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95d4c5a59b
The unit_format function in our somewhat outdated scales package rounds labels to whichever we accuracy we ask for. However, in some cases this is difficult to do right (e.g., Time to download files over Tor graph with measurements apparently getting faster over time), in other cases it's impossible (Advertised bandwidth distribution graph with 1st and 99th percentile having different orders of magnitude). The new custom_unit_format function does not round labels and instead determines more reasonably how many digits it needs to print. Fixes #34103. |
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LICENSE.relaysearch | ||
README |
This file contains outdated information and will be updated soon! Tor Metrics =========== Tor Metrics aggregates publicly available data about the Tor network and visualizes that data on a website. This software package, metrics-web, contains (1) the code to aggregate Tor network data, (2) the code to generate graphs and .CSV output, and (3) the code for a dynamic web application. metrics-web is based on Java, Ant, PostgreSQL, R, Apache HTTP Server, and Apache Tomcat. This README explains all necessary steps to install metrics-web including any databases (Section 1), the graphing engine (Section 2), and the web application (Section 3). 1. Installing the metrics database ================================== The metrics database contains data about the Tor Network coming from different sources, including the Tor directory authorities, Torperf performance measurement installations, and others. 1.1. Preparing the operating system =================================== This README describes the steps for installing metrics-web on a Debian GNU/Linux Jessie server. Instructions for other operating systems may vary. In the following it is assumed that sudo (or root) privileges are available. Start by adding a metrics user that will be used to execute all commands that do not require root privileges. $ sudo adduser metrics The database importer and website sources will be installed in /srv/metrics.torproject.org/ that is created as follows: $ sudo mkdir /srv/metrics.torproject.org/ $ sudo chmod g+ws /srv/metrics.torproject.org/ $ sudo chown metrics:metrics /srv/metrics.torproject.org/ Clone the metrics-web Git repository: $ cd /srv/metrics.torproject.org/ $ git clone git://git.torproject.org/metrics-web metrics Install OpenJDK 7, Ant 1.9.4, and PostgreSQL 9.4 that are necessary for setting up the metrics database. $ sudo apt-get install openjdk-7-jdk ant postgresql-9.4 Setting up the graphing engine (cf. 2.) requires installing R 2.8 or higher as well as the ggplot2 library. $ sudo apt-get install r-base r-cran-rserve r-cran-ggplot2 r-cran-reshape \ r-cran-scales r-cran-java Check the versions of the newly installed tools. $ java -version java version "1.7.0_101" OpenJDK Runtime Environment (IcedTea 2.6.6) (7u101-2.6.6-2~deb8u1) OpenJDK 64-Bit Server VM (build 24.95-b01, mixed mode) $ ant -version Apache Ant(TM) version 1.9.4 compiled on October 7 2014 $ psql --version psql (PostgreSQL) 9.4.8 Now prepare the library folder for all ant projects. $ cd /srv/metrics.torproject.org/metrics/ $ mkdir shared/lib Download .jar files listed below. Metrics usually uses Debian stable provided libraries, but you can also just download them elsewhere. Copy or link the following jars, annotated with file names in Debian stable packages, to /srv/metrics.torproject.org/metrics/shared/lib: commons-codec-1.9.jar [/usr/share/java/commons-codec-1.9.jar in libcommons-codec-java] commons-compress-1.9.jar [/usr/share/java/commons-compress-1.9.jar in libcommons-compress-java] commons-lang-2.6.jar [/usr/share/java/commons-lang-2.6.jar in libcommons-lang-java] gson-2.2.4.jar [/usr/share/java/gson.jar in libgoogle-gson-java] jstl1.1-1.1.2.jar [/usr/share/java/jstl1.1-1.1.2.jar in libjstl1.1-java] junit4-4.11.jar [/usr/share/java/junit4-4.11.jar in junit4] postgresql-jdbc3-9.2.jar [/usr/share/java/postgresql-jdbc3-9.2.jar in libpostgresql-jdbc-java] REngine.jar [/usr/lib/R/site-library/Rserve/java/REngine.jar in r-cran-rserve] Rserve.jar [/usr/lib/R/site-library/Rserve/java/Rserve.jar in r-cran-rserve] servlet-api-3.0.jar [/usr/share/java/servlet-api-3.0.jar in libservlet3.0-java] standard-1.1.2.jar [/usr/share/java/standard-1.1.2.jar in libjakarta-taglibs-standard-java] xz-1.5.jar [/usr/share/java/xz-1.5.jar in libxz-java] DescripTor is provided by The Tor Project and can be found here: https://dist.torproject.org/descriptor/ Download the tar.gz file with the version number listed in build.xml. The README inside the tar.gz file has all the information about DescripTor and explains how to verify the downloaded files. Copy descriptor-<version>.jar to /srv/metrics.torproject.org/shared/lib 1.2. Configuring the database ============================= The first step in setting up the metrics database is to configure the PostgreSQL database and import a database schema. Start by creating a new metrics database user. There is no need to give the metrics user superuser privileges or allow it to create databases or new roles. You will be prompted for the password. $ sudo -u postgres createuser -P metrics Create a new database tordir owned by user metrics. $ sudo -u postgres createdb -O metrics tordir Import the metrics database schema. $ sudo -u metrics psql -f /srv/metrics.torproject.org/metrics/modules/legacy/tordir.sql tordir Confirm that the database now contains tables to hold metrics data. In the following, => will be used as the database prompt. $ sudo -u metrics psql tordir => \dt+ => \q 1.3. Importing relay descriptor tarballs ======================================== In most cases it makes sense to populate the metrics database with archived relay descriptors from the official metrics website. Download the relay descriptor tarballs from the CollecTor website at https://collector.torproject.org/archive/relay-descriptors/ and extract them to /srv/metrics.torproject.org/archives/ . The database importer can process v3 votes, v3 consensuses, server descriptors, and extra-infos. Edit the config file ~/metrics-web/config (or create it if it's not there) to contain the following five lines (be sure to remove the linebreak in the line defining the JDBC string and insert the real password there): ImportDirectoryArchives 1 DirectoryArchivesDirectory archives/ KeepDirectoryArchiveImportHistory 1 WriteRelayDescriptorDatabase 1 RelayDescriptorDatabaseJDBC jdbc:postgresql://localhost/tordir?user=metrics&password=password Compile and run the Java database importer. $ cd /srv/metrics.torproject.org/metrics/ $ ./run-web.sh The database import will take a while. Once it's complete, check that the database tables now contain metrics data: $ sudo -u metrics psql tordir => \dt+ => \q It's safe to delete the relay descriptor files in ~/metrics-web/archives/ once they are imported. An alternative to importing relay descriptor tarballs directly into the database is to convert them into a data format that psql's \copy command can process. Look for the config option WriteRelayDescriptorsRawFiles in /srv/metrics.torproject.org/config.template for more information on this experimental feature. In a future version of metrics-web it may also be possible to update local relay descriptor tarballs from the official metrics server via rsync and import only the changes into the metrics database. The idea is to simply rsync the data/ directory from the CollecTor server and have all information available. However, this feature is not implemented yet. 1.4. Importing relay descriptors from a local Tor data directory ================================================================ In order to keep the data in the metrics database up-to-date, the metrics database importer can import the cached descriptors from a local Tor data directory. Configure a local Tor client to fetch all known descriptors as early as possible by adding these config options to its torrc file: DownloadExtraInfo 1 FetchUselessDescriptors 1 FetchDirInfoEarly 1 FetchDirInfoExtraEarly 1 Tell the metrics database importer where to find the cached descriptor files. One way to achieve this is to add symbolic links to /srv/metrics.torproject.org/archives/ like this. Tor's data directory is assumed to be /srv/tor/ here. $ cd /srv/metrics.torproject.org/archives/ $ ln -s /srv/tor/cached-* . Add a crontab entry for the database importer to run once per hour: 15 * * * * cd /srv/metrics.torproject.org/metrics/ && ./run-web.sh 1.5. Pre-calculating relay statistics ===================================== The relay graphs on the metrics website rely on pre-calculated statistics in the metrics database. These statistics are not calculated after every completed import, which would usually be once per hour. In general it's sufficient to pre-calculate statistics 2 or 4 times a day. Calculate statistics manually after large imports (this may take a while): $ sudo -u metrics psql tordir -c 'SELECT * FROM refresh_all();' If the metrics database gets updated automatically, write a script and add a crontab entry for pre-calculating statistics every 6 or 12 hours. 1.6. Importing sanitized bridge descriptors =========================================== The metrics database can store aggregate statistics about running bridges and bridge usage. These statistics are added by parsing sanitized bridge descriptors available on the official metrics website. Download a sanitized bridge descriptor tarball from the metrics website at https://collector.torproject.org/archive/bridge-descriptors/ and extract it to, e.g., /srv/metrics.torproject.org/bridges/bridge-descriptors-2011-05 Edit /srv/metrics.torproject.org/config to contain the following options: ImportSanitizedBridges 1 SanitizedBridgesDirectory bridges/ KeepSanitizedBridgesImportHistory 1 WriteBridgeStats 1 Note that the bridge usage statistics require parsing relay descriptors of the same time period in order to filter bridges that have been running as relays from the results. When parsing sanitized bridge descriptors for the first time it may be necessary to delete the relay descriptor import history in /srv/metrics.torproject.org/stats/archives-import-history and import all relay descriptors once again. Run the database import: $ ./run-web.sh 1.7. Importing Torperf performance data ======================================= Torperf measures the performance of the Tor network as users experience it. Torperf's measurement data are available on the metrics website and can be imported into the metrics database, too. Download the Torperf measurement files from the metrics website at https://collector.torproject.org/archive/torperf/ and put them in a subdirectory, e.g., /srv/metrics.torproject.org/torperf/ . Edit /srv/metrics.torproject.org/config to contain the following options: ImportWriteTorperfStats 1 TorperfDirectory torperf/ Run the database import: $ ./run-web.sh 2. Installing the graphing engine ================================= The metrics graphing engine generates custom graphs of Tor network data based on user-provided parameters. The graphing engine requires the metrics database to be installed as described in the previous section. The graphing engine uses R and Rserve to generate its graphs. Rserve is a TCP/IP server that makes it easy for other tools to use R without spawning their own R process. Rserve also pre-loads R code and R libraries which saves time when processing user requests. In this configuration, Rserve will run in the context of the metrics user. Start Rserve, this time with the metrics-web-specific configuration that includes pre-loading the graph code: $ cd /srv/metrics.torproject.org/rserve/ && ./start.sh Add a crontab entry to start Rserve on reboot: @reboot cd /srv/metrics.torproject.org/metrics/website/rserve/ && ./start.sh Rserve will pre-load the graph code at startup. If changes are made to the graph code, Rserve must be restarted: $ cd /srv/metrics.torproject.org/metrics/website/rserve/ $ killall Rserve; ./start.sh 3. Installing the metrics website ================================= The metrics website lets web users search parts of the metrics database and visualizes custom graphs. Note that the description here has a few specific parts that only apply to the official metrics website. These parts should be changed when setting up a non-official metrics website. 3.1. Configuring Apache HTTP Server =================================== The Apache HTTP Server is used as the front-end web server that serves static resources itself and forwards requests for dynamic resources to Apache Tomcat. Start by installing Apache 2: $ sudo apt-get install apache2 Disable Apache's default site. $ sudo a2dissite 000-default Enable mod_rewrite to tell Apache where to find static resources on disk. Also enable mod_proxy to forward requests to Tomcat. $ sudo a2enmod rewrite proxy_http Create a new virtual host configuration and store it in a new file /etc/apache2/sites-available/metrics.torproject.org with the following content: <VirtualHost *:80> ServerName metrics.torproject.org ServerAdmin torproject-admin@torproject.org ErrorLog /var/log/apache2/error.log CustomLog /var/log/apache2/access.log combined ServerSignature On <IfModule mod_proxy.c> <Proxy *> Order deny,allow Allow from all </Proxy> ProxyPass / http://127.0.0.1:8080/metrics/ retry=15 ProxyPassReverse / http://127.0.0.1:8080/metrics/ ProxyPreserveHost on </IfModule> </VirtualHost> Enable the new virtual host. $ sudo a2ensite metrics.torproject.org Restart Apache just to be sure that all changes are effective. $ sudo service apache2 restart 3.2. Configuring Apache Tomcat ============================== Apache Tomcat will process requests for dynamic resources, including web pages and graphs. Install Tomcat 8: $ sudo apt-get install tomcat8 Replace Tomcat's default configuration in /etc/tomcat8/server.xml with the following configuration: <Server port="8005" shutdown="SHUTDOWN"> <Service name="Catalina"> <Connector port="8080" maxHttpHeaderSize="8192" maxThreads="150" minSpareThreads="25" maxSpareThreads="75" enableLookups="false" redirectPort="8443" acceptCount="100" connectionTimeout="20000" disableUploadTimeout="true" compression="off" compressionMinSize="2048" noCompressionUserAgents="gozilla, traviata" compressableMimeType="text/html,text/xml,text/plain" /> <Engine name="Catalina" defaultHost="metrics.torproject.org"> <Host name="metrics.torproject.org" appBase="webapps" unpackWARs="true" autoDeploy="true" xmlValidation="false" xmlNamespaceAware="false"> <Alias>metrics.torproject.org</Alias> <Valve className="org.apache.catalina.valves.AccessLogValve" directory="logs" prefix="metrics_access_log." suffix=".txt" pattern="%l %u %t %r %s %b" resolveHosts="false"/> </Host> </Engine> </Service> </Server> Be sure to replace *.torproject.org with something else, unless this is a re-installation of the official metrics website. Update the paths starting with /srv/metrics.torproject.org/ in /srv/metrics.torproject.org/metrics/website/etc/web.xml to the correct paths in /srv/metrics.torproject.org/. The default paths in that file are correct for the official metrics website setup which is slightly different than the one described here. Now generate the web application. $ ant war Create a symbolic link to the ernie.war file: $ sudo ln -s /srv/metrics.torproject.org/metrics/website/metrics.war /var/lib/tomcat8/webapps/ Tomcat will now attempt to deploy the web application automatically. Whenever the metrics website needs to be redeployed, generate a new .war file and Tomcat will reload the web application automatically. Restart Tomcat to make all configuration changes effective: $ sudo service tomcat8 restart The metrics website should now work.