Exemplo n.º 1
0
/* Given the tagged parameter sets from a beacon packet, locate the AP's SSID and return its current channel number */
int parse_beacon_tags(const u_char *packet, size_t len)
{
    char *ssid = NULL;
    const u_char *tag_data = NULL;
    unsigned char *ie = NULL, *channel_data = NULL;
    size_t ie_len = 0, ie_offset = 0, tag_len = 0, tag_offset = 0;
    int channel = 0;
    struct radio_tap_header *rt_header = NULL;

    rt_header = (struct radio_tap_header *) radio_header(packet, len);
    tag_offset = rt_header->len + sizeof(struct dot11_frame_header) + sizeof(struct beacon_management_frame);

    if(tag_offset < len)
    {
        tag_len = (len - tag_offset);
        tag_data = (const u_char *) (packet + tag_offset);

        /* If no SSID was manually specified, parse and save the AP SSID */
        if(get_ssid() == NULL)
        {
            ie = parse_ie_data(tag_data, tag_len, (uint8_t) SSID_TAG_NUMBER, &ie_len, &ie_offset);
            if(ie)
            {
                /* Return data is not null terminated; allocate ie_len+1 and memcpy string */
                ssid = malloc(ie_len+1);
                if(ssid)
                {
                    memset(ssid, 0, (ie_len+1));
                    memcpy(ssid, ie, ie_len);
                    set_ssid(ssid);
                    free(ssid);
                }

                free(ie);
            }
        }

        ie = parse_ie_data(tag_data, tag_len, (uint8_t) RATES_TAG_NUMBER, &ie_len, &ie_offset);
        if(ie)
        {
            set_ap_rates(ie, ie_len);
            free(ie);
        }

        channel_data = parse_ie_data(tag_data, tag_len, (uint8_t) CHANNEL_TAG_NUMBER, &ie_len, &ie_offset);
        if(channel_data)
        {
            if(ie_len  == 1)
            {
                memcpy((int *) &channel, channel_data, ie_len);
            }
            free(channel_data);
        }
    }

    return channel;
}
Exemplo n.º 2
0
/* Given the tagged parameter sets from a beacon packet, locate the AP's SSID and return its current channel number */
int parse_beacon_tags(const unsigned char *packet, size_t len)
{
	set_vendor(0, "\0\0\0");
	char *ssid = NULL;
	const unsigned char *tag_data = NULL;
	unsigned char *ie = NULL, *channel_data = NULL;
	size_t ie_len = 0, ie_offset = 0, tag_len = 0, tag_offset = 0;
	int channel = 0;
	struct radio_tap_header *rt_header = NULL;

	rt_header = (struct radio_tap_header *) radio_header(packet, len);
	tag_offset = end_le16toh(rt_header->len) + sizeof(struct dot11_frame_header) + sizeof(struct beacon_management_frame);

	if(tag_offset < len)
	{
		tag_len = (len - tag_offset); /* this actually denotes length of the entire tag data area */
		tag_data = (const unsigned char *) (packet + tag_offset);

		/* If no SSID was manually specified, parse and save the AP SSID */
		if(get_ssid() == NULL)
		{
			ie = parse_ie_data(tag_data, tag_len, (uint8_t) SSID_TAG_NUMBER, &ie_len, &ie_offset);
			if(ie)
			{
				/* Return data is not null terminated; allocate ie_len+1 and memcpy string */
				ssid = malloc(ie_len+1);
				if(ssid)
				{
					memset(ssid, 0, (ie_len+1));
					memcpy(ssid, ie, ie_len);
					set_ssid(ssid);
					free(ssid);
				}

				free(ie);
			}
		}

		ie = parse_ie_data(tag_data, tag_len, HT_CAPS_TAG_NUMBER, &ie_len, &ie_offset);
		if(ie)
		{
			set_ap_htcaps(ie, ie_len);
			free(ie);
		}

		ie = parse_ie_data(tag_data, tag_len, (uint8_t) RATES_TAG_NUMBER, &ie_len, &ie_offset);
		if(ie)
		{
			set_ap_rates(ie, ie_len);
			free(ie);
		}

		ie = parse_ie_data(tag_data, tag_len, (uint8_t) ERATES_TAG_NUMBER, &ie_len, &ie_offset);
		if(ie)
		{
			set_ap_ext_rates(ie, ie_len);
			free(ie);
		}

		channel_data = parse_ie_data(tag_data, tag_len, (uint8_t) CHANNEL_TAG_NUMBER, &ie_len, &ie_offset);
		if(channel_data)
		{
			if(ie_len  == 1)
			{
				channel = *(uint8_t*)channel_data;
			}
			free(channel_data);
		}

		size_t ie_iterator = 0;
		do {
			const unsigned char *tag = tag_data + ie_iterator;
			// check for the length of the tag, and that its not microsoft
			if(tag[0] == VENDOR_SPECIFIC_TAG &&
			   ie_iterator+2+3 < tag_len &&
			   ((tag[1] < 11 && memcmp(tag+2, "\x00\x14\x6c", 3) && memcmp(tag+2, "\x00\x50\xf2", 3)) ||
			    (tag[1] == 30 && !(memcmp(tag+2, "\x00\x26\x86", 3))))) {
				set_vendor(1, tag + 2);
				break;
			}

		} while(get_next_ie(tag_data, tag_len, &ie_iterator));
	}

	return channel;
}