int Xen_domain(void)
{ FILE *fp;
char buffer[CF_BUFSIZE];
int sufficient = 0;
/* xen host will have "control_d" in /proc/xen/capabilities, xen guest will not */
if ((fp = fopen("/proc/xen/capabilities","r")) != NULL)
{
while (!feof(fp))
{
ReadLine(buffer,CF_BUFSIZE,fp);
if (strstr(buffer,"control_d"))
{
AddClassToHeap("xen_dom0");
sufficient = 1;
}
}
if (sufficient < 1)
{
AddClassToHeap("xen_domu_pv");
sufficient = 1;
}
}
return sufficient < 1 ? 1 : 0;
}
int debian_version(void) /* Andrew Stribblehill */
{
#define DEBIAN_VERSION_FILENAME "/etc/debian_version"
int major = -1;
int release = -1;
char classname[CF_MAXVARSIZE] = "";
FILE *fp;
if ((fp = fopen(DEBIAN_VERSION_FILENAME,"r")) == NULL)
{
return 1;
}
Verbose("Looking for Debian version...\n");
switch (fscanf(fp, "%d.%d", &major, &release))
{
case 2:
Verbose("This appears to be a Debian %u.%u system.", major, release);
snprintf(classname, CF_MAXVARSIZE, "debian_%u_%u", major, release);
AddClassToHeap(classname);
/* Fall-through */
case 1:
Verbose("This appears to be a Debian %u system.", major);
snprintf(classname, CF_MAXVARSIZE, "debian_%u", major);
AddClassToHeap(classname);
break;
case 0:
Verbose("No Debian version number found.\n");
fclose(fp);
return 2;
}
fclose(fp);
return 0;
}
void
SetDomainName(char *sp) /* Bas van der Vlies */
{
char fqn[CF_MAXVARSIZE];
char *ptr;
char buffer[CF_BUFSIZE];
if (gethostname(fqn, sizeof(fqn)) != -1) {
strcpy(g_vfqname, fqn);
strcpy(buffer, g_vfqname);
AddClassToHeap(CanonifyName(buffer));
AddClassToHeap(CanonifyName(ToLowerStr(buffer)));
if (strstr(fqn, ".")) {
ptr = strchr(fqn, '.');
strcpy(g_vdomain, ++ptr);
}
}
if (strstr(g_vfqname, ".") == 0
&& (strcmp(g_vdomain, CF_START_DOMAIN) != 0)) {
strcat(g_vfqname, ".");
strcat(g_vfqname, g_vdomain);
}
AddClassToHeap(CanonifyName(g_vdomain));
DeleteClassFromHeap("undefined_domain");
}
void AddMultipleClasses(char *classlist)
{ char *sp, currentitem[CF_MAXVARSIZE],local[CF_MAXVARSIZE];
if ((classlist == NULL) || strlen(classlist) == 0)
{
return;
}
memset(local,0,CF_MAXVARSIZE);
strncpy(local,classlist,CF_MAXVARSIZE-1);
Debug("AddMultipleClasses(%s)\n",local);
for (sp = local; *sp != '\0'; sp++)
{
memset(currentitem,0,CF_MAXVARSIZE);
sscanf(sp,"%250[^.:,]",currentitem);
sp += strlen(currentitem);
if (IsHardClass(currentitem))
{
FatalError("cfengine: You cannot use -D to define a reserved class!");
}
AddClassToHeap(CanonifyName(currentitem));
}
}
void
AddNetworkClass(char *netmask)
{
struct in_addr ip,nm;
char *sp;
char nmbuf[CF_MAXVARSIZE], ipbuf[CF_MAXVARSIZE];
/*
* Has to differentiate between cases such as:
* 192.168.101.1/24 -> 192.168.101 and
* 192.168.101.1/26 -> 192.168.101.0
* We still have the, um... 'interesting' Class C default Network Class
* set by GetNameInfo()
*/
/* This is also a convenient method to ensure valid dotted quad */
if ((nm.s_addr = inet_addr(netmask)) != -1 &&
(ip.s_addr = inet_addr(g_vipaddress)) != -1) {
/* Will not work with IPv6 */
ip.s_addr &= nm.s_addr;
strcpy(ipbuf,inet_ntoa(ip));
strcpy(nmbuf, inet_ntoa(nm));
while( (sp = strrchr(nmbuf, '.')) && strcmp(sp, ".0") == 0 ) {
*sp = 0;
*strrchr(ipbuf, '.') = 0;
}
AddClassToHeap(CanonifyName(ipbuf));
}
}
/*
* Whatever the manuals might say, you cannot get IPV6 interface
* configuration from the ioctls. This seems to be implemented in a non
* standard way across OSes BSDi has done getifaddrs(), solaris 8 has a
* new ioctl, Stevens book shows the suggestion which has not been
* implemented...
*/
void
GetV6InterfaceInfo(void)
{
FILE *pp;
char buffer[CF_BUFSIZE];
Verbose("Trying to locate my IPv6 address\n");
switch (g_vsystemhardclass) {
case cfnt:
/* NT cannot do this */
break;
default:
if ((pp = cfpopen("/sbin/ifconfig -a", "r")) == NULL) {
Verbose("Could not find interface info\n");
return;
}
while (!feof(pp)) {
fgets(buffer, CF_BUFSIZE, pp);
if (StrStr(buffer, "inet6")) {
struct Item *ip,*list = NULL;
char *sp;
list = SplitStringAsItemList(buffer, ' ');
for (ip = list; ip != NULL; ip=ip->next) {
for (sp = ip->name; *sp != '\0'; sp++) {
/* Remove CIDR mask */
if (*sp == '/') {
*sp = '\0';
}
}
if (IsIPV6Address(ip->name) &&
(strcmp(ip->name, "::1") != 0)) {
Verbose("Found IPv6 address %s\n", ip->name);
AppendItem(&g_ipaddresses, ip->name, "");
AddClassToHeap(CanonifyName(ip->name));
}
}
DeleteItemList(list);
}
}
fclose(pp);
break;
}
}
int linux_slackware_version(char *filename)
{
int major = -1;
int minor = -1;
int release = -1;
char classname[CF_MAXVARSIZE] = "";
FILE *fp;
if ((fp = fopen(filename,"r")) == NULL)
{
return 1;
}
Verbose("Looking for Slackware version...\n");
switch (fscanf(fp, "Slackware %d.%d.%d", &major, &minor, &release))
{
case 3:
Verbose("This appears to be a Slackware %u.%u.%u system.", major, minor, release);
snprintf(classname, CF_MAXVARSIZE, "slackware_%u_%u_%u", major, minor, release);
AddClassToHeap(classname);
/* Fall-through */
case 2:
Verbose("This appears to be a Slackware %u.%u system.", major, minor);
snprintf(classname, CF_MAXVARSIZE, "slackware_%u_%u", major, minor);
AddClassToHeap(classname);
/* Fall-through */
case 1:
Verbose("This appears to be a Slackware %u system.", major);
snprintf(classname, CF_MAXVARSIZE, "slackware_%u", major);
AddClassToHeap(classname);
break;
case 0:
Verbose("No Slackware version number found.\n");
fclose(fp);
return 2;
}
fclose(fp);
return 0;
}
int VM_version(void)
{ FILE *fp;
char *sp,buffer[CF_BUFSIZE],classbuf[CF_BUFSIZE],version[CF_BUFSIZE];
struct stat statbuf;
int major,minor,bug;
int len = 0;
int sufficient = 0;
/* VMware Server ESX >= 3 has version info in /proc */
if ((fp = fopen("/proc/vmware/version","r")) != NULL)
{
ReadLine(buffer,CF_BUFSIZE,fp);
Chop(buffer);
if (sscanf(buffer,"VMware ESX Server %d.%d.%d",&major,&minor,&bug) > 0)
{
snprintf(classbuf,CF_BUFSIZE,"VMware ESX Server %d",major);
AddClassToHeap(CanonifyName(classbuf));
snprintf(classbuf,CF_BUFSIZE,"VMware ESX Server %d.%d",major,minor);
AddClassToHeap(CanonifyName(classbuf));
snprintf(classbuf,CF_BUFSIZE,"VMware ESX Server %d.%d.%d",major,minor,bug);
AddClassToHeap(CanonifyName(classbuf));
sufficient = 1;
}
else if (sscanf(buffer,"VMware ESX Server %s",version) > 0)
{
snprintf(classbuf,CF_BUFSIZE,"VMware ESX Server %s",version);
AddClassToHeap(CanonifyName(classbuf));
sufficient = 1;
}
fclose(fp);
}
/* Fall back to checking for other files */
if (sufficient < 1 && ((fp = fopen("/etc/vmware-release","r")) != NULL) ||
(fp = fopen("/etc/issue","r")) != NULL)
{
ReadLine(buffer,CF_BUFSIZE,fp);
Chop(buffer);
AddClassToHeap(CanonifyName(buffer));
/* Strip off the release code name e.g. "(Dali)" */
if ((sp = strchr(buffer,'(')) != NULL)
{
*sp = 0;
Chop(buffer);
AddClassToHeap(CanonifyName(buffer));
}
sufficient = 1;
fclose(fp);
}
return sufficient < 1 ? 1 : 0;
}
int linux_fedora_version(void)
{
#define FEDORA_ID "Fedora"
#define RELEASE_FLAG "release "
/* We are looking for one of the following strings...
*
* Fedora Core release 1 (Yarrow)
* Fedora release 7 (Zodfoobar)
*/
#define FEDORA_REL_FILENAME "/etc/fedora-release"
FILE *fp;
/* The full string read in from fedora-release */
char relstring[CF_MAXVARSIZE];
char classbuf[CF_MAXVARSIZE];
/* Fedora */
char *vendor="";
/* Where the numerical release will be found */
char *release=NULL;
int major = -1;
char strmajor[CF_MAXVARSIZE];
/* Grab the first line from the file and then close it. */
if ((fp = fopen(FEDORA_REL_FILENAME,"r")) == NULL)
{
return 1;
}
fgets(relstring, sizeof(relstring), fp);
fclose(fp);
Verbose("Looking for fedora core linux info...\n");
/* First, try to grok the vendor */
if(!strncmp(relstring, FEDORA_ID, strlen(FEDORA_ID)))
{
vendor = "fedora";
}
else
{
Verbose("Could not identify OS distro from %s\n", FEDORA_REL_FILENAME);
return 2;
}
/* Now, grok the release. We assume that all the strings will
* have the word 'release' before the numerical release.
*/
release = strstr(relstring, RELEASE_FLAG);
if(release == NULL)
{
Verbose("Could not find a numeric OS release in %s\n",
FEDORA_REL_FILENAME);
return 2;
}
else
{
release += strlen(RELEASE_FLAG);
if (sscanf(release, "%d", &major) == 1)
{
sprintf(strmajor, "%d", major);
}
}
if (major != -1 && (strcmp(vendor,"") != 0))
{
classbuf[0] = '\0';
strcat(classbuf, vendor);
AddClassToHeap(classbuf);
strcat(classbuf, "_");
strcat(classbuf, strmajor);
AddClassToHeap(classbuf);
}
return 0;
}
void
GetNameInfo(void)
{
int i, found = false;
char *sp, *sp2;
time_t tloc;
struct hostent *hp;
struct sockaddr_in cin;
#ifdef AIX
char real_version[_SYS_NMLN];
#endif
#ifdef IRIX
char real_version[256]; /* see <sys/syssgi.h> */
#endif
#ifdef HAVE_SYSINFO
#ifdef SI_ARCHITECTURE
long sz;
#endif
#endif
Debug("GetNameInfo()\n");
g_vfqname[0] = g_vuqname[0] = '\0';
if (uname(&g_vsysname) == -1) {
perror("uname ");
FatalError("Uname couldn't get kernel name info!!\n");
}
#ifdef AIX
snprintf(real_version, _SYS_NMLN, "%.80s.%.80s",
g_vsysname.version, g_vsysname.release);
strncpy(g_vsysname.release, real_version, _SYS_NMLN);
#elif defined IRIX
/* This gets us something like `6.5.19m' rather than just `6.5'. */
syssgi (SGI_RELEASE_NAME, 256, real_version);
#endif
for (sp = g_vsysname.sysname; *sp != '\0'; sp++) {
*sp = ToLower(*sp);
}
for (sp = g_vsysname.machine; *sp != '\0'; sp++) {
*sp = ToLower(*sp);
}
for (i = 0; g_classattributes[i][0] != '\0'; i++) {
if (WildMatch(g_classattributes[i][0],
ToLowerStr(g_vsysname.sysname))) {
if (WildMatch(g_classattributes[i][1],
g_vsysname.machine)) {
if (WildMatch(g_classattributes[i][2],
g_vsysname.release)) {
if (g_underscore_classes) {
snprintf(g_vbuff, CF_BUFSIZE, "_%s", g_classtext[i]);
AddClassToHeap(g_vbuff);
} else {
AddClassToHeap(g_classtext[i]);
}
found = true;
g_vsystemhardclass = (enum classes) i;
break;
}
} else {
Debug2("Cfengine: I recognize %s but not %s\n",
g_vsysname.sysname, g_vsysname.machine);
continue;
}
}
}
if ((sp = malloc(strlen(g_vsysname.nodename)+1)) == NULL) {
FatalError("malloc failure in initialize()");
}
strcpy(sp, g_vsysname.nodename);
SetDomainName(sp);
/* Truncate fully qualified name */
for (sp2=sp; *sp2 != '\0'; sp2++) {
if (*sp2 == '.') {
*sp2 = '\0';
Debug("Truncating fully qualified hostname %s to %s\n",
g_vsysname.nodename,sp);
break;
}
}
g_vdefaultbinserver.name = sp;
AddClassToHeap(CanonifyName(sp));
if ((tloc = time((time_t *)NULL)) == -1) {
printf("Couldn't read system clock\n");
}
if (g_verbose || g_debug || g_d2 || g_d3) {
if (g_underscore_classes) {
snprintf(g_vbuff, CF_BUFSIZE, "_%s", g_classtext[i]);
} else {
snprintf(g_vbuff, CF_BUFSIZE, "%s", g_classtext[i]);
}
if (g_iscfengine) {
printf ("cfng: configuration agent (cfagent) - \n%s\n%s\n\n",
VERSION, g_copyright);
} else {
printf ("cfng: configuration server (cfservd) - \n%s\n%s\n\n",
VERSION, g_copyright);
}
printf ("------------------------------------------------------------------------\n\n");
printf ("Host name is: %s\n", g_vsysname.nodename);
printf ("Operating System Type is %s\n", g_vsysname.sysname);
printf ("Operating System Release is %s\n", g_vsysname.release);
printf ("Architecture = %s\n\n\n", g_vsysname.machine);
printf ("Using internal soft-class %s for host %s\n\n",
g_vbuff, g_classtext[g_vsystemhardclass]);
printf ("The time is now %s\n\n", ctime(&tloc));
printf ("------------------------------------------------------------------------\n\n");
}
sprintf(g_vbuff, "%d_bit", sizeof(long)*8);
AddClassToHeap(g_vbuff);
Verbose("Additional hard class defined as: %s\n", CanonifyName(g_vbuff));
snprintf(g_vbuff, CF_BUFSIZE, "%s_%s", g_vsysname.sysname,
g_vsysname.release);
AddClassToHeap(CanonifyName(g_vbuff));
#ifdef IRIX
/*
* Get something like `irix64_6_5_19m' defined as well as
* `irix64_6_5'. Just copying the latter into g_vsysname.release
* wouldn't be backwards-compatible.
*/
snprintf(g_vbuff, CF_BUFSIZE, "%s_%s", g_vsysname.sysname, real_version);
AddClassToHeap(CanonifyName(g_vbuff));
#endif
AddClassToHeap(CanonifyName(g_vsysname.machine));
Verbose("Additional hard class defined as: %s\n",CanonifyName(g_vbuff));
snprintf(g_vbuff, CF_BUFSIZE,"%s_%s", g_vsysname.sysname,
g_vsysname.machine);
AddClassToHeap(CanonifyName(g_vbuff));
Verbose("Additional hard class defined as: %s\n",CanonifyName(g_vbuff));
snprintf(g_vbuff, CF_BUFSIZE, "%s_%s_%s",
g_vsysname.sysname, g_vsysname.machine, g_vsysname.release);
AddClassToHeap(CanonifyName(g_vbuff));
Verbose("Additional hard class defined as: %s\n", CanonifyName(g_vbuff));
#ifdef HAVE_SYSINFO
#ifdef SI_ARCHITECTURE
sz = sysinfo(SI_ARCHITECTURE, g_vbuff, CF_BUFSIZE);
if (sz == -1) {
Verbose("cfagent internal: sysinfo returned -1\n");
} else {
AddClassToHeap(CanonifyName(g_vbuff));
Verbose("Additional hard class defined as: %s\n", g_vbuff);
}
#endif
#endif
snprintf(g_vbuff, CF_BUFSIZE, "%s_%s_%s_%s",
g_vsysname.sysname, g_vsysname.machine, g_vsysname.release,
g_vsysname.version);
if (strlen(g_vbuff) < CF_MAXVARSIZE-2) {
g_varch = strdup(CanonifyName(g_vbuff));
} else {
Verbose("cfagent internal: $(arch) overflows CF_MAXVARSIZE! Truncating\n");
g_varch = strdup(CanonifyName(g_vsysname.sysname));
}
snprintf(g_vbuff, CF_BUFSIZE, "%s_%s",
g_vsysname.sysname, g_vsysname.machine);
g_varch2 = strdup(CanonifyName(g_vbuff));
AddClassToHeap(g_varch);
Verbose("Additional hard class defined as: %s\n", g_varch);
if (! found) {
CfLog(cferror,"Cfengine: I don't understand "
"what architecture this is!","");
}
strcpy(g_vbuff, "compiled_on_");
strcat(g_vbuff, CanonifyName(AUTOCONF_SYSNAME));
AddClassToHeap(CanonifyName(g_vbuff));
Verbose("\nGNU autoconf class from compile time: %s\n\n", g_vbuff);
/* Get IP address from nameserver */
if ((hp = gethostbyname(g_vsysname.nodename)) == NULL) {
return;
} else {
memset(&cin, 0, sizeof(cin));
cin.sin_addr.s_addr = ((struct in_addr *)(hp->h_addr))->s_addr;
Verbose("Address given by nameserver: %s\n", inet_ntoa(cin.sin_addr));
strcpy(g_vipaddress, inet_ntoa(cin.sin_addr));
for (i=0; hp->h_aliases[i] != NULL; i++) {
Debug("Adding alias %s..\n", hp->h_aliases[i]);
AddClassToHeap(CanonifyName(hp->h_aliases[i]));
}
}
}
void
GetInterfaceInfo(void)
{
int fd, len, i, j;
struct ifreq ifbuf[512], ifr, *ifp;
struct ifconf list;
struct sockaddr_in *sin;
struct hostent *hp;
char *sp;
char ip[CF_MAXVARSIZE];
char name[CF_MAXVARSIZE];
Debug("GetInterfaceInfo()\n");
if ((fd = socket(AF_INET, SOCK_DGRAM, 0)) == -1) {
CfLog(cferror, "Couldn't open socket", "socket");
exit(1);
}
list.ifc_len = sizeof(ifbuf);
list.ifc_req = ifbuf;
#ifdef SIOCGIFCONF
if (ioctl(fd, SIOCGIFCONF, &list) == -1 ||
(list.ifc_len < (sizeof(struct ifreq))))
#else
if (ioctl(fd, OSIOCGIFCONF, &list) == -1 ||
(list.ifc_len < (sizeof(struct ifreq))))
#endif
{
CfLog(cferror, "Couldn't get interfaces", "ioctl");
exit(1);
}
for (j = 0, len = 0, ifp = list.ifc_req; len < list.ifc_len;
len+=SIZEOF_IFREQ(*ifp), j++, ifp=&ifbuf[j]) {
if (ifp->ifr_addr.sa_family == 0) {
continue;
}
Verbose("Interface %d: %s\n", j+1, ifp->ifr_name);
if(g_underscore_classes) {
snprintf(g_vbuff, CF_BUFSIZE, "_net_iface_%s",
CanonifyName(ifp->ifr_name));
} else {
snprintf(g_vbuff, CF_BUFSIZE, "net_iface_%s",
CanonifyName(ifp->ifr_name));
}
AddClassToHeap(g_vbuff);
if (ifp->ifr_addr.sa_family == AF_INET) {
strncpy(ifr.ifr_name, ifp->ifr_name, sizeof(ifp->ifr_name));
if (ioctl(fd,SIOCGIFFLAGS,&ifr) == -1) {
CfLog(cferror, "No such network device", "ioctl");
close(fd);
return;
}
/*
* Used to check if interface was "up" if ((ifr.ifr_flags &
* IFF_UP) && !(ifr.ifr_flags & IFF_LOOPBACK)) Now check
* whether it is configured ...
*/
if ((ifr.ifr_flags & IFF_BROADCAST) &&
!(ifr.ifr_flags & IFF_LOOPBACK)) {
sin=(struct sockaddr_in *)&ifp->ifr_addr;
snprintf(name, CF_MAXVARSIZE-1, "ipv4[%s]",
CanonifyName(ifp->ifr_name));
AddMacroValue(g_contextid, name,
inet_ntoa(sin->sin_addr));
if ((hp = gethostbyaddr((char *)&(sin->sin_addr.s_addr),
sizeof(sin->sin_addr.s_addr), AF_INET)) == NULL) {
Debug("Host information for %s not found\n",
inet_ntoa(sin->sin_addr));
} else {
if (hp->h_name != NULL) {
Debug("Adding hostip %s..\n",
inet_ntoa(sin->sin_addr));
AddClassToHeap(CanonifyName(inet_ntoa(sin->sin_addr)));
Debug("Adding hostname %s..\n", hp->h_name);
AddClassToHeap(CanonifyName(hp->h_name));
for (i=0; hp->h_aliases[i] != NULL; i++) {
Debug("Adding alias %s..\n", hp->h_aliases[i]);
AddClassToHeap(CanonifyName(hp->h_aliases[i]));
}
/* Old style compat */
strcpy(ip,inet_ntoa(sin->sin_addr));
AppendItem(&g_ipaddresses, ip, "");
for (sp = ip+strlen(ip)-1; *sp != '.'; sp--) { }
*sp = '\0';
AddClassToHeap(CanonifyName(ip));
/* New style */
strcpy(ip, "ipv4_");
strcat(ip, inet_ntoa(sin->sin_addr));
AddClassToHeap(CanonifyName(ip));
for (sp = ip+strlen(ip)-1; (sp > ip); sp--) {
if (*sp == '.') {
*sp = '\0';
AddClassToHeap(CanonifyName(ip));
}
}
}
}
}
}
ifp = (struct ifreq *)((char *)ifp + SIZEOF_IFREQ(*ifp));
}
close(fd);
}
int linux_suse_version(void)
{
#define SUSE_REL_FILENAME "/etc/SuSE-release"
/* Check if it's a SuSE Enterprise version (all in lowercase) */
#define SUSE_SLES8_ID "suse sles-8"
#define SUSE_SLES_ID "suse linux enterprise server"
#define SUSE_RELEASE_FLAG "linux "
/* The full string read in from SuSE-release */
char relstring[CF_MAXVARSIZE];
char classbuf[CF_MAXVARSIZE];
char vbuf[CF_BUFSIZE];
/* Where the numerical release will be found */
char *release=NULL;
int i,version;
int major = -1;
char strmajor[CF_MAXVARSIZE];
int minor = -1;
char strminor[CF_MAXVARSIZE];
FILE *fp;
/* Grab the first line from the file and then close it. */
if ((fp = fopen(SUSE_REL_FILENAME,"r")) == NULL)
{
return 1;
}
fgets(relstring, sizeof(relstring), fp);
Chop(relstring);
fclose(fp);
/* Check if it's a SuSE Enterprise version */
Verbose("Looking for SuSE enterprise info in \"%s\"\n",relstring);
/* Convert relstring to lowercase to handle rename of SuSE to
* SUSE with SUSE 10.0.
*/
for (i = 0; i < strlen(relstring); i++)
{
relstring[i] = tolower(relstring[i]);
}
/* Check if it's a SuSE Enterprise version (all in lowercase) */
if (!strncmp(relstring, SUSE_SLES8_ID, strlen(SUSE_SLES8_ID)))
{
classbuf[0] = '\0';
strcat(classbuf, "SLES8");
AddClassToHeap(classbuf);
}
else
{
for (version = 9; version < 13; version++)
{
snprintf(vbuf,CF_BUFSIZE,"%s %d ",SUSE_SLES_ID,version);
Debug("Checking for suse [%s]\n",vbuf);
if (!strncmp(relstring, vbuf, strlen(vbuf)))
{
snprintf(classbuf,CF_MAXVARSIZE,"SLES%d",version);
AddClassToHeap(classbuf);
}
}
}
/* Determine release version. We assume that the version follows
* the string "SuSE Linux" or "SUSE LINUX".
*/
release = strstr(relstring, SUSE_RELEASE_FLAG);
if (release == NULL)
{
Verbose("Could not find a numeric OS release in %s\n",SUSE_REL_FILENAME);
return 2;
}
else
{
release += strlen(SUSE_RELEASE_FLAG);
sscanf(release, "%d.%d", &major, &minor);
sprintf(strmajor, "%d", major);
sprintf(strminor, "%d", minor);
}
if(major != -1 && minor != -1)
{
classbuf[0] = '\0';
strcat(classbuf, "SuSE");
AddClassToHeap(classbuf);
strcat(classbuf, "_");
strcat(classbuf, strmajor);
AddClassToHeap(classbuf);
strcat(classbuf, "_");
strcat(classbuf, strminor);
AddClassToHeap(classbuf);
}
return 0;
}
int linux_redhat_version(void)
{
#define REDHAT_ID "Red Hat Linux"
#define REDHAT_AS_ID "Red Hat Enterprise Linux AS"
#define REDHAT_AS21_ID "Red Hat Linux Advanced Server"
#define REDHAT_ES_ID "Red Hat Enterprise Linux ES"
#define REDHAT_WS_ID "Red Hat Enterprise Linux WS"
#define REDHAT_C_ID "Red Hat Enterprise Linux Client"
#define REDHAT_S_ID "Red Hat Enterprise Linux Server"
#define MANDRAKE_ID "Linux Mandrake"
#define MANDRAKE_10_1_ID "Mandrakelinux"
#define WHITEBOX_ID "White Box Enterprise Linux"
#define CENTOS_ID "CentOS"
#define SCIENTIFIC_SL_ID "Scientific Linux SL"
#define SCIENTIFIC_CERN_ID "Scientific Linux CERN"
#define RELEASE_FLAG "release "
/* We are looking for one of the following strings...
*
* Red Hat Linux release 6.2 (Zoot)
* Red Hat Linux Advanced Server release 2.1AS (Pensacola)
* Red Hat Enterprise Linux AS release 3 (Taroon)
* Red Hat Enterprise Linux WS release 3 (Taroon)
* Red Hat Enterprise Linux Client release 5 (Tikanga)
* Red Hat Enterprise Linux Server release 5 (Tikanga)
* Linux Mandrake release 7.1 (helium)
* Red Hat Enterprise Linux ES release 2.1 (Panama)
* White Box Enterprise linux release 3.0 (Liberation)
* Scientific Linux SL Release 4.0 (Beryllium)
* CentOS release 4.0 (Final)
*/
#define RH_REL_FILENAME "/etc/redhat-release"
FILE *fp;
/* The full string read in from redhat-release */
char relstring[CF_MAXVARSIZE];
char classbuf[CF_MAXVARSIZE];
/* Red Hat, Mandrake */
char *vendor="";
/* as (Advanced Server, Enterprise) */
char *edition="";
/* Where the numerical release will be found */
char *release=NULL;
int i;
int major = -1;
char strmajor[CF_MAXVARSIZE];
int minor = -1;
char strminor[CF_MAXVARSIZE];
/* Grab the first line from the file and then close it. */
if ((fp = fopen(RH_REL_FILENAME,"r")) == NULL)
{
return 1;
}
fgets(relstring, sizeof(relstring), fp);
fclose(fp);
Verbose("Looking for redhat linux info in \"%s\"\n",relstring);
/* First, try to grok the vendor and the edition (if any) */
if(!strncmp(relstring, REDHAT_ES_ID, strlen(REDHAT_ES_ID)))
{
vendor = "redhat";
edition = "es";
}
else if(!strncmp(relstring, REDHAT_WS_ID, strlen(REDHAT_WS_ID)))
{
vendor = "redhat";
edition = "ws";
}
else if(!strncmp(relstring, REDHAT_WS_ID, strlen(REDHAT_WS_ID)))
{
vendor = "redhat";
edition = "ws";
}
else if(!strncmp(relstring, REDHAT_AS_ID, strlen(REDHAT_AS_ID)) ||
!strncmp(relstring, REDHAT_AS21_ID, strlen(REDHAT_AS21_ID)))
{
vendor = "redhat";
edition = "as";
}
else if(!strncmp(relstring, REDHAT_S_ID, strlen(REDHAT_S_ID)))
{
vendor = "redhat";
edition = "s";
}
else if(!strncmp(relstring, REDHAT_C_ID, strlen(REDHAT_C_ID)))
{
vendor = "redhat";
edition = "c";
}
else if(!strncmp(relstring, REDHAT_ID, strlen(REDHAT_ID)))
{
vendor = "redhat";
}
else if(!strncmp(relstring, MANDRAKE_ID, strlen(MANDRAKE_ID)))
{
vendor = "mandrake";
}
else if(!strncmp(relstring, MANDRAKE_10_1_ID, strlen(MANDRAKE_10_1_ID)))
{
vendor = "mandrake";
}
else if(!strncmp(relstring, WHITEBOX_ID, strlen(WHITEBOX_ID)))
{
vendor = "whitebox";
}
else if(!strncmp(relstring, SCIENTIFIC_SL_ID, strlen(SCIENTIFIC_SL_ID)))
{
vendor = "scientific";
edition = "sl";
}
else if(!strncmp(relstring, SCIENTIFIC_CERN_ID, strlen(SCIENTIFIC_CERN_ID)))
{
vendor = "scientific";
edition = "cern";
}
else if(!strncmp(relstring, CENTOS_ID, strlen(CENTOS_ID)))
{
vendor = "centos";
}
else
{
Verbose("Could not identify OS distro from %s\n", RH_REL_FILENAME);
return 2;
}
/* Now, grok the release. For AS, we neglect the AS at the end of the
* numerical release because we already figured out that it *is* AS
* from the infomation above. We assume that all the strings will
* have the word 'release' before the numerical release.
*/
/* Convert relstring to lowercase so that vendors like
Scientific Linux don't fall through the cracks.
*/
for (i = 0; i < strlen(relstring); i++)
{
relstring[i] = tolower(relstring[i]);
}
release = strstr(relstring, RELEASE_FLAG);
if(release == NULL)
{
Verbose("Could not find a numeric OS release in %s\n",
RH_REL_FILENAME);
return 2;
}
else
{
release += strlen(RELEASE_FLAG);
if (sscanf(release, "%d.%d", &major, &minor) == 2)
{
sprintf(strmajor, "%d", major);
sprintf(strminor, "%d", minor);
}
/* red hat 9 is *not* red hat 9.0.
* and same thing with RHEL AS 3
*/
else if (sscanf(release, "%d", &major) == 1)
{
sprintf(strmajor, "%d", major);
minor = -2;
}
}
if (major != -1 && minor != -1 && (strcmp(vendor,"") != 0))
{
classbuf[0] = '\0';
strcat(classbuf, vendor);
AddClassToHeap(classbuf);
strcat(classbuf, "_");
if (strcmp(edition,"") != 0)
{
strcat(classbuf, edition);
AddClassToHeap(classbuf);
strcat(classbuf, "_");
}
strcat(classbuf, strmajor);
AddClassToHeap(classbuf);
if (minor != -2)
{
strcat(classbuf, "_");
strcat(classbuf, strminor);
AddClassToHeap(classbuf);
}
}
return 0;
}
void AddTimeClass(char *str)
{ int i;
char buf2[10], buf3[10], buf4[10], buf5[10], buf[10], out[10];
time_t now = time(NULL);
struct tm *tmv = gmtime(&now);
snprintf(buf,9,"GMT_Hr%d\n",tmv->tm_hour);
AddClassToHeap(buf);
for (i = 0; i < 7; i++)
{
if (strncmp(DAYTEXT[i],str,3)==0)
{
AddClassToHeap(DAYTEXT[i]);
break;
}
}
sscanf(str,"%*s %s %s %s %s",buf2,buf3,buf4,buf5);
/* Hours */
sscanf(buf4,"%[^:]",buf);
sprintf(out,"Hr%s",buf);
AddClassToHeap(out);
memset(VHR,0,3);
strncpy(VHR,buf,2);
/* Minutes */
sscanf(buf4,"%*[^:]:%[^:]",buf);
sprintf(out,"Min%s",buf);
AddClassToHeap(out);
memset(VMINUTE,0,3);
strncpy(VMINUTE,buf,2);
sscanf(buf,"%d",&i);
switch ((i / 5))
{
case 0: AddClassToHeap("Min00_05");
break;
case 1: AddClassToHeap("Min05_10");
break;
case 2: AddClassToHeap("Min10_15");
break;
case 3: AddClassToHeap("Min15_20");
break;
case 4: AddClassToHeap("Min20_25");
break;
case 5: AddClassToHeap("Min25_30");
break;
case 6: AddClassToHeap("Min30_35");
break;
case 7: AddClassToHeap("Min35_40");
break;
case 8: AddClassToHeap("Min40_45");
break;
case 9: AddClassToHeap("Min45_50");
break;
case 10: AddClassToHeap("Min50_55");
break;
case 11: AddClassToHeap("Min55_00");
break;
}
/* Add quarters */
switch ((i / 15))
{
case 0: AddClassToHeap("Q1");
sprintf(out,"Hr%s_Q1",VHR);
AddClassToHeap(out);
break;
case 1: AddClassToHeap("Q2");
sprintf(out,"Hr%s_Q2",VHR);
AddClassToHeap(out);
break;
case 2: AddClassToHeap("Q3");
sprintf(out,"Hr%s_Q3",VHR);
AddClassToHeap(out);
break;
case 3: AddClassToHeap("Q4");
sprintf(out,"Hr%s_Q4",VHR);
AddClassToHeap(out);
break;
}
/* Day */
sprintf(out,"Day%s",buf3);
AddClassToHeap(out);
memset(VDAY,0,3);
strncpy(VDAY,buf3,2);
/* Month */
for (i = 0; i < 12; i++)
{
if (strncmp(MONTHTEXT[i],buf2,3)==0)
{
AddClassToHeap(MONTHTEXT[i]);
memset(VMONTH,0,4);
strncpy(VMONTH,MONTHTEXT[i],3);
break;
}
}
/* Year */
strcpy(VYEAR,buf5);
sprintf(out,"Yr%s",buf5);
AddClassToHeap(out);
}
void IDClasses()
{ struct stat statbuf;
char *sp;
int i = 0;
AddClassToHeap("any"); /* This is a reserved word / wildcard */
snprintf(VBUFF,CF_BUFSIZE,"cfengine_%s",CanonifyName(VERSION));
AddClassToHeap(VBUFF);
for (sp = VBUFF+strlen(VBUFF); i < 2; sp--)
{
if (*sp == '_')
{
i++;
*sp = '\0';
AddClassToHeap(VBUFF);
}
}
#ifdef LINUX
/* {Mandrake,Fedora} has a symlink at /etc/redhat-release pointing to
* /etc/{mandrake,fedora}-release, so we else-if around that
*/
if (stat("/etc/mandrake-release",&statbuf) != -1)
{
Verbose("This appears to be a mandrake system.\n");
AddClassToHeap("Mandrake");
linux_mandrake_version();
}
else if (stat("/etc/fedora-release",&statbuf) != -1)
{
Verbose("This appears to be a fedora system.\n");
AddClassToHeap("redhat");
AddClassToHeap("fedora");
linux_fedora_version();
}
else if (stat("/etc/redhat-release",&statbuf) != -1)
{
Verbose("This appears to be a redhat system.\n");
AddClassToHeap("redhat");
linux_redhat_version();
}
if (stat("/etc/generic-release",&statbuf) != -1)
{
Verbose("\nThis appears to be a sun cobalt system.\n");
AddClassToHeap("SunCobalt");
}
if (stat("/etc/SuSE-release",&statbuf) != -1)
{
Verbose("\nThis appears to be a SuSE system.\n");
AddClassToHeap("SuSE");
linux_suse_version();
}
#define SLACKWARE_ANCIENT_VERSION_FILENAME "/etc/slackware-release"
#define SLACKWARE_VERSION_FILENAME "/etc/slackware-version"
if (stat(SLACKWARE_VERSION_FILENAME,&statbuf) != -1)
{
Verbose("\nThis appears to be a slackware system.\n");
AddClassToHeap("slackware");
linux_slackware_version(SLACKWARE_VERSION_FILENAME);
}
else if (stat(SLACKWARE_ANCIENT_VERSION_FILENAME,&statbuf) != -1)
{
Verbose("\nThis appears to be an ancient slackware system.\n");
AddClassToHeap("slackware");
linux_slackware_version(SLACKWARE_ANCIENT_VERSION_FILENAME);
}
if (stat("/etc/generic-release",&statbuf) != -1)
{
Verbose("\nThis appears to be a sun cobalt system.\n");
AddClassToHeap("SunCobalt");
}
if (stat("/etc/debian_version",&statbuf) != -1)
{
Verbose("\nThis appears to be a debian system.\n");
AddClassToHeap("debian");
debian_version();
}
if (stat("/etc/UnitedLinux-release",&statbuf) != -1)
{
Verbose("\nThis appears to be a UnitedLinux system.\n");
AddClassToHeap("UnitedLinux");
}
if (stat("/etc/gentoo-release",&statbuf) != -1)
{
Verbose("\nThis appears to be a gentoo system.\n");
AddClassToHeap("gentoo");
}
lsb_version();
#endif
if (stat("/proc/vmware/version",&statbuf) != -1 ||
stat("/etc/vmware-release",&statbuf) != -1)
{
Verbose("\nThis appears to be a VMware Server ESX system.\n");
AddClassToHeap("VMware");
VM_version();
}
else if (stat("/etc/vmware",&statbuf) != -1)
{
if (S_ISDIR(statbuf.st_mode))
{
Verbose("\nThis appears to be a VMware xSX system.\n");
AddClassToHeap("VMware");
VM_version();
}
}
if (stat("/proc/xen/capabilities",&statbuf) != -1)
{
Verbose("\nThis appears to be a xen pv system.\n");
AddClassToHeap("xen");
Xen_domain();
}
#ifdef XEN_CPUID_SUPPORT
else if (Xen_hv_check())
{
Verbose("\nThis appears to be a xen hv system.\n");
AddClassToHeap("xen");
AddClassToHeap("xen_domu_hv");
}
#endif
}
int linux_mandrake_version(void)
{
/* We are looking for one of the following strings... */
#define MANDRAKE_ID "Linux Mandrake"
#define MANDRAKE_REV_ID "Mandrake Linux"
#define MANDRAKE_10_1_ID "Mandrakelinux"
#define RELEASE_FLAG "release "
#define MANDRAKE_REL_FILENAME "/etc/mandrake-release"
FILE *fp;
/* The full string read in from mandrake-release */
char relstring[CF_MAXVARSIZE];
char classbuf[CF_MAXVARSIZE];
/* I've never seen Mandrake-Move or the other 'editions', so
I'm not going to try and support them here. Contributions welcome. */
/* Where the numerical release will be found */
char *release=NULL;
char *vendor=NULL;
int major = -1;
char strmajor[CF_MAXVARSIZE];
int minor = -1;
char strminor[CF_MAXVARSIZE];
/* Grab the first line from the file and then close it. */
if ((fp = fopen(MANDRAKE_REL_FILENAME,"r")) == NULL)
{
return 1;
}
fgets(relstring, sizeof(relstring), fp);
fclose(fp);
Verbose("Looking for Mandrake linux info in \"%s\"\n",relstring);
/* Older Mandrakes had the 'Mandrake Linux' string in reverse order */
if(!strncmp(relstring, MANDRAKE_ID, strlen(MANDRAKE_ID)))
{
vendor = "mandrake";
}
else if(!strncmp(relstring, MANDRAKE_REV_ID, strlen(MANDRAKE_REV_ID)))
{
vendor = "mandrake";
}
else if(!strncmp(relstring, MANDRAKE_10_1_ID, strlen(MANDRAKE_10_1_ID)))
{
vendor = "mandrake";
}
else
{
Verbose("Could not identify OS distro from %s\n", MANDRAKE_REL_FILENAME);
return 2;
}
/* Now, grok the release. We assume that all the strings will
* have the word 'release' before the numerical release.
*/
release = strstr(relstring, RELEASE_FLAG);
if(release == NULL)
{
Verbose("Could not find a numeric OS release in %s\n",
MANDRAKE_REL_FILENAME);
return 2;
}
else
{
release += strlen(RELEASE_FLAG);
if (sscanf(release, "%d.%d", &major, &minor) == 2)
{
sprintf(strmajor, "%d", major);
sprintf(strminor, "%d", minor);
}
else
{
Verbose("Could not break down release version numbers in %s\n",
MANDRAKE_REL_FILENAME);
}
}
if (major != -1 && minor != -1 && strcmp(vendor, ""))
{
classbuf[0] = '\0';
strcat(classbuf, vendor);
AddClassToHeap(classbuf);
strcat(classbuf, "_");
strcat(classbuf, strmajor);
AddClassToHeap(classbuf);
if (minor != -2)
{
strcat(classbuf, "_");
strcat(classbuf, strminor);
AddClassToHeap(classbuf);
}
}
return 0;
}
int lsb_version(void)
{
#define LSB_RELEASE_COMMAND "lsb_release"
char classname[CF_MAXVARSIZE];
char *distrib = NULL;
char *release = NULL;
char *codename = NULL;
int major = 0;
int minor = 0;
char *path, *dir, *rest;
struct stat statbuf;
path = rest = strdup(getenv("PATH"));
if (strlen(path) == 0)
{
return 1;
}
for (; dir = strsep(&rest, ":") ;)
{
snprintf(VBUFF, CF_BUFSIZE, "%s/" LSB_RELEASE_COMMAND, dir);
if (stat(VBUFF,&statbuf) != -1)
{
free(path);
path = strdup(VBUFF);
Verbose("\nThis appears to be a LSB compliant system.\n");
AddClassToHeap("lsb_compliant");
break;
}
}
if (!dir)
{
free(path);
return 1;
}
if ((distrib = lsb_release(path, "--id")) != NULL)
{
snprintf(classname, CF_MAXVARSIZE, "%s", distrib);
AddClassToHeap(classname);
if ((codename = lsb_release(path, "--codename")) != NULL)
{
snprintf(classname, CF_MAXVARSIZE, "%s_%s", distrib, codename);
AddClassToHeap(classname);
}
if ((release = lsb_release(path, "--release")) != NULL)
{
switch (sscanf(release, "%d.%d\n", &major, &minor))
{
case 2:
snprintf(classname, CF_MAXVARSIZE, "%s_%u_%u", distrib, major, minor);
AddClassToHeap(classname);
case 1:
snprintf(classname, CF_MAXVARSIZE, "%s_%u", distrib, major);
AddClassToHeap(classname);
}
}
free(path);
return 0;
}
else
{
free(path);
return 2;
}
}
