Download Lecture 1: Introduction

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

Document related concepts

Unix security wikipedia , lookup

Process management (computing) wikipedia , lookup

Transcript
New SA Training
Topic 1: Introduction to System Administration

New hires are expected to be operating at
Systems Administrators Guild Level 1





Level 1 – Novice
Level 2 – Junior
Level 3 – Intermediate
Level 4 – Senior
Higher SAGE levels have more experience,
more education, more responsibilities, may
be managers…
SAGE – Systems administrator levels

You will each be responsible for running
one of the following “small, complex” sites:
Abingdon, VA; Cairo, WV; Chattanooga, TN;
Kiawah, SC; Mortimer, NC; Cleveland, OH
“Small uniform site“: <50 computers, all running
the same operating system, and 20 or fewer users
“Complex site“: up to 100 systems, running more
than 2 different operating systems, and up to 100
users
“Large complex site“: >100 computers, potentially
running more than one operating system, and
>100 or more users




Certification/Training
 Certifications are not required for your current
position, but may be helpful (especially the
first two)






Microsoft (an OS specific approach to SA)
Red Hat (an OS specific approach to SA)
Novell (an OS specific approach to SA)
Linux Professional Institute (LPI)
CompTIA
O'Reilly School of Technology
Principles of System Administration
- by Mark Burgess
Our organization strongly believes in the value of the
following principles.
1- Policy is the foundation
2- Predictability (is the goal)
3- Scalability (is often important)
4- Minimum privilege (restriction of unnecessary privilege
protects a system from accidental and malicious damage)
4- Corollary: don't work as Administrator/root
5- Communities (each member needs to consider ramifications
of actions)
Principles of System Administration (cont.)
6- Uniformity (increases predictability - may decrease costs)
7- Variety (used as needed for risk management and flexibility may increase costs)
8- Delegation, aka 'Specialization' (develop experts who can do
tasks more efficiently and more cost effectively)
9- Resource map: Mapping our hardware and software
resources increases the predictability, and removes
ambiguity, of the complete system – displays parts of the
system and their inter-relationships so contingencies can be
made for expected problem areas
Principles of System Administration (cont.)
Good ideas for Sys Admins:
* learn to learn independently
* develop systematic and organized work habits
* find balance between reality (problems happen) vs.
Utopia
Bad ideas for Sys Admins:
* expect a single right answer to every problem
* get stuck due to frustration
* expect the manual/internet/coworker to be able to
accurately and completely answer every question
SUM CRUD model
 The basic components of our organization,
and the SA’s responsibilities can be
summarized as – SUM CRUD
 Software
 Users
 Machines
 Create
 Read
 Update
 Delete
5 states of machines
- by Evard
 New - A new machine
 Clean - A computer with the OS installed, but not
configured to work in the environment
 Configured - A computer that is configured correctly
according to the requirements of the computing
environment
 Unknown - A computer that has been misconfigured,
or has gotten out of date, or perhaps been borrowed
by an intern and returned with stains on it
 Off - Retired/surplussed
Evard's 5 states of machines (cont.)
New
Build
Clean
ze
Rebuild
Ini
tia
li
Configured
Update
p
tro
En
Off
Retire
Unknown
Debug
y
5 states of machines (cont.)
 Moving between states:
 Build - During the build process, the operating system
is installed on the machine
 Initialize – Often directly after, or part of, build the
process; This will typically include things like network
configuration, naming, and may include OS patches
and other changes
 Update - At some point after the initialization, the
computer will probably have to be modified in order to
bring the machine into conformance with the current
requirements; In most cases, this will happen
continually for the lifetime of the computer
5 states of machines (cont.)




Entropy - This refers to the gradual process of change
that results in a computer that has an unknown state;
The causes for this are numerous; they include, for
example, undisciplined changes made to the machine,
major changes in the environment, or unexplained
problems
Debug - This refers to the process of debugging an
``unknown'' machine, and getting it back into spec
Rebuild - In some cases, a machine will need to be
rebuilt, either because of some kind of problem or for
large scale change
Retire - This is the process of turning a machine off; In
some sites, there is an official process for this, in
others, it merely involves turning the computer off or
forgetting it exists