I have two applications interacting over a TCP/IP connection; now I need them to be able to interact over a serial connection as well.
There are a few differences between socket IO and serial IO that make porting less trivial than I hoped for.
One of the differences is about the semantics of send/write timeouts and the assumptions an application may make about the amount of data successfully passed down the connection. Knowing this amount the application also knows what leftover data it needs to transmit later should it choose so.
A call like socket.send(string) may produce the following results:
- The entire string has been accepted by the TCP/IP stack, and the length of the string is returned.
- A part of the string has been accepted by the TCP/IP stack, and the length of that part is returned. The application may transmit the rest of the string later.
- A socket.timeout exception is raised if the socket is configured to use timeouts and the sender overwhelms the connection with data. This means (if I understand it correctly) that no bytes of the string have been accepted by the TCP/IP stack and hence the application may try to send the entire string later.
- A socket.error exception is raised because of some issues with the connection.
The PySerial API documentation says the following about Serial.write(string):
write(data) Parameters: data – Data to send. Returns: Number of bytes written. Raises SerialTimeoutException: In case a write timeout is configured for the port and the time is exceeded. Changed in version 2.5: Write returned None in previous versions.
This spec leaves a few questions uncertain to me:
- In which circumstances may "write(data)" return fewer bytes written than the length of the data? Is it only possible in the non-blocking mode (writeTimeout=0)?
- If I use a positive writeTimeout and the SerialTimeoutException is raised, how do I know how many bytes went into the connection?
I also observe some behaviors of serial.write that I did not expect.
The test tries sending a long string over a slow connection. The sending port uses 9600,8,N,1 and no flow control. The receiving port is open too but no attempts to read data from it are being made.
- If the writeTimeout is positive but not large enough the sender expectedly gets the SerialTimeoutException.
- If the writeTimeout is set large enough the sender expectedly gets all data written successfully (the receiver does not care to read, neither do we).
- If the writeTimeout is set to None, the sender unexpectedly gets the SerialTimeoutException instead of blocking until all data goes down the connection. Am I missing something?
I do not know if that behavior is typical. In case that matters, I experiment with PySerial on Windows 7 64-bit using two USB-to-COM adapters connected via a null-modem cable; that setup seems to be operational as two instances of Tera Term can talk to each other over it.
It would be helpful to know if people handle serial write timeouts in any way other than aborting the connection and notifying the user of the problem.
Since I currently do not know the amount of data written before the timeout has occurred, I am thinking of a workaround using non-blocking writes and maintaining the socket-like timeout semantics myself above that level. I do not expect this to be a terrifically efficient solution (:-)), but luckily my applications exchange relatively infrequent and short messages so the performance should be within the acceptable range.
A closer look at non-blocking serial writes
I wrote a simple program to see if I understand how the non-blocking write works:
import serial p1 = serial.Serial("COM11") # My USB-to-COM adapters appear at these high port numbers p2 = serial.Serial("COM12") message = "Hello! " * 10 print "%d bytes in the whole message: %r" % (len(message), message) p1.writeTimeout = 0 # enabling non-blocking mode bytes_written = p1.write(message) print "Written %d bytes of the message: %r" % (bytes_written, message[:bytes_written]) print "Receiving back %d bytes of the message" % len(message) message_read_back = p2.read(len(message)) print "Received back %d bytes of the message: %r" % (len(message_read_back), message_read_back) p1.close() p2.close()
The output I get is this:
70 bytes in the whole message: 'Hello! Hello! Hello! Hello! Hello! Hello! Hello! Hello! Hello! Hello! '
Written 0 bytes of the message: ''
Receiving back 70 bytes of the message
Received back 70 bytes of the message: 'Hello! Hello! Hello! Hello! Hello! Hello! Hello! Hello! Hello! Hello! '
I am very confused: the sender thinks no data was sent yet the receiver got it all. I must be missing something very fundamental here...
Any comments / suggestions / questions are very welcome!