Sebastian Kemper 18335dc424 | 5 years ago | |
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files | 5 years ago | |
Makefile | 5 years ago | |
README.md | 7 years ago |
Sysntpd is the lightweight implementation of the NTP protocol under Busybox. It supports many (but not all) of the same parameters.
It is configured as a config timeserver ntp
section in /etc/config/system
,
below.
A sample configuration looks like:
/etc/config/system:
config timeserver ntp
option enabled 1
option enable_server 1
list server tick.udel.edu
list server tock.udel.edu
list interface eth0
list interface eth1
list interface eth2
If you want to temporarily disable the service without deleting all of the
configuration state, this is done by clearing the enabled
parameter. If
this parameter is 1
(the default), the service is enabled.
The service can run as a stand-alone client (enable_server 0
, the default)
or it can also operate as a server in turn to local clients, by setting this
parameter to 1
.
The parameter(s) server
enumerate a list of servers to be used for
reference NTP servers by the local daemon. At least one is required,
and two or more are recommended (unless you have an extremely available
local server). They should be picked to be geographically divergent,
and preferrably reachable via different network carriers to protect
against network partitions, etc. They should also be high-quality
time providers (i.e. having stable, accurate clock sources).
The interface
parameter enumerates the list of interfaces on which
the server is reachable (see enable_server 1
above), and may be a
subset of all of the interfaces present on the system. For security
reasons, you may elect to only offer the service on internal networks.
If omitted, it defaults to all interfaces.
sysntpd
Busybox sysntpd
supports configuring servers based on DHCP
provisioning (option 6, per the DHCP and BOOTP
Parameter
list from IANA). This functionality is enabled (in Busybox) with the
use_dhcp
boolean parameter (default 1
), and the dhcp_interface
list parameter, which enumerates the interfaces whose provisioning
is to be utilized.
Most terrestrial and satellite ISPs have access to very high-quality clock sources (these are required to maintain synchronization on T3, OC3, etc trunks or earth terminals) but seldom offer access to those time sources via NTP in turn to their clients, mostly from a misplaced fear that their time source might come under attack (a slave closely tied to the master could also provide extremely high-quality time without the risk of network desynchronization should it come under sophisticated attack).
As a result, the NTP servers that your ISP may point you at are often of unknown/unverified quality, and you use them at your own risk.
Early millenial versions of Windows (2000, XP, etc) used NTP only to initially set the clock to approximately 100ms accuracy (and not maintain sychronization), so the bar wasn't set very high. Since then, requirements for higher-qualty timekeeping have arisen (e.g. multi-master SQL database replication), but most ISPs have not kept up with the needs of their users.
Current releases of Windows use Domain Controllers for time acquisition via the NT5DS protocol when domain joined.
Because of the unreliable quality of NTP servers DHCP-provisioned by ISPs, support for this functionality was deemed unnecessary.