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135 lines
5.2 KiB
TeX
135 lines
5.2 KiB
TeX
\chapter*{Introduction}
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\addcontentsline{toc}{chapter}{Introduction}
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Network administrators need to be aware of the
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current state of their networks. While routing protocols like OSPF often need
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to have complete information about the state of the networks, we did not find
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an existing project that would visualise this data easily. We have therefore
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created a rather simple program called Birdvisu, which aims to fill this hole.
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Apart from visualising the topology, we provide the user with basic analysis
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tools like showing the shortest path DAGs for routers. Furthermore, the
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architecture of Birdvisu will allow enhancing the data from the routing
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protocol with additional data, e.g. the utilization of particular links.
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\X{mov?}While the primary motivation for implementing Birdvisu was the need of the
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author, we believe that it might be useful for various OSPF deployments like
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community wireless networks or homelabs\X{2x glos}.
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\section*{Terminology}
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\addcontentsline{toc}{section}{Terminology}
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In this thesis, we use the word \emph{host} to mean a device connected to a
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network and capable of processing (sending, receiving, forwarding, \dots) IP packets.
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An \emph{administrator} is a person or a group of people, who provide the
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routers with configuration and who make sure that the routers (and other
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infrastructure) functions correctly.
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The word \emph{network} will always denote a set of hosts, that can exchange
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packets \uv{directly}, without forwarding, under normal circumstances. While
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this is somewhat synonymous with the term \emph{network segment}, when the
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network splits, there may be multiple link-layer segments belonging to the same
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network.
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We say that a router is said to be \emph{incident} to a network when it has an
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interface into it. For simplicity, we also say that that network is incident to
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that router (that is, the incidence relation is symmetrical). We say that
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a router is a \emph{neighbour} of another router, when they are incident to a
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shared network, and conversely, that two networks are neighbours when they
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share a router.
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We will use the word \emph{network system} (or just \emph{system}) to describe a
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set of network managed by a single administrator, which is intended to forward
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packets across it. This can mean the whole autonomous system\footnote{This is
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where we borrowed the word \uv{system} from.}, but often this is a much smaller
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part. When we speak about routing using OSPF, a system is only the set of
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networks that run a single instance of OSPF.
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By the term \emph{IP} we mean the Internet Protocol of either version 4 or 6.
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When it is important to distinguish, we explicitly write \emph{IPv4} or
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\emph{IPv6}. IP may also denote an IP address, as in \uv{a router has an IP},
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but this usage should be clear from the context.
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We distinguish between \emph{routing} as the act of finding next hops\X{glos},
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and \emph{forwarding}, the act of sending a received packet through an
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interface according to a \emph{routing table}. (Whether the routing table is
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distinct from the network-layer forwarding table is an implementation detail.)
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A \emph{topology} describes the connections in the network system, i.e. which
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router is connected to which networks, with what costs etc. We use the term
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\emph{graph} only when talking about visualisation of the network to
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distinguish between the real state and a virtual one. Moreover, in
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section~\ref{s:net-idiosyncracies} we will see that a topology is in fact not a
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graph (as understood by graph theory).
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\medskip
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We will be using many other networking terms, which we hope are well-known, but
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for the sake of completeness, we provide a \hyperref[ch:glossary]{glossary} and
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a \hyperref[ch:abbrs]{list of abbreviations} at the end of this thesis.
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\section*{Notation}
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\addcontentsline{toc}{section}{Notation}
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We write filenames and commands in monospace font, like in \texttt{rm -rf
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/bin}. Snippets of code are also written in monospace, but when we speak of a
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particular class in text, it is only capitalised, as in \uv{The keys of the
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dictionary are VertexIDs}.
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For network diagrams, we use the Network topology icons from
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Cisco\cite{cisco-icons}. The basic icons are shown on
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Figure~\ref{fig:basic-icons}.
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\begin{figure}[h]
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\centering
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\begin{subfigure}[b]{0.3\textwidth}
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\centering
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\X{Router}
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\caption*{Router}
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\end{subfigure}
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\begin{subfigure}[b]{0.3\textwidth}
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\centering
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\X{Network}
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\caption*{Network}
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\end{subfigure}
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\begin{subfigure}[b]{0.3\textwidth}
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\centering
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\X{Switch}
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\caption*{Switch}
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\end{subfigure}
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\caption{Basic Cisco network icons}
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\label{fig:basic-icons}
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\end{figure}
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\section*{Structure of the thesis}
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\addcontentsline{toc}{section}{Structure of the thesis}
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%- motivation
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% -tgt audience of birdvisu
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% - previous work / other approaches to network monitoring
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% - And why we do not like them
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% - Problem statement / project goals
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% - Non-goals and future goals
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%- Analysis / Survey (behaviour of computer networks)
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% - gennet as a method of testing behaviour
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% - OSPF
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% - BIRD + caveats
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% - Idiosyncracies of
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%- Design
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% - Technologies
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% - Project structure / overview
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% - Annotators
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% - handles
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% - Handling expected expansion
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%- Usage
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%- Evaluation?
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% - Home
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% - KAM
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%- Conclusion
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%
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% References?
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%
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% Glossary
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% List of abbreviations
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