408 lines
15 KiB
Groff
408 lines
15 KiB
Groff
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.\" dhcp-eval.5
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.\"
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.\" Copyright (c) 1996-1999 Internet Software Consortium.
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.\" Use is subject to license terms which appear in the file named
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.\" ISC-LICENSE that should have accompanied this file when you
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.\" received it. If a file named ISC-LICENSE did not accompany this
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.\" file, or you are not sure the one you have is correct, you may
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.\" obtain an applicable copy of the license at:
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.\"
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.\" http://www.isc.org/isc-license-1.0.html.
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.\"
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.\" This file is part of the ISC DHCP distribution. The documentation
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.\" associated with this file is listed in the file DOCUMENTATION,
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.\" included in the top-level directory of this release.
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.\"
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.\" Support and other services are available for ISC products - see
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.\" http://www.isc.org for more information.
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.TH dhcpd-options 5
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.SH NAME
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dhcp-conditionals - ISC DHCP conditional evaluation
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.SH DESCRIPTION
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The Internet Software Consortium DHCP client and server both provide
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the ability to perform conditional behavior depending on the contents
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of packets they receive. The syntax for specifying this conditional
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behaviour is documented here.
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.SH REFERENCE: CONDITIONAL BEHAVIOUR
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Conditional behaviour is specified using the if statement and the else
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or elsif statements. A conditional statement can appear anywhere
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that a regular statement (e.g., an option statement) can appear, and
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can enclose one or more such statements. A typical conditional
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statement in a server might be:
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.PP
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.nf
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if option dhcp-user-class = "accounting" {
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max-lease-time 17600;
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option domain-name "accounting.example.org";
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option domain-name-servers ns1.accounting.example.org,
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ns2.accounting.example.org;
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} elsif option dhcp-user-class = "sales" {
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max-lease-time 17600;
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option domain-name "sales.example.org";
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option domain-name-servers ns1.sales.example.org,
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ns2.sales.example.org;
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} elsif option dhcp-user-class = "engineering" {
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max-lease-time 17600;
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option domain-name "engineering.example.org";
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option domain-name-servers ns1.engineering.example.org,
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ns2.engineering.example.org;
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} else {
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max-lease-time 600;
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option domain-name "misc.example.org";
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option domain-name-servers ns1.misc.example.org,
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ns2.misc.example.org;
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}
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.fi
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.PP
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On the client side, an example of conditional evaluation might be:
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.PP
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.nf
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# example.org filters DNS at its firewall, so we have to use their DNS
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# servers when we connect to their network. If we are not at
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# example.org, prefer our own DNS server.
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if not option domain-name = "example.org" {
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prepend domain-name-servers 127.0.0.1;
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}
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.fi
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.PP
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The
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.B if
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statement and the
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.B elsif
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continuation statement both take boolean expressions as their
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arguments. That is, they take expressions that, when evaluated,
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produce a boolean result. If the expression evaluates to true, then
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the statements enclosed in braces following the
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.B if
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statement are executed, and all subsequent
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.B elsif
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and
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.B else
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clauses are skipped. Otherwise, each subsequent
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.B elsif
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clause's expression is checked, until an elsif clause is encountered
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whose test evaluates to true. If such a clause is found, the
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statements in braces following it are executed, and then any
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subsequent
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.B elsif
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and
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.B else
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clauses are skipped. If all the
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.B if
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and
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.B elsif
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clauses are checked but none
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of their expressions evaluate true, then if there is an
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.B else
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clause, the statements enclosed in braces following the
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.B else
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are evaluated. Boolean expressions that evaluate to null are
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treated as false in conditionals.
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.SH BOOLEAN EXPRESSIONS
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The following is the current list of boolean expressions that are
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supported by the DHCP distribution.
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.PP
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.B check \fIclass-name\fR
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.RS 0.25i
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.PP
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The check operator returns a true value if the packet being considered
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comes from a client that falls into the specified
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class.
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.I Class-name
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must be a string that corresponds to the name of a defined class.
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Classes are only supported in the DHCP server.
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.RE
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.PP
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.I data-expression-1 \fB=\fI data-expression-2\fR
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.RS 0.25i
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.PP
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The \fB=\fR operator compares the values of two data expressions,
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returning true if they are the same, false if they are not. If
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either the left-hand side or the right-hand side are null, the
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result is also null.
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.RE
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.PP
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.I boolean-expression-1 \fBand\fI boolean-expression-2\fR
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.PP
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.RS 0.25i
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The \fBand\fR operator evaluates to true if the boolean expression on
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the left-hand side and the boolean expression on the right-hand side
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both evaluate to true. Otherwise, it evaluates to false. If either
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the expression on the left-hand side or the expression on the
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right-hand side are null, the result is null.
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.RE
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.PP
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.I boolean-expression-1 \fBor\fI boolean-expression-2\fR
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.PP
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.RS 0.25i
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The \fBor\fR operator evaluates to true if either the boolean
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expression on the left-hand side or the boolean expression on the
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right-hand side evaluate to true. Otherwise, it evaluates to false.
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If either the expression on the left-hand side or the expression on
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the right-hand side are null, the result is null.
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.RE
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.PP
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.B not \fIboolean-expression
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.PP
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.RS 0.25i
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The \fBnot\fR operator evaluates to true if \fIboolean-expression\fR
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evaluates to false, and returns false if \fIboolean-expression\fR evaluates
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to true. If \fIboolean-expression\fR evaluates to null, the result
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is also null.
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.RE
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.PP
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.B exists \fIoption-name\fR
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.PP
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.RS 0.25i
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The \fBexists\fR expression returns true if the specified option
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exists in the incoming DHCP packet being processed.
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.RE
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.B known
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.PP
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.RS 0.25i
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The \fBknown\fR expression returns true if the client whose request is
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currently being processed is known - that is, if there's a host
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declaration for it.
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.RE
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.B static
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.PP
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.RS 0.25i
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The \fBstatic\fR expression returns true if the lease assigned to the
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client whose request is currently being processed is derived from a static
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address assignment.
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.RE
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.SH DATA EXPRESSIONS
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Several of the boolean expressions above depend on the results of
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evaluating data expressions. A list of these expressions is provided
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here.
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.PP
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.B substring (\fIdata-expr\fB, \fIoffset\fB, \fIlength\fB)\fR
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.PP
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.RS 0.25i
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The \fBsubstring\fR operator evaluates the data expression and returns
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the substring of the result of that evaluation that starts
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\fIoffset\fR bytes from the beginning, continuing for \fIlength\fR
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bytes. \fIOffset\fR and \fIlength\fR are both numeric expressions.
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If \fIdata-expr\fR, \fIoffset\fR or \fIlength\fR evaluate to null,
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then the result is also null. If \fIoffset\fR is greater than or
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equal to the length of the evaluated data, then a zero-length data
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string is returned. If \fIlength\fI is greater then the remaining
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length of the evaluated data after \fIoffset\fR, then a data string
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containing all data from \fIoffset\fR to the end of the evaluated data
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is returned.
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.RE
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.PP
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.B suffix (\fIdata-expr\fB, \fIlength\fB)\fR
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.PP
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.RS 0.25i
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The \fBsuffix\fR operator evaluates \fIdata-expr\fR and returns the
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last \fIlength\fR bytes of the result of that evaluation. \fILength\fR
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is a numeric expression. If \fIdata-expr\fR or \fIlength\fR evaluate
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to null, then the result is also null. If \fIsuffix\fR evaluates to a
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number greater than the length of the evaluated data, then the
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evaluated data is returned.
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.RE
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.PP
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.B option \fIoption-name\fR
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.PP
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.RS 0.25i
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The \fBoption\fR operator returns the contents of the specified option in
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the packet to which the server is responding.
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.RE
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.PP
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.B hardware
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.PP
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.RS 0.25i
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The \fBhardware\fR operator returns a data string whose first element
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is the type of network interface indicated in packet being considered,
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and whose subsequent elements are client's link-layer address. If
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there is no packet, or if the RFC2131 \fIhlen\fR field is invalid,
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then the result is null. Hardware types include ethernet (1),
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token-ring (6), and fddi (8). Hardware types are specified by the
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IETF, and details on how the type numbers are defined can be found in
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RFC2131 (in the ISC DHCP distribution, this is included in the doc/
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subdirectory).
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.RE
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.PP
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.B packet (\fIoffset\fB, \fIlength\fB)\fR
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.PP
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.RS 0.25i
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The \fBpacket\fR operator returns the specified portion of the packet
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being considered, or null in contexts where no packet is being
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considered. \fIOffset\fR and \fIlength\fR are applied to the
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contents packet as in the \fBsubstring\fR operator.
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.RE
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.PP
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.I string
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.PP
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.RS 0.25i
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A string, enclosed in quotes, may be specified as a data expression,
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and returns the text between the quotes, encoded in ASCII.
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.RE
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.PP
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.I colon-seperated hexadecimal list
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.PP
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.RS 0.25i
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A list of hexadecimal octet values, seperated by colons, may be
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specified as a data expression.
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.RE
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.PP
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.B concat (\fIdata-expr1\fB, ..., \fIdata-exprN\fB)\fR
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.RS 0.25i
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The expressions are evaluated, and the results of each evaluation are
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concatenated in the sequence that the subexpressions are listed. If
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any subexpression evaluates to null, the result of the concatenation
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is null.
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.RE
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.PP
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.B reverse (\fInumeric-expr1\fB, \fIdata-expr2\fB)\fR
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.RS 0.25i
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The two expressions are evaluated, and then the result of evaluating
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the data expression is reversed in place, using hunks of the size
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specified in the numeric expression. For example, if the numeric
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expression evaluates to four, and the data expression evaluates to
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twelve bytes of data, then the reverse expression will evaluate to
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twelve bytes of data, consisting of the last four bytes of the the
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input data, followed by the middle four bytes, followed by the first
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four bytes.
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.RE
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.PP
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.B leased-address
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.RS 0.25i
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In any context where the client whose request is being processed has
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been assigned an IP address, this data expression returns that IP
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address.
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.RE
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.PP
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.B binary-to-ascii (\fInumeric-expr1\fB, \fInumeric-expr2\fB,
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.B \fIdata-expr1\fB,\fR \fIdata-expr2\fB)\fR
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.RS 0.25i
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Converts the result of evaluating data-expr2 into a text string
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containing one number for each element of the result of evaluating
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data-expr2. Each number is seperated from the other by the result of
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evaluating data-expr1. The result of evaluating numeric-expr1
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specifies the base (2 through 16) into which the numbers should be
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converted. The result of evaluating numeric-expr2 specifies the
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width in bits of each number, which may be either 8, 16 or 32.
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.PP
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As an example of the preceding three types of expressions, to produce
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the name of a PTR record for the IP address being assigned to a
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client, one could write the following expression:
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.RE
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.PP
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.nf
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concat (binary-to-ascii (10, 8, ".",
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reverse (1, leased-address)),
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".in-addr.arpa.");
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.fi
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.PP
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.B encode-int (\fInumeric-expr\fB, \fIwidth\fB)\fR
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.RS 0.25i
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Numeric-expr is evaluated and encoded as a data string of the
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specified width, in network byte order (most significant byte first).
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If the numeric expression evaluates to the null value, the result is
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also null.
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.PP
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.B pick-first-value (\fIdata-expr1\fR [ ... \fIexpr\fRn ] \fB)\fR
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.RS 0.25i
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The pick-first-value function takes any number of data expressions as
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its arguments. Each expression is evaluated, starting with the first
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in the list, until an expression is found that does not evaluate to a
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null value. That expression is returned, and none of the subsequent
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expressions are evaluated. If all expressions evaluate to a null
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value, the null value is returned.
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.RE
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.PP
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.B host-decl-name
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.RS 0.25i
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The host-decl-name function returns the name of the host declaration
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that matched the client whose request is currently being processed, if
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any. If no host declaration matched, the result is the null value.
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.RE
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.SH NUMERIC EXPRESSIONS
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Numeric expressions are expressions that evaluate to an integer. In
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general, the maximum size of such an integer should not be assumed to
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be representable in fewer than 32 bits, but the precision of such
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integers may be more than 32 bits.
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.PP
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.B extract-int (\fIdata-expr\fB, \fIwidth\fB)\fR
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.PP
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.RS 0.25i
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The \fBextract-int\fR operator extracts an integer value in network
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byte order from the result of evaluating the specified data
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expression. Width is the width in bits of the integer to extract.
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Currently, the only supported widths are 8, 16 and 32. If the
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evaluation of the data expression doesn't provide sufficient bits to
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extract an integer of the specified size, the null value is returned.
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.RE
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.PP
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.B lease-time
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.PP
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.RS 0.25i
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The duration of the current lease - that is, the difference between
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the current time and the time that the lease expires.
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.RE
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.PP
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.I number
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.PP
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.RS 0.25i
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Any number between zero and the maximum representable size may be
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specified as a numeric expression.
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.RE
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.SH REFERENCE: DYNAMIC DNS UPDATES
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.PP
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The DHCP client and server have the ability to dynamically update the
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Domain Name System. Within the configuration files, you can define
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how you want the Domain Name System to be updated. These updates are
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RFC 2136 compliant so any DNS server supporting RFC 2136 should be
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able to accept updates from the DHCP server.
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.SH SECURITY
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Support for TSIG and DNSSEC is not yet available. When you set your
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DNS server up to allow updates from the DHCP server or client, you may
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be exposing it to unauthorized updates. To avoid this, the best you
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can do right now is to use IP address-based packet filtering to
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prevent unauthorized hosts from submitting update requests.
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Obviously, there is currently no way to provide security for client
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updates - this will require TSIG or DNSSEC, neither of which is yet
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available in the DHCP distribution.
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.PP
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Dynamic DNS (DDNS) updates are performed by using the \fBdns-update\fR
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expression. The \fBdns-update\fR expression is a boolean expression
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that takes four parameters. If the update succeeds, the result is
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true. If it fails, the result is false. The four parameters that the
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are the resource record type (RR), the left hand side of the RR, the
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right hand side of the RR and the ttl that should be applied to the
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record. The simplest example of the use of the function can be found
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in the reference section of the dhcpd.conf file, where events are
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described. In this example several statements are being used to make
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the arguments to the \fBdns-update\f\R.
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.PP
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In the example, the first argument to the first \f\Bdns-update\fR
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expression is a data expression that evaluates to the A RR type. The
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second argument is constructed by concatenating the DHCP host-name
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option with a text string containing the local domain, in this case
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"ssd.example.net". The third argument is constructed by converting
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the address the client has been assigned from a 32-bit number into an
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ascii string with each byte separated by a ".". The fourth argument,
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the TTL, specifies the amount of time remaining in the lease (note
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that this isn't really correct, since the DNS server will pass this
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TTL out whenever a request comes in, even if that is only a few
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seconds before the lease expires).
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.PP
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If the first \fBdns-update\fR statement succeeds, it is followed up
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with a second update to install a PTR RR. The installation of a PTR
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record is similar to installing an A RR except that the left hand side
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of the record is the leased address, reversed, with ".in-addr.arpa"
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concatenated. The right hand side is the fully qualified domain name
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of the client to which the address is being leased.
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.SH SEE ALSO
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dhcpd.conf(5), dhcpd.leases(5), dhclient.conf(5), dhcp-eval(5), dhcpd(8),
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dhclient(8), RFC2132, RFC2131.
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.SH AUTHOR
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The Internet Software Consortium DHCP Distribution was written by Ted
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|
Lemon <mellon@isc.org> under a contract with Vixie Labs. Funding for
|
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|
this project was provided through the Internet Software Consortium.
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Information about the Internet Software Consortium can be found at
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|
.B http://www.isc.org/isc.
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