1Crypt::DH::GMP(3) User Contributed Perl Documentation Crypt::DH::GMP(3)
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6 Crypt::DH::GMP - Crypt::DH Using GMP Directly
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9 use Crypt::DH::GMP;
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11 my $dh = Crypt::DH::GMP->new(p => $p, g => $g);
12 my $val = $dh->compute_secret();
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14 # If you want compatibility with Crypt::DH (it uses Math::BigInt)
15 # then use this flag
16 # You /think/ you're using Crypt::DH, but...
17 use Crypt::DH::GMP qw(-compat);
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19 my $dh = Crypt::DH->new(p => $p, g => $g);
20 my $val = $dh->compute_secret();
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23 Crypt::DH::GMP is a (somewhat) portable replacement to Crypt::DH,
24 implemented mostly in C.
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27 In the beginning, there was "Crypt::DH". However, "Crypt::DH" suffers
28 from a couple of problems:
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30 GMP/Pari libraries are almost always required
31 "Crypt::DH" works with a plain "Math::BigInt", but if you want to
32 use it in production, you almost always need to install
33 "Math::BigInt::GMP" or "Math::BigInt::Pari" because without them,
34 the computation that is required by "Crypt::DH" makes the module
35 pretty much unusable.
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37 Because of this, "Crypt::DH" might as well make "Math::BigInt::GMP"
38 a hard requirement.
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40 Crypt::DH suffers from having Math::BigInt in between GMP
41 With or without "Math::BigInt::GMP" or "Math::BigInt::Pari",
42 "Crypt::DH" makes several round trip conversions between Perl
43 scalars, Math::BigInt objects, and finally its C representation (if
44 GMP/Pari are installed).
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46 Instantiating an object comes with a relatively high cost, and if
47 you make many computations in one go, your program will suffer
48 dramatically because of this.
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50 These problems quickly become apparent when you use modules such as
51 "Net::OpenID::Consumer", which requires to make a few calls to
52 "Crypt::DH".
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54 "Crypt::DH::GMP" attempts to alleviate these problems by providing a
55 "Crypt::DH"-compatible layer, which, instead of doing calculations via
56 Math::BigInt, directly works with libgmp in C.
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58 This means that we've essentially eliminated 2 call stacks worth of
59 expensive Perl method calls and we also only load 1 (Crypt::DH::GMP)
60 module instead of 3 (Crypt::DH + Math::BigInt + Math::BigInt::GMP).
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62 These add up to a fairly significant increase in performance.
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65 Crypt::DH::GMP absolutely refuses to consider using anything other than
66 strings as its parameters and/or return values therefore if you would
67 like to use Math::BigInt objects as your return values, you can not use
68 Crypt::DH::GMP directly. Instead, you need to be explicit about it:
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70 use Crypt::DH;
71 use Crypt::DH::GMP qw(-compat); # must be loaded AFTER Crypt::DH
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73 Specifying -compat invokes a very nasty hack that overwrites
74 Crypt::DH's symbol table -- this then forces Crypt::DH users to use
75 Crypt::DH::GMP instead, even if you are writing
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77 my $dh = Crypt::DH->new(...);
78 $dh->compute_key();
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81 By NO MEANS is this an exhaustive benchmark, but here's what I get on
82 my MacBook (OS X 10.5.8, 2.4 GHz Core 2 Duo, 4GB RAM)
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84 Benchmarking instatiation cost...
85 Rate pp gmp
86 pp 9488/s -- -79%
87 gmp 45455/s 379% --
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89 Benchmarking key generation cost...
90 Rate gmp pp
91 gmp 6.46/s -- -0%
92 pp 6.46/s 0% --
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94 Benchmarking compute_key cost...
95 Rate pp gmp
96 pp 12925/s -- -96%
97 gmp 365854/s 2730% --
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100 new
101 p
102 g
103 compute_key
104 compute_secret
105 generate_keys
106 pub_key
107 priv_key
108 compute_key_twoc
109 Computes the key, and returns a string that is byte-padded two's
110 compliment in binary form.
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112 pub_key_twoc
113 Returns the pub_key as a string that is byte-padded two's compliment in
114 binary form.
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116 clone
118 Daisuke Maki "<daisuke@endeworks.jp>"
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121 This program is free software; you can redistribute it and/or modify it
122 under the same terms as Perl itself.
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124 See http://www.perl.com/perl/misc/Artistic.html
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128perl v5.32.0 2020-07-28 Crypt::DH::GMP(3)