tcp/ip protocol suite 1 chapter 17 upon completion you will be able to: domain name system: dns...
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TCP/IP Protocol Suite 1
Chapter 17Chapter 17
Upon completion you will be able to:
Domain NameDomain NameSystem: DNSSystem: DNS
• Understand how the DNS is organized• Know the domains in the DNS• Know how a name or address is resolved• Be familiar with the query and response formats• Understand the need for DDNS
Objectives
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TCP/IP Protocol Suite 2
Figure 17.4 Domains
A domain is a subtree of the domain name space.The name of the domain is the domain name of thenode at the top of the subtree.
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TCP/IP Protocol Suite 3
Figure 17.5 Hierarchy of name servers
It is not possible to keep all domain names in one computer,so they are distributed over many servers.
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TCP/IP Protocol Suite 4
Figure 17.6 Zones and domains
What a server is responsible for or has control over is calleda zone. A zone is a contiguous part of the entire tree. Thetable the zone stores is called the zone file.
A zone and a domain can be the same, or not.
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TCP/IP Protocol Suite 5
Servers
Root ServerThe root server is for the entire tree and does not containany data.
Primary ServerStores a file about the zone for which it is an authority.It also creates, maintains, and updates the zone file.
Secondary ServerTransfers the complete information about a zone fromanother server (primary or secondary). Does not create,maintain, or update the zone file.
Thus, secondary server is a redundant copy of anotherserver (more than likely a primary).
When the secondary downloads info from the primary,it is called a zone transfer.
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TCP/IP Protocol Suite 6
Resolver
Along with the servers, you need a resolver.
The DNS resolver - a DNS client program which runs on auser’s computer and generates DNS request on behalf ofsoftware programs
This request goes from the resolver to the lowest levelDNS server
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TCP/IP Protocol Suite 7
Figure 17.7 DNS used in the Internet
Inverse: used to map an address to a name (in a couple slides)
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TCP/IP Protocol Suite 8
Figure 17.8 Generic domains
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TCP/IP Protocol Suite 9
Table 17.1 Table 17.1 Generic domain labelsGeneric domain labels
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TCP/IP Protocol Suite 10
Table 17.1 Table 17.1 Generic domain labels (Continued)Generic domain labels (Continued)
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TCP/IP Protocol Suite 11
Figure 17.10 Inverse domain
This is used to map anaddress to a name. Alsocalled reverse names.For example, suppose youhave an IP address indotted form. What is itsdomain name?
There are separate serversto handle these (and theyare also hierarchical).
Take IP address (such as132.34.45.121), put it in form shown to left, thengive to reverse nameserver and it will returnthe domain name.
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TCP/IP Protocol Suite 12
Figure 17.10 Inverse domain
For example, when a user runs an FTP client to contacta server, the server can obtain the client's IP address from the incoming TCP connection and then perform an inverse lookup to map the address into a name.
Some servers do so to restrict access (i.e. the server compares the client's name to a list of computers allowed/denied to access the service).
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TCP/IP Protocol Suite 13
Figure 17.9 Country domains
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TCP/IP Protocol Suite 14
17.5 RESOLUTION
Mapping a name to an address or an address to a name is called name-Mapping a name to an address or an address to a name is called name-address resolution.address resolution.
The topics discussed in this section include:The topics discussed in this section include:
Resolver Resolver Mapping Names to Addresses Mapping Names to Addresses Mapping Addresses to Names Mapping Addresses to Names Recursive Resolution Recursive Resolution Iterative Resolution Iterative Resolution Caching Caching
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TCP/IP Protocol Suite 15
Resolution
In the real world:
Users do not interface directly with a DNS resolver
Instead, web browsers and email clients send a request to theDNS resolver built into the client operating system
The DNS resolver almost always has a cache. If the cachecan provide the answer, problem solved.
If the cache does not have the answer, the request is sentto a DNS server.
If that DNS server does not have the answer, the requestmay be passed on to another level.
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TCP/IP Protocol Suite 16
Resolution
For example:
You are at DePaul and you ask for the web page fromcs.it.ucla.edu.
Resolver checks its cache. No entry for cs.it.ucla.edu.
Resolver sends query to local DNS server (ISP?)
Local DNS server has no entry.
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TCP/IP Protocol Suite 17
Resolution
Query is sent to .edu server. .edu server recognizes ucla.edu, but not cs.it.ucla.edu. So .edu server sends query to ucla.edu.
ucla.edu server says it recognizes cs.it.ucla.edu and here is the IP address: xx.yy.zz.ww
IP address is recursively sent to .edu server’s cache andall other caches on the way back to DePaul.
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TCP/IP Protocol Suite 18
Figure 17.11 Recursive resolution
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TCP/IP Protocol Suite 19
Figure 17.12 Iterative resolution
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TCP/IP Protocol Suite 20
17.6 DNS MESSAGES
The DNS query message consists of a header and question records; the The DNS query message consists of a header and question records; the DNS response message consists of a header, question records, answer DNS response message consists of a header, question records, answer records, authoritative records, and additional records.records, authoritative records, and additional records.
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TCP/IP Protocol Suite 21
Figure 17.14 Query and response messages
Question section contains one or more question records.Answer/Authoritative/Additional sections contain one or moreresource records. See slide 25 and on for descriptions of these.
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TCP/IP Protocol Suite 22
Figure 17.15 Header format
Identification - a 16-bit field used by the client to match theresponse to the query.
Flags - next slide
Number of question records: number of queries in the questionsection of the message
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TCP/IP Protocol Suite 23
Figure 17.16 Flags field
QR: if 0, then query; if 1, then response
OpCode: if 0, then standard; 1 = inverse; 2 = server status request
AA: answer from authoritative serverTC: response was more than 512 bytes, so it was truncatedRD: client desires a recursive answerRA: recursion is available (set in response message)
rCode: shows the status of the error in the response (see next slide)
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TCP/IP Protocol Suite 24
Table 17.2 Table 17.2 Values of rCodeValues of rCode
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TCP/IP Protocol Suite 25
17.7 TYPES OF RECORDS
Two types of records are used in DNS. Two types of records are used in DNS.
The The question recordsquestion records are used in the question section of the query and are used in the question section of the query and response messages. response messages.
The The resource recordsresource records are used in the answer, authoritative, and are used in the answer, authoritative, and additional information sections of the response message.additional information sections of the response message.
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TCP/IP Protocol Suite 26
Figure 17.17 Question record format
Query name - this is a variable length field containinga domain name. The domain name has the format asshown on the next slide.
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TCP/IP Protocol Suite 27
Figure 17.18 Query name format
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TCP/IP Protocol Suite 28
Table 17.3 Table 17.3 TypesTypes
This is thesecond field -the query type
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TCP/IP Protocol Suite 29
Table 17.4 Table 17.4 ClassesClasses
This is the third field - the query class. This describesThe specific protocol using DNS. Class 1 most common.
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TCP/IP Protocol Suite 30
Figure 17.19 Resource record format
Domain name - same as in question record, but since DNS requiresthe use of compression everywhere a name is repeated, this fieldis a pointer offset to the corresponding domain name field in thequestion record. Compression discussed next.
Time to live - how long this answer is valid
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TCP/IP Protocol Suite 31
Figure 17.19 Resource record format
Resource data - answer to the query, or the domain name of theauthoritative server, or additional information. Can be:
an IPv4 addressan IPv6 addressa domain namean offset pointera character string
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TCP/IP Protocol Suite 32
17.8 COMPRESSION
DNS requires that a domain name be replaced by an offset pointer if it is DNS requires that a domain name be replaced by an offset pointer if it is repeated. DNS defines a 2-byte offset pointer that points to a previous repeated. DNS defines a 2-byte offset pointer that points to a previous occurrence of the domain name or part of it.occurrence of the domain name or part of it.
For example, in a resource record the domain name is usually a For example, in a resource record the domain name is usually a repetition of the domain name in the question record.repetition of the domain name in the question record.
Recall:Recall:
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Figure 17.20 Format of an offset pointer
So if this pointer is referring to byte 12 (starting with byte 0, so thiswould be the 13th byte): offset pointer = 1100000000001100
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TCP/IP Protocol Suite 34
A resolver sends a query message to a local server to find the IP address for the host “chal.fhda.edu.”. We discuss the query and response messages separately.
Example 1
QR OpCode AA TC RD RA Reserved rCode
0 0000 0 0 1 0 000 0000
Figure 17.21 shows the query message sent by the resolver. The first 2 bytes show the identifier (1333). It is used as a sequence number and relates a response to a query. Because a resolver may even send many queries to the same server, the identifier helps to sort responses that arrive out of order. The next bytes contain the flags with the value of 0x0100 in hexadecimal. In binary it is 0000000100000000, but it is more meaningful to divide it into the fields as shown below:
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TCP/IP Protocol Suite 35
Figure 17.21 Example 1: Query message
Identifier Flags
# questionrecords
# answerrecords
# auth.records
# add.records
Queryname
Querytype
Queryclass
Query message
Questionrecord
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Example 1 (Continued)
QR OpCode AA TC RD RA Reserved rCode
1 0000 0 0 1 1 000 0000
The QR bit defines the message as a query. The OpCode is 0000, which defines a standard query. The recursion desired (RD) bit is set. (Refer back to Figure 17.16 for the flags field descriptions.) The message contains only one question record. The domain name is 4chal4fhda3edu0. The next 2 bytes define the query type as an IP address; the last 2 bytes define the class as the Internet.
Figure 17.22 shows the response of the server. The response is similar to the query except that the flags are different and the number of answer records is one. The flags value is 0x8180 in hexadecimal. In binary it is 1000000110000000, but again we divide it into fields as shown below:
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Example 1 (Continued)
The QR bit defines the message as a response. The OpCode is 0000, which defines a standard response. The recursion available (RA) and RD bits are set. The message contains one question record and one answer record. The question record is repeated from the query message. The answer record has a value of 0xC00C (split in two lines), which points to the question record instead of repeating the domain name. The next field defines the domain type (address). The field after that defines the class (Internet). The field with the value 12,000 is the TTL (12,000 s). The next field is the length of the resource data, which is 4, since the resource data itself is an IP address (153.18.8.105).
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TCP/IP Protocol Suite 38
Figure 17.22 Example 1: Response message
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TCP/IP Protocol Suite 39
An FTP server has received a packet from an FTP client with IP address 153.2.7.9. The FTP server wants to verify that the FTP client is an authorized client. The FTP server can consult a file containing the list of authorized clients. However, the file consists only of domain names. The FTP server has only the IP address of the requesting client, which was the source IP address in the received IP datagram. The FTP server asks the resolver (DNS client) to send an inverse query to a DNS server to ask for the name of the FTP client. We discuss the query and response messages separately.
Example 2
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Example 2 (Continued)
QR OpCode AA TC RD RA Reserved rCode
0 0001 0 0 1 0 000 0000
Figure 17.23 shows the query message sent from the resolver to the server. The first 2 bytes show the identifier (0x1200). The flags value is 0x0900 in hexadecimal. In binary it is 0000100100000000, and we divide it into fields
as shown below:
The OpCode is 0001, which defines an inverse query. The message contains only one question record. The domain name is 19171231537in-addr4arpa. The next 2 bytes define the query type as PTR, and the last 2 bytes define the class as the Internet.
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Figure 17.23 Example 2: Inverse query message
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Example 2 (Continued)
QR OpCode AA TC RD RA Reserved rCode
1 0001 1 0 1 1 000 0000
Figure 17.24 shows the response. The flags value is 0x8D80 in hexadecimal. In binary it is 1000110110000000, and we divide it into fields as shown below:
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Figure 17.24 Example 2: Inverse response message
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In UNIX and Windows, the nslookup utility can be used to retrieve address/name mapping. The following shows how we can retrieve an address when the domain name is given.
Example 3
$ nslookup fhda.eduName: fhda.eduAddress: 153.18.8.1
The nslookup utility can also be used to retrieve the domain name when the address is given as shown below:
$ nslookup 153.18.8.11.8.18.153.in-addr.arpa name = tiptoe.fhda.edu.
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17.9 DDNS
The Dynamic Domain Name System (DDNS) updates the DNS master The Dynamic Domain Name System (DDNS) updates the DNS master file dynamically. file dynamically.
For example, say TTL is set to 6 hours, then you change your URL/IP For example, say TTL is set to 6 hours, then you change your URL/IP address combo. address combo.
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17.10 ENCAPSULATION
DNS uses UDP as the transport protocol when the size of the response DNS uses UDP as the transport protocol when the size of the response message is less than 512 bytes. If the size of the response message is message is less than 512 bytes. If the size of the response message is more than 512 bytes, a TCP connection is used. more than 512 bytes, a TCP connection is used.
Port 53 is used in both cases.Port 53 is used in both cases.