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/*
* Wireless Tools
*
* Jean II - HPLB 97->99 - HPL 99->09
*
* Common subroutines to all the wireless tools...
*
* This file is released under the GPL license.
* Copyright (c) 1997-2009 Jean Tourrilhes <jt@hpl.hp.com>
*/
/***************************** INCLUDES *****************************/
#include "iwlib-private.h" /* Private header */
/************************ CONSTANTS & MACROS ************************/
/*
* Constants fof WE-9->15
*/
#define IW15_MAX_FREQUENCIES 16
#define IW15_MAX_BITRATES 8
#define IW15_MAX_TXPOWER 8
#define IW15_MAX_ENCODING_SIZES 8
#define IW15_MAX_SPY 8
#define IW15_MAX_AP 8
/****************************** TYPES ******************************/
/*
* Struct iw_range up to WE-15
*/
struct iw15_range
{
__u32 throughput;
__u32 min_nwid;
__u32 max_nwid;
__u16 num_channels;
__u8 num_frequency;
struct iw_freq freq[IW15_MAX_FREQUENCIES];
__s32 sensitivity;
struct iw_quality max_qual;
__u8 num_bitrates;
__s32 bitrate[IW15_MAX_BITRATES];
__s32 min_rts;
__s32 max_rts;
__s32 min_frag;
__s32 max_frag;
__s32 min_pmp;
__s32 max_pmp;
__s32 min_pmt;
__s32 max_pmt;
__u16 pmp_flags;
__u16 pmt_flags;
__u16 pm_capa;
__u16 encoding_size[IW15_MAX_ENCODING_SIZES];
__u8 num_encoding_sizes;
__u8 max_encoding_tokens;
__u16 txpower_capa;
__u8 num_txpower;
__s32 txpower[IW15_MAX_TXPOWER];
__u8 we_version_compiled;
__u8 we_version_source;
__u16 retry_capa;
__u16 retry_flags;
__u16 r_time_flags;
__s32 min_retry;
__s32 max_retry;
__s32 min_r_time;
__s32 max_r_time;
struct iw_quality avg_qual;
};
/*
* Union for all the versions of iwrange.
* Fortunately, I mostly only add fields at the end, and big-bang
* reorganisations are few.
*/
union iw_range_raw
{
struct iw15_range range15; /* WE 9->15 */
struct iw_range range; /* WE 16->current */
};
/*
* Offsets in iw_range struct
*/
#define iwr15_off(f) ( ((char *) &(((struct iw15_range *) NULL)->f)) - \
(char *) NULL)
#define iwr_off(f) ( ((char *) &(((struct iw_range *) NULL)->f)) - \
(char *) NULL)
/*
* Union to perform unaligned access when working around alignement issues
*/
union iw_align_u16
{
__u16 value;
unsigned char byte[2];
};
/**************************** VARIABLES ****************************/
/* Modes as human readable strings */
const char * const iw_operation_mode[] = { "Auto",
"Ad-Hoc",
"Managed",
"Master",
"Repeater",
"Secondary",
"Monitor",
"Unknown/bug" };
/* Modulations as human readable strings */
const struct iw_modul_descr iw_modul_list[] = {
/* Start with aggregate types, so that they display first */
{ IW_MODUL_11AG, "11ag",
"IEEE 802.11a + 802.11g (2.4 & 5 GHz, up to 54 Mb/s)" },
{ IW_MODUL_11AB, "11ab",
"IEEE 802.11a + 802.11b (2.4 & 5 GHz, up to 54 Mb/s)" },
{ IW_MODUL_11G, "11g", "IEEE 802.11g (2.4 GHz, up to 54 Mb/s)" },
{ IW_MODUL_11A, "11a", "IEEE 802.11a (5 GHz, up to 54 Mb/s)" },
{ IW_MODUL_11B, "11b", "IEEE 802.11b (2.4 GHz, up to 11 Mb/s)" },
/* Proprietary aggregates */
{ IW_MODUL_TURBO | IW_MODUL_11A, "turboa",
"Atheros turbo mode at 5 GHz (up to 108 Mb/s)" },
{ IW_MODUL_TURBO | IW_MODUL_11G, "turbog",
"Atheros turbo mode at 2.4 GHz (up to 108 Mb/s)" },
{ IW_MODUL_PBCC | IW_MODUL_11B, "11+",
"TI 802.11+ (2.4 GHz, up to 22 Mb/s)" },
/* Individual modulations */
{ IW_MODUL_OFDM_G, "OFDMg",
"802.11g higher rates, OFDM at 2.4 GHz (up to 54 Mb/s)" },
{ IW_MODUL_OFDM_A, "OFDMa", "802.11a, OFDM at 5 GHz (up to 54 Mb/s)" },
{ IW_MODUL_CCK, "CCK", "802.11b higher rates (2.4 GHz, up to 11 Mb/s)" },
{ IW_MODUL_DS, "DS", "802.11 Direct Sequence (2.4 GHz, up to 2 Mb/s)" },
{ IW_MODUL_FH, "FH", "802.11 Frequency Hopping (2,4 GHz, up to 2 Mb/s)" },
/* Proprietary modulations */
{ IW_MODUL_TURBO, "turbo",
"Atheros turbo mode, channel bonding (up to 108 Mb/s)" },
{ IW_MODUL_PBCC, "PBCC",
"TI 802.11+ higher rates (2.4 GHz, up to 22 Mb/s)" },
{ IW_MODUL_CUSTOM, "custom",
"Driver specific modulation (check driver documentation)" },
};
/* Disable runtime version warning in iw_get_range_info() */
int iw_ignore_version = 0;
/************************ SOCKET SUBROUTINES *************************/
/*------------------------------------------------------------------*/
/*
* Open a socket.
* Depending on the protocol present, open the right socket. The socket
* will allow us to talk to the driver.
*/
int
iw_sockets_open(void)
{
static const int families[] = {
AF_INET, AF_IPX, AF_AX25, AF_APPLETALK
};
unsigned int i;
int sock;
/*
* Now pick any (exisiting) useful socket family for generic queries
* Note : don't open all the socket, only returns when one matches,
* all protocols might not be valid.
* Workaround by Jim Kaba <jkaba@sarnoff.com>
* Note : in 99% of the case, we will just open the inet_sock.
* The remaining 1% case are not fully correct...
*/
/* Try all families we support */
for(i = 0; i < sizeof(families)/sizeof(int); ++i)
{
/* Try to open the socket, if success returns it */
sock = socket(families[i], SOCK_DGRAM, 0);
if(sock >= 0)
return sock;
}
return -1;
}
/*------------------------------------------------------------------*/
/*
* Extract the interface name out of /proc/net/wireless or /proc/net/dev.
*/
static inline char *
iw_get_ifname(char * name, /* Where to store the name */
int nsize, /* Size of name buffer */
char * buf) /* Current position in buffer */
{
char * end;
/* Skip leading spaces */
while(isspace(*buf))
buf++;
#ifndef IW_RESTRIC_ENUM
/* Get name up to the last ':'. Aliases may contain ':' in them,
* but the last one should be the separator */
end = strrchr(buf, ':');
#else
/* Get name up to ": "
* Note : we compare to ": " to make sure to process aliased interfaces
* properly. Doesn't work on /proc/net/dev, because it doesn't guarantee
* a ' ' after the ':'*/
end = strstr(buf, ": ");
#endif
/* Not found ??? To big ??? */
if((end == NULL) || (((end - buf) + 1) > nsize))
return(NULL);
/* Copy */
memcpy(name, buf, (end - buf));
name[end - buf] = '\0';
/* Return value currently unused, just make sure it's non-NULL */
return(end);
}
/*------------------------------------------------------------------*/
/*
* Enumerate devices and call specified routine
* The new way just use /proc/net/wireless, so get all wireless interfaces,
* whether configured or not. This is the default if available.
* The old way use SIOCGIFCONF, so get only configured interfaces (wireless
* or not).
*/
void
iw_enum_devices(int skfd,
iw_enum_handler fn,
char * args[],
int count)
{
char buff[1024];
FILE * fh;
struct ifconf ifc;
struct ifreq *ifr;
int i;
#ifndef IW_RESTRIC_ENUM
/* Check if /proc/net/dev is available */
fh = fopen(PROC_NET_DEV, "r");
#else
/* Check if /proc/net/wireless is available */
fh = fopen(PROC_NET_WIRELESS, "r");
#endif
if(fh != NULL)
{
/* Success : use data from /proc/net/wireless */
/* Eat 2 lines of header */
fgets(buff, sizeof(buff), fh);
fgets(buff, sizeof(buff), fh);
/* Read each device line */
while(fgets(buff, sizeof(buff), fh))
{
char name[IFNAMSIZ + 1];
char *s;
/* Skip empty or almost empty lines. It seems that in some
* cases fgets return a line with only a newline. */
if((buff[0] == '\0') || (buff[1] == '\0'))
continue;
/* Extract interface name */
s = iw_get_ifname(name, sizeof(name), buff);
if(!s)
{
/* Failed to parse, complain and continue */
#ifndef IW_RESTRIC_ENUM
fprintf(stderr, "Cannot parse " PROC_NET_DEV "\n");
#else
fprintf(stderr, "Cannot parse " PROC_NET_WIRELESS "\n");
#endif
}
else
/* Got it, print info about this interface */
(*fn)(skfd, name, args, count);
}
fclose(fh);
}
else
{
/* Get list of configured devices using "traditional" way */
ifc.ifc_len = sizeof(buff);
ifc.ifc_buf = buff;
if(ioctl(skfd, SIOCGIFCONF, &ifc) < 0)
{
fprintf(stderr, "SIOCGIFCONF: %s\n", strerror(errno));
return;
}
ifr = ifc.ifc_req;
/* Print them */
for(i = ifc.ifc_len / sizeof(struct ifreq); --i >= 0; ifr++)
(*fn)(skfd, ifr->ifr_name, args, count);
}
}
/*********************** WIRELESS SUBROUTINES ************************/
/*------------------------------------------------------------------*/
/*
* Extract WE version number from /proc/net/wireless
* In most cases, you really want to get version information from
* the range info (range->we_version_compiled), see below...
*
* If we have WE-16 and later, the WE version is available at the
* end of the header line of the file.
* For version prior to that, we can only detect the change from
* v11 to v12, so we do an approximate job. Fortunately, v12 to v15
* are highly binary compatible (on the struct level).
*/
int
iw_get_kernel_we_version(void)
{
char buff[1024];
FILE * fh;
char * p;
int v;
/* Check if /proc/net/wireless is available */
fh = fopen(PROC_NET_WIRELESS, "r");
if(fh == NULL)
{
fprintf(stderr, "Cannot read " PROC_NET_WIRELESS "\n");
return(-1);
}
/* Read the first line of buffer */
fgets(buff, sizeof(buff), fh);
if(strstr(buff, "| WE") == NULL)
{
/* Prior to WE16, so explicit version not present */
/* Black magic */
if(strstr(buff, "| Missed") == NULL)
v = 11;
else
v = 15;
fclose(fh);
return(v);
}
/* Read the second line of buffer */
fgets(buff, sizeof(buff), fh);
/* Get to the last separator, to get the version */
p = strrchr(buff, '|');
if((p == NULL) || (sscanf(p + 1, "%d", &v) != 1))
{
fprintf(stderr, "Cannot parse " PROC_NET_WIRELESS "\n");
fclose(fh);
return(-1);
}
fclose(fh);
return(v);
}
/*------------------------------------------------------------------*/
/*
* Print the WE versions of the interface.
*/
static int
print_iface_version_info(int skfd,
char * ifname,
char * args[], /* Command line args */
int count) /* Args count */
{
struct iwreq wrq;
char buffer[sizeof(iwrange) * 2]; /* Large enough */
struct iw_range * range;
/* Avoid "Unused parameter" warning */
args = args; count = count;
/* If no wireless name : no wireless extensions.
* This enable us to treat the SIOCGIWRANGE failure below properly. */
if(iw_get_ext(skfd, ifname, SIOCGIWNAME, &wrq) < 0)
return(-1);
/* Cleanup */
memset(buffer, 0, sizeof(buffer));
wrq.u.data.pointer = (caddr_t) buffer;
wrq.u.data.length = sizeof(buffer);
wrq.u.data.flags = 0;
if(iw_get_ext(skfd, ifname, SIOCGIWRANGE, &wrq) < 0)
{
/* Interface support WE (see above), but not IWRANGE */
fprintf(stderr, "%-8.16s Driver has no Wireless Extension version information.\n\n", ifname);
return(0);
}
/* Copy stuff at the right place, ignore extra */
range = (struct iw_range *) buffer;
/* For new versions, we can check the version directly, for old versions
* we use magic. 300 bytes is a also magic number, don't touch... */
if(wrq.u.data.length >= 300)
{
/* Version is always at the same offset, so it's ok */
printf("%-8.16s Recommend Wireless Extension v%d or later,\n",
ifname, range->we_version_source);
printf(" Currently compiled with Wireless Extension v%d.\n\n",
range->we_version_compiled);
}
else
{
fprintf(stderr, "%-8.16s Wireless Extension version too old.\n\n",
ifname);
}
return(0);
}
/*------------------------------------------------------------------*/
/*
* Print the WE versions of the tools.
*/
int
iw_print_version_info(const char * toolname)
{
int skfd; /* generic raw socket desc. */
int we_kernel_version;
/* Create a channel to the NET kernel. */
if((skfd = iw_sockets_open()) < 0)
{
perror("socket");
return -1;
}
/* Information about the tools themselves */
if(toolname != NULL)
printf("%-8.16s Wireless-Tools version %d\n", toolname, WT_VERSION);
printf(" Compatible with Wireless Extension v11 to v%d.\n\n",
WE_MAX_VERSION);
/* Get version from kernel */
we_kernel_version = iw_get_kernel_we_version();
/* Only version >= 16 can be verified, other are guessed */
if(we_kernel_version > 15)
printf("Kernel Currently compiled with Wireless Extension v%d.\n\n",
we_kernel_version);
/* Version for each device */
iw_enum_devices(skfd, &print_iface_version_info, NULL, 0);
iw_sockets_close(skfd);
return 0;
}
/*------------------------------------------------------------------*/
/*
* Get the range information out of the driver
*/
int
iw_get_range_info(int skfd,
const char * ifname,
iwrange * range)
{
struct iwreq wrq;
char buffer[sizeof(iwrange) * 2]; /* Large enough */
union iw_range_raw * range_raw;
/* Cleanup */
bzero(buffer, sizeof(buffer));
wrq.u.data.pointer = (caddr_t) buffer;
wrq.u.data.length = sizeof(buffer);
wrq.u.data.flags = 0;
if(iw_get_ext(skfd, ifname, SIOCGIWRANGE, &wrq) < 0)
return(-1);
/* Point to the buffer */
range_raw = (union iw_range_raw *) buffer;
/* For new versions, we can check the version directly, for old versions
* we use magic. 300 bytes is a also magic number, don't touch... */
if(wrq.u.data.length < 300)
{
/* That's v10 or earlier. Ouch ! Let's make a guess...*/
range_raw->range.we_version_compiled = 9;
}
/* Check how it needs to be processed */
if(range_raw->range.we_version_compiled > 15)
{
/* This is our native format, that's easy... */
/* Copy stuff at the right place, ignore extra */
memcpy((char *) range, buffer, sizeof(iwrange));
}
else
{
/* Zero unknown fields */
bzero((char *) range, sizeof(struct iw_range));
/* Initial part unmoved */
memcpy((char *) range,
buffer,
iwr15_off(num_channels));
/* Frequencies pushed futher down towards the end */
memcpy((char *) range + iwr_off(num_channels),
buffer + iwr15_off(num_channels),
iwr15_off(sensitivity) - iwr15_off(num_channels));
/* This one moved up */
memcpy((char *) range + iwr_off(sensitivity),
buffer + iwr15_off(sensitivity),
iwr15_off(num_bitrates) - iwr15_off(sensitivity));
/* This one goes after avg_qual */
memcpy((char *) range + iwr_off(num_bitrates),
buffer + iwr15_off(num_bitrates),
iwr15_off(min_rts) - iwr15_off(num_bitrates));
/* Number of bitrates has changed, put it after */
memcpy((char *) range + iwr_off(min_rts),
buffer + iwr15_off(min_rts),
iwr15_off(txpower_capa) - iwr15_off(min_rts));
/* Added encoding_login_index, put it after */
memcpy((char *) range + iwr_off(txpower_capa),
buffer + iwr15_off(txpower_capa),
iwr15_off(txpower) - iwr15_off(txpower_capa));
/* Hum... That's an unexpected glitch. Bummer. */
memcpy((char *) range + iwr_off(txpower),
buffer + iwr15_off(txpower),
iwr15_off(avg_qual) - iwr15_off(txpower));
/* Avg qual moved up next to max_qual */
memcpy((char *) range + iwr_off(avg_qual),
buffer + iwr15_off(avg_qual),
sizeof(struct iw_quality));
}
/* We are now checking much less than we used to do, because we can
* accomodate more WE version. But, there are still cases where things
* will break... */
if(!iw_ignore_version)
{
/* We don't like very old version (unfortunately kernel 2.2.X) */
if(range->we_version_compiled <= 10)
{
fprintf(stderr, "Warning: Driver for device %s has been compiled with an ancient version\n", ifname);
fprintf(stderr, "of Wireless Extension, while this program support version 11 and later.\n");
fprintf(stderr, "Some things may be broken...\n\n");
}
/* We don't like future versions of WE, because we can't cope with
* the unknown */
if(range->we_version_compiled > WE_MAX_VERSION)
{
fprintf(stderr, "Warning: Driver for device %s has been compiled with version %d\n", ifname, range->we_version_compiled);
fprintf(stderr, "of Wireless Extension, while this program supports up to version %d.\n", WE_MAX_VERSION);
fprintf(stderr, "Some things may be broken...\n\n");
}
/* Driver version verification */
if((range->we_version_compiled > 10) &&
(range->we_version_compiled < range->we_version_source))
{
fprintf(stderr, "Warning: Driver for device %s recommend version %d of Wireless Extension,\n", ifname, range->we_version_source);
fprintf(stderr, "but has been compiled with version %d, therefore some driver features\n", range->we_version_compiled);
fprintf(stderr, "may not be available...\n\n");
}
/* Note : we are only trying to catch compile difference, not source.
* If the driver source has not been updated to the latest, it doesn't
* matter because the new fields are set to zero */
}
/* Don't complain twice.
* In theory, the test apply to each individual driver, but usually
* all drivers are compiled from the same kernel. */
iw_ignore_version = 1;
return(0);
}
/*------------------------------------------------------------------*/
/*
* Get information about what private ioctls are supported by the driver
*
* Note : there is one danger using this function. If it return 0, you
* still need to free() the buffer. Beware.
*/
int
iw_get_priv_info(int skfd,
const char * ifname,
iwprivargs ** ppriv)
{
struct iwreq wrq;
iwprivargs * priv = NULL; /* Not allocated yet */
int maxpriv = 16; /* Minimum for compatibility WE<13 */
iwprivargs * newpriv;
/* Some driver may return a very large number of ioctls. Some
* others a very small number. We now use a dynamic allocation
* of the array to satisfy everybody. Of course, as we don't know
* in advance the size of the array, we try various increasing
* sizes. Jean II */
do
{
/* (Re)allocate the buffer */
newpriv = realloc(priv, maxpriv * sizeof(priv[0]));
if(newpriv == NULL)
{
fprintf(stderr, "%s: Allocation failed\n", __FUNCTION__);
break;
}
priv = newpriv;
/* Ask the driver if it's large enough */
wrq.u.data.pointer = (caddr_t) priv;
wrq.u.data.length = maxpriv;
wrq.u.data.flags = 0;
if(iw_get_ext(skfd, ifname, SIOCGIWPRIV, &wrq) >= 0)
{
/* Success. Pass the buffer by pointer */
*ppriv = priv;
/* Return the number of ioctls */
return(wrq.u.data.length);
}
/* Only E2BIG means the buffer was too small, abort on other errors */
if(errno != E2BIG)
{
/* Most likely "not supported". Don't barf. */
break;
}
/* Failed. We probably need a bigger buffer. Check if the kernel
* gave us any hints. */
if(wrq.u.data.length > maxpriv)
maxpriv = wrq.u.data.length;
else
maxpriv *= 2;
}
while(maxpriv < 1000);
/* Cleanup */
if(priv)
free(priv);
*ppriv = NULL;
return(-1);
}
/*------------------------------------------------------------------*/
/*
* Get essential wireless config from the device driver
* We will call all the classical wireless ioctl on the driver through
* the socket to know what is supported and to get the settings...
* Note : compare to the version in iwconfig, we extract only
* what's *really* needed to configure a device...
*/
int
iw_get_basic_config(int skfd,
const char * ifname,
wireless_config * info)
{
struct iwreq wrq;
memset((char *) &wrq, 0, sizeof(struct iwreq));
memset((char *) info, 0, sizeof(struct wireless_config));
/* Get wireless name */
if(iw_get_ext(skfd, ifname, SIOCGIWNAME, &wrq) < 0)
/* If no wireless name : no wireless extensions */
return(-1);
else
{
strncpy(info->name, wrq.u.name, IFNAMSIZ);
info->name[IFNAMSIZ] = '\0';
}
/* Get network ID */
if(iw_get_ext(skfd, ifname, SIOCGIWNWID, &wrq) >= 0)
{
info->has_nwid = 1;
memcpy(&(info->nwid), &(wrq.u.nwid), sizeof(iwparam));
}
/* Get frequency / channel */
if(iw_get_ext(skfd, ifname, SIOCGIWFREQ, &wrq) >= 0)
{
info->has_freq = 1;
info->freq = iw_freq2float(&(wrq.u.freq));
info->freq_flags = wrq.u.freq.flags;
}
/* Get encryption information */
wrq.u.data.pointer = (caddr_t) info->key;
wrq.u.data.length = IW_ENCODING_TOKEN_MAX;
wrq.u.data.flags = 0;
if(iw_get_ext(skfd, ifname, SIOCGIWENCODE, &wrq) >= 0)
{
info->has_key = 1;
info->key_size = wrq.u.data.length;
info->key_flags = wrq.u.data.flags;
}
/* Get ESSID */
wrq.u.essid.pointer = (caddr_t) info->essid;
wrq.u.essid.length = IW_ESSID_MAX_SIZE + 2;
wrq.u.essid.flags = 0;
if(iw_get_ext(skfd, ifname, SIOCGIWESSID, &wrq) >= 0)
{
info->has_essid = 1;
info->essid_on = wrq.u.data.flags;
info->essid_len = wrq.u.essid.length;
}
/* Get operation mode */
if(iw_get_ext(skfd, ifname, SIOCGIWMODE, &wrq) >= 0)
{
info->has_mode = 1;
/* Note : event->u.mode is unsigned, no need to check <= 0 */
if(wrq.u.mode < IW_NUM_OPER_MODE)
info->mode = wrq.u.mode;
else
info->mode = IW_NUM_OPER_MODE; /* Unknown/bug */
}
return(0);
}
/*------------------------------------------------------------------*/
/*
* Set essential wireless config in the device driver
* We will call all the classical wireless ioctl on the driver through
* the socket to know what is supported and to set the settings...
* We support only the restricted set as above...
*/
int
iw_set_basic_config(int skfd,
const char * ifname,
wireless_config * info)
{
struct iwreq wrq;
int ret = 0;
/* Get wireless name (check if interface is valid) */
if(iw_get_ext(skfd, ifname, SIOCGIWNAME, &wrq) < 0)
/* If no wireless name : no wireless extensions */
return(-2);
/* Set the current mode of operation
* Mode need to be first : some settings apply only in a specific mode
* (such as frequency).
*/
if(info->has_mode)
{
strncpy(wrq.ifr_name, ifname, IFNAMSIZ);
wrq.u.mode = info->mode;
if(iw_get_ext(skfd, ifname, SIOCSIWMODE, &wrq) < 0)
{
fprintf(stderr, "SIOCSIWMODE: %s\n", strerror(errno));
ret = -1;
}
}
/* Set frequency / channel */
if(info->has_freq)
{
iw_float2freq(info->freq, &(wrq.u.freq));
if(iw_set_ext(skfd, ifname, SIOCSIWFREQ, &wrq) < 0)
{
fprintf(stderr, "SIOCSIWFREQ: %s\n", strerror(errno));
ret = -1;
}
}
/* Set encryption information */
if(info->has_key)
{
int flags = info->key_flags;
/* Check if there is a key index */
if((flags & IW_ENCODE_INDEX) > 0)
{
/* Set the index */
wrq.u.data.pointer = (caddr_t) NULL;
wrq.u.data.flags = (flags & (IW_ENCODE_INDEX)) | IW_ENCODE_NOKEY;
wrq.u.data.length = 0;
if(iw_set_ext(skfd, ifname, SIOCSIWENCODE, &wrq) < 0)
{
fprintf(stderr, "SIOCSIWENCODE(%d): %s\n",
errno, strerror(errno));
ret = -1;
}
}
/* Mask out index to minimise probability of reject when setting key */
flags = flags & (~IW_ENCODE_INDEX);
/* Set the key itself (set current key in this case) */
wrq.u.data.pointer = (caddr_t) info->key;
wrq.u.data.length = info->key_size;
wrq.u.data.flags = flags;
/* Compatibility with WE<13 */
if(flags & IW_ENCODE_NOKEY)
wrq.u.data.pointer = NULL;
if(iw_set_ext(skfd, ifname, SIOCSIWENCODE, &wrq) < 0)
{
fprintf(stderr, "SIOCSIWENCODE(%d): %s\n",
errno, strerror(errno));
ret = -1;
}
}
/* Set Network ID, if available (this is for non-802.11 cards) */
if(info->has_nwid)
{
memcpy(&(wrq.u.nwid), &(info->nwid), sizeof(iwparam));
wrq.u.nwid.fixed = 1; /* Hum... When in Rome... */
if(iw_set_ext(skfd, ifname, SIOCSIWNWID, &wrq) < 0)
{
fprintf(stderr, "SIOCSIWNWID: %s\n", strerror(errno));
ret = -1;
}
}
/* Set ESSID (extended network), if available.
* ESSID need to be last : most device re-perform the scanning/discovery
* when this is set, and things like encryption keys are better be
* defined if we want to discover the right set of APs/nodes.
*/
if(info->has_essid)
{
int we_kernel_version;
we_kernel_version = iw_get_kernel_we_version();
wrq.u.essid.pointer = (caddr_t) info->essid;
wrq.u.essid.length = strlen(info->essid);
wrq.u.data.flags = info->essid_on;
if(we_kernel_version < 21)
wrq.u.essid.length++;
if(iw_set_ext(skfd, ifname, SIOCSIWESSID, &wrq) < 0)
{
fprintf(stderr, "SIOCSIWESSID: %s\n", strerror(errno));
ret = -1;
}
}
return(ret);
}
/*********************** PROTOCOL SUBROUTINES ***********************/
/*
* Fun stuff with protocol identifiers (SIOCGIWNAME).
* We assume that drivers are returning sensible values in there,
* which is not always the case :-(
*/
/*------------------------------------------------------------------*/
/*
* Compare protocol identifiers.
* We don't want to know if the two protocols are the exactly same,
* but if they interoperate at some level, and also if they accept the
* same type of config (ESSID vs NWID, freq...).
* This is supposed to work around the alphabet soup.
* Return 1 if protocols are compatible, 0 otherwise
*/
int
iw_protocol_compare(const char * protocol1,
const char * protocol2)
{
const char * dot11 = "IEEE 802.11";
const char * dot11_ds = "Dbg";
const char * dot11_5g = "a";
/* If the strings are the same -> easy */
if(!strncmp(protocol1, protocol2, IFNAMSIZ))
return(1);
/* Are we dealing with one of the 802.11 variant ? */
if( (!strncmp(protocol1, dot11, strlen(dot11))) &&
(!strncmp(protocol2, dot11, strlen(dot11))) )
{
const char * sub1 = protocol1 + strlen(dot11);
const char * sub2 = protocol2 + strlen(dot11);
unsigned int i;
int isds1 = 0;
int isds2 = 0;
int is5g1 = 0;
int is5g2 = 0;
/* Check if we find the magic letters telling it's DS compatible */
for(i = 0; i < strlen(dot11_ds); i++)
{
if(strchr(sub1, dot11_ds[i]) != NULL)
isds1 = 1;
if(strchr(sub2, dot11_ds[i]) != NULL)
isds2 = 1;
}
if(isds1 && isds2)
return(1);
/* Check if we find the magic letters telling it's 5GHz compatible */
for(i = 0; i < strlen(dot11_5g); i++)
{
if(strchr(sub1, dot11_5g[i]) != NULL)
is5g1 = 1;
if(strchr(sub2, dot11_5g[i]) != NULL)
is5g2 = 1;
}
if(is5g1 && is5g2)
return(1);
}
/* Not compatible */
return(0);
}
/************************ ESSID SUBROUTINES ************************/
/*
* The ESSID identify 802.11 networks, and is an array if 32 bytes.
* Most people use it as an ASCII string, and are happy with it.
* However, any byte is valid, including the NUL character. Characters
* beyond the ASCII range are interpreted according to the locale and
* the OS, which is somethign we don't control (network of other
* people).
* Routines in here try to deal with that in asafe way.
*/
/*------------------------------------------------------------------*/
/*
* Escape non-ASCII characters from ESSID.
* This allow us to display those weirds characters to the user.
*
* Source is 32 bytes max.
* Destination buffer needs to be at least 129 bytes, will be NUL
* terminated.
*/
void
iw_essid_escape(char * dest,
const char * src,
const int slen)
{
const unsigned char * s = (const unsigned char *) src;
const unsigned char * e = s + slen;
char * d = dest;
/* Look every character of the string */
while(s < e)
{
int isescape;
/* Escape the escape to avoid ambiguity.
* We do a fast path test for performance reason. Compiler will
* optimise all that ;-) */
if(*s == '\\')
{
/* Check if we would confuse it with an escape sequence */
if((e-s) > 4 && (s[1] == 'x')
&& (isxdigit(s[2])) && (isxdigit(s[3])))
{
isescape = 1;
}
else
isescape = 0;
}
else
isescape = 0;
/* Is it a non-ASCII character ??? */
if(isescape || !isascii(*s) || iscntrl(*s))
{
/* Escape */
sprintf(d, "\\x%02X", *s);
d += 4;
}
else
{
/* Plain ASCII, just copy */
*d = *s;
d++;
}
s++;
}
/* NUL terminate destination */
*d = '\0';
}
/* ---------------------------------------------------------------- */
/*
* Un-Escape non-ASCII characters from ESSID
* This allow the user to specify weird characters in ESSID.
*
* The source is a NUL terminated string.
* Destination buffer is at least the size of source (ESSID will shrink)
* Destination may contains NUL, therefore we return the length.
* This function still works is src and dest are the same ;-)
*/
int
iw_essid_unescape(char * dest,
const char * src)
{
const char * s = src;
char * d = dest;
char * p;
int len;
/* Look-up the next '\' sequence, stop when no more */
while((p = strchr(s, '\\')) != NULL)
{
/* Copy block of unescaped chars before the '\' */
len = p - s;
memcpy(d, s, len);
d += len;
s += len; /* Identical to 's = p' */
/* Check if it is really an escape sequence. We do also check for NUL */
if((s[1] == 'x') && (isxdigit(s[2])) && (isxdigit(s[3])))
{
unsigned int temp;
/* Valid Escape sequence, un-escape it */
sscanf(s + 2, "%2X", &temp);
*d = temp;
d++;
s+=4;
}
else
{
/* Not valid, don't un-escape it */
*d = *s;
d++;
s++;
}
}
/* Copy remaining of the string */
len = strlen(s);
memcpy(d, s, len + 1);
/* Return length */
return((d - dest) + len);
}
/********************** FREQUENCY SUBROUTINES ***********************/
/*
* Note : the two functions below are the cause of troubles on
* various embeeded platforms, as they are the reason we require
* libm (math library).
* In this case, please use enable BUILD_NOLIBM in the makefile
*
* FIXME : check negative mantissa and exponent
*/
/*------------------------------------------------------------------*/
/*
* Convert a floating point the our internal representation of
* frequencies.
* The kernel doesn't want to hear about floating point, so we use
* this custom format instead.
*/
void
iw_float2freq(double in,
iwfreq * out)
{
#ifdef WE_NOLIBM
/* Version without libm : slower */
out->e = 0;
while(in > 1e9)
{
in /= 10;
out->e++;
}
out->m = (long) in;
#else /* WE_NOLIBM */
/* Version with libm : faster */
out->e = (short) (floor(log10(in)));
if(out->e > 8)
{
out->m = ((long) (floor(in / pow(10,out->e - 6)))) * 100;
out->e -= 8;
}
else
{
out->m = (long) in;
out->e = 0;
}
#endif /* WE_NOLIBM */
}
/*------------------------------------------------------------------*/
/*
* Convert our internal representation of frequencies to a floating point.
*/
double
iw_freq2float(const iwfreq * in)
{
#ifdef WE_NOLIBM
/* Version without libm : slower */
int i;
double res = (double) in->m;
for(i = 0; i < in->e; i++)
res *= 10;
return(res);
#else /* WE_NOLIBM */
/* Version with libm : faster */
return ((double) in->m) * pow(10,in->e);
#endif /* WE_NOLIBM */
}
/*------------------------------------------------------------------*/
/*
* Output a frequency with proper scaling
*/
void
iw_print_freq_value(char * buffer,
int buflen,
double freq)
{
if(freq < KILO)
snprintf(buffer, buflen, "%g", freq);
else
{
char scale;
int divisor;
if(freq >= GIGA)
{
scale = 'G';
divisor = GIGA;
}
else
{
if(freq >= MEGA)
{
scale = 'M';
divisor = MEGA;
}
else
{
scale = 'k';
divisor = KILO;
}
}
snprintf(buffer, buflen, "%g %cHz", freq / divisor, scale);
}
}
/*------------------------------------------------------------------*/
/*
* Output a frequency with proper scaling
*/
void
iw_print_freq(char * buffer,
int buflen,
double freq,
int channel,
int freq_flags)
{
char sep = ((freq_flags & IW_FREQ_FIXED) ? '=' : ':');
char vbuf[16];
/* Print the frequency/channel value */
iw_print_freq_value(vbuf, sizeof(vbuf), freq);
/* Check if channel only */
if(freq < KILO)
snprintf(buffer, buflen, "Channel%c%s", sep, vbuf);
else
{
/* Frequency. Check if we have a channel as well */
if(channel >= 0)
snprintf(buffer, buflen, "Frequency%c%s (Channel %d)",
sep, vbuf, channel);
else
snprintf(buffer, buflen, "Frequency%c%s", sep, vbuf);
}
}
/*------------------------------------------------------------------*/
/*
* Convert a frequency to a channel (negative -> error)
*/
int
iw_freq_to_channel(double freq,
const struct iw_range * range)
{
double ref_freq;
int k;
/* Check if it's a frequency or not already a channel */
if(freq < KILO)
return(-1);
/* We compare the frequencies as double to ignore differences
* in encoding. Slower, but safer... */
for(k = 0; k < range->num_frequency; k++)
{
ref_freq = iw_freq2float(&(range->freq[k]));
if(freq == ref_freq)
return(range->freq[k].i);
}
/* Not found */
return(-2);
}
/*------------------------------------------------------------------*/
/*
* Convert a channel to a frequency (negative -> error)
* Return the channel on success
*/
int
iw_channel_to_freq(int channel,
double * pfreq,
const struct iw_range * range)
{
int has_freq = 0;
int k;
/* Check if the driver support only channels or if it has frequencies */
for(k = 0; k < range->num_frequency; k++)
{
if((range->freq[k].e != 0) || (range->freq[k].m > (int) KILO))
has_freq = 1;
}
if(!has_freq)
return(-1);
/* Find the correct frequency in the list */
for(k = 0; k < range->num_frequency; k++)
{
if(range->freq[k].i == channel)
{
*pfreq = iw_freq2float(&(range->freq[k]));
return(channel);
}
}
/* Not found */
return(-2);
}
/*********************** BITRATE SUBROUTINES ***********************/
/*------------------------------------------------------------------*/
/*
* Output a bitrate with proper scaling
*/
void
iw_print_bitrate(char * buffer,
int buflen,
int bitrate)
{
double rate = bitrate;
char scale;
int divisor;
if(rate >= GIGA)
{
scale = 'G';
divisor = GIGA;
}
else
{
if(rate >= MEGA)
{
scale = 'M';
divisor = MEGA;
}
else
{
scale = 'k';
divisor = KILO;
}
}
snprintf(buffer, buflen, "%g %cb/s", rate / divisor, scale);
}
/************************ POWER SUBROUTINES *************************/
/*------------------------------------------------------------------*/
/*
* Convert a value in dBm to a value in milliWatt.
*/
int
iw_dbm2mwatt(int in)
{
#ifdef WE_NOLIBM
/* Version without libm : slower */
int ip = in / 10;
int fp = in % 10;
int k;
double res = 1.0;
/* Split integral and floating part to avoid accumulating rounding errors */
for(k = 0; k < ip; k++)
res *= 10;
for(k = 0; k < fp; k++)
res *= LOG10_MAGIC;
return((int) res);
#else /* WE_NOLIBM */
/* Version with libm : faster */
return((int) (floor(pow(10.0, (((double) in) / 10.0)))));
#endif /* WE_NOLIBM */
}
/*------------------------------------------------------------------*/
/*
* Convert a value in milliWatt to a value in dBm.
*/
int
iw_mwatt2dbm(int in)
{
#ifdef WE_NOLIBM
/* Version without libm : slower */
double fin = (double) in;
int res = 0;
/* Split integral and floating part to avoid accumulating rounding errors */
while(fin > 10.0)
{
res += 10;
fin /= 10.0;
}
while(fin > 1.000001) /* Eliminate rounding errors, take ceil */
{
res += 1;
fin /= LOG10_MAGIC;
}
return(res);
#else /* WE_NOLIBM */
/* Version with libm : faster */
return((int) (ceil(10.0 * log10((double) in))));
#endif /* WE_NOLIBM */
}
/*------------------------------------------------------------------*/
/*
* Output a txpower with proper conversion
*/
void
iw_print_txpower(char * buffer,
int buflen,
struct iw_param * txpower)
{
int dbm;
/* Check if disabled */
if(txpower->disabled)
{
snprintf(buffer, buflen, "off");
}
else
{
/* Check for relative values */
if(txpower->flags & IW_TXPOW_RELATIVE)
{
snprintf(buffer, buflen, "%d", txpower->value);
}
else
{
/* Convert everything to dBm */
if(txpower->flags & IW_TXPOW_MWATT)
dbm = iw_mwatt2dbm(txpower->value);
else
dbm = txpower->value;
/* Display */
snprintf(buffer, buflen, "%d dBm", dbm);
}
}
}
/********************** STATISTICS SUBROUTINES **********************/
/*------------------------------------------------------------------*/
/*
* Read /proc/net/wireless to get the latest statistics
* Note : strtok not thread safe, not used in WE-12 and later.
*/
int
iw_get_stats(int skfd,
const char * ifname,
iwstats * stats,
const iwrange * range,
int has_range)
{
/* Fortunately, we can always detect this condition properly */
if((has_range) && (range->we_version_compiled > 11))
{
struct iwreq wrq;
wrq.u.data.pointer = (caddr_t) stats;
wrq.u.data.length = sizeof(struct iw_statistics);
wrq.u.data.flags = 1; /* Clear updated flag */
strncpy(wrq.ifr_name, ifname, IFNAMSIZ);
if(iw_get_ext(skfd, ifname, SIOCGIWSTATS, &wrq) < 0)
return(-1);
/* Format has not changed since WE-12, no conversion */
return(0);
}
else
{
FILE * f = fopen(PROC_NET_WIRELESS, "r");
char buf[256];
char * bp;
int t;
if(f==NULL)
return -1;
/* Loop on all devices */
while(fgets(buf,255,f))
{
bp=buf;
while(*bp&&isspace(*bp))
bp++;
/* Is it the good device ? */
if(strncmp(bp,ifname,strlen(ifname))==0 && bp[strlen(ifname)]==':')
{
/* Skip ethX: */
bp=strchr(bp,':');
bp++;
/* -- status -- */
bp = strtok(bp, " ");
sscanf(bp, "%X", &t);
stats->status = (unsigned short) t;
/* -- link quality -- */
bp = strtok(NULL, " ");
if(strchr(bp,'.') != NULL)
stats->qual.updated |= 1;
sscanf(bp, "%d", &t);
stats->qual.qual = (unsigned char) t;
/* -- signal level -- */
bp = strtok(NULL, " ");
if(strchr(bp,'.') != NULL)
stats->qual.updated |= 2;
sscanf(bp, "%d", &t);
stats->qual.level = (unsigned char) t;
/* -- noise level -- */
bp = strtok(NULL, " ");
if(strchr(bp,'.') != NULL)
stats->qual.updated += 4;
sscanf(bp, "%d", &t);
stats->qual.noise = (unsigned char) t;
/* -- discarded packets -- */
bp = strtok(NULL, " ");
sscanf(bp, "%d", &stats->discard.nwid);
bp = strtok(NULL, " ");
sscanf(bp, "%d", &stats->discard.code);
bp = strtok(NULL, " ");
sscanf(bp, "%d", &stats->discard.misc);
fclose(f);
/* No conversion needed */
return 0;
}
}
fclose(f);
return -1;
}
}
/*------------------------------------------------------------------*/
/*
* Output the link statistics, taking care of formating
*/
void
iw_print_stats(char * buffer,
int buflen,
const iwqual * qual,
const iwrange * range,
int has_range)
{
int len;
/* People are very often confused by the 8 bit arithmetic happening
* here.
* All the values here are encoded in a 8 bit integer. 8 bit integers
* are either unsigned [0 ; 255], signed [-128 ; +127] or
* negative [-255 ; 0].
* Further, on 8 bits, 0x100 == 256 == 0.
*
* Relative/percent values are always encoded unsigned, between 0 and 255.
* Absolute/dBm values are always encoded between -192 and 63.
* (Note that up to version 28 of Wireless Tools, dBm used to be
* encoded always negative, between -256 and -1).
*
* How do we separate relative from absolute values ?
* The old way is to use the range to do that. As of WE-19, we have
* an explicit IW_QUAL_DBM flag in updated...
* The range allow to specify the real min/max of the value. As the
* range struct only specify one bound of the value, we assume that
* the other bound is 0 (zero).
* For relative values, range is [0 ; range->max].
* For absolute values, range is [range->max ; 63].
*
* Let's take two example :
* 1) value is 75%. qual->value = 75 ; range->max_qual.value = 100
* 2) value is -54dBm. noise floor of the radio is -104dBm.
* qual->value = -54 = 202 ; range->max_qual.value = -104 = 152
*
* Jean II
*/
/* Just do it...
* The old way to detect dBm require both the range and a non-null
* level (which confuse the test). The new way can deal with level of 0
* because it does an explicit test on the flag. */
if(has_range && ((qual->level != 0)
|| (qual->updated & (IW_QUAL_DBM | IW_QUAL_RCPI))))
{
/* Deal with quality : always a relative value */
if(!(qual->updated & IW_QUAL_QUAL_INVALID))
{
len = snprintf(buffer, buflen, "Quality%c%d/%d ",
qual->updated & IW_QUAL_QUAL_UPDATED ? '=' : ':',
qual->qual, range->max_qual.qual);
buffer += len;
buflen -= len;
}
/* Check if the statistics are in RCPI (IEEE 802.11k) */
if(qual->updated & IW_QUAL_RCPI)
{
/* Deal with signal level in RCPI */
/* RCPI = int{(Power in dBm +110)*2} for 0dbm > Power > -110dBm */
if(!(qual->updated & IW_QUAL_LEVEL_INVALID))
{
double rcpilevel = (qual->level / 2.0) - 110.0;
len = snprintf(buffer, buflen, "Signal level%c%g dBm ",
qual->updated & IW_QUAL_LEVEL_UPDATED ? '=' : ':',
rcpilevel);
buffer += len;
buflen -= len;
}
/* Deal with noise level in dBm (absolute power measurement) */
if(!(qual->updated & IW_QUAL_NOISE_INVALID))
{
double rcpinoise = (qual->noise / 2.0) - 110.0;
len = snprintf(buffer, buflen, "Noise level%c%g dBm",
qual->updated & IW_QUAL_NOISE_UPDATED ? '=' : ':',
rcpinoise);
}
}
else
{
/* Check if the statistics are in dBm */
if((qual->updated & IW_QUAL_DBM)
|| (qual->level > range->max_qual.level))
{
/* Deal with signal level in dBm (absolute power measurement) */
if(!(qual->updated & IW_QUAL_LEVEL_INVALID))
{
int dblevel = qual->level;
/* Implement a range for dBm [-192; 63] */
if(qual->level >= 64)
dblevel -= 0x100;
len = snprintf(buffer, buflen, "Signal level%c%d dBm ",
qual->updated & IW_QUAL_LEVEL_UPDATED ? '=' : ':',
dblevel);
buffer += len;
buflen -= len;
}
/* Deal with noise level in dBm (absolute power measurement) */
if(!(qual->updated & IW_QUAL_NOISE_INVALID))
{
int dbnoise = qual->noise;
/* Implement a range for dBm [-192; 63] */
if(qual->noise >= 64)
dbnoise -= 0x100;
len = snprintf(buffer, buflen, "Noise level%c%d dBm",
qual->updated & IW_QUAL_NOISE_UPDATED ? '=' : ':',
dbnoise);
}
}
else
{
/* Deal with signal level as relative value (0 -> max) */
if(!(qual->updated & IW_QUAL_LEVEL_INVALID))
{
len = snprintf(buffer, buflen, "Signal level%c%d/%d ",
qual->updated & IW_QUAL_LEVEL_UPDATED ? '=' : ':',
qual->level, range->max_qual.level);
buffer += len;
buflen -= len;
}
/* Deal with noise level as relative value (0 -> max) */
if(!(qual->updated & IW_QUAL_NOISE_INVALID))
{
len = snprintf(buffer, buflen, "Noise level%c%d/%d",
qual->updated & IW_QUAL_NOISE_UPDATED ? '=' : ':',
qual->noise, range->max_qual.noise);
}
}
}
}
else
{
/* We can't read the range, so we don't know... */
snprintf(buffer, buflen,
"Quality:%d Signal level:%d Noise level:%d",
qual->qual, qual->level, qual->noise);
}
}
/*********************** ENCODING SUBROUTINES ***********************/
/*------------------------------------------------------------------*/
/*
* Output the encoding key, with a nice formating
*/
void
iw_print_key(char * buffer,
int buflen,
const unsigned char * key, /* Must be unsigned */
int key_size,
int key_flags)
{
int i;
/* Check buffer size -> 1 bytes => 2 digits + 1/2 separator */
if((key_size * 3) > buflen)
{
snprintf(buffer, buflen, "<too big>");
return;
}
/* Is the key present ??? */
if(key_flags & IW_ENCODE_NOKEY)
{
/* Nope : print on or dummy */
if(key_size <= 0)
strcpy(buffer, "on"); /* Size checked */
else
{
strcpy(buffer, "**"); /* Size checked */
buffer +=2;
for(i = 1; i < key_size; i++)
{
if((i & 0x1) == 0)
strcpy(buffer++, "-"); /* Size checked */
strcpy(buffer, "**"); /* Size checked */
buffer +=2;
}
}
}
else
{
/* Yes : print the key */
sprintf(buffer, "%.2X", key[0]); /* Size checked */
buffer +=2;
for(i = 1; i < key_size; i++)
{
if((i & 0x1) == 0)
strcpy(buffer++, "-"); /* Size checked */
sprintf(buffer, "%.2X", key[i]); /* Size checked */
buffer +=2;
}
}
}
/*------------------------------------------------------------------*/
/*
* Convert a passphrase into a key
* ### NOT IMPLEMENTED ###
* Return size of the key, or 0 (no key) or -1 (error)
*/
static int
iw_pass_key(const char * input,
unsigned char * key)
{
input = input; key = key;
fprintf(stderr, "Error: Passphrase not implemented\n");
return(-1);
}
/*------------------------------------------------------------------*/
/*
* Parse a key from the command line.
* Return size of the key, or 0 (no key) or -1 (error)
* If the key is too long, it's simply truncated...
*/
int
iw_in_key(const char * input,
unsigned char * key)
{
int keylen = 0;
/* Check the type of key */
if(!strncmp(input, "s:", 2))
{
/* First case : as an ASCII string (Lucent/Agere cards) */
keylen = strlen(input + 2); /* skip "s:" */
if(keylen > IW_ENCODING_TOKEN_MAX)
keylen = IW_ENCODING_TOKEN_MAX;
memcpy(key, input + 2, keylen);
}
else
if(!strncmp(input, "p:", 2))
{
/* Second case : as a passphrase (PrismII cards) */
return(iw_pass_key(input + 2, key)); /* skip "p:" */
}
else
{
const char * p;
int dlen; /* Digits sequence length */
unsigned char out[IW_ENCODING_TOKEN_MAX];
/* Third case : as hexadecimal digits */
p = input;
dlen = -1;
/* Loop until we run out of chars in input or overflow the output */
while(*p != '\0')
{
int temph;
int templ;
int count;
/* No more chars in this sequence */
if(dlen <= 0)
{
/* Skip separator */
if(dlen == 0)
p++;
/* Calculate num of char to next separator */
dlen = strcspn(p, "-:;.,");
}
/* Get each char separatly (and not by two) so that we don't
* get confused by 'enc' (=> '0E'+'0C') and similar */
count = sscanf(p, "%1X%1X", &temph, &templ);
if(count < 1)
return(-1); /* Error -> non-hex char */
/* Fixup odd strings such as '123' is '01'+'23' and not '12'+'03'*/
if(dlen % 2)
count = 1;
/* Put back two chars as one byte and output */
if(count == 2)
templ |= temph << 4;
else
templ = temph;
out[keylen++] = (unsigned char) (templ & 0xFF);
/* Check overflow in output */
if(keylen >= IW_ENCODING_TOKEN_MAX)
break;
/* Move on to next chars */
p += count;
dlen -= count;
}
/* We use a temporary output buffer 'out' so that if there is
* an error, we don't overwrite the original key buffer.
* Because of the way iwconfig loop on multiple key/enc arguments
* until it finds an error in here, this is necessary to avoid
* silently corrupting the encryption key... */
memcpy(key, out, keylen);
}
#ifdef DEBUG
{
char buf[IW_ENCODING_TOKEN_MAX * 3];
iw_print_key(buf, sizeof(buf), key, keylen, 0);
printf("Got key : %d [%s]\n", keylen, buf);
}
#endif
return(keylen);
}
/*------------------------------------------------------------------*/
/*
* Parse a key from the command line.
* Return size of the key, or 0 (no key) or -1 (error)
*/
int
iw_in_key_full(int skfd,
const char * ifname,
const char * input,
unsigned char * key,
__u16 * flags)
{
int keylen = 0;
char * p;
if(!strncmp(input, "l:", 2))
{
struct iw_range range;
/* Extra case : as a login (user:passwd - Cisco LEAP) */
keylen = strlen(input + 2) + 1; /* skip "l:", add '\0' */
/* Most user/password is 8 char, so 18 char total, < 32 */
if(keylen > IW_ENCODING_TOKEN_MAX)
keylen = IW_ENCODING_TOKEN_MAX;
memcpy(key, input + 2, keylen);
/* Separate the two strings */
p = strchr((char *) key, ':');
if(p == NULL)
{
fprintf(stderr, "Error: Invalid login format\n");
return(-1);
}
*p = '\0';
/* Extract range info */
if(iw_get_range_info(skfd, ifname, &range) < 0)
/* Hum... Maybe we should return an error ??? */
memset(&range, 0, sizeof(range));
if(range.we_version_compiled > 15)
{
printf("flags = %X, index = %X\n",
*flags, range.encoding_login_index);
if((*flags & IW_ENCODE_INDEX) == 0)
{
/* Extract range info */
if(iw_get_range_info(skfd, ifname, &range) < 0)
memset(&range, 0, sizeof(range));
printf("flags = %X, index = %X\n", *flags, range.encoding_login_index);
/* Set the index the driver expects */
*flags |= range.encoding_login_index & IW_ENCODE_INDEX;
}
printf("flags = %X, index = %X\n", *flags, range.encoding_login_index);
}
}
else
/* Simpler routine above */
keylen = iw_in_key(input, key);
return(keylen);
}
/******************* POWER MANAGEMENT SUBROUTINES *******************/
/*------------------------------------------------------------------*/
/*
* Output a power management value with all attributes...
*/
void
iw_print_pm_value(char * buffer,
int buflen,
int value,
int flags,
int we_version)
{
/* Check size */
if(buflen < 25)
{
snprintf(buffer, buflen, "<too big>");
return;
}
buflen -= 25;
/* Modifiers */
if(flags & IW_POWER_MIN)
{
strcpy(buffer, " min"); /* Size checked */
buffer += 4;
}
if(flags & IW_POWER_MAX)
{
strcpy(buffer, " max"); /* Size checked */
buffer += 4;
}
/* Type */
if(flags & IW_POWER_TIMEOUT)
{
strcpy(buffer, " timeout:"); /* Size checked */
buffer += 9;
}
else
{
if(flags & IW_POWER_SAVING)
{
strcpy(buffer, " saving:"); /* Size checked */
buffer += 8;
}
else
{
strcpy(buffer, " period:"); /* Size checked */
buffer += 8;
}
}
/* Display value without units */
if(flags & IW_POWER_RELATIVE)
{
if(we_version < 21)
value /= MEGA;
snprintf(buffer, buflen, "%d", value);
}
else
{
/* Display value with units */
if(value >= (int) MEGA)
snprintf(buffer, buflen, "%gs", ((double) value) / MEGA);
else
if(value >= (int) KILO)
snprintf(buffer, buflen, "%gms", ((double) value) / KILO);
else
snprintf(buffer, buflen, "%dus", value);
}
}
/*------------------------------------------------------------------*/
/*
* Output a power management mode
*/
void
iw_print_pm_mode(char * buffer,
int buflen,
int flags)
{
/* Check size */
if(buflen < 28)
{
snprintf(buffer, buflen, "<too big>");
return;
}
/* Print the proper mode... */
switch(flags & IW_POWER_MODE)
{
case IW_POWER_UNICAST_R:
strcpy(buffer, "mode:Unicast only received"); /* Size checked */
break;
case IW_POWER_MULTICAST_R:
strcpy(buffer, "mode:Multicast only received"); /* Size checked */
break;
case IW_POWER_ALL_R:
strcpy(buffer, "mode:All packets received"); /* Size checked */
break;
case IW_POWER_FORCE_S:
strcpy(buffer, "mode:Force sending"); /* Size checked */
break;
case IW_POWER_REPEATER:
strcpy(buffer, "mode:Repeat multicasts"); /* Size checked */
break;
default:
strcpy(buffer, ""); /* Size checked */
break;
}
}
/***************** RETRY LIMIT/LIFETIME SUBROUTINES *****************/
/*------------------------------------------------------------------*/
/*
* Output a retry value with all attributes...
*/
void
iw_print_retry_value(char * buffer,
int buflen,
int value,
int flags,
int we_version)
{
/* Check buffer size */
if(buflen < 20)
{
snprintf(buffer, buflen, "<too big>");
return;
}
buflen -= 20;
/* Modifiers */
if(flags & IW_RETRY_MIN)
{
strcpy(buffer, " min"); /* Size checked */
buffer += 4;
}
if(flags & IW_RETRY_MAX)
{
strcpy(buffer, " max"); /* Size checked */
buffer += 4;
}
if(flags & IW_RETRY_SHORT)
{
strcpy(buffer, " short"); /* Size checked */
buffer += 6;
}
if(flags & IW_RETRY_LONG)
{
strcpy(buffer, " long"); /* Size checked */
buffer += 6;
}
/* Type lifetime of limit */
if(flags & IW_RETRY_LIFETIME)
{
strcpy(buffer, " lifetime:"); /* Size checked */
buffer += 10;
/* Display value without units */
if(flags & IW_RETRY_RELATIVE)
{
if(we_version < 21)
value /= MEGA;
snprintf(buffer, buflen, "%d", value);
}
else
{
/* Display value with units */
if(value >= (int) MEGA)
snprintf(buffer, buflen, "%gs", ((double) value) / MEGA);
else
if(value >= (int) KILO)
snprintf(buffer, buflen, "%gms", ((double) value) / KILO);
else
snprintf(buffer, buflen, "%dus", value);
}
}
else
snprintf(buffer, buflen, " limit:%d", value);
}
/************************* TIME SUBROUTINES *************************/
/*------------------------------------------------------------------*/
/*
* Print timestamps
* Inspired from irdadump...
*/
void
iw_print_timeval(char * buffer,
int buflen,
const struct timeval * timev,
const struct timezone * tz)
{
int s;
s = (timev->tv_sec - tz->tz_minuteswest * 60) % 86400;
snprintf(buffer, buflen, "%02d:%02d:%02d.%06u",
s / 3600, (s % 3600) / 60,
s % 60, (u_int32_t) timev->tv_usec);
}
/*********************** ADDRESS SUBROUTINES ************************/
/*
* This section is mostly a cut & past from net-tools-1.2.0
* (Well... This has evolved over the years)
* manage address display and input...
*/
/*------------------------------------------------------------------*/
/*
* Check if interface support the right MAC address type...
*/
int
iw_check_mac_addr_type(int skfd,
const char * ifname)
{
struct ifreq ifr;
/* Get the type of hardware address */
strncpy(ifr.ifr_name, ifname, IFNAMSIZ);
if((ioctl(skfd, SIOCGIFHWADDR, &ifr) < 0) ||
((ifr.ifr_hwaddr.sa_family != ARPHRD_ETHER)
&& (ifr.ifr_hwaddr.sa_family != ARPHRD_IEEE80211)))
{
/* Deep trouble... */
fprintf(stderr, "Interface %s doesn't support MAC addresses\n",
ifname);
return(-1);
}
#ifdef DEBUG
{
char buf[20];
printf("Hardware : %d - %s\n", ifr.ifr_hwaddr.sa_family,
iw_saether_ntop(&ifr.ifr_hwaddr, buf));
}
#endif
return(0);
}
/*------------------------------------------------------------------*/
/*
* Check if interface support the right interface address type...
*/
int
iw_check_if_addr_type(int skfd,
const char * ifname)
{
struct ifreq ifr;
/* Get the type of interface address */
strncpy(ifr.ifr_name, ifname, IFNAMSIZ);
if((ioctl(skfd, SIOCGIFADDR, &ifr) < 0) ||
(ifr.ifr_addr.sa_family != AF_INET))
{
/* Deep trouble... */
fprintf(stderr, "Interface %s doesn't support IP addresses\n", ifname);
return(-1);
}
#ifdef DEBUG
printf("Interface : %d - 0x%lX\n", ifr.ifr_addr.sa_family,
*((unsigned long *) ifr.ifr_addr.sa_data));
#endif
return(0);
}
/*------------------------------------------------------------------*/
/*
* Display an arbitrary length MAC address in readable format.
*/
char *
iw_mac_ntop(const unsigned char * mac,
int maclen,
char * buf,
int buflen)
{
int i;
/* Overflow check (don't forget '\0') */
if(buflen < (maclen * 3 - 1 + 1))
return(NULL);
/* First byte */
sprintf(buf, "%02X", mac[0]);
/* Other bytes */
for(i = 1; i < maclen; i++)
sprintf(buf + (i * 3) - 1, ":%02X", mac[i]);
return(buf);
}
/*------------------------------------------------------------------*/
/*
* Display an Ethernet address in readable format.
*/
void
iw_ether_ntop(const struct ether_addr * eth,
char * buf)
{
sprintf(buf, "%02X:%02X:%02X:%02X:%02X:%02X",
eth->ether_addr_octet[0], eth->ether_addr_octet[1],
eth->ether_addr_octet[2], eth->ether_addr_octet[3],
eth->ether_addr_octet[4], eth->ether_addr_octet[5]);
}
/*------------------------------------------------------------------*/
/*
* Display an Wireless Access Point Socket Address in readable format.
* Note : 0x44 is an accident of history, that's what the Orinoco/PrismII
* chipset report, and the driver doesn't filter it.
*/
char *
iw_sawap_ntop(const struct sockaddr * sap,
char * buf)
{
const struct ether_addr ether_zero = {{ 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }};
const struct ether_addr ether_bcast = {{ 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }};
const struct ether_addr ether_hack = {{ 0x44, 0x44, 0x44, 0x44, 0x44, 0x44 }};
const struct ether_addr * ether_wap = (const struct ether_addr *) sap->sa_data;
if(!iw_ether_cmp(ether_wap, ðer_zero))
sprintf(buf, "Not-Associated");
else
if(!iw_ether_cmp(ether_wap, ðer_bcast))
sprintf(buf, "Invalid");
else
if(!iw_ether_cmp(ether_wap, ðer_hack))
sprintf(buf, "None");
else
iw_ether_ntop(ether_wap, buf);
return(buf);
}
/*------------------------------------------------------------------*/
/*
* Input an arbitrary length MAC address and convert to binary.
* Return address size.
*/
int
iw_mac_aton(const char * orig,
unsigned char * mac,
int macmax)
{
const char * p = orig;
int maclen = 0;
/* Loop on all bytes of the string */
while(*p != '\0')
{
int temph;
int templ;
int count;
/* Extract one byte as two chars */
count = sscanf(p, "%1X%1X", &temph, &templ);
if(count != 2)
break; /* Error -> non-hex chars */
/* Output two chars as one byte */
templ |= temph << 4;
mac[maclen++] = (unsigned char) (templ & 0xFF);
/* Check end of string */
p += 2;
if(*p == '\0')
{
#ifdef DEBUG
char buf[20];
iw_ether_ntop((const struct ether_addr *) mac, buf);
fprintf(stderr, "iw_mac_aton(%s): %s\n", orig, buf);
#endif
return(maclen); /* Normal exit */
}
/* Check overflow */
if(maclen >= macmax)
{
#ifdef DEBUG
fprintf(stderr, "iw_mac_aton(%s): trailing junk!\n", orig);
#endif
errno = E2BIG;
return(0); /* Error -> overflow */
}
/* Check separator */
if(*p != ':')
break;
p++;
}
/* Error... */
#ifdef DEBUG
fprintf(stderr, "iw_mac_aton(%s): invalid ether address!\n", orig);
#endif
errno = EINVAL;
return(0);
}
/*------------------------------------------------------------------*/
/*
* Input an Ethernet address and convert to binary.
*/
int
iw_ether_aton(const char *orig, struct ether_addr *eth)
{
int maclen;
maclen = iw_mac_aton(orig, (unsigned char *) eth, ETH_ALEN);
if((maclen > 0) && (maclen < ETH_ALEN))
{
errno = EINVAL;
maclen = 0;
}
return(maclen);
}
/*------------------------------------------------------------------*/
/*
* Input an Internet address and convert to binary.
*/
int
iw_in_inet(char *name, struct sockaddr *sap)
{
struct hostent *hp;
struct netent *np;
struct sockaddr_in *sain = (struct sockaddr_in *) sap;
/* Grmpf. -FvK */
sain->sin_family = AF_INET;
sain->sin_port = 0;
/* Default is special, meaning 0.0.0.0. */
if (!strcmp(name, "default")) {
sain->sin_addr.s_addr = INADDR_ANY;
return(1);
}
/* Try the NETWORKS database to see if this is a known network. */
if ((np = getnetbyname(name)) != (struct netent *)NULL) {
sain->sin_addr.s_addr = htonl(np->n_net);
strcpy(name, np->n_name);
return(1);
}
/* Always use the resolver (DNS name + IP addresses) */
if ((hp = gethostbyname(name)) == (struct hostent *)NULL) {
errno = h_errno;
return(-1);
}
memcpy((char *) &sain->sin_addr, (char *) hp->h_addr_list[0], hp->h_length);
strcpy(name, hp->h_name);
return(0);
}
/*------------------------------------------------------------------*/
/*
* Input an address and convert to binary.
*/
int
iw_in_addr(int skfd,
const char * ifname,
char * bufp,
struct sockaddr *sap)
{
/* Check if it is a hardware or IP address */
if(strchr(bufp, ':') == NULL)
{
struct sockaddr if_address;
struct arpreq arp_query;
/* Check if we have valid interface address type */
if(iw_check_if_addr_type(skfd, ifname) < 0)
{
fprintf(stderr, "%-8.16s Interface doesn't support IP addresses\n", ifname);
return(-1);
}
/* Read interface address */
if(iw_in_inet(bufp, &if_address) < 0)
{
fprintf(stderr, "Invalid interface address %s\n", bufp);
return(-1);
}
/* Translate IP addresses to MAC addresses */
memcpy((char *) &(arp_query.arp_pa),
(char *) &if_address,
sizeof(struct sockaddr));
arp_query.arp_ha.sa_family = 0;
arp_query.arp_flags = 0;
/* The following restrict the search to the interface only */
/* For old kernels which complain, just comment it... */
strncpy(arp_query.arp_dev, ifname, IFNAMSIZ);
if((ioctl(skfd, SIOCGARP, &arp_query) < 0) ||
!(arp_query.arp_flags & ATF_COM))
{
fprintf(stderr, "Arp failed for %s on %s... (%d)\nTry to ping the address before setting it.\n",
bufp, ifname, errno);
return(-1);
}
/* Store new MAC address */
memcpy((char *) sap,
(char *) &(arp_query.arp_ha),
sizeof(struct sockaddr));
#ifdef DEBUG
{
char buf[20];
printf("IP Address %s => Hw Address = %s\n",
bufp, iw_saether_ntop(sap, buf));
}
#endif
}
else /* If it's an hardware address */
{
/* Check if we have valid mac address type */
if(iw_check_mac_addr_type(skfd, ifname) < 0)
{
fprintf(stderr, "%-8.16s Interface doesn't support MAC addresses\n", ifname);
return(-1);
}
/* Get the hardware address */
if(iw_saether_aton(bufp, sap) == 0)
{
fprintf(stderr, "Invalid hardware address %s\n", bufp);
return(-1);
}
}
#ifdef DEBUG
{
char buf[20];
printf("Hw Address = %s\n", iw_saether_ntop(sap, buf));
}
#endif
return(0);
}
/************************* MISC SUBROUTINES **************************/
/* Size (in bytes) of various events */
static const int priv_type_size[] = {
0, /* IW_PRIV_TYPE_NONE */
1, /* IW_PRIV_TYPE_BYTE */
1, /* IW_PRIV_TYPE_CHAR */
0, /* Not defined */
sizeof(__u32), /* IW_PRIV_TYPE_INT */
sizeof(struct iw_freq), /* IW_PRIV_TYPE_FLOAT */
sizeof(struct sockaddr), /* IW_PRIV_TYPE_ADDR */
0, /* Not defined */
};
/*------------------------------------------------------------------*/
/*
* Max size in bytes of an private argument.
*/
int
iw_get_priv_size(int args)
{
int num = args & IW_PRIV_SIZE_MASK;
int type = (args & IW_PRIV_TYPE_MASK) >> 12;
return(num * priv_type_size[type]);
}
/************************ EVENT SUBROUTINES ************************/
/*
* The Wireless Extension API 14 and greater define Wireless Events,
* that are used for various events and scanning.
* Those functions help the decoding of events, so are needed only in
* this case.
*/
/* -------------------------- CONSTANTS -------------------------- */
/* Type of headers we know about (basically union iwreq_data) */
#define IW_HEADER_TYPE_NULL 0 /* Not available */
#define IW_HEADER_TYPE_CHAR 2 /* char [IFNAMSIZ] */
#define IW_HEADER_TYPE_UINT 4 /* __u32 */
#define IW_HEADER_TYPE_FREQ 5 /* struct iw_freq */
#define IW_HEADER_TYPE_ADDR 6 /* struct sockaddr */
#define IW_HEADER_TYPE_POINT 8 /* struct iw_point */
#define IW_HEADER_TYPE_PARAM 9 /* struct iw_param */
#define IW_HEADER_TYPE_QUAL 10 /* struct iw_quality */
/* Handling flags */
/* Most are not implemented. I just use them as a reminder of some
* cool features we might need one day ;-) */
#define IW_DESCR_FLAG_NONE 0x0000 /* Obvious */
/* Wrapper level flags */
#define IW_DESCR_FLAG_DUMP 0x0001 /* Not part of the dump command */
#define IW_DESCR_FLAG_EVENT 0x0002 /* Generate an event on SET */
#define IW_DESCR_FLAG_RESTRICT 0x0004 /* GET : request is ROOT only */
/* SET : Omit payload from generated iwevent */
#define IW_DESCR_FLAG_NOMAX 0x0008 /* GET : no limit on request size */
/* Driver level flags */
#define IW_DESCR_FLAG_WAIT 0x0100 /* Wait for driver event */
/* ---------------------------- TYPES ---------------------------- */
/*
* Describe how a standard IOCTL looks like.
*/
struct iw_ioctl_description
{
__u8 header_type; /* NULL, iw_point or other */
__u8 token_type; /* Future */
__u16 token_size; /* Granularity of payload */
__u16 min_tokens; /* Min acceptable token number */
__u16 max_tokens; /* Max acceptable token number */
__u32 flags; /* Special handling of the request */
};
/* -------------------------- VARIABLES -------------------------- */
/*
* Meta-data about all the standard Wireless Extension request we
* know about.
*/
static const struct iw_ioctl_description standard_ioctl_descr[] = {
[SIOCSIWCOMMIT - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_NULL,
},
[SIOCGIWNAME - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_CHAR,
.flags = IW_DESCR_FLAG_DUMP,
},
[SIOCSIWNWID - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_PARAM,
.flags = IW_DESCR_FLAG_EVENT,
},
[SIOCGIWNWID - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_PARAM,
.flags = IW_DESCR_FLAG_DUMP,
},
[SIOCSIWFREQ - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_FREQ,
.flags = IW_DESCR_FLAG_EVENT,
},
[SIOCGIWFREQ - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_FREQ,
.flags = IW_DESCR_FLAG_DUMP,
},
[SIOCSIWMODE - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_UINT,
.flags = IW_DESCR_FLAG_EVENT,
},
[SIOCGIWMODE - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_UINT,
.flags = IW_DESCR_FLAG_DUMP,
},
[SIOCSIWSENS - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_PARAM,
},
[SIOCGIWSENS - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_PARAM,
},
[SIOCSIWRANGE - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_NULL,
},
[SIOCGIWRANGE - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = 1,
.max_tokens = sizeof(struct iw_range),
.flags = IW_DESCR_FLAG_DUMP,
},
[SIOCSIWPRIV - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_NULL,
},
[SIOCGIWPRIV - SIOCIWFIRST] = { /* (handled directly by us) */
.header_type = IW_HEADER_TYPE_NULL,
},
[SIOCSIWSTATS - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_NULL,
},
[SIOCGIWSTATS - SIOCIWFIRST] = { /* (handled directly by us) */
.header_type = IW_HEADER_TYPE_NULL,
.flags = IW_DESCR_FLAG_DUMP,
},
[SIOCSIWSPY - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = sizeof(struct sockaddr),
.max_tokens = IW_MAX_SPY,
},
[SIOCGIWSPY - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = sizeof(struct sockaddr) +
sizeof(struct iw_quality),
.max_tokens = IW_MAX_SPY,
},
[SIOCSIWTHRSPY - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = sizeof(struct iw_thrspy),
.min_tokens = 1,
.max_tokens = 1,
},
[SIOCGIWTHRSPY - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = sizeof(struct iw_thrspy),
.min_tokens = 1,
.max_tokens = 1,
},
[SIOCSIWAP - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_ADDR,
},
[SIOCGIWAP - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_ADDR,
.flags = IW_DESCR_FLAG_DUMP,
},
[SIOCSIWMLME - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = 1,
.min_tokens = sizeof(struct iw_mlme),
.max_tokens = sizeof(struct iw_mlme),
},
[SIOCGIWAPLIST - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = sizeof(struct sockaddr) +
sizeof(struct iw_quality),
.max_tokens = IW_MAX_AP,
.flags = IW_DESCR_FLAG_NOMAX,
},
[SIOCSIWSCAN - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = 1,
.min_tokens = 0,
.max_tokens = sizeof(struct iw_scan_req),
},
[SIOCGIWSCAN - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = 1,
.max_tokens = IW_SCAN_MAX_DATA,
.flags = IW_DESCR_FLAG_NOMAX,
},
[SIOCSIWESSID - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = 1,
.max_tokens = IW_ESSID_MAX_SIZE + 1,
.flags = IW_DESCR_FLAG_EVENT,
},
[SIOCGIWESSID - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = 1,
.max_tokens = IW_ESSID_MAX_SIZE + 1,
.flags = IW_DESCR_FLAG_DUMP,
},
[SIOCSIWNICKN - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = 1,
.max_tokens = IW_ESSID_MAX_SIZE + 1,
},
[SIOCGIWNICKN - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = 1,
.max_tokens = IW_ESSID_MAX_SIZE + 1,
},
[SIOCSIWRATE - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_PARAM,
},
[SIOCGIWRATE - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_PARAM,
},
[SIOCSIWRTS - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_PARAM,
},
[SIOCGIWRTS - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_PARAM,
},
[SIOCSIWFRAG - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_PARAM,
},
[SIOCGIWFRAG - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_PARAM,
},
[SIOCSIWTXPOW - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_PARAM,
},
[SIOCGIWTXPOW - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_PARAM,
},
[SIOCSIWRETRY - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_PARAM,
},
[SIOCGIWRETRY - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_PARAM,
},
[SIOCSIWENCODE - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
/* Hack : this never returns any payload in event.
* Fix the 64->32 bit hack... */
.token_size = 0,
.max_tokens = IW_ENCODING_TOKEN_MAX,
.flags = IW_DESCR_FLAG_EVENT | IW_DESCR_FLAG_RESTRICT,
},
[SIOCGIWENCODE - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
/* Hack : this never returns any payload in event.
* Fix the 64->32 bit hack... */
.token_size = 0,
.max_tokens = IW_ENCODING_TOKEN_MAX,
.flags = IW_DESCR_FLAG_DUMP | IW_DESCR_FLAG_RESTRICT,
},
[SIOCSIWPOWER - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_PARAM,
},
[SIOCGIWPOWER - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_PARAM,
},
[SIOCSIWMODUL - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_PARAM,
},
[SIOCGIWMODUL - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_PARAM,
},
[SIOCSIWGENIE - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = 1,
.max_tokens = IW_GENERIC_IE_MAX,
},
[SIOCGIWGENIE - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = 1,
.max_tokens = IW_GENERIC_IE_MAX,
},
[SIOCSIWAUTH - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_PARAM,
},
[SIOCGIWAUTH - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_PARAM,
},
[SIOCSIWENCODEEXT - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = 1,
.min_tokens = sizeof(struct iw_encode_ext),
.max_tokens = sizeof(struct iw_encode_ext) +
IW_ENCODING_TOKEN_MAX,
},
[SIOCGIWENCODEEXT - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = 1,
.min_tokens = sizeof(struct iw_encode_ext),
.max_tokens = sizeof(struct iw_encode_ext) +
IW_ENCODING_TOKEN_MAX,
},
[SIOCSIWPMKSA - SIOCIWFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = 1,
.min_tokens = sizeof(struct iw_pmksa),
.max_tokens = sizeof(struct iw_pmksa),
},
};
static const unsigned int standard_ioctl_num = (sizeof(standard_ioctl_descr) /
sizeof(struct iw_ioctl_description));
/*
* Meta-data about all the additional standard Wireless Extension events
* we know about.
*/
static const struct iw_ioctl_description standard_event_descr[] = {
[IWEVTXDROP - IWEVFIRST] = {
.header_type = IW_HEADER_TYPE_ADDR,
},
[IWEVQUAL - IWEVFIRST] = {
.header_type = IW_HEADER_TYPE_QUAL,
},
[IWEVCUSTOM - IWEVFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = 1,
.max_tokens = IW_CUSTOM_MAX,
},
[IWEVREGISTERED - IWEVFIRST] = {
.header_type = IW_HEADER_TYPE_ADDR,
},
[IWEVEXPIRED - IWEVFIRST] = {
.header_type = IW_HEADER_TYPE_ADDR,
},
[IWEVGENIE - IWEVFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = 1,
.max_tokens = IW_GENERIC_IE_MAX,
},
[IWEVMICHAELMICFAILURE - IWEVFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = 1,
.max_tokens = sizeof(struct iw_michaelmicfailure),
},
[IWEVASSOCREQIE - IWEVFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = 1,
.max_tokens = IW_GENERIC_IE_MAX,
},
[IWEVASSOCRESPIE - IWEVFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = 1,
.max_tokens = IW_GENERIC_IE_MAX,
},
[IWEVPMKIDCAND - IWEVFIRST] = {
.header_type = IW_HEADER_TYPE_POINT,
.token_size = 1,
.max_tokens = sizeof(struct iw_pmkid_cand),
},
};
static const unsigned int standard_event_num = (sizeof(standard_event_descr) /
sizeof(struct iw_ioctl_description));
/* Size (in bytes) of various events */
static const int event_type_size[] = {
IW_EV_LCP_PK_LEN, /* IW_HEADER_TYPE_NULL */
0,
IW_EV_CHAR_PK_LEN, /* IW_HEADER_TYPE_CHAR */
0,
IW_EV_UINT_PK_LEN, /* IW_HEADER_TYPE_UINT */
IW_EV_FREQ_PK_LEN, /* IW_HEADER_TYPE_FREQ */
IW_EV_ADDR_PK_LEN, /* IW_HEADER_TYPE_ADDR */
0,
IW_EV_POINT_PK_LEN, /* Without variable payload */
IW_EV_PARAM_PK_LEN, /* IW_HEADER_TYPE_PARAM */
IW_EV_QUAL_PK_LEN, /* IW_HEADER_TYPE_QUAL */
};
/*------------------------------------------------------------------*/
/*
* Initialise the struct stream_descr so that we can extract
* individual events from the event stream.
*/
void
iw_init_event_stream(struct stream_descr * stream, /* Stream of events */
char * data,
int len)
{
/* Cleanup */
memset((char *) stream, '\0', sizeof(struct stream_descr));
/* Set things up */
stream->current = data;
stream->end = data + len;
}
/*------------------------------------------------------------------*/
/*
* Extract the next event from the event stream.
*/
int
iw_extract_event_stream(struct stream_descr * stream, /* Stream of events */
struct iw_event * iwe, /* Extracted event */
int we_version)
{
const struct iw_ioctl_description * descr = NULL;
int event_type = 0;
unsigned int event_len = 1; /* Invalid */
char * pointer;
/* Don't "optimise" the following variable, it will crash */
unsigned cmd_index; /* *MUST* be unsigned */
/* Check for end of stream */
if((stream->current + IW_EV_LCP_PK_LEN) > stream->end)
return(0);
#ifdef DEBUG
printf("DBG - stream->current = %p, stream->value = %p, stream->end = %p\n",
stream->current, stream->value, stream->end);
#endif
/* Extract the event header (to get the event id).
* Note : the event may be unaligned, therefore copy... */
memcpy((char *) iwe, stream->current, IW_EV_LCP_PK_LEN);
#ifdef DEBUG
printf("DBG - iwe->cmd = 0x%X, iwe->len = %d\n",
iwe->cmd, iwe->len);
#endif
/* Check invalid events */
if(iwe->len <= IW_EV_LCP_PK_LEN)
return(-1);
/* Get the type and length of that event */
if(iwe->cmd <= SIOCIWLAST)
{
cmd_index = iwe->cmd - SIOCIWFIRST;
if(cmd_index < standard_ioctl_num)
descr = &(standard_ioctl_descr[cmd_index]);
}
else
{
cmd_index = iwe->cmd - IWEVFIRST;
if(cmd_index < standard_event_num)
descr = &(standard_event_descr[cmd_index]);
}
if(descr != NULL)
event_type = descr->header_type;
/* Unknown events -> event_type=0 => IW_EV_LCP_PK_LEN */
event_len = event_type_size[event_type];
/* Fixup for earlier version of WE */
if((we_version <= 18) && (event_type == IW_HEADER_TYPE_POINT))
event_len += IW_EV_POINT_OFF;
/* Check if we know about this event */
if(event_len <= IW_EV_LCP_PK_LEN)
{
/* Skip to next event */
stream->current += iwe->len;
return(2);
}
event_len -= IW_EV_LCP_PK_LEN;
/* Set pointer on data */
if(stream->value != NULL)
pointer = stream->value; /* Next value in event */
else
pointer = stream->current + IW_EV_LCP_PK_LEN; /* First value in event */
#ifdef DEBUG
printf("DBG - event_type = %d, event_len = %d, pointer = %p\n",
event_type, event_len, pointer);
#endif
/* Copy the rest of the event (at least, fixed part) */
if((pointer + event_len) > stream->end)
{
/* Go to next event */
stream->current += iwe->len;
return(-2);
}
/* Fixup for WE-19 and later : pointer no longer in the stream */
/* Beware of alignement. Dest has local alignement, not packed */
if((we_version > 18) && (event_type == IW_HEADER_TYPE_POINT))
memcpy((char *) iwe + IW_EV_LCP_LEN + IW_EV_POINT_OFF,
pointer, event_len);
else
memcpy((char *) iwe + IW_EV_LCP_LEN, pointer, event_len);
/* Skip event in the stream */
pointer += event_len;
/* Special processing for iw_point events */
if(event_type == IW_HEADER_TYPE_POINT)
{
/* Check the length of the payload */
unsigned int extra_len = iwe->len - (event_len + IW_EV_LCP_PK_LEN);
if(extra_len > 0)
{
/* Set pointer on variable part (warning : non aligned) */
iwe->u.data.pointer = pointer;
/* Check that we have a descriptor for the command */
if(descr == NULL)
/* Can't check payload -> unsafe... */
iwe->u.data.pointer = NULL; /* Discard paylod */
else
{
/* Those checks are actually pretty hard to trigger,
* because of the checks done in the kernel... */
unsigned int token_len = iwe->u.data.length * descr->token_size;
/* Ugly fixup for alignement issues.
* If the kernel is 64 bits and userspace 32 bits,
* we have an extra 4+4 bytes.
* Fixing that in the kernel would break 64 bits userspace. */
if((token_len != extra_len) && (extra_len >= 4))
{
union iw_align_u16 alt_dlen;
unsigned int alt_token_len;
/* Usespace seems to not always like unaligned access,
* so be careful and make sure to align value.
* I hope gcc won't play any of its aliasing tricks... */
alt_dlen.byte[0] = *(pointer);
alt_dlen.byte[1] = *(pointer + 1);
alt_token_len = alt_dlen.value * descr->token_size;
#ifdef DEBUG
printf("DBG - alt_token_len = %d\n", alt_token_len);
#endif
/* Verify that data is consistent if assuming 64 bit
* alignement... */
if((alt_token_len + 8) == extra_len)
{
/* Ok, let's redo everything */
pointer -= event_len;
pointer += 4;
/* Dest has local alignement, not packed */
memcpy((char *) iwe + IW_EV_LCP_LEN + IW_EV_POINT_OFF,
pointer, event_len);
pointer += event_len + 4;
token_len = alt_token_len;
/* We may have no payload */
if(alt_token_len)
iwe->u.data.pointer = pointer;
else
iwe->u.data.pointer = NULL;
}
}
/* Discard bogus events which advertise more tokens than
* what they carry... */
if(token_len > extra_len)
iwe->u.data.pointer = NULL; /* Discard paylod */
/* Check that the advertised token size is not going to
* produce buffer overflow to our caller... */
if((iwe->u.data.length > descr->max_tokens)
&& !(descr->flags & IW_DESCR_FLAG_NOMAX))
iwe->u.data.pointer = NULL; /* Discard paylod */
/* Same for underflows... */
if(iwe->u.data.length < descr->min_tokens)
iwe->u.data.pointer = NULL; /* Discard paylod */
#ifdef DEBUG
printf("DBG - extra_len = %d, token_len = %d, token = %d, max = %d, min = %d\n",
extra_len, token_len, iwe->u.data.length, descr->max_tokens, descr->min_tokens);
#endif
}
}
else
/* No data */
iwe->u.data.pointer = NULL;
/* Go to next event */
stream->current += iwe->len;
}
else
{
/* Ugly fixup for alignement issues.
* If the kernel is 64 bits and userspace 32 bits,
* we have an extra 4 bytes.
* Fixing that in the kernel would break 64 bits userspace. */
if((stream->value == NULL)
&& ((((iwe->len - IW_EV_LCP_PK_LEN) % event_len) == 4)
|| ((iwe->len == 12) && ((event_type == IW_HEADER_TYPE_UINT) ||
(event_type == IW_HEADER_TYPE_QUAL))) ))
{
#ifdef DEBUG
printf("DBG - alt iwe->len = %d\n", iwe->len - 4);
#endif
pointer -= event_len;
pointer += 4;
/* Beware of alignement. Dest has local alignement, not packed */
memcpy((char *) iwe + IW_EV_LCP_LEN, pointer, event_len);
pointer += event_len;
}
/* Is there more value in the event ? */
if((pointer + event_len) <= (stream->current + iwe->len))
/* Go to next value */
stream->value = pointer;
else
{
/* Go to next event */
stream->value = NULL;
stream->current += iwe->len;
}
}
return(1);
}
/*********************** SCANNING SUBROUTINES ***********************/
/*
* The Wireless Extension API 14 and greater define Wireless Scanning.
* The normal API is complex, this is an easy API that return
* a subset of the scanning results. This should be enough for most
* applications that want to use Scanning.
* If you want to have use the full/normal API, check iwlist.c...
*
* Precaution when using scanning :
* The scanning operation disable normal network traffic, and therefore
* you should not abuse of scan.
* The scan need to check the presence of network on other frequencies.
* While you are checking those other frequencies, you can *NOT* be on
* your normal frequency to listen to normal traffic in the cell.
* You need typically in the order of one second to actively probe all
* 802.11b channels (do the maths). Some cards may do that in background,
* to reply to scan commands faster, but they still have to do it.
* Leaving the cell for such an extended period of time is pretty bad.
* Any kind of streaming/low latency traffic will be impacted, and the
* user will perceive it (easily checked with telnet). People trying to
* send traffic to you will retry packets and waste bandwidth. Some
* applications may be sensitive to those packet losses in weird ways,
* and tracing those weird behavior back to scanning may take time.
* If you are in ad-hoc mode, if two nodes scan approx at the same
* time, they won't see each other, which may create associations issues.
* For those reasons, the scanning activity should be limited to
* what's really needed, and continuous scanning is a bad idea.
* Jean II
*/
/*------------------------------------------------------------------*/
/*
* Process/store one element from the scanning results in wireless_scan
*/
static inline struct wireless_scan *
iw_process_scanning_token(struct iw_event * event,
struct wireless_scan * wscan)
{
struct wireless_scan * oldwscan;
/* Now, let's decode the event */
switch(event->cmd)
{
case SIOCGIWAP:
/* New cell description. Allocate new cell descriptor, zero it. */
oldwscan = wscan;
wscan = (struct wireless_scan *) malloc(sizeof(struct wireless_scan));
if(wscan == NULL)
return(wscan);
/* Link at the end of the list */
if(oldwscan != NULL)
oldwscan->next = wscan;
/* Reset it */
bzero(wscan, sizeof(struct wireless_scan));
/* Save cell identifier */
wscan->has_ap_addr = 1;
memcpy(&(wscan->ap_addr), &(event->u.ap_addr), sizeof (sockaddr));
break;
case SIOCGIWNWID:
wscan->b.has_nwid = 1;
memcpy(&(wscan->b.nwid), &(event->u.nwid), sizeof(iwparam));
break;
case SIOCGIWFREQ:
wscan->b.has_freq = 1;
wscan->b.freq = iw_freq2float(&(event->u.freq));
wscan->b.freq_flags = event->u.freq.flags;
break;
case SIOCGIWMODE:
wscan->b.mode = event->u.mode;
if((wscan->b.mode < IW_NUM_OPER_MODE) && (wscan->b.mode >= 0))
wscan->b.has_mode = 1;
break;
case SIOCGIWESSID:
wscan->b.has_essid = 1;
wscan->b.essid_on = event->u.data.flags;
memset(wscan->b.essid, '\0', IW_ESSID_MAX_SIZE + 1);
if((event->u.essid.pointer) && (event->u.essid.length))
memcpy(wscan->b.essid, event->u.essid.pointer, event->u.essid.length);
break;
case SIOCGIWENCODE:
wscan->b.has_key = 1;
wscan->b.key_size = event->u.data.length;
wscan->b.key_flags = event->u.data.flags;
if(event->u.data.pointer)
memcpy(wscan->b.key, event->u.essid.pointer, event->u.data.length);
else
wscan->b.key_flags |= IW_ENCODE_NOKEY;
break;
case IWEVQUAL:
/* We don't get complete stats, only qual */
wscan->has_stats = 1;
memcpy(&wscan->stats.qual, &event->u.qual, sizeof(struct iw_quality));
break;
case SIOCGIWRATE:
/* Scan may return a list of bitrates. As we have space for only
* a single bitrate, we only keep the largest one. */
if((!wscan->has_maxbitrate) ||
(event->u.bitrate.value > wscan->maxbitrate.value))
{
wscan->has_maxbitrate = 1;
memcpy(&(wscan->maxbitrate), &(event->u.bitrate), sizeof(iwparam));
}
case IWEVCUSTOM:
/* How can we deal with those sanely ? Jean II */
default:
break;
} /* switch(event->cmd) */
return(wscan);
}
/*------------------------------------------------------------------*/
/*
* Initiate the scan procedure, and process results.
* This is a non-blocking procedure and it will return each time
* it would block, returning the amount of time the caller should wait
* before calling again.
* Return -1 for error, delay to wait for (in ms), or 0 for success.
* Error code is in errno
*/
int
iw_process_scan(int skfd,
char * ifname,
int we_version,
wireless_scan_head * context)
{
struct iwreq wrq;
unsigned char * buffer = NULL; /* Results */
int buflen = IW_SCAN_MAX_DATA; /* Min for compat WE<17 */
unsigned char * newbuf;
/* Don't waste too much time on interfaces (150 * 100 = 15s) */
context->retry++;
if(context->retry > 150)
{
errno = ETIME;
return(-1);
}
/* If we have not yet initiated scanning on the interface */
if(context->retry == 1)
{
/* Initiate Scan */
wrq.u.data.pointer = NULL; /* Later */
wrq.u.data.flags = 0;
wrq.u.data.length = 0;
/* Remember that as non-root, we will get an EPERM here */
if((iw_set_ext(skfd, ifname, SIOCSIWSCAN, &wrq) < 0)
&& (errno != EPERM))
return(-1);
/* Success : now, just wait for event or results */
return(250); /* Wait 250 ms */
}
realloc:
/* (Re)allocate the buffer - realloc(NULL, len) == malloc(len) */
newbuf = realloc(buffer, buflen);
if(newbuf == NULL)
{
/* man says : If realloc() fails the original block is left untouched */
if(buffer)
free(buffer);
errno = ENOMEM;
return(-1);
}
buffer = newbuf;
/* Try to read the results */
wrq.u.data.pointer = buffer;
wrq.u.data.flags = 0;
wrq.u.data.length = buflen;
if(iw_get_ext(skfd, ifname, SIOCGIWSCAN, &wrq) < 0)
{
/* Check if buffer was too small (WE-17 only) */
if((errno == E2BIG) && (we_version > 16) && (buflen < 0xFFFF))
{
/* Some driver may return very large scan results, either
* because there are many cells, or because they have many
* large elements in cells (like IWEVCUSTOM). Most will
* only need the regular sized buffer. We now use a dynamic
* allocation of the buffer to satisfy everybody. Of course,
* as we don't know in advance the size of the array, we try
* various increasing sizes. Jean II */
/* Check if the driver gave us any hints. */
if(wrq.u.data.length > buflen)
buflen = wrq.u.data.length;
else
buflen *= 2;
/* wrq.u.data.length is 16 bits so max size is 65535 */
if(buflen > 0xFFFF)
buflen = 0xFFFF;
/* Try again */
goto realloc;
}
/* Check if results not available yet */
if(errno == EAGAIN)
{
free(buffer);
/* Wait for only 100ms from now on */
return(100); /* Wait 100 ms */
}
free(buffer);
/* Bad error, please don't come back... */
return(-1);
}
/* We have the results, process them */
if(wrq.u.data.length)
{
struct iw_event iwe;
struct stream_descr stream;
struct wireless_scan * wscan = NULL;
int ret;
#ifdef DEBUG
/* Debugging code. In theory useless, because it's debugged ;-) */
int i;
printf("Scan result [%02X", buffer[0]);
for(i = 1; i < wrq.u.data.length; i++)
printf(":%02X", buffer[i]);
printf("]\n");
#endif
/* Init */
iw_init_event_stream(&stream, (char *) buffer, wrq.u.data.length);
/* This is dangerous, we may leak user data... */
context->result = NULL;
/* Look every token */
do
{
/* Extract an event and print it */
ret = iw_extract_event_stream(&stream, &iwe, we_version);
if(ret > 0)
{
/* Convert to wireless_scan struct */
wscan = iw_process_scanning_token(&iwe, wscan);
/* Check problems */
if(wscan == NULL)
{
free(buffer);
errno = ENOMEM;
return(-1);
}
/* Save head of list */
if(context->result == NULL)
context->result = wscan;
}
}
while(ret > 0);
}
/* Done with this interface - return success */
free(buffer);
return(0);
}
/*------------------------------------------------------------------*/
/*
* Perform a wireless scan on the specified interface.
* This is a blocking procedure and it will when the scan is completed
* or when an error occur.
*
* The scan results are given in a linked list of wireless_scan objects.
* The caller *must* free the result himself (by walking the list).
* If there is an error, -1 is returned and the error code is available
* in errno.
*
* The parameter we_version can be extracted from the range structure
* (range.we_version_compiled - see iw_get_range_info()), or using
* iw_get_kernel_we_version(). For performance reason, you should
* cache this parameter when possible rather than querying it every time.
*
* Return -1 for error and 0 for success.
*/
int
iw_scan(int skfd,
char * ifname,
int we_version,
wireless_scan_head * context)
{
int delay; /* in ms */
/* Clean up context. Potential memory leak if(context.result != NULL) */
context->result = NULL;
context->retry = 0;
/* Wait until we get results or error */
while(1)
{
/* Try to get scan results */
delay = iw_process_scan(skfd, ifname, we_version, context);
/* Check termination */
if(delay <= 0)
break;
/* Wait a bit */
usleep(delay * 1000);
}
/* End - return -1 or 0 */
return(delay);
}
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