CNT-2311-Chapter 8 Notes: Difference between revisions

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==== Chapter 8 ====
== Network Hardware Configuration ==
::-The most basic part of network configuration is getting the network hardware up and running.
::-Most of the time that is a fairly automatic task since most systems ship with startup scripts that auto-detect the ::network card and loads the correct driver module.
::-If the network hardware is not detected subsequent configuration will not work. You will need to load your network ::hardware driver.
::-You will use the modprobe command. You must know the name of the networks hardware kernel module.
:: # modprobe <insert kernel name here>
== Configuring with DHCP==
::-One of the most easy ways to configure a computer to use a TCP/IP network is to use DHCP.  This allows one computer on ::a network to manage the settings for many other computers.
::-When a computer running a DHCP client boots up it send out a broadcast looking for a DHCP server. The server then ::replies with the configuration information needed by the client to communicate with the computers on the network.
::-Linux has three common DHCP clients.
::: pump
::: dhclient
::: dhcpcd
::-Some distributions ship with one of these but others ship with two or all three. They will all have a default DHCP ::client, that is installed when you tell the system you want to use DHCP at the installation.
::-On systems that ship with more then one DHCP client you can swap one out for another by removing the old client and ::installing the package for the new one.
::-The DHCP client runs at system bootup and is handled by its own SysV startup file or as part of the main network ::configuration startup file.
::-This SysV file is typically named networking or network.
::-The system uses a line in a configuration file to determine whether to run a DHCP client.
::-Red Hat and Fedora set this option in a file called /etc/sysconfig/network-scripts/ifcfg-eth0 (the filename will be ::different if something other than a single Ethernet interface is used)
::-The line in question looks like this: BOOTPROTO=dhcp
::-If the BOOTPROTO variable is set to something different changing to the above line will set the system to use DHCP.
::-Ubuntu uses the /etc/network/interfaces file for a similar purpose but the details differ. 
::-On a system that uses DHCP you will see a line like: iface eth0 inet dhcp
::-You may prefer to use the GUI system to adjust these options.
::-Once the DHCP client is configured to run when the system boots the configuration task is complete.  On rare occasions ::you may need to tweak the DHCP settings to work around client/server incompatibilities.
::-If you have to manually run a DHCP client you can do so by typing its name (as root) followed by a network identifier ::such as: dhclient eth0 to have the DHCP client attempt to configure eth0 with the help of any DHCP server it find on the
::network.
== Configure with a Static IP Address ==
::-When a network lacks a DHCP server you will need to provide basic network configuration options manually. 
::-These options can be set using interactive commands but to sent them long term you need to adjust a configuration file ::such as:
::/etc/sysconfig/ network-scripts/ifcfg-eth0  or /etc/network/interfaces
::-IP address: You can set the IP address manually with the ifconfig command or at the IPADDR line in the configuration ::file.
::-Network mask: You can set the netmask manually with the ifconfig command or at the NETMASK line in the configuration ::file.
::-Gateway address: You can manually set the gateway via the route command. To make it permanent you need to adjust the ::configuration file. This file may be the same that holds other options or another file such as: /etc/sysconfig/
::network/routes and is most likely called GATEWAY.
::-DNS settings: In order for Linux to use DNS to translate between IP addresses and hostnames you must specify at least ::one DNS server in the /etc/resolv.config file. Adjusting this file is all you need to do to set the name server address.
::-You can also set your computers local domain name in this file using the domain option: domain <name of the domain you ::want to use>
::-The network configuration script may hold other options such as:
::DEVICE=eth0 to specify the interface name
::BOOTPROTO=static to assign a static IP address
::ONBOOT=yes to bring up an interface when the system boots
::NETWORK and BROADCAST are derived from the IPADDR and NETMASK and can be changed if you understand the consequences of ::doing so.
::-This command will bring up eth0 using address 192.168.29.39 and netmask 255.255.255.0
::# ifconfig etho up 192.168.29.39 netmask 255.255.255.0
::-This command links the specified address to the card so that the computer responds to the address and claims to be that ::address when sending data.
::-Both ifconfig and route can display information on the current network configuration.
::-For ifconfig, omit up and everything that follows; for route, omit add everything that follows.
::-To view the interface you may use this command: # ifconfig eth0
::-When configured correctly ifconfig should show a hardware address an IP address and some other statistics.
== Configuring Routing ==
::-Routers pass traffic from one network to another. You give the computer a routers address which your system uses as a ::gateway to the internet.
::-Any traffic not directed to the network is directed to the router which then sends it on to it’s destination. Every ::router has a list of rules concerning where to send data based on the destination IP address.
::-The –net and –host force route to interpret the target as a network or computer address, respectively.
::-Netmask lets you set a netmask as you desire and gw lets you specify a router through which packets to the specified ::target should go.
::-The reject keyword installs a blocking route , which refuses all traffic destined for the specific network.
::-Incorrect routing tables can cause serious problems causing some or all computers on the network not to respond. You ::can use route alone to compare the results to what your routing table should be.
== Ifup and ifdown command *(pg. 408) ==
== Ifup and ifdown command *(pg. 408) ==



Revision as of 23:21, 27 March 2011

Chapter 8

Network Hardware Configuration

-The most basic part of network configuration is getting the network hardware up and running.
-Most of the time that is a fairly automatic task since most systems ship with startup scripts that auto-detect the ::network card and loads the correct driver module.
-If the network hardware is not detected subsequent configuration will not work. You will need to load your network ::hardware driver.
-You will use the modprobe command. You must know the name of the networks hardware kernel module.
# modprobe <insert kernel name here>

Configuring with DHCP

-One of the most easy ways to configure a computer to use a TCP/IP network is to use DHCP. This allows one computer on ::a network to manage the settings for many other computers.
-When a computer running a DHCP client boots up it send out a broadcast looking for a DHCP server. The server then ::replies with the configuration information needed by the client to communicate with the computers on the network.
-Linux has three common DHCP clients.
pump
dhclient
dhcpcd
-Some distributions ship with one of these but others ship with two or all three. They will all have a default DHCP ::client, that is installed when you tell the system you want to use DHCP at the installation.
-On systems that ship with more then one DHCP client you can swap one out for another by removing the old client and ::installing the package for the new one.
-The DHCP client runs at system bootup and is handled by its own SysV startup file or as part of the main network ::configuration startup file.
-This SysV file is typically named networking or network.
-The system uses a line in a configuration file to determine whether to run a DHCP client.
-Red Hat and Fedora set this option in a file called /etc/sysconfig/network-scripts/ifcfg-eth0 (the filename will be ::different if something other than a single Ethernet interface is used)
-The line in question looks like this: BOOTPROTO=dhcp
-If the BOOTPROTO variable is set to something different changing to the above line will set the system to use DHCP.
-Ubuntu uses the /etc/network/interfaces file for a similar purpose but the details differ.
-On a system that uses DHCP you will see a line like: iface eth0 inet dhcp
-You may prefer to use the GUI system to adjust these options.
-Once the DHCP client is configured to run when the system boots the configuration task is complete. On rare occasions ::you may need to tweak the DHCP settings to work around client/server incompatibilities.
-If you have to manually run a DHCP client you can do so by typing its name (as root) followed by a network identifier ::such as: dhclient eth0 to have the DHCP client attempt to configure eth0 with the help of any DHCP server it find on the
network.

Configure with a Static IP Address

-When a network lacks a DHCP server you will need to provide basic network configuration options manually.
-These options can be set using interactive commands but to sent them long term you need to adjust a configuration file ::such as:
/etc/sysconfig/ network-scripts/ifcfg-eth0 or /etc/network/interfaces
-IP address: You can set the IP address manually with the ifconfig command or at the IPADDR line in the configuration ::file.
-Network mask: You can set the netmask manually with the ifconfig command or at the NETMASK line in the configuration ::file.
-Gateway address: You can manually set the gateway via the route command. To make it permanent you need to adjust the ::configuration file. This file may be the same that holds other options or another file such as: /etc/sysconfig/
network/routes and is most likely called GATEWAY.
-DNS settings: In order for Linux to use DNS to translate between IP addresses and hostnames you must specify at least ::one DNS server in the /etc/resolv.config file. Adjusting this file is all you need to do to set the name server address.
-You can also set your computers local domain name in this file using the domain option: domain <name of the domain you ::want to use>
-The network configuration script may hold other options such as:
DEVICE=eth0 to specify the interface name
BOOTPROTO=static to assign a static IP address
ONBOOT=yes to bring up an interface when the system boots
NETWORK and BROADCAST are derived from the IPADDR and NETMASK and can be changed if you understand the consequences of ::doing so.
-This command will bring up eth0 using address 192.168.29.39 and netmask 255.255.255.0
  1. ifconfig etho up 192.168.29.39 netmask 255.255.255.0
-This command links the specified address to the card so that the computer responds to the address and claims to be that ::address when sending data.
-Both ifconfig and route can display information on the current network configuration.
-For ifconfig, omit up and everything that follows; for route, omit add everything that follows.
-To view the interface you may use this command: # ifconfig eth0
-When configured correctly ifconfig should show a hardware address an IP address and some other statistics.

Configuring Routing

-Routers pass traffic from one network to another. You give the computer a routers address which your system uses as a ::gateway to the internet.
-Any traffic not directed to the network is directed to the router which then sends it on to it’s destination. Every ::router has a list of rules concerning where to send data based on the destination IP address.
-The –net and –host force route to interpret the target as a network or computer address, respectively.
-Netmask lets you set a netmask as you desire and gw lets you specify a router through which packets to the specified ::target should go.
-The reject keyword installs a blocking route , which refuses all traffic destined for the specific network.
-Incorrect routing tables can cause serious problems causing some or all computers on the network not to respond. You ::can use route alone to compare the results to what your routing table should be.

Ifup and ifdown command *(pg. 408)

-The ifup command bring the interface up
-The ifdown command bring the interface down

Example of ifup/ifdown *(pag.408)

“ifup eth0”
–bring up the interface eth0“ifdown eth0”.
–bring down the interface eth0- useful to quickly to take down a interface or
bring it up, because you do not need to remember all the detail of the IP
address, route and so on.

Hostnames *(pg. 409)

There are 2 way to configure the hostname
-On DNS
-On you local computer

Domain Name System (DNS) *(pg. 409)

- “is a distributed database computers that converts between IP addresses and
hostnames”.
- The DNS server just sit and listen for other computers on the network to send
request.
- The server then send the request out to other DNS server if it cannot find it
in it cache.
- If the server found what the request is asking for then it will send a request
back to the computer telling it where to go.

Diagnosing Network Connections *(pg. 412)

- There are a few command that will help diagnose a problem.
- They are ping, traceroute, tracepath, netstat, and tcpdump.

Ping command *(pg. 412)

- The ping command is a very basic network test, which send ICMP packet to the
system you name, hostnames, or ip address and wait for a reply
- In Linux it send the packet every second until you press Ctrl+C key to stop
the stroke.

Traceroute command *(pg. 412-413)

- This command will sends a series of three test packets to each computer
between your system and a specified target system

Tracepath command *(pg. 413)

- This command is a lot similar to traceroute

Checking Network Status

-A useful diagnostic tool is Netstat
-Netstat can be used in place of many other tools.
-It also shows information that is not easily found in other ways.

Netstat options

-Interface information: use netstat –interface or -i parameter to see information about
network interfaces. This is similar to what ifconfig command displays
-Routing information: use netstat –route or -r parameter to see the routing table. This
output is similar to what the route command shows
-Masquerade information: use netstat –masquerade or –M to see information about
connections mediated by Linux’s NAT features . This is a good way to stretch limited
IPv4 addresses.
-Program use: use netstat –program or –p parameter to show information about programs that
are using network connections.
-All connections: use netstat –all or –a parameter to display information about the ports
that server programs open to listen for network connections.

tcpdump

-Advanced network troubleshooting tool.
-tcpdump is a packet sniffer that intercepts network packets and log them on the screen.
-Useful tool to verify that computer is receiving data from other computers
-This is also useful to examine the data in its raw form, which can be helpful if you
-understand protocols implementation details allowing you to spot problems.
-Be aware that packet sniffers can be used by individuals to capture passwords sent over
the network.
-You must use tcpdump in root mode.
-Once you enter tcpdump it summarizes what it is doing and prints lines, one for each packet
it monitors.
-Lines consist of time stamps, stack identifiers, origin system name, IP addresses and
port, destination system name and packet-specific information.
-Once tcpdump starts it dose not stop so you must press Ctrl+C to terminate it.

tcpdump options

- A: displays packet contents in ASCII
- D: Displays a list of interfaces tcpdump can listen to.
- n: Shows all addresses numerically.
- v: Shows additional packet information.
- w file: Used to write captured packets to the specified file.
-You could consult tcpdump’s man page for details and for additional options.

Additional Networking Tools

-Other than networking diagnostic programs you could use some common programs as debugging tools.
-One of the most helpful tools may be Telnet a program and protocol tool that is mainly used as
a remote login tool.
-Telnet is considered a poor choice as a remote login protocol due to the fact that it
is entirely unencrypted.
-A good rule to follow is that you should remove Telnet server from your system and never use
the telnet client program. SSH is a safer alternative to Telnet described in chapter 10.

Using Telnet to Debug Network Protocols

-If you include a port number after the remote hostname, the program connects to the
specified port allowing you to interact with the server.
-To use telnet this way you must know a lot of information about the protocol. Without
the knowledge of the protocol you can still use Telnet to test if a server is running or not.
-If you try to connect and get a connection refused error message you know that a remote
server is not running or is inaccessible. (This may be because a firewall is blocking
the connection)
-If the result is Escape character this means that the server is running, even though it
could not be working correctly.
-This test only works for protocols that us TCP. UDP tools will not connect.

Using Telnet to Debug Network Protocols continued

-Sometimes File Transfer Protocols (FTP) can be a helpful tool.
-This program allows you to transfer files between systems, as its name suggests.
-To use this tool type the program name followed by the FTP servers name, which will then
show you a login prompt, allowing you to issue FTP commands.