SSL_CIPHER_get_name.pod 4.4 KB

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  1. =pod
  2. =head1 NAME
  3. SSL_CIPHER_get_name, SSL_CIPHER_get_bits, SSL_CIPHER_get_version, SSL_CIPHER_description - get SSL_CIPHER properties
  4. =head1 SYNOPSIS
  5. #include <openssl/ssl.h>
  6. const char *SSL_CIPHER_get_name(const SSL_CIPHER *cipher);
  7. int SSL_CIPHER_get_bits(const SSL_CIPHER *cipher, int *alg_bits);
  8. char *SSL_CIPHER_get_version(const SSL_CIPHER *cipher);
  9. char *SSL_CIPHER_description(const SSL_CIPHER *cipher, char *buf, int size);
  10. =head1 DESCRIPTION
  11. SSL_CIPHER_get_name() returns a pointer to the name of B<cipher>. If the
  12. argument is the NULL pointer, a pointer to the constant value "NONE" is
  13. returned.
  14. SSL_CIPHER_get_bits() returns the number of secret bits used for B<cipher>. If
  15. B<alg_bits> is not NULL, it contains the number of bits processed by the
  16. chosen algorithm. If B<cipher> is NULL, 0 is returned.
  17. SSL_CIPHER_get_version() returns string which indicates the SSL/TLS protocol
  18. version that first defined the cipher.
  19. This is currently B<SSLv2> or B<TLSv1/SSLv3>.
  20. In some cases it should possibly return "TLSv1.2" but does not;
  21. use SSL_CIPHER_description() instead.
  22. If B<cipher> is NULL, "(NONE)" is returned.
  23. SSL_CIPHER_description() returns a textual description of the cipher used
  24. into the buffer B<buf> of length B<len> provided. B<len> must be at least
  25. 128 bytes, otherwise a pointer to the string "Buffer too small" is
  26. returned. If B<buf> is NULL, a buffer of 128 bytes is allocated using
  27. OPENSSL_malloc(). If the allocation fails, a pointer to the string
  28. "OPENSSL_malloc Error" is returned.
  29. =head1 NOTES
  30. The number of bits processed can be different from the secret bits. An
  31. export cipher like e.g. EXP-RC4-MD5 has only 40 secret bits. The algorithm
  32. does use the full 128 bits (which would be returned for B<alg_bits>), of
  33. which however 88bits are fixed. The search space is hence only 40 bits.
  34. The string returned by SSL_CIPHER_description() in case of success consists
  35. of cleartext information separated by one or more blanks in the following
  36. sequence:
  37. =over 4
  38. =item <ciphername>
  39. Textual representation of the cipher name.
  40. =item <protocol version>
  41. Protocol version: B<SSLv2>, B<SSLv3>, B<TLSv1.2>. The TLSv1.0 ciphers are
  42. flagged with SSLv3. No new ciphers were added by TLSv1.1.
  43. =item Kx=<key exchange>
  44. Key exchange method: B<RSA> (for export ciphers as B<RSA(512)> or
  45. B<RSA(1024)>), B<DH> (for export ciphers as B<DH(512)> or B<DH(1024)>),
  46. B<DH/RSA>, B<DH/DSS>, B<Fortezza>.
  47. =item Au=<authentication>
  48. Authentication method: B<RSA>, B<DSS>, B<DH>, B<None>. None is the
  49. representation of anonymous ciphers.
  50. =item Enc=<symmetric encryption method>
  51. Encryption method with number of secret bits: B<DES(40)>, B<DES(56)>,
  52. B<3DES(168)>, B<RC4(40)>, B<RC4(56)>, B<RC4(64)>, B<RC4(128)>,
  53. B<RC2(40)>, B<RC2(56)>, B<RC2(128)>, B<IDEA(128)>, B<Fortezza>, B<None>.
  54. =item Mac=<message authentication code>
  55. Message digest: B<MD5>, B<SHA1>.
  56. =item <export flag>
  57. If the cipher is flagged exportable with respect to old US crypto
  58. regulations, the word "B<export>" is printed.
  59. =back
  60. =head1 EXAMPLES
  61. Some examples for the output of SSL_CIPHER_description():
  62. EDH-RSA-DES-CBC3-SHA SSLv3 Kx=DH Au=RSA Enc=3DES(168) Mac=SHA1
  63. EDH-DSS-DES-CBC3-SHA SSLv3 Kx=DH Au=DSS Enc=3DES(168) Mac=SHA1
  64. RC4-MD5 SSLv3 Kx=RSA Au=RSA Enc=RC4(128) Mac=MD5
  65. EXP-RC4-MD5 SSLv3 Kx=RSA(512) Au=RSA Enc=RC4(40) Mac=MD5 export
  66. A comp[lete list can be retrieved by invoking the following command:
  67. openssl ciphers -v ALL
  68. =head1 BUGS
  69. If SSL_CIPHER_description() is called with B<cipher> being NULL, the
  70. library crashes.
  71. If SSL_CIPHER_description() cannot handle a built-in cipher, the according
  72. description of the cipher property is B<unknown>. This case should not
  73. occur.
  74. The standard terminology for ephemeral Diffie-Hellman schemes is DHE
  75. (finite field) or ECDHE (elliptic curve). This version of OpenSSL
  76. idiosyncratically reports these schemes as EDH and EECDH, even though
  77. it also accepts the standard terminology.
  78. It is recommended to use the standard terminology (DHE and ECDHE)
  79. during configuration (e.g. via SSL_CTX_set_cipher_list) for clarity of
  80. configuration. OpenSSL versions after 1.0.2 will report the standard
  81. terms via SSL_CIPHER_get_name and SSL_CIPHER_description.
  82. =head1 RETURN VALUES
  83. See DESCRIPTION
  84. =head1 SEE ALSO
  85. L<ssl(3)|ssl(3)>, L<SSL_get_current_cipher(3)|SSL_get_current_cipher(3)>,
  86. L<SSL_get_ciphers(3)|SSL_get_ciphers(3)>, L<ciphers(1)|ciphers(1)>,
  87. L<SSL_CTX_set_cipher_list(3)|SSL_CTX_set_cipher_list(3)>
  88. =cut