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An MPI data type is allowed to be “misused” to store an arbitrary value. Two functions implement this kludge:
Store nbits of the value p points to in a and mark
a as an opaque value (i.e. an value that can’t be used for any
math calculation and is only used to store an arbitrary bit pattern in
a). Ownership of p is taken by this function and thus the
user may not use dereference the passed value anymore. It is required
that them memory referenced by p has been allocated in a way
that gcry_free
is able to release it.
WARNING: Never use an opaque MPI for actual math operations. The only valid functions are gcry_mpi_get_opaque and gcry_mpi_release. Use gcry_mpi_scan to convert a string of arbitrary bytes into an MPI.
Same as gcry_mpi_set_opaque
but ownership of p is not
taken instead a copy of p is used.
Return a pointer to an opaque value stored in a and return its size in nbits. Note that the returned pointer is still owned by a and that the function should never be used for an non-opaque MPI.
Each MPI has an associated set of flags for special purposes. The currently defined flags are:
GCRYMPI_FLAG_SECURE
Setting this flag converts a into an MPI stored in "secure memory". Clearing this flag is not allowed.
GCRYMPI_FLAG_OPAQUE
This is an interanl flag, indicating the an opaque valuue and not an integer is stored. This is an read-only flag; it may not be set or cleared.
GCRYMPI_FLAG_IMMUTABLE
If this flag is set, the MPI is marked as immutable. Setting or changing the value of that MPI is ignored and an error message is logged. The flag is sometimes useful for debugging.
GCRYMPI_FLAG_CONST
If this flag is set, the MPI is marked as a constant and as immutable
Setting or changing the value of that MPI is ignored and an error
message is logged. Such an MPI will never be deallocated and may thus
be used without copying. Note that using gcry_mpi_copy will return a
copy of that constant with this and the immutable flag cleared. A few
commonly used constants are pre-defined and accessible using the
macros GCRYMPI_CONST_ONE
, GCRYMPI_CONST_TWO
,
GCRYMPI_CONST_THREE
, GCRYMPI_CONST_FOUR
, and
GCRYMPI_CONST_EIGHT
.
GCRYMPI_FLAG_USER1
GCRYMPI_FLAG_USER2
GCRYMPI_FLAG_USER3
GCRYMPI_FLAG_USER4
These flags are reserved for use by the application.
Set the flag for the MPI a. The only allowed flags are
GCRYMPI_FLAG_SECURE
, GCRYMPI_FLAG_IMMUTABLE
, and
GCRYMPI_FLAG_CONST
.
Clear flag for the multi-precision-integers a. The only
allowed flag is GCRYMPI_FLAG_IMMUTABLE
but only if
GCRYMPI_FLAG_CONST
is not set. If GCRYMPI_FLAG_CONST
is
set, clearing GCRYMPI_FLAG_IMMUTABLE
will simply be ignored.
o
Return true if flag is set for a.
To put a random value into an MPI, the following convenience function may be used:
Set the multi-precision-integers w to a random non-negative number of
nbits, using random data quality of level level. In case
nbits is not a multiple of a byte, nbits is rounded up to
the next byte boundary. When using a level of
GCRY_WEAK_RANDOM
this function makes use of
gcry_create_nonce
.
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