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/*
* General-purpose utilities used by multiple files.
*/
#include "wavemon.h"
#include "nl80211.h"
#include <arpa/inet.h>
#include <netinet/in.h>
#include <netinet/ether.h>
#include <net/if_arp.h>
#include <net/ethernet.h>
#include <sys/socket.h>
#include <linux/if.h>
/* Maximum length of a MAC address: 2 * 6 hex digits, 6 - 1 colons, plus '\0' */
#define MAC_ADDR_MAX 18
/* Return true if all ethernet octets are zero. */
bool ether_addr_is_zero(const struct ether_addr *ea)
{
static const struct ether_addr zero = {{0}};
return memcmp(ea, &zero, sizeof(zero)) == 0;
}
/* Print a mac-address, include leading zeroes (unlike ether_ntoa(3)) */
char *ether_addr(const struct ether_addr *ea)
{
static char mac[MAC_ADDR_MAX];
char *d = mac, *a = ether_ntoa(ea);
next_chunk:
if (a[0] == '\0' || a[1] == '\0' || a[1] == ':')
*d++ = '0';
while ((*d++ = conf.cisco_mac ? (*a == ':' ? '.' : *a) : toupper(*a)))
if (*a++ == ':')
goto next_chunk;
return mac;
}
/* Print mac-address translation from /etc/ethers if available */
char *ether_lookup(const struct ether_addr *ea)
{
static char hostname[BUFSIZ];
if (ether_ntohost(hostname, ea) == 0)
return hostname;
return ether_addr(ea);
}
/* Format an Ethernet mac address */
char *mac_addr(const struct sockaddr *sa)
{
if (sa->sa_family != ARPHRD_ETHER)
return "00:00:00:00:00:00";
return ether_lookup((const struct ether_addr *)sa->sa_data);
}
/* Format a (I)BSSID */
char *format_bssid(const struct sockaddr *ap)
{
uint8_t bcast_addr[ETH_ALEN] = { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff };
uint8_t zero_addr[ETH_ALEN] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 };
if (memcmp(ap->sa_data, zero_addr, ETH_ALEN) == 0)
return "Not-Associated";
if (memcmp(ap->sa_data, bcast_addr, ETH_ALEN) == 0)
return "Invalid";
return mac_addr(ap);
}
/* count bits set in @mask the Brian Kernighan way */
uint8_t bit_count(uint32_t mask)
{
uint8_t bits_set;
for (bits_set = 0; mask; bits_set++)
mask &= mask - 1;
return bits_set;
}
/* netmask = contiguous 1's followed by contiguous 0's */
uint8_t prefix_len(const struct in_addr *netmask)
{
return bit_count(netmask->s_addr);
}
/* Pretty-print @sec into a string of up to 6 characters. */
const char *pretty_time(const unsigned sec)
{
static char buf[12];
unsigned d = sec / 86400,
h = sec % 86400 / 3600,
m = sec % 3600 / 60;
if (d > 9) {
sprintf(buf, "%u days", d);
} else if (d) {
if (h) {
sprintf(buf, "%ud %uh", d, h);
} else if (m) {
sprintf(buf, "%ud %dm", d, m);
} else {
sprintf(buf, "%u day%s", d, d == 1 ? "" : "s");
}
} else if (h) {
sprintf(buf, "%u:%02uh", h, m);
} else if (m) {
sprintf(buf, "%u:%02um", m, sec % 60);
} else {
sprintf(buf, "%u sec", sec);
}
return buf;
}
/* Like pretty_time, but allow milliseconds */
const char *pretty_time_ms(const unsigned msec)
{
static char buf[12];
if (msec < 1000) {
sprintf(buf, "%u ms", msec);
return buf;
}
return pretty_time(msec/1000);
}
/* Absolute power measurement in dBm (IW_QUAL_DBM): map into -192 .. 63 range */
int u8_to_dbm(const int power)
{
return power > 63 ? power - 0x100 : power;
}
uint8_t dbm_to_u8(const int dbm)
{
return dbm < 0 ? dbm + 0x100 : dbm;
}
/* Convert log dBm values to linear mW */
double dbm2mw(const double in)
{
return pow(10.0, in / 10.0);
}
char *dbm2units(const double in)
{
static char with_units[0x100];
double val = dbm2mw(in);
if (val < 0.00000001) {
sprintf(with_units, "%.2f pW", val * 1e9);
} else if (val < 0.00001) {
sprintf(with_units, "%.2f nW", val * 1e6);
} else if (val < 0.01) {
sprintf(with_units, "%.2f uW", val * 1e3);
} else {
sprintf(with_units, "%.2f mW", val);
}
return with_units;
}
/* Convert linear mW values to log dBm */
double mw2dbm(const double in)
{
return 10.0 * log10(in);
}
/* Stolen from iw:util.c */
int ieee80211_frequency_to_channel(int freq)
{
/* see 802.11-2007 17.3.8.3.2 and Annex J */
if (freq == 2484)
return 14;
else if (freq < 2484)
return (freq - 2407) / 5;
else if (freq >= 4910 && freq <= 4980)
return (freq - 4000) / 5;
else if (freq <= 45000) /* DMG band lower limit */
return (freq - 5000) / 5;
else if (freq >= 58320 && freq <= 64800)
return (freq - 56160) / 2160;
else
return 0;
}
const char *channel_width_name(enum nl80211_chan_width width)
{
switch (width) {
case NL80211_CHAN_WIDTH_20_NOHT:
return "20 MHz (no HT)";
case NL80211_CHAN_WIDTH_20:
return "20 MHz";
case NL80211_CHAN_WIDTH_40:
return "40 MHz";
case NL80211_CHAN_WIDTH_80:
return "80 MHz";
case NL80211_CHAN_WIDTH_80P80:
return "80+80 MHz";
case NL80211_CHAN_WIDTH_160:
return "160 MHz";
default:
return "unknown";
}
}
/* stolen from iw:interface.c */
const char *channel_type_name(enum nl80211_channel_type channel_type)
{
switch (channel_type) {
case NL80211_CHAN_NO_HT:
return "NO HT";
case NL80211_CHAN_HT20:
return "HT20";
case NL80211_CHAN_HT40MINUS:
return "HT40-";
case NL80211_CHAN_HT40PLUS:
return "HT40+";
default:
return "unknown";
}
}
/* stolen from iw:util.c */
const char *iftype_name(enum nl80211_iftype iftype)
{
static char modebuf[100];
static const char *ifmodes[NL80211_IFTYPE_MAX + 1] = {
"Unspecified",
"IBSS",
"Managed",
"AP",
"AP/VLAN",
"WDS",
"Monitor",
"Mesh Point",
"P2P-Client",
"P2P-GO",
"P2P-Device",
"Outside of a BSS",
};
if (iftype <= NL80211_IFTYPE_MAX && ifmodes[iftype])
return ifmodes[iftype];
sprintf(modebuf, "Unknown mode (%d)", iftype);
return modebuf;
}
/* stolen from iw:reg.c */
const char *dfs_domain_name(enum nl80211_dfs_regions region)
{
switch (region) {
case NL80211_DFS_UNSET:
return "DFS-UNSET";
case NL80211_DFS_FCC:
return "DFS-FCC";
case NL80211_DFS_ETSI:
return "DFS-ETSI";
case NL80211_DFS_JP:
return "DFS-JP";
default:
return "DFS-invalid";
}
}
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