Troubleshooting steps

Whether via human or automated processes such as a ticket system, the reporter of the issue is often a great source of information.

One of the best ways to gather information and understand an issue is to experience it. When an issue is reported, it is best to duplicate the issue.

While users can be a source of a lot of information, they are not always the most reliable; oftentimes a user might experience an error and overlook it or simply forget to relay the error when reporting the issue.

Often, one of the first questions I will ask a user is how to recreate the issue. If the user is able to provide this information, I will be able to see any errors and often identify the resolution of the issue faster.

Most likely, you are reading this book to learn techniques and commands to troubleshoot Red Hat Enterprise Linux systems. The third sub-task in understanding the problem statement is just that—running investigative commands to identify the cause of the issue. Before executing investigatory commands, however, it is important to know that the previous steps are in a logical order.

It is a best practice to first ask the user reporting an issue some basic details of the issue, then after obtaining enough information, duplicate the issue. Once the issue has been duplicated, the next logical step is to run the necessary commands to troubleshoot and investigate the cause of the issue.

It is very common to find yourself returning to previous steps during the troubleshooting process. After you have identified some key errors, you might find that you must ask the original reporter for additional information. When troubleshooting, do not be afraid to take a few steps backwards in order to gain clarity of the issue at hand.

While performing data collection during the previous steps, you might start to see patterns. Patterns can be something as simple as similar log entries across multiple services, the type of failure that occurred (such as, multiple services going offline), or even a reoccurring spike in system resource utilization.

These patterns can be used to formulate a theory of the issue. To drive the point home, let's go through a real-world scenario.

You are managing a server that both runs a web application and receives e-mails. You have a monitoring system that detected an error with the web service and created a ticket. While investigating the ticket, you also receive a call from an e-mail user stating they are getting e-mail bounce backs.

When you ask the user to read the error to you they mention No space left on device.

Let's break down this scenario:

Could all of this mean that Apache is down because the file system is full? Possibly. Should we investigate it? Absolutely!

The above breakdown leads into the next technique for forming a hypothesis. It might sound simple but is often forgotten. "Have I seen something like this before?"

With the previous scenario, the error reported from the e-mail bounce back was one that generally indicated that a file system was full. How do we know this? Well, simple, we have seen it before. Maybe we have seen that same error with e-mail bounce backs or maybe we have seen the error from other services. The point is, the error is familiar and the error generally means one thing.

Remembering common errors can be extremely useful for the intuitive types such as the Educated Guesser and Adaptor; this is something they tend to naturally perform. For the Data Collector, a handy trick would be to keep a reference table of common errors handy.

Overall, establishing a hypothesis is important for all types of troubleshooters. This is the area where the intuitive thinkers such as Educated Guessers and Adaptors excel. Generally, those types of troubleshooters will form a hypothesis sooner, even if sometimes those hypotheses are not always correct.

To those taking up a new role as a Linux Systems Administrator, if there were only one piece of advice I could give, it would be one that most have learned the hard way: back everything up before making changes.

Many times as systems administrators we find ourselves needing to change a configuration file or delete a few unneeded files in order to solve an issue. Unfortunately, we might think we know what needs to be removed or changed but are not always correct.

If a backup was taken, then the change can simply be restored to its previous state, however, without a backup. Thus reverting changes is not as easy.

A backup can consist of many things, it can be a full system backup using something like rdiff-backup, a VM snapshot, or something as simple as creating a copy of a file.

$ find /etc –name "*.bak"

Books (such as this one) are good for referencing commands or troubleshooting steps for particular types of issues. Other books such as the ones that specialize on a specific technology are good for referencing how that technology works. In previous years, it was not uncommon to see a senior admin with a bookshelf full of technical books at his or her disposal.

In today's world, as books are more frequently seen in a digital format, they are even easier to use as references. The digital format makes them searchable and allows readers to find specific sections faster than a traditional printed version.

Before Team Wikis became common, many operations groups had physical books called Runbooks. These books are a list of processes and procedures used daily by the operations team to keep the production environments operating normally. Sometimes, these Runbooks would contain information for provisioning new servers and sometimes they would be dedicated to troubleshooting.

In today's world, these Runbooks have mostly been replaced by Team Wikis, these Wikis will often have the same content but are online. They also tend to be searchable and easier to keep up to date, which means they are frequently more relevant than a traditional printed Runbook.

The benefit of Team Wikis and Runbooks are that not only can they often address issues that are specific to your environment, but they can also resolve those issues. There are many ways to configure services such as Apache, and there are even more ways that external systems create dependencies on these services.

In some environments, you might be able to simply restart Apache whenever there is an issue, but in others, you might actually have to go through several prerequisite steps. If there is a specific process that needs to be followed before restarting a service, it is a best practice to document the process in either a Team Wiki or Runbook.

Google is such a common tool for systems administrators that at one point there were specific search portals available at google.com/linux, google.com/microsoft, google.com/mac, and google.com/bsd.

Google has depreciated these search portals but that doesn't mean that the number of times systems administrators use Google or any other search engine for troubleshooting has decreased.

In fact, in today's world, it is not uncommon to hear the words "I would Google it" in technical interviews.

A few tips for those new to using Google for systems administration tasks are:

While Google can be a great resource, the results should always be taken with a grain of salt. Often while searching for an error on Google, you might find a suggested command that offers little explanation but simply says "run this and it will fix it". Be very cautious when running these commands, it is important that any command you execute on a system should be a command you are familiar with. You should always know what a command does before executing it.

When Google is not available or even sometimes when it is, the best source of information on commands or Linux, in general, are the man pages. The man pages are core Linux manual documents that are accessible via the man command.

To look up documentation for the netstat command, for example, simply run the following:

$ man netstat
NETSTAT(8)
Linux System Administrator's Manual
NETSTAT(8)

NAME
       netstat - Print network connections, routing tables, interface statistics, masquerade connections, and multicast memberships

As you can see, this command outputs not only the information on what the netstat command is, but also contains a quick synopsis of usage information such as the following:

SYNOPSIS
      netstat  [address_family_options]  [--tcp|-t]  [--udp|-u] [--udplite|-U] [--raw|-w] [--listening|-l] [--all|-a] [--numeric|-n] [--numeric-hosts]
       [--numeric-ports] [--numeric-users] [--symbolic|-N] [--extend|-e[--extend|-e]]  [--timers|-o]  [--program|-p] [--verbose|-v]  [--continuous|-c]
       [--wide|-W] [delay]

Also, it gives detailed descriptions of each flag and what it does:

   --route , -r
       Display the kernel routing tables. See the description in route(8) for details.  netstat -r and route -e produce the same output.

   --groups , -g
       Display multicast group membership information for IPv4 and IPv6.

   --interfaces=iface , -I=iface , -i
       Display a table of all network interfaces, or the specified iface.

In general, the base manual pages for the core system and libraries are distributed with the man-pages package. The man pages for specific commands such as top, netstat, or ps are distributed as part of that command's installation package. The reason for this is because the documentation of individual commands and components is left to the package maintainers.

This can mean that some commands are not documented to the level of others. In general, however, the man pages are extremely useful sources of information and can answer most day-to-day questions.

NAME
       ps - report a snapshot of the current processes.

SYNOPSIS
       netstat  [address_family_options]  [--tcp|-t]  [--udp|-u] [--raw|-w]  [--listening|-l]  [--all|-a] [--numeric|-n] [--numeric-hosts] [--numeric-ports]
       [--numeric-users] [--symbolic|-N] [--extend|-e[--extend|- e]] [--timers|-o] [--program|-p] [--verbose|-v] [--continuous|-c]

DESCRIPTION
       Concatenate FILE(s), or standard input, to standard output.

       -A, --show-all
              equivalent to -vET

       -b, --number-nonblank
              number nonempty output lines, overrides -n

EXAMPLES
       cat f - g
             Output f's contents, then standard input, then g's infocontents.

$ info gzip
GNU Gzip: General file (de)compression
**************************************

This manual is for GNU Gzip (version 1.5, 10 June 2014), and documents commands for compressing and decompressing data.

   Copyright (C) 1998-1999, 2001-2002, 2006-2007, 2009-2012 Free
Software Foundation, Inc.

$ man signal
SIGNAL(2)
Linux Programmer's Manual
SIGNAL(2)

NAME
       signal - ANSI C signal handling

SYNOPSIS
       #include <signal.h>

       typedef void (*sighandler_t)(int);

       sighandler_t signal(int signum, sighandler_t handler);

DESCRIPTION
       The  behavior of signal() varies across UNIX versions, and has also varied historically across different versions of Linux. Avoid its use: use sigaction(2) instead.  See Portability below.

signal() sets the disposition of the signal signum to handler, which is either SIG_IGN, SIG_DFL, or the address of a programmer-defined  function  (a "signal handler").

# yum install man-pages

In addition to man pages, the Red Hat distribution also has a package called kernel-doc. This package contains quite a bit of information on how the internals of the system works.

The kernel documentation is a set of text files that are placed into /usr/share/doc/kernel-doc-<kernel-version>/ and are categorized by the topic they cover. This resource is quite useful for deeper troubleshooting such as adjusting kernel tunables or understanding how ext4 filesystems utilize the journal.

By default, the kernel-doc package is not installed, however, it can be easily installed using the yum command:

# yum install kernel-doc

Whether it is a friend or a team leader, there is certain etiquette when asking others for help. The following is a list of things that people tend to expect when asked to help solve an issue. When I am asked for help, I would expect you to:

The preceding list, while not extensive, is important as each of these key pieces of information can help the next person troubleshoot the issue effectively.