* Check the return code of the read function when doing crypto.fhash so that we don't pass negative lengths to the hashing functions
* Fix various assert failures in the LVM arising from rotables. No functional change
* Add the gpio interrupt time to the callback (and pass it from the interrupt handler)
* Get the PC right in the perf module
* Make the headers static in the websocket module
* Fix the documentation
* Add FatFs
* enable BUILD_FATFS for all-module build
* push vfs into rest of firmware
* align maximum filename length
* increase timeout for acmd41 during card initialization
* switch from DOS to Unix path semantics chdrive() is substituted by chdir()
* update to fatfs R.012a incl. patches 1-6
* add callback for rtc provisioning in file
* update docs
AFAIK no one uses the wifi.startsmart() and wifi.stopsmart(). Removing
them frees up an extra 20-25K of Flash to use as filesystem. So I have
added a new config define WIFI_SMART_ENABLE which is enabled by default
so the default functionality is the same, but if this is commented out
then this code is omitted.
I have also removed wofs and upgrade from this build as we no longer
support these.
Module creation & registration now made a lot simpler. In essence,
each module file is now self-contained and only needs a
NODEMCU_MODULE(MYNAME, "myname", myname_map, luaopen_myname);
line to both be automatically recognised by the Lua initialization
as well as honor the LUA_USE_MODULES_MYNAME #define.
As per #810 & #796, only LUA_OPTIMIZE_MEMORY=2 & MIN_OPT_LEVEL=2 are
supported when building. This commit effects that limitation.
With this change modules/auxmods.h no longer needs to be updated for
every new module, nor do module writers need to cater for a hypothetical
LUA_OPTIMIZE_MEMORY < 2 scenario.
When lua assertions are enabled, normal operation results in many:
lobject.c:88: (((t1)->tt) == 4)
lobject.c:88: (((t2)->tt) == 4)
lobject.c:88: (((t1)->tt) == 4)
lobject.c:88: (((t2)->tt) == 4)
lobject.c:88: (((t1)->tt) == 4)
lobject.c:88: (((t2)->tt) == 4)
It comes from using the pvalue() macro for 3 pointer types, where
pvalue() also checks the type of pointer and complains through the
assertion where the type == 4 (TLIGHTUSERDATA).
Use the correct macro according to the type of data being compared
to eliminate this assertion error.
Signed-off-by: Nick Andrew <nick@nick-andrew.net>
plus Add extra logic to handle different loci path in luac.cross
for handling 32 bit or great hex integers Also add a helpfull hint in the
build tool to point out the Lua and lfs depencencies.