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I have a microprocessor running C code and a computer running C# code. I am trying to get them to communicate through a serial connection (System.IO.Ports.SerialPort). I have no problems connecting, rather problems communicating.

In C# I have code like this to send the string "rr\n":


In C (on the microcontroller), I have code such as this to receive the string:


Note that the STDIN stream is the serialport stream. Here's where things get interesting. As a test, we have a bit of code that causes an LED to light up if str is equal to "rr". This allows us to observe whether or not the microcontroller has received it as expected.

When using HyperTerminal, I can type "r", then type "r", then press enter -> and the LED lights up, signaling it has indeed read "rr" from the serial stream. However, when I use the above WriteLine function from C#, we get no such result.

I believe this boils down to the functionality of HyperTerminal sending character-by-character, and that the gets() function reads character-by-character until it encounters a newline.

Can anyone shed some light on how to get C#'s WriteLine() and C's gets() functions to work together?

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Can you get the microcontroller to write back out whatever it receives? Looking at that exact output might you give you some hint as to what the issue is. –  Anon. Feb 9 '11 at 3:11
The first thing to check is your port settings (baud rate, flow control, etc). Capture a HT session using PortMon; then capture a session with your program and compare. –  Stephen Cleary Feb 9 '11 at 3:11
+1 @Stephen Cleary for mentioning PortMon –  Shekhar_Pro Feb 9 '11 at 3:14
PortMon won't monitor this particular port, citing that it's "in use". I would love to write back what the Micro received, but the way we're receiving it is with the gets() function, which isn't working. –  Adam S Feb 9 '11 at 3:25
@Adam: start PortMon monitoring before your program (or HT) runs. –  Stephen Cleary Feb 9 '11 at 4:12

5 Answers 5

The classic mistake is forgetting to turn the handshake signals on, either by enabling hardware handshake or by setting the SerialPort.DtrEnable and RtsEnable properties to true. Serial port devices should ignore anything until they detect the other end powered up and ready to receive.

Less likely is that the microcontroller isn't responding fast enough to received bytes. Either because it is slow to respond to the interrupt or is using polling. That can cause a receiver overrun error with loss of the received byte. Lowering the baudrate would fix that.

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Or turning on handshaking when it shouldn't be. –  Ben Voigt Feb 9 '11 at 3:54
While I appreciate your input, we also checked all those things. –  Adam S Feb 9 '11 at 8:00
Hmm, if you checked if the controller responded quickly enough to interrupts then you should already know why it doesn't work. –  Hans Passant Feb 9 '11 at 9:58
I design PC to MCU RS-232 interfaces all the time, and I have yet to encounter a MCU that is more sluggish than a PC when it comes to responding to RS-232 commands. Even an 8-bit MCU with horrible ineffective architecture, like 8051, running at 1MHz or so, will be laughing and running in circles around your "slow" intel-multi-core-i7-fluff PC. Simply because the MCU doesn't come with Windows. –  Lundin Feb 9 '11 at 13:43
@Lundin - you just haven't encountered the programmer yet. –  Hans Passant Feb 9 '11 at 13:58

HyperTerminal may be (probably is) using a different newline character from C#. Try writing "rr\r" or "rr\n" instead of using WriteLine.

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I checked the NewLine characters, they are all using the same. Interesting enough, the gets() function is not terminating, meaning it isn't encountering a "\n" character, even though I am sending it. –  Adam S Feb 9 '11 at 3:28

Have you considered using an oscilloscope or logic analyzer to help determine the problem? If you work with embedded systems, these tools are essential. Using these tools can tell you what the WriteLine method is doing or not doing compared to HT.

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This is probably a buffering problem but it could also be related to what the microprocessor expects as an end of line terminator. Is HT sending newline only or carriage return followed by newline?

First of all, determine what the microprocessor expects for end of line. Then use Write instead of WriteLine and write the individual bytes, in ASCII. Remember that .NET likes to use UNICODE but a microprocessor probably expects ASCII.

Maybe you sent Unicode bytes or maybe you sent a carriage return character that was not expected and was concatenated to the RR.

Note that this class has an attribute called NewLine. You may be able to get WriteLine working by setting it correctly. There is another attribute called encoding. Do you have it set to ASCII?

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+1 For some simple and logical ideas, like your buffering problem idea. –  mikek3332002 Feb 9 '11 at 11:43

C# might be sending 2 bytes for each r (eg UTF16), whereas Hyperterminal is probably just sending 1 byte for each r (eg ASCII).

Might want to look at strings in c# for information on how they are encoded.

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Strings are encoded in memory as UTF-16, but they are re-encoded appropriately by the SerialPort class. –  Stephen Cleary Feb 9 '11 at 4:11
Well there is nothing in msdn.microsoft.com/en-us/library/… to say it encodes. –  mikek3332002 Feb 9 '11 at 11:39

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