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H1: Using TLS

OpenLDAP clients and servers are capable of using the
{{TERM[expand]TLS}} ({{TERM:TLS}}) framework to provide
integrity and confidentiality protections and to support
LDAP authentication using the {{TERM:SASL}} EXTERNAL mechanism. 

H2: TLS Certificates

TLS uses {{TERM:X.509}} certificates to carry client and server
identities. All servers are required to have valid certificates,
whereas client certificates are optional. Clients must have a
valid certificate in order to authenticate via SASL EXTERNAL.
For more information on creating and managing certificates,
see the {{PRD:OpenSSL}} documentation.

H3: Server Certificates

The DN of a server certificate must use the CN attribute
to name the server, and the {{EX:CN}} must carry the server's
fully qualified domain name. Additional alias names and wildcards
may be present in the {{EX:subjectAltName}} certificate extension.
More details on server certificate names are in {{REF:RFC2830}}.

H3: Client Certificates

The DN of a client certificate can be used directly as an
authentication DN.
Since X.509 is a part of the {{TERM:X.500}} standard and LDAP
is also based on X.500, both use the same DN formats and
generally the DN in a user's X.509 certificate should be
identical to the DN of their LDAP entry. However, sometimes
the DNs may not be exactly the same, and so the mapping
facility described in 
{{SECT:Mapping Authentication identities to LDAP entries}}
can be applied to these DNs as well.

H2: TLS Configuration

After obtaining the required certificates, a
number of options must be configured on both the client
and the server to enable TLS and make use of the certificates.
At a minimum, the clients must be configured with the filename
containing all of the {{TERM[expand]CA}} (CA) certificates it
will trust. The server must be configured with the {{TERM:CA}}
certificates and also its own server certificate and private key.

Typically a single CA will have issued the server certificate
and all of the trusted client certificates, so the server only
needs to trust that one signing CA. However, a client may wish
to connect to a variety of secure servers managed by different
organizations, with server certificates generated by many
different CAs. As such, a client is likely to need a list of
many different trusted CAs in its configuration.

H3: Server Configuration

The configuration directives for slapd belong in the global directives
section of {{slapd.conf}}(5). 

H4: TLSCACertificateFile <filename>

This directive specifies the {{TERM:PEM}}-format file containing
certificates for the CA's that slapd will trust. The certificate for
the CA that signed the server certificate must be included among
these certificates. If the signing CA was not a top-level (root) CA,
certificates for the entire sequence of CA's from the signing CA to
the top-level CA should be present. Multiple certificates are simply
appended to the file; the order is not significant.

H4: TLSCACertificatePath <path>

This directive specifies the path of a directory that contains
individual {{TERM:CA}} certificates in separate files.  In addition,
this directory must be specially managed using the OpenSSL {{c_rehash}}
utility. When using this feature, the OpenSSL library will attempt to
locate certificate files based on a hash of their name and serial number.
The {{c_rehash}} utility is used to generate symbolic links with the
hashed names that point to the actual certificate files. As such,
this option can only be used with a filesystem that actually supports
symbolic links. In general, it is simpler to use the
{{EX:TLSCACertificateFile}} directive instead.

H4: TLSCertificateFile <filename>

This directive specifies the file that contains the slapd server
certificate. Certificates are generally public information and
require no special protection.

H4: TLSCertificateKeyFile <filename>

This directive specifies the file that contains the private key
that matches the certificate stored in the {{EX:TLSCertificateFile}}
file. Private keys themselves are sensitive data and are usually
password encrypted for protection. However, the current implementation
doesn't support encrypted keys so the key must not be encrypted
and the file itself must be protected carefully.

H4: TLSCipherSuite <cipher-suite-spec>

This directive configures what ciphers will be accepted and the
preference order. {{EX:<cipher-suite-spec>}} should be a cipher
specification for OpenSSL. You can use the command

>	openssl ciphers -v ALL

to obtain a verbose list of available cipher specifications.
Besides the individual cipher names, the specifiers {{EX:HIGH}},
{{EX:MEDIUM}}, {{EX:LOW}}, {{EX:EXPORT}}, and {{EX:EXPORT40}}
may be helpful, along with {{EX:TLSv1}}, {{EX:SSLv3}},
and {{EX:SSLv2}}.

H4: TLSRandFile <filename>

This directive specifies the file to obtain random bits from when
{{EX:/dev/urandom}} is not available. If the
system provides {{EX:/dev/urandom}} then this option is not needed,
otherwise a source of random data must be configured.
Some systems (e.g. Linux)
provide {{EX:/dev/urandom}} by default, while others (e.g. Solaris)
require the installation of a patch to provide it, and others may
not support it at all. In the latter case, EGD or PRNGD should be
installed, and this directive should specify the name of the EGD/PRNGD
socket. The environment variable {{EX:RANDFILE}} can also be used to specify
the filename. Also, in the absence of these options, the {{EX:.rnd}}
file in the slapd user's home directory may be used if it exists. To
use the {{EX:.rnd}} file, just create the file and copy a few hundred
bytes of arbitrary data into the file. The file is only used to
provide a seed for the pseudo-random number generator, and it doesn't
need very much data to work.

H4: TLSEphemeralDHParamFile <filename>

This directive specifies the file that contains parameters for Diffie-Hellman
ephemeral key exchange.  This is required in order to use a DSA certificate on
the server side (i.e. {{EX:TLSCertificateKeyFile}} points to a DSA key).
Multiple sets of parameters can be included in the file; all of them will
be processed.  Parameters can be generated using the following command

>	openssl dhparam [-dsaparam] -out <filename> <numbits>

H4: TLSVerifyClient { never | allow | try | demand }

This directive specifies what checks to perform on client certificates
in an incoming TLS session, if any. This option is set to {{EX:never}}
by default, in which case the server never asks the client for a
certificate. With a setting of {{EX:allow}} the server will ask
for a client certificate; if none is provided the session proceeds
normally. If a certificate is provided but the server is unable to
verify it, the certificate is ignored and the session proceeds
normally, as if no certificate had been provided. With a setting of
{{EX:try}} the certificate is requested, and if none is provided,
the session proceeds normally. If a certificate is provided and it
cannot be verified, the session is immediately terminated. With a
setting of {{EX:demand}} the certificate is requested and a valid
certificate must be provided, otherwise the session is immediately
terminated.

Note: The server must request a client certificate in order to
use the SASL EXTERNAL authentication mechanism with a TLS session.
As such, a non-default {{EX:TLSVerifyClient}} setting must be configured
before SASL EXTERNAL authentication may be attempted, and the
SASL EXTERNAL mechanism will only be offered to the client if a valid
client certificate was received.

H3: Client Configuration

Most of the client configuration directives parallel the server
directives. The names of the directives are different, and they go
into {{ldap.conf}}(5) instead of {{slapd.conf}}(5), but their
functionality is mostly the same. Also, while most of these options may
be configured on a system-wide basis, they may all be overridden by
individual users in their {{.ldaprc}} files.

The LDAP Start TLS operation is used in LDAP to initiate TLS
negotatation.  All OpenLDAP command line tools support a {{E:-Z}}
and {{E:-ZZ}} flag to indicate whether a Start TLS operation is to
be issued.  The latter flag indicates that the tool is to cease
processing if TLS cannot be started while the former allows the
command to continue.

In LDAPv2 environments, TLS is normally started using the LDAP
Secure URI scheme ({{EX:ldaps://}}) instead of the normal LDAP URI
scheme ({{EX:ldap://}}).  OpenLDAP command line tools allow either
scheme to used with the {{EX:-U}} flag and with the {{EX:URI}}
{{ldap.conf}}(5) option.


H4: TLS_CACERT <filename>

This is equivalent to the server's {{EX:TLSCACertificateFile}} option. As
noted in the {{SECT:TLS Configuration}} section, a client typically
may need to know about more CAs than a server, but otherwise the
same considerations apply.

H4: TLS_CACERTDIR <path>

This is equivalent to the server's {{EX:TLSCACertificatePath}} option. The
specified directory must be managed with the OpenSSL {{c_rehash}}
utility as well.

H4: TLS_CERT <filename>

This directive specifies the file that contains the client certificate.
This is a user-only directive and can only be specified in a user's
{{.ldaprc}} file.

H4: TLS_KEY <filename>

This directive specifies the file that contains the private key
that matches the certificate stored in the {{EX:TLS_CERT}}
file. The same constraints mentioned for {{EX:TLSCertificateKeyFile}}
apply here. This is also a user-only directive.

H4: TLS_RANDFILE <filename>

This directive is the same as the server's {{EX:TLSRandFile}}
option.

H4: TLS_REQCERT { never | allow | try | demand }

This directive is equivalent to the server's {{EX:TLSVerifyClient}}
option. However, for clients the default value is {{EX:demand}}
and there generally is no good reason to change this setting.


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