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234 lines
9.9 KiB
Plaintext
234 lines
9.9 KiB
Plaintext
# $OpenLDAP$
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# Copyright 1999-2007 The OpenLDAP Foundation, All Rights Reserved.
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# COPYING RESTRICTIONS APPLY, see COPYRIGHT.
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H1: Using TLS
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OpenLDAP clients and servers are capable of using the
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{{TERM[expand]TLS}} ({{TERM:TLS}}) framework to provide
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integrity and confidentiality protections and to support
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LDAP authentication using the {{TERM:SASL}} {{TERM:EXTERNAL}} mechanism.
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TLS is defined in {{REF:RFC4346}}.
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Note: For generating certifcates, please reference {{URL:http://www.openldap.org/faq/data/cache/185.html}}
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H2: TLS Certificates
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TLS uses {{TERM:X.509}} certificates to carry client and server
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identities. All servers are required to have valid certificates,
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whereas client certificates are optional. Clients must have a
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valid certificate in order to authenticate via SASL EXTERNAL.
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For more information on creating and managing certificates,
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see the {{PRD:OpenSSL}} documentation.
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H3: Server Certificates
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The {{TERM:DN}} of a server certificate must use the {{EX:CN}}
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attribute to name the server, and the {{EX:CN}} must carry the
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server's fully qualified domain name. Additional alias names and
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wildcards may be present in the {{EX:subjectAltName}} certificate
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extension. More details on server certificate names are in
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{{REF:RFC4513}}.
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H3: Client Certificates
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The DN of a client certificate can be used directly as an
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authentication DN.
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Since X.509 is a part of the {{TERM:X.500}} standard and LDAP
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is also based on X.500, both use the same DN formats and
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generally the DN in a user's X.509 certificate should be
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identical to the DN of their LDAP entry. However, sometimes
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the DNs may not be exactly the same, and so the mapping
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facility described in
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{{SECT:Mapping Authentication Identities}}
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can be applied to these DNs as well.
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H2: TLS Configuration
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After obtaining the required certificates, a number of options must
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be configured on both the client and the server to enable TLS and
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make use of the certificates. At a minimum, the clients must be
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configured with the name of the file containing all of the
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{{TERM[expand]CA}} (CA) certificates it will trust. The server must
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be configured with the {{TERM:CA}} certificates and also its own
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server certificate and private key.
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Typically a single CA will have issued the server certificate
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and all of the trusted client certificates, so the server only
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needs to trust that one signing CA. However, a client may wish
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to connect to a variety of secure servers managed by different
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organizations, with server certificates generated by many
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different CAs. As such, a client is likely to need a list of
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many different trusted CAs in its configuration.
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H3: Server Configuration
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The configuration directives for slapd belong in the global directives
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section of {{slapd.conf}}(5).
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H4: TLSCACertificateFile <filename>
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This directive specifies the {{TERM:PEM}}-format file containing
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certificates for the CA's that slapd will trust. The certificate for
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the CA that signed the server certificate must be included among
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these certificates. If the signing CA was not a top-level (root) CA,
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certificates for the entire sequence of CA's from the signing CA to
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the top-level CA should be present. Multiple certificates are simply
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appended to the file; the order is not significant.
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H4: TLSCACertificatePath <path>
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This directive specifies the path of a directory that contains
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individual {{TERM:CA}} certificates in separate files. In addition,
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this directory must be specially managed using the OpenSSL {{c_rehash}}
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utility. When using this feature, the OpenSSL library will attempt to
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locate certificate files based on a hash of their name and serial number.
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The {{c_rehash}} utility is used to generate symbolic links with the
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hashed names that point to the actual certificate files. As such,
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this option can only be used with a filesystem that actually supports
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symbolic links. In general, it is simpler to use the
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{{EX:TLSCACertificateFile}} directive instead.
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H4: TLSCertificateFile <filename>
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This directive specifies the file that contains the slapd server
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certificate. Certificates are generally public information and
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require no special protection.
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H4: TLSCertificateKeyFile <filename>
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This directive specifies the file that contains the private key
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that matches the certificate stored in the {{EX:TLSCertificateFile}}
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file. Private keys themselves are sensitive data and are usually
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password encrypted for protection. However, the current implementation
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doesn't support encrypted keys so the key must not be encrypted
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and the file itself must be protected carefully.
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H4: TLSCipherSuite <cipher-suite-spec>
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This directive configures what ciphers will be accepted and the
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preference order. {{EX:<cipher-suite-spec>}} should be a cipher
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specification for OpenSSL. You can use the command
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> openssl ciphers -v ALL
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to obtain a verbose list of available cipher specifications.
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Besides the individual cipher names, the specifiers {{EX:HIGH}},
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{{EX:MEDIUM}}, {{EX:LOW}}, {{EX:EXPORT}}, and {{EX:EXPORT40}}
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may be helpful, along with {{EX:TLSv1}}, {{EX:SSLv3}},
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and {{EX:SSLv2}}.
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H4: TLSRandFile <filename>
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This directive specifies the file to obtain random bits from when
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{{FILE:/dev/urandom}} is not available. If the system provides
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{{FILE:/dev/urandom}} then this option is not needed, otherwise a
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source of random data must be configured. Some systems (e.g. Linux)
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provide {{FILE:/dev/urandom}} by default, while others (e.g. Solaris)
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require the installation of a patch to provide it, and others may
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not support it at all. In the latter case, EGD or PRNGD should be
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installed, and this directive should specify the name of the EGD/PRNGD
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socket. The environment variable {{EX:RANDFILE}} can also be used
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to specify the filename. Also, in the absence of these options, the
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{{EX:.rnd}} file in the slapd user's home directory may be used if
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it exists. To use the {{EX:.rnd}} file, just create the file and
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copy a few hundred bytes of arbitrary data into the file. The file
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is only used to provide a seed for the pseudo-random number generator,
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and it doesn't need very much data to work.
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H4: TLSEphemeralDHParamFile <filename>
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This directive specifies the file that contains parameters for
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Diffie-Hellman ephemeral key exchange. This is required in order
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to use a DSA certificate on the server side (i.e.
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{{EX:TLSCertificateKeyFile}} points to a DSA key). Multiple sets
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of parameters can be included in the file; all of them will be
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processed. Parameters can be generated using the following command
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> openssl dhparam [-dsaparam] -out <filename> <numbits>
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H4: TLSVerifyClient { never | allow | try | demand }
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This directive specifies what checks to perform on client certificates
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in an incoming TLS session, if any. This option is set to {{EX:never}}
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by default, in which case the server never asks the client for a
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certificate. With a setting of {{EX:allow}} the server will ask
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for a client certificate; if none is provided the session proceeds
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normally. If a certificate is provided but the server is unable to
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verify it, the certificate is ignored and the session proceeds
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normally, as if no certificate had been provided. With a setting of
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{{EX:try}} the certificate is requested, and if none is provided,
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the session proceeds normally. If a certificate is provided and it
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cannot be verified, the session is immediately terminated. With a
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setting of {{EX:demand}} the certificate is requested and a valid
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certificate must be provided, otherwise the session is immediately
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terminated.
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Note: The server must request a client certificate in order to
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use the SASL EXTERNAL authentication mechanism with a TLS session.
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As such, a non-default {{EX:TLSVerifyClient}} setting must be configured
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before SASL EXTERNAL authentication may be attempted, and the
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SASL EXTERNAL mechanism will only be offered to the client if a valid
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client certificate was received.
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H3: Client Configuration
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Most of the client configuration directives parallel the server
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directives. The names of the directives are different, and they go
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into {{ldap.conf}}(5) instead of {{slapd.conf}}(5), but their
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functionality is mostly the same. Also, while most of these options may
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be configured on a system-wide basis, they may all be overridden by
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individual users in their {{.ldaprc}} files.
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The LDAP Start TLS operation is used in LDAP to initiate TLS
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negotiation. All OpenLDAP command line tools support a {{EX:-Z}}
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and {{EX:-ZZ}} flag to indicate whether a Start TLS operation is to
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be issued. The latter flag indicates that the tool is to cease
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processing if TLS cannot be started while the former allows the
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command to continue.
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In LDAPv2 environments, TLS is normally started using the LDAP
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Secure URI scheme ({{EX:ldaps://}}) instead of the normal LDAP URI
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scheme ({{EX:ldap://}}). OpenLDAP command line tools allow either
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scheme to used with the {{EX:-H}} flag and with the {{EX:URI}}
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{{ldap.conf}}(5) option.
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H4: TLS_CACERT <filename>
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This is equivalent to the server's {{EX:TLSCACertificateFile}} option. As
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noted in the {{SECT:TLS Configuration}} section, a client typically
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may need to know about more CAs than a server, but otherwise the
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same considerations apply.
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H4: TLS_CACERTDIR <path>
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This is equivalent to the server's {{EX:TLSCACertificatePath}} option. The
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specified directory must be managed with the OpenSSL {{c_rehash}}
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utility as well.
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H4: TLS_CERT <filename>
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This directive specifies the file that contains the client certificate.
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This is a user-only directive and can only be specified in a user's
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{{.ldaprc}} file.
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H4: TLS_KEY <filename>
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This directive specifies the file that contains the private key
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that matches the certificate stored in the {{EX:TLS_CERT}}
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file. The same constraints mentioned for {{EX:TLSCertificateKeyFile}}
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apply here. This is also a user-only directive.
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H4: TLS_RANDFILE <filename>
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This directive is the same as the server's {{EX:TLSRandFile}}
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option.
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H4: TLS_REQCERT { never | allow | try | demand }
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This directive is equivalent to the server's {{EX:TLSVerifyClient}}
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option. However, for clients the default value is {{EX:demand}}
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and there generally is no good reason to change this setting.
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