xref: /freebsd/lib/libc/stdlib/rand.3 (revision ec0ea6efa1ad229d75c394c1a9b9cac33af2b1d3)
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32.\"     @(#)rand.3	8.1 (Berkeley) 6/4/93
33.\" $FreeBSD$
34.\"
35.Dd February 1, 2020
36.Dt RAND 3
37.Os
38.Sh NAME
39.Nm rand ,
40.Nm srand ,
41.Nm rand_r
42.Nd bad random number generator
43.Sh LIBRARY
44.Lb libc
45.Sh SYNOPSIS
46.In stdlib.h
47.Ft void
48.Fn srand "unsigned seed"
49.Ft int
50.Fn rand void
51.Ft int
52.Fn rand_r "unsigned *ctx"
53.Sh DESCRIPTION
54.Bf -symbolic
55The functions described in this manual page are not cryptographically
56secure.
57Applications which require unpredictable random numbers should use
58.Xr arc4random 3
59instead.
60.Ef
61.Pp
62The
63.Fn rand
64function computes a sequence of pseudo-random integers in the range
65of 0 to
66.Dv RAND_MAX ,
67inclusive.
68.Pp
69The
70.Fn srand
71function seeds the algorithm with the
72.Fa seed
73parameter.
74Repeatable sequences of
75.Fn rand
76output may be obtained by calling
77.Fn srand
78with the same
79.Fa seed .
80.Fn rand
81is implicitly initialized as if
82.Fn srand "1"
83had been invoked explicitly.
84.Pp
85In
86.Fx 13 ,
87.Fn rand
88is implemented using the same 128-byte state LFSR generator algorithm as
89.Xr random 3 .
90However, the legacy
91.Fn rand_r
92function is not (and can not be, because of its limited
93.Fa *ctx
94size).
95.Fn rand_r
96implements the historical, poor-quality Park-Miller 32-bit LCG and should not
97be used in new designs.
98.Sh IMPLEMENTATION NOTES
99Since
100.Fx 13 ,
101.Fn rand
102is implemented with the same generator as
103.Xr random 3 ,
104so the low-order bits should no longer be significantly worse than the
105high-order bits.
106.Sh SEE ALSO
107.Xr arc4random 3 ,
108.Xr random 3 ,
109.Xr random 4
110.Sh STANDARDS
111The
112.Fn rand
113and
114.Fn srand
115functions
116conform to
117.St -isoC .
118.Pp
119The
120.Fn rand_r
121function is not part of
122.St -isoC
123and is marked obsolescent in
124.St -p1003.1-2008 .
125It may be removed in a future revision of POSIX.
126.Sh CAVEATS
127Prior to
128.Fx 13 ,
129.Fn rand
130used the historical Park-Miller generator with 32 bits of state and produced
131poor quality output, especially in the lower bits.
132.Fn rand
133in earlier versions of
134.Fx ,
135as well as other standards-conforming implementations, may continue to produce
136poor quality output.
137.Pp
138.Em These functions should not be used in portable applications that want a
139.Em high quality or high performance pseudorandom number generator .
140One possible replacement,
141.Xr random 3 ,
142is portable to Linux — but it is not especially fast, nor standardized.
143.Pp
144If broader portability or better performance is desired, any of the widely
145available and permissively licensed SFC64/32, JSF64/32, PCG64/32, or SplitMix64
146algorithm implementations may be embedded in your application.
147These algorithms have the benefit of requiring less space than
148.Xr random 3
149and being quite fast (in header inline implementations).
150