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I'm looking for advice on how to best implement thread-safe IO (e.g. for printf going to a debug serial port) in an environment in which the operating system scheduler may yet to have started, be running, suspended or may have stopped or crashed. I'm using Newlib and FreeRTOS.

At the moment, I'm doing the (seemingly-standard) FreeRTOS approach of having the _write system call (Newlib) queue characters into a FreeRTOS queue which is then emptied from an interrupt service routine (filling the serial port hardware FIFO then waiting for the FIFO empty interrupt).

This has the disadvantage that (at least on FreeRTOS) the queue can only be used safely when the scheduler is running, and debug output can not be printed when interrupts are disabled (as they are during boot until the scheduler starts, or after a fatal error condition (exactly where debug printf output would be most useful :-).

Would it be best to have the _write system call query the scheduler and/or interrupt status, and use queues if the scheduler is running and use blocking/polling serial IO when interrupts are disabled? Is there a more elegant idea I haven't thought of yet?


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Perhaps slightly more elegant would be to use indirection in the _write system call. Instead of checking the status, use a function pointer to achieve the desired functionality based on whether the scheduler is running, interrupts enabled, etc. Then set the appropriate callback function when the program state changes.

int (*writeCallback)(int, const void *, unsigned int);

_write(int fd, const void *buffer, unsigned int count)
    return writeCallback(fd, buffer, count);


writeCallback = polling_write;


writeCallback = rtos_write;


Alternatively, you define a different debug function that bypasses the standard library stream system (i.e. printf) to use in places that you know will not have interrupt/RTOS facilities (e.g. exception handlers).

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Is it really a good idea to rely on the integrity of a function pointer after a fatal error? – nategoose May 4 '10 at 19:10
Well, as I see it, if the callback function pointer was smashed by whatever caused the fatal error, probably many other things in the printf() -> _write() -> UART chain are also smashed so it's moot anyway... I ended up doing something like what Judge Maygarden suggested, except the _write call explicitly polls the scheduler status and updates the function pointer first. (Early-stage debugging on new hardware justifies my paranoia :-) – hugov May 4 '10 at 19:18

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