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I noticed with my board from DIY drones a strange behavior when I use my custom firmware. Here is an example function which is called in my firmware running on an Arduino board:

void send_attitude(float roll, float pitch, float yaw) {
                      roll, pitch, yaw);

As you can see, the code just writing a message in the serial port set in setup (hal.uartA). I call this function every 0.5s:

 inline void medium_loop() {
  static int timer = 0;
  int time = hal.scheduler->millis() - timer;

  // send every 0.5 s
  if(time > 500) {  
    send_attitude(OUT_PIT, OUT_ROL, OUT_YAW);

    timer = hal.scheduler->millis();

Now to the strange thing. If I use the serial monitor or read the board with another program or script everything is fine. Every 0.5s the proper LED is blinking and message is shown. But if I don't read it out, after appr. 10s the LED is flushing up continuously and no connection/communication is possible anymore. I have to unplug the board then. The same behavior is observed the other way round. If I send to my board over serial port (in my case USB) and don't flush the input buffer, the LED is flushing up continuously and I get a timeout. The following code works:

def send_data(line):
  # calc checksum
  chk = chksum(line)
  # concatenate msg and chksum
  output = "%s*%x\r\n" % (line, chk)
    bytes = ser.write(output)
  except serial.SerialTimeoutException as e:
    logging.error("Write timeout on serial port '{}': {}".format(com_port, e))
  # Flush input buffer, if there is still some unprocessed data left
  # Otherwise the APM 2.5 control boards stucks after some command
  ser.flush()       # Try to send old message
  ser.flushInput()  # Delete what is still inside the buffer

If I comment out this line:

ser.flushInput()  # Delete what is still inside the buffer

I don't use more settings then this. I get (depending on the message interval) a timeout sooner or later. In my case I send every 20ms a signal which results in a timeout after ~10s. Also dependent on the length of message. Bigger messages cause it faster than smaller ones.

My settings are shown in the following snippets. Client side python code:

com_port  = '/dev/ttyACM0'
baud_rate = '115200'
  ser = serial.Serial(com_port, baud_rate, timeout=0.1, writeTimeout=0.1, rtscts=1)

The if these timeouts happen, then I also get one if I set the timeout to something like 2s. In my case I need a very low latency, which is indeed possible if I keep reading and flushing. Firmware code from my Arduino:

void setup() {
  // Set baud rate when connected to RPi
  hal.console->printf("Setup device ..\n");
  // Followed by motor, compass, barometer initialization

My questions are:

  • What exactly happens with my board?

  • Why it is not reacting anymore if I just write in my serial port without reading or flushing the buffer?

  • Is it really a buffer or driver problem associated with this strange behavior and is this problem related to all Arduino boards or maybe just mine APM 2.5 from DIY drones?

  • Last but not least: I was finding no functions in the library which are targeting such problems. Are there maybe any I don't know?

The complete source code is @google code: https://code.google.com/p/rpicopter/source/browse/

share|improve this question
Can you paste your serial parameters deceleration(baud, parity, timeout....)? – Kobi K Dec 4 '13 at 12:49
I edited my Questions, to answer this – dgrat Dec 4 '13 at 13:25
What board do you have? Please try to be as specific as possible about all technical details and provide links to the components. – David Grayson Jan 12 '14 at 18:40
up vote 1 down vote accepted

What board are you using and what processor does it have? My guess would be that your board is based on the ATmega32U4, or some other microcontroller that has a built-in USB module. If so, I have seen similar behavior before here is what I think is happening:

There is a buffer on your microcontroller to hold serial data going to the computer. There is a buffer in the computer's USB serial driver to hold serial received from the chip. Since you are not reading bytes from the COM port, the buffer on the computer will fill up. Once the buffer on the computer fills up, it stops requesting data from the microcontroller. Therefore, the buffer on the microcontroller will eventually fill up.

Once the microcontroller's buffer is full, how do you expect printf command to behave? For simplicity, the printf you are using is probably designed to just wait in a blocking loop until buffer space is available and then send the next character, until the message is done. Since buffer space will never be available, your program gets stuck in an infinite loop.

A better strategy would be to check to see if enough buffer space is available before calling printf. The code might look something like this:

if(console_buffer_space() > 80)

I don't know if this is possible in the DIY drones firmware, and I don't know if the max buffer space can actually ever reach 80, so you will have to research this a bit.

share|improve this answer
I have ATmega2560. I think you are right. It is buffer associated and a look into the bootloader supports this idea. Maybe it is possible to write a patch for the bootloader, because at least for me this behavior could be dangerous. If USB cable is out, than it would cause a crash. Furthermore, I found no function in the Arduino SDK to check buffer. – dgrat Jan 18 '14 at 14:36

I don't understand the use of:

ser.flush()       # Try to send old message
ser.flushInput()  # Delete what is still inside the buffer

Lets say your device is connected to PC and the python code is writing the (line, chk):

ser.flush() - why are you using it? ser.flushInput() - will "delete" the Serial input buffer at the PC

share|improve this answer
I thought with flush() the programm will wait until everything is sent, so I thought it's a good idea to use it. But in my case it has no effect and everything works also without flush(). In contrast, if I uncomment ser.flushInput() I get a timeout sooner or later but in 100% of cases. – dgrat Dec 4 '13 at 13:49
When you are saying timeout you mean SerialTimeoutException? if that the can then flushInput() had noting to do with it. IMHO your problem is in the firmware. – Kobi K Dec 4 '13 at 13:57
I get this exception. And moreover board keeps receiving data even when I stopped sending for some time until buffer is flushed with this command. I guess, that the sending of the data is faster then the board can process and some buffer fills up which causes an extreme slowdown resulting in timeouts. But what makes me wonder is, that something like this happens even when I just send some stuff with printf for some time from the board without reading or just send data to the board. – dgrat Dec 4 '13 at 14:05
I added the link to my google code project with all files in my question. – dgrat Dec 4 '13 at 14:10
My best suggestion will be, to try to separate the problems. first debug you python code, it's the simplest ting you can cross the PC TX-RX and to see that your script is ok, then try your device with a terminal like RS232Analyzer. – Kobi K Dec 4 '13 at 14:24

It looks like other people have the same problem. And thanks to the Mod-Braniac who deleted my minimal example. My bet is, that's a problem with Arduino USB controller chip or the firmware on it.

share|improve this answer

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