How should I report errors from my Windows Runtime API?

This post has been republished via RSS; it originally appeared at: MSDN Blogs.


A customer was implementing a custom Windows Runtime component
and wanted to know what the best practices are for reporting errors.



Well, it depends on what kind of error it is.



One class of errors are unrecoverable errors.
For example, if there is an error that represents
an internal logic error or other bug in the program,
then there is not going to be any meaningful recovery.
The program thought it was doing the right thing,
and it is unlikely to know what to do when told
that it's enture world view is wrong.



For example, suppose that you must stop the widget
before you change its polarity.
If somebody tries to change the polarity of
a widget that is not stopped,
well, there's a bug in that program.
Passing an invalid parameter is another example
of something that indicates an internal logic
error in the program.



Another type of unrecoverable errors is the
error that indicates that things are so far
gone that any attempt at recovery is unlikely to
succeed.
An "out of memory" error when trying to allocate
memory for a 50-byte object is an example of this
type of unrecoverable error.
Sure, you could report,
"Sorry, I couldn't complete the operation because
I was out of memory,"
but any action the program takes is probably going
to try to allocate at least 50 bytes of memory at some point,
so there's really not much point in continuing.
All you're doing is delaying the crash by a few
milliseconds.
(And making the crash dump harder to debug because
the crash will be at a point far away from the root cause.)



Another class of errors are the recoverable or anticipated errors.
These are errors which applications could meaningfully
anticipate recovering from,
typically because they are caused by
external factors not within the programmer's control.



For example, attempting to download a file from a URL
can legitimately fail for reasons complete out of the
control of the program.
The system could be offline,
or the server could be unavailable.
A programmer would anticipate these possible errors
and have an alternative plan of action if they occur.



Another case where an error would be anticipated is if
there is a natural race condition with an external source.
A media playback control might reach the end of the video
just at the moment the program decides to skip backward
10 seconds.
This is an unavoidable race condition
and is therefore an anticipated error.



The guidance for the Windows Runtime is that unrecoverable
errors are reported by COM error codes at the ABI level,
which are converted to a language-specific exception reporting
mechanism by the corresponding language runtime.
On the other hand, recoverable or anticipated errors are
reported by some in-API mechanism like a status code,
rather than by using a COM error code.



The

error handling guidance for C++/WinRT

captures this guidance, but wearing C++-colored glasses.



The idea is that the Windows Runtime considers
exceptions to be fatal errors.
Application code is not expected to catch exceptions thrown
by Windows Runtime objects because they represent
unrecoverable errors.
The application should just let the exception trigger an
application crash so it can be debugged.



If you are a Windows Runtime class and wish to report an
unrecoverable error,
then before returning the COM failure code,
call the
RoOriginate­Error function to provide
a helpful message to the developer explaining what they
did wrong.



Note that many Windows Runtime classes provided by Windows
do not adhere to this guidance because they predate
the guidance.
But even those classes are gradually being improved to align
with the guidance.
For example,
Storage­Folder.Try­Get­Item
lets you access a file or folder without raising an exception
if the item doesn't exist or is inaccessible.
Similarly,
Http­Client.Try­Get­Async
attempts a GET operation but does not raise an
exception if the operation fails.

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