module OpenSSL::Random
Public Class Methods
Same as ::egd_bytes
but queries 255 bytes by default.
static VALUE ossl_rand_egd(VALUE self, VALUE filename) { rb_check_safe_obj(filename); if (RAND_egd(StringValueCStr(filename)) == -1) { ossl_raise(eRandomError, NULL); } return Qtrue; }
Queries the entropy gathering daemon EGD on socket path given by filename.
Fetches length number of bytes and uses ::add to seed the OpenSSL
built-in PRNG.
static VALUE ossl_rand_egd_bytes(VALUE self, VALUE filename, VALUE len) { int n = NUM2INT(len); rb_check_safe_obj(filename); if (RAND_egd_bytes(StringValueCStr(filename), n) == -1) { ossl_raise(eRandomError, NULL); } return Qtrue; }
Reads bytes from filename and adds them to the PRNG.
static VALUE ossl_rand_load_file(VALUE self, VALUE filename) { rb_check_safe_obj(filename); if(!RAND_load_file(StringValueCStr(filename), -1)) { ossl_raise(eRandomError, NULL); } return Qtrue; }
Generates a String
with length number of pseudo-random bytes.
Pseudo-random byte sequences generated by ::pseudo_bytes
will be unique if they are of sufficient length, but are not necessarily unpredictable.
Example¶ ↑
OpenSSL::Random.pseudo_bytes(12) #=> "..."
static VALUE ossl_rand_pseudo_bytes(VALUE self, VALUE len) { VALUE str; int n = NUM2INT(len); str = rb_str_new(0, n); if (RAND_pseudo_bytes((unsigned char *)RSTRING_PTR(str), n) < 1) { ossl_raise(eRandomError, NULL); } return str; }
Mixes the bytes from str into the Pseudo Random
Number Generator(PRNG) state.
Thus, if the data from str are unpredictable to an adversary, this increases the uncertainty about the state and makes the PRNG output less predictable.
The entropy argument is (the lower bound of) an estimate of how much randomness is contained in str, measured in bytes.
Example¶ ↑
pid = $$ now = Time.now ary = [now.to_i, now.nsec, 1000, pid] OpenSSL::Random.add(ary.join, 0.0) OpenSSL::Random.seed(ary.join)
static VALUE ossl_rand_add(VALUE self, VALUE str, VALUE entropy) { StringValue(str); RAND_add(RSTRING_PTR(str), RSTRING_LENINT(str), NUM2DBL(entropy)); return self; }
Generates a String
with length number of cryptographically strong pseudo-random bytes.
Example¶ ↑
OpenSSL::Random.random_bytes(12) #=> "..."
static VALUE ossl_rand_bytes(VALUE self, VALUE len) { VALUE str; int n = NUM2INT(len); int ret; str = rb_str_new(0, n); ret = RAND_bytes((unsigned char *)RSTRING_PTR(str), n); if (ret == 0) { ossl_raise(eRandomError, "RAND_bytes"); } else if (ret == -1) { ossl_raise(eRandomError, "RAND_bytes is not supported"); } return str; }
::seed
is equivalent to ::add where entropy is length of str.
static VALUE ossl_rand_seed(VALUE self, VALUE str) { StringValue(str); RAND_seed(RSTRING_PTR(str), RSTRING_LENINT(str)); return str; }
Return true
if the PRNG has been seeded with enough data, false
otherwise.
static VALUE ossl_rand_status(VALUE self) { return RAND_status() ? Qtrue : Qfalse; }
Writes a number of random generated bytes (currently 1024) to filename which can be used to initialize the PRNG by calling ::load_random_file
in a later session.
static VALUE ossl_rand_write_file(VALUE self, VALUE filename) { rb_check_safe_obj(filename); if (RAND_write_file(StringValueCStr(filename)) == -1) { ossl_raise(eRandomError, NULL); } return Qtrue; }