I forgot to remove the default eventhandlers from some of the HardwareSerial files as such the ones in the serialEventX files was not used and why my flags were not set properly.
Could have done simple fix, but decide to make it more consistent with what I did in T3.x/LC code and not look through all the NULLS, but simply have list of active ones and count of active.
Appears to fix the issue so far.
Found a way that appears to work to detect if a sketch has our default serialEvantX functions, and that the users code has not implemented their own. Before on SerialX.begin() I would add that serial ports code to table of function calls to do the if SerialX.available() call serialEvernt..
But I now have a hacked up version where each of the event functions are in their own source file, along with a variable that is defined. Elsewhere I have those same variables defined with an attribute of ((weak)), so if our default implemention is pulled in it is defined with a value of 1, if the weak version is used because the user has their own implemention, then it is defined as a 0... So I can detect this at the begin method and only add the code to do the checks in yield if the user implemented it.
WARNING this also brought in changes for using XBar pins for CTS and RX pins... As I did not wish to split back out and have you maybe have to manually merge.
Fixed the Serial2 object to use the new correct pins, plus made Serial8 only valid for T4 B1 (not B2).
Also I defined IO pins for the six signals associated with the SD Card slot.
I have tested these both as IO pins and now as SPI2
Add some support for serialEventX calls when yield is called.
Currently keep table of which SerialX objects are Used (.begin called) and each has their own function which does the
if (Serial1.available()) serialEvent1();
Calling SerialX.end(), removes the call from the list. Also the default weak pointer serialEventX functions call the disable function, as to only be called once as no one is actually processing them...
At some point will integrate this with EventResponder
Put in first pass at SerialX.end(),
Which should disable the Serial object, and I believe set the IO pins to be GPIO pins.
Also defined the extern void SerialEvent1() like functions in header in preperation for callbacks...
Fleshing out some of the missing pieces. - Need to test
copy NVIC execution priority from T3
Set priority per Serial object
RTS pin
CTS pin - only Serial3 supports
setRX, setTX - do nothing none of these have two pins defined.
Maybe temporary - but added from previous code ability to add second buffer for RX and TX
Used macros from OneWIre to fast set/clear the optional Transmitter Enable support.
Also fixed bug in ISR where was not properly looking for TC. This will help make SerialX->flush() to work
This pass has some more support for using the Hardware Serial objects.
Including setting an ISR for doing both reads and writes, sets up the FIFO,
Sitll lots more work to go.
Things like: fifo - need to better understand/set watermarks, also RX need to read in more than one byte if more available.
Also support fo r other features, like formats, 9 bit, ...
BUt at least you can do simple reads/writes
This is a WIP, But I have now been able to create Serial6 on T3.4 beta,
and so far have tested Send/Receive basic stuff at 115200 and have tried
at several CPU speeds in MHZ (192, 216, 180, 120, 96)