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NAME
random_r, srandom_r, initstate_r, setstate_r - reentrant random number generator
SYNOPSIS
#include <stdlib.h>
int random_r(struct random_data *buf, int32_t *result);
int srandom_r(unsigned int seed, struct random_data *buf);
int initstate_r(unsigned int seed, char *statebuf,
size_t statelen, struct random_data *buf);
int setstate_r(char *statebuf, struct random_data *buf);
Feature Test Macro Requirements for glibc (see feature_test_macros(7)):
random_r(), srandom_r(), initstate_r(), setstate_r():
/* Glibc since 2.19: */ _DEFAULT_SOURCE
|| /* Glibc versions <= 2.19: */ _SVID_SOURCE || _BSD_SOURCE
DESCRIPTION
These functions are the reentrant equivalents of the functions described in random(3).
They are suitable for use in multithreaded programs where each thread needs to obtain an
independent, reproducible sequence of random numbers.
The random_r() function is like random(3), except that instead of using state information
maintained in a global variable, it uses the state information in the argument pointed to
by buf, which must have been previously initialized by initstate_r(). The generated
random number is returned in the argument result.
The srandom_r() function is like srandom(3), except that it initializes the seed for the
random number generator whose state is maintained in the object pointed to by buf, which
must have been previously initialized by initstate_r(), instead of the seed associated
with the global state variable.
The initstate_r() function is like initstate(3) except that it initializes the state in
the object pointed to by buf, rather than initializing the global state variable. Before
calling this function, the buf.state field must be initialized to NULL. The initstate_r()
function records a pointer to the statebuf argument inside the structure pointed to by
buf. Thus, statebuf should not be deallocated so long as buf is still in use. (So,
statebuf should typically be allocated as a static variable, or allocated on the heap
using malloc(3) or similar.)
The setstate_r() function is like setstate(3) except that it modifies the state in the
object pointed to by buf, rather than modifying the global state variable. state must
first have been initialized using initstate_r() or be the result of a previous call of
setstate_r().
RETURN VALUE
All of these functions return 0 on success. On error, -1 is returned, with errno set to
indicate the cause of the error.
ERRORS
EINVAL A state array of less than 8 bytes was specified to initstate_r().
EINVAL The statebuf or buf argument to setstate_r() was NULL.
EINVAL The buf or result argument to random_r() was NULL.
ATTRIBUTES
For an explanation of the terms used in this section, see attributes(7).
┌────────────────────────────┬───────────────┬──────────────────┐
│Interface │ Attribute │ Value │
├────────────────────────────┼───────────────┼──────────────────┤
│random_r(), srandom_r(), │ Thread safety │ MT-Safe race:buf │
│initstate_r(), setstate_r() │ │ │
└────────────────────────────┴───────────────┴──────────────────┘
CONFORMING TO
These functions are nonstandard glibc extensions.
BUGS
The initstate_r() interface is confusing. It appears that the random_data type is
intended to be opaque, but the implementation requires the user to either initialize the
buf.state field to NULL or zero out the entire structure before the call.
SEE ALSO
drand48(3), rand(3), random(3)
COLOPHON
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