There is a Linux-powered device connected to a CAN bus. The device periodically transmits the CAN message. The nature of the data carried by this message is like measurement rather than command, i.e. only the most recent one is actually valid, and if some messages are lost that is not an issue as long as the latest one was received successfully.
Then the device in question is being disconnected from the CAN bus for some amount of time that is much longer than the interval between subsequent message transmissions. The device logic is still trying to transmit the messages, but since the bus is disconnected the CAN controller is unable to transmit any of them so the messages are being accumulated in the TX queue.
Some time later the CAN bus connection is restored, and all the accumulated messages are being kicked on the bus one by one.
- When the CAN bus connection is restored, undefined amount of outdated messages will be transmitted from the TX queue.
- While the CAN bus connection is still not available but TX queue is already full, transmission of some most recent messages (i.e. the only valid messages) will be discarded.
- Once the CAN bus connection is restored, there would be short term traffic burst while the TX queue is being flushed. This can alter the Time Triggered Bus Scheduling if one is used (it is in my case).
My application uses SocketCAN driver, so basically the question should be applied to SocketCAN, but other options are considered too if there are any.
I see two possible solutions: define a message transmission timeout (if a message was not transmitted during some predefined amount if time, it will be discarded automatically), or abort transmission of outdated messages manually (though I doubt it is possible at all with socket API).
Since the first option seems to be most real to me, the question is:
- How does one define TX timeout for CAN interface under Linux?
- Are there other options exist to solve the problems described above, aside from TX timeouts?