Chip-select and SPI initialization uses the new config, whereas the drivers
still use the existing defines.
The configuration in board_config.h can be removed after all drivers are
updated.
Durandal:Fix PLL settings
durandal-v1:Move I2C123, I2C4 to HSI.
Not liking using HSI but, F7 has, and in reality there is no
requerment for accuracy.
durandal-v1:board config set 400kHz on card probe
durandal-v1:Board SDMMC Clock Not greater then 25 mHz
durandal-v1:Fix PLL3 configuration typo and value
CI build config for holybro_durandal-v1
durandal-v1:Kconfig - add knob to ensure ARCH_MATH_H is kept
Upstream changes added ARCH_HAVE_MATH_H to protect from archs
without math.h from causing isses for users setting
CONFIG_ARCH_MATH_H and getting errors. PX4 provides a math.h
and we need CONFIG_ARCH_MATH_H set. So this Selects
ARCH_HAVE_MATH_H perserving CONFIG_ARCH_MATH_H a defconfig
Track master LED removal
durandal-v1: bmi055 -> bmi088
bmi088 is what the board uses
durandal-v1:add PX4IO support
durandal-v1 rc.board_sensors: start baro
durandal-v1: remove segway module
durandal:Run at 480 Mhz
durandal-v1: build thermal control module
durandal-v1: enable IMU thermal control by default
durandal-v1:Track upstream adc start moved to rc.board_sensors
durandal-v1:Track upstream mavlink start moved to rc.board_mavlink
* NuttX cmake
* px4_macros:Pass the stringified predicate as second arg to static assert
CC_ASSERT mapes to the c++ static_assert or provides the same
funtionality for c via the other macros. The c++ static assert
takes 2 argumants the prdicate and a message. This fixes the
lacking second argument.
* Updated nuttx and apps submodule to upstream nuttx 7.21+==master
This is the latest uptake of upstream nuttx and apps.
* ROMFS generate with xxd instead of objcopy
* delete nuttx-patches
* NuttX update submodules to latest px4_nuttx-master
* fix nuttx apps and board dependency
* docker_run update to latest container 2017-08-29
* cmake ROMFS portable sed usage
* NuttX update submodules to latest px4_nuttx-master
It makes more sense to set the optimization flags on a platform basis
instead of individually for each module. This allows for different
optimization options for SITL, NuttX, Snapdragon, etc.
Now the mixer is a C++ library that can be fairly easily bolted into an output driver to provide mixing services.
Teach the FMU driver how to use it as an example. More testing is still required.
Peter van der Perk
David Sidrane
Daniel Agar
Beat Küng
modaltb
David Sidrane
José Roberto de Souza
Julian Oes
James Goppert
Anton Babushkin
Luis Rodrigues
Lorenz Meier
px4dev