[[PageOutline]] [wiki:GEC18Agenda/LabWikiAndOEDL/Experiment1 <-- Back to Experiment 1] | [wiki:GEC18Agenda/LabWikiAndOEDL Jump to Main Tutorial Page] | [wiki:GEC18Agenda/LabWikiAndOEDL/Experiment3 Next to Experiment 3 -->] = Experiment 2 = == Overview == The goal of this second part of the tutorial is to showcase a realistic research experiment. A researcher developed a new algorithm which allows the [http://en.wikipedia.org/wiki/BitTorrent BitTorrent file sharing protocol] to be used to stream videos. She implemented her algorithm into the popular 'transmission' BitTorrent software, and would like to evaluate that prototype. The scenario of this simple experiment involves 4 ExoGENI virtual machine resources * one resource will be a [http://en.wikipedia.org/wiki/BitTorrent#Operation seed], i.e. a !BitTorrent peer which has the complete video file available and shares it with others * one resource will be a [http://en.wikipedia.org/wiki/BitTorrent#Operation tracker], i.e. an entity that maintain a list of peers interested in the video file * two resources act as [http://en.wikipedia.org/wiki/BitTorrent#Operation leechers], i.e. a !BitTorrent peer which are downloading the video file. These two leechers will run the modified !BitTorrent transmission software, which includes the researcher's algorithm (aka SBT, Streaming !BitTorrent). In addition, they will each also run a VLC player software, which will play the video as it is being received by the peer. [[Image(exp2_overview.png)]] In this experiment scenario, we will collect the following measurements: * from the !BitTorrent transmission client running on each peer, we will collect the upload rate, the download rate, and the percentage of completion for the video file * from the VLC player running on the leechers, we will collect the amount of decoded, lost and played video frame == Part 1 - Design/Setup == [[Image(wiki:GENIExperimenter/Tutorials/Graphics:design_on.png, 76)]] For help on all actions regarding !LabWiki, please refer to the [wiki:GEC18Agenda/LabWikiAndOEDL/Introduction previous page] '''The OEDL experiment description''' 1. First, if you have not done it yet, login into !LabWiki 2. Create a new experiment file with the name of your choice 3. Cut-and-paste the following OEDL experiment description into that file, then save it {{{ defProperty('slice', 'oedl-', "slice name") defProperty('tracker', "0", "ID of tracker node") defProperty('leecher_player', "1,2", "List of leecher/player nodes") defProperty('seeder', "5", "List of seeder nodes") defProperty('upload', 2500, 'Maximum torrent upload speed in kb/s') tracker = property.tracker.to_s.split(',').map { |x| "#{x}-#{property.slice}" } leecher_player = property.leecher_player.to_s.split(',').map { |x| "#{x}-#{property.slice}" } seeder = property.seeder.value.to_s.split(',').map { |x| "#{x}-#{property.slice}" } allresources = tracker + leecher_player + seeder defApplication('clean_all') do |app| app.description = 'Some commands to ensure that we start with a clean slate' app.binary_path = 'killall -s9 bttrack transmission-daemon vlc; rm -f /root/.config/transmission-daemon/settings.json; ' app.quiet = true end defApplication('clean_leechers') do |app| app.description = 'Ensure that leechers do not have the file to download' app.binary_path = 'rm -f /root/Downloads/* /root/.config/transmission-daemon/resume/* /root/.config/transmission-daemon/torrents/*' app.quiet = true end defApplication('bttrack') do |app| app.description = 'Bittornado BT tracker' app.binary_path = '/usr/bin/bttrack' app.defProperty('dfile', 'Database file', '--dfile', {:type => :string}) app.defProperty('port', 'Port number', '--port', {:type => :integer}) app.quiet = true end defApplication('transmission_daemon') do |app| app.description = 'bittorrent client with video streaming support' app.binary_path = '/usr/local/bin/transmission-daemon' app.defProperty('foreground', 'Run in foreground', '-f', {:type => :boolean}) app.quiet = true app.defMeasurement("stats") do |mp| mp.defMetric('tor_id', :int32) mp.defMetric('tor_name', :string) mp.defMetric('dl_rate', :double) mp.defMetric('ul_rate', :double) mp.defMetric('percent_done', :double) end end defApplication('vlc') do |app| app.description = 'VideoLAN client media player' app.binary_path = 'usr/local/bin/vlc.sh' app.defProperty('vstream', 'URL to play stream from', nil, {:type => :string}) app.quiet = true app.defMeasurement("video") do |mp| mp.defMetric('i_decoded_video_blocks', :int32) mp.defMetric('i_played_video_frames', :int32) mp.defMetric('i_lost_video_frames', :int32) end end defGroup('tracker', *tracker) do |g| g.addApplication("bttrack") do |app| app.setProperty('dfile', "/tmp/dfile_#{Time.now.to_i}") app.setProperty('port', 6969) end end defGroup('seeder', *seeder) do |g| g.addApplication("transmission_daemon") do |app| app.setProperty('foreground', true) app.measure('stats', :samples => 1) end end defGroup('leecher', *leecher_player) do |g| g.addApplication("transmission_daemon") do |app| app.setProperty('foreground', true) app.measure('stats', :samples => 1) end end defGroup('player', *leecher_player) do |g| g.addApplication("vlc") do |app| app.setProperty('vstream', "http://localhost:8080/big_buck_bunny_480p_stereo.avi?tor_url=http://192.168.1.1/big_buck_bunny_480p_stereo.avi.torrent") app.measure('video', :samples => 1) end end defGroup('all_resources', *allresources) do |g| g.addApplication("clean_all") end defGroup('all_leechers', *leecher_player) do |g| g.addApplication("clean_leechers") end onEvent(:ALL_UP_AND_INSTALLED) do |event| group("all_leechers").startApplications group("all_resources").startApplications after 10 do info "Starting tracker" group("tracker").startApplications end after 15 do info "Starting seeders" group("seeder").startApplications info "Starting leechers" group("leecher").startApplications end after 20 do # set the upload speed limit allGroups.exec("/usr/local/bin/transmission-remote -u #{property.upload.value}") end after 25 do info "Starting players" group("player").startApplications end after 220 do group("all_resources").startApplications Experiment.done end end defGraph 'Bittorrent' do |g| g.ms('stats').select {[ :oml_sender_id, :oml_seq, :oml_ts_server, :percent_done ]} g.caption "Bittorrent (torrent completion)" g.type 'line_chart3' g.mapping :x_axis => :oml_ts_server, :y_axis => :percent_done, :group_by => :oml_sender_id g.xaxis :legend => 'time [s]' g.yaxis :legend => 'Completion', :ticks => {:format => 's'} end defGraph 'VLC Player' do |g| g.ms('video').select {[ :oml_sender_id, :oml_seq, :oml_ts_server, :i_played_video_frames ]} g.caption "VLC Player (frames played)" g.type 'line_chart3' g.mapping :x_axis => :oml_ts_server, :y_axis => :i_played_video_frames, :group_by => :oml_sender_id g.xaxis :legend => 'time [s]' g.yaxis :legend => 'Frames played', :ticks => {:format => 's'} end }}} '''Walk-through the above OEDL experiment description''' 1. Here we define some experiment properties, which will allow us to parameterize the values for the slice, the resources, and the application settings used in the experiment. As mentioned earlier, these values may be customized for each experiment run. Compared to the previous first simple experiment, here we further declare variables (internal to the experiment descriptions), which facilitate our specific use of properties within this given experiment example. {{{ defProperty('slice', 'oedl-', "slice name") ... tracker = property.tracker.to_s.split(',').map { |x| "#{x}-#{property.slice}" } ... }}} 2. Then we declare the applications that we will use in this experiment. Similar to the previous first experiment, we use the [http://mytestbed.net/projects/omf6/wiki/OEDLOMF6#defApplication defApplication command] for these declarations. * The first two applications are bundles of command lines which ensure that no processes or created files from previous experiment runs remain * The third application is the modified and instrumented !BitTorrent prototype which we would like to evaluate. This application has been instrumented with [http://oml.mytestbed.net/projects/oml/wiki OML] and provides statistics about downloaded content * Finally the last application is the instrumented VLC player, which we will use to assess the efficiency of the prototype. This application is also OML-instrumented and provides information about the played video content {{{ defApplication('clean_all') do |app| ... end defApplication('clean_leechers') do |app| ... end ... }}} 3. Compared to the previous experiment, here we are setting the attribute ''quiet'' of the application to ''true''. This tells the resource controller which starts and monitors the application to log any application outputs locally, thus they will not be reported in !Labwiki's Execute column. {{{ defApplication('clean_all') do |app| ... app.quiet = true end }}} 4. We follow with the definition of the groups of resources, which we will use in this experiment * tracker: this group includes a single resource, which will act as the !BitTorrent tracker for the other resources. We associate a ''bttrack'' application to this group, and set the parameter properties for that application. * seeder: this group holds the resources which will seed the video content to the other resources. Thus it has a transmission daemon application associated to it, with the correct parameter set. * leecher: this group contains the resources which will download the video content from other peers. It also has an associated transmission daemon application. * player: this group has the same resources as the previous leecher groups and differs only by its associated application, which in this case is the VLC player, configured with the URI of the video content to play. * allresources: this group includes all resources used in this experiment, and is used to make sure that any previous application instances from previous experiment runs are terminated at the beginning of this particular run. * all_leechers: this groups contains the same resources as the leecher group, and is used to ensure that no previously downloaded content remains on these peers before they start their current download. {{{ defGroup('tracker', *tracker) do |g| ... end defGroup('seeder', *seeder) do |g| ... end ... }}} 5. We then define the tasks to perform at time '''t''' when all the resources and declared applications in all the defined groups are ready. The time offsets below are in seconds. * t: we start the cleaning applications on all the leechers and all the resources * t+10: we start the tracker application on the tracker resource * t+15: we start the BitTorrent applications on the peers (i.e. seeders and leechers) * t+20: we limit the upload rate on all the peers. Note that here we are using the '''exec''' OEDL command, which allows you to request the execution of a shell command on a group of resources. * t+25: we start the VLC application on the peers downloading the video content * we let the experiment run until t+220, when we perform another cleaning task before terminating the experiment run 6. Finally at the end of this file, we declare the graphs that !LabWiki should plot while the experiment is running. In this second example, we are interested in 2 graphs. a. The first graph shows the download completion (as a percentage) for the video content for all peers as a function of time b. The second graph shows the number of continuous frame played by the VLC player agains the time throughout the experiment execution == Part 2 - Execute == [[Image(wiki:GENIExperimenter/Tutorials/Graphics:execute_on.png, 76)]] == Part 3 - Finish == [[Image(wiki:GENIExperimenter/Tutorials/Graphics:finish_on.png, 76)]] == Help & Additional Resources == ---- [wiki:GEC18Agenda/LabWikiAndOEDL/Experiment1 <-- Back to Experiment 1] | [wiki:GEC18Agenda/LabWikiAndOEDL Jump to Main Tutorial Page] | [wiki:GEC18Agenda/LabWikiAndOEDL/Experiment3 Next to Experiment 3 -->]