The base of introduction
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\chapter{Motivation}\label{ch:motivation}
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%First, we need to further specify, what Birdvisu should be. This section
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%describes what is the missing project and why such project would be useful.
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In this chapter we explore existing solutions for visualising and monitoring
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network systems and describe the requirements of network administrators. From
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this we derive a set of properties Birdvisu should fulfil.
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\section{Existing approaches to network monitoring}
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Several approaches to network monitoring and status visalisation already exist.
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These can be approximately split into several types: visualisation of existing
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data, traffic visualisation, host monitoring systems and integrated system
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management platforms. We \X{uuuuuuuuuu}.
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\subsection{Visualisation of existing data}
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Tools in this category do not collect any data on their own, rather only
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focusing on visualising data from other tools. These projects are often small,
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can be easy to run and allow visualisation of various data, but they require
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other infrastructure to provide the data. For example, the Network
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Weathermap\cite{weathermap} project can be used to provide overview based on
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data in Cacti or other tools. Grafana\cite{grafana} provides many different
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methods of visualising data from various databases.
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This does not seem to be usable for visualising OSPF state, because we are not
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aware of any collectors of OSPF state data.
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\subsection{Traffic visualisation}
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Various software packages can collect and graph utilisation of network links.
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This often provides information about link state, but requires collection of
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data on all hosts. Also, in some cases, this might not provide accurate data of
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the system state, as we will see in section~\ref{s:net-broken}.
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These projects usually store a time series of utilisation and therefore need to
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be deployed on some central server as long-running services.
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Examples of this approach include Cacti\cite{cacti} and Munin\cite{munin}.
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Although both mentioned projects can graph other data, plugins for data
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collection are available, so this differentiates them from the previous group.
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\subsection{Host monitoring systems}
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Projects in tis category do not necessarily consider the whole network system,
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but check state of individual hosts. It is possible for them to run locally, as
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is the case for Plotnetcfg\cite{plotnetcfg}, or check the host over the network
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(CaLStats\cite{calstats}, Icinga\cite{icinga}), but they do not provide
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overall picture. The capabilities of these tools also differ, from just
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checking reachability (CaLStats) to being able to retreive various details from
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the hosts (Icinga, plotnetcfg).
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This approach can also miss some issues with the system, as described in the
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section~\ref{s:net-broken}.
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\subsection{Integrated system management platforms}
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Some network administrators have created platforms for managing the hosts
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across the network system. These systems usually know various aspects of the
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system and may provide features like configuration generation or topology
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visualisation\cite{nodewatcher-paper}. However, many of these are tailored for
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the specific system and are therefore not reusable in other environments.
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Also, since large number of people need to access such platforms, they are
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usually server based with web interface\cite{nodewatcher-paper}.
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\subsection{Topolograph}
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We are aware of the only project that would allow visualisation of OSPF
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topology, Topolograph\cite{topolograph}. While it does not collect its own
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data, its companion project, Ospfwatcher\cite{ospfwatcher}, is able to retrieve
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current topology data from a Quagga\cite{quagga} routing daemon. The deployment
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involves setting up Logstash\cite{logstash}, so this is only suitable to be run
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on a server.
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Also, we find the interface of Topolograph impractical to use in Firefox 116.0b2.
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\subsection{Summary of existing tools}
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\X{table}
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\subsection{Goals of Birdvisu}
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\begin{itemize}
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\item\X{TODO}
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\end{itemize}
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