\hline\hline
Check 3 & \multicolumn{2}{l|}{Initialize the testing environment..}\\
\hline
- \multirow{5}{*}{Course of action}
+ \multirow{6}{*}{Course of action}
& 1. & Boot the SUT as in \emph{Check 1}.\\
& 2. & Setup iptables by executing
\texttt{\# code/iptables.sh}~\footnote{The IPTables script ensures
& 3. & Navigate to the working directory by running
\texttt{\$ cd /home/student/tt2015}\\
& 4. & Compile the echo server by running
- \texttt{\# cd code/server \&\& make \&\& cd -}\\
+ \texttt{\# cd code/server \&\& make}\\
& 5. & Start the echo server by running
\texttt{\# cd code/server \&\& java Main}\\
+ & 6. & Generate all test cases by running
+ \texttt{\$ python code/client/gen.py}\\
\hline
Passed & \multicolumn{2}{l|}{\textit{Yes/No}}\\
\hline\hline
\begin{enumerate}
\item 0 payload segments
\item 1 payload segments
- \item n=small payload segments
- \item n=big payload segments
+ \item n=small payload segments (1 byte)
+ \item n=big payload segments (65495 bytes)
\end{enumerate}
\item \emph{source port}
\begin{enumerate}
\item Correct
\item Incorrect
\end{enumerate}
- \item \emph{Packet order}
+ \item \emph{Segment order}
\begin{enumerate}
\item Correct
\item Out of order
- \item Missing packets
+ \item Missing Segments
\end{enumerate}
\end{enumerate}
cases feasible. The pairs are then all *except some where it does not make sense
to do so) tested with the different request sizes of partition 1.
-This is expressed in Table~\ref{table:testpairs}.
+This is expressed in Table~\ref{tbl:testpairs}. In this table the first five
+columns represent the different options for the partitions 2 to 6 of the above
+enumeration. The last four columns are the different number segments as
+described in the partition 1 of the above enumeration. These cells identify
+individual test cases by a number. An \xmark in the cell indicates that this
+test case can not be created as it is not possible with that number of segments
+(eg. sending segments out of order when the number of segments is 1).
-\newcounter{TCC}
\setcounter{TCC}{1}
-\newcommand{\doTCC}{\theTCC \stepcounter{TCC}}
\begin{table}[H]
\centering
- \begin{tabular}{|l|l|l|l|l|l|l|l|l|l|l|}
+ \begin{tabular}{|l|l|l|l|l|l||l|l|l|l|}
\hline
- & \multicolumn{10}{c|}{\textbf{Partition}}\\
+ & \multicolumn{9}{c|}{\textbf{Partition}}\\
\hline
- & \# & 4 & 5 & 3 & 6 & 2 & 1a & 1b & 1c & 1d\\
+ & 4 & 5 & 3 & 6 & 2 & 1a & 1b & 1c & 1d\\
\hline\hline
\multirow{9}{*}{Instance}
- & 1 & a & a & a & a & a & \doTCC & \doTCC & \doTCC & \doTCC\\
- & 2 & a & b & b & c & b & \xmark & \xmark & \doTCC & \doTCC\\
- & 3 & c & a & b & a & b & \xmark & \xmark & \doTCC & \doTCC\\
- & 4 & c & b & a & c & a & \xmark & \xmark & \doTCC & \doTCC\\
- & 5 & b & a & b & c & a & \xmark & \xmark & \doTCC & \doTCC\\
- & 6 & b & b & a & b & b & \xmark & \xmark & \doTCC & \doTCC\\
- & 7 & c & b & b & a & b & \doTCC & \doTCC & \doTCC & \doTCC\\
- & 8 & b & b & b & a & b & \doTCC & \doTCC & \doTCC & \doTCC\\
- & 9 & a & b & b & b & a & \xmark & \xmark & \doTCC & \doTCC\\
+ & a & a & a & a & a & \doTCC & \doTCC & \doTCC & \doTCC\\
+ & a & b & b & c & b & \xmark & \xmark & \doTCC & \doTCC\\
+ & c & a & b & a & b & \xmark & \xmark & \doTCC & \doTCC\\
+ & c & b & a & c & a & \xmark & \xmark & \doTCC & \doTCC\\
+ & b & a & b & c & a & \xmark & \xmark & \doTCC & \doTCC\\
+ & b & b & a & b & b & \xmark & \xmark & \doTCC & \doTCC\\
+ & c & b & b & a & b & \xmark & \doTCC & \doTCC & \doTCC\\
+ & b & b & b & a & b & \xmark & \doTCC & \doTCC & \doTCC\\
+ & a & b & b & b & a & \xmark & \xmark & \doTCC & \doTCC\\
\hline
-\end{tabular}
+ \end{tabular}
\caption{Combinations of test cases}
-\label{table:testpairs}
+\label{tbl:testpairs}
\end{table}
\subsection{Quality, completeness and coverage of tests}
As always, $100\%$ completeness is not feasible, therefore test cases are
carefully selected to cover the most interesting parts of the TCP specification
-to ensure a test suite.
+to ensure a complete but feasible test suite.
+
+To further increase the coverage of the test suites tests are randomized. The
+tests which test the handling of \emph{bit errors}, changes in the \emph{packet
+order} and \emph{dropped packets} randomize where they introduce an error. The
+test suite runs these tests multiple times to increase the likelihood that they
+discover a fault which is only present when an error occurs in a certain
+position.
To further decrease the number of tests needed test cases are divided into
equivalence partitions and the combination of cases as described in
-Table~\ref{table:testpairs} ensures that all partitions are
+Table~\ref{tbl:testpairs} ensures that all partitions are
covered and the number of individual tests is still feasible.
%
-\subsection{Test cases}
+\subsection{Test suite}
+
+Before executing the test suite the test environment has to be initialized.
+
+\begin{enumerate}
+ \item Boot the vm using VirtualBox.
+ \item Setup iptables by executing \texttt{\# code/iptables.sh}
+ \item Navigate to the working directory by running
+ \texttt{\$ cd /home/student/tt2015}
+ \item Start the echo server by running
+ \texttt{\# cd code/server \&\& Java Main}
+\end{enumerate}
+
+\subsubsection{Preflight checks}
+The we do the preflight checks as defined in Table~\ref{tbl:preflight}.
+
+\subsubsection{Test Cases}
+If the SUT passes the preflight checks the actual test cases can be executed.
+Table~\ref{tbl:testcases} shows the expected results of each of the test cases
+described in Table~\ref{table:testpairs}.
+
+\setcounter{TCC}{1}
+\begin{table}[H]
+ \centering
+ \begin{tabular}{|l|p{.7\linewidth}|}
+ \hline
+ Test number & Expected results\\
+ \hline\hline
+ \doTCC & An ACK\# of the send sequence number + 1.\\ \hline
+ \doTCC & An ACK\# of the sequence number of the last send segment + the
+ size of the payload of that segment.\\ \hline
+ \doTCC & An ACK\# of the sequence number of the last send segment + the
+ size of the payload of that segment.\\ \hline
+ \doTCC & An ACK\# of the sequence number of the last send segment + the
+ size of the payload of that segment.\\ \hline
+ \doTCC & The ACK\# for the SEQ\# of the first segments which is
+ corrupted is received for each consecutive segment send.\\
+ $\vdots$ & \\
+ \setcounter{TCC}{14}
+ \doTCC & The ACK\# for the SEQ\# of the first segments which is
+ corrupted is received for each consecutive segment send.\\ \hline
+ \doTCC & The segment is not attributed to the current connection
+ and therefore no ACK\# is received. \\ \hline
+ \doTCC & The ACK\# for the SEQ\# of the first segments which is
+ corrupted is received for each consecutive segment send.\\ \hline
+ \doTCC & The ACK\# for the SEQ\# of the first segments which is
+ corrupted is received for each consecutive segment send.\\ \hline
+ \doTCC & The segment is not attributed to the current connection
+ and therefore no ACK\# is received. \\ \hline
+ \doTCC & The ACK\# for the SEQ\# of the first segments which is
+ corrupted is received for each consecutive segment send.\\ \hline
+ \doTCC & The ACK\# for the SEQ\# of the first segments which is
+ corrupted is received for each consecutive segment send.\\ \hline
+ \doTCC & The ACK\# for the SEQ\# of the first segments which is
+ corrupted is received for each consecutive segment send.\\ \hline
+ \doTCC & The ACK\# for the SEQ\# of the first segments which is
+ corrupted is received for each consecutive segment send.\\ \hline
+ \hline
+ \end{tabular}
+\caption{Expected results of test cases}
+\label{table:preflightresults}
+\end{table}
+
+% Bij Ramons afwezigheid
+% Paul Vitero (linkerkant lange gang)
+% verdieping Mercator
+
+
+%\begin{longtable}{|p{.2\linewidth}|p{.8\linewidth}|}
+ %\hline
+ %Nr & 1 \\\hline
+ %Title & Single valid request with 1byte payload. \\\hline
+ %Input & Generated packets. \\\hline
+ %Expected output & Packets echoed back by Echo-Server. \\\hline
+ %\multirow{2}{*}{Course of action}
+ %& 1. Use the steps listed above in order to start the SUT. \\
+ %& 2. Execute the script by running \texttt{\# code/client/tests/1.py} \\\hline
+ %Valid trace & Verify that the script prints 'Success'. \\\hline
+ %\hline
+%
+ %Nr & 2 \\\hline
+ %Title & Single valid request with 65495bytes payload. \\\hline
+ %Input & Generated packets. \\\hline
+ %Expected output & Packets echoed back by Echo-Server. \\\hline
+ %\multirow{2}{*}{Course of action}
+ %& 1. Use the steps listed above in order to start the SUT. \\
+ %& 2. Execute the script by running \texttt{\# code/client/tests/2.py} \\\hline
+ %Valid trace & Verify that the script prints 'Success'. \\\hline
+ %\hline
+%
+ %Nr & 3 \\\hline
+ %Title & 5 valid requests with 1byte payload. \\\hline
+ %Input & Generated packets. \\\hline
+ %Expected output & Packets echoed back by Echo-Server, in the same order as the client sent them. \\\hline
+ %\multirow{2}{*}{Course of action}
+ %& 1. Use the steps listed above in order to start the SUT. \\
+ %& 2. Execute the script by running \texttt{\# code/client/tests/3.py} \\\hline
+ %Valid trace & Verify that the script prints 'Success'. \\\hline
+ %\hline
+%
+ %Nr & 4 \\\hline
+ %Title & 5 valid requests with 65495bytes payload. \\\hline
+ %Input & Generated packets with 65495bytes payload. \\\hline
+ %Expected output & Packets echoed back by Echo-Server, in the same order as the client sent them. \\\hline
+ %\multirow{2}{*}{Course of action}
+ %& 1. Use the steps listed above in order to start the SUT. \\
+ %& 2. Execute the script by running \texttt{\# code/client/tests/4.py} \\\hline
+ %Valid trace & Verify that the script prints 'Success'. \\\hline
+ %\hline
+%
+ %Nr & 5 \\\hline
+ %Title & 5 valid requests with 1byte payload sent out of order. \\\hline
+ %Input & Generated packets with 1byte payload, two packets are swapped in position. \\\hline
+ %Expected output & All requests sent up to and including
+ %the swapped packet with the lowest sequence number, the remaining packets are dropped. \\\hline
+ %\multirow{2}{*}{Course of action}
+ %& 1. Use the steps listed above in order to start the SUT. \\
+ %& 2. Execute the script by running \texttt{\# code/client/tests/5.py} \\\hline
+ %Valid trace & Verify that the script prints 'Success'. \\\hline
+ %\hline
+%
+ %Nr & 6 \\\hline
+ %Title & Request with corrupted source port. \\\hline
+ %Input & Generated packets with 1byte payload, in these packets the source port number is increased by one. \\\hline
+ %Expected output & - \\\hline
+ %\multirow{2}{*}{Course of action}
+ %& 1. Use the steps listed above in order to start the SUT. \\
+ %& 2. Execute the script by running \texttt{\# code/client/tests/6.py} \\\hline
+ %Valid trace & Verify that the script prints 'Success'. \\\hline
+ %\hline
+%
+%
+ %Nr & 6 \\\hline
+ %Title & Request with corrupted destination port. \\\hline
+ %Input & Generated packets with 1byte payload, in these packets the destination port number is increased by one. \\\hline
+ %Expected output & - \\\hline
+ %\multirow{2}{*}{Course of action}
+ %& 1. Use the steps listed above in order to start the SUT. \\
+ %& 2. Execute the script by running \texttt{\# code/client/tests/6.py} \\\hline
+ %Valid trace & Verify that the script prints 'Success'. \\\hline
+ %\hline
+%
+%\end{longtable}
-%\begin{table}
%\begin{tabularx}{\linewidth}{| l | X|}
%\hline
%Nr & 1 \\\hline