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check_dhcp.c 39 KB

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  1. /*****************************************************************************
  2. *
  3. * Monitoring check_dhcp plugin
  4. *
  5. * License: GPL
  6. * Copyright (c) 2001-2004 Ethan Galstad (nagios@nagios.org)
  7. * Copyright (c) 2001-2007 Monitoring Plugins Development Team
  8. *
  9. * Description:
  10. *
  11. * This file contains the check_dhcp plugin
  12. *
  13. * This plugin tests the availability of DHCP servers on a network.
  14. *
  15. * Unicast mode was originally implemented by Heiti of Boras Kommun with
  16. * general improvements as well as usability fixes and "forward"-porting by
  17. * Andreas Ericsson of OP5 AB.
  18. *
  19. *
  20. * This program is free software: you can redistribute it and/or modify
  21. * it under the terms of the GNU General Public License as published by
  22. * the Free Software Foundation, either version 3 of the License, or
  23. * (at your option) any later version.
  24. *
  25. * This program is distributed in the hope that it will be useful,
  26. * but WITHOUT ANY WARRANTY; without even the implied warranty of
  27. * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
  28. * GNU General Public License for more details.
  29. *
  30. * You should have received a copy of the GNU General Public License
  31. * along with this program. If not, see <http://www.gnu.org/licenses/>.
  32. *
  33. *
  34. *****************************************************************************/
  35. const char *progname = "check_dhcp";
  36. const char *copyright = "2001-2007";
  37. const char *email = "devel@monitoring-plugins.org";
  38. #include "common.h"
  39. #include "netutils.h"
  40. #include "utils.h"
  41. #include <ctype.h>
  42. #include <stdio.h>
  43. #include <stdlib.h>
  44. #include <string.h>
  45. #include <errno.h>
  46. #include <unistd.h>
  47. #include <sys/time.h>
  48. #include <sys/ioctl.h>
  49. #include <fcntl.h>
  50. #include <getopt.h>
  51. #include <sys/socket.h>
  52. #include <sys/types.h>
  53. #include <netdb.h>
  54. #include <netinet/in.h>
  55. #include <net/if.h>
  56. #include <arpa/inet.h>
  57. #if HAVE_SYS_SOCKIO_H
  58. #include <sys/sockio.h>
  59. #endif
  60. #if defined( __linux__ )
  61. #include <linux/if_ether.h>
  62. #include <features.h>
  63. #elif defined (__bsd__)
  64. #include <netinet/if_ether.h>
  65. #include <sys/param.h>
  66. #include <sys/sysctl.h>
  67. #include <net/if_dl.h>
  68. #elif defined(__sun__) || defined(__solaris__) || defined(__hpux__)
  69. #define INSAP 22
  70. #define OUTSAP 24
  71. #include <signal.h>
  72. #include <ctype.h>
  73. #include <sys/stropts.h>
  74. #include <sys/poll.h>
  75. #include <sys/dlpi.h>
  76. #define bcopy(source, destination, length) memcpy(destination, source, length)
  77. #define AREA_SZ 5000 /* buffer length in bytes */
  78. static u_long ctl_area[AREA_SZ];
  79. static u_long dat_area[AREA_SZ];
  80. static struct strbuf ctl = {AREA_SZ, 0, (char *)ctl_area};
  81. static struct strbuf dat = {AREA_SZ, 0, (char *)dat_area};
  82. #define GOT_CTRL 1
  83. #define GOT_DATA 2
  84. #define GOT_BOTH 3
  85. #define GOT_INTR 4
  86. #define GOT_ERR 128
  87. #define u_int8_t uint8_t
  88. #define u_int16_t uint16_t
  89. #define u_int32_t uint32_t
  90. static int get_msg(int);
  91. static int check_ctrl(int);
  92. static int put_ctrl(int, int, int);
  93. static int put_both(int, int, int, int);
  94. static int dl_open(const char *, int, int *);
  95. static int dl_bind(int, int, u_char *);
  96. long mac_addr_dlpi( const char *, int, u_char *);
  97. #endif
  98. /**** Common definitions ****/
  99. #define OK 0
  100. #define ERROR -1
  101. #define FALSE 0
  102. #define TRUE 1
  103. /**** DHCP definitions ****/
  104. #define MAX_DHCP_CHADDR_LENGTH 16
  105. #define MAX_DHCP_SNAME_LENGTH 64
  106. #define MAX_DHCP_FILE_LENGTH 128
  107. #define MAX_DHCP_OPTIONS_LENGTH 312
  108. typedef struct dhcp_packet_struct{
  109. u_int8_t op; /* packet type */
  110. u_int8_t htype; /* type of hardware address for this machine (Ethernet, etc) */
  111. u_int8_t hlen; /* length of hardware address (of this machine) */
  112. u_int8_t hops; /* hops */
  113. u_int32_t xid; /* random transaction id number - chosen by this machine */
  114. u_int16_t secs; /* seconds used in timing */
  115. u_int16_t flags; /* flags */
  116. struct in_addr ciaddr; /* IP address of this machine (if we already have one) */
  117. struct in_addr yiaddr; /* IP address of this machine (offered by the DHCP server) */
  118. struct in_addr siaddr; /* IP address of next server */
  119. struct in_addr giaddr; /* IP address of DHCP relay */
  120. unsigned char chaddr [MAX_DHCP_CHADDR_LENGTH]; /* hardware address of this machine */
  121. char sname [MAX_DHCP_SNAME_LENGTH]; /* name of DHCP server */
  122. char file [MAX_DHCP_FILE_LENGTH]; /* boot file name (used for diskless booting?) */
  123. char options[MAX_DHCP_OPTIONS_LENGTH]; /* options */
  124. }dhcp_packet;
  125. typedef struct dhcp_offer_struct{
  126. struct in_addr server_address; /* address of DHCP server that sent this offer */
  127. struct in_addr offered_address; /* the IP address that was offered to us */
  128. u_int32_t lease_time; /* lease time in seconds */
  129. u_int32_t renewal_time; /* renewal time in seconds */
  130. u_int32_t rebinding_time; /* rebinding time in seconds */
  131. struct dhcp_offer_struct *next;
  132. }dhcp_offer;
  133. typedef struct requested_server_struct{
  134. struct in_addr server_address;
  135. int answered;
  136. struct requested_server_struct *next;
  137. }requested_server;
  138. #define BOOTREQUEST 1
  139. #define BOOTREPLY 2
  140. #define DHCPDISCOVER 1
  141. #define DHCPOFFER 2
  142. #define DHCPREQUEST 3
  143. #define DHCPDECLINE 4
  144. #define DHCPACK 5
  145. #define DHCPNACK 6
  146. #define DHCPRELEASE 7
  147. #define DHCP_OPTION_MESSAGE_TYPE 53
  148. #define DHCP_OPTION_HOST_NAME 12
  149. #define DHCP_OPTION_BROADCAST_ADDRESS 28
  150. #define DHCP_OPTION_REQUESTED_ADDRESS 50
  151. #define DHCP_OPTION_LEASE_TIME 51
  152. #define DHCP_OPTION_SERVER_IDENTIFIER 54
  153. #define DHCP_OPTION_RENEWAL_TIME 58
  154. #define DHCP_OPTION_REBINDING_TIME 59
  155. #define DHCP_OPTION_END 255
  156. #define DHCP_INFINITE_TIME 0xFFFFFFFF
  157. #define DHCP_BROADCAST_FLAG 32768
  158. #define DHCP_SERVER_PORT 67
  159. #define DHCP_CLIENT_PORT 68
  160. #define ETHERNET_HARDWARE_ADDRESS 1 /* used in htype field of dhcp packet */
  161. #define ETHERNET_HARDWARE_ADDRESS_LENGTH 6 /* length of Ethernet hardware addresses */
  162. u_int8_t unicast = 0; /* unicast mode: mimic a DHCP relay */
  163. struct in_addr my_ip; /* our address (required for relay) */
  164. struct in_addr dhcp_ip; /* server to query (if in unicast mode) */
  165. unsigned char client_hardware_address[MAX_DHCP_CHADDR_LENGTH]="";
  166. unsigned char *user_specified_mac=NULL;
  167. char network_interface_name[IFNAMSIZ]="eth0";
  168. u_int32_t packet_xid=0;
  169. u_int32_t dhcp_lease_time=0;
  170. u_int32_t dhcp_renewal_time=0;
  171. u_int32_t dhcp_rebinding_time=0;
  172. int dhcpoffer_timeout=2;
  173. dhcp_offer *dhcp_offer_list=NULL;
  174. requested_server *requested_server_list=NULL;
  175. int valid_responses=0; /* number of valid DHCPOFFERs we received */
  176. int requested_servers=0;
  177. int requested_responses=0;
  178. int request_specific_address=FALSE;
  179. int received_requested_address=FALSE;
  180. int verbose=0;
  181. struct in_addr requested_address;
  182. int process_arguments(int, char **);
  183. int call_getopt(int, char **);
  184. int validate_arguments(int, int);
  185. void print_usage(void);
  186. void print_help(void);
  187. void resolve_host(const char *in,struct in_addr *out);
  188. unsigned char *mac_aton(const char *);
  189. void print_hardware_address(const unsigned char *);
  190. int get_hardware_address(int,char *);
  191. int get_ip_address(int,char *);
  192. int send_dhcp_discover(int);
  193. int get_dhcp_offer(int);
  194. int get_results(void);
  195. int add_dhcp_offer(struct in_addr,dhcp_packet *);
  196. int free_dhcp_offer_list(void);
  197. int free_requested_server_list(void);
  198. int create_dhcp_socket(void);
  199. int close_dhcp_socket(int);
  200. int send_dhcp_packet(void *,int,int,struct sockaddr_in *);
  201. int receive_dhcp_packet(void *,int,int,int,struct sockaddr_in *);
  202. int main(int argc, char **argv){
  203. int dhcp_socket;
  204. int result = STATE_UNKNOWN;
  205. setlocale (LC_ALL, "");
  206. bindtextdomain (PACKAGE, LOCALEDIR);
  207. textdomain (PACKAGE);
  208. /* Parse extra opts if any */
  209. argv=np_extra_opts(&argc, argv, progname);
  210. if(process_arguments(argc,argv)!=OK){
  211. usage4 (_("Could not parse arguments"));
  212. }
  213. /* create socket for DHCP communications */
  214. dhcp_socket=create_dhcp_socket();
  215. /* get hardware address of client machine */
  216. if(user_specified_mac!=NULL)
  217. memcpy(client_hardware_address,user_specified_mac,6);
  218. else
  219. get_hardware_address(dhcp_socket,network_interface_name);
  220. if(unicast) /* get IP address of client machine */
  221. get_ip_address(dhcp_socket,network_interface_name);
  222. /* send DHCPDISCOVER packet */
  223. send_dhcp_discover(dhcp_socket);
  224. /* wait for a DHCPOFFER packet */
  225. get_dhcp_offer(dhcp_socket);
  226. /* close socket we created */
  227. close_dhcp_socket(dhcp_socket);
  228. /* determine state/plugin output to return */
  229. result=get_results();
  230. /* free allocated memory */
  231. free_dhcp_offer_list();
  232. free_requested_server_list();
  233. return result;
  234. }
  235. /* determines hardware address on client machine */
  236. int get_hardware_address(int sock,char *interface_name){
  237. #if defined(__linux__)
  238. struct ifreq ifr;
  239. strncpy((char *)&ifr.ifr_name,interface_name,sizeof(ifr.ifr_name)-1);
  240. ifr.ifr_name[sizeof(ifr.ifr_name)-1]='\0';
  241. /* try and grab hardware address of requested interface */
  242. if(ioctl(sock,SIOCGIFHWADDR,&ifr)<0){
  243. printf(_("Error: Could not get hardware address of interface '%s'\n"),interface_name);
  244. exit(STATE_UNKNOWN);
  245. }
  246. memcpy(&client_hardware_address[0],&ifr.ifr_hwaddr.sa_data,6);
  247. #elif defined(__bsd__)
  248. /* King 2004 see ACKNOWLEDGEMENTS */
  249. int mib[6], len;
  250. char *buf;
  251. unsigned char *ptr;
  252. struct if_msghdr *ifm;
  253. struct sockaddr_dl *sdl;
  254. mib[0] = CTL_NET;
  255. mib[1] = AF_ROUTE;
  256. mib[2] = 0;
  257. mib[3] = AF_LINK;
  258. mib[4] = NET_RT_IFLIST;
  259. if((mib[5] = if_nametoindex(interface_name)) == 0){
  260. printf(_("Error: if_nametoindex error - %s.\n"), strerror(errno));
  261. exit(STATE_UNKNOWN);
  262. }
  263. if(sysctl(mib, 6, NULL, &len, NULL, 0) < 0){
  264. printf(_("Error: Couldn't get hardware address from %s. sysctl 1 error - %s.\n"), interface_name, strerror(errno));
  265. exit(STATE_UNKNOWN);
  266. }
  267. if((buf = malloc(len)) == NULL){
  268. printf(_("Error: Couldn't get hardware address from interface %s. malloc error - %s.\n"), interface_name, strerror(errno));
  269. exit(4);
  270. }
  271. if(sysctl(mib, 6, buf, &len, NULL, 0) < 0){
  272. printf(_("Error: Couldn't get hardware address from %s. sysctl 2 error - %s.\n"), interface_name, strerror(errno));
  273. exit(STATE_UNKNOWN);
  274. }
  275. ifm = (struct if_msghdr *)buf;
  276. sdl = (struct sockaddr_dl *)(ifm + 1);
  277. ptr = (unsigned char *)LLADDR(sdl);
  278. memcpy(&client_hardware_address[0], ptr, 6) ;
  279. /* King 2004 */
  280. #elif defined(__sun__) || defined(__solaris__)
  281. /* Kompf 2000-2003 see ACKNOWLEDGEMENTS */
  282. long stat;
  283. char dev[20] = "/dev/";
  284. char *p;
  285. int unit;
  286. /* get last number from interfacename, eg lnc0, e1000g0*/
  287. int i;
  288. p = interface_name + strlen(interface_name) -1;
  289. for(i = strlen(interface_name) -1; i > 0; p--) {
  290. if(isalpha(*p))
  291. break;
  292. }
  293. p++;
  294. if( p != interface_name ){
  295. unit = atoi(p) ;
  296. strncat(dev, interface_name, 6) ;
  297. }
  298. else{
  299. printf(_("Error: can't find unit number in interface_name (%s) - expecting TypeNumber eg lnc0.\n"), interface_name);
  300. exit(STATE_UNKNOWN);
  301. }
  302. stat = mac_addr_dlpi(dev, unit, client_hardware_address);
  303. if(stat != 0){
  304. printf(_("Error: can't read MAC address from DLPI streams interface for device %s unit %d.\n"), dev, unit);
  305. exit(STATE_UNKNOWN);
  306. }
  307. #elif defined(__hpux__)
  308. long stat;
  309. char dev[20] = "/dev/dlpi" ;
  310. int unit = 0;
  311. stat = mac_addr_dlpi(dev, unit, client_hardware_address);
  312. if(stat != 0){
  313. printf(_("Error: can't read MAC address from DLPI streams interface for device %s unit %d.\n"), dev, unit);
  314. exit(STATE_UNKNOWN);
  315. }
  316. /* Kompf 2000-2003 */
  317. #else
  318. printf(_("Error: can't get MAC address for this architecture. Use the --mac option.\n"));
  319. exit(STATE_UNKNOWN);
  320. #endif
  321. if(verbose)
  322. print_hardware_address(client_hardware_address);
  323. return OK;
  324. }
  325. /* determines IP address of the client interface */
  326. int get_ip_address(int sock,char *interface_name){
  327. #if defined(SIOCGIFADDR)
  328. struct ifreq ifr;
  329. strncpy((char *)&ifr.ifr_name,interface_name,sizeof(ifr.ifr_name)-1);
  330. ifr.ifr_name[sizeof(ifr.ifr_name)-1]='\0';
  331. if(ioctl(sock,SIOCGIFADDR,&ifr)<0){
  332. printf(_("Error: Cannot determine IP address of interface %s\n"),
  333. interface_name);
  334. exit(STATE_UNKNOWN);
  335. }
  336. my_ip=((struct sockaddr_in *)&ifr.ifr_addr)->sin_addr;
  337. #else
  338. printf(_("Error: Cannot get interface IP address on this platform.\n"));
  339. exit(STATE_UNKNOWN);
  340. #endif
  341. if(verbose)
  342. printf(_("Pretending to be relay client %s\n"),inet_ntoa(my_ip));
  343. return OK;
  344. }
  345. /* sends a DHCPDISCOVER broadcast message in an attempt to find DHCP servers */
  346. int send_dhcp_discover(int sock){
  347. dhcp_packet discover_packet;
  348. struct sockaddr_in sockaddr_broadcast;
  349. unsigned short opts;
  350. /* clear the packet data structure */
  351. bzero(&discover_packet,sizeof(discover_packet));
  352. /* boot request flag (backward compatible with BOOTP servers) */
  353. discover_packet.op=BOOTREQUEST;
  354. /* hardware address type */
  355. discover_packet.htype=ETHERNET_HARDWARE_ADDRESS;
  356. /* length of our hardware address */
  357. discover_packet.hlen=ETHERNET_HARDWARE_ADDRESS_LENGTH;
  358. /*
  359. * transaction ID is supposed to be random. We won't use the address so
  360. * we don't care about high entropy here. time(2) is good enough.
  361. */
  362. srand(time(NULL));
  363. packet_xid=random();
  364. discover_packet.xid=htonl(packet_xid);
  365. /**** WHAT THE HECK IS UP WITH THIS?!? IF I DON'T MAKE THIS CALL, ONLY ONE SERVER RESPONSE IS PROCESSED!!!! ****/
  366. /* downright bizzarre... */
  367. ntohl(discover_packet.xid);
  368. /*discover_packet.secs=htons(65535);*/
  369. discover_packet.secs=0xFF;
  370. /*
  371. * server needs to know if it should broadcast or unicast its response:
  372. * 0x8000L == 32768 == 1 << 15 == broadcast, 0 == unicast
  373. */
  374. discover_packet.flags = unicast ? 0 : htons(DHCP_BROADCAST_FLAG);
  375. /* our hardware address */
  376. memcpy(discover_packet.chaddr,client_hardware_address,ETHERNET_HARDWARE_ADDRESS_LENGTH);
  377. /* first four bytes of options field is magic cookie (as per RFC 2132) */
  378. discover_packet.options[0]='\x63';
  379. discover_packet.options[1]='\x82';
  380. discover_packet.options[2]='\x53';
  381. discover_packet.options[3]='\x63';
  382. opts = 4;
  383. /* DHCP message type is embedded in options field */
  384. discover_packet.options[opts++]=DHCP_OPTION_MESSAGE_TYPE; /* DHCP message type option identifier */
  385. discover_packet.options[opts++]='\x01'; /* DHCP message option length in bytes */
  386. discover_packet.options[opts++]=DHCPDISCOVER;
  387. /* the IP address we're requesting */
  388. if(request_specific_address==TRUE){
  389. discover_packet.options[opts++]=DHCP_OPTION_REQUESTED_ADDRESS;
  390. discover_packet.options[opts++]='\x04';
  391. memcpy(&discover_packet.options[opts],&requested_address,sizeof(requested_address));
  392. opts += sizeof(requested_address);
  393. }
  394. discover_packet.options[opts++]=DHCP_OPTION_END;
  395. /* unicast fields */
  396. if(unicast)
  397. discover_packet.giaddr.s_addr = my_ip.s_addr;
  398. /* see RFC 1542, 4.1.1 */
  399. discover_packet.hops = unicast ? 1 : 0;
  400. /* send the DHCPDISCOVER packet to broadcast address */
  401. sockaddr_broadcast.sin_family=AF_INET;
  402. sockaddr_broadcast.sin_port=htons(DHCP_SERVER_PORT);
  403. sockaddr_broadcast.sin_addr.s_addr = unicast ? dhcp_ip.s_addr : INADDR_BROADCAST;
  404. bzero(&sockaddr_broadcast.sin_zero,sizeof(sockaddr_broadcast.sin_zero));
  405. if(verbose){
  406. printf(_("DHCPDISCOVER to %s port %d\n"),inet_ntoa(sockaddr_broadcast.sin_addr),ntohs(sockaddr_broadcast.sin_port));
  407. printf("DHCPDISCOVER XID: %u (0x%X)\n",ntohl(discover_packet.xid),ntohl(discover_packet.xid));
  408. printf("DHCDISCOVER ciaddr: %s\n",inet_ntoa(discover_packet.ciaddr));
  409. printf("DHCDISCOVER yiaddr: %s\n",inet_ntoa(discover_packet.yiaddr));
  410. printf("DHCDISCOVER siaddr: %s\n",inet_ntoa(discover_packet.siaddr));
  411. printf("DHCDISCOVER giaddr: %s\n",inet_ntoa(discover_packet.giaddr));
  412. }
  413. /* send the DHCPDISCOVER packet out */
  414. send_dhcp_packet(&discover_packet,sizeof(discover_packet),sock,&sockaddr_broadcast);
  415. if(verbose)
  416. printf("\n\n");
  417. return OK;
  418. }
  419. /* waits for a DHCPOFFER message from one or more DHCP servers */
  420. int get_dhcp_offer(int sock){
  421. dhcp_packet offer_packet;
  422. struct sockaddr_in source;
  423. struct sockaddr_in via;
  424. int result=OK;
  425. int responses=0;
  426. int x;
  427. time_t start_time;
  428. time_t current_time;
  429. time(&start_time);
  430. /* receive as many responses as we can */
  431. for(responses=0,valid_responses=0;;){
  432. time(&current_time);
  433. if((current_time-start_time)>=dhcpoffer_timeout)
  434. break;
  435. if(verbose)
  436. printf("\n\n");
  437. bzero(&source,sizeof(source));
  438. bzero(&via,sizeof(via));
  439. bzero(&offer_packet,sizeof(offer_packet));
  440. result=OK;
  441. result=receive_dhcp_packet(&offer_packet,sizeof(offer_packet),sock,dhcpoffer_timeout,&source);
  442. if(result!=OK){
  443. if(verbose)
  444. printf(_("Result=ERROR\n"));
  445. continue;
  446. }
  447. else{
  448. if(verbose)
  449. printf(_("Result=OK\n"));
  450. responses++;
  451. }
  452. /* The "source" is either a server or a relay. */
  453. /* Save a copy of "source" into "via" even if it's via itself */
  454. memcpy(&via,&source,sizeof(source)) ;
  455. if(verbose){
  456. printf(_("DHCPOFFER from IP address %s"),inet_ntoa(source.sin_addr));
  457. printf(_(" via %s\n"),inet_ntoa(via.sin_addr));
  458. printf("DHCPOFFER XID: %u (0x%X)\n",ntohl(offer_packet.xid),ntohl(offer_packet.xid));
  459. }
  460. /* check packet xid to see if its the same as the one we used in the discover packet */
  461. if(ntohl(offer_packet.xid)!=packet_xid){
  462. if(verbose)
  463. printf(_("DHCPOFFER XID (%u) did not match DHCPDISCOVER XID (%u) - ignoring packet\n"),ntohl(offer_packet.xid),packet_xid);
  464. continue;
  465. }
  466. /* check hardware address */
  467. result=OK;
  468. if(verbose)
  469. printf("DHCPOFFER chaddr: ");
  470. for(x=0;x<ETHERNET_HARDWARE_ADDRESS_LENGTH;x++){
  471. if(verbose)
  472. printf("%02X",(unsigned char)offer_packet.chaddr[x]);
  473. if(offer_packet.chaddr[x]!=client_hardware_address[x])
  474. result=ERROR;
  475. }
  476. if(verbose)
  477. printf("\n");
  478. if(result==ERROR){
  479. if(verbose)
  480. printf(_("DHCPOFFER hardware address did not match our own - ignoring packet\n"));
  481. continue;
  482. }
  483. if(verbose){
  484. printf("DHCPOFFER ciaddr: %s\n",inet_ntoa(offer_packet.ciaddr));
  485. printf("DHCPOFFER yiaddr: %s\n",inet_ntoa(offer_packet.yiaddr));
  486. printf("DHCPOFFER siaddr: %s\n",inet_ntoa(offer_packet.siaddr));
  487. printf("DHCPOFFER giaddr: %s\n",inet_ntoa(offer_packet.giaddr));
  488. }
  489. add_dhcp_offer(source.sin_addr,&offer_packet);
  490. valid_responses++;
  491. }
  492. if(verbose){
  493. printf(_("Total responses seen on the wire: %d\n"),responses);
  494. printf(_("Valid responses for this machine: %d\n"),valid_responses);
  495. }
  496. return OK;
  497. }
  498. /* sends a DHCP packet */
  499. int send_dhcp_packet(void *buffer, int buffer_size, int sock, struct sockaddr_in *dest){
  500. int result;
  501. result=sendto(sock,(char *)buffer,buffer_size,0,(struct sockaddr *)dest,sizeof(*dest));
  502. if(verbose)
  503. printf(_("send_dhcp_packet result: %d\n"),result);
  504. if(result<0)
  505. return ERROR;
  506. return OK;
  507. }
  508. /* receives a DHCP packet */
  509. int receive_dhcp_packet(void *buffer, int buffer_size, int sock, int timeout, struct sockaddr_in *address){
  510. struct timeval tv;
  511. fd_set readfds;
  512. fd_set oobfds;
  513. int recv_result;
  514. socklen_t address_size;
  515. struct sockaddr_in source_address;
  516. int nfound;
  517. /* wait for data to arrive (up time timeout) */
  518. tv.tv_sec=timeout;
  519. tv.tv_usec=0;
  520. FD_ZERO(&readfds);
  521. FD_ZERO(&oobfds);
  522. FD_SET(sock,&readfds);
  523. FD_SET(sock,&oobfds);
  524. nfound = select(sock+1,&readfds,NULL,&oobfds,&tv);
  525. /* make sure some data has arrived */
  526. if(!FD_ISSET(sock,&readfds)){
  527. if(verbose)
  528. printf(_("No (more) data received (nfound: %d)\n"), nfound);
  529. return ERROR;
  530. }
  531. else{
  532. /* why do we need to peek first? i don't know, its a hack. without it, the source address of the first packet received was
  533. not being interpreted correctly. sigh... */
  534. bzero(&source_address,sizeof(source_address));
  535. address_size=sizeof(source_address);
  536. recv_result=recvfrom(sock,(char *)buffer,buffer_size,MSG_PEEK,(struct sockaddr *)&source_address,&address_size);
  537. if(verbose)
  538. printf("recv_result_1: %d\n",recv_result);
  539. recv_result=recvfrom(sock,(char *)buffer,buffer_size,0,(struct sockaddr *)&source_address,&address_size);
  540. if(verbose)
  541. printf("recv_result_2: %d\n",recv_result);
  542. if(recv_result==-1){
  543. if(verbose){
  544. printf(_("recvfrom() failed, "));
  545. printf("errno: (%d) -> %s\n",errno,strerror(errno));
  546. }
  547. return ERROR;
  548. }
  549. else{
  550. if(verbose){
  551. printf(_("receive_dhcp_packet() result: %d\n"),recv_result);
  552. printf(_("receive_dhcp_packet() source: %s\n"),inet_ntoa(source_address.sin_addr));
  553. }
  554. memcpy(address,&source_address,sizeof(source_address));
  555. return OK;
  556. }
  557. }
  558. return OK;
  559. }
  560. /* creates a socket for DHCP communication */
  561. int create_dhcp_socket(void){
  562. struct sockaddr_in myname;
  563. struct ifreq interface;
  564. int sock;
  565. int flag=1;
  566. /* Set up the address we're going to bind to. */
  567. bzero(&myname,sizeof(myname));
  568. myname.sin_family=AF_INET;
  569. /* listen to DHCP server port if we're in unicast mode */
  570. myname.sin_port = htons(unicast ? DHCP_SERVER_PORT : DHCP_CLIENT_PORT);
  571. myname.sin_addr.s_addr = unicast ? my_ip.s_addr : INADDR_ANY;
  572. bzero(&myname.sin_zero,sizeof(myname.sin_zero));
  573. /* create a socket for DHCP communications */
  574. sock=socket(AF_INET,SOCK_DGRAM,IPPROTO_UDP);
  575. if(sock<0){
  576. printf(_("Error: Could not create socket!\n"));
  577. exit(STATE_UNKNOWN);
  578. }
  579. if(verbose)
  580. printf("DHCP socket: %d\n",sock);
  581. /* set the reuse address flag so we don't get errors when restarting */
  582. flag=1;
  583. if(setsockopt(sock,SOL_SOCKET,SO_REUSEADDR,(char *)&flag,sizeof(flag))<0){
  584. printf(_("Error: Could not set reuse address option on DHCP socket!\n"));
  585. exit(STATE_UNKNOWN);
  586. }
  587. /* set the broadcast option - we need this to listen to DHCP broadcast messages */
  588. if(!unicast && setsockopt(sock,SOL_SOCKET,SO_BROADCAST,(char *)&flag,sizeof flag)<0){
  589. printf(_("Error: Could not set broadcast option on DHCP socket!\n"));
  590. exit(STATE_UNKNOWN);
  591. }
  592. /* bind socket to interface */
  593. #if defined(__linux__)
  594. strncpy(interface.ifr_ifrn.ifrn_name,network_interface_name,IFNAMSIZ-1);
  595. interface.ifr_ifrn.ifrn_name[IFNAMSIZ-1]='\0';
  596. if(setsockopt(sock,SOL_SOCKET,SO_BINDTODEVICE,(char *)&interface,sizeof(interface))<0){
  597. printf(_("Error: Could not bind socket to interface %s. Check your privileges...\n"),network_interface_name);
  598. exit(STATE_UNKNOWN);
  599. }
  600. #else
  601. strncpy(interface.ifr_name,network_interface_name,IFNAMSIZ-1);
  602. interface.ifr_name[IFNAMSIZ-1]='\0';
  603. #endif
  604. /* bind the socket */
  605. if(bind(sock,(struct sockaddr *)&myname,sizeof(myname))<0){
  606. printf(_("Error: Could not bind to DHCP socket (port %d)! Check your privileges...\n"),DHCP_CLIENT_PORT);
  607. exit(STATE_UNKNOWN);
  608. }
  609. return sock;
  610. }
  611. /* closes DHCP socket */
  612. int close_dhcp_socket(int sock){
  613. close(sock);
  614. return OK;
  615. }
  616. /* adds a requested server address to list in memory */
  617. int add_requested_server(struct in_addr server_address){
  618. requested_server *new_server;
  619. new_server=(requested_server *)malloc(sizeof(requested_server));
  620. if(new_server==NULL)
  621. return ERROR;
  622. new_server->server_address=server_address;
  623. new_server->answered=FALSE;
  624. new_server->next=requested_server_list;
  625. requested_server_list=new_server;
  626. requested_servers++;
  627. if(verbose)
  628. printf(_("Requested server address: %s\n"),inet_ntoa(new_server->server_address));
  629. return OK;
  630. }
  631. /* adds a DHCP OFFER to list in memory */
  632. int add_dhcp_offer(struct in_addr source,dhcp_packet *offer_packet){
  633. dhcp_offer *new_offer;
  634. int x;
  635. unsigned option_type;
  636. unsigned option_length;
  637. struct in_addr serv_ident = {0};
  638. if(offer_packet==NULL)
  639. return ERROR;
  640. /* process all DHCP options present in the packet */
  641. for(x=4;x<MAX_DHCP_OPTIONS_LENGTH-1;){
  642. if((int)offer_packet->options[x]==-1)
  643. break;
  644. /* get option type */
  645. option_type=offer_packet->options[x++];
  646. /* get option length */
  647. option_length=offer_packet->options[x++];
  648. if(verbose)
  649. printf("Option: %d (0x%02X)\n",option_type,option_length);
  650. /* get option data */
  651. switch(option_type){
  652. case DHCP_OPTION_LEASE_TIME:
  653. memcpy(&dhcp_lease_time, &offer_packet->options[x],sizeof(dhcp_lease_time));
  654. dhcp_lease_time = ntohl(dhcp_lease_time);
  655. break;
  656. case DHCP_OPTION_RENEWAL_TIME:
  657. memcpy(&dhcp_renewal_time, &offer_packet->options[x],sizeof(dhcp_renewal_time));
  658. dhcp_renewal_time = ntohl(dhcp_renewal_time);
  659. break;
  660. case DHCP_OPTION_REBINDING_TIME:
  661. memcpy(&dhcp_rebinding_time, &offer_packet->options[x],sizeof(dhcp_rebinding_time));
  662. dhcp_rebinding_time = ntohl(dhcp_rebinding_time);
  663. break;
  664. case DHCP_OPTION_SERVER_IDENTIFIER:
  665. memcpy(&serv_ident.s_addr, &offer_packet->options[x],sizeof(serv_ident.s_addr));
  666. break;
  667. }
  668. /* skip option data we're ignoring */
  669. if(option_type==0) /* "pad" option, see RFC 2132 (3.1) */
  670. x+=1;
  671. else
  672. x+=option_length;
  673. }
  674. if(verbose){
  675. if(dhcp_lease_time==DHCP_INFINITE_TIME)
  676. printf(_("Lease Time: Infinite\n"));
  677. else
  678. printf(_("Lease Time: %lu seconds\n"),(unsigned long)dhcp_lease_time);
  679. if(dhcp_renewal_time==DHCP_INFINITE_TIME)
  680. printf(_("Renewal Time: Infinite\n"));
  681. else
  682. printf(_("Renewal Time: %lu seconds\n"),(unsigned long)dhcp_renewal_time);
  683. if(dhcp_rebinding_time==DHCP_INFINITE_TIME)
  684. printf(_("Rebinding Time: Infinite\n"));
  685. printf(_("Rebinding Time: %lu seconds\n"),(unsigned long)dhcp_rebinding_time);
  686. }
  687. new_offer=(dhcp_offer *)malloc(sizeof(dhcp_offer));
  688. if(new_offer==NULL)
  689. return ERROR;
  690. /*
  691. * RFC 2131 (2.) says: "DHCP clarifies the interpretation of the
  692. * 'siaddr' field as the address of the server to use in the next step
  693. * of the client's bootstrap process. A DHCP server may return its own
  694. * address in the 'siaddr' field, if the server is prepared to supply
  695. * the next bootstrap service (e.g., delivery of an operating system
  696. * executable image). A DHCP server always returns its own address in
  697. * the 'server identifier' option." 'serv_ident' is the 'server
  698. * identifier' option, 'source' is the IP address we received the
  699. * DHCPOFFER from. If 'serv_ident' isn't available for some reason, we
  700. * use 'source'.
  701. */
  702. new_offer->server_address=serv_ident.s_addr?serv_ident:source;
  703. new_offer->offered_address=offer_packet->yiaddr;
  704. new_offer->lease_time=dhcp_lease_time;
  705. new_offer->renewal_time=dhcp_renewal_time;
  706. new_offer->rebinding_time=dhcp_rebinding_time;
  707. if(verbose){
  708. printf(_("Added offer from server @ %s"),inet_ntoa(new_offer->server_address));
  709. printf(_(" of IP address %s\n"),inet_ntoa(new_offer->offered_address));
  710. }
  711. /* add new offer to head of list */
  712. new_offer->next=dhcp_offer_list;
  713. dhcp_offer_list=new_offer;
  714. return OK;
  715. }
  716. /* frees memory allocated to DHCP OFFER list */
  717. int free_dhcp_offer_list(void){
  718. dhcp_offer *this_offer;
  719. dhcp_offer *next_offer;
  720. for(this_offer=dhcp_offer_list;this_offer!=NULL;this_offer=next_offer){
  721. next_offer=this_offer->next;
  722. free(this_offer);
  723. }
  724. return OK;
  725. }
  726. /* frees memory allocated to requested server list */
  727. int free_requested_server_list(void){
  728. requested_server *this_server;
  729. requested_server *next_server;
  730. for(this_server=requested_server_list;this_server!=NULL;this_server=next_server){
  731. next_server=this_server->next;
  732. free(this_server);
  733. }
  734. return OK;
  735. }
  736. /* gets state and plugin output to return */
  737. int get_results(void){
  738. dhcp_offer *temp_offer;
  739. requested_server *temp_server;
  740. int result;
  741. u_int32_t max_lease_time=0;
  742. received_requested_address=FALSE;
  743. /* checks responses from requested servers */
  744. requested_responses=0;
  745. if(requested_servers>0){
  746. for(temp_server=requested_server_list;temp_server!=NULL;temp_server=temp_server->next){
  747. for(temp_offer=dhcp_offer_list;temp_offer!=NULL;temp_offer=temp_offer->next){
  748. /* get max lease time we were offered */
  749. if(temp_offer->lease_time>max_lease_time || temp_offer->lease_time==DHCP_INFINITE_TIME)
  750. max_lease_time=temp_offer->lease_time;
  751. /* see if we got the address we requested */
  752. if(!memcmp(&requested_address,&temp_offer->offered_address,sizeof(requested_address)))
  753. received_requested_address=TRUE;
  754. /* see if the servers we wanted a response from talked to us or not */
  755. if(!memcmp(&temp_offer->server_address,&temp_server->server_address,sizeof(temp_server->server_address))){
  756. if(verbose){
  757. printf(_("DHCP Server Match: Offerer=%s"),inet_ntoa(temp_offer->server_address));
  758. printf(_(" Requested=%s"),inet_ntoa(temp_server->server_address));
  759. if(temp_server->answered)
  760. printf(_(" (duplicate)"));
  761. printf(_("\n"));
  762. }
  763. if(temp_server->answered == FALSE){
  764. requested_responses++;
  765. temp_server->answered=TRUE;
  766. }
  767. }
  768. }
  769. }
  770. }
  771. /* else check and see if we got our requested address from any server */
  772. else{
  773. for(temp_offer=dhcp_offer_list;temp_offer!=NULL;temp_offer=temp_offer->next){
  774. /* get max lease time we were offered */
  775. if(temp_offer->lease_time>max_lease_time || temp_offer->lease_time==DHCP_INFINITE_TIME)
  776. max_lease_time=temp_offer->lease_time;
  777. /* see if we got the address we requested */
  778. if(!memcmp(&requested_address,&temp_offer->offered_address,sizeof(requested_address)))
  779. received_requested_address=TRUE;
  780. }
  781. }
  782. result=STATE_OK;
  783. if(valid_responses==0)
  784. result=STATE_CRITICAL;
  785. else if(requested_servers>0 && requested_responses==0)
  786. result=STATE_CRITICAL;
  787. else if(requested_responses<requested_servers)
  788. result=STATE_WARNING;
  789. else if(request_specific_address==TRUE && received_requested_address==FALSE)
  790. result=STATE_WARNING;
  791. if(result==0) /* garrett honeycutt 2005 */
  792. printf("OK: ");
  793. else if(result==1)
  794. printf("WARNING: ");
  795. else if(result==2)
  796. printf("CRITICAL: ");
  797. else if(result==3)
  798. printf("UNKNOWN: ");
  799. /* we didn't receive any DHCPOFFERs */
  800. if(dhcp_offer_list==NULL){
  801. printf(_("No DHCPOFFERs were received.\n"));
  802. return result;
  803. }
  804. printf(_("Received %d DHCPOFFER(s)"),valid_responses);
  805. if(requested_servers>0)
  806. printf(_(", %s%d of %d requested servers responded"),((requested_responses<requested_servers) && requested_responses>0)?"only ":"",requested_responses,requested_servers);
  807. if(request_specific_address==TRUE)
  808. printf(_(", requested address (%s) was %soffered"),inet_ntoa(requested_address),(received_requested_address==TRUE)?"":_("not "));
  809. printf(_(", max lease time = "));
  810. if(max_lease_time==DHCP_INFINITE_TIME)
  811. printf(_("Infinity"));
  812. else
  813. printf("%lu sec",(unsigned long)max_lease_time);
  814. printf(".\n");
  815. return result;
  816. }
  817. /* process command-line arguments */
  818. int process_arguments(int argc, char **argv){
  819. int arg_index;
  820. if(argc<1)
  821. return ERROR;
  822. arg_index = call_getopt(argc,argv);
  823. return validate_arguments(argc,arg_index);
  824. }
  825. int call_getopt(int argc, char **argv){
  826. extern int optind;
  827. int option_index = 0;
  828. static struct option long_options[] =
  829. {
  830. {"serverip", required_argument,0,'s'},
  831. {"requestedip", required_argument,0,'r'},
  832. {"timeout", required_argument,0,'t'},
  833. {"interface", required_argument,0,'i'},
  834. {"mac", required_argument,0,'m'},
  835. {"unicast", no_argument, 0,'u'},
  836. {"verbose", no_argument, 0,'v'},
  837. {"version", no_argument, 0,'V'},
  838. {"help", no_argument, 0,'h'},
  839. {0,0,0,0}
  840. };
  841. while(1){
  842. int c=0;
  843. c=getopt_long(argc,argv,"+hVvt:s:r:t:i:m:u",long_options,&option_index);
  844. if(c==-1||c==EOF||c==1)
  845. break;
  846. switch(c){
  847. case 's': /* DHCP server address */
  848. resolve_host(optarg,&dhcp_ip);
  849. add_requested_server(dhcp_ip);
  850. break;
  851. case 'r': /* address we are requested from DHCP servers */
  852. resolve_host(optarg,&requested_address);
  853. request_specific_address=TRUE;
  854. break;
  855. case 't': /* timeout */
  856. /*
  857. if(is_intnonneg(optarg))
  858. */
  859. if(atoi(optarg)>0)
  860. dhcpoffer_timeout=atoi(optarg);
  861. /*
  862. else
  863. usage("Time interval must be a nonnegative integer\n");
  864. */
  865. break;
  866. case 'm': /* MAC address */
  867. if((user_specified_mac=mac_aton(optarg)) == NULL)
  868. usage("Cannot parse MAC address.\n");
  869. if(verbose)
  870. print_hardware_address(user_specified_mac);
  871. break;
  872. case 'i': /* interface name */
  873. strncpy(network_interface_name,optarg,sizeof(network_interface_name)-1);
  874. network_interface_name[sizeof(network_interface_name)-1]='\x0';
  875. break;
  876. case 'u': /* unicast testing */
  877. unicast=1;
  878. break;
  879. case 'V': /* version */
  880. print_revision(progname, NP_VERSION);
  881. exit(STATE_OK);
  882. case 'h': /* help */
  883. print_help();
  884. exit(STATE_OK);
  885. case 'v': /* verbose */
  886. verbose=1;
  887. break;
  888. case '?': /* help */
  889. usage5 ();
  890. break;
  891. default:
  892. break;
  893. }
  894. }
  895. return optind;
  896. }
  897. int validate_arguments(int argc, int arg_index){
  898. if(argc-optind > 0)
  899. usage(_("Got unexpected non-option argument"));
  900. return OK;
  901. }
  902. #if defined(__sun__) || defined(__solaris__) || defined(__hpux__)
  903. /* Kompf 2000-2003 see ACKNOWLEDGEMENTS */
  904. /* get a message from a stream; return type of message */
  905. static int get_msg(int fd){
  906. int flags = 0;
  907. int res, ret;
  908. ctl_area[0] = 0;
  909. dat_area[0] = 0;
  910. ret = 0;
  911. res = getmsg(fd, &ctl, &dat, &flags);
  912. if(res < 0){
  913. if(errno == EINTR){
  914. return(GOT_INTR);
  915. }
  916. else{
  917. printf("%s\n", "get_msg FAILED.");
  918. return(GOT_ERR);
  919. }
  920. }
  921. if(ctl.len > 0){
  922. ret |= GOT_CTRL;
  923. }
  924. if(dat.len > 0){
  925. ret |= GOT_DATA;
  926. }
  927. return(ret);
  928. }
  929. /* verify that dl_primitive in ctl_area = prim */
  930. static int check_ctrl(int prim){
  931. dl_error_ack_t *err_ack = (dl_error_ack_t *)ctl_area;
  932. if(err_ack->dl_primitive != prim){
  933. printf(_("Error: DLPI stream API failed to get MAC in check_ctrl: %s.\n"), strerror(errno));
  934. exit(STATE_UNKNOWN);
  935. }
  936. return 0;
  937. }
  938. /* put a control message on a stream */
  939. static int put_ctrl(int fd, int len, int pri){
  940. ctl.len = len;
  941. if(putmsg(fd, &ctl, 0, pri) < 0){
  942. printf(_("Error: DLPI stream API failed to get MAC in put_ctrl/putmsg(): %s.\n"), strerror(errno));
  943. exit(STATE_UNKNOWN);
  944. }
  945. return 0;
  946. }
  947. /* put a control + data message on a stream */
  948. static int put_both(int fd, int clen, int dlen, int pri){
  949. ctl.len = clen;
  950. dat.len = dlen;
  951. if(putmsg(fd, &ctl, &dat, pri) < 0){
  952. printf(_("Error: DLPI stream API failed to get MAC in put_both/putmsg().\n"), strerror(errno));
  953. exit(STATE_UNKNOWN);
  954. }
  955. return 0;
  956. }
  957. /* open file descriptor and attach */
  958. static int dl_open(const char *dev, int unit, int *fd){
  959. dl_attach_req_t *attach_req = (dl_attach_req_t *)ctl_area;
  960. if((*fd = open(dev, O_RDWR)) == -1){
  961. printf(_("Error: DLPI stream API failed to get MAC in dl_attach_req/open(%s..): %s.\n"), dev, strerror(errno));
  962. exit(STATE_UNKNOWN);
  963. }
  964. attach_req->dl_primitive = DL_ATTACH_REQ;
  965. attach_req->dl_ppa = unit;
  966. put_ctrl(*fd, sizeof(dl_attach_req_t), 0);
  967. get_msg(*fd);
  968. return check_ctrl(DL_OK_ACK);
  969. }
  970. /* send DL_BIND_REQ */
  971. static int dl_bind(int fd, int sap, u_char *addr){
  972. dl_bind_req_t *bind_req = (dl_bind_req_t *)ctl_area;
  973. dl_bind_ack_t *bind_ack = (dl_bind_ack_t *)ctl_area;
  974. bind_req->dl_primitive = DL_BIND_REQ;
  975. bind_req->dl_sap = sap;
  976. bind_req->dl_max_conind = 1;
  977. bind_req->dl_service_mode = DL_CLDLS;
  978. bind_req->dl_conn_mgmt = 0;
  979. bind_req->dl_xidtest_flg = 0;
  980. put_ctrl(fd, sizeof(dl_bind_req_t), 0);
  981. get_msg(fd);
  982. if (GOT_ERR == check_ctrl(DL_BIND_ACK)){
  983. printf(_("Error: DLPI stream API failed to get MAC in dl_bind/check_ctrl(): %s.\n"), strerror(errno));
  984. exit(STATE_UNKNOWN);
  985. }
  986. bcopy((u_char *)bind_ack + bind_ack->dl_addr_offset, addr,
  987. bind_ack->dl_addr_length);
  988. return 0;
  989. }
  990. /***********************************************************************
  991. * interface:
  992. * function mac_addr_dlpi - get the mac address of the interface with
  993. * type dev (eg lnc, hme) and unit (0, 1 ..)
  994. *
  995. * parameter: addr: an array of six bytes, has to be allocated by the caller
  996. *
  997. * return: 0 if OK, -1 if the address could not be determined
  998. *
  999. *
  1000. ***********************************************************************/
  1001. long mac_addr_dlpi( const char *dev, int unit, u_char *addr){
  1002. int fd;
  1003. u_char mac_addr[25];
  1004. if(GOT_ERR != dl_open(dev, unit, &fd)){
  1005. if(GOT_ERR != dl_bind(fd, INSAP, mac_addr)){
  1006. bcopy( mac_addr, addr, 6);
  1007. return 0;
  1008. }
  1009. }
  1010. close(fd);
  1011. return -1;
  1012. }
  1013. /* Kompf 2000-2003 */
  1014. #endif
  1015. /* resolve host name or die (TODO: move this to netutils.c!) */
  1016. void resolve_host(const char *in,struct in_addr *out){
  1017. struct addrinfo hints, *ai;
  1018. memset(&hints,0,sizeof(hints));
  1019. hints.ai_family=PF_INET;
  1020. if (getaddrinfo(in,NULL,&hints,&ai) != 0)
  1021. usage_va(_("Invalid hostname/address - %s"),optarg);
  1022. memcpy(out,&((struct sockaddr_in *)ai->ai_addr)->sin_addr,sizeof(*out));
  1023. freeaddrinfo(ai);
  1024. }
  1025. /* parse MAC address string, return 6 bytes (unterminated) or NULL */
  1026. unsigned char *mac_aton(const char *string){
  1027. static unsigned char result[6];
  1028. char tmp[3];
  1029. unsigned i, j;
  1030. for(i=0, j=0; string[i] != '\0' && j < sizeof(result); i++){
  1031. /* ignore ':' and any other non-hex character */
  1032. if(!isxdigit(string[i]) || !isxdigit(string[i+1]))
  1033. continue;
  1034. tmp[0]=string[i];
  1035. tmp[1]=string[i+1];
  1036. tmp[2]='\0';
  1037. result[j]=strtol(tmp,(char **)NULL,16);
  1038. i++;
  1039. j++;
  1040. }
  1041. return (j==6) ? result : NULL;
  1042. }
  1043. void print_hardware_address(const unsigned char *address){
  1044. int i;
  1045. printf(_("Hardware address: "));
  1046. for (i=0; i<5; i++)
  1047. printf("%2.2x:", address[i]);
  1048. printf("%2.2x", address[i]);
  1049. putchar('\n');
  1050. }
  1051. /* print usage help */
  1052. void print_help(void){
  1053. print_revision(progname, NP_VERSION);
  1054. printf("Copyright (c) 2001-2004 Ethan Galstad (nagios@nagios.org)\n");
  1055. printf (COPYRIGHT, copyright, email);
  1056. printf("%s\n", _("This plugin tests the availability of DHCP servers on a network."));
  1057. printf ("\n\n");
  1058. print_usage();
  1059. printf (UT_HELP_VRSN);
  1060. printf (UT_EXTRA_OPTS);
  1061. printf (UT_VERBOSE);
  1062. printf (" %s\n", "-s, --serverip=IPADDRESS");
  1063. printf (" %s\n", _("IP address of DHCP server that we must hear from"));
  1064. printf (" %s\n", "-r, --requestedip=IPADDRESS");
  1065. printf (" %s\n", _("IP address that should be offered by at least one DHCP server"));
  1066. printf (" %s\n", "-t, --timeout=INTEGER");
  1067. printf (" %s\n", _("Seconds to wait for DHCPOFFER before timeout occurs"));
  1068. printf (" %s\n", "-i, --interface=STRING");
  1069. printf (" %s\n", _("Interface to to use for listening (i.e. eth0)"));
  1070. printf (" %s\n", "-m, --mac=STRING");
  1071. printf (" %s\n", _("MAC address to use in the DHCP request"));
  1072. printf (" %s\n", "-u, --unicast");
  1073. printf (" %s\n", _("Unicast testing: mimic a DHCP relay, requires -s"));
  1074. printf (UT_SUPPORT);
  1075. return;
  1076. }
  1077. void
  1078. print_usage(void){
  1079. printf ("%s\n", _("Usage:"));
  1080. printf (" %s [-v] [-u] [-s serverip] [-r requestedip] [-t timeout]\n",progname);
  1081. printf (" [-i interface] [-m mac]\n");
  1082. return;
  1083. }