class OpenSSL::BN
Public Class Methods
static VALUE ossl_bn_s_generate_prime(int argc, VALUE *argv, VALUE klass) { BIGNUM *add = NULL, *rem = NULL, *result; int safe = 1, num; VALUE vnum, vsafe, vadd, vrem, obj; rb_scan_args(argc, argv, "13", &vnum, &vsafe, &vadd, &vrem); num = NUM2INT(vnum); if (vsafe == Qfalse) { safe = 0; } if (!NIL_P(vadd)) { add = GetBNPtr(vadd); rem = NIL_P(vrem) ? NULL : GetBNPtr(vrem); } obj = NewBN(klass); if (!(result = BN_new())) { ossl_raise(eBNError, NULL); } if (!BN_generate_prime_ex(result, num, safe, add, rem, NULL)) { BN_free(result); ossl_raise(eBNError, NULL); } SetBN(obj, result); return obj; }
Generates a random prime number of bit length bits
. If safe
is true, generates a safe prime. If add
is specified, generates a prime that fulfills condition p % add =
rem
.
Parameters
static VALUE ossl_bn_initialize(int argc, VALUE *argv, VALUE self) { BIGNUM *bn; VALUE str, bs; int base = 10; if (rb_scan_args(argc, argv, "11", &str, &bs) == 2) { base = NUM2INT(bs); } if (RB_INTEGER_TYPE_P(str)) { GetBN(self, bn); integer_to_bnptr(str, bn); return self; } if (RTEST(rb_obj_is_kind_of(str, cBN))) { BIGNUM *other; GetBN(self, bn); GetBN(str, other); /* Safe - we checked kind_of? above */ if (!BN_copy(bn, other)) { ossl_raise(eBNError, NULL); } return self; } GetBN(self, bn); switch (base) { case 0: if (!BN_mpi2bn((unsigned char *)StringValuePtr(str), RSTRING_LENINT(str), bn)) { ossl_raise(eBNError, NULL); } break; case 2: if (!BN_bin2bn((unsigned char *)StringValuePtr(str), RSTRING_LENINT(str), bn)) { ossl_raise(eBNError, NULL); } break; case 10: if (!BN_dec2bn(&bn, StringValueCStr(str))) { ossl_raise(eBNError, NULL); } break; case 16: if (!BN_hex2bn(&bn, StringValueCStr(str))) { ossl_raise(eBNError, NULL); } break; default: ossl_raise(rb_eArgError, "invalid radix %d", base); } return self; }
Construct a new OpenSSL BigNum object.
Public Instance Methods
static VALUE ossl_bn_div(VALUE self, VALUE other) { BIGNUM *bn1, *bn2 = GetBNPtr(other), *r1, *r2; VALUE klass, obj1, obj2; GetBN(self, bn1); klass = rb_obj_class(self); obj1 = NewBN(klass); obj2 = NewBN(klass); if (!(r1 = BN_new())) { ossl_raise(eBNError, NULL); } if (!(r2 = BN_new())) { BN_free(r1); ossl_raise(eBNError, NULL); } if (!BN_div(r1, r2, bn1, bn2, ossl_bn_ctx)) { BN_free(r1); BN_free(r2); ossl_raise(eBNError, NULL); } SetBN(obj1, r1); SetBN(obj2, r2); return rb_ary_new3(2, obj1, obj2); }
Division of OpenSSL::BN instances
static VALUE ossl_bn_eq(VALUE self, VALUE other) { BIGNUM *bn1, *bn2; GetBN(self, bn1); other = try_convert_to_bn(other); if (NIL_P(other)) return Qfalse; GetBN(other, bn2); if (!BN_cmp(bn1, bn2)) { return Qtrue; } return Qfalse; }
Returns true
only if obj
has the same value as bn
. Contrast this with #eql?, which requires obj to be OpenSSL::BN.
static VALUE ossl_bn_is_bit_set(VALUE self, VALUE bit) { int b; BIGNUM *bn; b = NUM2INT(bit); GetBN(self, bn); if (BN_is_bit_set(bn, b)) { return Qtrue; } return Qfalse; }
Returns boolean of whether bit
is set. Bitwise operations for openssl BIGNUMs.
static VALUE ossl_bn_coerce(VALUE self, VALUE other) { switch(TYPE(other)) { case T_STRING: self = ossl_bn_to_s(0, NULL, self); break; case T_FIXNUM: case T_BIGNUM: self = ossl_bn_to_i(self); break; default: if (!RTEST(rb_obj_is_kind_of(other, cBN))) { ossl_raise(rb_eTypeError, "Don't know how to coerce"); } } return rb_assoc_new(other, self); }
static VALUE ossl_bn_copy(VALUE self, VALUE other) { BIGNUM *bn1, *bn2; rb_check_frozen(self); if (self == other) return self; GetBN(self, bn1); bn2 = GetBNPtr(other); if (!BN_copy(bn1, bn2)) { ossl_raise(eBNError, NULL); } return self; }
static VALUE ossl_bn_eql(VALUE self, VALUE other) { BIGNUM *bn1, *bn2; if (!rb_obj_is_kind_of(other, cBN)) return Qfalse; GetBN(self, bn1); GetBN(other, bn2); return BN_cmp(bn1, bn2) ? Qfalse : Qtrue; }
Returns true
only if obj is a OpenSSL::BN
with the same value as big. Contrast this with OpenSSL::BN#==, which performs type conversions.
static VALUE ossl_bn_hash(VALUE self) { BIGNUM *bn; VALUE hash; unsigned char *buf; int len; GetBN(self, bn); len = BN_num_bytes(bn); buf = xmalloc(len); if (BN_bn2bin(bn, buf) != len) { xfree(buf); ossl_raise(eBNError, NULL); } hash = ST2FIX(rb_memhash(buf, len)); xfree(buf); return hash; }
Returns a hash code for this object.
See also Object#hash.
# File ext/openssl/lib/openssl/bn.rb, line 19 def pretty_print(q) q.object_group(self) { q.text ' ' q.text to_i.to_s } end
static VALUE ossl_bn_is_prime(int argc, VALUE *argv, VALUE self) { BIGNUM *bn; VALUE vchecks; int checks = BN_prime_checks; if (rb_scan_args(argc, argv, "01", &vchecks) == 1) { checks = NUM2INT(vchecks); } GetBN(self, bn); switch (BN_is_prime_ex(bn, checks, ossl_bn_ctx, NULL)) { case 1: return Qtrue; case 0: return Qfalse; default: ossl_raise(eBNError, NULL); } /* not reachable */ return Qnil; }
Performs a Miller-Rabin probabilistic primality test with checks
iterations. If nchecks
is not specified, a number of iterations is used that yields a false positive rate of at most 2^-80 for random input.
Parameters
-
checks
- integer
static VALUE ossl_bn_is_prime_fasttest(int argc, VALUE *argv, VALUE self) { BIGNUM *bn; VALUE vchecks, vtrivdiv; int checks = BN_prime_checks, do_trial_division = 1; rb_scan_args(argc, argv, "02", &vchecks, &vtrivdiv); if (!NIL_P(vchecks)) { checks = NUM2INT(vchecks); } GetBN(self, bn); /* handle true/false */ if (vtrivdiv == Qfalse) { do_trial_division = 0; } switch (BN_is_prime_fasttest_ex(bn, checks, ossl_bn_ctx, do_trial_division, NULL)) { case 1: return Qtrue; case 0: return Qfalse; default: ossl_raise(eBNError, NULL); } /* not reachable */ return Qnil; }
Performs a Miller-Rabin primality test. This is same as prime? except this first attempts trial divisions with some small primes.
Parameters
-
checks
- integer -
trial_div
- boolean
static VALUE ossl_bn_to_bn(VALUE self) { return self; }
static VALUE ossl_bn_to_i(VALUE self) { BIGNUM *bn; char *txt; VALUE num; GetBN(self, bn); if (!(txt = BN_bn2hex(bn))) { ossl_raise(eBNError, NULL); } num = rb_cstr_to_inum(txt, 16, Qtrue); OPENSSL_free(txt); return num; }
static VALUE ossl_bn_to_s(int argc, VALUE *argv, VALUE self) { BIGNUM *bn; VALUE str, bs; int base = 10, len; char *buf; if (rb_scan_args(argc, argv, "01", &bs) == 1) { base = NUM2INT(bs); } GetBN(self, bn); switch (base) { case 0: len = BN_bn2mpi(bn, NULL); str = rb_str_new(0, len); if (BN_bn2mpi(bn, (unsigned char *)RSTRING_PTR(str)) != len) ossl_raise(eBNError, NULL); break; case 2: len = BN_num_bytes(bn); str = rb_str_new(0, len); if (BN_bn2bin(bn, (unsigned char *)RSTRING_PTR(str)) != len) ossl_raise(eBNError, NULL); break; case 10: if (!(buf = BN_bn2dec(bn))) ossl_raise(eBNError, NULL); str = ossl_buf2str(buf, rb_long2int(strlen(buf))); break; case 16: if (!(buf = BN_bn2hex(bn))) ossl_raise(eBNError, NULL); str = ossl_buf2str(buf, rb_long2int(strlen(buf))); break; default: ossl_raise(rb_eArgError, "invalid radix %d", base); } return str; }
Parameters
-
base
- integer Valid values:-
0 - MPI
-
2 - binary
-
10 - the default
-
16 - hex
-
Ruby Core © 1993–2017 Yukihiro Matsumoto
Licensed under the Ruby License.
Ruby Standard Library © contributors
Licensed under their own licenses.