The register access to SMPR1/SMPR2 was incorrect in three aspects:
1. For channels < 10, SMPR1 was cleared but SMPR2 should have been
cleared
2. The code was not thread-safe
3. An unneeded write was issued. (The compiler won't combine the
in-place bitwise operations into a single read-modify-write
sequence on `volatile` memory.)
Fixes https://github.com/RIOT-OS/RIOT/issues/20261
Adds a separate board for native64 instead of the `NATIVE_64BIT` workaround.
The files in `boards/native64` are more or less dummy files and just include
the `boards/native` logic (similar to `openlabs-kw41z-mini-256kib`).
The main logic for native is in `makefiles/arch/native.inc.mk`, `cpu/native`
and `boards/native`.
The remaining changes concern the build system, and change native board checks
to native CPU checks to cover both boards.
Use analog mode for GPIO_DISCONNECT, as this is said to have the lowest
current leakage due to disabling the Schmitt trigger and correctly
detect this in `gpio_ll_query_conf()`.
Also drop the `schmitt_trigger_disabled` member in `gpio_conf_t`, as
the Schmitt trigger is only ever disabled in Analog mode anyway and
cannot be freely configured.
The separate Schmitt trigger bit in the configuration is dropped, as
the Schmitt trigger is only every disabled when in `GPIO_DISCONNECT`
mode. So no need to encode the same information twice.
The `gpio_state_t` is improved to be a bitmask that holds the
MODER register value and a flag indicating whether open-drain mode
should be enabled.
Finally, `GPIO_DISCONNECT` is implemented. This is done by placing the
GPIO in analog mode, which by disabling the Schmitt trigger reduces
power consumption.
The script to fix the vendor header files has been renamed to
`fix_headers.sh` and now does two things:
1. Strip bogus type qualifiers in front of padding (as before)
2. Strip bogus `LITTLE_ENDIAN` defines.
If `register_interrupt` somehow fails, we leak the already created
POSIX timer by returning immediately.
Fix this by calling `timer_delete` before returning.
Signed-off-by: Armin Wolf <W_Armin@gmx.de>
When using `err`, no stacktrace is generated and the standard panic
functionallity of RIOT is sidestepped.
Use `core_panic` instead.
Signed-off-by: Armin Wolf <W_Armin@gmx.de>
In `timer_init`, `freq` is being check so its not unused.
In `timer_set_periodic`, `flags` is being used too.
Remove the uses of `(void)` in both cases.
Signed-off-by: Armin Wolf <W_Armin@gmx.de>
Initial version to test 64 bit compatibility.
Instead of a separate board, the inital version for Linux/x86_64 is enabled
by setting the environment variable `NATIVE_64BIT=y` and compiling as usual.
Not currently implemented:
* Architectures other than x86_64 or operating systems other than Linux
* No FreeBSD support
* No Aarch support
* Rust support for x86_64
Add support for querying the frequency supported by
`periph_timer`. This allows applications which require
this feature to run on the `native` board.
Signed-off-by: Armin Wolf <W_Armin@gmx.de>
The tramp assembly was missing a `.note.GNU-stack` section,
meaning the compiler was forced to assume that we require
an executable stack.
Fix this by adding the necessary section.
Signed-off-by: Armin Wolf <W_Armin@gmx.de>
The underlying peripheral can only read from RAM. This uses the
existing infrastructure (already needed to work around the lack of a
hardware support for I2C_NOSTART) to unconditionally copy any to-be-sent
data into RAM.
This adds the features
- periph_gpio_ll_input_pull_down:
To indicate support for input mode with internal pull down
- periph_gpio_ll_input_pull_keep:
To indicate support for input mode with internal resistor
pulling towards current level
- periph_gpio_ll_input_pull_up:
To indicate support for input mode with internal pull up
- periph_gpio_ll_disconnect:
To indicate a GPIO can be disconnected
- periph_gpio_ll_open_drain:
To indicate support for open drain mode
- periph_gpio_ll_open_drain_pull_up:
To indicate support for open drain mode with internal pull up
- periph_gpio_ll_open_source:
To indicate support for open source mode
- periph_gpio_ll_open_source_pull_down:
To indicate support for open source mode with internal pull down
- Move common code for USART (shared SPI / UART peripheral) to its
own file and allow sharing the USART peripheral to provide both
UART and SPI in round-robin fashion.
- Configure both UART and SPI bus via a `struct` in the board's
`periph_conf.h`
- this allows allocating the two UARTs as needed by the use case
- since both USARTs signals have a fixed connection to a single
GPIO, most configuration is moved to the CPU
- the board now only needs to decide which bus is provided by
which USART
Note: Sharing an USART used as UART requires cooperation from the app:
- If the UART is used in TX-only mode (no RX callback), the driver
will release the USART while not sending
- If the UART is used to also receive, the application needs to power
the UART down while not expecting something to send. An
`spi_acquire()` will be blocked while the UART is powered up.
This commit optimizes the `gpio_conf_t` type in the following
regards:
- The "base" `gpio_conf_t` is stripped from members that only some
platforms support, e.g. drive strength, slew rate, and disabling of
the Schmitt Trigger are no longer universally available but
platform-specific extensions
- The `gpio_conf_t` is now crammed into a bit-field that is 8 bit or
16 bit wide. This allows for storing lots of them e.g. in
`driver_foo_params_t` or `uart_conf_t` etc.
- A `union` of the `struct` with bit-field members and a `bits` is used
to allow accessing all bits in a simple C statement and to ensure
alignment for efficient handling of the type
Co-authored-by: Gunar Schorcht <gunar@schorcht.net>
Expose the compile time configuration knob `CONFIG_AFIO_PCF0_SWJ_CFG`
to allow freeing some/all JTAG pins and use them as GPIOs.
As default, PB4 is remapped from NJTRST to be usable as regular GPIO.
This still allows using the JTAG interface for debugging/flashing,
but makes an GPIO exposed by some boards available.
The API doc clearly states that arbitrary high PWM frequencies can
be requested and the driver should reduce the frequency while keeping
the resolution, when required. So change the code to just do that
rather than blowing assertions.
The function configures additional features of the DMA stream for F2/F4/F7.
`dma_setup_ext` added to configure F2/F4/F7 specific additional features like `MBURST`, `PBURST`, `FIFO` and Peripheral flow controller. It is supposed to be used after `dma_setup` and `dma_prepare`.
timer_set has no documented restriction on this being not null, other
implementations explicitly tolerate it (rpx0xx checks inside the ISR,
but doing it at init time keeps the ISR slim).
This is useful when using a timer just to read, without any action when
it triggers (the action is taken depending on read values, eg. in a
thread context).
- boot the I2C after init in low power mode
- otherwise I2C will consume more power until the first time it is
used, which is surprising
- STM32 F1 only: reconfigure SCL and SDA as GPIOs while the I2C
peripheral is powered down
- When the I2C peripheral is not clocked, it drives SCL and SDA
down. This will dissipate power across the pull up resistor.
- add support for multiple timers
- add support for selecting clock source in the board's `periph_conf.h`
- add support for the prescaler
- implement `periph_timer_query_freqs`
- add a second timer to all MSP430 boards
- the first timer is fast ticking, high-power
- the second is slow ticking, low-power
The functions `uart_poweron()`, `uart_poweroff()` and `uart_mode()`
can share code between the UART (UART without EasyDMA) and UARTE
(UART with EasyDMA) implementations, so let's do that.
- nRF51: Use `uart_conf_t` for consistency with nRF52
- nRF52832: Use UARTE (UART with EasyDMA) over UART (without DMA), as
done for all other nRF52 family members
- use `UARTE_PRESENT` to detect whether an UARTE can be used, rather
than family names
The `i2c_read_bytes()` and `i2c_write_bytes()` function return the
number of bytes written / read, instead of `0` as the API contract
says. This fixes the issue.
With only 8 possible prescalers, we can just loop over the values
and shift the clock. In addition to being much easier to read, using
shifts over divisions can be a lot faster on CPUs without hardware
division.
In addition an `assert()` is added that checks if the API contract
regarding the SPI frequency is honored. If the requested clock is too
low to be generated, we should rather have a blown assertion than
hard to trace communication errors.
Finally, the term prescaler is used instead of divider, as divider may
imply that the frequency is divided by the given value n, but
in fact is divided by 2^(n+1).
Previously, the /CS signal was performed by enabling / disabling the
SPI peripheral. This had the disadvantage that clock polarity settings
where not applied starting with `spi_acquire()`, as assumed by e.g.
the SPI SD card driver, but only just before transmitting data.
Now the SPI peripheral is enabled on `spi_acquire()` and only disabled
when calling `spi_release()`, and the `SPI_CR2_SSOE` bit in the `CR2`
register is used for hardware /CS handling (as supposed to).
This doesn't change the firmware, since for all STM32 MCUs with an
SPI driver the register setting in the mode did match the SPI mode
number by chance. But for some STM32 MCUs with no SPI driver yet
the register layout is indeed different. This will help to provide an
SPI driver for them as well.
The CR2 register was only written to if the settings differ from the
reset value. This wasn't actually a bug, since it was cleared in
`spi_release()` to the reset value again. Still, it looks like a bug,
may cause a pipeline flush due to the branch, and increased `.text`
size. So let's get rid of this.
The `SWJ_CFG` field of the `AFIO_MAPR` register is write only and values
read are undefined (random). Hence, using `AFIO->MAPR |= mask;` to
enable flags can corrupt the state of the `SWJ_CFG` (configure it to
an unintended value).
Two helper functions have been introduced:
- `afio_mapr_read()` reads the value, but sanitizes the `SWJ_CFG` field
to zero
- `afio_mapr_write()` writes the given value, but applies the `SWJ_CFG`
configured by the board before writing.
Finally, the `nucleo-f103rb` and `bluepill*`/`blackpill*` boards have
been updated to no longer specify `STM32F1_DISABLE_JTAG`, as this
is handled by the `SWJ_CFG` setting (which defaults to disabling JTAG).
`flash_<funcname>()` is implemented by `<funcname>_P()` provided by
the AVR libc on AVR targets. Previously, the preprocessor was used
to do the aliasing, but this causes issues with LLVM: The signatures of
e.g. `printf_P()` expects `const char *`, whereas flash utils expects
`FLASH_ATTR const char *`. For GCC this will just implicitly drop the
`FLASH_ATTR`, while it requires an explicit cast for LLVM.
To implement the explicit cast, `static inline` function wrappers
where used instead where possible. But for the variadic functions
(e.g. `printf(fmt, ...)`) the linker is used to provide the aliases,
as there is no way to pass the variadic functions throw in C. The
alternative would be to implement `flash_printf()` by calling
`vprintf_P()`, but that increased ROM size quite a bit.
Finally, a work around for a bug in Ubuntu's toolchain has been added:
An unused function that calls to `printf_P()`, `fprintf_P()` and
`snprintf_P()`. Since this function is garbage collected anyway, it
has no impact on the generated ELF file.
20009: cpu/native: fix bug in periph_timer r=MrKevinWeiss a=maribu
### Contribution description
While debugging https://github.com/RIOT-OS/RIOT/pull/18977#issuecomment-1764258356 it became obvious that the `periph_timer` in `native` is broken and issues early IRQs. This replaces the use of `setitimer` that cannot use a monotonic clock source with `timer_settime()`.
### Testing procedure
I have some non-publishable code that tests if the time an ISR fires in terms of `timer_read()` is no earlier than the time expected. This occasionally triggered with `master`, but I didn't see any of these issues anymore with this PR. I guess I should revive my PR to spice up the periph timer tests and add a polished version of this and let this run for an hour or two.
The tests ins `tests/periph/timer*` should still succeed on `native`. (They do for me in a container running `riot/riotbuild`).
### Issues/PRs references
Found while debugging https://github.com/RIOT-OS/RIOT/pull/18977#issuecomment-1764258356
20042: dist/tools/uf2: add target to also copy families.json file r=MrKevinWeiss a=MichelRottleuthner
### Contribution description
The updated UF2 pkg (#20035) stores the family ID in an external .json file. I overlooked that and flashing fails if this file is not present. This PR fixes it by also copying the json into the tool folder.
### Testing procedure
Check if the `feather-nrf52840-sense` can be flashed when the new UF2 pkg is cloned freshly.
### Issues/PRs references
Fixes a regression introduced with #20035
Co-authored-by: Marian Buschsieweke <marian.buschsieweke@posteo.net>
Co-authored-by: Michel Rottleuthner <michel.rottleuthner@haw-hamburg.de>
Also use `CLOCK_MONOTONIC` for the timeouts, not just for
`timer_read()`. This fixes mismatches between when a timeout
occurs and what is expected in the context of the values returned by
`timer_read()`.
19465: drivers/mtd: use XFA for pointers to defined MTDs r=benpicco a=gschorcht
### Contribution description
This PR provides the support to hold pointers to defined MTDs within a XFA. The XFA allows
- to access MTDs of different types (`mtd_flashpage`, `mtd_sdcard`, `mtd_emulated`, ...) by an index
- to determine the number of MTDs defined in the system.
### Testing procedure
To be defined once PR #19443 is merged because emulated MTDs will allow to test this PR on arbitrary boards.
### Porting Guide
For external boards:
- remove the `MTD_NUMOF` definition from `board.h`
- add `MTD_XFA_ADD(<mtd_dev>, <idx>);` to the definition of `<mtd_dev>`.
- `MTD_0`, `MTD_1`, … defines are no longer needed.
### Issues/PRs references
Related to PR #19443
19981: Fletcher32: Add incremental API r=benpicco a=bergzand
### Contribution description
This PR extends the current fletcher32 checksum with an incremental API mode. This way the bytes to be checksummed can be supplied via multiple successive calls and do not have to be provided in a single consecutive buffer.
I've also rephrased the warning with the original function a bit as that function uses an `unaligned_get_u16` to access the data. The data thus does not require alignment, but the length does need to be supplied as number of 16 bit words.
### Testing procedure
The test has been extended
### Issues/PRs references
None
19995: sys/psa_crypto: Fix macro for public key max size and SE example r=benpicco a=Einhornhool
### Contribution description
#### 1. Wrong public key size when using secure elements, introduced by #19954
Fixed conditions for key size macros in `crypto_sizes.h`.
#### 2. EdDSA and ECDSA examples fail when using a secure element because of unsopported changes introduced by #19954
Updated `example/psa_crypto` to use only supported functions for secure elements.
### Testing procedure
Build `example/psa_crypto` for secure elements and run application
Output on master:
```
2023-10-19 14:33:24,372 # main(): This is RIOT! (Version: 2019.07-devel-22378-gb6772)
2023-10-19 14:33:24,372 # HMAC SHA256 took 56393 us
2023-10-19 14:33:24,372 # Cipher AES 128 took 68826 us
2023-10-19 14:33:24,372 # *** RIOT kernel panic:
2023-10-19 14:33:24,373 # HARD FAULT HANDLER
2023-10-19 14:33:24,373 #
2023-10-19 14:33:24,373 # *** rebooting...
```
Output with fixes:
```
2023-10-19 13:35:24,715 # main(): This is RIOT! (Version: 2019.07-devel-22384-g8ef66-dev/psa-crypto-fixes)
2023-10-19 13:35:24,715 # HMAC SHA256 took 56374 us
2023-10-19 13:35:24,715 # Cipher AES 128 took 68805 us
2023-10-19 13:35:24,715 # ECDSA took 281164 us
2023-10-19 13:35:24,715 # All Done
```
Co-authored-by: Gunar Schorcht <gunar@schorcht.net>
Co-authored-by: Koen Zandberg <koen@bergzand.net>
Co-authored-by: Lena Boeckmann <lena.boeckmann@haw-hamburg.de>
19943: cpu/stm32: FMC used for low-level LCD parallel interface r=maribu a=gschorcht
### Contribution description
This PR provides the implementation of the LCD low-level MCU 8080 parallel interface using the FMC peripheral.
### Testing procedure
```
BOARD=stm32f723e-disco make -C tests/drivers/st77xx flash
```
and
```
BOARD=stm32l496g-disco make -C tests/drivers/st77xx flash
```
should work on top of PR #19941. Drawing operations should be much faster.
### Issues/PRs references
Depends on PR #19941
19978: treewide: fix typos to make codespell happy r=maribu a=maribu
### Contribution description
- fixes typos in comments and docs (no generated firmware changes expected)
- fixes a typo in a string in a GUI of a utility program
- add some false positives to the ignore list
### Testing procedure
- No generated binaries (except for the GUI version of the utility program to flash the MSB-A2) should change
- The diff should not look too scary
### Issues/PRs references
None
Co-authored-by: Gunar Schorcht <gunar@schorcht.net>
Co-authored-by: Marian Buschsieweke <marian.buschsieweke@posteo.net>
19760: cpu/sam0_common/periph: add low-level SDMMC peripheral driver for SDHC r=benpicco a=gschorcht
### Contribution description
This PR implements the low-level SDIO/SDMMC peripheral driver for SAM0 SDHC according to the definition in #19539.
### Testing procedure
```
BOARD=same54-xpro make -C tests/drivers/sdmmc
```
```
BOARD=same54-xpro make -C tests/sys/vfs_default
```
### Issues/PRs references
~Depends on PR #19539~
Depends on PR #19899
19946: posix_sockets.c: Fix 2 byte int compilation errors r=benpicco a=mrdeep1
19956: cpu/esp32: fix heap definition for ESP32-S2 and ESP32-S3 r=benpicco a=gschorcht
### Contribution description
For ESP32-S2 and ESP32-S3 the symbol `_heap_end` must not be used as `_eheap` for the newlibc `malloc` and function `sbrk`.
`_heap_end` is used by the ESP-IDF heap implementation `esp-idf-heap` and points to the highest possible address (0x40000000) that could be used for the heap in ESP-IDF. It doesn't point to the top address of the unused SRAM area that can be used in newlibc `malloc` and function `sbrk`. Instead, the origin and the length of `dram0_0_seg` must be used to calculate the end of the heap `_eheap`.
The problem only occurs for the newlibc `malloc` when the `sbrk` function is used but not for the ESP-IDF heap implementation `esp_idf_heap`.
### Testing procedure
Use any ESP32-S2 or ESP32-S3 board and flash `tests/sys/malloc`, e.g.
```
CFLAGS='-DCHUNK_SIZE=16384' USEMODULE='stdio_uart' BOARD=esp32s3-pros3 make -j8 -C tests/sys/malloc flash
```
Without the PR the `nm` command will give the wrong address
```
nm -s tests/sys/malloc/bin/esp32s3-pros3/tests_malloc.elf | grep _eheap
40000000 A _eheap
```
The test will stuck, i.e. the allocation of memory stops when the top of unused SRAM is reached and the board restarts when the watchdog timer expires. With the PR it should work as expected
```
Help: Press s to start test, r to print it is ready
START
main(): This is RIOT! (Version: 2023.10-devel-309-g4669e)
calloc(zu, zu) = 0x10000000
CHUNK_SIZE: 16384
NUMBER_OF_TESTS: 3
Allocated 16384 Bytes at 0x3fc8c4b0, total 16384
...
Allocated 16384 Bytes at 0x3fcec6f0, total 409792
ESP-ROM:esp32s3-20210327
Build:Mar 27 2021
rst:0x7 (TG0WDT_SYS_RST),boot:0x8 (SPI_FAST_FLASH_BOOT)
Saved PC:0x403763e3
```
With this PR the `nm` command should give a address in unused SRAM address space
```
nm -s tests/sys/malloc/bin/esp32s3-pros3/tests_malloc.elf | grep _eheap
3fcca000 A _eheap
```
and the test should pass.
### Issues/PRs references
19957: cpu/esp32: fix Octal SPI RAM for ESP32-S3 r=benpicco a=gschorcht
### Contribution description
This PR fixes Octal SPI RAM handling for ESP32-S3.
Functions that are used during the initialization of the Octal SPI RAM must reside in IRAM instead of Flash. Otherwise, the system stucks during boot once the Octal SPI RAM is enabled. The reason is that the Flash is not available during the initialization of the Octal SPI RAM and the functions that are called during that initialization can't be accessed in Flash. As a result the call of such a function leads to code that is messed up and the system crashes.
The PR also includes the documentation fixe for the `esp32s3-box`. It also includes a small documentation fix regarding the SPI RAM for the `esp32s3-pros3` board.
### Testing procedure
Use a board that has Octal SPI RAM and flash `tests/sys/malloc`, e.g.:
```
CFLAGS='-DCHUNK_SIZE=16384' USEMODULE='stdio_uart esp_spi_ram esp_log_startup' \
BOARD=esp32s3-box make -C tests/sys/malloc
```
Without the PR, the system stuck during boot once the information for the Octal SPI RAM is print
```
ESP-ROM:esp32s3-20210327
...
I (133) boot: Loaded app from partition at offset 0x10000
I (134) boot: Disabling RNG early entropy source...
vendor id : 0x0d (AP)
dev id : 0x02 (generation 3)
density : 0x03 (64 Mbit)
good-die : 0x01 (Pass)
Latency : 0x01 (Fixed)
VCC : 0x01 (3V)
SRF : 0x01 (Fast Refresh)
BurstType : 0x01 (Hybrid Wrap)
BurstLen : 0x01 (32 Byte)
Readlatency : 0x02 (10 cycles@Fixed)
DriveStrength: 0x00 (1/1)
```
and the board restarts when the watchdog timer expires.
With this PR, the system starts as expected.
```
ESP-ROM:esp32s3-20210327
...
I (132) boot: Loaded app from partition at offset 0x10000
I (133) boot: Disabling RNG early entropy source...
vendor id : 0x0d (AP)
dev id : 0x02 (generation 3)
density : 0x03 (64 Mbit)
good-die : 0x01 (Pass)
Latency : 0x01 (Fixed)
VCC : 0x01 (3V)
SRF : 0x01 (Fast Refresh)
BurstType : 0x01 (Hybrid Wrap)
BurstLen : 0x01 (32 Byte)
Readlatency : 0x02 (10 cycles@Fixed)
DriveStrength: 0x00 (1/1)
Found 64MBit SPI RAM device
SPI RAM mode: sram 40m
PSRAM initialized, cache is in normal (1-core) mode.
Pro cpu up.
Single core mode
SPI SRAM memory test OK
Initializing. RAM available for dynamic allocation:
At 3FC8C150 len 00053EB0 (335 KiB): D/IRAM
At 3FCE0000 len 0000EE34 (59 KiB): STACK/DRAM
At 3FCF0000 len 00008000 (32 KiB): DRAM
Starting ESP32x with ID: f412fafd0f8c
ESP-IDF SDK Version v4.4.1
Current clocks in Hz: CPU=80000000 APB=80000000 XTAL=40000000 SLOW=150000
PRO cpu is up (single core mode, only PRO cpu is used)
PRO cpu starts user code
Adding pool of 8192K of external SPI memory to heap allocator
Used clocks in Hz: CPU=80000000 APB=80000000 XTAL=40000000 FAST=8000000 SLOW=150000
XTAL calibration value: 3643448
Heap free: 8754851 bytes
Board configuration:
UART_DEV(0) txd=43 rxd=44
LED pins=[ ]
BUTTONS pins=[ 0 ]
Starting RIOT kernel on PRO cpu
Help: Press s to start test, r to print it is ready
```
### Issues/PRs references
Co-authored-by: Gunar Schorcht <gunar@schorcht.net>
Co-authored-by: Jon Shallow <supjps-libcoap@jpshallow.com>
For ESP32-S2 and ESP32-S3 the symbol `_heap_end` must not be used as `_eheap` for dynamic memory allocation, because it points to the highest possible address that could be used for the heap, but not to the top address of the unused SRAM area. Instead, the origin and length of `dram0_0_seg` must be used to calculate the end of the heap.
19952: cpu/stm32/periph/eth: Disable hardware checksums r=maribu a=yarrick
lwIP will fill them in already.
Having this enabled causes empty checksums to be sent: #19853
Co-authored-by: Erik Ekman <eekman@google.com>
The API of timer_init() expects callers to know what frequencies are
supported and only use valid frequencies. So let's add an `assert()`
to aid debugging if the app uses an invalid.
19794: drivers/periph: Add documentation on thread safety and initialization r=aabadie a=maribu
19912: drivers/at86rf215: switch example config to use EXT3 on same54-xpro r=aabadie a=benpicco
Co-authored-by: Marian Buschsieweke <marian.buschsieweke@posteo.net>
Co-authored-by: Benjamin Valentin <benjamin.valentin@ml-pa.com>
18547: sys: PSA Crypto API implementation r=MrKevinWeiss a=Einhornhool
### Contribution description
This adds an implementation of the ARM [PSA Crypto API](https://armmbed.github.io/mbed-crypto/html/index.html) specification to RIOT.
It is a cryptographic API that supports software and hardware backends as well as the use of multiple secure elements, which can be configured with Kconfig.
It integrates indirect, identifier based key management to support persistent storage of key material in local memory and devices with protected key storage.
A description of the implementation design and an evaluation of the processing time and memory overhead in RIOT has been published here: [Usable Security for an IoT OS: Integrating the Zoo of Embedded Crypto Components Below a Common API](https://arxiv.org/abs/2208.09281)
#### Implementation status
So far this implementation supports the following operations:
- Volatile key storage
- AES in CBC mode
- Hashes (MD5, SHA1, SHA224, SHA256)
- HMAC SHA256
- ECDSA with NIST P192 and P256 curves
The following backends are supported so far:
- RIOT Cipher Module
- RIOT Hash Module
- Micro ECC library package
- Cryptocell 310 hardware accelerator on the Nordic NRF52840dk
- Microchip ATECC608A secure element
Other operations and backends as well as persistent key storage can and will be implemented by me and anyone who wants to contribute in the future.
### Testing procedure
So far there is a show case application in `examples/psa_crypto` to demonstrate the usage and configuration of different backends of the API (refer to the application README for more information).
Co-authored-by: Lena Boeckmann <lena.boeckmann@haw-hamburg.de>
19887: cpu/efm32/periph: add DAC support for EFM32 Series 1 (VDAC) r=aabadie a=gschorcht
### Contribution description
This PR provides a small change for `periph_dac` to support the VDACs of EFM32 Series 1 MCUs. It was tested with `sltb009a` board for which this PR includes the DAC configuration.
### Testing procedure
`tests/periph/dac` should work for the `sltb009a` board. I've tested it already.
```
BOARD=sltb009a make -j8 -C tests/periph/dac flash
```
### Issues/PRs references
Depends on PR #19886
19898: tests/net/gcoap_fileserver: disable test on CI r=aabadie a=benpicco
Co-authored-by: Gunar Schorcht <gunar@schorcht.net>
Co-authored-by: Benjamin Valentin <benjamin.valentin@ml-pa.com>
