summaryrefslogtreecommitdiffstats
path: root/contrib/ntp/ntpd/ntp.conf.def
blob: a62e9765073917574f57941fb8f53a11c9514bbf (plain)
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/* -*- Mode: Text -*- */

autogen definitions options;

#include copyright.def

// We want the synopsis to be "/etc/ntp.conf" but we need the prog-name
// to be ntp.conf - the latter is also how autogen produces the output
// file name.
prog-name	= "ntp.conf";
file-path	= "/etc/ntp.conf";
prog-title	= "Network Time Protocol (NTP) daemon configuration file format";

/* explain: Additional information whenever the usage routine is invoked */
explain = <<- _END_EXPLAIN
	_END_EXPLAIN;

doc-section	= {
  ds-type	= 'DESCRIPTION';
  ds-format	= 'mdoc';
  ds-text	= <<- _END_PROG_MDOC_DESCRIP
The
.Nm
configuration file is read at initial startup by the
.Xr ntpd 1ntpdmdoc
daemon in order to specify the synchronization sources,
modes and other related information.
Usually, it is installed in the
.Pa /etc
directory,
but could be installed elsewhere
(see the daemon's
.Fl c
command line option).
.Pp
The file format is similar to other
.Ux
configuration files.
Comments begin with a
.Ql #
character and extend to the end of the line;
blank lines are ignored.
Configuration commands consist of an initial keyword
followed by a list of arguments,
some of which may be optional, separated by whitespace.
Commands may not be continued over multiple lines.
Arguments may be host names,
host addresses written in numeric, dotted-quad form,
integers, floating point numbers (when specifying times in seconds)
and text strings.
.Pp
The rest of this page describes the configuration and control options.
The
.Qq Notes on Configuring NTP and Setting up an NTP Subnet
page
(available as part of the HTML documentation
provided in
.Pa /usr/share/doc/ntp )
contains an extended discussion of these options.
In addition to the discussion of general
.Sx Configuration Options ,
there are sections describing the following supported functionality
and the options used to control it:
.Bl -bullet -offset indent
.It
.Sx Authentication Support
.It
.Sx Monitoring Support
.It
.Sx Access Control Support
.It
.Sx Automatic NTP Configuration Options
.It
.Sx Reference Clock Support
.It
.Sx Miscellaneous Options
.El
.Pp
Following these is a section describing
.Sx Miscellaneous Options .
While there is a rich set of options available,
the only required option is one or more
.Ic pool ,
.Ic server ,
.Ic peer ,
.Ic broadcast
or
.Ic manycastclient
commands.
.Sh Configuration Support
Following is a description of the configuration commands in
NTPv4.
These commands have the same basic functions as in NTPv3 and
in some cases new functions and new arguments.
There are two
classes of commands, configuration commands that configure a
persistent association with a remote server or peer or reference
clock, and auxiliary commands that specify environmental variables
that control various related operations.
.Ss Configuration Commands
The various modes are determined by the command keyword and the
type of the required IP address.
Addresses are classed by type as
(s) a remote server or peer (IPv4 class A, B and C), (b) the
broadcast address of a local interface, (m) a multicast address (IPv4
class D), or (r) a reference clock address (127.127.x.x).
Note that
only those options applicable to each command are listed below.
Use
of options not listed may not be caught as an error, but may result
in some weird and even destructive behavior.
.Pp
If the Basic Socket Interface Extensions for IPv6 (RFC-2553)
is detected, support for the IPv6 address family is generated
in addition to the default support of the IPv4 address family.
In a few cases, including the
.Cm reslist
billboard generated
by
.Xr ntpq 1ntpqmdoc
or
.Xr ntpdc 1ntpdcmdoc ,
IPv6 addresses are automatically generated.
IPv6 addresses can be identified by the presence of colons
.Dq \&:
in the address field.
IPv6 addresses can be used almost everywhere where
IPv4 addresses can be used,
with the exception of reference clock addresses,
which are always IPv4.
.Pp
Note that in contexts where a host name is expected, a
.Fl 4
qualifier preceding
the host name forces DNS resolution to the IPv4 namespace,
while a
.Fl 6
qualifier forces DNS resolution to the IPv6 namespace.
See IPv6 references for the
equivalent classes for that address family.
.Bl -tag -width indent
.It Xo Ic pool Ar address
.Op Cm burst
.Op Cm iburst
.Op Cm version Ar version
.Op Cm prefer
.Op Cm minpoll Ar minpoll
.Op Cm maxpoll Ar maxpoll
.Xc
.It Xo Ic server Ar address
.Op Cm key Ar key \&| Cm autokey
.Op Cm burst
.Op Cm iburst
.Op Cm version Ar version
.Op Cm prefer
.Op Cm minpoll Ar minpoll
.Op Cm maxpoll Ar maxpoll
.Op Cm true
.Xc
.It Xo Ic peer Ar address
.Op Cm key Ar key \&| Cm autokey
.Op Cm version Ar version
.Op Cm prefer
.Op Cm minpoll Ar minpoll
.Op Cm maxpoll Ar maxpoll
.Op Cm true
.Op Cm xleave
.Xc
.It Xo Ic broadcast Ar address
.Op Cm key Ar key \&| Cm autokey
.Op Cm version Ar version
.Op Cm prefer
.Op Cm minpoll Ar minpoll
.Op Cm ttl Ar ttl
.Op Cm xleave
.Xc
.It Xo Ic manycastclient Ar address
.Op Cm key Ar key \&| Cm autokey
.Op Cm version Ar version
.Op Cm prefer
.Op Cm minpoll Ar minpoll
.Op Cm maxpoll Ar maxpoll
.Op Cm ttl Ar ttl
.Xc
.El
.Pp
These five commands specify the time server name or address to
be used and the mode in which to operate.
The
.Ar address
can be
either a DNS name or an IP address in dotted-quad notation.
Additional information on association behavior can be found in the
.Qq Association Management
page
(available as part of the HTML documentation
provided in
.Pa /usr/share/doc/ntp ) .
.Bl -tag -width indent
.It Ic pool
For type s addresses, this command mobilizes a persistent
client mode association with a number of remote servers.
In this mode the local clock can synchronized to the
remote server, but the remote server can never be synchronized to
the local clock.
.It Ic server
For type s and r addresses, this command mobilizes a persistent
client mode association with the specified remote server or local
radio clock.
In this mode the local clock can synchronized to the
remote server, but the remote server can never be synchronized to
the local clock.
This command should
.Em not
be used for type
b or m addresses.
.It Ic peer
For type s addresses (only), this command mobilizes a
persistent symmetric-active mode association with the specified
remote peer.
In this mode the local clock can be synchronized to
the remote peer or the remote peer can be synchronized to the local
clock.
This is useful in a network of servers where, depending on
various failure scenarios, either the local or remote peer may be
the better source of time.
This command should NOT be used for type
b, m or r addresses.
.It Ic broadcast
For type b and m addresses (only), this
command mobilizes a persistent broadcast mode association.
Multiple
commands can be used to specify multiple local broadcast interfaces
(subnets) and/or multiple multicast groups.
Note that local
broadcast messages go only to the interface associated with the
subnet specified, but multicast messages go to all interfaces.
In broadcast mode the local server sends periodic broadcast
messages to a client population at the
.Ar address
specified, which is usually the broadcast address on (one of) the
local network(s) or a multicast address assigned to NTP.
The IANA
has assigned the multicast group address IPv4 224.0.1.1 and
IPv6 ff05::101 (site local) exclusively to
NTP, but other nonconflicting addresses can be used to contain the
messages within administrative boundaries.
Ordinarily, this
specification applies only to the local server operating as a
sender; for operation as a broadcast client, see the
.Ic broadcastclient
or
.Ic multicastclient
commands
below.
.It Ic manycastclient
For type m addresses (only), this command mobilizes a
manycast client mode association for the multicast address
specified.
In this case a specific address must be supplied which
matches the address used on the
.Ic manycastserver
command for
the designated manycast servers.
The NTP multicast address
224.0.1.1 assigned by the IANA should NOT be used, unless specific
means are taken to avoid spraying large areas of the Internet with
these messages and causing a possibly massive implosion of replies
at the sender.
The
.Ic manycastserver
command specifies that the local server
is to operate in client mode with the remote servers that are
discovered as the result of broadcast/multicast messages.
The
client broadcasts a request message to the group address associated
with the specified
.Ar address
and specifically enabled
servers respond to these messages.
The client selects the servers
providing the best time and continues as with the
.Ic server
command.
The remaining servers are discarded as if never
heard.
.El
.Pp
Options:
.Bl -tag -width indent
.It Cm autokey
All packets sent to and received from the server or peer are to
include authentication fields encrypted using the autokey scheme
described in
.Sx Authentication Options .
.It Cm burst
when the server is reachable, send a burst of eight packets
instead of the usual one.
The packet spacing is normally 2 s;
however, the spacing between the first and second packets
can be changed with the
.Ic calldelay
command to allow
additional time for a modem or ISDN call to complete.
This is designed to improve timekeeping quality
with the
.Ic server
command and s addresses.
.It Cm iburst
When the server is unreachable, send a burst of eight packets
instead of the usual one.
The packet spacing is normally 2 s;
however, the spacing between the first two packets can be
changed with the
.Ic calldelay
command to allow
additional time for a modem or ISDN call to complete.
This is designed to speed the initial synchronization
acquisition with the
.Ic server
command and s addresses and when
.Xr ntpd 1ntpdmdoc
is started with the
.Fl q
option.
.It Cm key Ar key
All packets sent to and received from the server or peer are to
include authentication fields encrypted using the specified
.Ar key
identifier with values from 1 to 65534, inclusive.
The
default is to include no encryption field.
.It Cm minpoll Ar minpoll
.It Cm maxpoll Ar maxpoll
These options specify the minimum and maximum poll intervals
for NTP messages, as a power of 2 in seconds
The maximum poll
interval defaults to 10 (1,024 s), but can be increased by the
.Cm maxpoll
option to an upper limit of 17 (36.4 h).
The
minimum poll interval defaults to 6 (64 s), but can be decreased by
the
.Cm minpoll
option to a lower limit of 4 (16 s).
.It Cm noselect
Marks the server as unused, except for display purposes.
The server is discarded by the selection algroithm.
.It Cm preempt
Says the association can be preempted.
.It Cm true
Marks the server as a truechimer.
Use this option only for testing.
.It Cm prefer
Marks the server as preferred.
All other things being equal,
this host will be chosen for synchronization among a set of
correctly operating hosts.
See the
.Qq Mitigation Rules and the prefer Keyword
page
(available as part of the HTML documentation
provided in
.Pa /usr/share/doc/ntp )
for further information.
.It Cm true
Forces the association to always survive the selection and clustering algorithms.
This option should almost certainly
.Em only
be used while testing an association.
.It Cm ttl Ar ttl
This option is used only with broadcast server and manycast
client modes.
It specifies the time-to-live
.Ar ttl
to
use on broadcast server and multicast server and the maximum
.Ar ttl
for the expanding ring search with manycast
client packets.
Selection of the proper value, which defaults to
127, is something of a black art and should be coordinated with the
network administrator.
.It Cm version Ar version
Specifies the version number to be used for outgoing NTP
packets.
Versions 1-4 are the choices, with version 4 the
default.
.It Cm xleave
Valid in
.Cm peer
and
.Cm broadcast
modes only, this flag enables interleave mode.
.El
.Ss Auxiliary Commands
.Bl -tag -width indent
.It Ic broadcastclient
This command enables reception of broadcast server messages to
any local interface (type b) address.
Upon receiving a message for
the first time, the broadcast client measures the nominal server
propagation delay using a brief client/server exchange with the
server, then enters the broadcast client mode, in which it
synchronizes to succeeding broadcast messages.
Note that, in order
to avoid accidental or malicious disruption in this mode, both the
server and client should operate using symmetric-key or public-key
authentication as described in
.Sx Authentication Options .
.It Ic manycastserver Ar address ...
This command enables reception of manycast client messages to
the multicast group address(es) (type m) specified.
At least one
address is required, but the NTP multicast address 224.0.1.1
assigned by the IANA should NOT be used, unless specific means are
taken to limit the span of the reply and avoid a possibly massive
implosion at the original sender.
Note that, in order to avoid
accidental or malicious disruption in this mode, both the server
and client should operate using symmetric-key or public-key
authentication as described in
.Sx Authentication Options .
.It Ic multicastclient Ar address ...
This command enables reception of multicast server messages to
the multicast group address(es) (type m) specified.
Upon receiving
a message for the first time, the multicast client measures the
nominal server propagation delay using a brief client/server
exchange with the server, then enters the broadcast client mode, in
which it synchronizes to succeeding multicast messages.
Note that,
in order to avoid accidental or malicious disruption in this mode,
both the server and client should operate using symmetric-key or
public-key authentication as described in
.Sx Authentication Options .
.It Ic mdnstries Ar number
If we are participating in mDNS,
after we have synched for the first time
we attempt to register with the mDNS system.
If that registration attempt fails,
we try again at one minute intervals for up to
.Ic mdnstries
times.
After all,
.Ic ntpd
may be starting before mDNS.
The default value for
.Ic mdnstries
is 5.
.El
.Sh Authentication Support
Authentication support allows the NTP client to verify that the
server is in fact known and trusted and not an intruder intending
accidentally or on purpose to masquerade as that server.
The NTPv3
specification RFC-1305 defines a scheme which provides
cryptographic authentication of received NTP packets.
Originally,
this was done using the Data Encryption Standard (DES) algorithm
operating in Cipher Block Chaining (CBC) mode, commonly called
DES-CBC.
Subsequently, this was replaced by the RSA Message Digest
5 (MD5) algorithm using a private key, commonly called keyed-MD5.
Either algorithm computes a message digest, or one-way hash, which
can be used to verify the server has the correct private key and
key identifier.
.Pp
NTPv4 retains the NTPv3 scheme, properly described as symmetric key
cryptography and, in addition, provides a new Autokey scheme
based on public key cryptography.
Public key cryptography is generally considered more secure
than symmetric key cryptography, since the security is based
on a private value which is generated by each server and
never revealed.
With Autokey all key distribution and
management functions involve only public values, which
considerably simplifies key distribution and storage.
Public key management is based on X.509 certificates,
which can be provided by commercial services or
produced by utility programs in the OpenSSL software library
or the NTPv4 distribution.
.Pp
While the algorithms for symmetric key cryptography are
included in the NTPv4 distribution, public key cryptography
requires the OpenSSL software library to be installed
before building the NTP distribution.
Directions for doing that
are on the Building and Installing the Distribution page.
.Pp
Authentication is configured separately for each association
using the
.Cm key
or
.Cm autokey
subcommand on the
.Ic peer ,
.Ic server ,
.Ic broadcast
and
.Ic manycastclient
configuration commands as described in
.Sx Configuration Options
page.
The authentication
options described below specify the locations of the key files,
if other than default, which symmetric keys are trusted
and the interval between various operations, if other than default.
.Pp
Authentication is always enabled,
although ineffective if not configured as
described below.
If a NTP packet arrives
including a message authentication
code (MAC), it is accepted only if it
passes all cryptographic checks.
The
checks require correct key ID, key value
and message digest.
If the packet has
been modified in any way or replayed
by an intruder, it will fail one or more
of these checks and be discarded.
Furthermore, the Autokey scheme requires a
preliminary protocol exchange to obtain
the server certificate, verify its
credentials and initialize the protocol
.Pp
The
.Cm auth
flag controls whether new associations or
remote configuration commands require cryptographic authentication.
This flag can be set or reset by the
.Ic enable
and
.Ic disable
commands and also by remote
configuration commands sent by a
.Xr ntpdc 1ntpdcmdoc
program running on
another machine.
If this flag is enabled, which is the default
case, new broadcast client and symmetric passive associations and
remote configuration commands must be cryptographically
authenticated using either symmetric key or public key cryptography.
If this
flag is disabled, these operations are effective
even if not cryptographic
authenticated.
It should be understood
that operating with the
.Ic auth
flag disabled invites a significant vulnerability
where a rogue hacker can
masquerade as a falseticker and seriously
disrupt system timekeeping.
It is
important to note that this flag has no purpose
other than to allow or disallow
a new association in response to new broadcast
and symmetric active messages
and remote configuration commands and, in particular,
the flag has no effect on
the authentication process itself.
.Pp
An attractive alternative where multicast support is available
is manycast mode, in which clients periodically troll
for servers as described in the
.Sx Automatic NTP Configuration Options
page.
Either symmetric key or public key
cryptographic authentication can be used in this mode.
The principle advantage
of manycast mode is that potential servers need not be
configured in advance,
since the client finds them during regular operation,
and the configuration
files for all clients can be identical.
.Pp
The security model and protocol schemes for
both symmetric key and public key
cryptography are summarized below;
further details are in the briefings, papers
and reports at the NTP project page linked from
.Li http://www.ntp.org/ .
.Ss Symmetric-Key Cryptography
The original RFC-1305 specification allows any one of possibly
65,534 keys, each distinguished by a 32-bit key identifier, to
authenticate an association.
The servers and clients involved must
agree on the key and key identifier to
authenticate NTP packets.
Keys and
related information are specified in a key
file, usually called
.Pa ntp.keys ,
which must be distributed and stored using
secure means beyond the scope of the NTP protocol itself.
Besides the keys used
for ordinary NTP associations,
additional keys can be used as passwords for the
.Xr ntpq 1ntpqmdoc
and
.Xr ntpdc 1ntpdcmdoc
utility programs.
.Pp
When
.Xr ntpd 1ntpdmdoc
is first started, it reads the key file specified in the
.Ic keys
configuration command and installs the keys
in the key cache.
However,
individual keys must be activated with the
.Ic trusted
command before use.
This
allows, for instance, the installation of possibly
several batches of keys and
then activating or deactivating each batch
remotely using
.Xr ntpdc 1ntpdcmdoc .
This also provides a revocation capability that can be used
if a key becomes compromised.
The
.Ic requestkey
command selects the key used as the password for the
.Xr ntpdc 1ntpdcmdoc
utility, while the
.Ic controlkey
command selects the key used as the password for the
.Xr ntpq 1ntpqmdoc
utility.
.Ss Public Key Cryptography
NTPv4 supports the original NTPv3 symmetric key scheme
described in RFC-1305 and in addition the Autokey protocol,
which is based on public key cryptography.
The Autokey Version 2 protocol described on the Autokey Protocol
page verifies packet integrity using MD5 message digests
and verifies the source with digital signatures and any of several
digest/signature schemes.
Optional identity schemes described on the Identity Schemes
page and based on cryptographic challenge/response algorithms
are also available.
Using all of these schemes provides strong security against
replay with or without modification, spoofing, masquerade
and most forms of clogging attacks.
.\" .Pp
.\" The cryptographic means necessary for all Autokey operations
.\" is provided by the OpenSSL software library.
.\" This library is available from http://www.openssl.org/
.\" and can be installed using the procedures outlined
.\" in the Building and Installing the Distribution page.
.\" Once installed,
.\" the configure and build
.\" process automatically detects the library and links
.\" the library routines required.
.Pp
The Autokey protocol has several modes of operation
corresponding to the various NTP modes supported.
Most modes use a special cookie which can be
computed independently by the client and server,
but encrypted in transmission.
All modes use in addition a variant of the S-KEY scheme,
in which a pseudo-random key list is generated and used
in reverse order.
These schemes are described along with an executive summary,
current status, briefing slides and reading list on the
.Sx Autonomous Authentication
page.
.Pp
The specific cryptographic environment used by Autokey servers
and clients is determined by a set of files
and soft links generated by the
.Xr ntp-keygen 1ntpkeygenmdoc
program.
This includes a required host key file,
required certificate file and optional sign key file,
leapsecond file and identity scheme files.
The
digest/signature scheme is specified in the X.509 certificate
along with the matching sign key.
There are several schemes
available in the OpenSSL software library, each identified
by a specific string such as
.Cm md5WithRSAEncryption ,
which stands for the MD5 message digest with RSA
encryption scheme.
The current NTP distribution supports
all the schemes in the OpenSSL library, including
those based on RSA and DSA digital signatures.
.Pp
NTP secure groups can be used to define cryptographic compartments
and security hierarchies.
It is important that every host
in the group be able to construct a certificate trail to one
or more trusted hosts in the same group.
Each group
host runs the Autokey protocol to obtain the certificates
for all hosts along the trail to one or more trusted hosts.
This requires the configuration file in all hosts to be
engineered so that, even under anticipated failure conditions,
the NTP subnet will form such that every group host can find
a trail to at least one trusted host.
.Ss Naming and Addressing
It is important to note that Autokey does not use DNS to
resolve addresses, since DNS can't be completely trusted
until the name servers have synchronized clocks.
The cryptographic name used by Autokey to bind the host identity
credentials and cryptographic values must be independent
of interface, network and any other naming convention.
The name appears in the host certificate in either or both
the subject and issuer fields, so protection against
DNS compromise is essential.
.Pp
By convention, the name of an Autokey host is the name returned
by the Unix
.Xr gethostname 2
system call or equivalent in other systems.
By the system design
model, there are no provisions to allow alternate names or aliases.
However, this is not to say that DNS aliases, different names
for each interface, etc., are constrained in any way.
.Pp
It is also important to note that Autokey verifies authenticity
using the host name, network address and public keys,
all of which are bound together by the protocol specifically
to deflect masquerade attacks.
For this reason Autokey
includes the source and destination IP addresses in message digest
computations and so the same addresses must be available
at both the server and client.
For this reason operation
with network address translation schemes is not possible.
This reflects the intended robust security model where government
and corporate NTP servers are operated outside firewall perimeters.
.Ss Operation
A specific combination of authentication scheme (none,
symmetric key, public key) and identity scheme is called
a cryptotype, although not all combinations are compatible.
There may be management configurations where the clients,
servers and peers may not all support the same cryptotypes.
A secure NTPv4 subnet can be configured in many ways while
keeping in mind the principles explained above and
in this section.
Note however that some cryptotype
combinations may successfully interoperate with each other,
but may not represent good security practice.
.Pp
The cryptotype of an association is determined at the time
of mobilization, either at configuration time or some time
later when a message of appropriate cryptotype arrives.
When mobilized by a
.Ic server
or
.Ic peer
configuration command and no
.Ic key
or
.Ic autokey
subcommands are present, the association is not
authenticated; if the
.Ic key
subcommand is present, the association is authenticated
using the symmetric key ID specified; if the
.Ic autokey
subcommand is present, the association is authenticated
using Autokey.
.Pp
When multiple identity schemes are supported in the Autokey
protocol, the first message exchange determines which one is used.
The client request message contains bits corresponding
to which schemes it has available.
The server response message
contains bits corresponding to which schemes it has available.
Both server and client match the received bits with their own
and select a common scheme.
.Pp
Following the principle that time is a public value,
a server responds to any client packet that matches
its cryptotype capabilities.
Thus, a server receiving
an unauthenticated packet will respond with an unauthenticated
packet, while the same server receiving a packet of a cryptotype
it supports will respond with packets of that cryptotype.
However, unconfigured broadcast or manycast client
associations or symmetric passive associations will not be
mobilized unless the server supports a cryptotype compatible
with the first packet received.
By default, unauthenticated associations will not be mobilized
unless overridden in a decidedly dangerous way.
.Pp
Some examples may help to reduce confusion.
Client Alice has no specific cryptotype selected.
Server Bob has both a symmetric key file and minimal Autokey files.
Alice's unauthenticated messages arrive at Bob, who replies with
unauthenticated messages.
Cathy has a copy of Bob's symmetric
key file and has selected key ID 4 in messages to Bob.
Bob verifies the message with his key ID 4.
If it's the
same key and the message is verified, Bob sends Cathy a reply
authenticated with that key.
If verification fails,
Bob sends Cathy a thing called a crypto-NAK, which tells her
something broke.
She can see the evidence using the
.Xr ntpq 1ntpqmdoc
program.
.Pp
Denise has rolled her own host key and certificate.
She also uses one of the identity schemes as Bob.
She sends the first Autokey message to Bob and they
both dance the protocol authentication and identity steps.
If all comes out okay, Denise and Bob continue as described above.
.Pp
It should be clear from the above that Bob can support
all the girls at the same time, as long as he has compatible
authentication and identity credentials.
Now, Bob can act just like the girls in his own choice of servers;
he can run multiple configured associations with multiple different
servers (or the same server, although that might not be useful).
But, wise security policy might preclude some cryptotype
combinations; for instance, running an identity scheme
with one server and no authentication with another might not be wise.
.Ss Key Management
The cryptographic values used by the Autokey protocol are
incorporated as a set of files generated by the
.Xr ntp-keygen 1ntpkeygenmdoc
utility program, including symmetric key, host key and
public certificate files, as well as sign key, identity parameters
and leapseconds files.
Alternatively, host and sign keys and
certificate files can be generated by the OpenSSL utilities
and certificates can be imported from public certificate
authorities.
Note that symmetric keys are necessary for the
.Xr ntpq 1ntpqmdoc
and
.Xr ntpdc 1ntpdcmdoc
utility programs.
The remaining files are necessary only for the
Autokey protocol.
.Pp
Certificates imported from OpenSSL or public certificate
authorities have certian limitations.
The certificate should be in ASN.1 syntax, X.509 Version 3
format and encoded in PEM, which is the same format
used by OpenSSL.
The overall length of the certificate encoded
in ASN.1 must not exceed 1024 bytes.
The subject distinguished
name field (CN) is the fully qualified name of the host
on which it is used; the remaining subject fields are ignored.
The certificate extension fields must not contain either
a subject key identifier or a issuer key identifier field;
however, an extended key usage field for a trusted host must
contain the value
.Cm trustRoot ; .
Other extension fields are ignored.
.Ss Authentication Commands
.Bl -tag -width indent
.It Ic autokey Op Ar logsec
Specifies the interval between regenerations of the session key
list used with the Autokey protocol.
Note that the size of the key
list for each association depends on this interval and the current
poll interval.
The default value is 12 (4096 s or about 1.1 hours).
For poll intervals above the specified interval, a session key list
with a single entry will be regenerated for every message
sent.
.It Ic controlkey Ar key
Specifies the key identifier to use with the
.Xr ntpq 1ntpqmdoc
utility, which uses the standard
protocol defined in RFC-1305.
The
.Ar key
argument is
the key identifier for a trusted key, where the value can be in the
range 1 to 65,534, inclusive.
.It Xo Ic crypto
.Op Cm cert Ar file
.Op Cm leap Ar file
.Op Cm randfile Ar file
.Op Cm host Ar file
.Op Cm sign Ar file
.Op Cm gq Ar file
.Op Cm gqpar Ar file
.Op Cm iffpar Ar file
.Op Cm mvpar Ar file
.Op Cm pw Ar password
.Xc
This command requires the OpenSSL library.
It activates public key
cryptography, selects the message digest and signature
encryption scheme and loads the required private and public
values described above.
If one or more files are left unspecified,
the default names are used as described above.
Unless the complete path and name of the file are specified, the
location of a file is relative to the keys directory specified
in the
.Ic keysdir
command or default
.Pa /usr/local/etc .
Following are the subcommands:
.Bl -tag -width indent
.It Cm cert Ar file
Specifies the location of the required host public certificate file.
This overrides the link
.Pa ntpkey_cert_ Ns Ar hostname
in the keys directory.
.It Cm gqpar Ar file
Specifies the location of the optional GQ parameters file.
This
overrides the link
.Pa ntpkey_gq_ Ns Ar hostname
in the keys directory.
.It Cm host Ar file
Specifies the location of the required host key file.
This overrides
the link
.Pa ntpkey_key_ Ns Ar hostname
in the keys directory.
.It Cm iffpar Ar file
Specifies the location of the optional IFF parameters file.
This overrides the link
.Pa ntpkey_iff_ Ns Ar hostname
in the keys directory.
.It Cm leap Ar file
Specifies the location of the optional leapsecond file.
This overrides the link
.Pa ntpkey_leap
in the keys directory.
.It Cm mvpar Ar file
Specifies the location of the optional MV parameters file.
This overrides the link
.Pa ntpkey_mv_ Ns Ar hostname
in the keys directory.
.It Cm pw Ar password
Specifies the password to decrypt files containing private keys and
identity parameters.
This is required only if these files have been
encrypted.
.It Cm randfile Ar file
Specifies the location of the random seed file used by the OpenSSL
library.
The defaults are described in the main text above.
.It Cm sign Ar file
Specifies the location of the optional sign key file.
This overrides
the link
.Pa ntpkey_sign_ Ns Ar hostname
in the keys directory.
If this file is
not found, the host key is also the sign key.
.El
.It Ic keys Ar keyfile
Specifies the complete path and location of the MD5 key file
containing the keys and key identifiers used by
.Xr ntpd 1ntpdmdoc ,
.Xr ntpq 1ntpqmdoc
and
.Xr ntpdc 1ntpdcmdoc
when operating with symmetric key cryptography.
This is the same operation as the
.Fl k
command line option.
.It Ic keysdir Ar path
This command specifies the default directory path for
cryptographic keys, parameters and certificates.
The default is
.Pa /usr/local/etc/ .
.It Ic requestkey Ar key
Specifies the key identifier to use with the
.Xr ntpdc 1ntpdcmdoc
utility program, which uses a
proprietary protocol specific to this implementation of
.Xr ntpd 1ntpdmdoc .
The
.Ar key
argument is a key identifier
for the trusted key, where the value can be in the range 1 to
65,534, inclusive.
.It Ic revoke Ar logsec
Specifies the interval between re-randomization of certain
cryptographic values used by the Autokey scheme, as a power of 2 in
seconds.
These values need to be updated frequently in order to
deflect brute-force attacks on the algorithms of the scheme;
however, updating some values is a relatively expensive operation.
The default interval is 16 (65,536 s or about 18 hours).
For poll
intervals above the specified interval, the values will be updated
for every message sent.
.It Ic trustedkey Ar key ...
Specifies the key identifiers which are trusted for the
purposes of authenticating peers with symmetric key cryptography,
as well as keys used by the
.Xr ntpq 1ntpqmdoc
and
.Xr ntpdc 1ntpdcmdoc
programs.
The authentication procedures require that both the local
and remote servers share the same key and key identifier for this
purpose, although different keys can be used with different
servers.
The
.Ar key
arguments are 32-bit unsigned
integers with values from 1 to 65,534.
.El
.Ss Error Codes
The following error codes are reported via the NTP control
and monitoring protocol trap mechanism.
.Bl -tag -width indent
.It 101
.Pq bad field format or length
The packet has invalid version, length or format.
.It 102
.Pq bad timestamp
The packet timestamp is the same or older than the most recent received.
This could be due to a replay or a server clock time step.
.It 103
.Pq bad filestamp
The packet filestamp is the same or older than the most recent received.
This could be due to a replay or a key file generation error.
.It 104
.Pq bad or missing public key
The public key is missing, has incorrect format or is an unsupported type.
.It 105
.Pq unsupported digest type
The server requires an unsupported digest/signature scheme.
.It 106
.Pq mismatched digest types
Not used.
.It 107
.Pq bad signature length
The signature length does not match the current public key.
.It 108
.Pq signature not verified
The message fails the signature check.
It could be bogus or signed by a
different private key.
.It 109
.Pq certificate not verified
The certificate is invalid or signed with the wrong key.
.It 110
.Pq certificate not verified
The certificate is not yet valid or has expired or the signature could not
be verified.
.It 111
.Pq bad or missing cookie
The cookie is missing, corrupted or bogus.
.It 112
.Pq bad or missing leapseconds table
The leapseconds table is missing, corrupted or bogus.
.It 113
.Pq bad or missing certificate
The certificate is missing, corrupted or bogus.
.It 114
.Pq bad or missing identity
The identity key is missing, corrupt or bogus.
.El
.Sh Monitoring Support
.Xr ntpd 1ntpdmdoc
includes a comprehensive monitoring facility suitable
for continuous, long term recording of server and client
timekeeping performance.
See the
.Ic statistics
command below
for a listing and example of each type of statistics currently
supported.
Statistic files are managed using file generation sets
and scripts in the
.Pa ./scripts
directory of the source code distribution.
Using
these facilities and
.Ux
.Xr cron 8
jobs, the data can be
automatically summarized and archived for retrospective analysis.
.Ss Monitoring Commands
.Bl -tag -width indent
.It Ic statistics Ar name ...
Enables writing of statistics records.
Currently, eight kinds of
.Ar name
statistics are supported.
.Bl -tag -width indent
.It Cm clockstats
Enables recording of clock driver statistics information.
Each update
received from a clock driver appends a line of the following form to
the file generation set named
.Cm clockstats :
.Bd -literal
49213 525.624 127.127.4.1 93 226 00:08:29.606 D
.Ed
.Pp
The first two fields show the date (Modified Julian Day) and time
(seconds and fraction past UTC midnight).
The next field shows the
clock address in dotted-quad notation.
The final field shows the last
timecode received from the clock in decoded ASCII format, where
meaningful.
In some clock drivers a good deal of additional information
can be gathered and displayed as well.
See information specific to each
clock for further details.
.It Cm cryptostats
This option requires the OpenSSL cryptographic software library.
It
enables recording of cryptographic public key protocol information.
Each message received by the protocol module appends a line of the
following form to the file generation set named
.Cm cryptostats :
.Bd -literal
49213 525.624 127.127.4.1 message
.Ed
.Pp
The first two fields show the date (Modified Julian Day) and time
(seconds and fraction past UTC midnight).
The next field shows the peer
address in dotted-quad notation, The final message field includes the
message type and certain ancillary information.
See the
.Sx Authentication Options
section for further information.
.It Cm loopstats
Enables recording of loop filter statistics information.
Each
update of the local clock outputs a line of the following form to
the file generation set named
.Cm loopstats :
.Bd -literal
50935 75440.031 0.000006019 13.778190 0.000351733 0.0133806
.Ed
.Pp
The first two fields show the date (Modified Julian Day) and
time (seconds and fraction past UTC midnight).
The next five fields
show time offset (seconds), frequency offset (parts per million -
PPM), RMS jitter (seconds), Allan deviation (PPM) and clock
discipline time constant.
.It Cm peerstats
Enables recording of peer statistics information.
This includes
statistics records of all peers of a NTP server and of special
signals, where present and configured.
Each valid update appends a
line of the following form to the current element of a file
generation set named
.Cm peerstats :
.Bd -literal
48773 10847.650 127.127.4.1 9714 -0.001605376 0.000000000 0.001424877 0.000958674
.Ed
.Pp
The first two fields show the date (Modified Julian Day) and
time (seconds and fraction past UTC midnight).
The next two fields
show the peer address in dotted-quad notation and status,
respectively.
The status field is encoded in hex in the format
described in Appendix A of the NTP specification RFC 1305.
The final four fields show the offset,
delay, dispersion and RMS jitter, all in seconds.
.It Cm rawstats
Enables recording of raw-timestamp statistics information.
This
includes statistics records of all peers of a NTP server and of
special signals, where present and configured.
Each NTP message
received from a peer or clock driver appends a line of the
following form to the file generation set named
.Cm rawstats :
.Bd -literal
50928 2132.543 128.4.1.1 128.4.1.20 3102453281.584327000 3102453281.58622800031 02453332.540806000 3102453332.541458000
.Ed
.Pp
The first two fields show the date (Modified Julian Day) and
time (seconds and fraction past UTC midnight).
The next two fields
show the remote peer or clock address followed by the local address
in dotted-quad notation.
The final four fields show the originate,
receive, transmit and final NTP timestamps in order.
The timestamp
values are as received and before processing by the various data
smoothing and mitigation algorithms.
.It Cm sysstats
Enables recording of ntpd statistics counters on a periodic basis.
Each
hour a line of the following form is appended to the file generation
set named
.Cm sysstats :
.Bd -literal
50928 2132.543 36000 81965 0 9546 56 71793 512 540 10 147
.Ed
.Pp
The first two fields show the date (Modified Julian Day) and time
(seconds and fraction past UTC midnight).
The remaining ten fields show
the statistics counter values accumulated since the last generated
line.
.Bl -tag -width indent
.It Time since restart Cm 36000
Time in hours since the system was last rebooted.
.It Packets received Cm 81965
Total number of packets received.
.It Packets processed Cm 0
Number of packets received in response to previous packets sent
.It Current version Cm 9546
Number of packets matching the current NTP version.
.It Previous version Cm 56
Number of packets matching the previous NTP version.
.It Bad version Cm 71793
Number of packets matching neither NTP version.
.It Access denied Cm 512
Number of packets denied access for any reason.
.It Bad length or format Cm 540
Number of packets with invalid length, format or port number.
.It Bad authentication Cm 10
Number of packets not verified as authentic.
.It Rate exceeded Cm 147
Number of packets discarded due to rate limitation.
.El
.It Cm statsdir Ar directory_path
Indicates the full path of a directory where statistics files
should be created (see below).
This keyword allows
the (otherwise constant)
.Cm filegen
filename prefix to be modified for file generation sets, which
is useful for handling statistics logs.
.It Cm filegen Ar name Xo
.Op Cm file Ar filename
.Op Cm type Ar typename
.Op Cm link | nolink
.Op Cm enable | disable
.Xc
Configures setting of generation file set name.
Generation
file sets provide a means for handling files that are
continuously growing during the lifetime of a server.
Server statistics are a typical example for such files.
Generation file sets provide access to a set of files used
to store the actual data.
At any time at most one element
of the set is being written to.
The type given specifies
when and how data will be directed to a new element of the set.
This way, information stored in elements of a file set
that are currently unused are available for administrational
operations without the risk of disturbing the operation of ntpd.
(Most important: they can be removed to free space for new data
produced.)
.Pp
Note that this command can be sent from the
.Xr ntpdc 1ntpdcmdoc
program running at a remote location.
.Bl -tag -width indent
.It Cm name
This is the type of the statistics records, as shown in the
.Cm statistics
command.
.It Cm file Ar filename
This is the file name for the statistics records.
Filenames of set
members are built from three concatenated elements
.Ar Cm prefix ,
.Ar Cm filename
and
.Ar Cm suffix :
.Bl -tag -width indent
.It Cm prefix
This is a constant filename path.
It is not subject to
modifications via the
.Ar filegen
option.
It is defined by the
server, usually specified as a compile-time constant.
It may,
however, be configurable for individual file generation sets
via other commands.
For example, the prefix used with
.Ar loopstats
and
.Ar peerstats
generation can be configured using the
.Ar statsdir
option explained above.
.It Cm filename
This string is directly concatenated to the prefix mentioned
above (no intervening
.Ql / ) .
This can be modified using
the file argument to the
.Ar filegen
statement.
No
.Pa ..
elements are
allowed in this component to prevent filenames referring to
parts outside the filesystem hierarchy denoted by
.Ar prefix .
.It Cm suffix
This part is reflects individual elements of a file set.
It is
generated according to the type of a file set.
.El
.It Cm type Ar typename
A file generation set is characterized by its type.
The following
types are supported:
.Bl -tag -width indent
.It Cm none
The file set is actually a single plain file.
.It Cm pid
One element of file set is used per incarnation of a ntpd
server.
This type does not perform any changes to file set
members during runtime, however it provides an easy way of
separating files belonging to different
.Xr ntpd 1ntpdmdoc
server incarnations.
The set member filename is built by appending a
.Ql \&.
to concatenated
.Ar prefix
and
.Ar filename
strings, and
appending the decimal representation of the process ID of the
.Xr ntpd 1ntpdmdoc
server process.
.It Cm day
One file generation set element is created per day.
A day is
defined as the period between 00:00 and 24:00 UTC.
The file set
member suffix consists of a
.Ql \&.
and a day specification in
the form
.Cm YYYYMMdd .
.Cm YYYY
is a 4-digit year number (e.g., 1992).
.Cm MM
is a two digit month number.
.Cm dd
is a two digit day number.
Thus, all information written at 10 December 1992 would end up
in a file named
.Ar prefix
.Ar filename Ns .19921210 .
.It Cm week
Any file set member contains data related to a certain week of
a year.
The term week is defined by computing day-of-year
modulo 7.
Elements of such a file generation set are
distinguished by appending the following suffix to the file set
filename base: A dot, a 4-digit year number, the letter
.Cm W ,
and a 2-digit week number.
For example, information from January,
10th 1992 would end up in a file with suffix
.No . Ns Ar 1992W1 .
.It Cm month
One generation file set element is generated per month.
The
file name suffix consists of a dot, a 4-digit year number, and
a 2-digit month.
.It Cm year
One generation file element is generated per year.
The filename
suffix consists of a dot and a 4 digit year number.
.It Cm age
This type of file generation sets changes to a new element of
the file set every 24 hours of server operation.
The filename
suffix consists of a dot, the letter
.Cm a ,
and an 8-digit number.
This number is taken to be the number of seconds the server is
running at the start of the corresponding 24-hour period.
Information is only written to a file generation by specifying
.Cm enable ;
output is prevented by specifying
.Cm disable .
.El
.It Cm link | nolink
It is convenient to be able to access the current element of a file
generation set by a fixed name.
This feature is enabled by
specifying
.Cm link
and disabled using
.Cm nolink .
If link is specified, a
hard link from the current file set element to a file without
suffix is created.
When there is already a file with this name and
the number of links of this file is one, it is renamed appending a
dot, the letter
.Cm C ,
and the pid of the
.Xr ntpd 1ntpdmdoc
server process.
When the
number of links is greater than one, the file is unlinked.
This
allows the current file to be accessed by a constant name.
.It Cm enable \&| Cm disable
Enables or disables the recording function.
.El
.El
.El
.Sh Access Control Support
The
.Xr ntpd 1ntpdmdoc
daemon implements a general purpose address/mask based restriction
list.
The list contains address/match entries sorted first
by increasing address values and and then by increasing mask values.
A match occurs when the bitwise AND of the mask and the packet
source address is equal to the bitwise AND of the mask and
address in the list.
The list is searched in order with the
last match found defining the restriction flags associated
with the entry.
Additional information and examples can be found in the
.Qq Notes on Configuring NTP and Setting up a NTP Subnet
page
(available as part of the HTML documentation
provided in
.Pa /usr/share/doc/ntp ) .
.Pp
The restriction facility was implemented in conformance
with the access policies for the original NSFnet backbone
time servers.
Later the facility was expanded to deflect
cryptographic and clogging attacks.
While this facility may
be useful for keeping unwanted or broken or malicious clients
from congesting innocent servers, it should not be considered
an alternative to the NTP authentication facilities.
Source address based restrictions are easily circumvented
by a determined cracker.
.Pp
Clients can be denied service because they are explicitly
included in the restrict list created by the
.Ic restrict
command
or implicitly as the result of cryptographic or rate limit
violations.
Cryptographic violations include certificate
or identity verification failure; rate limit violations generally
result from defective NTP implementations that send packets
at abusive rates.
Some violations cause denied service
only for the offending packet, others cause denied service
for a timed period and others cause the denied service for
an indefinite period.
When a client or network is denied access
for an indefinite period, the only way at present to remove
the restrictions is by restarting the server.
.Ss The Kiss-of-Death Packet
Ordinarily, packets denied service are simply dropped with no
further action except incrementing statistics counters.
Sometimes a
more proactive response is needed, such as a server message that
explicitly requests the client to stop sending and leave a message
for the system operator.
A special packet format has been created
for this purpose called the "kiss-of-death" (KoD) packet.
KoD packets have the leap bits set unsynchronized and stratum set
to zero and the reference identifier field set to a four-byte
ASCII code.
If the
.Cm noserve
or
.Cm notrust
flag of the matching restrict list entry is set,
the code is "DENY"; if the
.Cm limited
flag is set and the rate limit
is exceeded, the code is "RATE".
Finally, if a cryptographic violation occurs, the code is "CRYP".
.Pp
A client receiving a KoD performs a set of sanity checks to
minimize security exposure, then updates the stratum and
reference identifier peer variables, sets the access
denied (TEST4) bit in the peer flash variable and sends
a message to the log.
As long as the TEST4 bit is set,
the client will send no further packets to the server.
The only way at present to recover from this condition is
to restart the protocol at both the client and server.
This
happens automatically at the client when the association times out.
It will happen at the server only if the server operator cooperates.
.Ss Access Control Commands
.Bl -tag -width indent
.It Xo Ic discard
.Op Cm average Ar avg
.Op Cm minimum Ar min
.Op Cm monitor Ar prob
.Xc
Set the parameters of the
.Cm limited
facility which protects the server from
client abuse.
The
.Cm average
subcommand specifies the minimum average packet
spacing, while the
.Cm minimum
subcommand specifies the minimum packet spacing.
Packets that violate these minima are discarded
and a kiss-o'-death packet returned if enabled.
The default
minimum average and minimum are 5 and 2, respectively.
The
.Ic monitor
subcommand specifies the probability of discard
for packets that overflow the rate-control window.
.It Xo Ic restrict address
.Op Cm mask Ar mask
.Op Ar flag ...
.Xc
The
.Ar address
argument expressed in
dotted-quad form is the address of a host or network.
Alternatively, the
.Ar address
argument can be a valid host DNS name.
The
.Ar mask
argument expressed in dotted-quad form defaults to
.Cm 255.255.255.255 ,
meaning that the
.Ar address
is treated as the address of an individual host.
A default entry (address
.Cm 0.0.0.0 ,
mask
.Cm 0.0.0.0 )
is always included and is always the first entry in the list.
Note that text string
.Cm default ,
with no mask option, may
be used to indicate the default entry.
In the current implementation,
.Cm flag
always
restricts access, i.e., an entry with no flags indicates that free
access to the server is to be given.
The flags are not orthogonal,
in that more restrictive flags will often make less restrictive
ones redundant.
The flags can generally be classed into two
categories, those which restrict time service and those which
restrict informational queries and attempts to do run-time
reconfiguration of the server.
One or more of the following flags
may be specified:
.Bl -tag -width indent
.It Cm ignore
Deny packets of all kinds, including
.Xr ntpq 1ntpqmdoc
and
.Xr ntpdc 1ntpdcmdoc
queries.
.It Cm kod
If this flag is set when an access violation occurs, a kiss-o'-death
(KoD) packet is sent.
KoD packets are rate limited to no more than one
per second.
If another KoD packet occurs within one second after the
last one, the packet is dropped.
.It Cm limited
Deny service if the packet spacing violates the lower limits specified
in the
.Ic discard
command.
A history of clients is kept using the
monitoring capability of
.Xr ntpd 1ntpdmdoc .
Thus, monitoring is always active as
long as there is a restriction entry with the
.Cm limited
flag.
.It Cm lowpriotrap
Declare traps set by matching hosts to be low priority.
The
number of traps a server can maintain is limited (the current limit
is 3).
Traps are usually assigned on a first come, first served
basis, with later trap requestors being denied service.
This flag
modifies the assignment algorithm by allowing low priority traps to
be overridden by later requests for normal priority traps.
.It Cm nomodify
Deny
.Xr ntpq 1ntpqmdoc
and
.Xr ntpdc 1ntpdcmdoc
queries which attempt to modify the state of the
server (i.e., run time reconfiguration).
Queries which return
information are permitted.
.It Cm noquery
Deny
.Xr ntpq 1ntpqmdoc
and
.Xr ntpdc 1ntpdcmdoc
queries.
Time service is not affected.
.It Cm nopeer
Deny packets which would result in mobilizing a new association.
This
includes broadcast and symmetric active packets when a configured
association does not exist.
It also includes
.Cm pool
associations, so if you want to use servers from a 
.Cm pool
directive and also want to use
.Cm nopeer
by default, you'll want a
.Cm "restrict source ..." line as well that does
.It not
include the
.Cm nopeer
directive.
.It Cm noserve
Deny all packets except
.Xr ntpq 1ntpqmdoc
and
.Xr ntpdc 1ntpdcmdoc
queries.
.It Cm notrap
Decline to provide mode 6 control message trap service to matching
hosts.
The trap service is a subsystem of the
.Xr ntpq 1ntpqmdoc
control message
protocol which is intended for use by remote event logging programs.
.It Cm notrust
Deny service unless the packet is cryptographically authenticated.
.It Cm ntpport
This is actually a match algorithm modifier, rather than a
restriction flag.
Its presence causes the restriction entry to be
matched only if the source port in the packet is the standard NTP
UDP port (123).
Both
.Cm ntpport
and
.Cm non-ntpport
may
be specified.
The
.Cm ntpport
is considered more specific and
is sorted later in the list.
.It Cm version
Deny packets that do not match the current NTP version.
.El
.Pp
Default restriction list entries with the flags ignore, interface,
ntpport, for each of the local host's interface addresses are
inserted into the table at startup to prevent the server
from attempting to synchronize to its own time.
A default entry is also always present, though if it is
otherwise unconfigured; no flags are associated
with the default entry (i.e., everything besides your own
NTP server is unrestricted).
.El
.Sh Automatic NTP Configuration Options
.Ss Manycasting
Manycasting is a automatic discovery and configuration paradigm
new to NTPv4.
It is intended as a means for a multicast client
to troll the nearby network neighborhood to find cooperating
manycast servers, validate them using cryptographic means
and evaluate their time values with respect to other servers
that might be lurking in the vicinity.
The intended result is that each manycast client mobilizes
client associations with some number of the "best"
of the nearby manycast servers, yet automatically reconfigures
to sustain this number of servers should one or another fail.
.Pp
Note that the manycasting paradigm does not coincide
with the anycast paradigm described in RFC-1546,
which is designed to find a single server from a clique
of servers providing the same service.
The manycast paradigm is designed to find a plurality
of redundant servers satisfying defined optimality criteria.
.Pp
Manycasting can be used with either symmetric key
or public key cryptography.
The public key infrastructure (PKI)
offers the best protection against compromised keys
and is generally considered stronger, at least with relatively
large key sizes.
It is implemented using the Autokey protocol and
the OpenSSL cryptographic library available from
.Li http://www.openssl.org/ .
The library can also be used with other NTPv4 modes
as well and is highly recommended, especially for broadcast modes.
.Pp
A persistent manycast client association is configured
using the
.Ic manycastclient
command, which is similar to the
.Ic server
command but with a multicast (IPv4 class
.Cm D
or IPv6 prefix
.Cm FF )
group address.
The IANA has designated IPv4 address 224.1.1.1
and IPv6 address FF05::101 (site local) for NTP.
When more servers are needed, it broadcasts manycast
client messages to this address at the minimum feasible rate
and minimum feasible time-to-live (TTL) hops, depending
on how many servers have already been found.
There can be as many manycast client associations
as different group address, each one serving as a template
for a future ephemeral unicast client/server association.
.Pp
Manycast servers configured with the
.Ic manycastserver
command listen on the specified group address for manycast
client messages.
Note the distinction between manycast client,
which actively broadcasts messages, and manycast server,
which passively responds to them.
If a manycast server is
in scope of the current TTL and is itself synchronized
to a valid source and operating at a stratum level equal
to or lower than the manycast client, it replies to the
manycast client message with an ordinary unicast server message.
.Pp
The manycast client receiving this message mobilizes
an ephemeral client/server association according to the
matching manycast client template, but only if cryptographically
authenticated and the server stratum is less than or equal
to the client stratum.
Authentication is explicitly required
and either symmetric key or public key (Autokey) can be used.
Then, the client polls the server at its unicast address
in burst mode in order to reliably set the host clock
and validate the source.
This normally results
in a volley of eight client/server at 2-s intervals
during which both the synchronization and cryptographic
protocols run concurrently.
Following the volley,
the client runs the NTP intersection and clustering
algorithms, which act to discard all but the "best"
associations according to stratum and synchronization
distance.
The surviving associations then continue
in ordinary client/server mode.
.Pp
The manycast client polling strategy is designed to reduce
as much as possible the volume of manycast client messages
and the effects of implosion due to near-simultaneous
arrival of manycast server messages.
The strategy is determined by the
.Ic manycastclient ,
.Ic tos
and
.Ic ttl
configuration commands.
The manycast poll interval is
normally eight times the system poll interval,
which starts out at the
.Cm minpoll
value specified in the
.Ic manycastclient ,
command and, under normal circumstances, increments to the
.Cm maxpolll
value specified in this command.
Initially, the TTL is
set at the minimum hops specified by the
.Ic ttl
command.
At each retransmission the TTL is increased until reaching
the maximum hops specified by this command or a sufficient
number client associations have been found.
Further retransmissions use the same TTL.
.Pp
The quality and reliability of the suite of associations
discovered by the manycast client is determined by the NTP
mitigation algorithms and the
.Cm minclock
and
.Cm minsane
values specified in the
.Ic tos
configuration command.
At least
.Cm minsane
candidate servers must be available and the mitigation
algorithms produce at least
.Cm minclock
survivors in order to synchronize the clock.
Byzantine agreement principles require at least four
candidates in order to correctly discard a single falseticker.
For legacy purposes,
.Cm minsane
defaults to 1 and
.Cm minclock
defaults to 3.
For manycast service
.Cm minsane
should be explicitly set to 4, assuming at least that
number of servers are available.
.Pp
If at least
.Cm minclock
servers are found, the manycast poll interval is immediately
set to eight times
.Cm maxpoll .
If less than
.Cm minclock
servers are found when the TTL has reached the maximum hops,
the manycast poll interval is doubled.
For each transmission
after that, the poll interval is doubled again until
reaching the maximum of eight times
.Cm maxpoll .
Further transmissions use the same poll interval and
TTL values.
Note that while all this is going on,
each client/server association found is operating normally
it the system poll interval.
.Pp
Administratively scoped multicast boundaries are normally
specified by the network router configuration and,
in the case of IPv6, the link/site scope prefix.
By default, the increment for TTL hops is 32 starting
from 31; however, the
.Ic ttl
configuration command can be
used to modify the values to match the scope rules.
.Pp
It is often useful to narrow the range of acceptable
servers which can be found by manycast client associations.
Because manycast servers respond only when the client
stratum is equal to or greater than the server stratum,
primary (stratum 1) servers fill find only primary servers
in TTL range, which is probably the most common objective.
However, unless configured otherwise, all manycast clients
in TTL range will eventually find all primary servers
in TTL range, which is probably not the most common
objective in large networks.
The
.Ic tos
command can be used to modify this behavior.
Servers with stratum below
.Cm floor
or above
.Cm ceiling
specified in the
.Ic tos
command are strongly discouraged during the selection
process; however, these servers may be temporally
accepted if the number of servers within TTL range is
less than
.Cm minclock .
.Pp
The above actions occur for each manycast client message,
which repeats at the designated poll interval.
However, once the ephemeral client association is mobilized,
subsequent manycast server replies are discarded,
since that would result in a duplicate association.
If during a poll interval the number of client associations
falls below
.Cm minclock ,
all manycast client prototype associations are reset
to the initial poll interval and TTL hops and operation
resumes from the beginning.
It is important to avoid
frequent manycast client messages, since each one requires
all manycast servers in TTL range to respond.
The result could well be an implosion, either minor or major,
depending on the number of servers in range.
The recommended value for
.Cm maxpoll
is 12 (4,096 s).
.Pp
It is possible and frequently useful to configure a host
as both manycast client and manycast server.
A number of hosts configured this way and sharing a common
group address will automatically organize themselves
in an optimum configuration based on stratum and
synchronization distance.
For example, consider an NTP
subnet of two primary servers and a hundred or more
dependent clients.
With two exceptions, all servers
and clients have identical configuration files including both
.Ic multicastclient
and
.Ic multicastserver
commands using, for instance, multicast group address
239.1.1.1.
The only exception is that each primary server
configuration file must include commands for the primary
reference source such as a GPS receiver.
.Pp
The remaining configuration files for all secondary
servers and clients have the same contents, except for the
.Ic tos
command, which is specific for each stratum level.
For stratum 1 and stratum 2 servers, that command is
not necessary.
For stratum 3 and above servers the
.Cm floor
value is set to the intended stratum number.
Thus, all stratum 3 configuration files are identical,
all stratum 4 files are identical and so forth.
.Pp
Once operations have stabilized in this scenario,
the primary servers will find the primary reference source
and each other, since they both operate at the same
stratum (1), but not with any secondary server or client,
since these operate at a higher stratum.
The secondary
servers will find the servers at the same stratum level.
If one of the primary servers loses its GPS receiver,
it will continue to operate as a client and other clients
will time out the corresponding association and
re-associate accordingly.
.Pp
Some administrators prefer to avoid running
.Xr ntpd 1ntpdmdoc
continuously and run either
.Xr sntp 1sntpmdoc
or
.Xr ntpd 1ntpdmdoc
.Fl q
as a cron job.
In either case the servers must be
configured in advance and the program fails if none are
available when the cron job runs.
A really slick
application of manycast is with
.Xr ntpd 1ntpdmdoc
.Fl q .
The program wakes up, scans the local landscape looking
for the usual suspects, selects the best from among
the rascals, sets the clock and then departs.
Servers do not have to be configured in advance and
all clients throughout the network can have the same
configuration file.
.Ss Manycast Interactions with Autokey
Each time a manycast client sends a client mode packet
to a multicast group address, all manycast servers
in scope generate a reply including the host name
and status word.
The manycast clients then run
the Autokey protocol, which collects and verifies
all certificates involved.
Following the burst interval
all but three survivors are cast off,
but the certificates remain in the local cache.
It often happens that several complete signing trails
from the client to the primary servers are collected in this way.
.Pp
About once an hour or less often if the poll interval
exceeds this, the client regenerates the Autokey key list.
This is in general transparent in client/server mode.
However, about once per day the server private value
used to generate cookies is refreshed along with all
manycast client associations.
In this case all
cryptographic values including certificates is refreshed.
If a new certificate has been generated since
the last refresh epoch, it will automatically revoke
all prior certificates that happen to be in the
certificate cache.
At the same time, the manycast
scheme starts all over from the beginning and
the expanding ring shrinks to the minimum and increments
from there while collecting all servers in scope.
.Ss Manycast Options
.Bl -tag -width indent
.It Xo Ic tos
.Oo
.Cm ceiling Ar ceiling |
.Cm cohort { 0 | 1 } |
.Cm floor Ar floor |
.Cm minclock Ar minclock |
.Cm minsane Ar minsane
.Oc
.Xc
This command affects the clock selection and clustering
algorithms.
It can be used to select the quality and
quantity of peers used to synchronize the system clock
and is most useful in manycast mode.
The variables operate
as follows:
.Bl -tag -width indent
.It Cm ceiling Ar ceiling
Peers with strata above
.Cm ceiling
will be discarded if there are at least
.Cm minclock
peers remaining.
This value defaults to 15, but can be changed
to any number from 1 to 15.
.It Cm cohort Bro 0 | 1 Brc
This is a binary flag which enables (0) or disables (1)
manycast server replies to manycast clients with the same
stratum level.
This is useful to reduce implosions where
large numbers of clients with the same stratum level
are present.
The default is to enable these replies.
.It Cm floor Ar floor
Peers with strata below
.Cm floor
will be discarded if there are at least
.Cm minclock
peers remaining.
This value defaults to 1, but can be changed
to any number from 1 to 15.
.It Cm minclock Ar minclock
The clustering algorithm repeatedly casts out outlier
associations until no more than
.Cm minclock
associations remain.
This value defaults to 3,
but can be changed to any number from 1 to the number of
configured sources.
.It Cm minsane Ar minsane
This is the minimum number of candidates available
to the clock selection algorithm in order to produce
one or more truechimers for the clustering algorithm.
If fewer than this number are available, the clock is
undisciplined and allowed to run free.
The default is 1
for legacy purposes.
However, according to principles of
Byzantine agreement,
.Cm minsane
should be at least 4 in order to detect and discard
a single falseticker.
.El
.It Cm ttl Ar hop ...
This command specifies a list of TTL values in increasing
order, up to 8 values can be specified.
In manycast mode these values are used in turn
in an expanding-ring search.
The default is eight
multiples of 32 starting at 31.
.El
.Sh Reference Clock Support
The NTP Version 4 daemon supports some three dozen different radio,
satellite and modem reference clocks plus a special pseudo-clock
used for backup or when no other clock source is available.
Detailed descriptions of individual device drivers and options can
be found in the
.Qq Reference Clock Drivers
page
(available as part of the HTML documentation
provided in
.Pa /usr/share/doc/ntp ) .
Additional information can be found in the pages linked
there, including the
.Qq Debugging Hints for Reference Clock Drivers
and
.Qq How To Write a Reference Clock Driver
pages
(available as part of the HTML documentation
provided in
.Pa /usr/share/doc/ntp ) .
In addition, support for a PPS
signal is available as described in the
.Qq Pulse-per-second (PPS) Signal Interfacing
page
(available as part of the HTML documentation
provided in
.Pa /usr/share/doc/ntp ) .
Many
drivers support special line discipline/streams modules which can
significantly improve the accuracy using the driver.
These are
described in the
.Qq Line Disciplines and Streams Drivers
page
(available as part of the HTML documentation
provided in
.Pa /usr/share/doc/ntp ) .
.Pp
A reference clock will generally (though not always) be a radio
timecode receiver which is synchronized to a source of standard
time such as the services offered by the NRC in Canada and NIST and
USNO in the US.
The interface between the computer and the timecode
receiver is device dependent, but is usually a serial port.
A
device driver specific to each reference clock must be selected and
compiled in the distribution; however, most common radio, satellite
and modem clocks are included by default.
Note that an attempt to
configure a reference clock when the driver has not been compiled
or the hardware port has not been appropriately configured results
in a scalding remark to the system log file, but is otherwise non
hazardous.
.Pp
For the purposes of configuration,
.Xr ntpd 1ntpdmdoc
treats
reference clocks in a manner analogous to normal NTP peers as much
as possible.
Reference clocks are identified by a syntactically
correct but invalid IP address, in order to distinguish them from
normal NTP peers.
Reference clock addresses are of the form
.Sm off
.Li 127.127. Ar t . Ar u ,
.Sm on
where
.Ar t
is an integer
denoting the clock type and
.Ar u
indicates the unit
number in the range 0-3.
While it may seem overkill, it is in fact
sometimes useful to configure multiple reference clocks of the same
type, in which case the unit numbers must be unique.
.Pp
The
.Ic server
command is used to configure a reference
clock, where the
.Ar address
argument in that command
is the clock address.
The
.Cm key ,
.Cm version
and
.Cm ttl
options are not used for reference clock support.
The
.Cm mode
option is added for reference clock support, as
described below.
The
.Cm prefer
option can be useful to
persuade the server to cherish a reference clock with somewhat more
enthusiasm than other reference clocks or peers.
Further
information on this option can be found in the
.Qq Mitigation Rules and the prefer Keyword
(available as part of the HTML documentation
provided in
.Pa /usr/share/doc/ntp )
page.
The
.Cm minpoll
and
.Cm maxpoll
options have
meaning only for selected clock drivers.
See the individual clock
driver document pages for additional information.
.Pp
The
.Ic fudge
command is used to provide additional
information for individual clock drivers and normally follows
immediately after the
.Ic server
command.
The
.Ar address
argument specifies the clock address.
The
.Cm refid
and
.Cm stratum
options can be used to
override the defaults for the device.
There are two optional
device-dependent time offsets and four flags that can be included
in the
.Ic fudge
command as well.
.Pp
The stratum number of a reference clock is by default zero.
Since the
.Xr ntpd 1ntpdmdoc
daemon adds one to the stratum of each
peer, a primary server ordinarily displays an external stratum of
one.
In order to provide engineered backups, it is often useful to
specify the reference clock stratum as greater than zero.
The
.Cm stratum
option is used for this purpose.
Also, in cases
involving both a reference clock and a pulse-per-second (PPS)
discipline signal, it is useful to specify the reference clock
identifier as other than the default, depending on the driver.
The
.Cm refid
option is used for this purpose.
Except where noted,
these options apply to all clock drivers.
.Ss Reference Clock Commands
.Bl -tag -width indent
.It Xo Ic server
.Sm off
.Li 127.127. Ar t . Ar u
.Sm on
.Op Cm prefer
.Op Cm mode Ar int
.Op Cm minpoll Ar int
.Op Cm maxpoll Ar int
.Xc
This command can be used to configure reference clocks in
special ways.
The options are interpreted as follows:
.Bl -tag -width indent
.It Cm prefer
Marks the reference clock as preferred.
All other things being
equal, this host will be chosen for synchronization among a set of
correctly operating hosts.
See the
.Qq Mitigation Rules and the prefer Keyword
page
(available as part of the HTML documentation
provided in
.Pa /usr/share/doc/ntp )
for further information.
.It Cm mode Ar int
Specifies a mode number which is interpreted in a
device-specific fashion.
For instance, it selects a dialing
protocol in the ACTS driver and a device subtype in the
parse
drivers.
.It Cm minpoll Ar int
.It Cm maxpoll Ar int
These options specify the minimum and maximum polling interval
for reference clock messages, as a power of 2 in seconds
For
most directly connected reference clocks, both
.Cm minpoll
and
.Cm maxpoll
default to 6 (64 s).
For modem reference clocks,
.Cm minpoll
defaults to 10 (17.1 m) and
.Cm maxpoll
defaults to 14 (4.5 h).
The allowable range is 4 (16 s) to 17 (36.4 h) inclusive.
.El
.It Xo Ic fudge
.Sm off
.Li 127.127. Ar t . Ar u
.Sm on
.Op Cm time1 Ar sec
.Op Cm time2 Ar sec
.Op Cm stratum Ar int
.Op Cm refid Ar string
.Op Cm mode Ar int
.Op Cm flag1 Cm 0 \&| Cm 1
.Op Cm flag2 Cm 0 \&| Cm 1
.Op Cm flag3 Cm 0 \&| Cm 1
.Op Cm flag4 Cm 0 \&| Cm 1
.Xc
This command can be used to configure reference clocks in
special ways.
It must immediately follow the
.Ic server
command which configures the driver.
Note that the same capability
is possible at run time using the
.Xr ntpdc 1ntpdcmdoc
program.
The options are interpreted as
follows:
.Bl -tag -width indent
.It Cm time1 Ar sec
Specifies a constant to be added to the time offset produced by
the driver, a fixed-point decimal number in seconds.
This is used
as a calibration constant to adjust the nominal time offset of a
particular clock to agree with an external standard, such as a
precision PPS signal.
It also provides a way to correct a
systematic error or bias due to serial port or operating system
latencies, different cable lengths or receiver internal delay.
The
specified offset is in addition to the propagation delay provided
by other means, such as internal DIPswitches.
Where a calibration
for an individual system and driver is available, an approximate
correction is noted in the driver documentation pages.
Note: in order to facilitate calibration when more than one
radio clock or PPS signal is supported, a special calibration
feature is available.
It takes the form of an argument to the
.Ic enable
command described in
.Sx Miscellaneous Options
page and operates as described in the
.Qq Reference Clock Drivers
page
(available as part of the HTML documentation
provided in
.Pa /usr/share/doc/ntp ) .
.It Cm time2 Ar secs
Specifies a fixed-point decimal number in seconds, which is
interpreted in a driver-dependent way.
See the descriptions of
specific drivers in the
.Qq Reference Clock Drivers
page
(available as part of the HTML documentation
provided in
.Pa /usr/share/doc/ntp ) .
.It Cm stratum Ar int
Specifies the stratum number assigned to the driver, an integer
between 0 and 15.
This number overrides the default stratum number
ordinarily assigned by the driver itself, usually zero.
.It Cm refid Ar string
Specifies an ASCII string of from one to four characters which
defines the reference identifier used by the driver.
This string
overrides the default identifier ordinarily assigned by the driver
itself.
.It Cm mode Ar int
Specifies a mode number which is interpreted in a
device-specific fashion.
For instance, it selects a dialing
protocol in the ACTS driver and a device subtype in the
parse
drivers.
.It Cm flag1 Cm 0 \&| Cm 1
.It Cm flag2 Cm 0 \&| Cm 1
.It Cm flag3 Cm 0 \&| Cm 1
.It Cm flag4 Cm 0 \&| Cm 1
These four flags are used for customizing the clock driver.
The
interpretation of these values, and whether they are used at all,
is a function of the particular clock driver.
However, by
convention
.Cm flag4
is used to enable recording monitoring
data to the
.Cm clockstats
file configured with the
.Ic filegen
command.
Further information on the
.Ic filegen
command can be found in
.Sx Monitoring Options .
.El
.El
.Sh Miscellaneous Options
.Bl -tag -width indent
.It Ic broadcastdelay Ar seconds
The broadcast and multicast modes require a special calibration
to determine the network delay between the local and remote
servers.
Ordinarily, this is done automatically by the initial
protocol exchanges between the client and server.
In some cases,
the calibration procedure may fail due to network or server access
controls, for example.
This command specifies the default delay to
be used under these circumstances.
Typically (for Ethernet), a
number between 0.003 and 0.007 seconds is appropriate.
The default
when this command is not used is 0.004 seconds.
.It Ic calldelay Ar delay
This option controls the delay in seconds between the first and second
packets sent in burst or iburst mode to allow additional time for a modem
or ISDN call to complete.
.It Ic driftfile Ar driftfile
This command specifies the complete path and name of the file used to
record the frequency of the local clock oscillator.
This is the same
operation as the
.Fl f
command line option.
If the file exists, it is read at
startup in order to set the initial frequency and then updated once per
hour with the current frequency computed by the daemon.
If the file name is
specified, but the file itself does not exist, the starts with an initial
frequency of zero and creates the file when writing it for the first time.
If this command is not given, the daemon will always start with an initial
frequency of zero.
.Pp
The file format consists of a single line containing a single
floating point number, which records the frequency offset measured
in parts-per-million (PPM).
The file is updated by first writing
the current drift value into a temporary file and then renaming
this file to replace the old version.
This implies that
.Xr ntpd 1ntpdmdoc
must have write permission for the directory the
drift file is located in, and that file system links, symbolic or
otherwise, should be avoided.
.It Ic dscp Ar value
This option specifies the Differentiated Services Control Point (DSCP) value,
a 6-bit code.
The default value is 46, signifying Expedited Forwarding.
.It Xo Ic enable
.Oo
.Cm auth | Cm bclient |
.Cm calibrate | Cm kernel |
.Cm mode7 | Cm monitor |
.Cm ntp | Cm stats |
.Cm peer_clear_digest_early |
.Cm unpeer_crypto_early | Cm unpeer_crypto_nak_early | Cm unpeer_digest_early
.Oc
.Xc
.It Xo Ic disable
.Oo
.Cm auth | Cm bclient |
.Cm calibrate | Cm kernel |
.Cm mode7 | Cm monitor |
.Cm ntp | Cm stats |
.Cm peer_clear_digest_early |
.Cm unpeer_crypto_early | Cm unpeer_crypto_nak_early | Cm unpeer_digest_early
.Oc
.Xc
Provides a way to enable or disable various server options.
Flags not mentioned are unaffected.
Note that all of these flags
can be controlled remotely using the
.Xr ntpdc 1ntpdcmdoc
utility program.
.Bl -tag -width indent
.It Cm auth
Enables the server to synchronize with unconfigured peers only if the
peer has been correctly authenticated using either public key or
private key cryptography.
The default for this flag is
.Ic enable .
.It Cm bclient
Enables the server to listen for a message from a broadcast or
multicast server, as in the
.Ic multicastclient
command with default
address.
The default for this flag is
.Ic disable .
.It Cm calibrate
Enables the calibrate feature for reference clocks.
The default for
this flag is
.Ic disable .
.It Cm kernel
Enables the kernel time discipline, if available.
The default for this
flag is
.Ic enable
if support is available, otherwise
.Ic disable .
.It Cm mode7
Enables processing of NTP mode 7 implementation-specific requests
which are used by the deprecated
.Xr ntpdc 1ntpdcmdoc
program.
The default for this flag is disable.
This flag is excluded from runtime configuration using
.Xr ntpq 1ntpqmdoc .
The
.Xr ntpq 1ntpqmdoc
program provides the same capabilities as
.Xr ntpdc 1ntpdcmdoc
using standard mode 6 requests.
.It Cm monitor
Enables the monitoring facility.
See the
.Xr ntpdc 1ntpdcmdoc
program
and the
.Ic monlist
command or further information.
The
default for this flag is
.Ic enable .
.It Cm ntp
Enables time and frequency discipline.
In effect, this switch opens and
closes the feedback loop, which is useful for testing.
The default for
this flag is
.Ic enable .
.It Cm peer_clear_digest_early
By default, if
.Xr ntpd 1ntpdmdoc
is using autokey and it
receives a crypto-NAK packet that
passes the duplicate packet and origin timestamp checks
the peer variables are immediately cleared.
While this is generally a feature
as it allows for quick recovery if a server key has changed,
a properly forged and appropriately delivered crypto-NAK packet
can be used in a DoS attack.
If you have active noticable problems with this type of DoS attack
then you should consider
disabling this option.
You can check your
.Cm peerstats
file for evidence of any of these attacks.
The
default for this flag is
.Ic enable .
.It Cm stats
Enables the statistics facility.
See the
.Sx Monitoring Options
section for further information.
The default for this flag is
.Ic disable .
.It Cm unpeer_crypto_early
By default, if
.Xr ntpd 1ntpdmdoc
receives an autokey packet that fails TEST9,
a crypto failure,
the association is immediately cleared.
This is almost certainly a feature,
but if, in spite of the current recommendation of not using autokey,
you are
.B still
using autokey
.B and
you are seeing this sort of DoS attack
disabling this flag will delay
tearing down the association until the reachability counter
becomes zero.
You can check your
.Cm peerstats
file for evidence of any of these attacks.
The
default for this flag is
.Ic enable .
.It Cm unpeer_crypto_nak_early
By default, if
.Xr ntpd 1ntpdmdoc
receives a crypto-NAK packet that
passes the duplicate packet and origin timestamp checks
the association is immediately cleared.
While this is generally a feature
as it allows for quick recovery if a server key has changed,
a properly forged and appropriately delivered crypto-NAK packet
can be used in a DoS attack.
If you have active noticable problems with this type of DoS attack
then you should consider
disabling this option.
You can check your
.Cm peerstats
file for evidence of any of these attacks.
The
default for this flag is
.Ic enable .
.It Cm unpeer_digest_early
By default, if
.Xr ntpd 1ntpdmdoc
receives what should be an authenticated packet
that passes other packet sanity checks but
contains an invalid digest
the association is immediately cleared.
While this is generally a feature
as it allows for quick recovery,
if this type of packet is carefully forged and sent
during an appropriate window it can be used for a DoS attack.
If you have active noticable problems with this type of DoS attack
then you should consider
disabling this option.
You can check your
.Cm peerstats
file for evidence of any of these attacks.
The
default for this flag is
.Ic enable .
.El
.It Ic includefile Ar includefile
This command allows additional configuration commands
to be included from a separate file.
Include files may
be nested to a depth of five; upon reaching the end of any
include file, command processing resumes in the previous
configuration file.
This option is useful for sites that run
.Xr ntpd 1ntpdmdoc
on multiple hosts, with (mostly) common options (e.g., a
restriction list).
.It Ic leapsmearinterval Ar seconds
This EXPERIMENTAL option is only available if
.Xr ntpd 1ntpdmdoc
was built with the
.Cm --enable-leap-smear
option to the
.Cm configure
script.
It specifies the interval over which a leap second correction will be applied.
Recommended values for this option are between
7200 (2 hours) and 86400 (24 hours).
.Sy DO NOT USE THIS OPTION ON PUBLIC-ACCESS SERVERS!
See http://bugs.ntp.org/2855 for more information.
.It Ic logconfig Ar configkeyword
This command controls the amount and type of output written to
the system
.Xr syslog 3
facility or the alternate
.Ic logfile
log file.
By default, all output is turned on.
All
.Ar configkeyword
keywords can be prefixed with
.Ql = ,
.Ql +
and
.Ql - ,
where
.Ql =
sets the
.Xr syslog 3
priority mask,
.Ql +
adds and
.Ql -
removes
messages.
.Xr syslog 3
messages can be controlled in four
classes
.Po
.Cm clock ,
.Cm peer ,
.Cm sys
and
.Cm sync
.Pc .
Within these classes four types of messages can be
controlled: informational messages
.Po
.Cm info
.Pc ,
event messages
.Po
.Cm events
.Pc ,
statistics messages
.Po
.Cm statistics
.Pc
and
status messages
.Po
.Cm status
.Pc .
.Pp
Configuration keywords are formed by concatenating the message class with
the event class.
The
.Cm all
prefix can be used instead of a message class.
A
message class may also be followed by the
.Cm all
keyword to enable/disable all
messages of the respective message class.
Thus, a minimal log configuration
could look like this:
.Bd -literal
logconfig =syncstatus +sysevents
.Ed
.Pp
This would just list the synchronizations state of
.Xr ntpd 1ntpdmdoc
and the major system events.
For a simple reference server, the
following minimum message configuration could be useful:
.Bd -literal
logconfig =syncall +clockall
.Ed
.Pp
This configuration will list all clock information and
synchronization information.
All other events and messages about
peers, system events and so on is suppressed.
.It Ic logfile Ar logfile
This command specifies the location of an alternate log file to
be used instead of the default system
.Xr syslog 3
facility.
This is the same operation as the
.Fl l
command line option.
.It Ic setvar Ar variable Op Cm default
This command adds an additional system variable.
These
variables can be used to distribute additional information such as
the access policy.
If the variable of the form
.Sm off
.Va name = Ar value
.Sm on
is followed by the
.Cm default
keyword, the
variable will be listed as part of the default system variables
.Po
.Xr ntpq 1ntpqmdoc
.Ic rv
command
.Pc ) .
These additional variables serve
informational purposes only.
They are not related to the protocol
other that they can be listed.
The known protocol variables will
always override any variables defined via the
.Ic setvar
mechanism.
There are three special variables that contain the names
of all variable of the same group.
The
.Va sys_var_list
holds
the names of all system variables.
The
.Va peer_var_list
holds
the names of all peer variables and the
.Va clock_var_list
holds the names of the reference clock variables.
.It Xo Ic tinker
.Oo
.Cm allan Ar allan |
.Cm dispersion Ar dispersion |
.Cm freq Ar freq |
.Cm huffpuff Ar huffpuff |
.Cm panic Ar panic |
.Cm step Ar step |
.Cm stepback Ar stepback |
.Cm stepfwd Ar stepfwd |
.Cm stepout Ar stepout
.Oc
.Xc
This command can be used to alter several system variables in
very exceptional circumstances.
It should occur in the
configuration file before any other configuration options.
The
default values of these variables have been carefully optimized for
a wide range of network speeds and reliability expectations.
In
general, they interact in intricate ways that are hard to predict
and some combinations can result in some very nasty behavior.
Very
rarely is it necessary to change the default values; but, some
folks cannot resist twisting the knobs anyway and this command is
for them.
Emphasis added: twisters are on their own and can expect
no help from the support group.
.Pp
The variables operate as follows:
.Bl -tag -width indent
.It Cm allan Ar allan
The argument becomes the new value for the minimum Allan
intercept, which is a parameter of the PLL/FLL clock discipline
algorithm.
The value in log2 seconds defaults to 7 (1024 s), which is also the lower
limit.
.It Cm dispersion Ar dispersion
The argument becomes the new value for the dispersion increase rate,
normally .000015 s/s.
.It Cm freq Ar freq
The argument becomes the initial value of the frequency offset in
parts-per-million.
This overrides the value in the frequency file, if
present, and avoids the initial training state if it is not.
.It Cm huffpuff Ar huffpuff
The argument becomes the new value for the experimental
huff-n'-puff filter span, which determines the most recent interval
the algorithm will search for a minimum delay.
The lower limit is
900 s (15 m), but a more reasonable value is 7200 (2 hours).
There
is no default, since the filter is not enabled unless this command
is given.
.It Cm panic Ar panic
The argument is the panic threshold, normally 1000 s.
If set to zero,
the panic sanity check is disabled and a clock offset of any value will
be accepted.
.It Cm step Ar step
The argument is the step threshold, which by default is 0.128 s.
It can
be set to any positive number in seconds.
If set to zero, step
adjustments will never occur.
Note: The kernel time discipline is
disabled if the step threshold is set to zero or greater than the
default.
.It Cm stepback Ar stepback
The argument is the step threshold for the backward direction,
which by default is 0.128 s.
It can
be set to any positive number in seconds.
If both the forward and backward step thresholds are set to zero, step
adjustments will never occur.
Note: The kernel time discipline is
disabled if
each direction of step threshold are either
set to zero or greater than .5 second.
.It Cm stepfwd Ar stepfwd
As for stepback, but for the forward direction.
.It Cm stepout Ar stepout
The argument is the stepout timeout, which by default is 900 s.
It can
be set to any positive number in seconds.
If set to zero, the stepout
pulses will not be suppressed.
.El
.It Xo Ic rlimit
.Oo
.Cm memlock Ar Nmegabytes |
.Cm stacksize Ar N4kPages
.Cm filenum Ar Nfiledescriptors
.Oc
.Xc
.Bl -tag -width indent
.It Cm memlock Ar Nmegabytes
Specify the number of megabytes of memory that should be
allocated and locked.
Probably only available under Linux, this option may be useful
when dropping root (the
.Fl i
option).
The default is 32 megabytes on non-Linux machines, and -1 under Linux.
-1 means "do not lock the process into memory".
0 means "lock whatever memory the process wants into memory".
.It Cm stacksize Ar N4kPages
Specifies the maximum size of the process stack on systems with the
.Fn mlockall
function.
Defaults to 50 4k pages (200 4k pages in OpenBSD).
.It Cm filenum Ar Nfiledescriptors
Specifies the maximum number of file descriptors ntpd may have open at once.
Defaults to the system default.
.El
.It Xo Ic trap Ar host_address
.Op Cm port Ar port_number
.Op Cm interface Ar interface_address
.Xc
This command configures a trap receiver at the given host
address and port number for sending messages with the specified
local interface address.
If the port number is unspecified, a value
of 18447 is used.
If the interface address is not specified, the
message is sent with a source address of the local interface the
message is sent through.
Note that on a multihomed host the
interface used may vary from time to time with routing changes.
.Pp
The trap receiver will generally log event messages and other
information from the server in a log file.
While such monitor
programs may also request their own trap dynamically, configuring a
trap receiver will ensure that no messages are lost when the server
is started.
.It Cm hop Ar ...
This command specifies a list of TTL values in increasing order, up to 8
values can be specified.
In manycast mode these values are used in turn in
an expanding-ring search.
The default is eight multiples of 32 starting at
31.
.El
	_END_PROG_MDOC_DESCRIP;
};

doc-section	= {
  ds-type	= 'FILES';
  ds-format	= 'mdoc';
  ds-text	= <<- _END_MDOC_FILES
.Bl -tag -width /etc/ntp.drift -compact
.It Pa /etc/ntp.conf
the default name of the configuration file
.It Pa ntp.keys
private MD5 keys
.It Pa ntpkey
RSA private key
.It Pa ntpkey_ Ns Ar host
RSA public key
.It Pa ntp_dh
Diffie-Hellman agreement parameters
.El
	_END_MDOC_FILES;
};

doc-section	= {
  ds-type	= 'SEE ALSO';
  ds-format	= 'mdoc';
  ds-text	= <<- _END_MDOC_SEE_ALSO
.Xr ntpd 1ntpdmdoc ,
.Xr ntpdc 1ntpdcmdoc ,
.Xr ntpq 1ntpqmdoc
.Pp
In addition to the manual pages provided,
comprehensive documentation is available on the world wide web
at
.Li http://www.ntp.org/ .
A snapshot of this documentation is available in HTML format in
.Pa /usr/share/doc/ntp .
.Rs
.%A David L. Mills
.%T Network Time Protocol (Version 4)
.%O RFC5905
.Re
	_END_MDOC_SEE_ALSO;
};

doc-section	= {
  ds-type	= 'BUGS';
  ds-format	= 'mdoc';
  ds-text	= <<- _END_MDOC_BUGS
The syntax checking is not picky; some combinations of
ridiculous and even hilarious options and modes may not be
detected.
.Pp
The
.Pa ntpkey_ Ns Ar host
files are really digital
certificates.
These should be obtained via secure directory
services when they become universally available.
	_END_MDOC_BUGS;
};

doc-section	= {
  ds-type	= 'NOTES';
  ds-format	= 'mdoc';
  ds-text	= <<- _END_MDOC_NOTES
This document was derived from FreeBSD.
	_END_MDOC_NOTES;
};
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