This commit is a combination of 216 commits from the initial stages of
development of this port, up to and including the point where the code was
moved to the ports/esp32 directory. These commits were mostly concerned
with setting up the build system and getting a reliable port working with
basic features. The following is a digest of the original commits in their
original order (most recent listed first), grouped where possible per
author. The list is here to give credit for the work and provide some
level of traceability and accountability. For the full history of
development please consult the original repository.
All code is MIT licensed and the relevant copyright holders are listed in
the comment-header of each file.
Damien George <damien.p.george@gmail.com>
esp32: Update to latest ESP IDF.
esp32: Update module symlinks now that code lives under the ports dir.
esp32: Update to compile with new ports/esp32 directory structure.
esp32: Move it to the ports/ directory.
esp32/machine_uart: Don't save baudrate but compute it instead.
esp32/modsocket: Add socket.readinto() method.
esp32/modesp: Add esp.gpio_matrix_in and esp.gpio_matrix_out functions.
esp32/machine_uart: Wait for all data to be tx'd before changing config.
NyxCode <moritz.bischof1@gmail.com>
esp32: Add note to README.md about updating the submodules of ESP IDF.
Anthony Briggs <anthony.briggs@gmail.com>
esp32: Update README.md installation and flashing instructions.
Javier Candeira <javier@candeira.com>
esp32: Raise error when setting input-only pin to output.
With help from Adrian Smith (fon@thefon.net)
Javier Candeira <javier@candeira.com>
esp32: Replace exception raising with corresponding mp_raise_XXX funcs.
Tisham Dhar <whatnickd@gmail.com>
esp32: Add some specific notes about building on Windows using WSL.
Ben Gamari <ben@smart-cactus.org>
esp32: Provide machine.Signal class.
Damien George <damien.p.george@gmail.com>
esp32/modnetwork: Implement AP version of network.isconnected().
Eric Poulsen <eric@zyxod.com>
esp32/README.md: Add note about btree submodule initialization.
Damien George <damien.p.george@gmail.com>
esp32: Make firmware.bin start at 0x1000 to allow flash size autodetect.
esp32: Changes to follow latest version of upstream uPy.
esp32/Makefile: Separate ESP-specific inc dirs to avoid header clashes.
esp32: Enable "btree" database module.
esp32: Update to latest ESP IDF.
Roosted7 <thomasroos@live.nl>
esp32: Update to latest ESP-IDF.
Alex King <alex_w_king@yahoo.com>
esp32/machine_timer: Add support for esp32 hardware timer.
Code lineage:
Timer() is based loosely on the version in esp8266, although the
implementation is differs significantly because of the change in
the underlying platform.
Damien George <damien.p.george@gmail.com>
esp32/machine_uart: Increase UART TX buffer size to 64.
esp32/modules: Update dht symlink.
esp32/mpconfigport.h: Enable utimeq module, needed for uasyncio.
esp32: Changes to follow latest version of upstream uPy.
esp32: Update to latest ESP-IDF.
esp32/machine_uart: Add uart.any() method.
esp32/machine_uart: Uninstall the UART driver before installing it.
Thomas Roos <mail@thomasroos.nl>
esp32: Update to latest ESP-IDF.
Eric Poulsen <eric@zyxod.com>
esp32/modsocket: Make read/write return None when in non-blocking mode.
esp32/modsocket.c: Fix send/sendto/write for non-blocking sockets.
Odd Stråbø <oddstr13@openshell.no>
esp32: Initial working implementation of machine.UART.
Code lineage (as seen by previous commits): I copied the ESP8266 code,
renamed pyb -> machine, and used esp-idf as a reference while implementing
minimal functionality. I provide all of my changes under the MIT license.
Odd Stråbø <oddstr13@openshell.no>
esp32/machine_uart: Rename pyb to machine.
esp32: Copy machine_uart.c from esp8266 port.
Damien George <damien.p.george@gmail.com>
esp32/moduos: Add uos.ilistdir() function.
esp32: Mount filesystem at the root of the VFS, following esp8266.
Andy Valencia <vandyswa@gmail.com>
esp32: Add hardware SHA1/SHA256 support via mbedtls API.
Code lineage: a copy of extmod/moduhashlib with the API invocation details
edited. Total derivative work.
Andy Valencia <vandyswa@gmail.com>
esp32: Add PWM support via machine.PWM class.
Code lineage:
I started by copying the esp8266 machine_pwm.c. I used information from the
ESP32 Technical Reference Manual, the esp-idf documentation, and the SDK's
sample ledc example code (but I did not copy that code, just studied it to
understand the SDK's API for PWM). So aside from the code copied from the
esp8266 PWM support, everything else you see is just new code I wrote.
I wasn't an employee of anybody when I wrote it, and I wrote it with the
understanding and intention that it's simply a derivative work of the
existing micropython code. I freely and willingly contribute it to the
project and intend that it not change the legal status of the micropython
code base in any way, even if it is included in that base in whole or part.
Damien George <damien.p.george@gmail.com>
esp32/modules: Add symlinks for upysh and upip.
Eric Poulsen <eric@zyxod.com>
esp32/modmachine: Add unique_id() function to machine module.
Damien George <damien.p.george@gmail.com>
esp32: Change dac_out_voltage to dac_output_voltage for new IDF API.
esp32: Update esp32.custom_common.ld to align with changes in ESP IDF.
Eric Poulsen <eric@zyxod.com>
esp32: Update to latest ESP IDF.
Damien George <damien.p.george@gmail.com>
esp32/modsocket: When resolving IP addr handle the case of host=''.
esp32: Update to latest ESP IDF.
Eric Poulsen <eric@zyxod.com>
esp32/Makefile: Change default FLASH_MODE to dio for WROOM-32 module.
esp32: Move FAT FS to start at 0x200000 and increase size to 2MiB.
Damien George <damien.p.george@gmail.com>
esp32: Remove enable_irq/disable_irq and use ATOMIC_SECTION instead.
esp32/mpconfigport.h: Provide ATOMIC_SECTION macros.
esp32/main: Restart the MCU if there is a failed NLR jump.
Daniel Campora <daniel@pycom.io>
esp32: Enable threading; be sure to exit GIL when a thread will block.
esp32: Trace the registers when doing a gc collect. Also make it thread ready.
esp32: Add threading implementation, disabled for the time being.
Damien George <damien.p.george@gmail.com>
esp32: Update to latest ESP IDF.
esp32/uart: Use high-level function to install UART0 RX ISR handler.
esp32/Makefile: Make FreeRTOS private include dir really private.
Eric Poulsen <eric@zyxod.com>
esp32: Add support for hardware SPI peripheral (block 1 and 2).
Sergio Conde Gómez <skgsergio@gmail.com>
esp32/modules/inisetup.py: Mount filesystem at /flash like ESP8266
Damien George <damien.p.george@gmail.com>
esp32: Convert to use core-provided KeyboardInterrupt exception.
esp32: Pump the event loop while waiting for rx-chr or delay_ms.
esp32: Implement Pin.irq() using "soft" scheduled interrupts.
esp32: Update to latest ESP IDF version.
Eric Poulsen <eric@zyxod.com>
esp32/README: Add troubleshooting section to the end.
tyggerjai <tyggerjai@gmail.com>
esp32: Add support for WS2812 and APA106 RGB LEDs.
Damien George <damien.p.george@gmail.com>
esp32: Add makeimg.py script to build full firmware; use it in Makefile.
esp32/modsocket: Make socket.read return when socket closes.
esp32/modsocket: Initialise the timeout on an accepted socket.
esp32/mphalport: Provide proper implementations of disable_/enable_irq.
esp32/modmachine: Add disable_irq/enable_irq functions.
Nick Moore <nick@zoic.org>
esp32/modsocket.c: add comment explaining timeout behaviour
esp32/modsocket.c: clean up send methods for retries too
esp32/modsocket.c: sockets always nonblocking, accept timeout in modsocket
esp32: Update to latest ESP IDF version.
esp32/modsocket.c: remove MSG_PEEK workaround on select ioctl.
esp32/modsocket.c: Initialize tcp when modsocket loads.
Damien George <damien.p.george@gmail.com>
esp32/main: Bump heap size from 64k to 96k.
esp32/modutime: Add time.time() function.
esp32/modsocket: Convert lwip errnos to uPy ones.
esp32/modules: Provide symlink to ds18x20 module.
esp32: Add support for onewire protocol via OneWire module.
esp32: Add support for DHT11 and DHT22 sensors.
esp32/mphalport: Improve delay and ticks functions.
esp32: Update to latest ESP IDF.
esp32/modules: Provide symlink to urequests from micropython-lib.
esp32: Populate sys.path.
Nick Moore <nick@zoic.org>
esp32/machine_dac.c: implement DAC pins as well
esp32/machine_adc.c: also machine.ADC
esp32/machine_touchpad.c: add support for touchpad
Damien George <damien.p.george@gmail.com>
esp32/README: Add hint about using GNUmakefile on case-insensitive FS.
esp32/mpconfigport.h: Enable maximum speed software SPI.
esp32: Provide improved version of mp_hal_delay_us_fast.
esp32/mpconfigport.h: Enable MICROPY_PY_BUILTINS_POW3 option.
esp32: Update to latest ESP IDF.
esp32: Convert to use new oofatfs library and generic VFS sub-system.
esp32: Enable help('modules') to list builtin modules.
esp32: Convert to use new builtin help function.
Aaron Kelly <AaronKelly@email.com>
esp32/README: Add comment about ESP-IDF version
Damien George <damien.p.george@gmail.com>
esp32: Consistently use size_t instead of mp_uint_t.
esp32: Change "Micro Python" to "MicroPython" in license comments.
esp32/Makefile: Use -C argument to git instead of cd'ing.
esp32/help: Add section to help about using the network module.
esp32/README: Add section about configuring and using an ESP32 board.
esp32/README: Remove paragraph about buggy toolchain, it's now fixed.
esp32/modnetwork: Change network init logging from info to debug.
esp32/modnetwork: Don't start AP automatically when init'ing wifi.
esp32/modsocket: Implement socket.setsockopt, to support SO_REUSEADDR.
esp32: Update to latest ESP IDF.
esp32/sdkconfig.h: Remove unused CONFIG_ESPTOOLPY_xxx config settings.
esp32/modsocket: Add support for DGRAM and RAW, and sendto/recvfrom.
esp32/modsocket: Fix return value of "port" in socket.accept.
esp32/modsocket: Make socket.recv take exactly 2 args.
esp32: Enable ussl module, using mbedtls component from ESP IDF.
esp32/modsocket: Rename "socket" module to "usocket".
esp32/sdkconfig: Increase max number of open sockets from 4 to 8.
esp32/modsocket: Add error checking for creating and closing sockets.
esp32/modsocket: Use _r (re-entrant) versions of LWIP socket API funcs.
esp32/modsocket: Raise an exception if socket.connect did not succeed.
esp32/modsocket: Make socket.accept return a tuple: (client, addr).
esp32/modsocket: Use m_new_obj_with_finaliser instead of calloc.
esp32/Makefile: Add check for IDF version, and warn if not supported.
esp32/esp32.custom_common.ld: Update to follow changes in IDF.
esp32: Update to latest ESP IDF.
nubcore <x@nubcore.com>
esp32: add #define CONFIG_ESP32_WIFI_RX_BUFFER_NUM 25
Nick Moore <nick@zoic.org>
esp32/modsocket.c: add in sendall and makefile methods #10
esp32/modsocket.c: fixups for #10
esp32/modsocket.c: fix copyright, socket_recv gets param and exception
esp32/modnetwork.c: fix copyright, network.active param to bool
Damien George <damien.p.george@gmail.com>
esp32/modnetwork: Implement wlan.isconnected() method.
esp32/modnetwork: Add initial implementation of wlan.config().
esp32/modnetwork: Simplify event_handler messages.
Nick Moore <nick@zoic.org>
esp32/modsocket.c: support for ioctl, settimeout, setblocking, getaddrinfo
Damien George <damien.p.george@gmail.com>
esp32/README: Add comment about FLASH_MODE being dio.
esp32: Update to latest ESP IDF.
esp32/modnetwork: Remove unnecessary indirection variable for scan list.
esp32/modnetwork: Check that STA is active before trying to scan.
esp32/mphalport: Replace portTICK_RATE_MS with portTICK_PERIOD_MS.
esp32/README: Add comment about using $(HOME) in makefile.
esp32/modnetwork: Use memset instead of bzero, the latter is deprecated.
esp32/modnetwork: Improve error handling when STA is connecting to AP.
esp32/Makefile: Use tab instead of spaces, and use shorter variable.
Nick Moore <nick@zoic.org>
esp32/modsocket.c: AF_*, SOCK_* and IPPROTO_* constants
esp32/modsocket.c: socket.settimeout implementation
Damien George <damien.p.george@gmail.com>
esp32/Makefile: Update to latest ESP IDF.
Nick Moore <nick@zoic.org>
esp32/modsocket.c: use mp streams for sockets
esp32: network.WLAN.ifconfig based on esp8266 version
esp32: Fix up exception handling
esp32: sketchy modsocket ... revisit this once modnetwork is sorted
esp32: First cut at modnetwork, manually rebased from prev. version
Damien George <damien.p.george@gmail.com>
esp32/help: Update help text.
esp32: Add info about Microbric Pty Ltd being the sponsor of this port.
esp32: Add README.md file.
esp32/mpconfigport.h: Add weak links to many of the builtin modules.
esp32: Enable soft implementation of machine.SPI class.
esp32/Makefile: Simplify APP_LD_ARGS by using OBJ variable.
esp32/Makefile: Reorganise Makefile and add some comments.
esp32/Makefile: Clean up CFLAGS for ESP IDF components.
esp32/Makefile: Tidy up names of ESP IDF components, to match dir name.
esp32/Makefile: Define and use ESPCOMP variable.
esp32: Update to latest ESP IDF.
esp32/main: Enable filesystem support.
esp32: Use custom ld script to ensure correct code get placed in iram.
esp32: Update to latest ESP IDF.
esp32/main: Pin the uPy task to core 0.
esp32: Update to use latest ESP IDF.
esp32: Disable boot-up scripts, spi_flash_erase_sector no longer works.
esp32: Add scripts to init and mount filesystem.
esp32: Enable frozen bytecode, with scripts stored in "modules/" dir.
esp32/modesp: Increase flash_user_start position to 1Mbyte.
esp32/Makefile: Add "erase" target for convenient erasure.
esp32/sdkconfig: Reorder config settings to put common things together.
esp32/sdkconfig: Change to use single core only.
esp32: Add esp module.
esp32/uart.c: Make sure uart ISR handler is all in iram.
esp32/main.c: Use ESP_TASK_PRIO_MIN + 1 for mp_task's priority.
esp32/Makefile: Use only bare-minimum flags when compiling .S files.
esp32/Makefile: Rename "firmware" to "application".
esp32: Update ESP IDF version.
esp32/Makefile: Add declarations to build bootloader and partitions.
esp32/Makefile: When deploying, write the application last.
esp32/Makefile: Use $(INC) variable instead of listing include dirs.
esp32/Makefile: Use locally built versions of freertos and newlib libs.
esp32: Add low-level uart handler with ISR and ringbuf for stdin.
esp32: Add machine.idle() function.
esp32: Add machine.I2C class.
esp32: Enable machine.time_pulse_us.
esp32: Add initial implementation of machine.Pin class.
esp32: Prepare main.c for using xTaskCreateStatic.
esp32: Clean up mphalport.h.
esp32: Add initial uos module.
esp32: Clean up mpconfigport.h, enable more features.
esp32: Use new reset function.
esp32: Update to latest ESP IDF.
esp32: Add idf-version target to Makefile, to track IDF commit.
esp32: Initial port to ESP32.
This is a bit of a clumsy way of doing it but solves the issue of __init__
not running when a module is imported via its weak-link name. Ideally a
better solution would be found.
"Builtin" tinytest-based testsuite as employed by qemu-arm (and now
generalized by me to be reusable for other targets) performs simplified
detection of skipped tests, it treats as such tests which raised SystemExit
(instead of checking got "SKIP" output). Consequently, each "SKIP" must
be accompanied by SystemExit (and conversely, SystemExit should not be
used if test is not skipped, which so far seems to be true).
Before this patch, if a user defined the __new__() function for a class
then two instances of that class would be created: once before __new__ is
called and once during the __new__ call (assuming the user creates some
instance, eg using super().__new__, which is most of the time). The first
one was then discarded. This refactor makes it so that a new instance is
only created if the user __new__ function doesn't exist.
This patch cleans up and generalises part of the code which handles
overriding and calling a native base-class's __init__ method. It defers
the call to the native make_new() function until after the user (Python)
__init__() method has run. That user method now has the chance to call the
native __init__/make_new and pass it different arguments. If the user
doesn't call the super().__init__ method then it will be called
automatically after the user code finishes, to finalise construction of the
instance.
The nan-boxing representation has an extra 16-bits of space to store
small-int values, and making use of it allows to create and manipulate full
32-bit positive integers (ie up to 0xffffffff) without using the heap.
These tests involves testing allocation-free function calling, and in strict
stackless mode, it's not possible to make a function call with heap locked
(because function activation record aka frame is allocated on the heap).
In strict stackless mode, it's not possible to make a function call with
heap locked (because function activation record aka frame is allocated on
heap). So, if the only purpose of function is to introduce local variable
scope, move heap lock/unlock calls inside the function.
This patch introduces the MICROPY_ENABLE_PYSTACK option (disabled by
default) which enables a "Python stack" that allows to allocate and free
memory in a scoped, or Last-In-First-Out (LIFO) way, similar to alloca().
A new memory allocation API is introduced along with this Py-stack. It
includes both "local" and "nonlocal" LIFO allocation. Local allocation is
intended to be equivalent to using alloca(), whereby the same function must
free the memory. Nonlocal allocation is where another function may free
the memory, so long as it's still LIFO.
Follow-up patches will convert all uses of alloca() and VLA to the new
scoped allocation API. The old behaviour (using alloca()) will still be
available, but when MICROPY_ENABLE_PYSTACK is enabled then alloca() is no
longer required or used.
The benefits of enabling this option are (or will be once subsequent
patches are made to convert alloca()/VLA):
- Toolchains without alloca() can use this feature to obtain correct and
efficient scoped memory allocation (compared to using the heap instead
of alloca(), which is slower).
- Even if alloca() is available, enabling the Py-stack gives slightly more
efficient use of stack space when calling nested Python functions, due to
the way that compilers implement alloca().
- Enabling the Py-stack with the stackless mode allows for even more
efficient stack usage, as well as retaining high performance (because the
heap is no longer used to build and destroy stackless code states).
- With Py-stack and stackless enabled, Python-calling-Python is no longer
recursive in the C mp_execute_bytecode function.
The micropython.pystack_use() function is included to measure usage of the
Python stack.
This function was implemented as an experiment, and was enabled only in
unix port. To remind, it allows to access arbitrary files frozen as
source modules (vs bytecode).
However, further experimentation showed that the same functionality can
be implemented with frozen bytecode. The process requires more steps, but
with suitable toolset it doesn't matter patch. This process is:
1. Convert binary files into "Python resource module" with
tools/mpy_bin2res.py.
2. Freeze as the bytecode.
3. Use micropython-lib's pkg_resources.resource_stream() to access it.
In other words, the extra step is using tools/mpy_bin2res.py (because
there would be wrapper for uio.resource_stream() anyway).
Going frozen bytecode route allows more flexibility, and same/additional
efficiency:
1. Frozen source support can be disabled altogether for additional code
savings.
2. Resources could be also accessed as a buffer, not just as a stream.
There're few caveats too:
1. It wasn't actually profiled the overhead of storing a resource in
"Python resource module" vs storing it directly, but it's assumed that
overhead is small.
2. The "efficiency" claim above applies to the case when resource
file is frozen as the bytecode. If it's not, it actually will take a
lot of RAM on loading. But in this case, the resource file should not
be used (i.e. generated) in the first place, and micropython-lib's
pkg_resources.resource_stream() implementation has the appropriate
fallback to read the raw files instead. This still poses some distribution
issues, e.g. to deployable to baremetal ports (which almost certainly
would require freezeing as the bytecode), a distribution package should
include the resource module. But for non-freezing deployment, presense
of resource module will lead to memory inefficiency.
All the discussion above reminds why uio.resource_stream() was implemented
in the first place - to address some of the issues above. However, since
then, frozen bytecode approach seems to prevail, so, while there're still
some issues to address with it, this change is being made.
This change saves 488 bytes for the unix x86_64 port.
This target removes any stray files (i.e. something not committed to git)
from scripts/ and modules/ dirs (or whatever FROZEN_DIR and FROZEN_MPY_DIR
is set to).
The expected workflow is:
1. make clean-frozen
2. micropython -m upip -p modules <packages_to_freeze>
3. make
As it can be expected that people may drop random thing in those dirs which
they can miss later, the content is actually backed up before cleaning.
This is second part of fun_bc_call() vs mp_obj_fun_bc_prepare_codestate()
common code refactor. This factors out code to initialize codestate
object. After this patch, mp_obj_fun_bc_prepare_codestate() is effectively
DECODE_CODESTATE_SIZE() followed by allocation followed by
INIT_CODESTATE(), and fun_bc_call() starts with that too.
fun_bc_call() starts with almost the same code as
mp_obj_fun_bc_prepare_codestate(), the only difference is a way to
allocate the codestate object (heap vs stack with heap fallback).
Still, would be nice to avoid code duplication to make further
refactoring easier.
So, this commit factors out the common code before the allocation -
decoding and calculating codestate size. It produces two values,
so structured as a macro which writes to 2 variables passed as
arguments.
Command-line argc and argv should be passed, and as we don't have them,
placeholders were passed, but incorrectly. As we don't have them, just
pass 0/NULL. Looking at the source, this migh lead to problems under
Windows, but this test doesn't run under Windows.
Also, use "%d" printf format consistently with the rest of the codebase.
The assembler back-end for most architectures needs to know if a jump is
backwards in order to emit optimised machine code, and they do this by
checking if the destination label has been set or not. So always reset
label offsets to -1 (this reverts partially the previous commit, with some
minor optimisation for the if-logic with the pass variable).
Clearing the labels to -1 is purely a debugging measure. For release
builds there is no need to do it as the label offset table should always
have the correct value assigned.
Accessing them will crash immediately instead still working for some time,
until overwritten by some other data, leading to much less deterministic
crashes.