author | mjm <mjm> | 2002-12-28 12:59:38 (UTC) |
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committer | mjm <mjm> | 2002-12-28 12:59:38 (UTC) |
commit | 1adf0d153cd8c4714719183af45ed703abef0a43 (patch) (side-by-side diff) | |
tree | 8845f1bbee4d050a18a6e5fa970bb5adaa277bc0 | |
parent | 7a6a55d19048de7920eb885e80a26e1bef0f66e4 (diff) | |
download | opie-1adf0d153cd8c4714719183af45ed703abef0a43.zip opie-1adf0d153cd8c4714719183af45ed703abef0a43.tar.gz opie-1adf0d153cd8c4714719183af45ed703abef0a43.tar.bz2 |
cleanup
4 files changed, 19 insertions, 19 deletions
diff --git a/noncore/net/wellenreiter/libwellenreiter/source/cardmode.cc b/noncore/net/wellenreiter/libwellenreiter/source/cardmode.cc index c29f4d0..7362f14 100644 --- a/noncore/net/wellenreiter/libwellenreiter/source/cardmode.cc +++ b/noncore/net/wellenreiter/libwellenreiter/source/cardmode.cc @@ -1,77 +1,74 @@ /* * Set card modes for sniffing * * $Id$ */ #include "cardmode.hh" #include "wl_log.hh" /* main card into monitor function */ int card_into_monitormode (pcap_t **orighandle, char *device, int cardtype) { char CiscoRFMON[35] = "/proc/driver/aironet/"; FILE *CISCO_CONFIG_FILE; /* Checks if we have a device to sniff on */ if(device == NULL) { wl_logerr("No device given"); return 0; } - /* Setting the prmiscous and up flag to the interface */ + /* Setting the promiscous and up flag to the interface */ if (!card_set_promisc_up(device)) { wl_logerr("Cannot set interface to promisc mode: %s", strerror(errno)); 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[62]; snprintf(wlanngcmd, sizeof(wlanngcmd) - 1, "%s %s lnxreq_wlansniff channel=1 enable=true", WLANCTL_PATH, device); if (system(wlanngcmd) != 0) { wl_logerr("Could not set %s in raw mode, check cardtype", device); return 0; } } else if (cardtype == CARD_TYPE_HOSTAP) { wl_logerr("Got a host-ap card, nothing is implemented now"); } return 1; } /* Set card into promisc mode */ int card_set_promisc_up (const char *device) { - char ifconfigcmd[32]; + char ifconfigcmd[48]; int retval=0; snprintf(ifconfigcmd, sizeof(ifconfigcmd) - 1, SBIN_PATH, device); retval = system(ifconfigcmd); - if(retval != 0) - return 0; - -return 1; + return (retval ? 0 : 1); } diff --git a/noncore/net/wellenreiter/libwellenreiter/source/sniff.cc b/noncore/net/wellenreiter/libwellenreiter/source/sniff.cc index e2169ca..9b4e360 100644 --- a/noncore/net/wellenreiter/libwellenreiter/source/sniff.cc +++ b/noncore/net/wellenreiter/libwellenreiter/source/sniff.cc @@ -1,319 +1,323 @@ /* * rfmon mode sniffer * * $Id$ */ #include "sniff.hh" #include "ieee802_11.hh" #include "extract.hh" #include "wl_log.hh" #include "wl_proto.hh" /* Main function, checks packets */ void process_packets(const struct pcap_pkthdr *pkthdr, const unsigned char *packet, char *guihost, int guiport) { unsigned int caplen = pkthdr->caplen; unsigned int length = pkthdr->len; u_int16_t fc; unsigned int HEADER_LENGTH; /* pinfo holds all interresting information for us */ struct packetinfo pinfo; struct packetinfo *pinfoptr; /* wl_network_t will finally be set and send to the ui */ wl_network_t wl_net; pinfoptr=&pinfo; pinfoptr->isvalid = 0; pinfoptr->pktlen = pkthdr->len; if (caplen < IEEE802_11_FC_LEN) { /* This is a garbage packet, because is does not long enough to hold a 802.11b header */ pinfoptr->isvalid = 0; return; } /* Gets the framecontrol bits (2bytes long) */ fc = EXTRACT_LE_16BITS(packet); HEADER_LENGTH = GetHeaderLength(fc); if (caplen < HEADER_LENGTH) { /* This is a garbage packet, because it is not long enough to hold a correct header of its type */ pinfoptr->isvalid = 0; return; } /* Decode 802.11b header out of the packet */ if (decode_80211b_hdr(packet,pinfoptr) == 0) { /* Justification of the ofset to further process the packet */ length -= HEADER_LENGTH; caplen -= HEADER_LENGTH; packet += HEADER_LENGTH; } else /* Something is wrong,could not be a correct packet */ return; switch (FC_TYPE(fc)) { /* Is it a managemnet frame? */ case T_MGMT: switch (FC_SUBTYPE(fc)) { case ST_BEACON: if (handle_beacon(fc, packet,pinfoptr) ==0) { if (!strcmp(pinfoptr->desthwaddr,"ff:ff:ff:ff:ff:ff") == 0) { /* Every beacon must have the broadcast as destination so it must be a shitti packet */ pinfoptr->isvalid = 0; return; } if (pinfoptr->cap_ESS == pinfoptr->cap_IBSS) { /* Only one of both are possible, so must be a noise packet, if this comes up */ pinfoptr->isvalid = 0; return; } if (pinfoptr->channel < 1 || pinfoptr->channel > 14) { /* Only channels between 1 and 14 are possible others must be noise packets */ pinfoptr->isvalid = 0; return; } /* Here should be the infos to the gui issued */ if (pinfoptr->cap_ESS == 1 &&pinfoptr->cap_IBSS ==0) { wl_loginfo("Found an access point"); wl_net.net_type=1; } else if(pinfoptr->cap_ESS == 0 && pinfoptr->cap_IBSS == 2) { wl_loginfo("Found an ad-hoc network"); wl_net.net_type=2; } if (strcmp (pinfoptr->ssid,NONBROADCASTING) ==0) wl_loginfo("Net is a non-broadcasting network"); else wl_loginfo("SSID is: %s", pinfoptr->ssid); wl_loginfo("SSID is: %s", pinfoptr->ssid); memcpy(wl_net.bssid, pinfoptr->ssid, sizeof(wl_net.bssid)-1); wl_loginfo("SSID length is: %d", pinfoptr->ssid_len); wl_net.ssid_len=pinfoptr->ssid_len; wl_loginfo("Channel is: %d", pinfoptr->channel); wl_net.channel=pinfoptr->channel; wl_net.wep=pinfoptr->cap_WEP; wl_loginfo("Mac is: %s", pinfoptr->sndhwaddr); memcpy(wl_net.mac, pinfoptr->sndhwaddr, sizeof(wl_net.mac)-1);; - send_network_found((char *)guihost, guiport, &wl_net); + if(!send_network_found((char *)guihost, guiport, &wl_net)) + { + wl_logerr("Error sending data to UI: %s", strerror(errno)); + break; + } wl_loginfo("Sent network to GUI '%s:%d'", guihost, guiport); } break; default: wl_logerr("Unknown IEEE802.11 frame subtype (%d)", FC_SUBTYPE(fc)); break; } /* End of switch over different mgt frame types */ break; case T_CTRL: wl_loginfo("Received control frame, not implemented yet"); break; case T_DATA: wl_loginfo("Received date frame, not implemented yet"); break; default: wl_logerr("Unknown IEEE802.11 frame type (%d)", FC_TYPE(fc)); break; } } /* This decodes the 802.11b frame header out of the 802.11b packet all the infos is placed into the packetinfo structure */ int decode_80211b_hdr(const u_char *p,struct packetinfo *ppinfo) { const struct mgmt_header_t *mgthdr = (const struct mgmt_header_t *) p; ppinfo->fcsubtype = FC_SUBTYPE(mgthdr->fc); /* Get the sender, bssid and dest mac address */ etheraddr_string(mgthdr->bssid,ppinfo->bssid); etheraddr_string(mgthdr->da,ppinfo->desthwaddr); etheraddr_string(mgthdr->sa,ppinfo->sndhwaddr); ppinfo->fc_wep = FC_WEP(mgthdr->fc); return 0; } void etheraddr_string(register const u_char *ep, char *text) { static char hex[] = "0123456789abcdef"; register unsigned int i, j; register char *cp; char buf[sizeof("00:00:00:00:00:00\0")]; cp = buf; if ((j = *ep >> 4) != 0) { *cp++ = hex[j]; } else { *cp++ = '0'; } *cp++ = hex[*ep++ & 0xf]; for (i = 5; (int)--i >= 0;) { *cp++ = ':'; if ((j = *ep >> 4) != 0) { *cp++ = hex[j]; } else { *cp++ = '0'; } *cp++ = hex[*ep++ & 0xf]; } *cp = '\0'; strcpy(text,buf); } /* beacon handler */ int handle_beacon(u_int16_t fc, const u_char *p,struct packetinfo *ppinfo) { struct mgmt_body_t pbody; int offset = 0; /* Get the static informations out of the packet */ memset(&pbody, 0, sizeof(pbody)); memcpy(&pbody.timestamp, p, 8); offset += 8; pbody.beacon_interval = EXTRACT_LE_16BITS(p+offset); offset += 2; pbody.capability_info = EXTRACT_LE_16BITS(p+offset); offset += 2; /* Gets the different flags out of the capabilities */ ppinfo->cap_ESS = CAPABILITY_ESS(pbody.capability_info); ppinfo->cap_IBSS = CAPABILITY_IBSS(pbody.capability_info); ppinfo->cap_WEP = CAPABILITY_PRIVACY(pbody.capability_info); /* Gets the tagged elements out of the packets */ while (offset + 1 < ppinfo->pktlen) { switch (*(p + offset)) { case E_SSID: memcpy(&(pbody.ssid),p+offset,2); offset += 2; if (pbody.ssid.length > 0) { memcpy(&(pbody.ssid.ssid),p+offset,pbody.ssid.length); offset += pbody.ssid.length; pbody.ssid.ssid[pbody.ssid.length]='\0'; if (strcmp((char *)pbody.ssid.ssid,"")==0) memcpy(ppinfo->ssid, NONBROADCASTING, sizeof(ppinfo->ssid)); else memcpy(ppinfo->ssid, pbody.ssid.ssid, sizeof(ppinfo->ssid)); ppinfo->ssid_len = pbody.ssid.length; } break; case E_CHALLENGE: memcpy(&(pbody.challenge),p+offset,2); offset += 2; if (pbody.challenge.length > 0) { memcpy(&(pbody.challenge.text),p+offset,pbody.challenge.length); offset += pbody.challenge.length; pbody.challenge.text[pbody.challenge.length]='\0'; } break; case E_RATES: memcpy(&(pbody.rates),p+offset,2); offset += 2; if (pbody.rates.length > 0) { memcpy(&(pbody.rates.rate),p+offset,pbody.rates.length); offset += pbody.rates.length; } break; case E_DS: memcpy(&(pbody.ds),p+offset,3); offset +=3; ppinfo->channel = pbody.ds.channel; break; case E_CF: memcpy(&(pbody.cf),p+offset,8); offset +=8; break; case E_TIM: memcpy(&(pbody.tim),p+offset,2); offset +=2; memcpy(&(pbody.tim.count),p+offset,3); offset +=3; if ((pbody.tim.length -3) > 0) { memcpy((pbody.tim.bitmap),p+(pbody.tim.length -3),(pbody.tim.length -3)); offset += pbody.tim.length -3; } break; default: offset+= *(p+offset+1) + 2; break; } /* end of switch*/ } /* end of for loop */ return 0; } /* End of handle_beacon */ int GetHeaderLength(u_int16_t fc) { int iLength=0; switch (FC_TYPE(fc)) { case T_MGMT: iLength = MGMT_HEADER_LEN; break; case T_CTRL: switch (FC_SUBTYPE(fc)) { case CTRL_PS_POLL: iLength = CTRL_PS_POLL_LEN; break; case CTRL_RTS: iLength = CTRL_RTS_LEN; break; case CTRL_CTS: iLength = CTRL_CTS_LEN; break; case CTRL_ACK: iLength = CTRL_ACK_LEN; break; case CTRL_CF_END: iLength = CTRL_END_LEN; break; case CTRL_END_ACK: iLength = CTRL_END_ACK_LEN; break; default: iLength = 0; break; } break; diff --git a/noncore/net/wellenreiter/libwellenreiter/source/wl_proto.cc b/noncore/net/wellenreiter/libwellenreiter/source/wl_proto.cc index f15523f..5317f52 100644 --- a/noncore/net/wellenreiter/libwellenreiter/source/wl_proto.cc +++ b/noncore/net/wellenreiter/libwellenreiter/source/wl_proto.cc @@ -1,132 +1,131 @@ /* * Communication protocol * * $Id$ */ #include "wl_proto.hh" #include "wl_log.hh" #include "wl_sock.hh" /* Adds a field to the buffer */ int add_field(char *buffer, char *string, int len) { char newlen[5]; /* 3 Byte = Length */ snprintf(newlen, sizeof(newlen) - 1, "%.3d", len); memcpy(buffer, newlen, 3); /* Length bytes = Value */ memcpy(buffer + 3, string, atoi(newlen)); /* Return length of attached field */ return (atoi(newlen) + 3); } int get_field(const char *buffer, char *out) { char len[5]; /* Get length of value */ memcpy(len, buffer, 3); /* Copy buffer to out pointer */ memset(out, 0, atoi(len) + 1); memcpy(out, buffer + 3, atoi(len)); - return atoi(len) + 3; + /* Return length of whole field (including 3 byte length) */ + return (atoi(len) + 3); } -/* Send found network to GUI */ +/* Send found network to UI */ int send_network_found (const char *guihost, int guiport, void *structure) { wl_network_t *ptr; char buffer[2048]; char temp[128]; int retval=0, len=0; memset(temp, 0, sizeof(temp)); ptr = (wl_network_t *)structure; /* Type = Found new net (without length field) */ memset(temp, 0, sizeof(temp)); snprintf(temp, sizeof(temp), "%.2d", NETFOUND); memcpy(buffer, temp, 2); len += 2; /* Set Net-type */ memset(temp, 0, sizeof(temp)); snprintf(temp, sizeof(temp), "%d", ptr->net_type); retval = add_field(buffer + len, temp, 1); len += retval; /* Set channel */ memset(temp, 0, sizeof(temp)); snprintf(temp, sizeof(temp), "%.2d", ptr->channel); retval = add_field(buffer + len, temp, 2); len += retval; /* Set WEP y/n */ memset(temp, 0, sizeof(temp)); snprintf(temp, sizeof(temp), "%d", ptr->wep); retval = add_field(buffer + len, temp, 1); len += retval; /* Set Mac */ - retval = add_field(buffer + len, (char *)ptr->mac, 17); + retval = add_field(buffer + len, ptr->mac, 17); len += retval; /* Set ssid */ - retval = add_field(buffer + len, (char *)ptr->bssid, ptr->ssid_len); + retval = add_field(buffer + len, ptr->bssid, ptr->ssid_len); - /* Send prepared buffer to GUI */ + /* Send prepared buffer to UI */ #ifdef DEBUG - wl_loginfo("Sending network to GUI: '%s'", buffer); + wl_loginfo("Sending network to UI: '%s'", buffer); #endif - wl_send(guihost, guiport, buffer); - - return 1; + return ((!wl_send(guihost, guiport, buffer)) ? 0 : 1); } /* Fill buffer into structur */ int get_network_found (void *structure, const char *buffer) { wl_network_t *ptr; char temp[512]; int retval=0, len=0; ptr = (wl_network_t *)structure; /* packet type already determined */ len += 2; /* Get net type */ memset(temp, 0, sizeof(temp)); retval = get_field(buffer + len, temp); len += retval; ptr->net_type = atoi(temp); /* Get channel */ memset(temp, 0, sizeof(temp)); retval = get_field(buffer + len, temp); len += retval; ptr->channel = atoi(temp); /* Set WEP y/n */ memset(temp, 0, sizeof(temp)); retval = get_field(buffer + len, temp); len += retval; ptr->wep = atoi(temp); /* Set MAC address */ retval = get_field(buffer + len, ptr->mac); len += retval; /* Set BSSID */ retval = get_field(buffer + len, ptr->bssid); return 1; } diff --git a/noncore/net/wellenreiter/libwellenreiter/source/wl_sock.cc b/noncore/net/wellenreiter/libwellenreiter/source/wl_sock.cc index 5714afb..4942fba 100644 --- a/noncore/net/wellenreiter/libwellenreiter/source/wl_sock.cc +++ b/noncore/net/wellenreiter/libwellenreiter/source/wl_sock.cc @@ -1,91 +1,91 @@ /* * Socket operations for wellenreiter * * $Id$ */ #include "wl_sock.hh" #include "wl_log.hh" /* Setup UDP Socket for incoming commands */ int wl_setupsock(const char *host, int port) { struct sockaddr_in saddr; int sock; if((sock=socket(AF_INET, SOCK_DGRAM, 0)) < 0) { wl_logerr("Cannot set up socket: %s", strerror(errno)); return -1; } memset(&saddr, 0, sizeof(saddr)); saddr.sin_family = PF_INET; saddr.sin_port = htons(port); saddr.sin_addr.s_addr = inet_addr(host); if(bind(sock,(struct sockaddr *)&saddr, sizeof(saddr)) < 0) { wl_logerr("Cannot bind socket: %s", strerror(errno)); close(sock); return -1; } return sock; } /* Send a string to commsock */ int wl_send(const char *host, int port, const char *string, ...) { int sock; char buffer[4096]; struct sockaddr_in saddr; va_list ap; /* Generate string */ memset(buffer, 0, sizeof(buffer)); va_start(ap, string); vsnprintf(buffer, sizeof(buffer)-1, string, ap); va_end(ap); saddr.sin_family = AF_INET; saddr.sin_port = htons(port); saddr.sin_addr.s_addr = inet_addr(host); /* Setup socket */ if((sock=socket(AF_INET, SOCK_DGRAM, 0)) < 0) { wl_logerr("Cannot set up socket: %s", strerror(errno)); - return -1; + return 0; } if(sendto(sock, buffer, sizeof(buffer), 0, (struct sockaddr *)&saddr, sizeof(saddr)) < 0) { wl_logerr("Cannot write to socket: %s", strerror(errno)); close(sock); - return -1; + return 0; } if(close(sock) < 0) wl_logerr("Cannot close socket: %s", strerror(errno)); - return 0; + return 1; } /* Check for new messages on commsock */ int wl_recv(int *sock, char *out, int maxlen) { struct sockaddr_in *cliaddr; socklen_t len=sizeof(struct sockaddr); char retval[3]; memset(out, 0, maxlen); if(recvfrom(*sock, out, maxlen - 1, 0, (struct sockaddr *)cliaddr, &len) < 0) return -1; /* Get packet type and return it */ memset(retval, 0, sizeof(retval)); memcpy(retval, out, 2); return atoi(retval); } |