Route mavlink packets between endpoints.
There's one "master" endpoint that should be the flight stack (either on UART or UDP) and other components that can be on UDP or TCP endpoints.
TCP endpoints are added automatically if the TCP server is enabled, allowing clients to simply connect to mavlink-router without changing its configuration.
In order to compile you need the following packages:
- GCC or Clang compiler
- C and C++ standard libraries
We currently depend on mavlink C library which is generated by the build system during compilation. The corresponding submodule should be fetched.
$ git submodule update --init --recursive
Build system follows the usual configure/build/install cycle. Configuration is needed to be done only once. A typical configuration is shown below:
$ ./autogen.sh && ./configure CFLAGS='-g -O2' \
--sysconfdir=/etc --localstatedir=/var --libdir=/usr/lib64 \
--prefix=/usr
By default systemd integration is enabled. In a system without systemd it can be disabled --disable-systemd. The default systemd system directory is taken via pkg-config. To use another directory update the above path, use --with-systemdsystemunitdir.
Installation location can be changed using --prefix option while configuring.
Build:
$ make
Install:
$ make install
$ # or... to another root directory:
$ make DESTDIR=/tmp/root/dir install
To route mavlink packets from master ttyS1
to 2 other UDP endpoints, do as
following:
$ mavlink-routerd -e 192.168.7.1:14550 -e 127.0.0.1:14550 /dev/ttyS1:1500000
The 1500000
after colon above on /dev/ttyS1:1500000
is used to set the
UART baudrate. See more options with mavlink-routerd --help
It's also possible to route mavlinks packets from any interface using:
$ mavlink-routerd -e 192.168.7.1:14550 -e 127.0.0.1:14550 0.0.0.0:24550
mavlink-router also listens, by default, port 5760 for TCP connections. Any connection there will also receive routed packets.
It's also possible to use a .conf file to set options for mavlink-routerd.
By default, mavlink-routerd looks for a file
/etc/mavlink-router/main.conf
. File location can be overriden via
MAVLINK_ROUTER_CONF_FILE
environment variable, or via -c
switch when running
mavlink-routerd.
An example of conf file can be found on examples/config.sample
Besides default conf file, it's also possible to use a directory in where to put some extra configuration files. Files on such directory will be read in alphabetical order, and can add or override configurations found on previous files.
By default, /etc/mavlink-router/config.d
is the directory, but it can be
overriden via MAVLINK_ROUTER_CONF_DIR
environment variable, or via -d
switch when running mavlink-routerd.
Suppose default configuration file defines an UartEndpoint
using Baud=56600
,
an example of overriding configuration would be:
[UartEndpoint bravo]
Baud = 115200
That would change Endpoint bravo
baudrate to 115200
.
Mavlink router can also collect flight stack log. It supports collecting
both PX4 and Ardupilot flight stacks logs. To start logging, set a
directory to Log
key on General
section of config file (or use
argument option -l
).
Currently, mavlink router needs to be informed which MAVLink dialect
flight stack speaks, common
or ardupilotmega
. To define it, use
MavlinkDialect
key. For instance, to collect Ardupilot logs to
/var/log/flight-stack
directory, one could add to conf file:
[General]
Log=/var/log/flight-stack
MavlinkDialect=ardupilotmega
Logs are collected on .bin
(for Ardupilot) or .ulg
(for PX4) files
inside specified directory. Note that they are named XXXXX-date-time
,
where XXXXX
is an increasing number.
For more information about configuration files, see conf file section.
Pull-requests are accepted on GitHub. Make sure to check coding style with the provided script in tools/checkpatch and tools/checkpython, check for memory leaks with valgrind and test on real hardware.
Directory examples has some samples that can be used to test mavlink-router. Those are Python scripts, and pymavlink is required.
One can test mavlink-router by using examples/sender.py
and
examples/receiver.py
to simulate traffic of mavlink messages.
First script send mavlink ping messages to a target mavlink system-id, and
second receives and respond them.
For instance:
$ python examples/sender.py 127.0.0.1:3000 100 0
Will send mavlink pings to UDP port 3000. Those pings will have 100
as
source system and will have 0
as target-system (0
as target means broadcast).
Receiver could be set as:
$ python examples/receiver.py 127.0.0.1:4000 50
Where 50
is receiver system id. Then, to route between those:
$ mavlink-routerd -e 127.0.0.1:4000 0.0.0.0:3000
Note that it's possible to setup multiple senders and receivers to see mavlink-router in action.