Commit Graph

8 Commits

Author SHA1 Message Date
Jade Mattsson 4cdebe7191
Initial support for ESP32-C6 and ESP32-H2, plus assorted fixes & improvements (#3646)
* Proof-of-concept multi-type console support via stdio

* Address crashes on linput's use of printf.

On an empty line input, a C3 with UART console would panic while attempting
to output the new Lua prompt. The backtrace shows a xQueueSemaphoreTake
with uxItemSize==0 as the panic cause, deep inside the uart driver, invoked
via vfs_uart and vfs_console layers, from printf.
Similarly, the printf for outputting a backspace/erase sequence would also
trigger a panic.

This workaround (of not mixing fflush() with printf) is likely merely hiding
a deeper issue, but it appears to be consistent. Plus, printf with no args
and a user-supplied format string is a no-no and should be fixed anyway.

* Work around IDF inconsistency with stdout buffering.

* Increase console task stack size.

Seems on Xtensa it ended up not being enough.

* Switch to single-byte console reads.

* Stop cheating and feed Lua from the right context.

* Work around IDF buffering stdout even when told not to, on ACM consoles.

* Initial build support for esp32c6.

Plus fixup of module selection for a variety of targets.

* Update github actions to node 20 versions.

* Update github build to deal with Lua 5.3 being default.

* Address fatal compiler warning.

Newer IDF toolchain is stricter, and we'd apparently failed to build test
the Lua-5.1 path for some time.

* Initial build support for esp32h2.

* Upgrade IDF to v5.1.3

* Fix left-over incorrect type in uzlib.

* Avoid null pointer crashes when debugging startup.

* Workaround for using wifi module on S2 with USB-CDC console.

---------

Co-authored-by: Jade Mattsson <github@frozenlogic.org>
2024-04-26 17:35:22 -04:00
Johny Mattsson f126b6fe91 Initial migration to IDFv5.0
Plenty of dependency adjustments, printf format specificier updates,
FreeRTOS type and macro name modernisation, not to mention API changes.

Still plenty of legacy/deprecated drivers in use which will need updating.

The following features have been removed due to no longer being available
from the IDF:
  - ADC hall effect sensor reading
  - Configuration of SD SPI host via sdmmc module (now must be done first
    via the spimaster module)
  - FAT partition selection on external SD cards; only the first FAT
    partition is supported by the IDF now

On the other hand, the eth module now supports the following new chipsets:
  - KSZ8001
  - KSZ8021
  - KSZ8031
  - KSZ8051
  - KSZ8061
  - KSZ8091
  - Possibly additional models in the LAN87xx series (the IDF docs aren't
    clear on precisely which models are handled)

Further, the sdmmc module is now available on the ESP32-S3 as well.
2024-01-30 11:34:03 +11:00
Johny Mattsson f123d46209 Add ESP32C3 support/coexistence.
The uzlib and parts of Lua had to be switched over to use the
C standard int types, as their custom typedefs conflicted with
RISC-V toolchain provided typedefs.

UART console driver updated to do less direct register meddling
and use the IDF uart driver interface for setup. Still using our
own ISR rather than the default driver ISR. Down the line we
might want to investigate whether the IDF ISR would be a better
fit.

Lua C modules have been split into common and ESP32/ESP32-S
specific ones. In the future there might also be ESP32-C3
specific modules, which would go into components/modules-esp32c3
at that point.

Our old automatic fixup of flash size has been discarded as it
interferes with the checksumming done by the ROM loader and
results in unbootable systems. The IDF has already taken on
this work via the ESPTOOL_FLASHSIZE_DETECT option, which handles
this situation properly.
2021-08-11 17:32:47 +10:00
Johny Mattsson c8e1c44c0e Sort out task posting behaviour. 2021-07-26 15:36:57 +10:00
Johny Mattsson d8131bc407 Minor esp32 fixes (#2837)
* Move task_post() into IRAM so it can be used by IRAM'd ISRs.

* Don't leave crud on stack on pcall error.
2019-07-19 21:16:46 +02:00
Johny Mattsson f44e6e9639 Fix net module data loss & RTOS task unsafety (#2829)
To avoid races between the lwIP callbacks (lwIP RTOS task) and the Lua
handlers (LVM RTOS task), the data flow and ownership has been simplified
and cleaned up.

lwIP callbacks now have no visibility of the userdata struct. They are
limited to creating small event objects and task_post()ing them over
to the LVM "thread", passing ownership in doing so. The shared identifier
then becomes the struct netconn*.

On the LVM side, we keep a linked list of active userdata objects. This
allows us to retrieve the correct userdata when we get an event with
a netconn pointer. Because this list is only ever used within the LVM
task, no locking is necessary.

The old approach of stashing a userdata pointer into the 'socket' field
on the netconn has been removed entirely, as this was both not
thread/RTOS-task safe, and also interfered with the IDFs internal use
of the socket field (even when using only the netconn layer). As an
added benefit, this removed the need for all the SYS_ARCH_PROTECT()
locking stuff.

The need to track receive events before the corresponding userdata object
has been established has been removed by virtue of not reordering the
"accept" and the "recv" events any more (previously accepts were posted
with medium priority, while the receives where high priority, leading
to the observed reordering and associated headaches).

The workaround for IDF issue 784 has been removed as it is now not needed
and is in fact directly harmful as it results in a double-free. Yay for
getting rid of old workarounds!

DNS resolution code paths were merged for the two instances of "socket"
initiated resolves (connect/dns functions).

Also fixed an instance of using a stack variable for receiving the resolved
IP address, with said variable going out of scope before the DNS resolution
necessarily completed (hello, memory corruption!).

Where possible, moved to use the Lua allocator rather than plain malloc.

Finally, the NodeMCU task posting mechanism got a polish and an adjustment.
Given all the Bad(tm) that tends to happen if something fails task posting,
I went through a couple of iterations on how to avoid that. Alas, the
preferred solution of blocking non-LVM RTOS tasks until a slot is free
turned out to not be viable, as this easily resulted in deadlocks with the
lwIP stack. After much deliberation I settled on increasing the number of
available queue slots for the task_post() mechanism, but in the interest
of user control also now made it user configurable via Kconfig.
2019-07-14 23:20:20 +02:00
Johny Mattsson 9bbf8f43fb Successfully boot barebones NodeMCU on ESP32 (only).
RTOS driver evicted as it did not play nice with stdio etc.

Implemented a minimal driver to fully support Lua console on UART0. Output
on UART0 done via stdout (provided by the IDF). Input and setup handled
via driver_console/console.c. In addition to the direct input function
console_getc(), the driver also registers in the syscall tables to enable
regular stdio input functions to work (yay!). The Lua VM is still using the
direct interface since it's less overhead, but does also work when going
through stdin/fd 0.

Auto-bauding on the console is not yet functional; revisit when the UART docs
are available.

Module registration/linking/enabling moved over to be Kconfig based. See
updates to base_nodemcu/include/module.h and base_nodemcu/Kconfig for
details.

The sdk-overrides directory/approach is no longer used. The IDF is simply
too different to the old RTOS SDK - we need to adapt our code directly instead.

Everything in app/ is now unused, and will need to be gradually migrated
into components/ though it is probably better to migrate straight from the
latest dev branch.
2016-09-20 13:35:56 +10:00
Johny Mattsson a463d764eb WIP ESP32 IDF port.
Currently the UART driver break boot (or at least output).
2016-09-16 18:11:42 +10:00