Lecture5_IP_NAT
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Transcript Lecture5_IP_NAT
ITP 457
Network Security
Networking Technologies III
IP, Subnets & NAT
Internet Protocol( IP)
IP handles end-to-end delivery
Most commonly used network layer protocol
All traffic on the internet uses IP
Internet Protocol ( IP)
Upon receiving packet from Transport layer,
IP layer generates a header
Header includes : source and destination IP
addresses
Header is added to front of TCP packet to
create a resulting IP packet.
Purpose of IP is to carry packets end to end
across a network.
IP header
Source IP address
Destination IP address
Data
IP addresses
Identify each individual machine on the
internet
32 bits in length
Hackers attempt to determine all IP address
in use on a target network – “network
mapping”
Hackers generate bogus packets appearing
to come from a given IP address – “IP
address spoofing”
IP Addresses in depth
32 bits, with 8 bit groupings
E.x: 192.168.0.1
Each number between the dots can be between 0
and 255
4 billion combinations
Not really
Allocated in groups called address blocks
3 sizes, based on the class of the address
Class A, Class B, and Class C
Class A Addresses
Giant organizations
There are no more available
All IP addresses are of the form:
0 – 126.x.x.x
x can be between 0 and 255
The first octet is assigned to the owner, with the rest being freely
distributable to the nodes
Has a 24 bit address space
Uses up to half of the total IP addresses available!!!
Who owns these???
Internet Service Providers
Large internet companies
Google, CNN, WB
Class B Addresses
Large Campuses or Organizations
Example: Colleges, including USC
These are running out!!!
All Class B Addresses are of the form:
128 - 191.x.x.x
Where x can take any number between 0 and 255
The first two octets are assigned to the address block owner, with
the last two being freely distributable
Example: 128.125.x.x USC
Example: 169.232.x.x UCLA
16-bit address space
¼ of all IP addresses belong to Class B Addresses
Class C Addresses
Small to mid-sized businesses
A fair number left
All Class C Addresses have the following
format:
192-232.x.x.x
The first three octets are assigned, with the
last being freely distributable
Only 253 distributable addresses within a Class C
Address
Reserved Addresses
Private Networks (no public connections)
10.x.x.x
172.16.x.x
192.168.x.x
127.x.x.x – local network (loopback)
255.255.255.255 – broadcast – sends to
everyone on the network
Netmasks
IP address has 2 components
Network address
Host address
Determined by the address and the class of
the address
Example (Class C):
IP Address: 192.168.3.16
Network address: 192.168.3
Host address: 16
Packet Fragmentation
Various transmission media have different
characteristics
Some require short packets others require
longer packets
E.g. satellite – longer packets
Local LAN – shorter packets
Packet Fragmentation
To optimize packet lengths for various
communication links, IP offers network elements
(routers and firewalls) the ability to slice up packets
into smaller pieces, a process called fragmentation.
The end system’s IP layer is responsible for
reassembling all fragments
Hackers use packet fragmentation to avoid being
detected by Intrusion Detection Systems
Lack of Security in IP
IP version 4 does not include any security
All components of packets are in clear text,
nothing is encrypted
Anything in the header or data segment can
be viewed or modified by the hacker
TCP/UDP Hijacking
“Man-in-the-middle” attack
ICMP
ICMP – Internet Control Message Protocol
It is the Network Plumber
Its job is to transmit command and control
information between networks and systems
ICMP examples
“ping” request = ICMP Echo message
If the “pinged” system is alive it will respond with
ICMP Echo Reply Message
Try pinging
www.google.com
www.yahoo.com
www.cnn.com
Will they all work?
Some sites have disabled ping. Why?
Ping-of-death a ping too big
Ping flooding type of denial-of-service attack
Routers and packets
Routers
Transfer packets from network to network
They determine the path that a packet should
take across the network specifying from hop to
hop which network segments the packets should
bounce through as they travel across the network
Most networks use dynamic routing
RIP, EIGRP
We will be discussing these technologies later in
the course
Network address translation
NAT
Blocks of addresses are allotted to ISP’s and
organizations
Classes of IP Addresses
What happens when we have more
computers than IP Addresses?
We have a Class C address – allows 253
computers
Our organization has 1000 computers
What do we do???
Solution?
Reserve a range of IP addresses to build
your own IP network
10.x.y.z - un-routable IP addresses
172.16.y.z
192.168.y.z
How to connect these machines to Internet?
Network Address Translation
Use a gateway /router to map invalid addresses to
valid IP addresses
Translates your local address to a routable address
Router receives one IP Address
Either dynamically assigns addresses to all the nodes
behind the router, or it is assigned statically using nonroutable addresses
If dynamic, uses DHCP (Dynamic Host Configuration Protocol)
When someone inside the network wants to access a
computer outside the local network (the internet), the
request is sent to the router, which uses NAT to send the
request to the internet
NAT and security?
Does NAT improve security?
It hides internal IP addresses from hacker
NAT must be combined with “firewalls” for
optimum security
Firewalls
Firewalls
Network traffic cops
Tools that control the flow of traffic going
between networks
By looking at addresses associated with
traffic, firewalls determine whether
connections should be transmitted or
dropped
We will cover the setup and configuration of
firewalls in great depth later in class