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|
/* $OpenBSD: ancontrol.c,v 1.18 2001/09/29 21:57:15 mickey Exp $ */
/*
* Copyright (c) 2001 Eric Jackson <ericj@monkey.org>
*
* Copyright 1997, 1998, 1999
* Bill Paul <wpaul@ee.columbia.edu>. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by Bill Paul.
* 4. Neither the name of the author nor the names of any co-contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY Bill Paul AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL Bill Paul OR THE VOICES IN HIS HEAD
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
* THE POSSIBILITY OF SUCH DAMAGE.
*
* $FreeBSD: src/usr.sbin/ancontrol/ancontrol.c,v 1.1 2000/01/14 20:40:57 wpaul Exp $
*/
#include <sys/param.h>
#include <sys/cdefs.h>
#include <sys/ioctl.h>
#include <sys/socket.h>
#include <net/if.h>
#include <netinet/in.h>
#include <netinet/if_ether.h>
#include <dev/ic/anvar.h>
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <unistd.h>
#include <errno.h>
#include <err.h>
#if !defined(lint)
static const char copyright[] = "@(#) Copyright (c) 1997, 1998, 1999\
Bill Paul. All rights reserved.";
static const char rcsid[] =
"@(#) $FreeBSD: src/usr.sbin/ancontrol/ancontrol.c,v 1.1 2000/01/14 20:40:57 wpaul Exp $";
#endif
#define an_printbool(val) printf(val? "[ On ]" : "[ Off ]")
void an_getval __P((struct an_req *));
void an_setval __P((struct an_req *));
void an_printwords __P((u_int16_t *, int));
void an_printspeeds __P((u_int8_t*, int));
void an_printhex __P((char *, int));
void an_printstr __P((char *, int));
void an_dumpstatus __P((void));
void an_dumpstats __P((void));
void an_dumpconfig __P((void));
void an_dumpcaps __P((void));
void an_dumpssid __P((void));
void an_dumpap __P((void));
void an_setconfig __P((int, void *));
void an_setssid __P((int, void *));
void an_setap __P((int, void *));
void an_setspeed __P((void *));
void an_readkeyinfo __P((void));
#ifdef ANCACHE
void an_zerocache __P((void));
void an_readcache __P((void));
#endif
void getsock __P((void));
static void usage __P((void));
int main __P((int, char **));
/* flags to trigger dumping information about configs */
#define STAT_DUMPAP 0x01
#define STAT_DUMPCONFIG 0x02
#define STAT_DUMPCAPS 0x04
#define STAT_DUMPSSID 0x08
#define STAT_DUMPSTATUS 0x10
#define STAT_DUMPSTATS 0x20
#define ACT_SET_OPMODE 7
#define ACT_SET_SSID1 8
#define ACT_SET_SSID2 9
#define ACT_SET_SSID3 10
#define ACT_SET_FREQ 11
#define ACT_SET_AP1 12
#define ACT_SET_AP2 13
#define ACT_SET_AP3 14
#define ACT_SET_AP4 15
#define ACT_SET_DRIVERNAME 16
#define ACT_SET_SCANMODE 17
#define ACT_SET_TXRATE 18
#define ACT_SET_RTS_THRESH 19
#define ACT_SET_PWRSAVE 20
#define ACT_SET_DIVERSITY_RX 21
#define ACT_SET_DIVERSITY_TX 22
#define ACT_SET_RTS_RETRYLIM 23
#define ACT_SET_WAKE_DURATION 24
#define ACT_SET_BEACON_PERIOD 25
#define ACT_SET_TXPWR 26
#define ACT_SET_FRAG_THRESH 27
#define ACT_SET_NETJOIN 28
#define ACT_SET_MYNAME 29
#define ACT_SET_MAC 30
#define ACT_ENABLE_WEP 33
#define ACT_SET_KEY_TYPE 34
#define ACT_SET_KEYS 35
#define ACT_ENABLE_TX_KEY 36
#ifdef ANCACHE
#define ACT_DUMPCACHE 31
#define ACT_ZEROCACHE 32
#define OPTIONS "a:b:c:d:e:f:j:k:l:m:n:o:p:r:s:t:v:w:ACIK:NQSTW:Z"
#else
#define OPTIONS "a:b:c:d:e:f:j:k:l:m:n:o:p:r:s:t:v:w:ACIK:NSTW:"
#endif /* ANCACHE */
int s; /* Global socket for ioctl's */
struct ifreq ifr; /* Global ifreq */
void
getsock()
{
if ((s = socket(AF_INET, SOCK_DGRAM, 0)) < 0)
errx(1, "socket");
}
void
an_getval(areq)
struct an_req *areq;
{
ifr.ifr_data = (caddr_t)areq;
if (ioctl(s, SIOCGAIRONET, &ifr) == -1)
err(1, "SIOCGAIRONET");
return;
}
void
an_setval(areq)
struct an_req *areq;
{
ifr.ifr_data = (caddr_t)areq;
if (ioctl(s, SIOCSAIRONET, &ifr) == -1)
err(1, "SIOCSAIRONET");
return;
}
void
an_printstr(str, len)
char *str;
int len;
{
int i;
for (i = 0; i < len - 1; i++) {
if (str[i] == '\0')
str[i] = ' ';
}
printf("[ %.*s ]", len, str);
return;
}
void
an_printwords(w, len)
u_int16_t *w;
int len;
{
int i;
printf("[ ");
for (i = 0; i < len; i++)
printf("%d ", w[i]);
printf("]");
return;
}
void
an_printspeeds(w, len)
u_int8_t *w;
int len;
{
int i;
printf("[ ");
for (i = 0; i < len && w[i]; i++)
printf("%2.1fMbps ", w[i] * 0.500);
printf("]");
return;
}
void
an_printhex(ptr, len)
char *ptr;
int len;
{
int i;
printf("[ ");
for (i = 0; i < len; i++) {
printf("%02x", ptr[i] & 0xFF);
if (i < (len - 1))
printf(":");
}
printf(" ]");
return;
}
void
an_dumpstatus()
{
struct an_ltv_status *sts;
struct an_req areq;
bzero((char *)&areq, sizeof(struct an_req));
areq.an_len = sizeof(areq);
areq.an_type = AN_RID_STATUS;
an_getval(&areq);
sts = (struct an_ltv_status *)&areq;
printf("MAC address:\t\t");
an_printhex((char *)&sts->an_macaddr, ETHER_ADDR_LEN);
printf("\nOperating mode:\t\t[ ");
if (sts->an_opmode & AN_STATUS_OPMODE_CONFIGURED)
printf("configured ");
if (sts->an_opmode & AN_STATUS_OPMODE_MAC_ENABLED)
printf("MAC ON ");
if (sts->an_opmode & AN_STATUS_OPMODE_RX_ENABLED)
printf("RX ON ");
if (sts->an_opmode & AN_STATUS_OPMODE_IN_SYNC)
printf("synced ");
if (sts->an_opmode & AN_STATUS_OPMODE_ASSOCIATED)
printf("associated ");
if (sts->an_opmode & AN_STATUS_OPMODE_ERROR)
printf("error ");
printf("]\n");
printf("Error code:\t\t");
an_printhex((char *)&sts->an_errcode, 1);
printf("\nSignal quality:\t\t");
an_printhex((char *)&sts->an_cur_signal_quality, 1);
printf("\nCurrent SSID:\t\t");
an_printstr((char *)&sts->an_ssid, sts->an_ssidlen);
printf("\nCurrent AP name:\t");
an_printstr((char *)&sts->an_ap_name, 16);
printf("\nCurrent BSSID:\t\t");
an_printhex((char *)&sts->an_cur_bssid, ETHER_ADDR_LEN);
printf("\nBeacon period:\t\t");
an_printwords(&sts->an_beacon_period, 1);
printf("\nDTIM period:\t\t");
an_printwords(&sts->an_dtim_period, 1);
printf("\nATIM duration:\t\t");
an_printwords(&sts->an_atim_duration, 1);
printf("\nHOP period:\t\t");
an_printwords(&sts->an_hop_period, 1);
printf("\nChannel set:\t\t");
an_printwords(&sts->an_channel_set, 1);
printf("\nCurrent channel:\t");
an_printwords(&sts->an_cur_channel, 1);
printf("\nHops to backbone:\t");
an_printwords(&sts->an_hops_to_backbone, 1);
printf("\nTotal AP load:\t\t");
an_printwords(&sts->an_ap_total_load, 1);
printf("\nOur generated load:\t");
an_printwords(&sts->an_our_generated_load, 1);
printf("\nAccumulated ARL:\t");
an_printwords(&sts->an_accumulated_arl, 1);
printf("\n");
return;
}
void
an_dumpcaps()
{
struct an_ltv_caps *caps;
struct an_req areq;
u_int16_t tmp;
bzero((char *)&areq, sizeof(struct an_req));
areq.an_len = sizeof(areq);
areq.an_type = AN_RID_CAPABILITIES;
an_getval(&areq);
caps = (struct an_ltv_caps *)&areq;
printf("OUI:\t\t\t");
an_printhex((char *)&caps->an_oui, 3);
printf("\nProduct number:\t\t");
an_printwords(&caps->an_prodnum, 1);
printf("\nManufacturer name:\t");
an_printstr((char *)&caps->an_manufname, 32);
printf("\nProduce name:\t\t");
an_printstr((char *)&caps->an_prodname, 16);
printf("\nFirmware version:\t");
an_printstr((char *)&caps->an_prodvers, 1);
printf("\nOEM MAC address:\t");
an_printhex((char *)&caps->an_oemaddr, ETHER_ADDR_LEN);
printf("\nAironet MAC address:\t");
an_printhex((char *)&caps->an_aironetaddr, ETHER_ADDR_LEN);
printf("\nRadio type:\t\t[ ");
if (caps->an_radiotype & AN_RADIOTYPE_80211_FH)
printf("802.11 FH");
else if (caps->an_radiotype & AN_RADIOTYPE_80211_DS)
printf("802.11 DS");
else if (caps->an_radiotype & AN_RADIOTYPE_LM2000_DS)
printf("LM2000 DS");
else
printf("unknown (%x)", caps->an_radiotype);
printf(" ]");
printf("\nRegulatory domain:\t");
an_printwords(&caps->an_regdomain, 1);
printf("\nAssigned CallID:\t");
an_printhex((char *)&caps->an_callid, 6);
printf("\nSupported speeds:\t");
an_printspeeds(caps->an_rates, 8);
printf("\nRX Diversity:\t\t[ ");
if (caps->an_rx_diversity == AN_DIVERSITY_ANTENNA_1_ONLY)
printf("antenna 1 only");
else if (caps->an_rx_diversity == AN_DIVERSITY_ANTENNA_2_ONLY)
printf("antenna 2 only");
else if (caps->an_rx_diversity == AN_DIVERSITY_ANTENNA_1_AND_2)
printf("antenna 1 and 2");
printf(" ]");
printf("\nTX Diversity:\t\t[ ");
if (caps->an_rx_diversity == AN_DIVERSITY_ANTENNA_1_ONLY)
printf("antenna 1 only");
else if (caps->an_rx_diversity == AN_DIVERSITY_ANTENNA_2_ONLY)
printf("antenna 2 only");
else if (caps->an_rx_diversity == AN_DIVERSITY_ANTENNA_1_AND_2)
printf("antenna 1 and 2");
printf(" ]");
printf("\nSupported power levels:\t");
an_printwords(caps->an_tx_powerlevels, 8);
printf("\nHardware revision:\t");
tmp = ntohs(caps->an_hwrev);
an_printhex((char *)&tmp, 2);
printf("\nSoftware revision:\t");
tmp = ntohs(caps->an_fwrev);
an_printhex((char *)&tmp, 2);
printf("\nSoftware subrevision:\t");
tmp = ntohs(caps->an_fwsubrev);
an_printhex((char *)&tmp, 2);
printf("\nInterface revision:\t");
tmp = ntohs(caps->an_ifacerev);
an_printhex((char *)&tmp, 2);
printf("\nBootblock revision:\t");
tmp = ntohs(caps->an_bootblockrev);
an_printhex((char *)&tmp, 2);
printf("\n");
return;
}
void
an_dumpstats()
{
struct an_ltv_stats *stats;
struct an_req areq;
caddr_t ptr;
bzero((char *)&areq, sizeof(struct an_req));
areq.an_len = sizeof(areq);
areq.an_type = AN_RID_32BITS_CUM;
an_getval(&areq);
ptr = (caddr_t)&areq;
ptr -= 2;
stats = (struct an_ltv_stats *)ptr;
printf("RX overruns:\t\t\t\t\t[ %d ]\n", stats->an_rx_overruns);
printf("RX PLCP CSUM errors:\t\t\t\t[ %d ]\n",
stats->an_rx_plcp_csum_errs);
printf("RX PLCP format errors:\t\t\t\t[ %d ]\n",
stats->an_rx_plcp_format_errs);
printf("RX PLCP length errors:\t\t\t\t[ %d ]\n",
stats->an_rx_plcp_len_errs);
printf("RX MAC CRC errors:\t\t\t\t[ %d ]\n",
stats->an_rx_mac_crc_errs);
printf("RX MAC CRC OK:\t\t\t\t\t[ %d ]\n",
stats->an_rx_mac_crc_ok);
printf("RX WEP errors:\t\t\t\t\t[ %d ]\n",
stats->an_rx_wep_errs);
printf("RX WEP OK:\t\t\t\t\t[ %d ]\n",
stats->an_rx_wep_ok);
printf("Long retries:\t\t\t\t\t[ %d ]\n",
stats->an_retry_long);
printf("Short retries:\t\t\t\t\t[ %d ]\n",
stats->an_retry_short);
printf("Retries exhausted:\t\t\t\t[ %d ]\n",
stats->an_retry_max);
printf("Bad ACK:\t\t\t\t\t[ %d ]\n",
stats->an_no_ack);
printf("Bad CTS:\t\t\t\t\t[ %d ]\n",
stats->an_no_cts);
printf("RX good ACKs:\t\t\t\t\t[ %d ]\n",
stats->an_rx_ack_ok);
printf("RX good CTSs:\t\t\t\t\t[ %d ]\n",
stats->an_rx_cts_ok);
printf("TX good ACKs:\t\t\t\t\t[ %d ]\n",
stats->an_tx_ack_ok);
printf("TX good RTSs:\t\t\t\t\t[ %d ]\n",
stats->an_tx_rts_ok);
printf("TX good CTSs:\t\t\t\t\t[ %d ]\n",
stats->an_tx_cts_ok);
printf("LMAC multicasts transmitted:\t\t\t[ %d ]\n",
stats->an_tx_lmac_mcasts);
printf("LMAC broadcasts transmitted:\t\t\t[ %d ]\n",
stats->an_tx_lmac_bcasts);
printf("LMAC unicast frags transmitted:\t\t\t[ %d ]\n",
stats->an_tx_lmac_ucast_frags);
printf("LMAC unicasts transmitted:\t\t\t[ %d ]\n",
stats->an_tx_lmac_ucasts);
printf("Beacons transmitted:\t\t\t\t[ %d ]\n",
stats->an_tx_beacons);
printf("Beacons received:\t\t\t\t[ %d ]\n",
stats->an_rx_beacons);
printf("Single transmit collisions:\t\t\t[ %d ]\n",
stats->an_tx_single_cols);
printf("Multiple transmit collisions:\t\t\t[ %d ]\n",
stats->an_tx_multi_cols);
printf("Transmits without deferrals:\t\t\t[ %d ]\n",
stats->an_tx_defers_no);
printf("Transmits deferred due to protocol:\t\t[ %d ]\n",
stats->an_tx_defers_prot);
printf("Transmits deferred due to energy detect:\t\t[ %d ]\n",
stats->an_tx_defers_energy);
printf("RX duplicate frames/frags:\t\t\t[ %d ]\n",
stats->an_rx_dups);
printf("RX partial frames:\t\t\t\t[ %d ]\n",
stats->an_rx_partial);
printf("TX max lifetime exceeded:\t\t\t[ %d ]\n",
stats->an_tx_too_old);
printf("RX max lifetime exceeded:\t\t\t[ %d ]\n",
stats->an_tx_too_old);
printf("Sync lost due to too many missed beacons:\t[ %d ]\n",
stats->an_lostsync_missed_beacons);
printf("Sync lost due to ARL exceeded:\t\t\t[ %d ]\n",
stats->an_lostsync_arl_exceeded);
printf("Sync lost due to deauthentication:\t\t[ %d ]\n",
stats->an_lostsync_deauthed);
printf("Sync lost due to disassociation:\t\t[ %d ]\n",
stats->an_lostsync_disassociated);
printf("Sync lost due to excess change in TSF timing:\t[ %d ]\n",
stats->an_lostsync_tsf_timing);
printf("Host transmitted multicasts:\t\t\t[ %d ]\n",
stats->an_tx_host_mcasts);
printf("Host transmitted broadcasts:\t\t\t[ %d ]\n",
stats->an_tx_host_bcasts);
printf("Host transmitted unicasts:\t\t\t[ %d ]\n",
stats->an_tx_host_ucasts);
printf("Host transmission failures:\t\t\t[ %d ]\n",
stats->an_tx_host_failed);
printf("Host received multicasts:\t\t\t[ %d ]\n",
stats->an_rx_host_mcasts);
printf("Host received broadcasts:\t\t\t[ %d ]\n",
stats->an_rx_host_bcasts);
printf("Host received unicasts:\t\t\t\t[ %d ]\n",
stats->an_rx_host_ucasts);
printf("Host receive discards:\t\t\t\t[ %d ]\n",
stats->an_rx_host_discarded);
printf("HMAC transmitted multicasts:\t\t\t[ %d ]\n",
stats->an_tx_hmac_mcasts);
printf("HMAC transmitted broadcasts:\t\t\t[ %d ]\n",
stats->an_tx_hmac_bcasts);
printf("HMAC transmitted unicasts:\t\t\t[ %d ]\n",
stats->an_tx_hmac_ucasts);
printf("HMAC transmissions failed:\t\t\t[ %d ]\n",
stats->an_tx_hmac_failed);
printf("HMAC received multicasts:\t\t\t[ %d ]\n",
stats->an_rx_hmac_mcasts);
printf("HMAC received broadcasts:\t\t\t[ %d ]\n",
stats->an_rx_hmac_bcasts);
printf("HMAC received unicasts:\t\t\t\t[ %d ]\n",
stats->an_rx_hmac_ucasts);
printf("HMAC receive discards:\t\t\t\t[ %d ]\n",
stats->an_rx_hmac_discarded);
printf("HMAC transmits accepted:\t\t\t[ %d ]\n",
stats->an_tx_hmac_accepted);
printf("SSID mismatches:\t\t\t\t[ %d ]\n",
stats->an_ssid_mismatches);
printf("Access point mismatches:\t\t\t[ %d ]\n",
stats->an_ap_mismatches);
printf("Speed mismatches:\t\t\t\t[ %d ]\n",
stats->an_rates_mismatches);
printf("Authentication rejects:\t\t\t\t[ %d ]\n",
stats->an_auth_rejects);
printf("Authentication timeouts:\t\t\t[ %d ]\n",
stats->an_auth_timeouts);
printf("Association rejects:\t\t\t\t[ %d ]\n",
stats->an_assoc_rejects);
printf("Association timeouts:\t\t\t\t[ %d ]\n",
stats->an_assoc_timeouts);
printf("Management frames received:\t\t\t[ %d ]\n",
stats->an_rx_mgmt_pkts);
printf("Management frames transmitted:\t\t\t[ %d ]\n",
stats->an_tx_mgmt_pkts);
printf("Refresh frames received:\t\t\t[ %d ]\n",
stats->an_rx_refresh_pkts),
printf("Refresh frames transmitted:\t\t\t[ %d ]\n",
stats->an_tx_refresh_pkts),
printf("Poll frames received:\t\t\t\t[ %d ]\n",
stats->an_rx_poll_pkts);
printf("Poll frames transmitted:\t\t\t[ %d ]\n",
stats->an_tx_poll_pkts);
printf("Host requested sync losses:\t\t\t[ %d ]\n",
stats->an_lostsync_hostreq);
printf("Host transmitted bytes:\t\t\t\t[ %d ]\n",
stats->an_host_tx_bytes);
printf("Host received bytes:\t\t\t\t[ %d ]\n",
stats->an_host_rx_bytes);
printf("Uptime in microseconds:\t\t\t\t[ %d ]\n",
stats->an_uptime_usecs);
printf("Uptime in seconds:\t\t\t\t[ %d ]\n",
stats->an_uptime_secs);
printf("Sync lost due to better AP:\t\t\t[ %d ]\n",
stats->an_lostsync_better_ap);
return;
}
void
an_dumpap()
{
struct an_ltv_aplist *ap;
struct an_req areq;
bzero((char *)&areq, sizeof(struct an_req));
areq.an_len = sizeof(areq);
areq.an_type = AN_RID_APLIST;
an_getval(&areq);
ap = (struct an_ltv_aplist *)&areq;
printf("Access point 1:\t\t\t");
an_printhex((char *)&ap->an_ap1, ETHER_ADDR_LEN);
printf("\nAccess point 2:\t\t\t");
an_printhex((char *)&ap->an_ap2, ETHER_ADDR_LEN);
printf("\nAccess point 3:\t\t\t");
an_printhex((char *)&ap->an_ap3, ETHER_ADDR_LEN);
printf("\nAccess point 4:\t\t\t");
an_printhex((char *)&ap->an_ap4, ETHER_ADDR_LEN);
printf("\n");
return;
}
void
an_dumpssid()
{
struct an_ltv_ssidlist *ssid;
struct an_req areq;
bzero((char *)&areq, sizeof(struct an_req));
areq.an_len = sizeof(areq);
areq.an_type = AN_RID_SSIDLIST;
an_getval(&areq);
ssid = (struct an_ltv_ssidlist *)&areq;
printf("SSID 1:\t\t\t[ %.*s ]\n", ssid->an_ssid1_len, ssid->an_ssid1);
printf("SSID 2:\t\t\t[ %.*s ]\n", ssid->an_ssid2_len, ssid->an_ssid2);
printf("SSID 3:\t\t\t[ %.*s ]\n", ssid->an_ssid3_len, ssid->an_ssid3);
return;
}
void
an_dumpconfig()
{
struct an_ltv_genconfig *cfg;
struct an_req areq;
unsigned char div;
bzero((char *)&areq, sizeof(struct an_req));
areq.an_len = sizeof(areq);
areq.an_type = AN_RID_ACTUALCFG;
an_getval(&areq);
cfg = (struct an_ltv_genconfig *)&areq;
printf("Operating mode:\t\t\t\t[ ");
if ((cfg->an_opmode & 0x7) == AN_OPMODE_IBSS_ADHOC)
printf("ad-hoc");
if ((cfg->an_opmode & 0x7) == AN_OPMODE_INFRASTRUCTURE_STATION)
printf("infrastructure");
if ((cfg->an_opmode & 0x7) == AN_OPMODE_AP)
printf("access point");
if ((cfg->an_opmode & 0x7) == AN_OPMODE_AP_REPEATER)
printf("access point repeater");
printf(" ]");
printf("\nReceive mode:\t\t\t\t[ ");
if ((cfg->an_rxmode & 0x7) == AN_RXMODE_BC_MC_ADDR)
printf("broadcast/multicast/unicast");
if ((cfg->an_rxmode & 0x7) == AN_RXMODE_BC_ADDR)
printf("broadcast/unicast");
if ((cfg->an_rxmode & 0x7) == AN_RXMODE_ADDR)
printf("unicast");
if ((cfg->an_rxmode & 0x7) == AN_RXMODE_80211_MONITOR_CURBSS)
printf("802.11 monitor, current BSSID");
if ((cfg->an_rxmode & 0x7) == AN_RXMODE_80211_MONITOR_ANYBSS)
printf("802.11 monitor, any BSSID");
if ((cfg->an_rxmode & 0x7) == AN_RXMODE_LAN_MONITOR_CURBSS)
printf("LAN monitor, current BSSID");
printf(" ]");
printf("\nFragment threshold:\t\t\t");
an_printwords(&cfg->an_fragthresh, 1);
printf("\nRTS threshold:\t\t\t\t");
an_printwords(&cfg->an_rtsthresh, 1);
printf("\nMAC address:\t\t\t\t");
an_printhex((char *)&cfg->an_macaddr, ETHER_ADDR_LEN);
printf("\nSupported rates:\t\t\t");
an_printspeeds(cfg->an_rates, 8);
printf("\nShort retry limit:\t\t\t");
an_printwords(&cfg->an_shortretry_limit, 1);
printf("\nLong retry limit:\t\t\t");
an_printwords(&cfg->an_longretry_limit, 1);
printf("\nTX MSDU lifetime:\t\t\t");
an_printwords(&cfg->an_tx_msdu_lifetime, 1);
printf("\nRX MSDU lifetime:\t\t\t");
an_printwords(&cfg->an_rx_msdu_lifetime, 1);
printf("\nStationary:\t\t\t\t");
an_printbool(cfg->an_stationary);
printf("\nOrdering:\t\t\t\t");
an_printbool(cfg->an_ordering);
printf("\nDevice type:\t\t\t\t[ ");
if (cfg->an_devtype == AN_DEVTYPE_PC4500)
printf("PC4500");
else if (cfg->an_devtype == AN_DEVTYPE_PC4800)
printf("PC4800");
else
printf("unknown (%x)", cfg->an_devtype);
printf(" ]");
printf("\nScanning mode:\t\t\t\t[ ");
if (cfg->an_scanmode == AN_SCANMODE_ACTIVE)
printf("active");
if (cfg->an_scanmode == AN_SCANMODE_PASSIVE)
printf("passive");
if (cfg->an_scanmode == AN_SCANMODE_AIRONET_ACTIVE)
printf("Aironet active");
printf(" ]");
printf("\nProbe delay:\t\t\t\t");
an_printwords(&cfg->an_probedelay, 1);
printf("\nProbe energy timeout:\t\t\t");
an_printwords(&cfg->an_probe_energy_timeout, 1);
printf("\nProbe response timeout:\t\t\t");
an_printwords(&cfg->an_probe_response_timeout, 1);
printf("\nBeacon listen timeout:\t\t\t");
an_printwords(&cfg->an_beacon_listen_timeout, 1);
printf("\nIBSS join network timeout:\t\t");
an_printwords(&cfg->an_ibss_join_net_timeout, 1);
printf("\nAuthentication timeout:\t\t\t");
an_printwords(&cfg->an_auth_timeout, 1);
printf("\nWEP enabled:\t\t\t\t[ ");
if (cfg->an_authtype & AN_AUTHTYPE_PRIVACY_IN_USE)
{
if (cfg->an_authtype & AN_AUTHTYPE_ALLOW_UNENCRYPTED)
printf("mixed cell");
else
printf("full");
}
else
printf("no");
printf(" ]");
printf("\nAuthentication type:\t\t\t[ ");
if ((cfg->an_authtype & AN_AUTHTYPE_MASK) == AN_AUTHTYPE_NONE)
printf("none");
if ((cfg->an_authtype & AN_AUTHTYPE_MASK) == AN_AUTHTYPE_OPEN)
printf("open");
if ((cfg->an_authtype & AN_AUTHTYPE_MASK) == AN_AUTHTYPE_SHAREDKEY)
printf("shared key");
printf(" ]");
printf("\nAssociation timeout:\t\t\t");
an_printwords(&cfg->an_assoc_timeout, 1);
printf("\nSpecified AP association timeout:\t");
an_printwords(&cfg->an_specified_ap_timeout, 1);
printf("\nOffline scan interval:\t\t\t");
an_printwords(&cfg->an_offline_scan_interval, 1);
printf("\nOffline scan duration:\t\t\t");
an_printwords(&cfg->an_offline_scan_duration, 1);
printf("\nLink loss delay:\t\t\t");
an_printwords(&cfg->an_link_loss_delay, 1);
printf("\nMax beacon loss time:\t\t\t");
an_printwords(&cfg->an_max_beacon_lost_time, 1);
printf("\nRefresh interval:\t\t\t");
an_printwords(&cfg->an_refresh_interval, 1);
printf("\nPower save mode:\t\t\t[ ");
if (cfg->an_psave_mode == AN_PSAVE_NONE)
printf("none");
if (cfg->an_psave_mode == AN_PSAVE_CAM)
printf("constantly awake mode");
if (cfg->an_psave_mode == AN_PSAVE_PSP)
printf("PSP");
if (cfg->an_psave_mode == AN_PSAVE_PSP_CAM)
printf("PSP-CAM (fast PSP)");
printf(" ]");
printf("\nSleep through DTIMs:\t\t\t");
an_printbool(cfg->an_sleep_for_dtims);
printf("\nPower save listen interval:\t\t");
an_printwords(&cfg->an_listen_interval, 1);
printf("\nPower save fast listen interval:\t");
an_printwords(&cfg->an_fast_listen_interval, 1);
printf("\nPower save listen decay:\t\t");
an_printwords(&cfg->an_listen_decay, 1);
printf("\nPower save fast listen decay:\t\t");
an_printwords(&cfg->an_fast_listen_decay, 1);
printf("\nAP/ad-hoc Beacon period:\t\t");
an_printwords(&cfg->an_beacon_period, 1);
printf("\nAP/ad-hoc ATIM duration:\t\t");
an_printwords(&cfg->an_atim_duration, 1);
printf("\nAP/ad-hoc current channel:\t\t");
an_printwords(&cfg->an_ds_channel, 1);
printf("\nAP/ad-hoc DTIM period:\t\t\t");
an_printwords(&cfg->an_dtim_period, 1);
printf("\nRadio type:\t\t\t\t[ ");
if (cfg->an_radiotype & AN_RADIOTYPE_80211_FH)
printf("802.11 FH");
else if (cfg->an_radiotype & AN_RADIOTYPE_80211_DS)
printf("802.11 DS");
else if (cfg->an_radiotype & AN_RADIOTYPE_LM2000_DS)
printf("LM2000 DS");
else
printf("unknown (%x)", cfg->an_radiotype);
printf(" ]");
printf("\nRX Diversity:\t\t\t\t[ ");
div = cfg->an_diversity & 0xFF;
if (div == AN_DIVERSITY_ANTENNA_1_ONLY)
printf("antenna 1 only");
else if (div == AN_DIVERSITY_ANTENNA_2_ONLY)
printf("antenna 2 only");
else if (div == AN_DIVERSITY_ANTENNA_1_AND_2)
printf("antenna 1 and 2");
printf(" ]");
printf("\nTX Diversity:\t\t\t\t[ ");
div = (cfg->an_diversity >> 8) & 0xFF;
if (div == AN_DIVERSITY_ANTENNA_1_ONLY)
printf("antenna 1 only");
else if (div == AN_DIVERSITY_ANTENNA_2_ONLY)
printf("antenna 2 only");
else if (div == AN_DIVERSITY_ANTENNA_1_AND_2)
printf("antenna 1 and 2");
printf(" ]");
printf("\nTransmit power level:\t\t\t");
an_printwords(&cfg->an_tx_power, 1);
printf("\nRSS threshold:\t\t\t\t");
an_printwords(&cfg->an_rss_thresh, 1);
printf("\nNode name:\t\t\t\t");
an_printstr((char *)&cfg->an_nodename, 16);
printf("\nARL threshold:\t\t\t\t");
an_printwords(&cfg->an_arl_thresh, 1);
printf("\nARL decay:\t\t\t\t");
an_printwords(&cfg->an_arl_decay, 1);
printf("\nARL delay:\t\t\t\t");
an_printwords(&cfg->an_arl_delay, 1);
printf("\n");
an_readkeyinfo();
return;
}
static void
usage()
{
fprintf(stderr,
"usage: ancontrol interface [-ACINSTh] [-t 0|1|2|3|4]\n"
" [-s 0|1|2|3] [-v 1|2|3|4] [-a AP] [-b beacon period] [-v 0|1]\n"
" [-d 1|2|3|4] [-e 0|1|2|3] [-j netjoin timeout] [-v 0|1|2|3|4|5|6|7[\n"
" [-k key] [-K 0|1|2] [-l station name] [-m macaddress] [-v 1|2|3]\n"
" [-n SSID] [-o 0|1] [-p tx power] [-c channel number]\n"
" [-f fragmentation threshold] [-r RTS threshold] [-W 0|1|2]\n");
#ifdef ANCACHE
fprintf(stderr,
" [-Q] [-Z]\n");
#endif
exit(1);
}
void
an_setconfig(act, arg)
int act;
void *arg;
{
struct an_ltv_genconfig *cfg;
struct an_ltv_caps *caps;
struct an_req areq;
struct an_req areq_caps;
u_int16_t diversity = 0;
struct ether_addr *addr;
int i;
bzero((char *)&areq, sizeof(struct an_req));
bzero((char *)&areq_caps, sizeof(struct an_req));
areq.an_len = sizeof(areq);
areq.an_type = AN_RID_GENCONFIG;
an_getval(&areq);
cfg = (struct an_ltv_genconfig *)&areq;
areq_caps.an_len = sizeof(areq);
areq_caps.an_type = AN_RID_CAPABILITIES;
an_getval(&areq_caps);
caps = (struct an_ltv_caps *)&areq_caps;
switch(act) {
case ACT_SET_OPMODE:
cfg->an_opmode = atoi(arg);
break;
case ACT_SET_FREQ:
cfg->an_ds_channel = atoi(arg);
break;
case ACT_SET_PWRSAVE:
cfg->an_psave_mode = atoi(arg);
break;
case ACT_SET_SCANMODE:
cfg->an_scanmode = atoi(arg);
break;
case ACT_SET_DIVERSITY_RX:
case ACT_SET_DIVERSITY_TX:
switch(atoi(arg)) {
case 0:
diversity = AN_DIVERSITY_FACTORY_DEFAULT;
break;
case 1:
diversity = AN_DIVERSITY_ANTENNA_1_ONLY;
break;
case 2:
diversity = AN_DIVERSITY_ANTENNA_2_ONLY;
break;
case 3:
diversity = AN_DIVERSITY_ANTENNA_1_AND_2;
break;
default:
errx(1, "bad diversity setting: %d", diversity);
break;
}
if (atoi(arg) == ACT_SET_DIVERSITY_RX) {
cfg->an_diversity &= 0x00FF;
cfg->an_diversity |= (diversity << 8);
} else {
cfg->an_diversity &= 0xFF00;
cfg->an_diversity |= diversity;
}
break;
case ACT_SET_TXPWR:
for (i = 0; i < 8; i++) {
if (caps->an_tx_powerlevels[i] == atoi(arg))
break;
}
if (i == 8)
errx(1, "unsupported power level: %dmW", atoi(arg));
cfg->an_tx_power = atoi(arg);
break;
case ACT_SET_RTS_THRESH:
cfg->an_rtsthresh = atoi(arg);
break;
case ACT_SET_RTS_RETRYLIM:
cfg->an_shortretry_limit =
cfg->an_longretry_limit = atoi(arg);
break;
case ACT_SET_BEACON_PERIOD:
cfg->an_beacon_period = atoi(arg);
break;
case ACT_SET_WAKE_DURATION:
cfg->an_atim_duration = atoi(arg);
break;
case ACT_SET_FRAG_THRESH:
cfg->an_fragthresh = atoi(arg);
break;
case ACT_SET_NETJOIN:
cfg->an_ibss_join_net_timeout = atoi(arg);
break;
case ACT_SET_MYNAME:
bzero(cfg->an_nodename, 16);
strncpy((char *)&cfg->an_nodename, optarg, 16);
break;
case ACT_SET_MAC:
addr = ether_aton((char *)arg);
if (addr == NULL)
errx(1, "badly formatted address");
bzero(cfg->an_macaddr, ETHER_ADDR_LEN);
bcopy((char *)addr, (char *)&cfg->an_macaddr, ETHER_ADDR_LEN);
break;
case ACT_ENABLE_WEP:
switch(atoi(arg)) {
case 0: /* WEP disabled */
cfg->an_authtype &= ~(AN_AUTHTYPE_PRIVACY_IN_USE
| AN_AUTHTYPE_ALLOW_UNENCRYPTED);
break;
case 1: /* WEP enabled */
cfg->an_authtype |= AN_AUTHTYPE_PRIVACY_IN_USE;
cfg->an_authtype &= ~AN_AUTHTYPE_ALLOW_UNENCRYPTED;
break;
case 2: /* WEP optional */
cfg->an_authtype = AN_AUTHTYPE_PRIVACY_IN_USE
| AN_AUTHTYPE_ALLOW_UNENCRYPTED;
break;
}
break;
case ACT_SET_KEY_TYPE:
cfg->an_authtype = (cfg->an_authtype & ~AN_AUTHTYPE_MASK)
| atoi(arg);
break;
default:
errx(1, "unknown action");
break;
}
an_setval(&areq);
}
void
an_setspeed(arg)
void *arg;
{
struct an_req areq;
struct an_ltv_caps *caps;
u_int16_t speed;
bzero((char *)&areq, sizeof(struct an_req));
areq.an_len = sizeof(areq);
areq.an_type = AN_RID_CAPABILITIES;
an_getval(&areq);
caps = (struct an_ltv_caps *)&areq;
switch(atoi(arg)) {
case 0:
speed = 0;
break;
case 1:
speed = AN_RATE_1MBPS;
break;
case 2:
speed = AN_RATE_2MBPS;
break;
case 3:
if (caps->an_rates[2] != AN_RATE_5_5MBPS)
errx(1, "5.5Mbps not supported on this card");
speed = AN_RATE_5_5MBPS;
break;
case 4:
if (caps->an_rates[3] != AN_RATE_11MBPS)
errx(1, "11Mbps not supported on this card");
speed = AN_RATE_11MBPS;
break;
default:
errx(1, "unsupported speed");
break;
}
areq.an_len = 6;
areq.an_type = AN_RID_TX_SPEED;
areq.an_val[0] = speed;
an_setval(&areq);
}
void
an_setap(act, arg)
int act;
void *arg;
{
struct an_ltv_aplist *ap;
struct an_req areq;
struct ether_addr *addr;
bzero((char *)&areq, sizeof(struct an_req));
areq.an_len = sizeof(areq);
areq.an_type = AN_RID_APLIST;
an_getval(&areq);
ap = (struct an_ltv_aplist *)&areq;
addr = ether_aton((char *)arg);
if (addr == NULL)
errx(1, "badly formatted address");
switch(act) {
case ACT_SET_AP1:
bzero(ap->an_ap1, ETHER_ADDR_LEN);
bcopy((char *)addr, (char *)&ap->an_ap1, ETHER_ADDR_LEN);
break;
case ACT_SET_AP2:
bzero(ap->an_ap2, ETHER_ADDR_LEN);
bcopy((char *)addr, (char *)&ap->an_ap2, ETHER_ADDR_LEN);
break;
case ACT_SET_AP3:
bzero(ap->an_ap3, ETHER_ADDR_LEN);
bcopy((char *)addr, (char *)&ap->an_ap3, ETHER_ADDR_LEN);
break;
case ACT_SET_AP4:
bzero(ap->an_ap4, ETHER_ADDR_LEN);
bcopy((char *)addr, (char *)&ap->an_ap4, ETHER_ADDR_LEN);
break;
default:
errx(1, "unknown action");
break;
}
an_setval(&areq);
}
void
an_setssid(act, arg)
int act;
void *arg;
{
struct an_ltv_ssidlist *ssid;
struct an_req areq;
bzero((char *)&areq, sizeof(struct an_req));
areq.an_len = sizeof(areq);
areq.an_type = AN_RID_SSIDLIST;
an_getval(&areq);
ssid = (struct an_ltv_ssidlist *)&areq;
switch (act) {
case ACT_SET_SSID1:
bzero(ssid->an_ssid1, sizeof(ssid->an_ssid1));
strlcpy(ssid->an_ssid1, (char *)arg, sizeof(ssid->an_ssid1));
ssid->an_ssid1_len = strlen(ssid->an_ssid1);
break;
case ACT_SET_SSID2:
bzero(ssid->an_ssid2, sizeof(ssid->an_ssid2));
strlcpy(ssid->an_ssid2, (char *)arg, sizeof(ssid->an_ssid2));
ssid->an_ssid2_len = strlen(ssid->an_ssid2);
break;
case ACT_SET_SSID3:
bzero(ssid->an_ssid3, sizeof(ssid->an_ssid3));
strlcpy(ssid->an_ssid3, (char *)arg, sizeof(ssid->an_ssid3));
ssid->an_ssid3_len = strlen(ssid->an_ssid3);
break;
default:
errx(1, "unknown action");
break;
}
an_setval(&areq);
}
#ifdef ANCACHE
void
an_zerocache()
{
struct an_req areq;
bzero((char *)&areq, sizeof(areq));
areq.an_len = 0;
areq.an_type = AN_RID_ZERO_CACHE;
an_getval(&areq);
return;
}
void
an_readcache()
{
struct an_req areq;
int *an_sigitems;
struct an_sigcache *sc;
char * pt;
int i;
bzero((char *)&areq, sizeof(areq));
areq.an_len = AN_MAX_DATALEN;
areq.an_type = AN_RID_READ_CACHE;
an_getval(&areq);
an_sigitems = (int *) &areq.an_val;
pt = ((char *) &areq.an_val);
pt += sizeof(int);
sc = (struct an_sigcache *) pt;
for (i = 0; i < *an_sigitems; i++) {
printf("[%d/%d]:", i+1, *an_sigitems);
printf(" %02x:%02x:%02x:%02x:%02x:%02x,",
sc->macsrc[0]&0xff,
sc->macsrc[1]&0xff,
sc->macsrc[2]&0xff,
sc->macsrc[3]&0xff,
sc->macsrc[4]&0xff,
sc->macsrc[5]&0xff);
printf(" %d.%d.%d.%d,",((sc->ipsrc >> 0) & 0xff),
((sc->ipsrc >> 8) & 0xff),
((sc->ipsrc >> 16) & 0xff),
((sc->ipsrc >> 24) & 0xff));
printf(" sig: %d\n", sc->signal);
sc++;
}
return;
}
#endif /* ANCACHE */
int
an_hex2int(c)
char c;
{
if (c >= '0' && c <= '9')
return (c - '0');
if (c >= 'A' && c <= 'F')
return (c - 'A' + 10);
if (c >= 'a' && c <= 'f')
return (c - 'a' + 10);
return (0);
}
void
an_str2key(s, k)
char *s;
struct an_ltv_key *k;
{
int n, i;
char *p;
/* Is this a hex string? */
if ((s[0] = '0' && (s[1] == 'x' || s[1] == 'X'))) {
/* Yes, convert to int */
n = 0;
p = (char *)&k->key[0];
for (i = 2; i < strlen(s); i += 2) {
*p++ = (an_hex2int(s[i]) << 4) + an_hex2int(s[i + 1]);
n++;
}
k->klen = n;
} else {
/* No, just copy it in */
bcopy(s, k->key, strlen(s));
k->klen = strlen(s);
}
return;
}
void
an_setkeys(key, keytype)
char *key;
int keytype;
{
struct an_req areq;
struct an_ltv_key *k;
bzero((char *)&areq, sizeof(areq));
k = (struct an_ltv_key *)&areq;
if (strlen(key) > 28)
err(1, "encryption key must be no more than 18 chars long");
an_str2key(key, k);
k->kindex = keytype / 2;
if (!(k->klen == 0 || k->klen == 5 || k->klen == 13)) {
err(1, "encryption key must be 0, 5 or 13 bytes long");
}
/* default mac and only valid one (from manual) 1:0:0:0:0:0 */
k->mac[0] = 1;
k->mac[1] = 0;
k->mac[2] = 0;
k->mac[3] = 0;
k->mac[4] = 0;
k->mac[5] = 0;
areq.an_len = sizeof(struct an_ltv_key);
areq.an_type = (keytype & 1)
? AN_RID_WEP_VOLATILE : AN_RID_WEP_PERMANENT;
an_setval(&areq);
return;
}
void
an_readkeyinfo()
{
struct an_req areq;
struct an_ltv_key *k;
int i;
bzero((char *)&areq, sizeof(areq));
k = (struct an_ltv_key *)&areq;
printf ("\nWEP Key status:\n");
areq.an_type = AN_RID_WEP_VOLATILE; /* read first key */
for (i = 0; i < 4; i++) {
areq.an_len = sizeof(struct an_ltv_key);
an_getval(&areq);
for (; i < k->kindex && i < 4; i++)
printf("\tKey %d is unset\n", i);
if (i < 4) {
switch (k->klen) {
case 0:
printf("\tKey %d is unset\n", i);
break;
case 5:
printf("\tKey %d is set 40 bits\n", i);
break;
case 13:
printf("\tKey %d is set 128 bits\n", i);
break;
default:
printf("\tKey %d has an unknown size %d\n", i, k->klen);
break;
}
}
areq.an_type = AN_RID_WEP_PERMANENT; /* read next key */
}
k->kindex = 0xffff;
areq.an_len = sizeof(struct an_ltv_key);
an_getval(&areq);
printf("\tThe active transmit key is %d\n", k->mac[0]);
return;
}
void
an_enable_tx_key(arg)
char *arg;
{
struct an_req areq;
struct an_ltv_key *k;
bzero((char *)&areq, sizeof(areq));
k = (struct an_ltv_key *)&areq;
/*
* From a Cisco engineer: Write the transmit key
* to use in the first MAC, index is FFFF
*/
k->kindex = 0xFFFF;
k->klen = 0;
k->mac[0] = atoi(arg);
k->mac[1] = 0;
k->mac[2] = 0;
k->mac[3] = 0;
k->mac[4] = 0;
k->mac[5] = 0;
areq.an_len = sizeof(struct an_ltv_key);
areq.an_type = AN_RID_WEP_PERMANENT;
an_setval(&areq);
return;
}
int
main(argc, argv)
int argc;
char *argv[];
{
int ch;
int modifier = 0;
int print_stat = 0;
/* Grab device name, if one is given. Default to "an0" */
opterr = 0;
ch = getopt(argc, argv, "i:");
if (ch == 'i') {
strlcpy(ifr.ifr_name, optarg, sizeof(ifr.ifr_name));
} else {
if (argc > 1 && argv[1][0] != '-') {
strlcpy(ifr.ifr_name, argv[1], sizeof(ifr.ifr_name));
optind = 2;
} else {
strlcpy(ifr.ifr_name, "an0", sizeof(ifr.ifr_name));
optind = 1;
}
}
opterr = optreset = 1;
/* Grab a socket to do our ioctl's */
getsock();
while ((ch = getopt(argc, argv, OPTIONS)) != -1) {
switch(ch) {
case 'A':
print_stat |= STAT_DUMPAP;
break;
case 'C':
print_stat |= STAT_DUMPCONFIG;
break;
case 'I':
print_stat |= STAT_DUMPCAPS;
break;
case 'K':
an_setconfig(ACT_SET_KEY_TYPE, optarg);
break;
case 'N':
print_stat |= STAT_DUMPSSID;
break;
case 'S':
print_stat |= STAT_DUMPSTATUS;
break;
case 'T':
print_stat |= STAT_DUMPSTATS;
break;
case 'W':
an_setconfig(ACT_ENABLE_WEP, optarg);
break;
#ifdef ANCACHE
case 'Q':
an_readcache();
break;
case 'Z':
an_zerocache();
break;
#endif /* ANCACHE */
case 'a':
switch (modifier) {
case 0:
case 1:
an_setap(ACT_SET_AP1, optarg);
break;
case 2:
an_setap(ACT_SET_AP2, optarg);
break;
case 3:
an_setap(ACT_SET_AP3, optarg);
break;
case 4:
an_setap(ACT_SET_AP4, optarg);
break;
default:
errx(1, "bad modifier %d", modifier);
}
modifier = 0;
break;
case 'b':
an_setconfig(ACT_SET_BEACON_PERIOD, optarg);
break;
case 'c':
an_setconfig(ACT_SET_FREQ, optarg);
break;
case 'd':
switch (modifier) {
case 0:
an_setconfig(ACT_SET_DIVERSITY_RX, optarg);
break;
case 1:
an_setconfig(ACT_SET_DIVERSITY_RX, optarg);
break;
default:
errx(1, "must specify RX or TX diversity");
}
modifier = 0;
break;
case 'e':
an_enable_tx_key(optarg);
break;
case 'f':
an_setconfig(ACT_SET_FRAG_THRESH, optarg);
break;
case 'h':
usage();
break;
case 'j':
an_setconfig(ACT_SET_NETJOIN, optarg);
break;
case 'k':
an_setkeys(optarg, modifier);
break;
case 'l':
an_setconfig(ACT_SET_MYNAME, optarg);
break;
case 'm':
an_setconfig(ACT_SET_MAC, optarg);
break;
case 'n':
switch (modifier) {
case 0:
case 1:
an_setssid(ACT_SET_SSID1, optarg);
break;
case 2:
an_setssid(ACT_SET_SSID2, optarg);
break;
case 3:
an_setssid(ACT_SET_SSID3, optarg);
break;
default:
errx(1, "bad modifier %d", modifier);
}
modifier = 0;
break;
case 'o':
an_setconfig(ACT_SET_OPMODE, optarg);
break;
case 'p':
an_setconfig(ACT_SET_TXPWR, optarg);
break;
case 'q':
an_setconfig(ACT_SET_RTS_RETRYLIM, optarg);
break;
case 'r':
an_setconfig(ACT_SET_RTS_THRESH, optarg);
break;
case 's':
an_setconfig(ACT_SET_PWRSAVE, optarg);
break;
case 't':
an_setspeed(optarg);
break;
case 'v':
modifier = atoi(optarg);
break;
case 'w':
an_setconfig(ACT_SET_WAKE_DURATION, optarg);
break;
default:
usage();
}
}
/*
* Show configuration status first. Do not allow
* the showing of and setting of options to be done
* on the same command line.
*/
if (print_stat) {
if (print_stat & STAT_DUMPAP)
an_dumpap();
if (print_stat & STAT_DUMPCONFIG)
an_dumpconfig();
if (print_stat & STAT_DUMPCAPS)
an_dumpcaps();
if (print_stat & STAT_DUMPSSID)
an_dumpssid();
if (print_stat & STAT_DUMPSTATUS)
an_dumpstatus();
if (print_stat & STAT_DUMPSTATS)
an_dumpstats();
}
/* Close our socket */
if (s)
close(s);
return (0);
}
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