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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>
149 lines
5.6 KiB
Plaintext
149 lines
5.6 KiB
Plaintext
=pod
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=head1 NAME
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SSL_CTX_set_tmp_dh_callback, SSL_CTX_set_tmp_dh, SSL_set_tmp_dh_callback, SSL_set_tmp_dh - handle DH 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_dh_callback(SSL_CTX *ctx,
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DH *(*tmp_dh_callback)(SSL *ssl, int is_export, int keylength));
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long SSL_CTX_set_tmp_dh(SSL_CTX *ctx, DH *dh);
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void SSL_set_tmp_dh_callback(SSL *ctx,
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DH *(*tmp_dh_callback)(SSL *ssl, int is_export, int keylength));
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long SSL_set_tmp_dh(SSL *ssl, DH *dh)
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=head1 DESCRIPTION
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SSL_CTX_set_tmp_dh_callback() sets the callback function for B<ctx> to be
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used when a DH parameters are required to B<tmp_dh_callback>.
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The callback is inherited by all B<ssl> objects created from B<ctx>.
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SSL_CTX_set_tmp_dh() sets DH parameters to be used to be B<dh>.
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The key is inherited by all B<ssl> objects created from B<ctx>.
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SSL_set_tmp_dh_callback() sets the callback only for B<ssl>.
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SSL_set_tmp_dh() sets the parameters only for B<ssl>.
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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 DH key exchange
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can take place. Ciphers with DSA keys always use ephemeral DH keys as well.
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In these cases, the session data are negotiated using the
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ephemeral/temporary DH key and the key supplied and certified
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by the certificate chain is only used for signing.
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Anonymous ciphers (without a permanent server key) also use ephemeral DH keys.
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Using ephemeral DH key exchange yields forward secrecy, as the connection
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can only be decrypted, when the DH key is known. By generating a temporary
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DH 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) key, as this key was
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only used for signing.
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In order to perform a DH key exchange the server must use a DH group
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(DH parameters) and generate a DH key.
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The server will always generate a new DH key during the negotiation
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if either the DH parameters are supplied via callback or the
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SSL_OP_SINGLE_DH_USE option of SSL_CTX_set_options(3) is set (or both).
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It will immediately create a DH key if DH parameters are supplied via
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SSL_CTX_set_tmp_dh() and SSL_OP_SINGLE_DH_USE is not set.
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In this case,
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it may happen that a key is generated on initialization without later
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being needed, while on the other hand the computer time during the
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negotiation is being saved.
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If "strong" primes were used to generate the DH parameters, it is not strictly
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necessary to generate a new key for each handshake but it does improve forward
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secrecy. If it is not assured that "strong" primes were used,
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SSL_OP_SINGLE_DH_USE must be used in order to prevent small subgroup
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attacks. Always using SSL_OP_SINGLE_DH_USE has an impact on the
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computer time needed during negotiation, but it is not very large, so
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application authors/users should consider always enabling this option.
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The option is required to implement perfect forward secrecy (PFS).
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As generating DH parameters is extremely time consuming, an application
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should not generate the parameters on the fly but supply the parameters.
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DH parameters can be reused, as the actual key is newly generated during
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the negotiation. The risk in reusing DH parameters is that an attacker
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may specialize on a very often used DH group. Applications should therefore
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generate their own DH parameters during the installation process using the
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openssl L<dhparam(1)> application. This application
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guarantees that "strong" primes are used.
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Files dh2048.pem, and dh4096.pem in the 'apps' directory of the current
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version of the OpenSSL distribution contain the 'SKIP' DH parameters,
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which use safe primes and were generated verifiably pseudo-randomly.
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These files can be converted into C code using the B<-C> option of the
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L<dhparam(1)> application. Generation of custom DH
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parameters during installation should still be preferred to stop an
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attacker from specializing on a commonly used group. File dh1024.pem
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contains old parameters that must not be used by applications.
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An application may either directly specify the DH parameters or
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can supply the DH parameters via a callback function.
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Previous versions of the callback used B<is_export> and B<keylength>
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parameters to control parameter generation for export and non-export
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cipher suites. Modern servers that do not support export ciphersuites
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are advised to either use SSL_CTX_set_tmp_dh() in combination with
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SSL_OP_SINGLE_DH_USE, or alternatively, use the callback but ignore
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B<keylength> and B<is_export> and simply supply at least 2048-bit
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parameters in the callback.
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=head1 EXAMPLES
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Setup DH parameters with a key length of 2048 bits. (Error handling
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partly left out.)
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Command-line parameter generation:
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$ openssl dhparam -out dh_param_2048.pem 2048
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Code for setting up parameters during server initialization:
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...
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SSL_CTX ctx = SSL_CTX_new();
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...
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/* Set up ephemeral DH parameters. */
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DH *dh_2048 = NULL;
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FILE *paramfile;
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paramfile = fopen("dh_param_2048.pem", "r");
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if (paramfile) {
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dh_2048 = PEM_read_DHparams(paramfile, NULL, NULL, NULL);
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fclose(paramfile);
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} else {
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/* Error. */
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}
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if (dh_2048 == NULL) {
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/* Error. */
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}
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if (SSL_CTX_set_tmp_dh(ctx, dh_2048) != 1) {
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/* Error. */
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}
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SSL_CTX_set_options(ctx, SSL_OP_SINGLE_DH_USE);
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...
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=head1 RETURN VALUES
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SSL_CTX_set_tmp_dh_callback() and SSL_set_tmp_dh_callback() do not return
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diagnostic output.
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SSL_CTX_set_tmp_dh() and SSL_set_tmp_dh() 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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=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_tmp_rsa_callback(3)>,
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L<SSL_CTX_set_options(3)>,
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L<ciphers(1)>, L<dhparam(1)>
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=cut
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