Compiling on Debian
This guide describes how to compile and run the devel branch under a Debian based system. It was tested using a fresh Debian Testing machine on Amazon EC2. For completeness, the steps pertaining to AWS are also included here.
Launch the VM
Login to your AWS account and launch an instance of Debian Testing. I used an ‘m3.xlarge’ since that has a bunch of cores, more than enough memory, optimized network and the instance store is on SSDs which can be switched to provisioned IOPs.
The Current AMI ID’s can be found in the Debian Wiki: wiki.debian.org/Cloud/AmazonEC2Image/
Upgrade to the very latest version
Once your EC2 instance is up, login ad
sudo su to become
First, we remove the backports and change the primary sources.list
rm -rf /etc/apt/sources.list.d echo "deb http://http.debian.net/debian testing main contrib" > /etc/apt/sources.list echo "deb-src http://http.debian.net/debian testing main contrib" >> /etc/apt/sources.list
Update and upgrade the system. Make sure you don’t have any broken/unconfigured packages. Sometimes you need to run safe/full upgrade more than once. When you are done, reboot.
apt-get update apt-get install aptitude aptitude -y update aptitude -y safe-upgrade aptitude -y full-upgrade reboot
Install build dependencies
Before you can build ArangoDB, you need a few packages pre-installed on your system.
Login again and install them.
sudo aptitude -y install git-core \ build-essential \ libssl-dev \ libjemalloc-dev \ cmake \ python2.7 \ sudo aptitude -y install libldap2-dev # Enterprise Edition only
Download the Source
Download the latest source using git:
unix> git clone git://github.com/arangodb/arangodb.git
This will automatically clone the devel branch.
Note: if you only plan to compile ArangoDB locally and do not want to modify or push any changes, you can speed up cloning substantially by using the --single-branch and --depth parameters for the clone command as follows:
unix> git clone --single-branch --depth 1 git://github.com/arangodb/arangodb.git
Switch into the ArangoDB directory
unix> cd arangodb unix> mkdir build unix> cd build
In order to generate the build environment please execute
unix> cmake ..
to setup the Makefiles. This will check the various system characteristics and installed libraries. If you installed the compiler in a non standard location, you may need to specify it:
cmake -DCMAKE_C_COMPILER=/opt/bin/gcc -DCMAKE_CXX_COMPILER=/opt/bin/g++ ..
If you compile on macOS, you should add the following options to the cmake command:
cmake .. -DOPENSSL_ROOT_DIR=/usr/local/opt/openssl -DCMAKE_OSX_DEPLOYMENT_TARGET=10.11
If you also plan to make changes to the source code of ArangoDB, you may want
to compile with the
Debug build type:
cmake .. -DCMAKE_BUILD_TYPE=Debug
Debug target enables additional sanity checks etc. which would slow down
production binaries. If no build type is specified, ArangoDB will be compiled
with build type
RelWithDebInfo, which is a compromise between good
performance and medium debugging experience.
Other options valuable for development:
Needed if you plan to make changes to AQL language (which is implemented using
a lexer and parser files in
or if you want to enable runtime assertions. To use the maintainer mode, your
system has to contain the tools FLEX and BISON.
Use this option if you want to have C++ stacktraces attached to your exceptions. This can be useful to more quickly locate the place where an exception or an assertion was thrown. Note that this option will slow down the produces binaries a bit and requires building with maintainer mode.
This will optimize the binary for the target architecture, potentially enabling more compiler optimizations, but making the resulting binary less portable.
ArangoDB will then automatically use the configuration from file etc/relative/arangod.conf.
This option activates additional code in the server that intentionally makes the server crash or misbehave (e.g. by pretending the system ran out of memory) when certain tests are run. This option is useful for writing tests.
This option disables all unit tests based on Googletest.
By default ArangoDB will be built with a bundled version of the JEMalloc allocator. This however will not work when using runtime analyzers such as ASAN or Valgrind. In order to use these tools for instrumenting an ArangoDB binary, JEMalloc must be turned off during compilation.
For release builds configure CMake with the following options:
cmake .. -DCMAKE_BUILD_TYPE=RelWithDebInfo -DUSE_MAINTAINER_MODE=off -DUSE_OPTIMIZE_FOR_ARCHITECTURE=On -DUSE_GOOGLE_TESTS=off
Gyp is used as makefile generator by V8. Gyp requires shared memory to be available, which may not if you i.e. compile in a chroot. You can make it available like this:
none /opt/chroots/ubuntu_precise_x64/dev/shm tmpfs rw,nosuid,nodev,noexec 0 2 devpts /opt/chroots/ubuntu_precise_x64/dev/pts devpts gid=5,mode=620 0 0
Compile the programs (server, client, utilities) by executing
in the build subdirectory. This will compile ArangoDB and create the binary executable
To run multiple jobs in parallel pass
Starting and testing
Check the binary by starting it using the command line.
unix> build/bin/arangod -c etc/relative/arangod.conf --server.endpoint tcp://127.0.0.1:8529 /tmp/database-dir
This will start up the ArangoDB and listen for HTTP requests on port 8529 bound to IP address 127.0.0.1. You should see the startup messages similar to the following:
2016-06-01T12:47:29Z  INFO ArangoDB xxx ... 2016-06-10T12:47:29Z  INFO using endpoint 'tcp://127.0.0.1.8529' for non-encrypted requests 2016-06-01T12:47:30Z  INFO Authentication is turned on 2016-60-01T12:47:30Z  INFO ArangoDB (version xxx) is ready for business. Have fun!
If it fails with a message about the database directory, please make sure the database directory you specified exists and can be written into.
Use your favorite browser to access the URL
This should bring up ArangoDB’s web interface.
Re-building ArangoDB after an update
To stay up-to-date with changes made in the main ArangoDB repository, you will
need to pull the changes from it and re-run
Normally, this will be as simple as follows:
unix> git pull unix> (cd build && make)
From time to time there will be bigger structural changes in ArangoDB, which may
render the old Makefiles invalid. Should this be the case and
about missing files etc., the following commands should fix it:
unix> rm -rf build/* unix> cd build && cmake .. <cmake options go here> unix> (cd build && make)
Note that the above commands will run a full rebuild of ArangoDB and all of its third-party components. That will take a while to complete.
In a local development environment it is not necessary to install ArangoDB somewhere, because it can be started from within the source directory as shown above.
If there should be the need to install ArangoDB, execute the following command:
(cd build && sudo make install)
The server will by default be installed in
The configuration file will be installed in
The database will be installed in
The ArangoShell will be installed in
You should add an arangodb user and group (as root), plus make sure it owns these directories:
useradd -g arangodb arangodb chown -R arangodb:arangodb /usr/local/var/lib/arangodb3-apps/ chown -R arangodb:arangodb /tmp/database-dir/
Note: The installation directory will be different if you use one of the
precompiled packages. Please check the default locations of your operating
system, e. g.
When upgrading from a previous version of ArangoDB, please make sure you inspect ArangoDB’s log file after an upgrade. It may also be necessary to start ArangoDB with the --database.auto-upgrade parameter once to perform required upgrade or initialization tasks.