Aye! Don't give up on your stream yet Jbu.
We are talking Serial communication here. For serial stuff, it is absolutely expected that a -1 can/will be returned on reads, yet still expect data at a later time.
The problem is that most people are used to dealing with TCP/IP which should always return a 0 unless the TCP/IP disconnected... then yea, -1 makes sense.
However, with Serial there is no data flow for extended periods of time, and no "HTTP Keep Alive", or TCP/IP heartbeat, or (in most cases) no hardware flow control. But the link is physical, and still connected by "copper" and still perfectly live.
Now, if what they are saying is correct, ie: Serial should be closed on a -1, then why do we have to watch for stuff like OnCTS, pmCarroerDetect, onDSR, onRingIndicator, etc...
Heck, if 0 means its there, and -1 means its not, then screw all those detection functions! :-)
The problem you may be facing may lay elsewhere.
Now, onto specifics:
Q: "It seemed like only the tail end of the second event's data would be displayed and the the rest was missing."
A: I'm going to guess that you were in a loop, re-using the same byte buffer. 1st message comes in, is not displayed on the screen/log/std out yet (because you are in the loop), then you read the 2nd message, replacing the 1st message data in the buffer. Again, because I'm going to guess that you don't store how much you read, and then made sure to offset your store buffer by the previous read amount.
Q:"I eventually changed my code so that when I get an event I'd called if(inputStream.available() > 0) while((aByte = read()) > -1) store the byte."
A: Bravo... thats the good stuff there. Now, you data buffer is inside an IF statement, your 2nd message will not clobber your 1st... well, actually, it was probably just one big(er) message in the 1st place. But now, you will read it all in one shot, keeping the data intact.
C: "... race condition ..."
A: Ahhh, the good ol' catch all scape goat! The race condition... :-) Yes, this may have been a race condition, in fact it may have well been. But, it could also just be the way the RXTX clears the flag. The clearing of the 'data available flag' may not happen as quick as one expects. For example, anyone know the difference between read VS readLine in relation to clearing the buffer the data was previously stored in and re-setting the event flag? Neither do I. :-) Nor can I find the answer yet... but... let me ramble on for a few sentences more. Event driven programming still has some flaws. Let me give you a real world example I had to deal with recently.
- I got some TCP/IP data, lets say, 20 bytes.
- So I receive the OnEvent for Received Data.
- I start my 'read' even on the 20 bytes.
- Before I finish reading my 20 bytes... I get another 10 bytes.
- The TCP/IP however, looks to notify me, oh, sees that the flag is still SET, and will not notify me again.
- However, I finish reading my 20 bytes (available() said there were 20)...
- ... and the last 10 bytes remain in the TCP/IP Q... because I was not notified of them.
See, the notification was missed because the flag was still set... even though I had begun reading the bytes. Had I finished the bytes, then the flag would have been cleared, and I would have received notification for the next 10 bytes.
The exact opposite of what is happening for you now.
So yea, go with an IF available() ... do a read of the returned length of data.
Then, if you are paranoid, set a timer and call available() again, if there is still data there, then do a read no the new data. If available() returns 0 (or -1), then relax... sit back... and wait for the next OnEvent notification.