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If something was "present in all versions" of SSLeay, or if it was added to a version of SSLeay (and therefore predates OpenSSL), remove mention of it. Documentation history now starts with OpenSSL. Remove mention of all history before OpenSSL 0.9.8, inclusive. Remove all AUTHOR sections. Reviewed-by: Tim Hudson <tjh@openssl.org>
247 lines
10 KiB
Plaintext
247 lines
10 KiB
Plaintext
=pod
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=head1 NAME
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lh_new, lh_free, lh_insert, lh_delete, lh_retrieve, lh_doall, lh_doall_arg, lh_error - dynamic hash table
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=head1 SYNOPSIS
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#include <openssl/lhash.h>
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DECLARE_LHASH_OF(<type>);
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LHASH *lh_<type>_new();
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void lh_<type>_free(LHASH_OF(<type> *table);
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<type> *lh_<type>_insert(LHASH_OF(<type> *table, <type> *data);
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<type> *lh_<type>_delete(LHASH_OF(<type> *table, <type> *data);
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<type> *lh_retrieve(LHASH_OF<type> *table, <type> *data);
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void lh_<type>_doall(LHASH_OF(<type> *table, LHASH_DOALL_FN_TYPE func);
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void lh_<type>_doall_arg(LHASH_OF(<type> *table, LHASH_DOALL_ARG_FN_TYPE func,
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<type2>, <type2> *arg);
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int lh_<type>_error(LHASH_OF(<type> *table);
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typedef int (*LHASH_COMP_FN_TYPE)(const void *, const void *);
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typedef unsigned long (*LHASH_HASH_FN_TYPE)(const void *);
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typedef void (*LHASH_DOALL_FN_TYPE)(const void *);
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typedef void (*LHASH_DOALL_ARG_FN_TYPE)(const void *, const void *);
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=head1 DESCRIPTION
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This library implements type-checked dynamic hash tables. The hash
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table entries can be arbitrary structures. Usually they consist of key
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and value fields.
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lh_<type>_new() creates a new B<LHASH_OF(<type>> structure to store
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arbitrary data entries, and provides the 'hash' and 'compare'
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callbacks to be used in organising the table's entries. The B<hash>
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callback takes a pointer to a table entry as its argument and returns
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an unsigned long hash value for its key field. The hash value is
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normally truncated to a power of 2, so make sure that your hash
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function returns well mixed low order bits. The B<compare> callback
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takes two arguments (pointers to two hash table entries), and returns
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0 if their keys are equal, non-zero otherwise. If your hash table
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will contain items of some particular type and the B<hash> and
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B<compare> callbacks hash/compare these types, then the
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B<DECLARE_LHASH_HASH_FN> and B<IMPLEMENT_LHASH_COMP_FN> macros can be
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used to create callback wrappers of the prototypes required by
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lh_<type>_new(). These provide per-variable casts before calling the
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type-specific callbacks written by the application author. These
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macros, as well as those used for the "doall" callbacks, are defined
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as;
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#define DECLARE_LHASH_HASH_FN(name, o_type) \
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unsigned long name##_LHASH_HASH(const void *);
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#define IMPLEMENT_LHASH_HASH_FN(name, o_type) \
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unsigned long name##_LHASH_HASH(const void *arg) { \
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const o_type *a = arg; \
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return name##_hash(a); }
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#define LHASH_HASH_FN(name) name##_LHASH_HASH
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#define DECLARE_LHASH_COMP_FN(name, o_type) \
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int name##_LHASH_COMP(const void *, const void *);
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#define IMPLEMENT_LHASH_COMP_FN(name, o_type) \
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int name##_LHASH_COMP(const void *arg1, const void *arg2) { \
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const o_type *a = arg1; \
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const o_type *b = arg2; \
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return name##_cmp(a,b); }
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#define LHASH_COMP_FN(name) name##_LHASH_COMP
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#define DECLARE_LHASH_DOALL_FN(name, o_type) \
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void name##_LHASH_DOALL(void *);
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#define IMPLEMENT_LHASH_DOALL_FN(name, o_type) \
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void name##_LHASH_DOALL(void *arg) { \
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o_type *a = arg; \
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name##_doall(a); }
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#define LHASH_DOALL_FN(name) name##_LHASH_DOALL
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#define DECLARE_LHASH_DOALL_ARG_FN(name, o_type, a_type) \
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void name##_LHASH_DOALL_ARG(void *, void *);
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#define IMPLEMENT_LHASH_DOALL_ARG_FN(name, o_type, a_type) \
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void name##_LHASH_DOALL_ARG(void *arg1, void *arg2) { \
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o_type *a = arg1; \
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a_type *b = arg2; \
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name##_doall_arg(a, b); }
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#define LHASH_DOALL_ARG_FN(name) name##_LHASH_DOALL_ARG
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An example of a hash table storing (pointers to) structures of type 'STUFF'
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could be defined as follows;
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/* Calculates the hash value of 'tohash' (implemented elsewhere) */
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unsigned long STUFF_hash(const STUFF *tohash);
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/* Orders 'arg1' and 'arg2' (implemented elsewhere) */
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int stuff_cmp(const STUFF *arg1, const STUFF *arg2);
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/* Create the type-safe wrapper functions for use in the LHASH internals */
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static IMPLEMENT_LHASH_HASH_FN(stuff, STUFF);
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static IMPLEMENT_LHASH_COMP_FN(stuff, STUFF);
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/* ... */
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int main(int argc, char *argv[]) {
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/* Create the new hash table using the hash/compare wrappers */
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LHASH_OF(STUFF) *hashtable = lh_STUFF_new(LHASH_HASH_FN(STUFF_hash),
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LHASH_COMP_FN(STUFF_cmp));
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/* ... */
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}
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lh_<type>_free() frees the B<LHASH_OF(<type>> structure
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B<table>. Allocated hash table entries will not be freed; consider
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using lh_<type>_doall() to deallocate any remaining entries in the
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hash table (see below).
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lh_<type>_insert() inserts the structure pointed to by B<data> into
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B<table>. If there already is an entry with the same key, the old
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value is replaced. Note that lh_<type>_insert() stores pointers, the
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data are not copied.
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lh_<type>_delete() deletes an entry from B<table>.
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lh_<type>_retrieve() looks up an entry in B<table>. Normally, B<data>
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is a structure with the key field(s) set; the function will return a
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pointer to a fully populated structure.
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lh_<type>_doall() will, for every entry in the hash table, call
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B<func> with the data item as its parameter. For lh_<type>_doall()
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and lh_<type>_doall_arg(), function pointer casting should be avoided
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in the callbacks (see B<NOTE>) - instead use the declare/implement
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macros to create type-checked wrappers that cast variables prior to
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calling your type-specific callbacks. An example of this is
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illustrated here where the callback is used to cleanup resources for
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items in the hash table prior to the hashtable itself being
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deallocated:
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/* Cleans up resources belonging to 'a' (this is implemented elsewhere) */
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void STUFF_cleanup_doall(STUFF *a);
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/* Implement a prototype-compatible wrapper for "STUFF_cleanup" */
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IMPLEMENT_LHASH_DOALL_FN(STUFF_cleanup, STUFF)
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/* ... then later in the code ... */
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/* So to run "STUFF_cleanup" against all items in a hash table ... */
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lh_STUFF_doall(hashtable, LHASH_DOALL_FN(STUFF_cleanup));
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/* Then the hash table itself can be deallocated */
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lh_STUFF_free(hashtable);
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When doing this, be careful if you delete entries from the hash table
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in your callbacks: the table may decrease in size, moving the item
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that you are currently on down lower in the hash table - this could
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cause some entries to be skipped during the iteration. The second
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best solution to this problem is to set hash-E<gt>down_load=0 before
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you start (which will stop the hash table ever decreasing in size).
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The best solution is probably to avoid deleting items from the hash
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table inside a "doall" callback!
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lh_<type>_doall_arg() is the same as lh_<type>_doall() except that
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B<func> will be called with B<arg> as the second argument and B<func>
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should be of type B<LHASH_DOALL_ARG_FN_TYPE> (a callback prototype
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that is passed both the table entry and an extra argument). As with
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lh_doall(), you can instead choose to declare your callback with a
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prototype matching the types you are dealing with and use the
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declare/implement macros to create compatible wrappers that cast
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variables before calling your type-specific callbacks. An example of
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this is demonstrated here (printing all hash table entries to a BIO
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that is provided by the caller):
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/* Prints item 'a' to 'output_bio' (this is implemented elsewhere) */
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void STUFF_print_doall_arg(const STUFF *a, BIO *output_bio);
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/* Implement a prototype-compatible wrapper for "STUFF_print" */
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static IMPLEMENT_LHASH_DOALL_ARG_FN(STUFF, const STUFF, BIO)
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/* ... then later in the code ... */
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/* Print out the entire hashtable to a particular BIO */
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lh_STUFF_doall_arg(hashtable, LHASH_DOALL_ARG_FN(STUFF_print), BIO,
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logging_bio);
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lh_<type>_error() can be used to determine if an error occurred in the last
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operation. lh_<type>_error() is a macro.
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=head1 RETURN VALUES
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lh_<type>_new() returns B<NULL> on error, otherwise a pointer to the new
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B<LHASH> structure.
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When a hash table entry is replaced, lh_<type>_insert() returns the value
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being replaced. B<NULL> is returned on normal operation and on error.
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lh_<type>_delete() returns the entry being deleted. B<NULL> is returned if
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there is no such value in the hash table.
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lh_<type>_retrieve() returns the hash table entry if it has been found,
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B<NULL> otherwise.
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lh_<type>_error() returns 1 if an error occurred in the last operation, 0
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otherwise.
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lh_<type>_free(), lh_<type>_doall() and lh_<type>_doall_arg() return no values.
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=head1 NOTE
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The various LHASH macros and callback types exist to make it possible
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to write type-checked code without resorting to function-prototype
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casting - an evil that makes application code much harder to
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audit/verify and also opens the window of opportunity for stack
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corruption and other hard-to-find bugs. It also, apparently, violates
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ANSI-C.
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The LHASH code regards table entries as constant data. As such, it
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internally represents lh_insert()'d items with a "const void *"
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pointer type. This is why callbacks such as those used by lh_doall()
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and lh_doall_arg() declare their prototypes with "const", even for the
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parameters that pass back the table items' data pointers - for
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consistency, user-provided data is "const" at all times as far as the
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LHASH code is concerned. However, as callers are themselves providing
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these pointers, they can choose whether they too should be treating
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all such parameters as constant.
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As an example, a hash table may be maintained by code that, for
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reasons of encapsulation, has only "const" access to the data being
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indexed in the hash table (ie. it is returned as "const" from
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elsewhere in their code) - in this case the LHASH prototypes are
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appropriate as-is. Conversely, if the caller is responsible for the
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life-time of the data in question, then they may well wish to make
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modifications to table item passed back in the lh_doall() or
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lh_doall_arg() callbacks (see the "STUFF_cleanup" example above). If
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so, the caller can either cast the "const" away (if they're providing
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the raw callbacks themselves) or use the macros to declare/implement
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the wrapper functions without "const" types.
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Callers that only have "const" access to data they're indexing in a
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table, yet declare callbacks without constant types (or cast the
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"const" away themselves), are therefore creating their own risks/bugs
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without being encouraged to do so by the API. On a related note,
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those auditing code should pay special attention to any instances of
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DECLARE/IMPLEMENT_LHASH_DOALL_[ARG_]_FN macros that provide types
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without any "const" qualifiers.
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=head1 BUGS
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lh_<type>_insert() returns B<NULL> both for success and error.
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=head1 SEE ALSO
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L<lh_stats(3)>
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=head1 HISTORY
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In OpenSSL 1.0.0, the lhash interface was revamped for better
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type checking.
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=cut
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