saccone * there are overlapping channel numbers in 5GHz and 2GHz bands */
318*92022041SSam Saccone if (chan <= 0)
319*92022041SSam Saccone return 0; /* not supported */
320*92022041SSam Saccone switch (band) {
321*92022041SSam Saccone case NL80211_BAND_2GHZ:
322*92022041SSam Saccone if (chan == 14)
323*92022041SSam Saccone return 2484;
324*92022041SSam Saccone else if (chan < 14)
325*92022041SSam Saccone return 2407 + chan * 5;
326*92022041SSam Saccone break;
327*92022041SSam Saccone case NL80211_BAND_5GHZ:
328*92022041SSam Saccone if (chan >= 182 && chan <= 196)
329*92022041SSam Saccone return 4000 + chan * 5;
330*92022041SSam Saccone else
331*92022041SSam Saccone return 5000 + chan * 5;
332*92022041SSam Saccone break;
333*92022041SSam Saccone case NL80211_BAND_6GHZ:
334*92022041SSam Saccone /* see 802.11ax D6.1 27.3.23.2 */
335*92022041SSam Saccone if (chan == 2)
336*92022041SSam Saccone return 5935;
337*92022041SSam Saccone if (chan <= 253)
338*92022041SSam Saccone return 5950 + chan * 5;
339*92022041SSam Saccone break;
340*92022041SSam Saccone case NL80211_BAND_60GHZ:
341*92022041SSam Saccone if (chan < 7)
342*92022041SSam Saccone return 56160 + chan * 2160;
343*92022041SSam Saccone break;
344*92022041SSam Saccone default:
345*92022041SSam Saccone ;
346*92022041SSam Saccone }
347*92022041SSam Saccone return 0; /* not supported */
348*92022041SSam Saccone }
349*92022041SSam Saccone
ieee80211_frequency_to_channel(int freq)350*92022041SSam Saccone int ieee80211_frequency_to_channel(int freq)
351*92022041SSam Saccone {
352*92022041SSam Saccone /* see 802.11-2007 17.3.8.3.2 and Annex J */
353*92022041SSam Saccone if (freq == 2484)
354*92022041SSam Saccone return 14;
355*92022041SSam Saccone /* see 802.11ax D6.1 27.3.23.2 and Annex E */
356*92022041SSam Saccone else if (freq == 5935)
357*92022041SSam Saccone return 2;
358*92022041SSam Saccone else if (freq < 2484)
359*92022041SSam Saccone return (freq - 2407) / 5;
360*92022041SSam Saccone else if (freq >= 4910 && freq <= 4980)
361*92022041SSam Saccone return (freq - 4000) / 5;
362*92022041SSam Saccone else if (freq < 5950)
363*92022041SSam Saccone return (freq - 5000) / 5;
364*92022041SSam Saccone else if (freq <= 45000) /* DMG band lower limit */
365*92022041SSam Saccone /* see 802.11ax D6.1 27.3.23.2 */
366*92022041SSam Saccone return (freq - 5950) / 5;
367*92022041SSam Saccone else if (freq >= 58320 && freq <= 70200)
368*92022041SSam Saccone return (freq - 56160) / 2160;
369*92022041SSam Saccone else
370*92022041SSam Saccone return 0;
371*92022041SSam Saccone }
372*92022041SSam Saccone
print_ssid_escaped(const uint8_t len,const uint8_t * data)373*92022041SSam Saccone void print_ssid_escaped(const uint8_t len, const uint8_t *data)
374*92022041SSam Saccone {
375*92022041SSam Saccone int i;
376*92022041SSam Saccone
377*92022041SSam Saccone for (i = 0; i < len; i++) {
378*92022041SSam Saccone if (isprint(data[i]) && data[i] != ' ' && data[i] != '\\')
379*92022041SSam Saccone printf("%c", data[i]);
380*92022041SSam Saccone else if (data[i] == ' ' &&
381*92022041SSam Saccone (i != 0 && i != len -1))
382*92022041SSam Saccone printf(" ");
383*92022041SSam Saccone else
384*92022041SSam Saccone printf("\\x%.2x", data[i]);
385*92022041SSam Saccone }
386*92022041SSam Saccone }
387*92022041SSam Saccone
hex2num(char digit)388*92022041SSam Saccone static int hex2num(char digit)
389*92022041SSam Saccone {
390*92022041SSam Saccone if (!isxdigit(digit))
391*92022041SSam Saccone return -1;
392*92022041SSam Saccone if (isdigit(digit))
393*92022041SSam Saccone return digit - '0';
394*92022041SSam Saccone return tolower(digit) - 'a' + 10;
395*92022041SSam Saccone }
396*92022041SSam Saccone
hex2byte(const char * hex)397*92022041SSam Saccone static int hex2byte(const char *hex)
398*92022041SSam Saccone {
399*92022041SSam Saccone int d1, d2;
400*92022041SSam Saccone
401*92022041SSam Saccone d1 = hex2num(hex[0]);
402*92022041SSam Saccone if (d1 < 0)
403*92022041SSam Saccone return -1;
404*92022041SSam Saccone d2 = hex2num(hex[1]);
405*92022041SSam Saccone if (d2 < 0)
406*92022041SSam Saccone return -1;
407*92022041SSam Saccone return (d1 << 4) | d2;
408*92022041SSam Saccone }
409*92022041SSam Saccone
hex2bin(const char * hex,char * buf)410*92022041SSam Saccone char *hex2bin(const char *hex, char *buf)
411*92022041SSam Saccone {
412*92022041SSam Saccone char *result = buf;
413*92022041SSam Saccone int d;
414*92022041SSam Saccone
415*92022041SSam Saccone while (hex[0]) {
416*92022041SSam Saccone d = hex2byte(hex);
417*92022041SSam Saccone if (d < 0)
418*92022041SSam Saccone return NULL;
419*92022041SSam Saccone buf[0] = d;
420*92022041SSam Saccone buf++;
421*92022041SSam Saccone hex += 2;
422*92022041SSam Saccone }
423*92022041SSam Saccone
424*92022041SSam Saccone return result;
425*92022041SSam Saccone }
426*92022041SSam Saccone
parse_akm_suite(const char * cipher_str)427*92022041SSam Saccone static int parse_akm_suite(const char *cipher_str)
428*92022041SSam Saccone {
429*92022041SSam Saccone
430*92022041SSam Saccone if (!strcmp(cipher_str, "PSK"))
431*92022041SSam Saccone return 0x000FAC02;
432*92022041SSam Saccone if (!strcmp(cipher_str, "FT/PSK"))
433*92022041SSam Saccone return 0x000FAC03;
434*92022041SSam Saccone if (!strcmp(cipher_str, "PSK/SHA-256"))
435*92022041SSam Saccone return 0x000FAC06;
436*92022041SSam Saccone return -EINVAL;
437*92022041SSam Saccone }
438*92022041SSam Saccone
parse_cipher_suite(const char * cipher_str)439*92022041SSam Saccone static int parse_cipher_suite(const char *cipher_str)
440*92022041SSam Saccone {
441*92022041SSam Saccone
442*92022041SSam Saccone if (!strcmp(cipher_str, "TKIP"))
443*92022041SSam Saccone return WLAN_CIPHER_SUITE_TKIP;
444*92022041SSam Saccone if (!strcmp(cipher_str, "CCMP") || !strcmp(cipher_str, "CCMP-128"))
445*92022041SSam Saccone return WLAN_CIPHER_SUITE_CCMP;
446*92022041SSam Saccone if (!strcmp(cipher_str, "GCMP") || !strcmp(cipher_str, "GCMP-128"))
447*92022041SSam Saccone return WLAN_CIPHER_SUITE_GCMP;
448*92022041SSam Saccone if (!strcmp(cipher_str, "GCMP-256"))
449*92022041SSam Saccone return WLAN_CIPHER_SUITE_GCMP_256;
450*92022041SSam Saccone if (!strcmp(cipher_str, "CCMP-256"))
451*92022041SSam Saccone return WLAN_CIPHER_SUITE_CCMP_256;
452*92022041SSam Saccone return -EINVAL;
453*92022041SSam Saccone }
454*92022041SSam Saccone
parse_keys(struct nl_msg * msg,char ** argv[],int * argc)455*92022041SSam Saccone int parse_keys(struct nl_msg *msg, char **argv[], int *argc)
456*92022041SSam Saccone {
457*92022041SSam Saccone struct nlattr *keys;
458*92022041SSam Saccone int i = 0;
459*92022041SSam Saccone bool have_default = false;
460*92022041SSam Saccone char *arg = **argv;
461*92022041SSam Saccone char keybuf[13];
462*92022041SSam Saccone int pos = 0;
463*92022041SSam Saccone
464*92022041SSam Saccone if (!*argc)
465*92022041SSam Saccone return 1;
466*92022041SSam Saccone
467*92022041SSam Saccone if (!memcmp(&arg[pos], "psk", 3)) {
468*92022041SSam Saccone char psk_keybuf[32];
469*92022041SSam Saccone int cipher_suite, akm_suite;
470*92022041SSam Saccone
471*92022041SSam Saccone if (*argc < 4)
472*92022041SSam Saccone goto explain;
473*92022041SSam Saccone
474*92022041SSam Saccone pos+=3;
475*92022041SSam Saccone if (arg[pos] != ':')
476*92022041SSam Saccone goto explain;
477*92022041SSam Saccone pos++;
478*92022041SSam Saccone
479*92022041SSam Saccone NLA_PUT_U32(msg, NL80211_ATTR_WPA_VERSIONS, NL80211_WPA_VERSION_2);
480*92022041SSam Saccone
481*92022041SSam Saccone if (strlen(&arg[pos]) != (sizeof(psk_keybuf) * 2) || !hex2bin(&arg[pos], psk_keybuf)) {
482*92022041SSam Saccone printf("Bad PSK\n");
483*92022041SSam Saccone return -EINVAL;
484*92022041SSam Saccone }
485*92022041SSam Saccone
486*92022041SSam Saccone NLA_PUT(msg, NL80211_ATTR_PMK, 32, psk_keybuf);
487*92022041SSam Saccone NLA_PUT_U32(msg, NL80211_ATTR_AUTH_TYPE, NL80211_AUTHTYPE_OPEN_SYSTEM);
488*92022041SSam Saccone
489*92022041SSam Saccone *argv += 1;
490*92022041SSam Saccone *argc -= 1;
491*92022041SSam Saccone arg = **argv;
492*92022041SSam Saccone
493*92022041SSam Saccone akm_suite = parse_akm_suite(arg);
494*92022041SSam Saccone if (akm_suite < 0)
495*92022041SSam Saccone goto explain;
496*92022041SSam Saccone
497*92022041SSam Saccone NLA_PUT_U32(msg, NL80211_ATTR_AKM_SUITES, akm_suite);
498*92022041SSam Saccone
499*92022041SSam Saccone *argv += 1;
500*92022041SSam Saccone *argc -= 1;
501*92022041SSam Saccone arg = **argv;
502*92022041SSam Saccone
503*92022041SSam Saccone cipher_suite = parse_cipher_suite(arg);
504*92022041SSam Saccone if (cipher_suite < 0)
505*92022041SSam Saccone goto explain;
506*92022041SSam Saccone
507*92022041SSam Saccone NLA_PUT_U32(msg, NL80211_ATTR_CIPHER_SUITES_PAIRWISE, cipher_suite);
508*92022041SSam Saccone
509*92022041SSam Saccone *argv += 1;
510*92022041SSam Saccone *argc -= 1;
511*92022041SSam Saccone arg = **argv;
512*92022041SSam Saccone
513*92022041SSam Saccone cipher_suite = parse_cipher_suite(arg);
514*92022041SSam Saccone if (cipher_suite < 0)
515*92022041SSam Saccone goto explain;
516*92022041SSam Saccone
517*92022041SSam Saccone NLA_PUT_U32(msg, NL80211_ATTR_CIPHER_SUITE_GROUP, cipher_suite);
518*92022041SSam Saccone
519*92022041SSam Saccone *argv += 1;
520*92022041SSam Saccone *argc -= 1;
521*92022041SSam Saccone return 0;
522*92022041SSam Saccone }
523*92022041SSam Saccone
524*92022041SSam Saccone NLA_PUT_FLAG(msg, NL80211_ATTR_PRIVACY);
525*92022041SSam Saccone
526*92022041SSam Saccone keys = nla_nest_start(msg, NL80211_ATTR_KEYS);
527*92022041SSam Saccone if (!keys)
528*92022041SSam Saccone return -ENOBUFS;
529*92022041SSam Saccone
530*92022041SSam Saccone do {
531*92022041SSam Saccone int keylen;
532*92022041SSam Saccone struct nlattr *key = nla_nest_start(msg, ++i);
533*92022041SSam Saccone char *keydata;
534*92022041SSam Saccone
535*92022041SSam Saccone arg = **argv;
536*92022041SSam Saccone pos = 0;
537*92022041SSam Saccone
538*92022041SSam Saccone if (!key)
539*92022041SSam Saccone return -ENOBUFS;
540*92022041SSam Saccone
541*92022041SSam Saccone if (arg[pos] == 'd') {
542*92022041SSam Saccone NLA_PUT_FLAG(msg, NL80211_KEY_DEFAULT);
543*92022041SSam Saccone pos++;
544*92022041SSam Saccone if (arg[pos] == ':')
545*92022041SSam Saccone pos++;
546*92022041SSam Saccone have_default = true;
547*92022041SSam Saccone }
548*92022041SSam Saccone
549*92022041SSam Saccone if (!isdigit(arg[pos]))
550*92022041SSam Saccone goto explain;
551*92022041SSam Saccone NLA_PUT_U8(msg, NL80211_KEY_IDX, arg[pos++] - '0');
552*92022041SSam Saccone if (arg[pos++] != ':')
553*92022041SSam Saccone goto explain;
554*92022041SSam Saccone keydata = arg + pos;
555*92022041SSam Saccone switch (strlen(keydata)) {
556*92022041SSam Saccone case 10:
557*92022041SSam Saccone keydata = hex2bin(keydata, keybuf);
558*92022041SSam Saccone /* fall through */
559*92022041SSam Saccone case 5:
560*92022041SSam Saccone NLA_PUT_U32(msg, NL80211_KEY_CIPHER,
561*92022041SSam Saccone WLAN_CIPHER_SUITE_WEP40);
562*92022041SSam Saccone keylen = 5;
563*92022041SSam Saccone break;
564*92022041SSam Saccone case 26:
565*92022041SSam Saccone keydata = hex2bin(keydata, keybuf);
566*92022041SSam Saccone /* fall through */
567*92022041SSam Saccone case 13:
568*92022041SSam Saccone NLA_PUT_U32(msg, NL80211_KEY_CIPHER,
569*92022041SSam Saccone WLAN_CIPHER_SUITE_WEP104);
570*92022041SSam Saccone keylen = 13;
571*92022041SSam Saccone break;
572*92022041SSam Saccone default:
573*92022041SSam Saccone goto explain;
574*92022041SSam Saccone }
575*92022041SSam Saccone
576*92022041SSam Saccone if (!keydata)
577*92022041SSam Saccone goto explain;
578*92022041SSam Saccone
579*92022041SSam Saccone NLA_PUT(msg, NL80211_KEY_DATA, keylen, keydata);
580*92022041SSam Saccone
581*92022041SSam Saccone *argv += 1;
582*92022041SSam Saccone *argc -= 1;
583*92022041SSam Saccone
584*92022041SSam Saccone /* one key should be TX key */
585*92022041SSam Saccone if (!have_default && !*argc)
586*92022041SSam Saccone NLA_PUT_FLAG(msg, NL80211_KEY_DEFAULT);
587*92022041SSam Saccone
588*92022041SSam Saccone nla_nest_end(msg, key);
589*92022041SSam Saccone } while (*argc);
590*92022041SSam Saccone
591*92022041SSam Saccone nla_nest_end(msg, keys);
592*92022041SSam Saccone
593*92022041SSam Saccone return 0;
594*92022041SSam Saccone nla_put_failure:
595*92022041SSam Saccone return -ENOBUFS;
596*92022041SSam Saccone explain:
597*92022041SSam Saccone fprintf(stderr, "key must be [d:]index:data where\n"
598*92022041SSam Saccone " 'd:' means default (transmit) key\n"
599*92022041SSam Saccone " 'index:' is a single digit (0-3)\n"
600*92022041SSam Saccone " 'data' must be 5 or 13 ascii chars\n"
601*92022041SSam Saccone " or 10 or 26 hex digits\n"
602*92022041SSam Saccone "for example: d:2:6162636465 is the same as d:2:abcde\n"
603*92022041SSam Saccone "or psk:data <AKM Suite> <pairwise CIPHER> <groupwise CIPHER> where\n"
604*92022041SSam Saccone " 'data' is the PSK (output of wpa_passphrase and the CIPHER can be CCMP or GCMP\n"
605*92022041SSam Saccone "for example: psk:0123456789abcdef PSK CCMP CCMP\n"
606*92022041SSam Saccone "The allowed AKM suites are PSK, FT/PSK, PSK/SHA-256\n"
607*92022041SSam Saccone "The allowed Cipher suites are TKIP, CCMP, GCMP, GCMP-256, CCMP-256\n");
608*92022041SSam Saccone return 2;
609*92022041SSam Saccone }
610*92022041SSam Saccone
str_to_bw(const char * str)611*92022041SSam Saccone enum nl80211_chan_width str_to_bw(const char *str)
612*92022041SSam Saccone {
613*92022041SSam Saccone static const struct {
614*92022041SSam Saccone const char *name;
615*92022041SSam Saccone unsigned int val;
616*92022041SSam Saccone } bwmap[] = {
617*92022041SSam Saccone { .name = "5", .val = NL80211_CHAN_WIDTH_5, },
618*92022041SSam Saccone { .name = "10", .val = NL80211_CHAN_WIDTH_10, },
619*92022041SSam Saccone { .name = "20", .val = NL80211_CHAN_WIDTH_20, },
620*92022041SSam Saccone { .name = "40", .val = NL80211_CHAN_WIDTH_40, },
621*92022041SSam Saccone { .name = "80", .val = NL80211_CHAN_WIDTH_80, },
622*92022041SSam Saccone { .name = "80+80", .val = NL80211_CHAN_WIDTH_80P80, },
623*92022041SSam Saccone { .name = "160", .val = NL80211_CHAN_WIDTH_160, },
624*92022041SSam Saccone };
625*92022041SSam Saccone unsigned int i;
626*92022041SSam Saccone
627*92022041SSam Saccone for (i = 0; i < ARRAY_SIZE(bwmap); i++) {
628*92022041SSam Saccone if (strcasecmp(bwmap[i].name, str) == 0)
629*92022041SSam Saccone return bwmap[i].val;
630*92022041SSam Saccone }
631*92022041SSam Saccone
632*92022041SSam Saccone return NL80211_CHAN_WIDTH_20_NOHT;
633*92022041SSam Saccone }
634*92022041SSam Saccone
parse_freqs(struct chandef * chandef,int argc,char ** argv,int * parsed)635*92022041SSam Saccone static int parse_freqs(struct chandef *chandef, int argc, char **argv,
636*92022041SSam Saccone int *parsed)
637*92022041SSam Saccone {
638*92022041SSam Saccone uint32_t freq;
639*92022041SSam Saccone char *end;
640*92022041SSam Saccone bool need_cf1 = false, need_cf2 = false;
641*92022041SSam Saccone
642*92022041SSam Saccone if (argc < 1)
643*92022041SSam Saccone return 0;
644*92022041SSam Saccone
645*92022041SSam Saccone chandef->width = str_to_bw(argv[0]);
646*92022041SSam Saccone
647*92022041SSam Saccone switch (chandef->width) {
648*92022041SSam Saccone case NL80211_CHAN_WIDTH_20_NOHT:
649*92022041SSam Saccone /* First argument was not understood, give up gracefully. */
650*92022041SSam Saccone return 0;
651*92022041SSam Saccone case NL80211_CHAN_WIDTH_20:
652*92022041SSam Saccone case NL80211_CHAN_WIDTH_5:
653*92022041SSam Saccone case NL80211_CHAN_WIDTH_10:
654*92022041SSam Saccone break;
655*92022041SSam Saccone case NL80211_CHAN_WIDTH_80P80:
656*92022041SSam Saccone need_cf2 = true;
657*92022041SSam Saccone /* fall through */
658*92022041SSam Saccone case NL80211_CHAN_WIDTH_40:
659*92022041SSam Saccone case NL80211_CHAN_WIDTH_80:
660*92022041SSam Saccone case NL80211_CHAN_WIDTH_160:
661*92022041SSam Saccone case NL80211_CHAN_WIDTH_320:
662*92022041SSam Saccone need_cf1 = true;
663*92022041SSam Saccone break;
664*92022041SSam Saccone case NL80211_CHAN_WIDTH_1:
665*92022041SSam Saccone case NL80211_CHAN_WIDTH_2:
666*92022041SSam Saccone case NL80211_CHAN_WIDTH_4:
667*92022041SSam Saccone case NL80211_CHAN_WIDTH_8:
668*92022041SSam Saccone case NL80211_CHAN_WIDTH_16:
669*92022041SSam Saccone /* can't happen yet */
670*92022041SSam Saccone break;
671*92022041SSam Saccone }
672*92022041SSam Saccone
673*92022041SSam Saccone *parsed += 1;
674*92022041SSam Saccone
675*92022041SSam Saccone if (!need_cf1)
676*92022041SSam Saccone return 0;
677*92022041SSam Saccone
678*92022041SSam Saccone if (argc < 2)
679*92022041SSam Saccone return 1;
680*92022041SSam Saccone
681*92022041SSam Saccone /* center freq 1 */
682*92022041SSam Saccone if (!*argv[1])
683*92022041SSam Saccone return 1;
684*92022041SSam Saccone freq = strtoul(argv[1], &end, 10);
685*92022041SSam Saccone if (*end)
686*92022041SSam Saccone return 1;
687*92022041SSam Saccone *parsed += 1;
688*92022041SSam Saccone
689*92022041SSam Saccone chandef->center_freq1 = freq;
690*92022041SSam Saccone
691*92022041SSam Saccone if (!need_cf2)
692*92022041SSam Saccone return 0;
693*92022041SSam Saccone
694*92022041SSam Saccone if (argc < 3)
695*92022041SSam Saccone return 1;
696*92022041SSam Saccone
697*92022041SSam Saccone /* center freq 2 */
698*92022041SSam Saccone if (!*argv[2])
699*92022041SSam Saccone return 1;
700*92022041SSam Saccone freq = strtoul(argv[2], &end, 10);
701*92022041SSam Saccone if (*end)
702*92022041SSam Saccone return 1;
703*92022041SSam Saccone chandef->center_freq2 = freq;
704*92022041SSam Saccone
705*92022041SSam Saccone *parsed += 1;
706*92022041SSam Saccone
707*92022041SSam Saccone return 0;
708*92022041SSam Saccone }
709*92022041SSam Saccone
710*92022041SSam Saccone
711*92022041SSam Saccone /**
712*92022041SSam Saccone * parse_freqchan - Parse frequency or channel definition
713*92022041SSam Saccone *
714*92022041SSam Saccone * @chandef: chandef structure to be filled in
715*92022041SSam Saccone * @chan: Boolean whether to parse a channel or frequency based specifier
716*92022041SSam Saccone * @argc: Number of arguments
717*92022041SSam Saccone * @argv: Array of string arguments
718*92022041SSam Saccone * @parsed: Pointer to return the number of used arguments, or NULL to error
719*92022041SSam Saccone * out if any argument is left unused.
720*92022041SSam Saccone *
721*92022041SSam Saccone * The given chandef structure will be filled in from the command line
722*92022041SSam Saccone * arguments. argc/argv will be updated so that further arguments from the
723*92022041SSam Saccone * command line can be parsed.
724*92022041SSam Saccone *
725*92022041SSam Saccone * Note that despite the fact that the function knows how many center freqs
726*92022041SSam Saccone * are needed, there's an ambiguity if the next argument after this is an
727*92022041SSam Saccone * integer argument, since the valid channel width values are interpreted
728*92022041SSam Saccone * as such, rather than a following argument. This can be avoided by the
729*92022041SSam Saccone * user by giving "NOHT" instead.
730*92022041SSam Saccone *
731*92022041SSam Saccone * The working specifier if chan is set are:
732*92022041SSam Saccone * <channel> [NOHT|HT20|HT40+|HT40-|5MHz|10MHz|80MHz|160MHz]
733*92022041SSam Saccone *
734*92022041SSam Saccone * And if frequency is set:
735*92022041SSam Saccone * <freq> [NOHT|HT20|HT40+|HT40-|5MHz|10MHz|80MHz|160MHz]
736*92022041SSam Saccone * <control freq> [5|10|20|40|80|80+80|160] [<center1_freq> [<center2_freq>]]
737*92022041SSam Saccone *
738*92022041SSam Saccone * If the mode/channel width is not given the NOHT is assumed.
739*92022041SSam Saccone *
740*92022041SSam Saccone * Return: Number of used arguments, zero or negative error number otherwise
741*92022041SSam Saccone */
parse_freqchan(struct chandef * chandef,bool chan,int argc,char ** argv,int * parsed)742*92022041SSam Saccone int parse_freqchan(struct chandef *chandef, bool chan, int argc, char **argv,
743*92022041SSam Saccone int *parsed)
744*92022041SSam Saccone {
745*92022041SSam Saccone char *end;
746*92022041SSam Saccone static const struct chanmode chanmode[] = {
747*92022041SSam Saccone { .name = "HT20",
748*92022041SSam Saccone .width = NL80211_CHAN_WIDTH_20,
749*92022041SSam Saccone .freq1_diff = 0,
750*92022041SSam Saccone .chantype = NL80211_CHAN_HT20 },
751*92022041SSam Saccone { .name = "HT40+",
752*92022041SSam Saccone .width = NL80211_CHAN_WIDTH_40,
753*92022041SSam Saccone .freq1_diff = 10,
754*92022041SSam Saccone .chantype = NL80211_CHAN_HT40PLUS },
755*92022041SSam Saccone { .name = "HT40-",
756*92022041SSam Saccone .width = NL80211_CHAN_WIDTH_40,
757*92022041SSam Saccone .freq1_diff = -10,
758*92022041SSam Saccone .chantype = NL80211_CHAN_HT40MINUS },
759*92022041SSam Saccone { .name = "NOHT",
760*92022041SSam Saccone .width = NL80211_CHAN_WIDTH_20_NOHT,
761*92022041SSam Saccone .freq1_diff = 0,
762*92022041SSam Saccone .chantype = NL80211_CHAN_NO_HT },
763*92022041SSam Saccone { .name = "5MHz",
764*92022041SSam Saccone .width = NL80211_CHAN_WIDTH_5,
765*92022041SSam Saccone .freq1_diff = 0,
766*92022041SSam Saccone .chantype = -1 },
767*92022041SSam Saccone { .name = "10MHz",
768*92022041SSam Saccone .width = NL80211_CHAN_WIDTH_10,
769*92022041SSam Saccone .freq1_diff = 0,
770*92022041SSam Saccone .chantype = -1 },
771*92022041SSam Saccone { .name = "80MHz",
772*92022041SSam Saccone .width = NL80211_CHAN_WIDTH_80,
773*92022041SSam Saccone .freq1_diff = 0,
774*92022041SSam Saccone .chantype = -1 },
775*92022041SSam Saccone { .name = "160MHz",
776*92022041SSam Saccone .width = NL80211_CHAN_WIDTH_160,
777*92022041SSam Saccone .freq1_diff = 0,
778*92022041SSam Saccone .chantype = -1 },
779*92022041SSam Saccone { .name = "320MHz",
780*92022041SSam Saccone .width = NL80211_CHAN_WIDTH_320,
781*92022041SSam Saccone .freq1_diff = 0,
782*92022041SSam Saccone .chantype = -1 },
783*92022041SSam Saccone };
784*92022041SSam Saccone const struct chanmode *chanmode_selected = NULL;
785*92022041SSam Saccone unsigned int freq;
786*92022041SSam Saccone unsigned int i;
787*92022041SSam Saccone int _parsed = 0;
788*92022041SSam Saccone int res = 0;
789*92022041SSam Saccone
790*92022041SSam Saccone if (argc < 1)
791*92022041SSam Saccone return 1;
792*92022041SSam Saccone
793*92022041SSam Saccone if (!argv[0])
794*92022041SSam Saccone goto out;
795*92022041SSam Saccone freq = strtoul(argv[0], &end, 10);
796*92022041SSam Saccone if (*end) {
797*92022041SSam Saccone res = 1;
798*92022041SSam Saccone goto out;
799*92022041SSam Saccone }
800*92022041SSam Saccone
801*92022041SSam Saccone _parsed += 1;
802*92022041SSam Saccone
803*92022041SSam Saccone memset(chandef, 0, sizeof(struct chandef));
804*92022041SSam Saccone
805*92022041SSam Saccone if (chan) {
806*92022041SSam Saccone enum nl80211_band band;
807*92022041SSam Saccone
808*92022041SSam Saccone band = freq <= 14 ? NL80211_BAND_2GHZ : NL80211_BAND_5GHZ;
809*92022041SSam Saccone freq = ieee80211_channel_to_frequency(freq, band);
810*92022041SSam Saccone }
811*92022041SSam Saccone chandef->control_freq = freq;
812*92022041SSam Saccone /* Assume 20MHz NOHT channel for now. */
813*92022041SSam Saccone chandef->center_freq1 = freq;
814*92022041SSam Saccone
815*92022041SSam Saccone /* Try to parse HT mode definitions */
816*92022041SSam Saccone if (argc > 1) {
817*92022041SSam Saccone for (i = 0; i < ARRAY_SIZE(chanmode); i++) {
818*92022041SSam Saccone if (strcasecmp(chanmode[i].name, argv[1]) == 0) {
819*92022041SSam Saccone chanmode_selected = &chanmode[i];
820*92022041SSam Saccone _parsed += 1;
821*92022041SSam Saccone break;
822*92022041SSam Saccone }
823*92022041SSam Saccone }
824*92022041SSam Saccone }
825*92022041SSam Saccone
826*92022041SSam Saccone /* channel mode given, use it and return. */
827*92022041SSam Saccone if (chanmode_selected) {
828*92022041SSam Saccone chandef->center_freq1 = get_cf1(chanmode_selected, freq);
829*92022041SSam Saccone chandef->width = chanmode_selected->width;
830*92022041SSam Saccone goto out;
831*92022041SSam Saccone }
832*92022041SSam Saccone
833*92022041SSam Saccone /* This was a only a channel definition, nothing further may follow. */
834*92022041SSam Saccone if (chan)
835*92022041SSam Saccone goto out;
836*92022041SSam Saccone
837*92022041SSam Saccone res = parse_freqs(chandef, argc - 1, argv + 1, &_parsed);
838*92022041SSam Saccone
839*92022041SSam Saccone out:
840*92022041SSam Saccone /* Error out if parsed is NULL. */
841*92022041SSam Saccone if (!parsed && _parsed != argc)
842*92022041SSam Saccone return 1;
843*92022041SSam Saccone
844*92022041SSam Saccone if (parsed)
845*92022041SSam Saccone *parsed = _parsed;
846*92022041SSam Saccone
847*92022041SSam Saccone return res;
848*92022041SSam Saccone }
849*92022041SSam Saccone
put_chandef(struct nl_msg * msg,struct chandef * chandef)850*92022041SSam Saccone int put_chandef(struct nl_msg *msg, struct chandef *chandef)
851*92022041SSam Saccone {
852*92022041SSam Saccone NLA_PUT_U32(msg, NL80211_ATTR_WIPHY_FREQ, chandef->control_freq);
853*92022041SSam Saccone NLA_PUT_U32(msg, NL80211_ATTR_CHANNEL_WIDTH, chandef->width);
854*92022041SSam Saccone
855*92022041SSam Saccone switch (chandef->width) {
856*92022041SSam Saccone case NL80211_CHAN_WIDTH_20_NOHT:
857*92022041SSam Saccone NLA_PUT_U32(msg,
858*92022041SSam Saccone NL80211_ATTR_WIPHY_CHANNEL_TYPE,
859*92022041SSam Saccone NL80211_CHAN_NO_HT);
860*92022041SSam Saccone break;
861*92022041SSam Saccone case NL80211_CHAN_WIDTH_20:
862*92022041SSam Saccone NLA_PUT_U32(msg,
863*92022041SSam Saccone NL80211_ATTR_WIPHY_CHANNEL_TYPE,
864*92022041SSam Saccone NL80211_CHAN_HT20);
865*92022041SSam Saccone break;
866*92022041SSam Saccone case NL80211_CHAN_WIDTH_40:
867*92022041SSam Saccone if (chandef->control_freq > chandef->center_freq1)
868*92022041SSam Saccone NLA_PUT_U32(msg,
869*92022041SSam Saccone NL80211_ATTR_WIPHY_CHANNEL_TYPE,
870*92022041SSam Saccone NL80211_CHAN_HT40MINUS);
871*92022041SSam Saccone else
872*92022041SSam Saccone NLA_PUT_U32(msg,
873*92022041SSam Saccone NL80211_ATTR_WIPHY_CHANNEL_TYPE,
874*92022041SSam Saccone NL80211_CHAN_HT40PLUS);
875*92022041SSam Saccone break;
876*92022041SSam Saccone default:
877*92022041SSam Saccone break;
878*92022041SSam Saccone }
879*92022041SSam Saccone
880*92022041SSam Saccone if (chandef->center_freq1)
881*92022041SSam Saccone NLA_PUT_U32(msg,
882*92022041SSam Saccone NL80211_ATTR_CENTER_FREQ1,
883*92022041SSam Saccone chandef->center_freq1);
884*92022041SSam Saccone
885*92022041SSam Saccone if (chandef->center_freq2)
886*92022041SSam Saccone NLA_PUT_U32(msg,
887*92022041SSam Saccone NL80211_ATTR_CENTER_FREQ2,
888*92022041SSam Saccone chandef->center_freq2);
889*92022041SSam Saccone
890*92022041SSam Saccone return 0;
891*92022041SSam Saccone
892*92022041SSam Saccone nla_put_failure:
893*92022041SSam Saccone return -ENOBUFS;
894*92022041SSam Saccone }
895*92022041SSam Saccone
print_mcs_index(const __u8 * mcs)896*92022041SSam Saccone static void print_mcs_index(const __u8 *mcs)
897*92022041SSam Saccone {
898*92022041SSam Saccone int mcs_bit, prev_bit = -2, prev_cont = 0;
899*92022041SSam Saccone
900*92022041SSam Saccone for (mcs_bit = 0; mcs_bit <= 76; mcs_bit++) {
901*92022041SSam Saccone unsigned int mcs_octet = mcs_bit/8;
902*92022041SSam Saccone unsigned int MCS_RATE_BIT = 1 << mcs_bit % 8;
903*92022041SSam Saccone bool mcs_rate_idx_set;
904*92022041SSam Saccone
905*92022041SSam Saccone mcs_rate_idx_set = !!(mcs[mcs_octet] & MCS_RATE_BIT);
906*92022041SSam Saccone
907*92022041SSam Saccone if (!mcs_rate_idx_set)
908*92022041SSam Saccone continue;
909*92022041SSam Saccone
910*92022041SSam Saccone if (prev_bit != mcs_bit - 1) {
911*92022041SSam Saccone if (prev_bit != -2)
912*92022041SSam Saccone printf("%d, ", prev_bit);
913*92022041SSam Saccone else
914*92022041SSam Saccone printf(" ");
915*92022041SSam Saccone printf("%d", mcs_bit);
916*92022041SSam Saccone prev_cont = 0;
917*92022041SSam Saccone } else if (!prev_cont) {
918*92022041SSam Saccone printf("-");
919*92022041SSam Saccone prev_cont = 1;
920*92022041SSam Saccone }
921*92022041SSam Saccone
922*92022041SSam Saccone prev_bit = mcs_bit;
923*92022041SSam Saccone }
924*92022041SSam Saccone
925*92022041SSam Saccone if (prev_cont)
926*92022041SSam Saccone printf("%d", prev_bit);
927*92022041SSam Saccone printf("\n");
928*92022041SSam Saccone }
929*92022041SSam Saccone
930*92022041SSam Saccone /*
931*92022041SSam Saccone * There are only 4 possible values, we just use a case instead of computing it,
932*92022041SSam Saccone * but technically this can also be computed through the formula:
933*92022041SSam Saccone *
934*92022041SSam Saccone * Max AMPDU length = (2 ^ (13 + exponent)) - 1 bytes
935*92022041SSam Saccone */
compute_ampdu_length(__u8 exponent)936*92022041SSam Saccone static __u32 compute_ampdu_length(__u8 exponent)
937*92022041SSam Saccone {
938*92022041SSam Saccone switch (exponent) {
939*92022041SSam Saccone case 0: return 8191; /* (2 ^(13 + 0)) -1 */
940*92022041SSam Saccone case 1: return 16383; /* (2 ^(13 + 1)) -1 */
941*92022041SSam Saccone case 2: return 32767; /* (2 ^(13 + 2)) -1 */
942*92022041SSam Saccone case 3: return 65535; /* (2 ^(13 + 3)) -1 */
943*92022041SSam Saccone default: return 0;
944*92022041SSam Saccone }
945*92022041SSam Saccone }
946*92022041SSam Saccone
print_ampdu_space(__u8 space)947*92022041SSam Saccone static const char *print_ampdu_space(__u8 space)
948*92022041SSam Saccone {
949*92022041SSam Saccone switch (space) {
950*92022041SSam Saccone case 0: return "No restriction";
951*92022041SSam Saccone case 1: return "1/4 usec";
952*92022041SSam Saccone case 2: return "1/2 usec";
953*92022041SSam Saccone case 3: return "1 usec";
954*92022041SSam Saccone case 4: return "2 usec";
955*92022041SSam Saccone case 5: return "4 usec";
956*92022041SSam Saccone case 6: return "8 usec";
957*92022041SSam Saccone case 7: return "16 usec";
958*92022041SSam Saccone default:
959*92022041SSam Saccone return "BUG (spacing more than 3 bits!)";
960*92022041SSam Saccone }
961*92022041SSam Saccone }
962*92022041SSam Saccone
print_ampdu_length(__u8 exponent)963*92022041SSam Saccone void print_ampdu_length(__u8 exponent)
964*92022041SSam Saccone {
965*92022041SSam Saccone __u32 max_ampdu_length;
966*92022041SSam Saccone
967*92022041SSam Saccone max_ampdu_length = compute_ampdu_length(exponent);
968*92022041SSam Saccone
969*92022041SSam Saccone if (max_ampdu_length) {
970*92022041SSam Saccone printf("\t\tMaximum RX AMPDU length %d bytes (exponent: 0x0%02x)\n",
971*92022041SSam Saccone max_ampdu_length, exponent);
972*92022041SSam Saccone } else {
973*92022041SSam Saccone printf("\t\tMaximum RX AMPDU length: unrecognized bytes "
974*92022041SSam Saccone "(exponent: %d)\n", exponent);
975*92022041SSam Saccone }
976*92022041SSam Saccone }
977*92022041SSam Saccone
print_ampdu_spacing(__u8 spacing)978*92022041SSam Saccone void print_ampdu_spacing(__u8 spacing)
979*92022041SSam Saccone {
980*92022041SSam Saccone printf("\t\tMinimum RX AMPDU time spacing: %s (0x%02x)\n",
981*92022041SSam Saccone print_ampdu_space(spacing), spacing);
982*92022041SSam Saccone }
983*92022041SSam Saccone
print_ht_capability(__u16 cap)984*92022041SSam Saccone void print_ht_capability(__u16 cap)
985*92022041SSam Saccone {
986*92022041SSam Saccone #define PRINT_HT_CAP(_cond, _str) \
987*92022041SSam Saccone do { \
988*92022041SSam Saccone if (_cond) \
989*92022041SSam Saccone printf("\t\t\t" _str "\n"); \
990*92022041SSam Saccone } while (0)
991*92022041SSam Saccone
992*92022041SSam Saccone printf("\t\tCapabilities: 0x%02x\n", cap);
993*92022041SSam Saccone
994*92022041SSam Saccone PRINT_HT_CAP((cap & BIT(0)), "RX LDPC");
995*92022041SSam Saccone PRINT_HT_CAP((cap & BIT(1)), "HT20/HT40");
996*92022041SSam Saccone PRINT_HT_CAP(!(cap & BIT(1)), "HT20");
997*92022041SSam Saccone
998*92022041SSam Saccone PRINT_HT_CAP(((cap >> 2) & 0x3) == 0, "Static SM Power Save");
999*92022041SSam Saccone PRINT_HT_CAP(((cap >> 2) & 0x3) == 1, "Dynamic SM Power Save");
1000*92022041SSam Saccone PRINT_HT_CAP(((cap >> 2) & 0x3) == 3, "SM Power Save disabled");
1001*92022041SSam Saccone
1002*92022041SSam Saccone PRINT_HT_CAP((cap & BIT(4)), "RX Greenfield");
1003*92022041SSam Saccone PRINT_HT_CAP((cap & BIT(5)), "RX HT20 SGI");
1004*92022041SSam Saccone PRINT_HT_CAP((cap & BIT(6)), "RX HT40 SGI");
1005*92022041SSam Saccone PRINT_HT_CAP((cap & BIT(7)), "TX STBC");
1006*92022041SSam Saccone
1007*92022041SSam Saccone PRINT_HT_CAP(((cap >> 8) & 0x3) == 0, "No RX STBC");
1008*92022041SSam Saccone PRINT_HT_CAP(((cap >> 8) & 0x3) == 1, "RX STBC 1-stream");
1009*92022041SSam Saccone PRINT_HT_CAP(((cap >> 8) & 0x3) == 2, "RX STBC 2-streams");
1010*92022041SSam Saccone PRINT_HT_CAP(((cap >> 8) & 0x3) == 3, "RX STBC 3-streams");
1011*92022041SSam Saccone
1012*92022041SSam Saccone PRINT_HT_CAP((cap & BIT(10)), "HT Delayed Block Ack");
1013*92022041SSam Saccone
1014*92022041SSam Saccone PRINT_HT_CAP(!(cap & BIT(11)), "Max AMSDU length: 3839 bytes");
1015*92022041SSam Saccone PRINT_HT_CAP((cap & BIT(11)), "Max AMSDU length: 7935 bytes");
1016*92022041SSam Saccone
1017*92022041SSam Saccone /*
1018*92022041SSam Saccone * For beacons and probe response this would mean the BSS
1019*92022041SSam Saccone * does or does not allow the usage of DSSS/CCK HT40.
1020*92022041SSam Saccone * Otherwise it means the STA does or does not use
1021*92022041SSam Saccone * DSSS/CCK HT40.
1022*92022041SSam Saccone */
1023*92022041SSam Saccone PRINT_HT_CAP((cap & BIT(12)), "DSSS/CCK HT40");
1024*92022041SSam Saccone PRINT_HT_CAP(!(cap & BIT(12)), "No DSSS/CCK HT40");
1025*92022041SSam Saccone
1026*92022041SSam Saccone /* BIT(13) is reserved */
1027*92022041SSam Saccone
1028*92022041SSam Saccone PRINT_HT_CAP((cap & BIT(14)), "40 MHz Intolerant");
1029*92022041SSam Saccone
1030*92022041SSam Saccone PRINT_HT_CAP((cap & BIT(15)), "L-SIG TXOP protection");
1031*92022041SSam Saccone #undef PRINT_HT_CAP
1032*92022041SSam Saccone }
1033*92022041SSam Saccone
print_ht_mcs(const __u8 * mcs)1034*92022041SSam Saccone void print_ht_mcs(const __u8 *mcs)
1035*92022041SSam Saccone {
1036*92022041SSam Saccone /* As defined in 7.3.2.57.4 Supported MCS Set field */
1037*92022041SSam Saccone unsigned int tx_max_num_spatial_streams, max_rx_supp_data_rate;
1038*92022041SSam Saccone bool tx_mcs_set_defined, tx_mcs_set_equal, tx_unequal_modulation;
1039*92022041SSam Saccone
1040*92022041SSam Saccone max_rx_supp_data_rate = (mcs[10] | ((mcs[11] & 0x3) << 8));
1041*92022041SSam Saccone tx_mcs_set_defined = !!(mcs[12] & (1 << 0));
1042*92022041SSam Saccone tx_mcs_set_equal = !(mcs[12] & (1 << 1));
1043*92022041SSam Saccone tx_max_num_spatial_streams = ((mcs[12] >> 2) & 3) + 1;
1044*92022041SSam Saccone tx_unequal_modulation = !!(mcs[12] & (1 << 4));
1045*92022041SSam Saccone
1046*92022041SSam Saccone if (max_rx_supp_data_rate)
1047*92022041SSam Saccone printf("\t\tHT Max RX data rate: %d Mbps\n", max_rx_supp_data_rate);
1048*92022041SSam Saccone /* XXX: else see 9.6.0e.5.3 how to get this I think */
1049*92022041SSam Saccone
1050*92022041SSam Saccone if (tx_mcs_set_defined) {
1051*92022041SSam Saccone if (tx_mcs_set_equal) {
1052*92022041SSam Saccone printf("\t\tHT TX/RX MCS rate indexes supported:");
1053*92022041SSam Saccone print_mcs_index(mcs);
1054*92022041SSam Saccone } else {
1055*92022041SSam Saccone printf("\t\tHT RX MCS rate indexes supported:");
1056*92022041SSam Saccone print_mcs_index(mcs);
1057*92022041SSam Saccone
1058*92022041SSam Saccone if (tx_unequal_modulation)
1059*92022041SSam Saccone printf("\t\tTX unequal modulation supported\n");
1060*92022041SSam Saccone else
1061*92022041SSam Saccone printf("\t\tTX unequal modulation not supported\n");
1062*92022041SSam Saccone
1063*92022041SSam Saccone printf("\t\tHT TX Max spatial streams: %d\n",
1064*92022041SSam Saccone tx_max_num_spatial_streams);
1065*92022041SSam Saccone
1066*92022041SSam Saccone printf("\t\tHT TX MCS rate indexes supported may differ\n");
1067*92022041SSam Saccone }
1068*92022041SSam Saccone } else {
1069*92022041SSam Saccone printf("\t\tHT RX MCS rate indexes supported:");
1070*92022041SSam Saccone print_mcs_index(mcs);
1071*92022041SSam Saccone printf("\t\tHT TX MCS rate indexes are undefined\n");
1072*92022041SSam Saccone }
1073*92022041SSam Saccone }
1074*92022041SSam Saccone
print_vht_info(__u32 capa,const __u8 * mcs)1075*92022041SSam Saccone void print_vht_info(__u32 capa, const __u8 *mcs)
1076*92022041SSam Saccone {
1077*92022041SSam Saccone __u16 tmp;
1078*92022041SSam Saccone int i;
1079*92022041SSam Saccone
1080*92022041SSam Saccone printf("\t\tVHT Capabilities (0x%.8x):\n", capa);
1081*92022041SSam Saccone
1082*92022041SSam Saccone #define PRINT_VHT_CAPA(_bit, _str) \
1083*92022041SSam Saccone do { \
1084*92022041SSam Saccone if (capa & BIT(_bit)) \
1085*92022041SSam Saccone printf("\t\t\t" _str "\n"); \
1086*92022041SSam Saccone } while (0)
1087*92022041SSam Saccone
1088*92022041SSam Saccone printf("\t\t\tMax MPDU length: ");
1089*92022041SSam Saccone switch (capa & 3) {
1090*92022041SSam Saccone case 0: printf("3895\n"); break;
1091*92022041SSam Saccone case 1: printf("7991\n"); break;
1092*92022041SSam Saccone case 2: printf("11454\n"); break;
1093*92022041SSam Saccone case 3: printf("(reserved)\n");
1094*92022041SSam Saccone }
1095*92022041SSam Saccone printf("\t\t\tSupported Channel Width: ");
1096*92022041SSam Saccone switch ((capa >> 2) & 3) {
1097*92022041SSam Saccone case 0: printf("neither 160 nor 80+80\n"); break;
1098*92022041SSam Saccone case 1: printf("160 MHz\n"); break;
1099*92022041SSam Saccone case 2: printf("160 MHz, 80+80 MHz\n"); break;
1100*92022041SSam Saccone case 3: printf("(reserved)\n");
1101*92022041SSam Saccone }
1102*92022041SSam Saccone PRINT_VHT_CAPA(4, "RX LDPC");
1103*92022041SSam Saccone PRINT_VHT_CAPA(5, "short GI (80 MHz)");
1104*92022041SSam Saccone PRINT_VHT_CAPA(6, "short GI (160/80+80 MHz)");
1105*92022041SSam Saccone PRINT_VHT_CAPA(7, "TX STBC");
1106*92022041SSam Saccone /* RX STBC */
1107*92022041SSam Saccone PRINT_VHT_CAPA(11, "SU Beamformer");
1108*92022041SSam Saccone PRINT_VHT_CAPA(12, "SU Beamformee");
1109*92022041SSam Saccone /* compressed steering */
1110*92022041SSam Saccone /* # of sounding dimensions */
1111*92022041SSam Saccone PRINT_VHT_CAPA(19, "MU Beamformer");
1112*92022041SSam Saccone PRINT_VHT_CAPA(20, "MU Beamformee");
1113*92022041SSam Saccone PRINT_VHT_CAPA(21, "VHT TXOP PS");
1114*92022041SSam Saccone PRINT_VHT_CAPA(22, "+HTC-VHT");
1115*92022041SSam Saccone /* max A-MPDU */
1116*92022041SSam Saccone /* VHT link adaptation */
1117*92022041SSam Saccone PRINT_VHT_CAPA(28, "RX antenna pattern consistency");
1118*92022041SSam Saccone PRINT_VHT_CAPA(29, "TX antenna pattern consistency");
1119*92022041SSam Saccone
1120*92022041SSam Saccone printf("\t\tVHT RX MCS set:\n");
1121*92022041SSam Saccone tmp = mcs[0] | (mcs[1] << 8);
1122*92022041SSam Saccone for (i = 1; i <= 8; i++) {
1123*92022041SSam Saccone printf("\t\t\t%d streams: ", i);
1124*92022041SSam Saccone switch ((tmp >> ((i-1)*2) ) & 3) {
1125*92022041SSam Saccone case 0: printf("MCS 0-7\n"); break;
1126*92022041SSam Saccone case 1: printf("MCS 0-8\n"); break;
1127*92022041SSam Saccone case 2: printf("MCS 0-9\n"); break;
1128*92022041SSam Saccone case 3: printf("not supported\n"); break;
1129*92022041SSam Saccone }
1130*92022041SSam Saccone }
1131*92022041SSam Saccone tmp = mcs[2] | (mcs[3] << 8);
1132*92022041SSam Saccone printf("\t\tVHT RX highest supported: %d Mbps\n", tmp & 0x1fff);
1133*92022041SSam Saccone
1134*92022041SSam Saccone printf("\t\tVHT TX MCS set:\n");
1135*92022041SSam Saccone tmp = mcs[4] | (mcs[5] << 8);
1136*92022041SSam Saccone for (i = 1; i <= 8; i++) {
1137*92022041SSam Saccone printf("\t\t\t%d streams: ", i);
1138*92022041SSam Saccone switch ((tmp >> ((i-1)*2) ) & 3) {
1139*92022041SSam Saccone case 0: printf("MCS 0-7\n"); break;
1140*92022041SSam Saccone case 1: printf("MCS 0-8\n"); break;
1141*92022041SSam Saccone case 2: printf("MCS 0-9\n"); break;
1142*92022041SSam Saccone case 3: printf("not supported\n"); break;
1143*92022041SSam Saccone }
1144*92022041SSam Saccone }
1145*92022041SSam Saccone tmp = mcs[6] | (mcs[7] << 8);
1146*92022041SSam Saccone printf("\t\tVHT TX highest supported: %d Mbps\n", tmp & 0x1fff);
1147*92022041SSam Saccone }
1148*92022041SSam Saccone
__print_he_capa(const __u16 * mac_cap,const __u16 * phy_cap,const __u16 * mcs_set,size_t mcs_len,const __u8 * ppet,int ppet_len,bool indent)1149*92022041SSam Saccone static void __print_he_capa(const __u16 *mac_cap,
1150*92022041SSam Saccone const __u16 *phy_cap,
1151*92022041SSam Saccone const __u16 *mcs_set, size_t mcs_len,
1152*92022041SSam Saccone const __u8 *ppet, int ppet_len,
1153*92022041SSam Saccone bool indent)
1154*92022041SSam Saccone {
1155*92022041SSam Saccone size_t mcs_used;
1156*92022041SSam Saccone int i;
1157*92022041SSam Saccone const char *pre = indent ? "\t" : "";
1158*92022041SSam Saccone
1159*92022041SSam Saccone #define PRINT_HE_CAP(_var, _idx, _bit, _str) \
1160*92022041SSam Saccone do { \
1161*92022041SSam Saccone if (_var[_idx] & BIT(_bit)) \
1162*92022041SSam Saccone printf("%s\t\t\t" _str "\n", pre); \
1163*92022041SSam Saccone } while (0)
1164*92022041SSam Saccone
1165*92022041SSam Saccone #define PRINT_HE_CAP_MASK(_var, _idx, _shift, _mask, _str) \
1166*92022041SSam Saccone do { \
1167*92022041SSam Saccone if ((_var[_idx] >> _shift) & _mask) \
1168*92022041SSam Saccone printf("%s\t\t\t" _str ": %d\n", pre, (_var[_idx] >> _shift) & _mask); \
1169*92022041SSam Saccone } while (0)
1170*92022041SSam Saccone
1171*92022041SSam Saccone #define PRINT_HE_MAC_CAP(...) PRINT_HE_CAP(mac_cap, __VA_ARGS__)
1172*92022041SSam Saccone #define PRINT_HE_MAC_CAP_MASK(...) PRINT_HE_CAP_MASK(mac_cap, __VA_ARGS__)
1173*92022041SSam Saccone #define PRINT_HE_PHY_CAP(...) PRINT_HE_CAP(phy_cap, __VA_ARGS__)
1174*92022041SSam Saccone #define PRINT_HE_PHY_CAP0(_idx, _bit, ...) PRINT_HE_CAP(phy_cap, _idx, _bit + 8, __VA_ARGS__)
1175*92022041SSam Saccone #define PRINT_HE_PHY_CAP_MASK(...) PRINT_HE_CAP_MASK(phy_cap, __VA_ARGS__)
1176*92022041SSam Saccone
1177*92022041SSam Saccone printf("%s\t\tHE MAC Capabilities (0x", pre);
1178*92022041SSam Saccone for (i = 0; i < 3; i++)
1179*92022041SSam Saccone printf("%04x", mac_cap[i]);
1180*92022041SSam Saccone printf("):\n");
1181*92022041SSam Saccone
1182*92022041SSam Saccone PRINT_HE_MAC_CAP(0, 0, "+HTC HE Supported");
1183*92022041SSam Saccone PRINT_HE_MAC_CAP(0, 1, "TWT Requester");
1184*92022041SSam Saccone PRINT_HE_MAC_CAP(0, 2, "TWT Responder");
1185*92022041SSam Saccone PRINT_HE_MAC_CAP_MASK(0, 3, 0x3, "Dynamic BA Fragementation Level");
1186*92022041SSam Saccone PRINT_HE_MAC_CAP_MASK(0, 5, 0x7, "Maximum number of MSDUS Fragments");
1187*92022041SSam Saccone PRINT_HE_MAC_CAP_MASK(0, 8, 0x3, "Minimum Payload size of 128 bytes");
1188*92022041SSam Saccone PRINT_HE_MAC_CAP_MASK(0, 10, 0x3, "Trigger Frame MAC Padding Duration");
1189*92022041SSam Saccone PRINT_HE_MAC_CAP_MASK(0, 12, 0x7, "Multi-TID Aggregation Support");
1190*92022041SSam Saccone
1191*92022041SSam Saccone PRINT_HE_MAC_CAP(1, 1, "All Ack");
1192*92022041SSam Saccone PRINT_HE_MAC_CAP(1, 2, "TRS");
1193*92022041SSam Saccone PRINT_HE_MAC_CAP(1, 3, "BSR");
1194*92022041SSam Saccone PRINT_HE_MAC_CAP(1, 4, "Broadcast TWT");
1195*92022041SSam Saccone PRINT_HE_MAC_CAP(1, 5, "32-bit BA Bitmap");
1196*92022041SSam Saccone PRINT_HE_MAC_CAP(1, 6, "MU Cascading");
1197*92022041SSam Saccone PRINT_HE_MAC_CAP(1, 7, "Ack-Enabled Aggregation");
1198*92022041SSam Saccone PRINT_HE_MAC_CAP(1, 9, "OM Control");
1199*92022041SSam Saccone PRINT_HE_MAC_CAP(1, 10, "OFDMA RA");
1200*92022041SSam Saccone PRINT_HE_MAC_CAP_MASK(1, 11, 0x3, "Maximum A-MPDU Length Exponent");
1201*92022041SSam Saccone PRINT_HE_MAC_CAP(1, 13, "A-MSDU Fragmentation");
1202*92022041SSam Saccone PRINT_HE_MAC_CAP(1, 14, "Flexible TWT Scheduling");
1203*92022041SSam Saccone PRINT_HE_MAC_CAP(1, 15, "RX Control Frame to MultiBSS");
1204*92022041SSam Saccone
1205*92022041SSam Saccone PRINT_HE_MAC_CAP(2, 0, "BSRP BQRP A-MPDU Aggregation");
1206*92022041SSam Saccone PRINT_HE_MAC_CAP(2, 1, "QTP");
1207*92022041SSam Saccone PRINT_HE_MAC_CAP(2, 2, "BQR");
1208*92022041SSam Saccone PRINT_HE_MAC_CAP(2, 3, "SRP Responder Role");
1209*92022041SSam Saccone PRINT_HE_MAC_CAP(2, 4, "NDP Feedback Report");
1210*92022041SSam Saccone PRINT_HE_MAC_CAP(2, 5, "OPS");
1211*92022041SSam Saccone PRINT_HE_MAC_CAP(2, 6, "A-MSDU in A-MPDU");
1212*92022041SSam Saccone PRINT_HE_MAC_CAP_MASK(2, 7, 7, "Multi-TID Aggregation TX");
1213*92022041SSam Saccone PRINT_HE_MAC_CAP(2, 10, "HE Subchannel Selective Transmission");
1214*92022041SSam Saccone PRINT_HE_MAC_CAP(2, 11, "UL 2x996-Tone RU");
1215*92022041SSam Saccone PRINT_HE_MAC_CAP(2, 12, "OM Control UL MU Data Disable RX");
1216*92022041SSam Saccone
1217*92022041SSam Saccone printf("%s\t\tHE PHY Capabilities: (0x", pre);
1218*92022041SSam Saccone for (i = 0; i < 11; i++)
1219*92022041SSam Saccone printf("%02x", ((__u8 *)phy_cap)[i + 1]);
1220*92022041SSam Saccone printf("):\n");
1221*92022041SSam Saccone
1222*92022041SSam Saccone PRINT_HE_PHY_CAP0(0, 1, "HE40/2.4GHz");
1223*92022041SSam Saccone PRINT_HE_PHY_CAP0(0, 2, "HE40/HE80/5GHz");
1224*92022041SSam Saccone PRINT_HE_PHY_CAP0(0, 3, "HE160/5GHz");
1225*92022041SSam Saccone PRINT_HE_PHY_CAP0(0, 4, "HE160/HE80+80/5GHz");
1226*92022041SSam Saccone PRINT_HE_PHY_CAP0(0, 5, "242 tone RUs/2.4GHz");
1227*92022041SSam Saccone PRINT_HE_PHY_CAP0(0, 6, "242 tone RUs/5GHz");
1228*92022041SSam Saccone
1229*92022041SSam Saccone PRINT_HE_PHY_CAP_MASK(1, 0, 0xf, "Punctured Preamble RX");
1230*92022041SSam Saccone PRINT_HE_PHY_CAP_MASK(1, 4, 0x1, "Device Class");
1231*92022041SSam Saccone PRINT_HE_PHY_CAP(1, 5, "LDPC Coding in Payload");
1232*92022041SSam Saccone PRINT_HE_PHY_CAP(1, 6, "HE SU PPDU with 1x HE-LTF and 0.8us GI");
1233*92022041SSam Saccone PRINT_HE_PHY_CAP_MASK(1, 7, 0x3, "Midamble Rx Max NSTS");
1234*92022041SSam Saccone PRINT_HE_PHY_CAP(1, 9, "NDP with 4x HE-LTF and 3.2us GI");
1235*92022041SSam Saccone PRINT_HE_PHY_CAP(1, 10, "STBC Tx <= 80MHz");
1236*92022041SSam Saccone PRINT_HE_PHY_CAP(1, 11, "STBC Rx <= 80MHz");
1237*92022041SSam Saccone PRINT_HE_PHY_CAP(1, 12, "Doppler Tx");
1238*92022041SSam Saccone PRINT_HE_PHY_CAP(1, 13, "Doppler Rx");
1239*92022041SSam Saccone PRINT_HE_PHY_CAP(1, 14, "Full Bandwidth UL MU-MIMO");
1240*92022041SSam Saccone PRINT_HE_PHY_CAP(1, 15, "Partial Bandwidth UL MU-MIMO");
1241*92022041SSam Saccone
1242*92022041SSam Saccone PRINT_HE_PHY_CAP_MASK(2, 0, 0x3, "DCM Max Constellation");
1243*92022041SSam Saccone PRINT_HE_PHY_CAP_MASK(2, 2, 0x1, "DCM Max NSS Tx");
1244*92022041SSam Saccone PRINT_HE_PHY_CAP_MASK(2, 3, 0x3, "DCM Max Constellation Rx");
1245*92022041SSam Saccone PRINT_HE_PHY_CAP_MASK(2, 5, 0x1, "DCM Max NSS Rx");
1246*92022041SSam Saccone PRINT_HE_PHY_CAP(2, 6, "Rx HE MU PPDU from Non-AP STA");
1247*92022041SSam Saccone PRINT_HE_PHY_CAP(2, 7, "SU Beamformer");
1248*92022041SSam Saccone PRINT_HE_PHY_CAP(2, 8, "SU Beamformee");
1249*92022041SSam Saccone PRINT_HE_PHY_CAP(2, 9, "MU Beamformer");
1250*92022041SSam Saccone PRINT_HE_PHY_CAP_MASK(2, 10, 0x7, "Beamformee STS <= 80Mhz");
1251*92022041SSam Saccone PRINT_HE_PHY_CAP_MASK(2, 13, 0x7, "Beamformee STS > 80Mhz");
1252*92022041SSam Saccone
1253*92022041SSam Saccone PRINT_HE_PHY_CAP_MASK(3, 0, 0x7, "Sounding Dimensions <= 80Mhz");
1254*92022041SSam Saccone PRINT_HE_PHY_CAP_MASK(3, 3, 0x7, "Sounding Dimensions > 80Mhz");
1255*92022041SSam Saccone PRINT_HE_PHY_CAP(3, 6, "Ng = 16 SU Feedback");
1256*92022041SSam Saccone PRINT_HE_PHY_CAP(3, 7, "Ng = 16 MU Feedback");
1257*92022041SSam Saccone PRINT_HE_PHY_CAP(3, 8, "Codebook Size SU Feedback");
1258*92022041SSam Saccone PRINT_HE_PHY_CAP(3, 9, "Codebook Size MU Feedback");
1259*92022041SSam Saccone PRINT_HE_PHY_CAP(3, 10, "Triggered SU Beamforming Feedback");
1260*92022041SSam Saccone PRINT_HE_PHY_CAP(3, 11, "Triggered MU Beamforming Feedback");
1261*92022041SSam Saccone PRINT_HE_PHY_CAP(3, 12, "Triggered CQI Feedback");
1262*92022041SSam Saccone PRINT_HE_PHY_CAP(3, 13, "Partial Bandwidth Extended Range");
1263*92022041SSam Saccone PRINT_HE_PHY_CAP(3, 14, "Partial Bandwidth DL MU-MIMO");
1264*92022041SSam Saccone PRINT_HE_PHY_CAP(3, 15, "PPE Threshold Present");
1265*92022041SSam Saccone
1266*92022041SSam Saccone PRINT_HE_PHY_CAP(4, 0, "SRP-based SR");
1267*92022041SSam Saccone PRINT_HE_PHY_CAP(4, 1, "Power Boost Factor ar");
1268*92022041SSam Saccone PRINT_HE_PHY_CAP(4, 2, "HE SU PPDU & HE PPDU 4x HE-LTF 0.8us GI");
1269*92022041SSam Saccone PRINT_HE_PHY_CAP_MASK(4, 3, 0x7, "Max NC");
1270*92022041SSam Saccone PRINT_HE_PHY_CAP(4, 6, "STBC Tx > 80MHz");
1271*92022041SSam Saccone PRINT_HE_PHY_CAP(4, 7, "STBC Rx > 80MHz");
1272*92022041SSam Saccone PRINT_HE_PHY_CAP(4, 8, "HE ER SU PPDU 4x HE-LTF 0.8us GI");
1273*92022041SSam Saccone PRINT_HE_PHY_CAP(4, 9, "20MHz in 40MHz HE PPDU 2.4GHz");
1274*92022041SSam Saccone PRINT_HE_PHY_CAP(4, 10, "20MHz in 160/80+80MHz HE PPDU");
1275*92022041SSam Saccone PRINT_HE_PHY_CAP(4, 11, "80MHz in 160/80+80MHz HE PPDU");
1276*92022041SSam Saccone PRINT_HE_PHY_CAP(4, 12, "HE ER SU PPDU 1x HE-LTF 0.8us GI");
1277*92022041SSam Saccone PRINT_HE_PHY_CAP(4, 13, "Midamble Rx 2x & 1x HE-LTF");
1278*92022041SSam Saccone PRINT_HE_PHY_CAP_MASK(4, 14, 0x3, "DCM Max BW");
1279*92022041SSam Saccone
1280*92022041SSam Saccone PRINT_HE_PHY_CAP(5, 0, "Longer Than 16HE SIG-B OFDM Symbols");
1281*92022041SSam Saccone PRINT_HE_PHY_CAP(5, 1, "Non-Triggered CQI Feedback");
1282*92022041SSam Saccone PRINT_HE_PHY_CAP(5, 2, "TX 1024-QAM");
1283*92022041SSam Saccone PRINT_HE_PHY_CAP(5, 3, "RX 1024-QAM");
1284*92022041SSam Saccone PRINT_HE_PHY_CAP(5, 4, "RX Full BW SU Using HE MU PPDU with Compression SIGB");
1285*92022041SSam Saccone PRINT_HE_PHY_CAP(5, 5, "RX Full BW SU Using HE MU PPDU with Non-Compression SIGB");
1286*92022041SSam Saccone
1287*92022041SSam Saccone mcs_used = 0;
1288*92022041SSam Saccone for (i = 0; i < 3; i++) {
1289*92022041SSam Saccone __u8 phy_cap_support[] = { BIT(1) | BIT(2), BIT(3), BIT(4) };
1290*92022041SSam Saccone char *bw[] = { "<= 80", "160", "80+80" };
1291*92022041SSam Saccone int j;
1292*92022041SSam Saccone
1293*92022041SSam Saccone if ((phy_cap[0] & (phy_cap_support[i] << 8)) == 0)
1294*92022041SSam Saccone continue;
1295*92022041SSam Saccone
1296*92022041SSam Saccone /* Supports more, but overflow? Abort. */
1297*92022041SSam Saccone if ((i * 2 + 2) * sizeof(mcs_set[0]) >= mcs_len)
1298*92022041SSam Saccone return;
1299*92022041SSam Saccone
1300*92022041SSam Saccone for (j = 0; j < 2; j++) {
1301*92022041SSam Saccone int k;
1302*92022041SSam Saccone printf("%s\t\tHE %s MCS and NSS set %s MHz\n", pre, j ? "TX" : "RX", bw[i]);
1303*92022041SSam Saccone for (k = 0; k < 8; k++) {
1304*92022041SSam Saccone __u16 mcs = mcs_set[(i * 2) + j];
1305*92022041SSam Saccone mcs >>= k * 2;
1306*92022041SSam Saccone mcs &= 0x3;
1307*92022041SSam Saccone printf("%s\t\t\t%d streams: ", pre, k + 1);
1308*92022041SSam Saccone if (mcs == 3)
1309*92022041SSam Saccone printf("not supported\n");
1310*92022041SSam Saccone else
1311*92022041SSam Saccone printf("MCS 0-%d\n", 7 + (mcs * 2));
1312*92022041SSam Saccone }
1313*92022041SSam Saccone
1314*92022041SSam Saccone }
1315*92022041SSam Saccone mcs_used += 2 * sizeof(mcs_set[0]);
1316*92022041SSam Saccone }
1317*92022041SSam Saccone
1318*92022041SSam Saccone /* Caller didn't provide ppet; infer it, if there's trailing space. */
1319*92022041SSam Saccone if (!ppet) {
1320*92022041SSam Saccone ppet = (const void *)((const __u8 *)mcs_set + mcs_used);
1321*92022041SSam Saccone if (mcs_used < mcs_len)
1322*92022041SSam Saccone ppet_len = mcs_len - mcs_used;
1323*92022041SSam Saccone else
1324*92022041SSam Saccone ppet_len = 0;
1325*92022041SSam Saccone }
1326*92022041SSam Saccone
1327*92022041SSam Saccone if (ppet_len && (phy_cap[3] & BIT(15))) {
1328*92022041SSam Saccone printf("%s\t\tPPE Threshold ", pre);
1329*92022041SSam Saccone for (i = 0; i < ppet_len; i++)
1330*92022041SSam Saccone if (ppet[i])
1331*92022041SSam Saccone printf("0x%02x ", ppet[i]);
1332*92022041SSam Saccone printf("\n");
1333*92022041SSam Saccone }
1334*92022041SSam Saccone }
1335*92022041SSam Saccone
print_iftype_list(const char * name,const char * pfx,struct nlattr * attr)1336*92022041SSam Saccone void print_iftype_list(const char *name, const char *pfx, struct nlattr *attr)
1337*92022041SSam Saccone {
1338*92022041SSam Saccone struct nlattr *ift;
1339*92022041SSam Saccone int rem;
1340*92022041SSam Saccone
1341*92022041SSam Saccone printf("%s:\n", name);
1342*92022041SSam Saccone nla_for_each_nested(ift, attr, rem)
1343*92022041SSam Saccone printf("%s * %s\n", pfx, iftype_name(nla_type(ift)));
1344*92022041SSam Saccone }
1345*92022041SSam Saccone
print_iftype_line(struct nlattr * attr)1346*92022041SSam Saccone void print_iftype_line(struct nlattr *attr)
1347*92022041SSam Saccone {
1348*92022041SSam Saccone struct nlattr *ift;
1349*92022041SSam Saccone bool first = true;
1350*92022041SSam Saccone int rem;
1351*92022041SSam Saccone
1352*92022041SSam Saccone nla_for_each_nested(ift, attr, rem) {
1353*92022041SSam Saccone if (first)
1354*92022041SSam Saccone first = false;
1355*92022041SSam Saccone else
1356*92022041SSam Saccone printf(", ");
1357*92022041SSam Saccone printf("%s", iftype_name(nla_type(ift)));
1358*92022041SSam Saccone }
1359*92022041SSam Saccone }
1360*92022041SSam Saccone
print_he_info(struct nlattr * nl_iftype)1361*92022041SSam Saccone void print_he_info(struct nlattr *nl_iftype)
1362*92022041SSam Saccone {
1363*92022041SSam Saccone struct nlattr *tb[NL80211_BAND_IFTYPE_ATTR_MAX + 1];
1364*92022041SSam Saccone __u16 mac_cap[3] = { 0 };
1365*92022041SSam Saccone __u16 phy_cap[6] = { 0 };
1366*92022041SSam Saccone __u16 mcs_set[6] = { 0 };
1367*92022041SSam Saccone __u8 ppet[25] = { 0 };
1368*92022041SSam Saccone size_t len;
1369*92022041SSam Saccone int mcs_len = 0, ppet_len = 0;
1370*92022041SSam Saccone
1371*92022041SSam Saccone nla_parse(tb, NL80211_BAND_IFTYPE_ATTR_MAX,
1372*92022041SSam Saccone nla_data(nl_iftype), nla_len(nl_iftype), NULL);
1373*92022041SSam Saccone
1374*92022041SSam Saccone if (!tb[NL80211_BAND_IFTYPE_ATTR_IFTYPES])
1375*92022041SSam Saccone return;
1376*92022041SSam Saccone
1377*92022041SSam Saccone printf("\t\tHE Iftypes: ");
1378*92022041SSam Saccone print_iftype_line(tb[NL80211_BAND_IFTYPE_ATTR_IFTYPES]);
1379*92022041SSam Saccone printf("\n");
1380*92022041SSam Saccone
1381*92022041SSam Saccone if (tb[NL80211_BAND_IFTYPE_ATTR_HE_CAP_MAC]) {
1382*92022041SSam Saccone len = nla_len(tb[NL80211_BAND_IFTYPE_ATTR_HE_CAP_MAC]);
1383*92022041SSam Saccone if (len > sizeof(mac_cap))
1384*92022041SSam Saccone len = sizeof(mac_cap);
1385*92022041SSam Saccone memcpy(mac_cap,
1386*92022041SSam Saccone nla_data(tb[NL80211_BAND_IFTYPE_ATTR_HE_CAP_MAC]),
1387*92022041SSam Saccone len);
1388*92022041SSam Saccone }
1389*92022041SSam Saccone
1390*92022041SSam Saccone if (tb[NL80211_BAND_IFTYPE_ATTR_HE_CAP_PHY]) {
1391*92022041SSam Saccone len = nla_len(tb[NL80211_BAND_IFTYPE_ATTR_HE_CAP_PHY]);
1392*92022041SSam Saccone
1393*92022041SSam Saccone if (len > sizeof(phy_cap) - 1)
1394*92022041SSam Saccone len = sizeof(phy_cap) - 1;
1395*92022041SSam Saccone memcpy(&((__u8 *)phy_cap)[1],
1396*92022041SSam Saccone nla_data(tb[NL80211_BAND_IFTYPE_ATTR_HE_CAP_PHY]),
1397*92022041SSam Saccone len);
1398*92022041SSam Saccone }
1399*92022041SSam Saccone
1400*92022041SSam Saccone if (tb[NL80211_BAND_IFTYPE_ATTR_HE_CAP_MCS_SET]) {
1401*92022041SSam Saccone len = nla_len(tb[NL80211_BAND_IFTYPE_ATTR_HE_CAP_MCS_SET]);
1402*92022041SSam Saccone if (len > sizeof(mcs_set))
1403*92022041SSam Saccone len = sizeof(mcs_set);
1404*92022041SSam Saccone memcpy(mcs_set,
1405*92022041SSam Saccone nla_data(tb[NL80211_BAND_IFTYPE_ATTR_HE_CAP_MCS_SET]),
1406*92022041SSam Saccone len);
1407*92022041SSam Saccone mcs_len = len;
1408*92022041SSam Saccone }
1409*92022041SSam Saccone
1410*92022041SSam Saccone if (tb[NL80211_BAND_IFTYPE_ATTR_HE_CAP_PPE]) {
1411*92022041SSam Saccone len = nla_len(tb[NL80211_BAND_IFTYPE_ATTR_HE_CAP_PPE]);
1412*92022041SSam Saccone if (len > sizeof(ppet))
1413*92022041SSam Saccone len = sizeof(ppet);
1414*92022041SSam Saccone memcpy(ppet,
1415*92022041SSam Saccone nla_data(tb[NL80211_BAND_IFTYPE_ATTR_HE_CAP_PPE]),
1416*92022041SSam Saccone len);
1417*92022041SSam Saccone ppet_len = len;
1418*92022041SSam Saccone }
1419*92022041SSam Saccone
1420*92022041SSam Saccone __print_he_capa(mac_cap, phy_cap, mcs_set, mcs_len, ppet, ppet_len,
1421*92022041SSam Saccone true);
1422*92022041SSam Saccone }
1423*92022041SSam Saccone
__print_eht_capa(int band,const __u8 * mac_cap,const __u32 * phy_cap,const __u8 * mcs_set,size_t mcs_len,const __u8 * ppet,size_t ppet_len,const __u16 * he_phy_cap,bool indent)1424*92022041SSam Saccone static void __print_eht_capa(int band,
1425*92022041SSam Saccone const __u8 *mac_cap,
1426*92022041SSam Saccone const __u32 *phy_cap,
1427*92022041SSam Saccone const __u8 *mcs_set, size_t mcs_len,
1428*92022041SSam Saccone const __u8 *ppet, size_t ppet_len,
1429*92022041SSam Saccone const __u16 *he_phy_cap,
1430*92022041SSam Saccone bool indent)
1431*92022041SSam Saccone {
1432*92022041SSam Saccone unsigned int i;
1433*92022041SSam Saccone const char *pre = indent ? "\t" : "";
1434*92022041SSam Saccone const char *mcs[] = { "0-7", "8-9", "10-11", "12-13"};
1435*92022041SSam Saccone
1436*92022041SSam Saccone #define PRINT_EHT_CAP(_var, _idx, _bit, _str) \
1437*92022041SSam Saccone do { \
1438*92022041SSam Saccone if (_var[_idx] & BIT(_bit)) \
1439*92022041SSam Saccone printf("%s\t\t\t" _str "\n", pre); \
1440*92022041SSam Saccone } while (0)
1441*92022041SSam Saccone
1442*92022041SSam Saccone #define PRINT_EHT_CAP_MASK(_var, _idx, _shift, _mask, _str) \
1443*92022041SSam Saccone do { \
1444*92022041SSam Saccone if ((_var[_idx] >> _shift) & _mask) \
1445*92022041SSam Saccone printf("%s\t\t\t" _str ": %d\n", pre, (_var[_idx] >> _shift) & _mask); \
1446*92022041SSam Saccone } while (0)
1447*92022041SSam Saccone
1448*92022041SSam Saccone #define PRINT_EHT_MAC_CAP(...) PRINT_EHT_CAP(mac_cap, __VA_ARGS__)
1449*92022041SSam Saccone #define PRINT_EHT_PHY_CAP(...) PRINT_EHT_CAP(phy_cap, __VA_ARGS__)
1450*92022041SSam Saccone #define PRINT_EHT_PHY_CAP_MASK(...) PRINT_EHT_CAP_MASK(phy_cap, __VA_ARGS__)
1451*92022041SSam Saccone
1452*92022041SSam Saccone printf("%s\t\tEHT MAC Capabilities (0x", pre);
1453*92022041SSam Saccone for (i = 0; i < 2; i++)
1454*92022041SSam Saccone printf("%02x", mac_cap[i]);
1455*92022041SSam Saccone printf("):\n");
1456*92022041SSam Saccone
1457*92022041SSam Saccone PRINT_EHT_MAC_CAP(0, 0, "NSEP priority access Supported");
1458*92022041SSam Saccone PRINT_EHT_MAC_CAP(0, 1, "EHT OM Control Supported");
1459*92022041SSam Saccone PRINT_EHT_MAC_CAP(0, 2, "Triggered TXOP Sharing Supported");
1460*92022041SSam Saccone PRINT_EHT_MAC_CAP(0, 3, "ARR Supported");
1461*92022041SSam Saccone
1462*92022041SSam Saccone printf("%s\t\tEHT PHY Capabilities: (0x", pre);
1463*92022041SSam Saccone for (i = 0; i < 8; i++)
1464*92022041SSam Saccone printf("%02x", ((__u8 *)phy_cap)[i]);
1465*92022041SSam Saccone printf("):\n");
1466*92022041SSam Saccone
1467*92022041SSam Saccone PRINT_EHT_PHY_CAP(0, 1, "320MHz in 6GHz Supported");
1468*92022041SSam Saccone PRINT_EHT_PHY_CAP(0, 2, "242-tone RU in BW wider than 20MHz Supported");
1469*92022041SSam Saccone PRINT_EHT_PHY_CAP(0, 3, "NDP With EHT-LTF And 3.2 µs GI");
1470*92022041SSam Saccone PRINT_EHT_PHY_CAP(0, 4, "Partial Bandwidth UL MU-MIMO");
1471*92022041SSam Saccone PRINT_EHT_PHY_CAP(0, 5, "SU Beamformer");
1472*92022041SSam Saccone PRINT_EHT_PHY_CAP(0, 6, "SU Beamformee");
1473*92022041SSam Saccone PRINT_EHT_PHY_CAP_MASK(0, 7, 0x7, "Beamformee SS (80MHz)");
1474*92022041SSam Saccone PRINT_EHT_PHY_CAP_MASK(0, 10, 0x7, "Beamformee SS (160MHz)");
1475*92022041SSam Saccone PRINT_EHT_PHY_CAP_MASK(0, 13, 0x7, "Beamformee SS (320MHz)");
1476*92022041SSam Saccone
1477*92022041SSam Saccone PRINT_EHT_PHY_CAP_MASK(0, 16, 0x7, "Number Of Sounding Dimensions (80MHz)");
1478*92022041SSam Saccone PRINT_EHT_PHY_CAP_MASK(0, 19, 0x7, "Number Of Sounding Dimensions (160MHz)");
1479*92022041SSam Saccone PRINT_EHT_PHY_CAP_MASK(0, 22, 0x7, "Number Of Sounding Dimensions (320MHz)");
1480*92022041SSam Saccone PRINT_EHT_PHY_CAP(0, 25, "Ng = 16 SU Feedback");
1481*92022041SSam Saccone PRINT_EHT_PHY_CAP(0, 26, "Ng = 16 MU Feedback");
1482*92022041SSam Saccone PRINT_EHT_PHY_CAP(0, 27, "Codebook size (4, 2) SU Feedback");
1483*92022041SSam Saccone PRINT_EHT_PHY_CAP(0, 28, "Codebook size (7, 5) MU Feedback");
1484*92022041SSam Saccone PRINT_EHT_PHY_CAP(0, 29, "Triggered SU Beamforming Feedback");
1485*92022041SSam Saccone PRINT_EHT_PHY_CAP(0, 30, "Triggered MU Beamforming Partial BW Feedback");
1486*92022041SSam Saccone PRINT_EHT_PHY_CAP(0, 31, "Triggered CQI Feedback");
1487*92022041SSam Saccone
1488*92022041SSam Saccone PRINT_EHT_PHY_CAP(1, 0, "Partial Bandwidth DL MU-MIMO");
1489*92022041SSam Saccone PRINT_EHT_PHY_CAP(1, 1, "PSR-Based SR Support");
1490*92022041SSam Saccone PRINT_EHT_PHY_CAP(1, 2, "Power Boost Factor Support");
1491*92022041SSam Saccone PRINT_EHT_PHY_CAP(1, 3, "EHT MU PPDU With 4 EHT-LTF And 0.8 µs GI");
1492*92022041SSam Saccone PRINT_EHT_PHY_CAP_MASK(1, 4, 0xf, "Max Nc");
1493*92022041SSam Saccone PRINT_EHT_PHY_CAP(1, 8, "Non-Triggered CQI Feedback");
1494*92022041SSam Saccone
1495*92022041SSam Saccone PRINT_EHT_PHY_CAP(1, 9, "Tx 1024-QAM And 4096-QAM < 242-tone RU");
1496*92022041SSam Saccone PRINT_EHT_PHY_CAP(1, 10, "Rx 1024-QAM And 4096-QAM < 242-tone RU");
1497*92022041SSam Saccone PRINT_EHT_PHY_CAP(1, 11, "PPE Thresholds Present");
1498*92022041SSam Saccone PRINT_EHT_PHY_CAP_MASK(1, 12, 0x3, "Common Nominal Packet Padding");
1499*92022041SSam Saccone PRINT_EHT_PHY_CAP_MASK(1, 14, 0x1f, "Maximum Number Of Supported EHT-LTFs");
1500*92022041SSam Saccone PRINT_EHT_PHY_CAP_MASK(1, 19, 0xf, "Support of MCS 15");
1501*92022041SSam Saccone PRINT_EHT_PHY_CAP(1, 23, "Support Of EHT DUP In 6 GHz");
1502*92022041SSam Saccone PRINT_EHT_PHY_CAP(1, 24, "Support For 20MHz Rx NDP With Wider Bandwidth");
1503*92022041SSam Saccone PRINT_EHT_PHY_CAP(1, 25, "Non-OFDMA UL MU-MIMO (80MHz)");
1504*92022041SSam Saccone PRINT_EHT_PHY_CAP(1, 26, "Non-OFDMA UL MU-MIMO (160MHz)");
1505*92022041SSam Saccone PRINT_EHT_PHY_CAP(1, 27, "Non-OFDMA UL MU-MIMO (320MHz)");
1506*92022041SSam Saccone PRINT_EHT_PHY_CAP(1, 28, "MU Beamformer (80MHz)");
1507*92022041SSam Saccone PRINT_EHT_PHY_CAP(1, 29, "MU Beamformer (160MHz)");
1508*92022041SSam Saccone PRINT_EHT_PHY_CAP(1, 30, "MU Beamformer (320MHz)");
1509*92022041SSam Saccone
1510*92022041SSam Saccone printf("%s\t\tEHT MCS/NSS: (0x", pre);
1511*92022041SSam Saccone for (i = 0; i < mcs_len; i++)
1512*92022041SSam Saccone printf("%02x", ((__u8 *)mcs_set)[i]);
1513*92022041SSam Saccone printf("):\n");
1514*92022041SSam Saccone
1515*92022041SSam Saccone if (!(he_phy_cap[0] & ((BIT(2) | BIT(3) | BIT(4)) << 8))){
1516*92022041SSam Saccone for (i = 0; i < 4; i++)
1517*92022041SSam Saccone printf("%s\t\tEHT bw=20 MHz, max NSS for MCS %s: Rx=%u, Tx=%u\n",
1518*92022041SSam Saccone pre, mcs[i],
1519*92022041SSam Saccone mcs_set[i] & 0xf, mcs_set[i] >> 4);
1520*92022041SSam Saccone }
1521*92022041SSam Saccone
1522*92022041SSam Saccone mcs_set += 4;
1523*92022041SSam Saccone if (he_phy_cap[0] & (BIT(2) << 8)) {
1524*92022041SSam Saccone for (i = 0; i < 3; i++)
1525*92022041SSam Saccone printf("%s\t\tEHT bw <= 80 MHz, max NSS for MCS %s: Rx=%u, Tx=%u\n",
1526*92022041SSam Saccone pre, mcs[i + 1],
1527*92022041SSam Saccone mcs_set[i] & 0xf, mcs_set[i] >> 4);
1528*92022041SSam Saccone
1529*92022041SSam Saccone }
1530*92022041SSam Saccone
1531*92022041SSam Saccone mcs_set += 3;
1532*92022041SSam Saccone if (he_phy_cap[0] & (BIT(3) << 8)) {
1533*92022041SSam Saccone for (i = 0; i < 3; i++)
1534*92022041SSam Saccone printf("%s\t\tEHT bw=160 MHz, max NSS for MCS %s: Rx=%u, Tx=%u\n",
1535*92022041SSam Saccone pre, mcs[i + 1],
1536*92022041SSam Saccone mcs_set[i] & 0xf, mcs_set[i] >> 4);
1537*92022041SSam Saccone
1538*92022041SSam Saccone }
1539*92022041SSam Saccone
1540*92022041SSam Saccone mcs_set += 3;
1541*92022041SSam Saccone if (band == NL80211_BAND_6GHZ && (phy_cap[0] & BIT(1))) {
1542*92022041SSam Saccone for (i = 0; i < 3; i++)
1543*92022041SSam Saccone printf("%s\t\tEHT bw=320 MHz, max NSS for MCS %s: Rx=%u, Tx=%u\n",
1544*92022041SSam Saccone pre, mcs[i + 1],
1545*92022041SSam Saccone mcs_set[i] & 0xf, mcs_set[i] >> 4);
1546*92022041SSam Saccone
1547*92022041SSam Saccone }
1548*92022041SSam Saccone
1549*92022041SSam Saccone if (ppet && ppet_len && (phy_cap[1] & BIT(11))) {
1550*92022041SSam Saccone printf("%s\t\tEHT PPE Thresholds ", pre);
1551*92022041SSam Saccone for (i = 0; i < ppet_len; i++)
1552*92022041SSam Saccone if (ppet[i])
1553*92022041SSam Saccone printf("0x%02x ", ppet[i]);
1554*92022041SSam Saccone printf("\n");
1555*92022041SSam Saccone }
1556*92022041SSam Saccone }
1557*92022041SSam Saccone
print_eht_info(struct nlattr * nl_iftype,int band)1558*92022041SSam Saccone void print_eht_info(struct nlattr *nl_iftype, int band)
1559*92022041SSam Saccone {
1560*92022041SSam Saccone struct nlattr *tb[NL80211_BAND_IFTYPE_ATTR_MAX + 1];
1561*92022041SSam Saccone __u8 mac_cap[2] = { 0 };
1562*92022041SSam Saccone __u32 phy_cap[2] = { 0 };
1563*92022041SSam Saccone __u8 mcs_set[13] = { 0 };
1564*92022041SSam Saccone __u8 ppet[31] = { 0 };
1565*92022041SSam Saccone __u16 he_phy_cap[6] = { 0 };
1566*92022041SSam Saccone size_t len, mcs_len = 0, ppet_len = 0;
1567*92022041SSam Saccone
1568*92022041SSam Saccone nla_parse(tb, NL80211_BAND_IFTYPE_ATTR_MAX,
1569*92022041SSam Saccone nla_data(nl_iftype), nla_len(nl_iftype), NULL);
1570*92022041SSam Saccone
1571*92022041SSam Saccone if (!tb[NL80211_BAND_IFTYPE_ATTR_IFTYPES])
1572*92022041SSam Saccone return;
1573*92022041SSam Saccone
1574*92022041SSam Saccone printf("\t\tEHT Iftypes: ");
1575*92022041SSam Saccone print_iftype_line(tb[NL80211_BAND_IFTYPE_ATTR_IFTYPES]);
1576*92022041SSam Saccone printf("\n");
1577*92022041SSam Saccone
1578*92022041SSam Saccone if (tb[NL80211_BAND_IFTYPE_ATTR_EHT_CAP_MAC]) {
1579*92022041SSam Saccone len = nla_len(tb[NL80211_BAND_IFTYPE_ATTR_EHT_CAP_MAC]);
1580*92022041SSam Saccone if (len > sizeof(mac_cap))
1581*92022041SSam Saccone len = sizeof(mac_cap);
1582*92022041SSam Saccone memcpy(mac_cap,
1583*92022041SSam Saccone nla_data(tb[NL80211_BAND_IFTYPE_ATTR_EHT_CAP_MAC]),
1584*92022041SSam Saccone len);
1585*92022041SSam Saccone }
1586*92022041SSam Saccone
1587*92022041SSam Saccone if (tb[NL80211_BAND_IFTYPE_ATTR_EHT_CAP_PHY]) {
1588*92022041SSam Saccone len = nla_len(tb[NL80211_BAND_IFTYPE_ATTR_EHT_CAP_PHY]);
1589*92022041SSam Saccone
1590*92022041SSam Saccone if (len > sizeof(phy_cap))
1591*92022041SSam Saccone len = sizeof(phy_cap);
1592*92022041SSam Saccone
1593*92022041SSam Saccone memcpy(phy_cap,
1594*92022041SSam Saccone nla_data(tb[NL80211_BAND_IFTYPE_ATTR_EHT_CAP_PHY]),
1595*92022041SSam Saccone len);
1596*92022041SSam Saccone }
1597*92022041SSam Saccone
1598*92022041SSam Saccone if (tb[NL80211_BAND_IFTYPE_ATTR_EHT_CAP_MCS_SET]) {
1599*92022041SSam Saccone len = nla_len(tb[NL80211_BAND_IFTYPE_ATTR_EHT_CAP_MCS_SET]);
1600*92022041SSam Saccone if (len > sizeof(mcs_set))
1601*92022041SSam Saccone len = sizeof(mcs_set);
1602*92022041SSam Saccone memcpy(mcs_set,
1603*92022041SSam Saccone nla_data(tb[NL80211_BAND_IFTYPE_ATTR_EHT_CAP_MCS_SET]),
1604*92022041SSam Saccone len);
1605*92022041SSam Saccone
1606*92022041SSam Saccone // Assume that all parts of the MCS set are present
1607*92022041SSam Saccone mcs_len = sizeof(mcs_set);
1608*92022041SSam Saccone }
1609*92022041SSam Saccone
1610*92022041SSam Saccone if (tb[NL80211_BAND_IFTYPE_ATTR_EHT_CAP_PPE]) {
1611*92022041SSam Saccone len = nla_len(tb[NL80211_BAND_IFTYPE_ATTR_EHT_CAP_PPE]);
1612*92022041SSam Saccone if (len > sizeof(ppet))
1613*92022041SSam Saccone len = sizeof(ppet);
1614*92022041SSam Saccone memcpy(ppet,
1615*92022041SSam Saccone nla_data(tb[NL80211_BAND_IFTYPE_ATTR_EHT_CAP_PPE]),
1616*92022041SSam Saccone len);
1617*92022041SSam Saccone ppet_len = len;
1618*92022041SSam Saccone }
1619*92022041SSam Saccone
1620*92022041SSam Saccone if (tb[NL80211_BAND_IFTYPE_ATTR_HE_CAP_PHY]) {
1621*92022041SSam Saccone len = nla_len(tb[NL80211_BAND_IFTYPE_ATTR_HE_CAP_PHY]);
1622*92022041SSam Saccone
1623*92022041SSam Saccone if (len > sizeof(he_phy_cap) - 1)
1624*92022041SSam Saccone len = sizeof(he_phy_cap) - 1;
1625*92022041SSam Saccone memcpy(&((__u8 *)he_phy_cap)[1],
1626*92022041SSam Saccone nla_data(tb[NL80211_BAND_IFTYPE_ATTR_HE_CAP_PHY]),
1627*92022041SSam Saccone len);
1628*92022041SSam Saccone }
1629*92022041SSam Saccone
1630*92022041SSam Saccone __print_eht_capa(band, mac_cap, phy_cap, mcs_set, mcs_len, ppet, ppet_len,
1631*92022041SSam Saccone he_phy_cap, true);
1632*92022041SSam Saccone }
1633*92022041SSam Saccone
print_he_capability(const uint8_t * ie,int len)1634*92022041SSam Saccone void print_he_capability(const uint8_t *ie, int len)
1635*92022041SSam Saccone {
1636*92022041SSam Saccone const void *mac_cap, *phy_cap, *mcs_set;
1637*92022041SSam Saccone int mcs_len;
1638*92022041SSam Saccone int i = 0;
1639*92022041SSam Saccone
1640*92022041SSam Saccone mac_cap = &ie[i];
1641*92022041SSam Saccone i += 6;
1642*92022041SSam Saccone
1643*92022041SSam Saccone phy_cap = &ie[i];
1644*92022041SSam Saccone i += 11;
1645*92022041SSam Saccone
1646*92022041SSam Saccone mcs_set = &ie[i];
1647*92022041SSam Saccone mcs_len = len - i;
1648*92022041SSam Saccone
1649*92022041SSam Saccone __print_he_capa(mac_cap, (const void *)((const __u8 *)phy_cap - 1),
1650*92022041SSam Saccone mcs_set, mcs_len, NULL, 0, false);
1651*92022041SSam Saccone }
1652*92022041SSam Saccone
iw_hexdump(const char * prefix,const __u8 * buf,size_t size)1653*92022041SSam Saccone void iw_hexdump(const char *prefix, const __u8 *buf, size_t size)
1654*92022041SSam Saccone {
1655*92022041SSam Saccone size_t i;
1656*92022041SSam Saccone
1657*92022041SSam Saccone printf("%s: ", prefix);
1658*92022041SSam Saccone for (i = 0; i < size; i++) {
1659*92022041SSam Saccone if (i && i % 16 == 0)
1660*92022041SSam Saccone printf("\n%s: ", prefix);
1661*92022041SSam Saccone printf("%02x ", buf[i]);
1662*92022041SSam Saccone }
1663*92022041SSam Saccone printf("\n\n");
1664*92022041SSam Saccone }
1665*92022041SSam Saccone
get_cf1(const struct chanmode * chanmode,unsigned long freq)1666*92022041SSam Saccone int get_cf1(const struct chanmode *chanmode, unsigned long freq)
1667*92022041SSam Saccone {
1668*92022041SSam Saccone unsigned int cf1 = freq, j;
1669*92022041SSam Saccone unsigned int bw80[] = { 5180, 5260, 5500, 5580, 5660, 5745,
1670*92022041SSam Saccone 5955, 6035, 6115, 6195, 6275, 6355,
1671*92022041SSam Saccone 6435, 6515, 6595, 6675, 6755, 6835,
1672*92022041SSam Saccone 6195, 6995 };
1673*92022041SSam Saccone unsigned int bw160[] = { 5180, 5500, 5955, 6115, 6275, 6435,
1674*92022041SSam Saccone 6595, 6755, 6915 };
1675*92022041SSam Saccone
1676*92022041SSam Saccone switch (chanmode->width) {
1677*92022041SSam Saccone case NL80211_CHAN_WIDTH_80:
1678*92022041SSam Saccone /* setup center_freq1 */
1679*92022041SSam Saccone for (j = 0; j < ARRAY_SIZE(bw80); j++) {
1680*92022041SSam Saccone if (freq >= bw80[j] && freq < bw80[j] + 80)
1681*92022041SSam Saccone break;
1682*92022041SSam Saccone }
1683*92022041SSam Saccone
1684*92022041SSam Saccone if (j == ARRAY_SIZE(bw80))
1685*92022041SSam Saccone break;
1686*92022041SSam Saccone
1687*92022041SSam Saccone cf1 = bw80[j] + 30;
1688*92022041SSam Saccone break;
1689*92022041SSam Saccone case NL80211_CHAN_WIDTH_160:
1690*92022041SSam Saccone /* setup center_freq1 */
1691*92022041SSam Saccone for (j = 0; j < ARRAY_SIZE(bw160); j++) {
1692*92022041SSam Saccone if (freq >= bw160[j] && freq < bw160[j] + 160)
1693*92022041SSam Saccone break;
1694*92022041SSam Saccone }
1695*92022041SSam Saccone
1696*92022041SSam Saccone if (j == ARRAY_SIZE(bw160))
1697*92022041SSam Saccone break;
1698*92022041SSam Saccone
1699*92022041SSam Saccone cf1 = bw160[j] + 70;
1700*92022041SSam Saccone break;
1701*92022041SSam Saccone default:
1702*92022041SSam Saccone cf1 = freq + chanmode->freq1_diff;
1703*92022041SSam Saccone break;
1704*92022041SSam Saccone }
1705*92022041SSam Saccone
1706*92022041SSam Saccone return cf1;
1707*92022041SSam Saccone }
1708*92022041SSam Saccone
parse_random_mac_addr(struct nl_msg * msg,char * addrs)1709*92022041SSam Saccone int parse_random_mac_addr(struct nl_msg *msg, char *addrs)
1710*92022041SSam Saccone {
1711*92022041SSam Saccone char *a_addr, *a_mask, *sep;
1712*92022041SSam Saccone unsigned char addr[ETH_ALEN], mask[ETH_ALEN];
1713*92022041SSam Saccone
1714*92022041SSam Saccone if (!*addrs) {
1715*92022041SSam Saccone /* randomise all but the multicast bit */
1716*92022041SSam Saccone NLA_PUT(msg, NL80211_ATTR_MAC, ETH_ALEN,
1717*92022041SSam Saccone "\x00\x00\x00\x00\x00\x00");
1718*92022041SSam Saccone NLA_PUT(msg, NL80211_ATTR_MAC_MASK, ETH_ALEN,
1719*92022041SSam Saccone "\x01\x00\x00\x00\x00\x00");
1720*92022041SSam Saccone return 0;
1721*92022041SSam Saccone }
1722*92022041SSam Saccone
1723*92022041SSam Saccone if (*addrs != '=')
1724*92022041SSam Saccone return 1;
1725*92022041SSam Saccone
1726*92022041SSam Saccone addrs++;
1727*92022041SSam Saccone sep = strchr(addrs, '/');
1728*92022041SSam Saccone a_addr = addrs;
1729*92022041SSam Saccone
1730*92022041SSam Saccone if (!sep)
1731*92022041SSam Saccone return 1;
1732*92022041SSam Saccone
1733*92022041SSam Saccone *sep = 0;
1734*92022041SSam Saccone a_mask = sep + 1;
1735*92022041SSam Saccone if (mac_addr_a2n(addr, a_addr) || mac_addr_a2n(mask, a_mask))
1736*92022041SSam Saccone return 1;
1737*92022041SSam Saccone
1738*92022041SSam Saccone NLA_PUT(msg, NL80211_ATTR_MAC, ETH_ALEN, addr);
1739*92022041SSam Saccone NLA_PUT(msg, NL80211_ATTR_MAC_MASK, ETH_ALEN, mask);
1740*92022041SSam Saccone
1741*92022041SSam Saccone return 0;
1742*92022041SSam Saccone nla_put_failure:
1743*92022041SSam Saccone return -ENOBUFS;
1744*92022041SSam Saccone }
1745