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7ed6de997f
Reviewed-by: Neil Horman <nhorman@openssl.org> Release: yes
697 lines
24 KiB
Plaintext
697 lines
24 KiB
Plaintext
=pod
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=head1 NAME
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openssl-verification-options - generic X.509 certificate verification options
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=head1 SYNOPSIS
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B<openssl>
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I<command>
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[ I<options> ... ]
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[ I<parameters> ... ]
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=head1 DESCRIPTION
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There are many situations where X.509 certificates are verified
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within the OpenSSL libraries and in various OpenSSL commands.
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Certificate verification is implemented by L<X509_verify_cert(3)>.
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It is a complicated process consisting of a number of steps
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and depending on numerous options.
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The most important of them are detailed in the following sections.
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In a nutshell, a valid chain of certificates needs to be built up and verified
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starting from the I<target certificate> that is to be verified
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and ending in a certificate that due to some policy is trusted.
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Verification is done relative to the given I<purpose>, which is the intended use
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of the target certificate, such as SSL server, or by default for any purpose.
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The details of how each OpenSSL command handles errors
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are documented on the specific command page.
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DANE support is documented in L<openssl-s_client(1)>,
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L<SSL_CTX_dane_enable(3)>, L<SSL_set1_host(3)>,
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L<X509_VERIFY_PARAM_set_flags(3)>, and L<X509_check_host(3)>.
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=head2 Trust Anchors
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In general, according to RFC 4158 and RFC 5280, a I<trust anchor> is
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any public key and related subject distinguished name (DN) that
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for some reason is considered trusted
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and thus is acceptable as the root of a chain of certificates.
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In practice, trust anchors are given in the form of certificates,
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where their essential fields are the public key and the subject DN.
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In addition to the requirements in RFC 5280,
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OpenSSL checks the validity period of such certificates
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and makes use of some further fields.
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In particular, the subject key identifier extension, if present,
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is used for matching trust anchors during chain building.
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In the most simple and common case, trust anchors are by default
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all self-signed "root" CA certificates that are placed in the I<trust store>,
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which is a collection of certificates that are trusted for certain uses.
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This is akin to what is used in the trust stores of Mozilla Firefox,
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or Apple's and Microsoft's certificate stores, ...
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From the OpenSSL perspective, a trust anchor is a certificate
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that should be augmented with an explicit designation for which
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uses of a target certificate the certificate may serve as a trust anchor.
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In PEM encoding, this is indicated by the C<TRUSTED CERTIFICATE> string.
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Such a designation provides a set of positive trust attributes
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explicitly stating trust for the listed purposes
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and/or a set of negative trust attributes
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explicitly rejecting the use for the listed purposes.
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The purposes are encoded using the values defined for the extended key usages
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(EKUs) that may be given in X.509 extensions of end-entity certificates.
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See also the L</Extended Key Usage> section below.
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The currently recognized uses are
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B<clientAuth> (SSL client use), B<serverAuth> (SSL server use),
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B<emailProtection> (S/MIME email use), B<codeSigning> (object signer use),
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B<OCSPSigning> (OCSP responder use), B<OCSP> (OCSP request use),
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B<timeStamping> (TSA server use), and B<anyExtendedKeyUsage>.
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As of OpenSSL 1.1.0, the last of these blocks all uses when rejected or
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enables all uses when trusted.
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A certificate, which may be CA certificate or an end-entity certificate,
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is considered a trust anchor for the given use
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if and only if all the following conditions hold:
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=over 4
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=item *
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It is an an element of the trust store.
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=item *
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It does not have a negative trust attribute rejecting the given use.
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=item *
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It has a positive trust attribute accepting the given use
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or (by default) one of the following compatibility conditions apply:
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It is self-signed or the B<-partial_chain> option is given
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(which corresponds to the B<X509_V_FLAG_PARTIAL_CHAIN> flag being set).
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=back
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=head2 Certification Path Building
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First, a certificate chain is built up starting from the target certificate
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and ending in a trust anchor.
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The chain is built up iteratively, looking up in turn
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a certificate with suitable key usage that
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matches as an issuer of the current "subject" certificate as described below.
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If there is such a certificate, the first one found that is currently valid
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is taken, otherwise the one that expired most recently of all such certificates.
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For efficiency, no backtracking is performed, thus
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any further candidate issuer certificates that would match equally are ignored.
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When a self-signed certificate has been added, chain construction stops.
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In this case it must fully match a trust anchor, otherwise chain building fails.
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A candidate issuer certificate matches a subject certificate
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if all of the following conditions hold:
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=over 4
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=item *
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Its subject name matches the issuer name of the subject certificate.
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=item *
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If the subject certificate has an authority key identifier extension,
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each of its sub-fields equals the corresponding subject key identifier, serial
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number, and issuer field of the candidate issuer certificate,
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as far as the respective fields are present in both certificates.
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=item *
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The certificate signature algorithm used to sign the subject certificate
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is supported and
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equals the public key algorithm of the candidate issuer certificate.
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=back
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The lookup first searches for issuer certificates in the trust store.
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If it does not find a match there it consults
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the list of untrusted ("intermediate" CA) certificates, if provided.
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=head2 Certification Path Validation
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When the certificate chain building process was successful
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the chain components and their links are checked thoroughly.
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The first step is to check that each certificate is well-formed.
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Part of these checks are enabled only if the B<-x509_strict> option is given.
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The second step is to check the extensions of every untrusted certificate
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for consistency with the supplied purpose.
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If the B<-purpose> option is not given then no such checks are done
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except for SSL/TLS connection setup,
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where by default C<sslserver> or C<sslclient>, are checked.
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The target or "leaf" certificate, as well as any other untrusted certificates,
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must have extensions compatible with the specified purpose.
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All certificates except the target or "leaf" must also be valid CA certificates.
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The precise extensions required are described in more detail in
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L<openssl-x509(1)/CERTIFICATE EXTENSIONS>.
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The third step is to check the trust settings on the last certificate
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(which typically is a self-signed root CA certificate).
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It must be trusted for the given use.
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For compatibility with previous versions of OpenSSL, a self-signed certificate
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with no trust attributes is considered to be valid for all uses.
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The fourth, and final, step is to check the validity of the certificate chain.
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For each element in the chain, including the root CA certificate,
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the validity period as specified by the C<notBefore> and C<notAfter> fields
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is checked against the current system time.
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The B<-attime> flag may be used to use a reference time other than "now."
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The certificate signature is checked as well
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(except for the signature of the typically self-signed root CA certificate,
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which is verified only if the B<-check_ss_sig> option is given).
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When verifying a certificate signature
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the keyUsage extension (if present) of the candidate issuer certificate
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is checked to permit digitalSignature for signing proxy certificates
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or to permit keyCertSign for signing other certificates, respectively.
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If all operations complete successfully then certificate is considered
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valid. If any operation fails then the certificate is not valid.
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=head1 OPTIONS
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=head2 Trusted Certificate Options
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The following options specify how to supply the certificates
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that can be used as trust anchors for certain uses.
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As mentioned, a collection of such certificates is called a I<trust store>.
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Note that OpenSSL does not provide a default set of trust anchors. Many
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Linux distributions include a system default and configure OpenSSL to point
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to that. Mozilla maintains an influential trust store that can be found at
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L<https://www.mozilla.org/en-US/about/governance/policies/security-group/certs/>.
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The certificates to add to the trust store
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can be specified using following options.
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=over 4
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=item B<-CAfile> I<file>
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Load the specified file which contains a trusted certificate in DER format
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or potentially several of them in case the input is in PEM format.
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PEM-encoded certificates may also have trust attributes set.
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=item B<-no-CAfile>
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Do not load the default file of trusted certificates.
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=item B<-CApath> I<dir>
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Use the specified directory as a collection of trusted certificates,
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i.e., a trust store.
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Files should be named with the hash value of the X.509 SubjectName of each
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certificate. This is so that the library can extract the IssuerName,
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hash it, and directly lookup the file to get the issuer certificate.
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See L<openssl-rehash(1)> for information on creating this type of directory.
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=item B<-no-CApath>
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Do not use the default directory of trusted certificates.
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=item B<-CAstore> I<uri>
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Use I<uri> as a store of CA certificates.
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The URI may indicate a single certificate, as well as a collection of them.
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With URIs in the C<file:> scheme, this acts as B<-CAfile> or
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B<-CApath>, depending on if the URI indicates a single file or
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directory.
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See L<ossl_store-file(7)> for more information on the C<file:> scheme.
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These certificates are also used when building the server certificate
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chain (for example with L<openssl-s_server(1)>) or client certificate
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chain (for example with L<openssl-s_time(1)>).
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=item B<-no-CAstore>
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Do not use the default store of trusted CA certificates.
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=back
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=head2 Verification Options
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The certificate verification can be fine-tuned with the following flags.
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=over 4
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=item B<-verbose>
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Print extra information about the operations being performed.
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=item B<-attime> I<timestamp>
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Perform validation checks using time specified by I<timestamp> and not
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current system time. I<timestamp> is the number of seconds since
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January 1, 1970 (i.e., the Unix Epoch).
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=item B<-no_check_time>
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This option suppresses checking the validity period of certificates and CRLs
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against the current time. If option B<-attime> is used to specify
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a verification time, the check is not suppressed.
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=item B<-x509_strict>
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This disables non-compliant workarounds for broken certificates.
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Thus errors are thrown on certificates not compliant with RFC 5280.
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When this option is set,
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among others, the following certificate well-formedness conditions are checked:
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=over 4
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=item *
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The basicConstraints of CA certificates must be marked critical.
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=item *
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CA certificates must explicitly include the keyUsage extension.
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=item *
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If a pathlenConstraint is given the key usage keyCertSign must be allowed.
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=item *
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The pathlenConstraint must not be given for non-CA certificates.
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=item *
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The issuer name of any certificate must not be empty.
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=item *
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The subject name of CA certs, certs with keyUsage crlSign, and certs
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without subjectAlternativeName must not be empty.
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=item *
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If a subjectAlternativeName extension is given it must not be empty.
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=item *
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The signatureAlgorithm field and the cert signature must be consistent.
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=item *
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Any given authorityKeyIdentifier and any given subjectKeyIdentifier
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must not be marked critical.
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=item *
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The authorityKeyIdentifier must be given for X.509v3 certs unless they
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are self-signed.
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=item *
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The subjectKeyIdentifier must be given for all X.509v3 CA certs.
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=back
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=item B<-ignore_critical>
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Normally if an unhandled critical extension is present that is not
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supported by OpenSSL the certificate is rejected (as required by RFC5280).
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If this option is set critical extensions are ignored.
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=item B<-issuer_checks>
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Ignored.
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=item B<-crl_check>
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Checks end entity certificate validity by attempting to look up a valid CRL.
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If a valid CRL cannot be found an error occurs.
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=item B<-crl_check_all>
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Checks the validity of B<all> certificates in the chain by attempting
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to look up valid CRLs.
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=item B<-use_deltas>
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Enable support for delta CRLs.
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=item B<-extended_crl>
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Enable extended CRL features such as indirect CRLs and alternate CRL
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signing keys.
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=item B<-suiteB_128_only>, B<-suiteB_128>, B<-suiteB_192>
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Enable the Suite B mode operation at 128 bit Level of Security, 128 bit or
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192 bit, or only 192 bit Level of Security respectively.
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See RFC6460 for details. In particular the supported signature algorithms are
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reduced to support only ECDSA and SHA256 or SHA384 and only the elliptic curves
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P-256 and P-384.
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=item B<-auth_level> I<level>
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Set the certificate chain authentication security level to I<level>.
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The authentication security level determines the acceptable signature and
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public key strength when verifying certificate chains. For a certificate
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chain to validate, the public keys of all the certificates must meet the
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specified security I<level>. The signature algorithm security level is
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enforced for all the certificates in the chain except for the chain's
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I<trust anchor>, which is either directly trusted or validated by means
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other than its signature. See L<SSL_CTX_set_security_level(3)> for the
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definitions of the available levels. The default security level is -1,
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or "not set". At security level 0 or lower all algorithms are acceptable.
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Security level 1 requires at least 80-bit-equivalent security and is broadly
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interoperable, though it will, for example, reject MD5 signatures or RSA
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keys shorter than 1024 bits.
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=item B<-partial_chain>
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Allow verification to succeed if an incomplete chain can be built.
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That is, a chain ending in a certificate that normally would not be trusted
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(because it has no matching positive trust attributes and is not self-signed)
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but is an element of the trust store.
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This certificate may be self-issued or belong to an intermediate CA.
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=item B<-check_ss_sig>
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Verify the signature of
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the last certificate in a chain if the certificate is supposedly self-signed.
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This is prohibited and will result in an error if it is a non-conforming CA
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certificate with key usage restrictions not including the keyCertSign bit.
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This verification is disabled by default because it doesn't add any security.
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=item B<-allow_proxy_certs>
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Allow the verification of proxy certificates.
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=item B<-trusted_first>
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As of OpenSSL 1.1.0 this option is on by default and cannot be disabled.
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When constructing the certificate chain, the trusted certificates specified
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via B<-CAfile>, B<-CApath>, B<-CAstore> or B<-trusted> are always used
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before any certificates specified via B<-untrusted>.
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=item B<-no_alt_chains>
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As of OpenSSL 1.1.0, since B<-trusted_first> always on, this option has no
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effect.
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=item B<-trusted> I<file>
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Parse I<file> as a set of one or more certificates.
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Each of them qualifies as trusted if has a suitable positive trust attribute
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or it is self-signed or the B<-partial_chain> option is specified.
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This option implies the B<-no-CAfile>, B<-no-CApath>, and B<-no-CAstore> options
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and it cannot be used with the B<-CAfile>, B<-CApath> or B<-CAstore> options, so
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only certificates specified using the B<-trusted> option are trust anchors.
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This option may be used multiple times.
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=item B<-untrusted> I<file>
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Parse I<file> as a set of one or more certificates.
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All certificates (typically of intermediate CAs) are considered untrusted
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and may be used to
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construct a certificate chain from the target certificate to a trust anchor.
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This option may be used multiple times.
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=item B<-policy> I<arg>
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Enable policy processing and add I<arg> to the user-initial-policy-set (see
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RFC5280). The policy I<arg> can be an object name or an OID in numeric form.
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This argument can appear more than once.
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=item B<-explicit_policy>
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Set policy variable require-explicit-policy (see RFC5280).
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=item B<-policy_check>
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Enables certificate policy processing.
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=item B<-policy_print>
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Print out diagnostics related to policy processing.
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=item B<-inhibit_any>
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Set policy variable inhibit-any-policy (see RFC5280).
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=item B<-inhibit_map>
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Set policy variable inhibit-policy-mapping (see RFC5280).
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=item B<-purpose> I<purpose>
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The intended use for the certificate.
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Currently defined purposes are C<sslclient>, C<sslserver>, C<nssslserver>,
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C<smimesign>, C<smimeencrypt>, C<crlsign>, C<ocsphelper>, C<timestampsign>,
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C<codesign> and C<any>.
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If peer certificate verification is enabled, by default the TLS implementation
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as well as the commands B<s_client> and B<s_server> check for consistency
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with TLS server or TLS client use, respectively.
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While IETF RFC 5280 says that B<id-kp-serverAuth> and B<id-kp-clientAuth>
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are only for WWW use, in practice they are used for all kinds of TLS clients
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and servers, and this is what OpenSSL assumes as well.
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=item B<-verify_depth> I<num>
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Limit the certificate chain to I<num> intermediate CA certificates.
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A maximal depth chain can have up to I<num>+2 certificates, since neither the
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end-entity certificate nor the trust-anchor certificate count against the
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B<-verify_depth> limit.
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=item B<-verify_email> I<email>
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Verify if I<email> matches the email address in Subject Alternative Name or
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the email in the subject Distinguished Name.
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=item B<-verify_hostname> I<hostname>
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Verify if I<hostname> matches DNS name in Subject Alternative Name or
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Common Name in the subject certificate.
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=item B<-verify_ip> I<ip>
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Verify if I<ip> matches the IP address in Subject Alternative Name of
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the subject certificate.
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=item B<-verify_name> I<name>
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Use default verification policies like trust model and required certificate
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policies identified by I<name>.
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The trust model determines which auxiliary trust or reject OIDs are applicable
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to verifying the given certificate chain.
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They can be given using the B<-addtrust> and B<-addreject> options
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for L<openssl-x509(1)>.
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Supported policy names include: B<default>, B<pkcs7>, B<smime_sign>,
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B<ssl_client>, B<ssl_server>.
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These mimics the combinations of purpose and trust settings used in SSL, CMS
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and S/MIME.
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As of OpenSSL 1.1.0, the trust model is inferred from the purpose when not
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specified, so the B<-verify_name> options are functionally equivalent to the
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corresponding B<-purpose> settings.
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=back
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=head2 Extended Verification Options
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Sometimes there may be more than one certificate chain leading to an
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end-entity certificate.
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This usually happens when a root or intermediate CA signs a certificate
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for another a CA in other organization.
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Another reason is when a CA might have intermediates that use two different
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signature formats, such as a SHA-1 and a SHA-256 digest.
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The following options can be used to provide data that will allow the
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OpenSSL command to generate an alternative chain.
|
|
|
|
=over 4
|
|
|
|
=item B<-xkey> I<infile>, B<-xcert> I<infile>, B<-xchain>
|
|
|
|
Specify an extra certificate, private key and certificate chain. These behave
|
|
in the same manner as the B<-cert>, B<-key> and B<-cert_chain> options. When
|
|
specified, the callback returning the first valid chain will be in use by the
|
|
client.
|
|
|
|
=item B<-xchain_build>
|
|
|
|
Specify whether the application should build the certificate chain to be
|
|
provided to the server for the extra certificates via the B<-xkey>,
|
|
B<-xcert>, and B<-xchain> options.
|
|
|
|
=item B<-xcertform> B<DER>|B<PEM>|B<P12>
|
|
|
|
The input format for the extra certificate.
|
|
This option has no effect and is retained for backward compatibility only.
|
|
|
|
=item B<-xkeyform> B<DER>|B<PEM>|B<P12>
|
|
|
|
The input format for the extra key.
|
|
This option has no effect and is retained for backward compatibility only.
|
|
|
|
=back
|
|
|
|
=head2 Certificate Extensions
|
|
|
|
Options like B<-purpose> lead to checking the certificate extensions,
|
|
which determine what the target certificate and intermediate CA certificates
|
|
can be used for.
|
|
|
|
=head3 Basic Constraints
|
|
|
|
The basicConstraints extension CA flag is used to determine whether the
|
|
certificate can be used as a CA. If the CA flag is true then it is a CA,
|
|
if the CA flag is false then it is not a CA. B<All> CAs should have the
|
|
CA flag set to true.
|
|
|
|
If the basicConstraints extension is absent,
|
|
which includes the case that it is an X.509v1 certificate,
|
|
then the certificate is considered to be a "possible CA" and
|
|
other extensions are checked according to the intended use of the certificate.
|
|
The treatment of certificates without basicConstraints as a CA
|
|
is presently supported, but this could change in the future.
|
|
|
|
=head3 Key Usage
|
|
|
|
If the keyUsage extension is present then additional restraints are
|
|
made on the uses of the certificate. A CA certificate B<must> have the
|
|
keyCertSign bit set if the keyUsage extension is present.
|
|
|
|
=head3 Extended Key Usage
|
|
|
|
The extKeyUsage (EKU) extension places additional restrictions on the
|
|
certificate uses. If this extension is present (whether critical or not)
|
|
the key can only be used for the purposes specified.
|
|
|
|
A complete description of each check is given below. The comments about
|
|
basicConstraints and keyUsage and X.509v1 certificates above apply to B<all>
|
|
CA certificates.
|
|
|
|
|
|
=over 4
|
|
|
|
=item B<SSL Client>
|
|
|
|
The extended key usage extension must be absent or include the "web client
|
|
authentication" OID. The keyUsage extension must be absent or it must have the
|
|
digitalSignature bit set. The Netscape certificate type must be absent
|
|
or it must have the SSL client bit set.
|
|
|
|
=item B<SSL Client CA>
|
|
|
|
The extended key usage extension must be absent or include the "web client
|
|
authentication" OID.
|
|
The Netscape certificate type must be absent or it must have the SSL CA bit set.
|
|
This is used as a work around if the basicConstraints extension is absent.
|
|
|
|
=item B<SSL Server>
|
|
|
|
The extended key usage extension must be absent or include the "web server
|
|
authentication" and/or one of the SGC OIDs. The keyUsage extension must be
|
|
absent or it
|
|
must have the digitalSignature, the keyEncipherment set or both bits set.
|
|
The Netscape certificate type must be absent or have the SSL server bit set.
|
|
|
|
=item B<SSL Server CA>
|
|
|
|
The extended key usage extension must be absent or include the "web server
|
|
authentication" and/or one of the SGC OIDs. The Netscape certificate type must
|
|
be absent or the SSL CA bit must be set.
|
|
This is used as a work around if the basicConstraints extension is absent.
|
|
|
|
=item B<Netscape SSL Server>
|
|
|
|
For Netscape SSL clients to connect to an SSL server it must have the
|
|
keyEncipherment bit set if the keyUsage extension is present. This isn't
|
|
always valid because some cipher suites use the key for digital signing.
|
|
Otherwise it is the same as a normal SSL server.
|
|
|
|
=item B<Common S/MIME Client Tests>
|
|
|
|
The extended key usage extension must be absent or include the "email
|
|
protection" OID. The Netscape certificate type must be absent or should have the
|
|
S/MIME bit set. If the S/MIME bit is not set in the Netscape certificate type
|
|
then the SSL client bit is tolerated as an alternative but a warning is shown.
|
|
This is because some Verisign certificates don't set the S/MIME bit.
|
|
|
|
=item B<S/MIME Signing>
|
|
|
|
In addition to the common S/MIME client tests the digitalSignature bit or
|
|
the nonRepudiation bit must be set if the keyUsage extension is present.
|
|
|
|
=item B<S/MIME Encryption>
|
|
|
|
In addition to the common S/MIME tests the keyEncipherment bit must be set
|
|
if the keyUsage extension is present.
|
|
|
|
=item B<S/MIME CA>
|
|
|
|
The extended key usage extension must be absent or include the "email
|
|
protection" OID. The Netscape certificate type must be absent or must have the
|
|
S/MIME CA bit set.
|
|
This is used as a work around if the basicConstraints extension is absent.
|
|
|
|
=item B<CRL Signing>
|
|
|
|
The keyUsage extension must be absent or it must have the CRL signing bit
|
|
set.
|
|
|
|
=item B<CRL Signing CA>
|
|
|
|
The normal CA tests apply. Except in this case the basicConstraints extension
|
|
must be present.
|
|
|
|
=back
|
|
|
|
=head1 BUGS
|
|
|
|
The issuer checks still suffer from limitations in the underlying X509_LOOKUP
|
|
API. One consequence of this is that trusted certificates with matching
|
|
subject name must appear in a file (as specified by the B<-CAfile> option),
|
|
a directory (as specified by B<-CApath>),
|
|
or a store (as specified by B<-CAstore>).
|
|
If there are multiple such matches, possibly in multiple locations,
|
|
only the first one (in the mentioned order of locations) is recognised.
|
|
|
|
=head1 SEE ALSO
|
|
|
|
L<X509_verify_cert(3)>,
|
|
L<openssl-verify(1)>,
|
|
L<openssl-ocsp(1)>,
|
|
L<openssl-ts(1)>,
|
|
L<openssl-s_client(1)>,
|
|
L<openssl-s_server(1)>,
|
|
L<openssl-smime(1)>,
|
|
L<openssl-cmp(1)>,
|
|
L<openssl-cms(1)>
|
|
|
|
=head1 HISTORY
|
|
|
|
The checks enabled by B<-x509_strict> have been extended in OpenSSL 3.0.
|
|
|
|
=head1 COPYRIGHT
|
|
|
|
Copyright 2000-2024 The OpenSSL Project Authors. All Rights Reserved.
|
|
|
|
Licensed under the Apache License 2.0 (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
|