Mono.Security [00 24 00 00 04 80 00 00 94 00 00 00 06 02 00 00 00 24 00 00 52 53 41 31 00 04 00 00 01 00 01 00 79 15 99 77 D2 D0 3A 8E 6B EA 7A 2E 74 E8 D1 AF CC 93 E8 85 19 74 95 2B B4 80 A1 2C 91 34 47 4D 04 06 24 47 C3 7E 0E 68 C0 80 53 6F CF 3C 3F BE 2F F9 C9 79 CE 99 84 75 E5 06 E8 CE 82 DD 5B 0F 35 0D C1 0E 93 BF 2E EE CF 87 4B 24 77 0C 50 81 DB EA 74 47 FD DA FA 27 7B 22 DE 47 D6 FF EA 44 96 74 A4 F9 FC CF 84 D1 50 69 08 93 80 28 4D BD D3 5F 46 CD FF 12 A1 BD 78 E4 EF 00 65 D0 16 DF] 1.0.5000.0 2.0.0.0 Gtk# is thread aware, but not thread safe; See the Gtk# Thread Programming for details. System.Enum

Defines the different Diffie-Hellman key generation methods.

To be added Field Mono.Security.Cryptography.DHKeyGeneration

Returns dynamically generated values for P and G. Unlike the Sophie Germain or DSA key generation methods, this method does not ensure that the selected prime offers an adequate security level.

To be added 1.0.5000.0 2.0.0.0 Field Mono.Security.Cryptography.DHKeyGeneration

Returns values for P and G that are hard coded in this library. Contrary to what your intuition may tell you, using these hard coded values is perfectly safe. The values of the P and G parameters are taken from 'The OAKLEY Key Determination Protocol' [RFC2412]. This is the prefered key generation method, because it is very fast and very safe. Because this method uses fixed values for the P and G parameters, not all bit sizes are supported. The current implementation supports bit sizes of 768, 1024 and 1536.

To be added 1.0.5000.0 2.0.0.0