NAME
hash, hash32, hash32_buf, hash32_str, hash32_strn, hash32_stre, hash32_strne, jenkins_hash, jenkins_hash32, murmur3_32_hash, murmur3_32_hash32 — general kernel hashing functionsSYNOPSIS
#include <sys/hash.h> uint32_thash32_buf(const void *buf, size_t len, uint32_t hash); uint32_t
hash32_str(const void *buf, uint32_t hash); uint32_t
hash32_strn(const void *buf, size_t len, uint32_t hash); uint32_t
hash32_stre(const void *buf, int end, const char **ep, uint32_t hash); uint32_t
hash32_strne(const void *buf, size_t len, int end, const char **ep, uint32_t hash); uint32_t
jenkins_hash(const void *buf, size_t len, uint32_t hash); uint32_t
jenkins_hash32(const uint32_t *buf, size_t count, uint32_t hash); uint32_t
murmur3_32_hash(const void *buf, size_t len, uint32_t hash); uint32_t
murmur3_32_hash32(const uint32_t *buf, size_t count, uint32_t hash);
DESCRIPTION
The hash32() functions are used to give a consistent and general interface to a decent hashing algorithm within the kernel. These functions can be used to hash ASCIINUL terminated strings, as well as blocks
of memory.
A len argument is the length of the buffer in
bytes. A count argument is the length of the
buffer in 32-bit words.
The hash32_buf() function is used as a general
buffer hashing function. The argument buf is
used to pass in the location, and len is the
length of the buffer in bytes. The argument
hash is used to extend an existing hash, or
is passed the initial value HASHINIT to
start a new hash.
The hash32_str() function is used to hash a
NUL terminated string passed in
buf with initial hash value given in
hash.
The hash32_strn() function is like the
hash32_str() function, except it also takes a
len argument, which is the maximal length of
the expected string.
The hash32_stre() and
hash32_strne() functions are helper functions
used by the kernel to hash pathname components. These functions have the
additional termination condition of terminating when they find a character
given by end in the string to be hashed. If
the argument ep is not
NULL, it is set to the point in the buffer
at which the hash function terminated hashing.
The jenkins_hash() function has same semantics as
the hash32_buf(), but provides more advanced
hashing algorithm with better distribution.
The jenkins_hash32() uses same hashing algorithm as
the jenkins_hash() function, but works only on
uint32_t sized arrays, thus is simpler and
faster. It accepts an array of uint32_t
values in its first argument and size of this array in the second argument.
The murmur3_32_hash() and
murmur3_32_hash32() functions are similar to
jenkins_hash() and
jenkins_hash32(), but implement the 32-bit
version of MurmurHash3.
RETURN VALUES
The hash32() functions return a 32 bit hash value of the buffer or string.EXAMPLES
LIST_HEAD(head, cache) *hashtbl = NULL;
u_long mask = 0;
void
sample_init(void)
{
hashtbl = hashinit(numwanted, type, flags, &mask);
}
void
sample_use(char *str, int len)
{
uint32_t hash;
hash = hash32_str(str, HASHINIT);
hash = hash32_buf(&len, sizeof(len), hash);
hashtbl[hash & mask] = len;
}
SEE ALSO
free(9), hashinit(9), malloc(9)LIMITATIONS
The hash32() functions are only 32 bit functions. They will prove to give poor 64 bit performance, especially for the top 32 bits. At the current time, this is not seen as a great limitation, as these hash values are usually used to index into an array. Should these hash values be used for other means, this limitation should be revisited.HISTORY
The hash functions first appeared in NetBSD 1.6. The current implementation of hash32 functions was first committed to OpenBSD 3.2, and later imported to FreeBSD 6.1. The jenkins_hash functions were added in FreeBSD 10.0. The murmur3_32_hash functions were added in FreeBSD 10.1.AUTHORS
The hash32 functions were written by Tobias Weingartner. The jenkins_hash functions were written byBob Jenkins. The murmur3_32_hash functions were written by
Dag-Erling Smørgrav <[email protected]>.
| June 30, 2015 | Debian |