Aravis is a glib/gobject based library for video acquisition using Genicam cameras. It currently implements the gigabit ethernet and USB3 protocols used by industrial cameras. It also provides a basic ethernet camera simulator and a simple video viewer.
Aravis is released under the LGPL v2+.
Up to the 0.6.x stable series, Aravis build system is based on Autotools. The recommended way to get the sources is to download the release tarballs from http://ftp.gnome.org/pub/GNOME/sources/aravis, and then compile it using the following commands:
./configure
make
make install
The current unstable serie of Aravis uses meson build system ( http://mesonbuild.com/ ). Release tarballs can be found at the same usual place. You can build and install Aravis like any other meson project:
meson build
cd build
ninja
ninja install
The build can be configured at any time using meson configure
in the build directory. meson configure
invoked without any other argument will show the configuration options.
On some platforms (like Ubuntu), you may have to configure the dynamic linker (ld) to let it know where the aravis libraries are installed, and run ldconfig as root in order to update ld cache.
Using the GNU build system on Mac OS X is not directly supported, but can be mimicked by augmenting the install procedure above with some environment settings:
brew install gettext intltool gtk-doc libxml2 meson
brew link --force gettext
brew link --force libxml2
meson build
ninja -C build
One way to increase streaming performance is to increase the stream packet size. arv_camera_gv_set_packet_size() and arv_camera_gv_auto_packet_size() allow you to change this parameter. By default, the network adapter of your machine will probably not let you receive packet bigger than 1500 bytes, which is the default Maximum Transfer Unit (MTU). It means if you want to use big packets, you also have to increase the network adapter MTU to a greater walue (8192 bytes being a recommended value). The exact procedure to change the MTU depends on the distribution you are using. Please refer to the administrator manual of your distribution.
On Fedora, MTU can be changed using the network setting panel. Edit the wired network settings. MTU parameter is in the Identity page.
On Debian / Ubuntu you can add a line "mtu 8192" to /etc/network/interfaces under the correct device.
iface ethusb0 inet static
address 192.168.45.1
netmask 255.255.255.0
broadcast 192.168.45.255
mtu 8192
Please note if your device is not connected directly to the machine, you may also have to tweak the active devices on your network.
Aravis can use packet sockets for the video receiving thread. But this mode requires extended capabilities. If you want to allow your application to use packet socket, you must set the cap_net_raw
capability using setcap
. For example, the following command gives this capability to the Aravis viewer (You should do this on the installed arv-viewer executable, has the one in the source tree is just a wrapper shell script):
sudo setcap cap_net_raw+ep arv-viewer
By default, USB devices permissions may not be sufficient to allow any user to access the USB3 cameras. This permissions can be changed by using an udev rule file. There is a file example in Aravis sources, src/aravis.rules. This file must be placed in /etc/udev/rules.d directory (The exact location may depend on the distribution you are using). This file only contains declarations for a couple of vendors. If you want to add an entry with the vendor of your camera, the output of lsusb
command will give you the vendor id, which is the first 4 digits of the ID field.
The Aravis library depends on libxml2 and glib2, with an optional USB support depending on libusb1, and an optional packet socket support depending on libaudit.
The GStreamer plugin depends on GStreamer1 in addition to the Aravis library dependencies.
The simple viewer depends on GStreamer1, Gtk+3, libnotify and the Aravis library dependencies.
The required versions are specified in the meson.build file in Aravis sources (or configure.ac if you are using the stable 0.6 series).
It is perfectly possible to only build the library, reducing the dependencies to the bare minimum.
As an open source and free software project, we welcome any contributions to the aravis project: code, bug reports, testing...
However, contributions to both Gigabit Ethernet and USB3 protocol code (files src/arvuv*.[ch]
src/arvgv*.[ch]
) must not be based on the corresponding specification documents published by the AIA, as this organisation forbids the use of their documents for the development of an open source implementation of the specifications. So, if you want to contribute to this part of Aravis, don't use the AIA documents and state clearly in the pull request your work is not based on them.
Aravis has a set of unit tests that helps to catch regressions and memory leaks during the development. The test suite is run using the following commands:
ninja test
The is a small helper script that run the same tests under valgrind memmory checker
../tests/valgrind-memcheck
All the code is not covered yet by the tests. Code coverage can be obtained using:
meson configure -Db_coverage=true
ninja coverage
The report is published in build/meson-logs/coveragereport/index.html
. Help on code coverage improvment is welcomed.
While most of the API is documented, Aravis documentation lacks some good tutorial about the many features if offers. But a good resource is the tests directory inside Aravis sources, where you will find a numbers of small samples showing different key features.
Aravis 0.8 has seen a major rewrite of how communication errors are handled. Instead of relying on a status API, each function that can fail has an additional error parameter now. This is the standard way of handling error in the glib ecosytem. The nice side effect is now errors throw exceptions in bindings where the language support them (rust, python, javascript).
A quick port from the older series to 0.8 series is just a matter of adding a NULL parameter to most of the modified functions. But you are advised to take this opportunity to correctly handle errors.
There is a page explaining Glib errors and how to manage them in the Glib documentation.
During the camera configuration, in C language it can be somehow cumbersome to check for errors at each function call. A convenient way to deal with this issue is the following construction:
GError **error = NULL;
if (!error) arv_camera_... (..., &error);
if (!error) arv_camera_... (..., &error);
if (!error) arv_camera_... (..., &error);
if (!error) arv_camera_... (..., &error);
if (error) {
handle error here;
g_clear_error (&error);
}
- 0.6.x stable releases: http://ftp.gnome.org/pub/GNOME/sources/aravis/0.6/
- 0.7.x unstable releases: http://ftp.gnome.org/pub/GNOME/sources/aravis/0.7/
- Forum: https://aravis-project.discourse.group
- Github repository: https://github.com/AravisProject/aravis
- Release notes: https://github.com/AravisProject/aravis/blob/master/NEWS.md
- Aravis 0.6 documentation: https://aravisproject.github.io/docs/aravis-0.6/
- Unstable Aravis 0.7 documentation: https://aravisproject.github.io/docs/aravis-0.7/
- Genicam standard : http://www.genicam.org