DHCP_INITTAB(5) Standards, Environments, and Macros DHCP_INITTAB(5)


dhcp_inittab - information repository for DHCP options


The /etc/dhcp/inittab and the /etc/dhcp/inittab6 files contain
information about the Dynamic Host Configuration Protocol (DHCP) options,
which are network configuration parameters passed from DHCP servers to
DHCP clients when a client machine uses DHCP. Since many DHCP-related
commands must parse and understand these DHCP options, this file serves
as a central location where information about these options may be

The DHCP inittab and inittab6 files provide three general pieces of

o A mnemonic alias, or symbol name, for each option number. For
instance, option 12 is aliased to the name Hostname. This is
useful for DHCP-related programs that require human
interaction, such as dhcpinfo(1).

o Information about the syntax for each option. This includes
information such as the type of the value, for example,
whether it is a 16-bit integer or an IP address.

o The policy for what options are visible to which DHCP-related

If you make any changes to the /etc/dhcp/inittab file, note that only
additions of or changes to SITE options are preserved during upgrade. For
/etc/dhcp/inittab6, no options are preserved during upgrade.

The VENDOR options defined here are intended for use by the Solaris DHCP
client and DHCP management tools. The SUNW vendor space is owned by Sun,
and changes are likely during upgrade. If you need to configure the
Solaris DHCP server to support the vendor options of a different client,
see dhcptab(5) for details.

Each DHCP option belongs to a certain category, which roughly defines the
scope of the option; for instance, an option may only be understood by
certain hosts within a given site, or it may be globally understood by
all DHCP clients and servers. The following categories are defined; the
category names are not case-sensitive:

All client and server DHCP implementations agree on the
semantics. These are administered by the Internet Assigned
Numbers Authority (IANA). These options are numbered from 1
to 127 for IPv4 DHCP, and 1 to 65535 for DHCPv6.

Within a specific site, all client and server implementations
agree on the semantics. However, at another site the type and
meaning of the option may be quite different. These options
are numbered from 128 to 254 for IPv4 DHCP. DHCPv6 does not
support site options.

Each vendor may define 254 options (65536 for DHCPv6) unique
to that vendor. The vendor is identified within a DHCP packet
by the "Vendor Class" option, number 60 (number 17 for
DHCPv6). An option with a specific numeric identifier
belonging to one vendor will, in general, have a type and
semantics different from that of a different vendor. Vendor
options are "super-encapsulated" into the vendor field number
43, as defined in RFC 2132 for IPv4 DHCP, and number 17 as
defined in RFC 3315 for DHCPv6. The /etc/dhcp/inittab file
contains only Sun vendor options. Define non-Sun vendor
options in the dhcptab file.

This category allows the fixed fields within a DHCP packet to
be aliased to a mnemonic name for use with dhcpinfo(1).

This category is internal to the Solaris DHCP implementation
and will not be further defined.

DHCP inittab and inittab6 Format
Data entries are written one per line and have seven fields; each entry
provides information for one option. Each field is separated by a comma,
except for the first and second, which are separated by whitespace (as
defined in isspace(3C)). An entry cannot be continued onto another line.
Blank lines and those whose first non-whitespace character is '#' are

The fields, in order, are:

o Mnemonic Identifier

The Mnemonic Identifier is a user-friendly alias for the
option number; it is not case sensitive. This field must be
per-category unique and should be unique across all
categories. The option names in the STANDARD, SITE, and VENDOR
spaces should not overlap, or the behavior will be undefined.
See Mnemonic Identifiers for Options section of this man page
for descriptions of the option names.

o Category (scope)

The Category field is one of STANDARD, SITE, VENDOR, FIELD, or
INTERNAL and identifies the scope in which the option falls.
SITE is not used in inittab6.

o Option Number

The Option Number is the number of this option when it is in a
DHCP packet. This field should be per-category unique and the
STANDARD and SITE fields should not have overlapping code
fields or the behavior is undefined.

o Data Type

Data Type is one of the following values, which are not case

A printable character string

Has no value. Scope limited to category limited
to INTERNAL. Presence of an option of this type
within a Solaris configuration file represents
TRUE, absence represents FALSE.

An array of bytes

An 8-bit unsigned integer

An 8-bit signed integer

A 16-bit unsigned integer

A 16-bit signed integer

A 24-bit unsigned integer

A 32-bit unsigned integer

A 32-bit signed integer

A 64-bit unsigned integer

A 64-bit signed integer

An IPv4 address

An IPv6 address

An RFC 3315 Unique Identifier

An RFC 1035-encoded domain name

The data type field describes an indivisible unit of the option
payload, using one of the values listed above.

o Granularity

The Granularity field describes how many indivisible units in
the option payload make up a whole value or item for this
option. The value must be greater than zero (0) for any data
type other than Bool, in which case it must be zero (0).

o Maximum Number Of Items

This value specifies the maximum items of Granularity which
are permissible in a definition using this symbol. For
example, there can only be one IP address specified for a
subnet mask, so the Maximum number of items in
this case is one (1). A Maximum value of zero (0) means
that a variable number of items is permitted.

o Visibility

The Visibility field specifies which DHCP-related programs
make use of this information, and should always be defined as
sdmi for newly added options.

Mnemonic Identifiers for IPv4 Options
The following table maps the mnemonic identifiers used in Solaris DHCP to
RFC 2132 options:

Symbol Code Description
Subnet 1 Subnet Mask, dotted Internet address
UTCoffst 2 Coordinated Universal time offset
(seconds) [deprecated].
Router 3 List of Routers, IP.
Timeserv 4 List of RFC-868 servers, IP.
IEN116ns 5 List of IEN 116 name servers, IP.
DNSserv 6 List of DNS name servers, IP.
Logserv 7 List of MIT-LCS UDP log servers, IP.
Cookie 8 List of RFC-865 cookie servers, IP.
Lprserv 9 List of RFC-1179 line printer servers,
Impress 10 List of Imagen Impress servers, IP.
Resource 11 List of RFC-887 resource location
servers, IP.
Hostname 12 Client's hostname, value from hosts
Bootsize 13 Number of 512 octet blocks in boot
image, NUMBER.
Dumpfile 14 Path where core image should be dumped,
DNSdmain 15 DNS domain name, ASCII.
Swapserv 16 Client's swap server, IP.
Rootpath 17 Client's Root path, ASCII.
ExtendP 18 Extensions path, ASCII.
IpFwdF 19 IP Forwarding Enable/Disable, NUMBER.
NLrouteF 20 Non-local Source Routing, NUMBER.
PFilter 21 Policy Filter, IP.
MaxIpSiz 22 Maximum datagram Reassembly Size,
IpTTL 23 Default IP Time to Live, (1=<x<=255),
PathTO 24 RFC-1191 Path MTU Aging Timeout, NUMBER.
PathTbl 25 RFC-1191 Path MTU Plateau Table, NUMBER.
MTU 26 Interface MTU, x>=68, NUMBER.
SameMtuF 27 All Subnets are Local, NUMBER.
Broadcst 28 Broadcast Address, IP.
MaskDscF 29 Perform Mask Discovery, NUMBER.
MaskSupF 30 Mask Supplier, NUMBER.
RDiscvyF 31 Perform Router Discovery, NUMBER.
RSolictS 32 Router Solicitation Address, IP.
StaticRt 33 Static Route, Double IP (network
TrailerF 34 Trailer Encapsulation, NUMBER.
ArpTimeO 35 ARP Cache Time out, NUMBER.
EthEncap 36 Ethernet Encapsulation, NUMBER.
TcpTTL 37 TCP Default Time to Live, NUMBER.
TcpKaInt 38 TCP Keepalive Interval, NUMBER.
TcpKaGbF 39 TCP Keepalive Garbage, NUMBER.
NISdmain 40 NIS Domain name, ASCII.
NISservs 41 List of NIS servers, IP.
NTPservs 42 List of NTP servers, IP.
NetBNms 44 List of NetBIOS Name servers, IP.
NetBDsts 45 List of NetBIOS Distribution servers,
NetBNdT 46 NetBIOS Node type (1=B-node, 2=P, 4=M,
NetBScop 47 NetBIOS scope, ASCII.
XFontSrv 48 List of X Window Font servers, IP.
XDispMgr 49 List of X Window Display managers, IP.
LeaseTim 51 Lease Time Policy, (-1 = PERM), NUMBER.
Message 56 Message to be displayed on client,
T1Time 58 Renewal (T1) time, NUMBER.
T2Time 59 Rebinding (T2) time, NUMBER.
NW_dmain 62 NetWare/IP Domain Name, ASCII.
NWIPOpts 63 NetWare/IP Options, OCTET (unknown
NIS+dom 64 NIS+ Domain name, ASCII.
NIS+serv 65 NIS+ servers, IP.
TFTPsrvN 66 TFTP server hostname, ASCII.
OptBootF 67 Optional Bootfile path, ASCII.
MblIPAgt 68 Mobile IP Home Agent, IP.
SMTPserv 69 Simple Mail Transport Protocol Server,
POP3serv 70 Post Office Protocol (POP3) Server, IP.
NNTPserv 71 Network News Transport Proto. (NNTP)
Server, IP.
WWWservs 72 Default WorldWideWeb Server, IP.
Fingersv 73 Default Finger Server, IP.
IRCservs 74 Internet Relay Chat Server, IP.
STservs 75 StreetTalk Server, IP.
STDAservs 76 StreetTalk Directory Assist. Server, IP.
UserClas 77 User class information, ASCII.
SLP_DA 78 Directory agent, OCTET.
SLP_SS 79 Service scope, OCTET.
ClientFQDN 81 Fully Qualified Domain Name, OCTET.
AgentOpt 82 Agent circuit ID, OCTET.
FQDN 89 Fully Qualified Domain Name, OCTET.
PXEarch 93 Client system architecture, NUMBER.
BootFile N/A File to Boot, ASCII.
BootPath N/A Boot path prefix to apply to client's
requested boot file, ASCII.
BootSrvA N/A Boot Server, IP.
BootSrvN N/A Boot Server Hostname, ASCII.
EchoVC N/A Echo Vendor Class Identifier Flag,
LeaseNeg N/A Lease is Negotiable Flag, (Present=TRUE)

Mnemonic Identifiers for IPv6 Options
The following table maps the mnemonic identifiers used in Solaris DHCP to
RFC 3315, 3319, 3646, 3898, 4075, and 4280 options:

Symbol Code Description
ClientID 1 Unique identifier for client, DUID
ServerID 2 Unique identifier for server, DUID
Preference 7 Server preference, NUMBER
Unicast 12 Unicast server address, IPV6
UserClass 15 User classes for client, OCTET
VendorClass 16 Vendor client hardware items, OCTET
SIPNames 21 SIP proxy server name list, DOMAIN
SIPAddresses 22 SIP proxy server addresses in
preference order, IPV6
DNSAddresses 23 DNS server addresses in preference
order, IPV6
DNSSearch 24 DNS search list, DOMAIN
NISServers 27 NIS server addresses in preference
order, IPV6
NIS+Servers 28 NIS+ server addresses in preference
order, IPV6
NISDomain 29 NIS domain name, DOMAIN
NIS+Domain 30 NIS+ domain name, DOMAIN
SNTPServers 31 IPV6
InfoRefresh 32 UNUMBER32
BCMCDomain 33 Broadcast/multicast control server
name list, DOMAIN
BCMCAddresses 34 Broadcast/multicast control server
addresses, IPV6


Example 1: Altering the DHCP inittab File

In general, the DHCP inittab file should only be altered to add SITE
options. If other options are added, they will not be automatically
carried forward when the system is upgraded. For instance:

ipPairs SITE, 132, IP, 2, 0, sdmi

describes an option named ipPairs, that is in the SITE category. That
is, it is defined by each individual site, and is option code 132, which
is of type IP Address, consisting of a potentially infinite number of
pairs of IP addresses.




See attributes(7) for descriptions of the following attributes:

|Interface Stability | Committed |


dhcpinfo(1), isspace(3C), dhcptab(5), attributes(7), dhcp(7),
dhcp_modules(7), dhcpagent(8)

System Administration Guide: IP Services

Alexander, S., and R. Droms. RFC 2132, DHCP Options and BOOTP Vendor
Extensions. Network Working Group. March 1997.

Droms, R. RFC 2131, Dynamic Host Configuration Protocol. Network Working
Group. March 1997.

Droms, R. RFC 3315, Dynamic Host Configuration Protocol for IPv6
(DHCPv6). Cisco Systems. July 2003.

Schulzrinne, H., and B. Volz. RFC 3319, Dynamic Host Configuration
Protocol (DHCPv6) Options for Session Initiation Protocol (SIP) Servers.
Columbia University and Ericsson. July 2003.

Droms, R. RFC 3646, DNS Configuration options for Dynamic Host
Configuration Protocol for IPv6 (DHCPv6). Cisco Systems. December 2003.

Kalusivalingam, V. RFC 3898, Network Information Service (NIS)
Configuration Options for Dynamic Host Configuration Protocol for IPv6
(DHCPv6). Cisco Systems. October 2004.

Chowdhury, K., P. Yegani, and L. Madour. RFC 4280, Dynamic Host
Configuration Protocol (DHCP) Options for Broadcast and Multicast Control
Servers. Starent Networks, Cisco Systems, and Ericsson. November 2005.

Mockapetris, P.V. RFC 1035, Domain names - implementation and
specification. ISI. November 1987.

October 31, 2016 DHCP_INITTAB(5)