openssl/doc/man3/SSL_CONF_cmd.pod

640 lines
23 KiB
Text
Raw Normal View History

=pod
=head1 NAME
SSL_CONF_cmd_value_type,
SSL_CONF_cmd - send configuration command
=head1 SYNOPSIS
#include <openssl/ssl.h>
int SSL_CONF_cmd(SSL_CONF_CTX *cctx, const char *cmd, const char *value);
int SSL_CONF_cmd_value_type(SSL_CONF_CTX *cctx, const char *cmd);
=head1 DESCRIPTION
The function SSL_CONF_cmd() performs configuration operation B<cmd> with
optional parameter B<value> on B<ctx>. Its purpose is to simplify application
configuration of B<SSL_CTX> or B<SSL> structures by providing a common
framework for command line options or configuration files.
SSL_CONF_cmd_value_type() returns the type of value that B<cmd> refers to.
=head1 SUPPORTED COMMAND LINE COMMANDS
Currently supported B<cmd> names for command lines (i.e. when the
flag B<SSL_CONF_CMDLINE> is set) are listed below. Note: all B<cmd> names
2014-01-10 23:01:30 +00:00
are case sensitive. Unless otherwise stated commands can be used by
both clients and servers and the B<value> parameter is not used. The default
prefix for command line commands is B<-> and that is reflected below.
=over 4
=item B<-sigalgs>
This sets the supported signature algorithms for TLS v1.2. For clients this
value is used directly for the supported signature algorithms extension. For
servers it is used to determine which signature algorithms to support.
The B<value> argument should be a colon separated list of signature algorithms
in order of decreasing preference of the form B<algorithm+hash>. B<algorithm>
is one of B<RSA>, B<DSA> or B<ECDSA> and B<hash> is a supported algorithm
OID short name such as B<SHA1>, B<SHA224>, B<SHA256>, B<SHA384> of B<SHA512>.
Note: algorithm and hash names are case sensitive.
If this option is not set then all signature algorithms supported by the
OpenSSL library are permissible.
=item B<-client_sigalgs>
This sets the supported signature algorithms associated with client
authentication for TLS v1.2. For servers the value is used in the supported
signature algorithms field of a certificate request. For clients it is
used to determine which signature algorithm to with the client certificate.
If a server does not request a certificate this option has no effect.
The syntax of B<value> is identical to B<-sigalgs>. If not set then
the value set for B<-sigalgs> will be used instead.
=item B<-groups>
This sets the supported groups. For clients, the groups are
sent using the supported groups extension. For servers, it is used
to determine which group to use. This setting affects groups used for both
signatures and key exchange, if applicable. It also affects the preferred
key_share sent by a client in a TLSv1.3 compatible connection.
The B<value> argument is a colon separated list of groups. The group can be
either the B<NIST> name (e.g. B<P-256>), some other commonly used name where
applicable (e.g. B<X25519>) or an OpenSSL OID name (e.g B<prime256v1>). Group
names are case sensitive. The list should be in order of preference with the
most preferred group first. The first listed group will be the one used for a
key_share by a TLSv1.3 client.
=item B<-curves>
This is a synonym for the "-groups" command.
=item B<-named_curve>
This sets the temporary curve used for ephemeral ECDH modes. Only used by
servers
The B<value> argument is a curve name or the special value B<auto> which
picks an appropriate curve based on client and server preferences. The curve
can be either the B<NIST> name (e.g. B<P-256>) or an OpenSSL OID name
(e.g B<prime256v1>). Curve names are case sensitive.
=item B<-cipher>
Sets the cipher suite list to B<value>. Note: syntax checking of B<value> is
currently not performed unless a B<SSL> or B<SSL_CTX> structure is
associated with B<cctx>.
=item B<-cert>
Attempts to use the file B<value> as the certificate for the appropriate
context. It currently uses SSL_CTX_use_certificate_chain_file() if an B<SSL_CTX>
structure is set or SSL_use_certificate_file() with filetype PEM if an B<SSL>
structure is set. This option is only supported if certificate operations
are permitted.
=item B<-key>
Attempts to use the file B<value> as the private key for the appropriate
context. This option is only supported if certificate operations
are permitted. Note: if no B<-key> option is set then a private key is
not loaded unless the flag B<SSL_CONF_FLAG_REQUIRE_PRIVATE> is set.
=item B<-dhparam>
Attempts to use the file B<value> as the set of temporary DH parameters for
the appropriate context. This option is only supported if certificate
operations are permitted.
=item B<-record_padding>
Attempts to pad TLS 1.3 records so that they are a multiple of B<value> in
length on send. A B<value> of 0 or 1 turns off padding. Otherwise, the
B<value> must be >1 or <=16384.
=item B<-no_renegotiation>
Disables all attempts at renegotiation in TLSv1.2 and earlier, same as setting
B<SSL_OP_NO_RENEGOTIATION>.
=item B<-min_protocol>, B<-max_protocol>
Sets the minimum and maximum supported protocol.
Currently supported protocol values are B<SSLv3>, B<TLSv1>,
B<TLSv1.1>, B<TLSv1.2> for TLS and B<DTLSv1>, B<DTLSv1.2> for DTLS,
and B<None> for no limit.
If the either bound is not specified then only the other bound applies,
if specified.
To restrict the supported protocol versions use these commands rather
than the deprecated alternative commands below.
=item B<-no_ssl3>, B<-no_tls1>, B<-no_tls1_1>, B<-no_tls1_2>, B<-no_tls1_3>
Disables protocol support for SSLv3, TLSv1.0, TLSv1.1, TLSv1.2 or TLSv1.3 by
setting the corresponding options B<SSL_OP_NO_SSLv3>, B<SSL_OP_NO_TLSv1>,
B<SSL_OP_NO_TLSv1_1>, B<SSL_OP_NO_TLSv1_2> and B<SSL_OP_NO_TLSv1_3>
respectively. These options are deprecated, instead use B<-min_protocol> and
B<-max_protocol>.
=item B<-bugs>
Various bug workarounds are set, same as setting B<SSL_OP_ALL>.
=item B<-comp>
Enables support for SSL/TLS compression, same as clearing
B<SSL_OP_NO_COMPRESSION>.
This command was introduced in OpenSSL 1.1.0.
As of OpenSSL 1.1.0, compression is off by default.
=item B<-no_comp>
Disables support for SSL/TLS compression, same as setting
B<SSL_OP_NO_COMPRESSION>.
As of OpenSSL 1.1.0, compression is off by default.
=item B<-no_ticket>
Disables support for session tickets, same as setting B<SSL_OP_NO_TICKET>.
=item B<-serverpref>
Use server and not client preference order when determining which cipher suite,
signature algorithm or elliptic curve to use for an incoming connection.
Equivalent to B<SSL_OP_CIPHER_SERVER_PREFERENCE>. Only used by servers.
=item B<-prioritize_chacha>
Prioritize ChaCha ciphers when the client has a ChaCha20 cipher at the top of
its preference list. This usually indicates a client without AES hardware
acceleration (e.g. mobile) is in use. Equivalent to B<SSL_OP_PRIORITIZE_CHACHA>.
Only used by servers. Requires B<-serverpref>.
=item B<-no_resumption_on_reneg>
set SSL_OP_NO_SESSION_RESUMPTION_ON_RENEGOTIATION flag. Only used by servers.
=item B<-legacyrenegotiation>
permits the use of unsafe legacy renegotiation. Equivalent to setting
B<SSL_OP_ALLOW_UNSAFE_LEGACY_RENEGOTIATION>.
=item B<-legacy_server_connect>, B<-no_legacy_server_connect>
permits or prohibits the use of unsafe legacy renegotiation for OpenSSL
clients only. Equivalent to setting or clearing B<SSL_OP_LEGACY_SERVER_CONNECT>.
Set by default.
=item B<-allow_no_dhe_kex>
In TLSv1.3 allow a non-(ec)dhe based key exchange mode on resumption. This means
that there will be no forward secrecy for the resumed session.
=item B<-strict>
enables strict mode protocol handling. Equivalent to setting
B<SSL_CERT_FLAG_TLS_STRICT>.
=back
=head1 SUPPORTED CONFIGURATION FILE COMMANDS
Currently supported B<cmd> names for configuration files (i.e. when the
flag B<SSL_CONF_FLAG_FILE> is set) are listed below. All configuration file
2014-07-01 16:55:32 +00:00
B<cmd> names are case insensitive so B<signaturealgorithms> is recognised
2012-11-17 00:21:34 +00:00
as well as B<SignatureAlgorithms>. Unless otherwise stated the B<value> names
are also case insensitive.
Note: the command prefix (if set) alters the recognised B<cmd> values.
=over 4
2012-12-06 23:26:11 +00:00
=item B<CipherString>
Sets the cipher suite list to B<value>. Note: syntax checking of B<value> is
currently not performed unless an B<SSL> or B<SSL_CTX> structure is
associated with B<cctx>.
=item B<Certificate>
Attempts to use the file B<value> as the certificate for the appropriate
context. It currently uses SSL_CTX_use_certificate_chain_file() if an B<SSL_CTX>
structure is set or SSL_use_certificate_file() with filetype PEM if an B<SSL>
structure is set. This option is only supported if certificate operations
are permitted.
=item B<PrivateKey>
Attempts to use the file B<value> as the private key for the appropriate
context. This option is only supported if certificate operations
are permitted. Note: if no B<PrivateKey> option is set then a private key is
not loaded unless the B<SSL_CONF_FLAG_REQUIRE_PRIVATE> is set.
=item B<ChainCAFile>, B<ChainCAPath>, B<VerifyCAFile>, B<VerifyCAPath>
These options indicate a file or directory used for building certificate
chains or verifying certificate chains. These options are only supported
if certificate operations are permitted.
=item B<RequestCAFile>
This option indicates a file containing a set of certificates in PEM form.
The subject names of the certificates are sent to the peer in the
B<certificate_authorities> extension for TLS 1.3 (in ClientHello or
CertificateRequest) or in a certificate request for previous versions or
TLS.
=item B<ServerInfoFile>
Attempts to use the file B<value> in the "serverinfo" extension using the
function SSL_CTX_use_serverinfo_file.
=item B<DHParameters>
Attempts to use the file B<value> as the set of temporary DH parameters for
the appropriate context. This option is only supported if certificate
operations are permitted.
=item B<RecordPadding>
Attempts to pad TLS 1.3 records so that they are a multiple of B<value> in
length on send. A B<value> of 0 or 1 turns off padding. Otherwise, the
B<value> must be >1 or <=16384.
=item B<NoRenegotiation>
Disables all attempts at renegotiation in TLSv1.2 and earlier, same as setting
B<SSL_OP_NO_RENEGOTIATION>.
=item B<SignatureAlgorithms>
This sets the supported signature algorithms for TLS v1.2. For clients this
value is used directly for the supported signature algorithms extension. For
servers it is used to determine which signature algorithms to support.
The B<value> argument should be a colon separated list of signature algorithms
in order of decreasing preference of the form B<algorithm+hash>. B<algorithm>
is one of B<RSA>, B<DSA> or B<ECDSA> and B<hash> is a supported algorithm
OID short name such as B<SHA1>, B<SHA224>, B<SHA256>, B<SHA384> of B<SHA512>.
Note: algorithm and hash names are case sensitive.
If this option is not set then all signature algorithms supported by the
OpenSSL library are permissible.
=item B<ClientSignatureAlgorithms>
This sets the supported signature algorithms associated with client
authentication for TLS v1.2. For servers the value is used in the supported
signature algorithms field of a certificate request. For clients it is
2012-11-17 00:21:34 +00:00
used to determine which signature algorithm to with the client certificate.
The syntax of B<value> is identical to B<SignatureAlgorithms>. If not set then
the value set for B<SignatureAlgorithms> will be used instead.
=item B<Groups>
This sets the supported groups. For clients, the groups are
sent using the supported groups extension. For servers, it is used
to determine which group to use. This setting affects groups used for both
signatures and key exchange, if applicable. It also affects the preferred
key_share sent by a client in a TLSv1.3 compatible connection.
The B<value> argument is a colon separated list of groups. The group can be
either the B<NIST> name (e.g. B<P-256>), some other commonly used name where
applicable (e.g. B<X25519>) or an OpenSSL OID name (e.g B<prime256v1>). Group
names are case sensitive. The list should be in order of preference with the
most preferred group first. The first listed group will be the one used for a
key_share by a TLSv1.3 client.
=item B<Curves>
This is a synonym for the "Groups" command.
=item B<MinProtocol>
This sets the minimum supported SSL, TLS or DTLS version.
Currently supported protocol values are B<SSLv3>, B<TLSv1>, B<TLSv1.1>,
B<TLSv1.2>, B<DTLSv1> and B<DTLSv1.2>.
The value B<None> will disable the limit.
=item B<MaxProtocol>
This sets the maximum supported SSL, TLS or DTLS version.
Currently supported protocol values are B<SSLv3>, B<TLSv1>, B<TLSv1.1>,
B<TLSv1.2>, B<DTLSv1> and B<DTLSv1.2>.
The value B<None> will disable the limit.
=item B<Protocol>
This can be used to enable or disable certain versions of the SSL,
TLS or DTLS protocol.
The B<value> argument is a comma separated list of supported protocols
to enable or disable.
If a protocol is preceded by B<-> that version is disabled.
All protocol versions are enabled by default.
You need to disable at least one protocol version for this setting have any
effect.
Only enabling some protocol versions does not disable the other protocol
versions.
Currently supported protocol values are B<SSLv3>, B<TLSv1>, B<TLSv1.1>,
B<TLSv1.2>, B<DTLSv1> and B<DTLSv1.2>.
The special value B<ALL> refers to all supported versions.
This can't enable protocols that are disabled using B<MinProtocol>
or B<MaxProtocol>, but can disable protocols that are still allowed
by them.
The B<Protocol> command is fragile and deprecated; do not use it.
Use B<MinProtocol> and B<MaxProtocol> instead.
If you do use B<Protocol>, make sure that the resulting range of enabled
protocols has no "holes", e.g. if TLS 1.0 and TLS 1.2 are both enabled, make
sure to also leave TLS 1.1 enabled.
=item B<Options>
The B<value> argument is a comma separated list of various flags to set.
If a flag string is preceded B<-> it is disabled.
See the L<SSL_CTX_set_options(3)> function for more details of
individual options.
Each option is listed below. Where an operation is enabled by default
the B<-flag> syntax is needed to disable it.
B<SessionTicket>: session ticket support, enabled by default. Inverse of
B<SSL_OP_NO_TICKET>: that is B<-SessionTicket> is the same as setting
B<SSL_OP_NO_TICKET>.
B<Compression>: SSL/TLS compression support, enabled by default. Inverse
of B<SSL_OP_NO_COMPRESSION>.
B<EmptyFragments>: use empty fragments as a countermeasure against a
SSL 3.0/TLS 1.0 protocol vulnerability affecting CBC ciphers. It
is set by default. Inverse of B<SSL_OP_DONT_INSERT_EMPTY_FRAGMENTS>.
2012-11-17 00:21:34 +00:00
B<Bugs>: enable various bug workarounds. Same as B<SSL_OP_ALL>.
2012-11-17 00:21:34 +00:00
B<DHSingle>: enable single use DH keys, set by default. Inverse of
B<SSL_OP_DH_SINGLE>. Only used by servers.
B<ECDHSingle>: enable single use ECDH keys, set by default. Inverse of
B<SSL_OP_ECDH_SINGLE>. Only used by servers.
B<ServerPreference>: use server and not client preference order when
determining which cipher suite, signature algorithm or elliptic curve
to use for an incoming connection. Equivalent to
B<SSL_OP_CIPHER_SERVER_PREFERENCE>. Only used by servers.
B<PrioritizeChaCha>: prioritizes ChaCha ciphers when the client has a
ChaCha20 cipher at the top of its preference list. This usually indicates
a mobile client is in use. Equivalent to B<SSL_OP_PRIORITIZE_CHACHA>.
Only used by servers.
B<NoResumptionOnRenegotiation>: set
B<SSL_OP_NO_SESSION_RESUMPTION_ON_RENEGOTIATION> flag. Only used by servers.
B<UnsafeLegacyRenegotiation>: permits the use of unsafe legacy renegotiation.
Equivalent to B<SSL_OP_ALLOW_UNSAFE_LEGACY_RENEGOTIATION>.
B<UnsafeLegacyServerConnect>: permits the use of unsafe legacy renegotiation
for OpenSSL clients only. Equivalent to B<SSL_OP_LEGACY_SERVER_CONNECT>.
Set by default.
B<EncryptThenMac>: use encrypt-then-mac extension, enabled by
default. Inverse of B<SSL_OP_NO_ENCRYPT_THEN_MAC>: that is,
B<-EncryptThenMac> is the same as setting B<SSL_OP_NO_ENCRYPT_THEN_MAC>.
B<AllowNoDHEKEX>: In TLSv1.3 allow a non-(ec)dhe based key exchange mode on
resumption. This means that there will be no forward secrecy for the resumed
session. Equivalent to B<SSL_OP_ALLOW_NO_DHE_KEX>.
B<MiddleboxCompat>: If set then dummy Change Cipher Spec (CCS) messages are sent
in TLSv1.3. This has the effect of making TLSv1.3 look more like TLSv1.2 so that
middleboxes that do not understand TLSv1.3 will not drop the connection. This
option is set by default. A future version of OpenSSL may not set this by
default. Equivalent to B<SSL_OP_ENABLE_MIDDLEBOX_COMPAT>.
=item B<VerifyMode>
The B<value> argument is a comma separated list of flags to set.
B<Peer> enables peer verification: for clients only.
B<Request> requests but does not require a certificate from the client.
Servers only.
B<Require> requests and requires a certificate from the client: an error
occurs if the client does not present a certificate. Servers only.
B<Once> requests a certificate from a client only on the initial connection:
not when renegotiating. Servers only.
Add TLSv1.3 post-handshake authentication (PHA) Add SSL_verify_client_post_handshake() for servers to initiate PHA Add SSL_force_post_handshake_auth() for clients that don't have certificates initially configured, but use a certificate callback. Update SSL_CTX_set_verify()/SSL_set_verify() mode: * Add SSL_VERIFY_POST_HANDSHAKE to postpone client authentication until after the initial handshake. * Update SSL_VERIFY_CLIENT_ONCE now only sends out one CertRequest regardless of when the certificate authentication takes place; either initial handshake, re-negotiation, or post-handshake authentication. Add 'RequestPostHandshake' and 'RequirePostHandshake' SSL_CONF options that add the SSL_VERIFY_POST_HANDSHAKE to the 'Request' and 'Require' options Add support to s_client: * Enabled automatically when cert is configured * Can be forced enabled via -force_pha Add support to s_server: * Use 'c' to invoke PHA in s_server * Remove some dead code Update documentation Update unit tests: * Illegal use of PHA extension * TLSv1.3 certificate tests DTLS and TLS behave ever-so-slightly differently. So, when DTLS1.3 is implemented, it's PHA support state machine may need to be different. Add a TODO and a #error Update handshake context to deal with PHA. The handshake context for TLSv1.3 post-handshake auth is up through the ClientFinish message, plus the CertificateRequest message. Subsequent Certificate, CertificateVerify, and Finish messages are based on this handshake context (not the Certificate message per se, but it's included after the hash). KeyUpdate, NewSessionTicket, and prior Certificate Request messages are not included in post-handshake authentication. After the ClientFinished message is processed, save off the digest state for future post-handshake authentication. When post-handshake auth occurs, copy over the saved handshake context into the "main" handshake digest. This effectively discards the any KeyUpdate or NewSessionTicket messages and any prior post-handshake authentication. This, of course, assumes that the ID-22 did not mean to include any previous post-handshake authentication into the new handshake transcript. This is implied by section 4.4.1 that lists messages only up to the first ClientFinished. Reviewed-by: Ben Kaduk <kaduk@mit.edu> Reviewed-by: Matt Caswell <matt@openssl.org> (Merged from https://github.com/openssl/openssl/pull/4964)
2017-12-18 21:52:28 +00:00
B<RequestPostHandshake> configures the connection to support requests but does
not require a certificate from the client post-handshake. A certificate will
not be requested during the initial handshake. The server application must
provide a mechanism to request a certificate post-handshake. Servers only.
TLSv1.3 only.
B<RequiresPostHandshake> configures the connection to support requests and
requires a certificate from the client post-handshake: an error occurs if the
client does not present a certificate. A certificate will not be requested
during the initial handshake. The server application must provide a mechanism
to request a certificate post-handshake. Servers only. TLSv1.3 only.
=item B<ClientCAFile>, B<ClientCAPath>
A file or directory of certificates in PEM format whose names are used as the
set of acceptable names for client CAs. Servers only. This option is only
supported if certificate operations are permitted.
=back
=head1 SUPPORTED COMMAND TYPES
The function SSL_CONF_cmd_value_type() currently returns one of the following
types:
=over 4
=item B<SSL_CONF_TYPE_UNKNOWN>
The B<cmd> string is unrecognised, this return value can be use to flag
syntax errors.
=item B<SSL_CONF_TYPE_STRING>
The value is a string without any specific structure.
=item B<SSL_CONF_TYPE_FILE>
The value is a file name.
=item B<SSL_CONF_TYPE_DIR>
The value is a directory name.
=item B<SSL_CONF_TYPE_NONE>
The value string is not used e.g. a command line option which doesn't take an
argument.
=back
=head1 NOTES
The order of operations is significant. This can be used to set either defaults
or values which cannot be overridden. For example if an application calls:
SSL_CONF_cmd(ctx, "Protocol", "-SSLv3");
SSL_CONF_cmd(ctx, userparam, uservalue);
it will disable SSLv3 support by default but the user can override it. If
however the call sequence is:
SSL_CONF_cmd(ctx, userparam, uservalue);
SSL_CONF_cmd(ctx, "Protocol", "-SSLv3");
SSLv3 is B<always> disabled and attempt to override this by the user are
ignored.
By checking the return code of SSL_CONF_cmd() it is possible to query if a
given B<cmd> is recognised, this is useful if SSL_CONF_cmd() values are
mixed with additional application specific operations.
For example an application might call SSL_CONF_cmd() and if it returns
-2 (unrecognised command) continue with processing of application specific
commands.
Applications can also use SSL_CONF_cmd() to process command lines though the
utility function SSL_CONF_cmd_argv() is normally used instead. One way
2012-11-18 18:06:16 +00:00
to do this is to set the prefix to an appropriate value using
SSL_CONF_CTX_set1_prefix(), pass the current argument to B<cmd> and the
following argument to B<value> (which may be NULL).
In this case if the return value is positive then it is used to skip that
number of arguments as they have been processed by SSL_CONF_cmd(). If -2 is
returned then B<cmd> is not recognised and application specific arguments
can be checked instead. If -3 is returned a required argument is missing
and an error is indicated. If 0 is returned some other error occurred and
this can be reported back to the user.
The function SSL_CONF_cmd_value_type() can be used by applications to
check for the existence of a command or to perform additional syntax
checking or translation of the command value. For example if the return
value is B<SSL_CONF_TYPE_FILE> an application could translate a relative
pathname to an absolute pathname.
=head1 EXAMPLES
Set supported signature algorithms:
SSL_CONF_cmd(ctx, "SignatureAlgorithms", "ECDSA+SHA256:RSA+SHA256:DSA+SHA256");
There are various ways to select the supported protocols.
This set the minimum protocol version to TLSv1, and so disables SSLv3.
This is the recommended way to disable protocols.
SSL_CONF_cmd(ctx, "MinProtocol", "TLSv1");
The following also disables SSLv3:
SSL_CONF_cmd(ctx, "Protocol", "-SSLv3");
The following will first enable all protocols, and then disable
SSLv3.
If no protocol versions were disabled before this has the same effect as
"-SSLv3", but if some versions were disables this will re-enable them before
disabling SSLv3.
SSL_CONF_cmd(ctx, "Protocol", "ALL,-SSLv3");
Only enable TLSv1.2:
SSL_CONF_cmd(ctx, "MinProtocol", "TLSv1.2");
SSL_CONF_cmd(ctx, "MaxProtocol", "TLSv1.2");
This also only enables TLSv1.2:
SSL_CONF_cmd(ctx, "Protocol", "-ALL,TLSv1.2");
Disable TLS session tickets:
SSL_CONF_cmd(ctx, "Options", "-SessionTicket");
Enable compression:
SSL_CONF_cmd(ctx, "Options", "Compression");
Set supported curves to P-256, P-384:
SSL_CONF_cmd(ctx, "Curves", "P-256:P-384");
Set automatic support for any elliptic curve for key exchange:
SSL_CONF_cmd(ctx, "ECDHParameters", "Automatic");
=head1 RETURN VALUES
SSL_CONF_cmd() returns 1 if the value of B<cmd> is recognised and B<value> is
B<NOT> used and 2 if both B<cmd> and B<value> are used. In other words it
returns the number of arguments processed. This is useful when processing
command lines.
A return value of -2 means B<cmd> is not recognised.
A return value of -3 means B<cmd> is recognised and the command requires a
value but B<value> is NULL.
A return code of 0 indicates that both B<cmd> and B<value> are valid but an
error occurred attempting to perform the operation: for example due to an
error in the syntax of B<value> in this case the error queue may provide
additional information.
=head1 SEE ALSO
L<SSL_CONF_CTX_new(3)>,
L<SSL_CONF_CTX_set_flags(3)>,
L<SSL_CONF_CTX_set1_prefix(3)>,
L<SSL_CONF_CTX_set_ssl_ctx(3)>,
L<SSL_CONF_cmd_argv(3)>,
L<SSL_CTX_set_options(3)>
=head1 HISTORY
SSL_CONF_cmd() was first added to OpenSSL 1.0.2
B<SSL_OP_NO_SSL2> doesn't have effect since 1.1.0, but the macro is retained
for backwards compatibility.
B<SSL_CONF_TYPE_NONE> was first added to OpenSSL 1.1.0. In earlier versions of
OpenSSL passing a command which didn't take an argument would return
B<SSL_CONF_TYPE_UNKNOWN>.
B<MinProtocol> and B<MaxProtocol> where added in OpenSSL 1.1.0.
B<AllowNoDHEKEX> and B<PrioritizeChaCha> were added in OpenSSL 1.1.1.
=head1 COPYRIGHT
Copyright 2012-2018 The OpenSSL Project Authors. All Rights Reserved.
Licensed under the OpenSSL license (the "License"). You may not use
this file except in compliance with the License. You can obtain a copy
in the file LICENSE in the source distribution or at
L<https://www.openssl.org/source/license.html>.
=cut