static PyObject *
wifi_get_ap(PyObject *self, PyObject *args)
{
const char *iface;
int max_quality;
int fd, err;
struct iwreq wrq;
char buffer[32];
if (!PyArg_ParseTuple(args, "s", &iface))
return NULL;
fd = socket (PF_INET, SOCK_DGRAM, 0);
if (fd < 0) {
fprintf (stderr, "couldn't open socket\n");
return NULL;
}
/* Get AP address */
err = iw_get_ext(fd, iface, SIOCGIWAP, &wrq);
close (fd);
if (err < 0) {
PyErr_SetFromErrno(PyExc_IOError);
return NULL;
}
return Py_BuildValue("s", iw_sawap_ntop(&wrq.u.ap_addr, buffer));
}
static const char *
get_ap(void *arg)
{
if (iw_get_ext(skfd, arg, SIOCGIWAP, &wrq) < 0) {
xsg_debug("get_ap: UNKNOWN");
return NULL;
}
iw_sawap_ntop(&(wrq.u.ap_addr), buffer);
xsg_debug("get_ap: \"%s\"", buffer);
return buffer;
}
/*
* Print on the screen in a neat fashion all the info we have collected
* on a device.
*/
static void
display_info(struct wireless_info * info,
char * ifname)
{
char buffer[128]; /* Temporary buffer */
/* One token is more of less 5 characters, 14 tokens per line */
int tokens = 3; /* For name */
/* Display device name and wireless name (name of the protocol used) */
printf("%-8.16s %s ", ifname, info->b.name);
/* Display ESSID (extended network), if any */
if(info->b.has_essid)
{
if(info->b.essid_on)
{
/* Does it have an ESSID index ? */
if((info->b.essid_on & IW_ENCODE_INDEX) > 1)
printf("ESSID:\"%s\" [%d] ", info->b.essid,
(info->b.essid_on & IW_ENCODE_INDEX));
else
printf("ESSID:\"%s\" ", info->b.essid);
}
else
printf("ESSID:off/any ");
}
#ifndef WE_ESSENTIAL
/* Display NickName (station name), if any */
if(info->has_nickname)
printf("Nickname:\"%s\"", info->nickname);
#endif /* WE_ESSENTIAL */
/* Formatting */
if(info->b.has_essid || info->has_nickname)
{
printf("\n ");
tokens = 0;
}
#ifndef WE_ESSENTIAL
/* Display Network ID */
if(info->b.has_nwid)
{
/* Note : should display proper number of digits according to info
* in range structure */
if(info->b.nwid.disabled)
printf("NWID:off/any ");
else
printf("NWID:%X ", info->b.nwid.value);
tokens +=2;
}
#endif /* WE_ESSENTIAL */
/* Display the current mode of operation */
if(info->b.has_mode)
{
printf("Mode:%s ", iw_operation_mode[info->b.mode]);
tokens +=3;
}
/* Display frequency / channel */
if(info->b.has_freq)
{
double freq = info->b.freq; /* Frequency/channel */
int channel = -1; /* Converted to channel */
/* Some drivers insist of returning channel instead of frequency.
* This fixes them up. Note that, driver should still return
* frequency, because other tools depend on it. */
if(info->has_range && (freq < KILO))
channel = iw_channel_to_freq((int) freq, &freq, &info->range);
/* Display */
iw_print_freq(buffer, sizeof(buffer), freq, -1, info->b.freq_flags);
printf("%s ", buffer);
tokens +=4;
}
/* Display the address of the current Access Point */
if(info->has_ap_addr)
{
/* A bit of clever formatting */
if(tokens > 8)
{
printf("\n ");
tokens = 0;
}
tokens +=6;
/* Oups ! No Access Point in Ad-Hoc mode */
if((info->b.has_mode) && (info->b.mode == IW_MODE_ADHOC))
printf("Cell:");
else
printf("Access Point:");
printf(" %s ", iw_sawap_ntop(&info->ap_addr, buffer));
}
/* Display the currently used/set bit-rate */
if(info->has_bitrate)
{
/* A bit of clever formatting */
if(tokens > 11)
{
printf("\n ");
tokens = 0;
}
tokens +=3;
/* Display it */
iw_print_bitrate(buffer, sizeof(buffer), info->bitrate.value);
printf("Bit Rate%c%s ", (info->bitrate.fixed ? '=' : ':'), buffer);
}
#ifndef WE_ESSENTIAL
/* Display the Transmit Power */
if(info->has_txpower)
{
/* A bit of clever formatting */
if(tokens > 11)
{
printf("\n ");
tokens = 0;
}
tokens +=3;
/* Display it */
iw_print_txpower(buffer, sizeof(buffer), &info->txpower);
printf("Tx-Power%c%s ", (info->txpower.fixed ? '=' : ':'), buffer);
}
/* Display sensitivity */
if(info->has_sens)
{
/* A bit of clever formatting */
if(tokens > 10)
{
printf("\n ");
tokens = 0;
}
tokens +=4;
/* Fixed ? */
printf("Sensitivity%c", info->sens.fixed ? '=' : ':');
if(info->has_range)
/* Display in dBm ? */
if(info->sens.value < 0)
printf("%d dBm ", info->sens.value);
else
printf("%d/%d ", info->sens.value, info->range.sensitivity);
else
printf("%d ", info->sens.value);
}
#endif /* WE_ESSENTIAL */
printf("\n ");
tokens = 0;
#ifndef WE_ESSENTIAL
/* Display retry limit/lifetime information */
if(info->has_retry)
{
printf("Retry");
/* Disabled ? */
if(info->retry.disabled)
printf(":off");
else
{
/* Let's check the value and its type */
if(info->retry.flags & IW_RETRY_TYPE)
{
iw_print_retry_value(buffer, sizeof(buffer),
info->retry.value, info->retry.flags,
info->range.we_version_compiled);
printf("%s", buffer);
}
/* Let's check if nothing (simply on) */
if(info->retry.flags == IW_RETRY_ON)
printf(":on");
}
printf(" ");
tokens += 5; /* Between 3 and 5, depend on flags */
}
/* Display the RTS threshold */
if(info->has_rts)
{
/* Disabled ? */
if(info->rts.disabled)
printf("RTS thr:off ");
else
{
/* Fixed ? */
printf("RTS thr%c%d B ",
info->rts.fixed ? '=' : ':',
info->rts.value);
}
tokens += 3;
}
/* Display the fragmentation threshold */
if(info->has_frag)
{
/* A bit of clever formatting */
if(tokens > 10)
{
printf("\n ");
tokens = 0;
}
tokens +=4;
/* Disabled ? */
if(info->frag.disabled)
printf("Fragment thr:off");
else
{
/* Fixed ? */
printf("Fragment thr%c%d B ",
info->frag.fixed ? '=' : ':',
info->frag.value);
}
}
/* Formating */
if(tokens > 0)
printf("\n ");
#endif /* WE_ESSENTIAL */
/* Display encryption information */
/* Note : we display only the "current" key, use iwlist to list all keys */
if(info->b.has_key)
{
printf("Encryption key:");
if((info->b.key_flags & IW_ENCODE_DISABLED) || (info->b.key_size == 0))
printf("off");
else
{
/* Display the key */
iw_print_key(buffer, sizeof(buffer),
info->b.key, info->b.key_size, info->b.key_flags);
printf("%s", buffer);
/* Other info... */
if((info->b.key_flags & IW_ENCODE_INDEX) > 1)
printf(" [%d]", info->b.key_flags & IW_ENCODE_INDEX);
if(info->b.key_flags & IW_ENCODE_RESTRICTED)
printf(" Security mode:restricted");
if(info->b.key_flags & IW_ENCODE_OPEN)
printf(" Security mode:open");
}
printf("\n ");
}
/* Display Power Management information */
/* Note : we display only one parameter, period or timeout. If a device
* (such as HiperLan) has both, the user need to use iwlist... */
if(info->has_power) /* I hope the device has power ;-) */
{
printf("Power Management");
/* Disabled ? */
if(info->power.disabled)
printf(":off");
else
{
/* Let's check the value and its type */
if(info->power.flags & IW_POWER_TYPE)
{
iw_print_pm_value(buffer, sizeof(buffer),
info->power.value, info->power.flags,
info->range.we_version_compiled);
printf("%s ", buffer);
}
/* Let's check the mode */
iw_print_pm_mode(buffer, sizeof(buffer), info->power.flags);
printf("%s", buffer);
/* Let's check if nothing (simply on) */
if(info->power.flags == IW_POWER_ON)
printf(":on");
}
printf("\n ");
}
/* Display statistics */
if(info->has_stats)
{
iw_print_stats(buffer, sizeof(buffer),
&info->stats.qual, &info->range, info->has_range);
printf("Link %s\n", buffer);
if(info->range.we_version_compiled > 11)
printf(" Rx invalid nwid:%d Rx invalid crypt:%d Rx invalid frag:%d\n Tx excessive retries:%d Invalid misc:%d Missed beacon:%d\n",
info->stats.discard.nwid,
info->stats.discard.code,
info->stats.discard.fragment,
info->stats.discard.retries,
info->stats.discard.misc,
info->stats.miss.beacon);
else
printf(" Rx invalid nwid:%d invalid crypt:%d invalid misc:%d\n",
info->stats.discard.nwid,
info->stats.discard.code,
info->stats.discard.misc);
}
printf("\n");
}
ap_info *
wireless_parse_scanning_event(struct iw_event *event, ap_info *oldinfo)
{
ap_info *info;
/* found a new AP */
if (event->cmd==SIOCGIWAP) {
char buf[128];
info = g_new0(ap_info, 1);
info->apaddr = g_strdup(iw_sawap_ntop(&event->u.ap_addr, buf));
info->en_method = NS_WIRELESS_AUTH_OFF;
info->haskey = FALSE;
info->key_mgmt = NS_IW_IE_KEY_MGMT_NONE;
info->group = NS_IW_IE_CIPHER_TKIP;
info->pairwise = NS_IW_IE_CIPHER_TKIP;
} else {
info = oldinfo;
}
switch (event->cmd) {
case SIOCGIWESSID: /* ESSID */
if (!event->u.essid.flags
|| event->u.essid.length==0
|| strlen(event->u.essid.pointer)==0) {
info->essid = NULL;
} else {
info->essid = g_strndup(event->u.essid.pointer, event->u.essid.length);
}
break;
case IWEVQUAL: /* Signal Quality */
info->quality = (int)rint((log (event->u.qual.qual) / log (92)) * 100.0);
break;
case SIOCGIWENCODE: /* Encryption */
if (!event->u.data.pointer)
event->u.data.flags |= IW_ENCODE_NOKEY;
if (!(event->u.data.flags & IW_ENCODE_DISABLED)) {
info->haskey = TRUE;
/* assume WEP */
info->en_method = NS_WIRELESS_AUTH_WEP;
} else {
info->haskey = FALSE;
info->en_method = NS_WIRELESS_AUTH_OFF;
}
break;
case IWEVGENIE: /* Extra information */
{
int offset = 0;
int ielen = event->u.data.length;
unsigned char *iebuf = event->u.data.pointer;
while(offset <= (ielen - 2)) {
/* check IE type */
switch(iebuf[offset]) {
case 0xdd: /* WPA or else */
case 0x30: /* IEEE 802.11i/WPA2 */
wireless_gen_ie(info, iebuf, ielen);
break;
}
offset += iebuf[offset+1] + 2;
}
}
break;
}
return info;
}
/*
* Print one element from the scanning results
*/
static inline int
print_event_token(struct iw_event * event, /* Extracted token */
struct iw_range * iw_range, /* Range info */
int has_range)
{
char buffer[128]; /* Temporary buffer */
char buffer2[30]; /* Temporary buffer */
char * prefix = (IW_IS_GET(event->cmd) ? "New" : "Set");
/* Now, let's decode the event */
switch(event->cmd)
{
/* ----- set events ----- */
/* Events that result from a "SET XXX" operation by the user */
case SIOCSIWNWID:
if(event->u.nwid.disabled)
printf("Set NWID:off/any\n");
else
printf("Set NWID:%X\n", event->u.nwid.value);
break;
case SIOCSIWFREQ:
case SIOCGIWFREQ:
{
double freq; /* Frequency/channel */
int channel = -1; /* Converted to channel */
freq = iw_freq2float(&(event->u.freq));
if(has_range)
{
if(freq < KILO)
/* Convert channel to frequency if possible */
channel = iw_channel_to_freq((int) freq, &freq, iw_range);
else
/* Convert frequency to channel if possible */
channel = iw_freq_to_channel(freq, iw_range);
}
iw_print_freq(buffer, sizeof(buffer),
freq, channel, event->u.freq.flags);
printf("%s %s\n", prefix, buffer);
}
break;
case SIOCSIWMODE:
printf("Set Mode:%s\n",
iw_operation_mode[event->u.mode]);
break;
case SIOCSIWESSID:
case SIOCGIWESSID:
{
char essid[IW_ESSID_MAX_SIZE+1];
memset(essid, '\0', sizeof(essid));
if((event->u.essid.pointer) && (event->u.essid.length))
memcpy(essid, event->u.essid.pointer, event->u.essid.length);
if(event->u.essid.flags)
{
/* Does it have an ESSID index ? */
if((event->u.essid.flags & IW_ENCODE_INDEX) > 1)
printf("%s ESSID:\"%s\" [%d]\n", prefix, essid,
(event->u.essid.flags & IW_ENCODE_INDEX));
else
printf("%s ESSID:\"%s\"\n", prefix, essid);
}
else
printf("%s ESSID:off/any\n", prefix);
}
break;
case SIOCSIWENCODE:
{
unsigned char key[IW_ENCODING_TOKEN_MAX];
if(event->u.data.pointer)
memcpy(key, event->u.data.pointer, event->u.data.length);
else
event->u.data.flags |= IW_ENCODE_NOKEY;
printf("Set Encryption key:");
if(event->u.data.flags & IW_ENCODE_DISABLED)
printf("off\n");
else
{
/* Display the key */
iw_print_key(buffer, sizeof(buffer), key, event->u.data.length,
event->u.data.flags);
printf("%s", buffer);
/* Other info... */
if((event->u.data.flags & IW_ENCODE_INDEX) > 1)
printf(" [%d]", event->u.data.flags & IW_ENCODE_INDEX);
if(event->u.data.flags & IW_ENCODE_RESTRICTED)
printf(" Security mode:restricted");
if(event->u.data.flags & IW_ENCODE_OPEN)
printf(" Security mode:open");
printf("\n");
}
}
break;
/* ----- driver events ----- */
/* Events generated by the driver when something important happens */
case SIOCGIWAP:
printf("New Access Point/Cell address:%s\n",
iw_sawap_ntop(&event->u.ap_addr, buffer));
break;
case SIOCGIWSCAN:
printf("Scan request completed\n");
break;
case IWEVTXDROP:
printf("Tx packet dropped:%s\n",
iw_saether_ntop(&event->u.addr, buffer));
break;
case IWEVCUSTOM:
{
char custom[IW_CUSTOM_MAX+1];
memset(custom, '\0', sizeof(custom));
if((event->u.data.pointer) && (event->u.data.length))
memcpy(custom, event->u.data.pointer, event->u.data.length);
printf("Custom driver event:%s\n", custom);
}
break;
case IWEVREGISTERED:
printf("Registered node:%s\n",
iw_saether_ntop(&event->u.addr, buffer));
break;
case IWEVEXPIRED:
printf("Expired node:%s\n",
iw_saether_ntop(&event->u.addr, buffer));
break;
case SIOCGIWTHRSPY:
{
struct iw_thrspy threshold;
if((event->u.data.pointer) && (event->u.data.length))
{
memcpy(&threshold, event->u.data.pointer,
sizeof(struct iw_thrspy));
printf("Spy threshold crossed on address:%s\n",
iw_saether_ntop(&threshold.addr, buffer));
iw_print_stats(buffer, sizeof(buffer),
&threshold.qual, iw_range, has_range);
printf(" Link %s\n", buffer);
}
else
printf("Invalid Spy Threshold event\n");
}
break;
/* ----- driver WPA events ----- */
/* Events generated by the driver, used for WPA operation */
case IWEVMICHAELMICFAILURE:
if(event->u.data.length >= sizeof(struct iw_michaelmicfailure))
{
struct iw_michaelmicfailure mf;
memcpy(&mf, event->u.data.pointer, sizeof(mf));
printf("Michael MIC failure flags:0x%X src_addr:%s tsc:%s\n",
mf.flags,
iw_saether_ntop(&mf.src_addr, buffer2),
iw_hexdump(buffer, sizeof(buffer),
mf.tsc, IW_ENCODE_SEQ_MAX_SIZE));
}
break;
case IWEVASSOCREQIE:
printf("Association Request IEs:%s\n",
iw_hexdump(buffer, sizeof(buffer),
event->u.data.pointer, event->u.data.length));
break;
case IWEVASSOCRESPIE:
printf("Association Response IEs:%s\n",
iw_hexdump(buffer, sizeof(buffer),
event->u.data.pointer, event->u.data.length));
break;
case IWEVPMKIDCAND:
if(event->u.data.length >= sizeof(struct iw_pmkid_cand))
{
struct iw_pmkid_cand cand;
memcpy(&cand, event->u.data.pointer, sizeof(cand));
printf("PMKID candidate flags:0x%X index:%d bssid:%s\n",
cand.flags, cand.index,
iw_saether_ntop(&cand.bssid, buffer));
}
break;
/* ----- junk ----- */
/* other junk not currently in use */
case SIOCGIWRATE:
iw_print_bitrate(buffer, sizeof(buffer), event->u.bitrate.value);
printf("New Bit Rate:%s\n", buffer);
break;
case SIOCGIWNAME:
printf("Protocol:%-1.16s\n", event->u.name);
break;
case IWEVQUAL:
{
event->u.qual.updated = 0x0; /* Not that reliable, disable */
iw_print_stats(buffer, sizeof(buffer),
&event->u.qual, iw_range, has_range);
printf("Link %s\n", buffer);
break;
}
default:
printf("(Unknown Wireless event 0x%04X)\n", event->cmd);
} /* switch(event->cmd) */
return(0);
}
