* We only tested on apt, don't blindly change dev env stuff that's not
tested in CI
Signed-off-by: Ryan Friedman <25047695+Ryanf55@users.noreply.github.com>
this replaces the two booleans used to mediate TX and RX buffer
protection with mutexes.
The booleans were a hangover from the very early HAL_ChibiOS code, and
can lead to a deadlock. The sequence is as follows:
- a very high CAN bus bandwidth usage, triggered by MissionPlanner
requesting CAN_FORWARD on a CAN serial port. That causes a
"infinite" number of CAN_FRAME messages which saturates the bus,
and leads to the DroneCAN thread looping with no pause
- a serial port configured as GPS type AUTO, auto-probing for a GPS
that isn't there. This calls begin() periodically
- the UART TX thread assocated with that UART not making progress as
the TX thread priority is below the DroneCAN thread priority
- this causes the begin() in main thread waiting for _in_tx_timer to
loop forever, which triggers a watchdog
it is clear by inspection that this string can never be empty when the called function returns false. AP_OAPathPlanner::pre_arm_check is not that complicated!
This is also from the older version of the generator.
Note that as documented, some of the equations have been removed and
rearranged slightly as it is assumed their terms are zero. Additionally,
the result is taken as the sum of the diagonal entries of the matrix.
It's from the older version of the generator as well.
Update variable names in the real code to be the same as the generated
code. Skip generation of the unused alternate form of the equations.
Delete `acc_bf_generated.cpp` as we know exactly how to generate it now.
Requires digging up old versions of the generator script.
The equations have been rearranged somewhat after generation to choose
the appropriate method but they do match overall. The auto-substitution
of the power functions caused slight changes to the generated syntax so
we make those to the real code as well.
Delete `yaw_generated.cpp` as we know exactly how to generate it now.
Validated that the generated code matches exactly the code in AP_NavEKF3
(except for the early exits).
Delete `covariance_generated.cpp` as we know exactly how to generate it
now (and it was out of date anyway).
Document exactly which versions were used when generating the code.
Sympy is the most important so it is explicitly checked.
Also add an alternate generate script which uses `nix-shell` to make it
convenient to automatically use these versions.
Add a shell script to run the generate_1.py file. Foresight tells us
that we will need multiple such files.
Also ignore the generated code files as they are already out of date and
we are aiming to document provenance and make them unnecessary anyway.
- modification of CMakeLists to use new component names of idf 5.3;
- removing big sdkconfig, which changes a lot, when upgrading idf and to use sdkconfig.defaults, which contain only non default defines;
- Updated idf installation packages list, according to espressif documentation;
- Updated README.md to reflect changes in sdkconfig handling;
- Fixed WDT in Scheduler, it was broken with idf 5.3;
- fixed compilation issues with GCC 13 (which is used by idf 5.3);
- fixed bug in case when HAL_ESP32_WIFI defined as 0 (disable wifi)
- Added ESP32 targets sdkconfig (auto generated) to .gitignore