network+ guide to networks, fourth edition chapter 11 in-depth tcp/ip networking
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TRANSCRIPT
Network+ Guide to Networks, 4e 2
Designing TCP/IP-Based Networks
• Review of some TCP/IP fundamentals:– IP is a routable protocol– On a network using TCP/IP, each interface
associated with unique IP address– Some nodes may use multiple IP addresses– IP addresses consist of four 8-bit octets– Many networks assign IP addresses and host names
dynamically, using DHCP– Every IP address can be associated with a network
class
Network+ Guide to Networks, 4e 3
Subnetting
• Separates network into multiple, logically defined segments (subnets)
• Each subnet’s traffic separated from every other subnet’s traffic– Enhances security
• Subnetworks must be connected via routers or other Layer 3 devices
– Improves performance• Data is selectively retransmitted
– Simplifies troubleshooting
Network+ Guide to Networks, 4e 4
Classful Addressing
• Adheres to network class distinctions– Only Class A, B, and C addresses are recognized– Network ID limited to first 8 bits in Class A, first
16 bits in Class B, and first 24 bits in Class C
• Fixed network ID size ultimately limits number of hosts a network can include
Network+ Guide to Networks, 4e 5
Classful Addressing (continued)
Figure 11-1: Example IP addresses with classful addressing
Network+ Guide to Networks, 4e 6
Subnet Masks
• Subnetting depends on subnet masks to identify how a network is subdivided– Indicates where network information is located in an
IP address– “1” bits indicate corresponding bits in IP address
contain network information– “0” bits indicate corresponding bits in IP address
contain host information
• To calculate host’s network ID given IP address and subnet mask, perform ANDing
Network+ Guide to Networks, 4e 8
Subnet Masks (continued)
Figure 11-2: Example of calculating a host’s network ID
Table 11-2: ANDing
Network+ Guide to Networks, 4e 9
Reserved Addresses
• Certain types of IP addresses reserved for special functions– In network IDs, bits for host information set to 0– In broadcast addresses, octet(s) representing host
information set to all 1s (255 in decimal notation)
Network+ Guide to Networks, 4e 10
Subnetting Techniques
• Subnetting breaks rules of classful addressing– Some bits that in classful addressing would
represent host information changed to represent network information
– Reduce number of usable host addresses per subnet
Network+ Guide to Networks, 4e 11
Subnetting Techniques (continued)
Table 11-3: Class B subnet masks
Network+ Guide to Networks, 4e 12
Subnetting Techniques (continued)
Table 11-4: Class C subnet masks
Network+ Guide to Networks, 4e 13
Calculating Subnets
• Formula for determining how to modify a default subnet mask: 2n-2=Y– n = number of bits in subnet mask that must be
switched from 0 to 1– Y = number of subnets that result
• Extended network prefix: Additional bits used for subnet information plus existing network ID
• Class A, B, and C networks can all be subnetted
• External routers pay attention to only the network portion of devices’ IP addresses
Network+ Guide to Networks, 4e 14
Calculating Subnets (continued)
Figure 11-3: A router connecting several subnets
Network+ Guide to Networks, 4e 15
Calculating Subnets (continued)
Figure 11-3 (continued): A router connecting several subnets
Network+ Guide to Networks, 4e 16
CIDR (Classless Interdomain Routing)
• Classless routing or supernetting
• Provides additional ways of arranging network and host information in an IP address
• Supernet: Subnet created by moving subnet boundary to the left– Generates more usable IP addresses
• CIDR notation (slash notation): network ID followed by forward slash (/), followed by number of bits used for extended network prefix– CIDR Block
Network+ Guide to Networks, 4e 17
CIDR (continued)
Figure 11-5: Calculating a host’s network ID on a supernetted network
Figure 11-4: Subnet mask and supernet mask
Network+ Guide to Networks, 4e 18
Internet Gateways
• Combination of software and hardware enabling two different network segments to exchange data
• Every device on a TCP/IP-based network has a default gateway– First interprets outbound requests to other subnets– Interprets inbound requests from other subnets– Each node on network has one default gateway– May be network interface on a router
• Must maintain routing tables as well
• Core gateways make up the Internet backbone
Network+ Guide to Networks, 4e 19
Internet Gateways (continued)
Figure 11-6: The use of default gateways
Network+ Guide to Networks, 4e 20
NAT (Network Address Translation)
• Default gateways can be used to “hide” IP numbers assigned within an organization– Clients behind gateway may use any IP addressing
scheme• Even non-legitimate schemes
– Must have legitimate IP address to exchange data with Internet
• NAT: when client’s transmission reaches default gateway, it assigns client’s transmission a valid IP address
Network+ Guide to Networks, 4e 22
ICS (Internet Connection Sharing)
• Computer with Internet access (ICS host) configured to translate requests to and from Internet on behalf of other computers on network– Acts as DHCP server, DNS resolver, and NAT
gateway for clients on its LAN
• Network adapter on ICS host assigned IP address of 192.168.0.1– Clients must be set up to obtain IP addresses
automatically– ICS host assigns clients IP addresses in range of
192.168.0.2 through 192.168.0.255
Network+ Guide to Networks, 4e 23
Intranets and Extranets
• Intranet: network or part of network that uses browser-based services to exchange information within an enterprise– Used for supplying HTTP-accessible documents,
e-mail, file sharing, document management, and collaboration
– Defined by its security policies
• Extranet: network that uses Internet-like services and protocols to exchange information within an organization and with certain, authorized users outside of that organization
Network+ Guide to Networks, 4e 24
TCP/IP Mail Services• E-mail is most frequently used Internet service that
network administrators manage• Mail servers communicate with other mail servers
to deliver messages across Internet• Hundreds of software packages for mail servers
exist– Sendmail, Microsoft Exchange Server, Lotus Notes,
Novell Groupwise• Mail clients send/retrieve messages to/from mail
servers• Servers and clients communicate through TCP/IP
Application layer protocols
Network+ Guide to Networks, 4e 25
SMTP (Simple Mail Transfer Protocol)
• Protocol responsible for moving messages between mail servers over TCP/IP-based networks– Belongs to Application layer of TCP/IP Model – Relies on TCP at Transport layer– Operates from port 25– Relies on higher-level programs for instructions– Can only transport or hold mail
• When configuring clients to use Internet e-mail, must identify user’s SMTP server
Network+ Guide to Networks, 4e 26
MIME (Multipurpose Internet Mail Extensions)
• Standard SMTP message format allows for lines that contain 1000 ASCII characters max– Cannot handle pictures or formatted text
• MIME: standard for encoding and interpreting binary files, images, video, and non-ASCII character sets within e-mail messages– Identifies each element of a message according to
content type– Works in conjunction with SMTP
Network+ Guide to Networks, 4e 27
POP (Post Office Protocol)
• Application layer protocol used to retrieve messages from mail servers
• POP3 is most current and commonly used version– Mail delivered and stored on mail server until user
connects (via e-mail client) to retrieve messages– Mail deleted from server after retrieval
• Minimizes use of server resources
• Best suited to users who retrieve mail from same workstation all the time
Network+ Guide to Networks, 4e 28
IMAP (Internet Message Access Protocol)
• Developed as sophisticated alternative to POP3– IMAP4 is most current version– Users can store messages on mail server
• IMAP4 provides the following features:– Retrieve all or only a portion of any mail message– Review messages and delete them while the
messages remain on the server– Create sophisticated methods of organizing
messages on the server– Share mailboxes in a central location
Network+ Guide to Networks, 4e 29
Additional TCP/IP Utilities
• TCP/IP comes with complete set of utilities that can help to track down most TCP/IP-related problems– e.g., Ping, Telnet, ARP
• Nearly all TCP/IP utilities can be accessed from command prompt on any type of server or client running TCP/IP– Syntax may differ depending on OS– Options may differ according to OS
Network+ Guide to Networks, 4e 30
Netstat
• Displays TCP/IP statistics and details about TCP/IP components and connections on a host– Port on which a particular TCP/IP service is running– Network connections currently established– Number of packets handled by network interface
since activation– Number of data errors
Network+ Guide to Networks, 4e 31
Netstat (continued)
• Common Netstat switches:– -a lists all available TCP and UDP connections– -e displays details about all packets that have been
sent– -n lists currently connected hosts according to their
ports and IP addresses (in numerical form)– -p allows you to specify what type of protocol
statistics to list– -r provides list of routing table information– -s provides statistics about each packet transmitted
by a host, separated according to protocol type
Network+ Guide to Networks, 4e 32
Nbtstat
• Given NetBIOS name, get IP address
• Common nbtstat switches:– -a displays a machine’s name table given its
NetBIOS name– -A displays a machine’s name table given its IP
address– -r lists statistics about names that have been
resolved to IP addresses by broadcast and by WINS– -s displays a list of all the current NetBIOS sessions
for a machine
Network+ Guide to Networks, 4e 33
Nslookup
• Query DNS database from any network computer and find host name of a device by specifying its IP address, or vice versa– Provides host’s IP address, primary DNS server
name, and address holding record for this name– Many options (switches)
Network+ Guide to Networks, 4e 34
Dig
• Domain information groper (dig): similar to nslookup– Provides more detailed information than nslookup
• e.g., specifics about resource records associated with host name
– Many switches– Must be explicitly installed on Windows systems
Network+ Guide to Networks, 4e 36
Whois
• Query DNS registration database and obtain information about a domain– Who is domain registered to?– Technical person responsible for domain?– Hosting entity?– DNS Server addresses?
• Must install software to use on Windows systems
• Web-based alternatives exist– e.g., www.arin.net
Network+ Guide to Networks, 4e 37
Traceroute (Tracert)
• Uses ICMP to trace path from one node to another– Identifies all intermediate hops– Useful for determining router or subnet connectivity
problems– Transmits series of UDP datagrams to specified
destination• Increases TTL as path is discovered
• Traceroute may stop before completing– Device problem on path– Device does not accept ICMP transmissions
• Often indicates firewall
Network+ Guide to Networks, 4e 38
Ipconfig
• TCP/IP administration utility for use with Windows NT, 2000, XP, and Server 2003 OSs– Provides information about network adapter’s IP
address, subnet mask, and default gateway• Commonly used switches:
– /? displays list of available switches– /all displays complete TCP/IP configuration
information for each network interface on device– /release releases DHCP-assigned addresses for all
network interfaces– /renew renews DHCP-assigned addresses for all
network interfaces
Network+ Guide to Networks, 4e 39
Winipcfg
• Same as ipconfig utility, but applies to Windows 9x and Me OSs– Graphical interface
Network+ Guide to Networks, 4e 40
Ifconfig
• TCP/IP configuration and management utility used on UNIX-type of systems– Similar to ipconfig on Windows systems
• Commonly used switches:– -a applies command to all interfaces on a device– down marks interface as unavailable to network– up reinitializes interface after it has been taken
“down”
• Complete list of switches found in man pages
Network+ Guide to Networks, 4e 41
VoIP (Voice over IP)
• Use of packet-switched networks and TCP/IP to transmit voice conversations– IP telephony
• Objectives for implementing VoIP:– Lower costs for voice calls– Supply new or enhanced features and applications– Centralize voice and data network management
Network+ Guide to Networks, 4e 42
VoIP (continued)
• VoIP callers can use:– Traditional telephone– IP telephones: telephones designed for TCP/IP
transmission– Softphones: computers equipped with microphone,
speaker, and VoIP client software• IP telephones must have unique IP addresses• More difficult to transmit voice signals over a
packet-switched network than data signals• Internet telephony: VoIP carried via Internet
– May also be carried over private lines
Network+ Guide to Networks, 4e 43
VoIP (continued)
Figure 11-16: Accessing a VoIP network from traditional telephones
Network+ Guide to Networks, 4e 44
Summary
• Subnetting separates one network or segment into multiple, logically defined segments, or subnets
• Bits in a subnet mask that equal 1 indicate that corresponding bits in an IP address contain network information
• Bits in a subnet mask that equal 0 indicate that corresponding bits in an IP address contain host information
• CIDR allows the creation of supernets, or subnets established by using bits that normally would be reserved for network class information
Network+ Guide to Networks, 4e 45
Summary (continued)
• Gateways facilitate communication between different subnets
• Every device on a TCP/IP-based network has a default gateway
• NAT allows a network administrator to “hide” IP addresses assigned to nodes on a private network
• ICS is a service that allows a network of computers to share a single Internet connection through an ICS host computer
Network+ Guide to Networks, 4e 46
Summary (continued)
• SMTP is responsible for moving messages from one e-mail server to another over TCP/IP-based networks
• POP is a mail retrieval protocol
• IMAP4 allows users to store messages on the mail server, rather than always having to download them to the local machine
• The netstat utility displays TCP/IP statistics and the state of current TCP/IP components and connections
Network+ Guide to Networks, 4e 47
Summary (continued)
• The nslookup utility allows you to look up the DNS host name of a network node by specifying the node’s IP address, or vice versa
• The traceroute utility useful for determining router or subnet connectivity problems
• VoIP is the use of packet-switched TCP/IP-based networks to carry voice signals