INDI is a standard for astronomical instrumentation control. INDI Library is an Open Source POSIX implementation of the Instrument-Neutral-Device-Interface protocol.
INDI core library is composed of the following components:
- INDI Server.
- INDI Core Drivers: Hardware drivers that communicate with the equipment. Many devices are supported including:
- Mounts
- CCDs, CMOS, Webcams, DSLRs (Canon, Nikon, Sony, Pentax..etc).
- Focusers.
- Filter Wheels.
- Adaptive Optics.
- Domes.
- GPS.
- Weather Stations.
- Controllers.
- Auxiliary Devices (switches, watchdog, relays, light sources, measurement devices..etc).
- Client Library: Cross-platform POSIX and Qt5-based client libraries. The client libraries can be embedded in 3rd party applications to communicate with INDI server and devices.
INDI core device drivers are shipped with INDI library by default.
INDI 3rd party drivers are available in a dedicated 3rdparty repository and maintained by their respective owners.
Learn more about INDI:
On Debian/Ubuntu:
sudo apt-get install -y \
git \
cdbs \
dkms \
cmake \
fxload \
libgps-dev \
libgsl-dev \
libraw-dev \
libusb-dev \
zlib1g-dev \
libftdi-dev \
libgsl0-dev \
libjpeg-dev \
libkrb5-dev \
libnova-dev \
libtiff-dev \
libfftw3-dev \
librtlsdr-dev \
libcfitsio-dev \
libgphoto2-dev \
build-essential \
libusb-1.0-0-dev \
libdc1394-22-dev \
libboost-regex-dev \
libcurl4-gnutls-dev \
libtheora-dev
mkdir -p ~/Projects
cd ~/Projects
To build INDI in order to run drivers, then it is recommended to perform a quick shallow clone that will save lots of bandwidth and space:
git clone --depth 1 https://github.com/indilib/indi.git
On the other hand, if you plan to submit a PR or engage in INDI driver development, then getting a full clone is recommended:
git clone https://github.com/indilib/indi.git
It is worth making your own fork of indi in your own personal repository and cloning from that rather than cloning directly from the root indi.
mkdir -p ~/Projects/build/indi-core
cd ~/Projects/build/indi-core
cmake -DCMAKE_INSTALL_PREFIX=/usr -DCMAKE_BUILD_TYPE=Debug ~/Projects/indi
make -j4
sudo make install
Alternatively, you can use the developer-build.bash
script for faster build and less stress on your SSD or HDD.
cd ~/Projects/indi
./developer-build.bash
By default, this script builds the indi-core
inside machine's RAM
, i.e. /dev/shm
.
However, you can change the target build directory using the -o
option, for instance:
./developer-build.bash -o /path/to/new/build/dir
Also, this script checks if the target build directory has at least 512MB
of memory available and aborts if this is not the case.
You can force skip this test with the -f
option:
./developer-build.bash -f
Furthermore, this script executes make
in parallel by default.
If you are having problems or need to use fewer CPU cores, please adjust using the -j
option.
For example, to disable parallel execution:
./developer-build.bash -j1
This script creates a soft symbolic link file named build
to the target build directory.
This helps easier access by simply following the symbolic link:
cd ~/Projects/indi/build
Lastly, you could give all the options and arguments at once.
For instance, if you want to build in ~/indi-build
directory, skip the memory check, and run make using 8
cores, call the script with the following options:
cd ~/Projects/indi
./developer-build.bash -o ~/indi-build -f -j8
If your are planning to develop using Qt Creator then still follow this process and do a manual build first. Then in QT Creator:
- Open the project using File - Open File or Project.
- Navigate to Projects/indi and selec the CMakeLists.txt file.
- Qt Creator will open your project but will probably configure it incorrectly, select the Projects tab and change to the Projects/build/indi-core directory that you used to do the initial build. The project display may be blank but click on the build button (the geological hammer) anyway. The project should build.
It is very easy to get this process wrong and all sorts of subtle things can happen, such as everything appearing to build but your new functionality not being present.
Typical INDI Client / Server / Driver / Device connectivity:
INDI Client 1 ----| |---- INDI Driver A ---- Dev X
| |
INDI Client 2 ----| |---- INDI Driver B ---- Dev Y
| | |
... |--- indiserver ---| |-- Dev Z
| |
| |
INDI Client n ----| |---- INDI Driver C ---- Dev T
Client INET Server UNIX Driver Hardware
processes sockets process pipes processes devices
INDI server is the public network access point where one or more INDI Clients may contact one or more INDI Drivers. indiserver launches each driver process and arranges for it to receive the INDI protocol from clients on its stdin and expects to find commands destined for clients on the driver's stdout. Anything arriving from a driver process' stderr is copied to indiserver's stderr. INDI server only provides convenient port, fork and data steering services. If desired, a client may run and connect to INDI Drivers directly.
- INDI API
- INDI Developer Manual
- Tutorials
- Developers Forum
- Developers Chat
- Sample drivers are available under examples and drivers/skeleton directories. They can be used as a starting point for your driver development.
INDI uses Artistic Style to format all the C++ source files. Please make sure to apply the following astyle rules to any code that is submitted to INDI. On Linux, you can create ~/.astylerc file containing the following rules:
--style=allman
--align-reference=name
--indent-switches
--indent-modifiers
--indent-classes
--pad-oper
--indent-col1-comments
--lineend=linux
--max-code-length=124
Some IDEs (e.g. QtCreator) support automatic formatting for the code everytime you save the file to disk.
How to contribute to INDI full guide
Here is the short version on how to submit a PR:
- Login with a Github account and fork the official INDI repository.
- Clone the official INDI repository and add the forked INDI repository as a remote (git remote add ...).
- Create a local Git branch (git checkout -b my_branch).
- Work on the patch and commit the changes.
- If it is ready push this branch to your fork repo (git push -f my_fork my_branch:my_branch).
- Go to the official repo's github website in a browser, it will popup a message to create a PR. Create it.
- Pushing updates to the PR: just update your branch (git push -f my_fork my_branch:my_branch)..
If you would like to make cleaner PR (recommended!) please read this tutorial and follow it. The best way is to keep one logical change per commit and not pollute the history by multiple small fixes to the PR.
When submitting a new driver, the driver user documentation is required as part of the submission process.
- Installation: Driver name, executable name, version, required INDI version.
- Features: What features does it support exactly?
- Operation: How to operate the driver? Each sub section should come with a screen shot of the various tabs..etc.
Preferably annotated to make it easier for new users to follow.
- Connecting: How to establish connection? How to set port if any?
- Main Control: Primary control tab and its functions.
- Options: Explanation for the various options available.
- Etc: Any other tabs created by the driver.
- Issues: Any problems or issues or warnings the users should be aware about when using this driver.
You can base a new driver from an existing driver. Look in either the examples or drivers/skeleton directories on how to get started.
In order to run the unit test suite you must first install the Google Test Framework. You will need to build and install this from source code as Google does not recommend package managers for distributing distros.(This is because each build system is often unique and a one size fits all aproach does not work well).
Once you have the Google Test Framework installed follow this alternative build sequence:-
mkdir -p build/indi
cd build/indi
cmake -DINDI_BUILD_UNITTESTS=ON -DCMAKE_BUILD_TYPE=Debug ../../indi
make
cd test
ctest -V
For more details refer to the scripts in the travis-ci directory.