nagios4/contrib/convertcfg.c

746 lines
22 KiB
C
Raw Permalink Normal View History

2017-05-19 22:22:40 +02:00
/************************************************************************
*
2019-04-18 17:09:18 +02:00
* CONVERTCFG.C - Config File Converter
2017-05-19 22:22:40 +02:00
*
* Copyright (c) 2001-2005 Ethan Galstad (egalstad@nagios.org)
* Last Modified: 08-12-2005
*
* License:
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*
************************************************************************/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
char *my_strsep(char **, const char *);
int main(int argc, char **argv) {
FILE *fp;
char *temp_ptr;
char *temp_ptr2;
char input[8096];
int notify_recovery;
int notify_warning;
int notify_critical;
int notify_down;
int notify_unreachable;
int option;
int have_template = 0;
int x = 0, y = 0;
char *host_name;
char *service_description;
char *host_name2;
char *service_description2;
if(argc != 3) {
printf("Nagios Config File Converter\n");
printf("Written by Ethan Galstad (egalstad@nagios.org)\n");
printf("Last Modified: 08-12-2005\n");
printf("\n");
printf("Usage: %s <config file> <object type>\n", argv[0]);
printf("\n");
printf("Valid object types include:\n");
printf("\n");
printf("\ttimeperiods\n");
printf("\tcommands\n");
printf("\tcontacts\n");
printf("\tcontactgroups\n");
printf("\thosts\n");
printf("\thostgroups\n");
2017-05-19 23:37:19 +02:00
printf("\thostgroupescalations\n");
2017-05-19 22:22:40 +02:00
printf("\tservices\n");
printf("\tservicedependencies\n");
printf("\tserviceescalations\n");
printf("\n");
printf("\thostextinfo\n");
printf("\tserviceextinfo\n");
printf("\n");
printf("Notes:\n");
printf("\n");
printf("This utility is designed to aide you in converting your old 'host'\n");
printf("config file(s) to the new template-based config file style. It is\n");
printf("also capable of converting extended host and service information\n");
printf("definitions in your old CGI config file.\n");
printf("\n");
printf("Supply the name of your old 'host' config file (or your old CGI config\n");
printf("file if you're converting extended host/service definitions) on the\n");
printf("command line, along with the type of object you would like to produce\n");
printf("a new config file for. Your old config file is not overwritten - new\n");
printf("configuration data is printed to standard output, so you can redirect it\n");
printf("wherever you like.\n");
printf("\n");
printf("Please note that you can only specify one type of object at a time\n");
printf("on the command line.\n");
printf("\n");
printf("IMPORTANT: This utility will generate Nagios 1.x compliant config files.\n");
printf("However, the config files are not totally compatible with Nagios 2.x, so\n");
printf("you will have to do some manual tweaking.\n");
printf("\n");
return -1;
}
fp = fopen(argv[1], "r");
if(fp == NULL) {
printf("Error: Could not open file '%s' for reading.\n", argv[1]);
return -1;
}
for(fgets(input, sizeof(input) - 1, fp); !feof(fp); fgets(input, sizeof(input) - 1, fp)) {
/* skip blank lines and comments */
if(input[0] == '#' || input[0] == '\x0' || input[0] == '\n' || input[0] == '\r')
continue;
/* timeperiods */
if(strstr(input, "timeperiod[") && !strcmp(argv[2], "timeperiods")) {
temp_ptr2 = &input[0];
temp_ptr = my_strsep(&temp_ptr2, "[");
temp_ptr = my_strsep(&temp_ptr2, "]");
printf("# '%s' timeperiod definition\n", temp_ptr);
printf("define timeperiod{\n");
/*printf("\tname\t\t%s\n",temp_ptr);*/
printf("\ttimeperiod_name\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
printf("\talias\t\t%s\n", temp_ptr + 1);
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\tsunday\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\tmonday\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\ttuesday\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\twednesday\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\tthursday\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\tfriday\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";\r\n");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\tsaturday\t%s\n", temp_ptr);
printf("\t}\n\n\n");
}
/* commands */
if(strstr(input, "command[") && !strcmp(argv[2], "commands")) {
temp_ptr = strtok(input, "[");
temp_ptr = strtok(NULL, "]");
printf("# '%s' command definition\n", temp_ptr);
printf("define command{\n");
/*printf("\tname\t\t%s\n",temp_ptr);*/
printf("\tcommand_name\t%s\n", temp_ptr);
temp_ptr = strtok(NULL, "\n");
printf("\tcommand_line\t%s\n", temp_ptr + 1);
printf("\t}\n\n\n");
}
/* contacts */
if(strstr(input, "contact[") && !strcmp(argv[2], "contacts")) {
temp_ptr2 = &input[0];
temp_ptr = my_strsep(&temp_ptr2, "[");
temp_ptr = my_strsep(&temp_ptr2, "]");
printf("# '%s' contact definition\n", temp_ptr);
printf("define contact{\n");
/*printf("\tname\t\t\t\t%s\n",temp_ptr);*/
printf("\tcontact_name\t\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
printf("\talias\t\t\t\t%s\n", temp_ptr + 1);
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\tservice_notification_period\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\thost_notification_period\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
notify_recovery = atoi(temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
notify_critical = atoi(temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
notify_warning = atoi(temp_ptr);
option = 0;
printf("\tservice_notification_options\t");
if(notify_recovery == 1 || notify_critical == 1 || notify_warning == 1) {
if(notify_warning == 1) {
printf("w,u");
option = 1;
}
if(notify_critical == 1) {
if(option == 1)
printf(",");
printf("c");
option = 1;
}
if(notify_recovery == 1) {
if(option == 1)
printf(",");
printf("r");
}
}
else
printf("n");
printf("\n");
temp_ptr = my_strsep(&temp_ptr2, ";");
notify_recovery = atoi(temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
notify_down = atoi(temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
notify_unreachable = atoi(temp_ptr);
option = 0;
printf("\thost_notification_options\t");
if(notify_recovery == 1 || notify_down == 1 || notify_unreachable == 1) {
if(notify_down == 1) {
printf("d");
option = 1;
}
if(notify_unreachable == 1) {
if(option == 1)
printf(",");
printf("u");
option = 1;
}
if(notify_recovery == 1) {
if(option == 1)
printf(",");
printf("r");
}
}
else
printf("n");
printf("\n");
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\tservice_notification_commands\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\thost_notification_commands\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\temail\t\t\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";\r\n");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\tpager\t\t\t\t%s\n", temp_ptr);
printf("\t}\n\n\n");
}
/* contactgroups */
if(strstr(input, "contactgroup[") && !strcmp(argv[2], "contactgroups")) {
temp_ptr = strtok(input, "[");
temp_ptr = strtok(NULL, "]");
printf("# '%s' contact group definition\n", temp_ptr);
printf("define contactgroup{\n");
/*printf("\tname\t\t\t%s\n",temp_ptr);*/
printf("\tcontactgroup_name\t%s\n", temp_ptr);
temp_ptr = strtok(NULL, ";");
printf("\talias\t\t\t%s\n", temp_ptr + 1);
temp_ptr = strtok(NULL, "\n");
printf("\tmembers\t\t\t%s\n", temp_ptr);
printf("\t}\n\n\n");
}
/* hosts */
if(strstr(input, "host[") && !strcmp(argv[2], "hosts")) {
if(have_template == 0) {
printf("# Generic host definition template\n");
printf("define host{\n");
printf("\tname\t\t\t\tgeneric-host\t; The name of this host template - referenced in other host definitions, used for template recursion/resolution\n");
printf("\tactive_checks_enabled\t\t1\t; Active host checks are enabled\n");
printf("\tpassive_checks_enabled\t\t1\t; Passive host checks are enabled/accepted\n");
printf("\tnotifications_enabled\t\t1\t; Host notifications are enabled\n");
printf("\tevent_handler_enabled\t\t1\t; Host event handler is enabled\n");
printf("\tflap_detection_enabled\t\t1\t; Flap detection is enabled\n");
printf("\tprocess_perf_data\t\t1\t; Process performance data\n");
printf("\tretain_status_information\t1\t; Retain status information across program restarts\n");
printf("\tretain_nonstatus_information\t1\t; Retain non-status information across program restarts\n");
printf("\n");
2019-04-18 17:09:18 +02:00
printf("\tregister\t\t\t0\t; DON'T REGISTER THIS DEFINITION - ITS NOT A REAL HOST, JUST A TEMPLATE!\n");
2017-05-19 22:22:40 +02:00
printf("\t}\n\n");
have_template = 1;
}
temp_ptr2 = &input[0];
temp_ptr = my_strsep(&temp_ptr2, "[");
temp_ptr = my_strsep(&temp_ptr2, "]");
printf("# '%s' host definition\n", temp_ptr);
printf("define host{\n");
printf("\tuse\t\t\tgeneric-host\t\t; Name of host template to use\n\n");
printf("\thost_name\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
printf("\talias\t\t\t%s\n", temp_ptr + 1);
temp_ptr = my_strsep(&temp_ptr2, ";");
printf("\taddress\t\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\tparents\t\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\tcheck_command\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
printf("\tmax_check_attempts\t%d\n", atoi(temp_ptr));
temp_ptr = my_strsep(&temp_ptr2, ";");
printf("\tnotification_interval\t%d\n", atoi(temp_ptr));
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\tnotification_period\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
notify_recovery = atoi(temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
notify_down = atoi(temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
notify_unreachable = atoi(temp_ptr);
option = 0;
printf("\tnotification_options\t");
if(notify_recovery == 1 || notify_down == 1 || notify_unreachable == 1) {
if(notify_down == 1) {
printf("d");
option = 1;
}
if(notify_unreachable == 1) {
if(option == 1)
printf(",");
printf("u");
option = 1;
}
if(notify_recovery == 1) {
if(option == 1)
printf(",");
printf("r");
}
}
else
printf("n");
printf("\n");
temp_ptr = my_strsep(&temp_ptr2, ";\r\n");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\tevent_handler\t\t%s\n", temp_ptr);
printf("\t}\n\n\n");
}
/* hostgroups */
if(strstr(input, "hostgroup[") && !strcmp(argv[2], "hostgroups")) {
temp_ptr = strtok(input, "[");
temp_ptr = strtok(NULL, "]");
printf("# '%s' host group definition\n", temp_ptr);
printf("define hostgroup{\n");
/*printf("\tname\t\t%s\n",temp_ptr);*/
printf("\thostgroup_name\t%s\n", temp_ptr);
temp_ptr = strtok(NULL, ";");
printf("\talias\t\t%s\n", temp_ptr + 1);
temp_ptr = strtok(NULL, ";");
/*printf("\tcontact_groups\t%s\n",temp_ptr);*/
temp_ptr = strtok(NULL, "\n");
printf("\tmembers\t\t%s\n", temp_ptr);
printf("\t}\n\n\n");
}
/* services */
if(strstr(input, "service[") && !strcmp(argv[2], "services")) {
if(have_template == 0) {
printf("# Generic service definition template\n");
printf("define service{\n");
printf("\tname\t\t\t\tgeneric-service\t; The 'name' of this service template, referenced in other service definitions\n");
printf("\tactive_checks_enabled\t\t1\t; Active service checks are enabled\n");
printf("\tpassive_checks_enabled\t\t1\t; Passive service checks are enabled/accepted\n");
printf("\tparallelize_check\t\t1\t; Active service checks should be parallelized (disabling this can lead to major performance problems)\n");
printf("\tobsess_over_service\t\t1\t; We should obsess over this service (if necessary)\n");
printf("\tcheck_freshness\t\t\t0\t; Default is to NOT check service 'freshness'\n");
printf("\tnotifications_enabled\t\t1\t; Service notifications are enabled\n");
printf("\tevent_handler_enabled\t\t1\t; Service event handler is enabled\n");
printf("\tflap_detection_enabled\t\t1\t; Flap detection is enabled\n");
printf("\tprocess_perf_data\t\t1\t; Process performance data\n");
printf("\tretain_status_information\t1\t; Retain status information across program restarts\n");
printf("\tretain_nonstatus_information\t1\t; Retain non-status information across program restarts\n");
printf("\n");
2019-04-18 17:09:18 +02:00
printf("\tregister\t\t\t0\t; DON'T REGISTER THIS DEFINITION - ITS NOT A REAL SERVICE, JUST A TEMPLATE!\n");
2017-05-19 22:22:40 +02:00
printf("\t}\n\n");
have_template = 1;
}
temp_ptr2 = &input[0];
temp_ptr = my_strsep(&temp_ptr2, "[");
temp_ptr = my_strsep(&temp_ptr2, "]");
printf("# Service definition\n");
printf("define service{\n");
printf("\tuse\t\t\t\tgeneric-service\t\t; Name of service template to use\n\n");
printf("\thost_name\t\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
printf("\tservice_description\t\t%s\n", temp_ptr + 1);
temp_ptr = my_strsep(&temp_ptr2, ";");
printf("\tis_volatile\t\t\t%d\n", atoi(temp_ptr));
temp_ptr = my_strsep(&temp_ptr2, ";");
printf("\tcheck_period\t\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
printf("\tmax_check_attempts\t\t%d\n", atoi(temp_ptr));
temp_ptr = my_strsep(&temp_ptr2, ";");
printf("\tnormal_check_interval\t\t%d\n", atoi(temp_ptr));
temp_ptr = my_strsep(&temp_ptr2, ";");
printf("\tretry_check_interval\t\t%d\n", atoi(temp_ptr));
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\tcontact_groups\t\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
printf("\tnotification_interval\t\t%d\n", atoi(temp_ptr));
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\tnotification_period\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
notify_recovery = atoi(temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
notify_critical = atoi(temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
notify_warning = atoi(temp_ptr);
option = 0;
printf("\tnotification_options\t\t");
if(notify_recovery == 1 || notify_critical == 1 || notify_warning == 1) {
if(notify_warning == 1) {
printf("w,u");
option = 1;
}
if(notify_critical == 1) {
if(option == 1)
printf(",");
printf("c");
option = 1;
}
if(notify_recovery == 1) {
if(option == 1)
printf(",");
printf("r");
}
}
else
printf("n");
printf("\n");
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\tevent_handler\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";\r\n");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\tcheck_command\t\t\t%s\n", temp_ptr);
printf("\t}\n\n\n");
}
/* hostgroup escalations */
if(strstr(input, "hostgroupescalation[") && !strcmp(argv[2], "hostgroupescalations")) {
x++;
temp_ptr2 = &input[0];
temp_ptr = my_strsep(&temp_ptr2, "[");
temp_ptr = my_strsep(&temp_ptr2, "]");
printf("# Hostgroup '%s' escalation definition\n", temp_ptr);
printf("define hostgroupescalation{\n");
printf("\thostgroup_name\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, "-");
printf("\tfirst_notification\t\t%d\n", atoi(temp_ptr + 1));
temp_ptr = my_strsep(&temp_ptr2, ";");
printf("\tlast_notification\t\t%d\n", atoi(temp_ptr));
temp_ptr = my_strsep(&temp_ptr2, ";");
printf("\tcontact_groups\t\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";\r\n");
printf("\tnotification_interval\t\t%d\n", atoi(temp_ptr));
printf("\t}\n\n\n");
}
/* service escalations */
if(strstr(input, "serviceescalation[") && !strcmp(argv[2], "serviceescalations")) {
x++;
printf("# Serviceescalation definition\n");
printf("define serviceescalation{\n");
temp_ptr2 = &input[0];
temp_ptr = my_strsep(&temp_ptr2, "[");
host_name = my_strsep(&temp_ptr2, ";");
service_description = my_strsep(&temp_ptr2, "]");
printf("\thost_name\t\t%s\n", host_name);
printf("\tservice_description\t\t%s\n", service_description);
temp_ptr = my_strsep(&temp_ptr2, "-");
printf("\tfirst_notification\t\t%d\n", atoi(temp_ptr + 1));
temp_ptr = my_strsep(&temp_ptr2, ";");
printf("\tlast_notification\t\t%d\n", atoi(temp_ptr));
temp_ptr = my_strsep(&temp_ptr2, ";");
printf("\tcontact_groups\t\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";\r\n");
printf("\tnotification_interval\t\t%d\n", atoi(temp_ptr));
printf("\t}\n\n\n");
}
/* service dependencies */
if(strstr(input, "servicedependency[") && !strcmp(argv[2], "servicedependencies")) {
temp_ptr2 = &input[0];
temp_ptr = my_strsep(&temp_ptr2, "[");
host_name = my_strsep(&temp_ptr2, ";");
service_description = my_strsep(&temp_ptr2, "]");
host_name2 = my_strsep(&temp_ptr2, ";") + 1;
service_description2 = my_strsep(&temp_ptr2, ";");
temp_ptr = my_strsep(&temp_ptr2, ";");
x++;
printf("# Servicedependency definition\n");
printf("define servicedependency{\n");
printf("\thost_name\t\t\t%s\n", host_name2);
printf("\tservice_description\t\t%s\n", service_description2);
printf("\tdependent_host_name\t\t%s\n", host_name);
printf("\tdependent_service_description\t%s\n", service_description);
printf("\texecution_failure_criteria\t");
for(y = 0; temp_ptr[y] != '\x0'; y++)
printf("%s%c", (y > 0) ? "," : "", temp_ptr[y]);
if(y == 0)
printf("n");
printf("\t; These are the criteria for which check execution will be suppressed\n");
temp_ptr = my_strsep(&temp_ptr2, ";\r\n");
printf("\tnotification_failure_criteria\t");
for(y = 0; temp_ptr[y] != '\x0'; y++)
printf("%s%c", (y > 0) ? "," : "", temp_ptr[y]);
if(y == 0)
printf("n");
printf("\t; These are the criteria for which notifications will be suppressed\n");
printf("\t}\n\n\n");
}
/* extended host info */
if(strstr(input, "hostextinfo[") && !strcmp(argv[2], "hostextinfo")) {
temp_ptr2 = &input[0];
temp_ptr = my_strsep(&temp_ptr2, "[");
temp_ptr = my_strsep(&temp_ptr2, "]");
printf("# '%s' hostextinfo definition\n", temp_ptr);
printf("define hostextinfo{\n");
printf("\thost_name\t\t%s\t\t; The name of the host this data is associated with\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr + 1 != NULL && strcmp(temp_ptr + 1, ""))
printf("\tnotes_url\t\t\t%s\n", temp_ptr + 1);
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\ticon_image\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\tvrml_image\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\tstatusmap_image\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\ticon_image_alt\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\t2d_coords\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";\r\n");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\t3d_coords\t\t%s\n", temp_ptr);
printf("\t}\n\n\n");
}
/* extended service info */
if(strstr(input, "serviceextinfo[") && !strcmp(argv[2], "serviceextinfo")) {
temp_ptr2 = &input[0];
temp_ptr = my_strsep(&temp_ptr2, "[");
temp_ptr = my_strsep(&temp_ptr2, ";");
2019-04-18 17:09:18 +02:00
printf("# '%s' serviceextinfo definition\n", temp_ptr);
2017-05-19 22:22:40 +02:00
printf("define serviceextinfo{\n");
printf("\thost_name\t\t%s\t\t; The name of the service this data is associated with\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, "]");
printf("\tservice_description\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr + 1 != NULL && strcmp(temp_ptr + 1, ""))
printf("\tnotes_url\t\t%s\n", temp_ptr + 1);
temp_ptr = my_strsep(&temp_ptr2, ";");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\ticon_image\t\t%s\n", temp_ptr);
temp_ptr = my_strsep(&temp_ptr2, ";\r\n");
if(temp_ptr != NULL && strcmp(temp_ptr, ""))
printf("\ticon_image_alt\t\t%s\n", temp_ptr);
printf("\t}\n\n\n");
}
}
fclose(fp);
return 0;
}
/* fixes compiler problems under Solaris, since strsep() isn't included */
/* this code is taken from the glibc source */
char *my_strsep(char **stringp, const char *delim) {
char *begin, *end;
begin = *stringp;
if(begin == NULL)
return NULL;
/* A frequent case is when the delimiter string contains only one
character. Here we don't need to call the expensive `strpbrk'
function and instead work using `strchr'. */
if(delim[0] == '\0' || delim[1] == '\0') {
char ch = delim[0];
if(ch == '\0')
end = NULL;
else {
if(*begin == ch)
end = begin;
else
end = strchr(begin + 1, ch);
}
}
else
/* Find the end of the token. */
end = strpbrk(begin, delim);
if(end) {
/* Terminate the token and set *STRINGP past NUL character. */
*end++ = '\0';
*stringp = end;
}
else
/* No more delimiters; this is the last token. */
*stringp = NULL;
return begin;
}