Network security at home-questions & answers.Computer security What is computer security? Computer security is the process of preventing and detecting unauthorized use of your computer. Prevention measures help you to stop unauthorized users (also known as "intruders") from accessing any part of your computer system. Detection helps you to determine whether or not someone attempted to break into your system, if they were successful, and what they may have done. Why should I care about computer security? We use computers for everything from banking and investing to shopping and communicating with others through email or chat programs. Although you may not consider your communications "top secret," you probably do not want strangers reading your email, using your computer to attack other systems, sending forged email from your computer, or examining personal information stored on your computer (such as financial statements). Who would want to break into my computer at home? Intruders (also referred to as hackers, attackers, or crackers) may not care about your identity. Often they want to gain control of your computer so they can use it to launch attacks on other computer systems. Having control of your computer gives them the ability to hide their true location as they launch attacks, often against high-profile computer systems such as government or financial systems. Even if you have a computer connected to the Internet only to play the latest games or to send email to friends and family, your computer may be a target. Intruders may be able to watch all your actions on the computer, or cause damage to your computer by reformatting your hard drive or changing your data. How easy is it to break into my computer? Unfortunately, intruders are always discovering new vulnerabilities (informally called "holes") to exploit in computer software. The complexity of software makes it increasingly difficult to thoroughly test the security of computer systems. When holes are discovered, computer vendors will usually develop patches to address the problem(s). However, it is up to you, the user, to obtain and install the patches, or correctly configure the software to operate more securely. Most of the incident reports of computer break-ins received at the CERT/CC (Computer Emergency Response Team/Coordination Center) Part of the Software Engineering Institute of Carnegie Mellon University, CERT/CC is a major reporting center for Internet security problems. could have been prevented if system administrators and users kept their computers up-to-date with patches and security fixes. Also, some software applications have default settings that allow other users to access your computer unless you change the settings to be more secure. Examples include chat programs that let outsiders execute commands on your computer or web browsers The following is a list of web browsers. Historical Historically important browsers In order of release:
Technology This section provides a basic introduction to the technologies that underlie the Internet. It was written with the novice end-user in mind and is not intended to be a comprehensive survey of all Internet-based technologies. Subsections provide a short overview of each topic. This section is a basic primer on the relevant technologies. For those who desire a deeper understanding of the concepts covered here, we include links to additional information. What does broadband mean? "Broadband" is the general term used to refer to high-speed network connections. In this context, Internet connections via cable modem cable modem Modem used to convert analog data signals to digital form and vise versa, for transmission or receipt over cable television lines, especially for connecting to the Internet. and Digital Subscriber Line See DSL. (communications, protocol) Digital Subscriber Line - (DSL, or Digital Subscriber Loop, xDSL - see below) A family of digital telecommunications protocols designed to allow high speed data communication over the existing copper telephone lines between end-users and (DSL DSL in full Digital Subscriber Line Broadband digital communications connection that operates over standard copper telephone wires. It requires a DSL modem, which splits transmissions into two frequency bands: the lower frequencies for voice (ordinary ) are frequently referred to as broadband Internet See broadband. connections. "Bandwidth" is the term used to describe the relative speed of a network connection--for example, most current dial-up modems can support a bandwidth of 56 kbps (thousand bits per second). There is no set bandwidth threshold required for a connection to be referred to as "broadband", but it is typical for connections in excess of I Megabit per second A megabit per second (abbreviated as Mbit/s, Mbps, or mbps) is a unit of data transfer rate equal to 1,000,000 bits per second. Because there are 8 bits in a byte, a transfer speed of 8 megabits per second (8 Mbps) is equivalent to 1,000,000 bytes (Mbps) to be so named. What is cable modem access? A cable modem allows a single computer (or network of computers) to connect to the Internet via the cable TV network. The cable modem usually has an Ethernet LAN (Local Area Network) A communications network that serves users within a confined geographical area. The "clients" are the user's workstations typically running Windows, although Mac and Linux clients are also used. (Local Area Network) connection to the computer, and is capable of speeds in excess of 5 Mbps. Typical spells tend to be lower than the maximum, however, since cable providers turn entire neighbourhoods into LANs which share the same bandwidth. Because of this "shared-medium" topology, cable modem users may experience somewhat slower network access during periods of peak demand, and may be more susceptible to risks such as packet sniffing Inspecting packets being transmitted in a network. See network analyzer. and unprotected windows shares than users with other types of connectivity. What is DSL access? Digital Subscriber Line (DSL) Internet connectivity, unlike cable modem-based service, provides the user with dedicated bandwidth. However, the maximum bandwidth available to DSL users is usually lower than the maximum cable modem rate because of differences in their respective network technologies. Also, the "dedicated bandwidth" is only dedicated between your home and the DSL provider's central office--the providers offer little or no guarantee of bandwidth all the way across the Internet. DSL access is not as susceptible to packet sniffing as cable modem access, but many of the other security risks we'll cover apply to both DSL and cable modem access. How are broadband services different from traditional dial-up services An information service on demand. The term was popular when analog modems were the only way to connect to a remote system. See dial-up. ? Traditional dial-up Internet services are sometimes referred to as "dial-on-demand" services. That is, your computer only connects to the Internet when it has something to send, such as email or a request to load a web page. Once there is no more data to be sent, or after a certain amount of idle time The duration of time a device is in an idle state, which means that it is operational, but not being used. , the computer disconnects the call. Also, in most cases each call connects to a pool of modems at the ISP (1) See in-system programmable. (2) (Internet Service Provider) An organization that provides access to the Internet. Connection to the user is provided via dial-up, ISDN, cable, DSL and T1/T3 lines. , and since the modem IP addresses are dynamically assigned, your computer is usually assigned a different IP address on each call. As a result, it is more difficult (not impossible, just difficult) for an attacker to take advantage of vulnerable network services to take control of your computer. Broadband services are referred to as "always-on" services because there is no call setup when your computer has something to send. The computer is always on the network, ready to send or receive data through its network interface card (NIC (1) (Network Interface Card) See network adapter. See also InterNIC. (2) (New Internet Computer) An earlier Linux-based computer from The New Internet Computer Company (NICC), Palo Alto, CA. ). Since the connection is always up, your computer's IP address will change less frequently (if at all), thus making it more of a fixed target for attack. What's more, many broadband service providers use well-known IP addresses for home users. So while an attacker may not be able to single out your specific computer as belonging to you, they may at least be able to know that your service providers' broadband customers are within a certain address range, thereby making your computer a more likely target than it might have been otherwise. How is broadband access See broadband and wireless broadband. different from the network I use at work? Corporate and government networks are typically protected by many layers of security, ranging from network firewalls to encryption. In addition, they usually have support staff who maintain the security and availability of these network connections. Although your ISP is responsible for maintaining the services they provide to you, you probably won't have dedicated staff on hand to manage and operate your home network. You are ultimately responsible for your own computers. As a result, it is up to you to take reasonable precautions to secure your computers from accidental or intentional misuse. What is a protocol? A protocol is a well-defined specification that allows computers to communicate across a network. In a way, protocols define the "grammar' that computers can use to "talk" to each other. What is IP? IP stands for "internet Protocol See Internet and TCP/IP. (networking) Internet Protocol - (IP) The network layer for the TCP/IP protocol suite widely used on Ethernet networks, defined in STD 5, RFC 791. IP is a connectionless, best-effort packet switching protocol. ". It can be thought of as the common language of computers on the Internet. There are a number of detailed descriptions of IP given elsewhere, so we won't cover it in detail in this document. However, it is important to know a few things about IP in order to understand how to secure your computer. Here we'll cover IP addresses, static vs. dynamic addressing, NAT (Network Address Translation) An IETF standard that allows an organization to present itself to the Internet with far fewer IP addresses than there are nodes on its internal network. , and TCP and UDP Ports. What is an IP address? IP addresses am analogous to telephone numbers--when you want to call someone on the telephone, you must first know their telephone number. Similarly, when a computer on the Internet needs to send data to another computer, it must first know its IP address. IP addresses am typically shown as four numbers separated by decimal points, or 'dots". For example, 10.24.254.3 and 192.168.62231 are IP addresses. If you need to make a telephone call but you only know the person's name, you can look them up in the telephone directory (or call directory services) to get their telephone number. On the Internet, that directory is called the Domain Name System, or DNS (Domain Name System) A system for converting host names and domain names into IP addresses on the Internet or on local networks that use the TCP/IP protocol. For example, when a Web site address is given to the DNS either by typing a URL in a browser or behind the for short. If you know the name of a server, say www.cert.org, and you type this into your web browser The program that serves as your front end to the Web on the Internet. In order to view a site, you type its address (URL) into the browser's Location field; for example, www.computerlanguage.com, and the home page of that site is downloaded to you. , your computer will then go ask its DNS server A dedicated server or a service within a server that provides DNS name resolution in an IP network. It turns names for Web sites and network resources into numeric IP addresses. DNS servers are used in large companies, in all ISPs and within the DNS system in the Internet, a vital service what the numeric IP address is that is associated with that name. Every computer on the Internet has an IP address associated with it that uniquely identifies it. However, that address may change over time, especially if the computer is * dialing into an Internet Service Provider Internet service provider (ISP) Company that provides Internet connections and services to individuals and organizations. For a monthly fee, ISPs provide computer users with a connection to their site (see data transmission), as well as a log-in name and password. (ISP) * connected behind a network firewall * connected to a broadband service using dynamic IP addressing. What are static and dynamic addressing? Static IP addressing occurs when an ISP permanently assigns one or more IP addresses for each user. These addresses do not change over time. However, if a static address is assigned but not in use, it is effectively wasted. Since ISPs have a limited number of addresses allocated to them, they sometimes need to make more efficient use of their addresses. Dynamic IP addressing allows the ISP to efficiently utilize their address space. Using dynamic IP addressing, the IR addresses of individual user computers may change over time. If a dynamic address is not in use, it can be automatically reassigned to another computer as needed as needed prn. See prn order. . What is NAT? Network Address Translation (NAT) provides a way to hide the IP addresses of a private network from the Internet while still allowing computers on that network to access the Internet. NAT can be used in many different ways, but one method frequently used by home users is called "masquerading". Using NAT masquerading, one or more devices on a LAN can be made to appear as a single IP address to the outside Internet. This allows for multiple computers in a home network to use a single cable modem or DSL connection DSL connection n (Comput) → DSL-Anschluss m without requiting the ISP to provide more than one IP address to the user. Using this method, the ISP-assigned IP address can be either static or dynamic. Most network firewalls support NAT masquerading. What are TCP and UDP Ports? TCP (1) (Transmission Control Protocol) The reliable transport protocol within the TCP/IP protocol suite. TCP ensures that all data arrive accurately and 100% intact at the other end. (Transmission Control Protocol) and UDP UDP (uridine diphosphate): see uracil. (User Datagram Protocol) A protocol within the TCP/IP protocol suite that is used in place of TCP when a reliable delivery is not required. (User Datagram Protocol See UDP. (protocol) User Datagram Protocol - (UDP) Internet standard network layer, transport layer and session layer protocols which provide simple but unreliable datagram services. UDP is defined in STD 6, RFC 768. ) are both protocols that use IP. Whereas IP allows two computers to talk to each other across the Internet, TCP and UDP allow individual applications (also known as "services") on those computers to talk to each other. In the same way that a telephone number or physical mail box might be associated with more than one person, a computer might have multiple applications (e.g. email, file services, web services (1) Loosely, any online service delivered over the Web. Such usage appears in articles from non-technical sources, but not in IT-oriented publications, because definition #2 below describes the correct use of the term. ) running on the same IP address. Ports allow a computer to differentiate services such as email data from web data. A port is simply a number associated with each application that uniquely identifies that service on that computer. Both TCP and UDP use ports to identify services. Some common port numbers are 80 for web (HTTP HTTP in full HyperText Transfer Protocol Standard application-level protocol used for exchanging files on the World Wide Web. HTTP runs on top of the TCP/IP protocol. ), 25 for email (SMTP (Simple Mail Transfer Protocol) The standard e-mail protocol on the Internet and part of the TCP/IP protocol suite, as defined by IETF RFC 2821. SMTP defines the message format and the message transfer agent (MTA), which stores and forwards the mail. ), and 53 for Domain Name System (DNS). What is a firewall? A firewall is defined as "a system or group of systems that enforces an access control policy between two networks." In the context of home networks, a firewall typically takes one of two forms: * Software firewall--specialized software running on an individual computer, or * Network firewall--a dedicated device designed to protect one or more computers. Both types of firewall allow the user to define access policies for inbound connections to the computers they are protecting. Many also provide the ability to control what services (ports) the protected computers are able to access on the Internet (outbound access). Most firewalls intended for home use come with pre-configured security policies from which the user chooses, and some allow the user to customize these policies for their specific needs. What does antivirus software See antivirus program. (tool) antivirus software - Programs to detect and remove computer viruses. The simplest kind scans executable files and boot blocks for a list of known viruses. do? There are a variety of antivirus software packages that operate in many different ways, depending on bow the vendor chose to implement their software. What they have in common, though, is that they all look for patterns in the files or memory of your computer that indicate the possible presence of a known virus. Antvirus packages know what to look for through the use of virus profiles (sometimes called "signatures") provided by the vendor. New viruses are discovered daily, The effectiveness of antivirus software is dependent on having the latest virus profiles installed on your computer so that it can look for recently discovered viruses. It is important to keep these profiles up to date. Computer security risks to home users A. What is at risk? Information security is concerned with three main areas: * Confidentiality--information should be available only to those who rightfully have access to it * Integrity--information should be modified only by those who are authorized to do so * Availability--information should be accessible to those who need it when they need it These concepts apply to home Internet users just as much as they would to any corporate or government network. You probably wouldn't let a stranger look through your important documents. In the same way, you may want to keep the tasks you perform on your computer confidential whether it's tracking your investments or sending email messages to family and friends. Also, you should have some assurance that the information you enter into your computer remains intact and is available when you need it. Some security risks arise from the possibility of intentional misuse of your computer by intruders via the Internet. Others are risks that you would face even if you weren't connected to the Internet (e.g. hard disk failures, theft, power outages This is a list of famous wide-scale power outages. 1965
Before we get to what you can do to protect your computer or home network, let's take a closer look at some of these risks. B. Intentional misuse of your computer The most common methods used by intruders to gain control of home computers are briefly described below. 1. Trojan horse See Trojan. Trojan Horse hollow horse concealed soldiers, enabling them to enter and capture Troy. [Gk. Myth.: Iliad] See : Deceit (application, security) Trojan horse programs Trojan horse programs are a common way for intruders to trick you (sometimes referred to as "social engineering") into installing "back door" programs. These can allow intruders easy access to your computer without your knowledge, change your system configurations, or infect your computer with a computer virus. 2. Back door and remote administration programs On Windows computers, three tools commonly used by intruders to gain remote access to your computer are BackOrifice, Netbus, and SubSeven. These back door or remote administration programs, once installed, allow other people to access and control your computer. We recommend that you review the CERT vulnerability note about Back Orifice A program that installs itself on a Windows machine as a server, allowing a cracker with the client counterpart to manipulate the machine more completely than the user at the keyboard. It can come in the form of a Trojan or ActiveX control. . This document describes how it works, how to detect it, and how to protect your computers from it: 3. Denial of service A condition in which a system can no longer respond to normal requests. See denial of service attack. Another form of attack is called a denial-of-service (DOS) attack. This type of attack causes your computer to crash or to become so busy processing data that you are unable to use it. In most cases, the latest patches will prevent the attack. 4. Being an intermediary for another attack Intruders will frequently use compromised computers as launching pads for attacking other systems. An example of this is how distributed denial-of-service (DDOS See denial of service attack. ) tools are used. The intruders install an "agent' (frequently through a Trojan horse program) that runs on the compromised computer awaiting further instructions "Further Instructions" is the third episode of the third season of Lost. It aired on October 18, 2006, making it the 50th episode of the series. The episode was written by Carlton Cuse and Elizabeth Sarnoff and directed by Stephen Williams. . Then, when a number of agents are running on different computers, a single "handler' can instruct all of them to launch a denial-of-service attack "DoS" redirects here. For other uses, see DOS (disambiguation). A denial-of-service attack (DoS attack) is an attempt to make a computer resource unavailable to its intended users. on another system. Thus, the end target of the attack is not your own computer, but someone else's--your computer is just a convenient tool in a larger attack. 5. Unprotected Windows shares Unprotected Windows networking shares can be exploited by intruders in an automated way to place tools on large numbers of Windows-based computers attached to the Internet. Because site security on the Internet is interdependent, a compromised computer not only creates problems for the computer's owner, but it is also a threat to other sites on the Internet. The greater immediate risk to the Internet community is the potentially large number of computers attached to the Internet with unprotected Windows networking shares combined with distributed attack tools. Another threat includes malicious and destructive code, such as viruses or worms, which leverage unprotected Windows networking shares to propagate. There is great potential for the emergence of other intruder tools that leverage unprotected Windows networking shares on a widespread basis. 6. Mobile code (Java/JavaScript/ActiveX) There have been reports of problems with "mobile code" (e.g. Java, JavaScript, and ActiveX). These are programming languages that let web developers write code that is executed by your web browser. Although the code is generally useful, it can be used by intruders to gather information (such as which web sites you visit) or to run malicious code on your computer. It is possible to disable Java, JavaScript, and ActiveX in your web browser. We recommend that you do so if you are browsing web sites that you are not familiar with or do not trust. Also be aware of the risks involved in the use of mobile code within email programs. Many email programs use the same code as web browsers to display HTML HTML in full HyperText Markup Language Markup language derived from SGML that is used to prepare hypertext documents. Relatively easy for nonprogrammers to master, HTML is the language used for documents on the World Wide Web. . Thus, vulnerabilities that affect Java, JavaScript, and ActiveX are often applicable to email as well as web pages. 7. Cross-site scripting See XSS. A malicious web developer may attach a script to something sent to a web site, such as a URL URL in full Uniform Resource Locator Address of a resource on the Internet. The resource can be any type of file stored on a server, such as a Web page, a text file, a graphics file, or an application program. , an element in a form, or a database inquiry. Later, when the web site responds to you, the malicious script is transferred to your browser. You can potentially expose your web browser to malicious scripts by a following links in web pages, email messages, or newsgroup newsgroup Internet forum for discussion of specific subjects. Newsgroups are organized into subjects (e.g., automobiles); each typically has several subgroups (e.g., classic cars, Formula One racing cars). postings without knowing what they link to a using interactive forms on an untrustworthy site a viewing online discussion groups, forums, or other dynamically generated pages where users can post text containing HTML tags 8 Email spoofing See e-mail spoofing. Email "spoofing" is when an email message appears to have originated from one source when it actually was sent from another source. Email spoofing is often an attempt to trick the user into making a damaging statement or releasing sensitive information (such as passwords). Spoofed email can range from harmless pranks to social engineering ploys, Examples of the latter include * email claiming to be from a system administrator requesting users to change their passwords to a specified string and threatening to suspend their account if they do not comply * email claiming to be from a person in authority requesting users to send them a copy of a password file or other sensitive information Note that while service providers may occasionally request that you change your password, they usually will not specify what you should change it to. Also, most legitimate service providers would never ask you to send them any password information via email. If you suspect that you may have received a spoofed email from someone with malicious intent, you should contact your service provider's support personnel immediately. 9. Email borne viruses Viruses and other types of malicious code are often spread as attachments to email messages. Before opening any attachments, be sure you know the source of the attachment. It is not enough that the mail originated from an address you recognize. The Melissa virus A Word macro virus that was unleashed in the spring of 1999. It sent an e-mail message with a list of pornographic Web sites to the first 50 names in the user's Microsoft Outlook address book. spread precisely because it originated from a familiar address. Also, malicious code might be distributed in amusing or enticing programs. Many recent viruses use these social engineering techniques to spread. Examples include W32/Sircam and W32/Goner Never run a program unless you know it to be authored by a person or company that you trust. Also, don't send programs of unknown origin to your friends or co-workers simply because they are amusing--they might contain a Trojan horse program. Hidden file extensions Windows operating systems Operating systems can be categorized by technology, ownership, licensing, working state, usage, and by many other characteristics. In practice, many of these groupings may overlap. contain an option to "Hide file extensions One of the most absurd defaults in Windows. In an attempt to make things simple, Windows is set from the start to hide all the file extensions when a file name is displayed in Explorer or any application dialog box dealing with file names. for known file types". The option is enabled by default, but a user may choose to disable this option in order to have file extensions displayed by Windows. Multple email-borne viruses are known to exploit hidden file extensions. The first major attack that took advantage of a hidden file extension was the VBS/LoveLetter worm which contained an email attachment See e-mail attachment. named "LOVE-LETTER-FOR-YOU.TXT TXT Text TXT Text File (filename extension) TXT Textile TXT Teletext TXT Tecnologia per a Tothom TXT Textron Corporation (stock symbol) .vbs". Other malicious programs have since incorporated similar naming schemes. Examples include * Downloader (MySis.avi.exe or QuickFlick.mpg.exe) * VBS/Timofonica (TIMOFONICA.TXT.vbs) * VBS/CoolNote (COOL_NOTEPAD The text editor that comes with Windows. It is a very elementary utility, but gets the job done most of the time. See text editor and WordPad. (text, tool) Notepad - The very basic text editor supplied with Microsoft Windows. _DEMO.TXT.vbs) * VBS/OnTheFly (AnnaKournikova.jpg.vbs) The files attached to the email messages sent by these viruses may appear to be harmless text (.txt), MPEG (Moving Pictures Experts Group) An ISO/ITU standard for compressing digital video. Pronounced "em-peg," it is the universal standard for digital terrestrial, cable and satellite TV, DVDs and digital video recorders (DVRs). (.mpg), AVI (.avi) or other file types when in fact the file is a malicious script or executable (.vbs or.exe, for example), internet chat applications, such as instant messaging Exchanging text messages in real time between two or more people logged into a particular instant messaging (IM) service. Instant messaging is more interactive than e-mail because messages are sent immediately, whereas e-mail messages can be queued up in a mail server for seconds or applications and Internet Relay Chat See IRC. (chat, messaging) Internet Relay Chat - (IRC) /I-R-C/, occasionally /*rk/ A client-server chat system of large (often worldwide) networks. IRC is structured as networks of Internet servers, each accepting connections from client programs, one per user. (IRC (Internet Relay Chat) Computer conferencing on the Internet. There are hundreds of IRC channels on numerous subjects that are hosted on IRC servers around the world. After joining a channel, your messages are broadcast to everyone listening to that channel. ) networks, provide a mechanism for information to be transmifted bi-directonally between computers on the internet. Chat clients provide groups of individuals with the means to exchange dialog, web URLS, and in many cases, files of any type. Because many chat clients allow for the exchange of executable code Software in a form that can be run in the computer. It typically refers to machine language, which is comprised of native instructions the computer carries out in hardware. Executable files in the DOS/Windows world use .EXE and . , they present risks similar to those of email clients. As with email clients, care should be taken to limit the chat client's ability to execute downloaded files. As always, you should be wary of exchanging files with unknown parties. 12. Packet sniffing A packet sniffer See network analyzer. (networking, tool) packet sniffer - A network monitoring tool that captures data packets and decodes them using built-in knowledge of common protocols. Sniffers are used to debug and monitor networking problems. is a program that captures data from information packets as they travel over the network. That data may include user names, passwords, and proprietary information that travels over the network in clear text. With perhaps hundreds or thousands of passwords captured by the packet sniffer, intruders can launch widespread attacks on systems. Installing a packet sniffer does not necessarily require administrator-level access. Relative to DSL and traditional dial-up users, cable modem users have a higher risk of exposure to packet sniffers since entire neighbourhoods of cable modem users are effectively part of the same LAN. A packet sniffer installed on any cable modem user's computer in a neighbourhood may be able to capture data transmitted by any other cable modem in the same neighbourhood. Actions home users can take to protect their computer systems The CERT/CC recommends the following practices to home users: 1. Consult your system support personnel if you work from home 2. Use virus protection software 3. Use a firewall 4. Don't run programs unknown email attachments 5. Don't run programs of unknown origin 6. Disable hidden filename extensions 7. Keep all applications including your operating Systems patched 8. Turn off your computer or disconnect from the network when not in use 9. Disable Java, JavaScipt, and ActiveX if possible 10. Disable scripting features in email programs 11. Make regular backups of critical data 12. Make a boot disk See bootable disk. (operating system) boot disk - The magnetic disk (usually a hard disk) from which an operating system kernel is loaded (or "bootstrapped"). This second phase in system start-up is performed by a simple bootstrap loader program held in ROM, possibly in case your computer is damaged or compromised |
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