master-thesis/doc/appendix.tex

\chapter{\label{appendixminus1}Resources and code repositories}
The following sections describe how to acquire the resources
to reproduce the test results.

\section{\label{chapterminus1:thesis}Master Thesis}
The master thesis including all self developed source code is
available by git via

\begin{verbatim}
git clone git@gitlab.ethz.ch:nicosc/master-thesis.git
\end{verbatim}

It can be browsed online on \url{https://gitlab.ethz.ch/nicosc/master-thesis}.
% ----------------------------------------------------------------------
\section{\label{chapterminus1:thesis}Xilinx Toolchain}
A prerequisite for building the NetFGPA source code is the
installation of
\begin{itemize}
\item \verb=Xilinx_SDNet_2018.2_1005_9=
\item \verb=Xilinx_Vivado_SDK_2018.2_0614_1954=
\end{itemize}

Both tools need to be installed to /opt/Xilinx/, as paths are
hardcoded in various places.

% ----------------------------------------------------------------------
\section{\label{chapterminus1:thesis}NetFGPA}
To be able to compile P4 source code to the NetFPGA the collection of
scripts, Makefiles and sample code of P4-NetFGPA is required.

The repository \url{git@github.com:NetFPGA/P4-NetFPGA-live.git} needs
to be cloned to ``projects'' subdirectory as ``P4-NetPFGA''
of the user that wants to
compile the source code. Access to the repository is granted after
applying for access as described on
\url{https://github.com/NetFPGA/P4-NetFPGA-public/wiki}.
After that the variable \verb=P4_PROJECT_NAME= in
\url{~/projects/P4-NetFPGA/tools/settings.sh} needs to be modified to
read \verb|export P4_PROJECT_NAME=minip4| instead of
\verb|export P4_PROJECT_NAME=switch_calc|.

Sample code for installation:

\begin{verbatim}
  mkdir -p ~/projects
  git clone git@github.com:NetFPGA/P4-NetFPGA-live.git P4-NetFPGA
  sed -i 's/\(P4_PROJECT_NAME=\).*/\1minip4/' ~/projects/P4-NetFPGA/tools/settings.sh
\end{verbatim}

% ----------------------------------------------------------------------
\chapter{\label{appendix0}BMV2 environment and tests}
\section{\label{chapter0:bmv2-diff}Diff based checksumming}

\begin{verbatim}
\end{verbatim}

\chapter{\label{appendixA}NetFPGA environment and tests}
\section{\label{chapterA:netpfga-setup}NetFPGA Setup}
Description of installation, commit of netpfga-live

\section{\label{chapterA:section1}NetFPGA NAT64 Test cases}
todo: add graphic of nsg <-> esprimo cabling
\begin{verbatim}

ip addr add 10.0.0.42/24 dev enp2s0f0

# Adding necessary ARP entries: for the virtual IPv4 address(es)
ip neigh add 10.0.0.6  lladdr f8:f2:1e:09:62:d1 dev enp2s0f0
ip neigh add 10.0.0.42 lladdr f8:f2:1e:09:62:d1 dev enp2s0f0

\end{verbatim}

For all test cases the following network settings on esprimo:

\begin{verbatim}
12: enp2s0f0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc mq state UP group default qlen 1000
    link/ether f8:f2:1e:09:62:d0 brd ff:ff:ff:ff:ff:ff
    inet 10.0.0.42/24 scope global enp2s0f0
       valid_lft forever preferred_lft forever
    inet6 fe80::faf2:1eff:fe09:62d0/64 scope link
       valid_lft forever preferred_lft forever
13: enp2s0f1: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc mq state UP group default qlen 1000
    link/ether f8:f2:1e:09:62:d1 brd ff:ff:ff:ff:ff:ff
    inet6 2001:db8:42::42/64 scope global
       valid_lft forever preferred_lft forever
    inet6 fe80::faf2:1eff:fe09:62d1/64 scope link
       valid_lft forever preferred_lft forever
\end{verbatim}

\subsection{Test 1: IPv4 egress settings work}
Scenario: simple egress port setting for the IPv4 addresses

Step 1: getting correct values for table entries from python:

\begin{verbatim}
>>> int(ipaddress.IPv4Address(u"10.0.0.42"))
167772202
>>> int(ipaddress.IPv4Address(u"10.0.0.4"))
167772164
>>>

\end{verbatim}

Step 2: setting table netries

\begin{verbatim}

>> table_cam_add_entry realmain_v4_networks_0 realmain.set_egress_port 167772202 => 16 0 0 0 0
fields = [(u'hit', 1), (u'action_run', 3), (u'out_port', 8), (u'out_port', 8), (u'mac_addr', 48), (u'task', 16), (u'table_id', 16)]
action_name = TopPipe.realmain.set_egress_port
field_vals = [1, '16', '0', '0', '0', '0']
CAM_Init_ValidateContext() - done
WROTE 0x44020250 = 0xa00002a
WROTE 0x44020280 = 0x0000
WROTE 0x44020284 = 0x0000
WROTE 0x44020288 = 0x10000000
WROTE 0x4402028c = 0x0001
READ  0x44020244 = 0x0001
WROTE 0x44020240 = 0x0001
READ  0x44020244 = 0x0001
READ  0x44020244 = 0x0001
success
>> table_cam_add_entry realmain_v4_networks_0 realmain.set_egress_port 167772164 => 16 0 0 0 0
fields = [(u'hit', 1), (u'action_run', 3), (u'out_port', 8), (u'out_port', 8), (u'mac_addr', 48), (u'task', 16), (u'table_id', 16)]
action_name = TopPipe.realmain.set_egress_port
field_vals = [1, '16', '0', '0', '0', '0']
CAM_Init_ValidateContext() - done
WROTE 0x44020250 = 0xa000004
WROTE 0x44020280 = 0x0000
WROTE 0x44020284 = 0x0000
WROTE 0x44020288 = 0x10000000
WROTE 0x4402028c = 0x0001
READ  0x44020244 = 0x0001
WROTE 0x44020240 = 0x0001
READ  0x44020244 = 0x0001
READ  0x44020244 = 0x0001
success
>>
\end{verbatim}

Step 3: setting arp entries

\begin{verbatim}
root@ESPRIMO-P956:~# ip neigh add 10.0.0.6 lladdr f8:f2:1e:09:62:d1 dev enp2s0f0
root@ESPRIMO-P956:~# ip neigh add 10.0.0.4 lladdr f8:f2:1e:09:62:d1 dev enp2s0f0

\end{verbatim}
Step 3: generating test packets, expecting 4 packets to show up on
enp2s0f0:

%\tvb
\begin{verbatim}
nico@ESPRIMO-P956:~$ sudo tcpdump -ni enp2s0f0
tcpdump: verbose output suppressed, use -v or -vv for full protocol decode
listening on enp2s0f0, link-type EN10MB (Ethernet), capture size 262144 bytes
10:49:28.200407 IP 10.0.0.42 > 10.0.0.4: ICMP echo request, id 4440, seq 1, length 64
10:49:28.200445 IP 10.0.0.42 > 10.0.0.4: ICMP echo request, id 4440, seq 1, length 64
10:49:29.222340 IP 10.0.0.42 > 10.0.0.4: ICMP echo request, id 4440, seq 2, length 64
10:49:29.222418 IP 10.0.0.42 > 10.0.0.4: ICMP echo request, id 4440, seq 2, length 64
\end{verbatim}
%\tve

Result: sucess


\subsection{Test 2: IPv6 egress}
Similar to the IPv4 setting before, just for IPv6.

Step 1: getting IP address values

\begin{verbatim}
>>> int(ipaddress.IPv6Address(u"2001:db8:42::4"))
42540766411362381960998550477184434180L
>>> int(ipaddress.IPv6Address(u"2001:db8:42::6"))
42540766411362381960998550477184434182L
>>> int(ipaddress.IPv6Address(u"2001:db8:42::42"))
42540766411362381960998550477184434242L
\end{verbatim}

Step 2: setting table entries

\begin{verbatim}
>> table_cam_add_entry realmain_v6_networks_0 realmain.set_egress_port 42540766411362381960998550477184434182 => 64  0 0 0 0
fields = [(u'hit', 1), (u'action_run', 3), (u'out_port', 8), (u'out_port', 8), (u'mac_addr', 48), (u'task', 16), (u'table_id', 16)]
action_name = TopPipe.realmain.set_egress_port
field_vals = [1, '64', '0', '0', '0', '0']
CAM_Init_ValidateContext() - done
WROTE 0x44020350 = 0x0006
WROTE 0x44020354 = 0x0000
WROTE 0x44020358 = 0x420000
WROTE 0x4402035c = 0x20010db8
WROTE 0x44020380 = 0x0000
WROTE 0x44020384 = 0x0000
WROTE 0x44020388 = 0x40000000
WROTE 0x4402038c = 0x0001
READ  0x44020344 = 0x0001
WROTE 0x44020340 = 0x0001
READ  0x44020344 = 0x0001
READ  0x44020344 = 0x0001
success
>> table_cam_add_entry realmain_v6_networks_0 realmain.set_egress_port 42540766411362381960998550477184434242 => 64  0 0 0 0
fields = [(u'hit', 1), (u'action_run', 3), (u'out_port', 8), (u'out_port', 8), (u'mac_addr', 48), (u'task', 16), (u'table_id', 16)]
action_name = TopPipe.realmain.set_egress_port
field_vals = [1, '64', '0', '0', '0', '0']
CAM_Init_ValidateContext() - done
WROTE 0x44020350 = 0x0042
WROTE 0x44020354 = 0x0000
WROTE 0x44020358 = 0x420000
WROTE 0x4402035c = 0x20010db8
WROTE 0x44020380 = 0x0000
WROTE 0x44020384 = 0x0000
WROTE 0x44020388 = 0x40000000
WROTE 0x4402038c = 0x0001
READ  0x44020344 = 0x0001
WROTE 0x44020340 = 0x0001
READ  0x44020344 = 0x0001
READ  0x44020344 = 0x0001
success
>>
\end{verbatim}

Step 3: setting neighbor entries

\begin{verbatim}
nico@ESPRIMO-P956:~$ sudo ip -6 neigh add 2001:db8:42::6 lladdr f8:f2:1e:09:62:d0 dev enp2s0f1
nico@ESPRIMO-P956:~$ sudo ip -6 neigh add 2001:db8:42::4 lladdr f8:f2:1e:09:62:d0 dev enp2s0f1
\end{verbatim}

Step 4: generating test packets

\begin{verbatim}
nico@ESPRIMO-P956:~$ ping6 -c2 2001:db8:42::6
PING 2001:db8:42::6(2001:db8:42::6) 56 data bytes


nico@ESPRIMO-P956:~$ sudo tcpdump -ni enp2s0f1
tcpdump: verbose output suppressed, use -v or -vv for full protocol decode
listening on enp2s0f1, link-type EN10MB (Ethernet), capture size 262144 bytes
11:30:17.287577 IP6 2001:db8:42::42 > 2001:db8:42::6: ICMP6, echo request, seq 1, length 64
11:30:17.287599 IP6 2001:db8:42::42 > 2001:db8:42::6: ICMP6, echo request, seq 1, length 64
11:30:18.310178 IP6 2001:db8:42::42 > 2001:db8:42::6: ICMP6, echo request, seq 2, length 64
11:30:18.310258 IP6 2001:db8:42::42 > 2001:db8:42::6: ICMP6, echo request, seq 2, length 64

\end{verbatim}

Result: success, packet is seen twice.

% ------------------------------------------------------------------------------
\subsection{Test 3: NAT64}

Additionally to the preparations done in test 1 and 2, the following
steps were taken:

Step 1: getting IP address values via Python

\begin{verbatim}
>>> int(ipaddress.IPv6Address(u"2001:db8:42::2a"))
42540766411362381960998550477184434218L

>>> int(ipaddress.IPv6Address(u"2001:db8:42::"))
42540766411362381960998550477184434176L

>>> int(ipaddress.IPv4Address(u"10.0.0.0"))
167772160


>>> int(ipaddress.IPv4Address(u"10.0.0.66"))
167772226

\end{verbatim}

Add table entry for 2001:db8:42:2a to be translated to 10.0.0.42:

\begin{verbatim}
>> table_cam_add_entry realmain_nat64_0  realmain.nat64_static 42540766411362381960998550477184434218 => 42540766411362381960998550477184434176 167772160 42540766411362381960998550477184434176 0
fields = [(u'hit', 1), (u'action_run', 3), (u'v6_src', 128), (u'v4_dst', 32), (u'nat64_prefix', 128), (u'table_id', 16)]
action_name = TopPipe.realmain.nat64_static
field_vals = [2, '42540766411362381960998550477184434176', '167772160', '42540766411362381960998550477184434176', '0']
CAM_Init_ValidateContext() - done
WROTE 0x44020050 = 0x002a
WROTE 0x44020054 = 0x0000
WROTE 0x44020058 = 0x420000
WROTE 0x4402005c = 0x20010db8
WROTE 0x44020080 = 0x0000
WROTE 0x44020084 = 0x0000
WROTE 0x44020088 = 0x0000
WROTE 0x4402008c = 0xdb80042
WROTE 0x44020090 = 0x2001
WROTE 0x44020094 = 0x0a00
WROTE 0x44020098 = 0x0000
WROTE 0x4402009c = 0x0000
WROTE 0x440200a0 = 0xdb80042
WROTE 0x440200a4 = 0x22001
READ  0x44020044 = 0x0001
WROTE 0x44020040 = 0x0001
READ  0x44020044 = 0x0001
READ  0x44020044 = 0x0001
success
>>

\end{verbatim}

Add table entry for 2001:db8:42::a00:2a to be translated to 10.0.0.66:

\begin{verbatim}

\end{verbatim}

Add table entry for 10.0.0.66 to be translated to 2001:db8:42:42:

\begin{verbatim}
>> table_cam_add_entry realmain_nat46_0 realmain.nat46_static 167772226 => 42540766411362381960998550477184434176 167772160 42540766411362381960998550477184434176 0
fields = [(u'hit', 1), (u'action_run', 3), (u'v6_src', 128), (u'v4_dst', 32), (u'nat64_prefix', 128), (u'table_id', 16)]
action_name = TopPipe.realmain.nat46_static
field_vals = [2, '42540766411362381960998550477184434176', '167772160', '42540766411362381960998550477184434176', '0']
CAM_Init_ValidateContext() - done
WROTE 0x44020150 = 0xa000042
WROTE 0x44020180 = 0x0000
WROTE 0x44020184 = 0x0000
WROTE 0x44020188 = 0x0000
WROTE 0x4402018c = 0xdb80042
WROTE 0x44020190 = 0x2001
WROTE 0x44020194 = 0x0a00
WROTE 0x44020198 = 0x0000
WROTE 0x4402019c = 0x0000
WROTE 0x440201a0 = 0xdb80042
WROTE 0x440201a4 = 0x22001
READ  0x44020144 = 0x0001
WROTE 0x44020140 = 0x0001
READ  0x44020144 = 0x0001
READ  0x44020144 = 0x0001
success
>>
\end{verbatim}


Step 3: setting neighbor entries

\begin{verbatim}
sudo ip neigh add 10.0.0.66 lladdr f8:f2:1e:09:62:d1 dev enp2s0f0
sudo ip -6 neigh add 2001:db8:42::2a lladdr f8:f2:1e:09:62:d0 dev enp2s0f1
sudo ip -6 neighbor add 2001:db8:42::a00:2a lladdr f8:f2:1e:09:62:d0 dev enp2s0f1

\end{verbatim}

Step 4: ping test should translate, but fail with wrong checksum:

\begin{verbatim}
\end{verbatim}


\begin{verbatim}
\end{verbatim}



\chapter{\label{appendixB}NetFPGA Logs}
Majority of the log files are stored inside the source code directory
stored at ``netpfga/logs''. It follows a selection of log files

\section{\label{chapterB:netpfga-flasherror}NetFPGA Flash Errors}
Sometimes flashing bitfiles to the NetFPGA will fail. A random amount
of reboots (1 to 3) and a random amount of reflashing will fix this
problem.

Below can be found the log output from the flashing process.

\begin{verbatim}
nico@nsg-System:~/projects/P4-NetFPGA/contrib-projects/sume-sdnet-switch/projects/minip4/simple_sume_switch/bitfiles$ sudo bash -c ". $HOME/master-thesis/netpfga/bashinit && $(pwd -P)/program_switch.sh"
++ which vivado
+ xilinx_tool_path=/opt/Xilinx/Vivado/2018.2/bin/vivado
+ bitimage=minip4.bit
+ configWrites=config_writes.sh
+ '[' -z minip4.bit ']'
+ '[' -z config_writes.sh ']'
+ '[' /opt/Xilinx/Vivado/2018.2/bin/vivado == '' ']'
+ rmmod sume_riffa
+ xsct /home/nico/projects/P4-NetFPGA/contrib-projects/sume-sdnet-switch/tools/run_xsct.tcl -tclargs minip4.bit
rlwrap: warning: your $TERM is 'screen' but rlwrap couldn't find it in the terminfo database. Expect some problems.
RUN loading image file.
minip4.bit
100%   19MB   1.7MB/s  00:11
fpga configuration failed. DONE PIN is not HIGH
    invoked from within
"::tcf::eval -progress ::xsdb::print_progress {::tcf::cache_enter tcfchan#0 {tcf_cache_eval {process_tcf_actions_cache_client ::tcfclient#0::arg}}}"
    (procedure "::tcf::cache_eval_with_progress" line 2)
    invoked from within
"::tcf::cache_eval_with_progress [dict get $arg chan]  [list process_tcf_actions_cache_client $argvar] $progress"
    (procedure "process_tcf_actions" line 1)
    invoked from within
"process_tcf_actions $arg ::xsdb::print_progress"
    (procedure "fpga" line 430)
    invoked from within
"fpga -f $bitimage"
    (file "/home/nico/projects/P4-NetFPGA/contrib-projects/sume-sdnet-switch/tools/run_xsct.tcl" line 33)

+ bash /home/nico/projects/P4-NetFPGA/contrib-projects/sume-sdnet-switch/tools/pci_rescan_run.sh
Check programming FPGA or Reboot machine !
+ rmmod sume_riffa
rmmod: ERROR: Module sume_riffa is not currently loaded
+ modprobe sume_riffa
+ ifconfig nf0 up
nf0: ERROR while getting interface flags: No such device
+ ifconfig nf1 up
nf1: ERROR while getting interface flags: No such device
+ ifconfig nf2 up
nf2: ERROR while getting interface flags: No such device
+ ifconfig nf3 up
nf3: ERROR while getting interface flags: No such device
+ bash config_writes.sh

\end{verbatim}

\section{\label{chapterB:netpfga-flashok}NetFPGA Flash Success}
A successful flashing process also emits a couple of errors, however
the message ``fpga configuration failed. DONE PIN is not HIGH'' and
its succeeding lines are missing, as seen below.

After that in all cases a reboot is required; the PCI rescan in no
tested case showed the nf devices.


\begin{verbatim}
nico@nsg-System:~$ cd $NF_DESIGN_DIR/bitfiles/
nico@nsg-System:~/projects/P4-NetFPGA/contrib-projects/sume-sdnet-switch/projects/minip4/simple_sume_switch/bitfiles$ sudo bash -c ". $HOME/master-thesis/netpfga/bashinit && $(pwd -P)/program_switch.sh"
++ which vivado
+ xilinx_tool_path=/opt/Xilinx/Vivado/2018.2/bin/vivado
+ bitimage=minip4.bit
+ configWrites=config_writes.sh
+ '[' -z minip4.bit ']'
+ '[' -z config_writes.sh ']'
+ '[' /opt/Xilinx/Vivado/2018.2/bin/vivado == '' ']'
+ rmmod sume_riffa
+ xsct /home/nico/projects/P4-NetFPGA/contrib-projects/sume-sdnet-switch/tools/run_xsct.tcl -tclargs minip4.bit
rlwrap: warning: your $TERM is 'xterm-256color' but rlwrap couldn't find it in the terminfo database. Expect some problems.
RUN loading image file.
minip4.bit
attempting to launch hw_server

****** Xilinx hw_server v2018.2
  **** Build date : Jun 14 2018-20:18:37
    ** Copyright 1986-2018 Xilinx, Inc. All Rights Reserved.

INFO: hw_server application started
INFO: Use Ctrl-C to exit hw_server application

INFO: To connect to this hw_server instance use url: TCP:127.0.0.1:3121

100%   19MB   1.7MB/s  00:11
+ bash /home/nico/projects/P4-NetFPGA/contrib-projects/sume-sdnet-switch/tools/pci_rescan_run.sh
Check programming FPGA or Reboot machine !
+ rmmod sume_riffa
rmmod: ERROR: Module sume_riffa is not currently loaded
+ modprobe sume_riffa
+ ifconfig nf0 up
nf0: ERROR while getting interface flags: No such device
+ ifconfig nf1 up
nf1: ERROR while getting interface flags: No such device
+ ifconfig nf2 up
nf2: ERROR while getting interface flags: No such device
+ ifconfig nf3 up
nf3: ERROR while getting interface flags: No such device
+ bash config_writes.sh
nico@nsg-System:~/projects/P4-NetFPGA/contrib-projects/sume-sdnet-switch/projects/minip4/simple_sume_switch/bitfiles$
\end{verbatim}

\section{\label{chapterB:netpfga-kernelmodule}NetFPGA Kernel module}
After a successful flash, loading the kernel module will enable nf
devices to appear in the operating system.

\begin{verbatim}
nico@nsg-System:~$ ip l
1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue state UNKNOWN mode DEFAULT group default qlen 1000
    link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
2: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP mode DEFAULT group default qlen 1000
    link/ether 74:d0:2b:98:38:f6 brd ff:ff:ff:ff:ff:ff
3: eth1: <BROADCAST,MULTICAST> mtu 1500 qdisc noop state DOWN mode DEFAULT group default qlen 1000
    link/ether f8:f2:1e:41:44:9c brd ff:ff:ff:ff:ff:ff
4: eth2: <BROADCAST,MULTICAST> mtu 1500 qdisc noop state DOWN mode DEFAULT group default qlen 1000
    link/ether f8:f2:1e:41:44:9d brd ff:ff:ff:ff:ff:ff
5: wg0: <POINTOPOINT,NOARP,UP,LOWER_UP> mtu 1420 qdisc noqueue state UNKNOWN mode DEFAULT group default qlen 1000
    link/none
nico@nsg-System:~$ ~/master-thesis/bin/build-load-drivers.sh
+ cd /home/nico/projects/P4-NetFPGA/lib/sw/std/driver/sume_riffa_v1_0_0
+ sudo modprobe -r sume_riffa
+ make clean
make -C /lib/modules/4.15.0-55-generic/build M=/home/nico/projects/P4-NetFPGA/lib/sw/std/driver/sume_riffa_v1_0_0 clean
make[1]: Entering directory '/usr/src/linux-headers-4.15.0-55-generic'
  CLEAN   /home/nico/projects/P4-NetFPGA/lib/sw/std/driver/sume_riffa_v1_0_0/.tmp_versions
  CLEAN   /home/nico/projects/P4-NetFPGA/lib/sw/std/driver/sume_riffa_v1_0_0/Module.symvers
make[1]: Leaving directory '/usr/src/linux-headers-4.15.0-55-generic'
+ make all
make -C /lib/modules/4.15.0-55-generic/build M=/home/nico/projects/P4-NetFPGA/lib/sw/std/driver/sume_riffa_v1_0_0 modules
make[1]: Entering directory '/usr/src/linux-headers-4.15.0-55-generic'
  CC [M]  /home/nico/projects/P4-NetFPGA/lib/sw/std/driver/sume_riffa_v1_0_0/sume_riffa.o
  Building modules, stage 2.
  MODPOST 1 modules
  CC      /home/nico/projects/P4-NetFPGA/lib/sw/std/driver/sume_riffa_v1_0_0/sume_riffa.mod.o
  LD [M]  /home/nico/projects/P4-NetFPGA/lib/sw/std/driver/sume_riffa_v1_0_0/sume_riffa.ko
make[1]: Leaving directory '/usr/src/linux-headers-4.15.0-55-generic'
+ sudo make install
make -C /lib/modules/4.15.0-55-generic/build M=/home/nico/projects/P4-NetFPGA/lib/sw/std/driver/sume_riffa_v1_0_0 modules
make[1]: Entering directory '/usr/src/linux-headers-4.15.0-55-generic'
  Building modules, stage 2.
  MODPOST 1 modules
make[1]: Leaving directory '/usr/src/linux-headers-4.15.0-55-generic'
install -o root -g root -m 0755 -d /lib/modules/4.15.0-55-generic/extra/sume_riffa/
install -o root -g root -m 0755 sume_riffa.ko /lib/modules/4.15.0-55-generic/extra/sume_riffa/
depmod -a 4.15.0-55-generic
+ sudo modprobe sume_riffa
+ grep sume_riffa
+ lsmod
sume_riffa             28672  0
nico@nsg-System:~$
nico@nsg-System:~$ ip l
1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue state UNKNOWN mode DEFAULT group default qlen 1000
    link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
2: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP mode DEFAULT group default qlen 1000
    link/ether 74:d0:2b:98:38:f6 brd ff:ff:ff:ff:ff:ff
3: eth1: <BROADCAST,MULTICAST> mtu 1500 qdisc noop state DOWN mode DEFAULT group default qlen 1000
    link/ether f8:f2:1e:41:44:9c brd ff:ff:ff:ff:ff:ff
4: eth2: <BROADCAST,MULTICAST> mtu 1500 qdisc noop state DOWN mode DEFAULT group default qlen 1000
    link/ether f8:f2:1e:41:44:9d brd ff:ff:ff:ff:ff:ff
5: wg0: <POINTOPOINT,NOARP,UP,LOWER_UP> mtu 1420 qdisc noqueue state UNKNOWN mode DEFAULT group default qlen 1000
    link/none
6: nf0: <BROADCAST,MULTICAST> mtu 1500 qdisc noop state DOWN mode DEFAULT group default qlen 1000
    link/ether 02:53:55:4d:45:00 brd ff:ff:ff:ff:ff:ff
7: nf1: <BROADCAST,MULTICAST> mtu 1500 qdisc noop state DOWN mode DEFAULT group default qlen 1000
    link/ether 02:53:55:4d:45:01 brd ff:ff:ff:ff:ff:ff
8: nf2: <BROADCAST,MULTICAST> mtu 1500 qdisc noop state DOWN mode DEFAULT group default qlen 1000
    link/ether 02:53:55:4d:45:02 brd ff:ff:ff:ff:ff:ff
9: nf3: <BROADCAST,MULTICAST> mtu 1500 qdisc noop state DOWN mode DEFAULT group default qlen 1000
    link/ether 02:53:55:4d:45:03 brd ff:ff:ff:ff:ff:ff
nico@nsg-System:~$

\end{verbatim}

\section{\label{chapterB:netpfga-nftraffic}NetFPGA misses packets on nf*}
While the nf devices appear in the operating system, packets emitted
by the netpfga cannot be sniffed on the nf interfaces
directly. Instead one has to sniff packets on a physical network card
that is connected to the specific output port.


%Entries for the list of abbrevations:
%
%To generate the list of abbrevations, execute:
%makeindex Thesis.nlo -s nomencl.ist -o Thesis.nls
%
%If you are using TeXniCenter, specify:
%"%bm.nlo" -s nomencl.ist -o "%bm.nls"
%as beeing the argument list for makeindex.
%---------------------------------------------------------------------------------------------------------
%For old nomencl package uncomment this:
%\printglossary
%For new nomencl package uncomment this:
\printnomenclature

\abbrev{XCA}{\markup{X}tremely \markup{C}ool \markup{A}bbrevations}