Handling Exceptions

The operating system uses structured exception handling to signal certain kinds of errors. A routine called by a driver can raise an exception that the driver must handle.

The system traps the following general kinds of exceptions:

  1. Hardware-defined faults or traps, such as,

    • Access violations (see below)
    • Data-type misalignments (such as a 16-bit entity aligned on an odd-byte boundary)
    • Illegal and privileged instructions
    • Invalid lock sequences (attempting to execute an invalid sequence of instructions within an interlocked section of code)
    • Integer divides by zero and overflows
    • Floating-point divides by zero, overflows, underflows, and reserved operands
    • Breakpoints and single step execution (to support debuggers)
  2. System software-defined exceptions, such as,

    • Guard-page violations (attempting to load or store data from or to a location within a guard page)
    • Page-read errors (attempting to read a page into memory and encountering a concurrent I/O error)

An access violation is an attempt to perform an operation on a page that is not permitted under the current page protection settings. Access violations occur in the following situations:

  • An invalid read or write operation, such as writing to a read-only page.

  • To access memory beyond the limit of the current program's address space (known as a length violation).

  • To access a page that is currently resident but dedicated to the use of a system component. For example, user-mode code is not allowed access a page that the kernel is using.

If an operation might cause an exception, the driver should enclose the operation in a try/except block. Accesses of locations in user-mode are typical causes of exceptions. For example, the ProbeForWrite routine checks that the driver can actually write to a user-mode buffer. If it cannot, the routine raises a STATUS_ACCESS_VIOLATION exception. In the following code example, the driver calls ProbeForWrite in a try/except so that it can handle the resulting exception, if one should occur.


try {
    ...
    ProbeForWrite(Buffer, BufferSize, BufferAlignment);
 
    /* Note that any access (not just the probe, which must come first,
     * by the way) to Buffer must also be within a try-except.
     */
    ...
} except (EXCEPTION_EXECUTE_HANDLER) {
    /* Error handling code */
    ...
}

Drivers must handle any raised exceptions. An exception that is not handled causes the system to bug check. The driver that causes the exception to be raised must handle it: a lower-level driver cannot rely on a higher-level driver to handle the exception.

Drivers can directly raise an exception, by using the ExRaiseAccessViolation, ExRaiseDatatypeMisalignment, or ExRaiseStatus routines. The driver must handle any exceptions that these routines raise.

The following is a partial list of routines that, at least in certain situations, can raise an exception:

Memory accesses to user-mode buffers can also cause access violations. For more information, see Errors in Referencing User-Space Addresses.

Note that structured exception handling is distinct from C++ exceptions. The kernel does not support C++ exceptions.

For more information about structured exception handling, see the Microsoft Windows SDK, and the Visual Studio documentation.

 

 

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