The Cacti Manual

Ian Berry

Tony Roman

Larry Adams

   Copyright  2005 The Cacti Group

   This project is licensed under the terms of the GPL.

   This program is free software; you can redistribute it and/or
   modify it under the terms of the GNU General Public License as
   published by the Free Software Foundation; either version 2 of
   the License, or (at your option) any later version.

   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.

   All product names are property of their respective owners.
   Such names are used for identification purposes only and are
   not indicative of endorsement by or of any company,
   organization, product, or platform.
     _________________________________________________________

   Table of Contents
   I. Installation

        1. Requirements
        2. Installing Under Unix
        3. Installing Under Windows
        4. Upgrading Cacti

   II. Basics

        5. Graph Overview
        6. How to Graph Your Network

              Creating a Device
              Creating the Graphs

        7. Viewing Graphs

              Graph Trees

        8. User Management

              Creating a New User
              Realm Permissions
              Graph Permissions
              Graph Settings

   III. Advanced Topics

        9. Data Input Methods

              Creating a Data Input Method
              Making Your Scripts Work With Cacti

        10. Data Queries

              Creating a Data Query
              SNMP Query XML Syntax
              Script Query XML Syntax

        11. Templates

              Graph Templates
              Data Templates
              Host Templates

        12. PHP Script Server

              Using the Script Server
              Upgrade Steps for the Example HostMib Data Queries
              Migration of Existing PHP Scripts to Script Server
              Testing Your Script in the Script Server

   IV. Using Cacti

        13. How To

              Graph a Single SNMP OID
              Simplest Method of Going from Script to Graph
                      (Walkthrough)

        14. Frequently Asked Questions

   V. Reference

        15. Variables

              Graph Variables
              Host Variables

        16. RRDTool Specific Features

              GPRINT Presets
              CDEFs
     _________________________________________________________

Chapter 1. Requirements

   Cacti requires that the following software is installed on
   your system.

     * RRDTool 1.0.49 or 1.2.x or greater
     * MySQL 3.23 or greater, 4.0.20d or greater highly
       recommended for advanced features
     * PHP 4.1 or greater, 4.3.6 or greater highly recommended
       for advanced features

   Packages for RPM-based Operating Systems
     * httpd
     * php
     * php-mysql
     * php-snmp
     * mysql
     * mysql-server
     * net-snmp

   Ports for FreeBSD
     * www/apache2
     * net/rrdtool
     * net/net-snmp
     * www/php4-cgi
     * lang/php4 (With MySQL and SNMP Support)
     * databases/mysql323-server
     _________________________________________________________

Chapter 2. Installing Under Unix

    1. Extract the distribution tarball.
shell> tar xzvf cacti-version.tar.gz
    2. Create the MySQL database:
shell> mysqladmin --user=root create cacti
    3. Import the default cacti database:
shell> mysql cacti < cacti.sql
    4. Optional: Create a MySQL username and password for Cacti.
shell> mysql --user=root mysql
mysql> GRANT ALL ON cacti.* TO cactiuser@localhost IDENTIFIED BY 'somep
assword';
mysql> flush privileges;
    5. Edit include/config.php and specify the MySQL user,
       password and database for your Cacti configuration.
$database_default = "cacti";
$database_hostname = "localhost";
$database_username = "cactiuser";
$database_password = "cacti";
    6. Set the appropriate permissions on cacti's directories for
       graph/log generation. You should execute these commands
       from inside cacti's directory to change the permissions.
shell> chown -R cactiuser rra/ log/
       (Enter a valid username for cactiuser, this user will also
       be used in the next step for data gathering.)
    7. Add a line to your /etc/crontab file similar to:
*/5 * * * * cactiuser php /var/www/html/cacti/poller.php > /dev/null 2>
&1
       Replace cactiuser with the valid user specified in the
       previous step.
       Replace /var/www/html/cacti/ with your full Cacti path.
    8. Point your web browser to:

     http://your-server/cacti/
       Log in the with a username/password of admin. You will be
       required to change this password immediately. Make sure to
       fill in all of the path variables carefully and correctly
       on the following screen.
     _________________________________________________________

Chapter 3. Installing Under Windows

   Software Compoents Required
    1. (Optional) Apache> - This software is optional if running
       Windows Internet Information Server.
    2. Cacti> - Install from the zip distribution and intstall in
       the web root or your choice. Many choose to install into a
       "Cacti" sub folder.
    3. Cactid - Install from the zip distribution into the
       c:\cacti directory. Make sure your cactid.conf.dist is
       located in that directory as well.
    4. RRDTool - Install from the Cacti website. Install it into
       the c:\cacti directory.
    5. PHP 4.3.6+ or 5.x - Install into the c:\php folder. If you
       choose to install into c:\Program Files\php, you will have
       to use 8.3 filenames to reference it's binaries in Cacti.
    6. MySQL 4.x or MySQL 5.x - Install into the default
       location. This is typically c:\Program Files\MySQL\MySQL
       Server X.XX.
    7. (Optional) Cygwin - Download and execute setup.exe from
       the Cygwin website. Keep the setup.exe file for later use.
    8. (Optional) Net-SNMP - Install to the c:\net-snmp
       directory. If you choose to use c:\Program Files\net-snmp
       you will have tu use 8.3 filenames to reference it's
       binaries in Cacti.

   Configure PHP
    1. If using PHP 4, move the files in c:\php\dlls to c:\php
    2. Add the following directory to the existing Windows System
       PATH environment variable: c:\php. The Windows path can be
       accessed via the Control Panel at: System | Advanced |
       Environment Variables | System Variables.
    3. Add the following directory to a new Windows System
       environment variable called PHPRC: c:\php.
    4. Add a new Windows System environment variable called
       MIBDIRS. If using PHP 4, set it to c:\php\mibs. If using
       PHP 5, set it to c:\php\extras\mibs
    5. If using PHP 4.3.5 or less, create the following directory
       c:\tmp.
    6. Rename the file c:\php\php.ini.dist to php.ini, and make
       the following changes to it:
       If using PHP 4 add/uncomment the following lines.
extension_dir = c:\php\extensions
extension=php_snmp.dll
extension=php_sockets.dll
cgi.force_redirect = 0
       If using PHP 5 uncomment the following lines.
extension_dir = c:\php\ext
extension=php_mysql.dll
extension=php_snmp.dll
extension=php_sockets.dll
cgi.force_redirect = 0
       If using PHP 4.3.5 or less include the following line. If
       using 4.3.6 or greater, you should remove this line if
       present.
session.save_path=c:\tmp
    7. In earlier installation guides to PHP, they recommended
       moving certain DLL's to the c:\winnt\system32 directory.
       If so, you will have to remove those files. Please review
       the PHP installation documentation for instructions on
       removing those files.
    8. If you want to allow template importing, uncomment the
       following line:
file_uploads = On
    9. Give the user who will be running the scheduled task,
       modify rights to the .index file in the location pointed
       to by the MIBDIRS Windows System environment variable.

   Configure the Webserver (Apache)
    1. Make sure you have stopped any IIS web servers before you
       proceed with Apache installation, or make sure Apache is
       configured on an alternate port.
    2. If you are using Apache 1.3.x, installation of PHP 5 is
       not recommended. If using PHP 4, add the following lines
       to your httpd.conf file. You can edit that file by
       selecting Start | All Programs | Apache HTTP Server X.XX |
       Configure Server | Edit the httpd.conf file pick from the
       Taskbar.
       If using Apache 1.3.x and PHP 4, then add the following
       lines:
LoadModule php4_module c:\php\sapi\php4apache.dll
AddModule mod_php4.c
AddType application/x-httpd-php .php
DirectoryIndex index.html index.htm index.php
       If using Apache 2.x and PHP 4, then add the following
       lines:
LoadModule php4_module c:\php\sapi\php4apache2.dll
AddType application/x-httpd-php .php
DirectoryIndex index.html index.htm index.php
       If using Apache 2.x and PHP 5, then add the following
       lines.
LoadModule php5_module c:\php\php5apache2.dll
AddType application/x-httpd-php .php
DirectoryIndex index.html index.htm index.php

   Configure the Webserver (IIS)
    1. Start the Internet Information Services (IIS) Manager,
       right click on the Default Web Site (in most cases) and
       select Properties.
    2. Under the Home Directory tab, select Configuration and
       click Add. Browse to the path of php4isapi.dll or
       php5isapi.dll, and type in .php as the extension. Note: if
       using IIS6, Enable All Verbs and Script Engine.
    3. Under the ISAPI Filters tab, click Add and browse to the
       php4isapi.dll or php5isapi.dll file. Name the filter "php"
       and click OK.
    4. Under the Documents tab, add index.php to the list.
    5. If using IIS6, goto Web Service Extensions and add a new
       Web Service Extension. Name the extension "php", and click
       Add and browse to the php4isapi.dll or php5isapi.dll file,
       enable Set Extension status to Enable, and click OK.
    6. Give the IUSR_XXXX and IIS_WPG users read & execute
       permissions to the file %windir%\system32\cmd.exe. They
       will also need read permissions on cacti_web_root/cacti
       and it's subfolders.
    7. If using IIS6, give the IIS_WPG user modify permissions to
       the folders cacti_web_root/cacti/log and
       cacti_web_root/cacti/rrd.
    8. Completely stop and start the IIS service using the
       following commands:
net stop iisadmin
net start w3svc

   Install Cygwin (optional)
    1. Installing a single instance of Cygwin, and using it for
       all applications that require it is recommended so you do
       not have different versions of the Cygwin dlls laying
       around on your system, which can cause conflicts.
    2. Run setup.exe you previously download.
    3. Once you reach the portion of setup entitled Select
       Packages, install the following:
Base (include all items)
Libs
        libart_lgpl
        libfreetype26
        libpng12
        zlib
        openssl
Utils
        patch
Web
        wget
    4. Add c:\cygwin\bin to your Windows System PATH environment
       variable.
    5. Move setup.exe to c:\cygwin for future use.

   Install RRDTool
    1. Extract the RRDTool zip file from the Cacti web site to
       c:\cacti\rrdtool.exe.

   Install MySQL
    1. Extract the MySQL zip file to a temp directory and run
       setup.exe.
    2. Install MySQL to the default directory, or for the
       purposes of this manual to the c:\mysql directory.
    3. If running an older version of MySQL, start it by running
       c:\mysql\bin\winmysqladmin.exe. In more recent versions,
       this is not required.
    4. Set a password for the root user
shell> cd mysql\bin
shell> mysqladmin --user=root password somepassword
shell> mysqladmin --user=root --password reload
    5. Create the MySQL database:
shell> mysqladmin --user=root --password create cacti
    6. Import the default Cacti database:
shell> mysql --user=root --password cacti < c:\apache2\htdocs\cacti\cac
ti.sql
    7. Create a MySQL username and password for Cacti.
shell> mysql --user=root --password mysql
mysql> GRANT ALL ON cacti.* TO cactiuser@localhost IDENTIFIED BY 'somep
assword';
mysql> flush privileges;
    8. If you are running MySQl 4.1 and above, you will need to
       apply the old password setting in order to authenticate
       with Cacti. To make this change, stop the MySQL service
       and add the following to the Start Parameter field. Start
       it again once it has been added.
--old-password
       You will also need to update the cactiuser account with
       the old password style.
shell> UPDATE mysql.user SET Password = OLD_PASSWORD('cactipwd') WHERE
Host = 'localhost' AND User = 'cactiuser';
mysql> FLUSH PRIVILEGES;

   Install Net-SNMP
    1. If you plan to use any hosts with SNMP v2c support, and
       are using early versions of PHP, you must download and
       install the Net-SNMP libraries. Net-SNMP provides
       installers to install their product. However, caution must
       be taken if you choose to use long file names as Cacti
       does not them as long file names. You will have to user
       8.3 notation. For example c:\Program Files\Net-SNMP\bin
       becomes c:\progra~1\net-snmp\bin.

   Install Cactid
    1. Extract the Cactid zip file to c:\cacti and modify the
       cactid.conf.dist file to include the following statements.
DB_Host 127.0.0.1 or hostname (not localhost)
DB_Database     cacti
DB_User         cactiuser
DB_Password     cacti
DB_Port         3306
       All other pre 0.8.6 settings are obsolete.
    2. Cactid now comes with a binary distribution. However, we
       strongly suggest that you install Cygwin and then remove
       all the DLL files and sh.exe from the c:\cacti directory.

   Configure Cacti
    1. Edit cacti_web_root/cacti/include/config.php and specify
       the MySQL user, password, database, and database port for
       your Cacti configuration.
$database_default = "cacti";
$database_hostname = "localhost";
$database_username = "cactiuser";
$database_password = "cacti";
$database_port = "3306";
    2. Point your web browser to:
http://your-server/cacti/
       Log in using the username and password of admin/admin. You
       will be required to change this password immediately.
    3. From Cacti, go to Settings->Paths and verify/udate your
       paths to point to the correct locations. Recommended
       examples are posted below. If you plan on using Cactid,
       then it is very important that all paths include forward
       slashes instead of backslashes.
       PHP Binary Path:
c:/php/php.exe
       RRDTool Binary Path:
c:/cacti/rrdtool.exe
       SNMPGET, SNMPWALK, SNMPBULKWALK, SNMPGETNEXT Paths:
c:/progra~1/net-snmp/bin/snmpget.exe
c:/progra~1/net-snmp/bin/snmpwalk.exe
c:/progra~1/net-snmp/bin/snmpbulkwalk.exe
c:/progra~1/net-snmp/bin/snmpgetnext.exe
       Cacti Logfile Path:
c:/mycacti/website/cacti/log/cacti.log
       Cactid Path:
c:/cacti/cactid.exe
    4. Click on Devices. Delete the Localhost devices as it
       intended for Linux environments In the upper right corner,
       click Add. Fill in the following information and then
       click Add.
Description: My Windows localhost
Hostname: localhost
Host Template: Windows 2000/XP
    5. You should now be looking at the localhost device screen.
       Right under it's name, there should be some SNMP
       information listed, if not you should double check the
       SNMP settings on the server and firewall settings. In the
       upper right-hand corner, click on Create Graphs for this
       Host. On the following screen, select a disk partition and
       network interface. At the bottom of the page, click on
       Create.
    6. Log into the user account you'll be using for the
       scheduled task and verify starting a Cacti polling cycle
       works. Do this by running the following from the command
       prompt:
php c:/cacti_web_root/cacti/poller.php
       The output should look something like the following:
C:\>php c:\inetpub\wwwroot\cacti\poller.php
OK u:0.00 s:0.06 r:1.32
OK u:0.00 s:0.06 r:1.32
OK u:0.00 s:0.16 r:2.59
OK u:0.00 s:0.17 r:2.62
10/28/2005 04:57:12 PM - SYSTEM STATS: Time:4.7272 Method:cmd.php Proce
sses:1 Threads:N/A Hosts:1 HostsPerProcess:2 DataSources:4 RRDsProcesse
d:2
       After this has ran once, you should have cacti.log in
       /cacti/log/ and rrd files in /cacti/rra/.
    7. You are going to need to schedule a task while logged on
       as an Administrator. This task is required to you can run
       poller.php every 5 minutes. Make sure the Task Scheduler
       service is started and follow the steps below to begin.
       Note: The following instructions are based on Windows XP
       and Windows Server 2003. You should be able to follow
       these instructions close enough for Windows 2000 as well.
         a. Select Start --> Settings --> Control Panel and
            double click on Scheduled Tasks.
         b. Double click on Add Scheduled Task.
         c. Click Next and Browse on the following screen. Find
            c:\php and select php.exe. Choose Daily on and click
            Next.
         d. Click Next again without changing the time or date
            settings.
         e. When entering a username and password make sure the
            user has read and write access to the following
            directories:
cacti_web_root/cacti/rra
cacti_web_root/log
            Make sure the user has read, write, and execute
            access to the following directories:
c:\php
c:\php\sapi
         f. Click Next and Finish to close the wizard.
         g. Right click on the task you just created, and select
            Properties.
         h. Select the Schedule tab.
         i. Make sure Daily is selected and click the Advanced
            button.
         j. Check the Repeat checkbox, set it for 5 minutes and
            set the duration for 24 hours.
         k. Click Ok
         l. In the Run textbox enter the following text making
            sure to use the appropriate paths.
c:\php\php.exe c:\mycacti\website\cacti\poller.php
            The start in box should say c:\mycacti\website\cacti.

   Apply Patches
    1. There are two methods of applying patches to Cacti:
         a. If you have Cygwin installed, then the patch
            instructions which use wget and patch, will work.
         b. The other method requires you to visit
            http://www.cacti.net/downloads/patches/0.8.6h/pre-pat
            ched/ and manually download and replace the patched
            files.
    2. You might need to reapply file/folder security on the
       files patched. Double check they are correct.
     _________________________________________________________

Chapter 4. Upgrading Cacti

    1. Backup the old Cacti database.
shell> mysqldump -l --add-drop-table cacti > mysql.cacti
       Note: You will probably have to specify the -u and -p
       flags for the MySQL username and password. This user must
       have permission to read from Cacti's database or you will
       end up with an empty backup.
    2. Backup the old Cacti directory.
shell> mv cacti cacti_old
    3. Extract the distribution tarball.
shell> tar xzvf cacti-version.tar.gz
    4. Rename the new Cacti directory to match the old one.
shell> mv cacti-version cacti
    5. Edit include/config.php and specify the MySQL user,
       password and database for your Cacti configuration.
$database_default = "cacti";
$database_hostname = "localhost";
$database_username = "cactiuser";
$database_password = "cacti";
    6. Copy the *.rrd files from the old Cacti directory.
shell> cp cacti_old/rra/* cacti/rra/
    7. Copy any relevant custom scripts from the old Cacti
       directory. Some script are updated between versions.
       Therefore, make sure you only over write if the scripts
       either don't exist or are newer than the distribution's.
shell> cp -u cacti_old/scripts/* cacti/scripts/
    8. Copy any relevant custom resource XML files from the old
       Cacti directory. Some resource XML files are updated
       between versions. Therefore, make sure you only over write
       if the XML files either don't exist or are newer than the
       distribution's.
shell> cp -u -R cacti_old/resource/* cacti/resource/
    9. Set the appropriate permissions on Cacti's directories for
       graph/log generation. You should execute these commands
       from inside Cacti's directory to change the permissions.
shell> chown -R cactiuser rra/ log/
       (Enter a valid username for cactiuser, this user will also
       be used in the next step for data gathering.)
   10. Point your web browser to:

     http://your-server/cacti/
       Follow the on-screen instructions so your database can be
       updated to the new version.
     _________________________________________________________

Chapter 5. Graph Overview

   Almost everything in Cacti is somehow related to a graph. At
   any time, you can list all available graphs by clicking on the
   Graph Management menu item. While it is possible to manually
   create graphs through this screen, new users should follow the
   instructions provided in the next chapter for creating new
   graphs in Cacti.

   For users that are familiar with RRDTool , you will
   immediately recognize that a graph in Cacti is closely modeled
   after RRDTool's graphs. This makes sense since Cacti provides
   a user friendly interface to RRDTool without requiring users
   to understand how RRDTool works. With this in mind, every
   graph in Cacti has certain settings and at least one graph
   item associated with it. While graph settings define the
   overall properties of a graph, the graph items define the data
   that is to be represented on the graph. So the graph items
   define which data to display and how it should displayed, and
   also define what should be displayed on the legend.

   Each graph and graph item has a set of parameters which
   control various aspects of the graph. Fortunately through the
   use of graph templates, it is not necessary to understand the
   function of each field to create graphs for your network. When
   you are ready to take on the task of creating your own graph
   templates, extensive field descriptions for both graphs and
   graph items are provided in that section of the manual.
     _________________________________________________________

Chapter 6. How to Graph Your Network

   At this point, you probably realize that graphing is Cacti's
   greatest strength. Cacti has many powerful features that
   provide complex graphing and data acquisition, some which have
   a slight learning curve. Do not let that stop you however,
   because graphing your network is incredibly simple.

   The next two sections will outline the two basic steps which
   are typically required to create graphs for most devices.
     _________________________________________________________

Creating a Device

   The first step to creating graphs for your network is adding a
   device for each network device that you want to create graphs
   for. A device specifies important details such as the network
   hostname, SNMP parameters, and host type.

   To manage devices within Cacti, click on the Devices menu
   item. Clicking Add will bring up a new device form. The first
   two fields, Description and Hostname are the only two fields
   that require your input beyond the defaults. If your host type
   is defined under the host template dropdown, be sure to select
   it here. You can always choose "Generic SNMP-enabled Host" if
   you are just graphing traffic or "None" if you are unsure. It
   is important to remember that the host template you choose
   will not lock you into any particular configuration, it will
   just provide more intelligent defaults for that type of host.

   Figure 6-1. Adding a New Device

   [new_device.png]

   After saving your new device, you should be redirected back to
   the same edit form with some additional information. If you
   configured SNMP for this host by providing a valid community
   string, you should see various statistics listed at the top of
   the page. If you see "SNMP error" instead, this indicates an
   SNMP problem between Cacti and your device.

   Towards the bottom of the page there will be two addition
   boxes, Associated Data Queries, and Associated Graph
   Templates. If you selected a host template on the previous
   page, there will probably be a few items in each box. If there
   is nothing listed in either box, you will need to associate at
   least one data query or graph template with your new device or
   you will not be able to create graphs in the next step. If no
   available graph template or data query applies to your device,
   you can check the Cacti templates repository or create your
   own if nothing currently exists.
     _________________________________________________________

A Word About SNMP

   The SNMP version that you choose can have a great effect on
   how SNMP works for you in Cacti. Version 1 should be used for
   everything unless you have reason to choose otherwise. If you
   plan on utilizing (and your device supports) high-speed
   (64-bit) counters, you must select version 2. At the present
   time, version 3 is not fully implemented and will not work.

   The way in which Cacti retrieves SNMP information from a host
   has an effect on which SNMP-related options are supported.
   Currently there are three types of SNMP retrieval methods in
   Cacti and are outlined below.

   Table 6-1. SNMP Retrieval Types
   Type Description Supported Options Places Used
   External SNMP Calls the net-snmp snmpwalk and snmpget binaries
   that are installed on your system. All SNMP options Web
   interface and PHP poller (poller.php)
   Internal SNMP (php-snmp) Uses PHP's SNMP functions which are
   linked against net-snmp or ucd-snmp at compile time. Version 1
   Only (Community and Port) Web interface and PHP poller
   (poller.php)
   Cactid SNMP Links directly against net-snmp or ucd-snmp and
   calls the API directly. All SNMP options C-Based Poller
   (cactid)
     _________________________________________________________

Creating the Graphs

   Now that you have created some devices, it is time to create
   graphs for these devices. To do this, select the New Graphs
   menu option under the Create heading. You will see a screen
   similar to the image pictured below.

   Figure 6-2. Creating New Graphs

   [new_graphs.png]

   The dropdown menu that contains each device should be used to
   select the host that you want to create new graphs for. The
   basic concept to this page is simple, place a check in each
   row that you want to create a graph for and click Create.

   If you are creating graphs from inside a "Data Query" box,
   there are a few additional things to keep in mind. First is
   that you may encounter the situation as pictured above with
   the "SNMP - Interface Statistics" data query. If this occurs
   you may want to consult the section on debugging data queries
   to see why your data query is not returning any results. Also,
   you may see a "Select a graph type" dropdown box under some
   data query boxes. Changing the value of this dropdown box
   affects which type of graph Cacti will make after clicking the
   Create button. Cacti only displays this dropdown box when
   there is more than one type to choose from, so it may not be
   displayed in all cases.

   Once you have selected the graphs that you want to create,
   simply click the Create button at the bottom of the page. You
   will be taken to a new page that allows you to specify
   additional information about the graphs you are about to
   create. You only see the fields here that are not part of each
   template, otherwise the value automatically comes from the
   template. When all of the values on this page look correct,
   click the Create button one last time to actually create your
   graphs.

   If you would like to edit or delete your graphs after they
   have been created, use the Graph Management item on the menu.
   Likewise, the Data Source menu item allows you to manage your
   data sources in Cacti.
     _________________________________________________________

Chapter 7. Viewing Graphs

Graph Trees

   A graph tree can be thought of as a hierarchical way of
   organizing your graphs. Each graph tree consists of zero or
   more headers or branch nodes that contain leaf nodes such as
   graphs or trees. Multiple graph trees or branches within a
   single tree can be combined to form a very powerful way of
   organizing your graphs.
     _________________________________________________________

Creating a Graph Tree

   To create a new graph tree, select the Graph Trees menu item
   under the Management header. Select Add on this page to create
   a new tree. The following page will prompt you for a tree
   name, which will be used to identify the graph tree throughout
   Cacti. Once you type a name, click the Create button to
   continue. You will be redirected to a page similar to the one
   below, but without all of the items.

   Figure 7-1. Editing a Graph Tree

   [graph_tree.png]

   To start adding items to your tree, click add in the Tree
   Items box. There are currently three different types of tree
   items you can choose from: header, graph, or host. Simply
   choose the type you want, fill in the value for that type, and
   click Create to make your new graph tree item. Clicking the
   Add link to the right of any branch will add the new item
   below that branch, you can change the branch that any item
   belongs to by changing its Parent Item field.
     _________________________________________________________

Chapter 8. User Management

   In addition to giving you the tools to create sophisticated
   graphs, Cacti enables you to create users that are tailored
   specifically to their requirements. Each user has certain
   settings such as login actions, as well as graph viewing
   settings. There are also two levels of permissions control,
   realm permissions and graph permissions which enable you to
   control what the user can see and change.

   Out of the box, there are two users that come with every Cacti
   installation. The "admin" user, is the main user that by
   default has access to see and change everything in Cacti. This
   is the user that you first login with in Cacti, and is
   probably a good idea to keep around unless you know otherwise.
   The second user is the "guest" user, which controls which
   areas/graphs are allowed for unauthenticated users. By default
   this user only has rights to view, but not change all graphs.
   This enables any unauthenticated user to visit
   'graph_view.php' and view your graphs. This behavior can be
   changed by either changing the realm permissions for the
   "guest" user, or disabling the guest user altogether under
   Cacti Settings.
     _________________________________________________________

Creating a New User

   To create a new user, select the User Management item under
   the Utilities heading on the Cacti menu. Once at the user
   management screen, click Add. You will see a screen that looks
   similar to the image below.

   Figure 8-1. Adding a User

   [user_management.png]

   At minimum, you must specify a User Name and a Password for
   each user. Each user field is described in more detail below.
   In addition to these fields, each user can have their own
   realm permissions", graph permissions, and graph settings.
   Each of these items are described in this section of the
   manual.

   Table 8-1. Field Description: User Management
   Name Description
   User Name This field contains the actual login name for the
   user. There are no character limits this field, but it would
   make sense to keep it to alphanumeric characters to maintain
   simplicity.
   Full Name (Optional) You can use this field as a more
   descriptive identifier for the user. It is currently only used
   for display on the user management page.
   Password Enter the password for the user twice, once in each
   text box. Keep in mind that passwords are case sensitive and
   the password will remain unchanged if the boxes are both left
   empty.
   Account Options There are currently two account related
   options that can be set for each user. The first, 'User Must
   Change Password at Next Login', forces a password change
   immediately after the user logs in. The second option, 'Allow
   this User to Keep Custom Graph Settings', dictates whether the
   user can maintain their own custom graph viewing settings
   which includes expanding and collapsing trees.
   Graph Options There are three permission related options that
   can be set for each user here. The 'User Has Rights to
   {Tree,List,Preview} View' checkboxes dictate which graph
   viewing areas the user can see.
   Login Options These options dictate what occurs immediately
   after the user logs in. The first option, 'Show the page that
   user pointed their browser to.' will point the user to
   whatever page they were heading to before being interrupted by
   the login page. The 'Show the default console screen.' option
   will always point the user to 'index.php' after a successful
   login. The last option, 'Show the default graph screen.' will
   point the user to 'graph_view.php' after a successful login.
     _________________________________________________________

Realm Permissions

   Realm permissions control which areas of Cacti a user can
   access. You can edit a user's realm permissions by selecting
   User Management and choosing the user you want to edit the
   permissions for. The Realm Permissions box will be displayed
   in the lower part of the screen. Each "realm" is a grouping
   that represents common tasks in Cacti, making it easier to
   fine tune each user's access.

   If you want to create a user that can only view graphs, you
   should select the View Graphs realm and leave everything else
   unchecked. See the Graph Permissions section for more
   information about how to fine tune this even more on a
   per-graph basis. Conversely, if the user needs to access the
   console, they will need Console Access and any additional
   realms that you see fit.
     _________________________________________________________

Graph Permissions

   Graph permissions control which graphs a user is allowed to
   view, it does not apply to editing graphs. You can edit a
   user's graph permissions by selecting User Management and
   choosing the user you want to edit the permissions for. Now
   select the Graph Permissions tab to view this user's graph
   permissions. There are three different ways that you can apply
   graph permissions, by graph, by host, or by graph template.
   This works by allowing or denying the user to all graphs
   associated with the particular group. So you can deny a user
   to a single graph, all graphs associated with a particular
   host, or all graphs associated with a particular graph
   template. Combining these three types of assigning graph
   permissions results in a very powerful graph policy editor.

   Each assignment type contains a Default Policy dropdown which
   can be used to control whether the user should be allowed to
   view everything or be denied from everything by default in the
   particular group. It is very important to remember that these
   policies are evaluated in the order: graph, host, graph
   template. Therefore, if you set graph's default policy to
   Deny, but kept host and graph template at Allow, the user's
   effective policy would be Deny since the graph assignment type
   is evaluated first. You typically either want to set all
   default policies to Deny for a restrictive user, or Allow for
   a non-restrictive user. If you thoroughly understand Cacti's
   graph permissions system, these default policies can be
   combined to provide very complex results.
     _________________________________________________________

Graph Settings

   Cacti stores certain graph viewing settings for each user,
   which enables each user to view graphs in an optimal way.
   These preferences controls things such as the preview graph
   size or the default graph viewing mode to use. In addition to
   managing these settings here under user management, each user
   can change their own settings by clicking on the Graphs tab
   and selecting the Settings tab on the following page. If you
   want to prevent a user from being able to keep their own graph
   preferences, uncheck the Allow this User to Keep Custom Graph
   Settings checkbox in user management. The user will be
   presented with an "Access Denied" error message if they
   attempt to click the Settings tab when this box is checked.
     _________________________________________________________

Chapter 9. Data Input Methods

   Data input methods allow Cacti to retrieve data to insert into
   data sources and ultimately put on a graph. There are
   different ways for Cacti to retrieve data, the most popular
   being through an external script or from SNMP.
     _________________________________________________________

Creating a Data Input Method

   To create a new data input method, select the Data Input
   Methods option under the Management heading. Once on that
   screen, click Add on the right. You will be presented with a
   few fields to populate on the following screen.

   Table 9-1. Field Description: Data Input Methods
   Name Description
   Name Give the data query a name that you will use to identify
   it. This name will be used throughout Cacti to identify the
   data input method.
   Input Type Select the type of data input method you are trying
   to create. Valid options here are 'Script/Command', 'SNMP',
   'SNMP Query', and 'Script Query'.
   Input String

   This field is only used when the Input Type is set to
   'Script/Command'. It specifies the full path to the script
   including any per data source variables inside <>'s from the
   user. For instance, if you are passing an IP address to a
   script, your input string might look something like:

   /path/to/script.pl <ip>

   When the user creates a data source based on this data input
   method, they will be prompted for an IP address to pass onto
   the script.
   Output String This field is only here for legacy purposes and
   will probably go away in a future version of Cacti.

   When you are finished filling in all necessary fields, click
   the Create button to continue. You will be redirected back to
   the same page, but this time with two new boxes, Input Fields
   and Output Fields. The Input Fields box is used to define any
   fields that require information from the user. Any input
   fields referenced to in the input string must be defined here.
   The Output Fields box is used to define each field that you
   expect back from the script. All data input methods must have
   at least one output field defined, but may have more for a
   script.
     _________________________________________________________

Data Input Fields

   To define a new field, click Add next to the input or output
   field boxes. You will be presented with some or all of the
   fields below depending on whether you are adding an input or
   output field.

   Table 9-2. Field Description: Data Input Fields
   Name Description
   Field/Field Name Either select or type in the name of the
   field you want to define. No spaces or other non-alphanumeric
   characters (except '-' or '_') should be used in this field.
   Friendly Name Enter a more descriptive name for this field
   which will be used for identification throughout Cacti.
   Regular Expression Match (Input Only) If you want to enforce a
   certain regular expression pattern when the user enters a
   value for this field, enter it here. The regular expression
   must follow POSIX syntax as it will be passed to PHP's ereg()
   function.
   Allow Empty Input (Input Only) Select whether you want to
   allow the user to leave the value of this field blank or not.
   Special Type Code (Input Only) Sometimes Cacti needs to
   reference a field internally, but needs to rely on more than
   just the field name. For instance, if your field requires an
   IP address from the user, you can enter 'management_ip' here
   and Cacti will fill this field in with the current IP address
   of the selected host. Valid values for this field are:
   'hostname', 'management_ip', 'snmp_community',
   'snmp_username', 'snmp_password', and 'snmp_version'.
   Update RRD File (Output Only) Check this box if you want Cacti
   to insert the return value from this field into the RRD file.
   Obviously, this box needs to be checked for at least one
   output field per data input source, but can be left blank to
   have Cacti store the value in the database instead.

   When you are finished filling in all necessary fields, click
   the Create button to continue. You will be redirected back to
   the data input method edit page. From here you can continue to
   add additional fields, or click Save on this screen when
   finished.
     _________________________________________________________

Making Your Scripts Work With Cacti

   The simplest way to extend Cacti's data gathering
   functionality is through external scripts. Cacti comes with a
   number of scripts out of the box which are located in the
   scripts/ directory. These scripts are used by the data input
   methods that are present in a new installation of Cacti.

   To have Cacti call an external script to gather data you must
   create a new data input method, making sure to specify
   Script/Command for the Input Type field. See the previous
   section, Creating a Data Input Method for more information
   about how to create a data input method. To gather data using
   your data input method, Cacti simply executes the shell
   command specified in the Input String field. Because of this,
   you can have Cacti run any shell command or call any script
   which can be written in almost any language.

   What Cacti is concerned with is the output of the script. When
   you define your data input method, you are required to define
   one or more output fields. The number of output fields that
   you define here is important to your script's output. For a
   data input method with only one output field, your script
   should output its value in the following format:
<value_1>

   So if I wrote a script that outputs the number of running
   processes, its output might look like the following:

   Example 9-1. Example script output using 1 field

   67

   Data input methods with more than one output field are handled
   a bit differently when writing scripts. Scripts that output
   more than one value should be formatted like the following:
<fieldname_1>:<value_1> <fieldname_2>:<value_2> ... <fieldname_n>:<valu
e_n>

   Lets say that I write a script that outputs the 1, 5, and 10
   minute load average of a Unix machine. In Cacti, I name the
   output fields '1min', '5min', and '10min', respectively. Based
   on these two things, the output of the script should look like
   the following:

   Example 9-2. Example script output using 3 fields

   1min:0.40 5min:0.32 10min:0.01

   One last thing to keep in mind when writing scripts for Cacti
   is that they will be executed as the user the data gatherer
   runs as. Sometimes a script may work correctly when executed
   as root, but fails due to permissions problems when executed
   as a less privileged user.
     _________________________________________________________

Chapter 10. Data Queries

   Data queries are not a replacement for data input methods in
   Cacti. Instead they provide an easy way to query, or list data
   based upon an index, making the data easier to graph. The most
   common use of a data query within Cacti is to retrieve a list
   of network interfaces via SNMP. If you want to graph the
   traffic of a network interface, first Cacti must retrieve a
   list of interfaces on the host. Second, Cacti can use that
   information to create the necessary graphs and data sources.
   Data queries are only concerned with the first step of the
   process, that is obtaining a list of network interfaces and
   not creating the graphs/data sources for them. While listing
   network interfaces is a common use for data queries, they also
   have other uses such as listing partitions, processors, or
   even cards in a router.

   One requirement for any data query in Cacti, is that it has
   some unique value that defines each row in the list. This
   concept follows that of a 'primary key' in SQL, and makes sure
   that each row in the list can be uniquely referenced. Examples
   of these index values are 'ifIndex' for SNMP network
   interfaces or the device name for partitions.

   There are two types of data queries that you will see referred
   to throughout Cacti. They are script queries and SNMP queries.
   Script and SNMP queries are virtually identical in their
   functionality and only differ in how they obtain their
   information. A script query will call an external command or
   script and an SNMP query will make an SNMP call to retrieve a
   list of data.

   All data queries have two parts, the XML file and the
   definition within Cacti. An XML file must be created for each
   query, that defines where each piece of information is and how
   to retrieve it. This could be thought of as the actual query.
   The second part is a definition within Cacti, which tells
   Cacti where to find the XML file and associates the data query
   with one or more graph templates.
     _________________________________________________________

Creating a Data Query

   Once you have created the XML file that defines your data
   query, you must add the data query within Cacti. To do this
   you must click on Data Queries under the Data Gathering
   heading, and select Add. You will be prompted for some basic
   information about the data query, described in more detail
   below.

   Table 10-1. Field Description: Data Queries
   Name Description
   Name Give the data query a name that you will use to identify
   it. This name will be used throughout Cacti when presented
   with a list of data queries.
   Description (Optional) Enter a more detailed description of
   the data query including the information it queries or
   additional requirements.
   XML Path Fill in the full path to the XML file that defines
   this query. You can optionally use the <path_cacti> variable
   that will be substituted with the full path to Cacti. On the
   next screen, Cacti will check to make sure that it can find
   the XML file.
   Data Input Method This is how you tell Cacti to handle the
   data it receives from the data query. Typically, you will
   select "Get SNMP Data (Indexed)" for an SNMP query and "Get
   Script Data (Indexed)" for a script query.

   When you are finished filling in all necessary fields, click
   the Create button to continue. You will be redirected back to
   the same page, but this time with some additional information
   to fill in. If you receive a red warning that says 'XML File
   Does Not Exist', correct the value specified in the 'XML Path'
   field.
     _________________________________________________________

Associated Graph Templates

   Every data query must have at least one graph template
   associated with it, and possibly more depending on the number
   of output fields specified in the XML file. This is where you
   get to choose what kind of graphs to generate from this query.
   For instance, the interface data query has multiple graph
   template associations, used to graph traffic, errors, or
   packets. To add a new graph template association, simply click
   Add at the right of the Associated Graph Templates box. You
   will be presented with a few fields to fill in:

   Table 10-2. Field Description: Associated Graph Templates
   Name Description
   Name Give a name describing what kind of data you are trying
   to represent or graph. When the user creates a graph using
   this data query, they will see a list of graph template
   associations that they will have to choose from.
   Graph Template Choose the actual graph template that you want
   to make the association with.

   When you are finished filling in these fields, click the
   Create button. You will be redirected back to the same page
   with some additional information to fill in. Cacti will make a
   list of each data template referenced to in your selected
   graph template and display them under the Associated Data
   Templates box. For each data source item listed, you must
   selected the data query output field that corresponds with it.
   Do not forget to check the checkbox to the right of each
   selection, or your settings will not be saved.

   The Suggested Values box gives you a way to control field
   values of data sources and graphs created using this data
   query. If you specify multiple suggested values for the same
   field, Cacti will evaluate them in order which you can control
   using the up or down arrow icons. For more information about
   valid field names and variables, read the section on suggested
   values.

   When you are finished filling in all necessary fields on this
   form, click the Save button to return to the data queries edit
   screen. Repeat the steps under this heading as many times as
   necessary to represent all data in your XML file. When you are
   finished with this, you should be ready to start adding your
   data query to hosts.
     _________________________________________________________

SNMP Query XML Syntax

<query>
   <name>Get SNMP Interfaces</name>
   <description>Queries a host for a list of monitorable interfaces</de
scription>
   <oid_index>.1.3.6.1.2.1.2.2.1.1</oid_index>
   <oid_index_parse>OID/REGEXP:.*\.([0-9]{1,3}\.[0-9]{1,3})$</oid_index
_parse>
   <oid_num_indexes>.1.3.6.1.2.1.2.1.0</oid_num_indexes>
   <index_order>ifDescr:ifName:ifIndex</index_order>
   <index_order_type>numeric</index_order_type>
   <index_title_format>|chosen_order_field|</index_title_format>

   <fields>
      <ifIndex>
         <name>Index</name>
         <method>walk</method>
         <source>value</source>
         <direction>input</direction>
         <oid>.1.3.6.1.2.1.2.2.1.1</oid>
      </ifIndex>
   </fields>
</query>

   Table 10-3. SNMP Query XML Field Reference
   Field Description
   query->name (Optional) You can enter a "friendly name" for the
   SNMP query here. It will not be used by Cacti, and is for
   identification only.
   query->description (Optional) You can enter a description for
   the SNMP query here. It will not be used by Cacti, and is for
   identification only.
   query->oid_index

   Every SNMP query must have an OID that represents the index
   values for the query when walked. As described above, any data
   query in Cacti must contain a field that uniquely identifies
   each row returned by the query. In the example above, the
   oid_index points to the OID of ifIndex in the interface MIB.

   Note: Starting with version 0.8.6c, Cacti is able to parse
   unique indexes from the OID itself. While the regular
   expression used for parsing the value from the OID is defined
   below, you must still specify an OID that can be walked by
   Cacti in order to obtain the list of OID's. Any OID defined
   for one of your input fields should work in this case. The
   values returned from the snmpwalk walk will be completely
   disregarded.
   query->oid_index_parse This field should only be used if you
   are trying to parse the unique index from the OID itself. If
   this field is defined, to obtain a list of indexes, Cacti
   walks the OID provided in the oid_index field above. It then
   applies the regular expression provided in this field to the
   list of OID's that are returned. The matched substrings that
   remain become the list of indexes for this SNMP query.
   query->oid_num_indexes An OID that can be queried to determine
   the total number of available indexes. If specified, this will
   be used to determine when to automatically recache this SNMP
   query when it is attached to a device.
   query->index_order As of version 0.8.6, Cacti will attempt to
   find the best field to index off of based on whether each row
   in the query is unique and non-null. If specified, Cacti will
   perform this check on the fields listed here in the order
   specified. Only input fields can be specified and multiple
   fields should be delimited with a colon.
   query->index_order_type

   For sorting purposes, specify whether the index is numeric or
   alphanumeric.

   numeric: The indexes in this SNMP query are to be sorted
   numerically (ie. 1,2,3,10,20,31)

   alphabetic: The indexes in this SNMP query are to be sorted
   alphabetically (1,10,2,20,3,31).
   query->index_title_format Specify the title format to use when
   representing an index to the user. Any input field name can be
   used as a variable if enclosed in pipes (|). The variable
   |chosen_order_field| will be substituted with the field chosen
   by Cacti to index off of (see index_order above).
   query->fields Each field contained within the SNMP query must
   be defined under this tag.
   query->fields->ifIndex Each defined field in the SNMP query
   must have a unique name given to it. Do not use spaces or any
   non-alphanumeric characters, this name must be identifiable
   within Cacti.
   query->fields->ifIndex->name Here you can specify a "friendly
   name" for the field. This name will be used by Cacti to help
   the user identify this field.
   query->fields->ifIndex->method

   Tell Cacti how you want it to gather SNMP information for this
   field.

   get: The 'get' method obtains a list of indexes and does an
   snmpget for each index of the OID specified for this field.

   walk: The 'walk' method does a walk of the OID specified for
   this field. Both methods will return the same values, even
   though the 'walk' method is typically more efficient.
   query->fields->ifIndex->source

   When Cacti obtains a list for this field, you need to tell it
   how to derive its value for each row.

   value: The 'value' option simply returns the result of the
   snmpget for each row.

   OID/REGEXP:(regexp_match): The 'OID/REGEXP:(regexp_match)' can
   be used when you need to use a POSIX-based regular expression
   to derive the value from the OID. The most common example of
   this is to retreive the IP address of an interface, and can be
   seen in the 'interface.xml' file.

   VALUE/REGEXP:(regexp_match): The 'OID/REGEXP:(regexp_match)'
   option can be used to parse the value based on a regular
   expression, returning the first match.

   index: Simply use the value of the index for this row as the
   value. If the index is being parsed from the OID using the
   oid_index_parse field, you must specify index here.
   query->fields->ifIndex->direction

   input: Input values are the "known" values that you will use
   to derive the output values, this is where the "query" part of
   SNMP query comes in. When you create a graph based on an SNMP
   query, Cacti will prompt you to choose the input value to base
   the graph on.

   output: Output values are "unknown" values that are returned
   from the script. An SNMP query may return multiple statistics
   for a single index. For instance, a single interface could
   return bytes/sec in, errors, packets/sec, etc.

   A rule of thumb is that input fields contain semi-static data
   that is not graphable, while the output fields contain the
   data that will be graphed.
   query->fields->ifIndex->oid You must specify the actual OID
   that corresponds with the field. Each value for this field can
   be obtained by doing an snmpget on 'oid.(each)snmpindex'.
     _________________________________________________________

Script Query XML Syntax

<query>
   <name>Get Unix Mounted Partitions</name>
   <description>Queries a list of mounted partitions on a unix-based ho
st with the 'df' command.</description>
   <script_path>perl |path_cacti|/scripts/query_unix_partitions.pl</scr
ipt_path>
   <arg_index>index</arg_index>
   <arg_query>query</arg_query>
   <arg_get>get</arg_get>
   <arg_num_indexes>num_indexes</arg_num_indexes>
   <output_delimeter>:</output_delimeter>
   <index_order>dskDevice:dskMount</index_order>
   <index_order_type>alphabetic</index_order_type>
   <index_title_format>|chosen_order_field|</index_title_format>

   <fields>
      <dskDevice>
         <name>Device Name</name>
         <direction>input</direction>
         <query_name>device</query_name>
      </dskDevice>
   </fields>
</query>

   Table 10-4. Script Query XML Field Reference
   Field Description
   query->name (Optional) You can enter a "friendly name" for the
   script query here. It will not be used by Cacti, and is for
   identification only.
   query->description (Optional) You can enter a description for
   the script query here. It will not be used by Cacti, and is
   for identification only.
   query->script_path Enter the complete path to the script or
   executable that is going to handle your script query. When in
   doubt, specify the pull path to all binaries referenced in
   this path, the query may not execute otherwise.
   query->arg_index Enter the argument that is to be passed to
   the script to retrieve a list of indexes.
   query->arg_query Enter the argument that is to be passed to
   the script to retrieve a list of values given a field name.
   query->arg_get Enter the argument that is to be passed to the
   script to retrieve a single value given a field name and index
   value.
   query->arg_num_indexes Enter the argument that is to be passed
   to the script to determine the total number of available
   indexes. If specified, this will be used to determine when to
   automatically recache this script query when it is attached to
   a device.
   query->output_delimeter Enter the one character delimiter that
   will be used to separate output values. This is only used when
   you "query" the script in which case it outputs
   'index(delimiter)value'.
   query->index_order As of version 0.8.6, Cacti will attempt to
   find the best field to index off of based on whether each row
   in the query is unique and non-null. If specified, Cacti will
   perform this check on the fields listed here in the order
   specified. Only input fields can be specified and multiple
   fields should be delimited with a comma.
   query->index_order_type

   For sorting purposes, specify whether the index is numeric or
   alphanumeric.

   numeric: The indexes in this script query are to be sorted
   numerically (ie. 1,2,3,10,20,31)

   alphabetic: The indexes in this script query are to be sorted
   alphabetically (1,10,2,20,3,31).
   query->index_title_format Specify the title format to use when
   representing an index to the user. Any input field name can be
   used as a variable if enclosed in pipes (|). The variable
   |chosen_order_field| will be substituted with the field chosen
   by Cacti to index off of (see index_order above).
   query->fields Each field contained within the script query
   must be defined under this tag.
   query->fields->dskDevice Each defined field in the script
   query must have a unique name given to it. Do not use spaces
   or any non-alphanumeric characters, this name must be
   identifiable within Cacti.
   query->fields->dskDevice->name Here you can specify a
   "friendly name" for the field. This name will be used by Cacti
   to help the user identify this field.
   query->fields->dskDevice->direction

   input: Input values are the "known" values that you will use
   to derive the output values, this is where the "query" part of
   script query comes in. When you create a graph based on a
   script query, Cacti will prompt you to choose the input value
   to base the graph on.

   output: Output values are "unknown" values that are returned
   from the script. A script query may return multiple statistics
   for a single index. For instance, a single partition could
   return free disk space, total disk space, fragmentation
   percentage, etc.

   A rule of thumb is that input fields contain semi-static data
   that is not graphable, while the output fields contain the
   data that will be graphed.
   query->fields->dskDevice->query_name Enter the name that Cacti
   must use when asking the script for information about this
   field. For instance, the following should return values:
   '(script_name) query (query_name)'.
     _________________________________________________________

Chapter 11. Templates

Graph Templates

   In Cacti, a graph template provides a skeleton for an actual
   graph. If you have many graphs that share most of their
   characteristics, using a graph template would probably make
   sense. After a graph is attached to a particular graph
   template, all changes made to the graph template will
   propagate out to all of its graphs.
     _________________________________________________________

Creating a Graph Template

   To create a new graph template, select Graph Templates under
   the Templates heading and click Add.

   The first thing you must do is give the template a name. This
   name has nothing to do with the graph title, but is what you
   will use to identify the template throughout Cacti. Second,
   you will notice a list of graph field names with Use Per-Graph
   Value checkboxes next to each one. The nice thing about
   templates in Cacti is that you can choose whether to template
   each field on a per-field basis. If you leave the checkbox
   uncheked, every graph attached to the template will inherit
   its value from the template. If the checkbox is checked, every
   graph attached to the template will contain its own value for
   that particular field.

   Table 11-1. Field Description: Graph Templates
   Name Description
   Title

   The title of the graph within Cacti and the title that will be
   printed on the actual graph itself.

   Note: You can use the keyword |host_description| in this
   field, which will be automatically substituted with the
   current host description.
   Image Format Choose whether you would prefer to output your
   graph images in PNG or GIF. According to the RRDTool graph
   manual PNG is preferred because it is both smaller and faster.
   Height The height of the graph area in pixels
   Width The width of the graph area in pixels
   Auto Scale Enable auto scale for the graph. This option must
   be check to use the next two options. Upper/Lower limit values
   are ignored when using autoscale since these boundaries are
   determined automatically.
   Auto Scale Options Choose whether you would like to use
   --alt-autoscale or --alt-autoscale-max on the graph. The
   RRDTool graph manual says: "Where --alt-autoscale will modify
   both the absolute maximum AND minimum values, this option will
   only affect the maximum value. The minimum value, if not
   defined on the command line, will be 0. This option can be
   useful when graphing router traffic when the WAN line uses
   compression, and thus the throughput may be higher than the
   WAN line speed".
   Logarithmic Auto Scaling Choose if you want logarithmic y-axis
   scaling.
   Rigid Boundaries Mode From the RRDTool manual "Normally
   rrdgraph will automatically expand the lower and upper limit
   if the graph contains a value outside the valid range. With
   this option you can disable this behavior".
   Auto Padding If you have ever created RRDTool-based graphs
   manually, you may have realized how annoying it can be to get
   text to line up properly. With this option Cacti will do its
   best to make the columns on your graph legend line up. This
   option works best when your graph legend has a consistent
   number of columns.
   Allow Graph Export If you choose to use Cacti's static
   HTML/image export, you can choose whether you want each
   individual graph to be exported.
   Upper Limit The maximum value that will be displayed on the
   y-axis. This value is ignored is auto-scaling is turned on.
   Lower Limit The minimum value that will be displayed on the
   y-axis. This value is ignored is auto-scaling is turned on.
   Base Value Whether you want to base the y-axis labels on 1000
   or 1024. This field will typically be set to 1024 for memory
   and 1000 for traffic measurements.
   Unit Value Sets the unit value for the y-axis. You should
   probably keep the unit short as to keep it readable.
   Unit Exponent Value Sets the 10^e scaling of the y-axis. Valid
   values for this field are between -18 and 18. For example, you
   could use 3 to display everything in 'k' (kilo) or -6 to
   display everything in 'u' (micro).
   Vertical Label The text to print on the left edge of the
   graph. Usually is the units the data on the graph is measured
   in.

   Note: For most graph templates, you will want to check the Use
   Per-Graph Value checkbox for the title field so each graph
   using this template has its own unique title. It also makes
   sense to enter an initial value in this field that includes
   the variable |host_description| for organizational purposes.

   When you are finished filling in values for the graph
   template, click Create and you will be presented with a page
   similar to the graph edit page.

   Figure 11-1. Adding a Graph Template

   [graph_template.png]
     _________________________________________________________

Graph Items

   The first thing you should do is create graph items for this
   graph template, just like for a regular graph. One difference
   you will notice is that the Data Sources dropdown will contain
   a list of data template items rather than data source items.
   It is important that Cacti can make this association here, so
   that Cacti doesn't have to make unnecessary assumptions later.

   Table 11-2. Field Description: Graph Template Items
   Name Description
   Data Source If this graph item is to represent some sort of
   data, you must select a your data source here. Keep in mind
   that not all graph items have a data source. Graph item types
   such as COMMENT, VRULE, and HRULE typically do not.
   Color Depending on the graph item type, you can select a color
   for the graph item. This field only applies to the graph item
   types AREA, STACK, LINE1, LINE2, and LINE3.
   Graph Item Type

   This field is important because it defines what kind of graph
   item this is. Types such as AREA, STACK, LINE1, LINE2, and
   LINE3 are used to represent data on the graph, while COMMENT
   and GPRINT are used put on the legend. The LEGEND type is
   specific to Cacti only and can be used if you want to Cacti to
   automatically create a
   GPRINT-LAST/GPRINT-AVERAGE/GPRINT-MAXIMUM graph item for you.

   Note:: You must always put an AREA item before using STACK or
   your graph will not render.
   Consolidation Function This tells RRDTool which consolidation
   function to use when representing this data on the graph. You
   will typically use AVERAGE for most things on the graph area,
   and LAST/MAXIMUM as well for GPRINT items.
   CDEF Function If you want to apply a CDEF function to the
   graph item, select one here. Check out the CDEF section of the
   manual for more information.
   Value This field is only used with the HRULE/VRULE graph item
   types. Type any valid integer to draw the line at for HRULE or
   the time of the day HH:MM for VRULE.
   GPRINT Type If this item is a GPRINT, you can choose how you
   want the number to be formatted. You can add your own in the
   GPRINT Presets section of Cacti.
   Text Format You can enter text to be displayed on the legend
   here. This field is applicable for all graph item types except
   for the virtual LEGEND type.
   Hard Return Check this box to force graph items onto the next
   line.
     _________________________________________________________

Graph Item Inputs

   After creating graph items for your template, you will need to
   create some graph item inputs. Graph item inputs are unique to
   graph templates because of the large number of items they
   sometimes contain. Graph item inputs enable you to take one
   graph item field, and associate it with multiple graph items.

   To create a new graph item input, click Add on the right of
   the Graph Item Inputs box. There are various fields that must
   be filled in for every graph item input:

   Table 11-3. Field Description: Graph Template Items
   Name Description
   Name This will be the name used to identify the graph item
   input on both the graph template and graph edit pages.
   Description (Optional) This description will be displayed on
   the graph edit page of any graph using this template if
   specified.
   Field Type You must choose the field that you are going to
   associate with one or more graph items.
   Associated Graph Items Choose one or more graph items to
   associate with the field selected for "Field Type". When the
   user specifies a value for the field, it will be applied to
   all of the items you select here.
     _________________________________________________________

Applying Graph Templates to Graphs

   Applying a graph template to a graph is a very simple process.
   The first thing you must do is select the graph you want to
   apply the template to under Graph Management. Under the Graph
   Template Selection box, select the graph template that you
   want to apply to the graph and click Save. If this is a new
   graph or the graph and graph template contains an equal number
   of graph items, the graph template will be automatically
   applied. If number of graph items varies from the graph to the
   target graph template, you will be propmted with a warning
   that your graph will be changed.

   Once the template is applied to the graph, you will notice
   that you can only change values for the fields that you
   checked Use Per-Graph Value for. You will also notice a new
   box, called Graph Item Inputs. This is where you can specify
   values for the graph items inputs that you defined in the
   graph template. The values specified here will be applied to
   each graph item tied to the graph item input.

   Now any time a change is made to the graph template, it will
   be automatically propagated to the graphs attached to it.
     _________________________________________________________

Data Templates

   In Cacti, a data template provides a skeleton for an actual
   data source. If you have many data sources that share most of
   their characteristics, using a data template would probably
   make sense. After a data source is attached to a particular
   data template, all changes made to the data template will
   propagate out to all of its data sources.
     _________________________________________________________

Creating a Data Template

   To create a new data template, select Data Templates under the
   Templates heading and click Add.

   The first thing you must do is give the template a name. This
   name has nothing to do with the data source name, but is what
   you will use to identify the template throughout Cacti.
   Second, you will notice a list of data source/data source item
   field names with Use Per-Data Source Value checkboxes next to
   each one. The nice thing about templates in Cacti is that you
   can choose whether to template each field on a per-field
   basis. If you leave the checkbox unchecked, every data source
   attached to the template will inherit its value from the
   template. If the checkbox is checked, every data source
   attached to the template will contain its own value for that
   particular field.

   Table 11-4. Field Description: Data Templates
   Name Description
   Name

   This is the name that cacti uses to identify this data source.
   You must type something here, but you may include spaces and
   other non-alphanumeric characters.

   Note: You can use the keyword |host_description| in this
   field, which will be automatically substituted with the
   current host description.
   Data Source Path The full path to the RRD file associated with
   this data source. When creating a new data source you will
   typically leave this field blank as Cacti will generate one
   for you. If you are using an RRD file generated outside of
   Cacti, you need to specify it here.
   Data Input Method Here is where you tell cacti how it is
   supposed to fetch data for this data source. There are several
   data input sources that come with cacti, and you can add your
   own by going to Data Input Methods. If this RRD file is being
   populated outside of cacti, make sure to leave this field set
   to "None".
   Associated RRAs You need to associate the data source with at
   least one RRA so RRDTool knows how often and for how long to
   keep its data. You will almost always want to select all of
   these values however so you can render daily, weekly, monthly,
   and yearly graphs.
   Step This tells RRDTool how many seconds there will be between
   updates. The default is 300 seconds (5 minutes), and is
   sufficient for most installations.
   Data Source Active This is a quick and easy to tell Cacti to
   stop gathering data for this data source. The data source can
   still be used on graphs, but no data will be fed to it until
   it is made active again.

   Note: For most data templates, you will want to check the Use
   Per-Graph Value checkbox for the name field so each data
   source using this template has its own unique name. It also
   makes sense to enter an inital value in this field that
   includes the variable |host_description| for organizational
   purposes.

   When you are finished filling in values for the data template,
   click Create and you will be presented with a screen similar
   to the data source edit screen.

   Figure 11-2. Adding a Data Template

   [data_template.png]
     _________________________________________________________

Data Source Items

   Like a graph, a data source can have more than one items. This
   is useful in situations where a script returns more than piece
   of data at one time. This also applies to data queries, so you
   can have a single data template that contains both inbound and
   outbound traffic, rather than having to create a separate data
   template for each.

   Table 11-5. Field Description: Data Source Items
   Name Description
   Internal Data Source Name This is the name used by RRDTool to
   identify this particular data source within the RRD file.
   RRDTool places a limit of 19 alphanumeric characters (plus '_'
   and '-') on this field.
   Minimum Value Here is where you specify the minimum value that
   is expected for this data source in the RRD file. If a value
   lower than the minimum is given, it will be stored as Unknown
   (U).
   Maximum Value Here is where you specify the maximum value that
   is expected for this data source in the RRD file. If a value
   higher than the maximum is given, it will be stored as Unknown
   (U).
   Data Source Type There are four types of data that RRDTool can
   represent for any given data source: COUNTER, GAUGE, ABSOLUTE,
   and DERIVE. A gauge is for numbers that are not continuously
   incrementing. A counter is for continuously incrementing
   values that might overflow, while a derive does not overflow.
   The absolute type is used for counters that are reset upon
   reading.
   Heartbeat As defined by RRDTool: "The maximum amount of time
   that can pass before data is entered as "unknown". This field
   is usually '600' or 2 data gathering intervals".
     _________________________________________________________

Custom Data

   Assuming you selected a data input source on the previous
   screen, you should now be presented with a Custom Data box.
   Each custom data field is per-field templatable as all of the
   other data source fields are. Even if you select the Use
   Per-Data Source Value checkbox, it might be useful to specify
   a value that will be used as an "inital value" for any data
   source using this data template.
     _________________________________________________________

Applying Data Templates to Data Sources

   Applying a data template to a data source is a very simple
   process. The first thing you must do is select the data source
   you want to apply the template to under Data Sources. Under
   the Data Template Selection box, select the data template that
   you want to apply to the data source and click Save.

   Once the template is applied to the data source, you will
   notice that you can only change values for the fields that you
   checked Use Per-Data Source Value for.

   Now any time a change is made to the data template, it will be
   automatically propagated to the data sources attached to it.
     _________________________________________________________

Host Templates

   Host templates in Cacti serve a different purpose then data
   and graph templates. Instead of abstracting the fields of a
   host, a host template allows you to associate graph templates
   and data queries with a given host type. This way when you
   assign a host template to a host, all of the relevant graphs
   to that host type are only one click away from the user.
     _________________________________________________________

Adding a Host Template

   To create a new host template in Cacti, select the Host
   Templates option under the Templates heading. Once on that
   screen, click Add on the right. Type a unique name for the
   host template and click the Create button. You will be
   redirected back to the edit page with the Associated Graph
   Templates and Associated Data Queries boxes. These two boxes
   allow you to associate certain graph templates or data queries
   with the host template. Simply select something from the
   dropdown menu and click Add to associate it with your host
   template.

   Figure 11-3. Adding a Host Template

   [host_template.png]
     _________________________________________________________

Chapter 12. PHP Script Server

   The PHP Script Server is a new feature in Cacti 0.8.6. This
   new feature allows for the rapid execution of PHP based Data
   Queries in Cacti. The Script Server process is launched by the
   poller during every polling cycle. It listens for commands
   from the poller, executes them, and then waits for an quit
   signal.

   The reason that it is so fast is that PHP is started in memory
   only one time, and for every Data Query called, it's code is
   interpreted only once. The resulting Data Query binaries are
   therefore very efficient. Using the Script Server process over
   the traditional POPEN process nets a 20+ fold speed
   improvement in Cacti.

   Since PHP scripts are so powerful, this new feature in Cacti,
   makes it an excellent choice for collecting non-SNMP and SNMP
   based data.
     _________________________________________________________

Using the Script Server

   Cacti 0.8.6 contains two sample script server routines. They
   are for the collection of HostMib CPU and Disk Partition
   information. These two examples are based off the traditional
   POPEN version of the HostMib functions found in earlier
   versions of Cacti.

   For new installs, the HostMib functions are defaulted to using
   the PHP Script Server, therefore, you don't need to do
   anything to use it.

   For upgrades, you must make several changes to start using the
   PHP Script Server for the HostMib CPU and HostMib Partitions
   Data Queries. To migrate you must follow the step below.
     _________________________________________________________

Upgrade Steps for the Example HostMib Data Queries

   If you are using the two built in script queries, "SNMP - Get
   Mounted Partitions" and "SNMP - Get Processor Information",
   you can migrate to the PHP Script Server using the steps
   below:

    1. Verify the existence of New Data Input Method - Go to Data
       Input Methods, verify that you see the "Get Script Server
       Data (Indexed)" Data Input Method exists and that it is
       using the "Script Query - Script Server" method.
    2. Disable the Poller - Goto Settings->Poller and uncheck the
       Poller Enabled checkbox. Press Save.
    3. Update Your Data Queries - Go to Data Queries and Edit the
       two Data Queries below. Change both their Data Input
       Method to "Get Script Server Data (Indexed)" and in the
       XML path replace "script_query" with "script_server" as
       shown below:
         a. SNMP - Get Mounted Partitions
            <path_cacti>/resource/script_server/host_disk.xml
         b. SNMP - Get Processor Information
            <path_cacti>/resource/script_server/host_cpu.xml
    4. Update Your Data Templates - Goto Data Templates, locate
       the following two data templates and change their data
       input method to "Get Script Server Data (Indexed)".
         a. Host MIB - Hard Drive Space
         b. Host MIB - CPU Utilization
    5. Re Enable the Poller - Go to Settings->Poller and check
       the Poller Enabled checkbox. Press Save.

   Following those steps should complete your migration to the
   new PHP Script Server for the two example HostMIB Data
   Queries.
     _________________________________________________________

Migration of Existing PHP Scripts to Script Server

   If you have other PHP scripts that you wish to migrate, you
   must follow the steps below to migrate your scripts to the PHP
   Script Server required format.
     _________________________________________________________

Script File Changes

   Each PHP Script file must be changed to the new Script Server
   format. The changes are not dramatic, but required for the
   proper operation of the PHP Script Server. Follow the steps
   below to complete.

    1. Copy you existing script to a new name. The name must
       begin "ss_" followed by your script name. The "ss_"
       identifies the script as being a script server variety of
       the a PHP script. For example, if you previously had a
       script called "get_mysql_stats.php", it's new name would
       be "ss_get_mysql_stats.php".
    2. Edit the new PHP script and add the following required
       lines to the file, where "ss_myfunction" is the same as
       your filename.
<?php
$no_http_headers = true;

/* display No errors */
error_reporting(E_ERROR);

include_once(dirname(__FILE__) . "/../include/config.php");
include_once(dirname(__FILE__) . "/../lib/snmp.php");

if (!isset($called_by_script_server)) {
        array_shift($_SERVER["argv"]);
        print call_user_func_array("ss_myfunction", $_SERVER["argv"]);
}
    3. What was originally just mainline code, must be replaced
       with a function name. For example, if your program
       previously contained the following three lines of code:
<?php
$a = 100;
$b = $a / 10;
print $b;
?>
       Would become:
function ss_myfunction() {
        $a = 100;
        $b = $a / 10;
        Print $b;
}
    4. If you have any additional functions declared within your
       script file, you must prefix them to make then unique
       amongst all functions. Our recommendation would be to
       prefix all functions with the name of the main function.
       For example if you have a function called "meme" you would
       rename it to "ss_myfunction_meme". This guarantee's
       correct Script Server functionality.
    5. The last step is to change the function call that could
       have traditionally returned the value to the Cacti poller
       using the PRINT function. You must change that line or
       lines in your code to utilize the RETURN function instead.
       However, this does not apply to PRINT statements that are
       not called from the Poller.
     _________________________________________________________

XML File Changes

   If you are using a "Script Query" type function, then you must
   also change your XML file. Please reference the XML files in
   the <path_cacti>/resource/script_server directory for the
   specifics related to your required modifications. However, you
   may also follow the instructions below:

    1. Modify the <script_path> tag. Change it from:
<script_path>|path_php_binary| -q |path_cacti|/scripts/myfucntion.php</
script_path>
       to simply the following:
<script_path>|path_cacti|/scripts/ss_myfunction.php</script_path>
    2. Add the following two XML tags below the <script_path>
       tag. Replace ss_myfunction with your function name:
<script_function>ss_myfunction</script_function>
<script_server>php</script_server>
    3. Save the XML file.
     _________________________________________________________

Data Query & Data Template Changes

   Your Data Queries and Data Templates must be also changed.
   Although somewhat self explanatory by now, you must make the
   following changes:

    1. Change it's Input Method to "Get Script Server Data" or
       "Get Script Server Data (Index)" depending on it's type.
       Change the XML file path to point to the new XML file in
       the <path_cacti>/resources/script_server/*.xml path.
       For all data templates that use the data query you must
       change their "Data Input Method" accordingly.

   Your final step is to go to the System Utilities and Clear
   Poller Cache to apply the new settings. If you script is
   operating correctly, you should now be migrated to the script
   server.
     _________________________________________________________

Testing Your Script in the Script Server

   To test your script in the script server, simply follow the
   instructions below. When you have finished you testing, simply
   type "quit" <cr< at the Script Server command line to exit the
   script server.

    1. Start the script server - You can do this by typing the
       following command:
shell> php <path_cacti>/script_server.php
       NOTE: Due to a bug in Windows implementation of PHP, you
       must type the full path name to the script_server.php
       file.
    2. Type in your command - Using the example from above, you
       would type in the following:
script server> <path_myfunction> my_function argument1 argument2 ...
       In the Windows environment, your example could be the
       following:
script server> c:\wwwroot\cacti\scripts\ss_myfunction.php ss_myfunction
 localhost public 1 get duddle
    3. If your function is operating properly, you should get a
       result.
    4. To quit the script server, simply type "quit" <cr> at the
       command line.

   NOTE: If there are errors in your script, you must restart the
   script server before your retest your code.
     _________________________________________________________

Chapter 13. How To

Graph a Single SNMP OID

   When dealing with SNMP-enabled devices, there are often times
   when you want to graph the value of a single OID. This
   tutorial explains how to do this in Cacti. It also assumes
   that you have the "SNMP - Generic OID Template" graph
   template, which is now included in Cacti as of version 0.8.5.
   If you do not see this template listed under Graph Templates,
   download the template from the Cacti website in XML form and
   import it using the Import Templates menu item.

   To start the process of creating a new graph for your OID,
   click the New Graphs menu item and select the host that
   contains the target OID from the dropdown. Under the Graph
   Templates box, you will see a dropdown on the last line that
   reads (Select a graph type to create). From this dropdown,
   choose "SNMP - Generic OID Template" and click the Create
   button at the bottom of the page.

   You will be presented with several fields that will require
   input before the new graph can be created. They are described
   in more detail below.

   Table 13-1. Field Description: SNMP - Generic OID Template
   Name Description
   (Graph) Title The title that is to be used for the new graph.
   It is generally a good idea to keep |host_description| in the
   title, as to make the graph easier to identify later.
   (Graph) Vertical Label The text that will be printed along the
   y-axis of the graph. It is generally used to describe units,
   such as 'bytes' or 'percent'.
   (Graph Items) Legend Color The color that will be used to
   reprent the data on the graph.
   (Graph Items) Legend Text The text that will be used to
   describe the data on the graph legend.
   (Data Source) Name The title that is to be used for the new
   data source. It is generally a good idea to keep
   |host_description| in the title, as to make the data source
   easier to identify later.
   (Data Source) Maximum Value [snmp_oid] The maximum value that
   will be accepted from the OID. Make sure you choose a value
   that is reasonable for the data you are trying to graph
   because anything larger than the maximum will be ignored. If
   you are graphing a percentage, you should use '100' as the
   value should never exceed this.
   (Data Source) Data Source Type [snmp_oid] How the data from
   the OID should be stored by RRDTool and interpreted on the
   graph. If the value of the OID represents the actual data, you
   should use GAUGE for this field. If the OID value is a
   constantly incrimenting number, you should use COUNTER for
   this field. The two remaining field values, DERIVE and
   ABSOLUTE can be ignored in most situations.
   (Custom Data) OID The actual SNMP OID to graph. It is
   typically a good idea to enter the number OID here as opposed
   to using MIB names. For instance, to get the number of open
   files on a Netware server, you would use
   ".1.3.6.1.4.1.23.2.28.2.7.0" as the OID.

   When finished filling in values for these fields, click the
   Create button. Your new graph can now be accessed through the
   Graph Management page or the Graphs tab inside of Cacti.
     _________________________________________________________

Simplest Method of Going from Script to Graph (Walkthrough)

   Written by Kevin der Kinderen, http://kdeuja.com/~kevin/

   This HOWTO walks you through the simplest steps of graphing
   the output of a single value from a script. As a new user of
   cacti, I had a difficult time understanding how to graph
   anything that wasn't canned with the original load. After a
   lot of playing around, I came up with these procedures which
   can be built upon for more sophisticated collections and
   graphs.

   I do not use templates in this HOWTO. Templates provide a
   significant advantage if you are graphing the output for
   multiple instances or creating graphs for multiple hosts. They
   help to maintain consistency and simplify setup.

   The example here is not realistic, but can be used and
   expanded upon as a model for creating your own graphs.

   I've not put a lot of explanations in the procedures. Refer to
   the Cacti manual for more details.

   Have a tested script ready to go. I used the following script
   located in /home/cactiuser/bin called random2.pl:
#!/usr/bin/perl -w

print int(rand(10));

   This script simply prints out a random integer between 0 and 9
   every time it's called.

   The minimal steps to create a graph from a script are simply:
    1. Create a Data Input Method to tell Cacti how to call the
       script and what to expect from it.
    2. Create a Data Source to tell cacti how and where the data
       will be stored.
    3. Create a Graph to tell cacti how the data will be
       presented in graph form.
    4. Add Graph to Graph View so you can view the graph.
    5. View the Graph

   The details are below:
    1. Create Data Input Method
          + Click the Console tab at the top
          + Click Data Input Methods under Management
          + Click Add
          + Name: Random 2 Input
          + Input Type: Script/Command
          + Input String: /home/cactiuser/bin/random2.pl
          + Click Create
          + Should see "Save Successful." at the top of the page.
          + Click Add by Output Fields (there are no input fields
            for this example)
          + Field [Output]: random_number
          + Friendly Name: Random Number
          + Update RRD File: checked
          + Click Create
          + Should see "Save Successful." and random_number
            listed under Output Fields.
          + Click Save
          + Should see "Save Successful." and Random Input listed
            in Data Input Methods.
    2. Create a Data Source
          + Click Data Sources under Management
          + Click Add in the top right
          + The Data Template Section should be None and None,
            we're not using templates for this example.
          + Click Create.
          + Name: random2ds
          + Data Source Path: blank (Cacti will fill this in)
          + Data Input Source: Random 2 Input (this is the data
            input method you created in step 1)
          + Highlight each of the Associated RRA's using
            control-click
          + Step: 300 (300 seconds = 5 minutes)
          + Data Source Active: checked
          + Describe the Data Source Item inside the RRA by...
          + Internal Data Source Name: random_number
          + Minimum Value: 0
          + Maximum Value: 0
          + Data Source Type: GAUGE
          + Heartbeat: 600
          + Click Create
          + Should see "Save Successful." at the top and the Data
            Source Path should now have a value (my example
            <path_rra>/random_number_286.rrd)
          + Click Turn On Data Source Debugging Mode to see the
            results of this step.
          + Click Save
          + Should see "Save Successful" and your new Data Source
            listed.
    3. Create Graph
          + Select Graph Management under Management
          + Click Add
          + Selected Graph Template: None
          + Host: None
          + Click Create
          + Title: RANDOM NUMBERS
          + Image Format: PNG
          + Height: 120
          + Width: 500
          + Auto Scale: checked
          + Auto Scale Options: Use --alt-autoscale-max
          + Logarithmic Auto Scaling: unchecked
          + Rigid Boundaries: unchecked
          + Auto Padding: checked
          + Allow Graph Export: checked
          + Upper Limit: 100
          + Lower Limit: 0
          + Base Value: 1000
          + Unit Value: blank
          + Unit Exponent Value: 0
          + Vertical Label: Random Number
          + Click Create
          + Should see "Save Successful."
          + If you click "Turn On Graph Debug Mode." now you will
            see: "Error: can't make a graph without contents." We
            need to add Graph Items:
          + Click Add by Graph Items
          + Data Source: (from list) No Host - random2ds
            (random_number)
          + Color: 0000FF (Blue)
          + Graph Item Type: LINE2
          + Consolidation Function: AVERAGE
          + CDEF Function: None
          + Value: blank
          + GPRINT Type: Normal
          + Text Format: blank
          + Insert Hard Return: unchecked
          + Click Create
          + Should see "Save Successful.", Item #1 listed and a
            graph under debug (probably with nothing in it yet)
          + To add a legend, click Add by Graph Items again
          + Data Source: No Host - random2ds (random_number)
          + Color: None
          + Graph Item Type: GPRINT
          + Consolidation Function: LAST
          + CDEF Function: None
          + Value: blank
          + GPRINT Type: Normal
          + Text Format: Cur:
          + Insert Hard Return: unchecked
          + Click Create
          + Should see "Save Successful." and the graph will have
            a legend showing the current value. Note: your
            integer random number has been averaged over the past
            5 minutes. At the bottom of the page, click save.
          + At the bottom of the page, click Save.
          + Should see "Save Successful." and your graph listed.
    4. Add graph to the graph view
          + Click Graph Trees under Management
          + We'll create a tree called "test" to place our graph
          + Click Add
          + Name: test
          + Should see "Save Successful"
          + Click Add beside Tree Items (to add our graph to this
            tree)
          + Under Tree Items [graph]...
          + Graph: RANDOM NUMBERS (we named this in step 3)
          + Round Robin Archive: Daily (5 Minute Average)
          + Click Create
          + Should see "Save Successful." and RANDOM NUMBERS
            listed under Tree Items
          + Click Save
          + Should see "Save Successful." and test listed under
            Graph Trees
    5. View Graph
          + Select Graphs tab
          + Select tree view (Tree beside settings tab)
          + Select test tree on left
          + You may see "Random Graph" but no graph. It takes two
            or three polls (10 - 15 minutes) to see a graph. I
            believe poll 1 to create the rrd, poll 2 to get the
            first data point and poll 3 to have graphable points.
          + While waiting, you can click the RANDOM NUMBERS
            graph. You'll see place holders for 4 graphs. Select
            [source] under Daily (5 Minute Average). You'll see
            the source for the call to rrdtool graph. Give it a
            sanity check.
          + Now be patient. Hit your refresh button every few
            minutes. After the first poll I got a few empty
            graphs. A few minutes later data started showing up.
     _________________________________________________________

Chapter 14. Frequently Asked Questions

   1. Using Cacti

        How do I create traffic graphs?

   2. General

        I get a "Undefined variable: _SERVER" error message from
                Cacti.

        I get a "Call to undefined function: mysql_connect()"
                error message from Cacti.

        I have forgotten my 'admin' password to Cacti, how do I
                reset it?

   3. Monitoring

        I am polling thousands of items and poller.php takes more
                than 5 minutes to run.

        I changed x, and now some of my graphs are not updating.
        I am using Redhat 8.0 and SNMP is not working.
        How do I configure net-snmp so it will work with Cacti?

   4. Graphs

        I just installed Cacti and all of my graphs appear as
                broken images.

        My graphs render, but they do not contain any data.
        A lot of my graphs contain long ifAlias names, but they
                are being truncated to 15 characters.

        One of my devices rebooted and now I have a huge spike on
                my graph!

        RRDTool Says: ERROR: unknown option '--slope-mode' or
                RRDTool Says: ERROR: Garbage ':39:24 To
                2005/10/22 16:39:24\c' after command:
                COMMENT:From 2005/10/21 16:39:24 To 2005/10/22
                16:39:24\c

   5. Windows Related

        I get a "Fatal error: Cannot redeclare title_trim()"
                error message from Cacti.

1. Using Cacti

   How do I create traffic graphs?

   Before you can create traffic graphs, Cacti must have working
   SNMP support. One way to do this is to compile PHP with SNMP
   support built in, many times you can install the 'php-snmp'
   package to do this. The second option is to have Cacti call
   the snmpget and snmpwalk binaries from your ucd-snmp or
   net-snmp installation. You can use the about page to determine
   whether to are using "built-in" or "external" SNMP support.

   Now that you have working SNMP support, follow these steps.

    1. Click Devices on Cacti's menu.
    2. Click Add to add a new device.
    3. Type a description, hostname, management IP, and SNMP
       community. Make sure to select "Generic SNMP-enabled Host"
       under Host Template and click Create.
    4. Click Create Graphs for this Host at the top of the page.
    5. You should see one or more interfaces listed under the
       Data Query [SNMP - Interface Statistics] box. Place a
       check next to each interface that you want to graph. Below
       the box, select type of graph that you want to create
       (bits, bytes, summation, etc).
    6. Click Create, and Create again on the following screen to
       create your graphs.

2. General

   I get a "Undefined variable: _SERVER" error message from
   Cacti.

   Cacti 0.8.6 and above requires that you have at least PHP 4.1
   or greater installed.

   I get a "Call to undefined function: mysql_connect()" error
   message from Cacti.

   Your installation of PHP does not have MySQL installed or
   enabled. On binary-based distributions, make sure you have the
   'php-mysql' package installed. Also make sure that
   'extension=mysql.so' is uncommented in your php.ini file.

   I have forgotten my 'admin' password to Cacti, how do I reset
   it?

   To reset the admin account password back to the default of
   'admin', connect to your Cacti database at the command line.
shell> mysql -u root -p cacti

   Now execute the following SQL:
mysql> update user_auth set password=md5('admin') where username='admin
';

3. Monitoring

   I am polling thousands of items and poller.php takes more than
   5 minutes to run.

   Give cactid, the future replacement for poller.php a try.
   Unlike poller.php, cactid is written in c and makes use of
   pthreads. On a typical installation, it is not uncommon for
   cactid to poll about 500 items in less then 10 seconds.

   I changed x, and now some of my graphs are not updating.

   The best thing to do here is to force Cacti to rebuild its
   poller cache. To do this click Utilities on the Cacti menu,
   and select Clear Poller Cache.

   I am using Redhat 8.0 and SNMP is not working.

   Redhat 8.0 comes with a broken php-snmp package. Updating your
   'php-snmp' and 'net-snmp' packages to their latest versions
   should fix this problem.

   How do I configure net-snmp so it will work with Cacti?

   Run snmpconf -g basic_setup and follow the prompts. Also check
   that the file being used by snmpd is the correct config file.
   For Redhat Linux, snmpconf creates the /etc/snmpd.conf, but
   snmpd uses /etc/snmpd/snmpd.conf.

   If this doesn't work a very simple config file is:
# contact
syslocation Something
syscontact "root@someone.com"

# auth
rocommunity public

# disk monitoring
disk /

4. Graphs

   I just installed Cacti and all of my graphs appear as broken
   images.

   For you to actually get graph images, poller.php must run at
   least once so it can create .rrd files in Cacti's 'rra/'
   directory. Double check that you configured your /etc/crontab
   file to execute poller.php every five minutes. Also make sure
   that the user poller.php runs as has permission to create new
   files in Cacti's 'rra/' directory.

   If all of your settings appear correct, try running poller.php
   manually by cd'ing to Cacti's directory and typing:
shell> php poller.php

   If you have files in your 'rra/' directory, but your graphs
   still appear as broken images, you should enable graph debug
   mode see exactly why the graphs are not rendering. To do this
   go into Cacti, select Graph Management from the menu, select
   any graph listed, and select Turn On Graph Debug Mode.

   My graphs render, but they do not contain any data.

   More often than not, this problem's cause is permissions. For
   instance if you run poller.php manually as root for testing,
   any .rrd files that it creates will be owned by root. Now when
   poller.php runs from cron, it will not be able to update these
   .rrd files because they are owned by root. You can double
   check the owner of your .rrd files by running the following
   command in your Cacti directory:
shell> ls -al rra/

   If only some of your graphs are not updating correctly, double
   check the Maximum Value field for all data sources used by
   these graphs. If the value being fed to the .rrd file exceeds
   its Maximum Value, RRDTool will insert an Unknown and you will
   see no data on the graph.

   A lot of my graphs contain long ifAlias names, but they are
   being truncated to 15 characters.

   Cacti does this by default to better control graph title
   formatting. You can change this limit, by going to Cacti
   Settings on the Cacti menu, selecting the Visual tab, and
   changing the value for Data Queries - Maximum Field Length.

   One of my devices rebooted and now I have a huge spike on my
   graph!

   This occurs because the reboot causes SNMP's counters to
   reset, which can cause a rather large spike on the graph when
   RRDTool tries to determine the change between the new small
   counter value and the large previous value. One way to combat
   this issue is to specify realistic maximum values for your
   data sources. RRDTool will ignore any value that is larger
   than the maximum value.

   If you already have a spike on one or more of your graphs,
   there is a really useful Perl script that will remove them for
   you.

   RRDTool Says: ERROR: unknown option '--slope-mode' or RRDTool
   Says: ERROR: Garbage ':39:24 To 2005/10/22 16:39:24\c' after
   command: COMMENT:From 2005/10/21 16:39:24 To 2005/10/22
   16:39:24\c

   This occurs because the version of RRDTool that you are
   running does not match the RRDTool version Cacti is configured
   to use. Double check your Cacti Settings and make sure that
   the RRDTool version matches what version of RRDTool you are
   running.

5. Windows Related

   I get a "Fatal error: Cannot redeclare title_trim()" error
   message from Cacti.

   Contrary to previous versions of Cacti, you must not put Cacti
   in your PHP include path. Check your php.ini file to make sure
   there is not something like include_path =
   C:/Apache2/htdocs/cacti.
     _________________________________________________________

Chapter 15. Variables

Graph Variables

   The following variables can be used in the Text Format and
   Value graph item fields. Below is a description of each of
   these variables.
     _________________________________________________________

Date/Time

|date_time|

   This variable will place the date and time of the last poller
   run on the graph. It can be used to replicate MRTG's "graph
   last updated" feature.
     _________________________________________________________

Data Query Fields

|query_field_name|

   You can place the value of any data query field on the by
   including this variable. Make sure to substitute "field_name"
   with the actual data query field name.

   Example 15-1. Print the IP Address on a traffic graph

   |query_ifIP|

   Example 15-2. Print the mount point on net-snmp disk graph

   |query_dskPath|
     _________________________________________________________

Nth Percentile

|[0-9]:(bits|bytes):[0-9]:(current|total|max|total_peak|all_max_current
|all_max_peak|aggregate_max|aggregate_sum|aggregate):[0-9]|

   Nth percentile is often used by hosting providers to bill
   customers based on their peak traffic usage while ignoring
   their top (100 - Nth) percent. This way if a customer has a
   fairly consistent traffic pattern and decides to download a
   huge file one day, the large spike will be ignored. Common Nth
   percentile is 95, which would cut off the top 5% of the
   traffic.

   In Cacti, Nth percentile works just like any other graph
   variable. To use this variable you must give it five
   arguments:

   Table 15-1. Nth Percentile Argument Description
   Name Description
   [0-9] The first argument is a number between 1 and 99. This
   number represents the Nth percentile that you would like to
   calculate.
   (bits|bytes) Choose whether you want to represent your Nth
   percentile in bits or bytes. The only valid values for this
   field are 'bits' and 'bytes'.
   [0-9] This field determines the power of 10 divisor that will
   be applied to your Nth percentile number. Enter '0' to leave
   the number alone, '3' for kilo or '6' for mega, etc.
   ( current | total | max | total_peak | all_max_current |
   all_max_peak | aggregate_max | aggregate_sum | aggregate ) Nth
   Percentile Type - Refer to Nth Types
   [0-9] Enter the number of digits to use for floating point
   precision when printing out the final number. The default
   value for this field is two decimal places.

   Table 15-2. Nth Percentile Types
   Type Description
   current Calculates the Nth percentile based off the selected
   data source on the graph item wich the variable is used. This
   type requires a selected Data Source Item in the graph item in
   which it is defined.
   total Calculates the Nth percentile based off the selected
   data source on the graph item wich the variable is used. But
   unlike current, this function totals the Nth percentile
   results of all same named data source names on the graph.
   Example, all traffic_in would have their Nth percentile
   calculated and then totaled. This type requires a selected
   Data Source Item in the graph item in which it is defined.
   max Calculates the Nth percentile based off the selected data
   source on the graph item which the variable is used, but it is
   important to note that it selects the higher of the values for
   each row in data source and then uses the resulting set to
   calculate the Nth percentile. Example, you have selected a
   interface data source for traffic_in, this will evaluate
   traffic_out and traffic_in for that selected data source
   (rrdtool file) and select the higher of the two values for
   each row of data. The resulting max values are used to
   calculate the Nth percentile value. This type requires a
   selected Data Source Item in the graph item in which it is
   defined.
   total_peak Calculates the Nth percentile based on the max for
   each data source defined on the graph. Example, the max is
   taken for each data source defined on the graph, but it's the
   max of traffic_in or traffic_out for that data source (rrdtool
   file). The resulting max values are summed and returned.
   all_max_current Calculates the Nth percentile based off the
   selected data source on the graph item which the variable is
   used, but it only selects the highest (max) value of all the
   data source items on the graph. Example, there are 3 data
   sources defined on the graph, the selected data source is
   traffic_in, all data sources for traffic_in will be compared
   against each other and the highest Nth value of all graph
   items will be selected as the result. This type requires a
   selected Data Source Item in the graph item in which it is
   defined.
   all_max_peak Calculates the Nth percentile by selecting the
   highest (max) calculated max Nth percentile value for each
   data source (rrdtool file) selected on the graph. Example, 3
   data sources are defined on the graph, for each data source,
   the max Nth percentile is calculated, and out of the resulting
   set of values, the highest value is selected and returned.
   aggregate_max Calculates the Nth percentile by selecting the
   highest value for each summed value of like data sources and
   selecting the maximum value of that set to calculate the Nth
   percentile value. Example, you have a graph with 5 traffic_in
   and 18 traffic_out data sources. The traffic_in rows are
   summed together, then the traffic_out rows are summed
   together, then for each row, the higher of the 2 values is
   selected. The Nth percentile is calculated from the resulting
   maximum values.
   aggregate_sum Calculates the Nth percentile by summing all
   data sources on the graph row for row and calculates the Nth
   value on the resulting summed data. Example, you have a graph
   with 4 traffic_in and 3 traffic_out data sources defined. All
   the defined traffic_in and traffic_out are summed together and
   then the Nth percentile value is calculated from that set.
   aggregate Calculates the Nth percentile by summing like data
   source names row for row from each data source defined on the
   graph and then returning the highest Nth percent value
   calculated for like data source names. Example, you have a
   graph with 3 traffic_out and 5 traffic_in data sources
   defined. The traffic_in and traffic_out are summed then the
   Nth value is calculated and the higher of the 2 values is
   returned as the variable.

     Concerning aggregate Nth percentile functions and rra
     definitions: All data sources used in a graph MUST have the
     same rra definitions. If the number of rows do not match
     when calculations are attempted, the results may produce
     errors and invalid results. Please also be aware the
     aggregate functions take more memory and processor power
     when used. Recommended minimum of 64 megs memory limit for
     php when querying large ranges or graphs with a large
     ammount of aggregated data sources.

   Example 15-3. Output in the following format, for 95th
   percentile: 42.58 mbit

   |95:bits:6:max:2|
     _________________________________________________________

Bandwidth Summation

|sum:([0-9]|auto):(current|total):([0-9]):([0-9]+|auto)|

   Bandwidth summation is useful for summing up all values in an
   RRD file for a given time range. This is typically useful on
   traffic graphs where you can see a total of all traffic that
   has gone through an interface in a given time period.

   In Cacti, bandwidth summation works just like any other graph
   variable. To use this variable you must give it three
   arguments:

   Table 15-3. Bandwidth Summation Argument Description
   Name Description
   ([0-9]|auto) This field determines the power of 10 divisor
   that will be applied to your number. Enter '0' to leave the
   number alone, '3' for kilo or '6' for mega, etc. You can also
   enter 'auto' for this field to have Cacti automatically scale
   the number and insert the appropriate label.
   (current|total) You can choose to calculate the summation
   based on the current data source or a total of all data
   sources used on the graph. The only valid values for this
   field are 'current' and 'total'.
   [0-9] Enter the number of digits to use for floating point
   precision when printing out the final number. The default
   value for this field is two decimal places.
   ([0-9]+|auto) Enter the number of seconds in the past to
   perform the summation calculation for. For instance '86400'
   for 24 hours, '172800' for 48 hours, etc. You can also enter
   'auto' for this field to have Cacti use the graph timespan.

   Example 15-4. Output in the following format: 36.47 GB

   |sum:auto:current:2:auto|
     _________________________________________________________

Host Variables

   Host variables represent host data and can be placed in graph
   or data source titles. The following table describes which
   host variables can be used and which host fields the
   correspond to.

   Table 15-4. Host Variables
       Variable Name        Description
   |host_description|    Description
   |host_hostname|       Hostname
   |host_snmp_community| SNMP Community
   |host_snmp_version|   SNMP Version
   |host_snmp_username|  SNMP Username (v3)
   |host_snmp_password|  SNMP Password (v3)
     _________________________________________________________

Chapter 16. RRDTool Specific Features

GPRINT Presets

   A GPRINT is a graph item type that enables you to print the
   values of data sources on a graph. They are typically used to
   represent legend values on the graph. The output format of
   these numbers are controlled by a printf-like format string.
   Cacti enables you to keep a global list of these strings that
   can be applied to any graph item throughout Cacti.
     _________________________________________________________

Creating a GPRINT Preset

   To create a new GPRINT preset, select the Graph Management
   menu item under the Management heading, and select GPRINT
   Presets. Click Add to the right and you will be presented with
   an edit page containing two fields. Enter a name for your
   GPRINT preset, and the actual printf-like string in the GPRINT
   Text field. When you are finished, click the Create button to
   create your new GPRINT preset.
     _________________________________________________________

CDEFs

   CDEFs allow you to apply mathematical functions to graph data
   to alter output. The concept of a CDEF comes straight from
   RRDTool, and are written in reverse polish notation (RPN). For
   more information regarding the syntax of CDEFs, check out the
   CDEF tutorial.
     _________________________________________________________

Creating a CDEF

   To create a new CDEF in Cacti, select the Graph Management
   option under the Management heading, and select CDEFs. Once at
   this screen, click Add to the right. You will be prompted for
   a CDEF name, for which you can type anything used to describe
   your CDEF. Click the Create button so you are redirected back
   to the edit page, now with an empty CDEF Items box. Construct
   your CDEF by adding an item for each element in the CDEF
   string, common types such as operators and functions are
   enumerated for your convenience. Below is a basic description
   of each CDEF item type.

   Table 16-1. CDEF Item Types
   Type Description
   Function You can choose a CDEF function to use as the item.
   The RRDTool graph manual describes the purpose of each CDEF
   function.
   Operator Just your standard math operators, including modulo
   (%).
   Special Data Source A special data source is basically a flag
   to tell Cacti to do some special processing when it encounters
   this CDEF item. The "Current Graph Item Data Source" type
   basically inserts the name of the data source that is
   referenced by the graph item that references to this CDEF.
   Both of the "All Data Sources" types insert a summation of all
   data sources used on a graph.
   Another CDEF You can recursively use another CDEF within this
   CDEF.
   Custom String Sometimes it's just easier to type out the
   literal CDEF string manually. When referencing to data sources
   on the graph, remember that Cacti names them 'a', 'b', 'c',
   '...', starting with the first data source on the graph.
