The executable now lives in the build directory, and since the build
directory already contains the variant name there is no need to also add
it to the executable.
Signed-off-by: Damien George <damien@micropython.org>
Binaries built using the Make build system now no longer appear in the
working directory of the build, but rather in the build directory. Thus
some paths had to be adjusted.
The rules for lib (static library with name $(LIBMICROPYTHON)) and the
default rule to build a binary (name $(PROG)) produced outputs in the
current working directory. Change this to build these files in the build
directory.
Note: An empty BUILD variable can cause issues (references to the root
directory); this is not addressed by this commit due to multiple other
places having the same issue.
Instead of using the fixed machine_spi_type entity to get the SPI transfer
function, this transfer function is now extracted dynamically from the type
of the SPI object.
This allows the SPI object used to communicate with the WIZNET5K hardware
to be SoftSPI or hardware SPI, or anything that has the SPI protocol (at
the C level).
Signed-off-by: Damien George <damien@micropython.org>
Avoiding conflicts between the IRQ and an active transfers. Before this
change the device could lock up in heavy traffic situations.
Fix found and code supplied by @omogenot.
If nic.active(True) is called several times in a row, the device may lock
up. Even if that is bad coding practice, calling wiznet5k_deinit() in
wiznet5k_init() prevents the lock.
Drop an obsolete and wrong argument check, which prevented specifying a pin
for the interrupt signal. The proper checks are now done further down in
the code.
In-the-field use of these FUS/WS firmware update scripts has exposed some
weak points, causing corrupted FUS/WS firmware to be flashed to the unit.
The problems are mostly caused with the ST GUI application, but sometimes
from un-recognised failures during bin file transfer to the WB55 prior to
running the rfcore_firmware.py script. Other failures were caused by
incorrect load addresses being used, again both from user error copying the
address from the HTML release notes to the GUI tool, but also from
similarly not updating the address correctly in rfcore_firmware.py
To guard against these errors and make it easier to prepare different
versions, this commit adds a few features to the rfcore firmware update
tools:
- When creating the bin file, automatically parse the release note in the
folder to get the correct address.
- Add a footer to the bin file containing the name, version, CRC, address
etc.
- Before flashing rfcore, check if the same version is already installed.
- Verify the CRC and obfuscation key before flashing bin.
- Log the name and version of file being flashed.
The reallocation trigger for unpacking star args with unknown length
did not take into account the number of fixed args remaining. So it was
possible that the unpacked iterators could take up exactly the memory
allocated then nothing would be left for fixed args after the star args.
This causes a segfault crash.
This is fixed by taking into account the remaining number of fixed args
in the check to decide whether to realloc yet or not.
Signed-off-by: David Lechner <david@pybricks.com>
The ntptime module was previously only included in the ESP8266 port. This
commit factors that module out into the extmod directory, makes it support
different epochs, and includes it in the rp2 port.
This adds support for the LEGO Hub No. 7, aka LEGO Technic Small hub, aka
LEGO SPIKE Essential hub. This board is largely similar to Hub No. 6:
- Same MCU (STM32F413 - different packaging with fewer pins).
- Same Bluetooth chip (TI CC2564).
- Same IMU chip.
- Similar external flash chip - 4MiB instead of 32MiB.
- 2 I/O ports instead of 6.
- No display - only status and battery LEDs.
- Different LED driver chip.
- Only 1 button which is also the power button.
- No speaker.
Signed-off-by: David Lechner <david@pybricks.com>
This adds configurable macros to define the timer and channel used to
provide the Bluetooth 32768 MHz clock. This will allow code to be shared
with LEGO_HUB_NO7.
Signed-off-by: David Lechner <david@pybricks.com>
This changes spiflash.py to read the flash chip ID at runtime to select the
read/write/erase commands. This will allow the code to be shared with
LEGO_HUB_NO7 which doesn't use the 32-bit commands.
Also remove an unused constant while we are touching this.
Signed-off-by: David Lechner <david@pybricks.com>
This changes appupdate.py to get the filesystem size at runtime. This will
allow the code to be shared with LEGO_HUB_NO7 which has a similar flash
chip with a different size.
Signed-off-by: David Lechner <david@pybricks.com>
This changes all uses of pins to use the alias names of the pins. This
makes the code easier to understand and will also allow sharing more code
with LEGO_HUB_NO7.
Signed-off-by: David Lechner <david@pybricks.com>
Also use mkrules.mk's submodule target rather than duplicating the call to
`submodule sync`.
Until we can find a way to use idf.py/cmake to discover submodules we have
no way to discover optional or board-specific submodules so need to err on
the side of including everything.
Signed-off-by: Jim Mussared <jim.mussared@gmail.com>
Used to be special-cased for Pico, but now everything depends on
micropython-lib if it's using a frozen manifest.
Signed-off-by: Jim Mussared <jim.mussared@gmail.com>
Several boards now depend on libraries from micropython-lib. Rather than
expecting micropython-lib to be available as a sibling of the micropython
repo, instead make it a submodule.
Signed-off-by: Jim Mussared <jim.mussared@gmail.com>
Document how to connect the Timer block BRK_IN to a physical Pin alternate
function.
Add an example of PWM Motor drive using complementary outputs with dead
time and break input to kill the PWM and generate a callback.
Signed-off-by: Chris Mason <c.mason@inchipdesign.com.au>
Some Pin alternate functions are inputs, for example, timer capture and
break inputs. In Pyb.Pin the only way to set alt mode is with Pin.AF_PP or
Pin.AF_OD. It is not intuitive to use an output mode to configure an
input. Pin.ALT is used in the machine.Pin class and works in pyb.Pin.
The examples are changed to use Pin.ALT because TIM2_CH3 can be a capture
input or pulse output.
Signed-off-by: Chris Mason <c.mason@inchipdesign.com.au>
Remove out of context callback paragraph, it was part of the wipy docs.
And move the paragraph about PULL_UP/PULL_DOWN resistor values to within
the init() method docs. Also fix pull-pull -> push-pull.
Signed-off-by: Chris Mason <c.mason@inchipdesign.com.au>
For bare metal ARM & xtensa targets, passing -g will make the ELF file
larger but doesn't change the binary size. However, this means tools like
gdb, addr2line, etc can extract source-level information from the ELF.
Also standardise -ggdb to -g, these produce the exact same ELF file on
arm-none-eabi-gcc and will use DWARF format for all these ports.
This adds #ifdefs around each of the mp_hal_* time functions for the unix
port. This allows variants to override individual functions as needed.
Signed-off-by: David Lechner <david@pybricks.com>
Still see some USB issues apparently caused by delays loading wifi
firmware. cyw43_delay_ms is used to wait in the driver, so we should call
the event hook in there.
Fixes#8963.
Formerly, py/formatfloat would print whole numbers inaccurately with
nonzero digits beyond the decimal place. This resulted from its strategy
of successive scaling of the argument by 0.1 which cannot be exactly
represented in floating point. The change in this commit avoids scaling
until the value is smaller than 1, so all whole numbers print with zero
fractional part.
Fixes issue #4212.
Signed-off-by: Dan Ellis dan.ellis@gmail.com
On ports with more than one filesystem, the type will be wrong, for example
if using LFS but FAT enabled, then the type will be FAT. So it's not
possible to use these classes to identify a file object type.
Furthermore, constructing an io.FileIO currently crashes on FAT, and
make_new isn't supported on LFS.
And the io.TextIOWrapper class does not match CPython at all.
Signed-off-by: Jim Mussared <jim.mussared@gmail.com>
The state machines were not properly restarted in the case that the same
PIO program was shared among multiple StateMachine instances. This is
because only the first StateMachine to use the program would set the
rp2_state_machine_initial_pc variable.
See https://forum.micropython.org/viewtopic.php?f=21&t=12776&p=69464#p69464