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9b86974e0c
L<foo|foo> is sub-optimal If the xref is the same as the title, which is what we do, then you only need L<foo>. This fixes all 1457 occurrences in 349 files. Approximately. (And pod used to need both.) Reviewed-by: Richard Levitte <levitte@openssl.org>
160 lines
5.9 KiB
Plaintext
160 lines
5.9 KiB
Plaintext
=pod
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=head1 NAME
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SSL_CTX_set_tmp_rsa_callback, SSL_CTX_set_tmp_rsa, SSL_CTX_need_tmp_rsa, SSL_set_tmp_rsa_callback, SSL_set_tmp_rsa, SSL_need_tmp_rsa - handle RSA keys for ephemeral key exchange
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=head1 SYNOPSIS
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#include <openssl/ssl.h>
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void SSL_CTX_set_tmp_rsa_callback(SSL_CTX *ctx,
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RSA *(*tmp_rsa_callback)(SSL *ssl, int is_export, int keylength));
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long SSL_CTX_set_tmp_rsa(SSL_CTX *ctx, RSA *rsa);
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long SSL_CTX_need_tmp_rsa(SSL_CTX *ctx);
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void SSL_set_tmp_rsa_callback(SSL_CTX *ctx,
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RSA *(*tmp_rsa_callback)(SSL *ssl, int is_export, int keylength));
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long SSL_set_tmp_rsa(SSL *ssl, RSA *rsa)
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long SSL_need_tmp_rsa(SSL *ssl)
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RSA *(*tmp_rsa_callback)(SSL *ssl, int is_export, int keylength);
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=head1 DESCRIPTION
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SSL_CTX_set_tmp_rsa_callback() sets the callback function for B<ctx> to be
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used when a temporary/ephemeral RSA key is required to B<tmp_rsa_callback>.
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The callback is inherited by all SSL objects newly created from B<ctx>
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with <SSL_new(3)|SSL_new(3)>. Already created SSL objects are not affected.
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SSL_CTX_set_tmp_rsa() sets the temporary/ephemeral RSA key to be used to be
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B<rsa>. The key is inherited by all SSL objects newly created from B<ctx>
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with <SSL_new(3)|SSL_new(3)>. Already created SSL objects are not affected.
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SSL_CTX_need_tmp_rsa() returns 1, if a temporary/ephemeral RSA key is needed
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for RSA-based strength-limited 'exportable' ciphersuites because a RSA key
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with a keysize larger than 512 bits is installed.
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SSL_set_tmp_rsa_callback() sets the callback only for B<ssl>.
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SSL_set_tmp_rsa() sets the key only for B<ssl>.
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SSL_need_tmp_rsa() returns 1, if a temporary/ephemeral RSA key is needed,
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for RSA-based strength-limited 'exportable' ciphersuites because a RSA key
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with a keysize larger than 512 bits is installed.
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These functions apply to SSL/TLS servers only.
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=head1 NOTES
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When using a cipher with RSA authentication, an ephemeral RSA key exchange
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can take place. In this case the session data are negotiated using the
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ephemeral/temporary RSA key and the RSA key supplied and certified
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by the certificate chain is only used for signing.
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Under previous export restrictions, ciphers with RSA keys shorter (512 bits)
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than the usual key length of 1024 bits were created. To use these ciphers
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with RSA keys of usual length, an ephemeral key exchange must be performed,
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as the normal (certified) key cannot be directly used.
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Using ephemeral RSA key exchange yields forward secrecy, as the connection
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can only be decrypted, when the RSA key is known. By generating a temporary
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RSA key inside the server application that is lost when the application
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is left, it becomes impossible for an attacker to decrypt past sessions,
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even if he gets hold of the normal (certified) RSA key, as this key was
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used for signing only. The downside is that creating a RSA key is
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computationally expensive.
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Additionally, the use of ephemeral RSA key exchange is only allowed in
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the TLS standard, when the RSA key can be used for signing only, that is
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for export ciphers. Using ephemeral RSA key exchange for other purposes
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violates the standard and can break interoperability with clients.
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It is therefore strongly recommended to not use ephemeral RSA key
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exchange and use DHE (Ephemeral Diffie-Hellman) key exchange instead
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in order to achieve forward secrecy (see
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L<SSL_CTX_set_tmp_dh_callback(3)>).
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An application may either directly specify the key or can supply the key via a
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callback function. The callback approach has the advantage, that the callback
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may generate the key only in case it is actually needed. As the generation of a
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RSA key is however costly, it will lead to a significant delay in the handshake
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procedure. Another advantage of the callback function is that it can supply
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keys of different size while the explicit setting of the key is only useful for
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key size of 512 bits to satisfy the export restricted ciphers and does give
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away key length if a longer key would be allowed.
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The B<tmp_rsa_callback> is called with the B<keylength> needed and
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the B<is_export> information. The B<is_export> flag is set, when the
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ephemeral RSA key exchange is performed with an export cipher.
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=head1 EXAMPLES
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Generate temporary RSA keys to prepare ephemeral RSA key exchange. As the
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generation of a RSA key costs a lot of computer time, they saved for later
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reuse. For demonstration purposes, two keys for 512 bits and 1024 bits
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respectively are generated.
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...
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/* Set up ephemeral RSA stuff */
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RSA *rsa_512 = NULL;
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RSA *rsa_1024 = NULL;
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rsa_512 = RSA_generate_key(512,RSA_F4,NULL,NULL);
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if (rsa_512 == NULL)
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evaluate_error_queue();
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rsa_1024 = RSA_generate_key(1024,RSA_F4,NULL,NULL);
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if (rsa_1024 == NULL)
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evaluate_error_queue();
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...
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RSA *tmp_rsa_callback(SSL *s, int is_export, int keylength)
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{
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RSA *rsa_tmp=NULL;
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switch (keylength) {
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case 512:
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if (rsa_512)
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rsa_tmp = rsa_512;
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else { /* generate on the fly, should not happen in this example */
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rsa_tmp = RSA_generate_key(keylength,RSA_F4,NULL,NULL);
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rsa_512 = rsa_tmp; /* Remember for later reuse */
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}
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break;
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case 1024:
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if (rsa_1024)
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rsa_tmp=rsa_1024;
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else
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should_not_happen_in_this_example();
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break;
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default:
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/* Generating a key on the fly is very costly, so use what is there */
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if (rsa_1024)
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rsa_tmp=rsa_1024;
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else
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rsa_tmp=rsa_512; /* Use at least a shorter key */
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}
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return(rsa_tmp);
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}
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=head1 RETURN VALUES
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SSL_CTX_set_tmp_rsa_callback() and SSL_set_tmp_rsa_callback() do not return
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diagnostic output.
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SSL_CTX_set_tmp_rsa() and SSL_set_tmp_rsa() do return 1 on success and 0
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on failure. Check the error queue to find out the reason of failure.
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SSL_CTX_need_tmp_rsa() and SSL_need_tmp_rsa() return 1 if a temporary
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RSA key is needed and 0 otherwise.
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=head1 SEE ALSO
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L<ssl(3)>, L<SSL_CTX_set_cipher_list(3)>,
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L<SSL_CTX_set_options(3)>,
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L<SSL_CTX_set_tmp_dh_callback(3)>,
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L<SSL_new(3)>, L<ciphers(1)>
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=cut
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