# webintf.pod - Torrus web interface reference # Copyright (C) 2002 Stanislav Sinyagin # # 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. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307, USA. # $Id: reporting_setup.pod.in,v 1.1 2010-12-27 00:04:34 ivan Exp $ # Stanislav Sinyagin # # =head1 Torrus Reporting Setup Guide In version 1.0.4, Torrus introduces a new and important functionality. Now it is able to produce reports that may be used in billing or resource planning. The reports are meant to be text output, telling the bandwidth usage or volume: no graphs so far. By default, the reporting functionality is not enabled, and the steps required are described below. =head2 Terminology The basic term in Torrus reporting is the B. It denotes a single datasource that is represented by a single number. For example, if you want to count input and output interface traffic, this would make two different service IDs. Do not assign service IDs to each and every interface in your network, as it would degrade the performance of your Torrus installation significantly. This functionality is designed for use with important datasources, such as your customers' connection links or and ISP's upstream channels. Each service ID must be B across the whole Torrus installation, and across the database that stores them (it is possible to use several Torrus installations with the same database). B, the SNMP discovery engine, allows now to assign service IDs to network interfaces of your SNMP-enabled devices. However, this does not prevent you from assigning them to other Torrus datasources, as it's done by simple configuration parameters. B, when generated, is presented by a set of numeric values in the SQL database. Torrus provides also tools for rendering these values into HTML B. In the future, other output formats will be implemented. You can also build your own infrastructure that reads the values from the reports database. The produced reports may, and are primarily developed for using in B process. As it is stated in the GNU General Public License text, this program is provided "as is" and B. It is up to the users of Torrus software to rely or not to rely on the generated numeric data, and the Torrus software developers disclaim any responsibility for the data accuracy and usability. B You can assign the list of trees where the reports should be generated and shown. B after changing the destination tree, the compiler may complain about I. Then you need to stop all the torrus processes, including Apache, and then remove the file F from Torrus database directory, then recompile the trees and start the processes. =head2 Install Perl modules Install the following Perl modules from CPAN: DBI DBD::mysql or other RDBMS driver DBIx::Abstract DBIx::Sequence On many platforms, DBI is already pre-installed. You need to make sure that appropriate DBD driver is installed for your database engine. The setup was tested with MySQL, SQL syntax is compatible with Postgres, and in theory it should run also with Oracle and probably Sybase or DB2. No idea about MSSQL - if you're brave enough, let me know if it works :) =head2 Enable the External Storage and specify the SQL connection In F, add the following lines. The first one tells the collector to use the module for storing the collector results in SQL database. Next lines define the database connection. By default, it refers to the MySQL database named C on C, with username and password set to C. push(@Torrus::Collector::loadModules, 'Torrus::Collector::ExternalStorage'); $Torrus::SQL::connections{'Default'}{'dsn'} = 'DBI:mysql:database=torrus;host=dbhost.example.com'; $Torrus::SQL::connections{'Default'}{'username'} = 'torrus'; $Torrus::SQL::connections{'Default'}{'password'} = 'imiF1oih'; In addition to the default connection, you can specify different connections for different data structures: for example, keep 5-minutes samples on a bulky storage server, and store the reports on a high-availability cluster. See the comments in F for more details. =head2 Create SQL tables With your RDBMS client, create the following tables. We assume here that the same database is used for all tables. The SQL syntax is verified with MySQL 4.x and Postgres 8.x. It is brought as much as possible to the standard and platform-independent SQL syntax. Please let me know if it causes problems with your RDBMS. /* Collector export table. It usually grows at several megabytes per month, and is updated every 5 minutes */ CREATE TABLE srvexport ( srv_date DATE NOT NULL, /* date and time of the data sample */ srv_time TIME NOT NULL, serviceid VARCHAR(64) NOT NULL, /* unique service ID per counter */ value DOUBLE PRECISION NOT NULL, /* collected rate or gauge value */ intvl INTEGER NOT NULL /* collection interval - for counter volume calculation */ ); CREATE INDEX srvexp_date ON srvexport (srv_date); CREATE INDEX srvexp_srvid ON srvexport (serviceid); /* Tables for (currently monthly only) report contents. These are updated usually once per month, and read at the moment of rendering the report output (HTML now, PDF or XML or Excel or whatever in the future) */ /* DBIx::Sequence backend, theplatform-independent inplementation of sequences */ CREATE TABLE dbix_sequence_state ( dataset varchar(50) NOT NULL, state_id INTEGER NOT NULL, CONSTRAINT pk_dbix_sequence PRIMARY KEY (dataset, state_id) ); CREATE TABLE dbix_sequence_release ( dataset varchar(50) NOT NULL, released_id INTEGER NOT NULL, CONSTRAINT pk_dbi_release PRIMARY KEY (dataset, released_id) ); /* Each report is characterized by name, date and time. Monthly reports are automatically assigned 00:00 of the 1st day in the month. The report contains fields for every service ID defined across all datasource trees. */ CREATE TABLE reports ( id INTEGER PRIMARY KEY, rep_date DATE NOT NULL, /* Start date of the report */ rep_time TIME NOT NULL, /* Start time of the report */ reportname VARCHAR(64) NOT NULL, /* Report name, such as MonthlyUsage */ iscomplete INTEGER NOT NULL, /* 0 when the report is in progress, */ /* 1 when it is ready */ UNIQUE(rep_date, rep_time, reportname) ); CREATE INDEX rep_date_idx ON reports (rep_date); /* Each report contains fields. For each service ID, the report may contain several fields for various statistics. Each field contains information about the units of the value it contains */ CREATE TABLE reportfields ( id INTEGER PRIMARY KEY, rep_id INTEGER, name VARCHAR(64) NOT NULL, /* name of the field, such as AVG or MAX */ serviceid VARCHAR(64) NOT NULL, /* service ID */ value DOUBLE PRECISION NOT NULL, /* Numeric value */ units VARCHAR(64) NOT NULL DEFAULT '', /* Units, such as bytes or Mbps */ UNIQUE (rep_id, name, serviceid) ); =head2 Devdiscover parameters Currently devdiscover allows you to assign service IDs to network interfaces' input and output traffic counters. Other types of datasources may be implemented in the future. =over 4 =item * C This discovery parameter specifies which service IDs are assigned to which interface names. The interface names whould be specified in the form of their subtree names in Torrus configuration. The example below is typical for a Cisco IOS router. The value of the parameter consists of comma-separated strings. The values in each string are separated by colons, and they correspond to the service ID, interface name, counter type, and optional destination tree names separated by the pipe symbol (|). The interface name can be prefixed by hostname and slash (/), the same way as in C. All strings are case-sensitive. Three counter types are supported: C, C, and C. When set to C, the service ID is appended with C<_IN> or C<_OUT> postfix accordingly, for input and output byte counters. CUSTOMERONE:nyc01br01/GigabitEthernet9_2_1:Both, CUSTOMERTWO:wdc01br02/GigabitEthernet6_3_1:Both, UPSTREAM1_IN:FastEthernet0_0_0:In:upstreams, UPSTREAM1_OUT:FastEthernet0_0_0:Out:upstreams, UPSTREAM2:GigabitEthernet0_1_1:Both:upstreams, CUST1:GigabitEthernet0_2_2:Both:customers|cust1, =item * C The same format as for the parameter listed above, but instead of interface names, you can specify the MAC accounting peer, in one of the following formats: AS number (I), IP address, or peer's MAC address (I<0x0003319c4200>). =back =head2 Torrus XML configuration parameters You can skip this section if Devdiscover provides all desired functionality. It explains parameters additional to those described in I. The collector's ExternalStorage module is designed for storing the data to a generic external storage, and the default external storage is the SQL database. =over 4 =item * C Mandatory parameter for datasource type C. Comma-separated list of storage types. The collected value is duplicated on every storage listed. Supported values are: C, C. For C (external storage), see the I. =item * C Mandatory datasource type to be used in external storage. Accepted values are: C, C, C. =item * C Mandatory service ID for the external storage. =item * C Optional units for the collected value. The only supported value is C. =item * C (B) Optional list of comma-separated tree names. If specified, the report generator will produce report in corresponding trees. By default it's the tree which runs the collector process. =back =head2 Enable displaying of the reports in the web interface First, enable the reports displaying in : $Torrus::Renderer::displayReports = 1; Second, configure the ACL for your users that are allowed to see the reports in the web interface: torrus acl --modgroup=admin --permit=DisplayReports --for=mytree In this example, members of the group C will be prompted with the C<[Reports]> shortcut in the web interface's bottom of the page for a given tree. For easier setup, the tree name may be replaced with asterisk (*) to allow this option for all trees. =head2 Generate reports Report generation is usually a CPU-intensive task. A monthly report calculation for one service ID may take several dozens of seconds of CPU time. This uit's recommended to use the C command to lower the process priority. The C (or simply C) command-line utility is designed for two different tasks: calculation of a single report for the period chosen, and generation of output HTML for all reports available. The example below generates the monthly usage report for September 2005: nice torrus report --report=MonthlyUsage --date=2005-09-01 --debug The next example generates HTML output for all reports that are found in the database: nice torrus report --genhtml --tree=customers It makes sence to set up a monthly cron job and generate the reports on the first day of every month, with the command like follows: nice torrus report --report=MonthlyUsage \ --date=`perl -e 'use Date::Format; print time2str("%Y-%m-%d", time()-1728000)'` The HTML output is optimized for printing, and is quite easy to navigate. The overview page provides the list of years. Clicking to the year leads you into the list of monthly reports available. Each monthly report consists of a table for each report name. For C, the data is organized in five columns: the service ID, average monthly rate, 95th percentile of the rates, maximum rate throughout the month, unavailable samples (how many 5-minutes intervals are missed in the collected data), and monthly volume (which is roughly less than the actual volume by the percentage of missed samples). Also clicking a service ID leads to its monthly report throughout the year. =head2 Getting the sum or maximum value from several service IDs A new utility has been sponsored by nexellent ag (www.nexellent.ch), a managed hosting solution provider near Zurich. The utility C can be used to generate a new service ID which would contain sum or maximum of values of other service IDs. You would usually run this utlity monthly, just before generating the monthly reports: torrus srvderive --verbose --start=20080801 --month \ --out=JSMITH_SUM_OUT --func=SUM JSMITH01_OUT JSMITH02_OUT torrus srvderive --verbose --start=20080801 --month \ --out=JSMITH_SUM_IN --func=SUM JSMITH01_IN JSMITH02_IN Copyright (c) 2005-2008 Stanislav Sinyagin Essinyagin@yahoo.comE