Network Working Group L. Morales
Request for Comments: 1236 P. Hasse
USAISEC
June 1991
IP to X.121 Address Mapping for DDN
Status of this Memo
This memo defines a standard way of converting IP addresses to CCITT
X.121 addresses and is the recommended standard for use on the
Internet, specifically for the Defense Data Network (DDN). This memo
provides information for the Internet community. It does not specify
an Internet standard. Distribution of this memo is unlimited.
The Defense Communication Agency (DCA) has stated that "DDN specifies
a standard for mapping Class A addresses to X.121 addresses."
Additionally DCA has stated that Class B and C IP to X.121 address
mapping "standards are the responsibility of the administration of
the Class B or C network in question". Therefore, there is NO
defined single standard way of converting Class B and Class C IP
addresses to X.121 addresses.
This is an important issue because currently there is no way for
administrators to define IP to X.121 address mapping. Without a
single standard, in a multi-vendor network environment, there is no
assurance that devices using IP and DDN X.25 will communicate with
each other.
The IP to X.121 address mapping of Class B and Class C IP addresses
shall be implemented as described below. This translation method is
a direct expansion of the algorithm described in the "MIL-STD: X.25,
DDN X.25 Host Interface Specification" [1]. The translation method
described below is TOTALLY independent of IP subnetting and of any
masking that may be used in support of IP subnetting.
All Internet hosts are assigned a four octet (32 bit) address
composed of a network field and a local address field also known as
the REST field [2] (see Figure 1 thru 3). Two basic forms of
addresses are provided: (1) Physical addresses, correspond to the
node number and DCE port number of the node to which the DTE is
connected. (2) Logical addresses, are mapped transparently by DCE
software into a corresponding physical network address.
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RFC 1236 IP to X.121 Address Mapping for DDN June 1991
To provide flexibility, Internet addresses are divided into 3 primary
classes: Class A, Class B, and Class C. These classes allow for a
large number of small and medium sized networks. The network
addresses used within the Internet in Class A, B, and C networks are
divided between Research, Defense, Government, (Non-Defense) and
Commercial uses.
As described in the MIL-STD: X25, an IP address consists of the
ASCII text string representation of four decimal numbers separated by
periods, corresponding to the four octets of a thirty-two bit
Internet address. The four decimal numbers are referred to in this
memo as network (n), host (h), logical address (l), and Interface
Message Processor (IMP) or Packet Switch Node (PSN) (i). Thus, an
Internet address maybe represented as "n.h.l.i" (Class A), "n.n.h.i"
(Class B), or "n.n.n.hi" (Class C), depending on the Internet address
class. Each of these four numbers will have either one, two, or
three decimal digits and will never have a value greater than 255.
For example, in the Class A IP address "26.9.0.122", n=26 h=9, l=0,
and i=122.
The different classes of Internet addresses [3] are illustrated
below:
Class A:
The highest-order bit is set to 0.
7-bits define the network number.
24-bits define the local address.
This allows up to 126 class A networks.
Networks 0 and 127 are reserved.
| n | h | l | i |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|0| NETWORK | Local Address |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
7 Bits 24 Bits (REST Field)
Figure 1
Class B:
The two highest-order bits are set to 1-0.
14-bits define the network number.
16-bits define the local address.
This allows up to 16,384 class B networks.
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RFC 1236 IP to X.121 Address Mapping for DDN June 1991
| n | n | h | i |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|1 0| NETWORK | Local Address |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
14 Bits 16 Bits (REST Field)
Figure 2
Class C:
The three highest-order bits are set to 1-1-0.
21-bits define the network number.
8-bits define the local address.
This allows up to 2,097,152 class C networks
| n | n | n | h | i |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|1 1 0| NETWORK | Local Address |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
21 Bits 8 Bits (REST Field)
Figure 3
The fourth type of address, class D, is used as a multicast address.
The four highest-order bits are set to 1-1-1-0. Note: No addresses
are allowed with the four highest-order bits set to 1-1-1-1. These
addresses, called "class E", are reserved.
The "MIL-STD: X.25" states "All DDN addresses are either twelve or
fourteen BCD (binary-coded decimal) digits in length.". The last two
digits are referred to as the Sub-Address and are not used on the
DDN. The Sub-Address is carried across the network without
modification. Its presence is optional. Therefore, a DTE may
generate EITHER a twelve or fourteen BCD X.121 address, but must
accept both twelve and fourteen BCD X.121 addresses.
This section describes the algorithm that should be used to convert
IP addresses to X.121 addresses [1]. You will note that "h" is
always listed as greater than or less than the number 64. This
number is used to differentiate between PSN physical and logical host
port addresses. Note that at the time of this writing, the DDN does
not make use of the PSN's logical addressing feature, which allows
hosts to be addressed independently of their physical point of
attachment to the network.
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RFC 1236 IP to X.121 Address Mapping for DDN June 1991
the address corresponds to the following DDN X.25
physical address:
ZZZZ F III HH ZZ (SS)
where:
ZZZZ = 0000
F = 0 because the address is a physical address;
III is a three decimal digit representation of "i",
right-adjusted and padded with leading zeros if required;
HH is a two decimal digit representation of h", right-adjusted
and padded with leading zeros if required;
ZZ = 00 is optional.
(SS) is an optional Sub-Address field which is ignored in the DDN.
This field is either left out or filled with zeros.
The address 26.9.0.122 corresponds to the DDN X.25 physical address
000001220900.
64 (h >= 64), the address corresponds to the following
DDN X.25 physical address:
ZZZZ F RRRRR ZZ (SS)
where:
ZZZZ = 0000
F = 1 because the address is a logical address;
RRRRR is a five decimal digit representation of the result "r" of
the calculation
r = h * 256 + i
(note that the decimal representation of "r" will always require five
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RFC 1236 IP to X.121 Address Mapping for DDN June 1991
digits)
ZZ = 00
and
(SS) is optional.
The address 26.83.0.207 corresponds to the DDN X.25 logical address
000012145500.
The mapping of X.121 address for Class A networks:
for h < 64
example: 26.29.0.122 format: n.h.l.i
ZZZZ F III HH ZZ (SS)
X.121 address = 0000 0 122 29 00 00
for h > or = 64
example: 26.80.0.122 format: n.h.l.i
ZZZZ F RRRRR ZZ (SS)
X.121 address = 0000 1 20602 00 00
where R = H * 256 + I
The mapping of X.121 address for Class B networks:
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RFC 1236 IP to X.121 Address Mapping for DDN June 1991
for h < 64
example: 137.80.1.5 format: n.n.h.i
ZZZZ F III HH ZZ (SS)
X.121 address = 0000 0 005 01 00 00
for h > or = 64
example: 137.80.75.2 format: n.n.h.i
ZZZZ 1 RRRRR ZZ (SS)
X.121 address = 0000 1 19202 00 00
where R = H * 256 + I
The mapping of X.121 address for Class C networks:
for h < 64
example: 192.33.50.19 format: n.n.n.hi
H I
n.n.n.0001 0011
1 3
Subnet 1
Subhost 3
ZZZZ F III HH ZZ (SS)
X.121 address = 0000 0 003 01 00 00
NOTE: The mapping of X.121 address for Class C networks for h > 64
is not applicable since the "h" field can never exceed 15.
[1] MIL-STD: X.25 "Defense Data Network X.25 Host Interface
Specification", Defence Communications Agency, BBN Communications
Corporation, 1983 December, Volume 1 of the "DDN Protocol
Handbook" (NIC 50004). Also available online at the DDN NIC as
NETINFO:X.25.DOC.
[2] MIL-STD: 1777 "Internet Protocol", 1983 August, Volume 1 of the
"DDN Protocol Handbook" (NIC 50004).
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RFC 1236 IP to X.121 Address Mapping for DDN June 1991
[3] Kirkpatrick, S., M. Stahl, and M. Recker, "Internet Numbers", RFC
1166, DDN NIC, July 1990.
(Unless otherwise indicated, copies of federal and military
specifications, standards, and handbooks are available from the
Naval Publications and Forms Center, (ATTN: NPODS), 5801 Tabor
Avenue, Philadelphia, PA 19120-5099.)
Luis F. Morales, Jr.
USAISEC
ASQB-SEP-C
Ft. Huachuca, AZ 85613-5300
Phone: (602) 533-2873
EMail: lmorales@huachuca-emh8.army.mil
Phillip R. Hasse
USAISEC
ASQB-SEP-C
Ft. Huachuca, AZ 85613-5300
Phone: (602) 533-2873
EMail: phasse@huachuca-emh8.army.mil
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