NOTE: This project exists independently of the Tor Project.
What: Enable Android and Java applications to easily host their own Tor Onion Proxies using the core Tor binaries. Just by including an AAR or JAR an app can launch and manage the Tor OP as well as start a hidden service.
Why: It's sort of a pain to deploy and manage the Tor OP, we want to make it much easier.
How: We are really just a thin Java wrapper around the Tor OP binaries and jtorctl.
Who: This work is part of the Thali Project and is being actively developed by Yaron Y. Goland assigned to the Microsoft Open Technologies Hub. We absolutely need your help! Please see the FAQ below if you would like to help!
For now you get to build this yourself. Eventually, when it has enough testing, I might consider publishing it to some maven repository.
- Install local maven (seriously, if you don't do this, nothing else will work)
- Clone this repo
- Install the JDK and if you are using Android, the Android SDK as well
- run 'gradlew install' from the root project. This will build the universal and java modules
If you are going to use this library with Android then go to 'android' directory
- gradlew build (gradle build -x installDebugAndroidTest)
- gradlew publish publishToMavenLocal
Now everything should be built and installed into your local maven. The project file will be packaged as an aar and can then be imported into your Android project.
In your Android project add the following to dependencies in build.gradle:
apply plugin: 'maven'
dependencies {
implementation 'com.msopentech.thali:universal:0.0.3'
implementation 'org.torproject:tor-android-binary:0.3.1.9a'
implementation 'com:msopentech:thali:toronionproxy:android:android:0.0.3@aar'
implementation 'org.slf4j:slf4j-android:1.7.7'
}
repositories {
mavenLocal()
mavenCentral()
google()
jcenter()
maven { url "https://raw.githubusercontent.com/guardianproject/gpmaven/master" }
}
While this code doesn't do much, using it is kind of a pain because of all the ceremony in Java land. So if you are going to host a Tor hidden service on your device or if you want to open connections to the Internet via Tor then there are a variety of things you need to know. My recommendation is that you open android/src/androidTest/java/com/msopentech/thali/toronionproxy/TorOnionProxySmokeTest.java and look up the method testHiddenServiceRecycleTime and start reading.
But everyone wants sample code so here is some sample code that will start a hidden service and open a socket to it.
String fileStorageLocation = "torfiles";
OnionProxyManager onionProxyManager =
new AndroidOnionProxyManager(this.getApplicationContext(), fileStorageLocation);
int totalSecondsPerTorStartup = 4 * 60;
int totalTriesPerTorStartup = 5;
// Start the Tor Onion Proxy
if (onionProxyManager.startWithRepeat(totalSecondsPerTorStartup, totalTriesPerTorStartup, true) == false) {
Log.e("TorTest", "Couldn't start Tor!");
return;
}
// Start a hidden service listener
int hiddenServicePort = 80;
int localPort = 9343;
String onionAddress = onionProxyManager.publishHiddenService(hiddenServicePort, localPort);
// It can taken anywhere from 30 seconds to a few minutes for Tor to start properly routing
// requests to to a hidden service. So you generally want to try to test connect to it a
// few times. But after the previous call the Tor Onion Proxy will route any requests
// to the returned onionAddress and hiddenServicePort to 127.0.0.1:localPort. So, for example,
// you could just pass localPort into the NanoHTTPD constructor and have a HTTP server listening
// to that port.
// Connect via the TOR network
// In this case we are trying to connect to the hidden service but any IP/DNS address and port can be
// used here.
Socket clientSocket =
Utilities.socks4aSocketConnection(onionAddress, hiddenServicePort, "127.0.0.1", localPort);
// Now the socket is open but note that it can take some time before the Tor network has everything
// connected and connection requests can fail for spurious reasons (especially when connecting to
// hidden services) so have lots of retry logic.
To work on the 'android' module. You must have first built the universal project from gradle. Then import android as a project into Android Studio. It will import binary versions of its dependencies from the maven repository.
If you are going to use this library with Java then go to the 'java' sub-directory and run 'gradlew install'.
I would also recommend running 'gradlew test'. This will make sure you are properly set up and will copy your test files which I recommend reading.
Now everything should be build and installed into your local maven.
Now go to your build.gradle file (or equivalent) and make sure you add:
apply plugin: 'maven'
Then go to your repositories and add:
mavenLocal()
mavenCentral()
google()
jcenter()
Then go to dependencies and add in:
implementation 'com.msopentech.thali:java:0.0.3'
implementation 'com.msopentech.thali:universal:0.0.3'
implementation 'org.slf4j:slf4j-api:1.7.7'
implementation 'net.freehaven.tor.control:jtorctl:0.2'
As discussed above, the code in this library is pretty trivial. But using it is hard because of the complexities of Tor and Java. For those in Java land please go to TorOnionProxySmokeTest and check out testHiddenServiceRecycleTime().
But here is some sample code to get you started.
String fileStorageLocation = "torfiles";
TorConfig torConfig = TorConfig.createDefault(
Files.createTempDirectory(fileStorageLocation).toFile());
torConfig.resolveTorrcFile();
TorInstaller torInstaller = new JavaTorInstaller(torConfig);
OnionProxyContext context= new JavaOnionProxyContext(torConfig, torInstaller, null);
final OnionProxyManager onionProxyManager = new OnionProxyManager(context);
final TorConfigBuilder builder = onionProxyManager.getContext().newConfigBuilder().updateTorConfig();
onionProxyManager.getContext().getInstaller().updateTorConfigCustom(builder.asString());
onionProxyManager.setup();
int totalSecondsPerTorStartup = 4 * 60;
int totalTriesPerTorStartup = 5;
// Start the Tor Onion Proxy
if (!onionProxyManager.startWithRepeat(totalSecondsPerTorStartup, totalTriesPerTorStartup, true)) {
return;
}
// Start a hidden service listener
int hiddenServicePort = 80;
int localPort = 9343;
String onionAddress = onionProxyManager.publishHiddenService(hiddenServicePort, localPort);
// It can taken anywhere from 30 seconds to a few minutes for Tor to start properly routing
// requests to to a hidden service. So you generally want to try to test connect to it a
// few times. But after the previous call the Tor Onion Proxy will route any requests
// to the returned onionAddress and hiddenServicePort to 127.0.0.1:localPort. So, for example,
// you could just pass localPort into the NanoHTTPD constructor and have a HTTP server listening
// to that port.
// Connect via the TOR network
// In this case we are trying to connect to the hidden service but any IP/DNS address and port can be
// used here.
Socket clientSocket =
Utilities.socks4aSocketConnection(onionAddress, hiddenServicePort, "127.0.0.1", localPort);
// Now the socket is open but note that it can take some time before the Tor network has everything
// connected and connection requests can fail for spurious reasons (especially when connecting to
// hidden services) so have lots of retry logic.
A huge thanks to Michael Rogers and the Briar project. This project started by literally copying their code (yes, I asked first) which handled things in Android and then expanding it to deal with Java. We are also using Briar's fork of JTorCtl until their patches are accepted by the Guardian Project.
Another huge thanks to the Guardian folks for both writing JTorCtl and doing the voodoo to get the Tor OP running on Android.
And of course an endless amount of gratitude to the heroes of the Tor project for making this all possible in the first place and for their binaries which we are using for all our supported Java platforms.
The universal project produces a JAR that contains code that is common to both the Java and Android versions of the project. We need this JAR available separately because we use this code to build other projects that also share code between Java and Android. So universal is very useful because we can include universal into our project's 'common' code project without getting into any Java or Android specific details.
On top of universal are the java and android projects. They contain code specific to those platforms along with collateral like binaries.
Note however that shared files like the jtorctl-briar, geoip and torrc are kept in Universal and we use a gradle task to copy them into the android and java projects.
One further complication are tests. Hard experience has taught that putting tests into universal doesn't work well because it means we have to write custom wrappers for each test in android and java in order to run them. So instead the tests live primarily in the android project and we use a gradle task to copy them over to the Java project. This lets us share identical tests but it means that all edits to tests have to happen in the android project. Any changes made to shared test code in the java project will be lost. This should not be an issue for anyone but a dev actually working on Tor_Onion_Proxy_Library, to users its irrelevant.
Well the release version is currently 0.0.3 so that should say something. This is an alpha. We have (literally) one test. Obviously we need a heck of a lot more coverage. But we have run that test and it does actually work which means that the Tor OP is being run and is available.
Yes, they won't interfere with each other. We use dynamic ports for both the control and socks channel.
ABSOLUTELY! You will need to sign a Contributor License Agreement before submitting your pull request. To complete the Contributor License Agreement (CLA), you will need to submit a request via the form and then electronically sign the Contributor License Agreement when you receive the email containing the link to the document. This needs to only be done once for any Microsoft Open Technologies OSS project.
Please make sure to configure git with a username and email address to use for your commits. Your username should be your GitHub username, so that people will be able to relate your commits to you. From a command prompt, run the following commands:
git config user.name YourGitHubUserName
git config user.email YourAlias@YourDomain
What we most need help with right now is test coverage. But we also have a bunch of features we would like to add. See our issues for a list.
This comes from the tor-android-library
I download the Expert Bundle for Windows from https://www.torproject.org/download/download.html.en and took tor.exe
, libeay32.dll
, libevent-2-0-5.dll
, libgcc_s_sjlj-1.dll
and ssleay32.dll
from the Tor directory. I then need to zip them all together into a file called tor.zip
and stick them into java/src/main/resources/native/windows/x86
.
I download the 32 bit Tor Browser Bundle for Linux from https://www.torproject.org/download/download.html.en and then unzipped and untared it and navigated to tor-browser_en-US\Browser\TorBrowser\Tor\
and copied out the tor and libevent-2.0.so.5 files. Note that for stupid reasons I really should fix I currently need to zip these files together into a file called tor.zip before sticking them into java/src/main/resources/native/linux/x86
.
I then do the same thing but this time with the 64 bit download and put the results into the x64 linux sub-directory.
I download the OS/X Tor Browser bundle from https://www.torproject.org/download/download.html.en and using 7Zip opened my way into the dmg file inside of 0.unknown partition\TorBrowser.app\TorBrowser\Tor
and copied out tor.real
and libevent-2.0.5.dylib
. And, as with Linux, I then need to zip those two files together into a file called tor.zip
and put that into java/src/main/resources/native/osx/x64
.
This comes from the tor-android-library.
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