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package Crypt::OpenSSL::Bignum; use 5.005; use strict; use Carp; use vars qw( $VERSION @ISA ); use base qw(DynaLoader); $VERSION = '0.09'; bootstrap Crypt::OpenSSL::Bignum $VERSION; 1; __END__ =head1 NAME Crypt::OpenSSL::Bignum - OpenSSL's multiprecision integer arithmetic =head1 SYNOPSIS use Crypt::OpenSSL::Bignum; my $bn = Crypt::OpenSSL::Bignum->new_from_decimal( "1000" ); # or my $bn = Crypt::OpenSSL::Bignum->new_from_word( 1000 ); # or my $bn = Crypt::OpenSSL::Bignum->new_from_hex("3e8"); # no leading 0x # or my $bn = Crypt::OpenSSL::Bignum->new_from_bin(pack( "C*", 3, 232 )) use Crypt::OpenSSL::Bignum::CTX; sub print_factorial { my( $n ) = @_; my $fac = Crypt::OpenSSL::Bignum->one(); my $ctx = Crypt::OpenSSL::Bignum::CTX->new(); foreach my $i (1 .. $n) { $fac->mul( Crypt::OpenSSL::Bignum->new_from_word( $i ), $ctx, $fac ); } print "$n factorial is ", $fac->to_decimal(), "\n"; } =head1 DESCRIPTION Crypt::OpenSSL::Bignum provides access to OpenSSL multiprecision integer arithmetic libraries. Presently, many though not all of the arithmetic operations that OpenSSL provides are exposed to perl. In addition, this module can be used to provide access to bignum values produced by other OpenSSL modules, such as key parameters from Crypt::OpenSSL::RSA. I<NOTE>: Many of the methods in this package can croak, so use eval, or Error.pm's try/catch mechanism to capture errors. =head1 Constructors =over =item new_from_decimal my $bn = Crypt::OpenSSL::Bignum->new_from_decimal($decimal_string); Create a new Crypt::OpenSSL::Bignum object whose value is specified by the given decimal representation. =item new_from_hex my $bn = Crypt::OpenSSL::Bignum->new_from_hex($hex_string); #no leading '0x' Create a new Crypt::OpenSSL::Bignum object whose value is specified by the given hexidecimal representation. =item new_from_word my $bn = Crypt::OpenSSL::Bignum->new_from_word($unsigned_integer); Create a new Crypt::OpenSSL::Bignum object whose value will be the word given. Note that numbers represented by objects created using this method are necessarily between 0 and 2^32 - 1. =item new_from_bin my $bn = Crypt::OpenSSL::Bignum->new_from_bin($bin_buffer); Create a new Crypt::OpenSSL::Bignum object whose value is specified by the given packed binary string (created by L</to_bin>). Note that objects created using this method are necessarily nonnegative. =item new my $bn = Crypt::OpenSSL::Bignum->new; Returns a new Crypt::OpenSSL::Bignum object representing 0 =item zero my $bn = Crypt::OpenSSL::Bignum->zero; Returns a new Crypt::OpenSSL::Bignum object representing 0 (same as new) =item one my $bn = Crypt::OpenSSL::Bignum->one; Returns a new Crypt::OpenSSL::Bignum object representing 1 =item rand my $bn = Crypt::OpenSSL::Bignum->rand($bits, $top, $bottom) # $bits, $top, $bottom are integers generates a cryptographically strong pseudo-random number of bits bits in length and stores it in rnd. If top is -1, the most significant bit of the random number can be zero. If top is 0, it is set to 1, and if top is 1, the two most significant bits of the number will be set to 1, so that the product of two such random numbers will always have 2*bits length. If bottom is true, the number will be odd. =item pseudo_rand my $bn = Crypt::OpenSSL::Bignum->pseudo_rand($bits, $top, $bottom) # $bits, $top, $bottom are integers does the same, but pseudo-random numbers generated by this function are not necessarily unpredictable. They can be used for non-cryptographic purposes and for certain purposes in cryptographic protocols, but usually not for key generation etc. =item rand_range my $bn = Crypt::OpenSSL::Bignum->rand_range($bn_range) generates a cryptographically strong pseudo-random number rnd in the range 0 <lt>= rnd < range. BN_pseudo_rand_range() does the same, but is based on BN_pseudo_rand(), and hence numbers generated by it are not necessarily unpredictable. =item bless_pointer my $bn = Crypt::OpenSSL::Bignum->bless_pointer($BIGNUM_ptr) Given a pointer to a OpenSSL BIGNUM object in memory, construct and return Crypt::OpenSSL::Bignum object around this. Note that the underlying BIGNUM object will be destroyed (via BN_clear_free(3ssl)) when the returned Crypt::OpenSSL::Bignum object is no longer referenced, so the pointer passed to this method should only be referenced via the returned perl object after calling bless_pointer. This method is intended only for use by XSUB writers writing code that interfaces with OpenSSL library methods, and who wish to be able to return a BIGNUM structure to perl as a Crypt::OpenSSL::Bignum object. =back =head1 Instance Methods =over =item to_decimal my $decimal_string = $self->to_decimal; Return a decimal string representation of this object. =item to_hex my $hex_string = $self->to_hex; Return a hexidecimal string representation of this object. =item to_bin my $bin_buffer = $self->to_bin; Return a packed binary string representation of this object. Note that sign is ignored, so that to bin called on a Crypt::OpenSSL::Bignum object representing a negative number returns the same value as it would called on an object representing that number's absolute value. =item get_word my $unsigned_int = $self->get_word; Return a scalar integer representation of this object, if it can be represented as an unsigned long. =item is_zero my $bool = $self->is_zero; Returns true of this object represents 0. =item is_one my $bool = $self->is_one; Returns true of this object represents 1. =item is_odd my $bool = $self->is_odd; Returns true of this object represents an odd number. =item add my $new_bn_object = $self->add($bn_b); # $new_bn_object = $self + $bn_b # or $self->add($bn_b, $result_bn); # $result_bn = $self + $bn_b This method returns the sum of this object and the first argument. If only one argument is passed, a new Crypt::OpenSSL::Bignum object is created for the return value; otherwise, the value of second argument is set to the result and returned. =item sub my $new_bn_object = $self->sub($bn_b); # $new_bn_object = $self - $bn_b # or $self->sub($bn_b, $result_bn); # $result_bn = $self - $bn_b This method returns the difference of this object and the first argument. If only one argument is passed, a new Crypt::OpenSSL::Bignum object is created for the return value; otherwise, the value of second argument is set to the result and returned. =item mul my $new_bn_object = $self->mul($bn_b, $ctx); # $new_bn_object = $self * $bn_b # or $self->mul($bn_b, $ctx, $result_bn); # $result_bn = $self * $bn_b This method returns the product of this object and the first argument, using the second argument, a Crypt::OpenSSL::Bignum::CTX object, as a scratchpad. If only two arguments are passed, a new Crypt::OpenSSL::Bignum object is created for the return value; otherwise, the value of third argument is set to the result and returned. =item div my ($quotient, $remainder) = $self->div($bn_b, $ctx); # or $self->div($bn_b, $ctx, $quotient, $remainder); This method returns a list consisting of quotient and the remainder obtained by dividing this object by the first argument, using the second argument, a Crypt::OpenSSL::Bignum::CTX object, as a scratchpad. If only two arguments are passed, new Crypt::OpenSSL::Bignum objects are created for both return values. If a third argument is passed, otherwise, the value of third argument is set to the quotient. If a fourth argument is passed, the value of the fourth argument is set to the remainder. =item mod my $remainder = $self->mod($bn_b, $ctx); # or $self->mod($bn_b, $ctx, $remainder); This method returns the remainder obtained by dividing this object by the first argument, a Crypt::OpenSSL::Bignum::CTX object, as a scratchpad. Crypt::OpenSSL::Bignum object is created for the return value. If a third argument is passed, the value of third argument is set to the remainder. =item sqr my $new_bn_object = $self->sqr($ctx); # new object is created $self is not modified This method returns the square (C<$self ** 2>) of Crypt::OpenSSL::Bignum object. =item exp my $new_bn_object = $self->exp($bn_exp, $ctx); # new object is created $self is not modified This method returns the product of this object exponentiated by the first argument (Crypt::OpenSSL::Bignum object), using the second argument, a Crypt::OpenSSL::Bignum::CTX object, as a scratchpad. =item mod_exp my $new_bn_object = $self->exp_mod($bn_exp, $bn_mod, $ctx); # new object is created $self is not modified This method returns the product of this object exponentiated by the first argument (Crypt::OpenSSL::Bignum object), modulo the second argument (also Crypt::OpenSSL::Bignum object), using the third argument, a Crypt::OpenSSL::Bignum::CTX object, as a scratchpad. =item mod_mul my $new_bn_object = $self->mod_mul($bn_b, $bn_mod, $ctx); # new object is created $self is not modified This method returns C<($self * $bn_b) % $bn_mod>, using the third argument, a Crypt::OpenSSL::Bignum::CTX object, as a scratchpad. =item mod_inverse my $new_bn_object = $self->mod_inverse($bn_n, $ctx); # new object is created $self is not modified Computes the inverse of C<$self> modulo C<$bn_n> and returns the result in a new Crypt::OpenSSL::Bignum object, using the second argument, a Crypt::OpenSSL::Bignum::CTX object, as a scratchpad. =item gcd my $new_bn_object = $self->gcd($bn_b, $ctx); # new object is created $self is not modified Computes the greatest common divisor of C<$self> and C<$bn_b> and returns the result in a new Crypt::OpenSSL::Bignum object, using the second argument, a Crypt::OpenSSL::Bignum::CTX object, as a scratchpad. =item cmp my $result = $self->cmp($bn_b); #returns: # -1 if self < bn_b # 0 if self == bn_b # 1 if self > bn_b Comparison of values C<$self> and C<$bn_b> (Crypt::OpenSSL::Bignum objects). =item ucmp my $result = $self->ucmp($bn_b); #returns: # -1 if |self| < |bn_b| # 0 if |self| == |bn_b| # 1 if |self| > |bn_b| Comparison using the absolute values of C<$self> and C<$bn_b> (Crypt::OpenSSL::Bignum objects). =item equals my $result = $self->equals($bn_b); #returns: # 1 if self == bn_b # 0 otherwise =item num_bits my $bits = $self->num_bits; Returns the number of significant bits in a word. If we take 0x00000432 as an example, it returns 11, not 16, not 32. Basically, except for a zero, it returns C<floor(log2(w)) + 1>. =item num_bytes my $bytes = $self->num_bytes; Returns the size of binary represenatation in bytes. =item rshift my $new_bn_object = $self->rshift($n); # new object is created $self is not modified Shifts a right by C<$n> (integer) bits and places the result into a newly created Crypt::OpenSSL::Bignum object. =item lshift my $new_bn_object = $self->lshift($n); # new object is created $self is not modified Shifts a left by C<$n> (integer) bits and places the result into a newly created Crypt::OpenSSL::Bignum object. =item swap my $bn_a = Crypt::OpenSSL::Bignum->new_from_decimal("1234567890001"); my $bn_b = Crypt::OpenSSL::Bignum->new_from_decimal("1234567890002"); $bn_a->swap($bn_b); # or $bn_b->swap($bn_a); Exchanges the values of two Crypt::OpenSSL::Bignum objects. =item copy my $new_bn_object = $self->copy; Returns a copy of this object. =item pointer_copy my $cloned_BIGNUM_ptr = $self->pointer_copy($BIGNUM_ptr); This method is intended only for use by XSUB writers wanting to have access to the underlying BIGNUM structure referenced by a Crypt::OpenSSL::Bignum perl object so that they can pass them to other routines in the OpenSSL library. It returns a perl scalar whose IV can be cast to a BIGNUM* value. This can then be passed to an XSUB which can work with the BIGNUM directly. Note that the BIGNUM object pointed to will be a copy of the BIGNUM object wrapped by the instance; it is thus the responsibility of the client to free space allocated by this BIGNUM object if and when it is done with it. See also bless_pointer. =back =head1 AUTHOR Ian Robertson, iroberts@cpan.org =head1 SEE ALSO L<https://www.openssl.org/docs/crypto/bn.html> =cut