Increase test coverage for Raspberry Pi's SoCs. Use the `socs` folder
rather than `boards` to enable these tests to run on any boards with the
same SoCs.
Signed-off-by: Andrew Featherstone <andrew.featherstone@gmail.com>
Avoid referring to Pico 2 (the name of a board). In this context,
RPI_PICO is used to refer to the (Zephyr) `SOC_FAMILY` rather than the
Pico 1 board. This clarifies common numerical values between the RP2040
and RP2350 SoC series, and enables existing DTS files to be used with
RP2350-based boards with fewer changes.
Remove the use of Zehpyr's `CONFIG_` macros from the device tree files,
and replace them with `SOC_SERIES`-specific files. Update the driver
implementation to conditionally include the correct file. Update
documentation and samples to match.
Signed-off-by: Andrew Featherstone <andrew.featherstone@gmail.com>
Add initial support for the RP2350's DMA peripheral, allow tests
under drivers/dma/loop_transfer to run on on the Raspberry Pi Pico 2,
and update the board's documentation.
Signed-off-by: Manuel Aebischer <manuel.aebischer@belden.com>
Signed-off-by: Andrew Featherstone <andrew.featherstone@gmail.com>
Add initial support for the RP2350's PIO peripherals, extend the
existing example under samples/boards/raspberrypi/rpi_pico/uart_pio to
demonstrate this on the Raspberry Pi Pico 2, and update the board's
documentation.
Signed-off-by: Andrew Featherstone <andrew.featherstone@gmail.com>
Signed-off-by: Manuel Aebischer <manuel.aebischer@belden.com>
Extend gpio_api_1pin so that tests can require a test fixture to provide
an external pulldown resistor to the board under test. Use the new
test-gpio-external-pulldown device tree binding to define where that
GPIO is, and, finally, add a device tree overlay for the Raspberry Pi
Pico 2 board that defines where the pulldown provided by the fixture
will be.
Tested locally using `--fixture gpio_external_pull_down` when running
Twister on the command line, or by creating and using a Hardware Map
file, in combination with a modified Pico 2.
Signed-off-by: Andrew Featherstone <andrew.featherstone@gmail.com>
Add OpenOCD debugger support.
For now we will need Raspberry Pi'a forked version of OpenOCD from
https://github.com/raspberrypi/openocd .
The default adapter speed is set to match Raspberry Pi's documentation.
Signed-off-by: Andrew Featherstone <andrew.featherstone@gmail.com>
For these tests' needs, the RP2350 on the Pico 2 is compatible with the
RP2040 on the Pico 1. #include the latter's overlay in preference to
duplicating the content.
Signed-off-by: Andrew Featherstone <andrew.featherstone@gmail.com>
The Raspberry Pi Pico 2's device is compatible with the existing Pico 1.
The build system requires a `<board>.overlay` file, but these use the
pre-processing to #include the sibling rpi_pico.overlay files rather
than duplicating the contents as an attempt to keep things DRY.
Tested locally.
Signed-off-by: Andrew Featherstone <andrew.featherstone@gmail.com>
Add UF2 Family ID for Raspberry Pi 2350 and build
UF2 image by default for Pico 2 board
Signed-off-by: Ryan Grachek <grachek@gmail.com>
Signed-off-by: Andrew Featherstone <andrew.featherstone@gmail.com>
The Raspberry Pi Pico 2 is Raspberry Pi's first board fitted with their
RP2350A SoC.
This adds a minimal board definition, sufficient to build and run
`samples/hello_world` and `samples/basic/blinky` on the board. Images
can be run on the target using OpenOCD. Raspberry Pi's `picotool` can
create a UF2 binary, which ensures that errata RP2350-E10 is avoided
e.g.
```
> picotool uf2 convert build\rpi_pico2\hello_world\zephyr\zephyr.elf \
build\rpi_pico2\hello_world\zephyr\zephyr.uf2 \
--family rp2350-arm-s --abs-block`
```
Raspberry Pi Pico 2 is a low-cost, high-performance microcontroller
board with flexible digital interfaces. Key features include:
- RP2350A microcontroller chip designed by Raspberry Pi in the United
Kingdom
- Dual Cortex-M33 or Hazard3 processors at up to 150MHz
- 520KB of SRAM, and 4MB of on-board flash memory
- USB 1.1 with device and host support
- Low-power sleep and dormant modes
- Drag-and-drop programming using mass storage over USB
- 26x multi-function GPIO pins including 3 that can be used for ADC
- 2x SPI, 2x I2C, 2x UART, 3x 12-bit 500ksps Analogue to Digital
Converter (ADC), 24x controllable PWM channels
- 2x Timer with 4 alarms, 1x AON Timer
- Temperature sensor
- 3x Programmable IO (PIO) blocks, 12 state machines total for custom
peripheral support
- Flexible, user-programmable high-speed IO
- Can emulate interfaces such as SD Card and VGA
The Raspberry Pi Pico 2 comes as a castellated module which allows
soldering direct to carrier boards.
Only enable timer 0 for now. Timer 1 won't work correctly until the
rpi_pico HAL has picked up the fix for `hardware_alarm_irq_handler`. See
https://github.com/raspberrypi/pico-sdk/pull/1949 .
Added some documentation for the board itself (mostly aiming to refer to
canonical sources of information rather duplicate). Add entries in the
release notes where applicable.
boards/raspberrypi/rpi_pico2/doc/img/rpi_pico2.webp is a cropped and
compressed version of https://www.raspberrypi.com/documentation/microcontrollers/images/pico-2.png
which is released under the CC-BY-SA-4.0 license. See https://github.com/raspberrypi/documentation/blob/develop/LICENSE.md
Signed-off-by: Andrew Featherstone <andrew.featherstone@gmail.com>
Signed-off-by: Benjamin Cabé <benjamin@zephyrproject.org>
On RP2350, the alt function value can be up to 0x1F, so store as 5 bits.
Signed-off-by: Peter Johanson <peter@peterjohanson.com>
Signed-off-by: Andrew Featherstone <andrew.featherstone@gmail.com>
A significant amount of the pin muxing is duplicated between the RP2040,
the RP2350A, and RP2350B. Reflect this in the file structure, with a
`-common` suffix used to to indicate this.
Macros are defined in ascending order of the function index in the
relevant table in the datasheet. SoC/SoC-series specific macros are
defined in their respective tables. Functions that are not currently
used (e.g. the new HSTX) are intentionally not defined here as they do
not (currently) have any use in the Zephyr tree (i.e. there's no drivers
that make use of this functionality).
clang-format has been run over the existing definitions to reduce the
noise generated by CI. These are cosmetic changes; I've tried to retain
attribution to the relevant authors where applicable.
Signed-off-by: Andrew Featherstone <andrew.featherstone@gmail.com>
The RP2350 SoC series contain two timer peripherals. Extend the driver
to support using the second timer (`TIMER1`).
N.b. this requires a fix from the Pico SDK to be patched into
hal_rpi_pico. See https://github.com/raspberrypi/pico-sdk/pull/1949 .
Signed-off-by: Andrew Featherstone <andrew.featherstone@gmail.com>
The watchdog register configuration of RP2350 differs from that
of RP2040, so we make fit that.
Signed-off-by: TOKITA Hiroshi <tokita.hiroshi@gmail.com>
Signed-off-by: Andrew Featherstone <andrew.featherstone@gmail.com>
Unlike the RP2040, the RP2350 has multiple tick generators that need to
be started. Start TIMER0 and TIMER1 tick generators during
clock_control_init.
Signed-off-by: Andrew Featherstone <andrew.featherstone@gmail.com>
Extend the existing driver to add some initial support for the new SoC,
whilst maintaining compatibility with the RP2040.
Signed-off-by: Andrew Featherstone <andrew.featherstone@gmail.com>
RP2350 is Raspberry Pi's newest SoC. From the datasheet:
"RP2350 is a new family of microcontrollers from Raspberry Pi that
offers significant enhancements over RP2040. Key features include:
• Dual Cortex-M33 or Hazard3 processors at 150 MHz
• 520 kB on-chip SRAM, in 10 independent banks
• 8 kB of one-time-programmable storage (OTP)
• Up to 16 MB of external QSPI flash/PSRAM via dedicated QSPI bus
...
"
This commit introduces some changes to support the existing RP2040 and
what is describe by Raspberry Pi as the "RP2350 family". Currently there
are 4 published products in the family: RP2350A, RP2350B, RP2354A, and
RP2354A. Within Zephyr's taxonomy, split the configuration as follows:
Family: Raspberry Pi Pico. This contains all RP2XXX SoCs,
SoC Series: RP2040 and RP2350.
SoC: RP2040 and, for now, just the RP2350A, which is present on the Pico
2, where the A suffix indicates QFN-60 package type. This structure is
reflected in `soc/raspberrypi/soc.yml`, and somewhat assumes that there
won't be a RP2050, for example, as a RP2040 with more RAM.
This is foundation work ahead of introducing support for Raspberry Pi's
Pico 2 board, which is fitted with a RP2350A and 4MB of flash.
Signed-off-by: Andrew Featherstone <andrew.featherstone@gmail.com>
Signed-off-by: Benjamin Cabé <benjamin@zephyrproject.org>
Add support for SoC-specific clock ids and update the initialization
function to support the existing RP2040 and add support for the RP2350.
clock_control_rpi_pico.c uses numerical values for clock ids taken from
rpi_pico_clock.h which are the "clock generator". For the RP2350 these
values are different for some of the same logical clock sources, as well
as the RP2040 and RP2350 having different clock sources available.
Signed-off-by: Andrew Featherstone <andrew.featherstone@gmail.com>
XIP prefetching seems to still be running, even while interrupts are
disabled. Therefore it is important to wait for the FlexSPI to be idle
before performing a write/erase operation.
Signed-off-by: Martin Stumpf <martin.stumpf@vected.de>
Completes the PLLi2S configuration for this board based on stm32f411
with a PLLI2S compatible = "st,stm32f411-plli2s-clock";
Signed-off-by: Francois Ramu <francois.ramu@st.com>
Completes the PLLi2S configuration for those boards based on stm32f4
with a PLLI2S compatible = "st,stm32f411-plli2s-clock";
Signed-off-by: Francois Ramu <francois.ramu@st.com>
nRF54L05 and nRF54L10 devices that are emulated on nRF54L15
needs to have manually disabled remaining RAM blocks
that are outside of their RAM region definitions.
Signed-off-by: Nikodem Kastelik <nikodem.kastelik@nordicsemi.no>
Using bare-metal approach for retention configuration
is no longer compatible with sys_poweroff() implementation.
Signed-off-by: Nikodem Kastelik <nikodem.kastelik@nordicsemi.no>
RAM retention is disabled for all RAM blocks
before entering System OFF to achieve lowest power consumption.
RAM retention can still be enabled using retained_mem driver.
Signed-off-by: Nikodem Kastelik <nikodem.kastelik@nordicsemi.no>
Add a GPIO driver for the Microchip MEC5 HAL based chips.
Current devices are: MEC174x, MEC175x, and HAL version of
MEC172x named MECH172x.
Signed-off-by: Scott Worley <scott.worley@microchip.com>
This adds initial support for NXP SDMA controller. We make use
of NXP HAL to configure the IP.
SDMA uses BD (buffer descriptors) to describe a transfer. We create
a cyclic list of descriptors and trigger them manually at start and
later when data is available.
This is tested using Sound Open Firmware app on top of Zephyr.
Signed-off-by: Daniel Baluta <daniel.baluta@nxp.com>
Added support for the SPI interface which is availble on the shield
if the jumper configurations are changed.
Signed-off-by: Ian Morris <ian.d.morris@outlook.com>
gatt_unregister() clears handles if those were auto-assigned by host.
This resulted in Service Changed indication not beding sent since
call to sc_indicate() pass already cleared handles.
This was affecting GATT/SR/GAS/BV-01-C and GATT/SR/GAS/BV-07-C test
cases.
Signed-off-by: Szymon Janc <szymon.janc@codecoup.pl>
- rename enable-gpios to en-gpios in adi,tmc2209
- place en-gpios in common stepper-controller.yaml
Signed-off-by: Jilay Pandya <jilay.pandya@outlook.com>
- Enables a MCUboot support for frdm-mcxa156.
- Enables MCUMgr OTA and MCUBoot recovery for frdm-mcxa156.
Signed-off-by: Andrej Butok <andrey.butok@nxp.com>
IRQ 1 is reserved for WiFi in ESP-IDF, which is used as the basis
for the Espressif HAL in Zephyr.
If IRQ 1 is used by Zephyr and too many other peripherals (e.g.
multiple UARTs) are enabled, WiFi stops working.
Marking IRQ 1 as "not available" seems to fix the issue.
Fixes#82874
Signed-off-by: Martin Jäger <martin@libre.solar>
The BASE doesn't affect the BIS sync value, and should thus not
change it.
This fixes a bug where the broadcast sink may prematurely
set the BIS sync value to e.g. 1 before actually
syncing to the BIG.
Signed-off-by: Emil Gydesen <emil.gydesen@nordicsemi.no>
Andrew Featherstone
Ryan Grachek
Benjamin Cabé
Peter Johanson
TOKITA Hiroshi
Benedikt Schmidt
Jilay Pandya
Martin Stumpf
Francois Ramu
Nikodem Kastelik
Scott Worley
Daniel Baluta
Ian Morris
Szymon Janc
Sebastian Głąb
Øyvind Rønningstad
Richard Wheatley
Andrej Butok
Danh Doan
Martin Jäger
Emil Gydesen
Fin Maaß
