source: trunk/minix/man/man5/dhcp.conf.5@ 22

Last change on this file since 22 was 9, checked in by Mattia Monga, 14 years ago

Minix 3.1.2a

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1.TH DHCP.CONF 5
2.SH NAME
3dhcp.conf \- dynamic host configuration protocol configuration
4.SH SYNOPSIS
5.B /etc/dhcp.conf
6.SH DESCRIPTION
7.de SP
8.if t .sp 0.4
9.if n .sp
10..
11The file
12.B /etc/dhcp.conf
13contains the configuration for the DHCP client/server program
14.BR dhcpd .
15This text is a long summation of all the elements that can be found in this
16configuration file. For a more "just tell me what to do" approach see
17.BR boot (8).
18.PP
19The syntax used is that of the common configuration file described in
20.BR configfile (5).
21.PP
22To find information for a client we first need its IP address. Occasionally
23this IP address is already known (the special "INFORM" query), but normally
24we have to make a first pass through the configuration file for a
25.B client
26entry. If that fails then we use an IP address from the pool file. If we
27now have an IP address then the real information gathering can begin.
28.PP
29The DHCP daemon reads the configuration file from beginning to end and
30gathers all information that matches, and information from all macros that
31are mentioned within the elements that match. If we end up with DHCP
32information that includes at least a netmask definition, and is good for the
33network the request came in from, then it is returned to the client. If a
34DHCP tag is specified twice then the last one wins.
35.PP
36In the description below we use [ and ] to denote optional things, and | to
37show a choice between two things.
38.PP
39Client IDs can be either ordinary Ethernet addresses, that are treated as a
40seven octet string (01 followed by the Ethernet address), or any random
41octet string in hexadecimal.
42.PP
43IP addresses can be simply that, or host names. These host names are
44searched in
45.B /etc/hosts
46by
47.B dhcpd
48itself using a domain based prefix match, i.e. you can use "flotsam" for
49"flotsam.example.com", but not "alpha" for "alphabeta". Once the program
50decides to be a server it will also look up names normally in the DNS.
51If a host has more than one IP address then the address on the network the
52query was seen on is used.
53.PP
54Case isn't important in the configuration file, "client", "CLIENT" and
55"ClIeNt" are all treated the same.
56.PP
57Some elements may optionally name a macro or a curly braces enclosed
58parameter list of more elements. If the element matches then the data
59in the macro body or parameter list is gathered.
60.PP
61The following elements can be used:
62.PP
63.B client
64.I client-ID
65.RB [ ip #]
66.I host
67.RI [ macro |{ params }];
68.PP
69.RS
70Defines a client with a given client ID that is to have the IP address
71denoted by
72.I host .
73On the first pass only the client ID is matched looking for an IP address
74that lies on the network the request came in on. On the
75information gathering pass both client ID and IP address must match. If
76a machine has the same Ethernet address on two or more interfaces then the
77IP address given out is the one on the same network as the request came in
78on. The optional interface name
79.RB ( ip #)
80must be used if the DHCP daemon is gathering data for itself at boot time
81to differentiate interfaces with the same ethernet addresses. This is
82only necessary under Minix-vmd when ethernets on different VLANs share
83the same physical ethernet. The interface name is only used for a machine's
84own networks, it ignored on entries for other hosts.
85.RE
86.PP
87.B class
88.IR class-name " ..."
89.IR macro |{ params };
90.PP
91.RS
92Includes the macro or parameters if one of the class names is matched. A
93host normally includes a class ID in its request. MINIX 3 and Minix-vmd
94use "Minix" as the class name. For Windows the class ID starts with
95"MSFT", and Solaris' starts with "SUNW".
96(Use
97.B dhcpd \-d3
98to find out what the full IDs are exactly.) The class names are matched if a
99.I class-name
100is a prefix of the class ID sent by the client.
101.RE
102.PP
103.B host
104.I host-spec
105.IR macro |{ params };
106.PP
107.RS
108Includes the macro or parameters if the IP address of the client matches the
109host specification. This can either be an ordinary hostname, or a netblock
110in CIDR notation, e.g. 172.35.0.0/16. The example includes all IP addresses
111whose top 16 bits are the same as the top 16 bits of 172.35.0.0. Such a
112netblock automatically defines a netmask (255.255.0.0 in the example) if no
113netmask has been specified yet.
114.RE
115.PP
116.B interface
117.BR ip #
118.I host
119.RI [ macro |{ params }];
120.PP
121.RS
122Makes
123.B dhcpd
124set the IP address of interface
125.BR ip #
126(where # is a number) to the IP address denoted by
127.IR host .
128This element should only be used for interfaces that are not true Ethernets,
129and so do not have a unique Ethernet address that can be used for a client
130element. If the machine has at least one true Ethernet then all interface
131elements should be added to the parameter list of a host or client element
132for that Ethernet interface. This binds them to that machine and allows a
133single configuration file to be shared among machines. Especially a server
134should never have "free" interface elements. The macro or parameters are
135only evaluated if data is gathered for the given interface. (Note that they
136will be hidden by a client element for another interface.)
137.RE
138.PP
139.B macro
140.IR macro-name ;
141.PP
142.RS
143Include the parameter list of the macro named
144.I macro-name
145defined elsewhere. (This means that "host flotsam stuff" is just short
146for "host flotsam { macro stuff; }".)
147.RE
148.PP
149.B macro
150.I macro-name
151.RI { params };
152.PP
153.RS
154Defines a macro with the given parameter list. Whenever the macro is used
155the parameter list is substituted instead. A macro can not be defined
156within another parameter list.
157.RE
158.PP
159.B option
160.RB [ ip #]
161.B server
162.RB [ inform ];
163.br
164.B option
165.RB [ ip #]
166.B relay
167.IR host ;
168.br
169.B option
170.RB [ ip #]
171.BR possessive ;
172.br
173.B option
174.RB [ ip #]
175.B hostname
176.IR name ;
177.PP
178.RS
179Makes
180.B dhcpd
181set special options for the interface that it is gathering data for, or the
182interface denoted by the optional
183.BR ip #
184argument. The options are:
185.SP
186.B server
187.RB [ inform ]
188.RS
189Be a DHCP server on the network connected to the interface. Add the word
190.B inform
191if DHCPINFORM requests must be answered for hosts we don't have an address
192for.
193.RE
194.SP
195.B relay
196.I host
197.RS
198Be a DHCP relay to the indicated host.
199.RE
200.SP
201.B possessive
202.RS
203Do not disable the interface if the DHCP lease expires. Useful if the
204DHCP server of the provider is unreliable, crashing a lot and causing the
205lease to expire. (Think twice before turning this option on. You have to
206be absolutely sure that it's the DHCP server that's the culprit and not
207a flaky network. You don't want an IP address conflict to be your fault.)
208.RE
209.SP
210.B hostname
211.I name
212.RS
213Use the given name as our hostname in the DHCP queries. Some sites key on
214that bit of information instead of a client ID.
215.RE
216.RE
217.PP
218.B tag
219.I number name type granularity
220.IR max ;
221.PP
222.RS
223Defines a DHCP tag for the given tag number and gives it a name. The name can
224be used in the configuration file to set tag values when gathering data.
225The
226.I type
227field can be one of
228.BR ascii ,
229.BR boolean ,
230.BR ip ,
231.BR number
232or
233.BR octet
234to specify the type of the tag as a simple string, a boolean, an IP address,
235a number, or a string of octet values.
236The
237.I granularity
238field specifies that that number of items must be given or a multiple
239thereof, unless the type is a number, then it is the size of the number (1,
2402 or 4).
241The
242.I max
243field tells the maximum number of items that may be used with the tag, with
2440 meaning "unlimited".
245.SP
246Three tags, the ones that MINIX 3 really cares about, have been predefined,
247and there are also a few pseudotags predefined for the static fields in a
248DHCP packet that one may want to set:
249.SP
250.RS
251.nf
252tag ? siaddr ip 1 1;
253tag ? sname ascii 1 64;
254tag ? file ascii 1 128;
255tag 1 netmask ip 1 1;
256tag 3 gateway ip 1 0;
257tag 6 DNSserver ip 1 0;
258.fi
259.RE
260.SP
261The file
262.B /usr/etc/dhcptags.conf
263contains tag definitions for all standard DHCP tags. It is wise to include
264this file at the top of any DHCP configuration file.
265.RE
266.PP
267.B no
268.IR tag-name ;
269.PP
270.RS
271Removes a tag with the given name from the data gathered at this point.
272Useful if one host is different from all others, for instance if it doesn't
273need a gateway definition, because it happens to be the gateway.
274.RE
275.PP
276.IR "ascii-tag string" ;
277.PP
278.RS
279Adds an ASCII tag to the gathered data. The string can be a simple word, or
280a quoted string.
281.RE
282.PP
283.I boolean-tag
284.BR false | true ;
285.PP
286.RS
287Set a boolean tag to be false or true. (Encoded as a octet of value 0 or 1.
288Note that if you prefer to use 0 or 1 instead of false or true then you can
289define a boolean tag as a size 1 number instead.)
290.RE
291.PP
292.IR "ip-tag host" " ...;"
293.PP
294.RS
295Sets a tag that needs one or more IP addresses. The host names are
296translated as usual. To make it easier to specify netmasks one can use a
297slash followed by a number, e.g.
298.BR "netmask /27" ,
299which is a handy alternative for
300.BR "netmask 255.255.255.224" .
301.RE
302.PP
303.IR "number-tag number" " ...;"
304.PP
305.RS
306Set a number tag.
307.RE
308.PP
309.IR "octet-tag hexdigits" ;
310.PP
311.RS
312Set an octet string tag.
313.I Hexdigits
314is a series of hexadecimal digits that are two by two used to set the
315octets.
316.RE
317.PP
318.SH EXAMPLE
319As an example the DHCP configuration used by the author of this document is
320included. His network at home consists of a number of PCs, an ISDN router
321named rhone and a PC named saone serving as router/tunnel to/via a cable
322ISP. Both the rhone and the saone connect the home net to the network of
323the Vrije Universiteit, but the rhone is only active if the cable doesn't
324work.
325.PP
326The saone is a DHCP server, and one of the ordinary PCs is a backup DHCP
327server. Both use the same configuration file, which is added below, with
328extra commentary introduced by
329.B ##
330at a deeper indent level:
331.RS
332.de xS \" Example start
333.sp
334.nf
335.ft C
336..
337.de xE \" Example end
338.fi
339.ft R
340..
341.de cS \" Commentary start
342.sp
343.in +12m
344.ti -\w'## 'u
345##\ \c
346..
347.de cE \" Commentary end
348.in -12m
349..
350.xS
351.ta +8m +16m
352include /usr/etc/dhcptags.conf;
353.xE
354.cS
355With the help of the tag definitions we can use tags like "DHCPlease".
356.cE
357.xS
358host 130.37.102.64/27 {
359 DNSserver saone darask;
360 host 130.37.102.88/29 { DHCPlease 259200; }
361};
362.xE
363.cS
364This defines the network 130.37.102.64/27, with netmask 255.255.255.224
365(implicit from the network definition). The DNS servers for this net are
366saone and darask. A smaller subrange of addresses is used as an address
367pool on the saone, so a lease of 259200 seconds (3 days) is defined. The
368netmask is still /27, as set by the outer network definition.
369.cE
370.xS
371host 130.37.102.248/30 {};
372.xE
373.cS
374A network of two addresses for routing tests.
375.cE
376.xS
377host saone {
378 option server;
379 option ip1 possessive;
380 interface ip2 saone-net2;
381 DNSserver 130.37.24.3 130.37.24.6;
382};
383.xE
384.cS
385With the network definitions done we turn our attention to the hosts. Saone
386is a DHCP server on its main interface. The second interface
387.RB ( ip1 )
388is connected to the cable modem. It gets its address from the cableco's
389DHCP server, and if that server decides to go deaf then the saone keeps
390the interface up ("possessive") even if the lease expires. The pseudo IP
391interface
392.B ip2
393is set to the IP address of
394.BR saone-net2 ,
395one side of the encrypted tunnel over the cable to a Minix-vmd box at the VU.
396The DNS servers specified override the default setting for the network, naming
397two external servers at the VU that know the world.
398.cE
399.xS
400host darask {
401 option server;
402 DNSserver saone;
403 class MINIX 3 { DNSserver saone 130.37.24.3 130.37.24.6; };
404};
405.xE
406.cS
407The darask is also a server, the backup for saone on the odd chance that it
408is unavailable. It uses saone and the external name servers, but only
409when it is running MINIX 3. When running Windows it only uses saone.
410.cE
411.xS
412.ta +32m +16m
413client 0:1:1b:a:68:ce darask; # NE2000
414client 0:1:1b:a:77:23 burask; # NE2000
415#lient 0:0:c0:b0:da:64 burask; # WD8013EWC
416client 8:0:5a:38:b2:f finiah; # PCMCIA NE2000
417client 0:0:c0:3a:12:10 bardelask; # WD8003
418#lient 2:60:8c:ab:8a:6d bardelask; # 3C503
419client 0:a0:c5:20:9:6d rhone;
420client 0:1:1b:a:4c:3b saone; # NE2000
421#lient 0:0:c0:fb:2:6a saone-net1; # WD8013EWC
422.xE
423.cS
424Lastly the ethernet addresses of all the hosts are listed, so that they can
425be translated to IP addresses. The lines that are commented out are for
426extra network cards that are currently unused. The last is used to connect
427to the cable modem, so it's only here because it's nice to have the ethernet
428address written down somewhere.
429.cE
430.RE
431.PP
432The host names shown above are translated by DHCP using this
433.BR /etc/hosts :
434.RS
435.xS
436.ta +\w'130.37.102.249mm'u
437604800 %ttl
4382419200 %stale
439
440130.37.102.65 darask.kjb.upwind.org
441130.37.102.66 burask.kjb.upwind.org
442130.37.102.67 finiah.kjb.upwind.org
443130.37.102.68 bardelask.kjb.upwind.org
444130.37.102.69 roniah.kjb.upwind.org
445
446130.37.102.70 saone.kjb.upwind.org
447130.37.102.2 saone-net2.kjb.upwind.org
448
449130.37.102.88 rhone.kjb.upwind.org
450130.37.102.89 dyn89.kjb.upwind.org
451130.37.102.90 dyn90.kjb.upwind.org
452130.37.102.91 dyn91.kjb.upwind.org
453130.37.102.92 dyn92.kjb.upwind.org
454130.37.102.93 dyn93.kjb.upwind.org
455130.37.102.94 dyn94.kjb.upwind.org
456
457130.37.102.249 tst1.kjb.upwind.org
458130.37.102.250 tst2.kjb.upwind.org
459.xE
460.RE
461.SH FILES
462.TP
463.B /usr/etc/dhcptags.conf
464A supplied list of standard tag definitions as per RFC-1533. (Well, the
465tag numbers and their meaning are standard, the names are made up.)
466.SH "SEE ALSO"
467.BR RFC-2131 ,
468.BR RFC-1533 ,
469.BR configfile (5),
470.BR hosts (5),
471.BR boot (8),
472.BR dhcpd (8).
473.SH NOTES
474The amount of memory
475.B dhcpd
476needs increases with the size of configuration file. MINIX 3 can
477handle
478.B dhcptags.conf
479and a modest sized
480.BR dhcp.conf .
481You have to increase the stack size to accommodate more. (No problem under
482Minix-vmd, of course.)
483.SH NOTES
484Items that are only necessary for a certain host should only be specified
485for that host. Items for a whole network are best added to a netblock
486specification. Use class elements for a certain type of host, and macros
487for exceptions. Try to limit information as much as possibly to those hosts
488that need it. (Don't go overboard. A MINIX 3 machine won't be bothered by a
489few NetBIOS tags.)
490.PP
491DHCPINFORM requests should always be answered when being a server, but
492J. Random Sysadmin trying to diagnose problems doesn't like it when little
493MINIX 3 machines show up in a packet trace unexpectedly. It's best to be
494inconspicuous on a network you don't own.
495.SH BUGS
496There are a few too many subtle mistakes one can make.
497.SH AUTHOR
498Kees J. Bot <kjb@cs.vu.nl>
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