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95 lines
4.5 KiB
Markdown
95 lines
4.5 KiB
Markdown
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Selecting algorithm implementations by properties
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=================================================
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Properties are associated with algorithms and are used to select between
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different implementations dynamically.
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This implementation is based on a number of assumptions:
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* Property definition is uncommon. I.e. providers will be loaded and
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unloaded relatively infrequently, if at all.
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* The number of distinct property names will be small.
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* Providers will often give the same implementation properties to most or
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all of their implemented algorithms. E.g. the FIPS property would be set
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across an entire provider. Likewise for, hardware, accelerated, software,
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HSM and, perhaps, constant_time.
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* There are a lot of algorithm implementations, therefore property
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definitions should be space efficient. However...
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* ... property queries are very common. These must be fast.
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* Property queries come from a small set and are reused many times typically.
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I.e. an application tends to use the same set of queries over and over,
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rather than spanning a wide variety of queries.
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* Property queries can never add new property definitions.
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Some consequences of these assumptions are:
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* That definition is uncommon and queries are very common, we can treat
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the property definitions as almost immutable. Specifically, a query can
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never change the state of the definitions.
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* That definition is uncommon and needs to be space efficient, it will
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be feasible to use a hash table to contain the names (and possibly also
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values) of all properties and to reference these instead of duplicating
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strings. Moreover, such a data structure need not be garbage collected.
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By converting strings to integers using a structure such as this, string
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comparison degenerates to integer comparison. Additionally, lists of
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properties can be sorted by the string index which makes comparisons linear
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time rather than quadratic time - the O(n log n) sort cost being amortised.
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* A cache for property definitions is also viable, if only implementation
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properties are used and not algorithm properties, or at least these are
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maintained separately. This cache would be a hash table, indexed by
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the property definition string, and algorithms with the same properties
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would share their definition structure. Again, reducing space use.
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* A query cache is desirable. This would be a hash table keyed by the
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algorithm identifier and the entire query string and it would map to
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the chosen algorithm. When a provider is loaded or unloaded, this cache
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must be invalidated. The cache will also be invalidated when the global
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properties are changed as doing so removes the need to index on both the
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global and requested property strings.
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The implementation:
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* [property_lock.c](property_lock.c)
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contains some wrapper functions to handle the global
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lock more easily. The global lock is held for short periods of time with
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per algorithm locking being used for longer intervals.
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* [property_string.c](property_string.c)
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contains the string cache which converts property
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names and values to small integer indices. Names and values are stored in
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separate hash tables. The two Boolean values, the strings "yes" and "no",
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are populated as the first two members of the value table. All property
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names reserved by OpenSSL are also populated here. No functions are
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provided to convert from an index back to the original string (this can be
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done by maintaining parallel stacks of strings if required).
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* [property_parse.c](property_parse.c)
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contains the property definition and query parsers.
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These convert ASCII strings into lists of properties. The resulting
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lists are sorted by the name index. Some additional utility functions
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for dealing with property lists are also included: comparison of a query
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against a definition and merging two queries into a single larger query.
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* [property.c](property.c)
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contains the main APIs for defining and using properties.
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Algorithms are discovered from their NID and a query string.
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The results are cached.
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The caching of query results has to be efficient but it must also be robust
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against a denial of service attack. The cache cannot be permitted to grow
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without bounds and must garbage collect under-used entries. The garbage
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collection does not have to be exact.
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* [defn_cache.c](defn_cache.c)
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contains a cache that maps property definition strings to
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parsed properties. It is used by property.c to improve performance when
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the same definition appears multiple times.
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