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util.c
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util.c
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#include <ctype.h>
#include <netlink/attr.h>
#include <errno.h>
#include <stdbool.h>
#include "iw.h"
#include "nl80211.h"
void mac_addr_n2a(char *mac_addr, unsigned char *arg)
{
int i, l;
l = 0;
for (i = 0; i < ETH_ALEN ; i++) {
if (i == 0) {
sprintf(mac_addr+l, "%02x", arg[i]);
l += 2;
} else {
sprintf(mac_addr+l, ":%02x", arg[i]);
l += 3;
}
}
}
int mac_addr_a2n(unsigned char *mac_addr, char *arg)
{
int i;
for (i = 0; i < ETH_ALEN ; i++) {
int temp;
char *cp = strchr(arg, ':');
if (cp) {
*cp = 0;
cp++;
}
if (sscanf(arg, "%x", &temp) != 1)
return -1;
if (temp < 0 || temp > 255)
return -1;
mac_addr[i] = temp;
if (!cp)
break;
arg = cp;
}
if (i < ETH_ALEN - 1)
return -1;
return 0;
}
int parse_hex_mask(char *hexmask, unsigned char **result, size_t *result_len,
unsigned char **mask)
{
size_t len = strlen(hexmask) / 2;
unsigned char *result_val;
unsigned char *result_mask = NULL;
int pos = 0;
*result_len = 0;
result_val = calloc(len + 2, 1);
if (!result_val)
goto error;
*result = result_val;
if (mask) {
result_mask = calloc(DIV_ROUND_UP(len, 8) + 2, 1);
if (!result_mask)
goto error;
*mask = result_mask;
}
while (1) {
char *cp = strchr(hexmask, ':');
if (cp) {
*cp = 0;
cp++;
}
if (result_mask && (strcmp(hexmask, "-") == 0 ||
strcmp(hexmask, "xx") == 0 ||
strcmp(hexmask, "--") == 0)) {
/* skip this byte and leave mask bit unset */
} else {
int temp, mask_pos;
char *end;
temp = strtoul(hexmask, &end, 16);
if (*end)
goto error;
if (temp < 0 || temp > 255)
goto error;
result_val[pos] = temp;
mask_pos = pos / 8;
if (result_mask)
result_mask[mask_pos] |= 1 << (pos % 8);
}
(*result_len)++;
pos++;
if (!cp)
break;
hexmask = cp;
}
return 0;
error:
free(result_val);
free(result_mask);
return -1;
}
unsigned char *parse_hex(char *hex, size_t *outlen)
{
unsigned char *result;
if (parse_hex_mask(hex, &result, outlen, NULL))
return NULL;
return result;
}
static const char *ifmodes[NL80211_IFTYPE_MAX + 1] = {
"unspecified",
"IBSS",
"managed",
"AP",
"AP/VLAN",
"WDS",
"monitor",
"mesh point",
"P2P-client",
"P2P-GO",
"P2P-device",
"outside context of a BSS",
};
static char modebuf[100];
const char *iftype_name(enum nl80211_iftype iftype)
{
if (iftype <= NL80211_IFTYPE_MAX && ifmodes[iftype])
return ifmodes[iftype];
sprintf(modebuf, "Unknown mode (%d)", iftype);
return modebuf;
}
static const char *commands[NL80211_CMD_MAX + 1] = {
/*
* sed 's/^\tNL80211_CMD_//;t n;d;:n s%^\([^=]*\),.*%\t[NL80211_CMD_\1] = \"\L\1\",%;t;d' nl80211.h
*/
[NL80211_CMD_UNSPEC] = "unspec",
[NL80211_CMD_GET_WIPHY] = "get_wiphy",
[NL80211_CMD_SET_WIPHY] = "set_wiphy",
[NL80211_CMD_NEW_WIPHY] = "new_wiphy",
[NL80211_CMD_DEL_WIPHY] = "del_wiphy",
[NL80211_CMD_GET_INTERFACE] = "get_interface",
[NL80211_CMD_SET_INTERFACE] = "set_interface",
[NL80211_CMD_NEW_INTERFACE] = "new_interface",
[NL80211_CMD_DEL_INTERFACE] = "del_interface",
[NL80211_CMD_GET_KEY] = "get_key",
[NL80211_CMD_SET_KEY] = "set_key",
[NL80211_CMD_NEW_KEY] = "new_key",
[NL80211_CMD_DEL_KEY] = "del_key",
[NL80211_CMD_GET_BEACON] = "get_beacon",
[NL80211_CMD_SET_BEACON] = "set_beacon",
[NL80211_CMD_START_AP] = "start_ap",
[NL80211_CMD_STOP_AP] = "stop_ap",
[NL80211_CMD_GET_STATION] = "get_station",
[NL80211_CMD_SET_STATION] = "set_station",
[NL80211_CMD_NEW_STATION] = "new_station",
[NL80211_CMD_DEL_STATION] = "del_station",
[NL80211_CMD_GET_MPATH] = "get_mpath",
[NL80211_CMD_SET_MPATH] = "set_mpath",
[NL80211_CMD_NEW_MPATH] = "new_mpath",
[NL80211_CMD_DEL_MPATH] = "del_mpath",
[NL80211_CMD_SET_BSS] = "set_bss",
[NL80211_CMD_SET_REG] = "set_reg",
[NL80211_CMD_REQ_SET_REG] = "req_set_reg",
[NL80211_CMD_GET_MESH_CONFIG] = "get_mesh_config",
[NL80211_CMD_SET_MESH_CONFIG] = "set_mesh_config",
[NL80211_CMD_GET_REG] = "get_reg",
[NL80211_CMD_GET_SCAN] = "get_scan",
[NL80211_CMD_TRIGGER_SCAN] = "trigger_scan",
[NL80211_CMD_NEW_SCAN_RESULTS] = "new_scan_results",
[NL80211_CMD_SCAN_ABORTED] = "scan_aborted",
[NL80211_CMD_REG_CHANGE] = "reg_change",
[NL80211_CMD_AUTHENTICATE] = "authenticate",
[NL80211_CMD_ASSOCIATE] = "associate",
[NL80211_CMD_DEAUTHENTICATE] = "deauthenticate",
[NL80211_CMD_DISASSOCIATE] = "disassociate",
[NL80211_CMD_MICHAEL_MIC_FAILURE] = "michael_mic_failure",
[NL80211_CMD_REG_BEACON_HINT] = "reg_beacon_hint",
[NL80211_CMD_JOIN_IBSS] = "join_ibss",
[NL80211_CMD_LEAVE_IBSS] = "leave_ibss",
[NL80211_CMD_TESTMODE] = "testmode",
[NL80211_CMD_CONNECT] = "connect",
[NL80211_CMD_ROAM] = "roam",
[NL80211_CMD_DISCONNECT] = "disconnect",
[NL80211_CMD_SET_WIPHY_NETNS] = "set_wiphy_netns",
[NL80211_CMD_GET_SURVEY] = "get_survey",
[NL80211_CMD_NEW_SURVEY_RESULTS] = "new_survey_results",
[NL80211_CMD_SET_PMKSA] = "set_pmksa",
[NL80211_CMD_DEL_PMKSA] = "del_pmksa",
[NL80211_CMD_FLUSH_PMKSA] = "flush_pmksa",
[NL80211_CMD_REMAIN_ON_CHANNEL] = "remain_on_channel",
[NL80211_CMD_CANCEL_REMAIN_ON_CHANNEL] = "cancel_remain_on_channel",
[NL80211_CMD_SET_TX_BITRATE_MASK] = "set_tx_bitrate_mask",
[NL80211_CMD_REGISTER_FRAME] = "register_frame",
[NL80211_CMD_FRAME] = "frame",
[NL80211_CMD_FRAME_TX_STATUS] = "frame_tx_status",
[NL80211_CMD_SET_POWER_SAVE] = "set_power_save",
[NL80211_CMD_GET_POWER_SAVE] = "get_power_save",
[NL80211_CMD_SET_CQM] = "set_cqm",
[NL80211_CMD_NOTIFY_CQM] = "notify_cqm",
[NL80211_CMD_SET_CHANNEL] = "set_channel",
[NL80211_CMD_SET_WDS_PEER] = "set_wds_peer",
[NL80211_CMD_FRAME_WAIT_CANCEL] = "frame_wait_cancel",
[NL80211_CMD_JOIN_MESH] = "join_mesh",
[NL80211_CMD_LEAVE_MESH] = "leave_mesh",
[NL80211_CMD_UNPROT_DEAUTHENTICATE] = "unprot_deauthenticate",
[NL80211_CMD_UNPROT_DISASSOCIATE] = "unprot_disassociate",
[NL80211_CMD_NEW_PEER_CANDIDATE] = "new_peer_candidate",
[NL80211_CMD_GET_WOWLAN] = "get_wowlan",
[NL80211_CMD_SET_WOWLAN] = "set_wowlan",
[NL80211_CMD_START_SCHED_SCAN] = "start_sched_scan",
[NL80211_CMD_STOP_SCHED_SCAN] = "stop_sched_scan",
[NL80211_CMD_SCHED_SCAN_RESULTS] = "sched_scan_results",
[NL80211_CMD_SCHED_SCAN_STOPPED] = "sched_scan_stopped",
[NL80211_CMD_SET_REKEY_OFFLOAD] = "set_rekey_offload",
[NL80211_CMD_PMKSA_CANDIDATE] = "pmksa_candidate",
[NL80211_CMD_TDLS_OPER] = "tdls_oper",
[NL80211_CMD_TDLS_MGMT] = "tdls_mgmt",
[NL80211_CMD_UNEXPECTED_FRAME] = "unexpected_frame",
[NL80211_CMD_PROBE_CLIENT] = "probe_client",
[NL80211_CMD_REGISTER_BEACONS] = "register_beacons",
[NL80211_CMD_UNEXPECTED_4ADDR_FRAME] = "unexpected_4addr_frame",
[NL80211_CMD_SET_NOACK_MAP] = "set_noack_map",
[NL80211_CMD_CH_SWITCH_NOTIFY] = "ch_switch_notify",
[NL80211_CMD_START_P2P_DEVICE] = "start_p2p_device",
[NL80211_CMD_STOP_P2P_DEVICE] = "stop_p2p_device",
[NL80211_CMD_CONN_FAILED] = "conn_failed",
[NL80211_CMD_SET_MCAST_RATE] = "set_mcast_rate",
[NL80211_CMD_SET_MAC_ACL] = "set_mac_acl",
[NL80211_CMD_RADAR_DETECT] = "radar_detect",
[NL80211_CMD_GET_PROTOCOL_FEATURES] = "get_protocol_features",
[NL80211_CMD_UPDATE_FT_IES] = "update_ft_ies",
[NL80211_CMD_FT_EVENT] = "ft_event",
[NL80211_CMD_CRIT_PROTOCOL_START] = "crit_protocol_start",
[NL80211_CMD_CRIT_PROTOCOL_STOP] = "crit_protocol_stop",
[NL80211_CMD_GET_COALESCE] = "get_coalesce",
[NL80211_CMD_SET_COALESCE] = "set_coalesce",
[NL80211_CMD_CHANNEL_SWITCH] = "channel_switch",
[NL80211_CMD_VENDOR] = "vendor",
[NL80211_CMD_SET_QOS_MAP] = "set_qos_map",
[NL80211_CMD_ADD_TX_TS] = "add_tx_ts",
[NL80211_CMD_DEL_TX_TS] = "del_tx_ts",
[NL80211_CMD_GET_MPP] = "get_mpp",
[NL80211_CMD_JOIN_OCB] = "join_ocb",
[NL80211_CMD_LEAVE_OCB] = "leave_ocb",
[NL80211_CMD_CH_SWITCH_STARTED_NOTIFY] = "ch_switch_started_notify",
};
static char cmdbuf[100];
const char *command_name(enum nl80211_commands cmd)
{
if (cmd <= NL80211_CMD_MAX && commands[cmd])
return commands[cmd];
sprintf(cmdbuf, "Unknown command (%d)", cmd);
return cmdbuf;
}
int ieee80211_channel_to_frequency(int chan, enum nl80211_band band)
{
/* see 802.11 17.3.8.3.2 and Annex J
* there are overlapping channel numbers in 5GHz and 2GHz bands */
if (chan <= 0)
return 0; /* not supported */
switch (band) {
case NL80211_BAND_2GHZ:
if (chan == 14)
return 2484;
else if (chan < 14)
return 2407 + chan * 5;
break;
case NL80211_BAND_5GHZ:
if (chan >= 182 && chan <= 196)
return 4000 + chan * 5;
else
return 5000 + chan * 5;
break;
case NL80211_BAND_60GHZ:
if (chan < 5)
return 56160 + chan * 2160;
break;
default:
;
}
return 0; /* not supported */
}
int ieee80211_frequency_to_channel(int freq)
{
/* see 802.11-2007 17.3.8.3.2 and Annex J */
if (freq == 2484)
return 14;
else if (freq < 2484)
return (freq - 2407) / 5;
else if (freq >= 4910 && freq <= 4980)
return (freq - 4000) / 5;
else if (freq <= 45000) /* DMG band lower limit */
return (freq - 5000) / 5;
else if (freq >= 58320 && freq <= 64800)
return (freq - 56160) / 2160;
else
return 0;
}
void print_ssid_escaped(const uint8_t len, const uint8_t *data)
{
int i;
for (i = 0; i < len; i++) {
if (isprint(data[i]) && data[i] != ' ' && data[i] != '\\')
printf("%c", data[i]);
else if (data[i] == ' ' &&
(i != 0 && i != len -1))
printf(" ");
else
printf("\\x%.2x", data[i]);
}
}
static int hex2num(char digit)
{
if (!isxdigit(digit))
return -1;
if (isdigit(digit))
return digit - '0';
return tolower(digit) - 'a' + 10;
}
static int hex2byte(char *hex)
{
int d1, d2;
d1 = hex2num(hex[0]);
if (d1 < 0)
return -1;
d2 = hex2num(hex[1]);
if (d2 < 0)
return -1;
return (d1 << 4) | d2;
}
static char *hex2bin(char *hex, char *buf)
{
char *result = buf;
int d;
while (hex[0]) {
d = hex2byte(hex);
if (d < 0)
return NULL;
buf[0] = d;
buf++;
hex += 2;
}
return result;
}
int parse_keys(struct nl_msg *msg, char **argv, int argc)
{
struct nlattr *keys;
int i = 0;
bool have_default = false;
char keybuf[13];
if (!argc)
return 1;
NLA_PUT_FLAG(msg, NL80211_ATTR_PRIVACY);
keys = nla_nest_start(msg, NL80211_ATTR_KEYS);
if (!keys)
return -ENOBUFS;
do {
char *arg = *argv;
int pos = 0, keylen;
struct nlattr *key = nla_nest_start(msg, ++i);
char *keydata;
if (!key)
return -ENOBUFS;
if (arg[pos] == 'd') {
NLA_PUT_FLAG(msg, NL80211_KEY_DEFAULT);
pos++;
if (arg[pos] == ':')
pos++;
have_default = true;
}
if (!isdigit(arg[pos]))
goto explain;
NLA_PUT_U8(msg, NL80211_KEY_IDX, arg[pos++] - '0');
if (arg[pos++] != ':')
goto explain;
keydata = arg + pos;
switch (strlen(keydata)) {
case 10:
keydata = hex2bin(keydata, keybuf);
case 5:
NLA_PUT_U32(msg, NL80211_KEY_CIPHER, 0x000FAC01);
keylen = 5;
break;
case 26:
keydata = hex2bin(keydata, keybuf);
case 13:
NLA_PUT_U32(msg, NL80211_KEY_CIPHER, 0x000FAC05);
keylen = 13;
break;
default:
goto explain;
}
if (!keydata)
goto explain;
NLA_PUT(msg, NL80211_KEY_DATA, keylen, keydata);
argv++;
argc--;
/* one key should be TX key */
if (!have_default && !argc)
NLA_PUT_FLAG(msg, NL80211_KEY_DEFAULT);
nla_nest_end(msg, key);
} while (argc);
nla_nest_end(msg, keys);
return 0;
nla_put_failure:
return -ENOBUFS;
explain:
fprintf(stderr, "key must be [d:]index:data where\n"
" 'd:' means default (transmit) key\n"
" 'index:' is a single digit (0-3)\n"
" 'data' must be 5 or 13 ascii chars\n"
" or 10 or 26 hex digits\n"
"for example: d:2:6162636465 is the same as d:2:abcde\n");
return 2;
}
static void print_mcs_index(const __u8 *mcs)
{
int mcs_bit, prev_bit = -2, prev_cont = 0;
for (mcs_bit = 0; mcs_bit <= 76; mcs_bit++) {
unsigned int mcs_octet = mcs_bit/8;
unsigned int MCS_RATE_BIT = 1 << mcs_bit % 8;
bool mcs_rate_idx_set;
mcs_rate_idx_set = !!(mcs[mcs_octet] & MCS_RATE_BIT);
if (!mcs_rate_idx_set)
continue;
if (prev_bit != mcs_bit - 1) {
if (prev_bit != -2)
printf("%d, ", prev_bit);
else
printf(" ");
printf("%d", mcs_bit);
prev_cont = 0;
} else if (!prev_cont) {
printf("-");
prev_cont = 1;
}
prev_bit = mcs_bit;
}
if (prev_cont)
printf("%d", prev_bit);
printf("\n");
}
/*
* There are only 4 possible values, we just use a case instead of computing it,
* but technically this can also be computed through the formula:
*
* Max AMPDU length = (2 ^ (13 + exponent)) - 1 bytes
*/
static __u32 compute_ampdu_length(__u8 exponent)
{
switch (exponent) {
case 0: return 8191; /* (2 ^(13 + 0)) -1 */
case 1: return 16383; /* (2 ^(13 + 1)) -1 */
case 2: return 32767; /* (2 ^(13 + 2)) -1 */
case 3: return 65535; /* (2 ^(13 + 3)) -1 */
default: return 0;
}
}
static const char *print_ampdu_space(__u8 space)
{
switch (space) {
case 0: return "No restriction";
case 1: return "1/4 usec";
case 2: return "1/2 usec";
case 3: return "1 usec";
case 4: return "2 usec";
case 5: return "4 usec";
case 6: return "8 usec";
case 7: return "16 usec";
default:
return "BUG (spacing more than 3 bits!)";
}
}
void print_ampdu_length(__u8 exponent)
{
__u32 max_ampdu_length;
max_ampdu_length = compute_ampdu_length(exponent);
if (max_ampdu_length) {
printf("\t\tMaximum RX AMPDU length %d bytes (exponent: 0x0%02x)\n",
max_ampdu_length, exponent);
} else {
printf("\t\tMaximum RX AMPDU length: unrecognized bytes "
"(exponent: %d)\n", exponent);
}
}
void print_ampdu_spacing(__u8 spacing)
{
printf("\t\tMinimum RX AMPDU time spacing: %s (0x%02x)\n",
print_ampdu_space(spacing), spacing);
}
void print_ht_capability(__u16 cap)
{
#define PRINT_HT_CAP(_cond, _str) \
do { \
if (_cond) \
printf("\t\t\t" _str "\n"); \
} while (0)
printf("\t\tCapabilities: 0x%02x\n", cap);
PRINT_HT_CAP((cap & BIT(0)), "RX LDPC");
PRINT_HT_CAP((cap & BIT(1)), "HT20/HT40");
PRINT_HT_CAP(!(cap & BIT(1)), "HT20");
PRINT_HT_CAP(((cap >> 2) & 0x3) == 0, "Static SM Power Save");
PRINT_HT_CAP(((cap >> 2) & 0x3) == 1, "Dynamic SM Power Save");
PRINT_HT_CAP(((cap >> 2) & 0x3) == 3, "SM Power Save disabled");
PRINT_HT_CAP((cap & BIT(4)), "RX Greenfield");
PRINT_HT_CAP((cap & BIT(5)), "RX HT20 SGI");
PRINT_HT_CAP((cap & BIT(6)), "RX HT40 SGI");
PRINT_HT_CAP((cap & BIT(7)), "TX STBC");
PRINT_HT_CAP(((cap >> 8) & 0x3) == 0, "No RX STBC");
PRINT_HT_CAP(((cap >> 8) & 0x3) == 1, "RX STBC 1-stream");
PRINT_HT_CAP(((cap >> 8) & 0x3) == 2, "RX STBC 2-streams");
PRINT_HT_CAP(((cap >> 8) & 0x3) == 3, "RX STBC 3-streams");
PRINT_HT_CAP((cap & BIT(10)), "HT Delayed Block Ack");
PRINT_HT_CAP(!(cap & BIT(11)), "Max AMSDU length: 3839 bytes");
PRINT_HT_CAP((cap & BIT(11)), "Max AMSDU length: 7935 bytes");
/*
* For beacons and probe response this would mean the BSS
* does or does not allow the usage of DSSS/CCK HT40.
* Otherwise it means the STA does or does not use
* DSSS/CCK HT40.
*/
PRINT_HT_CAP((cap & BIT(12)), "DSSS/CCK HT40");
PRINT_HT_CAP(!(cap & BIT(12)), "No DSSS/CCK HT40");
/* BIT(13) is reserved */
PRINT_HT_CAP((cap & BIT(14)), "40 MHz Intolerant");
PRINT_HT_CAP((cap & BIT(15)), "L-SIG TXOP protection");
#undef PRINT_HT_CAP
}
void print_ht_mcs(const __u8 *mcs)
{
/* As defined in 7.3.2.57.4 Supported MCS Set field */
unsigned int tx_max_num_spatial_streams, max_rx_supp_data_rate;
bool tx_mcs_set_defined, tx_mcs_set_equal, tx_unequal_modulation;
max_rx_supp_data_rate = (mcs[10] | ((mcs[11] & 0x3) << 8));
tx_mcs_set_defined = !!(mcs[12] & (1 << 0));
tx_mcs_set_equal = !(mcs[12] & (1 << 1));
tx_max_num_spatial_streams = ((mcs[12] >> 2) & 3) + 1;
tx_unequal_modulation = !!(mcs[12] & (1 << 4));
if (max_rx_supp_data_rate)
printf("\t\tHT Max RX data rate: %d Mbps\n", max_rx_supp_data_rate);
/* XXX: else see 9.6.0e.5.3 how to get this I think */
if (tx_mcs_set_defined) {
if (tx_mcs_set_equal) {
printf("\t\tHT TX/RX MCS rate indexes supported:");
print_mcs_index(mcs);
} else {
printf("\t\tHT RX MCS rate indexes supported:");
print_mcs_index(mcs);
if (tx_unequal_modulation)
printf("\t\tTX unequal modulation supported\n");
else
printf("\t\tTX unequal modulation not supported\n");
printf("\t\tHT TX Max spatial streams: %d\n",
tx_max_num_spatial_streams);
printf("\t\tHT TX MCS rate indexes supported may differ\n");
}
} else {
printf("\t\tHT RX MCS rate indexes supported:");
print_mcs_index(mcs);
printf("\t\tHT TX MCS rate indexes are undefined\n");
}
}
void print_vht_info(__u32 capa, const __u8 *mcs)
{
__u16 tmp;
int i;
printf("\t\tVHT Capabilities (0x%.8x):\n", capa);
#define PRINT_VHT_CAPA(_bit, _str) \
do { \
if (capa & BIT(_bit)) \
printf("\t\t\t" _str "\n"); \
} while (0)
printf("\t\t\tMax MPDU length: ");
switch (capa & 3) {
case 0: printf("3895\n"); break;
case 1: printf("7991\n"); break;
case 2: printf("11454\n"); break;
case 3: printf("(reserved)\n");
}
printf("\t\t\tSupported Channel Width: ");
switch ((capa >> 2) & 3) {
case 0: printf("neither 160 nor 80+80\n"); break;
case 1: printf("160 MHz\n"); break;
case 2: printf("160 MHz, 80+80 MHz\n"); break;
case 3: printf("(reserved)\n");
}
PRINT_VHT_CAPA(4, "RX LDPC");
PRINT_VHT_CAPA(5, "short GI (80 MHz)");
PRINT_VHT_CAPA(6, "short GI (160/80+80 MHz)");
PRINT_VHT_CAPA(7, "TX STBC");
/* RX STBC */
PRINT_VHT_CAPA(11, "SU Beamformer");
PRINT_VHT_CAPA(12, "SU Beamformee");
/* compressed steering */
/* # of sounding dimensions */
PRINT_VHT_CAPA(19, "MU Beamformer");
PRINT_VHT_CAPA(20, "MU Beamformee");
PRINT_VHT_CAPA(21, "VHT TXOP PS");
PRINT_VHT_CAPA(22, "+HTC-VHT");
/* max A-MPDU */
/* VHT link adaptation */
PRINT_VHT_CAPA(28, "RX antenna pattern consistency");
PRINT_VHT_CAPA(29, "TX antenna pattern consistency");
printf("\t\tVHT RX MCS set:\n");
tmp = mcs[0] | (mcs[1] << 8);
for (i = 1; i <= 8; i++) {
printf("\t\t\t%d streams: ", i);
switch ((tmp >> ((i-1)*2) ) & 3) {
case 0: printf("MCS 0-7\n"); break;
case 1: printf("MCS 0-8\n"); break;
case 2: printf("MCS 0-9\n"); break;
case 3: printf("not supported\n"); break;
}
}
tmp = mcs[2] | (mcs[3] << 8);
printf("\t\tVHT RX highest supported: %d Mbps\n", tmp & 0x1fff);
printf("\t\tVHT TX MCS set:\n");
tmp = mcs[4] | (mcs[5] << 8);
for (i = 1; i <= 8; i++) {
printf("\t\t\t%d streams: ", i);
switch ((tmp >> ((i-1)*2) ) & 3) {
case 0: printf("MCS 0-7\n"); break;
case 1: printf("MCS 0-8\n"); break;
case 2: printf("MCS 0-9\n"); break;
case 3: printf("not supported\n"); break;
}
}
tmp = mcs[6] | (mcs[7] << 8);
printf("\t\tVHT TX highest supported: %d Mbps\n", tmp & 0x1fff);
}
void iw_hexdump(const char *prefix, const __u8 *buf, size_t size)
{
int i;
printf("%s: ", prefix);
for (i = 0; i < size; i++) {
if (i && i % 16 == 0)
printf("\n%s: ", prefix);
printf("%02x ", buf[i]);
}
printf("\n\n");
}