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82 lines
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82 lines
4.1 KiB
Plaintext
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Secure Memory Containers
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========================================
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A major concern with mixing modern multiuser OSes and cryptographic
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code is that at any time the code (including secret keys) could be
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swapped to disk, where it can later be read by an attacker. Botan
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stores almost everything (and especially anything sensitive) in memory
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buffers that a) clear out their contents when their destructors are
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called, and b) have easy plugins for various memory locking functions,
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such as the ``mlock`` call on many Unix systems.
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Two of the allocation method used ("malloc" and "mmap") don't
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require any extra privileges on Unix, but locking memory does. At
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startup, each allocator type will attempt to allocate a few blocks
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(typically totaling 128k), so if you want, you can run your
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application ``setuid`` ``root``, and then drop privileges
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immediately after creating your ``LibraryInitializer``. If you end
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up using more than what's been allocated, some of your sensitive data
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might end up being swappable, but that beats running as ``root``
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all the time.
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These classes should also be used within your own code for storing
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sensitive data. They are only meant for primitive data types (int,
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long, etc): if you want a container of higher level Botan objects, you
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can just use a ``std::vector``, since these objects know how to clear
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themselves when they are destroyed. You cannot, however, have a
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``std::vector`` (or any other container) of ``Pipe`` objects or
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filters, because these types have pointers to other filters, and
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implementing copy constructors for these types would be both hard and
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quite expensive (vectors of pointers to such objects is fine, though).
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These types are not described in any great detail: for more information,
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consult the definitive sources~--~the header files ``secmem.h`` and
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``allocate.h``.
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``SecureBuffer`` is a simple array type, whose size is specified at
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compile time. It will automatically convert to a pointer of the
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appropriate type, and has a number of useful functions, including
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``clear()``, and ``size_t`` ``size()``, which returns the length of
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the array. It is a template that takes as parameters a type, and a
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constant integer which is how long the array is (for example:
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``SecureBuffer<byte, 8> key;``).
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``SecureVector`` is a variable length array. Its size can be increased
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or decreased as need be, and it has a wide variety of functions useful
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for copying data into its buffer. Like ``SecureBuffer``, it implements
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``clear`` and ``size``.
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Allocators
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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The containers described above get their memory from allocators. As a
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user of the library, you can add new allocator methods at run time for
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containers, including the ones used internally by the library, to
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use. The interface to this is in ``allocate.h``. Code needing to
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allocate or deallocate memory calls ``get_allocator``, which returns a
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pointer to an allocator object. This pointer should not be freed: the
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caller does not own the allocator (it is shared among multiple
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allocatore users, and uses a mutex to serialize access internally if
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necessary). It is possible to call ``get_allocator`` with a specific
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name to request a particular type of allocator, otherwise, a default
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allocator type is returned.
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At start time, the only allocator known is a ``Default_Allocator``,
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which just allocates memory using ``malloc``, and zeroizes it when the
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memory is released. It is known by the name "malloc". If you ask for
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another type of allocator ("locking" and "mmap" are currently used),
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and it is not available, some other allocator will be returned.
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You can add in a new allocator type using ``add_allocator_type``. This
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function takes a string and a pointer to an allocator. The string gives this
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allocator type a name to which it can be referred when one is requesting it
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with ``get_allocator``. If an error occurs (such as the name being
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already registered), this function returns false. It will return true if the
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allocator was successfully registered. If you ask it to,
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``LibraryInitializer`` will do this for you.
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Finally, you can set the default allocator type that will be returned
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using the policy setting "default_alloc" to the name of any previously
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registered allocator.
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