Annotation of embedaddon/dnsmasq/dnsmasq.conf.example, revision 1.1.1.1
1.1 misho 1: # Configuration file for dnsmasq.
2: #
3: # Format is one option per line, legal options are the same
4: # as the long options legal on the command line. See
5: # "/usr/sbin/dnsmasq --help" or "man 8 dnsmasq" for details.
6:
7: # Listen on this specific port instead of the standard DNS port
8: # (53). Setting this to zero completely disables DNS function,
9: # leaving only DHCP and/or TFTP.
10: #port=5353
11:
12: # The following two options make you a better netizen, since they
13: # tell dnsmasq to filter out queries which the public DNS cannot
14: # answer, and which load the servers (especially the root servers)
15: # unnecessarily. If you have a dial-on-demand link they also stop
16: # these requests from bringing up the link unnecessarily.
17:
18: # Never forward plain names (without a dot or domain part)
19: #domain-needed
20: # Never forward addresses in the non-routed address spaces.
21: #bogus-priv
22:
23:
24: # Uncomment this to filter useless windows-originated DNS requests
25: # which can trigger dial-on-demand links needlessly.
26: # Note that (amongst other things) this blocks all SRV requests,
27: # so don't use it if you use eg Kerberos, SIP, XMMP or Google-talk.
28: # This option only affects forwarding, SRV records originating for
29: # dnsmasq (via srv-host= lines) are not suppressed by it.
30: #filterwin2k
31:
32: # Change this line if you want dns to get its upstream servers from
33: # somewhere other that /etc/resolv.conf
34: #resolv-file=
35:
36: # By default, dnsmasq will send queries to any of the upstream
37: # servers it knows about and tries to favour servers to are known
38: # to be up. Uncommenting this forces dnsmasq to try each query
39: # with each server strictly in the order they appear in
40: # /etc/resolv.conf
41: #strict-order
42:
43: # If you don't want dnsmasq to read /etc/resolv.conf or any other
44: # file, getting its servers from this file instead (see below), then
45: # uncomment this.
46: #no-resolv
47:
48: # If you don't want dnsmasq to poll /etc/resolv.conf or other resolv
49: # files for changes and re-read them then uncomment this.
50: #no-poll
51:
52: # Add other name servers here, with domain specs if they are for
53: # non-public domains.
54: #server=/localnet/192.168.0.1
55:
56: # Example of routing PTR queries to nameservers: this will send all
57: # address->name queries for 192.168.3/24 to nameserver 10.1.2.3
58: #server=/3.168.192.in-addr.arpa/10.1.2.3
59:
60: # Add local-only domains here, queries in these domains are answered
61: # from /etc/hosts or DHCP only.
62: #local=/localnet/
63:
64: # Add domains which you want to force to an IP address here.
65: # The example below send any host in double-click.net to a local
66: # web-server.
67: #address=/double-click.net/127.0.0.1
68:
69: # --address (and --server) work with IPv6 addresses too.
70: #address=/www.thekelleys.org.uk/fe80::20d:60ff:fe36:f83
71:
72: # Add the IPs of all queries to yahoo.com, google.com, and their
73: # subdomains to the vpn and search ipsets:
74: #ipset=/yahoo.com/google.com/vpn,search
75:
76: # You can control how dnsmasq talks to a server: this forces
77: # queries to 10.1.2.3 to be routed via eth1
78: # server=10.1.2.3@eth1
79:
80: # and this sets the source (ie local) address used to talk to
81: # 10.1.2.3 to 192.168.1.1 port 55 (there must be a interface with that
82: # IP on the machine, obviously).
83: # server=10.1.2.3@192.168.1.1#55
84:
85: # If you want dnsmasq to change uid and gid to something other
86: # than the default, edit the following lines.
87: #user=
88: #group=
89:
90: # If you want dnsmasq to listen for DHCP and DNS requests only on
91: # specified interfaces (and the loopback) give the name of the
92: # interface (eg eth0) here.
93: # Repeat the line for more than one interface.
94: #interface=
95: # Or you can specify which interface _not_ to listen on
96: #except-interface=
97: # Or which to listen on by address (remember to include 127.0.0.1 if
98: # you use this.)
99: #listen-address=
100: # If you want dnsmasq to provide only DNS service on an interface,
101: # configure it as shown above, and then use the following line to
102: # disable DHCP and TFTP on it.
103: #no-dhcp-interface=
104:
105: # On systems which support it, dnsmasq binds the wildcard address,
106: # even when it is listening on only some interfaces. It then discards
107: # requests that it shouldn't reply to. This has the advantage of
108: # working even when interfaces come and go and change address. If you
109: # want dnsmasq to really bind only the interfaces it is listening on,
110: # uncomment this option. About the only time you may need this is when
111: # running another nameserver on the same machine.
112: #bind-interfaces
113:
114: # If you don't want dnsmasq to read /etc/hosts, uncomment the
115: # following line.
116: #no-hosts
117: # or if you want it to read another file, as well as /etc/hosts, use
118: # this.
119: #addn-hosts=/etc/banner_add_hosts
120:
121: # Set this (and domain: see below) if you want to have a domain
122: # automatically added to simple names in a hosts-file.
123: #expand-hosts
124:
125: # Set the domain for dnsmasq. this is optional, but if it is set, it
126: # does the following things.
127: # 1) Allows DHCP hosts to have fully qualified domain names, as long
128: # as the domain part matches this setting.
129: # 2) Sets the "domain" DHCP option thereby potentially setting the
130: # domain of all systems configured by DHCP
131: # 3) Provides the domain part for "expand-hosts"
132: #domain=thekelleys.org.uk
133:
134: # Set a different domain for a particular subnet
135: #domain=wireless.thekelleys.org.uk,192.168.2.0/24
136:
137: # Same idea, but range rather then subnet
138: #domain=reserved.thekelleys.org.uk,192.68.3.100,192.168.3.200
139:
140: # Uncomment this to enable the integrated DHCP server, you need
141: # to supply the range of addresses available for lease and optionally
142: # a lease time. If you have more than one network, you will need to
143: # repeat this for each network on which you want to supply DHCP
144: # service.
145: #dhcp-range=192.168.0.50,192.168.0.150,12h
146:
147: # This is an example of a DHCP range where the netmask is given. This
148: # is needed for networks we reach the dnsmasq DHCP server via a relay
149: # agent. If you don't know what a DHCP relay agent is, you probably
150: # don't need to worry about this.
151: #dhcp-range=192.168.0.50,192.168.0.150,255.255.255.0,12h
152:
153: # This is an example of a DHCP range which sets a tag, so that
154: # some DHCP options may be set only for this network.
155: #dhcp-range=set:red,192.168.0.50,192.168.0.150
156:
157: # Use this DHCP range only when the tag "green" is set.
158: #dhcp-range=tag:green,192.168.0.50,192.168.0.150,12h
159:
160: # Specify a subnet which can't be used for dynamic address allocation,
161: # is available for hosts with matching --dhcp-host lines. Note that
162: # dhcp-host declarations will be ignored unless there is a dhcp-range
163: # of some type for the subnet in question.
164: # In this case the netmask is implied (it comes from the network
165: # configuration on the machine running dnsmasq) it is possible to give
166: # an explicit netmask instead.
167: #dhcp-range=192.168.0.0,static
168:
169: # Enable DHCPv6. Note that the prefix-length does not need to be specified
170: # and defaults to 64 if missing/
171: #dhcp-range=1234::2, 1234::500, 64, 12h
172:
173: # Do Router Advertisements, BUT NOT DHCP for this subnet.
174: #dhcp-range=1234::, ra-only
175:
176: # Do Router Advertisements, BUT NOT DHCP for this subnet, also try and
177: # add names to the DNS for the IPv6 address of SLAAC-configured dual-stack
178: # hosts. Use the DHCPv4 lease to derive the name, network segment and
179: # MAC address and assume that the host will also have an
180: # IPv6 address calculated using the SLAAC alogrithm.
181: #dhcp-range=1234::, ra-names
182:
183: # Do Router Advertisements, BUT NOT DHCP for this subnet.
184: # Set the lifetime to 46 hours. (Note: minimum lifetime is 2 hours.)
185: #dhcp-range=1234::, ra-only, 48h
186:
187: # Do DHCP and Router Advertisements for this subnet. Set the A bit in the RA
188: # so that clients can use SLAAC addresses as well as DHCP ones.
189: #dhcp-range=1234::2, 1234::500, slaac
190:
191: # Do Router Advertisements and stateless DHCP for this subnet. Clients will
192: # not get addresses from DHCP, but they will get other configuration information.
193: # They will use SLAAC for addresses.
194: #dhcp-range=1234::, ra-stateless
195:
196: # Do stateless DHCP, SLAAC, and generate DNS names for SLAAC addresses
197: # from DHCPv4 leases.
198: #dhcp-range=1234::, ra-stateless, ra-names
199:
200: # Do router advertisements for all subnets where we're doing DHCPv6
201: # Unless overriden by ra-stateless, ra-names, et al, the router
202: # advertisements will have the M and O bits set, so that the clients
203: # get addresses and configuration from DHCPv6, and the A bit reset, so the
204: # clients don't use SLAAC addresses.
205: #enable-ra
206:
207: # Supply parameters for specified hosts using DHCP. There are lots
208: # of valid alternatives, so we will give examples of each. Note that
209: # IP addresses DO NOT have to be in the range given above, they just
210: # need to be on the same network. The order of the parameters in these
211: # do not matter, it's permissible to give name, address and MAC in any
212: # order.
213:
214: # Always allocate the host with Ethernet address 11:22:33:44:55:66
215: # The IP address 192.168.0.60
216: #dhcp-host=11:22:33:44:55:66,192.168.0.60
217:
218: # Always set the name of the host with hardware address
219: # 11:22:33:44:55:66 to be "fred"
220: #dhcp-host=11:22:33:44:55:66,fred
221:
222: # Always give the host with Ethernet address 11:22:33:44:55:66
223: # the name fred and IP address 192.168.0.60 and lease time 45 minutes
224: #dhcp-host=11:22:33:44:55:66,fred,192.168.0.60,45m
225:
226: # Give a host with Ethernet address 11:22:33:44:55:66 or
227: # 12:34:56:78:90:12 the IP address 192.168.0.60. Dnsmasq will assume
228: # that these two Ethernet interfaces will never be in use at the same
229: # time, and give the IP address to the second, even if it is already
230: # in use by the first. Useful for laptops with wired and wireless
231: # addresses.
232: #dhcp-host=11:22:33:44:55:66,12:34:56:78:90:12,192.168.0.60
233:
234: # Give the machine which says its name is "bert" IP address
235: # 192.168.0.70 and an infinite lease
236: #dhcp-host=bert,192.168.0.70,infinite
237:
238: # Always give the host with client identifier 01:02:02:04
239: # the IP address 192.168.0.60
240: #dhcp-host=id:01:02:02:04,192.168.0.60
241:
242: # Always give the host with client identifier "marjorie"
243: # the IP address 192.168.0.60
244: #dhcp-host=id:marjorie,192.168.0.60
245:
246: # Enable the address given for "judge" in /etc/hosts
247: # to be given to a machine presenting the name "judge" when
248: # it asks for a DHCP lease.
249: #dhcp-host=judge
250:
251: # Never offer DHCP service to a machine whose Ethernet
252: # address is 11:22:33:44:55:66
253: #dhcp-host=11:22:33:44:55:66,ignore
254:
255: # Ignore any client-id presented by the machine with Ethernet
256: # address 11:22:33:44:55:66. This is useful to prevent a machine
257: # being treated differently when running under different OS's or
258: # between PXE boot and OS boot.
259: #dhcp-host=11:22:33:44:55:66,id:*
260:
261: # Send extra options which are tagged as "red" to
262: # the machine with Ethernet address 11:22:33:44:55:66
263: #dhcp-host=11:22:33:44:55:66,set:red
264:
265: # Send extra options which are tagged as "red" to
266: # any machine with Ethernet address starting 11:22:33:
267: #dhcp-host=11:22:33:*:*:*,set:red
268:
269: # Give a fixed IPv6 address and name to client with
270: # DUID 00:01:00:01:16:d2:83:fc:92:d4:19:e2:d8:b2
271: # Note the MAC addresses CANNOT be used to identify DHCPv6 clients.
272: # Note also the they [] around the IPv6 address are obilgatory.
273: #dhcp-host=id:00:01:00:01:16:d2:83:fc:92:d4:19:e2:d8:b2, fred, [1234::5]
274:
275: # Ignore any clients which are not specified in dhcp-host lines
276: # or /etc/ethers. Equivalent to ISC "deny unknown-clients".
277: # This relies on the special "known" tag which is set when
278: # a host is matched.
279: #dhcp-ignore=tag:!known
280:
281: # Send extra options which are tagged as "red" to any machine whose
282: # DHCP vendorclass string includes the substring "Linux"
283: #dhcp-vendorclass=set:red,Linux
284:
285: # Send extra options which are tagged as "red" to any machine one
286: # of whose DHCP userclass strings includes the substring "accounts"
287: #dhcp-userclass=set:red,accounts
288:
289: # Send extra options which are tagged as "red" to any machine whose
290: # MAC address matches the pattern.
291: #dhcp-mac=set:red,00:60:8C:*:*:*
292:
293: # If this line is uncommented, dnsmasq will read /etc/ethers and act
294: # on the ethernet-address/IP pairs found there just as if they had
295: # been given as --dhcp-host options. Useful if you keep
296: # MAC-address/host mappings there for other purposes.
297: #read-ethers
298:
299: # Send options to hosts which ask for a DHCP lease.
300: # See RFC 2132 for details of available options.
301: # Common options can be given to dnsmasq by name:
302: # run "dnsmasq --help dhcp" to get a list.
303: # Note that all the common settings, such as netmask and
304: # broadcast address, DNS server and default route, are given
305: # sane defaults by dnsmasq. You very likely will not need
306: # any dhcp-options. If you use Windows clients and Samba, there
307: # are some options which are recommended, they are detailed at the
308: # end of this section.
309:
310: # Override the default route supplied by dnsmasq, which assumes the
311: # router is the same machine as the one running dnsmasq.
312: #dhcp-option=3,1.2.3.4
313:
314: # Do the same thing, but using the option name
315: #dhcp-option=option:router,1.2.3.4
316:
317: # Override the default route supplied by dnsmasq and send no default
318: # route at all. Note that this only works for the options sent by
319: # default (1, 3, 6, 12, 28) the same line will send a zero-length option
320: # for all other option numbers.
321: #dhcp-option=3
322:
323: # Set the NTP time server addresses to 192.168.0.4 and 10.10.0.5
324: #dhcp-option=option:ntp-server,192.168.0.4,10.10.0.5
325:
326: # Send DHCPv6 option. Note [] around IPv6 addresses.
327: #dhcp-option=option6:dns-server,[1234::77],[1234::88]
328:
329: # Send DHCPv6 option for namservers as the machine running
330: # dnsmasq and another.
331: #dhcp-option=option6:dns-server,[::],[1234::88]
332:
333: # Ask client to poll for option changes every six hours. (RFC4242)
334: #dhcp-option=option6:information-refresh-time,6h
335:
336: # Set the NTP time server address to be the same machine as
337: # is running dnsmasq
338: #dhcp-option=42,0.0.0.0
339:
340: # Set the NIS domain name to "welly"
341: #dhcp-option=40,welly
342:
343: # Set the default time-to-live to 50
344: #dhcp-option=23,50
345:
346: # Set the "all subnets are local" flag
347: #dhcp-option=27,1
348:
349: # Send the etherboot magic flag and then etherboot options (a string).
350: #dhcp-option=128,e4:45:74:68:00:00
351: #dhcp-option=129,NIC=eepro100
352:
353: # Specify an option which will only be sent to the "red" network
354: # (see dhcp-range for the declaration of the "red" network)
355: # Note that the tag: part must precede the option: part.
356: #dhcp-option = tag:red, option:ntp-server, 192.168.1.1
357:
358: # The following DHCP options set up dnsmasq in the same way as is specified
359: # for the ISC dhcpcd in
360: # http://www.samba.org/samba/ftp/docs/textdocs/DHCP-Server-Configuration.txt
361: # adapted for a typical dnsmasq installation where the host running
362: # dnsmasq is also the host running samba.
363: # you may want to uncomment some or all of them if you use
364: # Windows clients and Samba.
365: #dhcp-option=19,0 # option ip-forwarding off
366: #dhcp-option=44,0.0.0.0 # set netbios-over-TCP/IP nameserver(s) aka WINS server(s)
367: #dhcp-option=45,0.0.0.0 # netbios datagram distribution server
368: #dhcp-option=46,8 # netbios node type
369:
370: # Send an empty WPAD option. This may be REQUIRED to get windows 7 to behave.
371: #dhcp-option=252,"\n"
372:
373: # Send RFC-3397 DNS domain search DHCP option. WARNING: Your DHCP client
374: # probably doesn't support this......
375: #dhcp-option=option:domain-search,eng.apple.com,marketing.apple.com
376:
377: # Send RFC-3442 classless static routes (note the netmask encoding)
378: #dhcp-option=121,192.168.1.0/24,1.2.3.4,10.0.0.0/8,5.6.7.8
379:
380: # Send vendor-class specific options encapsulated in DHCP option 43.
381: # The meaning of the options is defined by the vendor-class so
382: # options are sent only when the client supplied vendor class
383: # matches the class given here. (A substring match is OK, so "MSFT"
384: # matches "MSFT" and "MSFT 5.0"). This example sets the
385: # mtftp address to 0.0.0.0 for PXEClients.
386: #dhcp-option=vendor:PXEClient,1,0.0.0.0
387:
388: # Send microsoft-specific option to tell windows to release the DHCP lease
389: # when it shuts down. Note the "i" flag, to tell dnsmasq to send the
390: # value as a four-byte integer - that's what microsoft wants. See
391: # http://technet2.microsoft.com/WindowsServer/en/library/a70f1bb7-d2d4-49f0-96d6-4b7414ecfaae1033.mspx?mfr=true
392: #dhcp-option=vendor:MSFT,2,1i
393:
394: # Send the Encapsulated-vendor-class ID needed by some configurations of
395: # Etherboot to allow is to recognise the DHCP server.
396: #dhcp-option=vendor:Etherboot,60,"Etherboot"
397:
398: # Send options to PXELinux. Note that we need to send the options even
399: # though they don't appear in the parameter request list, so we need
400: # to use dhcp-option-force here.
401: # See http://syslinux.zytor.com/pxe.php#special for details.
402: # Magic number - needed before anything else is recognised
403: #dhcp-option-force=208,f1:00:74:7e
404: # Configuration file name
405: #dhcp-option-force=209,configs/common
406: # Path prefix
407: #dhcp-option-force=210,/tftpboot/pxelinux/files/
408: # Reboot time. (Note 'i' to send 32-bit value)
409: #dhcp-option-force=211,30i
410:
411: # Set the boot filename for netboot/PXE. You will only need
412: # this is you want to boot machines over the network and you will need
413: # a TFTP server; either dnsmasq's built in TFTP server or an
414: # external one. (See below for how to enable the TFTP server.)
415: #dhcp-boot=pxelinux.0
416:
417: # The same as above, but use custom tftp-server instead machine running dnsmasq
418: #dhcp-boot=pxelinux,server.name,192.168.1.100
419:
420: # Boot for Etherboot gPXE. The idea is to send two different
421: # filenames, the first loads gPXE, and the second tells gPXE what to
422: # load. The dhcp-match sets the gpxe tag for requests from gPXE.
423: #dhcp-match=set:gpxe,175 # gPXE sends a 175 option.
424: #dhcp-boot=tag:!gpxe,undionly.kpxe
425: #dhcp-boot=mybootimage
426:
427: # Encapsulated options for Etherboot gPXE. All the options are
428: # encapsulated within option 175
429: #dhcp-option=encap:175, 1, 5b # priority code
430: #dhcp-option=encap:175, 176, 1b # no-proxydhcp
431: #dhcp-option=encap:175, 177, string # bus-id
432: #dhcp-option=encap:175, 189, 1b # BIOS drive code
433: #dhcp-option=encap:175, 190, user # iSCSI username
434: #dhcp-option=encap:175, 191, pass # iSCSI password
435:
436: # Test for the architecture of a netboot client. PXE clients are
437: # supposed to send their architecture as option 93. (See RFC 4578)
438: #dhcp-match=peecees, option:client-arch, 0 #x86-32
439: #dhcp-match=itanics, option:client-arch, 2 #IA64
440: #dhcp-match=hammers, option:client-arch, 6 #x86-64
441: #dhcp-match=mactels, option:client-arch, 7 #EFI x86-64
442:
443: # Do real PXE, rather than just booting a single file, this is an
444: # alternative to dhcp-boot.
445: #pxe-prompt="What system shall I netboot?"
446: # or with timeout before first available action is taken:
447: #pxe-prompt="Press F8 for menu.", 60
448:
449: # Available boot services. for PXE.
450: #pxe-service=x86PC, "Boot from local disk"
451:
452: # Loads <tftp-root>/pxelinux.0 from dnsmasq TFTP server.
453: #pxe-service=x86PC, "Install Linux", pxelinux
454:
455: # Loads <tftp-root>/pxelinux.0 from TFTP server at 1.2.3.4.
456: # Beware this fails on old PXE ROMS.
457: #pxe-service=x86PC, "Install Linux", pxelinux, 1.2.3.4
458:
459: # Use bootserver on network, found my multicast or broadcast.
460: #pxe-service=x86PC, "Install windows from RIS server", 1
461:
462: # Use bootserver at a known IP address.
463: #pxe-service=x86PC, "Install windows from RIS server", 1, 1.2.3.4
464:
465: # If you have multicast-FTP available,
466: # information for that can be passed in a similar way using options 1
467: # to 5. See page 19 of
468: # http://download.intel.com/design/archives/wfm/downloads/pxespec.pdf
469:
470:
471: # Enable dnsmasq's built-in TFTP server
472: #enable-tftp
473:
474: # Set the root directory for files available via FTP.
475: #tftp-root=/var/ftpd
476:
477: # Make the TFTP server more secure: with this set, only files owned by
478: # the user dnsmasq is running as will be send over the net.
479: #tftp-secure
480:
481: # This option stops dnsmasq from negotiating a larger blocksize for TFTP
482: # transfers. It will slow things down, but may rescue some broken TFTP
483: # clients.
484: #tftp-no-blocksize
485:
486: # Set the boot file name only when the "red" tag is set.
487: #dhcp-boot=tag:red,pxelinux.red-net
488:
489: # An example of dhcp-boot with an external TFTP server: the name and IP
490: # address of the server are given after the filename.
491: # Can fail with old PXE ROMS. Overridden by --pxe-service.
492: #dhcp-boot=/var/ftpd/pxelinux.0,boothost,192.168.0.3
493:
494: # If there are multiple external tftp servers having a same name
495: # (using /etc/hosts) then that name can be specified as the
496: # tftp_servername (the third option to dhcp-boot) and in that
497: # case dnsmasq resolves this name and returns the resultant IP
498: # addresses in round robin fasion. This facility can be used to
499: # load balance the tftp load among a set of servers.
500: #dhcp-boot=/var/ftpd/pxelinux.0,boothost,tftp_server_name
501:
502: # Set the limit on DHCP leases, the default is 150
503: #dhcp-lease-max=150
504:
505: # The DHCP server needs somewhere on disk to keep its lease database.
506: # This defaults to a sane location, but if you want to change it, use
507: # the line below.
508: #dhcp-leasefile=/var/lib/misc/dnsmasq.leases
509:
510: # Set the DHCP server to authoritative mode. In this mode it will barge in
511: # and take over the lease for any client which broadcasts on the network,
512: # whether it has a record of the lease or not. This avoids long timeouts
513: # when a machine wakes up on a new network. DO NOT enable this if there's
514: # the slightest chance that you might end up accidentally configuring a DHCP
515: # server for your campus/company accidentally. The ISC server uses
516: # the same option, and this URL provides more information:
517: # http://www.isc.org/files/auth.html
518: #dhcp-authoritative
519:
520: # Run an executable when a DHCP lease is created or destroyed.
521: # The arguments sent to the script are "add" or "del",
522: # then the MAC address, the IP address and finally the hostname
523: # if there is one.
524: #dhcp-script=/bin/echo
525:
526: # Set the cachesize here.
527: #cache-size=150
528:
529: # If you want to disable negative caching, uncomment this.
530: #no-negcache
531:
532: # Normally responses which come from /etc/hosts and the DHCP lease
533: # file have Time-To-Live set as zero, which conventionally means
534: # do not cache further. If you are happy to trade lower load on the
535: # server for potentially stale date, you can set a time-to-live (in
536: # seconds) here.
537: #local-ttl=
538:
539: # If you want dnsmasq to detect attempts by Verisign to send queries
540: # to unregistered .com and .net hosts to its sitefinder service and
541: # have dnsmasq instead return the correct NXDOMAIN response, uncomment
542: # this line. You can add similar lines to do the same for other
543: # registries which have implemented wildcard A records.
544: #bogus-nxdomain=64.94.110.11
545:
546: # If you want to fix up DNS results from upstream servers, use the
547: # alias option. This only works for IPv4.
548: # This alias makes a result of 1.2.3.4 appear as 5.6.7.8
549: #alias=1.2.3.4,5.6.7.8
550: # and this maps 1.2.3.x to 5.6.7.x
551: #alias=1.2.3.0,5.6.7.0,255.255.255.0
552: # and this maps 192.168.0.10->192.168.0.40 to 10.0.0.10->10.0.0.40
553: #alias=192.168.0.10-192.168.0.40,10.0.0.0,255.255.255.0
554:
555: # Change these lines if you want dnsmasq to serve MX records.
556:
557: # Return an MX record named "maildomain.com" with target
558: # servermachine.com and preference 50
559: #mx-host=maildomain.com,servermachine.com,50
560:
561: # Set the default target for MX records created using the localmx option.
562: #mx-target=servermachine.com
563:
564: # Return an MX record pointing to the mx-target for all local
565: # machines.
566: #localmx
567:
568: # Return an MX record pointing to itself for all local machines.
569: #selfmx
570:
571: # Change the following lines if you want dnsmasq to serve SRV
572: # records. These are useful if you want to serve ldap requests for
573: # Active Directory and other windows-originated DNS requests.
574: # See RFC 2782.
575: # You may add multiple srv-host lines.
576: # The fields are <name>,<target>,<port>,<priority>,<weight>
577: # If the domain part if missing from the name (so that is just has the
578: # service and protocol sections) then the domain given by the domain=
579: # config option is used. (Note that expand-hosts does not need to be
580: # set for this to work.)
581:
582: # A SRV record sending LDAP for the example.com domain to
583: # ldapserver.example.com port 389
584: #srv-host=_ldap._tcp.example.com,ldapserver.example.com,389
585:
586: # A SRV record sending LDAP for the example.com domain to
587: # ldapserver.example.com port 389 (using domain=)
588: #domain=example.com
589: #srv-host=_ldap._tcp,ldapserver.example.com,389
590:
591: # Two SRV records for LDAP, each with different priorities
592: #srv-host=_ldap._tcp.example.com,ldapserver.example.com,389,1
593: #srv-host=_ldap._tcp.example.com,ldapserver.example.com,389,2
594:
595: # A SRV record indicating that there is no LDAP server for the domain
596: # example.com
597: #srv-host=_ldap._tcp.example.com
598:
599: # The following line shows how to make dnsmasq serve an arbitrary PTR
600: # record. This is useful for DNS-SD. (Note that the
601: # domain-name expansion done for SRV records _does_not
602: # occur for PTR records.)
603: #ptr-record=_http._tcp.dns-sd-services,"New Employee Page._http._tcp.dns-sd-services"
604:
605: # Change the following lines to enable dnsmasq to serve TXT records.
606: # These are used for things like SPF and zeroconf. (Note that the
607: # domain-name expansion done for SRV records _does_not
608: # occur for TXT records.)
609:
610: #Example SPF.
611: #txt-record=example.com,"v=spf1 a -all"
612:
613: #Example zeroconf
614: #txt-record=_http._tcp.example.com,name=value,paper=A4
615:
616: # Provide an alias for a "local" DNS name. Note that this _only_ works
617: # for targets which are names from DHCP or /etc/hosts. Give host
618: # "bert" another name, bertrand
619: #cname=bertand,bert
620:
621: # For debugging purposes, log each DNS query as it passes through
622: # dnsmasq.
623: #log-queries
624:
625: # Log lots of extra information about DHCP transactions.
626: #log-dhcp
627:
628: # Include another lot of configuration options.
629: #conf-file=/etc/dnsmasq.more.conf
630: #conf-dir=/etc/dnsmasq.d
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