19251: tests/driver_dac_dds: fix output of sine and saw functions r=benpicco a=benpicco
19254: cpu/gd32v: add periph_rtc_mem support r=benpicco a=gschorcht
### Contribution description
This PR provides the `periph_rtc_mem` support for GD32VF103.
A modified version of this driver could also be used for STM32F1.
### Testing procedure
`tests/periph_rtt` should work on any GD32V board, for example:
```
BOARD=sipeed-longan-nano make -C tests/periph_rtt flash
```
```
Help: Press s to start test, r to print it is ready
START
main(): This is RIOT! (Version: 2023.04-devel-319-gebc86-cpu/gd32v/periph_rtc_mem)
RIOT RTT low-level driver test
RTT configuration:
RTT_MAX_VALUE: 0xffffffff
RTT_FREQUENCY: 32768
Testing the tick conversion
Trying to convert 1 to seconds and back
Trying to convert 256 to seconds and back
Trying to convert 65536 to seconds and back
Trying to convert 16777216 to seconds and back
Trying to convert 2147483648 to seconds and back
All ok
Initializing the RTT driver
RTC mem OK
This test will now display 'Hello' every 5 seconds
RTT now: 1
Setting initial alarm to now + 5 s (163841)
rtt_get_alarm() PASSED
RTC mem OK
```
### Issues/PRs references
Co-authored-by: Benjamin Valentin <benjamin.valentin@ml-pa.com>
Co-authored-by: Gunar Schorcht <gunar@schorcht.net>
19249: boards/gd32v: improve board definitions r=benpicco a=gschorcht
### Contribution description
This PR provides some small improvements of the existing board definitions for GD32VF103 boards for more flexibel default configurations and documentation of the board peripherals:
- Allow the remapping of SPI0 pins in SPI configuration (ae984b0bea)
- More flexible I2C configuration (0c337583b4)
The default I2C device configuration allows to define up to two I2C devices `I2C_DEV(0)` and `I2C_DEV(1)`. `I2C_DEV(0)` is always defined if the I2C peripheral is enabled by the module `periph_spi`. The second I2C device `I2C_DEV(1)` is only defined if `I2C_DEV_1_USED` is defined by the board. This allows to use the default configuration with one or two I2C devices depending on whether other peripherals are enabled that would collide with the I2C devices.
- More flexible SPI configuration (edbf59e37e)
The default SPI device configuration allows to define up to two SPI devices `SPI_DEV(0)` and `SPI_DEV(1)`. `SPI_DEV(0)` is always defined if the SPI peripheral is enabled by the module `periph_spi`. The second SPI device `SPI_DEV(1)` is only defined if `SPI_DEV_1_USED` is defined by the board. This allows to use the default configuration with one or two SPI devices depending on whether other peripherals are enabled that would collide with the SPI devices.
Furthermore, the CS signal in the SPI configuration is given by a define that can be overriden with another pin if
the default CS signal is connected to an unused hardware.
- Improve ADC config for Sipeed-Longan-Nano (c9c587ee00)
The ADC configuration was too complex. It was hard to follow when certain ADC lines are available. Furthermore, the order of ADC lines did depend on the use of other peripherals. Now, either the TFT display is not connected and all ADC lines are available or the TFT display is connected and the second SPI device is used so that only the first 4 ADC lines are available.
- Improve Kconfig for Sipeed-Longan-Nano (025f4fdf00)
Board-specific configuration not shown any longer directly in the top level menu but within a submenu.
- Improve peripherals documentation (7f0d560dd8, e24abe495a)
Available peripherals for the board are now documented in two tables ordered by RIOT peripheral names and by pins.
Although the different changes are small and mostly related to the documentation, I could split the PR if necessary.
### Testing
Green CI
### Issues/PRs references
Co-authored-by: Gunar Schorcht <gunar@schorcht.net>
19088: boards: add esp32s3-pros3 support r=benpicco a=gschorcht
### Contribution description
This PR provides the support for [ESP32 ProS3](https://esp32s3.com/pros3.html#home) board from Unexpected Maker.
This board doesn't have a USB-to-Serial chip on board. Therefore, USB Serial/JTAG is used for STDIO and the board is flashed via the USB Seral/JTAG interface by default.
### Testing procedure
Flashing `tests/shell` should work.
### Issues/PRs references
Co-authored-by: Gunar Schorcht <gunar@schorcht.net>
After a reset, it can take several seconds before the CDC ACM interface becomes available as serial device `ttyACMx`. This was a change that was already made for `stdio_cdc_acm` in #19128.
Even if only `stdio_usb_serial_jtag` is enabled as STDIO, `usb_board_reset` is enabled since there should be a CDC ACM interface in any case. This is necessary, for example, to reset the board into bootloader if `stdio_cdc_acm` or `stdio_tinyusb_cdc_acm` was previously used.
The ADC configuration was too complex. It was hard to follow when certain ADC lines are available. Furthermore, the order of ADC lines did depend on the use of other peripherals. Now, either the TFT display is not connected and all ADC lines are available or the TFT display is connected and the second SPI device is used so that only the first 4 ADC lines are available.
The default SPI device configuration allows to define up to two SPI devices `SPI_DEV(0)` and `SPI_DEV(1)`. `SPI_DEV(0)` is always defined if the SPI peripheral is enabled by the module `periph_spi`. The second SPI device `SPI_DEV(1)` is only defined if `SPI_DEV_1_USED` is defined by the board. This allows to use the default configuration with one or two SPI devices depending on whether other peripherals are enabled that would collide with the SPI devices.
Furthermore, the CS signal in the SPI configuration is given by a define that can be overriden with another pin if
the default CS signal is connected to an unused hardware.
The default I2C device configuration allows to define up to two I2C devices `I2C_DEV(0)` and `I2C_DEV(1)`. `I2C_DEV(0)` is always defined if the I2C peripheral is enabled by the module `periph_spi`. The second I2C device `I2C_DEV(1)` is only defined if `I2C_DEV_1_USED` is defined by the board. This allows to use the default configuration with one or two I2C devices depending on whether other peripherals are enabled that would collide with the I2C devices.
19244: Make: Add generate-Makefile.ci r=maribu a=bergzand
### Contribution description
This is the same as the create-Makefile.ci. The alias is added to stay in line with other generate-* Make targets. Now the documentation should also be valid again
### Testing procedure
The target should now match the documentation in the doxygen.
### Issues/PRs references
follow-up to #19239
Co-authored-by: Koen Zandberg <koen@bergzand.net>
18903: pkg/tinyusb: add tinyUSB netdev driver r=dylad a=gschorcht
### Contribution description
This PR adds the tinyUSB netdev driver.
The tinyUSB netdev driver is part of the tinyUSB package and is enabled by module `tinyusb_netdev`. It is available for boards that provide the `tinyusb_device` feature.
**Please note** Since the tinyUSB package is distinct from (and incompatible with) the USB stack provided around USBUS in RIOT (see USB), the tinyUSB netdev driver cannot be used together with with any USBUS device class.
The tinyUSB netdev driver uses Ethernet over USB and supports the following protocols:
- CDC ECM (Ethernet Control Model)
- CDC NCM (Network Control Model)
- RNDIS (Microsoft Remote NDIS)
While Linux and macOS support all these protocols, Microsoft Windows only supports the RNDIS protocol and since Windows version 11 also the CDC NCM protocol. macOS supports the RNDIS protocol since version 10.15 (Catalina).
Which protocol is used is selected by the corresponding pseudomodules `tinyusb_class_net_cdc_ecm`, `tinyusb_class_net_cdc_ncm` and `tinyusb_class_net_rndis`.
The CDC ECM protocol (`tinyusb_class_net_cdc_ecm`) and the RNDIS protocol (`tinyusb_class_net_rndis`) can be used simultaneously to support all operating systems, for example :
```
USEMODULE='tinyusb_netdev tinyusb_class_net_rndis tinyusb_class_net_cdc_ecm' \
BOARD=... make -C ... flash
```
In this case, the CDC ECM protocol is the default protocol and the RNDIS protocol the alternative protocol defined as second device configuration. The CDC NCM protocol cannot be used together with the CDC ECM or the RNDIS protocol.
This PR includes PR #18983 for now to be compilable.
Comparison with USBUS CDC ECM (`nucleo-f767zi` board):
```
text data bss dec hex filename
65916 596 18728 85240 14cf8 tests_pkg_tinyusb_netdev.elf
```
```
text data bss dec hex filename
63120 544 15444 79108 13504 tests_usbus_cdc_ecm.elf
```
### Testing procedure
Use a board that is supported by tinyUSB. Compile and flash the test application for each protocol:
1. RNDIS
```
BOARD=... make -j8 -C tests/pkg_tinyusb_netdev flash
```
2. CDC ECM
```
CLASS=tinyusb_class_net_cdc_ecm BOARD=... make -j8 -C tests/pkg_tinyusb_netdev flash
```
3. CDC NCM
```
CLASS=tinyusb_class_net_cdc_ncm BOARD=... make -j8 -C tests/pkg_tinyusb_netdev flash
```
For each test, a network interface should be added on the host. Use command `ifconfig` on USB device and on the host and check that both have a link local address. In syslog there should be an output like the following:
<details>
```
Nov 13 18:14:46 gunny8 kernel: [4611465.480025] usb 1-2.2: new full-speed USB device number 28 using xhci_hcd
Nov 13 18:14:47 gunny8 kernel: [4611465.581641] usb 1-2.2: New USB device found, idVendor=1209, idProduct=7d01, bcdDevice= 1.00
Nov 13 18:14:47 gunny8 kernel: [4611465.581646] usb 1-2.2: New USB device strings: Mfr=1, Product=2, SerialNumber=3
Nov 13 18:14:47 gunny8 kernel: [4611465.581650] usb 1-2.2: Product: nucleo-f767zi
Nov 13 18:14:47 gunny8 kernel: [4611465.581653] usb 1-2.2: Manufacturer: RIOT-os.org
Nov 13 18:14:47 gunny8 kernel: [4611465.581654] usb 1-2.2: SerialNumber: 6591620BCB270283
Nov 13 18:14:47 gunny8 vmnetBridge: RTM_NEWLINK: name:usb0 index:508 flags:0x00001002
Nov 13 18:14:47 gunny8 vmnet-natd: RTM_NEWLINK: name:usb0 index:508 flags:0x00001002
Nov 13 18:14:47 gunny8 NetworkManager[24229]: <info> [1668359687.1066] manager: (usb0): new Ethernet device (/org/freedesktop/NetworkManager/Devices/528)
Nov 13 18:14:47 gunny8 kernel: [4611465.594604] rndis_host 1-2.2:1.0 usb0: register 'rndis_host' at usb-0000:00:14.0-2.2, RNDIS device, fa:db:7c:1b:58:80
Nov 13 18:14:47 gunny8 mtp-probe: checking bus 1, device 28: "/sys/devices/pci0000:00/0000:00:14.0/usb1/1-2/1-2.2"
Nov 13 18:14:47 gunny8 mtp-probe: bus: 1, device: 28 was not an MTP device
Nov 13 18:14:47 gunny8 systemd-udevd[17796]: link_config: autonegotiation is unset or enabled, the speed and duplex are not writable.
Nov 13 18:14:47 gunny8 vmnet-natd: RTM_NEWLINK: name:usb0 index:508 flags:0x00001002
Nov 13 18:14:47 gunny8 kernel: [4611465.643852] rndis_host 1-2.2:1.0 enp0s20f0u2u2: renamed from usb0
Nov 13 18:14:47 gunny8 vmnetBridge: RTM_NEWLINK: name:usb0 index:508 flags:0x00001002
Nov 13 18:14:47 gunny8 vmnet-natd: RTM_NEWLINK: name:enp0s20f0u2u2 index:508 flags:0x00001002
Nov 13 18:14:47 gunny8 vmnetBridge: RTM_NEWLINK: name:enp0s20f0u2u2 index:508 flags:0x00001002
Nov 13 18:14:47 gunny8 NetworkManager[24229]: <info> [1668359687.1833] device (usb0): interface index 508 renamed iface from 'usb0' to 'enp0s20f0u2u2'
Nov 13 18:14:47 gunny8 upowerd[2845]: unhandled action 'bind' on /sys/devices/pci0000:00/0000:00:14.0/usb1/1-2/1-2.2/1-2.2:1.1
Nov 13 18:14:47 gunny8 NetworkManager[24229]: <info> [1668359687.2037] device (enp0s20f0u2u2): state change: unmanaged -> unavailable (reason 'managed', sys-iface-state: 'external')
Nov 13 18:14:47 gunny8 vmnet-natd: RTM_NEWLINK: name:enp0s20f0u2u2 index:508 flags:0x00011043
Nov 13 18:14:47 gunny8 vmnetBridge: RTM_NEWLINK: name:enp0s20f0u2u2 index:508 flags:0x00011043
Nov 13 18:14:47 gunny8 vmnetBridge: Adding interface enp0s20f0u2u2 index:508
Nov 13 18:14:47 gunny8 NetworkManager[24229]: <info> [1668359687.2075] device (enp0s20f0u2u2): carrier: link connected
Nov 13 18:14:47 gunny8 upowerd[2845]: unhandled action 'bind' on /sys/devices/pci0000:00/0000:00:14.0/usb1/1-2/1-2.2/1-2.2:1.0
Nov 13 18:14:47 gunny8 NetworkManager[24229]: <info> [1668359687.2129] settings: (enp0s20f0u2u2): created default wired connection 'Kabelgebundene Verbindung 2'
Nov 13 18:14:47 gunny8 NetworkManager[24229]: <warn> [1668359687.2142] device (enp0s20f0u2u2): connectivity: "/proc/sys/net/ipv4/conf/enp0s20f0u2u2/rp_filter" is set to "1". This might break connectivity checking for IPv4 on this device
Nov 13 18:14:47 gunny8 NetworkManager[24229]: <info> [1668359687.2151] device (enp0s20f0u2u2): state change: unavailable -> disconnected (reason 'none', sys-iface-state: 'managed')
Nov 13 18:14:47 gunny8 vmnetBridge: RTM_NEWLINK: name:enp0s20f0u2u2 index:508 flags:0x00011043
Nov 13 18:14:47 gunny8 vmnet-natd: RTM_NEWLINK: name:enp0s20f0u2u2 index:508 flags:0x00011043
Nov 13 18:14:47 gunny8 upowerd[2845]: unhandled action 'bind' on /sys/devices/pci0000:00/0000:00:14.0/usb1/1-2/1-2.2
Nov 13 18:14:47 gunny8 systemd-udevd[17796]: link_config: autonegotiation is unset or enabled, the speed and duplex are not writable.
Nov 13 18:14:47 gunny8 NetworkManager[24229]: <info> [1668359687.2403] policy: auto-activating connection 'Kabelgebundene Verbindung 2' (0b1ae45e-c76e-3efb-a2cd-138ca2b2a59c)
Nov 13 18:14:47 gunny8 NetworkManager[24229]: <info> [1668359687.2414] device (enp0s20f0u2u2): Activation: starting connection 'Kabelgebundene Verbindung 2' (0b1ae45e-c76e-3efb-a2cd-138ca2b2a59c)
Nov 13 18:14:47 gunny8 NetworkManager[24229]: <info> [1668359687.2419] device (enp0s20f0u2u2): state change: disconnected -> prepare (reason 'none', sys-iface-state: 'managed')
Nov 13 18:14:47 gunny8 NetworkManager[24229]: <info> [1668359687.2429] device (enp0s20f0u2u2): state change: prepare -> config (reason 'none', sys-iface-state: 'managed')
Nov 13 18:14:47 gunny8 NetworkManager[24229]: <info> [1668359687.2440] device (enp0s20f0u2u2): state change: config -> ip-config (reason 'none', sys-iface-state: 'managed')
Nov 13 18:14:47 gunny8 NetworkManager[24229]: <info> [1668359687.2445] dhcp4 (enp0s20f0u2u2): activation: beginning transaction (timeout in 45 seconds)
Nov 13 18:14:47 gunny8 vmnetBridge: RTM_NEWLINK: name:enp0s20f0u2u2 index:508 flags:0x00011043
Nov 13 18:14:47 gunny8 vmnet-natd: RTM_NEWLINK: name:enp0s20f0u2u2 index:508 flags:0x00011043
Nov 13 18:14:47 gunny8 avahi-daemon[1464]: Joining mDNS multicast group on interface enp0s20f0u2u2.IPv6 with address fe80::dba4:adb8:9ffe:d93e.
Nov 13 18:14:47 gunny8 avahi-daemon[1464]: New relevant interface enp0s20f0u2u2.IPv6 for mDNS.
Nov 13 18:14:47 gunny8 avahi-daemon[1464]: Registering new address record for fe80::dba4:adb8:9ffe:d93e on enp0s20f0u2u2.*.
Nov 13 18:14:47 gunny8 kernel: [4611465.895046] userif-1: sent link down event.
Nov 13 18:14:47 gunny8 kernel: [4611465.895052] userif-1: sent link up event.
```
</details>
Ping from and to the host.
### Issues/PRs references
Depends on PR https://github.com/RIOT-OS/RIOT/pull/18983
Co-authored-by: Gunar Schorcht <gunar@schorcht.net>
19220: dist/tools/doccheck: Fix grep warning r=benpicco a=maribu
### Contribution description
Fix `grep: warning: stray \ before -` warnings.
### Testing procedure
```
$ ./dist/tools/doccheck/check.sh
```
Should no longer print lots of the warning anymore
### Issues/PRs references
19232: build system: Fix linker feature test with newlib 4.3.0 r=benpicco a=maribu
### Contribution description
Before the build system used something like
echo "int main(){} void _exit(int n) {(void)n;while(1);}" | LC_ALL=C $(LINK) -xc - -o /dev/null -lc -Wall -Wextra -pedantic <FLAGS_TO_TEST>
to check for flags supported by the compiler (used as linker frontend). This however no longer works with newlib 4.3.0, which requires the symbols `_sbrk_r`, `_close_r`, `_lseek_r`, `_read_r`, and `_write_r` to be present. Instead, now a new file `minimal_linkable.c` was added that adds all the missing symbols and is used in the linker feature tests instead.
### Testing procedure
- No regressions on the CI
- No changes in binaries
- Building rust apps with newlib 4.3.0 should work again
### Issues/PRs references
Co-authored-by: Marian Buschsieweke <marian.buschsieweke@ovgu.de>
Before the build system used something like
echo "int main(){} void _exit(int n) {(void)n;while(1);}" | LC_ALL=C $(LINK) -xc - -o /dev/null -lc -Wall -Wextra -pedantic <FLAGS_TO_TEST>
to check for flags supported by the compiler (used as linker frontend).
This however no longer works with newlib 4.3.0, which requires the
symbols `_sbrk_r`, `_close_r`, `_lseek_r`, `_read_r`, and `_write_r` to
be present. Instead, now a new file `minimal_linkable.c` was added that
adds all the missing symbols and is used in the linker feature tests
instead.
18863: boards/esp32s2-mini: add definition for ESP32 S2 Mini r=gschorcht a=benpicco
Co-authored-by: Benjamin Valentin <benjamin.valentin@bht-berlin.de>
Co-authored-by: Benjamin Valentin <benjamin.valentin@ml-pa.com>
