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=pod
{- OpenSSL::safe::output_do_not_edit_headers(); -}
=head1 NAME
openssl-ca - sample minimal CA application
=head1 SYNOPSIS
B<openssl> B<ca>
[B<-help>]
[B<-verbose>]
[B<-quiet>]
[B<-config> I<filename>]
[B<-name> I<section>]
[B<-section> I<section>]
[B<-gencrl>]
[B<-revoke> I<file>]
[B<-valid> I<file>]
[B<-status> I<serial>]
[B<-updatedb>]
[B<-crl_reason> I<reason>]
[B<-crl_hold> I<instruction>]
[B<-crl_compromise> I<time>]
[B<-crl_CA_compromise> I<time>]
[B<-crl_lastupdate> I<date>]
[B<-crl_nextupdate> I<date>]
[B<-crldays> I<days>]
[B<-crlhours> I<hours>]
[B<-crlsec> I<seconds>]
[B<-crlexts> I<section>]
[B<-startdate> I<date>]
[B<-enddate> I<date>]
[B<-days> I<arg>]
[B<-md> I<arg>]
[B<-policy> I<arg>]
[B<-keyfile> I<filename>|I<uri>]
[B<-keyform> B<DER>|B<PEM>|B<P12>|B<ENGINE>]
[B<-key> I<arg>]
[B<-passin> I<arg>]
[B<-cert> I<file>]
[B<-certform> B<DER>|B<PEM>|B<P12>]
[B<-selfsign>]
[B<-in> I<file>]
[B<-inform> B<DER>|<PEM>]
[B<-out> I<file>]
[B<-notext>]
[B<-dateopt>]
[B<-outdir> I<dir>]
[B<-infiles>]
[B<-spkac> I<file>]
[B<-ss_cert> I<file>]
[B<-preserveDN>]
[B<-noemailDN>]
[B<-batch>]
[B<-msie_hack>]
[B<-extensions> I<section>]
[B<-extfile> I<section>]
[B<-subj> I<arg>]
[B<-utf8>]
[B<-sigopt> I<nm>:I<v>]
[B<-vfyopt> I<nm>:I<v>]
[B<-create_serial>]
[B<-rand_serial>]
[B<-multivalue-rdn>]
{- $OpenSSL::safe::opt_r_synopsis -}
{- $OpenSSL::safe::opt_engine_synopsis -}{- $OpenSSL::safe::opt_provider_synopsis -}
[I<certreq>...]
=head1 DESCRIPTION
This command emulates a CA application.
See the B<WARNINGS> especially when considering to use it productively.
It can be used to sign certificate requests (CSRs) in a variety of forms
and generate certificate revocation lists (CRLs).
It also maintains a text database of issued certificates and their status.
When signing certificates, a single request can be specified
with the B<-in> option, or multiple requests can be processed by
specifying a set of B<certreq> files after all options.
Note that there are also very lean ways of generating certificates:
the B<req> and B<x509> commands can be used for directly creating certificates.
See L<openssl-req(1)> and L<openssl-x509(1)> for details.
The descriptions of the B<ca> command options are divided into each purpose.
=head1 OPTIONS
=over 4
=item B<-help>
Print out a usage message.
=item B<-verbose>
This prints extra details about the operations being performed.
=item B<-quiet>
This prints fewer details about the operations being performed, which may
be handy during batch scripts or pipelines.
=item B<-config> I<filename>
Specifies the configuration file to use.
Optional; for a description of the default value,
see L<openssl(1)/COMMAND SUMMARY>.
=item B<-name> I<section>, B<-section> I<section>
Specifies the configuration file section to use (overrides
B<default_ca> in the B<ca> section).
=item B<-in> I<filename>
An input filename containing a single certificate request (CSR) to be
signed by the CA.
=item B<-inform> B<DER>|B<PEM>
The format of the data in certificate request input files;
unspecified by default.
See L<openssl-format-options(1)> for details.
=item B<-ss_cert> I<filename>
A single self-signed certificate to be signed by the CA.
=item B<-spkac> I<filename>
A file containing a single Netscape signed public key and challenge
and additional field values to be signed by the CA. See the B<SPKAC FORMAT>
section for information on the required input and output format.
=item B<-infiles>
If present this should be the last option, all subsequent arguments
are taken as the names of files containing certificate requests.
=item B<-out> I<filename>
The output file to output certificates to. The default is standard
output. The certificate details will also be printed out to this
file in PEM format (except that B<-spkac> outputs DER format).
=item B<-outdir> I<directory>
The directory to output certificates to. The certificate will be
written to a filename consisting of the serial number in hex with
F<.pem> appended.
=item B<-cert> I<filename>
The CA certificate, which must match with B<-keyfile>.
=item B<-certform> B<DER>|B<PEM>|B<P12>
The format of the data in certificate input files; unspecified by default.
See L<openssl-format-options(1)> for details.
=item B<-keyfile> I<filename>|I<uri>
The CA private key to sign certificate requests with.
This must match with B<-cert>.
=item B<-keyform> B<DER>|B<PEM>|B<P12>|B<ENGINE>
The format of the private key input file; unspecified by default.
See L<openssl-format-options(1)> for details.
=item B<-sigopt> I<nm>:I<v>
Pass options to the signature algorithm during sign operations.
Names and values of these options are algorithm-specific.
=item B<-vfyopt> I<nm>:I<v>
Pass options to the signature algorithm during verify operations.
Names and values of these options are algorithm-specific.
This often needs to be given while signing too, because the self-signature of
a certificate signing request (CSR) is verified against the included public key,
and that verification may need its own set of options.
=item B<-key> I<password>
=for openssl foreign manual ps(1)
The password used to encrypt the private key. Since on some
systems the command line arguments are visible (e.g., when using
L<ps(1)> on Unix),
this option should be used with caution.
Better use B<-passin>.
=item B<-passin> I<arg>
The key password source for key files and certificate PKCS#12 files.
For more information about the format of B<arg>
see L<openssl-passphrase-options(1)>.
=item B<-selfsign>
Indicates the issued certificates are to be signed with the key
the certificate requests were signed with (given with B<-keyfile>).
Certificate requests signed with a different key are ignored.
If B<-spkac>, B<-ss_cert> or B<-gencrl> are given, B<-selfsign> is ignored.
A consequence of using B<-selfsign> is that the self-signed
certificate appears among the entries in the certificate database
(see the configuration option B<database>), and uses the same
serial number counter as all other certificates sign with the
self-signed certificate.
=item B<-notext>
Don't output the text form of a certificate to the output file.
=item B<-dateopt>
Specify the date output format. Values are: rfc_822 and iso_8601.
Defaults to rfc_822.
=item B<-startdate> I<date>
This allows the start date to be explicitly set. The format of the
date is YYMMDDHHMMSSZ (the same as an ASN1 UTCTime structure), or
YYYYMMDDHHMMSSZ (the same as an ASN1 GeneralizedTime structure). In
both formats, seconds SS and timezone Z must be present.
=item B<-enddate> I<date>
This allows the expiry date to be explicitly set. The format of the
date is YYMMDDHHMMSSZ (the same as an ASN1 UTCTime structure), or
YYYYMMDDHHMMSSZ (the same as an ASN1 GeneralizedTime structure). In
both formats, seconds SS and timezone Z must be present.
=item B<-days> I<arg>
The number of days to certify the certificate for.
=item B<-md> I<alg>
The message digest to use.
Any digest supported by the L<openssl-dgst(1)> command can be used. For signing
algorithms that do not support a digest (i.e. Ed25519 and Ed448) any message
digest that is set is ignored. This option also applies to CRLs.
=item B<-policy> I<arg>
This option defines the CA "policy" to use. This is a section in
the configuration file which decides which fields should be mandatory
or match the CA certificate. Check out the B<POLICY FORMAT> section
for more information.
=item B<-msie_hack>
This is a deprecated option to make this command work with very old versions
of the IE certificate enrollment control "certenr3". It used UniversalStrings
for almost everything. Since the old control has various security bugs
its use is strongly discouraged.
=item B<-preserveDN>
Normally the DN order of a certificate is the same as the order of the
fields in the relevant policy section. When this option is set the order
is the same as the request. This is largely for compatibility with the
older IE enrollment control which would only accept certificates if their
DNs match the order of the request. This is not needed for Xenroll.
=item B<-noemailDN>
The DN of a certificate can contain the EMAIL field if present in the
request DN, however, it is good policy just having the e-mail set into
the altName extension of the certificate. When this option is set the
EMAIL field is removed from the certificate' subject and set only in
the, eventually present, extensions. The B<email_in_dn> keyword can be
used in the configuration file to enable this behaviour.
=item B<-batch>
This sets the batch mode. In this mode no questions will be asked
and all certificates will be certified automatically.
=item B<-extensions> I<section>
The section of the configuration file containing certificate extensions
to be added when a certificate is issued (defaults to B<x509_extensions>
unless the B<-extfile> option is used).
If no X.509 extensions are specified then a V1 certificate is created,
else a V3 certificate is created.
See the L<x509v3_config(5)> manual page for details of the
extension section format.
=item B<-extfile> I<file>
An additional configuration file to read certificate extensions from
(using the default section unless the B<-extensions> option is also
used).
=item B<-subj> I<arg>
Supersedes subject name given in the request.
The arg must be formatted as C</type0=value0/type1=value1/type2=...>.
Special characters may be escaped by C<\> (backslash), whitespace is retained.
Empty values are permitted, but the corresponding type will not be included
in the resulting certificate.
Giving a single C</> will lead to an empty sequence of RDNs (a NULL-DN).
Multi-valued RDNs can be formed by placing a C<+> character instead of a C</>
between the AttributeValueAssertions (AVAs) that specify the members of the set.
Example:
C</DC=org/DC=OpenSSL/DC=users/UID=123456+CN=John Doe>
=item B<-utf8>
This option causes field values to be interpreted as UTF8 strings, by
default they are interpreted as ASCII. This means that the field
values, whether prompted from a terminal or obtained from a
configuration file, must be valid UTF8 strings.
=item B<-create_serial>
If reading serial from the text file as specified in the configuration
fails, specifying this option creates a new random serial to be used as next
serial number.
To get random serial numbers, use the B<-rand_serial> flag instead; this
should only be used for simple error-recovery.
=item B<-rand_serial>
Generate a large random number to use as the serial number.
This overrides any option or configuration to use a serial number file.
=item B<-multivalue-rdn>
This option has been deprecated and has no effect.
{- $OpenSSL::safe::opt_r_item -}
{- $OpenSSL::safe::opt_engine_item -}
{- $OpenSSL::safe::opt_provider_item -}
=back
=head1 CRL OPTIONS
=over 4
=item B<-gencrl>
This option generates a CRL based on information in the index file.
=item B<-crl_lastupdate> I<time>
Allows the value of the CRL's lastUpdate field to be explicitly set; if
this option is not present, the current time is used. Accepts times in
YYMMDDHHMMSSZ format (the same as an ASN1 UTCTime structure) or
YYYYMMDDHHMMSSZ format (the same as an ASN1 GeneralizedTime structure).
=item B<-crl_nextupdate> I<time>
Allows the value of the CRL's nextUpdate field to be explicitly set; if
this option is present, any values given for B<-crldays>, B<-crlhours>
and B<-crlsec> are ignored. Accepts times in the same formats as
B<-crl_lastupdate>.
=item B<-crldays> I<num>
The number of days before the next CRL is due. That is the days from
now to place in the CRL nextUpdate field.
=item B<-crlhours> I<num>
The number of hours before the next CRL is due.
=item B<-crlsec> I<num>
The number of seconds before the next CRL is due.
=item B<-revoke> I<filename>
A filename containing a certificate to revoke.
=item B<-valid> I<filename>
A filename containing a certificate to add a Valid certificate entry.
=item B<-status> I<serial>
Displays the revocation status of the certificate with the specified
serial number and exits.
=item B<-updatedb>
Updates the database index to purge expired certificates.
=item B<-crl_reason> I<reason>
Revocation reason, where I<reason> is one of: B<unspecified>, B<keyCompromise>,
B<CACompromise>, B<affiliationChanged>, B<superseded>, B<cessationOfOperation>,
B<certificateHold> or B<removeFromCRL>. The matching of I<reason> is case
insensitive. Setting any revocation reason will make the CRL v2.
In practice B<removeFromCRL> is not particularly useful because it is only used
in delta CRLs which are not currently implemented.
=item B<-crl_hold> I<instruction>
This sets the CRL revocation reason code to B<certificateHold> and the hold
instruction to I<instruction> which must be an OID. Although any OID can be
used only B<holdInstructionNone> (the use of which is discouraged by RFC2459)
B<holdInstructionCallIssuer> or B<holdInstructionReject> will normally be used.
=item B<-crl_compromise> I<time>
This sets the revocation reason to B<keyCompromise> and the compromise time to
I<time>. I<time> should be in GeneralizedTime format that is I<YYYYMMDDHHMMSSZ>.
=item B<-crl_CA_compromise> I<time>
This is the same as B<crl_compromise> except the revocation reason is set to
B<CACompromise>.
=item B<-crlexts> I<section>
The section of the configuration file containing CRL extensions to
include. If no CRL extension section is present then a V1 CRL is
created, if the CRL extension section is present (even if it is
empty) then a V2 CRL is created. The CRL extensions specified are
CRL extensions and B<not> CRL entry extensions. It should be noted
that some software (for example Netscape) can't handle V2 CRLs. See
L<x509v3_config(5)> manual page for details of the
extension section format.
=back
=head1 CONFIGURATION FILE OPTIONS
The section of the configuration file containing options for this command
is found as follows: If the B<-name> command line option is used,
then it names the section to be used. Otherwise the section to
be used must be named in the B<default_ca> option of the B<ca> section
of the configuration file (or in the default section of the
configuration file). Besides B<default_ca>, the following options are
read directly from the B<ca> section:
RANDFILE
preserve
msie_hack
With the exception of B<RANDFILE>, this is probably a bug and may
change in future releases.
Many of the configuration file options are identical to command line
options. Where the option is present in the configuration file
and the command line the command line value is used. Where an
option is described as mandatory then it must be present in
the configuration file or the command line equivalent (if
any) used.
=over 4
=item B<oid_file>
This specifies a file containing additional B<OBJECT IDENTIFIERS>.
Each line of the file should consist of the numerical form of the
object identifier followed by whitespace then the short name followed
by whitespace and finally the long name.
=item B<oid_section>
This specifies a section in the configuration file containing extra
object identifiers. Each line should consist of the short name of the
object identifier followed by B<=> and the numerical form. The short
and long names are the same when this option is used.
=item B<new_certs_dir>
The same as the B<-outdir> command line option. It specifies
the directory where new certificates will be placed. Mandatory.
=item B<certificate>
The same as B<-cert>. It gives the file containing the CA
certificate. Mandatory.
=item B<private_key>
Same as the B<-keyfile> option. The file containing the
CA private key. Mandatory.
=item B<RANDFILE>
At startup the specified file is loaded into the random number generator,
and at exit 256 bytes will be written to it. (Note: Using a RANDFILE is
not necessary anymore, see the L</HISTORY> section.
=item B<default_days>
The same as the B<-days> option. The number of days to certify
a certificate for.
=item B<default_startdate>
The same as the B<-startdate> option. The start date to certify
a certificate for. If not set the current time is used.
=item B<default_enddate>
The same as the B<-enddate> option. Either this option or
B<default_days> (or the command line equivalents) must be
present.
=item B<default_crl_hours default_crl_days>
The same as the B<-crlhours> and the B<-crldays> options. These
will only be used if neither command line option is present. At
least one of these must be present to generate a CRL.
=item B<default_md>
The same as the B<-md> option. Mandatory except where the signing algorithm does
not require a digest (i.e. Ed25519 and Ed448).
=item B<database>
The text database file to use. Mandatory. This file must be present
though initially it will be empty.
=item B<unique_subject>
If the value B<yes> is given, the valid certificate entries in the
database must have unique subjects. if the value B<no> is given,
several valid certificate entries may have the exact same subject.
The default value is B<yes>, to be compatible with older (pre 0.9.8)
versions of OpenSSL. However, to make CA certificate roll-over easier,
it's recommended to use the value B<no>, especially if combined with
the B<-selfsign> command line option.
Note that it is valid in some circumstances for certificates to be created
without any subject. In the case where there are multiple certificates without
subjects this does not count as a duplicate.
=item B<serial>
A text file containing the next serial number to use in hex. Mandatory.
This file must be present and contain a valid serial number.
=item B<crlnumber>
A text file containing the next CRL number to use in hex. The crl number
will be inserted in the CRLs only if this file exists. If this file is
present, it must contain a valid CRL number.
=item B<x509_extensions>
A fallback to the B<-extensions> option.
=item B<crl_extensions>
A fallback to the B<-crlexts> option.
=item B<preserve>
The same as B<-preserveDN>
=item B<email_in_dn>
The same as B<-noemailDN>. If you want the EMAIL field to be removed
from the DN of the certificate simply set this to 'no'. If not present
the default is to allow for the EMAIL filed in the certificate's DN.
=item B<msie_hack>
The same as B<-msie_hack>
=item B<policy>
The same as B<-policy>. Mandatory. See the B<POLICY FORMAT> section
for more information.
=item B<name_opt>, B<cert_opt>
These options allow the format used to display the certificate details
when asking the user to confirm signing. All the options supported by
the B<x509> utilities B<-nameopt> and B<-certopt> switches can be used
here, except the B<no_signame> and B<no_sigdump> are permanently set
and cannot be disabled (this is because the certificate signature cannot
be displayed because the certificate has not been signed at this point).
For convenience the values B<ca_default> are accepted by both to produce
a reasonable output.
If neither option is present the format used in earlier versions of
OpenSSL is used. Use of the old format is B<strongly> discouraged because
it only displays fields mentioned in the B<policy> section, mishandles
multicharacter string types and does not display extensions.
=item B<copy_extensions>
Determines how extensions in certificate requests should be handled.
If set to B<none> or this option is not present then extensions are
ignored and not copied to the certificate. If set to B<copy> then any
extensions present in the request that are not already present are copied
to the certificate. If set to B<copyall> then all extensions in the
request are copied to the certificate: if the extension is already present
in the certificate it is deleted first. See the B<WARNINGS> section before
using this option.
The main use of this option is to allow a certificate request to supply
values for certain extensions such as subjectAltName.
=back
=head1 POLICY FORMAT
The policy section consists of a set of variables corresponding to
certificate DN fields. If the value is "match" then the field value
must match the same field in the CA certificate. If the value is
"supplied" then it must be present. If the value is "optional" then
it may be present. Any fields not mentioned in the policy section
are silently deleted, unless the B<-preserveDN> option is set but
this can be regarded more of a quirk than intended behaviour.
=head1 SPKAC FORMAT
The input to the B<-spkac> command line option is a Netscape
signed public key and challenge. This will usually come from
the B<KEYGEN> tag in an HTML form to create a new private key.
It is however possible to create SPKACs using L<openssl-spkac(1)>.
The file should contain the variable SPKAC set to the value of
the SPKAC and also the required DN components as name value pairs.
If you need to include the same component twice then it can be
preceded by a number and a '.'.
When processing SPKAC format, the output is DER if the B<-out>
flag is used, but PEM format if sending to stdout or the B<-outdir>
flag is used.
=head1 EXAMPLES
Note: these examples assume that the directory structure this command
assumes is already set up and the relevant files already exist. This
usually involves creating a CA certificate and private key with
L<openssl-req(1)>, a serial number file and an empty index file and
placing them in the relevant directories.
To use the sample configuration file below the directories F<demoCA>,
F<demoCA/private> and F<demoCA/newcerts> would be created. The CA
certificate would be copied to F<demoCA/cacert.pem> and its private
key to F<demoCA/private/cakey.pem>. A file F<demoCA/serial> would be
created containing for example "01" and the empty index file
F<demoCA/index.txt>.
Sign a certificate request:
openssl ca -in req.pem -out newcert.pem
Sign an SM2 certificate request:
openssl ca -in sm2.csr -out sm2.crt -md sm3 \
-sigopt "distid:1234567812345678" \
-vfyopt "distid:1234567812345678"
Sign a certificate request, using CA extensions:
openssl ca -in req.pem -extensions v3_ca -out newcert.pem
Generate a CRL
openssl ca -gencrl -out crl.pem
Sign several requests:
openssl ca -infiles req1.pem req2.pem req3.pem
Certify a Netscape SPKAC:
openssl ca -spkac spkac.txt
A sample SPKAC file (the SPKAC line has been truncated for clarity):
SPKAC=MIG0MGAwXDANBgkqhkiG9w0BAQEFAANLADBIAkEAn7PDhCeV/xIxUg8V70YRxK2A5
CN=Steve Test
emailAddress=steve@openssl.org
0.OU=OpenSSL Group
1.OU=Another Group
A sample configuration file with the relevant sections for this command:
[ ca ]
default_ca = CA_default # The default ca section
[ CA_default ]
dir = ./demoCA # top dir
database = $dir/index.txt # index file.
new_certs_dir = $dir/newcerts # new certs dir
certificate = $dir/cacert.pem # The CA cert
serial = $dir/serial # serial no file
#rand_serial = yes # for random serial#'s
private_key = $dir/private/cakey.pem# CA private key
default_days = 365 # how long to certify for
default_crl_days= 30 # how long before next CRL
default_md = md5 # md to use
policy = policy_any # default policy
email_in_dn = no # Don't add the email into cert DN
name_opt = ca_default # Subject name display option
cert_opt = ca_default # Certificate display option
copy_extensions = none # Don't copy extensions from request
[ policy_any ]
countryName = supplied
stateOrProvinceName = optional
organizationName = optional
organizationalUnitName = optional
commonName = supplied
emailAddress = optional
=head1 FILES
Note: the location of all files can change either by compile time options,
configuration file entries, environment variables or command line options.
The values below reflect the default values.
/usr/local/ssl/lib/openssl.cnf - master configuration file
./demoCA - main CA directory
./demoCA/cacert.pem - CA certificate
./demoCA/private/cakey.pem - CA private key
./demoCA/serial - CA serial number file
./demoCA/serial.old - CA serial number backup file
./demoCA/index.txt - CA text database file
./demoCA/index.txt.old - CA text database backup file
./demoCA/certs - certificate output file
=head1 RESTRICTIONS
The text database index file is a critical part of the process and
if corrupted it can be difficult to fix. It is theoretically possible
to rebuild the index file from all the issued certificates and a current
CRL: however there is no option to do this.
V2 CRL features like delta CRLs are not currently supported.
Although several requests can be input and handled at once it is only
possible to include one SPKAC or self-signed certificate.
=head1 BUGS
This command is quirky and at times downright unfriendly.
The use of an in-memory text database can cause problems when large
numbers of certificates are present because, as the name implies
the database has to be kept in memory.
This command really needs rewriting or the required functionality
exposed at either a command or interface level so that a more user-friendly
replacement could handle things properly. The script
B<CA.pl> helps a little but not very much.
Any fields in a request that are not present in a policy are silently
deleted. This does not happen if the B<-preserveDN> option is used. To
enforce the absence of the EMAIL field within the DN, as suggested by
RFCs, regardless the contents of the request' subject the B<-noemailDN>
option can be used. The behaviour should be more friendly and
configurable.
Canceling some commands by refusing to certify a certificate can
create an empty file.
=head1 WARNINGS
This command was originally meant as an example of how to do things in a CA.
Its code does not have production quality.
It was not supposed to be used as a full blown CA itself,
nevertheless some people are using it for this purpose at least internally.
When doing so, specific care should be taken to
properly secure the private key(s) used for signing certificates.
It is advisable to keep them in a secure HW storage such as a smart card or HSM
and access them via a suitable engine or crypto provider.
This command command is effectively a single user command: no locking
is done on the various files and attempts to run more than one B<openssl ca>
command on the same database can have unpredictable results.
The B<copy_extensions> option should be used with caution. If care is
not taken then it can be a security risk. For example if a certificate
request contains a basicConstraints extension with CA:TRUE and the
B<copy_extensions> value is set to B<copyall> and the user does not spot
this when the certificate is displayed then this will hand the requester
a valid CA certificate.
This situation can be avoided by setting B<copy_extensions> to B<copy>
and including basicConstraints with CA:FALSE in the configuration file.
Then if the request contains a basicConstraints extension it will be
ignored.
It is advisable to also include values for other extensions such
as B<keyUsage> to prevent a request supplying its own values.
Additional restrictions can be placed on the CA certificate itself.
For example if the CA certificate has:
basicConstraints = CA:TRUE, pathlen:0
then even if a certificate is issued with CA:TRUE it will not be valid.
=head1 HISTORY
Since OpenSSL 1.1.1, the program follows RFC5280. Specifically,
certificate validity period (specified by any of B<-startdate>,
B<-enddate> and B<-days>) and CRL last/next update time (specified by
any of B<-crl_lastupdate>, B<-crl_nextupdate>, B<-crldays>, B<-crlhours>
and B<-crlsec>) will be encoded as UTCTime if the dates are
earlier than year 2049 (included), and as GeneralizedTime if the dates
are in year 2050 or later.
OpenSSL 1.1.1 introduced a new random generator (CSPRNG) with an improved
seeding mechanism. The new seeding mechanism makes it unnecessary to
define a RANDFILE for saving and restoring randomness. This option is
retained mainly for compatibility reasons.
The B<-section> option was added in OpenSSL 3.0.0.
The B<-multivalue-rdn> option has become obsolete in OpenSSL 3.0.0 and
has no effect.
The B<-engine> option was deprecated in OpenSSL 3.0.
=head1 SEE ALSO
L<openssl(1)>,
L<openssl-req(1)>,
L<openssl-spkac(1)>,
L<openssl-x509(1)>,
L<CA.pl(1)>,
L<config(5)>,
L<x509v3_config(5)>
=head1 COPYRIGHT
Copyright 2000-2021 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