\chapter[NTP]{Network Time Protocol} \gls{ntp} is the source of all evil and \gls{sla}. A network wide source of time configuration for all network nodes, servers, clients etc. is necessary. \textbf{Configure timezone}\\In this case it\tsq{s} for \gls{metdst}\textbf{:} \begin{txt} clock timezone MET 1 0 clock summer-time MET-DST recurring last Sun Mar 2:00 last Sun Oct 3:00 \end{txt} \textbf{Configure used timezone}\\when doing logging and debugging operations\textbf{:} \begin{txt} service timestamps debug datetime msec localtime show-timezone service timestamps log datetime msec localtime show-timezone \end{txt} A select number of Cisco switches support synchronization with the hardware clock, too. The standard is to only sync the software clock.\\\cliline{ntp update-calendar} \fig{ntp/ntp}{ntp}{\gls{ntp}} \gls{ntp} servers are a hierarchical tree with stratum 0 servers as the authoritative in the tree. These servers get their time from either \gls{gprs} satellites or atomic clocks {\footnotesize (i.e. an authoritative time \gls{src})}. \subsection{Characteristics} \begin{itemize} \item Uses \gls{udp} port 123 on both \gls{src} and \gls{dst}, \item polling interval ranging from 64-1024 sec. Length of interval is dependant upon network cond., \item large differences between \gls{ntp} reference time and local client time will result in increased pooling interval. \end{itemize} \fig{ntp/ntpstratum}{ntpstratum}{Stratum levels} \section{The old NTP from \tsq{85}} \textbf{Team Cymru} has a nice template for how to enable \gls{ntp} \textbf{with} \textit{access control} on \gls{ios} and \gls{junos}\footnote{\url{https://www.team-cymru.org/secure-ntp-template.html}}. Shown below is a copy of the \gls{ios} example from Cymrus website. \begin{cisco} ! Core NTP configuration ntp update-calendar ! update hardware clock (certain hardware only, i.e. 6509s) ntp server 192.0.2.1 ! a time server you sync with ntp peer 192.0.2.2 ! a time server you sync with and allow to sync to you ntp source Loopback0 ! we recommend using a loopback interface for sending NTP messages if possible ! ! NTP access control ntp access-group query-only 1 ! deny all NTP control queries ntp access-group serve 1 ! deny all NTP time and control queries by default ntp access-group peer 10 ! permit time sync to configured peer(s)/server(s) only ntp access-group serve-only 20 ! permit NTP time sync requests from a select set of clients ! ! access control lists (ACLs) access-list 1 remark utility ACL to block everything access-list 1 deny any ! access-list 10 remark NTP peers/servers we sync to/with access-list 10 permit 192.0.2.1 access-list 10 permit 192.0.2.2 access-list 10 deny any ! access-list 20 remark Hosts/Networks we allow to get time from us access-list 20 permit 192.0.2.0 0.0.0.255 access-list 20 deny any \end{cisco} \textbf{Beware} when running a cisco node as \gls{ntp} master and are using access-list to restrict possible clients/peers. You need to allow 127.127.[0-255].1 in the access-list\footnote{The 3rd octet will vary depending on the node.}. This because the master NTP node in the network uses this \gls{ipv4} address as internal master. \section[SNTP]{Simple Network Time Protocol} %\section{Secure NTP} % %\subsection{Characteristics} % %\begin{itemize} % \item \gls{ntp} is insecure be default, whích prompted for \gls{sntp} to come along, % \item Cisco \gls{ios} devices typically only support MD5 encryption\footnote{\url{https://en.wikipedia.org/wiki/MD5}} %\end{itemize} % %\subsubsection{Configure SNTP} % %\textbf{Team Cymru} has a nice template for how to enable \gls{sntp} on \gls{ios} and \gls{junos}\footnote{\url{https://www.team-cymru.org/secure-ntp-template.html}}. Shown below is a copy of the \gls{ios} example from Cymrus website. % %\begin{cisco} %ntp authenticate ! enable NTP authentication %ntp authentication-key [key-id] md5 [hash] ! define a NTP authentication key %ntp trusted-key [key-id] ! mark a NTP authentication key as trusted %ntp peer [peer_address] key [key-id] ! form a authenticated session with a peer %ntp server [server_address] key [key-id] ! form a authenticated session with a server %\end{cisco} % %\subsection{Versions} % %Generally today \gls{ntp}v3 or v4 is found. The difference to v4 \textit{(amongst other)} is %\begin{itemize} % \item support for \gls{ipv6}. % \item The security in the protocol is upped to with support for X509 certs. % \item Automatic calculation of time-distribution\footnote{to archive high time accuracy against lowest bandwidth cost} in a network based upon specific multicast groups leveraging v6 site-local multicast addresses. % \item \cliline{ntp-server ipv6-addr version 4} %\end{itemize} % %\textbf{Beware} when using \gls{sntp} that \gls{ntp} cannot be used. The same \gls{udp} port is used. \section[PTP]{Precision Time Protocol} \gls{ieee} 1588v2