fix const char

author: max <max> 2003-02-12 20:49:39 (UTC)
committer: max <max> 2003-02-12 20:49:39 (UTC)
commit: dc326e87d4a958ee49210fff9d03967f8a183242 (patch) (unidiff)
tree: 618a8c9757ad4ed6108963ba06dedd30d8c41588
parent: 421f7d634a3b5d343834cfa1410d674ff78cf5b8 (diff)
download: opie-dc326e87d4a958ee49210fff9d03967f8a183242.zip
opie-dc326e87d4a958ee49210fff9d03967f8a183242.tar.gz
opie-dc326e87d4a958ee49210fff9d03967f8a183242.tar.bz2
1 files changed, 4 insertions, 4 deletions
diff --git a/noncore/net/wellenreiter/libwellenreiter/source/cardmode.cc b/noncore/net/wellenreiter/libwellenreiter/source/cardmode.cc
index cf50d8c..626b28c 100644
--- a/noncore/net/wellenreiter/libwellenreiter/source/cardmode.cc
+++ b/noncore/net/wellenreiter/libwellenreiter/source/cardmode.cc
@@ -15,140 +15,140 @@ int card_into_monitormode (pcap_t **orighandle, const char *device, int cardtype
  /* Checks if we have a device to sniff on */
  if(device == NULL)
  {
      wl_logerr("No device given");
      return 0;
  }
  
  /* Setting the promiscous and up flag to the interface */
  if (!card_set_promisc_up(device))
  {
    wl_logerr("Cannot set interface to promisc mode");
    return 0;
  } 
  wl_loginfo("Interface set to promisc mode");
  
  /* Check the cardtype and executes the commands to go into monitor mode */
  if (cardtype == CARD_TYPE_CISCO)
  {
      /* bring the sniffer into rfmon  mode */
      snprintf(CiscoRFMON, sizeof(CiscoRFMON) - 1, DEFAULT_PATH, device);
      if((CISCO_CONFIG_FILE = fopen(CiscoRFMON,"w")) == NULL)
      {
          wl_logerr("Cannot open config file: %s", strerror(errno));
          return 0;
      }
      fputs ("Mode: r",CISCO_CONFIG_FILE);
      fputs ("Mode: y",CISCO_CONFIG_FILE);
      fputs ("XmitPower: 1",CISCO_CONFIG_FILE);
      fclose(CISCO_CONFIG_FILE);
  }
  else if (cardtype == CARD_TYPE_NG)
  {
      char wlanngcmd[80];
      snprintf(wlanngcmd, sizeof(wlanngcmd) - 1, "$(which wlanctl-ng) %s lnxreq_wlansniff channel=%d enable=true", device, 1);
      if (system(wlanngcmd) != 0)
      {
          wl_logerr("Could not set %s in raw mode, check cardtype", device);
          return 0;
      }
  }
  else if (cardtype == CARD_TYPE_HOSTAP)
  {
                  int skfd;  
      skfd = socket(AF_INET, SOCK_STREAM, 0);
          struct iwreq wrq;
          wrq.u.mode = IW_MODE_MONITOR;
-          if(iw_set_ext(skfd,device,SIOCSIWMODE,&wrq)<0)
+          if(iw_set_ext(skfd,(char *) device,SIOCSIWMODE,&wrq)<0)
          {
            wl_logerr("Could not set hostap card %s to raw mode, check cardtype", device);
            return 0;
      }
      else
      {
            wl_loginfo("Successfully set hostap card %s into raw mode",device);
            return 1;
      }
    return 1;
  }
  else if (cardtype == CARD_TYPE_ORINOCCO )
  {
         if (!card_set_channel (device, 1, CARD_TYPE_ORINOCCO))
         {
            wl_logerr("Could not set %s in raw mode, check cardtype", device);
            return 0;
      }
      else
      {
            wl_loginfo("Successfully set %s into raw mode",device);
      }
  }
  /* Setting the promiscous and up flag to the interface */
  if (!card_check_rfmon_datalink(device))
  {
    wl_logerr("Cannot set interface to rfmon mode");
    return 0;
  }
  else 
  {
    wl_loginfo("Interface set to rfmon mode");
  }
  return 1;
 }
 /* Check card is in the rfmon mode */
 int card_check_rfmon_datalink (const char *device)
 {
  int datalinktype=0;
  pcap_t *phandle;
-  phandle = pcap_open_live(device, 65,0,0,NULL);
+  phandle = pcap_open_live((char *)device, 65,0,0,NULL);
  datalinktype = pcap_datalink (phandle);
  pcap_close(phandle);
  if (datalinktype != DLT_IEEE802_11) /* Rawmode is IEEE802_11 */
    {
        return 0;
    }
  else
  {
    wl_loginfo("Your successfully listen on %s in 802.11 raw mode", device);
    return 1; 
  }
 }
 /* Set card into promisc mode */
 int card_set_promisc_up (const char *device)
 {
    int err;
    /* First generate a socket to use with iocalls */
    int fd = socket(AF_INET, SOCK_DGRAM, 0);
    if (fd < 0)
    {
        /* In case of an error */
        perror("socket");
        return 0;
    }
    /* Fill an empty an interface structure with the right flags (UP and Promsic) */
    struct ifreq ifr;
    strncpy(ifr.ifr_name, device,10);
    ifr.ifr_flags = IFF_UP + IFF_PROMISC;
    err = ioctl(fd, SIOCSIFFLAGS, &ifr);
    if (err < 0)
    {
            perror("Could not access the interface, ");
            close(fd);
        return 0;
    }
    
    /* Get the informations back from the interface to check if the flags are correct */
    strncpy(ifr.ifr_name, device,10);
    err = ioctl(fd, SIOCGIFFLAGS, &ifr);
    if (err < 0)
    {
        perror("Could not access the interface, ");
            close(fd);
        return 0;
    }
@@ -171,142 +171,142 @@ int card_set_channel (const char *device, int channel, int cardtype)
 {
    if (cardtype == CARD_TYPE_CISCO || cardtype == CARD_TYPE_NG)
    {
            /* Cisco and wlan-ng drivers don't need channelswitching */
            return 1;
    }
    /* If it is a lucent orinocco card */ 
    else if (cardtype == CARD_TYPE_ORINOCCO)
    {
            int fd;
           //Wireless tools structure for the iocalls
           struct iwreq ireq;  
           int *ptr;
           /* Socket needed to use the iocall to */
           fd = socket(AF_INET, SOCK_STREAM, 0);
           if ( fd == -1 ) {
              return -1;
           }
           ptr = (int *) ireq.u.name;
           // This is the monitor mode for 802.11 non-prism header
           ptr[0] = 2;
           ptr[1] = channel;
           strcpy(ireq.ifr_ifrn.ifrn_name, device);
           if (ioctl( fd, SIOCIWFIRSTPRIV + 0x8, &ireq)==0)
           {
                  /* All was fine... */
                  close(fd);
                wl_loginfo("Set channel %d on interface %s",channel, device);
               return 1;
           }
           else
           {
                      /* iocall does not work */
                        close(fd);
                        wl_logerr("Could not set channel %d on %s, check cardtype",channel, device);
                        return 0;
           }
    }
        /* when it is an hostap card you need another iocall for channel switching */
            else if (cardtype == CARD_TYPE_HOSTAP)
    {
                  int skfd;  
      skfd = socket(AF_INET, SOCK_STREAM, 0);
          struct iwreq wrq;
      iw_float2freq((double) channel, &wrq.u.freq);
-          if(iw_set_ext(skfd,device,SIOCSIWFREQ,&wrq)<0)
+          if(iw_set_ext(skfd,(char *) device,SIOCSIWFREQ,&wrq)<0)
          {
            wl_logerr("Could not set hostap card %s to channel %d", device, channel);
            return 0;
      }
      else
      {
            wl_loginfo("Successfully set hostap card %s to channel %d", device, channel);
            return 1;
      }
        }
    /* For undefined situations */
        return 0;
 }
 int card_detect_channels (char * device)
 {
        int skfd;
    skfd = socket(AF_INET, SOCK_STREAM, 0);
            struct iw_rangerange;
    /* Get list of frequencies / channels */
                printf ("\n hostap card get the frequencies");
        /* Get list of frequencies / channels */
        if(iw_get_range_info(skfd, device, &range) < 0)
            {   /* We are failsave if something went wrong, asume only 11 channels */
                   return 11;
            }
            else
        {
                if(range.num_frequency > 0)
                        {
                                return range.num_frequency;
                        }
                        else
                        {   /* We are failsave asume only 11 channels */
                                return 11;
                        }
                }
 } /* End of card_detect_channels */ 
 int iw_get_range_info(int skfd, const char * ifname,  iw_range * range)
 {
  struct iwreq wrq2;
          char   buffer[sizeof(iw_range) * 2];/* Large enough */
  /* Cleanup */
  memset(buffer, 0, sizeof(buffer));
  wrq2.u.data.pointer = (caddr_t) buffer;
  wrq2.u.data.length = sizeof(buffer);
  wrq2.u.data.flags = 0;
-  if(iw_get_ext(skfd, ifname, SIOCGIWRANGE, &wrq2) < 0)
+  if(iw_get_ext(skfd, (char *)ifname, SIOCGIWRANGE, &wrq2) < 0)
  {
      wl_logerr("Could not get the range from the interface");
          return(-1);
  }
  else
  {
      /* Copy stuff at the right place, ignore extra */
      memcpy((char *) range, buffer, sizeof(iw_range));
      return 0;
  }
 }
 /*------------------------------------------------------------------*/
 /*
 * Convert our internal representation of frequencies to a floating point.
 */  
 double iw_freq2float(iw_freq *  in)
 {
  int           i;
  double        res = (double) in->m;
  for(i = 0; i < in->e; i++)
    res *= 10;
  return(res);
 }
        void iw_float2freq(double       in, iw_freq *out)
 {
  /* Version without libm : slower */
  out->e = 0;
  while(in > 1e9)
    {
      in /= 10;
      out->e++;
    }
  out->m = (long) in;
 }
author	max <max>	2003-02-12 20:49:39 (UTC)
committer	max <max>	2003-02-12 20:49:39 (UTC)
commit	dc326e87d4a958ee49210fff9d03967f8a183242 (patch) (unidiff)
tree	618a8c9757ad4ed6108963ba06dedd30d8c41588
parent	421f7d634a3b5d343834cfa1410d674ff78cf5b8 (diff)
download	opie-dc326e87d4a958ee49210fff9d03967f8a183242.zip opie-dc326e87d4a958ee49210fff9d03967f8a183242.tar.gz opie-dc326e87d4a958ee49210fff9d03967f8a183242.tar.bz2

diff --git a/noncore/net/wellenreiter/libwellenreiter/source/cardmode.cc b/noncore/net/wellenreiter/libwellenreiter/source/cardmode.cc index cf50d8c..626b28c 100644 --- a/noncore/net/wellenreiter/libwellenreiter/source/cardmode.cc +++ b/noncore/net/wellenreiter/libwellenreiter/source/cardmode.cc
@@ -15,140 +15,140 @@ int card_into_monitormode (pcap_t *orighandle, const char device, int cardtype
15		15
16	/* Checks if we have a device to sniff on */	16	/* Checks if we have a device to sniff on */
17	if(device == NULL)	17	if(device == NULL)
18	{	18	{
19	wl_logerr("No device given");	19	wl_logerr("No device given");
20	return 0;	20	return 0;
21	}	21	}
22		22
23	/* Setting the promiscous and up flag to the interface */	23	/* Setting the promiscous and up flag to the interface */
24	if (!card_set_promisc_up(device))	24	if (!card_set_promisc_up(device))
25	{	25	{
26	wl_logerr("Cannot set interface to promisc mode");	26	wl_logerr("Cannot set interface to promisc mode");
27	return 0;	27	return 0;
28	}	28	}
29	wl_loginfo("Interface set to promisc mode");	29	wl_loginfo("Interface set to promisc mode");
30		30
31	/* Check the cardtype and executes the commands to go into monitor mode */	31	/* Check the cardtype and executes the commands to go into monitor mode */
32	if (cardtype == CARD_TYPE_CISCO)	32	if (cardtype == CARD_TYPE_CISCO)
33	{	33	{
34	/* bring the sniffer into rfmon mode */	34	/* bring the sniffer into rfmon mode */
35	snprintf(CiscoRFMON, sizeof(CiscoRFMON) - 1, DEFAULT_PATH, device);	35	snprintf(CiscoRFMON, sizeof(CiscoRFMON) - 1, DEFAULT_PATH, device);
36	if((CISCO_CONFIG_FILE = fopen(CiscoRFMON,"w")) == NULL)	36	if((CISCO_CONFIG_FILE = fopen(CiscoRFMON,"w")) == NULL)
37	{	37	{
38	wl_logerr("Cannot open config file: %s", strerror(errno));	38	wl_logerr("Cannot open config file: %s", strerror(errno));
39	return 0;	39	return 0;
40	}	40	}
41	fputs ("Mode: r",CISCO_CONFIG_FILE);	41	fputs ("Mode: r",CISCO_CONFIG_FILE);
42	fputs ("Mode: y",CISCO_CONFIG_FILE);	42	fputs ("Mode: y",CISCO_CONFIG_FILE);
43	fputs ("XmitPower: 1",CISCO_CONFIG_FILE);	43	fputs ("XmitPower: 1",CISCO_CONFIG_FILE);
44	fclose(CISCO_CONFIG_FILE);	44	fclose(CISCO_CONFIG_FILE);
45	}	45	}
46	else if (cardtype == CARD_TYPE_NG)	46	else if (cardtype == CARD_TYPE_NG)
47	{	47	{
48	char wlanngcmd[80];	48	char wlanngcmd[80];
49	snprintf(wlanngcmd, sizeof(wlanngcmd) - 1, "$(which wlanctl-ng) %s lnxreq_wlansniff channel=%d enable=true", device, 1);	49	snprintf(wlanngcmd, sizeof(wlanngcmd) - 1, "$(which wlanctl-ng) %s lnxreq_wlansniff channel=%d enable=true", device, 1);
50	if (system(wlanngcmd) != 0)	50	if (system(wlanngcmd) != 0)
51	{	51	{
52	wl_logerr("Could not set %s in raw mode, check cardtype", device);	52	wl_logerr("Could not set %s in raw mode, check cardtype", device);
53	return 0;	53	return 0;
54	}	54	}
55	}	55	}
56	else if (cardtype == CARD_TYPE_HOSTAP)	56	else if (cardtype == CARD_TYPE_HOSTAP)
57	{	57	{
58	int skfd;	58	int skfd;
59	skfd = socket(AF_INET, SOCK_STREAM, 0);	59	skfd = socket(AF_INET, SOCK_STREAM, 0);
60	struct iwreq wrq;	60	struct iwreq wrq;
61	wrq.u.mode = IW_MODE_MONITOR;	61	wrq.u.mode = IW_MODE_MONITOR;
62		62
63	if(iw_set_ext(skfd,device,SIOCSIWMODE,&wrq)<0)	63	if(iw_set_ext(skfd,(char *) device,SIOCSIWMODE,&wrq)<0)
64	{	64	{
65	wl_logerr("Could not set hostap card %s to raw mode, check cardtype", device);	65	wl_logerr("Could not set hostap card %s to raw mode, check cardtype", device);
66	return 0;	66	return 0;
67	}	67	}
68	else	68	else
69	{	69	{
70	wl_loginfo("Successfully set hostap card %s into raw mode",device);	70	wl_loginfo("Successfully set hostap card %s into raw mode",device);
71	return 1;	71	return 1;
72	}	72	}
73	return 1;	73	return 1;
74	}	74	}
75	else if (cardtype == CARD_TYPE_ORINOCCO )	75	else if (cardtype == CARD_TYPE_ORINOCCO )
76	{	76	{
77	if (!card_set_channel (device, 1, CARD_TYPE_ORINOCCO))	77	if (!card_set_channel (device, 1, CARD_TYPE_ORINOCCO))
78	{	78	{
79	wl_logerr("Could not set %s in raw mode, check cardtype", device);	79	wl_logerr("Could not set %s in raw mode, check cardtype", device);
80	return 0;	80	return 0;
81	}	81	}
82	else	82	else
83	{	83	{
84	wl_loginfo("Successfully set %s into raw mode",device);	84	wl_loginfo("Successfully set %s into raw mode",device);
85	}	85	}
86	}	86	}
87		87
88	/* Setting the promiscous and up flag to the interface */	88	/* Setting the promiscous and up flag to the interface */
89	if (!card_check_rfmon_datalink(device))	89	if (!card_check_rfmon_datalink(device))
90	{	90	{
91	wl_logerr("Cannot set interface to rfmon mode");	91	wl_logerr("Cannot set interface to rfmon mode");
92	return 0;	92	return 0;
93	}	93	}
94	else	94	else
95	{	95	{
96	wl_loginfo("Interface set to rfmon mode");	96	wl_loginfo("Interface set to rfmon mode");
97	}	97	}
98	return 1;	98	return 1;
99	}	99	}
100		100
101	/* Check card is in the rfmon mode */	101	/* Check card is in the rfmon mode */
102	int card_check_rfmon_datalink (const char *device)	102	int card_check_rfmon_datalink (const char *device)
103	{	103	{
104	int datalinktype=0;	104	int datalinktype=0;
105	pcap_t *phandle;	105	pcap_t *phandle;
106	phandle = pcap_open_live(device, 65,0,0,NULL);	106	phandle = pcap_open_live((char *)device, 65,0,0,NULL);
107	datalinktype = pcap_datalink (phandle);	107	datalinktype = pcap_datalink (phandle);
108	pcap_close(phandle);	108	pcap_close(phandle);
109		109
110	if (datalinktype != DLT_IEEE802_11) /* Rawmode is IEEE802_11 */	110	if (datalinktype != DLT_IEEE802_11) /* Rawmode is IEEE802_11 */
111	{	111	{
112	return 0;	112	return 0;
113	}	113	}
114	else	114	else
115	{	115	{
116	wl_loginfo("Your successfully listen on %s in 802.11 raw mode", device);	116	wl_loginfo("Your successfully listen on %s in 802.11 raw mode", device);
117	return 1;	117	return 1;
118	}	118	}
119	}	119	}
120		120
121	/* Set card into promisc mode */	121	/* Set card into promisc mode */
122	int card_set_promisc_up (const char *device)	122	int card_set_promisc_up (const char *device)
123	{	123	{
124	int err;	124	int err;
125	/* First generate a socket to use with iocalls */	125	/* First generate a socket to use with iocalls */
126	int fd = socket(AF_INET, SOCK_DGRAM, 0);	126	int fd = socket(AF_INET, SOCK_DGRAM, 0);
127	if (fd < 0)	127	if (fd < 0)
128	{	128	{
129	/* In case of an error */	129	/* In case of an error */
130	perror("socket");	130	perror("socket");
131	return 0;	131	return 0;
132	}	132	}
133		133
134	/* Fill an empty an interface structure with the right flags (UP and Promsic) */	134	/* Fill an empty an interface structure with the right flags (UP and Promsic) */
135	struct ifreq ifr;	135	struct ifreq ifr;
136	strncpy(ifr.ifr_name, device,10);	136	strncpy(ifr.ifr_name, device,10);
137	ifr.ifr_flags = IFF_UP + IFF_PROMISC;	137	ifr.ifr_flags = IFF_UP + IFF_PROMISC;
138	err = ioctl(fd, SIOCSIFFLAGS, &ifr);	138	err = ioctl(fd, SIOCSIFFLAGS, &ifr);
139	if (err < 0)	139	if (err < 0)
140	{	140	{
141	perror("Could not access the interface, ");	141	perror("Could not access the interface, ");
142	close(fd);	142	close(fd);
143	return 0;	143	return 0;
144	}	144	}
145		145
146	/* Get the informations back from the interface to check if the flags are correct */	146	/* Get the informations back from the interface to check if the flags are correct */
147	strncpy(ifr.ifr_name, device,10);	147	strncpy(ifr.ifr_name, device,10);
148	err = ioctl(fd, SIOCGIFFLAGS, &ifr);	148	err = ioctl(fd, SIOCGIFFLAGS, &ifr);
149	if (err < 0)	149	if (err < 0)
150	{	150	{
151	perror("Could not access the interface, ");	151	perror("Could not access the interface, ");
152	close(fd);	152	close(fd);
153	return 0;	153	return 0;
154	}	154	}
@@ -171,142 +171,142 @@ int card_set_channel (const char *device, int channel, int cardtype)
171	{	171	{
172	if (cardtype == CARD_TYPE_CISCO \|\| cardtype == CARD_TYPE_NG)	172	if (cardtype == CARD_TYPE_CISCO \|\| cardtype == CARD_TYPE_NG)
173	{	173	{
174	/* Cisco and wlan-ng drivers don't need channelswitching */	174	/* Cisco and wlan-ng drivers don't need channelswitching */
175	return 1;	175	return 1;
176	}	176	}
177	/* If it is a lucent orinocco card */	177	/* If it is a lucent orinocco card */
178	else if (cardtype == CARD_TYPE_ORINOCCO)	178	else if (cardtype == CARD_TYPE_ORINOCCO)
179	{	179	{
180	int fd;	180	int fd;
181	//Wireless tools structure for the iocalls	181	//Wireless tools structure for the iocalls
182	struct iwreq ireq;	182	struct iwreq ireq;
183	int *ptr;	183	int *ptr;
184	/* Socket needed to use the iocall to */	184	/* Socket needed to use the iocall to */
185	fd = socket(AF_INET, SOCK_STREAM, 0);	185	fd = socket(AF_INET, SOCK_STREAM, 0);
186		186
187	if ( fd == -1 ) {	187	if ( fd == -1 ) {
188	return -1;	188	return -1;
189	}	189	}
190		190
191	ptr = (int *) ireq.u.name;	191	ptr = (int *) ireq.u.name;
192	// This is the monitor mode for 802.11 non-prism header	192	// This is the monitor mode for 802.11 non-prism header
193	ptr[0] = 2;	193	ptr[0] = 2;
194	ptr[1] = channel;	194	ptr[1] = channel;
195	strcpy(ireq.ifr_ifrn.ifrn_name, device);	195	strcpy(ireq.ifr_ifrn.ifrn_name, device);
196	if (ioctl( fd, SIOCIWFIRSTPRIV + 0x8, &ireq)==0)	196	if (ioctl( fd, SIOCIWFIRSTPRIV + 0x8, &ireq)==0)
197	{	197	{
198	/* All was fine... */	198	/* All was fine... */
199	close(fd);	199	close(fd);
200	wl_loginfo("Set channel %d on interface %s",channel, device);	200	wl_loginfo("Set channel %d on interface %s",channel, device);
201	return 1;	201	return 1;
202	}	202	}
203	else	203	else
204	{	204	{
205	/* iocall does not work */	205	/* iocall does not work */
206	close(fd);	206	close(fd);
207	wl_logerr("Could not set channel %d on %s, check cardtype",channel, device);	207	wl_logerr("Could not set channel %d on %s, check cardtype",channel, device);
208	return 0;	208	return 0;
209	}	209	}
210	}	210	}
211	/* when it is an hostap card you need another iocall for channel switching */	211	/* when it is an hostap card you need another iocall for channel switching */
212	else if (cardtype == CARD_TYPE_HOSTAP)	212	else if (cardtype == CARD_TYPE_HOSTAP)
213	{	213	{
214	int skfd;	214	int skfd;
215	skfd = socket(AF_INET, SOCK_STREAM, 0);	215	skfd = socket(AF_INET, SOCK_STREAM, 0);
216	struct iwreq wrq;	216	struct iwreq wrq;
217	iw_float2freq((double) channel, &wrq.u.freq);	217	iw_float2freq((double) channel, &wrq.u.freq);
218		218
219	if(iw_set_ext(skfd,device,SIOCSIWFREQ,&wrq)<0)	219	if(iw_set_ext(skfd,(char *) device,SIOCSIWFREQ,&wrq)<0)
220	{	220	{
221	wl_logerr("Could not set hostap card %s to channel %d", device, channel);	221	wl_logerr("Could not set hostap card %s to channel %d", device, channel);
222	return 0;	222	return 0;
223	}	223	}
224	else	224	else
225	{	225	{
226	wl_loginfo("Successfully set hostap card %s to channel %d", device, channel);	226	wl_loginfo("Successfully set hostap card %s to channel %d", device, channel);
227	return 1;	227	return 1;
228	}	228	}
229	}	229	}
230	/* For undefined situations */	230	/* For undefined situations */
231	return 0;	231	return 0;
232	}	232	}
233		233
234		234
235	int card_detect_channels (char * device)	235	int card_detect_channels (char * device)
236	{	236	{
237	int skfd;	237	int skfd;
238	skfd = socket(AF_INET, SOCK_STREAM, 0);	238	skfd = socket(AF_INET, SOCK_STREAM, 0);
239	struct iw_rangerange;	239	struct iw_rangerange;
240	/* Get list of frequencies / channels */	240	/* Get list of frequencies / channels */
241	printf ("\n hostap card get the frequencies");	241	printf ("\n hostap card get the frequencies");
242	/* Get list of frequencies / channels */	242	/* Get list of frequencies / channels */
243	if(iw_get_range_info(skfd, device, &range) < 0)	243	if(iw_get_range_info(skfd, device, &range) < 0)
244	{ /* We are failsave if something went wrong, asume only 11 channels */	244	{ /* We are failsave if something went wrong, asume only 11 channels */
245	return 11;	245	return 11;
246	}	246	}
247	else	247	else
248	{	248	{
249	if(range.num_frequency > 0)	249	if(range.num_frequency > 0)
250	{	250	{
251	return range.num_frequency;	251	return range.num_frequency;
252	}	252	}
253	else	253	else
254	{ /* We are failsave asume only 11 channels */	254	{ /* We are failsave asume only 11 channels */
255	return 11;	255	return 11;
256	}	256	}
257	}	257	}
258		258
259	} /* End of card_detect_channels */	259	} /* End of card_detect_channels */
260		260
261	int iw_get_range_info(int skfd, const char * ifname, iw_range * range)	261	int iw_get_range_info(int skfd, const char * ifname, iw_range * range)
262	{	262	{
263	struct iwreq wrq2;	263	struct iwreq wrq2;
264	char buffer[sizeof(iw_range) * 2];/* Large enough */	264	char buffer[sizeof(iw_range) * 2];/* Large enough */
265		265
266	/* Cleanup */	266	/* Cleanup */
267	memset(buffer, 0, sizeof(buffer));	267	memset(buffer, 0, sizeof(buffer));
268	wrq2.u.data.pointer = (caddr_t) buffer;	268	wrq2.u.data.pointer = (caddr_t) buffer;
269	wrq2.u.data.length = sizeof(buffer);	269	wrq2.u.data.length = sizeof(buffer);
270	wrq2.u.data.flags = 0;	270	wrq2.u.data.flags = 0;
271		271
272	if(iw_get_ext(skfd, ifname, SIOCGIWRANGE, &wrq2) < 0)	272	if(iw_get_ext(skfd, (char *)ifname, SIOCGIWRANGE, &wrq2) < 0)
273	{	273	{
274	wl_logerr("Could not get the range from the interface");	274	wl_logerr("Could not get the range from the interface");
275	return(-1);	275	return(-1);
276	}	276	}
277	else	277	else
278	{	278	{
279	/* Copy stuff at the right place, ignore extra */	279	/* Copy stuff at the right place, ignore extra */
280	memcpy((char *) range, buffer, sizeof(iw_range));	280	memcpy((char *) range, buffer, sizeof(iw_range));
281	return 0;	281	return 0;
282	}	282	}
283	}	283	}
284		284
285	/------------------------------------------------------------------/	285	/------------------------------------------------------------------/
286	/*	286	/*
287	* Convert our internal representation of frequencies to a floating point.	287	* Convert our internal representation of frequencies to a floating point.
288	*/	288	*/
289	double iw_freq2float(iw_freq * in)	289	double iw_freq2float(iw_freq * in)
290	{	290	{
291	int i;	291	int i;
292	double res = (double) in->m;	292	double res = (double) in->m;
293	for(i = 0; i < in->e; i++)	293	for(i = 0; i < in->e; i++)
294	res *= 10;	294	res *= 10;
295	return(res);	295	return(res);
296	}	296	}
297		297
298		298
299	void iw_float2freq(double in, iw_freq *out)	299	void iw_float2freq(double in, iw_freq *out)
300	{	300	{
301	/* Version without libm : slower */	301	/* Version without libm : slower */
302	out->e = 0;	302	out->e = 0;
303	while(in > 1e9)	303	while(in > 1e9)
304	{	304	{
305	in /= 10;	305	in /= 10;
306	out->e++;	306	out->e++;
307	}	307	}
308	out->m = (long) in;	308	out->m = (long) in;
309	}	309	}
310		310
311		311
312		312